/* +----------------------------------------------------------------------+ | PHP version 4.0 | +----------------------------------------------------------------------+ | Copyright (c) 1997, 1998, 1999 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 2.0 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available at through the world-wide-web at | | http://www.php.net/license/2_0.txt. | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Stig Sæther Bakken | | Andreas Karajannis | | Frank M. Kromann Support for DB/2 CLI | +----------------------------------------------------------------------+ */ /* $Id$ */ /* This file is based on the Adabas D extension. * Adabas D will no longer be supported as separate module. */ #include "php.h" #undef THREAD_SAFE #if HAVE_UODBC # if !(WIN32|WINNT) # include "php_config.h" # include "build-defs.h" # endif # include # include "dl/phpdl.h" # include "ext/standard/php3_standard.h" # include "php3_odbc.h" # include "ext/standard/head.h" # include "snprintf.h" # include "php_ini.h" # ifndef ZS php_odbc_globals odbc_globals; # endif function_entry odbc_functions[] = { PHP_FE(odbc_setoption, NULL) PHP_FE(odbc_autocommit, NULL) PHP_FE(odbc_close, NULL) PHP_FE(odbc_close_all, NULL) PHP_FE(odbc_commit, NULL) PHP_FE(odbc_connect, NULL) PHP_FE(odbc_pconnect, NULL) PHP_FE(odbc_cursor, NULL) PHP_FE(odbc_exec, NULL) PHP_FE(odbc_prepare, NULL) PHP_FE(odbc_execute, NULL) PHP_FE(odbc_fetch_row, NULL) PHP_FE(odbc_fetch_into, NULL) PHP_FE(odbc_field_len, NULL) PHP_FE(odbc_field_name, NULL) PHP_FE(odbc_field_type, NULL) PHP_FE(odbc_field_num, NULL) PHP_FE(odbc_free_result, NULL) PHP_FE(odbc_num_fields, NULL) PHP_FE(odbc_num_rows, NULL) PHP_FE(odbc_result, NULL) PHP_FE(odbc_result_all, NULL) PHP_FE(odbc_rollback, NULL) PHP_FE(odbc_binmode, NULL) PHP_FE(odbc_longreadlen, NULL) PHP_FALIAS(odbc_do, odbc_exec, NULL) { NULL, NULL, NULL } }; php3_module_entry odbc_module_entry = { "ODBC", odbc_functions, PHP_MINIT(odbc), PHP_MSHUTDOWN(odbc), PHP_RINIT(odbc), NULL, PHP_MINFO(odbc), STANDARD_MODULE_PROPERTIES }; #if COMPILE_DL DLEXPORT php3_module_entry *get_module() { return &odbc_module_entry; }; #endif static void _free_result(odbc_result *res) { int i; if (res){ if (res->values) { for(i = 0; i < res->numcols; i++){ if (res->values[i].value) efree(res->values[i].value); } efree(res->values); res->values = NULL; } if (res->stmt){ #if HAVE_SOLID SQLTransact(ODBCG(henv), res->conn_ptr->hdbc, (UWORD)SQL_COMMIT); #endif SQLFreeStmt(res->stmt,SQL_DROP); #if !HAVE_DB2 res->stmt = NULL; #endif } efree(res); } } static int _results_cleanup(list_entry *le) { ODBC_TLS_VARS; if (le->type == ODBCG(le_result)) { odbc_connection *conn = ((odbc_result *) le->ptr)->conn_ptr; if (!conn->open && ((odbc_result *) le->ptr)->stmt){ SQLFreeStmt(((odbc_result *) le->ptr)->stmt,SQL_DROP); #if !HAVE_DB2 ((odbc_result *) le->ptr)->stmt = NULL; #endif } } return 0; } static void _close_connection(odbc_connection *conn) { /* FIXME * Closing a connection will fail if there are * pending transactions */ ODBC_TLS_VARS; conn->open = 0; zend_hash_apply(ODBCG(resource_list), (int (*)(void *))_results_cleanup); SQLDisconnect(conn->hdbc); SQLFreeConnect(conn->hdbc); efree(conn); ODBCG(num_links)--; } static void _close_pconnection(odbc_connection *conn) { ODBC_TLS_VARS; conn->open = 0; zend_hash_apply(ODBCG(resource_plist), (int (*)(void *))_results_cleanup); SQLDisconnect(conn->hdbc); SQLFreeConnect(conn->hdbc); free(conn); ODBCG(num_links)--; ODBCG(num_persistent)--; } static PHP_INI_MH(odbc_param_int) { long *p; ODBC_TLS_VARS; p = (long *) (globals + (size_t)mh_arg1); *p = atoi(new_value); return SUCCESS; } static PHP_INI_MH(odbc_param_str) { char **p; ODBC_TLS_VARS; p = (char **) (globals + (size_t)mh_arg1); *p = new_value; return SUCCESS; } PHP_INI_BEGIN() PHP_INI_ENTRY1("odbc.allow_persistent", "1", PHP_INI_SYSTEM, odbc_param_int, (void *)XtOffsetOf(php_odbc_globals, allow_persistent)) PHP_INI_ENTRY1("odbc.max_persistent", "-1", PHP_INI_SYSTEM, odbc_param_int, (void *)XtOffsetOf(php_odbc_globals, max_persistent)) PHP_INI_ENTRY1("odbc.max_links", "-1", PHP_INI_SYSTEM, odbc_param_int, (void *)XtOffsetOf(php_odbc_globals, max_links)) PHP_INI_ENTRY1("odbc.default_db", NULL, PHP_INI_ALL, odbc_param_str, (void *)XtOffsetOf(php_odbc_globals, defDB)) PHP_INI_ENTRY1("odbc.default_user", NULL, PHP_INI_ALL, odbc_param_str, (void *)XtOffsetOf(php_odbc_globals, defUser)) PHP_INI_ENTRY1("odbc.default_pw", NULL, PHP_INI_ALL, odbc_param_str, (void *)XtOffsetOf(php_odbc_globals, defPW)) PHP_INI_ENTRY1("odbc.defaultlrl", "4096", PHP_INI_ALL, odbc_param_int, (void *)XtOffsetOf(php_odbc_globals, defaultlrl)) PHP_INI_ENTRY1("odbc.defaultbinmode", "1", PHP_INI_ALL, odbc_param_str, (void *)XtOffsetOf(php_odbc_globals, defPW)) PHP_INI_END() PHP_MINIT_FUNCTION(odbc) { #ifdef SQLANY_BUG HDBC foobar; RETCODE rc; #endif ODBC_TLS_VARS; REGISTER_INI_ENTRIES(); SQLAllocEnv(&ODBCG(henv)); ODBCG(num_persistent) = 0; ODBCG(le_result) = register_list_destructors(_free_result, NULL); ODBCG(le_conn) = register_list_destructors(_close_connection, NULL); ODBCG(le_pconn) = register_list_destructors(NULL, _close_pconnection); #ifdef SQLANY_BUG /* Make a dumb connection to avoid crash on SQLFreeEnv(), * then release it immediately. * This is required for SQL Anywhere 5.5.00 on QNX 4.24 at least. * The SQLANY_BUG should be defined in CFLAGS. */ if ( SQLAllocConnect(ODBCG(henv), &foobar) != SQL_SUCCESS ) { ODBC_SQL_ERROR(SQL_NULL_HDBC, SQL_NULL_HSTMT, "SQLAllocConnect"); } else { rc = SQLConnect(foobar, ODBCG(defDB), SQL_NTS, ODBCG(defUser), SQL_NTS, ODBCG(defPW), SQL_NTS); if(rc == SQL_SUCCESS || rc == SQL_SUCCESS_WITH_INFO) SQLDisconnect( foobar ); SQLFreeConnect( foobar ); } #endif REGISTER_LONG_CONSTANT("ODBC_BINMODE_PASSTHRU", 0, CONST_CS | CONST_PERSISTENT); REGISTER_LONG_CONSTANT("ODBC_BINMODE_RETURN", 1, CONST_CS | CONST_PERSISTENT); REGISTER_LONG_CONSTANT("ODBC_BINMODE_CONVERT", 2, CONST_CS | CONST_PERSISTENT); /* Define Constants for different cursor options these Constants are are defined in */ REGISTER_MAIN_LONG_CONSTANT("SQL_CUR_USE_IF_NEEDED", SQL_CUR_USE_IF_NEEDED, CONST_PERSISTENT | CONST_CS); REGISTER_MAIN_LONG_CONSTANT("SQL_CUR_USE_ODBC", SQL_CUR_USE_ODBC, CONST_PERSISTENT | CONST_CS); REGISTER_MAIN_LONG_CONSTANT("SQL_CUR_USE_DRIVER", SQL_CUR_USE_DRIVER, CONST_PERSISTENT | CONST_CS); REGISTER_MAIN_LONG_CONSTANT("SQL_CUR_DEFAULT", SQL_CUR_DEFAULT, CONST_PERSISTENT | CONST_CS); return SUCCESS; } PHP_RINIT_FUNCTION(odbc) { ODBC_TLS_VARS; ODBCG(defConn) = -1; ODBCG(num_links) = ODBCG(num_persistent); return SUCCESS; } PHP_MSHUTDOWN_FUNCTION(odbc) { ODBC_TLS_VARS; SQLFreeEnv(ODBCG(henv)); return SUCCESS; } PHP_MINFO_FUNCTION(odbc) { ODBC_TLS_VARS; php_printf("ODBC compiled with \"" ODBC_TYPE "\" library"); php_printf("
"); #if DEBUG php_printf("default_db: %s
\n", ODBCG(defDB)); php_printf("default_user: %s
\n", ODBCG(defUser)); php_printf("default_pw: %s
\n", ODBCG(defPW)); #endif php_printf("allow_persistent: %d
\n", ODBCG(allow_persistent)); php_printf("max_persistent: %d
\n", ODBCG(max_persistent)); php_printf("max_links: %d
\n", ODBCG(max_links)); } /* * List management functions */ int odbc_add_result(HashTable *list,odbc_result *result) { ODBC_TLS_VARS; return php3_list_insert(result, ODBCG(le_result)); } odbc_result *odbc_get_result(HashTable *list, int ind) { odbc_result *res; int type; ODBC_TLS_VARS; res = (odbc_result*)php3_list_find(ind, &type); if (!res || type != ODBCG(le_result)) { php_error(E_WARNING, "Bad result index %d", ind); return NULL; } return res; } void odbc_del_result(HashTable *list, int ind) { odbc_result *res; int type; ODBC_TLS_VARS; res = (odbc_result *)php3_list_find(ind, &type); if (!res || type != ODBCG(le_result)) { php_error(E_WARNING,"Can't find result %d", ind); return; } php3_list_delete(ind); } odbc_connection *odbc_get_conn(HashTable *list, int ind) { odbc_connection *conn = NULL; int type; HashTable *plist; ODBC_TLS_VARS; plist = ODBCG(resource_plist); conn = (odbc_connection *)php3_list_find(ind, &type); if (conn && (type == ODBCG(le_conn) || type == ODBCG(le_pconn))) { return conn; } conn = (odbc_connection *)php3_plist_find(ind, &type); if (conn && (type == ODBCG(le_conn) || type == ODBCG(le_pconn))) return conn; php_error(E_WARNING,"Bad ODBC connection number (%d)", ind); return NULL; } #if HAVE_DB2 void ODBC_SQL_ERROR(SQLHANDLE conn, SQLHANDLE stmt, char *func) #else void ODBC_SQL_ERROR(HDBC conn, HSTMT stmt, char *func) #endif { char state[6]; /* Not used */ SDWORD error; /* Not used */ char errormsg[255]; SWORD errormsgsize; /* Not used */ ODBC_TLS_VARS; SQLError(ODBCG(henv), conn, stmt, state, &error, errormsg, sizeof(errormsg)-1, &errormsgsize); if (func) { php_error(E_WARNING, "SQL error: %s, SQL state %s in %s", errormsg, state, func); } else { php_error(E_WARNING, "SQL error: %s, SQL state %s", errormsg, state); } } /* Main User Functions */ /* {{{ proto odbc_close_all(void) Close all ODBC connections */ PHP_FUNCTION(odbc_close_all) { void *ptr; int type; int i, nument = zend_hash_next_free_element(list); ODBC_TLS_VARS; for (i = 1; i < nument; i++) { ptr = php3_list_find(i, &type); if (ptr && (type == ODBCG(le_conn) || type == ODBCG(le_pconn))) { php3_list_delete(i); } } } /* }}} */ void php3_odbc_fetch_attribs(INTERNAL_FUNCTION_PARAMETERS, int mode) { int res_ind; odbc_result *result; pval *arg1, *arg2; ODBC_TLS_VARS; if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) WRONG_PARAM_COUNT; convert_to_long(arg1); convert_to_long(arg2); res_ind = arg1->value.lval; if (res_ind){ if ((result = odbc_get_result(list, res_ind)) == NULL){ RETURN_FALSE; } if (mode) result->longreadlen = arg2->value.lval; else result->binmode = arg2->value.lval; } else { if (mode) ODBCG(defaultlrl) = arg2->value.lval; else ODBCG(defaultbinmode) = arg2->value.lval; } RETURN_TRUE } /* {{{ proto odbc_binmode(int result_id, int mode) Handle binary column data */ PHP_FUNCTION(odbc_binmode) { php3_odbc_fetch_attribs(INTERNAL_FUNCTION_PARAM_PASSTHRU,0); } /* }}} */ /* {{{ proto odbc_longreadlen(int result_id, int length) Handle LONG columns */ PHP_FUNCTION(odbc_longreadlen) { php3_odbc_fetch_attribs(INTERNAL_FUNCTION_PARAM_PASSTHRU,1); } /* }}} */ int odbc_bindcols(odbc_result *result) { int i; SWORD colnamelen; /* Not used */ SDWORD displaysize; ODBC_TLS_VARS; result->values = (odbc_result_value *) emalloc(sizeof(odbc_result_value)*result->numcols); if (result->values == NULL){ php_error(E_WARNING, "Out of memory"); SQLFreeStmt(result->stmt, SQL_DROP); return 0; } result->longreadlen = ODBCG(defaultlrl); result->binmode = ODBCG(defaultbinmode); for(i = 0; i < result->numcols; i++){ SQLColAttributes(result->stmt, (UWORD)(i+1), SQL_COLUMN_NAME, result->values[i].name, sizeof(result->values[i].name), &colnamelen, 0); SQLColAttributes(result->stmt, (UWORD)(i+1), SQL_COLUMN_TYPE, NULL, 0, NULL, &result->values[i].coltype); /* Don't bind LONG / BINARY columns, so that fetch behaviour can be controlled by odbc_binmode() / odbc_longreadlen() */ switch(result->values[i].coltype){ case SQL_BINARY: case SQL_VARBINARY: case SQL_LONGVARBINARY: case SQL_LONGVARCHAR: result->values[i].value = NULL; break; #if HAVE_ADABAS case SQL_TIMESTAMP: result->values[i].value = (char *)emalloc(27); SQLBindCol(result->stmt, (UWORD)(i+1), SQL_C_CHAR, result->values[i].value, 27, &result->values[i].vallen); break; #endif /* HAVE_ADABAS */ default: SQLColAttributes(result->stmt, (UWORD)(i+1), SQL_COLUMN_DISPLAY_SIZE, NULL, 0, NULL, &displaysize); result->values[i].value = (char *)emalloc(displaysize + 1); SQLBindCol(result->stmt, (UWORD)(i+1), SQL_C_CHAR, result->values[i].value, displaysize + 1, &result->values[i].vallen); break; } } return 1; } /* {{{ proto odbc_prepare(int connection_id, string query) Prepares a statement for execution */ PHP_FUNCTION(odbc_prepare) { pval *arg1, *arg2; int conn; char *query; odbc_result *result=NULL; odbc_connection *curr_conn=NULL; RETCODE rc; if (getParameters(ht, 2, &arg1, &arg2) == FAILURE){ WRONG_PARAM_COUNT; } convert_to_long(arg1); convert_to_string(arg2); conn = arg1->value.lval; query = arg2->value.str.val; if ((curr_conn = odbc_get_conn(list, conn)) == NULL){ RETURN_FALSE; } #if 0 _php3_stripslashes(query,NULL); #endif result = (odbc_result *)emalloc(sizeof(odbc_result)); if (result == NULL){ php_error(E_WARNING, "Out of memory"); RETURN_FALSE; } result->numparams = 0; rc = SQLAllocStmt(curr_conn->hdbc, &(result->stmt)); if (rc == SQL_INVALID_HANDLE){ efree(result); php_error(E_WARNING, "SQLAllocStmt error 'Invalid Handle' in php3_odbc_prepare"); RETURN_FALSE; } if (rc == SQL_ERROR){ ODBC_SQL_ERROR(curr_conn->hdbc, SQL_NULL_HSTMT, "SQLAllocStmt"); efree(result); RETURN_FALSE; } if ((rc = SQLPrepare(result->stmt, query, SQL_NTS)) != SQL_SUCCESS){ ODBC_SQL_ERROR(curr_conn->hdbc, result->stmt, "SQLPrepare"); SQLFreeStmt(result->stmt, SQL_DROP); RETURN_FALSE; } SQLNumParams(result->stmt, &(result->numparams)); SQLNumResultCols(result->stmt, &(result->numcols)); if (result->numcols > 0){ if (!odbc_bindcols(result)){ efree(result); RETURN_FALSE; } } else { result->values = NULL; } result->conn_ptr = curr_conn; result->fetched = 0; RETURN_LONG(odbc_add_result(list, result)); } /* }}} */ /* * Execute prepared SQL statement. Supports only input parameters. */ /* {{{ proto odbc_execute(int result_id [, array parameters_array]) Execute a prepared statement */ PHP_FUNCTION(odbc_execute) { pval *arg1, *arg2, arr, *tmp; typedef struct params_t { SDWORD vallen; int fp; } params_t; params_t *params = NULL; char *filename; SWORD sqltype, scale, nullable; UDWORD precision; odbc_result *result=NULL; int res_ind, numArgs, i, ne; RETCODE rc; numArgs = ARG_COUNT(ht); if (numArgs == 1){ if (getParameters(ht, 1, &arg1) == FAILURE) WRONG_PARAM_COUNT; } else { if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) WRONG_PARAM_COUNT; arr = *arg2; if (arr.type != IS_ARRAY) { php_error(E_WARNING, "No array passed to odbc_execute()"); return; } } convert_to_long(arg1); res_ind = arg1->value.lval; /* check result */ if ((result = odbc_get_result(list, res_ind)) == NULL){ RETURN_FALSE; } if (result->numparams > 0 && numArgs == 1) { php_error(E_WARNING, "No parameters to SQL statement given"); RETURN_FALSE; } if (result->numparams > 0){ if ((ne = zend_hash_num_elements(arr.value.ht)) < result->numparams){ php_error(E_WARNING,"Not enough parameters (%d should be %d) given", ne, result->numparams); RETURN_FALSE; } pval_copy_constructor(arg2); zend_hash_internal_pointer_reset(arr.value.ht); params = (params_t *)emalloc(sizeof(params_t) * result->numparams); for (i = 1; i <= result->numparams; i++) { if (zend_hash_get_current_data(arr.value.ht, (void **) &tmp) == FAILURE) { php_error(E_WARNING,"Error getting parameter"); SQLFreeStmt(result->stmt,SQL_RESET_PARAMS); efree(params); RETURN_FALSE; } convert_to_string(tmp); if (tmp->type != IS_STRING) { php_error(E_WARNING,"Error converting parameter"); SQLFreeStmt(result->stmt, SQL_RESET_PARAMS); zend_hash_destroy(arr.value.ht); efree(arr.value.ht); efree(params); RETURN_FALSE; } SQLDescribeParam(result->stmt, (UWORD)i, &sqltype, &precision, &scale, &nullable); params[i-1].vallen = tmp->value.str.len; params[i-1].fp = -1; if (tmp->value.str.val[0] == '\'') { filename = &tmp->value.str.val[1]; filename[tmp->value.str.len - 2] = '\0'; if ((params[i-1].fp = open(filename,O_RDONLY)) == -1) { php_error(E_WARNING,"Can't open file %s", filename); SQLFreeStmt(result->stmt, SQL_RESET_PARAMS); for (i = 0; i < result->numparams; i++) { if (params[i].fp != -1) { close(params[i].fp); } } zend_hash_destroy(arr.value.ht); efree(arr.value.ht); efree(params); RETURN_FALSE; } params[i-1].vallen = SQL_LEN_DATA_AT_EXEC(0); rc = SQLBindParameter(result->stmt, (UWORD)i, SQL_PARAM_INPUT, SQL_C_BINARY, sqltype, precision, scale, (void *)params[i-1].fp, 0, ¶ms[i-1].vallen); } else { /*if (IS_SQL_BINARY(sqltype)){ php_error(E_WARNING,"No Filename for binary parameter"); SQLFreeStmt(result->stmt,SQL_RESET_PARAMS); zend_hash_destroy(arr.value.ht); efree(arr.value.ht); efree(params); RETURN_FALSE; } */ rc = SQLBindParameter(result->stmt, (UWORD)i, SQL_PARAM_INPUT, SQL_C_CHAR, sqltype, precision, scale, tmp->value.str.val, 0, ¶ms[i-1].vallen); } zend_hash_move_forward(arr.value.ht); } } /* Close cursor, needed for doing multiple selects */ rc = SQLFreeStmt(result->stmt, SQL_CLOSE); if (rc == SQL_ERROR){ ODBC_SQL_ERROR(result->conn_ptr->hdbc, result->stmt, "SQLFreeStmt"); } rc = SQLExecute(result->stmt); result->fetched = 0; if (rc == SQL_NEED_DATA){ char buf[4096]; int fp, nbytes; while(rc == SQL_NEED_DATA){ rc = SQLParamData(result->stmt, (PTR FAR *)&fp); if (rc == SQL_NEED_DATA){ while((nbytes = read(fp, &buf, 4096)) > 0) SQLPutData(result->stmt,(UCHAR FAR*) &buf, nbytes); } } } else { if (rc != SQL_SUCCESS){ ODBC_SQL_ERROR(result->conn_ptr->hdbc, result->stmt, "SQLExecute"); RETVAL_FALSE; } } if (result->numparams > 0){ SQLFreeStmt(result->stmt, SQL_RESET_PARAMS); for(i = 0; i < result->numparams; i++){ if (params[i].fp != -1) close(params[i].fp); } zend_hash_destroy(arr.value.ht); efree(arr.value.ht); efree(params); } if (rc == SQL_SUCCESS){ RETVAL_TRUE; } } /* }}} */ /* odbc_cursor simply returns a cursor name for the given stmt * Adabas automagically generates cursor names, other drivers may not */ /* {{{ proto odbc_cursor(int result_id) Get cursor name */ PHP_FUNCTION(odbc_cursor) { pval *arg1; int res_ind; SWORD len, max_len; char *cursorname; odbc_result *result; RETCODE rc; if (getParameters(ht, 1, &arg1) == FAILURE){ WRONG_PARAM_COUNT; } convert_to_long(arg1); res_ind = arg1->value.lval; /* check result */ if ((result = odbc_get_result(list, res_ind)) == NULL) { RETURN_FALSE; } rc = SQLGetInfo(result->conn_ptr->hdbc,SQL_MAX_CURSOR_NAME_LEN, (void *)&max_len,0,&len); if (rc != SQL_SUCCESS){ RETURN_FALSE; } if (max_len > 0){ cursorname = emalloc(max_len + 1); if (cursorname == NULL){ php_error(E_WARNING,"Out of memory"); RETURN_FALSE; } rc = SQLGetCursorName(result->stmt,cursorname,(SWORD)max_len,&len); if (rc != SQL_SUCCESS){ char state[6]; /* Not used */ SDWORD error; /* Not used */ char errormsg[255]; SWORD errormsgsize; /* Not used */ ODBC_TLS_VARS; SQLError(ODBCG(henv), result->conn_ptr->hdbc, result->stmt, state, &error, errormsg, sizeof(errormsg)-1, &errormsgsize); if (!strncmp(state,"S1015",5)){ sprintf(cursorname,"php3_curs_%d", (int)result->stmt); if (SQLSetCursorName(result->stmt,cursorname,SQL_NTS) != SQL_SUCCESS){ ODBC_SQL_ERROR(result->conn_ptr->hdbc,result->stmt, "SQLSetCursorName"); RETVAL_FALSE; } else { RETVAL_STRING(cursorname,1); } } else { php_error(E_WARNING, "SQL error: %s, SQL state %s", errormsg, state); RETVAL_FALSE; } } else { RETVAL_STRING(cursorname,1); } efree(cursorname); } else { RETVAL_FALSE; } } /* }}} */ /* {{{ proto odbc_exec(int connection_id, string query) Prepare and execute an SQL statement */ PHP_FUNCTION(odbc_exec) { pval *arg1, *arg2; int conn; char *query; odbc_result *result=NULL; odbc_connection *curr_conn=NULL; RETCODE rc; #if HAVE_SQL_EXTENDED_FETCH UDWORD scrollopts; #endif if (getParameters(ht, 2, &arg1, &arg2) == FAILURE){ WRONG_PARAM_COUNT; } convert_to_long(arg1); convert_to_string(arg2); conn = arg1->value.lval; query = arg2->value.str.val; if ((curr_conn = odbc_get_conn(list, conn)) == NULL){ RETURN_FALSE; } #if 0 _php3_stripslashes(query,NULL); #endif result = (odbc_result *)emalloc(sizeof(odbc_result)); if (result == NULL){ php_error(E_WARNING, "Out of memory"); RETURN_FALSE; } rc = SQLAllocStmt(curr_conn->hdbc, &(result->stmt)); if (rc == SQL_INVALID_HANDLE){ php_error(E_WARNING, "SQLAllocStmt error 'Invalid Handle' in PHP3_ODBC_DO"); efree(result); RETURN_FALSE; } if (rc == SQL_ERROR){ ODBC_SQL_ERROR(curr_conn->hdbc, SQL_NULL_HSTMT, "SQLAllocStmt"); efree(result); RETURN_FALSE; } #if HAVE_SQL_EXTENDED_FETCH /* Solid doesn't have ExtendedFetch, if DriverManager is used, get Info, whether Driver supports ExtendedFetch */ rc = SQLGetInfo(curr_conn->hdbc, SQL_FETCH_DIRECTION, (void *) &scrollopts, sizeof(scrollopts), NULL); if (rc == SQL_SUCCESS){ if ((result->fetch_abs = (scrollopts & SQL_FD_FETCH_ABSOLUTE))){ /* Try to set CURSOR_TYPE to dynamic. Driver will replace this with other type if not possible. */ if (SQLSetStmtOption(result->stmt, SQL_CURSOR_TYPE, SQL_CURSOR_DYNAMIC) == SQL_ERROR){ ODBC_SQL_ERROR(curr_conn->hdbc, result->stmt, " SQLSetStmtOption"); SQLFreeStmt(result->stmt, SQL_DROP); efree(result); RETURN_FALSE; } } } else { result->fetch_abs = 0; } #endif rc = SQLExecDirect(result->stmt, query, SQL_NTS); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) { /* XXX FIXME we should really check out SQLSTATE with SQLError * in case rc is SQL_SUCCESS_WITH_INFO here. */ ODBC_SQL_ERROR(curr_conn->hdbc, result->stmt, "SQLExecDirect"); SQLFreeStmt(result->stmt, SQL_DROP); efree(result); RETURN_FALSE; } SQLNumResultCols(result->stmt, &(result->numcols)); /* For insert, update etc. cols == 0 */ if (result->numcols > 0){ if (!odbc_bindcols(result)){ efree(result); RETURN_FALSE; } } else { result->values = NULL; } result->conn_ptr = curr_conn; result->fetched = 0; RETURN_LONG(odbc_add_result(list, result)); } /* }}} */ /* {{{ proto odbc_fetch_into(int result_id [, int rownumber], array result_array) Fetch one result row into an array */ PHP_FUNCTION(odbc_fetch_into) { int res_ind, numArgs, i; odbc_result *result; RETCODE rc; SWORD sql_c_type; char *buf = NULL; #if HAVE_SQL_EXTENDED_FETCH UDWORD crow; UWORD RowStatus[1]; SDWORD rownum = -1; pval *arg1, *arg2, *arr, tmp; numArgs = ARG_COUNT(ht); switch(numArgs){ case 2: if (getParameters(ht, 2, &arg1, &arr) == FAILURE) WRONG_PARAM_COUNT; break; case 3: if (getParameters(ht, 3, &arg1, &arg2, &arr) == FAILURE) WRONG_PARAM_COUNT; convert_to_long(arg2); rownum = arg2->value.lval; break; default: WRONG_PARAM_COUNT; } if (!ParameterPassedByReference(ht, numArgs)){ php_error(E_WARNING, "Array not passed by reference in call to odbc_fetch_into()"); RETURN_FALSE; } #else pval *arg1, *arr, tmp; numArgs = ARG_COUNT(ht); if (numArgs != 2 || getParameters(ht, 2, &arg1, &arr) == FAILURE) { WRONG_PARAM_COUNT; } if (!ParameterPassedByReference(ht, numArgs)){ php_error(E_WARNING, "Array not passed by reference in call to odbc_fetch_into()"); RETURN_FALSE; } #endif convert_to_long(arg1); res_ind = arg1->value.lval; /* check result */ if ((result = odbc_get_result(list, res_ind)) == NULL){ RETURN_FALSE; } if (result->numcols == 0) { php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } if (arr->type != IS_ARRAY){ if (array_init(arr) == FAILURE){ php_error(E_WARNING, "Can't convert to type Array"); RETURN_FALSE; } } #if HAVE_SQL_EXTENDED_FETCH if (result->fetch_abs){ if (rownum > 0) rc = SQLExtendedFetch(result->stmt,SQL_FETCH_ABSOLUTE,rownum,&crow,RowStatus); else rc = SQLExtendedFetch(result->stmt,SQL_FETCH_NEXT,1,&crow,RowStatus); }else #endif rc = SQLFetch(result->stmt); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) RETURN_FALSE; #if HAVE_SQL_EXTENDED_FETCH if (rownum > 0 && result->fetch_abs) result->fetched = rownum; else #endif result->fetched++; for (i = 0; i < result->numcols; i++) { tmp.type = IS_STRING; tmp.value.str.len = 0; sql_c_type = SQL_C_CHAR; switch(result->values[i].coltype){ case SQL_BINARY: case SQL_VARBINARY: case SQL_LONGVARBINARY: if (result->binmode <= 0){ tmp.value.str.val = empty_string; break; } if (result->binmode == 1) sql_c_type = SQL_C_BINARY; case SQL_LONGVARCHAR: if (IS_SQL_LONG(result->values[i].coltype) && result->longreadlen <= 0){ tmp.value.str.val = empty_string; break; } if (buf == NULL) buf = emalloc(result->longreadlen + 1); rc = SQLGetData(result->stmt, (UWORD)(i + 1),sql_c_type, buf, result->longreadlen + 1, &result->values[i].vallen); if (rc == SQL_ERROR) { ODBC_SQL_ERROR(result->conn_ptr->hdbc, result->stmt, "SQLGetData"); efree(buf); RETURN_FALSE; } if (rc == SQL_SUCCESS_WITH_INFO){ tmp.value.str.len = result->longreadlen; } else if (result->values[i].vallen == SQL_NULL_DATA){ tmp.value.str.val = empty_string; break; } else { tmp.value.str.len = result->values[i].vallen; } tmp.value.str.val = estrndup(buf, tmp.value.str.len); break; default: if (result->values[i].vallen == SQL_NULL_DATA){ tmp.value.str.val = empty_string; break; } tmp.value.str.len = result->values[i].vallen; tmp.value.str.val = estrndup(result->values[i].value,tmp.value.str.len); break; } zend_hash_index_update(arr->value.ht, i, (void *) &tmp, sizeof(pval), NULL); } if (buf) efree(buf); RETURN_LONG(result->numcols); } /* }}} */ #if HAVE_SOLID PHP_FUNCTION(solid_fetch_prev) { int res_ind; odbc_result *result; RETCODE rc; pval *arg1; if (getParameters(ht, 1, &arg1) == FAILURE) WRONG_PARAM_COUNT; convert_to_long(arg1); res_ind = arg1->value.lval; /* check result */ if ((result = odbc_get_result(list, res_ind)) == NULL) { RETURN_FALSE; } if (result->numcols == 0) { php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } rc = SQLFetchPrev(result->stmt); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) { RETURN_FALSE; } if (result->fetched > 1) result->fetched--; RETURN_TRUE; } #endif /* {{{ proto odbc_fetch_row(int result_id [, int row_number]) Fetch a row */ PHP_FUNCTION(odbc_fetch_row) { int res_ind, numArgs; SDWORD rownum = 1; odbc_result *result; RETCODE rc; pval *arg1, *arg2; #if HAVE_SQL_EXTENDED_FETCH UDWORD crow; UWORD RowStatus[1]; #endif numArgs = ARG_COUNT(ht); if (numArgs == 1){ if (getParameters(ht, 1, &arg1) == FAILURE) WRONG_PARAM_COUNT; } else { if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) WRONG_PARAM_COUNT; convert_to_long(arg2); rownum = arg2->value.lval; } convert_to_long(arg1); res_ind = arg1->value.lval; /* check result */ if ((result = odbc_get_result(list, res_ind)) == NULL) { RETURN_FALSE; } if (result->numcols == 0) { php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } #if HAVE_SQL_EXTENDED_FETCH if (result->fetch_abs){ if (numArgs > 1) rc = SQLExtendedFetch(result->stmt,SQL_FETCH_ABSOLUTE,rownum,&crow,RowStatus); else rc = SQLExtendedFetch(result->stmt,SQL_FETCH_NEXT,1,&crow,RowStatus); }else #endif rc = SQLFetch(result->stmt); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) { RETURN_FALSE; } if (numArgs > 1) { result->fetched = rownum; } else { result->fetched++; } RETURN_TRUE; } /* }}} */ /* {{{ proto odbc_result(int result_id, mixed field) Get result data */ PHP_FUNCTION(odbc_result) { char *field; int res_ind; int field_ind; SWORD sql_c_type = SQL_C_CHAR; odbc_result *result; int i = 0; RETCODE rc; SDWORD fieldsize; pval *arg1, *arg2; #if HAVE_SQL_EXTENDED_FETCH UDWORD crow; UWORD RowStatus[1]; #endif field_ind = -1; field = NULL; if (ARG_COUNT(ht) != 2 || getParameters(ht, 2 , &arg1, &arg2) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); res_ind = arg1->value.lval; if (arg2->type == IS_STRING){ field = arg2->value.str.val; } else { convert_to_long(arg2); field_ind = arg2->value.lval - 1; } /* check result */ if ((result = odbc_get_result(list, res_ind)) == NULL) { RETURN_FALSE; } if ((result->numcols == 0)){ php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } /* get field index if the field parameter was a string */ if (field != NULL){ for(i = 0; i < result->numcols; i++){ if (!strcasecmp(result->values[i].name, field)){ field_ind = i; break; } } if (field_ind < 0){ php_error(E_WARNING, "Field %s not found", field); RETURN_FALSE; } } else { /* check for limits of field_ind if the field parameter was an int */ if (field_ind >= result->numcols || field_ind < 0){ php_error(E_WARNING, "Field index is larger than the number of fields"); RETURN_FALSE; } } if (result->fetched == 0){ /* User forgot to call odbc_fetchrow(), let's do it here */ #if HAVE_SQL_EXTENDED_FETCH if (result->fetch_abs) rc = SQLExtendedFetch(result->stmt, SQL_FETCH_NEXT, 1, &crow,RowStatus); else #endif rc = SQLFetch(result->stmt); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) RETURN_FALSE; result->fetched++; } switch(result->values[field_ind].coltype){ case SQL_BINARY: case SQL_VARBINARY: case SQL_LONGVARBINARY: if (result->binmode <= 1) sql_c_type = SQL_C_BINARY; if (result->binmode <= 0) break; case SQL_LONGVARCHAR: if (IS_SQL_LONG(result->values[field_ind].coltype)){ if (result->longreadlen <= 0) break; else fieldsize = result->longreadlen; } else { SQLColAttributes(result->stmt, (UWORD)(field_ind + 1), (UWORD)((sql_c_type == SQL_C_BINARY) ? SQL_COLUMN_LENGTH : SQL_COLUMN_DISPLAY_SIZE), NULL, 0, NULL, &fieldsize); } /* For char data, the length of the returned string will be longreadlen - 1 */ fieldsize = (result->longreadlen <= 0) ? 4096 : result->longreadlen; field = emalloc(fieldsize); if (!field){ php_error(E_WARNING, "Out of memory"); RETURN_FALSE; } /* SQLGetData will truncate CHAR data to fieldsize - 1 bytes and append \0. For binary data it is truncated to fieldsize bytes. */ rc = SQLGetData(result->stmt, (UWORD)(field_ind + 1), sql_c_type, field, fieldsize, &result->values[field_ind].vallen); if (rc == SQL_ERROR) { ODBC_SQL_ERROR(result->conn_ptr->hdbc, result->stmt, "SQLGetData"); efree(field); RETURN_FALSE; } if (result->values[field_ind].vallen == SQL_NULL_DATA || rc == SQL_NO_DATA_FOUND){ efree(field); RETURN_FALSE; } /* Reduce fieldlen by 1 if we have char data. One day we might have binary strings... */ if (result->values[field_ind].coltype == SQL_LONGVARCHAR) fieldsize -= 1; /* Don't duplicate result, saves one emalloc. For SQL_SUCCESS, the length is in vallen. */ RETURN_STRINGL(field, (rc == SQL_SUCCESS_WITH_INFO) ? fieldsize : result->values[field_ind].vallen, 0); break; default: if (result->values[field_ind].vallen == SQL_NULL_DATA){ RETURN_FALSE; } else { RETURN_STRINGL(result->values[field_ind].value, result->values[field_ind].vallen, 1); } break; } /* If we come here, output unbound LONG and/or BINARY column data to the client */ /* We emalloc 1 byte more for SQL_C_CHAR (trailing \0) */ fieldsize = (sql_c_type == SQL_C_CHAR) ? 4096 : 4095; if ((field = emalloc(fieldsize)) == NULL){ php_error(E_WARNING,"Out of memory"); RETURN_FALSE; } /* Call SQLGetData() until SQL_SUCCESS is returned */ while (1) { rc = SQLGetData(result->stmt, (UWORD)(field_ind + 1),sql_c_type, field, fieldsize, &result->values[field_ind].vallen); if (rc == SQL_ERROR) { ODBC_SQL_ERROR(result->conn_ptr->hdbc, result->stmt, "SQLGetData"); efree(field); RETURN_FALSE; } if (result->values[field_ind].vallen == SQL_NULL_DATA){ efree(field); RETURN_FALSE; } /* chop the trailing \0 by outputing only 4095 bytes */ PHPWRITE(field,(rc == SQL_SUCCESS_WITH_INFO) ? 4095 : result->values[field_ind].vallen); if (rc == SQL_SUCCESS) { /* no more data avail */ efree(field); RETURN_TRUE; } } RETURN_TRUE; } /* }}} */ /* {{{ proto odbc_result_all(int result_id [, string format]) Print result as HTML table */ PHP_FUNCTION(odbc_result_all) { char *buf = NULL; int res_ind, numArgs; odbc_result *result; int i; RETCODE rc; pval *arg1, *arg2; SWORD sql_c_type; #if HAVE_SQL_EXTENDED_FETCH UDWORD crow; UWORD RowStatus[1]; #endif numArgs = ARG_COUNT(ht); if (numArgs == 1){ if (getParameters(ht, 1, &arg1) == FAILURE) WRONG_PARAM_COUNT; } else { if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) WRONG_PARAM_COUNT; } convert_to_long(arg1); res_ind = arg1->value.lval; /* check result */ if ((result = odbc_get_result(list, res_ind)) == NULL) { RETURN_FALSE; } if (result->numcols == 0){ php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } #if HAVE_SQL_EXTENDED_FETCH if (result->fetch_abs) rc = SQLExtendedFetch(result->stmt,SQL_FETCH_NEXT,1,&crow,RowStatus); else #endif rc = SQLFetch(result->stmt); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO){ php_printf("

No rows found

\n"); RETURN_LONG(0); } /* Start table tag */ if (numArgs == 1){ php_printf(""); } else { convert_to_string(arg2); php_printf("
",arg2->value.str.val); } for(i = 0; i < result->numcols; i++) php_printf("", result->values[i].name); php_printf("\n"); while(rc == SQL_SUCCESS || rc == SQL_SUCCESS_WITH_INFO){ result->fetched++; php_printf(""); for(i = 0; i < result->numcols; i++){ sql_c_type = SQL_C_CHAR; switch(result->values[i].coltype){ case SQL_BINARY: case SQL_VARBINARY: case SQL_LONGVARBINARY: if (result->binmode <= 0){ php_printf(""); break; } if (result->binmode <= 1) sql_c_type = SQL_C_BINARY; case SQL_LONGVARCHAR: if (IS_SQL_LONG(result->values[i].coltype) && result->longreadlen <= 0){ php_printf(""); break; } if (buf == NULL) buf = emalloc(result->longreadlen); rc = SQLGetData(result->stmt, (UWORD)(i + 1),sql_c_type, buf, result->longreadlen, &result->values[i].vallen); php_printf("
%s
Not printableNot printable"); if (rc == SQL_ERROR) { ODBC_SQL_ERROR(result->conn_ptr->hdbc, result->stmt, "SQLGetData"); php_printf("
"); efree(buf); RETURN_FALSE; } if (rc == SQL_SUCCESS_WITH_INFO) php_printf(buf,result->longreadlen); else if (result->values[i].vallen == SQL_NULL_DATA){ php_printf(" "); break; } else { php_printf(buf, result->values[i].vallen); } php_printf(""); break; default: if (result->values[i].vallen == SQL_NULL_DATA){ php_printf(" "); } else { php_printf("%s", result->values[i].value); } break; } } php_printf("\n"); #if HAVE_SQL_EXTENDED_FETCH if (result->fetch_abs) rc = SQLExtendedFetch(result->stmt,SQL_FETCH_NEXT,1,&crow,RowStatus); else #endif rc = SQLFetch(result->stmt); } php_printf("\n"); if (buf) efree(buf); RETURN_LONG(result->fetched); } /* }}} */ /* {{{ proto odbc_free_result(int result_id) Free resources associated with a result */ PHP_FUNCTION(odbc_free_result) { pval *arg1; if ( getParameters(ht, 1, &arg1) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); odbc_del_result(list, arg1->value.lval); RETURN_TRUE; } /* }}} */ /* {{{ proto odbc_connect(string DSN, string user, string password [, int cursor_option]) Connect to a datasource */ PHP_FUNCTION(odbc_connect) { php3_odbc_do_connect(INTERNAL_FUNCTION_PARAM_PASSTHRU, 0); } /* }}} */ /* {{{ proto odbc_connect(string DSN, string user, string password [, int cursor_option]) Establish a persistant connection to a datasource */ PHP_FUNCTION(odbc_pconnect) { php3_odbc_do_connect(INTERNAL_FUNCTION_PARAM_PASSTHRU, 1); } /* }}} */ /* Persistent connections: two list-types le_pconn, le_conn and a plist * where hashed connection info is stored together with index pointer to * the actual link of type le_pconn in the list. Only persistent * connections get hashed up. Normal connections use existing pconnections. * Maybe this has to change with regard to transactions on pconnections? * Possibly set autocommit to on on request shutdown. * * We do have to hash non-persistent connections, and reuse connections. * In the case where two connects were being made, without closing the first * connect, access violations were occuring. This is because some of the * "globals" in this module should actualy be per-connection variables. I * simply fixed things to get them working for now. Shane */ void php3_odbc_do_connect(INTERNAL_FUNCTION_PARAMETERS, int persistent) { char *db = NULL; char *uid = NULL; char *pwd = NULL; pval *arg1, *arg2, *arg3, *arg4; odbc_connection *db_conn; RETCODE rc; list_entry *index_ptr; char *hashed_details; int hashed_len, len, id, cur_opt; int type; ODBC_TLS_VARS; ODBCG(resource_list) = list; ODBCG(resource_plist) = plist; /* Now an optional 4th parameter specifying the cursor type * defaulting to the cursors default */ switch(ARG_COUNT(ht)) { case 3: if (getParameters(ht, 3, &arg1, &arg2, &arg3) == FAILURE) { WRONG_PARAM_COUNT; } /* Use Default: Probably a better way to do this */ cur_opt = SQL_CUR_DEFAULT; break; case 4: if (getParameters(ht, 4, &arg1, &arg2, &arg3, &arg4) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg4); cur_opt = arg4->value.lval; /* Confirm the cur_opt range */ if (! (cur_opt == SQL_CUR_USE_IF_NEEDED || cur_opt == SQL_CUR_USE_ODBC || cur_opt == SQL_CUR_USE_DRIVER || cur_opt == SQL_CUR_DEFAULT) ) { php_error(E_WARNING, "odbc: Invalid Cursor type (%d)", cur_opt); RETURN_FALSE; } break; default: WRONG_PARAM_COUNT; break; } convert_to_string(arg1); convert_to_string(arg2); convert_to_string(arg3); db = arg1->value.str.val; uid = arg2->value.str.val; pwd = arg3->value.str.val; if (ODBCG(allow_persistent) <= 0) { persistent = 0; } if (ODBCG(max_links) != -1 && ODBCG(num_links) >= ODBCG(max_links)) { php_error(E_WARNING, "odbc: Too many open links (%d)", ODBCG(num_links)); RETURN_FALSE; } /* the user requested a persistent connection */ if (persistent && ODBCG(max_persistent) != -1 && ODBCG(num_persistent) >= ODBCG(max_persistent)) { php_error(E_WARNING,"odbc: Too many open persistent links (%d)", ODBCG(num_persistent)); RETURN_FALSE; } len = strlen(db) + strlen(uid) + strlen(pwd) + sizeof(ODBC_TYPE) - 1 + 5; hashed_details = emalloc(len); if (hashed_details == NULL) { php_error(E_WARNING, "Out of memory"); RETURN_FALSE; } hashed_len = php_sprintf(hashed_details, "%s_%s_%s_%s_%d", ODBC_TYPE, db, uid, pwd, cur_opt); /* FIXME the idea of checking to see if our connection is already persistent is good, but it adds a lot of overhead to non-persistent connections. We should look and see if we can fix that somehow */ /* try to find if we already have this link in our persistent list, * no matter if it is to be persistent or not */ if ((persistent || (zend_hash_find(list, hashed_details, hashed_len + 1, (void **) &index_ptr) == FAILURE || !php3_list_find((int) index_ptr->ptr, &type))) && zend_hash_find(plist, hashed_details, hashed_len + 1, (void **) &index_ptr) == FAILURE) { /* the link is not in the persistent list */ list_entry new_le, new_index_ptr; if (persistent) { db_conn = (odbc_connection *)malloc(sizeof(odbc_connection)); } else { db_conn = (odbc_connection *)emalloc(sizeof(odbc_connection)); } SQLAllocConnect(ODBCG(henv), &db_conn->hdbc); #if HAVE_SOLID SQLSetConnectOption(db_conn->hdbc, SQL_TRANSLATE_OPTION, SQL_SOLID_XLATOPT_NOCNV); #endif #if HAVE_OPENLINK { char dsnbuf[300]; short dsnbuflen; rc = SQLDriverConnect(db_conn->hdbc, NULL, db, SQL_NTS, dsnbuf, sizeof(dsnbuf)-1, &dsnbuflen, SQL_DRIVER_COMPLETE); } #else if(cur_opt != SQL_CUR_DEFAULT){ rc = SQLSetConnectOption(db_conn->hdbc, SQL_ODBC_CURSORS, cur_opt); if (rc != SQL_SUCCESS ) { /* && rc != SQL_SUCCESS_WITH_INFO ? */ ODBC_SQL_ERROR(db_conn->hdbc, SQL_NULL_HSTMT, "SQLSetConnectOption"); SQLFreeConnect(db_conn->hdbc); if (persistent) free(db_conn); else efree(db_conn); RETURN_FALSE; } } #if HAVE_EMPRESS { int direct = 0; char dsnbuf[300]; short dsnbuflen; char *ldb = 0; if (strstr ((char*)db, ";")) { direct = 1; if (uid && !strstr ((char*)db, "uid") && !strstr ((char*)db, "UID")) { ldb = (char*) emalloc (strlen(db) + strlen (uid) + strlen (pwd) + 12); sprintf (ldb, "%s;UID=%s;PWD=%s", db, uid, pwd); } else { ldb = (char*) emalloc (strlen (db) + 1); strcat (ldb, db); } } if (direct) rc = SQLDriverConnect (db_conn->hdbc, NULL, ldb, strlen (ldb), dsnbuf, 300, &dsnbuflen, SQL_DRIVER_NOPROMPT); else rc = SQLConnect(db_conn->hdbc, db, SQL_NTS, uid, SQL_NTS, pwd, SQL_NTS); if (ldb) efree (ldb); } #else rc = SQLConnect(db_conn->hdbc, db, SQL_NTS, uid, SQL_NTS, pwd, SQL_NTS); #endif #endif if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) { ODBC_SQL_ERROR(db_conn->hdbc, SQL_NULL_HSTMT, "SQLConnect"); SQLFreeConnect(db_conn->hdbc); if (persistent) free(db_conn); else efree(db_conn); RETURN_FALSE; } db_conn->open = 1; if (persistent){ new_le.type = ODBCG(le_pconn); new_le.ptr = db_conn; return_value->value.lval = php3_plist_insert(db_conn, ODBCG(le_pconn)); new_index_ptr.ptr = (void *) return_value->value.lval; #ifdef THREAD_SAFE new_index_ptr.type = _php3_le_index_ptr(); #else new_index_ptr.type = le_index_ptr; #endif if (zend_hash_update(plist,hashed_details,hashed_len + 1,(void *) &new_index_ptr, sizeof(list_entry),NULL)==FAILURE) { SQLDisconnect(db_conn->hdbc); SQLFreeConnect(db_conn->hdbc); free(db_conn); efree(hashed_details); RETURN_FALSE; } ODBCG(num_persistent)++; } else { new_le.type = ODBCG(le_conn); new_le.ptr = db_conn; return_value->value.lval = php3_list_insert(db_conn, ODBCG(le_conn)); new_index_ptr.ptr = (void *) return_value->value.lval; #ifdef THREAD_SAFE new_index_ptr.type = _php3_le_index_ptr(); #else new_index_ptr.type = le_index_ptr; #endif if (zend_hash_update(list,hashed_details,hashed_len + 1,(void *) &new_index_ptr, sizeof(list_entry),NULL)==FAILURE) { SQLDisconnect(db_conn->hdbc); SQLFreeConnect(db_conn->hdbc); efree(db_conn); efree(hashed_details); RETURN_FALSE; } } ODBCG(num_links)++; } else { /* we are already connected */ #ifdef THREAD_SAFE if (index_ptr->type != _php3_le_index_ptr()) { #else if (index_ptr->type != le_index_ptr) { #endif efree(hashed_details); RETURN_FALSE; } id = (int) index_ptr->ptr; /* first see if there is a persistent connection and use it, else, if we are making a non-persistent connect, check our non-persistent list */ db_conn = (odbc_connection *)php3_plist_find(id, &type); if(!db_conn && !persistent) db_conn = (odbc_connection *)php3_list_find(id, &type); /* FIXME test if the connection is dead */ /* For Adabas D and local db connections, a reconnect is performed * implicitly when needed. Cool. */ if (db_conn && (type == ODBCG(le_conn) || type == ODBCG(le_pconn))){ return_value->value.lval = id; } else { efree(hashed_details); RETURN_FALSE; } } efree(hashed_details); return_value->type = IS_LONG; } /* {{{ proto odbc_close(int connection_id) Close an ODBC connection */ PHP_FUNCTION(odbc_close) { pval *arg1; HDBC conn; int type, ind; ODBC_TLS_VARS; if (getParameters(ht, 1, &arg1) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); ind = (int)arg1->value.lval; conn = (HDBC)php3_list_find(ind, &type); if (!conn || (type != ODBCG(le_conn) && type != ODBCG(le_pconn))) { return; } php3_list_delete(ind); } /* }}} */ /* {{{ proto odbc_num_rows(int result_id) Get number of rows in a result */ PHP_FUNCTION(odbc_num_rows) { odbc_result *result; SDWORD rows; pval *arg1; if ( getParameters(ht, 1, &arg1) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); if ((result = odbc_get_result(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } SQLRowCount(result->stmt, &rows); RETURN_LONG(rows); } /* }}} */ /* {{{ proto odbc_num_fields(int result_id) Get number of columns in a result */ PHP_FUNCTION(odbc_num_fields) { odbc_result *result; pval *arg1; if ( getParameters(ht, 1, &arg1) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); if ((result = odbc_get_result(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } RETURN_LONG(result->numcols); } /* }}} */ /* {{{ proto odbc_field_name(int result_id, int field_number) Get a column name */ PHP_FUNCTION(odbc_field_name) { odbc_result *result; pval *arg1, *arg2; if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); convert_to_long(arg2); if ((result = odbc_get_result(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } if (result->numcols == 0){ php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } if (arg2->value.lval > result->numcols){ php_error(E_WARNING, "Field index larger than number of fields"); RETURN_FALSE; } if (arg2->value.lval < 1){ php_error(E_WARNING, "Field numbering starts at 1"); RETURN_FALSE; } RETURN_STRING(result->values[arg2->value.lval - 1].name,1) } /* }}} */ /* {{{ proto odbc_field_type(int result_id, int field_number) Get the datatype of a column */ PHP_FUNCTION(odbc_field_type) { odbc_result *result; char tmp[32]; SWORD tmplen; pval *arg1, *arg2; if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); convert_to_long(arg2); if ((result = odbc_get_result(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } if (result->numcols == 0){ php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } if (arg2->value.lval > result->numcols){ php_error(E_WARNING, "Field index larger than number of fields"); RETURN_FALSE; } SQLColAttributes(result->stmt, (UWORD)arg2->value.lval, SQL_COLUMN_TYPE_NAME, tmp, 31, &tmplen, NULL); RETURN_STRING(tmp,1) } /* }}} */ /* {{{ proto odbc_field_len(int result_id, int field_number) Get the length of a column */ PHP_FUNCTION(odbc_field_len) { odbc_result *result; SDWORD len; pval *arg1, *arg2; if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); convert_to_long(arg2); if ((result = odbc_get_result(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } if (result->numcols == 0){ php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } if (arg2->value.lval > result->numcols){ php_error(E_WARNING, "Field index larger than number of fields"); RETURN_FALSE; } SQLColAttributes(result->stmt, (UWORD)arg2->value.lval, SQL_COLUMN_PRECISION, NULL, 0, NULL, &len); RETURN_LONG(len); } /* }}} */ /* {{{ proto odbc_field_num(int result_id, string field_name) Return column number */ PHP_FUNCTION(odbc_field_num) { int field_ind; char *fname; odbc_result *result; int i; pval *arg1, *arg2; if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); convert_to_string(arg2); fname = arg2->value.str.val; if (arg1->value.lval == 1){ php_error(E_WARNING, "No tuples available at this result index"); RETURN_FALSE; } if ((result = odbc_get_result(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } field_ind = -1; for(i = 0; i < result->numcols; i++){ if (strcasecmp(result->values[i].name, fname) == 0) field_ind = i + 1; } if (field_ind == -1) RETURN_FALSE; RETURN_LONG(field_ind); } /* }}} */ /* {{{ proto odbc_autocommit(int connection_id, int OnOff) Toggle autocommit mode */ PHP_FUNCTION(odbc_autocommit) { odbc_connection *curr_conn; RETCODE rc; pval *arg1, *arg2 = NULL; int argc; argc = ARG_COUNT(ht); if (argc == 2) { if (getParameters(ht, 2, &arg1, &arg2) == FAILURE) { WRONG_PARAM_COUNT; } } else if (argc == 1) { if (getParameters(ht, 1, &arg1) == FAILURE) { WRONG_PARAM_COUNT; } } else { WRONG_PARAM_COUNT; } convert_to_long(arg1); if (arg2) { convert_to_long(arg2); } if ((curr_conn = odbc_get_conn(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } if (arg2) { rc = SQLSetConnectOption(curr_conn->hdbc, SQL_AUTOCOMMIT, (arg2->value.lval) ? SQL_AUTOCOMMIT_ON : SQL_AUTOCOMMIT_OFF); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO){ ODBC_SQL_ERROR(curr_conn->hdbc, SQL_NULL_HSTMT, "Set autocommit"); RETURN_FALSE; } RETVAL_TRUE; } else { SDWORD status; rc = SQLGetConnectOption(curr_conn->hdbc, SQL_AUTOCOMMIT, (PTR)&status); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO){ ODBC_SQL_ERROR(curr_conn->hdbc, SQL_NULL_HSTMT, "Test autocommit"); RETURN_FALSE; } RETVAL_LONG((long)status); } } /* }}} */ void PHP3_ODBC_TRANSACT(INTERNAL_FUNCTION_PARAMETERS, int type) { odbc_connection *curr_conn; RETCODE rc; pval *arg1; ODBC_TLS_VARS; if ( getParameters(ht, 1, &arg1) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); if ((curr_conn = odbc_get_conn(list, arg1->value.lval)) == NULL){ RETURN_FALSE; } rc = SQLTransact(ODBCG(henv), curr_conn->hdbc, (UWORD)((type)?SQL_COMMIT:SQL_ROLLBACK)); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO){ ODBC_SQL_ERROR(curr_conn->hdbc, SQL_NULL_HSTMT, "SQLTransact"); RETURN_FALSE; } RETURN_TRUE; } /* {{{ proto odbc_commit(int connection_id) Commit an ODBC transaction */ PHP_FUNCTION(odbc_commit) { PHP3_ODBC_TRANSACT(INTERNAL_FUNCTION_PARAM_PASSTHRU, 1); } /* }}} */ /* {{{ proto odbc_rollback(int connection_id) Rollback a transaction */ PHP_FUNCTION(odbc_rollback) { PHP3_ODBC_TRANSACT(INTERNAL_FUNCTION_PARAM_PASSTHRU, 0); } /* }}} */ /* {{{ proto odbc_setoption(??) ?? */ PHP_FUNCTION(odbc_setoption) { odbc_connection *curr_conn; odbc_result *result; RETCODE rc; pval *arg1, *arg2, *arg3, *arg4; if ( getParameters(ht, 3, &arg1, &arg2, &arg3, &arg4) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(arg1); convert_to_long(arg2); convert_to_long(arg3); convert_to_long(arg4); switch (arg2->value.lval) { case 1: /* SQLSetConnectOption */ if ((curr_conn = odbc_get_conn(list, arg1->value.lval)) == NULL){ RETURN_FALSE; } rc = SQLSetConnectOption(curr_conn->hdbc, (unsigned short)(arg3->value.lval), (arg4->value.lval)); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO){ ODBC_SQL_ERROR(curr_conn->hdbc, SQL_NULL_HSTMT, "SetConnectOption"); RETURN_FALSE; } break; case 2: /* SQLSetStmtOption */ if ((result = odbc_get_result(list, arg1->value.lval)) == NULL) { RETURN_FALSE; } rc = SQLSetStmtOption(result->stmt, (unsigned short)(arg3->value.lval), (arg4->value.lval)); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO){ ODBC_SQL_ERROR(result->conn_ptr->hdbc, result->stmt, "SetStmtOption"); RETURN_FALSE; } break; default: php_error(E_WARNING, "Unknown option type"); RETURN_FALSE; break; } RETURN_TRUE; } /* }}} */ #endif /* HAVE_UODBC */ /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: */