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Add support for ULAF+ (#15997)
2024-04-30 12:38:01 +00:00
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
-- The lineintegrator MIB
-- ______________
--
-- 1. Introduction
-- This document defines the enterprise specific MIB for the LineIntegrater,
-- which provides the management of the ULAF+ transmission family.
-- The MIB is divided into three basic MIBs
-- proxyAgent MIB
-- device MIB
-- links MIB
--
-- 2. The proxyAgent MIB
-- _____________________
--
-- The proxyAgent MIB consists of a table with information about the
-- supervised serial ports and the connected devices. Either a rack or a
-- Desktop device can be connected. This part of the mib is identical for
-- Ulaf-2 and Ulaf+ devices
--
--
-- 3. The device MIB
-- _________________
--
-- The device MIB is a table, where each entry refers to a line card slot.
-- It contains the name of the inserted cards and a alarm attribute, which
-- is used to send SNMP traps to the manager, if a link goes down.
--
-- 5. The links MIB
-- _____________________
--
-- The links MIB consists of several tables, which contain detailed
-- management information about the line cards.
-- The links MIB is divided into Xxxx parts
--
--------------------------------------------------------------------------------
ULAFPLUS-MIB DEFINITIONS ::= BEGIN
IMPORTS
enterprises, NetworkAddress, IpAddress, Counter, Gauge,
TimeTicks
FROM RFC1155-SMI
DisplayString
FROM RFC1213-MIB
OBJECT-TYPE
FROM RFC-1212;
siemensCH OBJECT IDENTIFIER ::= { enterprises 1887 }
lineintegrator OBJECT IDENTIFIER ::= { siemensCH 1 }
ulaf2 OBJECT IDENTIFIER ::= { lineintegrator 1 }
links OBJECT IDENTIFIER ::= { ulaf2 4 }
linksVers3 OBJECT IDENTIFIER ::= { links 3 }
--==============================================================================
--==============================================================================
--
-- CM-RO
--
--==============================================================================
--==============================================================================
cmro OBJECT IDENTIFIER ::= { linksVers3 1 }
--------------------------------------------------------------------------------
-- CM-RO HTU-local
--------------------------------------------------------------------------------
cmroHtuLocalTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroHtuLocalEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmro 1 }
cmroHtuLocalEntry OBJECT-TYPE
SYNTAX CmroHtuLocalEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroHtuLocalPortIndex, cmroHtuLocalLinkIndex }
::= { cmroHtuLocalTable 1 }
CmroHtuLocalEntry ::=
SEQUENCE
{
cmroHtuLocalPortIndex INTEGER,
cmroHtuLocalLinkIndex INTEGER,
cmroHtuLocalHwFabData DisplayString,
cmroHtuLocalActFwType DisplayString,
cmroHtuLocalActFwVers DisplayString,
cmroHtuLocalPasBankState INTEGER,
cmroHtuLocalPasFwType DisplayString,
cmroHtuLocalPasFwVers DisplayString,
cmroHtuLocalSeepromVers DisplayString,
cmroHtuLocalDFabData DisplayString,
cmroHtuLocalDType INTEGER,
cmroHtuLocalTFabData DisplayString,
cmroHtuLocalTType INTEGER,
cmroHtuLocalRpsFabData DisplayString,
cmroHtuLocalRpsType INTEGER,
cmroHtuLocalClkFabData DisplayString,
cmroHtuLocalClkType INTEGER,
cmroHtuLocalDbgFabData DisplayString,
cmroHtuLocalDbgType INTEGER,
cmroHtuLocalHousing INTEGER,
cmroHtuLocalRackVersion INTEGER,
cmroHtuLocalLtNtType INTEGER,
cmroHtuLocalHdslChipset INTEGER,
cmroHtuLocalDipCfg INTEGER,
cmroHtuLocalEocCfg INTEGER,
cmroHtuLocalRpsVoltage INTEGER,
cmroHtuLocalPowerConfiguration INTEGER,
cmroHtuLocalIsdnFabData DisplayString,
cmroHtuLocalIsdnType INTEGER,
cmroHtuLocalTipRingReversal1 INTEGER,
cmroHtuLocalTipRingReversal2 INTEGER,
cmroHtuLocalTipRingReversal3 INTEGER,
cmroHtuLocalTipRingReversal4 INTEGER,
cmroHtuLocalPacketFabData DisplayString,
cmroHtuLocalPacketType INTEGER,
cmroHtuLocalPacketMacAddr1 OCTET STRING,
cmroHtuLocalMcsCh1aIsRemCh INTEGER,
cmroHtuLocalMcsCh2bIsRemCh INTEGER,
cmroHtuLocalMcsCh3cIsRemCh INTEGER,
cmroHtuLocalMcsCh4dIsRemCh INTEGER,
cmroHtuLocalMcsFarCh1aIsRemCh INTEGER,
cmroHtuLocalMcsFarCh2bIsRemCh INTEGER,
cmroHtuLocalMcsFarCh3cIsRemCh INTEGER,
cmroHtuLocalMcsFarCh4dIsRemCh INTEGER,
cmroHtuLocalDslChipset DisplayString,
cmroHtuLocalDslFwLoad DisplayString,
cmroHtuLocalFpgaLoad DisplayString,
cmroHtuLocalEthWanChip DisplayString,
cmroHtuLocalSwitchChip DisplayString,
cmroHtuLocalBootloaderVers DisplayString,
cmroHtuLocalSerialNumber DisplayString,
cmroHtuLocalHwManufacturingDate DisplayString,
cmroHtuLocalRpsManufacturingDate DisplayString,
cmroHtuLocalClkManufacturingDate DisplayString,
cmroHtuLocalTManufacturingDate DisplayString,
cmroHtuLocalDManufacturingDate DisplayString,
cmroHtuLocalPacketManufacturingDate DisplayString,
cmroHtuLocalL2SDriverVersion DisplayString
}
cmroHtuLocalPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroHtuLocalEntry 1 }
cmroHtuLocalLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroHtuLocalEntry 2 }
cmroHtuLocalHwFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Device Hardware Fabrication Data"
::= { cmroHtuLocalEntry 3 }
cmroHtuLocalActFwType OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of active Firmware"
::= { cmroHtuLocalEntry 4 }
cmroHtuLocalActFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of active Firmware"
::= { cmroHtuLocalEntry 5 }
cmroHtuLocalPasBankState OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
loaded(2),
foreign(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of passive firmware bank
1 Empty contains no firmware
2 Loaded contains a valid firmware
3 Foreign contains regenerator firmware
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 6 }
cmroHtuLocalPasFwType OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of passive firmware"
::= { cmroHtuLocalEntry 7 }
cmroHtuLocalPasFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of passive firmware"
::= { cmroHtuLocalEntry 8 }
cmroHtuLocalSeepromVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of SEEPROM data format"
::= { cmroHtuLocalEntry 9 }
cmroHtuLocalDFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Data-Module"
::= { cmroHtuLocalEntry 10 }
cmroHtuLocalDType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Data-Module in corresponding module-slot of the device.
1 None No module inserted
2 DCE Data module with DCE configuration
3 DTE Data module with DTE configuration
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuLocalEntry 11 }
cmroHtuLocalTFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of 2Mbit-Module"
::= { cmroHtuLocalEntry 12 }
cmroHtuLocalTType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
twoMbps(2),
quadTwoMbps(3),
codirTwoMbps(4),
twoMbpsVarImps(5),
quadTwoMbpsVarImp(6),
fourTwoMbpsVarImp(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of 2Mbit-Module in corresponding module-slot of the device.
1 None No module present
2 TwoMbps A 2Mbit/s module is present
3 QuadTwoMbps A Quad 2Mbit/s module is present
4 CodirTwoMbps A Co-Directional G.703 module is present
5 TwoMbpsVarImp A 2Mbit/s module with variable impedance is present
6 QuadTwoMbpsVarImp A Quad 2Mbit/s module with variable impedance is present
7 FourTwoMbpsVarImp Module with four independent 2Mbit/s (variable impedance) is present
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuLocalEntry 13 }
cmroHtuLocalRpsFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Remote Power Supply (RPS) Module"
::= { cmroHtuLocalEntry 14 }
cmroHtuLocalRpsType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
rps(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Remote Power Supply (RPS) Module in corresponding
module-slot of the device.
1 None No module inserted
2 Rps A RPS module is inserted
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuLocalEntry 15 }
cmroHtuLocalClkFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Clock and Alarm Module"
::= { cmroHtuLocalEntry 16 }
cmroHtuLocalClkType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
clockAlarm(2),
clock(3),
alarm(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Clock and Alarm Module in corresponding
module-slot of the device.
1 None No module inserted
2 ClockAlarm A combined Clock and Alarm module is inserted
3 Clock A Clock module is inserted
3 Alarm An Alarm module is inserted
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuLocalEntry 17 }
cmroHtuLocalDbgFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Debug-Module"
::= { cmroHtuLocalEntry 18 }
cmroHtuLocalDbgType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
debug(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Debug-Module in corresponding module-slot of the device.
1 None No module inserted
2 Debug A Debug module is inserted
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuLocalEntry 19 }
cmroHtuLocalHousing OBJECT-TYPE
SYNTAX INTEGER
{
rack(1),
desktop(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of housing / installation of the device.
1 Rack The device is a line card to be installed in a sub-rack
2 Desktop The device is a desktop device
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 20 }
cmroHtuLocalRackVersion OBJECT-TYPE
SYNTAX INTEGER
{
rackV1(1),
rackV2(2),
rackV3(3),
desktop(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of the sub-rack in which the device is installed.
1 RackV1 The device is installed in a rack with V1
2 RackV2 The device is installed in a rack with V2
3 RackV3 The device is installed in a rack with V3
4 Desktop The device is a desktop device (and therefore not installed in a sub-rack)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 21 }
cmroHtuLocalLtNtType OBJECT-TYPE
SYNTAX INTEGER
{
lt(1),
nt(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the device is configured as LT or NT.
1 LT The device is configured as LT
2 NT The device is configured as NT
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 22 }
cmroHtuLocalHdslChipset OBJECT-TYPE
SYNTAX INTEGER
{
level1(1),
metalink(2),
infineon(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which chipset the partner device uses for HDSL transmission
1 Level1 The partner device uses a Level 1 chipset
2 Metalink The partner device uses a MetaLink chipset
3 Infineon The partner device uses an Infineon chipset
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 23 }
cmroHtuLocalDipCfg OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the device is configured through DIP Switches.
1 Disabled The device can be configured through management software
2 Enabled The device is configured by DIP switches
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 24 }
cmroHtuLocalEocCfg OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
reg1(3),
reg2(4),
reg3(5),
reg4(6),
reg5(7),
reg6(8),
reg7(9),
reg8(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates how far the EOC has been built up.
1 Disabled The device can be configured locally
2 Enabled The device is being configured over the EOC
3 Reg1 The EOC is up until the first regenerator section
4 Reg2 The EOC is up until the second regenerator section
5 Reg3 The EOC is up until the third regenerator section
6 Reg4 The EOC is up until the fourth regenerator section
7 Reg5 The EOC is up until the fifth regenerator section
8 Reg6 The EOC is up until the sixth regenerator section
9 Reg7 The EOC is up until the seventh regenerator section
10 Reg8 The EOC is up until the eighth regenerator section
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 25 }
cmroHtuLocalRpsVoltage OBJECT-TYPE
SYNTAX INTEGER
{
v120(1),
v180(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which Remote Power Supply (RPS) Voltage is being used by the device
1 V120 The RPS uses 120 Volts
2 V180 The RPS uses 180 Volts
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 26 }
cmroHtuLocalPowerConfiguration OBJECT-TYPE
SYNTAX INTEGER
{
multifunctional(1),
redundant(2),
remoteFeeding(3),
batteryDC(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which kind of power supply is equiped
1 multifunctional No redundant supply possible
2 redundant Redundant supply possible
3 remoteFeeding Remote feeding possible
4 batteryDC DC-only supply
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 27 }
cmroHtuLocalIsdnFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of ISDN-Module"
::= { cmroHtuLocalEntry 28 }
cmroHtuLocalIsdnType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
te(2),
nt(3),
uk0(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of ISDN-Module in corresponding module-slot of the device
1 None No module inserted
2 TE A module for S0(TE mode) operation is inserted
3 NT A module for S0(NT mode) operation is inserted
4 Uk0 A module for Uk0 operation is inserted
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 29 }
cmroHtuLocalTipRingReversal1 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the first wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 30 }
cmroHtuLocalTipRingReversal2 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the second wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 31 }
cmroHtuLocalTipRingReversal3 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the third wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 32 }
cmroHtuLocalTipRingReversal4 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the fourth wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 33 }
cmroHtuLocalPacketFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of L2 Switch"
::= { cmroHtuLocalEntry 34 }
cmroHtuLocalPacketType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
fourPort10-100(2),
onePort10-100(3),
twoPort10-100(4),
threePort10-100(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of L2 Switch module.
1 None No module inserted
2 4P10/100 4-Port 10/100Base-T ethernet switch
3 1P10/100 1-Port 10/100Base-T ethernet switch
4 2P10/100 2-Port 10/100Base-T ethernet switch
5 3P10/100 3-Port 10/100Base-T ethernet switch
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuLocalEntry 35 }
cmroHtuLocalPacketMacAddr1 OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(6))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"MAC address of L2 ethernet switch.
Value of Byte 0..5 Meaning
0x00 - 0xFD MAC address
all 0xFE unknown value
all 0xFF unsupported variable"
::= { cmroHtuLocalEntry 36 }
cmroHtuLocalMcsCh1aIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the local channel a is conntected to on the far
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 37 }
cmroHtuLocalMcsCh2bIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the local channel b is conntected to on the far
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 38 }
cmroHtuLocalMcsCh3cIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the local channel c is conntected to on the far
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 39 }
cmroHtuLocalMcsCh4dIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the local channel d is conntected to on the far
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 40 }
cmroHtuLocalMcsFarCh1aIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the remote channel a is conntected to on the local
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 41 }
cmroHtuLocalMcsFarCh2bIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the remote channel b is conntected to on the local
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 42 }
cmroHtuLocalMcsFarCh3cIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the remote channel c is conntected to on the local
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 43 }
cmroHtuLocalMcsFarCh4dIsRemCh OBJECT-TYPE
SYNTAX INTEGER
{
first(1),
second(2),
third(3),
fourth(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates MCS channel crossover. This variable shows which
MCS channel the remote channel d is conntected to on the local
end MCS device.
1 U1/VA first interface (SHDSL U1 or G.704 VA)
2 U2/VB second interface (SHDSL U2 or G.704 VB)
3 U3/VC third interface (SHDSL U3 or G.704 VC)
4 U4/VD fourth interface (SHDSL U4 or G.704 VD)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuLocalEntry 44 }
cmroHtuLocalDslChipset OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of xDSL chipset"
::= { cmroHtuLocalEntry 45 }
cmroHtuLocalDslFwLoad OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of firmware load of xDSL chipset"
::= { cmroHtuLocalEntry 46 }
cmroHtuLocalFpgaLoad OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of FPGA load"
::= { cmroHtuLocalEntry 47 }
cmroHtuLocalEthWanChip OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of WAN chip which connects L2 switch and xDSL link"
::= { cmroHtuLocalEntry 48 }
cmroHtuLocalSwitchChip OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Switch Chip"
::= { cmroHtuLocalEntry 49 }
cmroHtuLocalBootloaderVers OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of firmware boot loader"
::= { cmroHtuLocalEntry 50 }
cmroHtuLocalSerialNumber OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Serial number of device"
::= { cmroHtuLocalEntry 51 }
cmroHtuLocalHwManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the motherboard"
::= { cmroHtuLocalEntry 52 }
cmroHtuLocalRpsManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the RPS Module"
::= { cmroHtuLocalEntry 53 }
cmroHtuLocalClkManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the Clock and Alarm Module"
::= { cmroHtuLocalEntry 54 }
cmroHtuLocalTManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the 2Mbps Module"
::= { cmroHtuLocalEntry 55 }
cmroHtuLocalDManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the Data Module"
::= { cmroHtuLocalEntry 56 }
cmroHtuLocalPacketManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the Packet Module"
::= { cmroHtuLocalEntry 57 }
cmroHtuLocalL2SDriverVersion OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"L2 Switch Driver Version"
::= { cmroHtuLocalEntry 58 }
--------------------------------------------------------------------------------
-- CM-RO HTU-far
--------------------------------------------------------------------------------
cmroHtuFarTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroHtuFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmro 2 }
cmroHtuFarEntry OBJECT-TYPE
SYNTAX CmroHtuFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroHtuFarPortIndex, cmroHtuFarLinkIndex }
::= { cmroHtuFarTable 1 }
CmroHtuFarEntry ::=
SEQUENCE
{
cmroHtuFarPortIndex INTEGER,
cmroHtuFarLinkIndex INTEGER,
cmroHtuFarHwFabData DisplayString,
cmroHtuFarActFwType DisplayString,
cmroHtuFarActFwVers DisplayString,
cmroHtuFarPasBankState INTEGER,
cmroHtuFarPasFwType DisplayString,
cmroHtuFarPasFwVers DisplayString,
cmroHtuFarSeepromVers DisplayString,
cmroHtuFarDFabData DisplayString,
cmroHtuFarDType INTEGER,
cmroHtuFarTFabData DisplayString,
cmroHtuFarTType INTEGER,
cmroHtuFarRpsFabData DisplayString,
cmroHtuFarRpsType INTEGER,
cmroHtuFarClkFabData DisplayString,
cmroHtuFarClkType INTEGER,
cmroHtuFarDbgFabData DisplayString,
cmroHtuFarDbgType INTEGER,
cmroHtuFarHousing INTEGER,
cmroHtuFarRackVersion INTEGER,
cmroHtuFarLtNtType INTEGER,
cmroHtuFarHdslChipset INTEGER,
cmroHtuFarDipCfg INTEGER,
cmroHtuFarEocCfg INTEGER,
cmroHtuFarRpsVoltage INTEGER,
cmroHtuFarPowerConfiguration INTEGER,
cmroHtuFarIsdnFabData DisplayString,
cmroHtuFarIsdnType INTEGER,
cmroHtuFarTipRingReversal1 INTEGER,
cmroHtuFarTipRingReversal2 INTEGER,
cmroHtuFarTipRingReversal3 INTEGER,
cmroHtuFarTipRingReversal4 INTEGER,
cmroHtuFarPacketFabData DisplayString,
cmroHtuFarPacketType INTEGER,
cmroHtuFarPacketMacAddr1 OCTET STRING,
cmroHtuFarDslChipset DisplayString,
cmroHtuFarDslFwLoad DisplayString,
cmroHtuFarFpgaLoad DisplayString,
cmroHtuFarEthWanChip DisplayString,
cmroHtuFarSwitchChip DisplayString,
cmroHtuFarBootloaderVers DisplayString,
cmroHtuFarSerialNumber DisplayString,
cmroHtuFarHwManufacturingDate DisplayString,
cmroHtuFarRpsManufacturingDate DisplayString,
cmroHtuFarClkManufacturingDate DisplayString,
cmroHtuFarTManufacturingDate DisplayString,
cmroHtuFarDManufacturingDate DisplayString,
cmroHtuFarPacketManufacturingDate DisplayString,
cmroHtuFarL2SDriverVersion DisplayString
}
cmroHtuFarPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroHtuFarEntry 1 }
cmroHtuFarLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroHtuFarEntry 2 }
cmroHtuFarHwFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Device Hardware Fabrication Data"
::= { cmroHtuFarEntry 3 }
cmroHtuFarActFwType OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of active Firmware"
::= { cmroHtuFarEntry 4 }
cmroHtuFarActFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of active Firmware"
::= { cmroHtuFarEntry 5 }
cmroHtuFarPasBankState OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
loaded(2),
foreign(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of passive firmware bank
1 Empty contains no firmware
2 Loaded contains a valid firmware
3 Foreign contains regenerator firmware
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 6 }
cmroHtuFarPasFwType OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of passive firmware"
::= { cmroHtuFarEntry 7 }
cmroHtuFarPasFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of passive firmware"
::= { cmroHtuFarEntry 8 }
cmroHtuFarSeepromVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of SEEPROM data format"
::= { cmroHtuFarEntry 9 }
cmroHtuFarDFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Data-Module"
::= { cmroHtuFarEntry 10 }
cmroHtuFarDType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Data-Module in corresponding module-slot of the device.
1 None No module inserted
2 DCE Data module with DCE configuration
3 DTE Data module with DTE configuration
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuFarEntry 11 }
cmroHtuFarTFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of 2Mbit-Module"
::= { cmroHtuFarEntry 12 }
cmroHtuFarTType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
twoMbps(2),
quadTwoMbps(3),
codirTwoMbps(4),
twoMbpsVarImp(5),
quadTwoMbpsVarImp(6),
fourTwoMbpsVarImp(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of 2Mbit-Module in corresponding module-slot of the device.
1 None No module present
2 TwoMbps A 2Mbit/s module is present
3 QuadTwoMbps A Quad 2Mbit/s module is present
4 CodirTwoMbps A Co-Directional G.703 module is present
5 TwoMbpsVarImp A 2Mbit/s module with variable impedance is present
6 QuadTwoMbpsVarImp A Quad 2Mbit/s module with variable impedance is present
7 FourTwoMbpsVarImp Module with four independent 2Mbit/s (variable impedance) is present
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuFarEntry 13 }
cmroHtuFarRpsFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Remote Power Supply (RPS) Module"
::= { cmroHtuFarEntry 14 }
cmroHtuFarRpsType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
rps(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Remote Power Supply (RPS) Module in corresponding
module-slot of the device.
1 None No module inserted
2 Rps A RPS module is inserted
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuFarEntry 15 }
cmroHtuFarClkFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Clock and Alarm Module"
::= { cmroHtuFarEntry 16 }
cmroHtuFarClkType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
clockAlarm(2),
clock(3),
alarm(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Clock and Alarm Module in corresponding
module-slot of the device.
1 None No module inserted
2 ClockAlarm A combined Clock and Alarm module is inserted
3 Clock A Clock module is inserted
3 Alarm An Alarm module is inserted
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuFarEntry 17 }
cmroHtuFarDbgFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Debug-Module"
::= { cmroHtuFarEntry 18 }
cmroHtuFarDbgType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
debug(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Debug-Module in corresponding module-slot of the device.
1 None No module inserted
2 Debug A Debug module is inserted
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuFarEntry 19 }
cmroHtuFarHousing OBJECT-TYPE
SYNTAX INTEGER
{
rack(1),
desktop(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of housing / installation of the device.
1 Rack The device is a line card to be installed in a sub-rack
2 Desktop The device is a desktop device
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 20 }
cmroHtuFarRackVersion OBJECT-TYPE
SYNTAX INTEGER
{
rackV1(1),
rackV2(2),
rackV3(3),
desktop(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of the sub-rack in which the device is installed.
1 RackV1 The device is installed in a rack with V1
2 RackV2 The device is installed in a rack with V2
3 RackV3 The device is installed in a rack with V3
4 Desktop The device is a desktop device (and therefore not installed in a sub-rack)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 21 }
cmroHtuFarLtNtType OBJECT-TYPE
SYNTAX INTEGER
{
lt(1),
nt(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the device is configured as LT or NT.
1 LT The device is configured as LT
2 NT The device is configured as NT
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 22 }
cmroHtuFarHdslChipset OBJECT-TYPE
SYNTAX INTEGER
{
level1(1),
metalink(2),
infineon(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which chipset the partner device uses for HDSL transmission
1 Level1 The partner device uses a Level 1 chipset
2 Metalink The partner device uses a MetaLink chipset
3 Infineon The partner device uses an Infineon chipset
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 23 }
cmroHtuFarDipCfg OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the device is configured through DIP Switches.
1 Disabled The device can be configured through management software
2 Enabled The device is configured by DIP switches
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 24 }
cmroHtuFarEocCfg OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
reg1(3),
reg2(4),
reg3(5),
reg4(6),
reg5(7),
reg6(8),
reg7(9),
reg8(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the far device is reached by EOC or not.
1 Disabled The far device cannot be reached by EOC
2 Enabled The far device can be reached by EOC
3 Reg1 The EOC is up until the first regenerator section
4 Reg2 The EOC is up until the second regenerator section
5 Reg3 The EOC is up until the third regenerator section
6 Reg4 The EOC is up until the fourth regenerator section
7 Reg5 The EOC is up until the fifth regenerator section
8 Reg6 The EOC is up until the sixth regenerator section
9 Reg7 The EOC is up until the seventh regenerator section
10 Reg8 The EOC is up until the eighth regenerator section
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 25 }
cmroHtuFarRpsVoltage OBJECT-TYPE
SYNTAX INTEGER
{
v120(1),
v180(2),
noRps(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which Remote Power Supply (RPS) Voltage is being used by the device
1 V120 The RPS uses 120 Volts
2 V180 The RPS uses 180 Volts
3 NoRps The device is not equipped with an RPS
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 26 }
cmroHtuFarPowerConfiguration OBJECT-TYPE
SYNTAX INTEGER
{
multifunctional(1),
redundant(2),
remoteFeeding(3),
batteryDC(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which kind of power supply is equiped
1 multifunctional No redundant supply possible
2 redundant Redundant supply possible
3 remoteFeeding Remote feeding possible
4 batteryDC DC-only supply
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 27 }
cmroHtuFarIsdnFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of ISDN-Module"
::= { cmroHtuFarEntry 28 }
cmroHtuFarIsdnType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
te(2),
nt(3),
uk0(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of ISDN-Module in corresponding module-slot of the device
1 None No module inserted
2 TE A module for S0(TE mode) operation is inserted
3 NT A module for S0(NT mode) operation is inserted
4 Uk0 A module for Uk0 operation is inserted
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 29 }
cmroHtuFarTipRingReversal1 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the first wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 30 }
cmroHtuFarTipRingReversal2 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the second wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 31 }
cmroHtuFarTipRingReversal3 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the third wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 32 }
cmroHtuFarTipRingReversal4 OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for on the fourth wire pair
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroHtuFarEntry 33 }
cmroHtuFarPacketFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of L2 Switch"
::= { cmroHtuFarEntry 34 }
cmroHtuFarPacketType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
fourPort10-100(2),
onePort10-100(3),
twoPort10-100(4),
threePort10-100(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of L2 Switch module.
1 None No module inserted
2 4P10/100 4-Port 10/100Base-T ethernet switch
3 1P10/100 1-Port 10/100Base-T ethernet switch
4 2P10/100 2-Port 10/100Base-T ethernet switch
5 3P10/100 3-Port 10/100Base-T ethernet switch
254 unknown value
255 unsupported variable for addressed device
For details of the module (connector sub-types, ...) the
fabrication data has to evaluated"
::= { cmroHtuFarEntry 35 }
cmroHtuFarPacketMacAddr1 OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(6))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"MAC address of L2 ethernet switch.
Value of Byte 0..5 Meaning
0x00 - 0xFD MAC address
all 0xFE unknown value
all 0xFF unsupported variable"
::= { cmroHtuFarEntry 36 }
cmroHtuFarDslChipset OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of xDSL chipset"
::= { cmroHtuFarEntry 37 }
cmroHtuFarDslFwLoad OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of firmware load of xDSL chipset"
::= { cmroHtuFarEntry 38 }
cmroHtuFarFpgaLoad OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of FPGA load"
::= { cmroHtuFarEntry 39 }
cmroHtuFarEthWanChip OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of WAN chip which connects L2 switch and xDSL link"
::= { cmroHtuFarEntry 40 }
cmroHtuFarSwitchChip OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Switch Chip"
::= { cmroHtuFarEntry 41 }
cmroHtuFarBootloaderVers OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of firmware boot loader"
::= { cmroHtuFarEntry 42 }
cmroHtuFarSerialNumber OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Serial number of device"
::= { cmroHtuFarEntry 43 }
cmroHtuFarHwManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the motherboard"
::= { cmroHtuFarEntry 44 }
cmroHtuFarRpsManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the RPS Module"
::= { cmroHtuFarEntry 45 }
cmroHtuFarClkManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the Clock and Alarm Module"
::= { cmroHtuFarEntry 46 }
cmroHtuFarTManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the 2Mbps Module"
::= { cmroHtuFarEntry 47 }
cmroHtuFarDManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the Data Module"
::= { cmroHtuFarEntry 48 }
cmroHtuFarPacketManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the Packet Module"
::= { cmroHtuFarEntry 49 }
cmroHtuFarL2SDriverVersion OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"L2 Switch Driver Version"
::= { cmroHtuFarEntry 50 }
--------------------------------------------------------------------------------
-- CM-RO Used TS
--------------------------------------------------------------------------------
cmroUsedTsTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroUsedTsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmro 3 }
cmroUsedTsEntry OBJECT-TYPE
SYNTAX CmroUsedTsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroUsedTsPortIndex, cmroUsedTsLinkIndex }
::= { cmroUsedTsTable 1 }
CmroUsedTsEntry ::=
SEQUENCE
{
cmroUsedTsPortIndex INTEGER,
cmroUsedTsLinkIndex INTEGER,
cmroUsedTsAll INTEGER,
cmroUsedTsMap OCTET STRING,
cmroUsedTsMapStuExtension OCTET STRING
}
cmroUsedTsPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroUsedTsEntry 1 }
cmroUsedTsLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroUsedTsEntry 2 }
cmroUsedTsAll OBJECT-TYPE
SYNTAX INTEGER
{
true(1),
false(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether all timeslots are used or not. If all of them
are used, cmroUsedTsMap will return 'allUsed' for all time slots.
1 true All time slots are being used (ignore cmroUsedTsMap)
2 false Not all time slots are being used, details in cmroUsedTsMap
254 unknown value
255 unsupported variable for addressed device"
::= { cmroUsedTsEntry 3 }
cmroUsedTsMap OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(32))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"If cmroUsedTsAll is 'false(2)' this variable reports which
time slot in the E1 2Mbit/s signal is used for which purpose.
The variable consists of an array with length 32. Each array
position corresponds to a time slot in the E1 signal and
its content indicates what the time slot is used for.
The following codes are used:
1 N1 Used for G.703 signal
2 N2 Used for Data signal
3 FastSig1 Used for Fast Signalling in stream 1
4 FastSig2 Used for Fast Signalling in stream 2
5 CAS Used for CAS Signalling
6 Unused Time slot is unused
7 Sync Used for synchronisation (Time slot 0)
8 Ignore No mapping (cmroUsedTsAll is 'true')
254 unknown value
255 unsupported variable for addressed device"
::= { cmroUsedTsEntry 4 }
cmroUsedTsMapStuExtension OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(4))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"If cmroUsedTsAll is 'false(2)' this variable reports which
time slot in the E1 2Mbit/s signal is used for which purpose.
This variable describes the addidtional 4 timeslots which are
available with the SDSL system. The 4 bytes in this variable
correspond to the time slots 32..35. Each array position
corresponds to a time slot in the E1 signal and its content
indicates what the time slot is used for.
The following codes are used:
1 N1 Used for G.703 signal
2 N2 Used for Data signal
3 FastSig1 Used for Fast Signalling in stream 1
4 FastSig2 Used for Fast Signalling in stream 2
5 CAS Used for CAS Signalling
6 Unused Time slot is unused
7 Sync Used for synchronisation (Time slot 0)
8 Ignore No mapping (cmroUsedTsAll is 'true')
254 unknown value
255 unsupported variable for addressed device"
::= { cmroUsedTsEntry 5 }
--------------------------------------------------------------------------------
-- CM-RO OMI
--------------------------------------------------------------------------------
cmroOmiTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroOmiEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmro 4 }
cmroOmiEntry OBJECT-TYPE
SYNTAX CmroOmiEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroOmiPortIndex }
::= { cmroOmiTable 1 }
CmroOmiEntry ::=
SEQUENCE
{
cmroOmiPortIndex INTEGER,
cmroOmiHwFabData DisplayString,
cmroOmiActFwVers DisplayString,
cmroOmiPasBankState INTEGER,
cmroOmiPasFwVers DisplayString,
cmroOmiRackVersion INTEGER,
cmroOmiActFwType DisplayString,
cmroOmiRackVersion2 INTEGER,
cmroOmiRackVersion3 INTEGER,
cmroOmiRackVersion4 INTEGER,
cmroOmiCardLocation INTEGER,
cmroOmiSeepromVers DisplayString,
cmroOmiMCUSerialNo DisplayString,
cmroOmiPasFwType DisplayString,
cmroOmiBootLoaderVers DisplayString,
cmroOmiMACAddress OCTET STRING,
cmroOmiNMSHwPartNo DisplayString,
cmroOmiNMSChipPartNo DisplayString,
cmroOmiL2SMACAddress OCTET STRING,
cmroOmiL2SHwPartNo DisplayString,
cmroOmiL2SChipPartNo DisplayString,
cmroOmiL2SFwVers DisplayString,
cmroOmiL2SFeatureFlags OCTET STRING,
cmroOmiL2SModuleType INTEGER,
cmroOmiGBEHwPartNo DisplayString,
cmroOmiGBEModuleType INTEGER,
cmroOmiSFP1ModuleType INTEGER,
cmroOmiSFP1TranscType INTEGER,
cmroOmiSFP1TranscCode OCTET STRING,
cmroOmiSFP1VendorName DisplayString,
cmroOmiSFP1VendorOUI OCTET STRING,
cmroOmiSFP1VendorPartNo DisplayString,
cmroOmiSFP1VendorRevNo DisplayString,
cmroOmiSFP1VendorSerialNo DisplayString,
cmroOmiSFP1VendorDateCode OCTET STRING,
cmroOmiSFP2ModuleType INTEGER,
cmroOmiSFP2TranscType INTEGER,
cmroOmiSFP2TranscCode OCTET STRING,
cmroOmiSFP2VendorName DisplayString,
cmroOmiSFP2VendorOUI OCTET STRING,
cmroOmiSFP2VendorPartNo DisplayString,
cmroOmiSFP2VendorRevNo DisplayString,
cmroOmiSFP2VendorSerialNo DisplayString,
cmroOmiSFP2VendorDateCode OCTET STRING,
cmroOmiCESHwPartNo DisplayString,
cmroOmiCESType INTEGER,
cmroOmiCESMACAddress OCTET STRING,
cmroOmiCESSerialNo DisplayString
}
cmroOmiPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroOmiEntry 1 }
cmroOmiHwFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Hardware Fabrication Data"
::= { cmroOmiEntry 2 }
cmroOmiActFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of active Firmware"
::= { cmroOmiEntry 3 }
cmroOmiPasBankState OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
loaded(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of passive firmware bank
1 Empty contains no firmware
2 Loaded contains a valid firmware
254 unknown value
255 unsupported variable for addressed device"
::= { cmroOmiEntry 4 }
cmroOmiPasFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of passive firmware"
::= { cmroOmiEntry 5 }
cmroOmiRackVersion OBJECT-TYPE
SYNTAX INTEGER
{
rackV1(1),
rackV2(2),
rackV3(3),
desktop(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of the sub-rack in which the device is installed.
1 RackV1 The device is installed in a rack with V1
2 RackV2 The device is installed in a rack with V2
3 RackV3 The device is installed in a rack with V3
4 Desktop The device is a desktop device (and therefore not installed in a sub-rack)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroOmiEntry 6 }
cmroOmiActFwType OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the firmware type of the active firmware"
::= { cmroOmiEntry 7 }
cmroOmiRackVersion2 OBJECT-TYPE
SYNTAX INTEGER
{
rackV1(1),
rackV2(2),
rackV3(3),
desktop(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of the sub-rack 2.
1 RackV1 rack with V1
2 RackV2 rack with V2
3 RackV3 rack with V3
4 Desktop desktop device (and therefore not installed in a sub-rack)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroOmiEntry 8 }
cmroOmiRackVersion3 OBJECT-TYPE
SYNTAX INTEGER
{
rackV1(1),
rackV2(2),
rackV3(3),
desktop(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of the sub-rack 3.
1 RackV1 rack with V1
2 RackV2 rack with V2
3 RackV3 rack with V3
4 Desktop desktop device (and therefore not installed in a sub-rack)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroOmiEntry 9 }
cmroOmiRackVersion4 OBJECT-TYPE
SYNTAX INTEGER
{
rackV1(1),
rackV2(2),
rackV3(3),
desktop(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of the sub-rack 4.
1 RackV1 rack with V1
2 RackV2 rack with V2
3 RackV3 rack with V3
4 Desktop desktop device (and therefore not installed in a sub-rack)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroOmiEntry 10 }
cmroOmiCardLocation OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Card location in subrack: 0..254"
::= { cmroOmiEntry 11 }
cmroOmiSeepromVers OBJECT-TYPE
SYNTAX DisplayString(SIZE(3))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Version of configuration data format"
::= { cmroOmiEntry 12 }
cmroOmiMCUSerialNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(5))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Serial number of the device"
::= { cmroOmiEntry 13 }
cmroOmiPasFwType OBJECT-TYPE
SYNTAX DisplayString(SIZE(5))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the firmware type of the passive firmware"
::= { cmroOmiEntry 14 }
cmroOmiBootLoaderVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the Boot loader version"
::= { cmroOmiEntry 15 }
cmroOmiMACAddress OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(6))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the MCU MAC address
Value of Byte 0..5 Meaning
0x00 - 0xFD MAC address
all 0xFE unknown value
all 0xFF unsupported variable"
::= { cmroOmiEntry 16 }
cmroOmiNMSHwPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the Hw partition number"
::= { cmroOmiEntry 17 }
cmroOmiNMSChipPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the chip partition number"
::= { cmroOmiEntry 18 }
cmroOmiL2SMACAddress OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(6))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the MAC Address of L2 switch
Value of Byte 0..5 Meaning
0x00 - 0xFD MAC address
all 0xFE unknown value
all 0xFF unsupported variable"
::= { cmroOmiEntry 19 }
cmroOmiL2SHwPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Hardware partition number"
::= { cmroOmiEntry 20 }
cmroOmiL2SChipPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Chip partition number"
::= { cmroOmiEntry 21 }
cmroOmiL2SFwVers OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"L2 Switch Firmware version"
::= { cmroOmiEntry 22 }
cmroOmiL2SFeatureFlags OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(128))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"L2 Switch partition feature flags"
::= { cmroOmiEntry 23 }
cmroOmiL2SModuleType OBJECT-TYPE
SYNTAX INTEGER
{
l2s2GbE16FE(1),
none(254)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"L2 Switch module type:
1 24 Fast Ethernet + 3GigaBit Ethernet,
254 NONE"
::= { cmroOmiEntry 24 }
cmroOmiGBEHwPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Gigabit ethernet Hw partition number"
::= { cmroOmiEntry 25 }
cmroOmiGBEModuleType OBJECT-TYPE
SYNTAX INTEGER
{
gbe1000BaseT(1),
none(254)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Gigabit ethernet module type:
1 1000BASE-T copper,
254 NONE"
::= { cmroOmiEntry 26 }
cmroOmiSFP1ModuleType OBJECT-TYPE
SYNTAX INTEGER
{
sfp1000BaseT(1),
sfp1000BaseSX(2),
sfp1000BaseLX(3),
none (254),
unknown(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP module type.
Enum type corresponding to accepted values in following two fields:
1 1000BASE-T copper,
2 1000BASE-SX short wavelength,
3 1000BASE-LX long wavelength,
254 NONE
255 UNKNOWN
"
::= { cmroOmiEntry 27 }
cmroOmiSFP1TranscType OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP transceiver type (0..255)"
::= { cmroOmiEntry 28 }
cmroOmiSFP1TranscCode OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(8))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP transceiver code:
accepted values are those corresponding to module type"
::= { cmroOmiEntry 29 }
cmroOmiSFP1VendorName OBJECT-TYPE
SYNTAX DisplayString(SIZE(16))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor name"
::= { cmroOmiEntry 30 }
cmroOmiSFP1VendorOUI OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(3))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP IEEE company ID"
::= { cmroOmiEntry 31 }
cmroOmiSFP1VendorPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(16))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor partition number"
::= { cmroOmiEntry 32 }
cmroOmiSFP1VendorRevNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(4))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor revision number"
::= { cmroOmiEntry 33 }
cmroOmiSFP1VendorSerialNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(16))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor serial number"
::= { cmroOmiEntry 34 }
cmroOmiSFP1VendorDateCode OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(8))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor date code
YYMMDDLL (LL=vendor specific lot code)"
::= { cmroOmiEntry 35 }
cmroOmiSFP2ModuleType OBJECT-TYPE
SYNTAX INTEGER
{
sfp1000BaseT(1),
sfp1000BaseSX(2),
sfp1000BaseLX(3),
none (254),
unknown(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP module type.
Enum type corresponding to accepted values in following two fields:
1 1000BASE-T copper,
2 1000BASE-SX short wavelength,
3 1000BASE-LX long wavelength,
254 NONE
255 UNKNOWN
"
::= { cmroOmiEntry 36 }
cmroOmiSFP2TranscType OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP transceiver type (0..255)"
::= { cmroOmiEntry 37 }
cmroOmiSFP2TranscCode OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(8))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP transceiver code:
accepted values are those corresponding to module type"
::= { cmroOmiEntry 38 }
cmroOmiSFP2VendorName OBJECT-TYPE
SYNTAX DisplayString(SIZE(16))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor name"
::= { cmroOmiEntry 39 }
cmroOmiSFP2VendorOUI OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(3))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP IEEE company ID"
::= { cmroOmiEntry 40 }
cmroOmiSFP2VendorPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(16))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor partition number"
::= { cmroOmiEntry 41 }
cmroOmiSFP2VendorRevNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(4))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor revision number"
::= { cmroOmiEntry 42 }
cmroOmiSFP2VendorSerialNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(16))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor serial number"
::= { cmroOmiEntry 43 }
cmroOmiSFP2VendorDateCode OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(8))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP vendor date code
YYMMDDLL (LL=vendor specific lot code)"
::= { cmroOmiEntry 44 }
cmroOmiCESHwPartNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"CES HW part number"
::= { cmroOmiEntry 45 }
cmroOmiCESType OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
thirtyTwoE1tcxo(2),
thirtyTwoE1ocxo(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"CES type:
1 None No CES available
2 ThirtyTwoE1tcxo 32 x E1 with Temperature Compensated Crystal Oscillator
3 ThirtyTwoE1ocxo 32 x E1 with Oven Compensated Crystal Oscillator
254 unknown value
255 unsupported variable for addressed device"
::= { cmroOmiEntry 46 }
cmroOmiCESMACAddress OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(6))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the MAC Address of CES
Value of Byte 0..5 Meaning
0x00 - 0xFD MAC address
all 0xFE unknown value
all 0xFF unsupported variable"
::= { cmroOmiEntry 47 }
cmroOmiCESSerialNo OBJECT-TYPE
SYNTAX DisplayString(SIZE(5))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Serial number of CES"
::= { cmroOmiEntry 48 }
--------------------------------------------------------------------------------
-- CM-RO HDSL Regenerator
--------------------------------------------------------------------------------
cmroRegTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroRegEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmro 5 }
cmroRegEntry OBJECT-TYPE
SYNTAX CmroRegEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroRegPortIndex, cmroRegLinkIndex }
::= { cmroRegTable 1 }
CmroRegEntry ::=
SEQUENCE
{
cmroRegPortIndex INTEGER,
cmroRegLinkIndex INTEGER,
cmroRegNumReg1 INTEGER,
cmroRegNumReg2 INTEGER,
cmroRegFabData1A DisplayString,
cmroRegFwVers1A DisplayString,
cmroRegFabData2A DisplayString,
cmroRegFwVers2A DisplayString,
cmroRegFabData1B DisplayString,
cmroRegFwVers1B DisplayString,
cmroRegFabData2B DisplayString,
cmroRegFwVers2B DisplayString,
cmroRegTipRingReversal1ALt INTEGER,
cmroRegTipRingReversal1ANt INTEGER,
cmroRegTipRingReversal2ALt INTEGER,
cmroRegTipRingReversal2ANt INTEGER,
cmroRegTipRingReversal1BLt INTEGER,
cmroRegTipRingReversal1BNt INTEGER,
cmroRegTipRingReversal2BLt INTEGER,
cmroRegTipRingReversal2BNt INTEGER
}
cmroRegPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroRegEntry 1 }
cmroRegLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroRegEntry 2 }
cmroRegNumReg1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
one(2),
two(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Number of Regenerators in HDSL Path 1.
1 None No Regenerators
2 One One Regenerator (A)
3 Two Two Regenerators (A and B)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 3 }
cmroRegNumReg2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
one(2),
two(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Number of Regenerators in HDSL Path 2.
1 None No Regenerators
2 One One Regenerator (A)
3 Two Two Regenerators (A and B)
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 4 }
cmroRegFabData1A OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Regenerator Section A in HDSL Path 1"
::= { cmroRegEntry 5 }
cmroRegFwVers1A OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Firmware Version of Regenerator Section A in HDSL Path 1"
::= { cmroRegEntry 6 }
cmroRegFabData2A OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Regenerator Section A in HDSL Path 2"
::= { cmroRegEntry 7 }
cmroRegFwVers2A OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Firmware Version of Regenerator Section A in HDSL Path 2"
::= { cmroRegEntry 8 }
cmroRegFabData1B OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Regenerator Section B in HDSL Path 1"
::= { cmroRegEntry 9 }
cmroRegFwVers1B OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Firmware Version of Regenerator Section B in HDSL Path 1"
::= { cmroRegEntry 10 }
cmroRegFabData2B OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Regenerator Section B in HDSL Path 2"
::= { cmroRegEntry 11 }
cmroRegFwVers2B OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Firmware Version of Regenerator Section B in HDSL Path 2"
::= { cmroRegEntry 12 }
cmroRegTipRingReversal1ALt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 13 }
cmroRegTipRingReversal1ANt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 14 }
cmroRegTipRingReversal2ALt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 15 }
cmroRegTipRingReversal2ANt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 16 }
cmroRegTipRingReversal1BLt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 17 }
cmroRegTipRingReversal1BNt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 18 }
cmroRegTipRingReversal2BLt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 19 }
cmroRegTipRingReversal2BNt OBJECT-TYPE
SYNTAX INTEGER
{
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Unused variable. Only used for compatibility reasons.
Refer to cmroSruTipRingReversalLt and cmroSruTipRingReversalNt.
254 unknown value
255 unsupported variable for addressed device"
::= { cmroRegEntry 20 }
--------------------------------------------------------------------------------
-- CM-RO SHDSL Regenerator
--------------------------------------------------------------------------------
cmroSruTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroSruEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmro 6 }
cmroSruEntry OBJECT-TYPE
SYNTAX CmroSruEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroSruPortIndex, cmroSruLinkIndex, cmroSruRegIndex }
::= { cmroSruTable 1 }
CmroSruEntry ::=
SEQUENCE
{
cmroSruPortIndex INTEGER,
cmroSruLinkIndex INTEGER,
cmroSruRegIndex INTEGER,
cmroSruFabData DisplayString,
cmroSruActFwType DisplayString,
cmroSruActFwVers DisplayString,
cmroSruPasBankState INTEGER,
cmroSruPasFwType DisplayString,
cmroSruPasFwVers DisplayString,
cmroSruTipRingReversalLt INTEGER,
cmroSruTipRingReversalNt INTEGER,
cmroSruRedundantlyPowered INTEGER,
cmroSruPowerPassThrough INTEGER,
cmroSruSerialNumber DisplayString,
cmroSruHwManufacturingDate DisplayString
}
cmroSruPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroSruEntry 1 }
cmroSruLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroSruEntry 2 }
cmroSruRegIndex OBJECT-TYPE
SYNTAX INTEGER
{
reg11(3),
reg12(4),
reg21(5),
reg22(6),
reg31(7),
reg32(8),
reg41(9),
reg42(10),
reg51(11),
reg52(12),
reg61(13),
reg62(14),
reg71(15),
reg72(16),
reg81(17),
reg82(18),
reg13(19),
reg14(20),
reg23(21),
reg24(22),
reg33(23),
reg34(24),
reg43(25),
reg44(26),
reg53(27),
reg54(28),
reg63(29),
reg64(30),
reg73(31),
reg74(32),
reg83(33),
reg84(34)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the regenerator device and is
used as index for the other elements in the Table"
::= { cmroSruEntry 3 }
cmroSruFabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Regenerator"
::= { cmroSruEntry 5 }
cmroSruActFwType OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Active firmware Type of Regenerator"
::= { cmroSruEntry 6 }
cmroSruActFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Active firmware Version of Regenerator"
::= { cmroSruEntry 7 }
cmroSruPasBankState OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
loaded(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of passive firmware bank
1 Empty contains no firmware
2 Loaded contains a valid firmware
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruEntry 8 }
cmroSruPasFwType OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Passive firmware Type of Regenerator"
::= { cmroSruEntry 9 }
cmroSruPasFwVers OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Passive firmware Version of Regenerator"
::= { cmroSruEntry 10 }
cmroSruTipRingReversalLt OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for in direction of the LT
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruEntry 11 }
cmroSruTipRingReversalNt OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether tip-ring reversal has been detected and compensated
for in direction of the NT
1 No Reversal not detected
2 Yes Reversal detected and compensated for
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruEntry 12 }
cmroSruRedundantlyPowered OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the regenerator is being redundantly powered
1 No Regenerator is not being redundantly powered
2 Yes Regenerator is being redundantly powered
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruEntry 13 }
cmroSruPowerPassThrough OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the regenerator is passing power
through to the next regenerator section.
1 No Regenerator is not passing through power
2 Yes Regenerator is passing through power
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruEntry 14 }
cmroSruSerialNumber OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Serial number of regenerator"
::= { cmroSruEntry 15 }
cmroSruHwManufacturingDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Manufacturing Date of the motherboard"
::= { cmroSruEntry 16 }
--------------------------------------------------------------------------------
-- CM-RO Card Token
--------------------------------------------------------------------------------
cmroCardTokenTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroCardTokenEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmro 7 }
cmroCardTokenEntry OBJECT-TYPE
SYNTAX CmroCardTokenEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroCardTokenPortIndex, cmroCardTokenLinkIndex }
::= { cmroCardTokenTable 1 }
CmroCardTokenEntry ::=
SEQUENCE
{
cmroCardTokenPortIndex INTEGER,
cmroCardTokenLinkIndex INTEGER,
cmroCardTokenResId1 INTEGER,
cmroCardTokenResId2 INTEGER,
cmroCardTokenResId3 INTEGER,
cmroCardTokenResId4 INTEGER
}
cmroCardTokenPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroCardTokenEntry 1 }
cmroCardTokenLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroCardTokenEntry 2 }
cmroCardTokenResId1 OBJECT-TYPE
SYNTAX INTEGER
{
available(1),
lineint(2),
lct(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates who is in posession of the reservation token for system one.
1 Available The token is free
2 Lineint The token is given to the LineIntegrator
3 Lct The token is given to the Local Craft Terminal (LCT)
254 unknown value
255 unsupported variable for the addressed device"
::= { cmroCardTokenEntry 3 }
cmroCardTokenResId2 OBJECT-TYPE
SYNTAX INTEGER
{
available(1),
lineint(2),
lct(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates who is in posession of the reservation token for system two.
1 Available The token is free
2 Lineint The token is given to the LineIntegrator
3 Lct The token is given to the Local Craft Terminal (LCT)
254 unknown value
255 unsupported variable for the addressed device"
::= { cmroCardTokenEntry 4 }
cmroCardTokenResId3 OBJECT-TYPE
SYNTAX INTEGER
{
available(1),
lineint(2),
lct(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates who is in posession of the reservation token for system three.
1 Available The token is free
2 Lineint The token is given to the LineIntegrator
3 Lct The token is given to the Local Craft Terminal (LCT)
254 unknown value
255 unsupported variable for the addressed device"
::= { cmroCardTokenEntry 5 }
cmroCardTokenResId4 OBJECT-TYPE
SYNTAX INTEGER
{
available(1),
lineint(2),
lct(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates who is in posession of the reservation token for system four.
1 Available The token is free
2 Lineint The token is given to the LineIntegrator
3 Lct The token is given to the Local Craft Terminal (LCT)
254 unknown value
255 unsupported variable for the addressed device"
::= { cmroCardTokenEntry 6 }
--------------------------------------------------------------------------------
-- CM-RO sub OIDs
--------------------------------------------------------------------------------
cmroLocalInventory OBJECT IDENTIFIER ::= { cmro 8 }
cmroFarInventory OBJECT IDENTIFIER ::= { cmro 9 }
cmroSruInventory OBJECT IDENTIFIER ::= { cmro 10 }
--------------------------------------------------------------------------------
-- CM-RO Local Inventory FrontPanel
--------------------------------------------------------------------------------
cmroLocalInventoryFpTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroLocalInventoryFpEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmroLocalInventory 1 }
cmroLocalInventoryFpEntry OBJECT-TYPE
SYNTAX CmroLocalInventoryFpEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroLocalInventoryFpPortIndex, cmroLocalInventoryFpLinkIndex }
::= { cmroLocalInventoryFpTable 1 }
CmroLocalInventoryFpEntry ::=
SEQUENCE
{
cmroLocalInventoryFpPortIndex INTEGER,
cmroLocalInventoryFpLinkIndex INTEGER,
cmroLocalInventoryFpModule1Type INTEGER,
cmroLocalInventoryFpModule2Type INTEGER,
cmroLocalInventoryFpModule3Type INTEGER,
cmroLocalInventoryFpModule4Type INTEGER,
cmroLocalInventoryFpModule5Type INTEGER,
cmroLocalInventoryFpModule6Type INTEGER,
cmroLocalInventoryFpModule1FabData DisplayString,
cmroLocalInventoryFpModule2FabData DisplayString,
cmroLocalInventoryFpModule3FabData DisplayString,
cmroLocalInventoryFpModule4FabData DisplayString,
cmroLocalInventoryFpModule5FabData DisplayString,
cmroLocalInventoryFpModule6FabData DisplayString
}
cmroLocalInventoryFpPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroLocalInventoryFpEntry 1 }
cmroLocalInventoryFpLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroLocalInventoryFpEntry 2 }
cmroLocalInventoryFpModule1Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 1
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryFpEntry 3 }
cmroLocalInventoryFpModule2Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 2
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryFpEntry 4 }
cmroLocalInventoryFpModule3Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 3
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryFpEntry 5 }
cmroLocalInventoryFpModule4Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 4
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryFpEntry 6 }
cmroLocalInventoryFpModule5Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 5
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryFpEntry 7 }
cmroLocalInventoryFpModule6Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 6
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryFpEntry 8 }
cmroLocalInventoryFpModule1FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 1"
::= { cmroLocalInventoryFpEntry 9 }
cmroLocalInventoryFpModule2FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 2"
::= { cmroLocalInventoryFpEntry 10 }
cmroLocalInventoryFpModule3FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 3"
::= { cmroLocalInventoryFpEntry 11 }
cmroLocalInventoryFpModule4FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 4"
::= { cmroLocalInventoryFpEntry 12 }
cmroLocalInventoryFpModule5FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 5"
::= { cmroLocalInventoryFpEntry 13 }
cmroLocalInventoryFpModule6FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 6"
::= { cmroLocalInventoryFpEntry 14 }
--------------------------------------------------------------------------------
-- CM-RO Local Inventory Info
--------------------------------------------------------------------------------
cmroLocalInventoryInfoTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroLocalInventoryInfoEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmroLocalInventory 2 }
cmroLocalInventoryInfoEntry OBJECT-TYPE
SYNTAX CmroLocalInventoryInfoEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroLocalInventoryInfoPortIndex, cmroLocalInventoryInfoLinkIndex }
::= { cmroLocalInventoryInfoTable 1 }
CmroLocalInventoryInfoEntry ::=
SEQUENCE
{
cmroLocalInventoryInfoPortIndex INTEGER,
cmroLocalInventoryInfoLinkIndex INTEGER,
cmroLocalInventoryInfoString1Type INTEGER,
cmroLocalInventoryInfoString2Type INTEGER,
cmroLocalInventoryInfoString3Type INTEGER,
cmroLocalInventoryInfoString4Type INTEGER,
cmroLocalInventoryInfoString5Type INTEGER,
cmroLocalInventoryInfoString1 DisplayString,
cmroLocalInventoryInfoString2 DisplayString,
cmroLocalInventoryInfoString3 DisplayString,
cmroLocalInventoryInfoString4 DisplayString,
cmroLocalInventoryInfoString5 DisplayString
}
cmroLocalInventoryInfoPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroLocalInventoryInfoEntry 1 }
cmroLocalInventoryInfoLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroLocalInventoryInfoEntry 2 }
cmroLocalInventoryInfoString1Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 1
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryInfoEntry 3 }
cmroLocalInventoryInfoString2Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 2
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryInfoEntry 4 }
cmroLocalInventoryInfoString3Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 3
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryInfoEntry 5 }
cmroLocalInventoryInfoString4Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 4
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryInfoEntry 6 }
cmroLocalInventoryInfoString5Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 5
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroLocalInventoryInfoEntry 7 }
cmroLocalInventoryInfoString1 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 1"
::= { cmroLocalInventoryInfoEntry 8 }
cmroLocalInventoryInfoString2 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 2"
::= { cmroLocalInventoryInfoEntry 9 }
cmroLocalInventoryInfoString3 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 3"
::= { cmroLocalInventoryInfoEntry 10 }
cmroLocalInventoryInfoString4 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 4"
::= { cmroLocalInventoryInfoEntry 11 }
cmroLocalInventoryInfoString5 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 5"
::= { cmroLocalInventoryInfoEntry 12 }
--------------------------------------------------------------------------------
-- CM-RO Far Inventory FrontPanel
--------------------------------------------------------------------------------
cmroFarInventoryFpTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroFarInventoryFpEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmroFarInventory 1 }
cmroFarInventoryFpEntry OBJECT-TYPE
SYNTAX CmroFarInventoryFpEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroFarInventoryFpPortIndex, cmroFarInventoryFpLinkIndex }
::= { cmroFarInventoryFpTable 1 }
CmroFarInventoryFpEntry ::=
SEQUENCE
{
cmroFarInventoryFpPortIndex INTEGER,
cmroFarInventoryFpLinkIndex INTEGER,
cmroFarInventoryFpModule1Type INTEGER,
cmroFarInventoryFpModule2Type INTEGER,
cmroFarInventoryFpModule3Type INTEGER,
cmroFarInventoryFpModule4Type INTEGER,
cmroFarInventoryFpModule5Type INTEGER,
cmroFarInventoryFpModule6Type INTEGER,
cmroFarInventoryFpModule1FabData DisplayString,
cmroFarInventoryFpModule2FabData DisplayString,
cmroFarInventoryFpModule3FabData DisplayString,
cmroFarInventoryFpModule4FabData DisplayString,
cmroFarInventoryFpModule5FabData DisplayString,
cmroFarInventoryFpModule6FabData DisplayString
}
cmroFarInventoryFpPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroFarInventoryFpEntry 1 }
cmroFarInventoryFpLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroFarInventoryFpEntry 2 }
cmroFarInventoryFpModule1Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 1
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryFpEntry 3 }
cmroFarInventoryFpModule2Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 2
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryFpEntry 4 }
cmroFarInventoryFpModule3Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 3
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryFpEntry 5 }
cmroFarInventoryFpModule4Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 4
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryFpEntry 6 }
cmroFarInventoryFpModule5Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 5
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryFpEntry 7 }
cmroFarInventoryFpModule6Type OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
dce(2),
dte(3),
tenBaseT(4),
abar(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of Front Panel Module 6
1 None No module
2 DCE DCE module
3 DTE DTE module
4 10Base-T 10Base-T Ethernet module
5 ABAR Advanced Bridge and Router module
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryFpEntry 8 }
cmroFarInventoryFpModule1FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 1"
::= { cmroFarInventoryFpEntry 9 }
cmroFarInventoryFpModule2FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 2"
::= { cmroFarInventoryFpEntry 10 }
cmroFarInventoryFpModule3FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 3"
::= { cmroFarInventoryFpEntry 11 }
cmroFarInventoryFpModule4FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 4"
::= { cmroFarInventoryFpEntry 12 }
cmroFarInventoryFpModule5FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 5"
::= { cmroFarInventoryFpEntry 13 }
cmroFarInventoryFpModule6FabData OBJECT-TYPE
SYNTAX DisplayString(SIZE(20))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fabrication Data of Front Panel Module 6"
::= { cmroFarInventoryFpEntry 14 }
--------------------------------------------------------------------------------
-- CM-RO Far Inventory Info
--------------------------------------------------------------------------------
cmroFarInventoryInfoTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroFarInventoryInfoEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmroFarInventory 2 }
cmroFarInventoryInfoEntry OBJECT-TYPE
SYNTAX CmroFarInventoryInfoEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroFarInventoryInfoPortIndex, cmroFarInventoryInfoLinkIndex }
::= { cmroFarInventoryInfoTable 1 }
CmroFarInventoryInfoEntry ::=
SEQUENCE
{
cmroFarInventoryInfoPortIndex INTEGER,
cmroFarInventoryInfoLinkIndex INTEGER,
cmroFarInventoryInfoString1Type INTEGER,
cmroFarInventoryInfoString2Type INTEGER,
cmroFarInventoryInfoString3Type INTEGER,
cmroFarInventoryInfoString4Type INTEGER,
cmroFarInventoryInfoString5Type INTEGER,
cmroFarInventoryInfoString1 DisplayString,
cmroFarInventoryInfoString2 DisplayString,
cmroFarInventoryInfoString3 DisplayString,
cmroFarInventoryInfoString4 DisplayString,
cmroFarInventoryInfoString5 DisplayString
}
cmroFarInventoryInfoPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroFarInventoryInfoEntry 1 }
cmroFarInventoryInfoLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroFarInventoryInfoEntry 2 }
cmroFarInventoryInfoString1Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 1
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryInfoEntry 3 }
cmroFarInventoryInfoString2Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 2
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryInfoEntry 4 }
cmroFarInventoryInfoString3Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 3
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryInfoEntry 5 }
cmroFarInventoryInfoString4Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 4
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryInfoEntry 6 }
cmroFarInventoryInfoString5Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 5
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroFarInventoryInfoEntry 7 }
cmroFarInventoryInfoString1 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 1"
::= { cmroFarInventoryInfoEntry 8 }
cmroFarInventoryInfoString2 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 2"
::= { cmroFarInventoryInfoEntry 9 }
cmroFarInventoryInfoString3 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 3"
::= { cmroFarInventoryInfoEntry 10 }
cmroFarInventoryInfoString4 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 4"
::= { cmroFarInventoryInfoEntry 11 }
cmroFarInventoryInfoString5 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 5"
::= { cmroFarInventoryInfoEntry 12 }
--------------------------------------------------------------------------------
-- CM-RO SRU Inventory Info
--------------------------------------------------------------------------------
cmroSruInventoryInfoTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmroSruInventoryInfoEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmroSruInventory 1 }
cmroSruInventoryInfoEntry OBJECT-TYPE
SYNTAX CmroSruInventoryInfoEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmroSruInventoryInfoPortIndex, cmroSruInventoryInfoLinkIndex, cmroSruInventoryInfoRegIndex }
::= { cmroSruInventoryInfoTable 1 }
CmroSruInventoryInfoEntry ::=
SEQUENCE
{
cmroSruInventoryInfoPortIndex INTEGER,
cmroSruInventoryInfoLinkIndex INTEGER,
cmroSruInventoryInfoRegIndex INTEGER,
cmroSruInventoryInfoString1Type INTEGER,
cmroSruInventoryInfoString2Type INTEGER,
cmroSruInventoryInfoString3Type INTEGER,
cmroSruInventoryInfoString4Type INTEGER,
cmroSruInventoryInfoString5Type INTEGER,
cmroSruInventoryInfoString1 DisplayString,
cmroSruInventoryInfoString2 DisplayString,
cmroSruInventoryInfoString3 DisplayString,
cmroSruInventoryInfoString4 DisplayString,
cmroSruInventoryInfoString5 DisplayString
}
cmroSruInventoryInfoPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmroSruInventoryInfoEntry 1 }
cmroSruInventoryInfoLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmroSruInventoryInfoEntry 2 }
cmroSruInventoryInfoRegIndex OBJECT-TYPE
SYNTAX INTEGER
{
reg11(3),
reg12(4),
reg21(5),
reg22(6),
reg31(7),
reg32(8),
reg41(9),
reg42(10),
reg51(11),
reg52(12),
reg61(13),
reg62(14),
reg71(15),
reg72(16),
reg81(17),
reg82(18),
reg13(19),
reg14(20),
reg23(21),
reg24(22),
reg33(23),
reg34(24),
reg43(25),
reg44(26),
reg53(27),
reg54(28),
reg63(29),
reg64(30),
reg73(31),
reg74(32),
reg83(33),
reg84(34)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the regenerator device and is
used as index for the other elements in the Table"
::= { cmroSruInventoryInfoEntry 3 }
cmroSruInventoryInfoString1Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 1
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruInventoryInfoEntry 4 }
cmroSruInventoryInfoString2Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 2
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruInventoryInfoEntry 5 }
cmroSruInventoryInfoString3Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 3
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruInventoryInfoEntry 6 }
cmroSruInventoryInfoString4Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 4
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruInventoryInfoEntry 7 }
cmroSruInventoryInfoString5Type OBJECT-TYPE
SYNTAX INTEGER
{
empty(1),
dslChip(2),
dslFirmwareLoad(3),
fpgaLoad(4),
ethWanChip(5),
l2sChip(6),
bootLoaderVersion(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Type of InfoString 5
1 Empty InfoString is empty
2 DSL Chip InfoString is related to the DSL Chip
3 DSL Firmware Load InfoString is related to the DSL Firmware Load
4 FPGA Load InfoString is related to the FPGA Load
5 ETH WAN Chip InfoString is related to the Ethernet WAN Chip
5 L2S Chip InfoString is related to the Layer2 Switch Chip
254 unknown value
255 unsupported variable for addressed device"
::= { cmroSruInventoryInfoEntry 8 }
cmroSruInventoryInfoString1 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 1"
::= { cmroSruInventoryInfoEntry 9 }
cmroSruInventoryInfoString2 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 2"
::= { cmroSruInventoryInfoEntry 10 }
cmroSruInventoryInfoString3 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 3"
::= { cmroSruInventoryInfoEntry 11 }
cmroSruInventoryInfoString4 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 4"
::= { cmroSruInventoryInfoEntry 12 }
cmroSruInventoryInfoString5 OBJECT-TYPE
SYNTAX DisplayString(SIZE(25))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"InfoString 5"
::= { cmroSruInventoryInfoEntry 13 }
--==============================================================================
--==============================================================================
--
-- CM-RW
--
--==============================================================================
--==============================================================================
cmrw OBJECT IDENTIFIER ::= { linksVers3 2 }
--------------------------------------------------------------------------------
-- CM-RW sub OIDs
--------------------------------------------------------------------------------
cmrwLocal OBJECT IDENTIFIER ::= { cmrw 1 }
cmrwFar OBJECT IDENTIFIER ::= { cmrw 2 }
cmrwOmi OBJECT IDENTIFIER ::= { cmrw 3 }
cmrwSru OBJECT IDENTIFIER ::= { cmrw 4 }
--------------------------------------------------------------------------------
-- CM-RW local Token
--------------------------------------------------------------------------------
cmrwLocalTokenTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalTokenEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 1 }
cmrwLocalTokenEntry OBJECT-TYPE
SYNTAX CmrwLocalTokenEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalTokenPortIndex, cmrwLocalTokenLinkIndex }
::= { cmrwLocalTokenTable 1 }
CmrwLocalTokenEntry ::=
SEQUENCE
{
cmrwLocalTokenPortIndex INTEGER,
cmrwLocalTokenLinkIndex INTEGER,
cmrwLocalTokenResId INTEGER,
cmrwLocalTokenDipLt INTEGER,
cmrwLocalTokenDipNt INTEGER,
cmrwLocalTokenEoc INTEGER,
cmrwLocalTokenTicket INTEGER,
cmrwLocalTokenRelease INTEGER,
cmrwLocalTokenSessionId INTEGER
}
cmrwLocalTokenPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalTokenEntry 1 }
cmrwLocalTokenLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalTokenEntry 2 }
cmrwLocalTokenResId OBJECT-TYPE
SYNTAX INTEGER
{
available(1),
lineint(2),
lct(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates who is in posession of the reservation token for this
device.
1 Available The token is free
2 Lineint The token is given to the LineIntegrator
3 Lct The token is given to the Local Craft Terminal (LCT)
254 unknown value
255 unsupported variable for the addressed device"
::= { cmrwLocalTokenEntry 3 }
cmrwLocalTokenDipLt OBJECT-TYPE
SYNTAX INTEGER
{
inactive(1),
active(2),
notLt(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the LT is configured by DIP switch. If it is,
then software configuration is not possible.
1 Inactive The LT is not configured by DIP switch
2 Active The LT is configured by DIP switch
3 NotLt The management system is connected to an NT locally
254 Unknown value
255 Unsupported variable for addressed device"
::= { cmrwLocalTokenEntry 4}
cmrwLocalTokenDipNt OBJECT-TYPE
SYNTAX INTEGER
{
inactive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the NT is configured by DIP switch. If it is,
then software configuration is not possible.
1 Inactive The NT is not configured by DIP switch
2 Active The NT is configured by DIP switch
254 Unknown value
255 Unsupported variable for addressed device"
::= { cmrwLocalTokenEntry 5 }
cmrwLocalTokenEoc OBJECT-TYPE
SYNTAX INTEGER
{
inactive(1),
active(2),
reg1(3),
reg2(4),
reg3(5),
reg4(6),
reg5(7),
reg6(8),
reg7(9),
reg8(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether there is an EOC connection between the LT
and the NT over the HDSL link.
1 Inactive EOC connection not available
2 Active EOC connection available
3 Reg1 The EOC is up until the first regenerator section
4 Reg2 The EOC is up until the second regenerator section
5 Reg3 The EOC is up until the third regenerator section
6 Reg4 The EOC is up until the fourth regenerator section
7 Reg5 The EOC is up until the fifth regenerator section
8 Reg6 The EOC is up until the sixth regenerator section
9 Reg7 The EOC is up until the seventh regenerator section
10 Reg8 The EOC is up until the eighth regenerator section
254 Unknown value
255 Unsupported variable for addressed device"
::= { cmrwLocalTokenEntry 6 }
cmrwLocalTokenTicket OBJECT-TYPE
SYNTAX INTEGER
{
token1(1),
token2(2),
token3(3),
token4(4),
token5(5),
token6(6),
token7(7),
token8(8),
token9(9),
token10(10),
notGranted(11),
lost(12),
notRequested(13),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Is used to request or refresh the token
device.
1-10 Token1-10 The token was granted/refreshed, the index helps to detect whether it has expried since last reading from this variable
11 NotGranted The token was not granted
12 Lost The token could not be refreshed
13 NotRequested The token has not been requested
254 unknown value
255 unsupported variable for the addressed device"
::= { cmrwLocalTokenEntry 7 }
cmrwLocalTokenRelease OBJECT-TYPE
SYNTAX INTEGER
{
tokenReleased (1),
noNeedToRelease (2),
notReleased (3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Is used to release the token device.
1 TokenReleased Token has been successfully released.
2 NoNeedToRelease Token was not reserved, so need to release.
3 NotReleased Granted to LCT and coudn`t been released.
254 unknown value
255 unsupported variable for the addressed device"
::= { cmrwLocalTokenEntry 8 }
cmrwLocalTokenSessionId OBJECT-TYPE
SYNTAX INTEGER (0..65535)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates which SNMP management is in posession of the reservation token for this
device.
0 Invalid The session value is invalid
65535 Unsupported Unsupported variable for the addressed device"
::= { cmrwLocalTokenEntry 9 }
--------------------------------------------------------------------------------
-- CM-RW local Common
--------------------------------------------------------------------------------
cmrwLocalCommonTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalCommonEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 2 }
cmrwLocalCommonEntry OBJECT-TYPE
SYNTAX CmrwLocalCommonEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalCommonPortIndex, cmrwLocalCommonLinkIndex }
::= { cmrwLocalCommonTable 1 }
CmrwLocalCommonEntry ::=
SEQUENCE
{
cmrwLocalCommonPortIndex INTEGER,
cmrwLocalCommonLinkIndex INTEGER,
cmrwLocalCommonMode INTEGER,
cmrwLocalCommonFipo INTEGER,
cmrwLocalCommonRps INTEGER,
cmrwLocalCommonTimeslotsU INTEGER,
cmrwLocalCommonClockMode INTEGER,
cmrwLocalCommonMcsStructTdm INTEGER,
cmrwLocalCommonMcsChBandwidth INTEGER,
cmrwLocalCommonRpsCurrent INTEGER,
cmrwLocalCommonLineModulation INTEGER,
cmrwLocalCommonUseFixTimeslotsU INTEGER,
cmrwLocalCommonFixTimeslotsU INTEGER
}
cmrwLocalCommonPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalCommonEntry 1 }
cmrwLocalCommonLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalCommonEntry 2 }
cmrwLocalCommonMode OBJECT-TYPE
SYNTAX INTEGER
{
transparent(1),
structured(2),
pra(3),
data(4),
addDrop(5),
twoMData(6),
twoMAddDrop(7),
manual(8),
tiTwoM(9),
tiData(10),
oneTdmEth(11),
twoTdmEth(12),
fourTdmEth(13),
hTdmEth(14),
ethEth(15),
dualE1(16),
mapped(17),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the basic Mode the device is in. This has an influence on
the default values of most configuration variables (if not overwritten)
and on the limitations of options in the GUI of the element manager.
1 Transparent Transparent G.704 mode 2Mbit/s
2 Structured Structured 2Mbit/s mode (Framed)
3 Pra ISDN PRA mode
4 Data Standard Data-Data application
5 AddDrop Standard Add/Drop-Add/Drop application
6 TwoMData Standard 2Mbit/s-Data application
7 TwoMAddDrop Standard 2Mbit/s-Add/Drop application
8 Manual Manual mode (full freedom for configuration)
9 TiTwoM 2Mbit/s-Data application (TI style)
10 TiData Data-Data application
11 1TdmEth TDM-Ethernet application (TDM:DSL 1:1)
12 2TdmEth TDM-Ethernet application (TDM:DSL 1:2)
13 4TdmEth TDM-Ethernet application (TDM:DSL 1:4)
14 HalfTdmEth TDM-Ethernet application (TDM:DSL 2:1)
15 EthEth Ethernet application with 2 L2 Switches
16 DualE1 Dual E1 application
17 Mapped Mapped mode
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalCommonEntry 3 }
cmrwLocalCommonFipo OBJECT-TYPE
SYNTAX INTEGER
{
normal(1),
fractional(2),
partial(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"FIPO Mode (Fractional Installation/Partial Operation).
This allows the use of only one wire-pair with a reduced
data rate of 960kbit/s (Fractional Installation) or the
operation with two wire-pairs with fall-back to 960kbit/s
if one wire-pair fails.
1 Normal Normal 2Mbit/s operation
2 Fractional Fractional Installation
3 Partial Partial Operation
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalCommonEntry 4 }
cmrwLocalCommonRps OBJECT-TYPE
SYNTAX INTEGER
{
inactive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Used to turn the Remote Power Supply on/off.
1 Inactive The RPS is turned off
2 Active The RPS is turned on
254 unknown value
255 unsupported
"
::= { cmrwLocalCommonEntry 5 }
cmrwLocalCommonTimeslotsU OBJECT-TYPE
SYNTAX INTEGER
{
bw64(1),
bw128(2),
bw192(3),
bw256(4),
bw320(5),
bw384(6),
bw448(7),
bw512(8),
bw576(9),
bw640(10),
bw704(11),
bw768(12),
bw832(13),
bw896(14),
bw960(15),
bw1024(16),
bw1088(17),
bw1152(18),
bw1216(19),
bw1280(20),
bw1344(21),
bw1408(22),
bw1472(23),
bw1536(24),
bw1600(25),
bw1664(26),
bw1728(27),
bw1792(28),
bw1856(29),
bw1920(30),
bw1984(31),
bw2048(32),
bw2112(33),
bw2176(34),
bw2240(35),
bw2304(36),
bw2368(37),
bw2432(38),
bw2496(39),
bw2560(40),
bw2624(41),
bw2688(42),
bw2752(43),
bw2816(44),
bw2880(45),
bw2944(46),
bw3008(47),
bw3072(48),
bw3136(49),
bw3200(50),
bw3264(51),
bw3328(52),
bw3392(53),
bw3456(54),
bw3520(55),
bw3584(56),
bw3648(57),
bw3712(58),
bw3776(59),
bw3840(60),
bw3904(61),
bw3968(62),
bw4032(63),
bw4096(64),
bw4160(65),
bw4224(66),
bw4288(67),
bw4352(68),
bw4416(69),
bw4480(70),
bw4544(71),
bw4608(72),
bw4672(73),
bw4736(74),
bw4800(75),
bw4864(76),
bw4928(77),
bw4992(78),
bw5056(79),
bw5120(80),
bw5184(81),
bw5248(82),
bw5312(83),
bw5376(84),
bw5440(85),
bw5504(86),
bw5568(87),
bw5632(88),
bw5696(89),
bw5760(90),
bw5824(91),
bw5888(92),
bw5952(93),
bw6016(94),
bw6080(95),
bw6144(96),
bw6208(97),
bw6272(98),
bw6336(99),
bw6400(100),
bw6464(101),
bw6528(102),
bw6592(103),
bw6656(104),
bw6720(105),
bw6784(106),
bw6848(107),
bw6912(108),
bw6976(109),
bw7040(110),
bw7104(111),
bw7168(112),
bw7232(113),
bw7296(114),
bw7360(115),
bw7424(116),
bw7488(117),
bw7552(118),
bw7616(119),
bw7680(120),
bw7744(121),
bw7808(122),
bw7872(123),
bw7936(124),
bw8000(125),
bw8064(126),
bw8128(127),
bw8192(128),
bw8256(129),
bw8320(130),
bw8384(131),
bw8448(132),
bw8512(133),
bw8576(134),
bw8640(135),
bw8704(136),
bw8768(137),
bw8832(138),
bw8896(139),
bw8960(140),
bw9024(141),
bw9088(142),
bw9152(143),
bw9216(144),
bw9280(145),
bw9344(146),
bw9408(147),
bw9472(148),
bw9536(149),
bw9600(150),
bw9664(151),
bw9728(152),
bw9792(153),
bw9856(154),
bw9920(155),
bw9984(156),
bw10048(157),
bw10112(158),
bw10176(159),
bw10240(160),
bw10304(161),
bw10368(162),
bw10432(163),
bw10496(164),
bw10560(165),
bw10624(166),
bw10688(167),
bw10752(168),
bw10816(169),
bw10880(170),
bw10944(171),
bw11008(172),
bw11072(173),
bw11136(174),
bw11200(175),
bw11264(176),
bw11328(177),
bw11392(178),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Bandwidth allocated for transmission interface (U-Interface) as
a number of 64kbit/s time slots.
When reading the following values can be returned:
1 bw64 Bandwidth 64 kbit/s
2 bw128 Bandwidth 128 kbit/s
3 bw192 Bandwidth 192 kbit/s
4 bw256 Bandwidth 256 kbit/s
5 bw320 Bandwidth 320 kbit/s
6 bw384 Bandwidth 384 kbit/s
7 bw448 Bandwidth 448 kbit/s
8 bw512 Bandwidth 512 kbit/s
9 bw576 Bandwidth 576 kbit/s
10 bw640 Bandwidth 640 kbit/s
11 bw704 Bandwidth 704 kbit/s
12 bw768 Bandwidth 768 kbit/s
13 bw832 Bandwidth 832 kbit/s
14 bw896 Bandwidth 896 kbit/s
15 bw960 Bandwidth 960 kbit/s
16 bw1024 Bandwidth 1024 kbit/s
17 bw1088 Bandwidth 1088 kbit/s
18 bw1152 Bandwidth 1152 kbit/s
19 bw1216 Bandwidth 1216 kbit/s
20 bw1280 Bandwidth 1280 kbit/s
21 bw1344 Bandwidth 1344 kbit/s
22 bw1408 Bandwidth 1408 kbit/s
23 bw1472 Bandwidth 1472 kbit/s
24 bw1536 Bandwidth 1536 kbit/s
25 bw1600 Bandwidth 1600 kbit/s
26 bw1664 Bandwidth 1664 kbit/s
27 bw1728 Bandwidth 1728 kbit/s
28 bw1792 Bandwidth 1792 kbit/s
29 bw1856 Bandwidth 1856 kbit/s
30 bw1920 Bandwidth 1920 kbit/s
31 bw1984 Bandwidth 1984 kbit/s
32 bw2048 Bandwidth 2048 kbit/s
33 bw2112 Bandwidth 2112 kbit/s
34 bw2176 Bandwidth 2176 kbit/s
35 bw2240 Bandwidth 2240 kbit/s
36 bw2304 Bandwidth 2304 kbit/s
37 bw2368 Bandwidth 2368 kbit/s
38 bw2432 Bandwidth 2432 kbit/s
39 bw2496 Bandwidth 2496 kbit/s
40 bw2560 Bandwidth 2560 kbit/s
41 bw2624 Bandwidth 2624 kbit/s
42 bw2688 Bandwidth 2688 kbit/s
43 bw2752 Bandwidth 2752 kbit/s
44 bw2816 Bandwidth 2816 kbit/s
45 bw2880 Bandwidth 2880 kbit/s
46 bw2944 Bandwidth 2944 kbit/s
47 bw3008 Bandwidth 3008 kbit/s
48 bw3072 Bandwidth 3072 kbit/s
49 bw3136 Bandwidth 3136 kbit/s
50 bw3200 Bandwidth 3200 kbit/s
51 bw3264 Bandwidth 3264 kbit/s
52 bw3328 Bandwidth 3328 kbit/s
53 bw3392 Bandwidth 3392 kbit/s
54 bw3456 Bandwidth 3456 kbit/s
55 bw3520 Bandwidth 3520 kbit/s
56 bw3584 Bandwidth 3584 kbit/s
57 bw3648 Bandwidth 3648 kbit/s
58 bw3712 Bandwidth 3712 kbit/s
59 bw3776 Bandwidth 3776 kbit/s
60 bw3840 Bandwidth 3840 kbit/s
61 bw3904 Bandwidth 3904 kbit/s
62 bw3968 Bandwidth 3968 kbit/s
63 bw4032 Bandwidth 4032 kbit/s
64 bw4096 Bandwidth 4096 kbit/s
65 bw4160 Bandwidth 4160 kbit/s
66 bw4224 Bandwidth 4224 kbit/s
67 bw4288 Bandwidth 4288 kbit/s
68 bw4352 Bandwidth 4352 kbit/s
69 bw4416 Bandwidth 4416 kbit/s
70 bw4480 Bandwidth 4480 kbit/s
71 bw4544 Bandwidth 4544 kbit/s
72 bw4608 Bandwidth 4608 kbit/s
73 bw4672 Bandwidth 4672 kbit/s
74 bw4736 Bandwidth 4736 kbit/s
75 bw4800 Bandwidth 4800 kbit/s
76 bw4864 Bandwidth 4864 kbit/s
77 bw4928 Bandwidth 4928 kbit/s
78 bw4992 Bandwidth 4992 kbit/s
79 bw5056 Bandwidth 5056 kbit/s
80 bw5120 Bandwidth 5120 kbit/s
81 bw5184 Bandwidth 5184 kbit/s
82 bw5248 Bandwidth 5248 kbit/s
83 bw5312 Bandwidth 5312 kbit/s
84 bw5376 Bandwidth 5376 kbit/s
85 bw5440 Bandwidth 5440 kbit/s
86 bw5504 Bandwidth 5504 kbit/s
87 bw5568 Bandwidth 5568 kbit/s
88 bw5632 Bandwidth 5632 kbit/s
89 bw5696 Bandwidth 5696 kbit/s
90 bw5760 Bandwidth 5760 kbit/s
91 bw5824 Bandwidth 5824 kbit/s
92 bw5888 Bandwidth 5888 kbit/s
93 bw5952 Bandwidth 5952 kbit/s
94 bw6016 Bandwidth 6016 kbit/s
95 bw6080 Bandwidth 6080 kbit/s
96 bw6144 Bandwidth 6144 kbit/s
97 bw6208 Bandwidth 6208 kbit/s
98 bw6272 Bandwidth 6272 kbit/s
99 bw6336 Bandwidth 6336 kbit/s
100 bw6400 Bandwidth 6400 kbit/s
101 bw6464 Bandwidth 6464 kbit/s
102 bw6528 Bandwidth 6528 kbit/s
103 bw6592 Bandwidth 6592 kbit/s
104 bw6656 Bandwidth 6656 kbit/s
105 bw6720 Bandwidth 6720 kbit/s
106 bw6784 Bandwidth 6784 kbit/s
107 bw6848 Bandwidth 6848 kbit/s
108 bw6912 Bandwidth 6912 kbit/s
109 bw6976 Bandwidth 6976 kbit/s
110 bw7040 Bandwidth 7040 kbit/s
111 bw7104 Bandwidth 7104 kbit/s
112 bw7168 Bandwidth 7168 kbit/s
113 bw7232 Bandwidth 7232 kbit/s
114 bw7296 Bandwidth 7296 kbit/s
115 bw7360 Bandwidth 7360 kbit/s
116 bw7424 Bandwidth 7424 kbit/s
117 bw7488 Bandwidth 7488 kbit/s
118 bw7552 Bandwidth 7552 kbit/s
119 bw7616 Bandwidth 7616 kbit/s
120 bw7680 Bandwidth 7680 kbit/s
121 bw7744 Bandwidth 7744 kbit/s
122 bw7808 Bandwidth 7808 kbit/s
123 bw7872 Bandwidth 7872 kbit/s
124 bw7936 Bandwidth 7936 kbit/s
125 bw8000 Bandwidth 8000 kbit/s
126 bw8064 Bandwidth 8064 kbit/s
127 bw8128 Bandwidth 8128 kbit/s
128 bw8192 Bandwidth 8192 kbit/s
129 bw8256 Bandwidth 8256 kbit/s
130 bw8320 Bandwidth 8320 kbit/s
131 bw8384 Bandwidth 8384 kbit/s
132 bw8448 Bandwidth 8448 kbit/s
133 bw8512 Bandwidth 8512 kbit/s
134 bw8576 Bandwidth 8576 kbit/s
135 bw8640 Bandwidth 8640 kbit/s
136 bw8704 Bandwidth 8704 kbit/s
137 bw8768 Bandwidth 8768 kbit/s
138 bw8832 Bandwidth 8832 kbit/s
139 bw8896 Bandwidth 8896 kbit/s
140 bw8960 Bandwidth 8960 kbit/s
141 bw9024 Bandwidth 9024 kbit/s
142 bw9088 Bandwidth 9088 kbit/s
143 bw9152 Bandwidth 9152 kbit/s
144 bw9216 Bandwidth 9216 kbit/s
145 bw9280 Bandwidth 9280 kbit/s
146 bw9344 Bandwidth 9344 kbit/s
147 bw9408 Bandwidth 9408 kbit/s
148 bw9472 Bandwidth 9472 kbit/s
149 bw9536 Bandwidth 9536 kbit/s
150 bw9600 Bandwidth 9600 kbit/s
151 bw9664 Bandwidth 9664 kbit/s
152 bw9728 Bandwidth 9728 kbit/s
153 bw9792 Bandwidth 9792 kbit/s
154 bw9856 Bandwidth 9856 kbit/s
155 bw9920 Bandwidth 9920 kbit/s
156 bw9984 Bandwidth 9984 kbit/s
157 bw10048 Bandwidth 10048 kbit/s
158 bw10112 Bandwidth 10112 kbit/s
159 bw10176 Bandwidth 10176 kbit/s
160 bw10240 Bandwidth 10240 kbit/s
161 bw10304 Bandwidth 10304 kbit/s
162 bw10368 Bandwidth 10368 kbit/s
163 bw10432 Bandwidth 10432 kbit/s
164 bw10496 Bandwidth 10496 kbit/s
165 bw10560 Bandwidth 10560 kbit/s
166 bw10624 Bandwidth 10624 kbit/s
167 bw10688 Bandwidth 10688 kbit/s
168 bw10752 Bandwidth 10752 kbit/s
169 bw10816 Bandwidth 10816 kbit/s
170 bw10880 Bandwidth 10880 kbit/s
171 bw10944 Bandwidth 10944 kbit/s
172 bw11008 Bandwidth 11008 kbit/s
173 bw11072 Bandwidth 11072 kbit/s
174 bw11136 Bandwidth 11136 kbit/s
175 bw11200 Bandwidth 11200 kbit/s
176 bw11264 Bandwidth 11264 kbit/s
177 bw11328 Bandwidth 11328 kbit/s
178 bw11392 Bandwidth 11392 kbit/s
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalCommonEntry 6 }
cmrwLocalCommonClockMode OBJECT-TYPE
SYNTAX INTEGER
{
systemClock(1),
shdslClock(2),
synchronousClock(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Source for the clock out.
1 SystemClock The source is the system clock
2 ShdslClock The source is the SHDSL clock
3 SynchronousClock Clock Mode 3a (synchronous)
254 unknown value
255 unsupported
"
::= { cmrwLocalCommonEntry 7 }
cmrwLocalCommonMcsStructTdm OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines whether MCS framing for structured TDM
networks is enabled or not.
1 Disabled Transparent TDM network
2 Enabled Structured TDM network (TS0)
254 unknown value
255 unsupported
"
::= { cmrwLocalCommonEntry 8 }
cmrwLocalCommonMcsChBandwidth OBJECT-TYPE
SYNTAX INTEGER
{
bw64(1),
bw128(2),
bw192(3),
bw256(4),
bw320(5),
bw384(6),
bw448(7),
bw512(8),
bw576(9),
bw640(10),
bw704(11),
bw768(12),
bw832(13),
bw896(14),
bw960(15),
bw1024(16),
bw1088(17),
bw1152(18),
bw1216(19),
bw1280(20),
bw1344(21),
bw1408(22),
bw1472(23),
bw1536(24),
bw1600(25),
bw1664(26),
bw1728(27),
bw1792(28),
bw1856(29),
bw1920(30),
bw1984(31),
bw2048(32),
bw2112(33),
bw2176(34),
bw2240(35),
bw2304(36),
bw2368(37),
bw2432(38),
bw2496(39),
bw2560(40),
bw2624(41),
bw2688(42),
bw2752(43),
bw2816(44),
bw2880(45),
bw2944(46),
bw3008(47),
bw3072(48),
bw3136(49),
bw3200(50),
bw3264(51),
bw3328(52),
bw3392(53),
bw3456(54),
bw3520(55),
bw3584(56),
bw3648(57),
bw3712(58),
bw3776(59),
bw3840(60),
bw3904(61),
bw3968(62),
bw4032(63),
bw4096(64),
bw4160(65),
bw4224(66),
bw4288(67),
bw4352(68),
bw4416(69),
bw4480(70),
bw4544(71),
bw4608(72),
bw4672(73),
bw4736(74),
bw4800(75),
bw4864(76),
bw4928(77),
bw4992(78),
bw5056(79),
bw5120(80),
bw5184(81),
bw5248(82),
bw5312(83),
bw5376(84),
bw5440(85),
bw5504(86),
bw5568(87),
bw5632(88),
bw5696(89),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Bandwidth allocated for all MCS channels as
a number of 64kbit/s time slots. Between 1 and 89.
When reading the following values can also be returned:
1 bw64 Bandwidth 64 kbit/s
2 bw128 Bandwidth 128 kbit/s
3 bw192 Bandwidth 192 kbit/s
4 bw256 Bandwidth 256 kbit/s
5 bw320 Bandwidth 320 kbit/s
6 bw384 Bandwidth 384 kbit/s
7 bw448 Bandwidth 448 kbit/s
8 bw512 Bandwidth 512 kbit/s
9 bw576 Bandwidth 576 kbit/s
10 bw640 Bandwidth 640 kbit/s
11 bw704 Bandwidth 704 kbit/s
12 bw768 Bandwidth 768 kbit/s
13 bw832 Bandwidth 832 kbit/s
14 bw896 Bandwidth 896 kbit/s
15 bw960 Bandwidth 960 kbit/s
16 bw1024 Bandwidth 1024 kbit/s
17 bw1088 Bandwidth 1088 kbit/s
18 bw1152 Bandwidth 1152 kbit/s
19 bw1216 Bandwidth 1216 kbit/s
20 bw1280 Bandwidth 1280 kbit/s
21 bw1344 Bandwidth 1344 kbit/s
22 bw1408 Bandwidth 1408 kbit/s
23 bw1472 Bandwidth 1472 kbit/s
24 bw1536 Bandwidth 1536 kbit/s
25 bw1600 Bandwidth 1600 kbit/s
26 bw1664 Bandwidth 1664 kbit/s
27 bw1728 Bandwidth 1728 kbit/s
28 bw1792 Bandwidth 1792 kbit/s
29 bw1856 Bandwidth 1856 kbit/s
30 bw1920 Bandwidth 1920 kbit/s
31 bw1984 Bandwidth 1984 kbit/s
32 bw2048 Bandwidth 2048 kbit/s
33 bw2112 Bandwidth 2112 kbit/s
34 bw2176 Bandwidth 2176 kbit/s
35 bw2240 Bandwidth 2240 kbit/s
36 bw2304 Bandwidth 2304 kbit/s
37 bw2368 Bandwidth 2368 kbit/s
38 bw2432 Bandwidth 2432 kbit/s
39 bw2496 Bandwidth 2496 kbit/s
40 bw2560 Bandwidth 2560 kbit/s
41 bw2624 Bandwidth 2624 kbit/s
42 bw2688 Bandwidth 2688 kbit/s
43 bw2752 Bandwidth 2752 kbit/s
44 bw2816 Bandwidth 2816 kbit/s
45 bw2880 Bandwidth 2880 kbit/s
46 bw2944 Bandwidth 2944 kbit/s
47 bw3008 Bandwidth 3008 kbit/s
48 bw3072 Bandwidth 3072 kbit/s
49 bw3136 Bandwidth 3136 kbit/s
50 bw3200 Bandwidth 3200 kbit/s
51 bw3264 Bandwidth 3264 kbit/s
52 bw3328 Bandwidth 3328 kbit/s
53 bw3392 Bandwidth 3392 kbit/s
54 bw3456 Bandwidth 3456 kbit/s
55 bw3520 Bandwidth 3520 kbit/s
56 bw3584 Bandwidth 3584 kbit/s
57 bw3648 Bandwidth 3648 kbit/s
58 bw3712 Bandwidth 3712 kbit/s
59 bw3776 Bandwidth 3776 kbit/s
60 bw3840 Bandwidth 3840 kbit/s
61 bw3904 Bandwidth 3904 kbit/s
62 bw3968 Bandwidth 3968 kbit/s
63 bw4032 Bandwidth 4032 kbit/s
64 bw4096 Bandwidth 4096 kbit/s
65 bw4160 Bandwidth 4160 kbit/s
66 bw4224 Bandwidth 4224 kbit/s
67 bw4288 Bandwidth 4288 kbit/s
68 bw4352 Bandwidth 4352 kbit/s
69 bw4416 Bandwidth 4416 kbit/s
70 bw4480 Bandwidth 4480 kbit/s
71 bw4544 Bandwidth 4544 kbit/s
72 bw4608 Bandwidth 4608 kbit/s
73 bw4672 Bandwidth 4672 kbit/s
74 bw4736 Bandwidth 4736 kbit/s
75 bw4800 Bandwidth 4800 kbit/s
76 bw4864 Bandwidth 4864 kbit/s
77 bw4928 Bandwidth 4928 kbit/s
78 bw4992 Bandwidth 4992 kbit/s
79 bw5056 Bandwidth 5056 kbit/s
80 bw5120 Bandwidth 5120 kbit/s
81 bw5184 Bandwidth 5184 kbit/s
82 bw5248 Bandwidth 5248 kbit/s
83 bw5312 Bandwidth 5312 kbit/s
84 bw5376 Bandwidth 5376 kbit/s
85 bw5440 Bandwidth 5440 kbit/s
86 bw5504 Bandwidth 5504 kbit/s
87 bw5568 Bandwidth 5568 kbit/s
88 bw5632 Bandwidth 5632 kbit/s
89 bw5696 Bandwidth 5696 kbit/s
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalCommonEntry 9 }
cmrwLocalCommonRpsCurrent OBJECT-TYPE
SYNTAX INTEGER
{
mA50(50),
mA60(60),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the Remote Power Supply current.
50 mA50 RPS current limied to 50 mA
60 mA60 RPS current limited to 60 mA
254 unknown value
255 unsupported
"
::= {cmrwLocalCommonEntry 10 }
cmrwLocalCommonLineModulation OBJECT-TYPE
SYNTAX INTEGER
{
tcpam16(1),
tcpam32(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the Remote Power Supply current.
1 TC-PAM16 Line modulation TC-PAM16
2 TC-PAM32 Line modulation TC-PAM32
254 unknown value
255 unsupported
"
::= {cmrwLocalCommonEntry 11 }
cmrwLocalCommonUseFixTimeslotsU OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Enable or disable the fixed SHDSL Bitrate
configured in cmrwLocalCommonFixTimeslotsU.
1 Disabled SHDSL Bitrate is not fixed
2 Enabled SHDSL Bitrate is fixed
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalCommonEntry 12 }
cmrwLocalCommonFixTimeslotsU OBJECT-TYPE
SYNTAX INTEGER
{
bw64(1),
bw128(2),
bw192(3),
bw256(4),
bw320(5),
bw384(6),
bw448(7),
bw512(8),
bw576(9),
bw640(10),
bw704(11),
bw768(12),
bw832(13),
bw896(14),
bw960(15),
bw1024(16),
bw1088(17),
bw1152(18),
bw1216(19),
bw1280(20),
bw1344(21),
bw1408(22),
bw1472(23),
bw1536(24),
bw1600(25),
bw1664(26),
bw1728(27),
bw1792(28),
bw1856(29),
bw1920(30),
bw1984(31),
bw2048(32),
bw2112(33),
bw2176(34),
bw2240(35),
bw2304(36),
bw2368(37),
bw2432(38),
bw2496(39),
bw2560(40),
bw2624(41),
bw2688(42),
bw2752(43),
bw2816(44),
bw2880(45),
bw2944(46),
bw3008(47),
bw3072(48),
bw3136(49),
bw3200(50),
bw3264(51),
bw3328(52),
bw3392(53),
bw3456(54),
bw3520(55),
bw3584(56),
bw3648(57),
bw3712(58),
bw3776(59),
bw3840(60),
bw3904(61),
bw3968(62),
bw4032(63),
bw4096(64),
bw4160(65),
bw4224(66),
bw4288(67),
bw4352(68),
bw4416(69),
bw4480(70),
bw4544(71),
bw4608(72),
bw4672(73),
bw4736(74),
bw4800(75),
bw4864(76),
bw4928(77),
bw4992(78),
bw5056(79),
bw5120(80),
bw5184(81),
bw5248(82),
bw5312(83),
bw5376(84),
bw5440(85),
bw5504(86),
bw5568(87),
bw5632(88),
bw5696(89),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Fixed SHDSL Bitrate per Wire Pair (can be enabled
by configuring cmrwLocalCommonUseFixTimeslotsU).
When reading the following values can be returned:
1 bw64 Bandwidth 64 kbit/s
2 bw128 Bandwidth 128 kbit/s
3 bw192 Bandwidth 192 kbit/s
4 bw256 Bandwidth 256 kbit/s
5 bw320 Bandwidth 320 kbit/s
6 bw384 Bandwidth 384 kbit/s
7 bw448 Bandwidth 448 kbit/s
8 bw512 Bandwidth 512 kbit/s
9 bw576 Bandwidth 576 kbit/s
10 bw640 Bandwidth 640 kbit/s
11 bw704 Bandwidth 704 kbit/s
12 bw768 Bandwidth 768 kbit/s
13 bw832 Bandwidth 832 kbit/s
14 bw896 Bandwidth 896 kbit/s
15 bw960 Bandwidth 960 kbit/s
16 bw1024 Bandwidth 1024 kbit/s
17 bw1088 Bandwidth 1088 kbit/s
18 bw1152 Bandwidth 1152 kbit/s
19 bw1216 Bandwidth 1216 kbit/s
20 bw1280 Bandwidth 1280 kbit/s
21 bw1344 Bandwidth 1344 kbit/s
22 bw1408 Bandwidth 1408 kbit/s
23 bw1472 Bandwidth 1472 kbit/s
24 bw1536 Bandwidth 1536 kbit/s
25 bw1600 Bandwidth 1600 kbit/s
26 bw1664 Bandwidth 1664 kbit/s
27 bw1728 Bandwidth 1728 kbit/s
28 bw1792 Bandwidth 1792 kbit/s
29 bw1856 Bandwidth 1856 kbit/s
30 bw1920 Bandwidth 1920 kbit/s
31 bw1984 Bandwidth 1984 kbit/s
32 bw2048 Bandwidth 2048 kbit/s
33 bw2112 Bandwidth 2112 kbit/s
34 bw2176 Bandwidth 2176 kbit/s
35 bw2240 Bandwidth 2240 kbit/s
36 bw2304 Bandwidth 2304 kbit/s
37 bw2368 Bandwidth 2368 kbit/s
38 bw2432 Bandwidth 2432 kbit/s
39 bw2496 Bandwidth 2496 kbit/s
40 bw2560 Bandwidth 2560 kbit/s
41 bw2624 Bandwidth 2624 kbit/s
42 bw2688 Bandwidth 2688 kbit/s
43 bw2752 Bandwidth 2752 kbit/s
44 bw2816 Bandwidth 2816 kbit/s
45 bw2880 Bandwidth 2880 kbit/s
46 bw2944 Bandwidth 2944 kbit/s
47 bw3008 Bandwidth 3008 kbit/s
48 bw3072 Bandwidth 3072 kbit/s
49 bw3136 Bandwidth 3136 kbit/s
50 bw3200 Bandwidth 3200 kbit/s
51 bw3264 Bandwidth 3264 kbit/s
52 bw3328 Bandwidth 3328 kbit/s
53 bw3392 Bandwidth 3392 kbit/s
54 bw3456 Bandwidth 3456 kbit/s
55 bw3520 Bandwidth 3520 kbit/s
56 bw3584 Bandwidth 3584 kbit/s
57 bw3648 Bandwidth 3648 kbit/s
58 bw3712 Bandwidth 3712 kbit/s
59 bw3776 Bandwidth 3776 kbit/s
60 bw3840 Bandwidth 3840 kbit/s
61 bw3904 Bandwidth 3904 kbit/s
62 bw3968 Bandwidth 3968 kbit/s
63 bw4032 Bandwidth 4032 kbit/s
64 bw4096 Bandwidth 4096 kbit/s
65 bw4160 Bandwidth 4160 kbit/s
66 bw4224 Bandwidth 4224 kbit/s
67 bw4288 Bandwidth 4288 kbit/s
68 bw4352 Bandwidth 4352 kbit/s
69 bw4416 Bandwidth 4416 kbit/s
70 bw4480 Bandwidth 4480 kbit/s
71 bw4544 Bandwidth 4544 kbit/s
72 bw4608 Bandwidth 4608 kbit/s
73 bw4672 Bandwidth 4672 kbit/s
74 bw4736 Bandwidth 4736 kbit/s
75 bw4800 Bandwidth 4800 kbit/s
76 bw4864 Bandwidth 4864 kbit/s
77 bw4928 Bandwidth 4928 kbit/s
78 bw4992 Bandwidth 4992 kbit/s
79 bw5056 Bandwidth 5056 kbit/s
80 bw5120 Bandwidth 5120 kbit/s
81 bw5184 Bandwidth 5184 kbit/s
82 bw5248 Bandwidth 5248 kbit/s
83 bw5312 Bandwidth 5312 kbit/s
84 bw5376 Bandwidth 5376 kbit/s
85 bw5440 Bandwidth 5440 kbit/s
86 bw5504 Bandwidth 5504 kbit/s
87 bw5568 Bandwidth 5568 kbit/s
88 bw5632 Bandwidth 5632 kbit/s
89 bw5696 Bandwidth 5696 kbit/s
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalCommonEntry 13 }
--------------------------------------------------------------------------------
-- CM-RW local Clock
--------------------------------------------------------------------------------
cmrwLocalClockTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalClockEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 3 }
cmrwLocalClockEntry OBJECT-TYPE
SYNTAX CmrwLocalClockEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalClockPortIndex, cmrwLocalClockLinkIndex }
::= { cmrwLocalClockTable 1 }
CmrwLocalClockEntry ::=
SEQUENCE
{
cmrwLocalClockPortIndex INTEGER,
cmrwLocalClockLinkIndex INTEGER,
cmrwLocalClockActive INTEGER,
cmrwLocalClockT3InAvailable INTEGER,
cmrwLocalClockTInterfaceAvailable INTEGER,
cmrwLocalClockUInterfaceAvailable INTEGER,
cmrwLocalClockInternalAvailable INTEGER,
cmrwLocalClockPriority OCTET STRING
}
cmrwLocalClockPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalClockEntry 1 }
cmrwLocalClockLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalClockEntry 2 }
cmrwLocalClockActive OBJECT-TYPE
SYNTAX INTEGER
{
t3in(1),
tInterface(2),
uInterface(3),
internal(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which clock source is currently being used.
1 T3In Uses Clock input T3In
2 TInterface Taking Clock from signal on T-Interface
3 UInterface Taking Clock from signal on U-Interface
4 Internal Using internal oscillator to generate Clock
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalClockEntry 3 }
cmrwLocalClockT3InAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether Clock Input T3In is available
1 False Clock Input T3In not available
2 True Clock Input T3In available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalClockEntry 4 }
cmrwLocalClockTInterfaceAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether a clock signal can be derrived from the signal
on the T-Interface
1 False Clock signal available
2 True Clock signal available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalClockEntry 5 }
cmrwLocalClockUInterfaceAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether a clock signal can be derrived from the signal
on the U-Interface
1 False Clock signal available
2 True Clock signal available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalClockEntry 6 }
cmrwLocalClockInternalAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether the internal oscillator is available
1 False oscillator not available
2 True oscillator available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalClockEntry 7 }
cmrwLocalClockPriority OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(4))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Used to read and set the clock priority for the different
clock sources. The variable is an array with length 4. The
indices correspond to the priorities (0=highest, 3=lowest).
The following values can be contained in each position,
indicating which clock source has the corresponding priority:
1 T3In Clock Input T3In
2 TInterface Clock derrived from Signal at T-Interface
3 UInterface Clock derrived from Signal at U-Interface
4 Internal Internal oscillator
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalClockEntry 8 }
--------------------------------------------------------------------------------
-- CM-RW local 2M
--------------------------------------------------------------------------------
cmrwLocal2MTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocal2MEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 4 }
cmrwLocal2MEntry OBJECT-TYPE
SYNTAX CmrwLocal2MEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocal2MPortIndex, cmrwLocal2MLinkIndex }
::= { cmrwLocal2MTable 1 }
CmrwLocal2MEntry ::=
SEQUENCE
{
cmrwLocal2MPortIndex INTEGER,
cmrwLocal2MLinkIndex INTEGER,
cmrwLocal2MFraming INTEGER,
cmrwLocal2MEnableT INTEGER,
cmrwLocal2MTimeslotsT INTEGER,
cmrwLocal2MIdlecodeT INTEGER,
cmrwLocal2MCrc4T INTEGER,
cmrwLocal2MCrc4U INTEGER,
cmrwLocal2MDetectAis INTEGER,
cmrwLocal2MInsertAis INTEGER,
cmrwLocal2MSaBits OCTET STRING,
cmrwLocal2MTs16Signalling INTEGER,
cmrwLocal2MIdlecodeU INTEGER,
cmrwLocal2MTs0Present INTEGER,
cmrwLocal2MCrc4V INTEGER,
cmrwLocal2MInterfaceImpedance INTEGER
}
cmrwLocal2MPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocal2MEntry 1 }
cmrwLocal2MLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocal2MEntry 2 }
cmrwLocal2MFraming OBJECT-TYPE
SYNTAX INTEGER
{
transparent(1),
monitoring(2),
termination(3),
channelized(4),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Configures Frame Alignment
1 Transparent No frame or multi-frame synchronisation
2 Monitoring Frame and Multi-Frame synchronisation but no reinsertion of Frame
3 Termination Frame and Multi-Frame synchronisation and reinsertion
4 Channelized Frame and Multi-Frame synchronisation without transmission of timeslot 0
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 3 }
cmrwLocal2MEnableT OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Enable or disable the G.703 interface (T-Interface)
1 Disabled G.703 Interface is disabled
2 Enabled G.703 Interface is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 4 }
cmrwLocal2MTimeslotsT OBJECT-TYPE
SYNTAX INTEGER
{
bw64(1),
bw128(2),
bw192(3),
bw256(4),
bw320(5),
bw384(6),
bw448(7),
bw512(8),
bw576(9),
bw640(10),
bw704(11),
bw768(12),
bw832(13),
bw896(14),
bw960(15),
bw1024(16),
bw1088(17),
bw1152(18),
bw1216(19),
bw1280(20),
bw1344(21),
bw1408(22),
bw1472(23),
bw1536(24),
bw1600(25),
bw1664(26),
bw1728(27),
bw1792(28),
bw1856(29),
bw1920(30),
bw1984(31),
bw2048(32),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Bandwidth allocated for G.703 Interface (T-Interface) as
a number of 64kbit/s time slots. Between 1 and 32.
When reading the following values can also be returned:
1 bw64 Bandwidth 64 kbit/s
2 bw128 Bandwidth 128 kbit/s
3 bw192 Bandwidth 192 kbit/s
4 bw256 Bandwidth 256 kbit/s
5 bw320 Bandwidth 320 kbit/s
6 bw384 Bandwidth 384 kbit/s
7 bw448 Bandwidth 448 kbit/s
8 bw512 Bandwidth 512 kbit/s
9 bw576 Bandwidth 576 kbit/s
10 bw640 Bandwidth 640 kbit/s
11 bw704 Bandwidth 704 kbit/s
12 bw768 Bandwidth 768 kbit/s
13 bw832 Bandwidth 832 kbit/s
14 bw896 Bandwidth 896 kbit/s
15 bw960 Bandwidth 960 kbit/s
16 bw1024 Bandwidth 1024 kbit/s
17 bw1088 Bandwidth 1088 kbit/s
18 bw1152 Bandwidth 1152 kbit/s
19 bw1216 Bandwidth 1216 kbit/s
20 bw1280 Bandwidth 1280 kbit/s
21 bw1344 Bandwidth 1344 kbit/s
22 bw1408 Bandwidth 1408 kbit/s
23 bw1472 Bandwidth 1472 kbit/s
24 bw1536 Bandwidth 1536 kbit/s
25 bw1600 Bandwidth 1600 kbit/s
26 bw1664 Bandwidth 1664 kbit/s
27 bw1728 Bandwidth 1728 kbit/s
28 bw1792 Bandwidth 1792 kbit/s
29 bw1856 Bandwidth 1856 kbit/s
30 bw1920 Bandwidth 1920 kbit/s
31 bw1984 Bandwidth 1984 kbit/s
32 bw2048 Bandwidth 2048 kbit/s
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 5 }
cmrwLocal2MIdlecodeT OBJECT-TYPE
SYNTAX INTEGER
{
ais(1),
es(2),
pais(3),
none(4),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Idle Code on the T-Interface.
1 AIS AIS
2 ES ES
3 PAIS PAIS
4 None No Idle Code
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 6 }
cmrwLocal2MCrc4T OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
autoOff(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether CRC-4 evaluation at the T-Interface is done.
1 Off CRC-4 Data is not evaluated
2 On CRC-4 Data is evaluated, error if none present in signal
3 AutoOff CRC-4 Data is evaluated, if none is present, evaluation is disabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 7 }
cmrwLocal2MCrc4U OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether CRC-4 evaluation at the U-Interface is done.
1 Off CRC-4 Data is not evaluated
2 On CRC-4 Data is evaluated, error if none present in signal
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 8 }
cmrwLocal2MDetectAis OBJECT-TYPE
SYNTAX INTEGER
{
noDetect(1),
detect(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether AIS detection is enabled or not
1 NoDetect AIS is not detected
2 Detect AIS is detected
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 9 }
cmrwLocal2MInsertAis OBJECT-TYPE
SYNTAX INTEGER
{
noInsertion(1),
insertion(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether an AIS signal is regenerated or just passed through
1 NoInsertion Pass signal through
2 Insertion Regenerate signal
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 10 }
cmrwLocal2MSaBits OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(6))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Contains the Sa-bit configuration. The variable is an array with length 6.
The indicies address the Sa bits as follows:
[0] Sa4
[1] Sa5
[2] Sa6
[3] Sa7
[4] Sa8
[5] Sa6 Loop Detection
Positions 0,3 and 4 (Sa4, Sa7, Sa8) can contain the following values:
1 Transparent
2 Constant Ones
Position 1 (Sa5) can contain the following values:
1 Transparent
2 Constant Ones
3 Insert
Position 2 (Sa6) can contain the following values:
1 Transparent
2 Constant Ones
3 ETSI Norm
4 ANSI Norm
Position 5 (Sa6 Loop Detection) can contain the following values:
1 Loop Detection Off
2 Loop Detection On
All 6 positions can contain the values below:
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 11 }
cmrwLocal2MTs16Signalling OBJECT-TYPE
SYNTAX INTEGER
{
transparent(1),
new(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether time slot 16 is passed through transparently or
whether it is reinsertet.
1 Transparent Passing through TS16
2 New Reinserting TS16
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 12 }
cmrwLocal2MIdlecodeU OBJECT-TYPE
SYNTAX INTEGER
{
ais(1),
es(2),
pais(3),
none(4),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Idle Code on the U-Interface.
1 AIS AIS
2 ES ES
3 PAIS PAIS
4 none no Idle Code
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 13 }
cmrwLocal2MTs0Present OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether timeslot 0 (G.704 frame) is actually
transmitted by the U interface.
1 No Timeslot 0 is re-inserted by receiver
2 Yes Timeslot 0 is actually sent
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 14 }
cmrwLocal2MCrc4V OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether CRC-4 evaluation at the V-Interfaces is done.
1 Off CRC-4 Data is not evaluated
2 On CRC-4 Data is evaluated, error if none present in signal
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 15 }
cmrwLocal2MInterfaceImpedance OBJECT-TYPE
SYNTAX INTEGER
{
ohm75(75),
ohm120(120),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the impedance of the G.703 interface.
75 ohm75 The impedance of the G.703 interface is 75 Ohm.
120 ohm120 The impedance of the G.703 interface is 120 Ohm.
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocal2MEntry 16 }
--------------------------------------------------------------------------------
-- CM-RW local Data
--------------------------------------------------------------------------------
cmrwLocalDataTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 5 }
cmrwLocalDataEntry OBJECT-TYPE
SYNTAX CmrwLocalDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalDataPortIndex, cmrwLocalDataLinkIndex }
::= { cmrwLocalDataTable 1 }
CmrwLocalDataEntry ::=
SEQUENCE
{
cmrwLocalDataPortIndex INTEGER,
cmrwLocalDataLinkIndex INTEGER,
cmrwLocalDataEnabledD INTEGER,
cmrwLocalDataTimeslotsD INTEGER,
cmrwLocalDataIdlecodeD INTEGER,
cmrwLocalDataFastSig INTEGER,
cmrwLocalDataLine106 INTEGER,
cmrwLocalDataLine107 INTEGER,
cmrwLocalDataLine109 INTEGER,
cmrwLocalDataLine140 INTEGER,
cmrwLocalDataLine141 INTEGER,
cmrwLocalDataUseTs16ForData INTEGER,
cmrwLocalDataEndToEndSignalling INTEGER,
cmrwLocalDataDteDceMode INTEGER,
cmrwLocalDataIfSelector INTEGER
}
cmrwLocalDataPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalDataEntry 1 }
cmrwLocalDataLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalDataEntry 2 }
cmrwLocalDataEnabledD OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the Data Interface is enabled or not.
1 Disabled Data Interface is disabled
2 Enabled Data Interface is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 3 }
cmrwLocalDataTimeslotsD OBJECT-TYPE
SYNTAX INTEGER
{
bw64(1),
bw128(2),
bw192(3),
bw256(4),
bw320(5),
bw384(6),
bw448(7),
bw512(8),
bw576(9),
bw640(10),
bw704(11),
bw768(12),
bw832(13),
bw896(14),
bw960(15),
bw1024(16),
bw1088(17),
bw1152(18),
bw1216(19),
bw1280(20),
bw1344(21),
bw1408(22),
bw1472(23),
bw1536(24),
bw1600(25),
bw1664(26),
bw1728(27),
bw1792(28),
bw1856(29),
bw1920(30),
bw1984(31),
bw2048(32),
bw2112(33),
bw2176(34),
bw2240(35),
bw2304(36),
bw2368(37),
bw2432(38),
bw2496(39),
bw2560(40),
bw2624(41),
bw2688(42),
bw2752(43),
bw2816(44),
bw2880(45),
bw2944(46),
bw3008(47),
bw3072(48),
bw3136(49),
bw3200(50),
bw3264(51),
bw3328(52),
bw3392(53),
bw3456(54),
bw3520(55),
bw3584(56),
bw3648(57),
bw3712(58),
bw3776(59),
bw3840(60),
bw3904(61),
bw3968(62),
bw4032(63),
bw4096(64),
bw4160(65),
bw4224(66),
bw4288(67),
bw4352(68),
bw4416(69),
bw4480(70),
bw4544(71),
bw4608(72),
bw4672(73),
bw4736(74),
bw4800(75),
bw4864(76),
bw4928(77),
bw4992(78),
bw5056(79),
bw5120(80),
bw5184(81),
bw5248(82),
bw5312(83),
bw5376(84),
bw5440(85),
bw5504(86),
bw5568(87),
bw5632(88),
bw5696(89),
bw5760(90),
bw5824(91),
bw5888(92),
bw5952(93),
bw6016(94),
bw6080(95),
bw6144(96),
bw6208(97),
bw6272(98),
bw6336(99),
bw6400(100),
bw6464(101),
bw6528(102),
bw6592(103),
bw6656(104),
bw6720(105),
bw6784(106),
bw6848(107),
bw6912(108),
bw6976(109),
bw7040(110),
bw7104(111),
bw7168(112),
bw7232(113),
bw7296(114),
bw7360(115),
bw7424(116),
bw7488(117),
bw7552(118),
bw7616(119),
bw7680(120),
bw7744(121),
bw7808(122),
bw7872(123),
bw7936(124),
bw8000(125),
bw8064(126),
bw8128(127),
bw8192(128),
bw8256(129),
bw8320(130),
bw8384(131),
bw8448(132),
bw8512(133),
bw8576(134),
bw8640(135),
bw8704(136),
bw8768(137),
bw8832(138),
bw8896(139),
bw8960(140),
bw9024(141),
bw9088(142),
bw9152(143),
bw9216(144),
bw9280(145),
bw9344(146),
bw9408(147),
bw9472(148),
bw9536(149),
bw9600(150),
bw9664(151),
bw9728(152),
bw9792(153),
bw9856(154),
bw9920(155),
bw9984(156),
bw10048(157),
bw10112(158),
bw10176(159),
bw10240(160),
bw10304(161),
bw10368(162),
bw10432(163),
bw10496(164),
bw10560(165),
bw10624(166),
bw10688(167),
bw10752(168),
bw10816(169),
bw10880(170),
bw10944(171),
bw11008(172),
bw11072(173),
bw11136(174),
bw11200(175),
bw11264(176),
bw11328(177),
bw11392(178),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Bandwidth allocated for Data (D-Interface) as
a number of 64kbit/s time slots.
When reading the following values can also be returned:
1 bw64 Bandwidth 64 kbit/s
2 bw128 Bandwidth 128 kbit/s
3 bw192 Bandwidth 192 kbit/s
4 bw256 Bandwidth 256 kbit/s
5 bw320 Bandwidth 320 kbit/s
6 bw384 Bandwidth 384 kbit/s
7 bw448 Bandwidth 448 kbit/s
8 bw512 Bandwidth 512 kbit/s
9 bw576 Bandwidth 576 kbit/s
10 bw640 Bandwidth 640 kbit/s
11 bw704 Bandwidth 704 kbit/s
12 bw768 Bandwidth 768 kbit/s
13 bw832 Bandwidth 832 kbit/s
14 bw896 Bandwidth 896 kbit/s
15 bw960 Bandwidth 960 kbit/s
16 bw1024 Bandwidth 1024 kbit/s
17 bw1088 Bandwidth 1088 kbit/s
18 bw1152 Bandwidth 1152 kbit/s
19 bw1216 Bandwidth 1216 kbit/s
20 bw1280 Bandwidth 1280 kbit/s
21 bw1344 Bandwidth 1344 kbit/s
22 bw1408 Bandwidth 1408 kbit/s
23 bw1472 Bandwidth 1472 kbit/s
24 bw1536 Bandwidth 1536 kbit/s
25 bw1600 Bandwidth 1600 kbit/s
26 bw1664 Bandwidth 1664 kbit/s
27 bw1728 Bandwidth 1728 kbit/s
28 bw1792 Bandwidth 1792 kbit/s
29 bw1856 Bandwidth 1856 kbit/s
30 bw1920 Bandwidth 1920 kbit/s
31 bw1984 Bandwidth 1984 kbit/s
32 bw2048 Bandwidth 2048 kbit/s
33 bw2112 Bandwidth 2112 kbit/s
34 bw2176 Bandwidth 2176 kbit/s
35 bw2240 Bandwidth 2240 kbit/s
36 bw2304 Bandwidth 2304 kbit/s
37 bw2368 Bandwidth 2368 kbit/s
38 bw2432 Bandwidth 2432 kbit/s
39 bw2496 Bandwidth 2496 kbit/s
40 bw2560 Bandwidth 2560 kbit/s
41 bw2624 Bandwidth 2624 kbit/s
42 bw2688 Bandwidth 2688 kbit/s
43 bw2752 Bandwidth 2752 kbit/s
44 bw2816 Bandwidth 2816 kbit/s
45 bw2880 Bandwidth 2880 kbit/s
46 bw2944 Bandwidth 2944 kbit/s
47 bw3008 Bandwidth 3008 kbit/s
48 bw3072 Bandwidth 3072 kbit/s
49 bw3136 Bandwidth 3136 kbit/s
50 bw3200 Bandwidth 3200 kbit/s
51 bw3264 Bandwidth 3264 kbit/s
52 bw3328 Bandwidth 3328 kbit/s
53 bw3392 Bandwidth 3392 kbit/s
54 bw3456 Bandwidth 3456 kbit/s
55 bw3520 Bandwidth 3520 kbit/s
56 bw3584 Bandwidth 3584 kbit/s
57 bw3648 Bandwidth 3648 kbit/s
58 bw3712 Bandwidth 3712 kbit/s
59 bw3776 Bandwidth 3776 kbit/s
60 bw3840 Bandwidth 3840 kbit/s
61 bw3904 Bandwidth 3904 kbit/s
62 bw3968 Bandwidth 3968 kbit/s
63 bw4032 Bandwidth 4032 kbit/s
64 bw4096 Bandwidth 4096 kbit/s
65 bw4160 Bandwidth 4160 kbit/s
66 bw4224 Bandwidth 4224 kbit/s
67 bw4288 Bandwidth 4288 kbit/s
68 bw4352 Bandwidth 4352 kbit/s
69 bw4416 Bandwidth 4416 kbit/s
70 bw4480 Bandwidth 4480 kbit/s
71 bw4544 Bandwidth 4544 kbit/s
72 bw4608 Bandwidth 4608 kbit/s
73 bw4672 Bandwidth 4672 kbit/s
74 bw4736 Bandwidth 4736 kbit/s
75 bw4800 Bandwidth 4800 kbit/s
76 bw4864 Bandwidth 4864 kbit/s
77 bw4928 Bandwidth 4928 kbit/s
78 bw4992 Bandwidth 4992 kbit/s
79 bw5056 Bandwidth 5056 kbit/s
80 bw5120 Bandwidth 5120 kbit/s
81 bw5184 Bandwidth 5184 kbit/s
82 bw5248 Bandwidth 5248 kbit/s
83 bw5312 Bandwidth 5312 kbit/s
84 bw5376 Bandwidth 5376 kbit/s
85 bw5440 Bandwidth 5440 kbit/s
86 bw5504 Bandwidth 5504 kbit/s
87 bw5568 Bandwidth 5568 kbit/s
88 bw5632 Bandwidth 5632 kbit/s
89 bw5696 Bandwidth 5696 kbit/s
90 bw5760 Bandwidth 5760 kbit/s
91 bw5824 Bandwidth 5824 kbit/s
92 bw5888 Bandwidth 5888 kbit/s
93 bw5952 Bandwidth 5952 kbit/s
94 bw6016 Bandwidth 6016 kbit/s
95 bw6080 Bandwidth 6080 kbit/s
96 bw6144 Bandwidth 6144 kbit/s
97 bw6208 Bandwidth 6208 kbit/s
98 bw6272 Bandwidth 6272 kbit/s
99 bw6336 Bandwidth 6336 kbit/s
100 bw6400 Bandwidth 6400 kbit/s
101 bw6464 Bandwidth 6464 kbit/s
102 bw6528 Bandwidth 6528 kbit/s
103 bw6592 Bandwidth 6592 kbit/s
104 bw6656 Bandwidth 6656 kbit/s
105 bw6720 Bandwidth 6720 kbit/s
106 bw6784 Bandwidth 6784 kbit/s
107 bw6848 Bandwidth 6848 kbit/s
108 bw6912 Bandwidth 6912 kbit/s
109 bw6976 Bandwidth 6976 kbit/s
110 bw7040 Bandwidth 7040 kbit/s
111 bw7104 Bandwidth 7104 kbit/s
112 bw7168 Bandwidth 7168 kbit/s
113 bw7232 Bandwidth 7232 kbit/s
114 bw7296 Bandwidth 7296 kbit/s
115 bw7360 Bandwidth 7360 kbit/s
116 bw7424 Bandwidth 7424 kbit/s
117 bw7488 Bandwidth 7488 kbit/s
118 bw7552 Bandwidth 7552 kbit/s
119 bw7616 Bandwidth 7616 kbit/s
120 bw7680 Bandwidth 7680 kbit/s
121 bw7744 Bandwidth 7744 kbit/s
122 bw7808 Bandwidth 7808 kbit/s
123 bw7872 Bandwidth 7872 kbit/s
124 bw7936 Bandwidth 7936 kbit/s
125 bw8000 Bandwidth 8000 kbit/s
126 bw8064 Bandwidth 8064 kbit/s
127 bw8128 Bandwidth 8128 kbit/s
128 bw8192 Bandwidth 8192 kbit/s
129 bw8256 Bandwidth 8256 kbit/s
130 bw8320 Bandwidth 8320 kbit/s
131 bw8384 Bandwidth 8384 kbit/s
132 bw8448 Bandwidth 8448 kbit/s
133 bw8512 Bandwidth 8512 kbit/s
134 bw8576 Bandwidth 8576 kbit/s
135 bw8640 Bandwidth 8640 kbit/s
136 bw8704 Bandwidth 8704 kbit/s
137 bw8768 Bandwidth 8768 kbit/s
138 bw8832 Bandwidth 8832 kbit/s
139 bw8896 Bandwidth 8896 kbit/s
140 bw8960 Bandwidth 8960 kbit/s
141 bw9024 Bandwidth 9024 kbit/s
142 bw9088 Bandwidth 9088 kbit/s
143 bw9152 Bandwidth 9152 kbit/s
144 bw9216 Bandwidth 9216 kbit/s
145 bw9280 Bandwidth 9280 kbit/s
146 bw9344 Bandwidth 9344 kbit/s
147 bw9408 Bandwidth 9408 kbit/s
148 bw9472 Bandwidth 9472 kbit/s
149 bw9536 Bandwidth 9536 kbit/s
150 bw9600 Bandwidth 9600 kbit/s
151 bw9664 Bandwidth 9664 kbit/s
152 bw9728 Bandwidth 9728 kbit/s
153 bw9792 Bandwidth 9792 kbit/s
154 bw9856 Bandwidth 9856 kbit/s
155 bw9920 Bandwidth 9920 kbit/s
156 bw9984 Bandwidth 9984 kbit/s
157 bw10048 Bandwidth 10048 kbit/s
158 bw10112 Bandwidth 10112 kbit/s
159 bw10176 Bandwidth 10176 kbit/s
160 bw10240 Bandwidth 10240 kbit/s
161 bw10304 Bandwidth 10304 kbit/s
162 bw10368 Bandwidth 10368 kbit/s
163 bw10432 Bandwidth 10432 kbit/s
164 bw10496 Bandwidth 10496 kbit/s
165 bw10560 Bandwidth 10560 kbit/s
166 bw10624 Bandwidth 10624 kbit/s
167 bw10688 Bandwidth 10688 kbit/s
168 bw10752 Bandwidth 10752 kbit/s
169 bw10816 Bandwidth 10816 kbit/s
170 bw10880 Bandwidth 10880 kbit/s
171 bw10944 Bandwidth 10944 kbit/s
172 bw11008 Bandwidth 11008 kbit/s
173 bw11072 Bandwidth 11072 kbit/s
174 bw11136 Bandwidth 11136 kbit/s
175 bw11200 Bandwidth 11200 kbit/s
176 bw11264 Bandwidth 11264 kbit/s
177 bw11328 Bandwidth 11328 kbit/s
178 bw11392 Bandwidth 11392 kbit/s
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 4 }
cmrwLocalDataIdlecodeD OBJECT-TYPE
SYNTAX INTEGER
{
null(1),
ais(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Idle Code for the Data Interface.
1 Null Always send 0
2 Ais Always send 1
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 5 }
cmrwLocalDataFastSig OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether Fast Signalling is used or not
1 Off Fast Signalling is not used
2 On Fast Signalling is used
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 6 }
cmrwLocalDataLine106 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 106 is set automatically or
permanently turned on.
1 Auto Automatically set
2 Perm Permanently on
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 7 }
cmrwLocalDataLine107 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 107 is set automatically or
permanently turned on.
1 Auto Automatically set
2 Perm Permanently on
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 8 }
cmrwLocalDataLine109 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 109 is set automatically or
permanently turned on.
1 Auto Automatically set
2 Perm Permanently on
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 9 }
cmrwLocalDataLine140 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 140 is set automatically or
permanently turned off.
1 Auto Automatically set
2 Perm Permanently off
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 10 }
cmrwLocalDataLine141 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 141 is set automatically or
permanently turned off.
1 Auto Automatically set
2 Perm Permanently off
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 11 }
cmrwLocalDataUseTs16ForData OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether timeslot 16 can be used for data when
no signalling information is transmitted in it.
1 No Timeslot 16 is reserved even if no signalling is used
2 Yes Timeslot 16 is used for data if no signalling is used
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 12 }
cmrwLocalDataEndToEndSignalling OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
fastSig(2),
cas(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether End To End Signalling is enabled.
1 Disabled End To End Signalling is disabled
2 FastSig End To End Signalling is fast signalling
3 CAS End To End Signalling is CAS
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 13 }
cmrwLocalDataDteDceMode OBJECT-TYPE
SYNTAX INTEGER
{
dce(1),
dte(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the operation mode of the data interface.
1 DCE Data Interface operates in DCE (Data Circuit-Terminating Equipment) mode
2 DTE Data Interface operates in DTE (Data Terminal Equipment) mode
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 14 }
cmrwLocalDataIfSelector OBJECT-TYPE
SYNTAX INTEGER
{
mgblEthIf(1),
multiPurpDataIf(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Selects the active data Interface.
1 mgblEthIf Manageable Ethernet Interface is selected
2 multiPurpDataIf Multi Purpose Data Interface is selected
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalDataEntry 15 }
--------------------------------------------------------------------------------
-- CM-RW local Action
--------------------------------------------------------------------------------
cmrwLocalActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 6 }
cmrwLocalActionEntry OBJECT-TYPE
SYNTAX CmrwLocalActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalActionPortIndex, cmrwLocalActionLinkIndex }
::= { cmrwLocalActionTable 1 }
CmrwLocalActionEntry ::=
SEQUENCE
{
cmrwLocalActionPortIndex INTEGER,
cmrwLocalActionLinkIndex INTEGER,
cmrwLocalActionReboot INTEGER
}
cmrwLocalActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalActionEntry 1 }
cmrwLocalActionLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalActionEntry 2 }
cmrwLocalActionReboot OBJECT-TYPE
SYNTAX INTEGER {
passive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Command to reboot device. The parameter specifies whether
the firmware in the active or passive bank shall be started.
1 Passive Reboot using the passive firmware
2 Active Reboot using the active firmware
254 unknown value
255 unsupported variable for addressed device
If the parameter 'passive' is specified but the passive
firmware bank contains no valid code, the device reboots
using the active firmware."
::= { cmrwLocalActionEntry 3 }
--------------------------------------------------------------------------------
-- CM-RW Local User Data
------------------------------------------------------------------------------
cmrwLocalUserDataTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalUserDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 7 }
cmrwLocalUserDataEntry OBJECT-TYPE
SYNTAX CmrwLocalUserDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalUserDataPortIndex, cmrwLocalUserDataLinkIndex, cmrwLocalUserDataItemIndex }
::= { cmrwLocalUserDataTable 1 }
CmrwLocalUserDataEntry ::=
SEQUENCE
{
cmrwLocalUserDataPortIndex INTEGER,
cmrwLocalUserDataLinkIndex INTEGER,
cmrwLocalUserDataItemIndex INTEGER,
cmrwLocalUserData DisplayString
}
cmrwLocalUserDataPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalUserDataEntry 1 }
cmrwLocalUserDataLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalUserDataEntry 2 }
cmrwLocalUserDataItemIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the data field number of the user data
and is used as index for the other elements in the Table"
::= {cmrwLocalUserDataEntry 3 }
cmrwLocalUserData OBJECT-TYPE
SYNTAX DisplayString(SIZE(100))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"User data that can be written to the device"
::= {cmrwLocalUserDataEntry 4 }
--------------------------------------------------------------------------------
-- CM-RW Power Back Off
--------------------------------------------------------------------------------
cmrwLocalPowerBackOffTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalPowerBackOffEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 8 }
cmrwLocalPowerBackOffEntry OBJECT-TYPE
SYNTAX CmrwLocalPowerBackOffEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalPowerBackOffPortIndex, cmrwLocalPowerBackOffLinkIndex }
::= { cmrwLocalPowerBackOffTable 1 }
CmrwLocalPowerBackOffEntry ::=
SEQUENCE
{
cmrwLocalPowerBackOffPortIndex INTEGER,
cmrwLocalPowerBackOffLinkIndex INTEGER,
cmrwLocalPowerBackOffLevel INTEGER,
cmrwLocalPowerBackOffAutoEnable INTEGER
}
cmrwLocalPowerBackOffPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalPowerBackOffEntry 1 }
cmrwLocalPowerBackOffLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalPowerBackOffEntry 2 }
cmrwLocalPowerBackOffLevel OBJECT-TYPE
SYNTAX INTEGER
{
db0(1),
db1(2),
db2(3),
db3(4),
db4(5),
db5(6),
db6(7),
db7(8),
db8(9),
db9(10),
db10(11),
db11(12),
db12(13),
db13(14),
db14(15),
db15(16),
db16(17),
db17(18),
db18(19),
db19(20),
db20(21),
db21(22),
db22(23),
db23(24),
db24(25),
db25(26),
db26(27),
db27(28),
db28(29),
db29(30),
db30(31),
db31(32),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Returns the configured power back off level
1 Db0 The configured level is 0 dB.
2 Db1 The configured level is 1 dB.
3 Db2 The configured level is 2 dB.
4 Db3 The configured level is 3 dB.
5 Db4 The configured level is 4 dB.
6 Db5 The configured level is 5 dB.
7 Db6 The configured level is 6 dB.
8 Db7 The configured level is 7 dB.
9 Db8 The configured level is 8 dB.
10 Db9 The configured level is 9 dB.
11 Db10 The configured level is 10 dB.
12 Db11 The configured level is 11 dB.
13 Db12 The configured level is 12 dB.
14 Db13 The configured level is 13 dB.
15 Db14 The configured level is 14 dB.
16 Db15 The configured level is 15 dB.
17 Db16 The configured level is 16 dB.
18 Db17 The configured level is 17 dB.
19 Db18 The configured level is 18 dB.
20 Db19 The configured level is 19 dB.
21 Db20 The configured level is 20 dB.
22 Db21 The configured level is 21 dB.
23 Db22 The configured level is 22 dB.
24 Db23 The configured level is 23 dB.
25 Db24 The configured level is 24 dB.
26 Db25 The configured level is 25 dB.
27 Db26 The configured level is 26 dB.
28 Db27 The configured level is 27 dB.
29 Db28 The configured level is 28 dB.
30 Db29 The configured level is 29 dB.
31 Db30 The configured level is 30 dB.
32 Db31 The configured level is 31 dB.
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalPowerBackOffEntry 3 }
cmrwLocalPowerBackOffAutoEnable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Reports whether auto power backoff is enabled
1 Off Auto power backoff is disabled
2 On Auto power backoff is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalPowerBackOffEntry 4 }
--------------------------------------------------------------------------------
-- CM-RW Section Power Back Off
--------------------------------------------------------------------------------
cmrwLocalSectionPboTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalSectionPboEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 9 }
cmrwLocalSectionPboEntry OBJECT-TYPE
SYNTAX CmrwLocalSectionPboEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalSectionPboPortIndex, cmrwLocalSectionPboLinkIndex, cmrwLocalSectionPboSectionIndex }
::= { cmrwLocalSectionPboTable 1 }
CmrwLocalSectionPboEntry ::=
SEQUENCE
{
cmrwLocalSectionPboPortIndex INTEGER,
cmrwLocalSectionPboLinkIndex INTEGER,
cmrwLocalSectionPboSectionIndex INTEGER,
cmrwLocalSectionPboLevelLt INTEGER,
cmrwLocalSectionPboLevelNt INTEGER,
cmrwLocalSectionPboAutoEnableLt INTEGER,
cmrwLocalSectionPboAutoEnableNt INTEGER
}
cmrwLocalSectionPboPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalSectionPboEntry 1 }
cmrwLocalSectionPboLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalSectionPboEntry 2 }
cmrwLocalSectionPboSectionIndex OBJECT-TYPE
SYNTAX INTEGER
{
lt1(1),
lt2(2),
reg11(4),
reg12(5),
reg21(6),
reg22(7),
reg31(8),
reg32(9),
reg41(10),
reg42(11),
reg51(12),
reg52(13),
reg61(14),
reg62(15),
reg71(16),
reg72(17),
reg81(18),
reg82(19),
reg13(20),
reg14(21),
reg23(22),
reg24(23),
reg33(24),
reg34(25),
reg43(26),
reg44(27),
reg53(28),
reg54(29),
reg63(30),
reg64(31),
reg73(32),
reg74(33),
reg83(34),
reg84(35)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Selects the section for which the Power Back-off
values are set."
::= {cmrwLocalSectionPboEntry 3 }
cmrwLocalSectionPboLevelLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1),
db1(2),
db2(3),
db3(4),
db4(5),
db5(6),
db6(7),
db7(8),
db8(9),
db9(10),
db10(11),
db11(12),
db12(13),
db13(14),
db14(15),
db15(16),
db16(17),
db17(18),
db18(19),
db19(20),
db20(21),
db21(22),
db22(23),
db23(24),
db24(25),
db25(26),
db26(27),
db27(28),
db28(29),
db29(30),
db30(31),
db31(32),
dbMin1(130),
dbMin2(131),
dbMin3(132),
dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Returns the configured power back off level
1 Db0 The configured level is 0 dB.
2 Db1 The configured level is 1 dB.
3 Db2 The configured level is 2 dB.
4 Db3 The configured level is 3 dB.
5 Db4 The configured level is 4 dB.
6 Db5 The configured level is 5 dB.
7 Db6 The configured level is 6 dB.
8 Db7 The configured level is 7 dB.
9 Db8 The configured level is 8 dB.
10 Db9 The configured level is 9 dB.
11 Db10 The configured level is 10 dB.
12 Db11 The configured level is 11 dB.
13 Db12 The configured level is 12 dB.
14 Db13 The configured level is 13 dB.
15 Db14 The configured level is 14 dB.
16 Db15 The configured level is 15 dB.
17 Db16 The configured level is 16 dB.
18 Db17 The configured level is 17 dB.
19 Db18 The configured level is 18 dB.
20 Db19 The configured level is 19 dB.
21 Db20 The configured level is 20 dB.
22 Db21 The configured level is 21 dB.
23 Db22 The configured level is 22 dB.
24 Db23 The configured level is 23 dB.
25 Db24 The configured level is 24 dB.
26 Db25 The configured level is 25 dB.
27 Db26 The configured level is 26 dB.
28 Db27 The configured level is 27 dB.
29 Db28 The configured level is 28 dB.
30 Db29 The configured level is 29 dB.
31 Db30 The configured level is 30 dB.
32 Db31 The configured level is 31 dB.
130 DbMin1 The configured level is -1 dB (Power Boost).
131 DbMin2 The configured level is -2 dB (Power Boost).
132 DbMin3 The configured level is -3 dB (Power Boost).
133 DbMin4 The configured level is -4 dB (Power Boost).
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalSectionPboEntry 4 }
cmrwLocalSectionPboLevelNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1),
db1(2),
db2(3),
db3(4),
db4(5),
db5(6),
db6(7),
db7(8),
db8(9),
db9(10),
db10(11),
db11(12),
db12(13),
db13(14),
db14(15),
db15(16),
db16(17),
db17(18),
db18(19),
db19(20),
db20(21),
db21(22),
db22(23),
db23(24),
db24(25),
db25(26),
db26(27),
db27(28),
db28(29),
db29(30),
db30(31),
db31(32),
dbMin1(130),
dbMin2(131),
dbMin3(132),
dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Returns the configured power back off level
1 Db0 The configured level is 0 dB.
2 Db1 The configured level is 1 dB.
3 Db2 The configured level is 2 dB.
4 Db3 The configured level is 3 dB.
5 Db4 The configured level is 4 dB.
6 Db5 The configured level is 5 dB.
7 Db6 The configured level is 6 dB.
8 Db7 The configured level is 7 dB.
9 Db8 The configured level is 8 dB.
10 Db9 The configured level is 9 dB.
11 Db10 The configured level is 10 dB.
12 Db11 The configured level is 11 dB.
13 Db12 The configured level is 12 dB.
14 Db13 The configured level is 13 dB.
15 Db14 The configured level is 14 dB.
16 Db15 The configured level is 15 dB.
17 Db16 The configured level is 16 dB.
18 Db17 The configured level is 17 dB.
19 Db18 The configured level is 18 dB.
20 Db19 The configured level is 19 dB.
21 Db20 The configured level is 20 dB.
22 Db21 The configured level is 21 dB.
23 Db22 The configured level is 22 dB.
24 Db23 The configured level is 23 dB.
25 Db24 The configured level is 24 dB.
26 Db25 The configured level is 25 dB.
27 Db26 The configured level is 26 dB.
28 Db27 The configured level is 27 dB.
29 Db28 The configured level is 28 dB.
30 Db29 The configured level is 29 dB.
31 Db30 The configured level is 30 dB.
32 Db31 The configured level is 31 dB.
130 DbMin1 The configured level is -1 dB (Power Boost).
131 DbMin2 The configured level is -2 dB (Power Boost).
132 DbMin3 The configured level is -3 dB (Power Boost).
133 DbMin4 The configured level is -4 dB (Power Boost).
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalSectionPboEntry 5 }
cmrwLocalSectionPboAutoEnableLt OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Reports whether auto power backoff is enabled
1 Off Auto power backoff is disabled
2 On Auto power backoff is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalSectionPboEntry 6 }
cmrwLocalSectionPboAutoEnableNt OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Reports whether auto power backoff is enabled
1 Off Auto power backoff is disabled
2 On Auto power backoff is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalSectionPboEntry 7 }
--------------------------------------------------------------------------------
-- CM-RW Setup
--------------------------------------------------------------------------------
cmrwLocalSetupTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalSetupEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 10 }
cmrwLocalSetupEntry OBJECT-TYPE
SYNTAX CmrwLocalSetupEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalSetupPortIndex, cmrwLocalSetupLinkIndex }
::= { cmrwLocalSetupTable 1 }
CmrwLocalSetupEntry ::=
SEQUENCE
{
cmrwLocalSetupPortIndex INTEGER,
cmrwLocalSetupLinkIndex INTEGER,
cmrwLocalSetupNumWirePairs INTEGER,
cmrwLocalSetupLineActivation INTEGER,
cmrwLocalSetupVirtSysActivation INTEGER,
cmrwLocalSetupCardActivation OCTET STRING,
cmrwLocalSetupCardActState OCTET STRING,
cmrwLocalSetupIfAssignment OCTET STRING
}
cmrwLocalSetupPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalSetupEntry 1 }
cmrwLocalSetupLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwLocalSetupEntry 2 }
cmrwLocalSetupNumWirePairs OBJECT-TYPE
SYNTAX INTEGER {
oneWirePairs(1),
twoWirePairs(2),
fourWirePairs(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the number of wire pairs of the line
1 OneWirePairs Line with one wire pair
2 TwoWirePairs Line with two wire pairs
3 FourWirePairs Line with four wire pairs
254 unknown
255 unsupported
Side effect: If you do change this variable all other lines on the card
will be affected as well"
::= { cmrwLocalSetupEntry 3 }
cmrwLocalSetupLineActivation OBJECT-TYPE
SYNTAX INTEGER {
activated(1),
deactivated(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether a line is activated or deactiated.
1 activated The line is activated
2 deactivated The line is deactivated
254 unknown
255 unsupported"
::= { cmrwLocalSetupEntry 4 }
cmrwLocalSetupVirtSysActivation OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether the virtual system is enabled or disabled.
1 disabled The virtual system is disabled
2 enabled The virtual system is enabled
254 unknown
255 unsupported"
::= { cmrwLocalSetupEntry 5 }
cmrwLocalSetupCardActivation OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(8))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the system activation for the systems A to H on the card.
Each byte consists of the following information for one system:
1 Deactivated The system is inactive
2 Activated The system is active
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalSetupEntry 6 }
cmrwLocalSetupCardActState OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(8))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates the system activation state for the systems A to H on the card .
Each byte consists of the following information for one system:
1 Current The system belongs to the currently managed line
2 Present The system does not belong to the currently managed line
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalSetupEntry 7 }
cmrwLocalSetupIfAssignment OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(4))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the assignment of the (moveable) interfaces 1..4
to the systems A..D on the card .
Each byte consists of the following information for one interface:
1 systemA The interface is assigned to System A
2 systemB The interface is assigned to System B
3 systemC The interface is assigned to System C
4 systemD The interface is assigned to System D
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalSetupEntry 8 }
--------------------------------------------------------------------------------
-- CM-RW L2SwitchPort
--------------------------------------------------------------------------------
cmrwLocalL2SwitchPortTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalL2SwitchPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 11 }
cmrwLocalL2SwitchPortEntry OBJECT-TYPE
SYNTAX CmrwLocalL2SwitchPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalL2SwitchPortPortIndex, cmrwLocalL2SwitchPortLinkIndex, cmrwLocalL2SwitchPortLanPortIndex }
::= { cmrwLocalL2SwitchPortTable 1 }
CmrwLocalL2SwitchPortEntry ::=
SEQUENCE
{
cmrwLocalL2SwitchPortPortIndex INTEGER,
cmrwLocalL2SwitchPortLinkIndex INTEGER,
cmrwLocalL2SwitchPortLanPortIndex INTEGER,
cmrwLocalL2SwitchPortEnabled INTEGER,
cmrwLocalL2SwitchPortPhyCfg INTEGER,
cmrwLocalL2SwitchPortPhyAdvModes INTEGER,
cmrwLocalL2SwitchPortPhyCfgReadout INTEGER,
cmrwLocalL2SwitchPortAutoXover INTEGER,
cmrwLocalL2SwitchPortFlowCtrl INTEGER,
cmrwLocalL2SwitchPortRateLimit INTEGER,
cmrwLocalL2SwitchPortRateLimitCfg INTEGER
}
cmrwLocalL2SwitchPortPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalL2SwitchPortEntry 1 }
cmrwLocalL2SwitchPortLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwLocalL2SwitchPortEntry 2 }
cmrwLocalL2SwitchPortLanPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the L2Switch port (LAN side)
and is used as index for the other elements in the Table"
::= { cmrwLocalL2SwitchPortEntry 3 }
cmrwLocalL2SwitchPortEnabled OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the L2Switch port is enabled or not.
1 Disabled L2Switch port is disabled
2 Enabled L2Switch port is enabled
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchPortEntry 4 }
cmrwLocalL2SwitchPortPhyCfg OBJECT-TYPE
SYNTAX INTEGER {
full10(1),
full100(2),
half10(3),
half100(4),
auto(5),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the ethernet phy config or allows auto negotiation.
1 Full Duplex 10Mbps
2 Full Duplex 100Mbps
3 Half Duplex 10Mbps
4 Half Duplex 100Mbps
5 Auto Negotiation
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchPortEntry 5 }
cmrwLocalL2SwitchPortPhyAdvModes OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the phy modes to be offered during auto
negotiation ('advertized modes').
Bit 0 1 Full Duplex 10Mbps
Bit 1 2 Full Duplex 100Mbps
Bit 2 4 Half Duplex 10Mbps
Bit 3 8 Half Duplex 100Mbps
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)"
::= { cmrwLocalL2SwitchPortEntry 6 }
cmrwLocalL2SwitchPortPhyCfgReadout OBJECT-TYPE
SYNTAX INTEGER {
full10(1),
full100(2),
half10(3),
half100(4),
auto(5),
linkdown(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates the current ethernet phy config.
1 Full Duplex 10Mbps
2 Full Duplex 100Mbps
3 Half Duplex 10Mbps
4 Half Duplex 100Mbps
5 Auto Negotiation
6 Linkdown
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchPortEntry 7 }
cmrwLocalL2SwitchPortAutoXover OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines whether ethernet crossover (MDI/MDI-X)
should automatically be detected and compensated
for.
1 Disabled MDI
2 Enabled Auto MDI/MDI-X
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchPortEntry 8 }
cmrwLocalL2SwitchPortFlowCtrl OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines whether flow control should be performed
on a specific port.
1 Disabled Flow control disabled
2 Enabled Flow control enabled
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchPortEntry 9 }
cmrwLocalL2SwitchPortRateLimit OBJECT-TYPE
SYNTAX INTEGER (0..65535)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines the maximum bit rate on a specific port
in 32kbps increments. This setting can be
overriden by the Rate Limit Cfg setting.
1 Rate Limit 32kbps
2 Rate Limit 64kbps
...
288 Rate Limit 9216kbps (equals 4*2304 kbps)
...
3125 Rate Limit 100Mbps
65534 unknown
65535 unsupported"
::= { cmrwLocalL2SwitchPortEntry 10 }
cmrwLocalL2SwitchPortRateLimitCfg OBJECT-TYPE
SYNTAX INTEGER {
unlimited(1),
userN32k(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines the behavior of the port rate limiter.
on a specific port
1 Unlimited No rate limit enforced
2 User-Def. n*32k User-defined value in 32k increments
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchPortEntry 11 }
--------------------------------------------------------------------------------
-- CM-RW Local Multi Interfaces
--------------------------------------------------------------------------------
cmrwLocalMultiIfTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalMultiIfEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 12 }
cmrwLocalMultiIfEntry OBJECT-TYPE
SYNTAX CmrwLocalMultiIfEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalMultiIfPortIndex, cmrwLocalMultiIfLinkIndex, cmrwLocalMultiIfInstanceIndex }
::= { cmrwLocalMultiIfTable 1 }
CmrwLocalMultiIfEntry ::=
SEQUENCE
{
cmrwLocalMultiIfPortIndex INTEGER,
cmrwLocalMultiIfLinkIndex INTEGER,
cmrwLocalMultiIfInstanceIndex INTEGER,
cmrwLocalMultiIfUEnabled INTEGER,
cmrwLocalMultiIfVEnabled INTEGER
}
cmrwLocalMultiIfPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalMultiIfEntry 1 }
cmrwLocalMultiIfLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwLocalMultiIfEntry 2 }
cmrwLocalMultiIfInstanceIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses one of several instances
and is used as index for the other elements in the Table.
Instances can be
- U interfaces 1,2,3,4...
- V interfaces A,B,C,D...
The numbering format is 1,2,3,4..."
::= { cmrwLocalMultiIfEntry 3 }
cmrwLocalMultiIfUEnabled OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the U1,U2,U3,U4... interface is enabled or not.
1 Disabled Interface is disabled
2 Enabled Interface is enabled
254 unknown
255 unsupported"
::= { cmrwLocalMultiIfEntry 4 }
cmrwLocalMultiIfVEnabled OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the V_A,V_B,V_C,V_D... interface is enabled or not.
1 Disabled Interface is disabled
2 Enabled Interface is enabled
254 unknown
255 unsupported"
::= { cmrwLocalMultiIfEntry 5 }
--------------------------------------------------------------------------------
-- CM-RW CommonMcsCh
--------------------------------------------------------------------------------
cmrwLocalCommonMultiChTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalCommonMultiChEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 13 }
cmrwLocalCommonMultiChEntry OBJECT-TYPE
SYNTAX CmrwLocalCommonMultiChEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalCommonMultiChPortIndex, cmrwLocalCommonMultiChLinkIndex, cmrwLocalCommonMultiChannelIndex }
::= { cmrwLocalCommonMultiChTable 1 }
CmrwLocalCommonMultiChEntry ::=
SEQUENCE
{
cmrwLocalCommonMultiChPortIndex INTEGER,
cmrwLocalCommonMultiChLinkIndex INTEGER,
cmrwLocalCommonMultiChannelIndex INTEGER,
cmrwLocalCommonMultiChMcsEnabled INTEGER
}
cmrwLocalCommonMultiChPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalCommonMultiChEntry 1 }
cmrwLocalCommonMultiChLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwLocalCommonMultiChEntry 2 }
cmrwLocalCommonMultiChannelIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses one of several instances
and is used as index for the other elements in the Table.
Instances can be
- MCS channels a,b,c,d...
- U interfaces 1,2,3,4...
- V interfaces A,B,C,D...
The numbering format is 1,2,3,4..."
::= { cmrwLocalCommonMultiChEntry 3 }
cmrwLocalCommonMultiChMcsEnabled OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the MCS channel a,b,c,d... is enabled or not.
1 Disabled Channel is disabled
2 Enabled CHannel is enabled
254 unknown
255 unsupported"
::= { cmrwLocalCommonMultiChEntry 4 }
--------------------------------------------------------------------------------
-- CM-RW Local L2Switch
--------------------------------------------------------------------------------
cmrwLocalL2SwitchTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalL2SwitchEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 14 }
cmrwLocalL2SwitchEntry OBJECT-TYPE
SYNTAX CmrwLocalL2SwitchEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalL2SwitchPortIndex, cmrwLocalL2SwitchLinkIndex }
::= { cmrwLocalL2SwitchTable 1 }
CmrwLocalL2SwitchEntry ::=
SEQUENCE
{
cmrwLocalL2SwitchPortIndex INTEGER,
cmrwLocalL2SwitchLinkIndex INTEGER,
cmrwLocalL2SwitchHugeFrames INTEGER,
cmrwLocalL2SwitchAdaptiveFlowCtrl INTEGER,
cmrwLocalL2SwitchFrameLengthCheck INTEGER
}
cmrwLocalL2SwitchPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalL2SwitchEntry 1 }
cmrwLocalL2SwitchLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwLocalL2SwitchEntry 2 }
cmrwLocalL2SwitchHugeFrames OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether the Layer 2 Switch supports so-called Huge Frames
(frames longer than 1522 bytes).
1 Disabled Huge frames will be discarded
2 Enabled Huge frames allowed
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchEntry 3 }
cmrwLocalL2SwitchAdaptiveFlowCtrl OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether adaptive flow control on the Layer 2 Switch and on the
HDLC bridge is enabled (to avoid packet loss) or not.
1 Disabled Disable adaptive flow control
2 Enabled Enable adaptive flow control
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchEntry 4 }
cmrwLocalL2SwitchFrameLengthCheck OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether frame length check on the Layer 2 Switch is enabled or not.
1 Disabled Disable frame length check
2 Enabled Enable frame length check
254 unknown
255 unsupported"
::= { cmrwLocalL2SwitchEntry 5 }
--------------------------------------------------------------------------------
-- CM-RW local Mapping
--------------------------------------------------------------------------------
cmrwLocalMappingTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwLocalMappingEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwLocal 15 }
cmrwLocalMappingEntry OBJECT-TYPE
SYNTAX CmrwLocalMappingEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwLocalMappingPortIndex, cmrwLocalMappingLinkIndex }
::= { cmrwLocalMappingTable 1 }
CmrwLocalMappingEntry ::=
SEQUENCE
{
cmrwLocalMappingPortIndex INTEGER,
cmrwLocalMappingLinkIndex INTEGER,
cmrwLocalMappingEnabled INTEGER,
cmrwLocalMappingMixedOperation INTEGER,
cmrwLocalMappingOmitSTS INTEGER,
cmrwLocalMappingSTSPosition INTEGER,
cmrwLocalMappingTxTs0 INTEGER
}
cmrwLocalMappingPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwLocalMappingEntry 1 }
cmrwLocalMappingLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwLocalMappingEntry 2 }
cmrwLocalMappingEnabled OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether Mapping is enabled or disabled.
1 Disabled Mapping is disabled
2 Enabled Mapping is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalMappingEntry 3 }
cmrwLocalMappingMixedOperation OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether Mixed Operation (Data to Structured TDM) is enabled or disabled.
1 Disabled Mixed Operation is disabled
2 Enabled Mixed Operation is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalMappingEntry 4 }
cmrwLocalMappingOmitSTS OBJECT-TYPE
SYNTAX INTEGER
{
transmit(1),
omit(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the Signalization Timeslot is actually being transmitted or just mapped, not transmitted.
1 Transmit STS is transmitted
2 Omit STS is mapped, but not transmitted
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalMappingEntry 5 }
cmrwLocalMappingSTSPosition OBJECT-TYPE
SYNTAX INTEGER
{
unchanged(1),
tsPos1(2),
tsPos2(3),
tsPos3(4),
tsPos4(5),
tsPos5(6),
tsPos6(7),
tsPos7(8),
tsPos8(9),
tsPos9(10),
tsPos10(11),
tsPos11(12),
tsPos12(13),
tsPos13(14),
tsPos14(15),
tsPos15(16),
tsPos16(17),
tsPos17(18),
tsPos18(19),
tsPos19(20),
tsPos20(21),
tsPos21(22),
tsPos22(23),
tsPos23(24),
tsPos24(25),
tsPos25(26),
tsPos26(27),
tsPos27(28),
tsPos28(29),
tsPos29(30),
tsPos30(31),
tsPos31(32),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the position of the Signalization Timeslot.
1 unchanged STS mapping is disabled
2 tsPos1 STS position: Timeslot 1
3 tsPos2 STS position: Timeslot 2
4 tsPos3 STS position: Timeslot 3
5 tsPos4 STS position: Timeslot 4
6 tsPos5 STS position: Timeslot 5
7 tsPos6 STS position: Timeslot 6
8 tsPos7 STS position: Timeslot 7
9 tsPos8 STS position: Timeslot 8
10 tsPos9 STS position: Timeslot 9
11 tsPos10 STS position: Timeslot 10
12 tsPos11 STS position: Timeslot 11
13 tsPos12 STS position: Timeslot 12
14 tsPos13 STS position: Timeslot 13
15 tsPos14 STS position: Timeslot 14
16 tsPos15 STS position: Timeslot 15
17 tsPos16 STS position: Timeslot 16
18 tsPos17 STS position: Timeslot 17
19 tsPos18 STS position: Timeslot 18
20 tsPos19 STS position: Timeslot 19
21 tsPos20 STS position: Timeslot 20
22 tsPos21 STS position: Timeslot 21
23 tsPos22 STS position: Timeslot 22
24 tsPos23 STS position: Timeslot 23
25 tsPos24 STS position: Timeslot 24
26 tsPos25 STS position: Timeslot 25
27 tsPos26 STS position: Timeslot 26
28 tsPos27 STS position: Timeslot 27
29 tsPos28 STS position: Timeslot 28
30 tsPos29 STS position: Timeslot 29
31 tsPos30 STS position: Timeslot 30
32 tsPos31 STS position: Timeslot 31
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalMappingEntry 6 }
cmrwLocalMappingTxTs0 OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether timeslot 0 is transmitted on the U interface.
1 Disabled TS0 is not transmitted
2 Enabled TS0 is transmitted
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwLocalMappingEntry 7 }
--------------------------------------------------------------------------------
-- CM-RW far Clock
--------------------------------------------------------------------------------
cmrwFarClockTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarClockEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 3 }
cmrwFarClockEntry OBJECT-TYPE
SYNTAX CmrwFarClockEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarClockPortIndex, cmrwFarClockLinkIndex }
::= { cmrwFarClockTable 1 }
CmrwFarClockEntry ::=
SEQUENCE
{
cmrwFarClockPortIndex INTEGER,
cmrwFarClockLinkIndex INTEGER,
cmrwFarClockActive INTEGER,
cmrwFarClockT3InAvailable INTEGER,
cmrwFarClockTInterfaceAvailable INTEGER,
cmrwFarClockUInterfaceAvailable INTEGER,
cmrwFarClockInternalAvailable INTEGER,
cmrwFarClockPriority OCTET STRING
}
cmrwFarClockPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarClockEntry 1 }
cmrwFarClockLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwFarClockEntry 2 }
cmrwFarClockActive OBJECT-TYPE
SYNTAX INTEGER
{
t3in(1),
tInterface(2),
uInterface(3),
internal(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates which clock source is currently being used.
1 T3In Uses Clock input T3In
2 TInterface Taking Clock from signal on T-Interface
3 UInterface Taking Clock from signal on U-Interface
4 Internal Using internal oscillator to generate Clock
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarClockEntry 3 }
cmrwFarClockT3InAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether Clock Input T3In is available
1 False Clock Input T3In not available
2 True Clock Input T3In available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarClockEntry 4 }
cmrwFarClockTInterfaceAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether a clock signal can be derrived from the signal
on the T-Interface
1 False Clock signal available
2 True Clock signal available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarClockEntry 5 }
cmrwFarClockUInterfaceAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether a clock signal can be derrived from the signal
on the U-Interface
1 False Clock signal available
2 True Clock signal available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarClockEntry 6 }
cmrwFarClockInternalAvailable OBJECT-TYPE
SYNTAX INTEGER
{
false(1),
true(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Reports whether the internal oscillator is available
1 False oscillator not available
2 True oscillator available
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarClockEntry 7 }
cmrwFarClockPriority OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(4))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Used to read and set the clock priority for the different
clock sources. The variable is an array with length 4. The
indices correspond to the priorities (0=highest, 3=lowest).
The following values can be contained in each position,
indicating which clock source has the corresponding priority:
1 T3In Clock Input T3In
2 TInterface Clock derrived from Signal at T-Interface
3 UInterface Clock derrived from Signal at U-Interface
4 Internal Internal oscillator
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarClockEntry 8 }
--------------------------------------------------------------------------------
-- CM-RW far 2M
--------------------------------------------------------------------------------
cmrwFar2MTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFar2MEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 4 }
cmrwFar2MEntry OBJECT-TYPE
SYNTAX CmrwFar2MEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFar2MPortIndex, cmrwFar2MLinkIndex }
::= { cmrwFar2MTable 1 }
CmrwFar2MEntry ::=
SEQUENCE
{
cmrwFar2MPortIndex INTEGER,
cmrwFar2MLinkIndex INTEGER,
cmrwFar2MFraming INTEGER,
cmrwFar2MEnableT INTEGER,
cmrwFar2MTimeslotsT INTEGER,
cmrwFar2MIdlecodeT INTEGER,
cmrwFar2MCrc4T INTEGER,
cmrwFar2MCrc4U INTEGER,
cmrwFar2MDetectAis INTEGER,
cmrwFar2MInsertAis INTEGER,
cmrwFar2MSaBits OCTET STRING,
cmrwFar2MTs16Signalling INTEGER,
cmrwFar2MIdlecodeU INTEGER,
cmrwFar2MTs0Present INTEGER,
cmrwFar2MCrc4V INTEGER,
cmrwFar2MInterfaceImpedance INTEGER
}
cmrwFar2MPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFar2MEntry 1 }
cmrwFar2MLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwFar2MEntry 2 }
cmrwFar2MFraming OBJECT-TYPE
SYNTAX INTEGER
{
transparent(1),
monitoring(2),
termination(3),
channelized(4),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Configures Frame Alignment
1 Transparent No frame or multi-frame synchronisation
2 Monitoring Frame and Multi-Frame synchronisation but no reinsertion of Frame
3 Termination Frame and Multi-Frame synchronisation and reinsertion
4 Channelized Frame and Multi-Frame synchronisation without transmission of timeslot 0 254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 3 }
cmrwFar2MEnableT OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Enable or disable the G.703 interface (T-Interface)
1 Disabled G.703 Interface is disabled
2 Enabled G.703 Interface is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 4 }
cmrwFar2MTimeslotsT OBJECT-TYPE
SYNTAX INTEGER
{
bw64(1),
bw128(2),
bw192(3),
bw256(4),
bw320(5),
bw384(6),
bw448(7),
bw512(8),
bw576(9),
bw640(10),
bw704(11),
bw768(12),
bw832(13),
bw896(14),
bw960(15),
bw1024(16),
bw1088(17),
bw1152(18),
bw1216(19),
bw1280(20),
bw1344(21),
bw1408(22),
bw1472(23),
bw1536(24),
bw1600(25),
bw1664(26),
bw1728(27),
bw1792(28),
bw1856(29),
bw1920(30),
bw1984(31),
bw2048(32),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Bandwidth allocated for G.703 Interface (T-Interface) as
a number of 64kbit/s time slots. Between 1 and 32.
When reading the following values can also be returned:
1 bw64 Bandwidth 64 kbit/s
2 bw128 Bandwidth 128 kbit/s
3 bw192 Bandwidth 192 kbit/s
4 bw256 Bandwidth 256 kbit/s
5 bw320 Bandwidth 320 kbit/s
6 bw384 Bandwidth 384 kbit/s
7 bw448 Bandwidth 448 kbit/s
8 bw512 Bandwidth 512 kbit/s
9 bw576 Bandwidth 576 kbit/s
10 bw640 Bandwidth 640 kbit/s
11 bw704 Bandwidth 704 kbit/s
12 bw768 Bandwidth 768 kbit/s
13 bw832 Bandwidth 832 kbit/s
14 bw896 Bandwidth 896 kbit/s
15 bw960 Bandwidth 960 kbit/s
16 bw1024 Bandwidth 1024 kbit/s
17 bw1088 Bandwidth 1088 kbit/s
18 bw1152 Bandwidth 1152 kbit/s
19 bw1216 Bandwidth 1216 kbit/s
20 bw1280 Bandwidth 1280 kbit/s
21 bw1344 Bandwidth 1344 kbit/s
22 bw1408 Bandwidth 1408 kbit/s
23 bw1472 Bandwidth 1472 kbit/s
24 bw1536 Bandwidth 1536 kbit/s
25 bw1600 Bandwidth 1600 kbit/s
26 bw1664 Bandwidth 1664 kbit/s
27 bw1728 Bandwidth 1728 kbit/s
28 bw1792 Bandwidth 1792 kbit/s
29 bw1856 Bandwidth 1856 kbit/s
30 bw1920 Bandwidth 1920 kbit/s
31 bw1984 Bandwidth 1984 kbit/s
32 bw2048 Bandwidth 2048 kbit/s
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 5 }
cmrwFar2MIdlecodeT OBJECT-TYPE
SYNTAX INTEGER
{
ais(1),
es(2),
pais(3),
none(4),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Idle Code on the T-Interface.
1 AIS AIS
2 ES ES
3 PAIS PAIS
4 None No Idle Code
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 6 }
cmrwFar2MCrc4T OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
autoOff(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether CRC-4 evaluation at the T-Interface is done.
1 Off CRC-4 Data is not evaluated
2 On CRC-4 Data is evaluated, error if none present in signal
3 AutoOff CRC-4 Data is evaluated, if none is present, evaluation is disabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 7 }
cmrwFar2MCrc4U OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether CRC-4 evaluation at the U-Interface is done.
1 Off CRC-4 Data is not evaluated
2 On CRC-4 Data is evaluated, error if none present in signal
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 8 }
cmrwFar2MDetectAis OBJECT-TYPE
SYNTAX INTEGER
{
noDetect(1),
detect(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether AIS detection is enabled or not
1 NoDetect AIS is not detected
2 Detect AIS is detected
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 9 }
cmrwFar2MInsertAis OBJECT-TYPE
SYNTAX INTEGER
{
noInsertion(1),
insertion(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether an AIS signal is regenerated or just passed through
1 NoInsertion Pass signal through
2 Insertion Regenerate signal
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 10 }
cmrwFar2MSaBits OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(6))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Contains the Sa-bit configuration. The variable is an array with length 6.
The indicies address the Sa bits as follows:
[0] Sa4
[1] Sa5
[2] Sa6
[3] Sa7
[4] Sa8
[5] Sa6 Loop Detection
Positions 0,3 and 4 (Sa4, Sa7, Sa8) can contain the following values:
1 Transparent
2 Constant Ones
Position 1 (Sa5) can contain the following values:
1 Transparent
2 Constant Ones
3 Insert
Position 2 (Sa6) can contain the following values:
1 Transparent
2 Constant Ones
3 ETSI Norm
4 ANSI Norm
Position 5 (Sa6 Loop Detection) can contain the following values:
1 Loop Detection Off
2 Loop Detection On
All 6 positions can contain the values below:
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 11 }
cmrwFar2MTs16Signalling OBJECT-TYPE
SYNTAX INTEGER
{
transparent(1),
new(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether time slot 16 is passed through transparently or
whether it is reinsertet.
1 Transparent Passing through TS16
2 New Reinserting TS16
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 12 }
cmrwFar2MIdlecodeU OBJECT-TYPE
SYNTAX INTEGER
{
ais(1),
es(2),
pais(3),
none(4),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Idle Code on the U-Interface.
1 AIS AIS
2 ES ES
3 PAIS PAIS
4 none no Idle Code
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 13 }
cmrwFar2MTs0Present OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether timeslot 0 (G.704 frame) is actually
transmitted by the U interface.
1 No Timeslot 0 is re-inserted by receiver
2 Yes Timeslot 0 is actually sent
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 14 }
cmrwFar2MCrc4V OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether CRC-4 evaluation at the V-Interfaces is done.
1 Off CRC-4 Data is not evaluated
2 On CRC-4 Data is evaluated, error if none present in signal
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 15 }
cmrwFar2MInterfaceImpedance OBJECT-TYPE
SYNTAX INTEGER
{
ohm75(75),
ohm120(120),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the impedance of the G.703 interface.
75 ohm75 The impedance of the G.703 interface is 75 Ohm.
120 ohm120 The impedance of the G.703 interface is 120 Ohm.
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFar2MEntry 16 }
--------------------------------------------------------------------------------
-- CM-RW far Data
--------------------------------------------------------------------------------
cmrwFarDataTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 5 }
cmrwFarDataEntry OBJECT-TYPE
SYNTAX CmrwFarDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarDataPortIndex, cmrwFarDataLinkIndex }
::= { cmrwFarDataTable 1 }
CmrwFarDataEntry ::=
SEQUENCE
{
cmrwFarDataPortIndex INTEGER,
cmrwFarDataLinkIndex INTEGER,
cmrwFarDataEnabledD INTEGER,
cmrwFarDataTimeslotsD INTEGER,
cmrwFarDataIdlecodeD INTEGER,
cmrwFarDataFastSig INTEGER,
cmrwFarDataLine106 INTEGER,
cmrwFarDataLine107 INTEGER,
cmrwFarDataLine109 INTEGER,
cmrwFarDataLine140 INTEGER,
cmrwFarDataLine141 INTEGER,
cmrwFarDataUseTs16ForData INTEGER,
cmrwFarDataEndToEndSignalling INTEGER,
cmrwFarDataDteDceMode INTEGER,
cmrwFarDataIfSelector INTEGER
}
cmrwFarDataPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarDataEntry 1 }
cmrwFarDataLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwFarDataEntry 2 }
cmrwFarDataEnabledD OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the Data Interface is enabled or not.
1 Disabled Data Interface is disabled
2 Enabled Data Interface is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 3 }
cmrwFarDataTimeslotsD OBJECT-TYPE
SYNTAX INTEGER
{
bw64(1),
bw128(2),
bw192(3),
bw256(4),
bw320(5),
bw384(6),
bw448(7),
bw512(8),
bw576(9),
bw640(10),
bw704(11),
bw768(12),
bw832(13),
bw896(14),
bw960(15),
bw1024(16),
bw1088(17),
bw1152(18),
bw1216(19),
bw1280(20),
bw1344(21),
bw1408(22),
bw1472(23),
bw1536(24),
bw1600(25),
bw1664(26),
bw1728(27),
bw1792(28),
bw1856(29),
bw1920(30),
bw1984(31),
bw2048(32),
bw2112(33),
bw2176(34),
bw2240(35),
bw2304(36),
bw2368(37),
bw2432(38),
bw2496(39),
bw2560(40),
bw2624(41),
bw2688(42),
bw2752(43),
bw2816(44),
bw2880(45),
bw2944(46),
bw3008(47),
bw3072(48),
bw3136(49),
bw3200(50),
bw3264(51),
bw3328(52),
bw3392(53),
bw3456(54),
bw3520(55),
bw3584(56),
bw3648(57),
bw3712(58),
bw3776(59),
bw3840(60),
bw3904(61),
bw3968(62),
bw4032(63),
bw4096(64),
bw4160(65),
bw4224(66),
bw4288(67),
bw4352(68),
bw4416(69),
bw4480(70),
bw4544(71),
bw4608(72),
bw4672(73),
bw4736(74),
bw4800(75),
bw4864(76),
bw4928(77),
bw4992(78),
bw5056(79),
bw5120(80),
bw5184(81),
bw5248(82),
bw5312(83),
bw5376(84),
bw5440(85),
bw5504(86),
bw5568(87),
bw5632(88),
bw5696(89),
bw5760(90),
bw5824(91),
bw5888(92),
bw5952(93),
bw6016(94),
bw6080(95),
bw6144(96),
bw6208(97),
bw6272(98),
bw6336(99),
bw6400(100),
bw6464(101),
bw6528(102),
bw6592(103),
bw6656(104),
bw6720(105),
bw6784(106),
bw6848(107),
bw6912(108),
bw6976(109),
bw7040(110),
bw7104(111),
bw7168(112),
bw7232(113),
bw7296(114),
bw7360(115),
bw7424(116),
bw7488(117),
bw7552(118),
bw7616(119),
bw7680(120),
bw7744(121),
bw7808(122),
bw7872(123),
bw7936(124),
bw8000(125),
bw8064(126),
bw8128(127),
bw8192(128),
bw8256(129),
bw8320(130),
bw8384(131),
bw8448(132),
bw8512(133),
bw8576(134),
bw8640(135),
bw8704(136),
bw8768(137),
bw8832(138),
bw8896(139),
bw8960(140),
bw9024(141),
bw9088(142),
bw9152(143),
bw9216(144),
bw9280(145),
bw9344(146),
bw9408(147),
bw9472(148),
bw9536(149),
bw9600(150),
bw9664(151),
bw9728(152),
bw9792(153),
bw9856(154),
bw9920(155),
bw9984(156),
bw10048(157),
bw10112(158),
bw10176(159),
bw10240(160),
bw10304(161),
bw10368(162),
bw10432(163),
bw10496(164),
bw10560(165),
bw10624(166),
bw10688(167),
bw10752(168),
bw10816(169),
bw10880(170),
bw10944(171),
bw11008(172),
bw11072(173),
bw11136(174),
bw11200(175),
bw11264(176),
bw11328(177),
bw11392(178),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Bandwidth allocated for G.703 Interface (T-Interface) as
a number of 64kbit/s time slots.
When reading the following values can also be returned:
1 bw64 Bandwidth 64 kbit/s
2 bw128 Bandwidth 128 kbit/s
3 bw192 Bandwidth 192 kbit/s
4 bw256 Bandwidth 256 kbit/s
5 bw320 Bandwidth 320 kbit/s
6 bw384 Bandwidth 384 kbit/s
7 bw448 Bandwidth 448 kbit/s
8 bw512 Bandwidth 512 kbit/s
9 bw576 Bandwidth 576 kbit/s
10 bw640 Bandwidth 640 kbit/s
11 bw704 Bandwidth 704 kbit/s
12 bw768 Bandwidth 768 kbit/s
13 bw832 Bandwidth 832 kbit/s
14 bw896 Bandwidth 896 kbit/s
15 bw960 Bandwidth 960 kbit/s
16 bw1024 Bandwidth 1024 kbit/s
17 bw1088 Bandwidth 1088 kbit/s
18 bw1152 Bandwidth 1152 kbit/s
19 bw1216 Bandwidth 1216 kbit/s
20 bw1280 Bandwidth 1280 kbit/s
21 bw1344 Bandwidth 1344 kbit/s
22 bw1408 Bandwidth 1408 kbit/s
23 bw1472 Bandwidth 1472 kbit/s
24 bw1536 Bandwidth 1536 kbit/s
25 bw1600 Bandwidth 1600 kbit/s
26 bw1664 Bandwidth 1664 kbit/s
27 bw1728 Bandwidth 1728 kbit/s
28 bw1792 Bandwidth 1792 kbit/s
29 bw1856 Bandwidth 1856 kbit/s
30 bw1920 Bandwidth 1920 kbit/s
31 bw1984 Bandwidth 1984 kbit/s
32 bw2048 Bandwidth 2048 kbit/s
33 bw2112 Bandwidth 2112 kbit/s
34 bw2176 Bandwidth 2176 kbit/s
35 bw2240 Bandwidth 2240 kbit/s
36 bw2304 Bandwidth 2304 kbit/s
37 bw2368 Bandwidth 2368 kbit/s
38 bw2432 Bandwidth 2432 kbit/s
39 bw2496 Bandwidth 2496 kbit/s
40 bw2560 Bandwidth 2560 kbit/s
41 bw2624 Bandwidth 2624 kbit/s
42 bw2688 Bandwidth 2688 kbit/s
43 bw2752 Bandwidth 2752 kbit/s
44 bw2816 Bandwidth 2816 kbit/s
45 bw2880 Bandwidth 2880 kbit/s
46 bw2944 Bandwidth 2944 kbit/s
47 bw3008 Bandwidth 3008 kbit/s
48 bw3072 Bandwidth 3072 kbit/s
49 bw3136 Bandwidth 3136 kbit/s
50 bw3200 Bandwidth 3200 kbit/s
51 bw3264 Bandwidth 3264 kbit/s
52 bw3328 Bandwidth 3328 kbit/s
53 bw3392 Bandwidth 3392 kbit/s
54 bw3456 Bandwidth 3456 kbit/s
55 bw3520 Bandwidth 3520 kbit/s
56 bw3584 Bandwidth 3584 kbit/s
57 bw3648 Bandwidth 3648 kbit/s
58 bw3712 Bandwidth 3712 kbit/s
59 bw3776 Bandwidth 3776 kbit/s
60 bw3840 Bandwidth 3840 kbit/s
61 bw3904 Bandwidth 3904 kbit/s
62 bw3968 Bandwidth 3968 kbit/s
63 bw4032 Bandwidth 4032 kbit/s
64 bw4096 Bandwidth 4096 kbit/s
65 bw4160 Bandwidth 4160 kbit/s
66 bw4224 Bandwidth 4224 kbit/s
67 bw4288 Bandwidth 4288 kbit/s
68 bw4352 Bandwidth 4352 kbit/s
69 bw4416 Bandwidth 4416 kbit/s
70 bw4480 Bandwidth 4480 kbit/s
71 bw4544 Bandwidth 4544 kbit/s
72 bw4608 Bandwidth 4608 kbit/s
73 bw4672 Bandwidth 4672 kbit/s
74 bw4736 Bandwidth 4736 kbit/s
75 bw4800 Bandwidth 4800 kbit/s
76 bw4864 Bandwidth 4864 kbit/s
77 bw4928 Bandwidth 4928 kbit/s
78 bw4992 Bandwidth 4992 kbit/s
79 bw5056 Bandwidth 5056 kbit/s
80 bw5120 Bandwidth 5120 kbit/s
81 bw5184 Bandwidth 5184 kbit/s
82 bw5248 Bandwidth 5248 kbit/s
83 bw5312 Bandwidth 5312 kbit/s
84 bw5376 Bandwidth 5376 kbit/s
85 bw5440 Bandwidth 5440 kbit/s
86 bw5504 Bandwidth 5504 kbit/s
87 bw5568 Bandwidth 5568 kbit/s
88 bw5632 Bandwidth 5632 kbit/s
89 bw5696 Bandwidth 5696 kbit/s
90 bw5760 Bandwidth 5760 kbit/s
91 bw5824 Bandwidth 5824 kbit/s
92 bw5888 Bandwidth 5888 kbit/s
93 bw5952 Bandwidth 5952 kbit/s
94 bw6016 Bandwidth 6016 kbit/s
95 bw6080 Bandwidth 6080 kbit/s
96 bw6144 Bandwidth 6144 kbit/s
97 bw6208 Bandwidth 6208 kbit/s
98 bw6272 Bandwidth 6272 kbit/s
99 bw6336 Bandwidth 6336 kbit/s
100 bw6400 Bandwidth 6400 kbit/s
101 bw6464 Bandwidth 6464 kbit/s
102 bw6528 Bandwidth 6528 kbit/s
103 bw6592 Bandwidth 6592 kbit/s
104 bw6656 Bandwidth 6656 kbit/s
105 bw6720 Bandwidth 6720 kbit/s
106 bw6784 Bandwidth 6784 kbit/s
107 bw6848 Bandwidth 6848 kbit/s
108 bw6912 Bandwidth 6912 kbit/s
109 bw6976 Bandwidth 6976 kbit/s
110 bw7040 Bandwidth 7040 kbit/s
111 bw7104 Bandwidth 7104 kbit/s
112 bw7168 Bandwidth 7168 kbit/s
113 bw7232 Bandwidth 7232 kbit/s
114 bw7296 Bandwidth 7296 kbit/s
115 bw7360 Bandwidth 7360 kbit/s
116 bw7424 Bandwidth 7424 kbit/s
117 bw7488 Bandwidth 7488 kbit/s
118 bw7552 Bandwidth 7552 kbit/s
119 bw7616 Bandwidth 7616 kbit/s
120 bw7680 Bandwidth 7680 kbit/s
121 bw7744 Bandwidth 7744 kbit/s
122 bw7808 Bandwidth 7808 kbit/s
123 bw7872 Bandwidth 7872 kbit/s
124 bw7936 Bandwidth 7936 kbit/s
125 bw8000 Bandwidth 8000 kbit/s
126 bw8064 Bandwidth 8064 kbit/s
127 bw8128 Bandwidth 8128 kbit/s
128 bw8192 Bandwidth 8192 kbit/s
129 bw8256 Bandwidth 8256 kbit/s
130 bw8320 Bandwidth 8320 kbit/s
131 bw8384 Bandwidth 8384 kbit/s
132 bw8448 Bandwidth 8448 kbit/s
133 bw8512 Bandwidth 8512 kbit/s
134 bw8576 Bandwidth 8576 kbit/s
135 bw8640 Bandwidth 8640 kbit/s
136 bw8704 Bandwidth 8704 kbit/s
137 bw8768 Bandwidth 8768 kbit/s
138 bw8832 Bandwidth 8832 kbit/s
139 bw8896 Bandwidth 8896 kbit/s
140 bw8960 Bandwidth 8960 kbit/s
141 bw9024 Bandwidth 9024 kbit/s
142 bw9088 Bandwidth 9088 kbit/s
143 bw9152 Bandwidth 9152 kbit/s
144 bw9216 Bandwidth 9216 kbit/s
145 bw9280 Bandwidth 9280 kbit/s
146 bw9344 Bandwidth 9344 kbit/s
147 bw9408 Bandwidth 9408 kbit/s
148 bw9472 Bandwidth 9472 kbit/s
149 bw9536 Bandwidth 9536 kbit/s
150 bw9600 Bandwidth 9600 kbit/s
151 bw9664 Bandwidth 9664 kbit/s
152 bw9728 Bandwidth 9728 kbit/s
153 bw9792 Bandwidth 9792 kbit/s
154 bw9856 Bandwidth 9856 kbit/s
155 bw9920 Bandwidth 9920 kbit/s
156 bw9984 Bandwidth 9984 kbit/s
157 bw10048 Bandwidth 10048 kbit/s
158 bw10112 Bandwidth 10112 kbit/s
159 bw10176 Bandwidth 10176 kbit/s
160 bw10240 Bandwidth 10240 kbit/s
161 bw10304 Bandwidth 10304 kbit/s
162 bw10368 Bandwidth 10368 kbit/s
163 bw10432 Bandwidth 10432 kbit/s
164 bw10496 Bandwidth 10496 kbit/s
165 bw10560 Bandwidth 10560 kbit/s
166 bw10624 Bandwidth 10624 kbit/s
167 bw10688 Bandwidth 10688 kbit/s
168 bw10752 Bandwidth 10752 kbit/s
169 bw10816 Bandwidth 10816 kbit/s
170 bw10880 Bandwidth 10880 kbit/s
171 bw10944 Bandwidth 10944 kbit/s
172 bw11008 Bandwidth 11008 kbit/s
173 bw11072 Bandwidth 11072 kbit/s
174 bw11136 Bandwidth 11136 kbit/s
175 bw11200 Bandwidth 11200 kbit/s
176 bw11264 Bandwidth 11264 kbit/s
177 bw11328 Bandwidth 11328 kbit/s
178 bw11392 Bandwidth 11392 kbit/s
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 4 }
cmrwFarDataIdlecodeD OBJECT-TYPE
SYNTAX INTEGER
{
null(1),
ais(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Idle Code for the Data Interface.
1 Null Always send 0
2 Ais Always send 1
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 5 }
cmrwFarDataFastSig OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether Fast Signalling is used or not
1 Off Fast Signalling is not used
2 On Fast Signalling is used
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 6 }
cmrwFarDataLine106 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 106 is set automatically or
permanently turned on.
1 Auto Automatically set
2 Perm Permanently on
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 7 }
cmrwFarDataLine107 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 107 is set automatically or
permanently turned on.
1 Auto Automatically set
2 Perm Permanently on
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 8 }
cmrwFarDataLine109 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 109 is set automatically or
permanently turned on.
1 Auto Automatically set
2 Perm Permanently on
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 9 }
cmrwFarDataLine140 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 140 is set automatically or
permanently turned off.
1 Auto Automatically set
2 Perm Permanently off
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 10 }
cmrwFarDataLine141 OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
perm(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether control line 141 is set automatically or
permanently turned off.
1 Auto Automatically set
2 Perm Permanently off
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 11 }
cmrwFarDataUseTs16ForData OBJECT-TYPE
SYNTAX INTEGER
{
no(1),
yes(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether timeslot 16 can be used for data when
no signalling information is transmitted in it.
1 No Timeslot 16 is reserved even if no signalling is used
2 Yes Timeslot 16 is used for data if no signalling is used
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 12 }
cmrwFarDataEndToEndSignalling OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
fastSig(2),
cas(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether End To End Signalling is enabled.
1 Disabled End To End Signalling is disabled
2 FastSig End To End Signalling is fast signalling
3 CAS End To End Signalling is CAS
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 13 }
cmrwFarDataDteDceMode OBJECT-TYPE
SYNTAX INTEGER
{
dce(1),
dte(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the operation mode of the data interface.
1 DCE Data Interface operates in DCE (Data Circuit-Terminating Equipment) mode
2 DTE Data Interface operates in DTE (Data Terminal Equipment) mode
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 14 }
cmrwFarDataIfSelector OBJECT-TYPE
SYNTAX INTEGER
{
mgblEthIf(1),
multiPurpDataIf(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Selects the active data Interface.
1 mgblEthIf Manageable Ethernet Interface is selected
2 multiPurpDataIf Multi Purpose Data Interface is selected
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarDataEntry 15 }
--------------------------------------------------------------------------------
-- CM-RW far Action
--------------------------------------------------------------------------------
cmrwFarActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 6 }
cmrwFarActionEntry OBJECT-TYPE
SYNTAX CmrwFarActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarActionPortIndex, cmrwFarActionLinkIndex }
::= { cmrwFarActionTable 1 }
CmrwFarActionEntry ::=
SEQUENCE
{
cmrwFarActionPortIndex INTEGER,
cmrwFarActionLinkIndex INTEGER,
cmrwFarActionReboot INTEGER
}
cmrwFarActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarActionEntry 1 }
cmrwFarActionLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwFarActionEntry 2 }
cmrwFarActionReboot OBJECT-TYPE
SYNTAX INTEGER {
passive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Command to reboot device. The parameter specifies whether
the firmware in the active or passive bank shall be started.
1 Passive Reboot using the passive firmware
2 Active Reboot using the active firmware
254 unknown value
255 unsupported variable for addressed device
If the parameter 'passive' is specified but the passive
firmware bank contains no valid code, the device reboots
using the active firmware."
::= { cmrwFarActionEntry 3 }
--------------------------------------------------------------------------------
-- CM-RW Far User Data
------------------------------------------------------------------------------
cmrwFarUserDataTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarUserDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 7 }
cmrwFarUserDataEntry OBJECT-TYPE
SYNTAX CmrwFarUserDataEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarUserDataPortIndex, cmrwFarUserDataLinkIndex, cmrwFarUserDataItemIndex }
::= { cmrwFarUserDataTable 1 }
CmrwFarUserDataEntry ::=
SEQUENCE
{
cmrwFarUserDataPortIndex INTEGER,
cmrwFarUserDataLinkIndex INTEGER,
cmrwFarUserDataItemIndex INTEGER,
cmrwFarUserData DisplayString
}
cmrwFarUserDataPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarUserDataEntry 1 }
cmrwFarUserDataLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwFarUserDataEntry 2 }
cmrwFarUserDataItemIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the data field number of the user data
and is used as index for the other elements in the Table"
::= {cmrwFarUserDataEntry 3 }
cmrwFarUserData OBJECT-TYPE
SYNTAX DisplayString(SIZE(100))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"User data that can be written to the device"
::= {cmrwFarUserDataEntry 4 }
--------------------------------------------------------------------------------
-- CM-RW Far RPS
------------------------------------------------------------------------------
cmrwFarRpsTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarRpsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 8 }
cmrwFarRpsEntry OBJECT-TYPE
SYNTAX CmrwFarRpsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarRpsPortIndex, cmrwFarRpsLinkIndex }
::= { cmrwFarRpsTable 1 }
CmrwFarRpsEntry ::=
SEQUENCE
{
cmrwFarRpsPortIndex INTEGER,
cmrwFarRpsLinkIndex INTEGER,
cmrwFarRps INTEGER,
cmrwFarRpsCurrent INTEGER
}
cmrwFarRpsPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarRpsEntry 1 }
cmrwFarRpsLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwFarRpsEntry 2 }
cmrwFarRps OBJECT-TYPE
SYNTAX INTEGER
{
inactive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the Remote Power Supply is on/off.
1 Inactive The RPS is turned off
2 Active The RPS is turned on
254 unknown value
255 unsupported
"
::= {cmrwFarRpsEntry 3 }
cmrwFarRpsCurrent OBJECT-TYPE
SYNTAX INTEGER
{
mA50(50),
mA60(60),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates the Remote Power Supply current.
50 Inactive RPS current limied to 50 mA
60 Active RPS current limited to 60 mA
254 unknown value
255 unsupported
"
::= {cmrwFarRpsEntry 4 }
--------------------------------------------------------------------------------
-- CM-RW L2SwitchPort
--------------------------------------------------------------------------------
cmrwFarL2SwitchPortTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarL2SwitchPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 9 }
cmrwFarL2SwitchPortEntry OBJECT-TYPE
SYNTAX CmrwFarL2SwitchPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarL2SwitchPortPortIndex, cmrwFarL2SwitchPortLinkIndex, cmrwFarL2SwitchPortLanPortIndex }
::= { cmrwFarL2SwitchPortTable 1 }
CmrwFarL2SwitchPortEntry ::=
SEQUENCE
{
cmrwFarL2SwitchPortPortIndex INTEGER,
cmrwFarL2SwitchPortLinkIndex INTEGER,
cmrwFarL2SwitchPortLanPortIndex INTEGER,
cmrwFarL2SwitchPortEnabled INTEGER,
cmrwFarL2SwitchPortPhyCfg INTEGER,
cmrwFarL2SwitchPortPhyAdvModes INTEGER,
cmrwFarL2SwitchPortPhyCfgReadout INTEGER,
cmrwFarL2SwitchPortAutoXover INTEGER,
cmrwFarL2SwitchPortFlowCtrl INTEGER,
cmrwFarL2SwitchPortRateLimit INTEGER,
cmrwFarL2SwitchPortRateLimitCfg INTEGER
}
cmrwFarL2SwitchPortPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarL2SwitchPortEntry 1 }
cmrwFarL2SwitchPortLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwFarL2SwitchPortEntry 2 }
cmrwFarL2SwitchPortLanPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the L2Switch port (LAN side)
and is used as index for the other elements in the Table"
::= { cmrwFarL2SwitchPortEntry 3 }
cmrwFarL2SwitchPortEnabled OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the L2Switch port is enabled or not.
1 Disabled L2Switch port is disabled
2 Enabled L2Switch port is enabled
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchPortEntry 4 }
cmrwFarL2SwitchPortPhyCfg OBJECT-TYPE
SYNTAX INTEGER {
full10(1),
full100(2),
half10(3),
half100(4),
auto(5),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the ethernet phy config or allows auto negotiation.
1 Full Duplex 10Mbps
2 Full Duplex 100Mbps
3 Half Duplex 10Mbps
4 Half Duplex 100Mbps
5 Auto Negotiation
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchPortEntry 5 }
cmrwFarL2SwitchPortPhyAdvModes OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the phy modes to be offered during auto
negotiation ('advertized modes').
Bit 0 1 Full Duplex 10Mbps
Bit 1 2 Full Duplex 100Mbps
Bit 2 4 Half Duplex 10Mbps
Bit 3 8 Half Duplex 100Mbps
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)"
::= { cmrwFarL2SwitchPortEntry 6 }
cmrwFarL2SwitchPortPhyCfgReadout OBJECT-TYPE
SYNTAX INTEGER {
full10(1),
full100(2),
half10(3),
half100(4),
auto(5),
linkdown(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates the current ethernet phy config.
1 Full Duplex 10Mbps
2 Full Duplex 100Mbps
3 Half Duplex 10Mbps
4 Half Duplex 100Mbps
5 Auto Negotiation
6 Linkdown
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchPortEntry 7 }
cmrwFarL2SwitchPortAutoXover OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines whether ethernet crossover (MDI/MDI-X)
should automatically be detected and compensated
for.
1 Disabled MDI
2 Enabled Auto MDI/MDI-X
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchPortEntry 8 }
cmrwFarL2SwitchPortFlowCtrl OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines whether flow control should be performed
on a specific port.
1 Disabled Flow control disabled
2 Enabled Flow control enabled
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchPortEntry 9 }
cmrwFarL2SwitchPortRateLimit OBJECT-TYPE
SYNTAX INTEGER (0..65535)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines the maximum bit rate on a specific port
in 32kbps increments. This setting can be
overriden by the Rate Limit Cfg setting.
32 Rate Limit 32kbps
64 Rate Limit 64kbps
...
9216 Rate Limit 9216kbps (equals 4*2304 kbps)
...
xxx Rate Limit xxxxkbps
65534 unknown
65535 unsupported"
::= { cmrwFarL2SwitchPortEntry 10 }
cmrwFarL2SwitchPortRateLimitCfg OBJECT-TYPE
SYNTAX INTEGER {
unlimited(1),
userN32k(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Determines the behavior of the port rate limiter.
on a specific port
1 Unlimited No rate limit enforced
2 User-Def. n*32k User-defined value in 32k increments
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchPortEntry 11 }
--------------------------------------------------------------------------------
-- CM-RW Local Multi Interfaces
--------------------------------------------------------------------------------
cmrwFarMultiIfTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarMultiIfEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 10 }
cmrwFarMultiIfEntry OBJECT-TYPE
SYNTAX CmrwFarMultiIfEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarMultiIfPortIndex, cmrwFarMultiIfLinkIndex, cmrwFarMultiIfInstanceIndex }
::= { cmrwFarMultiIfTable 1 }
CmrwFarMultiIfEntry ::=
SEQUENCE
{
cmrwFarMultiIfPortIndex INTEGER,
cmrwFarMultiIfLinkIndex INTEGER,
cmrwFarMultiIfInstanceIndex INTEGER,
cmrwFarMultiIfUEnabled INTEGER,
cmrwFarMultiIfVEnabled INTEGER
}
cmrwFarMultiIfPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarMultiIfEntry 1 }
cmrwFarMultiIfLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwFarMultiIfEntry 2 }
cmrwFarMultiIfInstanceIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses one of several instances
and is used as index for the other elements in the Table.
Instances can be
- U interfaces 1,2,3,4...
- V interfaces A,B,C,D...
The numbering format is 1,2,3,4..."
::= { cmrwFarMultiIfEntry 3 }
cmrwFarMultiIfUEnabled OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the U1,U2,U3,U4... interface is enabled or not.
1 Disabled Interface is disabled
2 Enabled Interface is enabled
254 unknown
255 unsupported"
::= { cmrwFarMultiIfEntry 4 }
cmrwFarMultiIfVEnabled OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the V_A,V_B,V_C,V_D... interface is enabled or not.
1 Disabled Interface is disabled
2 Enabled Interface is enabled
254 unknown
255 unsupported"
::= { cmrwFarMultiIfEntry 5 }
--------------------------------------------------------------------------------
-- CM-RW Far L2Switch
--------------------------------------------------------------------------------
cmrwFarL2SwitchTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarL2SwitchEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 11 }
cmrwFarL2SwitchEntry OBJECT-TYPE
SYNTAX CmrwFarL2SwitchEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarL2SwitchPortIndex, cmrwFarL2SwitchLinkIndex }
::= { cmrwFarL2SwitchTable 1 }
CmrwFarL2SwitchEntry ::=
SEQUENCE
{
cmrwFarL2SwitchPortIndex INTEGER,
cmrwFarL2SwitchLinkIndex INTEGER,
cmrwFarL2SwitchHugeFrames INTEGER,
cmrwFarL2SwitchAdaptiveFlowCtrl INTEGER,
cmrwFarL2SwitchFrameLengthCheck INTEGER
}
cmrwFarL2SwitchPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarL2SwitchEntry 1 }
cmrwFarL2SwitchLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwFarL2SwitchEntry 2 }
cmrwFarL2SwitchHugeFrames OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether the Layer 2 Switch supports so-called Huge Frames
(frames longer than 1522 bytes).
1 Disabled Huge frames will be discarded
2 Enabled Huge frames allowed
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchEntry 3 }
cmrwFarL2SwitchAdaptiveFlowCtrl OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether adaptive flow control on the Layer 2 Switch and on the
HDLC bridge is enabled (to avoid packet loss) or not.
1 Disabled Disable adaptive flow control
2 Enabled Enable adaptive flow control
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchEntry 4 }
cmrwFarL2SwitchFrameLengthCheck OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates whether frame length check on the Layer 2 Switch is enabled or not.
1 Disabled Disable frame length check
2 Enabled Enable frame length check
254 unknown
255 unsupported"
::= { cmrwFarL2SwitchEntry 5 }
--------------------------------------------------------------------------------
-- CM-RW far Mapping
--------------------------------------------------------------------------------
cmrwFarMappingTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarMappingEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 12 }
cmrwFarMappingEntry OBJECT-TYPE
SYNTAX CmrwFarMappingEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarMappingPortIndex, cmrwFarMappingLinkIndex }
::= { cmrwFarMappingTable 1 }
CmrwFarMappingEntry ::=
SEQUENCE
{
cmrwFarMappingPortIndex INTEGER,
cmrwFarMappingLinkIndex INTEGER,
cmrwFarMappingEnabled INTEGER,
cmrwFarMappingMixedOperation INTEGER,
cmrwFarMappingOmitSTS INTEGER,
cmrwFarMappingSTSPosition INTEGER,
cmrwFarMappingTxTs0 INTEGER
}
cmrwFarMappingPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarMappingEntry 1 }
cmrwFarMappingLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {cmrwFarMappingEntry 2 }
cmrwFarMappingEnabled OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether Mapping is enabled or disabled.
1 Disabled Mapping is disabled
2 Enabled Mapping is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarMappingEntry 3 }
cmrwFarMappingMixedOperation OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether Mixed Operation (Data to Structured TDM) is enabled or disabled.
1 Disabled Mixed Operation is disabled
2 Enabled Mixed Operation is enabled
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarMappingEntry 4 }
cmrwFarMappingOmitSTS OBJECT-TYPE
SYNTAX INTEGER
{
transmit(1),
omit(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the Signalization Timeslot is actually being transmitted or just mapped, not transmitted.
1 Transmit STS is transmitted
2 Omit STS is mapped, but not transmitted
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarMappingEntry 5 }
cmrwFarMappingSTSPosition OBJECT-TYPE
SYNTAX INTEGER
{
unchanged(1),
tsPos1(2),
tsPos2(3),
tsPos3(4),
tsPos4(5),
tsPos5(6),
tsPos6(7),
tsPos7(8),
tsPos8(9),
tsPos9(10),
tsPos10(11),
tsPos11(12),
tsPos12(13),
tsPos13(14),
tsPos14(15),
tsPos15(16),
tsPos16(17),
tsPos17(18),
tsPos18(19),
tsPos19(20),
tsPos20(21),
tsPos21(22),
tsPos22(23),
tsPos23(24),
tsPos24(25),
tsPos25(26),
tsPos26(27),
tsPos27(28),
tsPos28(29),
tsPos29(30),
tsPos30(31),
tsPos31(32),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the position of the Signalization Timeslot.
1 unchanged STS mapping is disabled
2 tsPos1 STS position: Timeslot 1
3 tsPos2 STS position: Timeslot 2
4 tsPos3 STS position: Timeslot 3
5 tsPos4 STS position: Timeslot 4
6 tsPos5 STS position: Timeslot 5
7 tsPos6 STS position: Timeslot 6
8 tsPos7 STS position: Timeslot 7
9 tsPos8 STS position: Timeslot 8
10 tsPos9 STS position: Timeslot 9
11 tsPos10 STS position: Timeslot 10
12 tsPos11 STS position: Timeslot 11
13 tsPos12 STS position: Timeslot 12
14 tsPos13 STS position: Timeslot 13
15 tsPos14 STS position: Timeslot 14
16 tsPos15 STS position: Timeslot 15
17 tsPos16 STS position: Timeslot 16
18 tsPos17 STS position: Timeslot 17
19 tsPos18 STS position: Timeslot 18
20 tsPos19 STS position: Timeslot 19
21 tsPos20 STS position: Timeslot 20
22 tsPos21 STS position: Timeslot 21
23 tsPos22 STS position: Timeslot 22
24 tsPos23 STS position: Timeslot 23
25 tsPos24 STS position: Timeslot 24
26 tsPos25 STS position: Timeslot 25
27 tsPos26 STS position: Timeslot 26
28 tsPos27 STS position: Timeslot 27
29 tsPos28 STS position: Timeslot 28
30 tsPos29 STS position: Timeslot 29
31 tsPos30 STS position: Timeslot 30
32 tsPos31 STS position: Timeslot 31
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarMappingEntry 6 }
cmrwFarMappingTxTs0 OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether timeslot 0 is transmitted on the U interface.
1 Disabled TS0 is not transmitted
2 Enabled TS0 is transmitted
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarMappingEntry 7 }
--------------------------------------------------------------------------------
-- CM-RW Setup
--------------------------------------------------------------------------------
cmrwFarSetupTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwFarSetupEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwFar 13 }
cmrwFarSetupEntry OBJECT-TYPE
SYNTAX CmrwFarSetupEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwFarSetupPortIndex, cmrwFarSetupLinkIndex }
::= { cmrwFarSetupTable 1 }
CmrwFarSetupEntry ::=
SEQUENCE
{
cmrwFarSetupPortIndex INTEGER,
cmrwFarSetupLinkIndex INTEGER,
cmrwFarSetupCardActivation OCTET STRING,
cmrwFarSetupCardActState OCTET STRING,
cmrwFarSetupIfAssignment OCTET STRING
}
cmrwFarSetupPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwFarSetupEntry 1 }
cmrwFarSetupLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwFarSetupEntry 2 }
cmrwFarSetupCardActivation OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(8))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the system activation for the systems A to H on the card.
Each byte consists of the following information for one system:
1 Deactivated The system is inactive
2 Activated The system is active
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarSetupEntry 3 }
cmrwFarSetupCardActState OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(8))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates the system activation state for the systems A to H on the card .
Each byte consists of the following information for one system:
1 Current The system belongs to the currently managed line
2 Present The system does not belong to the currently managed line
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarSetupEntry 4 }
cmrwFarSetupIfAssignment OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(4))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the assignment of the (moveable) interfaces 1..4
to the systems A..D on the card .
Each byte consists of the following information for one interface:
1 systemA The interface is assigned to System A
2 systemB The interface is assigned to System B
3 systemC The interface is assigned to System C
4 systemD The interface is assigned to System D
254 unknown value
255 unsupported variable for addressed device"
::= { cmrwFarSetupEntry 5 }
--------------------------------------------------------------------------------
-- CM-RW OMI Token
--------------------------------------------------------------------------------
cmrwOmiTokenTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwOmiTokenEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwOmi 1 }
cmrwOmiTokenEntry OBJECT-TYPE
SYNTAX CmrwOmiTokenEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwOmiTokenPortIndex }
::= { cmrwOmiTokenTable 1 }
CmrwOmiTokenEntry ::=
SEQUENCE
{
cmrwOmiTokenPortIndex INTEGER,
cmrwOmiTokenResId INTEGER,
cmrwOmiTokenTicket INTEGER,
cmrwOmiTokenSessionId INTEGER
}
cmrwOmiTokenPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwOmiTokenEntry 1 }
cmrwOmiTokenResId OBJECT-TYPE
SYNTAX INTEGER
{
available(1),
lineint(2),
lct(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates who is in posession of the reservation token for this
device.
1 Available The token is free
2 Lineint The token is given to the LineIntegrator
3 Lct The token is given to the Local Craft Terminal (LCT)
254 unknown value
255 unsupported variable for the addressed device"
::= { cmrwOmiTokenEntry 2 }
cmrwOmiTokenTicket OBJECT-TYPE
SYNTAX INTEGER
{
token1(1),
token2(2),
token3(3),
token4(4),
token5(5),
token6(6),
token7(7),
token8(8),
token9(9),
token10(10),
notGranted(11),
lost(12),
notRequested(13),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Is used to request or refresh the token
device.
1-10 Token1-10 The token was granted/refreshed, the index helps to detect whether it has expried since last reading from this variable
11 NotGranted The token was not granted
12 Lost The token could not be refreshed
13 NotRequested The token has not been requested
254 unknown value
255 unsupported variable for the addressed device"
::= { cmrwOmiTokenEntry 7 }
cmrwOmiTokenSessionId OBJECT-TYPE
SYNTAX INTEGER (0..65535)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates which SNMP management is in posession of the reservation token for this
device.
0 Invalid The session value is invalid
65535 Unsupported unsupported variable for the addressed device"
::= { cmrwOmiTokenEntry 8 }
--------------------------------------------------------------------------------
-- CM-RW Omi Action
--------------------------------------------------------------------------------
cmrwOmiActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwOmiActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwOmi 6 }
cmrwOmiActionEntry OBJECT-TYPE
SYNTAX CmrwOmiActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwOmiActionPortIndex }
::= { cmrwOmiActionTable 1 }
CmrwOmiActionEntry ::=
SEQUENCE
{
cmrwOmiActionPortIndex INTEGER,
cmrwOmiActionReboot INTEGER
}
cmrwOmiActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwOmiActionEntry 1 }
cmrwOmiActionReboot OBJECT-TYPE
SYNTAX INTEGER {
passive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Command to reboot device. The parameter specifies whether
the firmware in the active or passive bank shall be started.
1 Passive Reboot using the passive firmware
2 Active Reboot using the active firmware
If the parameter 'passive' is specified but the passive
firmware bank contains no valid code, the device reboots
using the active firmware."
::= { cmrwOmiActionEntry 2 }
--------------------------------------------------------------------------------
-- CM-RW Omi Config
--------------------------------------------------------------------------------
cmrwOmiConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwOmiConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwOmi 7 }
cmrwOmiConfigEntry OBJECT-TYPE
SYNTAX CmrwOmiConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwOmiConfigPortIndex }
::= { cmrwOmiConfigTable 1 }
CmrwOmiConfigEntry ::=
SEQUENCE
{
cmrwOmiConfigPortIndex INTEGER,
cmrwOmiConfigVirtSlotPolling INTEGER,
cmrwOmiNTPServer1 OCTET STRING,
cmrwOmiNTPServer2 OCTET STRING,
cmrwOmiSNTPClientMode INTEGER,
cmrwOmiSNTPLocalUDPPort INTEGER,
cmrwOmiDateTime INTEGER,
cmrwOmiNMS1PortConfig INTEGER,
cmrwOmiNMS1PortStatus INTEGER,
cmrwOmiNMS1PortAutoConfig OCTET STRING,
cmrwOmiNMS2PortConfig INTEGER,
cmrwOmiNMS2PortStatus INTEGER,
cmrwOmiNMS2PortAutoConfig OCTET STRING,
cmrwOmiNMS3PortConfig INTEGER,
cmrwOmiNMS3PortStatus INTEGER,
cmrwOmiNMS3PortAutoConfig OCTET STRING
}
cmrwOmiConfigPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwOmiConfigEntry 1 }
cmrwOmiConfigVirtSlotPolling OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Is used to enable/disable the polling of the virtual slots (0x80).
1 Disabled The polling of the virtual slots is disabled
2 Enabled The polling of the virtual slots is enabled"
::= { cmrwOmiConfigEntry 2 }
cmrwOmiNTPServer1 OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(4))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NTP Server 1"
::= { cmrwOmiConfigEntry 3 }
cmrwOmiNTPServer2 OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(4))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NTP Server 2"
::= { cmrwOmiConfigEntry 4 }
cmrwOmiSNTPClientMode OBJECT-TYPE
SYNTAX INTEGER
{
unicast(1),
broadcast(2),
disable(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"SNTP client mode:
1 UNICAST
2 BROADCAST
3 DISABLED
254 UNKNOWN
255 UNSUPPORTED
"
::= { cmrwOmiConfigEntry 5 }
cmrwOmiSNTPLocalUDPPort OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"SNTP local UDP port 1..65535"
::= { cmrwOmiConfigEntry 6 }
cmrwOmiDateTime OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Unix system date (seconds elapsed since 1970-01-01)"
::= { cmrwOmiConfigEntry 7 }
cmrwOmiNMS1PortConfig OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
full10Mbps(2),
half10Mbps(3),
full100Mbps(4),
half100Mbps(5),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NMS port configuration.
1 AUTO
2 10 Mbps full duplex
3 10 Mbps half duplex
4 100 Mbps full duplex
5 100 Mbps half duplex
254 UNKNOWN
255 UNSUPPORTED
"
::= { cmrwOmiConfigEntry 8 }
cmrwOmiNMS1PortStatus OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
full10Mbps(2),
half10Mbps(3),
full100Mbps(4),
half100Mbps(5),
linkDown(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"NMS Port status.
1 AUTO
2 10 Mbps full duplex
3 10 Mbps half duplex
4 100 Mbps full duplex
5 100 Mbps half duplex
6 link down
254 UNKNOWN
255 UNSUPPORTED
"
::= { cmrwOmiConfigEntry 9 }
cmrwOmiNMS1PortAutoConfig OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(1))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NMS port auto conf:
Bit fields: Advertised mode
Mode is coded as follows:
bit 0 if 1 full 10 Mbps
bit 1 if 1 full 100 Mbps
bit 2 if 1 half 10 Mbps
bit 3 if 1 half 100 Mbps
0xFE UNKNOWN
0xFF UNSUPPORTED
"
::= { cmrwOmiConfigEntry 10 }
cmrwOmiNMS2PortConfig OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
full10Mbps(2),
half10Mbps(3),
full100Mbps(4),
half100Mbps(5),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NMS port configuration.
1 AUTO
2 10 Mbps full duplex
3 10 Mbps half duplex
4 100 Mbps full duplex
5 100 Mbps half duplex
254 UNKNOWN
255 UNSUPPORTED
"
::= { cmrwOmiConfigEntry 11}
cmrwOmiNMS2PortStatus OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
full10Mbps(2),
half10Mbps(3),
full100Mbps(4),
half100Mbps(5),
linkDown(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"NMS Port status.
1 AUTO
2 10 Mbps full duplex
3 10 Mbps half duplex
4 100 Mbps full duplex
5 100 Mbps half duplex
6 link down
254 UNKNOWN
255 UNSUPPORTED
"
::= { cmrwOmiConfigEntry 12 }
cmrwOmiNMS2PortAutoConfig OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(1))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NMS port auto conf:
Bit fields: Advertised mode
Mode is coded as follows:
bit 0 if 1 full 10 Mbps
bit 1 if 1 full 100 Mbps
bit 2 if 1 half 10 Mbps
bit 3 if 1 half 100 Mbps
0xFE UNKNOWN
0xFF UNSUPPORTED
"
::= { cmrwOmiConfigEntry 13 }
cmrwOmiNMS3PortConfig OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
full10Mbps(2),
half10Mbps(3),
full100Mbps(4),
half100Mbps(5),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NMS port configuration.
1 AUTO
2 10 Mbps full duplex
3 10 Mbps half duplex
4 100 Mbps full duplex
5 100 Mbps half duplex
254 UNKNOWN
255 UNSUPPORTED
"
::= { cmrwOmiConfigEntry 14 }
cmrwOmiNMS3PortStatus OBJECT-TYPE
SYNTAX INTEGER
{
auto(1),
full10Mbps(2),
half10Mbps(3),
full100Mbps(4),
half100Mbps(5),
linkDown(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"NMS Port status.
1 AUTO
2 10 Mbps full duplex
3 10 Mbps half duplex
4 100 Mbps full duplex
5 100 Mbps half duplex
6 link down
254 UNKNOWN
255 UNSUPPORTED
"
::= { cmrwOmiConfigEntry 15 }
cmrwOmiNMS3PortAutoConfig OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(1))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NMS port auto conf:
Bit fields: Advertised mode
Mode is coded as follows:
bit 0 if 1 full 10 Mbps
bit 1 if 1 full 100 Mbps
bit 2 if 1 half 10 Mbps
bit 3 if 1 half 100 Mbps
0xFE UNKNOWN
0xFF UNSUPPORTED
"
::= { cmrwOmiConfigEntry 16 }
--------------------------------------------------------------------------------
-- CM-RW Sru Action
--------------------------------------------------------------------------------
cmrwSruActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF CmrwSruActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { cmrwSru 1 }
cmrwSruActionEntry OBJECT-TYPE
SYNTAX CmrwSruActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { cmrwSruActionPortIndex, cmrwSruActionLinkIndex, cmrwSruActionRegIndex }
::= { cmrwSruActionTable 1 }
CmrwSruActionEntry ::=
SEQUENCE
{
cmrwSruActionPortIndex INTEGER,
cmrwSruActionLinkIndex INTEGER,
cmrwSruActionRegIndex INTEGER,
cmrwSruActionReboot INTEGER
}
cmrwSruActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { cmrwSruActionEntry 1 }
cmrwSruActionLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { cmrwSruActionEntry 2 }
cmrwSruActionRegIndex OBJECT-TYPE
SYNTAX INTEGER
{
reg11(3),
reg12(4),
reg21(5),
reg22(6),
reg31(7),
reg32(8),
reg41(9),
reg42(10),
reg51(11),
reg52(12),
reg61(13),
reg62(14),
reg71(15),
reg72(16),
reg81(17),
reg82(18),
reg13(19),
reg14(20),
reg23(21),
reg24(22),
reg33(23),
reg34(24),
reg43(25),
reg44(26),
reg53(27),
reg54(28),
reg63(29),
reg64(30),
reg73(31),
reg74(32),
reg83(33),
reg84(34)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the regenerator device and is
used as index for the other elements in the Table"
::= { cmrwSruActionEntry 3 }
cmrwSruActionReboot OBJECT-TYPE
SYNTAX INTEGER {
passive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Command to reboot device. The parameter specifies whether
the firmware in the active or passive bank shall be started.
1 Passive Reboot using the passive firmware
2 Active Reboot using the active firmware
If the parameter 'passive' is specified but the passive
firmware bank contains no valid code, the device reboots
using the active firmware."
::= { cmrwSruActionEntry 4 }
--==============================================================================
--==============================================================================
--
-- FM-RO
--
--==============================================================================
--==============================================================================
fmro OBJECT IDENTIFIER ::= { linksVers3 3 }
--------------------------------------------------------------------------------
-- FM-RO OMI
--------------------------------------------------------------------------------
fmroOmiTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroOmiEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 1 }
fmroOmiEntry OBJECT-TYPE
SYNTAX FmroOmiEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroOmiPortIndex }
::= { fmroOmiTable 1 }
FmroOmiEntry ::=
SEQUENCE
{
fmroOmiPortIndex INTEGER,
fmroOmiBattery1 INTEGER,
fmroOmiBattery2 INTEGER,
fmroOmiSaw INTEGER,
fmroOmiAuxMcuPower INTEGER,
fmroOmiExtInput1 INTEGER,
fmroOmiExtInput2 INTEGER,
fmroOmiExtInput3 INTEGER,
fmroOmiExtInput4 INTEGER,
fmroOmiNMSInterface1 INTEGER,
fmroOmiNMSInterface2 INTEGER,
fmroOmiNMSInterface3 INTEGER,
fmroOmiFEInterface1 INTEGER,
fmroOmiFEInterface2 INTEGER,
fmroOmiFEInterface3 INTEGER,
fmroOmiFEInterface4 INTEGER,
fmroOmiFEInterface5 INTEGER,
fmroOmiFEInterface6 INTEGER,
fmroOmiFEInterface7 INTEGER,
fmroOmiFEInterface8 INTEGER,
fmroOmiFEInterface9 INTEGER,
fmroOmiFEInterface10 INTEGER,
fmroOmiFEInterface11 INTEGER,
fmroOmiFEInterface12 INTEGER,
fmroOmiFEInterface13 INTEGER,
fmroOmiFEInterface14 INTEGER,
fmroOmiFEInterface15 INTEGER,
fmroOmiFEInterface16 INTEGER,
fmroOmiGBEUplink1 INTEGER,
fmroOmiGBEUplink2 INTEGER,
fmroOmiSFPLaser1 INTEGER,
fmroOmiSFPLaser2 INTEGER,
fmroOmiSFPInterface1 INTEGER,
fmroOmiSFPInterface2 INTEGER
}
fmroOmiPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroOmiEntry 1 }
fmroOmiBattery1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
batteryAlarm(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery alarm of the OMI card.
1 None No Alarm
2 BatteryAlarm Power failure on Battery 1
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 2 }
fmroOmiBattery2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
batteryAlarm(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery alarm of the OMI card.
1 None No Alarm
2 BatteryAlarm Power failure on Battery 2
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 3 }
fmroOmiSaw OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Alarm summary of the OMI card.
Bit 0 1 Urgent Alarm
Bit 1 2 Non-urgent Alarm
Bit 2 4 AIS (Alarm Indication Signal)
Bit 6 64 unknown
Bit 7 128 unsupported"
::= { fmroOmiEntry 4 }
fmroOmiAuxMcuPower OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
batteryAlarm(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery alarm of the OMI card.
1 No Alarm
2 Power failure on Auxiliary MCU battery
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 5 }
fmroOmiExtInput1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
inputAlarm(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"External alarm 1 of the MCU card.
1 No Alarm
2 External Alarm 1
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 6 }
fmroOmiExtInput2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
inputAlarm(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"External alarm 2 of the MCU card.
1 No Alarm
2 External Alarm 2
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 7 }
fmroOmiExtInput3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
inputAlarm(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"External alarm 3 of the MCU card.
1 No Alarm
2 External Alarm 3
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 8 }
fmroOmiExtInput4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
inputAlarm(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"External alarm of the MCU card.
1 No Alarm
2 External Alarm 4
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 9 }
fmroOmiNMSInterface1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"NMS Interface 1 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 10 }
fmroOmiNMSInterface2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"NMS Interface 2 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 11 }
fmroOmiNMSInterface3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"NMS Interface 3 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 12 }
fmroOmiFEInterface1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 1 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 13 }
fmroOmiFEInterface2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 2 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 14 }
fmroOmiFEInterface3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 3 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 15 }
fmroOmiFEInterface4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 4 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 16 }
fmroOmiFEInterface5 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 5 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 17 }
fmroOmiFEInterface6 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 6 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 18 }
fmroOmiFEInterface7 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 7 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 19 }
fmroOmiFEInterface8 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 8 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 20 }
fmroOmiFEInterface9 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 9 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 21 }
fmroOmiFEInterface10 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 10 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 22 }
fmroOmiFEInterface11 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 11 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 23 }
fmroOmiFEInterface12 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 12 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 24 }
fmroOmiFEInterface13 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 13 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 25 }
fmroOmiFEInterface14 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 14 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 26 }
fmroOmiFEInterface15 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 15 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 27 }
fmroOmiFEInterface16 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Fast Ethernet Interface 16 alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 28 }
fmroOmiGBEUplink1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"GBE 1 link down alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 29 }
fmroOmiGBEUplink2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"GBE 2 link down alarm of the MCU card.
1 No Alarm
24 LinkDown No Link Detected
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 30 }
fmroOmiSFPLaser1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP 1 laser alarm of the MCU card.
1 No Alarm
10 Alarm Alarm present
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 31 }
fmroOmiSFPLaser2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP 2 laser alarm of the MCU card.
1 No Alarm
10 Alarm Alarm present
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 32 }
fmroOmiSFPInterface1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP 1 interface alarm of the MCU card
1 No Alarm
9 LOS Loss of Signal
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 33 }
fmroOmiSFPInterface2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"SFP 2 interface alarm of the MCU card.
1 No Alarm
9 LOS Loss of Signal
254 unknown value
255 unsupported variable for addressed device"
::= { fmroOmiEntry 34 }
--------------------------------------------------------------------------------
-- FM-RO Local HTU
--------------------------------------------------------------------------------
fmroHtuLocalTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroHtuLocalEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 2 }
fmroHtuLocalEntry OBJECT-TYPE
SYNTAX FmroHtuLocalEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroHtuLocalPortIndex, fmroHtuLocalLinkIndex }
::= { fmroHtuLocalTable 1 }
FmroHtuLocalEntry ::=
SEQUENCE
{
fmroHtuLocalPortIndex INTEGER,
fmroHtuLocalLinkIndex INTEGER,
fmroHtuLocalU1 INTEGER,
fmroHtuLocalU2 INTEGER,
fmroHtuLocalU INTEGER,
fmroHtuLocalT INTEGER,
fmroHtuLocalDC INTEGER,
fmroHtuLocalDN INTEGER,
fmroHtuLocalEquipment INTEGER,
fmroHtuLocalLosD INTEGER,
fmroHtuLocalT3In INTEGER,
fmroHtuLocalRps INTEGER,
fmroHtuLocalRta INTEGER,
fmroHtuLocalPowerfail INTEGER,
fmroHtuLocalT3Out INTEGER,
fmroHtuLocalLaser INTEGER,
fmroHtuLocalAlarmSummary INTEGER,
fmroHtuLocalPowerfailCpe INTEGER,
fmroHtuLocalU3 INTEGER,
fmroHtuLocalU4 INTEGER,
fmroHtuLocalRps2 INTEGER,
fmroHtuLocalRps3 INTEGER,
fmroHtuLocalRps4 INTEGER,
fmroHtuLocalVA INTEGER,
fmroHtuLocalVB INTEGER,
fmroHtuLocalVC INTEGER,
fmroHtuLocalVD INTEGER,
fmroHtuLocalMcsCha INTEGER,
fmroHtuLocalMcsChb INTEGER,
fmroHtuLocalMcsChc INTEGER,
fmroHtuLocalMcsChd INTEGER,
fmroHtuLocalMcsRemCha INTEGER,
fmroHtuLocalMcsRemChb INTEGER,
fmroHtuLocalMcsRemChc INTEGER,
fmroHtuLocalMcsRemChd INTEGER,
fmroHtuLocalMcs INTEGER,
fmroHtuLocalL2SwitchWanRx INTEGER,
fmroHtuLocalL2SwitchWanTx INTEGER,
fmroHtuLocalL2SwitchLanPort1 INTEGER,
fmroHtuLocalL2SwitchLanPort2 INTEGER,
fmroHtuLocalL2SwitchLanPort3 INTEGER,
fmroHtuLocalL2SwitchLanPort4 INTEGER,
fmroHtuLocalL2SwitchBPLPort1 INTEGER,
fmroHtuLocalUo INTEGER,
fmroHtuLocalUo1 INTEGER,
fmroHtuLocalUo2 INTEGER,
fmroHtuLocalUA INTEGER,
fmroHtuLocalUB INTEGER,
fmroHtuLocalUC INTEGER,
fmroHtuLocalUD INTEGER,
fmroHtuLocalLosDB INTEGER,
fmroHtuLocalLosDC INTEGER,
fmroHtuLocalLosDD INTEGER,
fmroHtuLocalSFP1 INTEGER,
fmroHtuLocalSFP2 INTEGER
}
fmroHtuLocalPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroHtuLocalEntry 1 }
fmroHtuLocalLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroHtuLocalEntry 2 }
fmroHtuLocalU1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"HDSL Error on Path 1
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 3 }
fmroHtuLocalU2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"HDSL Error on Path 2
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 4 }
fmroHtuLocalU OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
hpo(2),
fpo(3),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
bwNotAvail(18),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal on HDSL Path
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
10 RAI Remote Alarm Indication
18 BwNotAvail Bandwidth not available
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 5 }
fmroHtuLocalT OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 6 }
fmroHtuLocalDC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the Data interface (Transmit signal)
1 None No Alarm
6 LOA Loss of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 7 }
fmroHtuLocalDN OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the Data interface (Receive signal)
1 None No Alarm
6 LOA Loss of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 8 }
fmroHtuLocalEquipment OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
xfw(25),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm
1 None No Alarm
10 Alarm Alarm present
25 XFW Firmware Mismatch
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 9 }
fmroHtuLocalLosD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 10 }
fmroHtuLocalT3In OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Loss of Clock on T3In
1 None No Alarm
9 LOS Loss of Clock Signal an T3In
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 11 }
fmroHtuLocalRps OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr12(12),
ucr1(13),
ucr2(14),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State
1 None No Alarm
12 UCR12 Undercurrent on HDSL Path 1 and 2
13 UCR1 Undercurrent on HDSL Path 1
14 UCR2 Undercurrent on HDSL Path 2
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 12 }
fmroHtuLocalRta OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Terminal Alarm Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 13 }
fmroHtuLocalPowerfail OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Device Powerfailure Alarm. If this alarm occurs the
remote device has lost all power and cannot be reached any
longer.
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 14 }
fmroHtuLocalT3Out OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"No Clock Signal available for T3Out
1 None No Alarm
9 LOS Loss of Clock Signal on T3Out
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 15 }
fmroHtuLocalLaser OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Laser aging alarm
1 None No Alarm
10 Alarm Laser reaching critical age
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 16 }
fmroHtuLocalAlarmSummary OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the alarm summary of the link. This value is bit coded:
Bit Value
0 1 UA Urgent alarm
1 2 NUA Non urgent alarm
2 4 AIS Alarm indication signal
A value of 0 means no alarm"
::= { fmroHtuLocalEntry 17 }
fmroHtuLocalPowerfailCpe OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Device Local Power Loss Alarm. If this Alarm
is active, the device has lost its local power supply
but is still powered over the transmission line (using
a remote power supply (RPS).
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 18 }
fmroHtuLocalU3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"xDSL Error on Path 3
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 19 }
fmroHtuLocalU4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"xDSL Error on Path 4
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 20 }
fmroHtuLocalRps2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr1(13),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State on Path 2
1 None No Alarm
13 UCR1 Undercurrent on current Path
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 21 }
fmroHtuLocalRps3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr1(13),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State on Path 3
1 None No Alarm
13 UCR1 Undercurrent on current Path
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 22 }
fmroHtuLocalRps4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr1(13),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State on Path 4
1 None No Alarm
13 UCR1 Undercurrent on current Path
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 23 }
fmroHtuLocalVA OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 24 }
fmroHtuLocalVB OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 25 }
fmroHtuLocalVC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 26 }
fmroHtuLocalVD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 27 }
fmroHtuLocalMcsCha OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel a
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 28 }
fmroHtuLocalMcsChb OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel b
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 29 }
fmroHtuLocalMcsChc OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel c
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 30 }
fmroHtuLocalMcsChd OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel d
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 31 }
fmroHtuLocalMcsRemCha OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel a
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 32 }
fmroHtuLocalMcsRemChb OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel b
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 33 }
fmroHtuLocalMcsRemChc OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel c
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 34 }
fmroHtuLocalMcsRemChd OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel d
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 35 }
fmroHtuLocalMcs OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
plom(22),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the entire MCS System
1 None No Alarm
21 LOM Loss Of MCS sync
22 PLOM Partial Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 36 }
fmroHtuLocalL2SwitchWanRx OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch WAN interface (Receive signal)
1 None No Alarm
6 LOA Loss Of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 37 }
fmroHtuLocalL2SwitchWanTx OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
mir(23),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch WAN interface (Transmit signal)
1 None No Alarm
6 LOA Loss Of Activity
23 MIR Maximum Information Rate
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 38 }
fmroHtuLocalL2SwitchLanPort1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 1
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 39 }
fmroHtuLocalL2SwitchLanPort2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 2
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 40 }
fmroHtuLocalL2SwitchLanPort3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 3
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 41 }
fmroHtuLocalL2SwitchLanPort4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 4
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 42 }
fmroHtuLocalL2SwitchBPLPort1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch Backplane Port 1
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 43 }
fmroHtuLocalUo OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
failUo1(28),
failUo2(29),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the optical link
1 None No Alarm
9 LOS Loss of Signal
28 FAIL_UO1 Line protection fail on Uo1
29 FAIL_UO2 Line protection fail on Uo2
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 44 }
fmroHtuLocalUo1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on first optical interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 45 }
fmroHtuLocalUo2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on second optical interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 46 }
fmroHtuLocalUA OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer A) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 47 }
fmroHtuLocalUB OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer B) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 48 }
fmroHtuLocalUC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer C) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 49 }
fmroHtuLocalUD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer D) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 50 }
fmroHtuLocalLosDB OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D (Framer B) Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 51 }
fmroHtuLocalLosDC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D (Framer C) Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 52 }
fmroHtuLocalLosDD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D (Framer D) Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 53 }
fmroHtuLocalSFP1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
txfault(30),
invalid(31),
missing(32),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on first SFP modul
1 None No Alarm
30 Tx fault Transmit laser fault
31 Invalid Invalid SFP modul equipped
32 Missing No SFP modul equipped
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 54 }
fmroHtuLocalSFP2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
txfault(30),
invalid(31),
missing(32),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on second SFP modul
1 None No Alarm
30 Tx fault Transmit laser fault
31 Invalid Invalid SFP modul equipped
32 Missing No SFP modul equipped
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuLocalEntry 55 }
--------------------------------------------------------------------------------
-- FM-RO Far HTU
--------------------------------------------------------------------------------
fmroHtuFarTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroHtuFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 3 }
fmroHtuFarEntry OBJECT-TYPE
SYNTAX FmroHtuFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroHtuFarPortIndex, fmroHtuFarLinkIndex }
::= { fmroHtuFarTable 1 }
FmroHtuFarEntry ::=
SEQUENCE
{
fmroHtuFarPortIndex INTEGER,
fmroHtuFarLinkIndex INTEGER,
fmroHtuFarU1 INTEGER,
fmroHtuFarU2 INTEGER,
fmroHtuFarU INTEGER,
fmroHtuFarT INTEGER,
fmroHtuFarDC INTEGER,
fmroHtuFarDN INTEGER,
fmroHtuFarEquipment INTEGER,
fmroHtuFarLosD INTEGER,
fmroHtuFarT3In INTEGER,
fmroHtuFarRps INTEGER,
fmroHtuFarRta INTEGER,
fmroHtuFarPowerfail INTEGER,
fmroHtuFarT3Out INTEGER,
fmroHtuFarLaser INTEGER,
fmroHtuFarPowerfailCpe INTEGER,
fmroHtuFarU3 INTEGER,
fmroHtuFarU4 INTEGER,
fmroHtuFarRps2 INTEGER,
fmroHtuFarRps3 INTEGER,
fmroHtuFarRps4 INTEGER,
fmroHtuFarVSlave INTEGER,
fmroHtuFarTSlave INTEGER,
fmroHtuFarDCSlave INTEGER,
fmroHtuFarDNSlave INTEGER,
fmroHtuFarVA INTEGER,
fmroHtuFarVB INTEGER,
fmroHtuFarVC INTEGER,
fmroHtuFarVD INTEGER,
fmroHtuFarMcsCha INTEGER,
fmroHtuFarMcsChb INTEGER,
fmroHtuFarMcsChc INTEGER,
fmroHtuFarMcsChd INTEGER,
fmroHtuFarMcsRemCha INTEGER,
fmroHtuFarMcsRemChb INTEGER,
fmroHtuFarMcsRemChc INTEGER,
fmroHtuFarMcsRemChd INTEGER,
fmroHtuFarMcs INTEGER,
fmroHtuFarL2SwitchWanRx INTEGER,
fmroHtuFarL2SwitchWanTx INTEGER,
fmroHtuFarL2SwitchLanPort1 INTEGER,
fmroHtuFarL2SwitchLanPort2 INTEGER,
fmroHtuFarL2SwitchLanPort3 INTEGER,
fmroHtuFarL2SwitchLanPort4 INTEGER,
fmroHtuFarL2SwitchBPLPort1 INTEGER,
fmroHtuFarUo INTEGER,
fmroHtuFarUo1 INTEGER,
fmroHtuFarUo2 INTEGER,
fmroHtuFarUA INTEGER,
fmroHtuFarUB INTEGER,
fmroHtuFarUC INTEGER,
fmroHtuFarUD INTEGER,
fmroHtuFarLosDB INTEGER,
fmroHtuFarLosDC INTEGER,
fmroHtuFarLosDD INTEGER,
fmroHtuFarSFP1 INTEGER,
fmroHtuFarSFP2 INTEGER
}
fmroHtuFarPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroHtuFarEntry 1 }
fmroHtuFarLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroHtuFarEntry 2 }
fmroHtuFarU1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"HDSL Error on Path 1
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 3 }
fmroHtuFarU2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"HDSL Error on Path 2
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 4 }
fmroHtuFarU OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
hpo(2),
fpo(3),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
bwNotAvail(18),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal on HDSL Path
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
18 BwNotAvail Bandwidth not available
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 5 }
fmroHtuFarT OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 6 }
fmroHtuFarDC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the Data interface (Transmit signal)
1 None No Alarm
6 LOA Loss of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 7 }
fmroHtuFarDN OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the Data interface (Receive signal)
1 None No Alarm
6 LOA Loss of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 8 }
fmroHtuFarEquipment OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 9 }
fmroHtuFarLosD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 10 }
fmroHtuFarT3In OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Loss of Clock on T3In
1 None No Alarm
9 LOS Loss of Clock Signal on T3In
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 11 }
fmroHtuFarRps OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr12(12),
ucr1(13),
ucr2(14),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State
1 None No Alarm
12 UCR12 Undercurrent on HDSL Path 1 and 2
13 UCR1 Undercurrent on HDSL Path 1
14 UCR2 Undercurrent on HDSL Path 2
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 12 }
fmroHtuFarRta OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Terminal Alarm Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 13 }
fmroHtuFarPowerfail OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Device Powerfailure Alarm
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 14 }
fmroHtuFarT3Out OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"No Clock Signal available for T3Out
1 None No Alarm
9 LOS Loss of Clock Signal on T3Out
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 15 }
fmroHtuFarLaser OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Laser aging alarm
1 None No Alarm
10 Alarm Laser reaching critcal age
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 16 }
fmroHtuFarPowerfailCpe OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Device Local Power Loss Alarm. If this Alarm
is active, the device has lost its local power supply
but is still powered over the transmission line (using
a remote power supply (RPS).
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 17 }
fmroHtuFarU3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"xDSL Error on Path 3
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 18 }
fmroHtuFarU4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"xDSL Error on Path 4
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 19 }
fmroHtuFarRps2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr1(13),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State on Path 2
1 None No Alarm
13 UCR1 Undercurrent on current Path
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 20 }
fmroHtuFarRps3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr1(13),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State on Path 3
1 None No Alarm
13 UCR1 Undercurrent on current Path
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 21 }
fmroHtuFarRps4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ucr1(13),
ovr(15),
nosym(16),
defect(17),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Power Supply Error State on Path 4
1 None No Alarm
13 UCR1 Undercurrent on current Path
15 OVR Overload
16 NOSYM Unsymetrical Load
17 DEFECT Defect on Module
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 22 }
fmroHtuFarVSlave OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
nsp(20),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the V-Interface on the slave device
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
10 RAI Remote Alarm Indication
20 NSP No Slave Present (GTU with slave support)
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 23 }
fmroHtuFarTSlave OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the T-Interface on the slave device
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 24 }
fmroHtuFarDCSlave OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the Data interface (Transmit signal) on the slave device
1 None No Alarm
6 LOA Loss of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 25 }
fmroHtuFarDNSlave OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the Data interface (Receive signal) on the slave device
1 None No Alarm
6 LOA Loss of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 26 }
fmroHtuFarVA OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 27 }
fmroHtuFarVB OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 28 }
fmroHtuFarVC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 29 }
fmroHtuFarVD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the G.703 Interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 30 }
fmroHtuFarMcsCha OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel a
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 31 }
fmroHtuFarMcsChb OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel b
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 32 }
fmroHtuFarMcsChc OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel c
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 33 }
fmroHtuFarMcsChd OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Channel d
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 34 }
fmroHtuFarMcsRemCha OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel a
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 35 }
fmroHtuFarMcsRemChb OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel b
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 36 }
fmroHtuFarMcsRemChc OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel c
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 37 }
fmroHtuFarMcsRemChd OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the MCS Remote Channel d
1 None No Alarm
21 LOM Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 38 }
fmroHtuFarMcs OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
lom(21),
plom(22),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the entire MCS System
1 None No Alarm
21 LOM Loss Of MCS sync
22 PLOM Partial Loss Of MCS sync
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 39 }
fmroHtuFarL2SwitchWanRx OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch WAN interface (Receive signal)
1 None No Alarm
6 LOA Loss Of Activity
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 40 }
fmroHtuFarL2SwitchWanTx OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
loa(6),
mir(23),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch WAN interface (Transmit signal)
1 None No Alarm
6 LOA Loss Of Activity
23 MIR Maximum Information Rate
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 41 }
fmroHtuFarL2SwitchLanPort1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 1
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 42 }
fmroHtuFarL2SwitchLanPort2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 2
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 43 }
fmroHtuFarL2SwitchLanPort3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 3
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 44 }
fmroHtuFarL2SwitchLanPort4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch LAN Port 4
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 45 }
fmroHtuFarL2SwitchBPLPort1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
linkdown(24),
lfp(27),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the L2Switch Backplane Port 1
1 None No Alarm
24 LinkDown No Link Detected
27 LFP Link Failure Propagation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 46 }
fmroHtuFarUo OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
failUo1(28),
failUo2(29),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on the optical link
1 None No Alarm
9 LOS Loss of Signal
28 FAIL_UO1 Line protection fail on Uo1
29 FAIL_UO2 Line protection fail on Uo2
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 47 }
fmroHtuFarUo1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on first optical interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 48 }
fmroHtuFarUo2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
lfa(8),
los(9),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on second optical interface
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
8 LFA Loss of Frame Alignment
9 LOS Loss of Signal
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 49 }
fmroHtuFarUA OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer A) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 50 }
fmroHtuFarUB OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer B) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 51 }
fmroHtuFarUC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer C) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 52 }
fmroHtuFarUD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
ais(7),
lfa(8),
rai(11),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error in 2MB Signal (Framer D) on transmission side
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
7 AIS Alarm Indication Signal
8 LFA Loss of Frame Alignment
11 RAI Remote Alarm Indication
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 53 }
fmroHtuFarLosDB OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D (Framer B) Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 54 }
fmroHtuFarLosDC OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D (Framer C) Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 55 }
fmroHtuFarLosDD OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"LOS-D (Framer D) Error State
1 None No Alarm
10 Alarm Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 56 }
fmroHtuFarSFP1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
txfault(30),
invalid(31),
missing(32),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on first SFP modul
1 None No Alarm
30 Tx fault Transmit laser fault
31 Invalid Invalid SFP modul equipped
32 Missing No SFP modul equipped
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 57 }
fmroHtuFarSFP2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
txfault(30),
invalid(31),
missing(32),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Error on second SFP modul
1 None No Alarm
30 Tx fault Transmit laser fault
31 Invalid Invalid SFP modul equipped
32 Missing No SFP modul equipped
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroHtuFarEntry 58 }
--------------------------------------------------------------------------------
-- FM-RO Regenerator
--------------------------------------------------------------------------------
fmroRegTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroRegEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 4 }
fmroRegEntry OBJECT-TYPE
SYNTAX FmroRegEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroRegPortIndex, fmroRegLinkIndex, fmroRegSectionIndex }
::= { fmroRegTable 1 }
FmroRegEntry ::=
SEQUENCE
{
fmroRegPortIndex INTEGER,
fmroRegLinkIndex INTEGER,
fmroRegSectionIndex INTEGER,
fmroRegU1L INTEGER,
fmroRegU2L INTEGER,
fmroRegU1N INTEGER,
fmroRegU2N INTEGER,
fmroRegEquipment1 INTEGER,
fmroRegEquipment2 INTEGER
}
fmroRegPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroRegEntry 1 }
fmroRegLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroRegEntry 2 }
fmroRegSectionIndex OBJECT-TYPE
SYNTAX INTEGER
{
sectionA(1),
sectionB(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Defines which Section of Regenerators is to be queried.
Ulaf+ Version 1.0 only supports the first section.
1 sectionA First section
2 sectionB Second section"
::= { fmroRegEntry 3 }
fmroRegU1L OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on HDSL Path 1 to LT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroRegEntry 4 }
fmroRegU2L OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on HDSL Path 2 to LT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroRegEntry 5 }
fmroRegU1N OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on HDSL Path 1 to NT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroRegEntry 6 }
fmroRegU2N OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on HDSL Path 2 to NT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroRegEntry 7 }
fmroRegEquipment1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm in Regenerator in HDSL Path 1
1 None No Alarm
10 Alarm Equipment Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroRegEntry 8 }
fmroRegEquipment2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm in Regenerator in HDSL Path 2
1 None No Alarm
10 Alarm Equipment Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroRegEntry 9 }
--------------------------------------------------------------------------------
-- FM-RO Local Led State
--------------------------------------------------------------------------------
fmroLocalLedStateTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroLocalLedStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 5 }
fmroLocalLedStateEntry OBJECT-TYPE
SYNTAX FmroLocalLedStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroLocalLedStatePortIndex, fmroLocalLedStateLinkIndex }
::= { fmroLocalLedStateTable 1 }
FmroLocalLedStateEntry ::=
SEQUENCE
{
fmroLocalLedStatePortIndex INTEGER,
fmroLocalLedStateLinkIndex INTEGER,
fmroLocalLedState1 INTEGER,
fmroLocalLedState2 INTEGER,
fmroLocalLedState3 INTEGER,
fmroLocalLedState4 INTEGER,
fmroLocalLedState5 INTEGER,
fmroLocalLedState6 INTEGER,
fmroLocalLedState7 INTEGER,
fmroLocalLedState8 INTEGER,
fmroLocalLedState9 INTEGER,
fmroLocalLedState10 INTEGER,
fmroLocalLedColor1 INTEGER,
fmroLocalLedColor2 INTEGER,
fmroLocalLedColor3 INTEGER,
fmroLocalLedColor4 INTEGER,
fmroLocalLedColor5 INTEGER,
fmroLocalLedColor6 INTEGER,
fmroLocalLedColor7 INTEGER,
fmroLocalLedColor8 INTEGER,
fmroLocalLedColor9 INTEGER,
fmroLocalLedColor10 INTEGER,
fmroLocalLedState11 INTEGER,
fmroLocalLedState12 INTEGER,
fmroLocalLedState13 INTEGER,
fmroLocalLedState14 INTEGER,
fmroLocalLedState15 INTEGER,
fmroLocalLedState16 INTEGER,
fmroLocalLedState17 INTEGER,
fmroLocalLedState18 INTEGER,
fmroLocalLedState19 INTEGER,
fmroLocalLedState20 INTEGER,
fmroLocalLedColor11 INTEGER,
fmroLocalLedColor12 INTEGER,
fmroLocalLedColor13 INTEGER,
fmroLocalLedColor14 INTEGER,
fmroLocalLedColor15 INTEGER,
fmroLocalLedColor16 INTEGER,
fmroLocalLedColor17 INTEGER,
fmroLocalLedColor18 INTEGER,
fmroLocalLedColor19 INTEGER,
fmroLocalLedColor20 INTEGER
}
fmroLocalLedStatePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroLocalLedStateEntry 1 }
fmroLocalLedStateLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroLocalLedStateEntry 2 }
fmroLocalLedState1 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED1 of the device.
HTU: Loop / Maintenance
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 3 }
fmroLocalLedState2 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED2 of the device.
HTU: LOS/LFA-U
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 4 }
fmroLocalLedState3 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED3 of the device.
HTU: LOS/LFA-T
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 5 }
fmroLocalLedState4 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED4 of the device.
HTU: AIS-U
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 6 }
fmroLocalLedState5 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED5 of the device.
HTU: BER6-U
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 7 }
fmroLocalLedState6 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED6 of the device.
HTU: PRA (Desktop only)
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 8 }
fmroLocalLedState7 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED7 of the device.
HTU: LOA-R (Desktop only)
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 9 }
fmroLocalLedState8 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED8 of the device.
HTU: LOA-T (Desktop only)
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 10 }
fmroLocalLedState9 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED9 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 11 }
fmroLocalLedState10 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED10 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 12 }
fmroLocalLedColor1 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED1 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 13 }
fmroLocalLedColor2 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED2 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 14 }
fmroLocalLedColor3 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED3 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 15 }
fmroLocalLedColor4 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED4 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 16 }
fmroLocalLedColor5 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED5 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 17 }
fmroLocalLedColor6 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED6 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 18 }
fmroLocalLedColor7 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED7 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 19 }
fmroLocalLedColor8 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED8 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 20 }
fmroLocalLedColor9 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED9 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 21 }
fmroLocalLedColor10 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED10 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 22 }
fmroLocalLedState11 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED11 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 23 }
fmroLocalLedState12 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED12 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 24 }
fmroLocalLedState13 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED13 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 25 }
fmroLocalLedState14 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED14 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 26 }
fmroLocalLedState15 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED15 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 27 }
fmroLocalLedState16 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED16 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 28 }
fmroLocalLedState17 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED17 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 29 }
fmroLocalLedState18 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED18 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 30 }
fmroLocalLedState19 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED19 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 31 }
fmroLocalLedState20 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED20 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroLocalLedStateEntry 32 }
fmroLocalLedColor11 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED11 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 33 }
fmroLocalLedColor12 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED12 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 34 }
fmroLocalLedColor13 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED13 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 35 }
fmroLocalLedColor14 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED14 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 36 }
fmroLocalLedColor15 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED15 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 37 }
fmroLocalLedColor16 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED16 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 38 }
fmroLocalLedColor17 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED17 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 39 }
fmroLocalLedColor18 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED18 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 40 }
fmroLocalLedColor19 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED19 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 41 }
fmroLocalLedColor20 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED20 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroLocalLedStateEntry 42 }
--------------------------------------------------------------------------------
-- FM-RO Far Led State
--------------------------------------------------------------------------------
fmroFarLedStateTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroFarLedStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 6 }
fmroFarLedStateEntry OBJECT-TYPE
SYNTAX FmroFarLedStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroFarLedStatePortIndex, fmroFarLedStateLinkIndex }
::= { fmroFarLedStateTable 1 }
FmroFarLedStateEntry ::=
SEQUENCE
{
fmroFarLedStatePortIndex INTEGER,
fmroFarLedStateLinkIndex INTEGER,
fmroFarLedState1 INTEGER,
fmroFarLedState2 INTEGER,
fmroFarLedState3 INTEGER,
fmroFarLedState4 INTEGER,
fmroFarLedState5 INTEGER,
fmroFarLedState6 INTEGER,
fmroFarLedState7 INTEGER,
fmroFarLedState8 INTEGER,
fmroFarLedState9 INTEGER,
fmroFarLedState10 INTEGER,
fmroFarLedColor1 INTEGER,
fmroFarLedColor2 INTEGER,
fmroFarLedColor3 INTEGER,
fmroFarLedColor4 INTEGER,
fmroFarLedColor5 INTEGER,
fmroFarLedColor6 INTEGER,
fmroFarLedColor7 INTEGER,
fmroFarLedColor8 INTEGER,
fmroFarLedColor9 INTEGER,
fmroFarLedColor10 INTEGER,
fmroFarLedState11 INTEGER,
fmroFarLedState12 INTEGER,
fmroFarLedState13 INTEGER,
fmroFarLedState14 INTEGER,
fmroFarLedState15 INTEGER,
fmroFarLedState16 INTEGER,
fmroFarLedState17 INTEGER,
fmroFarLedState18 INTEGER,
fmroFarLedState19 INTEGER,
fmroFarLedState20 INTEGER,
fmroFarLedColor11 INTEGER,
fmroFarLedColor12 INTEGER,
fmroFarLedColor13 INTEGER,
fmroFarLedColor14 INTEGER,
fmroFarLedColor15 INTEGER,
fmroFarLedColor16 INTEGER,
fmroFarLedColor17 INTEGER,
fmroFarLedColor18 INTEGER,
fmroFarLedColor19 INTEGER,
fmroFarLedColor20 INTEGER
}
fmroFarLedStatePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroFarLedStateEntry 1 }
fmroFarLedStateLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroFarLedStateEntry 2 }
fmroFarLedState1 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED1 of the device.
HTU: Loop / Maintenance
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 3 }
fmroFarLedState2 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED2 of the device.
HTU: LOS/LFA-U
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 4 }
fmroFarLedState3 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED3 of the device.
HTU: LOS/LFA-T
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 5 }
fmroFarLedState4 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED4 of the device.
HTU: AIS-U
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 6 }
fmroFarLedState5 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED5 of the device.
HTU: BER6-U
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 7 }
fmroFarLedState6 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED6 of the device.
HTU: PRA (Desktop only)
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 8 }
fmroFarLedState7 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED7 of the device.
HTU: LOA-R (Desktop only)
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 9 }
fmroFarLedState8 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED8 of the device.
HTU: LOA-T (Desktop only)
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 10 }
fmroFarLedState9 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED9 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 11 }
fmroFarLedState10 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED10 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 12 }
fmroFarLedColor1 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED1 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 13 }
fmroFarLedColor2 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED2 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 14 }
fmroFarLedColor3 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED3 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 15 }
fmroFarLedColor4 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED4 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 16 }
fmroFarLedColor5 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED5 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 17 }
fmroFarLedColor6 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED6 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 18 }
fmroFarLedColor7 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED7 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 19 }
fmroFarLedColor8 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED8 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 20 }
fmroFarLedColor9 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED9 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 21 }
fmroFarLedColor10 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED10 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 22 }
fmroFarLedState11 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED11 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 23 }
fmroFarLedState12 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED12 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 24 }
fmroFarLedState13 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED13 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 25 }
fmroFarLedState14 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED14 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 26 }
fmroFarLedState15 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED15 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 27 }
fmroFarLedState16 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED16 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 28 }
fmroFarLedState17 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED17 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 29 }
fmroFarLedState18 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED18 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 30 }
fmroFarLedState19 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED19 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 31 }
fmroFarLedState20 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
ledBlink4(6),
ledBlink5(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED20 of the device.
1 Off
2 On
3 Blinking pattern 1
4 Blinking pattern 2
5 Blinking pattern 3
6 Blinking pattern 4
7 Blinking pattern 5"
::= { fmroFarLedStateEntry 32 }
fmroFarLedColor11 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED11 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 33 }
fmroFarLedColor12 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED12 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 34 }
fmroFarLedColor13 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED13 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 35 }
fmroFarLedColor14 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED14 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 36 }
fmroFarLedColor15 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED15 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 37 }
fmroFarLedColor16 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED16 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 38 }
fmroFarLedColor17 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED17 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 39 }
fmroFarLedColor18 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED18 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 40 }
fmroFarLedColor19 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED19 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 41 }
fmroFarLedColor20 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED20 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroFarLedStateEntry 42 }
--------------------------------------------------------------------------------
-- FM-RO Omi Led State
--------------------------------------------------------------------------------
fmroOmiLedStateTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroOmiLedStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 7 }
fmroOmiLedStateEntry OBJECT-TYPE
SYNTAX FmroOmiLedStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroOmiLedStatePortIndex }
::= { fmroOmiLedStateTable 1 }
FmroOmiLedStateEntry ::=
SEQUENCE
{
fmroOmiLedStatePortIndex INTEGER,
fmroOmiLedState1 INTEGER,
fmroOmiLedState2 INTEGER,
fmroOmiLedState3 INTEGER,
fmroOmiLedState4 INTEGER,
fmroOmiLedState5 INTEGER,
fmroOmiLedState6 INTEGER,
fmroOmiLedState7 INTEGER,
fmroOmiLedState8 INTEGER,
fmroOmiLedState9 INTEGER,
fmroOmiLedState10 INTEGER,
fmroOmiLedState11 INTEGER,
fmroOmiLedState12 INTEGER,
fmroOmiLedState13 INTEGER,
fmroOmiLedState14 INTEGER,
fmroOmiLedState15 INTEGER,
fmroOmiLedState16 INTEGER,
fmroOmiLedColor1 INTEGER,
fmroOmiLedColor2 INTEGER,
fmroOmiLedColor3 INTEGER,
fmroOmiLedColor4 INTEGER,
fmroOmiLedColor5 INTEGER,
fmroOmiLedColor6 INTEGER,
fmroOmiLedColor7 INTEGER,
fmroOmiLedColor8 INTEGER,
fmroOmiLedColor9 INTEGER,
fmroOmiLedColor10 INTEGER,
fmroOmiLedColor11 INTEGER,
fmroOmiLedColor12 INTEGER,
fmroOmiLedColor13 INTEGER,
fmroOmiLedColor14 INTEGER,
fmroOmiLedColor15 INTEGER,
fmroOmiLedColor16 INTEGER
}
fmroOmiLedStatePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroOmiLedStateEntry 1 }
fmroOmiLedState1 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED1 of the OMI: Urgent Alarm
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 3 }
fmroOmiLedState2 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED2 of the OMI: Non-Urgent Alarm
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 4 }
fmroOmiLedState3 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED3 of the OMI: Acknowledged Alarm
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 5 }
fmroOmiLedState4 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED4 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 6 }
fmroOmiLedState5 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED5 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 7 }
fmroOmiLedState6 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED6 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 8 }
fmroOmiLedState7 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED7 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 9 }
fmroOmiLedState8 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED8 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 10 }
fmroOmiLedState9 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED9 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 11 }
fmroOmiLedState10 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED10 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 12 }
fmroOmiLedState11 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED11 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 13 }
fmroOmiLedState12 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED12 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 14 }
fmroOmiLedState13 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED13 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 15 }
fmroOmiLedState14 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED14 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 16 }
fmroOmiLedState15 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED15 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 17 }
fmroOmiLedState16 OBJECT-TYPE
SYNTAX INTEGER
{
ledOff(1),
ledOn(2),
ledBlink1(3),
ledBlink2(4),
ledBlink3(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of LED16 of the OMI
1 Off
2 On
3 Blinking pattern 1
3 Blinking pattern 2
4 Blinking pattern 3"
::= { fmroOmiLedStateEntry 18 }
fmroOmiLedColor1 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED1 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 19 }
fmroOmiLedColor2 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED2 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 20 }
fmroOmiLedColor3 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED3 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 21 }
fmroOmiLedColor4 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED4 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 22 }
fmroOmiLedColor5 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED5 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 23 }
fmroOmiLedColor6 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED6 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 24 }
fmroOmiLedColor7 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED7 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 25 }
fmroOmiLedColor8 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED8 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 26 }
fmroOmiLedColor9 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED9 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 27 }
fmroOmiLedColor10 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED10 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 28 }
fmroOmiLedColor11 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED11 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 29 }
fmroOmiLedColor12 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED12 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 30 }
fmroOmiLedColor13 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED13 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 31 }
fmroOmiLedColor14 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED14 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 32 }
fmroOmiLedColor15 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED15 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 33 }
fmroOmiLedColor16 OBJECT-TYPE
SYNTAX INTEGER
{
ledBlack(1),
ledYellow(2),
ledRed(3),
ledGreen(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Color of LED16 of the device.
1 LED color is black
2 LED color is yellow
3 LED color is red
4 LED color is green"
::= { fmroOmiLedStateEntry 34 }
--------------------------------------------------------------------------------
-- FM-RO Threshold alarms
--------------------------------------------------------------------------------
fmroThresholdTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroThresholdEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 8 }
fmroThresholdEntry OBJECT-TYPE
SYNTAX FmroThresholdEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroThresholdPortIndex, fmroThresholdLinkIndex, fmroThresholdCounterIndex }
::= { fmroThresholdTable 1 }
FmroThresholdEntry ::=
SEQUENCE
{
fmroThresholdPortIndex INTEGER,
fmroThresholdLinkIndex INTEGER,
fmroThresholdCounterIndex INTEGER,
fmroThresholdAlarms OCTET STRING
}
fmroThresholdPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroThresholdEntry 1 }
fmroThresholdLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroThresholdEntry 2 }
fmroThresholdCounterIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance counter of a link
and is used as index for the other elements in the Table
The following values are foreseen:
5 LT Wire pair 1 Direction NT
6 Reg1 Wire pair 1 Direction LT
7 Reg1 Wire pair 1 Direction NT
8 NT Wire pair 1 Direction LT
9 LT Wire pair 2 Direction NT
10 Reg1 Wire pair 2 Direction LT
11 Reg1 Wire pair 2 Direction NT
12 NT Wire pair 2 Direction LT
15 Reg2 Wire pair 1 Direction LT
16 Reg2 Wire pair 1 Direction NT
17 Reg2 Wire pair 2 Direction LT
18 Reg2 Wire pair 2 Direction NT
19 Reg3 Wire pair 1 Direction LT
20 Reg3 Wire pair 1 Direction NT
21 Reg4 Wire pair 1 Direction LT
22 Reg4 Wire pair 1 Direction NT
23 Reg5 Wire pair 1 Direction LT
24 Reg5 Wire pair 1 Direction NT
25 Reg6 Wire pair 1 Direction LT
26 Reg6 Wire pair 1 Direction NT
27 Reg7 Wire pair 1 Direction LT
28 Reg7 Wire pair 1 Direction NT
29 Reg8 Wire pair 1 Direction LT
30 Reg8 Wire pair 1 Direction NT
31 Reg3 Wire pair 2 Direction LT
32 Reg3 Wire pair 2 Direction NT
33 Reg4 Wire pair 2 Direction LT
34 Reg4 Wire pair 2 Direction NT
35 Reg5 Wire pair 2 Direction LT
36 Reg5 Wire pair 2 Direction NT
37 Reg6 Wire pair 2 Direction LT
38 Reg6 Wire pair 2 Direction NT
39 Reg7 Wire pair 2 Direction LT
40 Reg7 Wire pair 2 Direction NT
41 Reg8 Wire pair 2 Direction LT
42 Reg8 Wire pair 2 Direction NT
43 Reg1 Wire pair 3 Direction LT
44 Reg1 Wire pair 3 Direction NT
45 Reg2 Wire pair 3 Direction LT
46 Reg2 Wire pair 3 Direction NT
47 Reg3 Wire pair 3 Direction LT
48 Reg3 Wire pair 3 Direction NT
49 Reg4 Wire pair 3 Direction LT
50 Reg4 Wire pair 3 Direction NT
51 Reg5 Wire pair 3 Direction LT
52 Reg5 Wire pair 3 Direction NT
53 Reg6 Wire pair 3 Direction LT
54 Reg6 Wire pair 3 Direction NT
55 Reg7 Wire pair 3 Direction LT
56 Reg7 Wire pair 3 Direction NT
57 Reg8 Wire pair 3 Direction LT
58 Reg8 Wire pair 3 Direction NT
59 Reg1 Wire pair 4 Direction LT
60 Reg1 Wire pair 4 Direction NT
61 Reg2 Wire pair 4 Direction LT
62 Reg2 Wire pair 4 Direction NT
63 Reg3 Wire pair 4 Direction LT
64 Reg3 Wire pair 4 Direction NT
65 Reg4 Wire pair 4 Direction LT
66 Reg4 Wire pair 4 Direction NT
67 Reg5 Wire pair 4 Direction LT
68 Reg5 Wire pair 4 Direction NT
69 Reg6 Wire pair 4 Direction LT
70 Reg6 Wire pair 4 Direction NT
71 Reg7 Wire pair 4 Direction LT
72 Reg7 Wire pair 4 Direction NT
73 Reg8 Wire pair 4 Direction LT
74 Reg8 Wire pair 4 Direction NT
75 LT Wire pair 3 Direction NT
76 NT Wire pair 3 Direction LT
77 LT Wire pair 4 Direction NT
78 NT Wire pair 4 Direction LT"
::= { fmroThresholdEntry 3 }
fmroThresholdAlarms OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(2))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether the Attenuation and SNR Threshold at this
point has been reached or crossed
Byte 0
1 None No Attenuation Threshold Alarm
10 Att_Alarm Attenuation Threshold Alarm present
254 Unknown value
255 Unsupported variable for addressed device
Byte 1
1 None No SNR Threshold Alarm
10 Snr_Alarm SNR Threshold Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroThresholdEntry 4 }
--------------------------------------------------------------------------------
-- FM-RO Detail Alarms
--------------------------------------------------------------------------------
fmroAlarmLogTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroAlarmLogEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 9 }
fmroAlarmLogEntry OBJECT-TYPE
SYNTAX FmroAlarmLogEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroAlarmLogPortIndex, fmroAlarmLogLinkIndex, fmroAlarmLogBlockIndex }
::= { fmroAlarmLogTable 1 }
FmroAlarmLogEntry ::=
SEQUENCE
{
fmroAlarmLogPortIndex INTEGER,
fmroAlarmLogLinkIndex INTEGER,
fmroAlarmLogBlockIndex INTEGER,
fmroAlarmLogLatestDataFieldNumber INTEGER,
fmroAlarmLogCurrentTime INTEGER,
fmroAlarmLogInformation OCTET STRING
}
fmroAlarmLogPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroAlarmLogEntry 1 }
fmroAlarmLogLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroAlarmLogEntry 2 }
fmroAlarmLogBlockIndex OBJECT-TYPE
SYNTAX INTEGER (1..4)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the alarm log block number of a link
and is used as index for the other elements in the Table
Foreseen values are:
1 Alarm Log Entries 1..25
2 Alarm Log Entries 26..50
3 Alarm Log Entries 51..75
4 Alarm Log Entries 76..100"
::= { fmroAlarmLogEntry 3 }
fmroAlarmLogLatestDataFieldNumber OBJECT-TYPE
SYNTAX INTEGER (1..100)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the latest alarm log entry
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroAlarmLogEntry 4 }
fmroAlarmLogCurrentTime OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable contains the current time in seconds since power up
0xfffffffe Unknown value
0xffffffff Unsupported variable for addressed device"
::= { fmroAlarmLogEntry 5 }
fmroAlarmLogInformation OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(176))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the alarm log entries in blocks of 25 entries where
each entry is 7 bytes long. Each entry has the following format:
Byte(s) Range Content
1..4 Event time in seconds since power up
5 0..21 Interface at which the event occurred
6 0..18 Error which occurred at the interface
7 Event Details
The interfaces are coded as follows:
0 U1 Transmission Interface Wire pair 1
1 U2 Transmission Interface Wire pair 2
2 U Transmission Interface
3 T G.703 Interface
4 DC Data Interface Direction Customer
5 DN Data Interface Direction Network
6 Equipment
7 LOSD
8 T4OUT Loss of Signal for clock output
9 T3IN Loss of Signal for clock input
10 RPS Remote Power Supply
11 RTA
12 Powerfail
13
14 REG1UL Regenerator on wire pair 1, direction LT
15 REG2UL Regenerator on wire pair 2, direction LT
16 REG1UN Regenerator on wire pair 1, direction NT
17 REG2UN Regenerator on wire pair 2, direction NT
18 REG1E Regenerator on wire pair 1
19 REG2E Regenerator on wire pair 2
20 LASER Laser ageing on OTU
21 Powerfail CPE
22 THRES_ATT Attenuation Threshold Alarm
23 THRES_ATT_REG_U1L Attenuation Threshold Alarm at the Regenerator on wire pair 1, direction LT
24 THRES_ATT_REG_U2L Attenuation Threshold Alarm at the Regenerator on wire pair 2, direction LT
25 THRES_ATT_REG_U1N Attenuation Threshold Alarm at the Regenerator on wire pair 1, direction NT
26 THRES_ATT_REG_U2N Attenuation Threshold Alarm at the Regenerator on wire pair 2, direction NT
27 THRES_SNR SNR Threshold Alarm
28 THRES_SNR_REG_U1L SNR Threshold Alarm at the Regenerator on wire pair 1, direction LT
29 THRES_SNR_REG_U2L SNR Threshold Alarm at the Regenerator on wire pair 2, direction LT
30 THRES_SNR_REG_U1N SNR Threshold Alarm at the Regenerator on wire pair 1, direction NT
31 THRES_SNR_REG_U2N SNR Threshold Alarm at the Regenerator on wire pair 2, direction NT
32 U3 Transmission Interface Wire pair 3
33 U4 Transmission Interface Wire pair 4
34 RPS2 Remote Power Supply on wire pair 2
35 RPS3 Remote Power Supply on wire pair 3
36 RPS4 Remote Power Supply on wire pair 4
37 REG3UL Regenerator on wire pair 3, direction LT
38 REG4UL Regenerator on wire pair 4, direction LT
39 REG3UN Regenerator on wire pair 3, direction NT
40 REG4UN Regenerator on wire pair 4, direction NT
41 REG3E Regenerator on wire pair 3
42 REG4E Regenerator on wire pair 4
43 THRES_ATT1 Attenuation Threshold Alarm on wire pair 1
44 THRES_ATT2 Attenuation Threshold Alarm on wire pair 2
45 THRES_ATT3 Attenuation Threshold Alarm on wire pair 3
46 THRES_ATT4 Attenuation Threshold Alarm on wire pair 4
47 THRES_ATT_REG_U3L Attenuation Threshold Alarm at the Regenerator on wire pair 3, direction LT
48 THRES_ATT_REG_U4L Attenuation Threshold Alarm at the Regenerator on wire pair 4, direction LT
49 THRES_ATT_REG_U3N Attenuation Threshold Alarm at the Regenerator on wire pair 3, direction NT
50 THRES_ATT_REG_U4N Attenuation Threshold Alarm at the Regenerator on wire pair 4, direction NT
51 THRES_SNR1 SNR Threshold Alarm on wire pair 1
52 THRES_SNR2 SNR Threshold Alarm on wire pair 2
53 THRES_SNR3 SNR Threshold Alarm on wire pair 3
54 THRES_SNR4 SNR Threshold Alarm on wire pair 4
55 THRES_SNR_REG_U3L SNR Threshold Alarm at the Regenerator on wire pair 3, direction LT
56 THRES_SNR_REG_U4L SNR Threshold Alarm at the Regenerator on wire pair 4, direction LT
57 THRES_SNR_REG_U3N SNR Threshold Alarm at the Regenerator on wire pair 3, direction NT
58 THRES_SNR_REG_U4N SNR Threshold Alarm at the Regenerator on wire pair 4, direction NT
59 V_SL V-Interface on the slave device
60 T_SL T-Interface on the slave device
61 DC_SL Data Interface Direction Customer on the slave device
62 DN_SL Data Interface Direction Network on the slave device
63 VA VA Interface
64 VB VB Interface
65 VC VC Interface
66 VD VD Interface
67 MCSa MCS channel a
68 MCSb MCS channel b
69 MCSc MCS channel c
70 MCSd MCS channel d
71 MCSa_FarEnd MCS channel a, far end
72 MCSb_FarEnd MCS channel b, far end
73 MCSc_FarEnd MCS channel c, far end
74 MCSd_FarEnd MCS channel d, far end
75 MCS MCS
76 WAN_RX WAN Rx
77 WAN_TX WAN Tx
78 ETH_P1 Ethernet Port 1
79 ETH_P2 Ethernet Port 2
80 ETH_P3 Ethernet Port 3
81 ETH_P4 Ethernet Port 4
82 EXT_AL_1 External Alarm 1
83 EXT_AL_2 External Alarm 2
84 EXT_AL_3 External Alarm 3
The Errors which can occur are coded as follows:
0 NONE No alarm
1 HPO Half partial operation
2 FPO Full partial operation
3 BER6 Bit error ratio 10^-6
4 BER3 Bit error ratio 10^-3
5 LOA Loss of activity
6 AIS Alarm indication signal
7 LFA Loss of frame alignment
8 LOS Loss of signal
9 AON Alarm
10 RAI Remote alarm indication
11 UCR12 Undercurrent on wire pair 1 & 2
12 UCR1 Undercurrent on wire pair 1
13 UCR2 Undercurrent on wire pair 2
14 OVR Overload
15 NOSYM Asymmetry
16 DEFECT
17 BNA Bandwidth not available
18 LOSW Loss of Synchronisation
The Event Details are bit coded as follows:
Bit Value Content
0..1 0 Non-Urgent Alarm
1 Urgent Alarm
2 No Alarm
3 No Alarm
2 4 -
3 8 LT/NT Alaem (clear) / Reg Alarm (set)
4..6 If Bit 3 is set
000 Regenerator Section 1
001 Regenerator Section 2
010 Regenerator Section 3
011 Regenerator Section 4
100 Regenerator Section 5
101 Regenerator Section 6
110 Regenerator Section 7
111 Regenerator Section 8
7 If Bit 3 is clear
128 LT (clear) / NT (set)
Byte 176 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmroAlarmLogEntry 6 }
--------------------------------------------------------------------------------
-- FM-RO SRU
--------------------------------------------------------------------------------
fmroSruTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroSruEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 10 }
fmroSruEntry OBJECT-TYPE
SYNTAX FmroSruEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroSruPortIndex, fmroSruLinkIndex, fmroSruSectionIndex }
::= { fmroSruTable 1 }
FmroSruEntry ::=
SEQUENCE
{
fmroSruPortIndex INTEGER,
fmroSruLinkIndex INTEGER,
fmroSruSectionIndex INTEGER,
fmroSruU1L INTEGER,
fmroSruU2L INTEGER,
fmroSruU1N INTEGER,
fmroSruU2N INTEGER,
fmroSruEquipment1 INTEGER,
fmroSruEquipment2 INTEGER,
fmroSruU3L INTEGER,
fmroSruU4L INTEGER,
fmroSruU3N INTEGER,
fmroSruU4N INTEGER,
fmroSruEquipment3 INTEGER,
fmroSruEquipment4 INTEGER
}
fmroSruPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroSruEntry 1 }
fmroSruLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmroSruEntry 2 }
fmroSruSectionIndex OBJECT-TYPE
SYNTAX INTEGER
{
section1(1),
section2(2),
section3(3),
section4(4),
section5(5),
section6(6),
section7(7),
section8(8)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Defines which Section of Regenerators is to be queried.
Ulaf+ Version 1.0 only supports the first section.
1 section1 First section
2 section2 Second section
3 section3 Third section
4 section4 Fourth section
5 section5 Fifth section
6 section6 Sixth section
7 section7 Seventh section
8 section8 Eighth section"
::= { fmroSruEntry 3 }
fmroSruU1L OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on SHDSL Path 1 to LT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SHDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 4 }
fmroSruU2L OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on SHDSL Path 2 to LT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SHDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 5 }
fmroSruU1N OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on SHDSL Path 1 to NT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SHDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 6 }
fmroSruU2N OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on SHDSL Path 2 to NT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SHDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 7 }
fmroSruEquipment1 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm in Regenerator in SHDSL Path 1
1 None No Alarm
10 Alarm Equipment Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 8 }
fmroSruEquipment2 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm in Regenerator in SHDSL Path 2
1 None No Alarm
10 Alarm Equipment Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 9 }
fmroSruU3L OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on xDSL Path 3 to LT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 10 }
fmroSruU4L OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on xDSL Path 4 to LT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 11 }
fmroSruU3N OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on xDSL Path 3 to NT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 12 }
fmroSruU4N OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ber6(4),
ber3(5),
los(9),
losw(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Regenerator Error on xDSL Path 4 to NT
1 None No Alarm
4 BER6 Bit Error Ratio 10^-6
5 BER3 Bit Error Ratio 10^-3
9 LOS Loss of Signal
19 LOSW Loss of SDSL synchronistation
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 13 }
fmroSruEquipment3 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm in Regenerator in xDSL Path 3
1 None No Alarm
10 Alarm Equipment Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 14 }
fmroSruEquipment4 OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
alarm(10),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Equipment Alarm in Regenerator in xDSL Path 4
1 None No Alarm
10 Alarm Equipment Alarm present
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroSruEntry 15 }
--------------------------------------------------------------------------------
-- FM-RO CES PW
--------------------------------------------------------------------------------
fmroCesPwTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroCesPwEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 11 }
fmroCesPwEntry OBJECT-TYPE
SYNTAX FmroCesPwEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroCesPwPortIndex, fmroCesPwLinkIndex, fmroCesPwIndex }
::= { fmroCesPwTable 1 }
FmroCesPwEntry ::=
SEQUENCE
{
fmroCesPwPortIndex INTEGER,
fmroCesPwLinkIndex INTEGER,
fmroCesPwIndex INTEGER,
fmroCesPwTdm INTEGER,
fmroCesPwEth INTEGER
}
fmroCesPwPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroCesPwEntry 1 }
fmroCesPwLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the sub-rack
and is used as index for the other elements in the Table"
::= { fmroCesPwEntry 2 }
fmroCesPwIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the pseudo wire"
::= { fmroCesPwEntry 3 }
fmroCesPwTdm OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ais(7),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Alarm on TDM interface of given pseudo wire:
1 None No Alarm
7 AIS Alarm Indication Signal
9 LOS Loss of Signal
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroCesPwEntry 4 }
fmroCesPwEth OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
ais(7),
rai(11),
are(33),
lof(34),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Alarm on Ethernet interface of given pseudo wire:
1 None No Alarm
7 AIS Alarm Indication Signal
11 RAI Remote Alarm Indication
33 ARE Address Resolution Error (no MAC address resolved)
34 LOF Loss of Frames
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroCesPwEntry 5 }
--------------------------------------------------------------------------------
-- FM-RO CES
--------------------------------------------------------------------------------
fmroCesTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmroCesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmro 12 }
fmroCesEntry OBJECT-TYPE
SYNTAX FmroCesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmroCesPortIndex, fmroCesLinkIndex }
::= { fmroCesTable 1 }
FmroCesEntry ::=
SEQUENCE
{
fmroCesPortIndex INTEGER,
fmroCesLinkIndex INTEGER,
fmroCesClockIn INTEGER
}
fmroCesPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmroCesEntry 1 }
fmroCesLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the sub-rack
and is used as index for the other elements in the Table"
::= { fmroCesEntry 2 }
fmroCesClockIn OBJECT-TYPE
SYNTAX INTEGER
{
none(1),
los(9),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Alarm on the CES clock in interface:
1 None No Alarm
9 LOS Loss of Signal
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmroCesEntry 3 }
--==============================================================================
--==============================================================================
--
-- FM-RW
--
--==============================================================================
--==============================================================================
fmrw OBJECT IDENTIFIER ::= { linksVers3 4 }
--------------------------------------------------------------------------------
-- FM-RW Sub-sections
--------------------------------------------------------------------------------
fmrwLoop OBJECT IDENTIFIER ::= { fmrw 1 }
fmrwMask OBJECT IDENTIFIER ::= { fmrw 2 }
fmrwTrap OBJECT IDENTIFIER ::= { fmrw 3 }
-- next line defined below
-- fmrwThresholdTable OBJECT IDENTIFIER ::= { fmrw 4 }
--
fmrwActions OBJECT IDENTIFIER ::= { fmrw 5 }
fmrwConfig OBJECT IDENTIFIER ::= { fmrw 6 }
--------------------------------------------------------------------------------
-- FM-RW Loops local
--------------------------------------------------------------------------------
fmrwLoopLocalTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwLoopLocalEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwLoop 1 }
fmrwLoopLocalEntry OBJECT-TYPE
SYNTAX FmrwLoopLocalEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwLoopLocalPortIndex, fmrwLoopLocalLinkIndex }
::= { fmrwLoopLocalTable 1 }
FmrwLoopLocalEntry ::=
SEQUENCE
{
fmrwLoopLocalPortIndex INTEGER,
fmrwLoopLocalLinkIndex INTEGER,
fmrwLoopLocalLoop3a INTEGER,
fmrwLoopLocalLoop2b INTEGER,
fmrwLoopLocalLoop3c INTEGER,
fmrwLoopLocalLoopReg1A INTEGER,
fmrwLoopLocalLoopReg2A INTEGER,
fmrwLoopLocalLoopReg1B INTEGER,
fmrwLoopLocalLoopReg2B INTEGER,
fmrwLoopLocalLoop2Reg1A INTEGER,
fmrwLoopLocalLoop2Reg2A INTEGER,
fmrwLoopLocalLoop2Reg1B INTEGER,
fmrwLoopLocalLoop2Reg2B INTEGER,
fmrwLoopLocalLoopReg31 INTEGER,
fmrwLoopLocalLoopReg32 INTEGER,
fmrwLoopLocalLoopReg41 INTEGER,
fmrwLoopLocalLoopReg42 INTEGER,
fmrwLoopLocalLoopReg51 INTEGER,
fmrwLoopLocalLoopReg52 INTEGER,
fmrwLoopLocalLoopReg61 INTEGER,
fmrwLoopLocalLoopReg62 INTEGER,
fmrwLoopLocalLoopReg71 INTEGER,
fmrwLoopLocalLoopReg72 INTEGER,
fmrwLoopLocalLoopReg81 INTEGER,
fmrwLoopLocalLoopReg82 INTEGER,
fmrwLoopLocalLoop2Reg31 INTEGER,
fmrwLoopLocalLoop2Reg32 INTEGER,
fmrwLoopLocalLoop2Reg41 INTEGER,
fmrwLoopLocalLoop2Reg42 INTEGER,
fmrwLoopLocalLoop2Reg51 INTEGER,
fmrwLoopLocalLoop2Reg52 INTEGER,
fmrwLoopLocalLoop2Reg61 INTEGER,
fmrwLoopLocalLoop2Reg62 INTEGER,
fmrwLoopLocalLoop2Reg71 INTEGER,
fmrwLoopLocalLoop2Reg72 INTEGER,
fmrwLoopLocalLoop2Reg81 INTEGER,
fmrwLoopLocalLoop2Reg82 INTEGER,
fmrwLoopLocalLoopReg13 INTEGER,
fmrwLoopLocalLoopReg14 INTEGER,
fmrwLoopLocalLoopReg23 INTEGER,
fmrwLoopLocalLoopReg24 INTEGER,
fmrwLoopLocalLoopReg33 INTEGER,
fmrwLoopLocalLoopReg34 INTEGER,
fmrwLoopLocalLoopReg43 INTEGER,
fmrwLoopLocalLoopReg44 INTEGER,
fmrwLoopLocalLoopReg53 INTEGER,
fmrwLoopLocalLoopReg54 INTEGER,
fmrwLoopLocalLoopReg63 INTEGER,
fmrwLoopLocalLoopReg64 INTEGER,
fmrwLoopLocalLoopReg73 INTEGER,
fmrwLoopLocalLoopReg74 INTEGER,
fmrwLoopLocalLoopReg83 INTEGER,
fmrwLoopLocalLoopReg84 INTEGER,
fmrwLoopLocalLoop2Reg13 INTEGER,
fmrwLoopLocalLoop2Reg14 INTEGER,
fmrwLoopLocalLoop2Reg23 INTEGER,
fmrwLoopLocalLoop2Reg24 INTEGER,
fmrwLoopLocalLoop2Reg33 INTEGER,
fmrwLoopLocalLoop2Reg34 INTEGER,
fmrwLoopLocalLoop2Reg43 INTEGER,
fmrwLoopLocalLoop2Reg44 INTEGER,
fmrwLoopLocalLoop2Reg53 INTEGER,
fmrwLoopLocalLoop2Reg54 INTEGER,
fmrwLoopLocalLoop2Reg63 INTEGER,
fmrwLoopLocalLoop2Reg64 INTEGER,
fmrwLoopLocalLoop2Reg73 INTEGER,
fmrwLoopLocalLoop2Reg74 INTEGER,
fmrwLoopLocalLoop2Reg83 INTEGER,
fmrwLoopLocalLoop2Reg84 INTEGER,
fmrwLoopLocalLoop3a2 INTEGER,
fmrwLoopLocalLoop3a3 INTEGER,
fmrwLoopLocalLoop3a4 INTEGER,
fmrwLoopLocalLoop2b2 INTEGER,
fmrwLoopLocalLoop2b3 INTEGER,
fmrwLoopLocalLoop2b4 INTEGER,
fmrwLoopLocalLoopMcs INTEGER,
fmrwLoopLocalLoop2bData INTEGER,
fmrwLoopLocalLoop2bEth INTEGER,
fmrwLoopLocalLoop2bDataFar INTEGER
}
fmrwLoopLocalPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwLoopLocalEntry 1 }
fmrwLoopLocalLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwLoopLocalEntry 2 }
fmrwLoopLocalLoop3a OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 3a. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 7 128 Sa6-Bit Loop command by Sa6-bit
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets/Clears the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 3 }
fmrwLoopLocalLoop2b OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 5 32 L140 Loop command by control line 140
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 4 }
fmrwLoopLocalLoop3c OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 3c. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 6 64 L141 Loop command by control line 141
Bit 7 128 Sa6-Bit Loop command by Sa6-bit
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 5 }
fmrwLoopLocalLoopReg1A OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 1 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 6 }
fmrwLoopLocalLoopReg2A OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 2 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 7 }
fmrwLoopLocalLoopReg1B OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 1 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 8 }
fmrwLoopLocalLoopReg2B OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 2 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 9 }
fmrwLoopLocalLoop2Reg1A OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 10 }
fmrwLoopLocalLoop2Reg2A OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 11 }
fmrwLoopLocalLoop2Reg1B OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 12 }
fmrwLoopLocalLoop2Reg2B OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 13 }
fmrwLoopLocalLoopReg31 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 14 }
fmrwLoopLocalLoopReg32 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 15 }
fmrwLoopLocalLoopReg41 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 16 }
fmrwLoopLocalLoopReg42 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 17 }
fmrwLoopLocalLoopReg51 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 18 }
fmrwLoopLocalLoopReg52 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 19 }
fmrwLoopLocalLoopReg61 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 20 }
fmrwLoopLocalLoopReg62 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 21 }
fmrwLoopLocalLoopReg71 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 22 }
fmrwLoopLocalLoopReg72 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 23 }
fmrwLoopLocalLoopReg81 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (eighth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 24 }
fmrwLoopLocalLoopReg82 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (eighth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 25 }
fmrwLoopLocalLoop2Reg31 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 26 }
fmrwLoopLocalLoop2Reg32 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 27 }
fmrwLoopLocalLoop2Reg41 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 28 }
fmrwLoopLocalLoop2Reg42 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 29 }
fmrwLoopLocalLoop2Reg51 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 30 }
fmrwLoopLocalLoop2Reg52 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 31 }
fmrwLoopLocalLoop2Reg61 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 32 }
fmrwLoopLocalLoop2Reg62 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 33 }
fmrwLoopLocalLoop2Reg71 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 34 }
fmrwLoopLocalLoop2Reg72 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 35 }
fmrwLoopLocalLoop2Reg81 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 1 (eigtht section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 36 }
fmrwLoopLocalLoop2Reg82 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 2 (eighth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 37 }
fmrwLoopLocalLoopReg13 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 38 }
fmrwLoopLocalLoopReg14 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 39 }
fmrwLoopLocalLoopReg23 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 40 }
fmrwLoopLocalLoopReg24 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 41 }
fmrwLoopLocalLoopReg33 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 42 }
fmrwLoopLocalLoopReg34 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 43 }
fmrwLoopLocalLoopReg43 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 44 }
fmrwLoopLocalLoopReg44 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 45 }
fmrwLoopLocalLoopReg53 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 46 }
fmrwLoopLocalLoopReg54 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 47 }
fmrwLoopLocalLoopReg63 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 48 }
fmrwLoopLocalLoopReg64 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 49 }
fmrwLoopLocalLoopReg73 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 50 }
fmrwLoopLocalLoopReg74 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 51 }
fmrwLoopLocalLoopReg83 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 3 (eighth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 52 }
fmrwLoopLocalLoopReg84 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop in wire pair 4 (eighth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 53 }
fmrwLoopLocalLoop2Reg13 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 54 }
fmrwLoopLocalLoop2Reg14 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (first section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 55 }
fmrwLoopLocalLoop2Reg23 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 56 }
fmrwLoopLocalLoop2Reg24 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (second section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 57 }
fmrwLoopLocalLoop2Reg33 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 58 }
fmrwLoopLocalLoop2Reg34 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (third section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 59 }
fmrwLoopLocalLoop2Reg43 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 60 }
fmrwLoopLocalLoop2Reg44 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (fourth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 61 }
fmrwLoopLocalLoop2Reg53 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 62 }
fmrwLoopLocalLoop2Reg54 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (fifth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 63 }
fmrwLoopLocalLoop2Reg63 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 64 }
fmrwLoopLocalLoop2Reg64 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (sixth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 65 }
fmrwLoopLocalLoop2Reg73 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 66 }
fmrwLoopLocalLoop2Reg74 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (seventh section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 67 }
fmrwLoopLocalLoop2Reg83 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 3 (eigtht section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 68 }
fmrwLoopLocalLoop2Reg84 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Regenerator Loop 2 in wire pair 4 (eighth section).
The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bit 1
shows whether the loop command has been issued by the management system.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop on the Regenerator"
::= { fmrwLoopLocalEntry 69 }
fmrwLoopLocalLoop3a2 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 3a2. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets/Clears the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 70 }
fmrwLoopLocalLoop3a3 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 3a3. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets/Clears the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 71 }
fmrwLoopLocalLoop3a4 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 3a4. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets/Clears the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 72 }
fmrwLoopLocalLoop2b2 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b2. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 73 }
fmrwLoopLocalLoop2b3 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b3. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 74 }
fmrwLoopLocalLoop2b4 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b4. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 75 }
fmrwLoopLocalLoopMcs OBJECT-TYPE
SYNTAX INTEGER (0..2047)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of MCS Loop. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore other bits)
Bit 9 512 unsupported variable for addressed device (ignore other bits)
Bit 10 1024 MCS Loop command by MCS
The STATE bit shows whether the loop is currently active or not. Bits 2-7 and 10
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 76 }
fmrwLoopLocalLoop2bData OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2bData. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 77 }
fmrwLoopLocalLoop2bEth OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2bEth. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 78 }
fmrwLoopLocalLoop2bDataFar OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2bDataFar. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopLocalEntry 79 }
--------------------------------------------------------------------------------
-- FM-RW Loops far
--------------------------------------------------------------------------------
fmrwLoopFarTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwLoopFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwLoop 2 }
fmrwLoopFarEntry OBJECT-TYPE
SYNTAX FmrwLoopFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwLoopFarPortIndex, fmrwLoopFarLinkIndex }
::= { fmrwLoopFarTable 1 }
FmrwLoopFarEntry ::=
SEQUENCE
{
fmrwLoopFarPortIndex INTEGER,
fmrwLoopFarLinkIndex INTEGER,
fmrwLoopFarLoop3a INTEGER,
fmrwLoopFarLoop2b INTEGER,
fmrwLoopFarLoop3c INTEGER,
fmrwLoopFarLoop2bSlave INTEGER,
fmrwLoopFarLoop2b2 INTEGER,
fmrwLoopFarLoop2b3 INTEGER,
fmrwLoopFarLoop2b4 INTEGER,
fmrwLoopFarLoopMcs INTEGER,
fmrwLoopFarLoop2bData INTEGER,
fmrwLoopFarLoop2bEth INTEGER,
fmrwLoopFarLoop2bDataFar INTEGER
}
fmrwLoopFarPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwLoopFarEntry 1 }
fmrwLoopFarLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwLoopFarEntry 2 }
fmrwLoopFarLoop3a OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 3a. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 3 }
fmrwLoopFarLoop2b OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 2 4 EOC_DIP Loop command via EOC by switch
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 5 32 L140 Loop command by control line 140
Bit 7 128 Sa6-Bit Loop command by Sa6-bit
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 4 }
fmrwLoopFarLoop3c OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 3c. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 6 64 L141 Loop command by control line 141
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 5 }
fmrwLoopFarLoop2bSlave OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b on the slave device. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 3 8 TMN_LOCAL Loop command via EOC by management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 2 EOC_TMN Sets the Loop 2b on the slave device"
::= { fmrwLoopFarEntry 6 }
fmrwLoopFarLoop2b2 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b2. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 7 }
fmrwLoopFarLoop2b3 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b3. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 8 }
fmrwLoopFarLoop2b4 OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2b4. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 9 }
fmrwLoopFarLoopMcs OBJECT-TYPE
SYNTAX INTEGER (0..2047)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of MCS Loop. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 2 4 EOC_DIP Loop command via EOC by switch
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 4 16 DIP Loop command by local switch
Bit 8 256 unknown value (ignore other bits)
Bit 9 512 unsupported variable for addressed device (ignore other bits)
Bit 10 1024 MCS Loop command by MCS
The STATE bit shows whether the loop is currently active or not. Bits 2-7 and 10
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 19 }
fmrwLoopFarLoop2bData OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2bData. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 20 }
fmrwLoopFarLoop2bEth OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2bEth. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 21 }
fmrwLoopFarLoop2bDataFar OBJECT-TYPE
SYNTAX INTEGER (0..1023)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"State of Loop 2bDataFar. The readable value is bit coded as follows:
Bit 0 1 STATE physical loop state
Bit 1 2 EOC_TMN Loop command via EOC by management
Bit 3 8 TMN_LOCAL Loop command by local management
Bit 8 256 unknown value (ignore bits 0-7)
Bit 9 512 unsupported variable for addressed device (ignore bits 0-7)
The STATE bit shows whether the loop is currently active or not. Bits 2-7
show which sources have issued the loop command. If at least one of them is
active, the device will try to set the loop.
For some modes of operation or with certain combinations of modules some
loop sources might not be available.
When setting a loop, the following applies:
Bit 1 4 EOC_TMN Sets the Loop on the NT
Bit 3 8 TMN_LOCAL Sets the Loop on the LT or the NT Local"
::= { fmrwLoopFarEntry 22 }
--------------------------------------------------------------------------------
-- FM-RW Loop Config
--------------------------------------------------------------------------------
fmrwLoopConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwLoopConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwLoop 3 }
fmrwLoopConfigEntry OBJECT-TYPE
SYNTAX FmrwLoopConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwLoopConfigPortIndex, fmrwLoopConfigLinkIndex }
::= { fmrwLoopConfigTable 1 }
FmrwLoopConfigEntry ::=
SEQUENCE
{
fmrwLoopConfigPortIndex INTEGER,
fmrwLoopConfigLinkIndex INTEGER,
fmrwLoopConfigAllowRbertLoop INTEGER,
fmrwLoopConfigTransparentLoops INTEGER
}
fmrwLoopConfigPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwLoopConfigEntry 1 }
fmrwLoopConfigLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwLoopConfigEntry 2 }
fmrwLoopConfigAllowRbertLoop OBJECT-TYPE
SYNTAX INTEGER {
notAllowed(1),
allowed(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Specifies whether a remote MCS-equipped unit is allowd to
activate an MCS loop on this line or not.
1 Not Allowed MCS loop activation by management only
2 Allowed MCS loop activation by MCS bit pattern allowed
254 unknown value
255 unsupported variable for addressed device"
::= { fmrwLoopConfigEntry 3 }
fmrwLoopConfigTransparentLoops OBJECT-TYPE
SYNTAX INTEGER {
nonTransparent(1),
transparent(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Specifies whether the loops are configured transparent or not.
1 Non Transparent The loops are configured as non transparent
2 Transparent The loops are configured as transparent
254 unknown value
255 unsupported variable for addressed device"
::= { fmrwLoopConfigEntry 4 }
--------------------------------------------------------------------------------
-- FM-RW Htu Lt Mask
--------------------------------------------------------------------------------
fmrwHtuLtMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwHtuLtMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 1 }
fmrwHtuLtMaskEntry OBJECT-TYPE
SYNTAX FmrwHtuLtMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwHtuLtMaskPortIndex, fmrwHtuLtMaskLinkIndex }
::= { fmrwHtuLtMaskTable 1 }
FmrwHtuLtMaskEntry ::=
SEQUENCE
{
fmrwHtuLtMaskPortIndex INTEGER,
fmrwHtuLtMaskLinkIndex INTEGER,
fmrwHtuLtMask OCTET STRING,
fmrwStuLtMask OCTET STRING,
fmrwStu4LtMask OCTET STRING
}
fmrwHtuLtMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwHtuLtMaskEntry 1 }
fmrwHtuLtMaskLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwHtuLtMaskEntry 2 }
fmrwHtuLtMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(9))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for LT Alarms.
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 8 byte octet string. Bytes 0-3 contain the
alarm suppression mask, bytes 4-7 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 4
bit 0 bit 0 LOS-U
bit 1 bit 1 LFA-U
bit 2 bit 2 AIS-U
bit 3 bit 3 HPO-U
bit 4 bit 4 FPO-U
bit 5 bit 5 RAI-U
bit 6 bit 6 BER3-U
bit 7 bit 7 BER6-U
Byte 1 Byte 5
bit 0 bit 0 LOS-U1
bit 1 bit 1 BER3-U1
bit 2 bit 2 BER6-U1
bit 3 bit 3 LOS-U2
bit 4 bit 4 BER3-U2
bit 5 bit 5 BER6-U2
bit 6 bit 6 LOS-T
bit 7 bit 7 LFA-T
Byte 2 Byte 6
bit 0 bit 0 AIS-T
bit 1 bit 1 RAI-T
bit 2 bit 2 BER3-T
bit 3 bit 3 BER6-T
bit 4 bit 4 LOAR-D
bit 5 bit 5 LOAT-D
bit 6 bit 6 Equipment
bit 7 bit 7 A-LOS
Byte 3 Byte 7
bit 0 bit 0 LOS-T3
bit 1 bit 1 A-RTA
bit 2 bit 2 Powerfail
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 8 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
2 NotLt The local device is not an LT
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwHtuLtMaskEntry 3 }
fmrwStuLtMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(11))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for LT Alarms.
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 10 byte octet string. Bytes 0-4 contain the
alarm suppression mask, bytes 5-9 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 5
bit 0 bit 0 LOS-U
bit 1 bit 1 LFA-U
bit 2 bit 2 AIS-U
bit 3 bit 3 HPO-U
bit 4 bit 4 FPO-U
bit 5 bit 5 RAI-U
bit 6 bit 6 BER3-U
bit 7 bit 7 BER6-U
Byte 1 Byte 6
bit 0 bit 0 LOS-U1
bit 1 bit 1 BER3-U1
bit 2 bit 2 BER6-U1
bit 3 bit 3 LOS-U2
bit 4 bit 4 BER3-U2
bit 5 bit 5 BER6-U2
bit 6 bit 6 LOS-T
bit 7 bit 7 LFA-T
Byte 2 Byte 7
bit 0 bit 0 AIS-T
bit 1 bit 1 RAI-T
bit 2 bit 2 BER3-T
bit 3 bit 3 BER6-T
bit 4 bit 4 LOAR-D
bit 5 bit 5 LOAT-D
bit 6 bit 6 Equipment
bit 7 bit 7 A-LOS
Byte 3 Byte 8
bit 0 bit 0 LOS-T3
bit 1 bit 1 A-RTA
bit 2 bit 2 Powerfail
bit 3 bit 3 U-Bandwidth unavailable
bit 4 bit 4 LOSW-U1
bit 5 bit 5 LOSW-U2
bit 6 bit 6 Powerfail CPE
bit 7 bit 7 TD-ATT-U1
Byte 4 Byte 9
bit 0 bit 0 TD-SNR-U1
bit 1 bit 1 TD-ATT-U2
bit 2 bit 2 TD-SNR-U2
bit 3 bit 3 reserved
bit 4 bit 4 reserved
bit 5 bit 5 XFW
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 10 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
2 NotLt The local device is not an LT
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwHtuLtMaskEntry 4 }
fmrwStu4LtMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(9))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for LT Alarms.
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 8 byte octet string. Bytes 0-3 contain the
alarm suppression mask, bytes 4-7 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 4
bit 0 bit 0 LOS-U1
bit 1 bit 1 BER3-U1
bit 2 bit 2 BER6-U1
bit 3 bit 3 LOSW-U1
bit 4 bit 4 LOS-V_A
bit 5 bit 5 LFA-V_A
bit 6 bit 6 AIS-V_A
bit 7 bit 7 RAI-V_A
Byte 1 Byte 5
bit 0 bit 0 BER3-V_A
bit 1 bit 1 BER6-V_A
bit 2 bit 2 LOAR-WAN
bit 3 bit 3 LOAT-WAN
bit 4 bit 4 MIR-WAN
bit 5 bit 5 LINKDOWN-P1
bit 6 bit 6 Equipment
bit 7 bit 7 A-LOS
Byte 2 Byte 6
bit 0 bit 0 Powerfail CPE
bit 1 bit 1 TD-ATT-U1
bit 2 bit 2 TD-SNR-U1
bit 3 bit 3 LOM-MCSx
bit 4 bit 4 BER3-MCSx
bit 5 bit 5 BER6-MCSx
bit 6 bit 6 LOM-FARMCSx
bit 7 bit 7 LOM
Byte 3 Byte 7
bit 0 bit 0 PLOM
bit 1 bit 1 LOS-T3
bit 2 bit 2 Powerfail
bit 3 bit 3 XFW
bit 4 bit 4
bit 5 bit 5
bit 6 bit 6
bit 7 bit 7
Byte 8 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
2 NotLt The local device is not an LT
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwHtuLtMaskEntry 5 }
--------------------------------------------------------------------------------
-- FM-RW HtuNt Local Mask
--------------------------------------------------------------------------------
fmrwHtuNtMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwHtuNtMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 2 }
fmrwHtuNtMaskEntry OBJECT-TYPE
SYNTAX FmrwHtuNtMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwHtuNtMaskPortIndex, fmrwHtuNtMaskLinkIndex }
::= { fmrwHtuNtMaskTable 1 }
FmrwHtuNtMaskEntry ::=
SEQUENCE
{
fmrwHtuNtMaskPortIndex INTEGER,
fmrwHtuNtMaskLinkIndex INTEGER,
fmrwHtuNtMask OCTET STRING,
fmrwStuNtMask OCTET STRING,
fmrwStu4NtMask OCTET STRING
}
fmrwHtuNtMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwHtuNtMaskEntry 1 }
fmrwHtuNtMaskLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwHtuNtMaskEntry 2 }
fmrwHtuNtMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(9))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for NT Alarms.
This variable is an 8 byte octet string. Bytes 0-3 contain the
alarm suppression mask, bytes 4-7 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 4
bit 0 bit 0 LOS-U
bit 1 bit 1 LFA-U
bit 2 bit 2 AIS-U
bit 3 bit 3 HPO-U
bit 4 bit 4 FPO-U
bit 5 bit 5 RAI-U
bit 6 bit 6 BER3-U
bit 7 bit 7 BER6-U
Byte 1 Byte 5
bit 0 bit 0 LOS-U1
bit 1 bit 1 BER3-U1
bit 2 bit 2 BER6-U1
bit 3 bit 3 LOS-U2
bit 4 bit 4 BER3-U2
bit 5 bit 5 BER6-U2
bit 6 bit 6 LOS-T
bit 7 bit 7 LFA-T
Byte 2 Byte 6
bit 0 bit 0 AIS-T
bit 1 bit 1 RAI-T
bit 2 bit 2 BER3-T
bit 3 bit 3 BER6-T
bit 4 bit 4 LOAR-D
bit 5 bit 5 LOAT-D
bit 6 bit 6 Equipment
bit 7 bit 7 A-LOS
Byte 3 Byte 7
bit 0 bit 0 LOS-T4
bit 1 bit 1 unused
bit 2 bit 2 unused
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 8 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwHtuNtMaskEntry 3 }
fmrwStuNtMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(11))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for NT Alarms.
This variable is an 10 byte octet string. Bytes 0-4 contain the
alarm suppression mask, bytes 5-9 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 5
bit 0 bit 0 LOS-U
bit 1 bit 1 LFA-U
bit 2 bit 2 AIS-U
bit 3 bit 3 HPO-U
bit 4 bit 4 FPO-U
bit 5 bit 5 RAI-U
bit 6 bit 6 BER3-U
bit 7 bit 7 BER6-U
Byte 1 Byte 6
bit 0 bit 0 LOS-U1
bit 1 bit 1 BER3-U1
bit 2 bit 2 BER6-U1
bit 3 bit 3 LOS-U2
bit 4 bit 4 BER3-U2
bit 5 bit 5 BER6-U2
bit 6 bit 6 LOS-T
bit 7 bit 7 LFA-T
Byte 2 Byte 7
bit 0 bit 0 AIS-T
bit 1 bit 1 RAI-T
bit 2 bit 2 BER3-T
bit 3 bit 3 BER6-T
bit 4 bit 4 LOAR-D
bit 5 bit 5 LOAT-D
bit 6 bit 6 Equipment
bit 7 bit 7 A-LOS
Byte 3 Byte 8
bit 0 bit 0 LOS-T4
bit 1 bit 1 U-Bandwidth unavailable
bit 2 bit 2 LOSW-U1
bit 3 bit 3 LOSW-U2
bit 4 bit 4 Powerfail CPE
bit 5 bit 5 TD-ATT-U1
bit 6 bit 6 TD-SNR-U1
bit 7 bit 7 TD-ATT-U2
Byte 4 Byte 9
bit 0 bit 0 TD-SNR-U2
bit 1 bit 1 unused
bit 2 bit 2 unused
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 10 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwHtuNtMaskEntry 4 }
fmrwStu4NtMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(9))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for NT Alarms.
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 8 byte octet string. Bytes 0-3 contain the
alarm suppression mask, bytes 4-7 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 4
bit 0 bit 0 LOS-U1
bit 1 bit 1 BER3-U1
bit 2 bit 2 BER6-U1
bit 3 bit 3 LOSW-U1
bit 4 bit 4 LOS-V_A
bit 5 bit 5 LFA-V_A
bit 6 bit 6 AIS-V_A
bit 7 bit 7 RAI-V_A
Byte 1 Byte 5
bit 0 bit 0 BER3-V_A
bit 1 bit 1 BER6-V_A
bit 2 bit 2 LOAR-WAN
bit 3 bit 3 LOAT-WAN
bit 4 bit 4 MIR-WAN
bit 5 bit 5 LINKDOWN-P1
bit 6 bit 6 Equipment
bit 7 bit 7 A-LOS
Byte 2 Byte 6
bit 0 bit 0 TD-ATT-U1
bit 1 bit 1 TD-SNR-U1
bit 2 bit 2 LOM-MCSx
bit 3 bit 3 BER3-MCSx
bit 4 bit 4 BER6-MCSx
bit 5 bit 5 LOM-FARMCSx
bit 6 bit 6 LOM
bit 7 bit 7 PLOM
Byte 3 Byte 7
bit 0 bit 0 Powerfail
bit 1 bit 1
bit 2 bit 2
bit 3 bit 3
bit 4 bit 4
bit 5 bit 5
bit 6 bit 6
bit 7 bit 7
Byte 8 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwHtuNtMaskEntry 5 }
--------------------------------------------------------------------------------
-- FM-RW Rps Mask
--------------------------------------------------------------------------------
fmrwRpsMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwRpsMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 4 }
fmrwRpsMaskEntry OBJECT-TYPE
SYNTAX FmrwRpsMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwRpsMaskPortIndex, fmrwRpsMaskLinkIndex }
::= { fmrwRpsMaskTable 1 }
FmrwRpsMaskEntry ::=
SEQUENCE
{
fmrwRpsMaskPortIndex INTEGER,
fmrwRpsMaskLinkIndex INTEGER,
fmrwRpsMask OCTET STRING
}
fmrwRpsMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwRpsMaskEntry 1 }
fmrwRpsMaskLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwRpsMaskEntry 2 }
fmrwRpsMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for Remote Power Supply (RPS).
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 2 byte octet string. Byte 0 contains the
alarm suppression mask, byte 1 contains the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 UCR12
bit 1 bit 1 UCR1
bit 2 bit 2 UCR2
bit 3 bit 3 OVR
bit 4 bit 4 NOSYM
bit 5 bit 5 DEFECT
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
2 NotLt The local device is not an LT
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwRpsMaskEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW Regen Section A Mask
--------------------------------------------------------------------------------
fmrwRegAMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwRegAMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 5 }
fmrwRegAMaskEntry OBJECT-TYPE
SYNTAX FmrwRegAMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwRegAMaskPortIndex, fmrwRegAMaskLinkIndex }
::= { fmrwRegAMaskTable 1 }
FmrwRegAMaskEntry ::=
SEQUENCE
{
fmrwRegAMaskPortIndex INTEGER,
fmrwRegAMaskLinkIndex INTEGER,
fmrwRegAMask OCTET STRING
}
fmrwRegAMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwRegAMaskEntry 1 }
fmrwRegAMaskLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwRegAMaskEntry 2 }
fmrwRegAMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(5))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for Regenerator Section A (LT side).
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is a 4 byte octet string. Bytes 0-1 contain the
alarm suppression mask, bytes 2-3 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 2
bit 0 bit 0 LOS-R1L
bit 1 bit 1 BER3-R1L
bit 2 bit 2 BER6-R1L
bit 3 bit 3 LOS-R2L
bit 4 bit 4 BER3-R2L
bit 5 bit 5 BER6-R2L
bit 6 bit 6 LOS-R1N
bit 7 bit 7 BER3-R1N
Byte 1 Byte 3
bit 0 bit 0 BER6-R1N
bit 1 bit 1 LOS-R2N
bit 2 bit 2 BER3-R2N
bit 3 bit 3 BER6-R2N
bit 4 bit 4 Equipment1
bit 5 bit 5 Equipment2
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 4 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
2 NotLt The local device is not an LT
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwRegAMaskEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW OMI Mask
--------------------------------------------------------------------------------
fmrwOmiMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwOmiMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 7 }
fmrwOmiMaskEntry OBJECT-TYPE
SYNTAX FmrwOmiMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwOmiMaskPortIndex }
::= { fmrwOmiMaskTable 1 }
FmrwOmiMaskEntry ::=
SEQUENCE
{
fmrwOmiMaskPortIndex INTEGER,
fmrwOmiMask OCTET STRING,
fmrwOmiExtInputMask OCTET STRING,
fmrwOmiNMSMask OCTET STRING,
fmrwOmiFEMask OCTET STRING,
fmrwOmiGBEMask OCTET STRING,
fmrwOmiSFPMask OCTET STRING,
fmrwOmiOutputMask INTEGER,
fmrwOmiCESMask OCTET STRING
}
fmrwOmiMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwOmiMaskEntry 1 }
fmrwOmiMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for the OMI card.
This variable is a 2 byte octet string. Byte 0 contains the
alarm suppression mask, byte 1 contains the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 BAT1
bit 1 bit 1 BAT2
bit 2 bit 2 AUX BAT MCU
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 2 }
fmrwOmiExtInputMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"External input alarm Severity and Suppression Mask for the MCU card.
Byte 0 alarm suppression mask, (bit coded: 0=masked 1= no masked)
Byte 1 alarm severity map (bit coded: 0=not urgent, 1=urgent)
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarm mask is bit coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 EXTERNAL INPUT 1
bit 1 bit 1 EXTERNAL INPUT 2
bit 2 bit 2 EXTERNAL INPUT 3
bit 3 bit 3 EXTERNAL INPUT 4
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 3 }
fmrwOmiNMSMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"NMS link alarm Severity and Suppression Mask for the MCU card.
Byte 0 alarm suppression mask, (bit coded: 0=masked 1= no masked)
Byte 1 alarm severity map (bit coded: 0=not urgent, 1=urgent)
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarm mask is bit coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 NMS LINK ALARM
bit 1 bit 1 unused
bit 2 bit 2 unused
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 4 }
fmrwOmiFEMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Fast Ethernet link alarm Severity and Suppression Mask for the MCU card.
Byte 0 alarm suppression mask, (bit coded: 0=masked 1= no masked)
Byte 1 alarm severity map (bit coded: 0=not urgent, 1=urgent)
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarm mask is bit coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 FE LINK ALARM
bit 1 bit 1 unused
bit 2 bit 2 unused
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 5 }
fmrwOmiGBEMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"GigaBit Ethernet link alarm Severity and Suppression Mask for the MCU card.
Byte 0 alarm suppression mask, (bit coded: 0=masked 1= no masked)
Byte 1 alarm severity map (bit coded: 0=not urgent, 1=urgent)
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarm mask is bit coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 GBE LINK ALARM
bit 1 bit 1 unused
bit 2 bit 2 unused
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 6 }
fmrwOmiSFPMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"SFP laser/interface alarm Severity and Suppression Mask for the MCU card.
Byte 0 alarm suppression mask, (bit coded: 0=masked 1= no masked)
Byte 1 alarm severity map (bit coded: 0=not urgent, 1=urgent)
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarm mask is bit coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 SFP LASER ALARM
bit 1 bit 1 SFP INTERFACE ALARM
bit 2 bit 2 unused
bit 3 bit 3 unused
bit 4 bit 4 unused
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 7 }
fmrwOmiOutputMask OBJECT-TYPE
SYNTAX INTEGER
{
off(1),
on(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm output mask for the MCU card
1 Alarm output Off
2 Alarm output On
254 unknown value
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 8 }
fmrwOmiCESMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"CES interface alarm Severity and Suppression Mask for the MCU card.
Byte 0 alarm suppression mask, (bit coded: 0=masked 1= no masked)
Byte 1 alarm severity map (bit coded: 0=not urgent, 1=urgent)
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarm mask is bit coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 LOS TDM
bit 1 bit 1 ARE ETH
bit 2 bit 2 LOF ETH
bit 3 bit 3 LOS Clock In
bit 4 bit 4 AIS TDM
bit 5 bit 5 RAI ETH
bit 6 bit 6 AIS ETH
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwOmiMaskEntry 9 }
--------------------------------------------------------------------------------
-- FM-RW NT Rps Mask
--------------------------------------------------------------------------------
fmrwFarRpsMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwFarRpsMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 8 }
fmrwFarRpsMaskEntry OBJECT-TYPE
SYNTAX FmrwFarRpsMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwFarRpsMaskPortIndex, fmrwFarRpsMaskLinkIndex }
::= { fmrwFarRpsMaskTable 1 }
FmrwFarRpsMaskEntry ::=
SEQUENCE
{
fmrwFarRpsMaskPortIndex INTEGER,
fmrwFarRpsMaskLinkIndex INTEGER,
fmrwFarRpsMask OCTET STRING
}
fmrwFarRpsMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwFarRpsMaskEntry 1 }
fmrwFarRpsMaskLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwFarRpsMaskEntry 2 }
fmrwFarRpsMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(3))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for Remote Power Supply (RPS).
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 2 byte octet string. Byte 0 contains the
alarm suppression mask, byte 1 contains the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 1
bit 0 bit 0 UCR12
bit 1 bit 1 UCR1
bit 2 bit 2 UCR2
bit 3 bit 3 OVR
bit 4 bit 4 NOSYM
bit 5 bit 5 DEFECT
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 2 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwFarRpsMaskEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW SRU Mask
--------------------------------------------------------------------------------
fmrwSruMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwSruMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 9 }
fmrwSruMaskEntry OBJECT-TYPE
SYNTAX FmrwSruMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwSruMaskPortIndex, fmrwSruMaskLinkIndex }
::= { fmrwSruMaskTable 1 }
FmrwSruMaskEntry ::=
SEQUENCE
{
fmrwSruMaskPortIndex INTEGER,
fmrwSruMaskLinkIndex INTEGER,
fmrwSruMask OCTET STRING
}
fmrwSruMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwSruMaskEntry 1 }
fmrwSruMaskLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwSruMaskEntry 2 }
fmrwSruMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(5))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for Regenerator Section A (LT side).
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is a 4 byte octet string. Bytes 0-1 contain the
alarm suppression mask, bytes 2-3 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 2
bit 0 bit 0 LOS-L
bit 1 bit 1 BER3-L
bit 2 bit 2 BER6-L
bit 3 bit 3 LOS-N
bit 4 bit 4 BER3-N
bit 5 bit 5 BER6-N
bit 6 bit 6 Equipment
bit 7 bit 7 LOSW-L
Byte 1 Byte 3
bit 0 bit 0 LOSW-N
bit 1 bit 1 Thres-Att-L
bit 2 bit 2 Thres-Att-N
bit 3 bit 3 Thres-Snr-L
bit 4 bit 4 Thres-Snr-N
bit 5 bit 5 unused
bit 6 bit 6 unused
bit 7 bit 7 unused
Byte 4 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
2 NotLt The local device is not an LT
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwSruMaskEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW Master GTU Mask
--------------------------------------------------------------------------------
fmrwGtuMasterMaskTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwGtuMasterMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 10 }
fmrwGtuMasterMaskEntry OBJECT-TYPE
SYNTAX FmrwGtuMasterMaskEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwGtuMasterMaskPortIndex, fmrwGtuMasterMaskLinkIndex }
::= { fmrwGtuMasterMaskTable 1 }
FmrwGtuMasterMaskEntry ::=
SEQUENCE
{
fmrwGtuMasterMaskPortIndex INTEGER,
fmrwGtuMasterMaskLinkIndex INTEGER,
fmrwGtuMasterMask OCTET STRING
}
fmrwGtuMasterMaskPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwGtuMasterMaskEntry 1 }
fmrwGtuMasterMaskLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwGtuMasterMaskEntry 2 }
fmrwGtuMasterMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(9))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for Master Alarms.
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 8 byte octet string. Bytes 0-3 contain the
alarm suppression mask, bytes 4-7 contain the severity map.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
The alarms are coded as follows:
Suppression Severity Alarm
Byte 0 Byte 4
bit 0 bit 0 LOS-V
bit 1 bit 1 LFA-V
bit 2 bit 2 AIS-V
bit 3 bit 3 RAI-V
bit 4 bit 4 BER3-V
bit 5 bit 5 BER6-V
bit 6 bit 6 LOS-T
bit 7 bit 7 LFA-T
Byte 1 Byte 5
bit 0 bit 0 AIS-T
bit 1 bit 1 RAI-T
bit 2 bit 2 BER3-T
bit 3 bit 3 BER6-T
bit 4 bit 4 LOAR-D
bit 5 bit 5 LOAT-D
bit 6 bit 6 Equipment
bit 7 bit 7 A-LOS
Byte 2 Byte 6
bit 0 bit 0 LOS-T4
bit 1 bit 1 LOS-V-Slave
bit 2 bit 2 LFA-V-Slave
bit 3 bit 3 AIS-V-Slave
bit 4 bit 4 RAI-V-Slave
bit 5 bit 5 BER3-V-Slave
bit 6 bit 6 BER6-V-Slave
bit 7 bit 7 LOS-T-Slave
Byte 3 Byte 7
bit 0 bit 0 LFA-T-Slave
bit 1 bit 1 AIS-T-Slave
bit 2 bit 2 RAI-T-Slave
bit 3 bit 3 BER3-T-Slave
bit 4 bit 4 BER6-T-Slave
bit 5 bit 5 LOAR-D-Slave
bit 6 bit 6 LOAT-D-Slave
bit 7 bit 7 unused
Byte 8 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
2 NotLt The local device is not an LT
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwGtuMasterMaskEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW Local Alarm Mask Configuration
--------------------------------------------------------------------------------
fmrwLocalAlarmMaskConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwLocalAlarmMaskConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 11 }
fmrwLocalAlarmMaskConfigEntry OBJECT-TYPE
SYNTAX FmrwLocalAlarmMaskConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwLocalAlarmMaskConfigPortIndex, fmrwLocalAlarmMaskConfigLinkIndex }
::= { fmrwLocalAlarmMaskConfigTable 1 }
FmrwLocalAlarmMaskConfigEntry ::=
SEQUENCE
{
fmrwLocalAlarmMaskConfigPortIndex INTEGER,
fmrwLocalAlarmMaskConfigLinkIndex INTEGER,
fmrwLocalAlarmMaskConfigArray OCTET STRING
}
fmrwLocalAlarmMaskConfigPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwLocalAlarmMaskConfigEntry 1 }
fmrwLocalAlarmMaskConfigLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwLocalAlarmMaskConfigEntry 2 }
fmrwLocalAlarmMaskConfigArray OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(91))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for LT Alarms.
This variable only returns meaningful values if the management
system is connected to an LT device. If it is connected to an
NT device on the local interface, this variable will return
'NotLt' as result.
This variable is an 91 byte octet string. Bytes 0-29 contain the
alarm suppression mask, bytes 30-59 contain the severity mask,
bytes 60-89 contain the logging mask.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
If the bit in the logging mask is set, the corresponding alarm is
logged.
Alarm mask coding for STUP/QSTUP:
Suppression Severity Logging Alarm
Byte 0 Byte 30 Byte 60
bit 0 bit 0 bit 0 XTU_LOS_U
bit 1 bit 1 bit 1 XTU_LFA_U
bit 2 bit 2 bit 2 XTU_AIS_U
bit 3 bit 3 bit 3 XTU_BNA_U
bit 4 bit 4 bit 4 XTU_RAI_U
bit 5 bit 5 bit 5 XTU_BER3_U
bit 6 bit 6 bit 6 XTU_BER6_U
bit 7 bit 7 bit 7 XTU_LOS_Ux
Byte 1 Byte 31 Byte 61
bit 0 bit 0 bit 0 XTU_LOSW_Ux
bit 1 bit 1 bit 1 XTU_BER3_Ux
bit 2 bit 2 bit 2 XTU_BER6_Ux
bit 3 bit 3 bit 3 XTU_LOS_T
bit 4 bit 4 bit 4 XTU_LFA_T
bit 5 bit 5 bit 5 XTU_AIS_T
bit 6 bit 6 bit 6 XTU_RAI_T
bit 7 bit 7 bit 7 XTU_BER3_T
Byte 21 Byte 32 Byte 62
bit 0 bit 0 bit 0 XTU_BER6_T
bit 1 bit 1 bit 1 XTU_LOA_RX_D
bit 2 bit 2 bit 2 XTU_LOA_TX_D
bit 3 bit 3 bit 3 XTU_EQUIPMENT
bit 4 bit 4 bit 4 XTU_LOS_T3
bit 5 bit 5 bit 5 XTU_LOS_T4
bit 6 bit 6 bit 6 XTU_P1_LINKDOWN
bit 7 bit 7 bit 7 XTU_LOA_RX_WAN
Byte 3 Byte 33 Byte 63
bit 0 bit 0 bit 0 XTU_LOA_TX_WAN
bit 1 bit 1 bit 1 XTU_MIR_TX_WAN
bit 2 bit 2 bit 2 XTU_LOS_D
bit 3 bit 3 bit 3 XTU_POWERFAIL
bit 4 bit 4 bit 4 XTU_REM_PWRFAIL
bit 5 bit 5 bit 5 XTU_TD_ATT
bit 6 bit 6 bit 6 XTU_TD_SNR
bit 7 bit 7 bit 7 XTU_XFW
Bytes 4-14 Bytes 34-44 Bytes 64-74
unused
Byte 15 Byte 45 Byte 75
bit 0 bit 0 bit 0 XRU_LOS_UL
bit 1 bit 1 bit 1 XRU_BER3_UL
bit 2 bit 2 bit 2 XRU_BER6_UL
bit 3 bit 3 bit 3 XRU_LOS_UN
bit 4 bit 4 bit 4 XRU_BER3_UN
bit 5 bit 5 bit 5 XRU_BER6_UN
bit 6 bit 6 bit 6 XRU_EQUIPMENT
bit 7 bit 7 bit 7 XRU_LOSW_UL
Byte 16 Byte 46 Byte 76
bit 0 bit 0 bit 0 XRU_LOSW_UN
bit 1 bit 1 bit 1 XRU_TD_ATT_UL
bit 2 bit 2 bit 2 XRU_TD_SNR_UL
bit 3 bit 3 bit 3 XRU_TD_ATT_UN
bit 4 bit 4 bit 4 XRU_TD_SNR_UN
bit 5 bit 5 bit 5 unused
bit 6 bit 6 bit 6 unused
bit 7 bit 7 bit 7 unused
Bytes 17-24 Bytes 47-54 Bytes 77-84
unused
Byte 25 Byte 55 Byte 85
bit 0 bit 0 bit 0 RPS_UC
bit 1 bit 1 bit 1 RPS_OC
bit 2 bit 2 bit 2 RPS_UNBAL
bit 3 bit 3 bit 3 RPS_DEFEKT
bit 4 bit 4 bit 4 unused
bit 5 bit 5 bit 5 unused
bit 6 bit 6 bit 6 unused
bit 7 bit 7 bit 7 unused
Bytes 26-29 Bytes 56-59 Bytes 86-89
unused
Byte 90 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwLocalAlarmMaskConfigEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW Far Alarm Mask Configuration
--------------------------------------------------------------------------------
fmrwFarAlarmMaskConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwFarAlarmMaskConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwMask 12 }
fmrwFarAlarmMaskConfigEntry OBJECT-TYPE
SYNTAX FmrwFarAlarmMaskConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwFarAlarmMaskConfigPortIndex, fmrwFarAlarmMaskConfigLinkIndex }
::= { fmrwFarAlarmMaskConfigTable 1 }
FmrwFarAlarmMaskConfigEntry ::=
SEQUENCE
{
fmrwFarAlarmMaskConfigPortIndex INTEGER,
fmrwFarAlarmMaskConfigLinkIndex INTEGER,
fmrwFarAlarmMaskConfigArray OCTET STRING
}
fmrwFarAlarmMaskConfigPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwFarAlarmMaskConfigEntry 1 }
fmrwFarAlarmMaskConfigLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwFarAlarmMaskConfigEntry 2 }
fmrwFarAlarmMaskConfigArray OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(91))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Alarm Severity Mask and Alarm Suppression Mask for NT Alarms.
This variable is an 91 byte octet string. Bytes 0-29 contain the
alarm suppression mask, bytes 30-59 contain the severity mask,
bytes 60-89 contain the logging mask.
The masks are bit coded. If a bit in the suppression mask is set,
the corresponding alarm has the severity defined by the severity
mask. If the bit in the suppression mask is zero, the corresponding
alarm has no severity (i.e. has no influence on the alarm summary).
If a bit in the severity mask is set, the corresponding alarm is
considered to be 'Urgent', if it is zero, the alarm is 'Non-Urgent'.
If the bit in the logging mask is set, the corresponding alarm is
logged.
Alarm mask coding for STUP/QSTUP:
Suppression Severity Logging Alarm
Byte 0 Byte 30 Byte 60
bit 0 bit 0 bit 0 XTU_LOS_U
bit 1 bit 1 bit 1 XTU_LFA_U
bit 2 bit 2 bit 2 XTU_AIS_U
bit 3 bit 3 bit 3 XTU_BNA_U
bit 4 bit 4 bit 4 XTU_RAI_U
bit 5 bit 5 bit 5 XTU_BER3_U
bit 6 bit 6 bit 6 XTU_BER6_U
bit 7 bit 7 bit 7 XTU_LOS_Ux
Byte 1 Byte 31 Byte 61
bit 0 bit 0 bit 0 XTU_LOSW_Ux
bit 1 bit 1 bit 1 XTU_BER3_Ux
bit 2 bit 2 bit 2 XTU_BER6_Ux
bit 3 bit 3 bit 3 XTU_LOS_T
bit 4 bit 4 bit 4 XTU_LFA_T
bit 5 bit 5 bit 5 XTU_AIS_T
bit 6 bit 6 bit 6 XTU_RAI_T
bit 7 bit 7 bit 7 XTU_BER3_T
Byte 21 Byte 32 Byte 62
bit 0 bit 0 bit 0 XTU_BER6_T
bit 1 bit 1 bit 1 XTU_LOA_RX_D
bit 2 bit 2 bit 2 XTU_LOA_TX_D
bit 3 bit 3 bit 3 XTU_EQUIPMENT
bit 4 bit 4 bit 4 XTU_LOS_T3
bit 5 bit 5 bit 5 XTU_LOS_T4
bit 6 bit 6 bit 6 XTU_P1_LINKDOWN
bit 7 bit 7 bit 7 XTU_LOA_RX_WAN
Byte 3 Byte 33 Byte 63
bit 0 bit 0 bit 0 XTU_LOA_TX_WAN
bit 1 bit 1 bit 1 XTU_MIR_TX_WAN
bit 2 bit 2 bit 2 XTU_LOS_D
bit 3 bit 3 bit 3 XTU_POWERFAIL
bit 4 bit 4 bit 4 XTU_REM_PWRFAIL
bit 5 bit 5 bit 5 XTU_TD_ATT
bit 6 bit 6 bit 6 XTU_TD_SNR
bit 7 bit 7 bit 7 XTU_XFW
Bytes 4-14 Bytes 34-44 Bytes 64-74
unused
Byte 15 Byte 45 Byte 75
bit 0 bit 0 bit 0 XRU_LOS_UL
bit 1 bit 1 bit 1 XRU_BER3_UL
bit 2 bit 2 bit 2 XRU_BER6_UL
bit 3 bit 3 bit 3 XRU_LOS_UN
bit 4 bit 4 bit 4 XRU_BER3_UN
bit 5 bit 5 bit 5 XRU_BER6_UN
bit 6 bit 6 bit 6 XRU_EQUIPMENT
bit 7 bit 7 bit 7 XRU_LOSW_UL
Byte 16 Byte 46 Byte 76
bit 0 bit 0 bit 0 XRU_LOSW_UN
bit 1 bit 1 bit 1 XRU_TD_ATT_UL
bit 2 bit 2 bit 2 XRU_TD_SNR_UL
bit 3 bit 3 bit 3 XRU_TD_ATT_UN
bit 4 bit 4 bit 4 XRU_TD_SNR_UN
bit 5 bit 5 bit 5 unused
bit 6 bit 6 bit 6 unused
bit 7 bit 7 bit 7 unused
Bytes 17-24 Bytes 47-54 Bytes 77-84
unused
Byte 25 Byte 55 Byte 85
bit 0 bit 0 bit 0 RPS_UC
bit 1 bit 1 bit 1 RPS_OC
bit 2 bit 2 bit 2 RPS_UNBAL
bit 3 bit 3 bit 3 RPS_DEFEKT
bit 4 bit 4 bit 4 unused
bit 5 bit 5 bit 5 unused
bit 6 bit 6 bit 6 unused
bit 7 bit 7 bit 7 unused
Bytes 26-29 Bytes 56-59 Bytes 86-89
unused
Byte 90 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { fmrwFarAlarmMaskConfigEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW Htu Traps
--------------------------------------------------------------------------------
fmrwHtuTrapTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwHtuTrapEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwTrap 1 }
fmrwHtuTrapEntry OBJECT-TYPE
SYNTAX FmrwHtuTrapEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwHtuTrapPortIndex, fmrwHtuTrapLinkIndex }
::= { fmrwHtuTrapTable 1 }
FmrwHtuTrapEntry ::=
SEQUENCE
{
fmrwHtuTrapPortIndex INTEGER,
fmrwHtuTrapLinkIndex INTEGER,
fmrwHtuTrapEnable INTEGER,
fmrwHtuTrapSuppDisAlarmTrap INTEGER
}
fmrwHtuTrapPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwHtuTrapEntry 1 }
fmrwHtuTrapLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwHtuTrapEntry 2 }
fmrwHtuTrapEnable OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Allows the suppression of all traps from a certain device
without altering the assigned alarm severities via the alarm
masks. The following values are supported:
1 Disabled Suppress all traps
2 Enabled Send traps from this system
254 Unknown value (not supported for set)
255 Unsupported variable for addressed device (not supported for set)"
::= { fmrwHtuTrapEntry 3 }
fmrwHtuTrapSuppDisAlarmTrap OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Allows the suppression of alarm traps when the line's overall
alarm summary remains 'No Alarm'. This feature is useful for
preventing masked alarm from causing unwanted trap traffic.
Trap generation can be suppressed entirely using the variable
fmrwHtuTrapEnable.
The following values are supported:
1 Disabled Allow all traps
2 Enabled Suppress trap for constant 'No Alarm' summary
254 Unknown value (not supported for set)
255 Unsupported variable for addressed device (not supported for set)"
::= { fmrwHtuTrapEntry 4 }
--------------------------------------------------------------------------------
-- FM-RW Omi Traps
--------------------------------------------------------------------------------
fmrwOmiTrapTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwOmiTrapEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwTrap 2 }
fmrwOmiTrapEntry OBJECT-TYPE
SYNTAX FmrwOmiTrapEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwOmiTrapPortIndex }
::= { fmrwOmiTrapTable 1 }
FmrwOmiTrapEntry ::=
SEQUENCE
{
fmrwOmiTrapPortIndex INTEGER,
fmrwOmiTrapEnable INTEGER,
fmrwOmiTrapSuppDisAlarmTrap INTEGER
}
fmrwOmiTrapPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwOmiTrapEntry 1 }
fmrwOmiTrapEnable OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Allows the suppression of all traps from a certain OMI
without altering the assigned alarm severities via the alarm
masks. The following values are supported:
1 Disabled Suppress all traps originating on this OMI
2 Enabled Send traps from this OMI
254 Unknown value (not supported for set)
255 Unsupported variable for addressed device (not supported for set)
Please note that the suppression mechanism only suppresses those
traps originating on the OMI itself but not traps generated by
line cards which are addressed through the OMI. These traps must
be suppressed on the line cards themselves."
::= { fmrwOmiTrapEntry 2 }
fmrwOmiTrapSuppDisAlarmTrap OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Allows the suppression of alarm traps when the line's overall
alarm summary remains 'No Alarm'. This feature is useful for
preventing masked alarm from causing unwanted trap traffic.
Trap generation can be suppressed entirely using the variable
fmrwOmiTrapEnable.
1 Disabled Suppress all traps originating on this OMI
2 Enabled Send traps from this OMI
254 Unknown value (not supported for set)
255 Unsupported variable for addressed device (not supported for set)"
::= { fmrwOmiTrapEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW Thresholds
--------------------------------------------------------------------------------
fmrwThresholdTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwThresholdEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrw 4 }
fmrwThresholdEntry OBJECT-TYPE
SYNTAX FmrwThresholdEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwThresholdPortIndex, fmrwThresholdLinkIndex }
::= { fmrwThresholdTable 1 }
FmrwThresholdEntry ::=
SEQUENCE
{
fmrwThresholdPortIndex INTEGER,
fmrwThresholdLinkIndex INTEGER,
fmrwThresholdAttenuation INTEGER,
fmrwThresholdSnr INTEGER
}
fmrwThresholdPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwThresholdEntry 1 }
fmrwThresholdLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwThresholdEntry 2 }
fmrwThresholdAttenuation OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
att1dB(2),
att2dB(3),
att3dB(4),
att4dB(5),
att5dB(6),
att6dB(7),
att7dB(8),
att8dB(9),
att9dB(10),
att10dB(11),
att11dB(12),
att12dB(13),
att13dB(14),
att14dB(15),
att15dB(16),
att16dB(17),
att17dB(18),
att18dB(19),
att19dB(20),
att20dB(21),
att21dB(22),
att22dB(23),
att23dB(24),
att24dB(25),
att25dB(26),
att26dB(27),
att27dB(28),
att28dB(29),
att29dB(30),
att30dB(31),
att31dB(32),
att32dB(33),
att33dB(34),
att34dB(35),
att35dB(36),
att36dB(37),
att37dB(38),
att38dB(39),
att39dB(40),
att40dB(41),
att41dB(42),
att42dB(43),
att43dB(44),
att44dB(45),
att45dB(46),
att46dB(47),
att47dB(48),
att48dB(49),
att49dB(50),
att50dB(51),
att51dB(52),
att52dB(53),
att53dB(54),
att54dB(55),
att55dB(56),
att56dB(57),
att57dB(58),
att58dB(59),
att59dB(60),
att60dB(61),
att61dB(62),
att62dB(63),
att63dB(64),
att64dB(65),
att65dB(66),
att66dB(67),
att67dB(68),
att68dB(69),
att69dB(70),
att70dB(71),
att71dB(72),
att72dB(73),
att73dB(74),
att74dB(75),
att75dB(76),
att76dB(77),
att77dB(78),
att78dB(79),
att79dB(80),
att80dB(81),
att81dB(82),
att82dB(83),
att83dB(84),
att84dB(85),
att85dB(86),
att86dB(87),
att87dB(88),
att88dB(89),
att89dB(90),
att90dB(91),
att91dB(92),
att92dB(93),
att93dB(94),
att94dB(95),
att95dB(96),
att96dB(97),
att97dB(98),
att98dB(99),
att99dB(100),
att100dB(101),
att101dB(102),
att102dB(103),
att103dB(104),
att104dB(105),
att105dB(106),
att106dB(107),
att107dB(108),
att108dB(109),
att109dB(110),
att110dB(111),
att111dB(112),
att112dB(113),
att113dB(114),
att114dB(115),
att115dB(116),
att116dB(117),
att117dB(118),
att118dB(119),
att119dB(120),
att120dB(121),
att121dB(122),
att122dB(123),
att123dB(124),
att124dB(125),
att125dB(126),
att126dB(127),
att127dB(128),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Attenuation Threshold
1 disabled Disabled
2 att1dB Attenuation in dB (1..127)
... Attenuation in dB (1..127)
128 att127dB Attenuation in dB (1..127)
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmrwThresholdEntry 4 }
fmrwThresholdSnr OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
snr1dB(2),
snr2dB(3),
snr3dB(4),
snr4dB(5),
snr5dB(6),
snr6dB(7),
snr7dB(8),
snr8dB(9),
snr9dB(10),
snr10dB(11),
snr11dB(12),
snr12dB(13),
snr13dB(14),
snr14dB(15),
snr15dB(16),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines the Signal To Noise Ration (SNR) Threshold
1 disabled Disabled
2 snr1dB SNR Margin in db (1..15)
... SNR Margin in db (1..15)
16 snr15dB SNR Margin in db (1..15)
254 Unknown value
255 Unsupported variable for addressed device"
::= { fmrwThresholdEntry 5 }
--------------------------------------------------------------------------------
-- FM-RW Htu Actions
--------------------------------------------------------------------------------
fmrwHtuActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwHtuActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwActions 1 }
fmrwHtuActionEntry OBJECT-TYPE
SYNTAX FmrwHtuActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwHtuActionPortIndex, fmrwHtuActionLinkIndex }
::= { fmrwHtuActionTable 1 }
FmrwHtuActionEntry ::=
SEQUENCE
{
fmrwHtuActionPortIndex INTEGER,
fmrwHtuActionLinkIndex INTEGER,
fmrwHtuActionResetAlarmLog INTEGER
}
fmrwHtuActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwHtuActionEntry 1 }
fmrwHtuActionLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwHtuActionEntry 2 }
fmrwHtuActionResetAlarmLog OBJECT-TYPE
SYNTAX INTEGER
{
reset(1),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Clears the content of the Alarm Log
1 Reset Clears the log
254 Unknown value (not supported for set)
255 Unsupported variable for addressed device (not supported for set)"
::= { fmrwHtuActionEntry 3 }
--------------------------------------------------------------------------------
-- FM-RW Htu Actions
--------------------------------------------------------------------------------
fmrwConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF FmrwConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { fmrwConfig 1 }
fmrwConfigEntry OBJECT-TYPE
SYNTAX FmrwConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { fmrwConfigPortIndex, fmrwConfigLinkIndex }
::= { fmrwConfigTable 1 }
FmrwConfigEntry ::=
SEQUENCE
{
fmrwConfigPortIndex INTEGER,
fmrwConfigLinkIndex INTEGER,
fmrwLocalPwrFailAlarmSupp INTEGER,
fmrwLocalL2SwitchTestMode INTEGER,
fmrwFarPwrFailAlarmSupp INTEGER,
fmrwFarL2SwitchTestMode INTEGER
}
fmrwConfigPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { fmrwConfigEntry 1 }
fmrwConfigLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { fmrwConfigEntry 2 }
fmrwLocalPwrFailAlarmSupp OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Allows the suppression of power failure alarms. In addition
to the alarm masking provided by fmrwXtuXtMask, this feature
actually suppresses alarm generation at all.
1 Disabled Allow power failure alarms
2 Enabled Suppress power failure alarms
254 Unknown value (not supported for set)
255 Unsupported variable for addressed device (not supported for set)"
::= { fmrwConfigEntry 3 }
fmrwLocalL2SwitchTestMode OBJECT-TYPE
SYNTAX INTEGER {
inactive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the L2Switch operates in test mode
('transparent switch') or in standard mode.
1 Inactive L2Switch operates in standard mode
2 Active L2Switch operates in test mode
254 unknown
255 unsupported"
::= { fmrwConfigEntry 4 }
fmrwFarPwrFailAlarmSupp OBJECT-TYPE
SYNTAX INTEGER
{
disabled(1),
enabled(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Allows the suppression of power failure alarms. In addition
to the alarm masking provided by fmrwXtuXtMask, this feature
actually suppresses alarm generation at all.
1 Disabled Allow power failure alarms
2 Enabled Suppress power failure alarms
254 Unknown value (not supported for set)
255 Unsupported variable for addressed device (not supported for set)"
::= { fmrwConfigEntry 5 }
fmrwFarL2SwitchTestMode OBJECT-TYPE
SYNTAX INTEGER {
inactive(1),
active(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Defines whether the L2Switch operates in test mode
('transparent switch') or in standard mode.
1 Inactive L2Switch operates in standard mode
2 Active L2Switch operates in test mode
254 unknown
255 unsupported"
::= { fmrwConfigEntry 6 }
--==============================================================================
--==============================================================================
--
-- PM-RO
--
--==============================================================================
--==============================================================================
pmro OBJECT IDENTIFIER ::= { linksVers3 5 }
--------------------------------------------------------------------------------
-- PM-RO HDSL Attenuation
--------------------------------------------------------------------------------
pmroHdslTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroHdslEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 1 }
pmroHdslEntry OBJECT-TYPE
SYNTAX PmroHdslEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroHdslPortIndex, pmroHdslLinkIndex }
::= { pmroHdslTable 1 }
PmroHdslEntry ::=
SEQUENCE
{
pmroHdslPortIndex INTEGER,
pmroHdslLinkIndex INTEGER,
pmroHdslAttenuation1 INTEGER,
pmroHdslAttenuation2 INTEGER,
pmroHdslNoiseMargin1 INTEGER,
pmroHdslNoiseMargin2 INTEGER,
pmroHdslAttenuationNt1 INTEGER,
pmroHdslAttenuationNt2 INTEGER,
pmroHdslNoiseMarginNt1 INTEGER,
pmroHdslNoiseMarginNt2 INTEGER,
pmroHdslAttenuationReg1ALt INTEGER,
pmroHdslAttenuationReg1ANt INTEGER,
pmroHdslAttenuationReg2ALt INTEGER,
pmroHdslAttenuationReg2ANt INTEGER,
pmroHdslAttenuationReg1BLt INTEGER,
pmroHdslAttenuationReg1BNt INTEGER,
pmroHdslAttenuationReg2BLt INTEGER,
pmroHdslAttenuationReg2BNt INTEGER,
pmroHdslNoiseMarginReg1ALt INTEGER,
pmroHdslNoiseMarginReg1ANt INTEGER,
pmroHdslNoiseMarginReg2ALt INTEGER,
pmroHdslNoiseMarginReg2ANt INTEGER,
pmroHdslNoiseMarginReg1BLt INTEGER,
pmroHdslNoiseMarginReg1BNt INTEGER,
pmroHdslNoiseMarginReg2BLt INTEGER,
pmroHdslNoiseMarginReg2BNt INTEGER,
pmroHdslAttenuationReg31Lt INTEGER,
pmroHdslAttenuationReg31Nt INTEGER,
pmroHdslAttenuationReg32Lt INTEGER,
pmroHdslAttenuationReg32Nt INTEGER,
pmroHdslAttenuationReg41Lt INTEGER,
pmroHdslAttenuationReg41Nt INTEGER,
pmroHdslAttenuationReg42Lt INTEGER,
pmroHdslAttenuationReg42Nt INTEGER,
pmroHdslAttenuationReg51Lt INTEGER,
pmroHdslAttenuationReg51Nt INTEGER,
pmroHdslAttenuationReg52Lt INTEGER,
pmroHdslAttenuationReg52Nt INTEGER,
pmroHdslAttenuationReg61Lt INTEGER,
pmroHdslAttenuationReg61Nt INTEGER,
pmroHdslAttenuationReg62Lt INTEGER,
pmroHdslAttenuationReg62Nt INTEGER,
pmroHdslAttenuationReg71Lt INTEGER,
pmroHdslAttenuationReg71Nt INTEGER,
pmroHdslAttenuationReg72Lt INTEGER,
pmroHdslAttenuationReg72Nt INTEGER,
pmroHdslAttenuationReg81Lt INTEGER,
pmroHdslAttenuationReg81Nt INTEGER,
pmroHdslAttenuationReg82Lt INTEGER,
pmroHdslAttenuationReg82Nt INTEGER,
pmroHdslNoiseMarginReg31Lt INTEGER,
pmroHdslNoiseMarginReg31Nt INTEGER,
pmroHdslNoiseMarginReg32Lt INTEGER,
pmroHdslNoiseMarginReg32Nt INTEGER,
pmroHdslNoiseMarginReg41Lt INTEGER,
pmroHdslNoiseMarginReg41Nt INTEGER,
pmroHdslNoiseMarginReg42Lt INTEGER,
pmroHdslNoiseMarginReg42Nt INTEGER,
pmroHdslNoiseMarginReg51Lt INTEGER,
pmroHdslNoiseMarginReg51Nt INTEGER,
pmroHdslNoiseMarginReg52Lt INTEGER,
pmroHdslNoiseMarginReg52Nt INTEGER,
pmroHdslNoiseMarginReg61Lt INTEGER,
pmroHdslNoiseMarginReg61Nt INTEGER,
pmroHdslNoiseMarginReg62Lt INTEGER,
pmroHdslNoiseMarginReg62Nt INTEGER,
pmroHdslNoiseMarginReg71Lt INTEGER,
pmroHdslNoiseMarginReg71Nt INTEGER,
pmroHdslNoiseMarginReg72Lt INTEGER,
pmroHdslNoiseMarginReg72Nt INTEGER,
pmroHdslNoiseMarginReg81Lt INTEGER,
pmroHdslNoiseMarginReg81Nt INTEGER,
pmroHdslNoiseMarginReg82Lt INTEGER,
pmroHdslNoiseMarginReg82Nt INTEGER,
pmroHdslAttenuation3 INTEGER,
pmroHdslAttenuation4 INTEGER,
pmroHdslAttenuationNt3 INTEGER,
pmroHdslAttenuationNt4 INTEGER,
pmroHdslAttenuationReg13Lt INTEGER,
pmroHdslAttenuationReg13Nt INTEGER,
pmroHdslAttenuationReg14Lt INTEGER,
pmroHdslAttenuationReg14Nt INTEGER,
pmroHdslAttenuationReg23Lt INTEGER,
pmroHdslAttenuationReg23Nt INTEGER,
pmroHdslAttenuationReg24Lt INTEGER,
pmroHdslAttenuationReg24Nt INTEGER,
pmroHdslAttenuationReg33Lt INTEGER,
pmroHdslAttenuationReg33Nt INTEGER,
pmroHdslAttenuationReg34Lt INTEGER,
pmroHdslAttenuationReg34Nt INTEGER,
pmroHdslAttenuationReg43Lt INTEGER,
pmroHdslAttenuationReg43Nt INTEGER,
pmroHdslAttenuationReg44Lt INTEGER,
pmroHdslAttenuationReg44Nt INTEGER,
pmroHdslAttenuationReg53Lt INTEGER,
pmroHdslAttenuationReg53Nt INTEGER,
pmroHdslAttenuationReg54Lt INTEGER,
pmroHdslAttenuationReg54Nt INTEGER,
pmroHdslAttenuationReg63Lt INTEGER,
pmroHdslAttenuationReg63Nt INTEGER,
pmroHdslAttenuationReg64Lt INTEGER,
pmroHdslAttenuationReg64Nt INTEGER,
pmroHdslAttenuationReg73Lt INTEGER,
pmroHdslAttenuationReg73Nt INTEGER,
pmroHdslAttenuationReg74Lt INTEGER,
pmroHdslAttenuationReg74Nt INTEGER,
pmroHdslAttenuationReg83Lt INTEGER,
pmroHdslAttenuationReg83Nt INTEGER,
pmroHdslAttenuationReg84Lt INTEGER,
pmroHdslAttenuationReg84Nt INTEGER,
pmroHdslNoiseMargin3 INTEGER,
pmroHdslNoiseMargin4 INTEGER,
pmroHdslNoiseMarginNt3 INTEGER,
pmroHdslNoiseMarginNt4 INTEGER,
pmroHdslNoiseMarginReg13Lt INTEGER,
pmroHdslNoiseMarginReg13Nt INTEGER,
pmroHdslNoiseMarginReg14Lt INTEGER,
pmroHdslNoiseMarginReg14Nt INTEGER,
pmroHdslNoiseMarginReg23Lt INTEGER,
pmroHdslNoiseMarginReg23Nt INTEGER,
pmroHdslNoiseMarginReg24Lt INTEGER,
pmroHdslNoiseMarginReg24Nt INTEGER,
pmroHdslNoiseMarginReg33Lt INTEGER,
pmroHdslNoiseMarginReg33Nt INTEGER,
pmroHdslNoiseMarginReg34Lt INTEGER,
pmroHdslNoiseMarginReg34Nt INTEGER,
pmroHdslNoiseMarginReg43Lt INTEGER,
pmroHdslNoiseMarginReg43Nt INTEGER,
pmroHdslNoiseMarginReg44Lt INTEGER,
pmroHdslNoiseMarginReg44Nt INTEGER,
pmroHdslNoiseMarginReg53Lt INTEGER,
pmroHdslNoiseMarginReg53Nt INTEGER,
pmroHdslNoiseMarginReg54Lt INTEGER,
pmroHdslNoiseMarginReg54Nt INTEGER,
pmroHdslNoiseMarginReg63Lt INTEGER,
pmroHdslNoiseMarginReg63Nt INTEGER,
pmroHdslNoiseMarginReg64Lt INTEGER,
pmroHdslNoiseMarginReg64Nt INTEGER,
pmroHdslNoiseMarginReg73Lt INTEGER,
pmroHdslNoiseMarginReg73Nt INTEGER,
pmroHdslNoiseMarginReg74Lt INTEGER,
pmroHdslNoiseMarginReg74Nt INTEGER,
pmroHdslNoiseMarginReg83Lt INTEGER,
pmroHdslNoiseMarginReg83Nt INTEGER,
pmroHdslNoiseMarginReg84Lt INTEGER,
pmroHdslNoiseMarginReg84Nt INTEGER
}
pmroHdslPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroHdslEntry 1 }
pmroHdslLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroHdslEntry 2 }
pmroHdslAttenuation1 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of HDSL Path 1 at the local device
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 3 }
pmroHdslAttenuation2 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of HDSL Path 2 at the local device
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 4 }
pmroHdslNoiseMargin1 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 1 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 5 }
pmroHdslNoiseMargin2 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 6 }
pmroHdslAttenuationNt1 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 7 }
pmroHdslAttenuationNt2 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 8 }
pmroHdslNoiseMarginNt1 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 9 }
pmroHdslNoiseMarginNt2 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 10 }
pmroHdslAttenuationReg1ALt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 11 }
pmroHdslAttenuationReg1ANt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 12 }
pmroHdslAttenuationReg2ALt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 13 }
pmroHdslAttenuationReg2ANt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 14 }
pmroHdslAttenuationReg1BLt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 15 }
pmroHdslAttenuationReg1BNt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 16 }
pmroHdslAttenuationReg2BLt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 17 }
pmroHdslAttenuationReg2BNt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 18 }
pmroHdslNoiseMarginReg1ALt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 1 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 19 }
pmroHdslNoiseMarginReg1ANt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 20 }
pmroHdslNoiseMarginReg2ALt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 1 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 21 }
pmroHdslNoiseMarginReg2ANt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 22 }
pmroHdslNoiseMarginReg1BLt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 1 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 23 }
pmroHdslNoiseMarginReg1BNt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 24 }
pmroHdslNoiseMarginReg2BLt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 1 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 25 }
pmroHdslNoiseMarginReg2BNt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 26 }
pmroHdslAttenuationReg31Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 27 }
pmroHdslAttenuationReg31Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 28 }
pmroHdslAttenuationReg32Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 29 }
pmroHdslAttenuationReg32Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 30 }
pmroHdslAttenuationReg41Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 31 }
pmroHdslAttenuationReg41Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 32 }
pmroHdslAttenuationReg42Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 33 }
pmroHdslAttenuationReg42Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 34 }
pmroHdslAttenuationReg51Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 35 }
pmroHdslAttenuationReg51Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 36 }
pmroHdslAttenuationReg52Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 37 }
pmroHdslAttenuationReg52Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 38 }
pmroHdslAttenuationReg61Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 39 }
pmroHdslAttenuationReg61Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 40 }
pmroHdslAttenuationReg62Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 41 }
pmroHdslAttenuationReg62Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 42 }
pmroHdslAttenuationReg71Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 43 }
pmroHdslAttenuationReg71Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 44 }
pmroHdslAttenuationReg72Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 45 }
pmroHdslAttenuationReg72Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 46 }
pmroHdslAttenuationReg81Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 47 }
pmroHdslAttenuationReg81Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 48 }
pmroHdslAttenuationReg82Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 49 }
pmroHdslAttenuationReg82Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 50 }
pmroHdslNoiseMarginReg31Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 51 }
pmroHdslNoiseMarginReg31Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 52 }
pmroHdslNoiseMarginReg32Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 53 }
pmroHdslNoiseMarginReg32Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 54 }
pmroHdslNoiseMarginReg41Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 55 }
pmroHdslNoiseMarginReg41Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 56 }
pmroHdslNoiseMarginReg42Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 57 }
pmroHdslNoiseMarginReg42Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 58 }
pmroHdslNoiseMarginReg51Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 59 }
pmroHdslNoiseMarginReg51Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 60 }
pmroHdslNoiseMarginReg52Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 61 }
pmroHdslNoiseMarginReg52Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 62 }
pmroHdslNoiseMarginReg61Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 63 }
pmroHdslNoiseMarginReg61Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 64 }
pmroHdslNoiseMarginReg62Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 65 }
pmroHdslNoiseMarginReg62Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 66 }
pmroHdslNoiseMarginReg71Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 67 }
pmroHdslNoiseMarginReg71Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 68 }
pmroHdslNoiseMarginReg72Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 69 }
pmroHdslNoiseMarginReg72Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 70 }
pmroHdslNoiseMarginReg81Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 71 }
pmroHdslNoiseMarginReg81Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 72 }
pmroHdslNoiseMarginReg82Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 73 }
pmroHdslNoiseMarginReg82Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 2 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 74 }
pmroHdslAttenuation3 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of HDSL Path 3 at the local device
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 75 }
pmroHdslAttenuation4 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of HDSL Path 4 at the local device
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 76 }
pmroHdslAttenuationNt3 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 77 }
pmroHdslAttenuationNt4 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 78 }
pmroHdslAttenuationReg13Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 79 }
pmroHdslAttenuationReg13Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 80 }
pmroHdslAttenuationReg14Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 81 }
pmroHdslAttenuationReg14Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 82 }
pmroHdslAttenuationReg23Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 83 }
pmroHdslAttenuationReg23Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 84 }
pmroHdslAttenuationReg24Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 85 }
pmroHdslAttenuationReg24Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 86 }
pmroHdslAttenuationReg33Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 87 }
pmroHdslAttenuationReg33Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 88 }
pmroHdslAttenuationReg34Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 89 }
pmroHdslAttenuationReg34Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 90 }
pmroHdslAttenuationReg43Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 91 }
pmroHdslAttenuationReg43Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 92 }
pmroHdslAttenuationReg44Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 93 }
pmroHdslAttenuationReg44Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 94 }
pmroHdslAttenuationReg53Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 95 }
pmroHdslAttenuationReg53Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 96 }
pmroHdslAttenuationReg54Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 97 }
pmroHdslAttenuationReg54Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 98 }
pmroHdslAttenuationReg63Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 99 }
pmroHdslAttenuationReg63Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 100 }
pmroHdslAttenuationReg64Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 101 }
pmroHdslAttenuationReg64Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 102 }
pmroHdslAttenuationReg73Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 103 }
pmroHdslAttenuationReg73Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 104 }
pmroHdslAttenuationReg74Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 105 }
pmroHdslAttenuationReg74Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 106 }
pmroHdslAttenuationReg83Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 107 }
pmroHdslAttenuationReg83Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 108 }
pmroHdslAttenuationReg84Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 109 }
pmroHdslAttenuationReg84Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Attenuation of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 110 }
pmroHdslNoiseMargin3 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 3 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 111 }
pmroHdslNoiseMargin4 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of HDSL Path 4 at the local device.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 112 }
pmroHdslNoiseMarginNt3 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 113 }
pmroHdslNoiseMarginNt4 OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 114 }
pmroHdslNoiseMarginReg13Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 115 }
pmroHdslNoiseMarginReg13Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 116 }
pmroHdslNoiseMarginReg14Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 117 }
pmroHdslNoiseMarginReg14Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 118 }
pmroHdslNoiseMarginReg23Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 119 }
pmroHdslNoiseMarginReg23Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 120 }
pmroHdslNoiseMarginReg24Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 121 }
pmroHdslNoiseMarginReg24Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 122 }
pmroHdslNoiseMarginReg33Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 123 }
pmroHdslNoiseMarginReg33Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 124 }
pmroHdslNoiseMarginReg34Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 125 }
pmroHdslNoiseMarginReg34Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 126 }
pmroHdslNoiseMarginReg43Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 127 }
pmroHdslNoiseMarginReg43Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 128 }
pmroHdslNoiseMarginReg44Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 129 }
pmroHdslNoiseMarginReg44Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 130 }
pmroHdslNoiseMarginReg53Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 131 }
pmroHdslNoiseMarginReg53Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 132 }
pmroHdslNoiseMarginReg54Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 133 }
pmroHdslNoiseMarginReg54Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 134 }
pmroHdslNoiseMarginReg63Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 135 }
pmroHdslNoiseMarginReg63Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 136 }
pmroHdslNoiseMarginReg64Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 137 }
pmroHdslNoiseMarginReg64Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 138 }
pmroHdslNoiseMarginReg73Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 139 }
pmroHdslNoiseMarginReg73Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 140 }
pmroHdslNoiseMarginReg74Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 141 }
pmroHdslNoiseMarginReg74Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
0-180 attenuation in steps of 0.5 dB
254 unknown value
255 unsupported variable for addressed device"
::= { pmroHdslEntry 142 }
pmroHdslNoiseMarginReg83Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 143 }
pmroHdslNoiseMarginReg83Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 144 }
pmroHdslNoiseMarginReg84Lt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 145 }
pmroHdslNoiseMarginReg84Nt OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Noise Margin of the line.
The value is coded as a signed byte value
-63..63 noise margin in steps of 0.5 dB
126 unknown value
127 unsupported variable for addressed device"
::= { pmroHdslEntry 146 }
--------------------------------------------------------------------------------
-- PM-RO Performance Values
--------------------------------------------------------------------------------
pmroValueTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 2 }
pmroValueEntry OBJECT-TYPE
SYNTAX PmroValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroValuePortIndex, pmroValueLinkIndex, pmroValueCounterIndex }
::= { pmroValueTable 1 }
PmroValueEntry ::=
SEQUENCE
{
pmroValuePortIndex INTEGER,
pmroValueLinkIndex INTEGER,
pmroValueCounterIndex INTEGER,
pmroCounter OCTET STRING
}
pmroValuePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroValueEntry 1 }
pmroValueLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroValueEntry 2 }
pmroValueCounterIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance counter of a link
and is used as index for the other elements in the Table
CRC-4
1 LT U-Interface
2 NT U-Interface
3 LT T-Interface incoming
4 LT T-Interface outgoing
CRC-6
5 LT Wire pair 1 Direction NT
6 RegA Wire pair 1 Direction LT
7 RegA Wire pair 1 Direction NT
8 NT Wire pair 1 Direction LT
9 LT Wire pair 2 Direction NT
10 RegA Wire pair 2 Direction LT
11 RegA Wire pair 2 Direction NT
12 NT Wire pair 2 Direction LT"
::= { pmroValueEntry 3 }
pmroCounter OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(96))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This octet string contains the performance data of the performance
counter addressed through the index. The performance values are stored
as 4 byte values, MSB first.
They are mapped as follows:
Byte Interval Variable
0..3 Current 15 Minutes Elapsed Time
4..7 Current 15 Minutes Block Errors
8..11 Current 15 Minutes Background Block Errors
12..15 Current 15 Minutes Errored Seconds
16..19 Current 15 Minutes Severely Errored Seconds
20..23 Current 15 Minutes Unavailable Time
24..27 Last 15 Minutes Elapsed Time
28..31 Last 15 Minutes Block Errors
32..35 Last 15 Minutes Background Block Errors
36..39 Last 15 Minutes Errored Seconds
40..43 Last 15 Minutes Severely Errored Seconds
44..47 Last 15 Minutes Unavailable Time
48..51 Current 24 Hours Elapsed Time
52..55 Current 24 Hours Block Errors
56..59 Current 24 Hours Background Block Errors
60..63 Current 24 Hours Errored Seconds
64..67 Current 24 Hours Severely Errored Seconds
68..71 Current 24 Hours Unavailable Time
72..75 Last 24 Hours Elapsed Time
76..79 Last 24 Hours Block Errors
80..83 Last 24 Hours Background Block Errors
84..87 Last 24 Hours Errored Seconds
88..91 Last 24 Hours Severely Errored Seconds
92..95 Last 24 Hours Unavailable Time
The variables have the following ranges:
15 Minute Intervals:
ET, ES, SES, UT 0..900 Seconds
BE, BBE 0..300'000 Errors
24 Hour Intervals
ET, ES, SES, UT 0..86'400 Seconds
BE, BBE 0..28'800'00 Errors
All Variables can contain the following values to indicate
undefined results:
HEX DEC Meaning
0xfffffffd (-3) Disabled (the proxy does not store values for this link)
0xfffffffe (-2) Unsupported variable for addressed device
0xffffffff (-1) Unknown value"
::= { pmroValueEntry 4 }
--------------------------------------------------------------------------------
-- PM-RO STU Performance Values
--------------------------------------------------------------------------------
pmroStuValueTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroStuValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 3 }
pmroStuValueEntry OBJECT-TYPE
SYNTAX PmroStuValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroStuValuePortIndex, pmroStuValueLinkIndex, pmroStuValueCounterIndex, pmroStuValueIntervalIndex }
::= { pmroStuValueTable 1 }
PmroStuValueEntry ::=
SEQUENCE
{
pmroStuValuePortIndex INTEGER,
pmroStuValueLinkIndex INTEGER,
pmroStuValueCounterIndex INTEGER,
pmroStuValueIntervalIndex INTEGER,
pmroStuCounter OCTET STRING
}
pmroStuValuePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroStuValueEntry 1 }
pmroStuValueLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroStuValueEntry 2 }
pmroStuValueCounterIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance counter of a link
and is used as index for the other elements in the Table
CRC-4
1 LT U-Interface
2 NT U-Interface
3 LT V-Interface incoming
4 LT V-Interface outgoing
13 NT T-Interface incoming
14 NT T-Interface outgoing
CRC-6
5 LT Wire pair 1 Direction NT
6 Reg1 Wire pair 1 Direction LT
7 Reg1 Wire pair 1 Direction NT
8 NT Wire pair 1 Direction LT
9 LT Wire pair 2 Direction NT
10 Reg1 Wire pair 2 Direction LT
11 Reg1 Wire pair 2 Direction NT
12 NT Wire pair 2 Direction LT
15 Reg2 Wire pair 1 Direction LT
16 Reg2 Wire pair 1 Direction NT
17 Reg2 Wire pair 2 Direction LT
18 Reg2 Wire pair 2 Direction NT
19 Reg3 Wire pair 1 Direction LT
20 Reg3 Wire pair 1 Direction NT
21 Reg4 Wire pair 1 Direction LT
22 Reg4 Wire pair 1 Direction NT
23 Reg5 Wire pair 1 Direction LT
24 Reg5 Wire pair 1 Direction NT
25 Reg6 Wire pair 1 Direction LT
26 Reg6 Wire pair 1 Direction NT
27 Reg7 Wire pair 1 Direction LT
28 Reg7 Wire pair 1 Direction NT
29 Reg8 Wire pair 1 Direction LT
30 Reg8 Wire pair 1 Direction NT
31 Reg3 Wire pair 2 Direction LT
32 Reg3 Wire pair 2 Direction NT
33 Reg4 Wire pair 2 Direction LT
34 Reg4 Wire pair 2 Direction NT
35 Reg5 Wire pair 2 Direction LT
36 Reg5 Wire pair 2 Direction NT
37 Reg6 Wire pair 2 Direction LT
38 Reg6 Wire pair 2 Direction NT
39 Reg7 Wire pair 2 Direction LT
40 Reg7 Wire pair 2 Direction NT
41 Reg8 Wire pair 2 Direction LT
42 Reg8 Wire pair 2 Direction NT
43 Reg1 Wire pair 3 Direction LT
44 Reg1 Wire pair 3 Direction NT
45 Reg2 Wire pair 3 Direction LT
46 Reg2 Wire pair 3 Direction NT
47 Reg3 Wire pair 3 Direction LT
48 Reg3 Wire pair 3 Direction NT
49 Reg4 Wire pair 3 Direction LT
50 Reg4 Wire pair 3 Direction NT
59 Reg1 Wire pair 4 Direction LT
60 Reg1 Wire pair 4 Direction NT
61 Reg2 Wire pair 4 Direction LT
62 Reg2 Wire pair 4 Direction NT
63 Reg3 Wire pair 4 Direction LT
64 Reg3 Wire pair 4 Direction NT
65 Reg4 Wire pair 4 Direction LT
66 Reg4 Wire pair 4 Direction NT
75 LT Wire pair 3 Direction NT
76 NT Wire pair 3 Direction LT
77 LT Wire pair 4 Direction NT
78 NT Wire pair 4 Direction LT
FAS and BPV
79 FAS-V/T error local
80 BPV-V/T local
81 FAS-T error far
82 BPV-T far
83 V_A CRC4
84 V_A Ebit
85 V_B CRC4
86 V_B Ebit
87 V_C CRC4
88 V_C Ebit
89 V_D CRC4
90 V_D Ebit
91 MCS Ch a LT
92 MCS Ch b LT
93 MCS Ch c LT
94 MCS Ch d LT
96 MCS Ch a NT
97 MCS Ch b NT
98 MCS Ch c NT
99 MCS Ch d NT
101 Far end MCS Ch a NT
102 Far end MCS Ch b NT
103 Far end MCS Ch c NT
104 Far end MCS Ch d NT
106 Far end MCS Ch a LT
107 Far end MCS Ch b LT
108 Far end MCS Ch c LT
109 Far end MCS Ch d LT
113 V_A CRC4 far
114 V_A Ebit far
115 V_B CRC4 far
116 V_B Ebit far
117 V_C CRC4 far
118 V_C Ebit far
119 V_D CRC4 far
120 V_D Ebit far"
::= { pmroStuValueEntry 3 }
pmroStuValueIntervalIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance interval pair of a link
and is used as index for the other elements in the Table
The following values are supported:
Index Interval 1 Interval 2
1 Current Last 1
2 Last 2 Last 3
3 Last 4 Last 5
4 Last 6 Last 7
5 Last 8 Last 9
6 Last 10 Last 11
7 Last 12 Last 13
8 Last 14 Last 15
9 Last 16 Last 17
10 Last 18 Last 19
11 Last 20 Last 21
12 Last 22 Last 23
13 Last 24 Last 25
14 Last 26 Last 27
15 Last 28 Last 29
16 Last 30 Last 31
17 Last 32 unused"
::= { pmroStuValueEntry 4 }
pmroStuCounter OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(96))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This octet string contains the performance data of the performance
counter addressed through the index. The performance values are stored
as 4 byte values, MSB first.
They are mapped as follows:
Byte Interval Variable
0..3 Interval 1 - 15 Minutes Elapsed Time
4..7 Interval 1 - 15 Minutes Block Errors
8..11 Interval 1 - 15 Minutes LOSW Seconds
12..15 Interval 1 - 15 Minutes Errored Seconds
16..19 Interval 1 - 15 Minutes Severely Errored Seconds
20..23 Interval 1 - 15 Minutes Unavailable Time
24..27 Interval 2 - 15 Minutes Elapsed Time
28..31 Interval 2 - 15 Minutes Block Errors
32..35 Interval 2 - 15 Minutes LOSW Seconds
36..39 Interval 2 - 15 Minutes Errored Seconds
40..43 Interval 2 - 15 Minutes Severely Errored Seconds
44..47 Interval 2 - 15 Minutes Unavailable Time
48..51 Interval 1 - 24 Hours Elapsed Time
52..55 Interval 1 - 24 Hours Block Errors
56..59 Interval 1 - 24 Hours LOSW Seconds
60..63 Interval 1 - 24 Hours Errored Seconds
64..67 Interval 1 - 24 Hours Severely Errored Seconds
68..71 Interval 1 - 24 Hours Unavailable Time
72..75 Interval 2 - 24 Hours Elapsed Time
76..79 Interval 2 - 24 Hours Block Errors
80..83 Interval 2 - 24 Hours LOSW Seconds
84..87 Interval 2 - 24 Hours Errored Seconds
88..91 Interval 2 - 24 Hours Severely Errored Seconds
92..95 Interval 2 - 24 Hours Unavailable Time
The variables have the following ranges:
15 Minute Intervals:
ET, ES, SES, LOSWS, UT 0..900 Seconds
BE 0..300'000 Errors
24 Hour Intervals
ET, ES, SES, LOSWS, UT 0..86'400 Seconds
BE 0..28'800'00 Errors
All Variables can contain the following values to indicate
undefined results:
HEX DEC Meaning
0xfffffffd (-3) Disabled (the proxy does not store values for this link)
0xfffffffe (-2) Unsupported variable for addressed device
0xffffffff (-1) Unknown value"
::= { pmroStuValueEntry 5 }
--------------------------------------------------------------------------------
-- PM-RO 15 min Dummy Performance Variables for APC
--------------------------------------------------------------------------------
pmroApc15Table OBJECT-TYPE
SYNTAX SEQUENCE OF PmroApc15Entry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 4 }
pmroApc15Entry OBJECT-TYPE
SYNTAX PmroApc15Entry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroApc15PortIndex, pmroApc15LinkIndex, pmroApc15CounterIndex }
::= { pmroApc15Table 1 }
PmroApc15Entry ::=
SEQUENCE
{
pmroApc15PortIndex INTEGER,
pmroApc15LinkIndex INTEGER,
pmroApc15CounterIndex INTEGER,
pmroApc15BlockErrors INTEGER,
pmroApc15BackgroundBlockErrors INTEGER,
pmroApc15ErroredSeconds INTEGER,
pmroApc15SeverelyErroredSeconds INTEGER,
pmroApc15UnavailableTime INTEGER
}
pmroApc15PortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroApc15Entry 1 }
pmroApc15LinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroApc15Entry 2 }
pmroApc15CounterIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance counter of a link
and is used as index for the other elements in the Table"
::= { pmroApc15Entry 3 }
pmroApc15BlockErrors OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc15Entry 4 }
pmroApc15BackgroundBlockErrors OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc15Entry 5 }
pmroApc15ErroredSeconds OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc15Entry 6 }
pmroApc15SeverelyErroredSeconds OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc15Entry 7 }
pmroApc15UnavailableTime OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc15Entry 8 }
--------------------------------------------------------------------------------
-- PM-RO 24 hour Dummy Performance Variables for APC
--------------------------------------------------------------------------------
pmroApc24Table OBJECT-TYPE
SYNTAX SEQUENCE OF PmroApc24Entry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 5 }
pmroApc24Entry OBJECT-TYPE
SYNTAX PmroApc24Entry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroApc24PortIndex, pmroApc24LinkIndex, pmroApc24CounterIndex }
::= { pmroApc24Table 1 }
PmroApc24Entry ::=
SEQUENCE
{
pmroApc24PortIndex INTEGER,
pmroApc24LinkIndex INTEGER,
pmroApc24CounterIndex INTEGER,
pmroApc24BlockErrors INTEGER,
pmroApc24BackgroundBlockErrors INTEGER,
pmroApc24ErroredSeconds INTEGER,
pmroApc24SeverelyErroredSeconds INTEGER,
pmroApc24UnavailableTime INTEGER
}
pmroApc24PortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroApc24Entry 1 }
pmroApc24LinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroApc24Entry 2 }
pmroApc24CounterIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance counter of a link
and is used as index for the other elements in the Table"
::= { pmroApc24Entry 3 }
pmroApc24BlockErrors OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc24Entry 4 }
pmroApc24BackgroundBlockErrors OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc24Entry 5 }
pmroApc24ErroredSeconds OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc24Entry 6 }
pmroApc24SeverelyErroredSeconds OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc24Entry 7 }
pmroApc24UnavailableTime OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is an unused dummy variable which is used by the Automatic
Performance Collection (APC) and does not exist on the proxy
which means that it will never be answered."
::= { pmroApc24Entry 8 }
--------------------------------------------------------------------------------
-- PM-RO Bit Error Ration Measurement
--------------------------------------------------------------------------------
pmroBerTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroBerEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 6 }
pmroBerEntry OBJECT-TYPE
SYNTAX PmroBerEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroBerPortIndex, pmroBerLinkIndex }
::= { pmroBerTable 1 }
PmroBerEntry ::=
SEQUENCE
{
pmroBerPortIndex INTEGER,
pmroBerLinkIndex INTEGER,
pmroBerStatus INTEGER,
pmroBerInterval INTEGER,
pmroBerElapsedTime INTEGER,
pmroBerSynchLoss INTEGER,
pmroBerNumErrs INTEGER,
pmroBerErrorFreeSeconds INTEGER,
pmroBerResultMcsChannelA INTEGER,
pmroBerResultMcsChannelB INTEGER,
pmroBerResultMcsChannelC INTEGER,
pmroBerResultMcsChannelD INTEGER
}
pmroBerPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroBerEntry 1 }
pmroBerLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroBerEntry 2 }
pmroBerStatus OBJECT-TYPE
SYNTAX INTEGER
{
done(1),
running(2),
search(3),
failed(4),
abort(5),
norun(6),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of Bit Error Ration measurement
1 Measurement is finished
2 Measurement is still in progress
3 Measurement is still trying to find synchronisation
4 Measurement failed to find synchronisation
5 Measurement has been (aborted)
6 Measurement has not yet been started
254 Unknown value
255 Unsupported variable for addressed device"
::= { pmroBerEntry 3 }
pmroBerInterval OBJECT-TYPE
SYNTAX INTEGER
{
oneMin(2),
tenMin(3),
oneHour(4),
oneDay(5),
oneMinDirV(6),
tenMinDirV(7),
oneHourDirV(8),
oneDayDirV(9),
oneMinRoundTrip(10),
tenMinRoundTrip(11),
oneHourRoundTrip(12),
oneDayRoundTrip(13),
oneMinMCS(14),
tenMinMCS(15),
oneHourMCS(16),
oneDayMCS(17),
oneMinData(18),
tenMinData(19),
oneHourData(20),
oneDayData(21),
oneMinMCSLocal(22),
tenMinMCSLocal(23),
oneHourMCSLocal(24),
oneDayMCSLocal(25),
oneMinG703If(26),
tenMinG703If(27),
oneHourG703If(28),
oneDayG703If(29),
oneMinDataIf(30),
tenMinDataIf(31),
oneHourDataIf(32),
oneDayDataIf(33),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The interval of the current or last measurement
2 OneMin The measurement duration is/was 1 minute
3 TenMin The measurement duration is/was 10 minutes
4 OneHour The measurement duration is/was 1 hour
5 OneDay The measurement duration is/was 24 hours
6 OneMinDirV The measurement duration is/was 1 minute (direction V)
7 TenMinDirV The measurement duration is/was 10 minutes (direction V)
8 OneHourDirV The measurement duration is/was 1 hour (direction V)
9 OneDayDirV The measurement duration is/was 24 hours (direction V)
10 OneMinRoundTrip The measurement duration is/was 1 minute (round trip)
11 TenMinRoundTrip The measurement duration is/was 10 minutes (round trip)
12 OneHourRoundTrip The measurement duration is/was 1 hour (round trip)
13 OneDayRoundTrip The measurement duration is/was 24 hours (round trip)
14 OneMinMCS The measurement duration is/was 1 minute (MCS)
15 TenMinMCS The measurement duration is/was 10 minutes (MCS)
16 OneHourMCS The measurement duration is/was 1 hour (MCS)
17 OneDayMCS The measurement duration is/was 24 hours (MCS)
18 OneMinData The measurement duration is/was 1 minute (Data)
19 TenMinData The measurement duration is/was 10 minutes (Data)
20 OneHourData The measurement duration is/was 1 hour (Data)
21 OneDayData The measurement duration is/was 24 hours (Data)
22 OneMinMCSLocal The measurement duration is/was 1 minute (MCSLocal)
23 TenMinMCSLocal The measurement duration is/was 10 minutes (MCSLocal)
24 OneHourMCSLocal The measurement duration is/was 1 hour (MCSLocal)
25 OneDayMCSLocal The measurement duration is/was 24 hours (MCSLocal)
26 OneMinG703If The measurement duration is/was 1 minute (G.703 Interface)
27 TenMinG703If The measurement duration is/was 10 minutes (G.703 Interface)
28 OneHourG703If The measurement duration is/was 1 hour (G.703 Interface)
29 OneDayG703If The measurement duration is/was 24 hours (G.703 Interface)
30 OneMinDataIf The measurement duration is/was 1 minute (Data Interface)
31 TenMinDataIf The measurement duration is/was 10 minutes (Data Interface)
32 OneHourDataIf The measurement duration is/was 1 hour (Data Interface)
33 OneDayDataIf The measurement duration is/was 24 hours (Data Interface)
254 Unknown value
255 Unsupported variable for addressed device"
::= { pmroBerEntry 4 }
pmroBerElapsedTime OBJECT-TYPE
SYNTAX INTEGER (0..'ffffffff'h)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Elapsed time of measurement. During synchronisation (pmroBerStatus=search) this
indicates how long the device has been searching for synchronistation. Once
synchronisation has been found (pmroBerStatus=running), this indicates how long
the measurement has been running.
0..86'400 Elapsed time in seconds
0xfffffffe Unknown value
0xffffffff Unsupported variable for addressed device"
::= { pmroBerEntry 5 }
pmroBerSynchLoss OBJECT-TYPE
SYNTAX INTEGER (0..'ffffffff'h)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Time without synchronisation. During synchronisation (pmroBerStatus=search) this
indicates how long the device has been searching for synchronistation and corresponds
to pmroBerElapsedTime. Once synchronisation has been found (pmroBerStatus=running),
this indicates how many seconds during the measurement synchronisation has been
(temporarily) lost.
0..86'40000 Number of seconds without synchronisation
0xfffffffe Unknown value
0xffffffff Unsupported variable for addressed device"
::= { pmroBerEntry 6 }
pmroBerNumErrs OBJECT-TYPE
SYNTAX INTEGER (0..'ffffffff'h)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Number of bit errors which occurred during the Bit Error Ratio measurement
0..4'294'967'292 Effective number of errors
0xfffffffd More than 4'294'967'292 errors
0xfffffffe Unknown value
0xffffffff Unsupported variable for addressed device"
::= { pmroBerEntry 7 }
pmroBerErrorFreeSeconds OBJECT-TYPE
SYNTAX INTEGER (0..'ffffffff'h)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Number of error free seconds during the measurement. This can be used to determine
whether errors are 'bursty', i.e. occurring only during a short period of time (when
the number of error free seconds is close to the elapsed time) or continuous (when
the number of error free seconds is low).
0..86'400 Error free seconds during measurement
0xfffffffe Unknown value
0xffffffff Unsupported variable for addressed device"
::= { pmroBerEntry 8 }
pmroBerResultMcsChannelA OBJECT-TYPE
SYNTAX INTEGER
{
notOK(1),
ok(2),
noPattern(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"BER test result for MCS channel a:
1 Test was error free on this MCS channel
2 Test showed errors on this MCS channel
3 No pattern on this MCS channel found while test
254 Unknown value
255 Unsupported variable for addressed device"
::= { pmroBerEntry 9 }
pmroBerResultMcsChannelB OBJECT-TYPE
SYNTAX INTEGER
{
notOK(1),
ok(2),
noPattern(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"BER test result for MCS channel b:
1 Test was error free on this MCS channel
2 Test showed errors on this MCS channel
3 No pattern on this MCS channel found while test
254 Unknown value
255 Unsupported variable for addressed device"
::= { pmroBerEntry 10 }
pmroBerResultMcsChannelC OBJECT-TYPE
SYNTAX INTEGER
{
notOK(1),
ok(2),
noPattern(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"BER test result for MCS channel c:
1 Test was error free on this MCS channel
2 Test showed errors on this MCS channel
3 No pattern on this MCS channel found while test
254 Unknown value
255 Unsupported variable for addressed device"
::= { pmroBerEntry 11 }
pmroBerResultMcsChannelD OBJECT-TYPE
SYNTAX INTEGER
{
notOK(1),
ok(2),
noPattern(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"BER test result for MCS channel d:
1 Test was error free on this MCS channel
2 Test showed errors on this MCS channel
3 No pattern on this MCS channel found while test
254 Unknown value
255 Unsupported variable for addressed device"
::= { pmroBerEntry 12 }
--------------------------------------------------------------------------------
-- PM-RO Line Probing
--------------------------------------------------------------------------------
pmroLineProbeTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroLineProbeEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 7 }
pmroLineProbeEntry OBJECT-TYPE
SYNTAX PmroLineProbeEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroLineProbePortIndex, pmroLineProbeLinkIndex }
::= { pmroLineProbeTable 1 }
PmroLineProbeEntry ::=
SEQUENCE
{
pmroLineProbePortIndex INTEGER,
pmroLineProbeLinkIndex INTEGER,
pmroLineProbeStatus INTEGER,
pmroLineProbeBandwidthMask OCTET STRING,
pmroLineProbeSNRMargin OCTET STRING,
pmroLineProbeSNRMarginWire2 OCTET STRING,
pmroLineProbeSNRMarginWire3 OCTET STRING,
pmroLineProbeSNRMarginWire4 OCTET STRING
}
pmroLineProbePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroLineProbeEntry 1 }
pmroLineProbeLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroLineProbeEntry 2 }
pmroLineProbeStatus OBJECT-TYPE
SYNTAX INTEGER
{
done(1),
running(2),
failed(3),
abort(4),
norun(5),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"State of Line Probing
1 Done Probing is finished
2 Running Probing is still in progress
3 Failed Probing failed
4 Abort Probing has been aborted
5 Norun Probing has never been started
254 Unknown value
255 Unsupported variable for addressed device"
::= { pmroLineProbeEntry 3 }
pmroLineProbeBandwidthMask OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(6))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Bandwidths used for line probing
Bandwidth
Byte 0
bit 0 reserved
bit 1 reserved
bit 2 192 kbit/s
bit 3 256 kbit/s
bit 4 320 kbit/s
bit 5 384 kbit/s
bit 6 448 kbit/s
bit 7 512 kbit/s
Byte 1
bit 0 576 kbit/s
bit 1 640 kbit/s
bit 2 704 kbit/s
bit 3 768 kbit/s
bit 4 832 kbit/s
bit 5 896 kbit/s
bit 6 960 kbit/s
bit 7 1024 kbit/s
Byte 2
bit 0 1088 kbit/s
bit 1 1152 kbit/s
bit 2 1216 kbit/s
bit 3 1280 kbit/s
bit 4 1344 kbit/s
bit 5 1408 kbit/s
bit 6 1472 kbit/s
bit 7 1536 kbit/s
Byte 3
bit 0 1600 kbit/s
bit 1 1664 kbit/s
bit 2 1728 kbit/s
bit 3 1792 kbit/s
bit 4 1856 kbit/s
bit 5 1920 kbit/s
bit 6 1984 kbit/s
bit 7 2048 kbit/s
Byte 4
bit 0 2112 kbit/s
bit 1 2176 kbit/s
bit 2 2240 kbit/s
bit 3 2304 kbit/s
bit 4 unused
bit 5 unused
bit 6 unused
bit 7 unused
Byte 5 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { pmroLineProbeEntry 4 }
pmroLineProbeSNRMargin OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(36))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Each byte contains as result of the line probe the SNR margin
for the bandwidth corresponding to the byte number
The value for each byte is coded as follows:
-127..+127 SNR margin in dB
-128 Unknown value"
::= { pmroLineProbeEntry 5 }
pmroLineProbeSNRMarginWire2 OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(36))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Each byte contains as result of the line probe the SNR margin
for the bandwidth corresponding to the byte number
The value for each byte is coded as follows:
-127..+127 SNR margin in dB
-128 Unknown value"
::= { pmroLineProbeEntry 6 }
pmroLineProbeSNRMarginWire3 OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(36))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Each byte contains as result of the line probe the SNR margin
for the bandwidth corresponding to the byte number
The value for each byte is coded as follows:
-127..+127 SNR margin in dB
-128 Unknown value"
::= { pmroLineProbeEntry 7 }
pmroLineProbeSNRMarginWire4 OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(36))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Each byte contains as result of the line probe the SNR margin
for the bandwidth corresponding to the byte number
The value for each byte is coded as follows:
-127..+127 SNR margin in dB
-128 Unknown value"
::= { pmroLineProbeEntry 8 }
--------------------------------------------------------------------------------
-- PM-RO Local L2Switch Values
--------------------------------------------------------------------------------
pmroLocalL2SwitchValueTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroLocalL2SwitchValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 8 }
pmroLocalL2SwitchValueEntry OBJECT-TYPE
SYNTAX PmroLocalL2SwitchValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroLocalL2SwitchValuePortIndex, pmroLocalL2SwitchValueLinkIndex, pmroLocalL2SwitchValueCounterIndex }
::= { pmroLocalL2SwitchValueTable 1 }
PmroLocalL2SwitchValueEntry ::=
SEQUENCE
{
pmroLocalL2SwitchValuePortIndex INTEGER,
pmroLocalL2SwitchValueLinkIndex INTEGER,
pmroLocalL2SwitchValueCounterIndex INTEGER,
pmroLocalL2SwitchRxCounter INTEGER,
pmroLocalL2SwitchTxCounter INTEGER,
pmroLocalL2SwitchErrCounter INTEGER
}
pmroLocalL2SwitchValuePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroLocalL2SwitchValueEntry 1 }
pmroLocalL2SwitchValueLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroLocalL2SwitchValueEntry 2 }
pmroLocalL2SwitchValueCounterIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance counter of a link
and is used as index for the other elements in the Table
1 WAN Port
2 LAN Port 1
3 LAN Port 2
4 LAN Port 3
5 LAN Port 4"
::= { pmroLocalL2SwitchValueEntry 3 }
pmroLocalL2SwitchRxCounter OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This value indicates the number of Rx packets / frames on a
L2Switch port, depending on the type of port:
WAN Port Number of Frames
LAN Port x Number of Packets
The counters count as far as the decimal equivalend of
0xfffffffd and then roll over to 0.
0xfffffffe Unsupported value
0xffffffff Unknown value"
::= { pmroLocalL2SwitchValueEntry 4 }
pmroLocalL2SwitchTxCounter OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This value indicates the number of Tx packets / frames on a
L2Switch port, depending on the type of port:
WAN Port Number of Frames
LAN Port x Number of Packets
The counters count as far as the decimal equivalend of
0xfffffffd and then roll over to 0.
0xfffffffe Unsupported value
0xffffffff Unknown value"
::= { pmroLocalL2SwitchValueEntry 5 }
pmroLocalL2SwitchErrCounter OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This value indicates the number of errored packets / frames on a
L2Switch port, depending on the type of port:
WAN Port Number of Frames
LAN Port x Number of Packets
The counters count as far as the decimal equivalend of
0xfffffffd and then roll over to 0.
0xfffffffe Unsupported value
0xffffffff Unknown value"
::= { pmroLocalL2SwitchValueEntry 6 }
--------------------------------------------------------------------------------
-- PM-RO Far L2Switch Values
--------------------------------------------------------------------------------
pmroFarL2SwitchValueTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroFarL2SwitchValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 9 }
pmroFarL2SwitchValueEntry OBJECT-TYPE
SYNTAX PmroFarL2SwitchValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroFarL2SwitchValuePortIndex, pmroFarL2SwitchValueLinkIndex, pmroFarL2SwitchValueCounterIndex }
::= { pmroFarL2SwitchValueTable 1 }
PmroFarL2SwitchValueEntry ::=
SEQUENCE
{
pmroFarL2SwitchValuePortIndex INTEGER,
pmroFarL2SwitchValueLinkIndex INTEGER,
pmroFarL2SwitchValueCounterIndex INTEGER,
pmroFarL2SwitchRxCounter INTEGER,
pmroFarL2SwitchTxCounter INTEGER,
pmroFarL2SwitchErrCounter INTEGER
}
pmroFarL2SwitchValuePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroFarL2SwitchValueEntry 1 }
pmroFarL2SwitchValueLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroFarL2SwitchValueEntry 2 }
pmroFarL2SwitchValueCounterIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the performance counter of a link
and is used as index for the other elements in the Table
1 WAN Port
2 LAN Port 1
3 LAN Port 2
4 LAN Port 3
5 LAN Port 4"
::= { pmroFarL2SwitchValueEntry 3 }
pmroFarL2SwitchRxCounter OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This value indicates the number of Rx packets / frames on a
L2Switch port, depending on the type of port:
WAN Port Number of Frames
LAN Port x Number of Packets
The counters count as far as the decimal equivalend of
0xfffffffd and then roll over to 0.
0xfffffffe Unsupported value
0xffffffff Unknown value"
::= { pmroFarL2SwitchValueEntry 4 }
pmroFarL2SwitchTxCounter OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This value indicates the number of Tx packets / frames on a
L2Switch port, depending on the type of port:
WAN Port Number of Frames
LAN Port x Number of Packets
The counters count as far as the decimal equivalend of
0xfffffffd and then roll over to 0.
0xfffffffe Unsupported value
0xffffffff Unknown value"
::= { pmroFarL2SwitchValueEntry 5 }
pmroFarL2SwitchErrCounter OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This value indicates the number of errored packets / frames on a
L2Switch port, depending on the type of port:
WAN Port Number of Frames
LAN Port x Number of Packets
The counters count as far as the decimal equivalend of
0xfffffffd and then roll over to 0.
0xfffffffe Unsupported value
0xffffffff Unknown value"
::= { pmroFarL2SwitchValueEntry 6 }
--------------------------------------------------------------------------------
-- PM-RO PBO Current Value
--------------------------------------------------------------------------------
pmroPBOCurrentValueTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmroPBOCurrentValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmro 10 }
pmroPBOCurrentValueEntry OBJECT-TYPE
SYNTAX PmroPBOCurrentValueEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmroPBOCurrentValuePortIndex, pmroPBOCurrentValueLinkIndex }
::= { pmroPBOCurrentValueTable 1 }
PmroPBOCurrentValueEntry ::=
SEQUENCE
{
pmroPBOCurrentValuePortIndex INTEGER,
pmroPBOCurrentValueLinkIndex INTEGER,
pmroPBOCurrentValueLtWp1 INTEGER,
pmroPBOCurrentValueLtWp2 INTEGER,
pmroPBOCurrentValueNtWp1 INTEGER,
pmroPBOCurrentValueNtWp2 INTEGER,
pmroPBOCurrentValueReg1Wp1DirLt INTEGER,
pmroPBOCurrentValueReg1Wp1DirNt INTEGER,
pmroPBOCurrentValueReg1Wp2DirLt INTEGER,
pmroPBOCurrentValueReg1Wp2DirNt INTEGER,
pmroPBOCurrentValueReg2Wp1DirLt INTEGER,
pmroPBOCurrentValueReg2Wp1DirNt INTEGER,
pmroPBOCurrentValueReg2Wp2DirLt INTEGER,
pmroPBOCurrentValueReg2Wp2DirNt INTEGER,
pmroPBOCurrentValueReg3Wp1DirLt INTEGER,
pmroPBOCurrentValueReg3Wp1DirNt INTEGER,
pmroPBOCurrentValueReg3Wp2DirLt INTEGER,
pmroPBOCurrentValueReg3Wp2DirNt INTEGER,
pmroPBOCurrentValueReg4Wp1DirLt INTEGER,
pmroPBOCurrentValueReg4Wp1DirNt INTEGER,
pmroPBOCurrentValueReg4Wp2DirLt INTEGER,
pmroPBOCurrentValueReg4Wp2DirNt INTEGER,
pmroPBOCurrentValueReg5Wp1DirLt INTEGER,
pmroPBOCurrentValueReg5Wp1DirNt INTEGER,
pmroPBOCurrentValueReg5Wp2DirLt INTEGER,
pmroPBOCurrentValueReg5Wp2DirNt INTEGER,
pmroPBOCurrentValueReg6Wp1DirLt INTEGER,
pmroPBOCurrentValueReg6Wp1DirNt INTEGER,
pmroPBOCurrentValueReg6Wp2DirLt INTEGER,
pmroPBOCurrentValueReg6Wp2DirNt INTEGER,
pmroPBOCurrentValueReg7Wp1DirLt INTEGER,
pmroPBOCurrentValueReg7Wp1DirNt INTEGER,
pmroPBOCurrentValueReg7Wp2DirLt INTEGER,
pmroPBOCurrentValueReg7Wp2DirNt INTEGER,
pmroPBOCurrentValueReg8Wp1DirLt INTEGER,
pmroPBOCurrentValueReg8Wp1DirNt INTEGER,
pmroPBOCurrentValueReg8Wp2DirLt INTEGER,
pmroPBOCurrentValueReg8Wp2DirNt INTEGER,
pmroPBOCurrentValueLtWp3 INTEGER,
pmroPBOCurrentValueLtWp4 INTEGER,
pmroPBOCurrentValueNtWp3 INTEGER,
pmroPBOCurrentValueNtWp4 INTEGER,
pmroPBOCurrentValueReg1Wp3DirLt INTEGER,
pmroPBOCurrentValueReg1Wp3DirNt INTEGER,
pmroPBOCurrentValueReg1Wp4DirLt INTEGER,
pmroPBOCurrentValueReg1Wp4DirNt INTEGER,
pmroPBOCurrentValueReg2Wp3DirLt INTEGER,
pmroPBOCurrentValueReg2Wp3DirNt INTEGER,
pmroPBOCurrentValueReg2Wp4DirLt INTEGER,
pmroPBOCurrentValueReg2Wp4DirNt INTEGER,
pmroPBOCurrentValueReg3Wp3DirLt INTEGER,
pmroPBOCurrentValueReg3Wp3DirNt INTEGER,
pmroPBOCurrentValueReg3Wp4DirLt INTEGER,
pmroPBOCurrentValueReg3Wp4DirNt INTEGER,
pmroPBOCurrentValueReg4Wp3DirLt INTEGER,
pmroPBOCurrentValueReg4Wp3DirNt INTEGER,
pmroPBOCurrentValueReg4Wp4DirLt INTEGER,
pmroPBOCurrentValueReg4Wp4DirNt INTEGER,
pmroPBOCurrentValueReg5Wp3DirLt INTEGER,
pmroPBOCurrentValueReg5Wp3DirNt INTEGER,
pmroPBOCurrentValueReg5Wp4DirLt INTEGER,
pmroPBOCurrentValueReg5Wp4DirNt INTEGER,
pmroPBOCurrentValueReg6Wp3DirLt INTEGER,
pmroPBOCurrentValueReg6Wp3DirNt INTEGER,
pmroPBOCurrentValueReg6Wp4DirLt INTEGER,
pmroPBOCurrentValueReg6Wp4DirNt INTEGER,
pmroPBOCurrentValueReg7Wp3DirLt INTEGER,
pmroPBOCurrentValueReg7Wp3DirNt INTEGER,
pmroPBOCurrentValueReg7Wp4DirLt INTEGER,
pmroPBOCurrentValueReg7Wp4DirNt INTEGER,
pmroPBOCurrentValueReg8Wp3DirLt INTEGER,
pmroPBOCurrentValueReg8Wp3DirNt INTEGER,
pmroPBOCurrentValueReg8Wp4DirLt INTEGER,
pmroPBOCurrentValueReg8Wp4DirNt INTEGER
}
pmroPBOCurrentValuePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmroPBOCurrentValueEntry 1 }
pmroPBOCurrentValueLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmroPBOCurrentValueEntry 2 }
pmroPBOCurrentValueLtWp1 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for LT, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 3 }
pmroPBOCurrentValueLtWp2 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for LT, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 4 }
pmroPBOCurrentValueNtWp1 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for NT, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 5 }
pmroPBOCurrentValueNtWp2 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for NT, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 6 }
pmroPBOCurrentValueReg1Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 7 }
pmroPBOCurrentValueReg1Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 8 }
pmroPBOCurrentValueReg1Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 9 }
pmroPBOCurrentValueReg1Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 10 }
pmroPBOCurrentValueReg2Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 11 }
pmroPBOCurrentValueReg2Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 12 }
pmroPBOCurrentValueReg2Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 13 }
pmroPBOCurrentValueReg2Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 14 }
pmroPBOCurrentValueReg3Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 15 }
pmroPBOCurrentValueReg3Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 16 }
pmroPBOCurrentValueReg3Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 17 }
pmroPBOCurrentValueReg3Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 18 }
pmroPBOCurrentValueReg4Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 19 }
pmroPBOCurrentValueReg4Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 20 }
pmroPBOCurrentValueReg4Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 21 }
pmroPBOCurrentValueReg4Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 22 }
pmroPBOCurrentValueReg5Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 23 }
pmroPBOCurrentValueReg5Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 24 }
pmroPBOCurrentValueReg5Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 25 }
pmroPBOCurrentValueReg5Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 26 }
pmroPBOCurrentValueReg6Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 27 }
pmroPBOCurrentValueReg6Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 28 }
pmroPBOCurrentValueReg6Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 29 }
pmroPBOCurrentValueReg6Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 30 }
pmroPBOCurrentValueReg7Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 31 }
pmroPBOCurrentValueReg7Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 32 }
pmroPBOCurrentValueReg7Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 33 }
pmroPBOCurrentValueReg7Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 34 }
pmroPBOCurrentValueReg8Wp1DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 1, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 35 }
pmroPBOCurrentValueReg8Wp1DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 1, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 36 }
pmroPBOCurrentValueReg8Wp2DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 2, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 37 }
pmroPBOCurrentValueReg8Wp2DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 2, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 38 }
pmroPBOCurrentValueLtWp3 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for LT, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 39 }
pmroPBOCurrentValueLtWp4 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for LT, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 40 }
pmroPBOCurrentValueNtWp3 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for NT, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 41 }
pmroPBOCurrentValueNtWp4 OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for NT, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 42 }
pmroPBOCurrentValueReg1Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 43 }
pmroPBOCurrentValueReg1Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 44 }
pmroPBOCurrentValueReg1Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 45 }
pmroPBOCurrentValueReg1Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg1, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 46 }
pmroPBOCurrentValueReg2Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 47 }
pmroPBOCurrentValueReg2Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 48 }
pmroPBOCurrentValueReg2Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 49 }
pmroPBOCurrentValueReg2Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg2, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 50 }
pmroPBOCurrentValueReg3Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 51 }
pmroPBOCurrentValueReg3Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 52 }
pmroPBOCurrentValueReg3Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 53 }
pmroPBOCurrentValueReg3Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg3, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 54 }
pmroPBOCurrentValueReg4Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 55 }
pmroPBOCurrentValueReg4Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 56 }
pmroPBOCurrentValueReg4Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 57 }
pmroPBOCurrentValueReg4Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg4, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 58 }
pmroPBOCurrentValueReg5Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 59 }
pmroPBOCurrentValueReg5Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 60 }
pmroPBOCurrentValueReg5Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 61 }
pmroPBOCurrentValueReg5Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg5, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 62 }
pmroPBOCurrentValueReg6Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 63 }
pmroPBOCurrentValueReg6Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 64 }
pmroPBOCurrentValueReg6Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 65 }
pmroPBOCurrentValueReg6Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg6, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 66 }
pmroPBOCurrentValueReg7Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 67 }
pmroPBOCurrentValueReg7Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 68 }
pmroPBOCurrentValueReg7Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 69 }
pmroPBOCurrentValueReg7Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg7, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 70 }
pmroPBOCurrentValueReg8Wp3DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 3, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 71 }
pmroPBOCurrentValueReg8Wp3DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 3, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 72 }
pmroPBOCurrentValueReg8Wp4DirLt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 4, Direction LT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 73 }
pmroPBOCurrentValueReg8Wp4DirNt OBJECT-TYPE
SYNTAX INTEGER
{
db0(1), db1(2), db2(3), db3(4), db4(5), db5(6), db6(7), db7(8), db8(9), db9(10), db10(11), db11(12), db12(13), db13(14), db14(15), db15(16),
db16(17), db17(18), db18(19), db19(20), db20(21), db21(22), db22(23), db23(24), db24(25), db25(26), db26(27), db27(28), db28(29), db29(30), db30(31), db31(32),
dbMin1(130), dbMin2(131), dbMin3(132), dbMin4(133),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current PowerBackOff value for Reg8, Wire pair 4, Direction NT
1..32 Db0..Db31 Current PBO value
130..133 DbMin1..DbMin4 Current PBO value (negative, Power Boost).
254 unknown value
255 unsupported variable for addressed device
"
::= { pmroPBOCurrentValueEntry 74 }
--==============================================================================
--==============================================================================
--
-- PM-RW
--
--==============================================================================
--==============================================================================
pmrw OBJECT IDENTIFIER ::= { linksVers3 6 }
--------------------------------------------------------------------------------
-- PM-RW PM Reset and BER Measurement Starting
--------------------------------------------------------------------------------
pmrwActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF PmrwActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { pmrw 1 }
pmrwActionEntry OBJECT-TYPE
SYNTAX PmrwActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { pmrwActionPortIndex, pmrwActionLinkIndex }
::= { pmrwActionTable 1 }
PmrwActionEntry ::=
SEQUENCE
{
pmrwActionPortIndex INTEGER,
pmrwActionLinkIndex INTEGER,
pmrwActionResetPM INTEGER,
pmrwActionBerStart INTEGER,
pmrwActionProbingStart OCTET STRING,
pmrwActionResetPMPacket INTEGER
}
pmrwActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { pmrwActionEntry 1 }
pmrwActionLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { pmrwActionEntry 2 }
pmrwActionResetPM OBJECT-TYPE
SYNTAX INTEGER
{
reset(1),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a write-only variable which is used to reset
all currently running CRC-based performance counters
and starts a new measurement interval.
This command resets all 15 minute and 24 hour counters
for all current counters and the stored last interval.
The only legal parameter is 'reset(1)'."
::= { pmrwActionEntry 3 }
pmrwActionBerStart OBJECT-TYPE
SYNTAX INTEGER
{
abort(1),
oneMin(2),
tenMin(3),
oneHour(4),
oneDay(5),
oneMinDirV(6),
tenMinDirV(7),
oneHourDirV(8),
oneDayDirV(9),
oneMinRoundTrip(10),
tenMinRoundTrip(11),
oneHourRoundTrip(12),
oneDayRoundTrip(13),
oneMinMcs(14),
tenMinMcs(15),
oneHourMcs(16),
oneDayMcs(17),
oneMinData(18),
tenMinData(19),
oneHourData(20),
oneDayData(21),
oneMinMcsLocal(22),
tenMinMcsLocal(23),
oneHourMcsLocal(24),
oneDayMcsLocal(25),
oneMinG703If(26),
tenMinG703If(27),
oneHourG703If(28),
oneDayG703If(29),
oneMinDataIf(30),
tenMinDataIf(31),
oneHourDataIf(32),
oneDayDataIf(33),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a write-only variable which is used to start (and
stop) the Bit Error Ration measurement.
1 Abort Stop a running BER measurement
2 OneMin Start a BER measurement for the duration of 1 minute
3 TenMin Start a BER measurement for the duration of 10 minutes
4 OneHour Start a BER measurement for the duration of 1 hour
5 OneDay Start a BER measurement for the duration of 24 hours
6 OneMinDirV Start a BER measurement duration is/was 1 minute (direction V)
7 TenMinDirV Start a BER measurement duration is/was 10 minutes (direction V)
8 OneHourDirV Start a BER measurement duration is/was 1 hour (direction V)
9 OneDayDirV Start a BER measurement duration is/was 24 hours (direction V)
10 OneMinRoundTrip Start a BER measurement duration is/was 1 minute (round trip)
11 TenMinRoundTrip Start a BER measurement duration is/was 10 minutes (round trip)
12 OneHourRoundTrip Start a BER measurement duration is/was 1 hour (round trip)
13 OneDayRoundTrip Start a BER measurement duration is/was 24 hours (round trip)
14 OneMinMcs Start a BER measurement duration is/was 1 minute (MCS)
15 TenMinMcs Start a BER measurement duration is/was 10 minutes (MCS)
16 OneHourMcs Start a BER measurement duration is/was 1 hour (MCS)
17 OneDayMcs Start a BER measurement duration is/was 24 hours (MCS)
18 OneMinData Start a BER measurement duration is/was 1 minute (U side Data, var speed)
19 TenMinData Start a BER measurement duration is/was 10 minutes (U side Data, var speed)
20 OneHourData Start a BER measurement duration is/was 1 hour (U side Data, var speed)
21 OneDayData Start a BER measurement duration is/was 24 hours (U side Data, var speed)
22 OneMinMcsLocal Start a BER measurement duration is/was 1 minute (MCS local)
23 TenMinMcsLocal Start a BER measurement duration is/was 10 minutes (MCS local)
24 OneHourMcsLocal Start a BER measurement duration is/was 1 hour (MCS local)
25 OneDayMcsLocal Start a BER measurement duration is/was 24 hours (MCS local)
26 OneMinG703If Start a BER measurement duration is/was 1 minute (G.703 Interface)
27 TenMinG703If Start a BER measurement duration is/was 10 minutes (G.703 Interface)
28 OneHourG703If Start a BER measurement duration is/was 1 hour (G.703 Interface)
29 OneDayG703If Start a BER measurement duration is/was 24 hours (G.703 Interface)
30 OneMinDataIf Start a BER measurement duration is/was 1 minute (Data Interface)
31 TenMinDataIf Start a BER measurement duration is/was 10 minutes (Data Interface)
32 OneHourDataIf Start a BER measurement duration is/was 1 hour (Data Interface)
33 OneDayDataIf Start a BER measurement duration is/was 24 hours (Data Interface)
254 unknown value
255 unsupported variable for addressed device"
::= { pmrwActionEntry 4 }
pmrwActionProbingStart OBJECT-TYPE
SYNTAX OCTET STRING(SIZE(6))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Selection of bandwidths to use for line probing
Bandwidth
Byte 0
bit 0 reserved
bit 1 reserved
bit 2 192 kbit/s
bit 3 256 kbit/s
bit 4 320 kbit/s
bit 5 384 kbit/s
bit 6 448 kbit/s
bit 7 512 kbit/s
Byte 1
bit 0 576 kbit/s
bit 1 640 kbit/s
bit 2 704 kbit/s
bit 3 768 kbit/s
bit 4 832 kbit/s
bit 5 896 kbit/s
bit 6 960 kbit/s
bit 7 1024 kbit/s
Byte 2
bit 0 1088 kbit/s
bit 1 1152 kbit/s
bit 2 1216 kbit/s
bit 3 1280 kbit/s
bit 4 1344 kbit/s
bit 5 1408 kbit/s
bit 6 1472 kbit/s
bit 7 1536 kbit/s
Byte 3
bit 0 1600 kbit/s
bit 1 1664 kbit/s
bit 2 1728 kbit/s
bit 3 1792 kbit/s
bit 4 1856 kbit/s
bit 5 1920 kbit/s
bit 6 1984 kbit/s
bit 7 2048 kbit/s
Byte 4
bit 0 2112 kbit/s
bit 1 2176 kbit/s
bit 2 2240 kbit/s
bit 3 2304 kbit/s
bit 4 unused
bit 5 unused
bit 6 unused
bit 7 unused
Byte 5 contains a value specifying the validity of the
result of a read operation:
1 Ok Values returned are valid
254 unknown values
255 unsupported variable for addressed device"
::= { pmrwActionEntry 5 }
pmrwActionResetPMPacket OBJECT-TYPE
SYNTAX INTEGER
{
resetLocal(1),
resetFar(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a write-only variable which is used to reset
all currently running Local L2Switch performance counters.
1 resetLocal Reset local counters
2 resetFar Reset far counters"
::= { pmrwActionEntry 6 }
--==============================================================================
--==============================================================================
--
-- Download
--
--==============================================================================
--==============================================================================
download OBJECT IDENTIFIER ::= { linksVers3 7 }
--------------------------------------------------------------------------------
-- Far Download State
--------------------------------------------------------------------------------
downloadFarTable OBJECT-TYPE
SYNTAX SEQUENCE OF DownloadFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { download 1 }
downloadFarEntry OBJECT-TYPE
SYNTAX DownloadFarEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { downloadFarPortIndex, downloadFarLinkIndex }
::= { downloadFarTable 1 }
DownloadFarEntry ::=
SEQUENCE
{
downloadFarPortIndex INTEGER,
downloadFarLinkIndex INTEGER,
downloadFarState INTEGER,
downloadFarTotalBlocks INTEGER,
downloadFarProgress INTEGER,
downloadFarTarget INTEGER
}
downloadFarPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { downloadFarEntry 1 }
downloadFarLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {downloadFarEntry 2 }
downloadFarState OBJECT-TYPE
SYNTAX INTEGER
{
notStarted(1),
pending(2),
abortedLd(3),
erasingFlash(4),
running(5),
failed(6),
complete(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the state of the download
1 NotStarted Never started a download for this device
2 Pending Waiting for download start response from NT
3 AbortedLd Remote download not started because of lokal download running
4 ErasingFlash Flash EEPROM of this device is being erased
5 Running Download for this device is running
6 Failed Last download for this device failed
7 Complete Last download for this device was successful
254 unknown value
255 unsupported variable for addressed device"
::= { downloadFarEntry 3 }
downloadFarTotalBlocks OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the size of the firmware being downloaded to the far device
in blocks of 128 bytes
0xFFFE unknown value
0xFFFF unsupported variable for addressed device"
::= { downloadFarEntry 4 }
downloadFarProgress OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the number of 128 byte blocks that have already been downloaded
0xFFFE unknown value
0xFFFF unsupported variable for addressed device"
::= { downloadFarEntry 5 }
downloadFarTarget OBJECT-TYPE
SYNTAX INTEGER
{
notDownloading(1),
nt(2),
reg11(4),
reg12(5),
reg21(6),
reg22(7),
reg31(8),
reg32(9),
reg41(10),
reg42(11),
reg51(12),
reg52(13),
reg61(14),
reg62(15),
reg71(16),
reg72(17),
reg81(18),
reg82(19),
reg13(20),
reg14(21),
reg23(22),
reg24(23),
reg33(24),
reg34(25),
reg43(26),
reg44(27),
reg53(28),
reg54(29),
reg63(30),
reg64(31),
reg73(32),
reg74(33),
reg83(34),
reg84(35),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the device for which a remote download is active
NotDownloading 1 No remote download is active
Nt 2 Remote download to NT active
Reg11 4 Remote download to regenerator section 1 wire pair 1
Reg12 5 Remote download to regenerator section 1 wire pair 2
Reg21 6 Remote download to regenerator section 2 wire pair 1
Reg22 7 Remote download to regenerator section 2 wire pair 2
Reg31 8 Remote download to regenerator section 3 wire pair 1
Reg32 9 Remote download to regenerator section 3 wire pair 2
Reg41 10 Remote download to regenerator section 4 wire pair 1
Reg42 11 Remote download to regenerator section 4 wire pair 2
Reg51 12 Remote download to regenerator section 5 wire pair 1
Reg52 13 Remote download to regenerator section 5 wire pair 2
Reg61 14 Remote download to regenerator section 6 wire pair 1
Reg62 15 Remote download to regenerator section 6 wire pair 2
Reg71 16 Remote download to regenerator section 7 wire pair 1
Reg72 17 Remote download to regenerator section 7 wire pair 2
Reg81 18 Remote download to regenerator section 8 wire pair 1
Reg82 19 Remote download to regenerator section 8 wire pair 2
Reg13 20 Remote download to regenerator section 1 wire pair 3
Reg14 21 Remote download to regenerator section 1 wire pair 4
Reg23 22 Remote download to regenerator section 2 wire pair 3
Reg24 23 Remote download to regenerator section 2 wire pair 4
Reg33 24 Remote download to regenerator section 3 wire pair 3
Reg34 25 Remote download to regenerator section 3 wire pair 4
Reg43 26 Remote download to regenerator section 4 wire pair 3
Reg44 27 Remote download to regenerator section 4 wire pair 4
Reg53 28 Remote download to regenerator section 5 wire pair 3
Reg54 29 Remote download to regenerator section 5 wire pair 4
Reg63 30 Remote download to regenerator section 6 wire pair 3
Reg64 31 Remote download to regenerator section 6 wire pair 4
Reg73 32 Remote download to regenerator section 7 wire pair 3
Reg74 33 Remote download to regenerator section 7 wire pair 4
Reg83 34 Remote download to regenerator section 8 wire pair 3
Reg84 35 Remote download to regenerator section 8 wire pair 4
254 unknown value
255 unsupported variable for addressed device"
::= { downloadFarEntry 6 }
--------------------------------------------------------------------------------
-- Download Starting and Aborting
--------------------------------------------------------------------------------
downloadActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF DownloadActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { download 2 }
downloadActionEntry OBJECT-TYPE
SYNTAX DownloadActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { downloadActionPortIndex, downloadActionLinkIndex }
::= { downloadActionTable 1 }
DownloadActionEntry ::=
SEQUENCE
{
downloadActionPortIndex INTEGER,
downloadActionLinkIndex INTEGER,
downloadActionStart INTEGER,
downloadActionAbort INTEGER
}
downloadActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { downloadActionEntry 1 }
downloadActionLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { downloadActionEntry 2 }
downloadActionStart OBJECT-TYPE
SYNTAX INTEGER
{
activBank(1),
passiveBank(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a write-only variable which is used to start
remote download from the selcted bank.
1 ActiveBank Use active bank of LT for remote download
2 PassiveBank Use passive bank of LT for remote download
254 unknown value
255 unsupported variable for addressed device"
::= { downloadActionEntry 3 }
downloadActionAbort OBJECT-TYPE
SYNTAX INTEGER
{
abort(1),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a write-only variable which is used to abort
the currently running remote download.
The only legal parameter is 'abort(1)'."
::= { downloadActionEntry 4 }
--------------------------------------------------------------------------------
-- SRU Download Starting and Aborting
--------------------------------------------------------------------------------
downloadSruActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF DownloadSruActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { download 3 }
downloadSruActionEntry OBJECT-TYPE
SYNTAX DownloadSruActionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { downloadSruActionPortIndex, downloadSruActionLinkIndex, downloadSruActionRegIndex }
::= { downloadSruActionTable 1 }
DownloadSruActionEntry ::=
SEQUENCE
{
downloadSruActionPortIndex INTEGER,
downloadSruActionLinkIndex INTEGER,
downloadSruActionRegIndex INTEGER,
downloadSruActionStart INTEGER,
downloadSruActionAbort INTEGER
}
downloadSruActionPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { downloadSruActionEntry 1 }
downloadSruActionLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= { downloadSruActionEntry 2 }
downloadSruActionRegIndex OBJECT-TYPE
SYNTAX INTEGER
{
reg11(3),
reg12(4),
reg21(5),
reg22(6),
reg31(7),
reg32(8),
reg41(9),
reg42(10),
reg51(11),
reg52(12),
reg61(13),
reg62(14),
reg71(15),
reg72(16),
reg81(17),
reg82(18),
reg13(19),
reg14(20),
reg23(21),
reg24(22),
reg33(23),
reg34(24),
reg43(25),
reg44(26),
reg53(27),
reg54(28),
reg63(29),
reg64(30),
reg73(31),
reg74(32),
reg83(33),
reg84(34)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the regenerator device"
::= { downloadSruActionEntry 3 }
downloadSruActionStart OBJECT-TYPE
SYNTAX INTEGER
{
activBank(1),
passiveBank(2),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a write-only variable which is used to start
remote download from the selcted bank.
1 ActiveBank Use active bank of LT for remote download
2 PassiveBank Use passive bank of LT for remote download
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSruActionEntry 4 }
downloadSruActionAbort OBJECT-TYPE
SYNTAX INTEGER
{
abort(1),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a write-only variable which is used to abort
the currently running remote download.
The only legal parameter is 'abort(1)'."
::= { downloadSruActionEntry 5 }
--------------------------------------------------------------------------------
-- Download State
--------------------------------------------------------------------------------
downloadStateTable OBJECT-TYPE
SYNTAX SEQUENCE OF DownloadStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { download 4 }
downloadStateEntry OBJECT-TYPE
SYNTAX DownloadStateEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { downloadStatePortIndex, downloadStateLinkIndex }
::= { downloadStateTable 1 }
DownloadStateEntry ::=
SEQUENCE
{
downloadStatePortIndex INTEGER,
downloadStateLinkIndex INTEGER,
downloadStateInstance INTEGER,
downloadStateTarget INTEGER,
downloadStateState INTEGER,
downloadStateTotalBlocks INTEGER,
downloadStateProgress INTEGER
}
downloadStatePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { downloadStateEntry 1 }
downloadStateLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {downloadStateEntry 2 }
downloadStateInstance OBJECT-TYPE
SYNTAX INTEGER
{
system1(1),
system2(2),
system3(3),
system4(4),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the instance of the system for which a download is active"
::= { downloadStateEntry 3 }
downloadStateTarget OBJECT-TYPE
SYNTAX INTEGER
{
notDownloading(1),
lt(2),
nt(3),
reg11(4),
reg12(5),
reg21(6),
reg22(7),
reg31(8),
reg32(9),
reg41(10),
reg42(11),
reg51(12),
reg52(13),
reg61(14),
reg62(15),
reg71(16),
reg72(17),
reg81(18),
reg82(19),
reg13(20),
reg14(21),
reg23(22),
reg24(23),
reg33(24),
reg34(25),
reg43(26),
reg44(27),
reg53(28),
reg54(29),
reg63(30),
reg64(31),
reg73(32),
reg74(33),
reg83(34),
reg84(35),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the device for which a download is active
NotDownloading 1 No download is active
Lt 2 Local download
Nt 3 Remote download to NT active
Reg11 4 Remote download to regenerator section 1 wire pair 1
Reg12 5 Remote download to regenerator section 1 wire pair 2
Reg21 6 Remote download to regenerator section 2 wire pair 1
Reg22 7 Remote download to regenerator section 2 wire pair 2
Reg31 8 Remote download to regenerator section 3 wire pair 1
Reg32 9 Remote download to regenerator section 3 wire pair 2
Reg41 10 Remote download to regenerator section 4 wire pair 1
Reg42 11 Remote download to regenerator section 4 wire pair 2
Reg51 12 Remote download to regenerator section 5 wire pair 1
Reg52 13 Remote download to regenerator section 5 wire pair 2
Reg61 14 Remote download to regenerator section 6 wire pair 1
Reg62 15 Remote download to regenerator section 6 wire pair 2
Reg71 16 Remote download to regenerator section 7 wire pair 1
Reg72 17 Remote download to regenerator section 7 wire pair 2
Reg81 18 Remote download to regenerator section 8 wire pair 1
Reg82 19 Remote download to regenerator section 8 wire pair 2
Reg13 20 Remote download to regenerator section 1 wire pair 3
Reg14 21 Remote download to regenerator section 1 wire pair 4
Reg23 22 Remote download to regenerator section 2 wire pair 3
Reg24 23 Remote download to regenerator section 2 wire pair 4
Reg33 24 Remote download to regenerator section 3 wire pair 3
Reg34 25 Remote download to regenerator section 3 wire pair 4
Reg43 26 Remote download to regenerator section 4 wire pair 3
Reg44 27 Remote download to regenerator section 4 wire pair 4
Reg53 28 Remote download to regenerator section 5 wire pair 3
Reg54 29 Remote download to regenerator section 5 wire pair 4
Reg63 30 Remote download to regenerator section 6 wire pair 3
Reg64 31 Remote download to regenerator section 6 wire pair 4
Reg73 32 Remote download to regenerator section 7 wire pair 3
Reg74 33 Remote download to regenerator section 7 wire pair 4
Reg83 34 Remote download to regenerator section 8 wire pair 3
Reg84 35 Remote download to regenerator section 8 wire pair 4
254 unknown value
255 unsupported variable for addressed device"
::= { downloadStateEntry 4 }
downloadStateState OBJECT-TYPE
SYNTAX INTEGER
{
notStarted(1),
pending(2),
abortedLd(3),
erasingFlash(4),
running(5),
failed(6),
complete(7),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the state of the download
1 NotStarted Never started a download for this device
2 Pending Waiting for download start response from NT
3 AbortedLd Remote download not started because of lokal download running
4 ErasingFlash Flash EEPROM of this device is being erased
5 Running Download for this device is running
6 Failed Last download for this device failed
7 Complete Last download for this device was successful
254 unknown value
255 unsupported variable for addressed device"
::= { downloadStateEntry 5 }
downloadStateTotalBlocks OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the size of the firmware being downloaded to the device
in blocks of 128 bytes
0xFFFE unknown value
0xFFFF unsupported variable for addressed device"
::= { downloadStateEntry 6 }
downloadStateProgress OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Returns the number of 128 byte blocks that have already been downloaded
0xFFFE unknown value
0xFFFF unsupported variable for addressed device"
::= { downloadStateEntry 7 }
--------------------------------------------------------------------------------
-- Download Remote Dwl Possible
--------------------------------------------------------------------------------
downloadRemDwlPossibleTable OBJECT-TYPE
SYNTAX SEQUENCE OF DownloadRemDwlPossibleEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { download 5 }
downloadRemDwlPossibleEntry OBJECT-TYPE
SYNTAX DownloadRemDwlPossibleEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { downloadRemDwlPossiblePortIndex, downloadRemDwlPossibleLinkIndex }
::= { downloadRemDwlPossibleTable 1 }
DownloadRemDwlPossibleEntry ::=
SEQUENCE
{
downloadRemDwlPossiblePortIndex INTEGER,
downloadRemDwlPossibleLinkIndex INTEGER,
downloadRemDwlPossibleNt INTEGER,
downloadRemDwlPossibleReg1Wp1 INTEGER,
downloadRemDwlPossibleReg2Wp1 INTEGER,
downloadRemDwlPossibleReg3Wp1 INTEGER,
downloadRemDwlPossibleReg4Wp1 INTEGER,
downloadRemDwlPossibleReg5Wp1 INTEGER,
downloadRemDwlPossibleReg6Wp1 INTEGER,
downloadRemDwlPossibleReg7Wp1 INTEGER,
downloadRemDwlPossibleReg8Wp1 INTEGER,
downloadRemDwlPossibleReg1Wp2 INTEGER,
downloadRemDwlPossibleReg2Wp2 INTEGER,
downloadRemDwlPossibleReg3Wp2 INTEGER,
downloadRemDwlPossibleReg4Wp2 INTEGER,
downloadRemDwlPossibleReg5Wp2 INTEGER,
downloadRemDwlPossibleReg6Wp2 INTEGER,
downloadRemDwlPossibleReg7Wp2 INTEGER,
downloadRemDwlPossibleReg8Wp2 INTEGER,
downloadRemDwlPossibleReg1Wp3 INTEGER,
downloadRemDwlPossibleReg2Wp3 INTEGER,
downloadRemDwlPossibleReg3Wp3 INTEGER,
downloadRemDwlPossibleReg4Wp3 INTEGER,
downloadRemDwlPossibleReg5Wp3 INTEGER,
downloadRemDwlPossibleReg6Wp3 INTEGER,
downloadRemDwlPossibleReg7Wp3 INTEGER,
downloadRemDwlPossibleReg8Wp3 INTEGER,
downloadRemDwlPossibleReg1Wp4 INTEGER,
downloadRemDwlPossibleReg2Wp4 INTEGER,
downloadRemDwlPossibleReg3Wp4 INTEGER,
downloadRemDwlPossibleReg4Wp4 INTEGER,
downloadRemDwlPossibleReg5Wp4 INTEGER,
downloadRemDwlPossibleReg6Wp4 INTEGER,
downloadRemDwlPossibleReg7Wp4 INTEGER,
downloadRemDwlPossibleReg8Wp4 INTEGER
}
downloadRemDwlPossiblePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { downloadRemDwlPossibleEntry 1 }
downloadRemDwlPossibleLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {downloadRemDwlPossibleEntry 2 }
downloadRemDwlPossibleNt OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 3 }
downloadRemDwlPossibleReg1Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 4 }
downloadRemDwlPossibleReg2Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 5 }
downloadRemDwlPossibleReg3Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 6 }
downloadRemDwlPossibleReg4Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 7 }
downloadRemDwlPossibleReg5Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 8 }
downloadRemDwlPossibleReg6Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 9 }
downloadRemDwlPossibleReg7Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 10 }
downloadRemDwlPossibleReg8Wp1 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 11 }
downloadRemDwlPossibleReg1Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 12 }
downloadRemDwlPossibleReg2Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 13 }
downloadRemDwlPossibleReg3Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 14 }
downloadRemDwlPossibleReg4Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 15 }
downloadRemDwlPossibleReg5Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 16 }
downloadRemDwlPossibleReg6Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 17 }
downloadRemDwlPossibleReg7Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 18 }
downloadRemDwlPossibleReg8Wp2 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 19 }
downloadRemDwlPossibleReg1Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 20 }
downloadRemDwlPossibleReg2Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 21 }
downloadRemDwlPossibleReg3Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 22 }
downloadRemDwlPossibleReg4Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 23 }
downloadRemDwlPossibleReg5Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 24 }
downloadRemDwlPossibleReg6Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 25 }
downloadRemDwlPossibleReg7Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 26 }
downloadRemDwlPossibleReg8Wp3 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 27 }
downloadRemDwlPossibleReg1Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 28 }
downloadRemDwlPossibleReg2Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 29 }
downloadRemDwlPossibleReg3Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 30 }
downloadRemDwlPossibleReg4Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 31 }
downloadRemDwlPossibleReg5Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 32 }
downloadRemDwlPossibleReg6Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 33 }
downloadRemDwlPossibleReg7Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 34 }
downloadRemDwlPossibleReg8Wp4 OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a remote download is possible or not.
The value is bit-coded:
bit0 Active bank download possible (far NE compatible)
bit1 Active bank download not possible (far NE offline or not compatible)
bit2 Active bank unknown, no compatibility list available
bit3 not used
bit4 Passive bank download possible (far NE compatible)
bit5 Passive bank download not possible (far NE offline or not compatible)
bit6 Passive bank unknown, no compatibility list available
bit7 unsupported variable for addressed device"
::= { downloadRemDwlPossibleEntry 35 }
--------------------------------------------------------------------------------
-- Download Bank Swap Possible
--------------------------------------------------------------------------------
downloadSwapPossibleTable OBJECT-TYPE
SYNTAX SEQUENCE OF DownloadSwapPossibleEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { download 6 }
downloadSwapPossibleEntry OBJECT-TYPE
SYNTAX DownloadSwapPossibleEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { downloadSwapPossiblePortIndex, downloadSwapPossibleLinkIndex }
::= { downloadSwapPossibleTable 1 }
DownloadSwapPossibleEntry ::=
SEQUENCE
{
downloadSwapPossiblePortIndex INTEGER,
downloadSwapPossibleLinkIndex INTEGER,
downloadSwapPossibleLocal INTEGER,
downloadSwapPossibleNt INTEGER,
downloadSwapPossibleReg1Wp1 INTEGER,
downloadSwapPossibleReg2Wp1 INTEGER,
downloadSwapPossibleReg3Wp1 INTEGER,
downloadSwapPossibleReg4Wp1 INTEGER,
downloadSwapPossibleReg5Wp1 INTEGER,
downloadSwapPossibleReg6Wp1 INTEGER,
downloadSwapPossibleReg7Wp1 INTEGER,
downloadSwapPossibleReg8Wp1 INTEGER,
downloadSwapPossibleReg1Wp2 INTEGER,
downloadSwapPossibleReg2Wp2 INTEGER,
downloadSwapPossibleReg3Wp2 INTEGER,
downloadSwapPossibleReg4Wp2 INTEGER,
downloadSwapPossibleReg5Wp2 INTEGER,
downloadSwapPossibleReg6Wp2 INTEGER,
downloadSwapPossibleReg7Wp2 INTEGER,
downloadSwapPossibleReg8Wp2 INTEGER,
downloadSwapPossibleReg1Wp3 INTEGER,
downloadSwapPossibleReg2Wp3 INTEGER,
downloadSwapPossibleReg3Wp3 INTEGER,
downloadSwapPossibleReg4Wp3 INTEGER,
downloadSwapPossibleReg5Wp3 INTEGER,
downloadSwapPossibleReg6Wp3 INTEGER,
downloadSwapPossibleReg7Wp3 INTEGER,
downloadSwapPossibleReg8Wp3 INTEGER,
downloadSwapPossibleReg1Wp4 INTEGER,
downloadSwapPossibleReg2Wp4 INTEGER,
downloadSwapPossibleReg3Wp4 INTEGER,
downloadSwapPossibleReg4Wp4 INTEGER,
downloadSwapPossibleReg5Wp4 INTEGER,
downloadSwapPossibleReg6Wp4 INTEGER,
downloadSwapPossibleReg7Wp4 INTEGER,
downloadSwapPossibleReg8Wp4 INTEGER
}
downloadSwapPossiblePortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { downloadSwapPossibleEntry 1 }
downloadSwapPossibleLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {downloadSwapPossibleEntry 2 }
downloadSwapPossibleLocal OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 3 }
downloadSwapPossibleNt OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 4 }
downloadSwapPossibleReg1Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 5 }
downloadSwapPossibleReg2Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 6 }
downloadSwapPossibleReg3Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 7 }
downloadSwapPossibleReg4Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 8 }
downloadSwapPossibleReg5Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 9 }
downloadSwapPossibleReg6Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 10 }
downloadSwapPossibleReg7Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 11 }
downloadSwapPossibleReg8Wp1 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 12 }
downloadSwapPossibleReg1Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 13 }
downloadSwapPossibleReg2Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 14 }
downloadSwapPossibleReg3Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 15 }
downloadSwapPossibleReg4Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 16 }
downloadSwapPossibleReg5Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 17 }
downloadSwapPossibleReg6Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 18 }
downloadSwapPossibleReg7Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 19 }
downloadSwapPossibleReg8Wp2 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 20 }
downloadSwapPossibleReg1Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 21 }
downloadSwapPossibleReg2Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 22 }
downloadSwapPossibleReg3Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 23 }
downloadSwapPossibleReg4Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 24 }
downloadSwapPossibleReg5Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 25 }
downloadSwapPossibleReg6Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 26 }
downloadSwapPossibleReg7Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 27 }
downloadSwapPossibleReg8Wp3 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 28 }
downloadSwapPossibleReg1Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 29 }
downloadSwapPossibleReg2Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 30 }
downloadSwapPossibleReg3Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 31 }
downloadSwapPossibleReg4Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 32 }
downloadSwapPossibleReg5Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 33 }
downloadSwapPossibleReg6Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 34 }
downloadSwapPossibleReg7Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 35 }
downloadSwapPossibleReg8Wp4 OBJECT-TYPE
SYNTAX INTEGER
{
swapNotPossible(1),
swapPossible(2),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates whether a firmware bank swap is possible or not.
1 SwapNotPossible Bank swap is not possible
2 SwapPossible Bank swap is possible
254 unknown value
255 unsupported variable for addressed device"
::= { downloadSwapPossibleEntry 36 }
--==============================================================================
--==============================================================================
--
-- Traps
--
--==============================================================================
--==============================================================================
extendedTraps OBJECT IDENTIFIER ::= { linksVers3 8 }
--------------------------------------------------------------------------------
-- Extended Traps
--------------------------------------------------------------------------------
extendedTrapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ExtendedTrapsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { extendedTraps 1 }
extendedTrapsEntry OBJECT-TYPE
SYNTAX ExtendedTrapsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { extendedTrapsPortIndex, extendedTrapsLinkIndex }
::= { extendedTrapsTable 1 }
ExtendedTrapsEntry ::=
SEQUENCE
{
extendedTrapsPortIndex INTEGER,
extendedTrapsLinkIndex INTEGER,
extendedTrapsType INTEGER
}
extendedTrapsPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { extendedTrapsEntry 1 }
extendedTrapsLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {extendedTrapsEntry 2 }
extendedTrapsType OBJECT-TYPE
SYNTAX INTEGER
{
lineConfigChange(1),
alarmConfigChange(2),
rdwlState(3),
rebootRemote(4),
ldwlState(5),
lineProbing(6),
userDataChange(7),
ledStateChange(8),
systemConfigChange(9),
teDataAvailable(10),
teSessionEnd(11),
tePwrStationAlCfg(12),
pwdLost(13),
link(14),
authentication(15),
multipleUsers(16),
stp(17),
acl(18),
cfgChangeL2Switch(19),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable is only used as an attachement on the extended snmp trap
1 LineConfigChange The line configuration has changed
2 AlarmConfigChange The alarm configuration has changed
3 RDWLState The state of the remote download has changed
4 RebootRemote The remote device has rebooted
5 LDWLState The state of the local download has changed
6 LineProbing The lineprobing is terminated
7 UserDataChange The user data string has changed
8 LEDStateChange The LED state has changed
9 SystemConfigChange The number of wire pairs has changed
10 TEDataAvailable Terminal emulation offers data for terminal output
11 TESessionEnd End of terminal session on line card (not OMII)
12 TEPwrStationAlCfg Change of Power Station Alarms (to OMII)
13 PwdLost Password lost
14 Link FE or GbE link status changed
15 Authentication Authentication status changed
16 MultipleUsers Multiple users status changed
17 STP Spanning Tree Protocol status changed
18 ACL Access Control Lists status changed
19 CfgChangeL2Switch L2 Switch configuration data changed
254 unknown value
255 unsupported variable for addressed device"
::= { extendedTrapsEntry 3 }
--==============================================================================
--==============================================================================
--
-- SM RW
--
--==============================================================================
--==============================================================================
smrw OBJECT IDENTIFIER ::= { linksVers3 9 }
--------------------------------------------------------------------------------
-- SM RW SM Read & Write
--------------------------------------------------------------------------------
smrwOmiTable OBJECT-TYPE
SYNTAX SEQUENCE OF SmrwOmiEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= {smrw 1 }
smrwOmiEntry OBJECT-TYPE
SYNTAX SmrwOmiEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { smrwOmiPortIndex }
::= { smrwOmiTable 1 }
SmrwOmiEntry ::=
SEQUENCE
{
smrwOmiPortIndex INTEGER,
smrwOmiLCTLocalMgmt INTEGER,
smrwOmiLCTRemoteMgmt INTEGER,
smrwOmiSNMPv1-v2Mgmt INTEGER,
smrwOmiSNMPv3Mgmt INTEGER,
smrwOmiCLIMgmt INTEGER,
smrwOmiWebMgmt INTEGER
}
smrwOmiPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable is used as index for the other elements in the Table"
::= { smrwOmiEntry 1 }
smrwOmiLCTLocalMgmt OBJECT-TYPE
SYNTAX INTEGER
{
noAccess(1),
roAccess(2),
rwAccess(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is a read-only variable which is used to get
LCT local management status:
1 NO_ACCESS
2 RO_ACCESS
3 RW_ACCESS
254 unknown value
255 unsupported value"
::= { smrwOmiEntry 2 }
smrwOmiLCTRemoteMgmt OBJECT-TYPE
SYNTAX INTEGER
{
noAccess(1),
roAccess(2),
rwAccess(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a read-write variable which is used to get/set
LCT remote management status:
1 NO_ACCESS
2 RO_ACCESS
3 RW_ACCESS
254 unknown value
255 unsupported value"
::= { smrwOmiEntry 3 }
smrwOmiSNMPv1-v2Mgmt OBJECT-TYPE
SYNTAX INTEGER
{
noAccess(1),
roAccess(2),
rwAccess(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a read-write variable which is used to get/set
SNMPv1 and SNMPv2 management status:
1 NO_ACCESS
2 RO_ACCESS
3 RW_ACCESS
254 unknown value
255 unsupported value"
::= { smrwOmiEntry 4 }
smrwOmiSNMPv3Mgmt OBJECT-TYPE
SYNTAX INTEGER
{
noAccess(1),
roAccess(2),
rwAccess(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a read-write variable which is used to get/set
SNMPv3 management status:
1 NO_ACCESS
2 RO_ACCESS
3 RW_ACCESS
254 unknown value
255 unsupported value"
::= { smrwOmiEntry 5 }
smrwOmiCLIMgmt OBJECT-TYPE
SYNTAX INTEGER
{
noAccess(1),
roAccess(2),
rwAccess(3),
unknown(254),
unsupported(255)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is a read-write variable which is used to get/set
CLI management status:
1 NO_ACCESS
2 RO_ACCESS
3 RW_ACCESS
254 unknown value
255 unsupported value"
::= { smrwOmiEntry 6 }
smrwOmiWebMgmt OBJECT-TYPE
SYNTAX INTEGER
{
noAccess(1),
roAccess(2),
rwAccess(3),
unknown(254),
unsupported(255)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This is a read-only variable which is used to get
Web management status:
1 NO_ACCESS
2 RO_ACCESS
3 RW_ACCESS
254 unknown value
255 unsupported value"
::= { smrwOmiEntry 7 }
--==============================================================================
--==============================================================================
--
-- OMPP over SNMP
--
--==============================================================================
--==============================================================================
omppOverSNMP OBJECT IDENTIFIER ::= { linksVers3 10 }
omppOverSNMPTable OBJECT-TYPE
SYNTAX SEQUENCE OF OmppOverSNMPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
::= { omppOverSNMP 1 }
omppOverSNMPEntry OBJECT-TYPE
SYNTAX OmppOverSNMPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION ""
INDEX { omppOverSNMPPortIndex, omppOverSNMPLinkIndex, IMPLIED omppOverSNMPInvokeInfo }
::= { omppOverSNMPTable 1 }
OmppOverSNMPEntry ::=
SEQUENCE
{
omppOverSNMPPortIndex INTEGER,
omppOverSNMPLinkIndex INTEGER,
omppOverSNMPInvokeInfo OCTET STRING,
omppOverSNMPGetData OCTET STRING,
omppOverSNMPSetData OCTET STRING
}
omppOverSNMPPortIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "This variable addresses the port number of the proxy
and is used as index for the other elements in the Table"
::= { omppOverSNMPEntry 1 }
omppOverSNMPLinkIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "This variable addresses the slot number of the OMI sub-rack
and is used as index for the other elements in the Table"
::= {omppOverSNMPEntry 2 }
omppOverSNMPInvokeInfo OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(1..255))
ACCESS read-only
STATUS mandatory
DESCRIPTION "OMPP Invoke Telegram Data (only L7)"
::= { omppOverSNMPEntry 3 }
omppOverSNMPGetData OBJECT-TYPE
SYNTAX OCTET STRING
ACCESS read-only
STATUS mandatory
DESCRIPTION "Confirm Telegram Data (Get,read)"
::= { omppOverSNMPEntry 4 }
omppOverSNMPSetData OBJECT-TYPE
SYNTAX OCTET STRING
ACCESS read-write
STATUS mandatory
DESCRIPTION "Additional OMPP Invoke Telegram Data (Set, write)"
::= { omppOverSNMPEntry 5 }
--------------------------------------------------------------------------------
END
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