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Zigbee examples update (#9627)

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Jan Procházka 2024-05-15 18:13:41 +02:00 committed by GitHub
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@ -317,10 +317,10 @@ esp32h2.menu.ZigbeeMode.default.build.zigbee_mode=
esp32h2.menu.ZigbeeMode.default.build.zigbee_libs=
esp32h2.menu.ZigbeeMode.ed=Zigbee ED (end device)
esp32h2.menu.ZigbeeMode.ed.build.zigbee_mode=-DZIGBEE_MODE_ED
esp32h2.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed.trace -lzboss_stack.ed -lzboss_port
esp32h2.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed -lzboss_port
esp32h2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32h2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32h2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32h2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
esp32h2.menu.ZigbeeMode.rcp=Zigbee RCP (radio co-processor)
esp32h2.menu.ZigbeeMode.rcp.build.zigbee_mode=-DZIGBEE_MODE_RCP
esp32h2.menu.ZigbeeMode.rcp.build.zigbee_libs=-lesp_zb_api_rcp -lesp_zb_cli_command -lzboss_stack.rcp -lzboss_port
@ -504,10 +504,10 @@ esp32c6.menu.ZigbeeMode.default.build.zigbee_mode=
esp32c6.menu.ZigbeeMode.default.build.zigbee_libs=
esp32c6.menu.ZigbeeMode.ed=Zigbee ED (end device)
esp32c6.menu.ZigbeeMode.ed.build.zigbee_mode=-DZIGBEE_MODE_ED
esp32c6.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed.trace -lzboss_stack.ed -lzboss_port
esp32c6.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed -lzboss_port
esp32c6.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32c6.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32c6.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32c6.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
esp32c6.menu.ZigbeeMode.rcp=Zigbee RCP (radio co-processor)
esp32c6.menu.ZigbeeMode.rcp.build.zigbee_mode=-DZIGBEE_MODE_RCP
esp32c6.menu.ZigbeeMode.rcp.build.zigbee_libs=-lesp_zb_api_rcp -lesp_zb_cli_command -lzboss_stack.rcp -lzboss_port
@ -756,7 +756,7 @@ esp32s3.menu.ZigbeeMode.default.build.zigbee_mode=
esp32s3.menu.ZigbeeMode.default.build.zigbee_libs=
esp32s3.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32s3.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
@ -931,7 +931,8 @@ esp32c3.menu.ZigbeeMode.default.build.zigbee_mode=
esp32c3.menu.ZigbeeMode.default.build.zigbee_libs=
esp32c3.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32c3.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32c3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32c3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
esp32s2.name=ESP32S2 Dev Module
@ -1128,7 +1129,7 @@ esp32s2.menu.ZigbeeMode.default.build.zigbee_mode=
esp32s2.menu.ZigbeeMode.default.build.zigbee_libs=
esp32s2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32s2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
@ -1315,7 +1316,7 @@ esp32.menu.ZigbeeMode.default.build.zigbee_mode=
esp32.menu.ZigbeeMode.default.build.zigbee_libs=
esp32.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
@ -10630,7 +10631,7 @@ adafruit_metro_esp32s2.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_metro_esp32s2.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_metro_esp32s2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_metro_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_metro_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_metro_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Metro ESP32-S3
@ -10827,7 +10828,7 @@ adafruit_metro_esp32s3.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_metro_esp32s3.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_metro_esp32s3.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_metro_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_metro_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_metro_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit MagTag 2.9"
@ -11004,7 +11005,7 @@ adafruit_magtag29_esp32s2.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_magtag29_esp32s2.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_magtag29_esp32s2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_magtag29_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_magtag29_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_magtag29_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit FunHouse
@ -11181,7 +11182,7 @@ adafruit_funhouse_esp32s2.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_funhouse_esp32s2.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_funhouse_esp32s2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_funhouse_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_funhouse_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_funhouse_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit ESP32 Feather
@ -11315,7 +11316,7 @@ featheresp32.menu.ZigbeeMode.default.build.zigbee_mode=
featheresp32.menu.ZigbeeMode.default.build.zigbee_libs=
featheresp32.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
featheresp32.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
featheresp32.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
featheresp32.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32 V2
@ -11433,7 +11434,7 @@ adafruit_feather_esp32_v2.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32_v2.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32_v2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32_v2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32_v2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32_v2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32-S2
@ -11610,7 +11611,7 @@ adafruit_feather_esp32s2.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32s2.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32s2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32-S2 TFT
@ -11787,7 +11788,7 @@ adafruit_feather_esp32s2_tft.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32s2_tft.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32s2_tft.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32s2_tft.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32s2_tft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32s2_tft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32-S2 Reverse TFT
@ -11964,7 +11965,7 @@ adafruit_feather_esp32s2_reversetft.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32s2_reversetft.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32s2_reversetft.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32s2_reversetft.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32s2_reversetft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32s2_reversetft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32-S3 2MB PSRAM
@ -12176,7 +12177,7 @@ adafruit_feather_esp32s3.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32s3.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32s3.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32-S3 No PSRAM
@ -12357,7 +12358,7 @@ adafruit_feather_esp32s3_nopsram.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32s3_nopsram.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32s3_nopsram.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32s3_nopsram.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32s3_nopsram.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32s3_nopsram.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32-S3 TFT
@ -12569,7 +12570,7 @@ adafruit_feather_esp32s3_tft.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32s3_tft.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32s3_tft.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32s3_tft.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32s3_tft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32s3_tft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Feather ESP32-S3 Reverse TFT
@ -12781,7 +12782,7 @@ adafruit_feather_esp32s3_reversetft.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_feather_esp32s3_reversetft.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_feather_esp32s3_reversetft.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_feather_esp32s3_reversetft.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_feather_esp32s3_reversetft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_feather_esp32s3_reversetft.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit QT Py ESP32
@ -12899,7 +12900,7 @@ adafruit_qtpy_esp32_pico.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_qtpy_esp32_pico.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_qtpy_esp32_pico.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_qtpy_esp32_pico.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_qtpy_esp32_pico.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_qtpy_esp32_pico.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit QT Py ESP32-C3
@ -13036,7 +13037,7 @@ adafruit_qtpy_esp32c3.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_qtpy_esp32c3.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_qtpy_esp32c3.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_qtpy_esp32c3.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_qtpy_esp32c3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_qtpy_esp32c3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit QT Py ESP32-S2
@ -13213,7 +13214,7 @@ adafruit_qtpy_esp32s2.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_qtpy_esp32s2.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_qtpy_esp32s2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_qtpy_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_qtpy_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_qtpy_esp32s2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit QT Py ESP32-S3 No PSRAM
@ -13394,7 +13395,7 @@ adafruit_qtpy_esp32s3_nopsram.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_qtpy_esp32s3_nopsram.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_qtpy_esp32s3_nopsram.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_qtpy_esp32s3_nopsram.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_qtpy_esp32s3_nopsram.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_qtpy_esp32s3_nopsram.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit QT Py ESP32-S3 (4M Flash 2M PSRAM)
@ -13606,7 +13607,7 @@ adafruit_qtpy_esp32s3_n4r2.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_qtpy_esp32s3_n4r2.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_qtpy_esp32s3_n4r2.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_qtpy_esp32s3_n4r2.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_qtpy_esp32s3_n4r2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_qtpy_esp32s3_n4r2.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit ItsyBitsy ESP32
@ -13724,7 +13725,7 @@ adafruit_itsybitsy_esp32.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_itsybitsy_esp32.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_itsybitsy_esp32.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_itsybitsy_esp32.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_itsybitsy_esp32.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_itsybitsy_esp32.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit MatrixPortal ESP32-S3
@ -13915,7 +13916,7 @@ adafruit_matrixportal_esp32s3.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_matrixportal_esp32s3.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_matrixportal_esp32s3.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_matrixportal_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_matrixportal_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_matrixportal_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit pyCamera S3
@ -14127,7 +14128,7 @@ adafruit_camera_esp32s3.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_camera_esp32s3.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_camera_esp32s3.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_camera_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_camera_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_camera_esp32s3.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
# Adafruit Qualia ESP32-S3 RGB666
@ -14324,7 +14325,7 @@ adafruit_qualia_s3_rgb666.menu.ZigbeeMode.default.build.zigbee_mode=
adafruit_qualia_s3_rgb666.menu.ZigbeeMode.default.build.zigbee_libs=
adafruit_qualia_s3_rgb666.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
adafruit_qualia_s3_rgb666.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
adafruit_qualia_s3_rgb666.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
adafruit_qualia_s3_rgb666.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
@ -14777,7 +14778,7 @@ nologo_esp32s3_pico.menu.ZigbeeMode.default.build.zigbee_mode=
nologo_esp32s3_pico.menu.ZigbeeMode.default.build.zigbee_libs=
nologo_esp32s3_pico.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
nologo_esp32s3_pico.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
nologo_esp32s3_pico.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
nologo_esp32s3_pico.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
@ -16816,10 +16817,10 @@ esp32h2-devkitlipo.menu.ZigbeeMode.default.build.zigbee_mode=
esp32h2-devkitlipo.menu.ZigbeeMode.default.build.zigbee_libs=
esp32h2-devkitlipo.menu.ZigbeeMode.ed=Zigbee ED (end device)
esp32h2-devkitlipo.menu.ZigbeeMode.ed.build.zigbee_mode=-DZIGBEE_MODE_ED
esp32h2-devkitlipo.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed.trace -lzboss_stack.ed -lzboss_port
esp32h2-devkitlipo.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed -lzboss_port
esp32h2-devkitlipo.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32h2-devkitlipo.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32h2-devkitlipo.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32h2-devkitlipo.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
esp32h2-devkitlipo.menu.ZigbeeMode.rcp=Zigbee RCP (radio co-processor)
esp32h2-devkitlipo.menu.ZigbeeMode.rcp.build.zigbee_mode=-DZIGBEE_MODE_RCP
esp32h2-devkitlipo.menu.ZigbeeMode.rcp.build.zigbee_libs=-lesp_zb_api_rcp -lesp_zb_cli_command -lzboss_stack.rcp -lzboss_port
@ -17009,7 +17010,7 @@ esp32-sbc-fabgl.menu.ZigbeeMode.default.build.zigbee_mode=
esp32-sbc-fabgl.menu.ZigbeeMode.default.build.zigbee_libs=
esp32-sbc-fabgl.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
esp32-sbc-fabgl.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
esp32-sbc-fabgl.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
esp32-sbc-fabgl.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
##############################################################
@ -30830,10 +30831,10 @@ XIAO_ESP32C6.menu.ZigbeeMode.default.build.zigbee_mode=
XIAO_ESP32C6.menu.ZigbeeMode.default.build.zigbee_libs=
XIAO_ESP32C6.menu.ZigbeeMode.ed=Zigbee ED (end device)
XIAO_ESP32C6.menu.ZigbeeMode.ed.build.zigbee_mode=-DZIGBEE_MODE_ED
XIAO_ESP32C6.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed.trace -lzboss_stack.ed -lzboss_port
XIAO_ESP32C6.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed -lzboss_port
XIAO_ESP32C6.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
XIAO_ESP32C6.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
XIAO_ESP32C6.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
XIAO_ESP32C6.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
XIAO_ESP32C6.menu.ZigbeeMode.rcp=Zigbee RCP (radio co-processor)
XIAO_ESP32C6.menu.ZigbeeMode.rcp.build.zigbee_mode=-DZIGBEE_MODE_RCP
XIAO_ESP32C6.menu.ZigbeeMode.rcp.build.zigbee_libs=-lesp_zb_api_rcp -lesp_zb_cli_command -lzboss_stack.rcp -lzboss_port
@ -35981,10 +35982,10 @@ epulse_feather_c6.menu.ZigbeeMode.default.build.zigbee_mode=
epulse_feather_c6.menu.ZigbeeMode.default.build.zigbee_libs=
epulse_feather_c6.menu.ZigbeeMode.ed=Zigbee ED (end device)
epulse_feather_c6.menu.ZigbeeMode.ed.build.zigbee_mode=-DZIGBEE_MODE_ED
epulse_feather_c6.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed.trace -lzboss_stack.ed -lzboss_port
epulse_feather_c6.menu.ZigbeeMode.ed.build.zigbee_libs=-lesp_zb_api_ed -lesp_zb_cli_command -lzboss_stack.ed -lzboss_port
epulse_feather_c6.menu.ZigbeeMode.zczr=Zigbee ZCZR (coordinator)
epulse_feather_c6.menu.ZigbeeMode.zczr.build.zigbee_mode=-DZIGBEE_MODE_ZCZR
epulse_feather_c6.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr.trace -lzboss_stack.zczr -lzboss_port
epulse_feather_c6.menu.ZigbeeMode.zczr.build.zigbee_libs=-lesp_zb_api_zczr -lesp_zb_cli_command -lzboss_stack.zczr -lzboss_port
epulse_feather_c6.menu.ZigbeeMode.rcp=Zigbee RCP (radio co-processor)
epulse_feather_c6.menu.ZigbeeMode.rcp.build.zigbee_mode=-DZIGBEE_MODE_RCP
epulse_feather_c6.menu.ZigbeeMode.rcp.build.zigbee_libs=-lesp_zb_api_rcp -lesp_zb_cli_command -lzboss_stack.rcp -lzboss_port

5
libraries/ESP32/examples/Zigbee/Zigbee_Light_Bulb/README.md
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@ -1,6 +1,6 @@
# Arduino-ESP32 Zigbee Light Bulb Example
This example shows how to configure the Zigbee end device and use it as a HA on/off light bulb.
This example shows how to configure the Zigbee end device and use it as a Home Automation (HA) on/off light bulb.
**This example is based on ESP-Zigbee-SDK example esp_zigbee_HA_sample/HA_on_off_light.**
@ -39,6 +39,9 @@ You can do the following:
* In the Arduino IDE go to the Tools menu and set `Erase All Flash Before Sketch Upload` to `Enabled`
* In the sketch uncomment function `esp_zb_nvram_erase_at_start(true);` located in `esp_zb_task` function.
By default, the coordinator network is open for 180s after rebooting or flashing new firmware. After that, the network is closed for adding new devices.
You can change it by editing `esp_zb_bdb_open_network(180);` in `esp_zb_app_signal_handler` function.
***Important: Make sure you are using a good quality USB cable and that you have a reliable power source***
* **LED not blinking:** Check the wiring connection and the IO selection.

15
libraries/ESP32/examples/Zigbee/Zigbee_Light_Bulb/Zigbee_Light_Bulb.ino
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@ -49,10 +49,10 @@
}
#define ESP_ZB_DEFAULT_RADIO_CONFIG() \
{ .radio_mode = RADIO_MODE_NATIVE, }
{ .radio_mode = ZB_RADIO_MODE_NATIVE, }
#define ESP_ZB_DEFAULT_HOST_CONFIG() \
{ .host_connection_mode = HOST_CONNECTION_MODE_NONE, }
{ .host_connection_mode = ZB_HOST_CONNECTION_MODE_NONE, }
/* Zigbee configuration */
#define INSTALLCODE_POLICY_ENABLE false /* enable the install code policy for security */
@ -78,8 +78,13 @@ void esp_zb_app_signal_handler(esp_zb_app_signal_t *signal_struct) {
case ESP_ZB_BDB_SIGNAL_DEVICE_FIRST_START:
case ESP_ZB_BDB_SIGNAL_DEVICE_REBOOT:
if (err_status == ESP_OK) {
log_i("Start network steering");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_STEERING);
log_i("Device started up in %s factory-reset mode", esp_zb_bdb_is_factory_new() ? "" : "non");
if (esp_zb_bdb_is_factory_new()) {
log_i("Start network formation");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_STEERING);
} else {
log_i("Device rebooted");
}
} else {
/* commissioning failed */
log_w("Failed to initialize Zigbee stack (status: %s)", esp_err_to_name(err_status));
@ -122,7 +127,7 @@ static void esp_zb_task(void *pvParameters) {
esp_zb_set_primary_network_channel_set(ESP_ZB_PRIMARY_CHANNEL_MASK);
//Erase NVRAM before creating connection to new Coordinator
//esp_zb_nvram_erase_at_start(true); //Comment out this line to erase NVRAM data if you are conneting to new Coordinator
esp_zb_nvram_erase_at_start(true); //Comment out this line to erase NVRAM data if you are conneting to new Coordinator
ESP_ERROR_CHECK(esp_zb_start(false));
esp_zb_main_loop_iteration();

5
libraries/ESP32/examples/Zigbee/Zigbee_Light_Switch/README.md
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@ -1,6 +1,6 @@
# Arduino-ESP32 Zigbee Light Switch Example
This example shows how to configure Zigbee Coordinator and use it as an HA on/off light switch.
This example shows how to configure Zigbee Coordinator and use it as a Home Automation (HA) on/off light switch.
**This example is based on ESP-Zigbee-SDK example esp_zigbee_HA_sample/HA_on_off_switch.**
@ -39,6 +39,9 @@ You can do the following:
* In the Arduino IDE go to the Tools menu and set `Erase All Flash Before Sketch Upload` to `Enabled`.
* In the `Zigbee_Light_Bulb` example sketch uncomment function `esp_zb_nvram_erase_at_start(true);` located in `esp_zb_task` function.
By default, the coordinator network is open for 180s after rebooting or flashing new firmware. After that, the network is closed for adding new devices.
You can change it by editing `esp_zb_bdb_open_network(180);` in `esp_zb_app_signal_handler` function.
***Important: Make sure you are using a good quality USB cable and that you have a reliable power source***
* **LED not blinking:** Check the wiring connection and the IO selection.

26
libraries/ESP32/examples/Zigbee/Zigbee_Light_Switch/Zigbee_Light_Switch.ino
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@ -75,10 +75,10 @@ static switch_func_pair_t button_func_pair[] = {{GPIO_INPUT_IO_TOGGLE_SWITCH, SW
}
#define ESP_ZB_DEFAULT_RADIO_CONFIG() \
{ .radio_mode = RADIO_MODE_NATIVE, }
{ .radio_mode = ZB_RADIO_MODE_NATIVE, }
#define ESP_ZB_DEFAULT_HOST_CONFIG() \
{ .host_connection_mode = HOST_CONNECTION_MODE_NONE, }
{ .host_connection_mode = ZB_HOST_CONNECTION_MODE_NONE, }
typedef struct light_bulb_device_params_s {
esp_zb_ieee_addr_t ieee_addr;
@ -92,7 +92,7 @@ typedef struct light_bulb_device_params_s {
#define HA_ONOFF_SWITCH_ENDPOINT 1 /* esp light switch device endpoint */
#define ESP_ZB_PRIMARY_CHANNEL_MASK ESP_ZB_TRANSCEIVER_ALL_CHANNELS_MASK /* Zigbee primary channel mask use in the example */
/********************* Define functions **************************/
/********************* Zigbee functions **************************/
static void esp_zb_buttons_handler(switch_func_pair_t *button_func_pair) {
if (button_func_pair->func == SWITCH_ONOFF_TOGGLE_CONTROL) {
/* implemented light switch toggle functionality */
@ -153,8 +153,15 @@ void esp_zb_app_signal_handler(esp_zb_app_signal_t *signal_struct) {
case ESP_ZB_BDB_SIGNAL_DEVICE_FIRST_START:
case ESP_ZB_BDB_SIGNAL_DEVICE_REBOOT:
if (err_status == ESP_OK) {
log_i("Start network formation");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_FORMATION);
log_i("Device started up in %s factory-reset mode", esp_zb_bdb_is_factory_new() ? "" : "non");
if (esp_zb_bdb_is_factory_new()) {
log_i("Start network formation");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_FORMATION);
} else {
log_i("Device rebooted");
log_i("Openning network for joining for %d seconds", 180);
esp_zb_bdb_open_network(180);
}
} else {
log_e("Failed to initialize Zigbee stack (status: %s)", esp_err_to_name(err_status));
}
@ -187,6 +194,15 @@ void esp_zb_app_signal_handler(esp_zb_app_signal_t *signal_struct) {
cmd_req.addr_of_interest = dev_annce_params->device_short_addr;
esp_zb_zdo_find_on_off_light(&cmd_req, user_find_cb, NULL);
break;
case ESP_ZB_NWK_SIGNAL_PERMIT_JOIN_STATUS:
if (err_status == ESP_OK) {
if (*(uint8_t *)esp_zb_app_signal_get_params(p_sg_p)) {
log_i("Network(0x%04hx) is open for %d seconds", esp_zb_get_pan_id(), *(uint8_t *)esp_zb_app_signal_get_params(p_sg_p));
} else {
log_w("Network(0x%04hx) closed, devices joining not allowed.", esp_zb_get_pan_id());
}
}
break;
default: log_i("ZDO signal: %s (0x%x), status: %s", esp_zb_zdo_signal_to_string(sig_type), sig_type, esp_err_to_name(err_status)); break;
}
}

0
libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/.skip.esp32 Normal file
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libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/.skip.esp32c3 Normal file
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libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/.skip.esp32c6 Normal file
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libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/.skip.esp32h2 Normal file
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libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/.skip.esp32s2 Normal file
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libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/.skip.esp32s3 Normal file
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83
libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/README.md Normal file
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@ -0,0 +1,83 @@
# Arduino-ESP32 Zigbee Temperature Sensor Example
This example shows how to configure the Zigbee end device and use it as a Home Automation (HA) temperature sensor.
**This example is based on ESP-Zigbee-SDK example esp_zigbee_HA_sample/HA_temperature_sensor.**
# Supported Targets
Currently, this example supports the following targets.
| Supported Targets | ESP32-C6 | ESP32-H2 |
| ----------------- | -------- | -------- |
## Temperature Sensor Functions
Note:
* This board means the board (e.g. ESP32-H2) loaded with `Zigbee_Temperature_Sensor` example.
* The remote board means the board (e.g. ESP32-H2) loaded with `Zigbee_Thermostat` example.
Functions:
* After this board first starts up, it would be configured locally to report the temperature on 1 degree change and no periodic reporting to the remote board.
* By clicking the switch button (BOOT) on this board, this board will immediately send a report of the current measured temperature to the remote board.
## Hardware Required
* One development board (ESP32-H2 or ESP32-C6) acting as Zigbee coordinator (loaded with `Zigbee_Thermostat` example)
* A USB cable for power supply and programming
* Choose another board (ESP32-H2 or ESP32-C6) as Zigbee end device (loaded with `Zigbee_Temperature_Sensor` example)
### Configure the Project
In this example, the internal temperature sensor task is reading the chip temperature.
Set the Button Switch GPIO by changing the `GPIO_INPUT_IO_TOGGLE_SWITCH` definition. By default, it's the `GPIO_NUM_9` (BOOT button on ESP32-C6 and ESP32-H2).
#### Using Arduino IDE
To get more information about the Espressif boards see [Espressif Development Kits](https://www.espressif.com/en/products/devkits).
* Before Compile/Verify, select the correct board: `Tools -> Board`.
* Select the End device Zigbee mode: `Tools -> Zigbee mode: Zigbee ED (end device)`
* Select Partition Scheme for Zigbee: `Tools -> Partition Scheme: Zigbee 4MB with spiffs`
* Select the COM port: `Tools -> Port: xxx` where the `xxx` is the detected COM port.
## Troubleshooting
If the End device flashed with this example is not connecting to the coordinator, erase the flash before flashing it to the board. It is recommended to do this if you did changes to the coordinator.
You can do the following:
* In the Arduino IDE go to the Tools menu and set `Erase All Flash Before Sketch Upload` to `Enabled`
* In the sketch uncomment function `esp_zb_nvram_erase_at_start(true);` located in `esp_zb_task` function.
By default, the coordinator network is open for 180s after rebooting or flashing new firmware. After that, the network is closed for adding new devices.
You can change it by editing `esp_zb_bdb_open_network(180);` in `esp_zb_app_signal_handler` function.
***Important: Make sure you are using a good quality USB cable and that you have a reliable power source***
* **LED not blinking:** Check the wiring connection and the IO selection.
* **Programming Fail:** If the programming/flash procedure fails, try reducing the serial connection speed.
* **COM port not detected:** Check the USB cable and the USB to Serial driver installation.
If the error persists, you can ask for help at the official [ESP32 forum](https://esp32.com) or see [Contribute](#contribute).
## Contribute
To know how to contribute to this project, see [How to contribute.](https://github.com/espressif/arduino-esp32/blob/master/CONTRIBUTING.rst)
If you have any **feedback** or **issue** to report on this example/library, please open an issue or fix it by creating a new PR. Contributions are more than welcome!
Before creating a new issue, be sure to try Troubleshooting and check if the same issue was already created by someone else.
## Resources
The ESP Zigbee SDK provides more examples:
* ESP Zigbee SDK Docs: [Link](https://docs.espressif.com/projects/esp-zigbee-sdk)
* ESP Zigbee SDK Repo: [Link](https://github.com/espressif/esp-zigbee-sdk)
* Official ESP32 Forum: [Link](https://esp32.com)
* Arduino-ESP32 Official Repository: [espressif/arduino-esp32](https://github.com/espressif/arduino-esp32)
* ESP32 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32_datasheet_en.pdf)
* ESP32-S2 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-s2_datasheet_en.pdf)
* ESP32-C3 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-c3_datasheet_en.pdf)
* ESP32-S3 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-s3_datasheet_en.pdf)
* Official ESP-IDF documentation: [ESP-IDF](https://idf.espressif.com)

349
libraries/ESP32/examples/Zigbee/Zigbee_Temperature_Sensor/Zigbee_Temperature_Sensor.ino Normal file
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@ -0,0 +1,349 @@
// Copyright 2024 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/**
* @brief This example demonstrates simple Zigbee temperature sensor.
*
* The example demonstrates how to use ESP Zigbee stack to create a end device temperatu sensor.
* The temperature sensor is a Zigbee end device, which is controlled by a Zigbee coordinator.
*
* Proper Zigbee mode must be selected in Tools->Zigbee mode
* and also the correct partition scheme must be selected in Tools->Partition Scheme.
*
* Please check the README.md for instructions and more detailed description.
*/
#ifndef ZIGBEE_MODE_ED
#error "Zigbee end device mode is not selected in Tools->Zigbee mode"
#endif
#include "esp_zigbee_core.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "ha/esp_zigbee_ha_standard.h"
/* Switch configuration */
#define GPIO_INPUT_IO_TOGGLE_SWITCH GPIO_NUM_9
#define PAIR_SIZE(TYPE_STR_PAIR) (sizeof(TYPE_STR_PAIR) / sizeof(TYPE_STR_PAIR[0]))
typedef enum {
SWITCH_ON_CONTROL,
SWITCH_OFF_CONTROL,
SWITCH_ONOFF_TOGGLE_CONTROL,
SWITCH_LEVEL_UP_CONTROL,
SWITCH_LEVEL_DOWN_CONTROL,
SWITCH_LEVEL_CYCLE_CONTROL,
SWITCH_COLOR_CONTROL,
} switch_func_t;
typedef struct {
uint8_t pin;
switch_func_t func;
} switch_func_pair_t;
typedef enum {
SWITCH_IDLE,
SWITCH_PRESS_ARMED,
SWITCH_PRESS_DETECTED,
SWITCH_PRESSED,
SWITCH_RELEASE_DETECTED,
} switch_state_t;
static switch_func_pair_t button_func_pair[] = {{GPIO_INPUT_IO_TOGGLE_SWITCH, SWITCH_ONOFF_TOGGLE_CONTROL}};
/* Default End Device config */
#define ESP_ZB_ZED_CONFIG() \
{ \
.esp_zb_role = ESP_ZB_DEVICE_TYPE_ED, .install_code_policy = INSTALLCODE_POLICY_ENABLE, \
.nwk_cfg = { \
.zed_cfg = \
{ \
.ed_timeout = ED_AGING_TIMEOUT, \
.keep_alive = ED_KEEP_ALIVE, \
}, \
}, \
}
#define ESP_ZB_DEFAULT_RADIO_CONFIG() \
{ .radio_mode = ZB_RADIO_MODE_NATIVE, }
#define ESP_ZB_DEFAULT_HOST_CONFIG() \
{ .host_connection_mode = ZB_HOST_CONNECTION_MODE_NONE, }
/* Zigbee configuration */
#define INSTALLCODE_POLICY_ENABLE false /* enable the install code policy for security */
#define ED_AGING_TIMEOUT ESP_ZB_ED_AGING_TIMEOUT_64MIN
#define ED_KEEP_ALIVE 3000 /* 3000 millisecond */
#define HA_ESP_SENSOR_ENDPOINT 10 /* esp temperature sensor device endpoint, used for temperature measurement */
#define ESP_ZB_PRIMARY_CHANNEL_MASK ESP_ZB_TRANSCEIVER_ALL_CHANNELS_MASK /* Zigbee primary channel mask use in the example */
/* Temperature sensor configuration */
#define ESP_TEMP_SENSOR_UPDATE_INTERVAL (1) /* Local sensor update interval (second) */
#define ESP_TEMP_SENSOR_MIN_VALUE (10) /* Local sensor min measured value (degree Celsius) */
#define ESP_TEMP_SENSOR_MAX_VALUE (50) /* Local sensor max measured value (degree Celsius) */
/* Attribute values in ZCL string format
* The string should be started with the length of its own.
*/
#define MANUFACTURER_NAME \
"\x0B" \
"ESPRESSIF"
#define MODEL_IDENTIFIER "\x09" CONFIG_IDF_TARGET
/********************* Zigbee functions **************************/
static int16_t zb_temperature_to_s16(float temp) {
return (int16_t)(temp * 100);
}
static void esp_zb_buttons_handler(switch_func_pair_t *button_func_pair) {
if (button_func_pair->func == SWITCH_ONOFF_TOGGLE_CONTROL) {
/* Send report attributes command */
esp_zb_zcl_report_attr_cmd_t report_attr_cmd;
report_attr_cmd.address_mode = ESP_ZB_APS_ADDR_MODE_DST_ADDR_ENDP_NOT_PRESENT;
report_attr_cmd.attributeID = ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_VALUE_ID;
report_attr_cmd.cluster_role = ESP_ZB_ZCL_CLUSTER_SERVER_ROLE;
report_attr_cmd.clusterID = ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT;
report_attr_cmd.zcl_basic_cmd.src_endpoint = HA_ESP_SENSOR_ENDPOINT;
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_report_attr_cmd_req(&report_attr_cmd);
esp_zb_lock_release();
log_i("Send 'report attributes' command");
}
}
static void esp_app_temp_sensor_handler(float temperature) {
int16_t measured_value = zb_temperature_to_s16(temperature);
Serial.println("Updating temperature sensor value...");
Serial.println(measured_value);
/* Update temperature sensor measured value */
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_set_attribute_val(
HA_ESP_SENSOR_ENDPOINT, ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_VALUE_ID, &measured_value,
false
);
esp_zb_lock_release();
}
static void bdb_start_top_level_commissioning_cb(uint8_t mode_mask) {
ESP_ERROR_CHECK(esp_zb_bdb_start_top_level_commissioning(mode_mask));
}
void esp_zb_app_signal_handler(esp_zb_app_signal_t *signal_struct) {
uint32_t *p_sg_p = signal_struct->p_app_signal;
esp_err_t err_status = signal_struct->esp_err_status;
esp_zb_app_signal_type_t sig_type = (esp_zb_app_signal_type_t)*p_sg_p;
switch (sig_type) {
case ESP_ZB_ZDO_SIGNAL_SKIP_STARTUP:
log_i("Zigbee stack initialized");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_INITIALIZATION);
break;
case ESP_ZB_BDB_SIGNAL_DEVICE_FIRST_START:
case ESP_ZB_BDB_SIGNAL_DEVICE_REBOOT:
if (err_status == ESP_OK) {
log_i("Start network steering");
log_i("Device started up in %s factory-reset mode", esp_zb_bdb_is_factory_new() ? "" : "non");
// Start Temperature sensor reading task
xTaskCreate(temp_sensor_value_update, "temp_sensor_update", 2048, NULL, 10, NULL);
if (esp_zb_bdb_is_factory_new()) {
log_i("Start network steering");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_STEERING);
} else {
log_i("Device rebooted");
}
} else {
/* commissioning failed */
log_w("Failed to initialize Zigbee stack (status: %s)", esp_err_to_name(err_status));
}
break;
case ESP_ZB_BDB_SIGNAL_STEERING:
if (err_status == ESP_OK) {
esp_zb_ieee_addr_t extended_pan_id;
esp_zb_get_extended_pan_id(extended_pan_id);
log_i(
"Joined network successfully (Extended PAN ID: %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x, PAN ID: 0x%04hx, Channel:%d, Short Address: 0x%04hx)",
extended_pan_id[7], extended_pan_id[6], extended_pan_id[5], extended_pan_id[4], extended_pan_id[3], extended_pan_id[2], extended_pan_id[1],
extended_pan_id[0], esp_zb_get_pan_id(), esp_zb_get_current_channel(), esp_zb_get_short_address()
);
} else {
log_i("Network steering was not successful (status: %s)", esp_err_to_name(err_status));
esp_zb_scheduler_alarm((esp_zb_callback_t)bdb_start_top_level_commissioning_cb, ESP_ZB_BDB_MODE_NETWORK_STEERING, 1000);
}
break;
default: log_i("ZDO signal: %s (0x%x), status: %s", esp_zb_zdo_signal_to_string(sig_type), sig_type, esp_err_to_name(err_status)); break;
}
}
static esp_zb_cluster_list_t *custom_temperature_sensor_clusters_create(esp_zb_temperature_sensor_cfg_t *temperature_sensor) {
esp_zb_cluster_list_t *cluster_list = esp_zb_zcl_cluster_list_create();
esp_zb_attribute_list_t *basic_cluster = esp_zb_basic_cluster_create(&(temperature_sensor->basic_cfg));
ESP_ERROR_CHECK(esp_zb_basic_cluster_add_attr(basic_cluster, ESP_ZB_ZCL_ATTR_BASIC_MANUFACTURER_NAME_ID, (void *)MANUFACTURER_NAME));
ESP_ERROR_CHECK(esp_zb_basic_cluster_add_attr(basic_cluster, ESP_ZB_ZCL_ATTR_BASIC_MODEL_IDENTIFIER_ID, (void *)MODEL_IDENTIFIER));
ESP_ERROR_CHECK(esp_zb_cluster_list_add_basic_cluster(cluster_list, basic_cluster, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE));
ESP_ERROR_CHECK(
esp_zb_cluster_list_add_identify_cluster(cluster_list, esp_zb_identify_cluster_create(&(temperature_sensor->identify_cfg)), ESP_ZB_ZCL_CLUSTER_SERVER_ROLE)
);
ESP_ERROR_CHECK(
esp_zb_cluster_list_add_identify_cluster(cluster_list, esp_zb_zcl_attr_list_create(ESP_ZB_ZCL_CLUSTER_ID_IDENTIFY), ESP_ZB_ZCL_CLUSTER_CLIENT_ROLE)
);
ESP_ERROR_CHECK(esp_zb_cluster_list_add_temperature_meas_cluster(
cluster_list, esp_zb_temperature_meas_cluster_create(&(temperature_sensor->temp_meas_cfg)), ESP_ZB_ZCL_CLUSTER_SERVER_ROLE
));
return cluster_list;
}
static esp_zb_ep_list_t *custom_temperature_sensor_ep_create(uint8_t endpoint_id, esp_zb_temperature_sensor_cfg_t *temperature_sensor) {
esp_zb_ep_list_t *ep_list = esp_zb_ep_list_create();
esp_zb_endpoint_config_t endpoint_config = {
.endpoint = endpoint_id, .app_profile_id = ESP_ZB_AF_HA_PROFILE_ID, .app_device_id = ESP_ZB_HA_TEMPERATURE_SENSOR_DEVICE_ID, .app_device_version = 0
};
esp_zb_ep_list_add_ep(ep_list, custom_temperature_sensor_clusters_create(temperature_sensor), endpoint_config);
return ep_list;
}
static void esp_zb_task(void *pvParameters) {
esp_zb_cfg_t zb_nwk_cfg = ESP_ZB_ZED_CONFIG();
esp_zb_init(&zb_nwk_cfg);
/* Create customized temperature sensor endpoint */
esp_zb_temperature_sensor_cfg_t sensor_cfg = ESP_ZB_DEFAULT_TEMPERATURE_SENSOR_CONFIG();
/* Set (Min|Max)MeasuredValure */
sensor_cfg.temp_meas_cfg.min_value = zb_temperature_to_s16(ESP_TEMP_SENSOR_MIN_VALUE);
sensor_cfg.temp_meas_cfg.max_value = zb_temperature_to_s16(ESP_TEMP_SENSOR_MAX_VALUE);
esp_zb_ep_list_t *esp_zb_sensor_ep = custom_temperature_sensor_ep_create(HA_ESP_SENSOR_ENDPOINT, &sensor_cfg);
/* Register the device */
esp_zb_device_register(esp_zb_sensor_ep);
/* Config the reporting info */
esp_zb_zcl_reporting_info_t reporting_info = {
.direction = ESP_ZB_ZCL_CMD_DIRECTION_TO_SRV,
.ep = HA_ESP_SENSOR_ENDPOINT,
.cluster_id = ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT,
.cluster_role = ESP_ZB_ZCL_CLUSTER_SERVER_ROLE,
.attr_id = ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_VALUE_ID,
.u =
{
.send_info =
{
.min_interval = 1,
.max_interval = 0,
.delta =
{
.u16 = 100,
},
.def_min_interval = 1,
.def_max_interval = 0,
},
},
.dst =
{
.profile_id = ESP_ZB_AF_HA_PROFILE_ID,
},
.manuf_code = ESP_ZB_ZCL_ATTR_NON_MANUFACTURER_SPECIFIC,
};
esp_zb_zcl_update_reporting_info(&reporting_info);
esp_zb_set_primary_network_channel_set(ESP_ZB_PRIMARY_CHANNEL_MASK);
//Erase NVRAM before creating connection to new Coordinator
//esp_zb_nvram_erase_at_start(true); //Comment out this line to erase NVRAM data if you are conneting to new Coordinator
ESP_ERROR_CHECK(esp_zb_start(false));
esp_zb_main_loop_iteration();
}
/********************* GPIO functions **************************/
static QueueHandle_t gpio_evt_queue = NULL;
static void IRAM_ATTR gpio_isr_handler(void *arg) {
xQueueSendFromISR(gpio_evt_queue, (switch_func_pair_t *)arg, NULL);
}
static void switch_gpios_intr_enabled(bool enabled) {
for (int i = 0; i < PAIR_SIZE(button_func_pair); ++i) {
if (enabled) {
enableInterrupt((button_func_pair[i]).pin);
} else {
disableInterrupt((button_func_pair[i]).pin);
}
}
}
/************************ Temp sensor *****************************/
static void temp_sensor_value_update(void *arg) {
for (;;) {
float tsens_value = temperatureRead();
esp_app_temp_sensor_handler(tsens_value);
delay(1000);
}
}
/********************* Arduino functions **************************/
void setup() {
Serial.begin(115200);
// Init Zigbee
esp_zb_platform_config_t config = {
.radio_config = ESP_ZB_DEFAULT_RADIO_CONFIG(),
.host_config = ESP_ZB_DEFAULT_HOST_CONFIG(),
};
ESP_ERROR_CHECK(esp_zb_platform_config(&config));
// Init button switch
for (int i = 0; i < PAIR_SIZE(button_func_pair); i++) {
pinMode(button_func_pair[i].pin, INPUT_PULLUP);
/* create a queue to handle gpio event from isr */
gpio_evt_queue = xQueueCreate(10, sizeof(switch_func_pair_t));
if (gpio_evt_queue == 0) {
log_e("Queue was not created and must not be used");
while (1);
}
attachInterruptArg(button_func_pair[i].pin, gpio_isr_handler, (void *)(button_func_pair + i), FALLING);
}
// Start Zigbee task
xTaskCreate(esp_zb_task, "Zigbee_main", 4096, NULL, 5, NULL);
}
void loop() {
// Handle button switch in loop()
uint8_t pin = 0;
switch_func_pair_t button_func_pair;
static switch_state_t switch_state = SWITCH_IDLE;
bool evt_flag = false;
float temperature;
/* check if there is any queue received, if yes read out the button_func_pair */
if (xQueueReceive(gpio_evt_queue, &button_func_pair, portMAX_DELAY)) {
pin = button_func_pair.pin;
switch_gpios_intr_enabled(false);
evt_flag = true;
}
while (evt_flag) {
bool value = digitalRead(pin);
switch (switch_state) {
case SWITCH_IDLE: switch_state = (value == LOW) ? SWITCH_PRESS_DETECTED : SWITCH_IDLE; break;
case SWITCH_PRESS_DETECTED: switch_state = (value == LOW) ? SWITCH_PRESS_DETECTED : SWITCH_RELEASE_DETECTED; break;
case SWITCH_RELEASE_DETECTED:
switch_state = SWITCH_IDLE;
/* callback to button_handler */
(*esp_zb_buttons_handler)(&button_func_pair);
break;
default: break;
}
if (switch_state == SWITCH_IDLE) {
switch_gpios_intr_enabled(true);
evt_flag = false;
break;
}
delay(10);
}
}

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# Arduino-ESP32 Zigbee Thermostat Example
This example shows how to configure Zigbee Coordinator and use it as a Home Automation (HA) thermostat.
**This example is based on ESP-Zigbee-SDK example esp_zigbee_HA_sample/HA_thermostat.**
# Supported Targets
Currently, this example supports the following targets.
| Supported Targets | ESP32-C6 | ESP32-H2 |
| ----------------- | -------- | -------- |
## Thermostat Functions
Note:
* This board means the board (e.g. ESP32-H2) loaded with `Zigbee_Thermostat` example.
* The remote board means the board (e.g. ESP32-H2) loaded with `Zigbee_Temperature_Sensor` example.
Functions:
* By clicking the switch button (BOOT) on this board, this board will read temperature value, temperature measurement range and temperature tolerance from the remote board. Also, this board will configure the remote board to report the measured temperature value every 10 seconds or every 2 degree changes.
## Hardware Required
* One development board (ESP32-H2 or ESP32-C6) acting as Zigbee end device (loaded with Zigbee_Temperature_Sensor example).
* A USB cable for power supply and programming.
* Choose another board (ESP32-H2 or ESP32-C6) as Zigbee coordinator (loaded with Zigbee_Thermostat example).
### Configure the Project
Set the Button Switch GPIO by changing the `GPIO_INPUT_IO_TOGGLE_SWITCH` definition. By default, it's the `GPIO_NUM_9` (BOOT button on ESP32-C6 and ESP32-H2).
#### Using Arduino IDE
To get more information about the Espressif boards see [Espressif Development Kits](https://www.espressif.com/en/products/devkits).
* Before Compile/Verify, select the correct board: `Tools -> Board`.
* Select the Coordinator Zigbee mode: `Tools -> Zigbee mode: Zigbee ZCZR (coordinator)`.
* Select Partition Scheme for Zigbee: `Tools -> Partition Scheme: Zigbee 4MB with spiffs`.
* Select the COM port: `Tools -> Port: xxx where the `xxx` is the detected COM port.
* Optional: Set debug level to info to see logs from Zigbee stack: `Tools -> Core Debug Level: Info`.
## Troubleshooting
If the End device flashed with the example `Zigbee_Temperature_Sensor` is not connecting to the coordinator, erase the flash of the End device before flashing the example to the board. It is recommended to do this if you re-flash the coordinator.
You can do the following:
* In the Arduino IDE go to the Tools menu and set `Erase All Flash Before Sketch Upload` to `Enabled`.
* In the `Zigbee_Temperature_Sensor` example sketch uncomment function `esp_zb_nvram_erase_at_start(true);` located in `esp_zb_task` function.
By default, the coordinator network is open for 180s after rebooting or flashing new firmware. After that, the network is closed for adding new devices.
You can change it by editing `esp_zb_bdb_open_network(180);` in `esp_zb_app_signal_handler` function.
***Important: Make sure you are using a good quality USB cable and that you have a reliable power source***
* **LED not blinking:** Check the wiring connection and the IO selection.
* **Programming Fail:** If the programming/flash procedure fails, try reducing the serial connection speed.
* **COM port not detected:** Check the USB cable and the USB to Serial driver installation.
If the error persists, you can ask for help at the official [ESP32 forum](https://esp32.com) or see [Contribute](#contribute).
## Contribute
To know how to contribute to this project, see [How to contribute.](https://github.com/espressif/arduino-esp32/blob/master/CONTRIBUTING.rst)
If you have any **feedback** or **issue** to report on this example/library, please open an issue or fix it by creating a new PR. Contributions are more than welcome!
Before creating a new issue, be sure to try Troubleshooting and check if the same issue was already created by someone else.
## Resources
The ESP Zigbee SDK provides more examples:
* ESP Zigbee SDK Docs: [Link](https://docs.espressif.com/projects/esp-zigbee-sdk)
* ESP Zigbee SDK Repo: [Link](https://github.com/espressif/esp-zigbee-sdk)
* Official ESP32 Forum: [Link](https://esp32.com)
* Arduino-ESP32 Official Repository: [espressif/arduino-esp32](https://github.com/espressif/arduino-esp32)
* ESP32 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32_datasheet_en.pdf)
* ESP32-S2 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-s2_datasheet_en.pdf)
* ESP32-C3 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-c3_datasheet_en.pdf)
* ESP32-S3 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-s3_datasheet_en.pdf)
* Official ESP-IDF documentation: [ESP-IDF](https://idf.espressif.com)

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// Copyright 2024 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/**
* @brief This example demonstrates simple Zigbee thermostat.
*
* The example demonstrates how to use ESP Zigbee stack to get data from temperature
* sensor end device and act as an thermostat.
* The temperature sensor is a Zigbee end device, which is controlled by a Zigbee coordinator (thermostat).
* Button switch and Zigbee runs in separate tasks.
*
* Proper Zigbee mode must be selected in Tools->Zigbee mode
* and also the correct partition scheme must be selected in Tools->Partition Scheme.
*
* Please check the README.md for instructions and more detailed description.
*/
#ifndef ZIGBEE_MODE_ZCZR
#error "Zigbee coordinator mode is not selected in Tools->Zigbee mode"
#endif
#include "esp_zigbee_core.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "ha/esp_zigbee_ha_standard.h"
#define ARRAY_LENTH(arr) (sizeof(arr) / sizeof(arr[0]))
/* Switch configuration */
#define GPIO_INPUT_IO_TOGGLE_SWITCH GPIO_NUM_9
#define PAIR_SIZE(TYPE_STR_PAIR) (sizeof(TYPE_STR_PAIR) / sizeof(TYPE_STR_PAIR[0]))
typedef enum {
SWITCH_ON_CONTROL,
SWITCH_OFF_CONTROL,
SWITCH_ONOFF_TOGGLE_CONTROL,
SWITCH_LEVEL_UP_CONTROL,
SWITCH_LEVEL_DOWN_CONTROL,
SWITCH_LEVEL_CYCLE_CONTROL,
SWITCH_COLOR_CONTROL,
} switch_func_t;
typedef struct {
uint8_t pin;
switch_func_t func;
} switch_func_pair_t;
typedef enum {
SWITCH_IDLE,
SWITCH_PRESS_ARMED,
SWITCH_PRESS_DETECTED,
SWITCH_PRESSED,
SWITCH_RELEASE_DETECTED,
} switch_state_t;
static switch_func_pair_t button_func_pair[] = {{GPIO_INPUT_IO_TOGGLE_SWITCH, SWITCH_ONOFF_TOGGLE_CONTROL}};
/* Default Coordinator config */
#define ESP_ZB_ZC_CONFIG() \
{ \
.esp_zb_role = ESP_ZB_DEVICE_TYPE_COORDINATOR, .install_code_policy = INSTALLCODE_POLICY_ENABLE, .nwk_cfg = { \
.zczr_cfg = \
{ \
.max_children = MAX_CHILDREN, \
}, \
} \
}
#define ESP_ZB_DEFAULT_RADIO_CONFIG() \
{ .radio_mode = ZB_RADIO_MODE_NATIVE, }
#define ESP_ZB_DEFAULT_HOST_CONFIG() \
{ .host_connection_mode = ZB_HOST_CONNECTION_MODE_NONE, }
/* Temperature sensor device parameters */
typedef struct temp_sensor_device_params_s {
esp_zb_ieee_addr_t ieee_addr;
uint8_t endpoint;
uint16_t short_addr;
} temp_sensor_device_params_t;
typedef struct zbstring_s {
uint8_t len;
char data[];
} ESP_ZB_PACKED_STRUCT zbstring_t;
static temp_sensor_device_params_t temp_sensor;
/* Zigbee configuration */
#define MAX_CHILDREN 10 /* the max amount of connected devices */
#define INSTALLCODE_POLICY_ENABLE false /* enable the install code policy for security */
#define HA_THERMOSTAT_ENDPOINT 1 /* esp light switch device endpoint */
#define ESP_ZB_PRIMARY_CHANNEL_MASK ESP_ZB_TRANSCEIVER_ALL_CHANNELS_MASK /* Zigbee primary channel mask use in the example */
/* Attribute values in ZCL string format
* The string should be started with the length of its own.
*/
#define MANUFACTURER_NAME \
"\x0B" \
"ESPRESSIF"
#define MODEL_IDENTIFIER "\x09" CONFIG_IDF_TARGET
/********************* Zigbee functions **************************/
static float zb_s16_to_temperature(int16_t value) {
return 1.0 * value / 100;
}
static void esp_zb_buttons_handler(switch_func_pair_t *button_func_pair) {
if (button_func_pair->func == SWITCH_ONOFF_TOGGLE_CONTROL) {
/* Send "read attributes" command to the bound sensor */
esp_zb_zcl_read_attr_cmd_t read_req;
read_req.address_mode = ESP_ZB_APS_ADDR_MODE_DST_ADDR_ENDP_NOT_PRESENT;
read_req.zcl_basic_cmd.src_endpoint = HA_THERMOSTAT_ENDPOINT;
read_req.clusterID = ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT;
uint16_t attributes[] = {
ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_VALUE_ID, ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_MIN_VALUE_ID, ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_MAX_VALUE_ID,
ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_TOLERANCE_ID
};
read_req.attr_number = ARRAY_LENTH(attributes);
read_req.attr_field = attributes;
/* Send "configure report attribute" command to the bound sensor */
esp_zb_zcl_config_report_cmd_t report_cmd;
report_cmd.address_mode = ESP_ZB_APS_ADDR_MODE_DST_ADDR_ENDP_NOT_PRESENT;
report_cmd.zcl_basic_cmd.src_endpoint = HA_THERMOSTAT_ENDPOINT;
report_cmd.clusterID = ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT;
int16_t report_change = 200; /* report on each 2 degree changes */
esp_zb_zcl_config_report_record_t records[] = {
{
.direction = ESP_ZB_ZCL_CMD_DIRECTION_TO_SRV,
.attributeID = ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_VALUE_ID,
.attrType = ESP_ZB_ZCL_ATTR_TYPE_S16,
.min_interval = 0,
.max_interval = 10,
.reportable_change = &report_change,
},
};
report_cmd.record_number = ARRAY_LENTH(records);
report_cmd.record_field = records;
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_config_report_cmd_req(&report_cmd);
esp_zb_lock_release();
log_i("Send 'configure reporting' command");
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_read_attr_cmd_req(&read_req);
esp_zb_lock_release();
log_i("Send 'read attributes' command");
}
}
static void bdb_start_top_level_commissioning_cb(uint8_t mode_mask) {
ESP_ERROR_CHECK(esp_zb_bdb_start_top_level_commissioning(mode_mask));
}
static void bind_cb(esp_zb_zdp_status_t zdo_status, void *user_ctx) {
esp_zb_zdo_bind_req_param_t *bind_req = (esp_zb_zdo_bind_req_param_t *)user_ctx;
if (zdo_status == ESP_ZB_ZDP_STATUS_SUCCESS) {
/* Local binding succeeds */
if (bind_req->req_dst_addr == esp_zb_get_short_address()) {
log_i("Successfully bind the temperature sensor from address(0x%x) on endpoint(%d)", temp_sensor.short_addr, temp_sensor.endpoint);
/* Read peer Manufacture Name & Model Identifier */
esp_zb_zcl_read_attr_cmd_t read_req;
read_req.address_mode = ESP_ZB_APS_ADDR_MODE_16_ENDP_PRESENT;
read_req.zcl_basic_cmd.src_endpoint = HA_THERMOSTAT_ENDPOINT;
read_req.zcl_basic_cmd.dst_endpoint = temp_sensor.endpoint;
read_req.zcl_basic_cmd.dst_addr_u.addr_short = temp_sensor.short_addr;
read_req.clusterID = ESP_ZB_ZCL_CLUSTER_ID_BASIC;
uint16_t attributes[] = {
ESP_ZB_ZCL_ATTR_BASIC_MANUFACTURER_NAME_ID,
ESP_ZB_ZCL_ATTR_BASIC_MODEL_IDENTIFIER_ID,
};
read_req.attr_number = ARRAY_LENTH(attributes);
read_req.attr_field = attributes;
esp_zb_zcl_read_attr_cmd_req(&read_req);
}
if (bind_req->req_dst_addr == temp_sensor.short_addr) {
log_i("The temperature sensor from address(0x%x) on endpoint(%d) successfully binds us", temp_sensor.short_addr, temp_sensor.endpoint);
}
free(bind_req);
} else {
/* Bind failed, maybe retry the binding ? */
// esp_zb_zdo_device_bind_req(bind_req, bind_cb, bind_req);
}
}
static void user_find_cb(esp_zb_zdp_status_t zdo_status, uint16_t addr, uint8_t endpoint, void *user_ctx) {
if (zdo_status == ESP_ZB_ZDP_STATUS_SUCCESS) {
log_i("Found temperature sensor");
/* Store the information of the remote device */
temp_sensor_device_params_t *sensor = (temp_sensor_device_params_t *)user_ctx;
sensor->endpoint = endpoint;
sensor->short_addr = addr;
esp_zb_ieee_address_by_short(sensor->short_addr, sensor->ieee_addr);
log_d("Temperature sensor found: short address(0x%x), endpoint(%d)", sensor->short_addr, sensor->endpoint);
/* 1. Send binding request to the sensor */
esp_zb_zdo_bind_req_param_t *bind_req = (esp_zb_zdo_bind_req_param_t *)calloc(sizeof(esp_zb_zdo_bind_req_param_t), 1);
bind_req->req_dst_addr = addr;
log_d("Request temperature sensor to bind us");
/* populate the src information of the binding */
memcpy(bind_req->src_address, sensor->ieee_addr, sizeof(esp_zb_ieee_addr_t));
bind_req->src_endp = endpoint;
bind_req->cluster_id = ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT;
log_d("Bind temperature sensor");
/* populate the dst information of the binding */
bind_req->dst_addr_mode = ESP_ZB_ZDO_BIND_DST_ADDR_MODE_64_BIT_EXTENDED;
esp_zb_get_long_address(bind_req->dst_address_u.addr_long);
bind_req->dst_endp = HA_THERMOSTAT_ENDPOINT;
log_i("Request temperature sensor to bind us");
esp_zb_zdo_device_bind_req(bind_req, bind_cb, bind_req);
/* 2. Send binding request to self */
bind_req = (esp_zb_zdo_bind_req_param_t *)calloc(sizeof(esp_zb_zdo_bind_req_param_t), 1);
bind_req->req_dst_addr = esp_zb_get_short_address();
/* populate the src information of the binding */
esp_zb_get_long_address(bind_req->src_address);
bind_req->src_endp = HA_THERMOSTAT_ENDPOINT;
bind_req->cluster_id = ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT;
/* populate the dst information of the binding */
bind_req->dst_addr_mode = ESP_ZB_ZDO_BIND_DST_ADDR_MODE_64_BIT_EXTENDED;
memcpy(bind_req->dst_address_u.addr_long, sensor->ieee_addr, sizeof(esp_zb_ieee_addr_t));
bind_req->dst_endp = endpoint;
log_i("Bind temperature sensor");
esp_zb_zdo_device_bind_req(bind_req, bind_cb, bind_req);
}
}
static void find_temperature_sensor(esp_zb_zdo_match_desc_req_param_t *param, esp_zb_zdo_match_desc_callback_t user_cb, void *user_ctx) {
uint16_t cluster_list[] = {ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT};
param->profile_id = ESP_ZB_AF_HA_PROFILE_ID;
param->num_in_clusters = 1;
param->num_out_clusters = 0;
param->cluster_list = cluster_list;
esp_zb_zdo_match_cluster(param, user_cb, (void *)&temp_sensor);
}
void esp_zb_app_signal_handler(esp_zb_app_signal_t *signal_struct) {
uint32_t *p_sg_p = signal_struct->p_app_signal;
esp_err_t err_status = signal_struct->esp_err_status;
esp_zb_app_signal_type_t sig_type = (esp_zb_app_signal_type_t)*p_sg_p;
esp_zb_zdo_signal_device_annce_params_t *dev_annce_params = NULL;
switch (sig_type) {
case ESP_ZB_ZDO_SIGNAL_SKIP_STARTUP:
log_i("Zigbee stack initialized");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_INITIALIZATION);
break;
case ESP_ZB_BDB_SIGNAL_DEVICE_FIRST_START:
case ESP_ZB_BDB_SIGNAL_DEVICE_REBOOT:
if (err_status == ESP_OK) {
log_i("Device started up in %s factory-reset mode", esp_zb_bdb_is_factory_new() ? "" : "non");
if (esp_zb_bdb_is_factory_new()) {
log_i("Start network formation");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_FORMATION);
} else {
log_i("Device rebooted");
log_i("Openning network for joining for %d seconds", 180);
esp_zb_bdb_open_network(180);
}
} else {
log_e("Failed to initialize Zigbee stack (status: %s)", esp_err_to_name(err_status));
}
break;
case ESP_ZB_BDB_SIGNAL_FORMATION:
if (err_status == ESP_OK) {
esp_zb_ieee_addr_t extended_pan_id;
esp_zb_get_extended_pan_id(extended_pan_id);
log_i(
"Formed network successfully (Extended PAN ID: %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x, PAN ID: 0x%04hx, Channel:%d, Short Address: 0x%04hx)",
extended_pan_id[7], extended_pan_id[6], extended_pan_id[5], extended_pan_id[4], extended_pan_id[3], extended_pan_id[2], extended_pan_id[1],
extended_pan_id[0], esp_zb_get_pan_id(), esp_zb_get_current_channel(), esp_zb_get_short_address()
);
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_STEERING);
} else {
log_i("Restart network formation (status: %s)", esp_err_to_name(err_status));
esp_zb_scheduler_alarm((esp_zb_callback_t)bdb_start_top_level_commissioning_cb, ESP_ZB_BDB_MODE_NETWORK_FORMATION, 1000);
}
break;
case ESP_ZB_BDB_SIGNAL_STEERING:
if (err_status == ESP_OK) {
log_i("Network steering started");
}
break;
case ESP_ZB_ZDO_SIGNAL_DEVICE_ANNCE:
dev_annce_params = (esp_zb_zdo_signal_device_annce_params_t *)esp_zb_app_signal_get_params(p_sg_p);
log_i("New device commissioned or rejoined (short: 0x%04hx)", dev_annce_params->device_short_addr);
esp_zb_zdo_match_desc_req_param_t cmd_req;
cmd_req.dst_nwk_addr = dev_annce_params->device_short_addr;
cmd_req.addr_of_interest = dev_annce_params->device_short_addr;
find_temperature_sensor(&cmd_req, user_find_cb, NULL);
break;
case ESP_ZB_NWK_SIGNAL_PERMIT_JOIN_STATUS:
if (err_status == ESP_OK) {
if (*(uint8_t *)esp_zb_app_signal_get_params(p_sg_p)) {
log_i("Network(0x%04hx) is open for %d seconds", esp_zb_get_pan_id(), *(uint8_t *)esp_zb_app_signal_get_params(p_sg_p));
} else {
log_w("Network(0x%04hx) closed, devices joining not allowed.", esp_zb_get_pan_id());
}
}
break;
default: log_i("ZDO signal: %s (0x%x), status: %s", esp_zb_zdo_signal_to_string(sig_type), sig_type, esp_err_to_name(err_status)); break;
}
}
static void esp_app_zb_attribute_handler(uint16_t cluster_id, const esp_zb_zcl_attribute_t *attribute) {
/* Basic cluster attributes */
if (cluster_id == ESP_ZB_ZCL_CLUSTER_ID_BASIC) {
if (attribute->id == ESP_ZB_ZCL_ATTR_BASIC_MANUFACTURER_NAME_ID && attribute->data.type == ESP_ZB_ZCL_ATTR_TYPE_CHAR_STRING && attribute->data.value) {
zbstring_t *zbstr = (zbstring_t *)attribute->data.value;
char *string = (char *)malloc(zbstr->len + 1);
memcpy(string, zbstr->data, zbstr->len);
string[zbstr->len] = '\0';
log_i("Peer Manufacturer is \"%s\"", string);
free(string);
}
if (attribute->id == ESP_ZB_ZCL_ATTR_BASIC_MODEL_IDENTIFIER_ID && attribute->data.type == ESP_ZB_ZCL_ATTR_TYPE_CHAR_STRING && attribute->data.value) {
zbstring_t *zbstr = (zbstring_t *)attribute->data.value;
char *string = (char *)malloc(zbstr->len + 1);
memcpy(string, zbstr->data, zbstr->len);
string[zbstr->len] = '\0';
log_i("Peer Model is \"%s\"", string);
free(string);
}
}
/* Temperature Measurement cluster attributes */
if (cluster_id == ESP_ZB_ZCL_CLUSTER_ID_TEMP_MEASUREMENT) {
if (attribute->id == ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_VALUE_ID && attribute->data.type == ESP_ZB_ZCL_ATTR_TYPE_S16) {
int16_t value = attribute->data.value ? *(int16_t *)attribute->data.value : 0;
log_i("Measured Value is %.2f degrees Celsius", zb_s16_to_temperature(value));
}
if (attribute->id == ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_MIN_VALUE_ID && attribute->data.type == ESP_ZB_ZCL_ATTR_TYPE_S16) {
int16_t min_value = attribute->data.value ? *(int16_t *)attribute->data.value : 0;
log_i("Min Measured Value is %.2f degrees Celsius", zb_s16_to_temperature(min_value));
}
if (attribute->id == ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_MAX_VALUE_ID && attribute->data.type == ESP_ZB_ZCL_ATTR_TYPE_S16) {
int16_t max_value = attribute->data.value ? *(int16_t *)attribute->data.value : 0;
log_i("Max Measured Value is %.2f degrees Celsius", zb_s16_to_temperature(max_value));
}
if (attribute->id == ESP_ZB_ZCL_ATTR_TEMP_MEASUREMENT_TOLERANCE_ID && attribute->data.type == ESP_ZB_ZCL_ATTR_TYPE_U16) {
uint16_t tolerance = attribute->data.value ? *(uint16_t *)attribute->data.value : 0;
log_i("Tolerance is %.2f degrees Celsius", 1.0 * tolerance / 100);
}
}
}
static esp_err_t zb_attribute_reporting_handler(const esp_zb_zcl_report_attr_message_t *message) {
if (!message) {
log_e("Empty message");
}
if (message->status != ESP_ZB_ZCL_STATUS_SUCCESS) {
log_e("Received message: error status(%d)", message->status);
}
log_i(
"Received report from address(0x%x) src endpoint(%d) to dst endpoint(%d) cluster(0x%x)", message->src_address.u.short_addr, message->src_endpoint,
message->dst_endpoint, message->cluster
);
esp_app_zb_attribute_handler(message->cluster, &message->attribute);
return ESP_OK;
}
static esp_err_t zb_read_attr_resp_handler(const esp_zb_zcl_cmd_read_attr_resp_message_t *message) {
if (!message) {
log_e("Empty message");
}
if (message->info.status != ESP_ZB_ZCL_STATUS_SUCCESS) {
log_e("Received message: error status(%d)", message->info.status);
}
log_i(
"Read attribute response: from address(0x%x) src endpoint(%d) to dst endpoint(%d) cluster(0x%x)", message->info.src_address.u.short_addr,
message->info.src_endpoint, message->info.dst_endpoint, message->info.cluster
);
esp_zb_zcl_read_attr_resp_variable_t *variable = message->variables;
while (variable) {
log_i(
"Read attribute response: status(%d), cluster(0x%x), attribute(0x%x), type(0x%x), value(%d)", variable->status, message->info.cluster,
variable->attribute.id, variable->attribute.data.type, variable->attribute.data.value ? *(uint8_t *)variable->attribute.data.value : 0
);
if (variable->status == ESP_ZB_ZCL_STATUS_SUCCESS) {
esp_app_zb_attribute_handler(message->info.cluster, &variable->attribute);
}
variable = variable->next;
}
return ESP_OK;
}
static esp_err_t zb_configure_report_resp_handler(const esp_zb_zcl_cmd_config_report_resp_message_t *message) {
if (!message) {
log_e("Empty message");
}
if (message->info.status != ESP_ZB_ZCL_STATUS_SUCCESS) {
log_e("Received message: error status(%d)", message->info.status);
}
esp_zb_zcl_config_report_resp_variable_t *variable = message->variables;
while (variable) {
log_i(
"Configure report response: status(%d), cluster(0x%x), direction(0x%x), attribute(0x%x)", variable->status, message->info.cluster, variable->direction,
variable->attribute_id
);
variable = variable->next;
}
return ESP_OK;
}
static esp_err_t zb_action_handler(esp_zb_core_action_callback_id_t callback_id, const void *message) {
esp_err_t ret = ESP_OK;
switch (callback_id) {
case ESP_ZB_CORE_REPORT_ATTR_CB_ID: ret = zb_attribute_reporting_handler((esp_zb_zcl_report_attr_message_t *)message); break;
case ESP_ZB_CORE_CMD_READ_ATTR_RESP_CB_ID: ret = zb_read_attr_resp_handler((esp_zb_zcl_cmd_read_attr_resp_message_t *)message); break;
case ESP_ZB_CORE_CMD_REPORT_CONFIG_RESP_CB_ID: ret = zb_configure_report_resp_handler((esp_zb_zcl_cmd_config_report_resp_message_t *)message); break;
default: log_w("Receive Zigbee action(0x%x) callback", callback_id); break;
}
return ret;
}
static esp_zb_cluster_list_t *custom_thermostat_clusters_create(esp_zb_thermostat_cfg_t *thermostat) {
esp_zb_cluster_list_t *cluster_list = esp_zb_zcl_cluster_list_create();
esp_zb_attribute_list_t *basic_cluster = esp_zb_basic_cluster_create(&(thermostat->basic_cfg));
ESP_ERROR_CHECK(esp_zb_basic_cluster_add_attr(basic_cluster, ESP_ZB_ZCL_ATTR_BASIC_MANUFACTURER_NAME_ID, (void *)MANUFACTURER_NAME));
ESP_ERROR_CHECK(esp_zb_basic_cluster_add_attr(basic_cluster, ESP_ZB_ZCL_ATTR_BASIC_MODEL_IDENTIFIER_ID, (void *)MODEL_IDENTIFIER));
ESP_ERROR_CHECK(esp_zb_cluster_list_add_basic_cluster(cluster_list, basic_cluster, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE));
ESP_ERROR_CHECK(
esp_zb_cluster_list_add_identify_cluster(cluster_list, esp_zb_identify_cluster_create(&(thermostat->identify_cfg)), ESP_ZB_ZCL_CLUSTER_SERVER_ROLE)
);
ESP_ERROR_CHECK(
esp_zb_cluster_list_add_identify_cluster(cluster_list, esp_zb_zcl_attr_list_create(ESP_ZB_ZCL_CLUSTER_ID_IDENTIFY), ESP_ZB_ZCL_CLUSTER_CLIENT_ROLE)
);
ESP_ERROR_CHECK(
esp_zb_cluster_list_add_thermostat_cluster(cluster_list, esp_zb_thermostat_cluster_create(&(thermostat->thermostat_cfg)), ESP_ZB_ZCL_CLUSTER_SERVER_ROLE)
);
/* Add temperature measurement cluster for attribute reporting */
ESP_ERROR_CHECK(esp_zb_cluster_list_add_temperature_meas_cluster(cluster_list, esp_zb_temperature_meas_cluster_create(NULL), ESP_ZB_ZCL_CLUSTER_CLIENT_ROLE));
return cluster_list;
}
static esp_zb_ep_list_t *custom_thermostat_ep_create(uint8_t endpoint_id, esp_zb_thermostat_cfg_t *thermostat) {
esp_zb_ep_list_t *ep_list = esp_zb_ep_list_create();
esp_zb_endpoint_config_t endpoint_config = {
.endpoint = endpoint_id, .app_profile_id = ESP_ZB_AF_HA_PROFILE_ID, .app_device_id = ESP_ZB_HA_THERMOSTAT_DEVICE_ID, .app_device_version = 0
};
esp_zb_ep_list_add_ep(ep_list, custom_thermostat_clusters_create(thermostat), endpoint_config);
return ep_list;
}
static void esp_zb_task(void *pvParameters) {
/* Initialize Zigbee stack */
esp_zb_cfg_t zb_nwk_cfg = ESP_ZB_ZC_CONFIG();
esp_zb_init(&zb_nwk_cfg);
/* Create customized thermostat endpoint */
esp_zb_thermostat_cfg_t thermostat_cfg = ESP_ZB_DEFAULT_THERMOSTAT_CONFIG();
esp_zb_ep_list_t *esp_zb_thermostat_ep = custom_thermostat_ep_create(HA_THERMOSTAT_ENDPOINT, &thermostat_cfg);
/* Register the device */
esp_zb_device_register(esp_zb_thermostat_ep);
esp_zb_core_action_handler_register(zb_action_handler);
esp_zb_set_primary_network_channel_set(ESP_ZB_PRIMARY_CHANNEL_MASK);
ESP_ERROR_CHECK(esp_zb_start(false));
esp_zb_main_loop_iteration();
}
/********************* GPIO functions **************************/
static QueueHandle_t gpio_evt_queue = NULL;
static void IRAM_ATTR gpio_isr_handler(void *arg) {
xQueueSendFromISR(gpio_evt_queue, (switch_func_pair_t *)arg, NULL);
}
static void switch_gpios_intr_enabled(bool enabled) {
for (int i = 0; i < PAIR_SIZE(button_func_pair); ++i) {
if (enabled) {
enableInterrupt((button_func_pair[i]).pin);
} else {
disableInterrupt((button_func_pair[i]).pin);
}
}
}
/********************* Arduino functions **************************/
void setup() {
// Init Zigbee
esp_zb_platform_config_t config = {
.radio_config = ESP_ZB_DEFAULT_RADIO_CONFIG(),
.host_config = ESP_ZB_DEFAULT_HOST_CONFIG(),
};
ESP_ERROR_CHECK(esp_zb_platform_config(&config));
// Init button switch
for (int i = 0; i < PAIR_SIZE(button_func_pair); i++) {
pinMode(button_func_pair[i].pin, INPUT_PULLUP);
/* create a queue to handle gpio event from isr */
gpio_evt_queue = xQueueCreate(10, sizeof(switch_func_pair_t));
if (gpio_evt_queue == 0) {
log_e("Queue was not created and must not be used");
while (1);
}
attachInterruptArg(button_func_pair[i].pin, gpio_isr_handler, (void *)(button_func_pair + i), FALLING);
}
// Start Zigbee task
xTaskCreate(esp_zb_task, "Zigbee_main", 4096, NULL, 5, NULL);
}
void loop() {
// Handle button switch in loop()
uint8_t pin = 0;
switch_func_pair_t button_func_pair;
static switch_state_t switch_state = SWITCH_IDLE;
bool evt_flag = false;
/* check if there is any queue received, if yes read out the button_func_pair */
if (xQueueReceive(gpio_evt_queue, &button_func_pair, portMAX_DELAY)) {
pin = button_func_pair.pin;
switch_gpios_intr_enabled(false);
evt_flag = true;
}
while (evt_flag) {
bool value = digitalRead(pin);
switch (switch_state) {
case SWITCH_IDLE: switch_state = (value == LOW) ? SWITCH_PRESS_DETECTED : SWITCH_IDLE; break;
case SWITCH_PRESS_DETECTED: switch_state = (value == LOW) ? SWITCH_PRESS_DETECTED : SWITCH_RELEASE_DETECTED; break;
case SWITCH_RELEASE_DETECTED:
switch_state = SWITCH_IDLE;
/* callback to button_handler */
(*esp_zb_buttons_handler)(&button_func_pair);
break;
default: break;
}
if (switch_state == SWITCH_IDLE) {
switch_gpios_intr_enabled(true);
evt_flag = false;
break;
}
delay(10);
}
}