/* +----------------------------------------------------------------------+ | Copyright (c) The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | https://www.php.net/license/3_01.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. | +----------------------------------------------------------------------+ | Author: Wez Furlong | +----------------------------------------------------------------------+ */ #ifdef HAVE_CONFIG_H #include #endif #include "php.h" #include "php_ini.h" #include "ext/standard/info.h" #include "ext/pdo/php_pdo.h" #include "ext/pdo/php_pdo_driver.h" #include "php_pdo_odbc.h" #include "php_pdo_odbc_int.h" /* Buffer size; bigger columns than this become a "long column" */ #define LONG_COLUMN_BUFFER_SIZE (ZEND_MM_PAGE_SIZE- ZSTR_MAX_OVERHEAD) enum pdo_odbc_conv_result { PDO_ODBC_CONV_NOT_REQUIRED, PDO_ODBC_CONV_OK, PDO_ODBC_CONV_FAIL }; static int pdo_odbc_sqltype_is_unicode(pdo_odbc_stmt *S, SQLSMALLINT sqltype) { if (!S->assume_utf8) return 0; switch (sqltype) { #ifdef SQL_WCHAR case SQL_WCHAR: return 1; #endif #ifdef SQL_WLONGVARCHAR case SQL_WLONGVARCHAR: return 1; #endif #ifdef SQL_WVARCHAR case SQL_WVARCHAR: return 1; #endif default: return 0; } } static int pdo_odbc_utf82ucs2(pdo_stmt_t *stmt, int is_unicode, const char *buf, zend_ulong buflen, zend_ulong *outlen) { #ifdef PHP_WIN32 if (is_unicode && buflen) { pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; DWORD ret; ret = MultiByteToWideChar(CP_UTF8, 0, buf, buflen, NULL, 0); if (ret == 0) { /*printf("%s:%d %d [%d] %.*s\n", __FILE__, __LINE__, GetLastError(), buflen, buflen, buf);*/ return PDO_ODBC_CONV_FAIL; } ret *= sizeof(WCHAR); if (S->convbufsize <= ret) { S->convbufsize = ret + sizeof(WCHAR); S->convbuf = erealloc(S->convbuf, S->convbufsize); } ret = MultiByteToWideChar(CP_UTF8, 0, buf, buflen, (LPWSTR)S->convbuf, S->convbufsize / sizeof(WCHAR)); if (ret == 0) { /*printf("%s:%d %d [%d] %.*s\n", __FILE__, __LINE__, GetLastError(), buflen, buflen, buf);*/ return PDO_ODBC_CONV_FAIL; } ret *= sizeof(WCHAR); *outlen = ret; return PDO_ODBC_CONV_OK; } #endif return PDO_ODBC_CONV_NOT_REQUIRED; } static int pdo_odbc_ucs22utf8(int is_unicode, zval *result) { #ifdef PHP_WIN32 ZEND_ASSERT(Z_TYPE_P(result) == IS_STRING); if (is_unicode && Z_STRLEN_P(result) != 0) { DWORD ret; ret = WideCharToMultiByte(CP_UTF8, 0, (LPCWSTR) Z_STRVAL_P(result), Z_STRLEN_P(result)/sizeof(WCHAR), NULL, 0, NULL, NULL); if (ret == 0) { return PDO_ODBC_CONV_FAIL; } zend_string *str = zend_string_alloc(ret, 0); ret = WideCharToMultiByte(CP_UTF8, 0, (LPCWSTR) Z_STRVAL_P(result), Z_STRLEN_P(result)/sizeof(WCHAR), ZSTR_VAL(str), ZSTR_LEN(str), NULL, NULL); if (ret == 0) { zend_string_efree(str); return PDO_ODBC_CONV_FAIL; } ZSTR_VAL(str)[ret] = '\0'; zval_ptr_dtor_str(result); ZVAL_STR(result, str); return PDO_ODBC_CONV_OK; } #endif return PDO_ODBC_CONV_NOT_REQUIRED; } static void free_cols(pdo_stmt_t *stmt, pdo_odbc_stmt *S) { if (S->cols) { int i; for (i = 0; i < S->col_count; i++) { if (S->cols[i].data) { efree(S->cols[i].data); } } efree(S->cols); S->cols = NULL; S->col_count = 0; } } static int odbc_stmt_dtor(pdo_stmt_t *stmt) { pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; if (S->stmt != SQL_NULL_HANDLE && php_pdo_stmt_valid_db_obj_handle(stmt)) { if (stmt->executed) { SQLCloseCursor(S->stmt); } SQLFreeHandle(SQL_HANDLE_STMT, S->stmt); S->stmt = SQL_NULL_HANDLE; } free_cols(stmt, S); if (S->convbuf) { efree(S->convbuf); } efree(S); return 1; } static int odbc_stmt_execute(pdo_stmt_t *stmt) { RETCODE rc, rc1; pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; char *buf = NULL; SQLLEN row_count = -1; if (stmt->executed) { SQLCloseCursor(S->stmt); } rc = SQLExecute(S->stmt); while (rc == SQL_NEED_DATA) { struct pdo_bound_param_data *param; rc = SQLParamData(S->stmt, (SQLPOINTER*)¶m); if (rc == SQL_NEED_DATA) { php_stream *stm; int len; pdo_odbc_param *P; zval *parameter; P = (pdo_odbc_param*)param->driver_data; if (Z_ISREF(param->parameter)) { parameter = Z_REFVAL(param->parameter); } else { parameter = ¶m->parameter; } if (Z_TYPE_P(parameter) != IS_RESOURCE) { /* they passed in a string */ zend_ulong ulen; convert_to_string(parameter); switch (pdo_odbc_utf82ucs2(stmt, P->is_unicode, Z_STRVAL_P(parameter), Z_STRLEN_P(parameter), &ulen)) { case PDO_ODBC_CONV_NOT_REQUIRED: rc1 = SQLPutData(S->stmt, Z_STRVAL_P(parameter), Z_STRLEN_P(parameter)); if (rc1 != SQL_SUCCESS && rc1 != SQL_SUCCESS_WITH_INFO) { rc = rc1; } break; case PDO_ODBC_CONV_OK: rc1 = SQLPutData(S->stmt, S->convbuf, ulen); if (rc1 != SQL_SUCCESS && rc1 != SQL_SUCCESS_WITH_INFO) { rc = rc1; } break; case PDO_ODBC_CONV_FAIL: pdo_odbc_stmt_error("error converting input string"); SQLCloseCursor(S->stmt); if (buf) { efree(buf); } return 0; } continue; } /* we assume that LOBs are binary and don't need charset * conversion */ php_stream_from_zval_no_verify(stm, parameter); if (!stm) { /* shouldn't happen either */ pdo_odbc_stmt_error("input LOB is no longer a stream"); SQLCloseCursor(S->stmt); if (buf) { efree(buf); } return 0; } /* now suck data from the stream and stick it into the database */ if (buf == NULL) { buf = emalloc(8192); } do { len = php_stream_read(stm, buf, 8192); if (len == 0) { break; } rc1 = SQLPutData(S->stmt, buf, len); if (rc1 != SQL_SUCCESS && rc1 != SQL_SUCCESS_WITH_INFO) { rc = rc1; } } while (1); } } if (buf) { efree(buf); } switch (rc) { case SQL_SUCCESS: break; case SQL_NO_DATA_FOUND: case SQL_SUCCESS_WITH_INFO: pdo_odbc_stmt_error("SQLExecute"); break; default: pdo_odbc_stmt_error("SQLExecute"); return 0; } SQLRowCount(S->stmt, &row_count); stmt->row_count = row_count; if (S->cols == NULL) { /* do first-time-only definition of bind/mapping stuff */ SQLSMALLINT colcount; /* how many columns do we have ? */ SQLNumResultCols(S->stmt, &colcount); stmt->column_count = S->col_count = (int)colcount; S->cols = ecalloc(colcount, sizeof(pdo_odbc_column)); S->going_long = 0; } return 1; } static int odbc_stmt_param_hook(pdo_stmt_t *stmt, struct pdo_bound_param_data *param, enum pdo_param_event event_type) { pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; RETCODE rc; SQLSMALLINT sqltype = 0, ctype = 0, scale = 0, nullable = 0; SQLULEN precision = 0; pdo_odbc_param *P; zval *parameter; /* we're only interested in parameters for prepared SQL right now */ if (param->is_param) { switch (event_type) { case PDO_PARAM_EVT_FETCH_PRE: case PDO_PARAM_EVT_FETCH_POST: case PDO_PARAM_EVT_NORMALIZE: /* Do nothing */ break; case PDO_PARAM_EVT_FREE: P = param->driver_data; if (P) { efree(P); } break; case PDO_PARAM_EVT_ALLOC: { /* figure out what we're doing */ switch (PDO_PARAM_TYPE(param->param_type)) { case PDO_PARAM_LOB: break; case PDO_PARAM_STMT: return 0; default: break; } rc = SQLDescribeParam(S->stmt, (SQLUSMALLINT) param->paramno+1, &sqltype, &precision, &scale, &nullable); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) { /* MS Access, for instance, doesn't support SQLDescribeParam, * so we need to guess */ switch (PDO_PARAM_TYPE(param->param_type)) { case PDO_PARAM_INT: sqltype = SQL_INTEGER; break; case PDO_PARAM_LOB: sqltype = SQL_LONGVARBINARY; break; default: sqltype = SQL_LONGVARCHAR; } precision = 4000; scale = 5; nullable = 1; if (param->max_value_len > 0) { precision = param->max_value_len; } } if (sqltype == SQL_BINARY || sqltype == SQL_VARBINARY || sqltype == SQL_LONGVARBINARY) { ctype = SQL_C_BINARY; } else { ctype = SQL_C_CHAR; } P = emalloc(sizeof(*P)); param->driver_data = P; P->len = 0; /* is re-populated each EXEC_PRE */ P->outbuf = NULL; P->is_unicode = pdo_odbc_sqltype_is_unicode(S, sqltype); if (P->is_unicode) { /* avoid driver auto-translation: we'll do it ourselves */ ctype = SQL_C_BINARY; } if ((param->param_type & PDO_PARAM_INPUT_OUTPUT) == PDO_PARAM_INPUT_OUTPUT) { P->paramtype = SQL_PARAM_INPUT_OUTPUT; } else if (param->max_value_len <= 0) { P->paramtype = SQL_PARAM_INPUT; } else { P->paramtype = SQL_PARAM_OUTPUT; } if (P->paramtype != SQL_PARAM_INPUT) { if (PDO_PARAM_TYPE(param->param_type) != PDO_PARAM_NULL) { /* need an explicit buffer to hold result */ P->len = param->max_value_len > 0 ? param->max_value_len : precision; if (P->is_unicode) { P->len *= 2; } P->outbuf = emalloc(P->len + (P->is_unicode ? 2:1)); } } if (PDO_PARAM_TYPE(param->param_type) == PDO_PARAM_LOB && P->paramtype != SQL_PARAM_INPUT) { pdo_odbc_stmt_error("Can't bind a lob for output"); return 0; } rc = SQLBindParameter(S->stmt, (SQLUSMALLINT) param->paramno+1, P->paramtype, ctype, sqltype, precision, scale, P->paramtype == SQL_PARAM_INPUT ? (SQLPOINTER)param : P->outbuf, P->len, &P->len ); if (rc == SQL_SUCCESS || rc == SQL_SUCCESS_WITH_INFO) { return 1; } pdo_odbc_stmt_error("SQLBindParameter"); return 0; } case PDO_PARAM_EVT_EXEC_PRE: P = param->driver_data; if (!Z_ISREF(param->parameter)) { parameter = ¶m->parameter; } else { parameter = Z_REFVAL(param->parameter); } if (PDO_PARAM_TYPE(param->param_type) == PDO_PARAM_LOB) { if (Z_TYPE_P(parameter) == IS_RESOURCE) { php_stream *stm; php_stream_statbuf sb; php_stream_from_zval_no_verify(stm, parameter); if (!stm) { return 0; } if (0 == php_stream_stat(stm, &sb)) { if (P->outbuf) { int len, amount; char *ptr = P->outbuf; char *end = P->outbuf + P->len; P->len = 0; do { amount = end - ptr; if (amount == 0) { break; } if (amount > 8192) amount = 8192; len = php_stream_read(stm, ptr, amount); if (len == 0) { break; } ptr += len; P->len += len; } while (1); } else { P->len = SQL_LEN_DATA_AT_EXEC(sb.sb.st_size); } } else { if (P->outbuf) { P->len = 0; } else { P->len = SQL_LEN_DATA_AT_EXEC(0); } } } else { convert_to_string(parameter); if (P->outbuf) { P->len = Z_STRLEN_P(parameter); memcpy(P->outbuf, Z_STRVAL_P(parameter), P->len); } else { P->len = SQL_LEN_DATA_AT_EXEC(Z_STRLEN_P(parameter)); } } } else if (Z_TYPE_P(parameter) == IS_NULL || PDO_PARAM_TYPE(param->param_type) == PDO_PARAM_NULL) { P->len = SQL_NULL_DATA; } else { convert_to_string(parameter); if (P->outbuf) { zend_ulong ulen; switch (pdo_odbc_utf82ucs2(stmt, P->is_unicode, Z_STRVAL_P(parameter), Z_STRLEN_P(parameter), &ulen)) { case PDO_ODBC_CONV_FAIL: case PDO_ODBC_CONV_NOT_REQUIRED: P->len = Z_STRLEN_P(parameter); memcpy(P->outbuf, Z_STRVAL_P(parameter), P->len); break; case PDO_ODBC_CONV_OK: P->len = ulen; memcpy(P->outbuf, S->convbuf, P->len); break; } } else { P->len = SQL_LEN_DATA_AT_EXEC(Z_STRLEN_P(parameter)); } } return 1; case PDO_PARAM_EVT_EXEC_POST: P = param->driver_data; if (P->outbuf) { if (Z_ISREF(param->parameter)) { parameter = Z_REFVAL(param->parameter); } else { parameter = ¶m->parameter; } zval_ptr_dtor(parameter); if (P->len >= 0) { ZVAL_STRINGL(parameter, P->outbuf, P->len); switch (pdo_odbc_ucs22utf8(P->is_unicode, parameter)) { case PDO_ODBC_CONV_FAIL: /* something fishy, but allow it to come back as binary */ case PDO_ODBC_CONV_NOT_REQUIRED: break; case PDO_ODBC_CONV_OK: break; } } else { ZVAL_NULL(parameter); } } return 1; } } return 1; } static int odbc_stmt_fetch(pdo_stmt_t *stmt, enum pdo_fetch_orientation ori, zend_long offset) { RETCODE rc; SQLSMALLINT odbcori; pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; switch (ori) { case PDO_FETCH_ORI_NEXT: odbcori = SQL_FETCH_NEXT; break; case PDO_FETCH_ORI_PRIOR: odbcori = SQL_FETCH_PRIOR; break; case PDO_FETCH_ORI_FIRST: odbcori = SQL_FETCH_FIRST; break; case PDO_FETCH_ORI_LAST: odbcori = SQL_FETCH_LAST; break; case PDO_FETCH_ORI_ABS: odbcori = SQL_FETCH_ABSOLUTE; break; case PDO_FETCH_ORI_REL: odbcori = SQL_FETCH_RELATIVE; break; default: strcpy(stmt->error_code, "HY106"); return 0; } rc = SQLFetchScroll(S->stmt, odbcori, offset); if (rc == SQL_SUCCESS) { return 1; } if (rc == SQL_SUCCESS_WITH_INFO) { pdo_odbc_stmt_error("SQLFetchScroll"); return 1; } if (rc == SQL_NO_DATA) { /* pdo_odbc_stmt_error("SQLFetchScroll"); */ return 0; } pdo_odbc_stmt_error("SQLFetchScroll"); return 0; } static int odbc_stmt_describe(pdo_stmt_t *stmt, int colno) { pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; struct pdo_column_data *col = &stmt->columns[colno]; RETCODE rc; SQLSMALLINT colnamelen; SQLULEN colsize; SQLLEN displaysize = 0; rc = SQLDescribeCol(S->stmt, colno+1, (SQLCHAR *) S->cols[colno].colname, sizeof(S->cols[colno].colname)-1, &colnamelen, &S->cols[colno].coltype, &colsize, NULL, NULL); /* This fixes a known issue with SQL Server and (max) lengths, may affect others as well. If we are SQL_VARCHAR, SQL_VARBINARY, or SQL_WVARCHAR (or any of the long variations) and zero is returned from colsize then consider it long */ if (0 == colsize && (S->cols[colno].coltype == SQL_VARCHAR || S->cols[colno].coltype == SQL_LONGVARCHAR || #ifdef SQL_WVARCHAR S->cols[colno].coltype == SQL_WVARCHAR || #endif #ifdef SQL_WLONGVARCHAR S->cols[colno].coltype == SQL_WLONGVARCHAR || #endif S->cols[colno].coltype == SQL_VARBINARY || S->cols[colno].coltype == SQL_LONGVARBINARY)) { S->going_long = 1; } if (rc != SQL_SUCCESS) { pdo_odbc_stmt_error("SQLDescribeCol"); if (rc != SQL_SUCCESS_WITH_INFO) { return 0; } } rc = SQLColAttribute(S->stmt, colno+1, SQL_DESC_DISPLAY_SIZE, NULL, 0, NULL, &displaysize); if (rc != SQL_SUCCESS) { pdo_odbc_stmt_error("SQLColAttribute"); if (rc != SQL_SUCCESS_WITH_INFO) { return 0; } } colsize = displaysize; col->maxlen = S->cols[colno].datalen = colsize; col->name = zend_string_init(S->cols[colno].colname, colnamelen, 0); S->cols[colno].is_unicode = pdo_odbc_sqltype_is_unicode(S, S->cols[colno].coltype); /* tell ODBC to put it straight into our buffer, but only if it * isn't "long" data, and only if we haven't already bound a long * column. */ if (colsize < LONG_COLUMN_BUFFER_SIZE && !S->going_long) { S->cols[colno].data = emalloc(colsize+1); S->cols[colno].is_long = 0; rc = SQLBindCol(S->stmt, colno+1, S->cols[colno].is_unicode ? SQL_C_BINARY : SQL_C_CHAR, S->cols[colno].data, S->cols[colno].datalen+1, &S->cols[colno].fetched_len); if (rc != SQL_SUCCESS) { pdo_odbc_stmt_error("SQLBindCol"); return 0; } } else { /* allocate a smaller buffer to keep around for smaller * "long" columns */ S->cols[colno].data = emalloc(LONG_COLUMN_BUFFER_SIZE); S->going_long = 1; S->cols[colno].is_long = 1; } return 1; } static int odbc_stmt_get_column_meta(pdo_stmt_t *stmt, zend_long colno, zval *return_value) { array_init(return_value); add_assoc_long(return_value, "pdo_type", PDO_PARAM_STR); return 1; } static int odbc_stmt_get_col(pdo_stmt_t *stmt, int colno, zval *result, enum pdo_param_type *type) { pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; pdo_odbc_column *C = &S->cols[colno]; /* if it is a column containing "long" data, perform late binding now */ if (C->is_long) { SQLLEN orig_fetched_len = SQL_NULL_DATA; RETCODE rc; /* fetch it into C->data, which is allocated with a length * of the page size minus zend_string overhead (LONG_COLUMN_BUFFER_SIZE); * if there is more to be had, we then allocate * bigger buffer for the caller to free */ rc = SQLGetData(S->stmt, colno+1, C->is_unicode ? SQL_C_BINARY : SQL_C_CHAR, C->data, LONG_COLUMN_BUFFER_SIZE, &C->fetched_len); orig_fetched_len = C->fetched_len; if (rc == SQL_SUCCESS && C->fetched_len < LONG_COLUMN_BUFFER_SIZE) { /* all the data fit into our little buffer; * jump down to the generic bound data case */ goto in_data; } if (rc == SQL_SUCCESS_WITH_INFO || rc == SQL_SUCCESS) { /* * This is a long column. * * Try to get as much as we can at once. If the * driver somehow has more for us, get more. We'll * assemble it into one big buffer at the end. * * N.B. with n and n+1 mentioned in the comments: * n is the size returned without null terminator. * * The extension previously tried getting it in 256 * byte blocks, but this could have created trouble * with some drivers. * * However, depending on the driver, fetched_len may * not contain the number of bytes and SQL_NO_TOTAL * may be passed. * The behavior in this case is the same as before, * dividing the data into blocks. However, it has been * changed from 256 byte to LONG_COLUMN_BUFFER_SIZE. */ ssize_t to_fetch_len; if (orig_fetched_len == SQL_NO_TOTAL) { to_fetch_len = C->datalen > (LONG_COLUMN_BUFFER_SIZE - 1) ? (LONG_COLUMN_BUFFER_SIZE - 1) : C->datalen; } else { to_fetch_len = orig_fetched_len; } ssize_t to_fetch_byte = to_fetch_len + 1; char *buf2 = emalloc(to_fetch_byte); zend_string *str = zend_string_init(C->data, to_fetch_byte, 0); size_t used = to_fetch_len; do { C->fetched_len = 0; /* read block. n + 1 bytes => n bytes are actually read, the last 1 is NULL */ rc = SQLGetData(S->stmt, colno+1, C->is_unicode ? SQL_C_BINARY : SQL_C_CHAR, buf2, to_fetch_byte, &C->fetched_len); /* adjust `used` in case we have proper length info from the driver */ if (orig_fetched_len >= 0 && C->fetched_len >= 0) { SQLLEN fixed_used = orig_fetched_len - C->fetched_len; if (fixed_used <= used + 1) { used = fixed_used; } } /* resize output buffer and reassemble block */ if (rc==SQL_SUCCESS_WITH_INFO || (rc==SQL_SUCCESS && C->fetched_len > to_fetch_len)) { /* point 5, in section "Retrieving Data with SQLGetData" in http://msdn.microsoft.com/en-us/library/windows/desktop/ms715441(v=vs.85).aspx states that if SQL_SUCCESS_WITH_INFO, fetched_len will be > n (greater than buf2's size) (if a driver fails to follow that and wrote less than n bytes to buf2, this will AV or read garbage into buf) */ str = zend_string_realloc(str, used + to_fetch_byte, 0); memcpy(ZSTR_VAL(str) + used, buf2, to_fetch_byte); used = used + to_fetch_len; } else if (rc==SQL_SUCCESS) { str = zend_string_realloc(str, used + C->fetched_len, 0); memcpy(ZSTR_VAL(str) + used, buf2, C->fetched_len); used = used + C->fetched_len; } else { /* includes SQL_NO_DATA */ break; } } while (1); efree(buf2); /* NULL terminate the buffer once, when finished, for use with the rest of PHP */ ZSTR_VAL(str)[used] = '\0'; ZVAL_STR(result, str); if (C->is_unicode) { goto unicode_conv; } return 1; } /* something went caca */ return 1; } in_data: /* check the indicator to ensure that the data is intact */ if (C->fetched_len == SQL_NULL_DATA) { /* A NULL value */ ZVAL_NULL(result); return 1; } else if (C->fetched_len >= 0) { /* it was stored perfectly */ ZVAL_STRINGL_FAST(result, C->data, C->fetched_len); if (C->is_unicode) { goto unicode_conv; } return 1; } else { /* no data? */ ZVAL_NULL(result); return 1; } unicode_conv: switch (pdo_odbc_ucs22utf8(C->is_unicode, result)) { case PDO_ODBC_CONV_FAIL: /* oh well. They can have the binary version of it */ case PDO_ODBC_CONV_NOT_REQUIRED: /* shouldn't happen... */ return 1; case PDO_ODBC_CONV_OK: return 1; } return 1; } static int odbc_stmt_set_param(pdo_stmt_t *stmt, zend_long attr, zval *val) { SQLRETURN rc; pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; switch (attr) { case PDO_ATTR_CURSOR_NAME: convert_to_string(val); rc = SQLSetCursorName(S->stmt, (SQLCHAR *) Z_STRVAL_P(val), Z_STRLEN_P(val)); if (rc == SQL_SUCCESS || rc == SQL_SUCCESS_WITH_INFO) { return 1; } pdo_odbc_stmt_error("SQLSetCursorName"); return 0; case PDO_ODBC_ATTR_ASSUME_UTF8: S->assume_utf8 = zval_is_true(val); return 0; default: strcpy(S->einfo.last_err_msg, "Unknown Attribute"); S->einfo.what = "setAttribute"; strcpy(S->einfo.last_state, "IM001"); return -1; } } static int odbc_stmt_get_attr(pdo_stmt_t *stmt, zend_long attr, zval *val) { SQLRETURN rc; pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; switch (attr) { case PDO_ATTR_CURSOR_NAME: { char buf[256]; SQLSMALLINT len = 0; rc = SQLGetCursorName(S->stmt, (SQLCHAR *) buf, sizeof(buf), &len); if (rc == SQL_SUCCESS || rc == SQL_SUCCESS_WITH_INFO) { ZVAL_STRINGL(val, buf, len); return 1; } pdo_odbc_stmt_error("SQLGetCursorName"); return 0; } case PDO_ODBC_ATTR_ASSUME_UTF8: ZVAL_BOOL(val, S->assume_utf8 ? 1 : 0); return 0; default: strcpy(S->einfo.last_err_msg, "Unknown Attribute"); S->einfo.what = "getAttribute"; strcpy(S->einfo.last_state, "IM001"); return -1; } } static int odbc_stmt_next_rowset(pdo_stmt_t *stmt) { SQLRETURN rc; SQLSMALLINT colcount; pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; /* NOTE: can't guarantee that output or input/output parameters * are set until this fella returns SQL_NO_DATA, according to * MSDN ODBC docs */ rc = SQLMoreResults(S->stmt); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) { return 0; } free_cols(stmt, S); /* how many columns do we have ? */ SQLNumResultCols(S->stmt, &colcount); stmt->column_count = S->col_count = (int)colcount; S->cols = ecalloc(colcount, sizeof(pdo_odbc_column)); S->going_long = 0; return 1; } static int odbc_stmt_close_cursor(pdo_stmt_t *stmt) { SQLRETURN rc; pdo_odbc_stmt *S = (pdo_odbc_stmt*)stmt->driver_data; rc = SQLCloseCursor(S->stmt); if (rc != SQL_SUCCESS && rc != SQL_SUCCESS_WITH_INFO) { return 0; } return 1; } const struct pdo_stmt_methods odbc_stmt_methods = { odbc_stmt_dtor, odbc_stmt_execute, odbc_stmt_fetch, odbc_stmt_describe, odbc_stmt_get_col, odbc_stmt_param_hook, odbc_stmt_set_param, odbc_stmt_get_attr, odbc_stmt_get_column_meta, odbc_stmt_next_rowset, odbc_stmt_close_cursor };