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/*--------
* Module: info.c
*
* Description: This module contains routines related to
* ODBC informational functions.
*
* Classes: n/a
*
* API functions: SQLGetInfo, SQLGetTypeInfo, SQLGetFunctions,
* SQLTables, SQLColumns, SQLStatistics, SQLSpecialColumns,
* SQLPrimaryKeys, SQLForeignKeys,
* SQLProcedureColumns, SQLProcedures,
* SQLTablePrivileges, SQLColumnPrivileges(NI)
*
* Comments: See "readme.txt" for copyright and license information.
*--------
*/
#include "psqlodbc.h"
#include "unicode_support.h"
#include <string.h>
#include <stdio.h>
#ifndef WIN32
#include <ctype.h>
#endif
#include "tuple.h"
#include "pgtypes.h"
#include "dlg_specific.h"
#include "environ.h"
#include "connection.h"
#include "statement.h"
#include "qresult.h"
#include "bind.h"
#include "misc.h"
#include "pgtypes.h"
#include "pgapifunc.h"
#include "multibyte.h"
#include "catfunc.h"
/* Trigger related stuff for SQLForeign Keys */
#define TRIGGER_SHIFT 3
#define TRIGGER_MASK 0x03
#define TRIGGER_DELETE 0x01
#define TRIGGER_UPDATE 0x02
static const SQLCHAR *pubstr = (SQLCHAR *) "public";
static const char *likeop = "like";
static const char *eqop = "=";
RETCODE SQL_API
PGAPI_GetInfo(HDBC hdbc,
SQLUSMALLINT fInfoType,
PTR rgbInfoValue,
SQLSMALLINT cbInfoValueMax,
SQLSMALLINT * pcbInfoValue)
{
CSTR func = "PGAPI_GetInfo";
ConnectionClass *conn = (ConnectionClass *) hdbc;
ConnInfo *ci;
const char *p = NULL;
char tmp[MAX_INFO_STRING];
SQLULEN len = 0,
value = 0;
RETCODE ret = SQL_ERROR;
char odbcver[16];
MYLOG(0, "entering...fInfoType=%d\n", fInfoType);
if (!conn)
{
CC_log_error(func, NULL_STRING, NULL);
return SQL_INVALID_HANDLE;
}
ci = &(conn->connInfo);
switch (fInfoType)
{
case SQL_ACCESSIBLE_PROCEDURES: /* ODBC 1.0 */
p = "N";
break;
case SQL_ACCESSIBLE_TABLES: /* ODBC 1.0 */
p = CC_accessible_only(conn) ? "Y" : "N";
break;
case SQL_ACTIVE_CONNECTIONS: /* ODBC 1.0 */
len = 2;
value = 0;
break;
case SQL_ACTIVE_STATEMENTS: /* ODBC 1.0 */
len = 2;
value = 0;
break;
case SQL_ALTER_TABLE: /* ODBC 2.0 */
len = 4;
value = SQL_AT_ADD_COLUMN
| SQL_AT_DROP_COLUMN
| SQL_AT_ADD_COLUMN_SINGLE
| SQL_AT_ADD_CONSTRAINT
| SQL_AT_ADD_TABLE_CONSTRAINT
| SQL_AT_CONSTRAINT_INITIALLY_DEFERRED
| SQL_AT_CONSTRAINT_INITIALLY_IMMEDIATE
| SQL_AT_CONSTRAINT_DEFERRABLE
| SQL_AT_DROP_TABLE_CONSTRAINT_RESTRICT
| SQL_AT_DROP_TABLE_CONSTRAINT_CASCADE
| SQL_AT_DROP_COLUMN_RESTRICT
| SQL_AT_DROP_COLUMN_CASCADE;
break;
case SQL_BOOKMARK_PERSISTENCE: /* ODBC 2.0 */
/* very simple bookmark support */
len = 4;
value = SQL_BP_SCROLL | SQL_BP_DELETE | SQL_BP_UPDATE | SQL_BP_TRANSACTION;
break;
case SQL_COLUMN_ALIAS: /* ODBC 2.0 */
p = "Y";
break;
case SQL_CONCAT_NULL_BEHAVIOR: /* ODBC 1.0 */
len = 2;
value = SQL_CB_NON_NULL;
break;
case SQL_CONVERT_INTEGER:
case SQL_CONVERT_SMALLINT:
case SQL_CONVERT_TINYINT:
case SQL_CONVERT_BIT:
case SQL_CONVERT_VARCHAR: /* ODBC 1.0 */
len = sizeof(SQLUINTEGER);
value = SQL_CVT_BIT | SQL_CVT_INTEGER;
MYLOG(0, "SQL_CONVERT_ mask=" FORMAT_ULEN "\n", value);
break;
case SQL_CONVERT_BIGINT:
case SQL_CONVERT_DECIMAL:
case SQL_CONVERT_DOUBLE:
case SQL_CONVERT_FLOAT:
case SQL_CONVERT_NUMERIC:
case SQL_CONVERT_REAL:
case SQL_CONVERT_DATE:
case SQL_CONVERT_TIME:
case SQL_CONVERT_TIMESTAMP:
case SQL_CONVERT_BINARY:
case SQL_CONVERT_LONGVARBINARY:
case SQL_CONVERT_VARBINARY: /* ODBC 1.0 */
case SQL_CONVERT_CHAR:
case SQL_CONVERT_LONGVARCHAR:
#ifdef UNICODE_SUPPORT
case SQL_CONVERT_WCHAR:
case SQL_CONVERT_WLONGVARCHAR:
case SQL_CONVERT_WVARCHAR:
#endif /* UNICODE_SUPPORT */
len = sizeof(SQLUINTEGER);
value = 0; /* CONVERT is unavailable */
break;
case SQL_CONVERT_FUNCTIONS: /* ODBC 1.0 */
len = sizeof(SQLUINTEGER);
value = SQL_FN_CVT_CONVERT;
MYLOG(0, "CONVERT_FUNCTIONS=" FORMAT_ULEN "\n", value);
break;
case SQL_CORRELATION_NAME: /* ODBC 1.0 */
/*
* Saying no correlation name makes Query not work right.
* value = SQL_CN_NONE;
*/
len = 2;
value = SQL_CN_ANY;
break;
case SQL_CURSOR_COMMIT_BEHAVIOR: /* ODBC 1.0 */
len = 2;
value = SQL_CB_PRESERVE;
break;
case SQL_CURSOR_ROLLBACK_BEHAVIOR: /* ODBC 1.0 */
len = 2;
if (!ci->drivers.use_declarefetch)
value = SQL_CB_PRESERVE;
else
value = SQL_CB_CLOSE;
break;
case SQL_DATA_SOURCE_NAME: /* ODBC 1.0 */
p = CC_get_DSN(conn);
break;
case SQL_DATA_SOURCE_READ_ONLY: /* ODBC 1.0 */
p = CC_is_onlyread(conn) ? "Y" : "N";
break;
case SQL_DATABASE_NAME: /* Support for old ODBC 1.0 Apps */
/*
* Returning the database name causes problems in MS Query. It
* generates query like: "SELECT DISTINCT a FROM byronnbad3
* bad3"
*
* p = CC_get_database(conn);
*/
p = CurrCatString(conn);
break;
case SQL_DBMS_NAME: /* ODBC 1.0 */
if (CC_fake_mss(conn))
p = "Microsoft SQL Server";
else
p = "PostgreSQL";
break;
case SQL_DBMS_VER: /* ODBC 1.0 */
/*
* The ODBC spec wants ##.##.#### ...whatever... so prepend
* the driver
*/
/* version number to the dbms version string */
if (CC_fake_mss(conn))
p = "09.00.1399";
else
{
STRCPY_FIXED(tmp, conn->pg_version);
p = tmp;
}
break;
case SQL_DEFAULT_TXN_ISOLATION: /* ODBC 1.0 */
len = 4;
if (0 == conn->default_isolation)
conn->isolation = CC_get_isolation(conn);
value = conn->default_isolation;
break;
case SQL_DRIVER_NAME: /* ODBC 1.0 */
p = DRIVER_FILE_NAME;
break;
case SQL_DRIVER_ODBC_VER:
SPRINTF_FIXED(odbcver, "%02x.%02x", ODBCVER / 256, ODBCVER % 256);
/* p = DRIVER_ODBC_VER; */
p = odbcver;
break;
case SQL_DRIVER_VER: /* ODBC 1.0 */
p = POSTGRESDRIVERVERSION;
break;
case SQL_EXPRESSIONS_IN_ORDERBY: /* ODBC 1.0 */
p = "Y";
break;
case SQL_FETCH_DIRECTION: /* ODBC 1.0 */
len = 4;
value = (SQL_FD_FETCH_NEXT |
SQL_FD_FETCH_FIRST |
SQL_FD_FETCH_LAST |
SQL_FD_FETCH_PRIOR |
SQL_FD_FETCH_ABSOLUTE |
SQL_FD_FETCH_RELATIVE |
SQL_FD_FETCH_BOOKMARK);
break;
case SQL_FILE_USAGE: /* ODBC 2.0 */
len = 2;
value = SQL_FILE_NOT_SUPPORTED;
break;
case SQL_GETDATA_EXTENSIONS: /* ODBC 2.0 */
len = 4;
value = (SQL_GD_ANY_COLUMN | SQL_GD_ANY_ORDER | SQL_GD_BOUND | SQL_GD_BLOCK);
break;
case SQL_GROUP_BY: /* ODBC 2.0 */
len = 2;
value = SQL_GB_GROUP_BY_EQUALS_SELECT;
break;
case SQL_IDENTIFIER_CASE: /* ODBC 1.0 */
/*
* are identifiers case-sensitive (yes, but only when quoted.
* If not quoted, they default to lowercase)
*/
len = 2;
value = SQL_IC_LOWER;
break;
case SQL_IDENTIFIER_QUOTE_CHAR: /* ODBC 1.0 */
/* the character used to quote "identifiers" */
p = "\"";
break;
case SQL_KEYWORDS: /* ODBC 2.0 */
p = NULL_STRING;
break;
case SQL_LIKE_ESCAPE_CLAUSE: /* ODBC 2.0 */
/*
* is there a character that escapes '%' and '_' in a LIKE
* clause? not as far as I can tell
*/
p = "N";
break;
case SQL_LOCK_TYPES: /* ODBC 2.0 */
len = 4;
value = ci->drivers.lie ? (SQL_LCK_NO_CHANGE | SQL_LCK_EXCLUSIVE | SQL_LCK_UNLOCK) : SQL_LCK_NO_CHANGE;
break;
case SQL_MAX_BINARY_LITERAL_LEN: /* ODBC 2.0 */
len = 4;
value = 0;
break;
case SQL_MAX_CHAR_LITERAL_LEN: /* ODBC 2.0 */
len = 4;
value = 0;
break;
case SQL_MAX_COLUMN_NAME_LEN: /* ODBC 1.0 */
len = 2;
value = CC_get_max_idlen(conn);
if (0 == value)
value = NAMEDATALEN_V73 - 1;
break;
case SQL_MAX_COLUMNS_IN_GROUP_BY: /* ODBC 2.0 */
len = 2;
value = 0;
break;
case SQL_MAX_COLUMNS_IN_INDEX: /* ODBC 2.0 */
len = 2;
value = 0;
break;
case SQL_MAX_COLUMNS_IN_ORDER_BY: /* ODBC 2.0 */
len = 2;
value = 0;
break;
case SQL_MAX_COLUMNS_IN_SELECT: /* ODBC 2.0 */
len = 2;
value = 0;
break;
case SQL_MAX_COLUMNS_IN_TABLE: /* ODBC 2.0 */
len = 2;
value = 0;
break;
case SQL_MAX_CURSOR_NAME_LEN: /* ODBC 1.0 */
len = 2;
value = MAX_CURSOR_LEN;
break;
case SQL_MAX_INDEX_SIZE: /* ODBC 2.0 */
len = 4;
value = 0;
break;
case SQL_MAX_OWNER_NAME_LEN: /* ODBC 1.0 */
len = 2;
value = 0;
if (PG_VERSION_GT(conn, 7.4))
value = CC_get_max_idlen(conn);
#ifdef MAX_SCHEMA_LEN
else
value = MAX_SCHEMA_LEN;
#endif /* MAX_SCHEMA_LEN */
if (0 == value)
value = NAMEDATALEN_V73 - 1;
break;
case SQL_MAX_PROCEDURE_NAME_LEN: /* ODBC 1.0 */
len = 2;
value = 0;
break;
case SQL_MAX_QUALIFIER_NAME_LEN: /* ODBC 1.0 */
len = 2;
value = 0;
break;
case SQL_MAX_ROW_SIZE: /* ODBC 2.0 */
len = 4;
/* No limit with tuptoaster in 7.1+ */
value = 0;
break;
case SQL_MAX_STATEMENT_LEN: /* ODBC 2.0 */
len = 4;
value = 0;
break;
case SQL_MAX_TABLE_NAME_LEN: /* ODBC 1.0 */
len = 2;
if (PG_VERSION_GT(conn, 7.4))
value = CC_get_max_idlen(conn);
#ifdef MAX_TABLE_LEN
else
value = MAX_TABLE_LEN;
#endif /* MAX_TABLE_LEN */
if (0 == value)
value = NAMEDATALEN_V73 - 1;
break;
case SQL_MAX_TABLES_IN_SELECT: /* ODBC 2.0 */
len = 2;
value = 0;
break;
case SQL_MAX_USER_NAME_LEN:
len = 2;
value = 0;
break;
case SQL_MULT_RESULT_SETS: /* ODBC 1.0 */
/* Don't support multiple result sets but say yes anyway? */
p = "Y";
break;
case SQL_MULTIPLE_ACTIVE_TXN: /* ODBC 1.0 */
p = "Y";
break;
case SQL_NEED_LONG_DATA_LEN: /* ODBC 2.0 */
/*
* Don't need the length, SQLPutData can handle any size and
* multiple calls
*/
p = "N";
break;
case SQL_NON_NULLABLE_COLUMNS: /* ODBC 1.0 */
len = 2;
value = SQL_NNC_NON_NULL;
break;
case SQL_NULL_COLLATION: /* ODBC 2.0 */
/* where are nulls sorted? */
len = 2;
value = SQL_NC_HIGH;
break;
case SQL_NUMERIC_FUNCTIONS: /* ODBC 1.0 */
len = 4;
value = 0;
break;
case SQL_ODBC_API_CONFORMANCE: /* ODBC 1.0 */
len = 2;
value = SQL_OAC_LEVEL1;
break;
case SQL_ODBC_SAG_CLI_CONFORMANCE: /* ODBC 1.0 */
len = 2;
value = SQL_OSCC_NOT_COMPLIANT;
break;
case SQL_ODBC_SQL_CONFORMANCE: /* ODBC 1.0 */
len = 2;
value = SQL_OSC_CORE;
break;
case SQL_ODBC_SQL_OPT_IEF: /* ODBC 1.0 */
p = "N";
break;
case SQL_OJ_CAPABILITIES: /* ODBC 2.01 */
len = 4;
value = (SQL_OJ_LEFT |
SQL_OJ_RIGHT |
SQL_OJ_FULL |
SQL_OJ_NESTED |
SQL_OJ_NOT_ORDERED |
SQL_OJ_INNER |
SQL_OJ_ALL_COMPARISON_OPS);
break;
case SQL_ORDER_BY_COLUMNS_IN_SELECT: /* ODBC 2.0 */
p = "Y";
break;
case SQL_OUTER_JOINS: /* ODBC 1.0 */
p = "Y";
break;
case SQL_OWNER_TERM: /* ODBC 1.0 */
p = "schema";
break;
case SQL_OWNER_USAGE: /* ODBC 2.0 */
len = 4;
value = SQL_OU_DML_STATEMENTS
| SQL_OU_TABLE_DEFINITION
| SQL_OU_INDEX_DEFINITION
| SQL_OU_PRIVILEGE_DEFINITION;
break;
case SQL_POS_OPERATIONS: /* ODBC 2.0 */
len = 4;
value = (SQL_POS_POSITION | SQL_POS_REFRESH);
if (0 != ci->updatable_cursors)
value |= (SQL_POS_UPDATE | SQL_POS_DELETE | SQL_POS_ADD);
break;
case SQL_POSITIONED_STATEMENTS: /* ODBC 2.0 */
len = 4;
value = ci->drivers.lie ? (SQL_PS_POSITIONED_DELETE |
SQL_PS_POSITIONED_UPDATE |
SQL_PS_SELECT_FOR_UPDATE) : 0;
break;
case SQL_PROCEDURE_TERM: /* ODBC 1.0 */
p = "procedure";
break;
case SQL_PROCEDURES: /* ODBC 1.0 */
p = "Y";
break;
case SQL_QUALIFIER_LOCATION: /* ODBC 2.0 */
len = 2;
if (CurrCat(conn))
value = SQL_QL_START;
else
value = 0;
break;
case SQL_QUALIFIER_NAME_SEPARATOR: /* ODBC 1.0 */
if (CurrCat(conn))
p = ".";
else
p = NULL_STRING;
break;
case SQL_QUALIFIER_TERM: /* ODBC 1.0 */
if (CurrCat(conn))
p = "catalog";
else
p = NULL_STRING;
break;
case SQL_QUALIFIER_USAGE: /* ODBC 2.0 */
len = 4;
if (CurrCat(conn))
value = SQL_CU_DML_STATEMENTS;
else
value = 0;
break;
case SQL_QUOTED_IDENTIFIER_CASE: /* ODBC 2.0 */
/* are "quoted" identifiers case-sensitive? YES! */
len = 2;
value = SQL_IC_SENSITIVE;
break;
case SQL_ROW_UPDATES: /* ODBC 1.0 */
/*
* Driver doesn't support keyset-driven or mixed cursors, so
* not much point in saying row updates are supported
*/
p = (0 != ci->updatable_cursors) ? "Y" : "N";
break;
case SQL_SCROLL_CONCURRENCY: /* ODBC 1.0 */
len = 4;
value = SQL_SCCO_READ_ONLY;
if (0 != ci->updatable_cursors)
value |= SQL_SCCO_OPT_ROWVER;
if (ci->drivers.lie)
value |= (SQL_SCCO_LOCK | SQL_SCCO_OPT_VALUES);
break;
case SQL_SCROLL_OPTIONS: /* ODBC 1.0 */
len = 4;
value = SQL_SO_FORWARD_ONLY | SQL_SO_STATIC;
if (0 != (ci->updatable_cursors & ALLOW_KEYSET_DRIVEN_CURSORS))
value |= SQL_SO_KEYSET_DRIVEN;
if (ci->drivers.lie)
value |= (SQL_SO_DYNAMIC | SQL_SO_MIXED);
break;
case SQL_SEARCH_PATTERN_ESCAPE: /* ODBC 1.0 */
p = "\\";
break;
case SQL_SERVER_NAME: /* ODBC 1.0 */
p = CC_get_server(conn);
break;
case SQL_SPECIAL_CHARACTERS: /* ODBC 2.0 */
p = "_";
break;
case SQL_STATIC_SENSITIVITY: /* ODBC 2.0 */
len = 4;
value = 0;
if (0 != ci->updatable_cursors)
value |= (SQL_SS_ADDITIONS | SQL_SS_DELETIONS | SQL_SS_UPDATES);
break;
case SQL_STRING_FUNCTIONS: /* ODBC 1.0 */
len = 4;
value = (SQL_FN_STR_CONCAT |
SQL_FN_STR_LCASE |
SQL_FN_STR_LENGTH |
SQL_FN_STR_LOCATE |
SQL_FN_STR_LTRIM |
SQL_FN_STR_RTRIM |
SQL_FN_STR_SUBSTRING |
SQL_FN_STR_UCASE);
break;
case SQL_SUBQUERIES: /* ODBC 2.0 */
/* postgres 6.3 supports subqueries */
len = 4;
value = (SQL_SQ_QUANTIFIED |
SQL_SQ_IN |
SQL_SQ_EXISTS |
SQL_SQ_COMPARISON);
break;
case SQL_SYSTEM_FUNCTIONS: /* ODBC 1.0 */
len = 4;
value = 0;
break;
case SQL_TABLE_TERM: /* ODBC 1.0 */
p = "table";
break;
case SQL_TIMEDATE_ADD_INTERVALS: /* ODBC 2.0 */
len = 4;
value = 0;
break;
case SQL_TIMEDATE_DIFF_INTERVALS: /* ODBC 2.0 */
len = 4;
value = 0;
break;
case SQL_TIMEDATE_FUNCTIONS: /* ODBC 1.0 */
len = 4;
value = (SQL_FN_TD_NOW);
break;
case SQL_TXN_CAPABLE: /* ODBC 1.0 */
/*
* Postgres can deal with create or drop table statements in a
* transaction
*/
len = 2;
value = SQL_TC_ALL;
break;
case SQL_TXN_ISOLATION_OPTION: /* ODBC 1.0 */
len = 4;
value = SQL_TXN_READ_UNCOMMITTED | SQL_TXN_READ_COMMITTED |
SQL_TXN_REPEATABLE_READ | SQL_TXN_SERIALIZABLE;
break;
case SQL_UNION: /* ODBC 2.0 */
/* unions with all supported in postgres 6.3 */
len = 4;
value = (SQL_U_UNION | SQL_U_UNION_ALL);
break;
case SQL_USER_NAME: /* ODBC 1.0 */
p = CC_get_username(conn);
break;
/* Keys for ODBC 3.0 */
case SQL_DYNAMIC_CURSOR_ATTRIBUTES1:
len = 4;
value = 0;
break;
case SQL_DYNAMIC_CURSOR_ATTRIBUTES2:
len = 4;
value = 0;
break;
case SQL_FORWARD_ONLY_CURSOR_ATTRIBUTES1:
len = 4;
value = SQL_CA1_NEXT; /* others aren't allowed in ODBC spec */
break;
case SQL_FORWARD_ONLY_CURSOR_ATTRIBUTES2:
len = 4;
value = SQL_CA2_READ_ONLY_CONCURRENCY;
if (!ci->drivers.use_declarefetch || ci->drivers.lie)
value |= SQL_CA2_CRC_EXACT;
break;
case SQL_KEYSET_CURSOR_ATTRIBUTES1:
len = 4;
value = SQL_CA1_NEXT | SQL_CA1_ABSOLUTE
| SQL_CA1_RELATIVE | SQL_CA1_BOOKMARK
| SQL_CA1_LOCK_NO_CHANGE | SQL_CA1_POS_POSITION
| SQL_CA1_POS_REFRESH;
if (0 != (ci->updatable_cursors & ALLOW_KEYSET_DRIVEN_CURSORS))
value |= (SQL_CA1_POS_UPDATE | SQL_CA1_POS_DELETE
| SQL_CA1_BULK_ADD
| SQL_CA1_BULK_UPDATE_BY_BOOKMARK
| SQL_CA1_BULK_DELETE_BY_BOOKMARK
| SQL_CA1_BULK_FETCH_BY_BOOKMARK
);
if (ci->drivers.lie)
value |= (SQL_CA1_LOCK_EXCLUSIVE
| SQL_CA1_LOCK_UNLOCK
| SQL_CA1_POSITIONED_UPDATE
| SQL_CA1_POSITIONED_DELETE
| SQL_CA1_SELECT_FOR_UPDATE
);
break;
case SQL_KEYSET_CURSOR_ATTRIBUTES2:
len = 4;
value = SQL_CA2_READ_ONLY_CONCURRENCY;
if (0 != (ci->updatable_cursors & ALLOW_KEYSET_DRIVEN_CURSORS))
value |= (SQL_CA2_OPT_ROWVER_CONCURRENCY
/*| SQL_CA2_CRC_APPROXIMATE*/
);
if (0 != (ci->updatable_cursors & SENSE_SELF_OPERATIONS))
value |= (SQL_CA2_SENSITIVITY_DELETIONS
| SQL_CA2_SENSITIVITY_UPDATES
| SQL_CA2_SENSITIVITY_ADDITIONS
);
if (!ci->drivers.use_declarefetch || ci->drivers.lie)
value |= SQL_CA2_CRC_EXACT;
if (ci->drivers.lie)
value |= (SQL_CA2_LOCK_CONCURRENCY
| SQL_CA2_OPT_VALUES_CONCURRENCY
| SQL_CA2_MAX_ROWS_SELECT
| SQL_CA2_MAX_ROWS_INSERT
| SQL_CA2_MAX_ROWS_DELETE
| SQL_CA2_MAX_ROWS_UPDATE
| SQL_CA2_MAX_ROWS_CATALOG
| SQL_CA2_MAX_ROWS_AFFECTS_ALL
| SQL_CA2_SIMULATE_NON_UNIQUE
| SQL_CA2_SIMULATE_TRY_UNIQUE
| SQL_CA2_SIMULATE_UNIQUE
);
break;
case SQL_STATIC_CURSOR_ATTRIBUTES1:
len = 4;
value = SQL_CA1_NEXT | SQL_CA1_ABSOLUTE
| SQL_CA1_RELATIVE | SQL_CA1_BOOKMARK
| SQL_CA1_LOCK_NO_CHANGE | SQL_CA1_POS_POSITION
| SQL_CA1_POS_REFRESH;
if (0 != (ci->updatable_cursors & ALLOW_STATIC_CURSORS))
value |= (SQL_CA1_POS_UPDATE | SQL_CA1_POS_DELETE
);
if (0 != (ci->updatable_cursors & ALLOW_BULK_OPERATIONS))
value |= (SQL_CA1_BULK_ADD
| SQL_CA1_BULK_UPDATE_BY_BOOKMARK
| SQL_CA1_BULK_DELETE_BY_BOOKMARK
| SQL_CA1_BULK_FETCH_BY_BOOKMARK
);
break;
case SQL_STATIC_CURSOR_ATTRIBUTES2:
len = 4;
value = SQL_CA2_READ_ONLY_CONCURRENCY;
if (0 != (ci->updatable_cursors & ALLOW_STATIC_CURSORS))
value |= (SQL_CA2_OPT_ROWVER_CONCURRENCY
);
if (0 != (ci->updatable_cursors & SENSE_SELF_OPERATIONS))
value |= (SQL_CA2_SENSITIVITY_DELETIONS
| SQL_CA2_SENSITIVITY_UPDATES
| SQL_CA2_SENSITIVITY_ADDITIONS
);
if (!ci->drivers.use_declarefetch || ci->drivers.lie)
value |= (SQL_CA2_CRC_EXACT
);
break;
case SQL_ODBC_INTERFACE_CONFORMANCE:
len = 4;
value = SQL_OIC_CORE;
if (ci->drivers.lie)
value = SQL_OIC_LEVEL2;
break;
case SQL_ACTIVE_ENVIRONMENTS:
len = 2;
value = 0;
break;
case SQL_AGGREGATE_FUNCTIONS:
len = 4;
value = SQL_AF_ALL;
break;
case SQL_ALTER_DOMAIN:
len = 4;
value = 0;
break;
case SQL_ASYNC_MODE:
len = 4;
value = SQL_AM_NONE;
break;
case SQL_BATCH_ROW_COUNT:
len = 4;
value = SQL_BRC_EXPLICIT;
break;
case SQL_BATCH_SUPPORT:
len = 4;
value = SQL_BS_SELECT_EXPLICIT | SQL_BS_ROW_COUNT_EXPLICIT;
break;
case SQL_CATALOG_NAME:
if (CurrCat(conn))
p = "Y";
else
p = "N";
break;
case SQL_COLLATION_SEQ:
p = "";
break;
case SQL_CREATE_ASSERTION:
len = 4;
value = 0;
break;
case SQL_CREATE_CHARACTER_SET:
len = 4;
value = 0;
break;
case SQL_CREATE_COLLATION:
len = 4;
value = 0;
break;
case SQL_CREATE_DOMAIN:
len = 4;
value = 0;
break;
case SQL_CREATE_SCHEMA:
len = 4;
value = SQL_CS_CREATE_SCHEMA | SQL_CS_AUTHORIZATION;
break;
case SQL_CREATE_TABLE:
len = 4;
value = SQL_CT_CREATE_TABLE
| SQL_CT_COLUMN_CONSTRAINT
| SQL_CT_COLUMN_DEFAULT
| SQL_CT_GLOBAL_TEMPORARY
| SQL_CT_TABLE_CONSTRAINT
| SQL_CT_CONSTRAINT_NAME_DEFINITION
| SQL_CT_CONSTRAINT_INITIALLY_DEFERRED
| SQL_CT_CONSTRAINT_INITIALLY_IMMEDIATE
| SQL_CT_CONSTRAINT_DEFERRABLE;
break;
case SQL_CREATE_TRANSLATION:
len = 4;
value = 0;
break;
case SQL_CREATE_VIEW:
len = 4;
value = SQL_CV_CREATE_VIEW;
break;
case SQL_DDL_INDEX:
len = 4;
value = SQL_DI_CREATE_INDEX | SQL_DI_DROP_INDEX;
break;
case SQL_DESCRIBE_PARAMETER:
p = "N";
break;
case SQL_DROP_ASSERTION:
len = 4;
value = 0;
break;
case SQL_DROP_CHARACTER_SET:
len = 4;
value = 0;
break;
case SQL_DROP_COLLATION:
len = 4;
value = 0;
break;
case SQL_DROP_DOMAIN:
len = 4;
value = 0;
break;
case SQL_DROP_SCHEMA:
len = 4;
value = SQL_DS_DROP_SCHEMA | SQL_DS_RESTRICT | SQL_DS_CASCADE;
break;
case SQL_DROP_TABLE:
len = 4;
value = SQL_DT_DROP_TABLE;
value |= (SQL_DT_RESTRICT | SQL_DT_CASCADE);
break;
case SQL_DROP_TRANSLATION:
len = 4;
value = 0;
break;
case SQL_DROP_VIEW:
len = 4;
value = SQL_DV_DROP_VIEW;
value |= (SQL_DV_RESTRICT | SQL_DV_CASCADE);
break;
case SQL_INDEX_KEYWORDS:
len = 4;
value = SQL_IK_NONE;
break;
case SQL_INFO_SCHEMA_VIEWS:
len = 4;
value = 0;
break;
case SQL_INSERT_STATEMENT:
len = 4;
value = SQL_IS_INSERT_LITERALS | SQL_IS_INSERT_SEARCHED | SQL_IS_SELECT_INTO;
break;
case SQL_MAX_IDENTIFIER_LEN:
len = 2;
value = CC_get_max_idlen(conn);
if (0 == value)
value = NAMEDATALEN_V73 - 1;
break;
case SQL_MAX_ROW_SIZE_INCLUDES_LONG:
p = "Y";
break;
case SQL_PARAM_ARRAY_ROW_COUNTS:
len = 4;
value = SQL_PARC_BATCH;
break;
case SQL_PARAM_ARRAY_SELECTS:
len = 4;
value = SQL_PAS_BATCH;
break;
case SQL_SQL_CONFORMANCE:
len = 4;
value = SQL_SC_SQL92_ENTRY;
break;
case SQL_SQL92_DATETIME_FUNCTIONS:
len = 4;
value = SQL_SDF_CURRENT_DATE | SQL_SDF_CURRENT_TIME | SQL_SDF_CURRENT_TIMESTAMP;
break;
case SQL_SQL92_FOREIGN_KEY_DELETE_RULE:
len = 4;
value = SQL_SFKD_CASCADE | SQL_SFKD_NO_ACTION | SQL_SFKD_SET_DEFAULT | SQL_SFKD_SET_NULL;
break;
case SQL_SQL92_FOREIGN_KEY_UPDATE_RULE:
len = 4;
value = SQL_SFKU_CASCADE | SQL_SFKU_NO_ACTION | SQL_SFKU_SET_DEFAULT | SQL_SFKU_SET_NULL;
break;
case SQL_SQL92_GRANT:
len = 4;
value = SQL_SG_DELETE_TABLE | SQL_SG_INSERT_TABLE | SQL_SG_REFERENCES_TABLE | SQL_SG_SELECT_TABLE | SQL_SG_UPDATE_TABLE;
break;
case SQL_SQL92_NUMERIC_VALUE_FUNCTIONS:
len = 4;
value = SQL_SNVF_BIT_LENGTH | SQL_SNVF_CHAR_LENGTH
| SQL_SNVF_CHARACTER_LENGTH | SQL_SNVF_EXTRACT
| SQL_SNVF_OCTET_LENGTH | SQL_SNVF_POSITION;
break;
case SQL_SQL92_PREDICATES:
len = 4;
value = SQL_SP_BETWEEN | SQL_SP_COMPARISON
| SQL_SP_EXISTS | SQL_SP_IN
| SQL_SP_ISNOTNULL | SQL_SP_ISNULL
| SQL_SP_LIKE | SQL_SP_OVERLAPS
| SQL_SP_QUANTIFIED_COMPARISON;
break;
case SQL_SQL92_RELATIONAL_JOIN_OPERATORS:
len = 4;
value = SQL_SRJO_CROSS_JOIN | SQL_SRJO_EXCEPT_JOIN
| SQL_SRJO_FULL_OUTER_JOIN | SQL_SRJO_INNER_JOIN
| SQL_SRJO_INTERSECT_JOIN | SQL_SRJO_LEFT_OUTER_JOIN
| SQL_SRJO_NATURAL_JOIN | SQL_SRJO_RIGHT_OUTER_JOIN
| SQL_SRJO_UNION_JOIN;
break;
case SQL_SQL92_REVOKE:
len = 4;
value = SQL_SR_DELETE_TABLE | SQL_SR_INSERT_TABLE | SQL_SR_REFERENCES_TABLE | SQL_SR_SELECT_TABLE | SQL_SR_UPDATE_TABLE;
break;
case SQL_SQL92_ROW_VALUE_CONSTRUCTOR:
len = 4;
value = SQL_SRVC_VALUE_EXPRESSION | SQL_SRVC_NULL;
break;
case SQL_SQL92_STRING_FUNCTIONS:
len = 4;
value = SQL_SSF_CONVERT | SQL_SSF_LOWER
| SQL_SSF_UPPER | SQL_SSF_SUBSTRING
| SQL_SSF_TRANSLATE | SQL_SSF_TRIM_BOTH
| SQL_SSF_TRIM_LEADING | SQL_SSF_TRIM_TRAILING;
break;
case SQL_SQL92_VALUE_EXPRESSIONS:
len = 4;
value = SQL_SVE_CASE | SQL_SVE_CAST | SQL_SVE_COALESCE | SQL_SVE_NULLIF;
break;
#ifdef SQL_DTC_TRANSACTION_COST
case SQL_DTC_TRANSACTION_COST:
#else
case 1750:
#endif
len = 4;
break;
/* The followings aren't implemented yet */
case SQL_DATETIME_LITERALS:
len = 4;
case SQL_DM_VER:
len = 0;
case SQL_DRIVER_HDESC:
len = 4;
case SQL_MAX_ASYNC_CONCURRENT_STATEMENTS:
len = 4;
case SQL_STANDARD_CLI_CONFORMANCE:
len = 4;
case SQL_XOPEN_CLI_YEAR:
len = 0;
default:
/* unrecognized key */
CC_set_error(conn, CONN_NOT_IMPLEMENTED_ERROR, "Unrecognized key passed to PGAPI_GetInfo.", NULL);
goto cleanup;
}
ret = SQL_SUCCESS;
MYLOG(0, "p='%s', len=" FORMAT_ULEN ", value=" FORMAT_ULEN ", cbMax=%d\n", p ? p : "<NULL>", len, value, cbInfoValueMax);
/*
* NOTE, that if rgbInfoValue is NULL, then no warnings or errors
* should result and just pcbInfoValue is returned, which indicates
* what length would be required if a real buffer had been passed in.
*/
if (p)
{
/* char/binary data */
len = strlen(p);
if (rgbInfoValue)
{
#ifdef UNICODE_SUPPORT
if (CC_is_in_unicode_driver(conn))
{
len = utf8_to_ucs2(p, len, (SQLWCHAR *) rgbInfoValue, cbInfoValueMax / WCLEN);
len *= WCLEN;
}
else
#endif /* UNICODE_SUPPORT */
strncpy_null((char *) rgbInfoValue, p, (size_t) cbInfoValueMax);
if (len >= cbInfoValueMax)
{
ret = SQL_SUCCESS_WITH_INFO;
CC_set_error(conn, CONN_TRUNCATED, "The buffer was too small for the InfoValue.", func);
}
}
#ifdef UNICODE_SUPPORT
else if (CC_is_in_unicode_driver(conn))
len *= WCLEN;
#endif /* UNICODE_SUPPORT */
}
else
{
/* numeric data */
if (rgbInfoValue)
{
if (len == sizeof(SQLSMALLINT))
*((SQLUSMALLINT *) rgbInfoValue) = (SQLUSMALLINT) value;
else if (len == sizeof(SQLINTEGER))
*((SQLUINTEGER *) rgbInfoValue) = (SQLUINTEGER) value;
}
}
if (pcbInfoValue)
*pcbInfoValue = (SQLSMALLINT) len;
cleanup:
return ret;
}
/*
* macros for pgtype_xxxx() calls which have PG_ATP_UNSET parameters
*/
#define PGTYPE_COLUMN_SIZE(conn, pgType) pgtype_attr_column_size(conn, pgType, PG_ATP_UNSET, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_TO_CONCISE_TYPE(conn, pgType) pgtype_attr_to_concise_type(conn, pgType, PG_ATP_UNSET, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_TO_SQLDESCTYPE(conn, pgType) pgtype_attr_to_sqldesctype(conn, pgType, PG_ATP_UNSET, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_BUFFER_LENGTH(conn, pgType) pgtype_attr_buffer_length(conn, pgType, PG_ATP_UNSET, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_DECIMAL_DIGITS(conn, pgType) pgtype_attr_decimal_digits(conn, pgType, PG_ATP_UNSET, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_TRANSFER_OCTET_LENGTH(conn, pgType) pgtype_attr_transfer_octet_length(conn, pgType, PG_ATP_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_TO_NAME(conn, pgType, auto_increment) pgtype_attr_to_name(conn, pgType, PG_ATP_UNSET, auto_increment)
#define PGTYPE_TO_DATETIME_SUB(conn, pgtype) pgtype_attr_to_datetime_sub(conn, pgtype, PG_ATP_UNSET)
RETCODE SQL_API
PGAPI_GetTypeInfo(HSTMT hstmt,
SQLSMALLINT fSqlType)
{
CSTR func = "PGAPI_GetTypeInfo";
StatementClass *stmt = (StatementClass *) hstmt;
ConnectionClass *conn;
QResultClass *res = NULL;
TupleField *tuple;
int i, result_cols;
/* Int4 type; */
Int4 pgType;
Int2 sqlType;
RETCODE ret = SQL_ERROR, result;
MYLOG(0, "entering...fSqlType=%d\n", fSqlType);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
conn = SC_get_conn(stmt);
if (res = QR_Constructor(), !res)
{
SC_set_error(stmt, STMT_INTERNAL_ERROR, "Error creating result.", func);
return SQL_ERROR;
}
SC_set_Result(stmt, res);
#define return DONT_CALL_RETURN_FROM_HERE???
result_cols = NUM_OF_GETTYPE_FIELDS;
extend_column_bindings(SC_get_ARDF(stmt), result_cols);
stmt->catalog_result = TRUE;
QR_set_num_fields(res, result_cols);
QR_set_field_info_v(res, 0, "TYPE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 1, "DATA_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 2, "PRECISION", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, 3, "LITERAL_PREFIX", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 4, "LITERAL_SUFFIX", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 5, "CREATE_PARAMS", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 6, "NULLABLE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 7, "CASE_SENSITIVE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 8, "SEARCHABLE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 9, "UNSIGNED_ATTRIBUTE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 10, "MONEY", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 11, "AUTO_INCREMENT", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 12, "LOCAL_TYPE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 13, "MINIMUM_SCALE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 14, "MAXIMUM_SCALE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 15, "SQL_DATA_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 16, "SQL_DATETIME_SUB", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 17, "NUM_PREC_RADIX", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, 18, "INTERVAL_PRECISION", PG_TYPE_INT2, 2);
for (i = 0, sqlType = sqlTypes[0]; sqlType; sqlType = sqlTypes[++i])
{
EnvironmentClass *env = CC_get_env(conn);
/* Filter unsupported data types */
if (EN_is_odbc2(env))
{
switch (sqlType)
{
case SQL_TYPE_DATE:
case SQL_TYPE_TIME:
case SQL_TYPE_TIMESTAMP:
continue;
}
}
pgType = sqltype_to_pgtype(conn, sqlType);
if (sqlType == SQL_LONGVARBINARY)
{
ConnInfo *ci = &(conn->connInfo);
MYLOG(DETAIL_LOG_LEVEL, "%d sqltype=%d -> pgtype=%d\n", ci->bytea_as_longvarbinary, sqlType, pgType);
}
if (fSqlType == SQL_ALL_TYPES || fSqlType == sqlType)
{
int pgtcount = 1, aunq_match = -1, cnt;
/*if (SQL_INTEGER == sqlType || SQL_TINYINT == sqlType)*/
if (SQL_INTEGER == sqlType)
{
MYLOG(0, "sqlType=%d ms_jet=%d\n", sqlType, conn->ms_jet);
if (conn->ms_jet)
{
aunq_match = 1;
pgtcount = 2;
}
MYLOG(0, "aunq_match=%d pgtcount=%d\n", aunq_match, pgtcount);
}
for (cnt = 0; cnt < pgtcount; cnt ++)
{
if (tuple = QR_AddNew(res), NULL == tuple)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't QR_AddNew.", func);
goto cleanup;
}
/* These values can't be NULL */
if (aunq_match == cnt)
{
set_tuplefield_string(&tuple[GETTYPE_TYPE_NAME], PGTYPE_TO_NAME(conn, pgType, TRUE));
set_tuplefield_int2(&tuple[GETTYPE_NULLABLE], SQL_NO_NULLS);
MYLOG(DETAIL_LOG_LEVEL, "serial in\n");
}
else
{
set_tuplefield_string(&tuple[GETTYPE_TYPE_NAME], PGTYPE_TO_NAME(conn, pgType, FALSE));
set_tuplefield_int2(&tuple[GETTYPE_NULLABLE], pgtype_nullable(conn, pgType));
}
set_tuplefield_int2(&tuple[GETTYPE_DATA_TYPE], (Int2) sqlType);
set_tuplefield_int2(&tuple[GETTYPE_CASE_SENSITIVE], pgtype_case_sensitive(conn, pgType));
set_tuplefield_int2(&tuple[GETTYPE_SEARCHABLE], pgtype_searchable(conn, pgType));
set_tuplefield_int2(&tuple[GETTYPE_FIXED_PREC_SCALE], pgtype_money(conn, pgType));
/*
* Localized data-source dependent data type name (always
* NULL)
*/
set_tuplefield_null(&tuple[GETTYPE_LOCAL_TYPE_NAME]);
/* These values can be NULL */
set_nullfield_int4(&tuple[GETTYPE_COLUMN_SIZE], PGTYPE_COLUMN_SIZE(conn, pgType));
set_nullfield_string(&tuple[GETTYPE_LITERAL_PREFIX], pgtype_literal_prefix(conn, pgType));
set_nullfield_string(&tuple[GETTYPE_LITERAL_SUFFIX], pgtype_literal_suffix(conn, pgType));
set_nullfield_string(&tuple[GETTYPE_CREATE_PARAMS], pgtype_create_params(conn, pgType));
if (1 < pgtcount)
set_tuplefield_int2(&tuple[GETTYPE_UNSIGNED_ATTRIBUTE], SQL_TRUE);
else
set_nullfield_int2(&tuple[GETTYPE_UNSIGNED_ATTRIBUTE], pgtype_unsigned(conn, pgType));
if (aunq_match == cnt)
set_tuplefield_int2(&tuple[GETTYPE_AUTO_UNIQUE_VALUE], SQL_TRUE);
else
set_nullfield_int2(&tuple[GETTYPE_AUTO_UNIQUE_VALUE], pgtype_auto_increment(conn, pgType));
set_nullfield_int2(&tuple[GETTYPE_MINIMUM_SCALE], pgtype_min_decimal_digits(conn, pgType));
set_nullfield_int2(&tuple[GETTYPE_MAXIMUM_SCALE], pgtype_max_decimal_digits(conn, pgType));
set_tuplefield_int2(&tuple[GETTYPE_SQL_DATA_TYPE], PGTYPE_TO_SQLDESCTYPE(conn, pgType));
set_nullfield_int2(&tuple[GETTYPE_SQL_DATETIME_SUB], PGTYPE_TO_DATETIME_SUB(conn, pgType));
set_nullfield_int4(&tuple[GETTYPE_NUM_PREC_RADIX], pgtype_radix(conn, pgType));
set_nullfield_int4(&tuple[GETTYPE_INTERVAL_PRECISION], 0);
}
}
}
ret = SQL_SUCCESS;
cleanup:
#undef return
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
stmt->currTuple = -1;
if (SQL_SUCCEEDED(ret))
SC_set_rowset_start(stmt, -1, FALSE);
else
SC_set_Result(stmt, NULL);
SC_set_current_col(stmt, -1);
return ret;
}
RETCODE SQL_API
PGAPI_GetFunctions(HDBC hdbc,
SQLUSMALLINT fFunction,
SQLUSMALLINT * pfExists)
{
ConnectionClass *conn = (ConnectionClass *) hdbc;
ConnInfo *ci = &(conn->connInfo);
MYLOG(0, "entering...%u\n", fFunction);
if (fFunction == SQL_API_ALL_FUNCTIONS)
{
memset(pfExists, 0, sizeof(pfExists[0]) * 100);
/* ODBC core functions */
pfExists[SQL_API_SQLALLOCCONNECT] = TRUE;
pfExists[SQL_API_SQLALLOCENV] = TRUE;
pfExists[SQL_API_SQLALLOCSTMT] = TRUE;
pfExists[SQL_API_SQLBINDCOL] = TRUE;
pfExists[SQL_API_SQLCANCEL] = TRUE;
pfExists[SQL_API_SQLCOLATTRIBUTES] = TRUE;
pfExists[SQL_API_SQLCONNECT] = TRUE;
pfExists[SQL_API_SQLDESCRIBECOL] = TRUE; /* partial */
pfExists[SQL_API_SQLDISCONNECT] = TRUE;
pfExists[SQL_API_SQLERROR] = TRUE;
pfExists[SQL_API_SQLEXECDIRECT] = TRUE;
pfExists[SQL_API_SQLEXECUTE] = TRUE;
pfExists[SQL_API_SQLFETCH] = TRUE;
pfExists[SQL_API_SQLFREECONNECT] = TRUE;
pfExists[SQL_API_SQLFREEENV] = TRUE;
pfExists[SQL_API_SQLFREESTMT] = TRUE;
pfExists[SQL_API_SQLGETCURSORNAME] = TRUE;
pfExists[SQL_API_SQLNUMRESULTCOLS] = TRUE;
pfExists[SQL_API_SQLPREPARE] = TRUE; /* complete? */
pfExists[SQL_API_SQLROWCOUNT] = TRUE;
pfExists[SQL_API_SQLSETCURSORNAME] = TRUE;
pfExists[SQL_API_SQLSETPARAM] = FALSE; /* odbc 1.0 */
pfExists[SQL_API_SQLTRANSACT] = TRUE;
/* ODBC level 1 functions */
pfExists[SQL_API_SQLBINDPARAMETER] = TRUE;
pfExists[SQL_API_SQLCOLUMNS] = TRUE;
pfExists[SQL_API_SQLDRIVERCONNECT] = TRUE;
pfExists[SQL_API_SQLGETCONNECTOPTION] = TRUE; /* partial */
pfExists[SQL_API_SQLGETDATA] = TRUE;
pfExists[SQL_API_SQLGETFUNCTIONS] = TRUE;
pfExists[SQL_API_SQLGETINFO] = TRUE;
pfExists[SQL_API_SQLGETSTMTOPTION] = TRUE; /* partial */
pfExists[SQL_API_SQLGETTYPEINFO] = TRUE;
pfExists[SQL_API_SQLPARAMDATA] = TRUE;
pfExists[SQL_API_SQLPUTDATA] = TRUE;
pfExists[SQL_API_SQLSETCONNECTOPTION] = TRUE; /* partial */
pfExists[SQL_API_SQLSETSTMTOPTION] = TRUE;
pfExists[SQL_API_SQLSPECIALCOLUMNS] = TRUE;
pfExists[SQL_API_SQLSTATISTICS] = TRUE;
pfExists[SQL_API_SQLTABLES] = TRUE;
/* ODBC level 2 functions */
pfExists[SQL_API_SQLBROWSECONNECT] = FALSE;
pfExists[SQL_API_SQLCOLUMNPRIVILEGES] = FALSE;
pfExists[SQL_API_SQLDATASOURCES] = FALSE; /* only implemented by
* DM */
if (SUPPORT_DESCRIBE_PARAM(ci))
pfExists[SQL_API_SQLDESCRIBEPARAM] = TRUE;
else
pfExists[SQL_API_SQLDESCRIBEPARAM] = FALSE; /* not properly
* implemented */
pfExists[SQL_API_SQLDRIVERS] = FALSE; /* only implemented by
* DM */
pfExists[SQL_API_SQLEXTENDEDFETCH] = TRUE;
pfExists[SQL_API_SQLFOREIGNKEYS] = TRUE;
pfExists[SQL_API_SQLMORERESULTS] = TRUE;
pfExists[SQL_API_SQLNATIVESQL] = TRUE;
pfExists[SQL_API_SQLNUMPARAMS] = TRUE;
pfExists[SQL_API_SQLPARAMOPTIONS] = TRUE;
pfExists[SQL_API_SQLPRIMARYKEYS] = TRUE;
pfExists[SQL_API_SQLPROCEDURECOLUMNS] = TRUE;
pfExists[SQL_API_SQLPROCEDURES] = TRUE;
pfExists[SQL_API_SQLSETPOS] = TRUE;
pfExists[SQL_API_SQLSETSCROLLOPTIONS] = TRUE; /* odbc 1.0 */
pfExists[SQL_API_SQLTABLEPRIVILEGES] = TRUE;
if (0 == ci->updatable_cursors)
pfExists[SQL_API_SQLBULKOPERATIONS] = FALSE;
else
pfExists[SQL_API_SQLBULKOPERATIONS] = TRUE;
}
else
{
if (ci->drivers.lie)
*pfExists = TRUE;
else
{
switch (fFunction)
{
case SQL_API_SQLBINDCOL:
*pfExists = TRUE;
break;
case SQL_API_SQLCANCEL:
*pfExists = TRUE;
break;
case SQL_API_SQLCOLATTRIBUTE:
*pfExists = TRUE;
break;
case SQL_API_SQLCONNECT:
*pfExists = TRUE;
break;
case SQL_API_SQLDESCRIBECOL:
*pfExists = TRUE;
break; /* partial */
case SQL_API_SQLDISCONNECT:
*pfExists = TRUE;
break;
case SQL_API_SQLEXECDIRECT:
*pfExists = TRUE;
break;
case SQL_API_SQLEXECUTE:
*pfExists = TRUE;
break;
case SQL_API_SQLFETCH:
*pfExists = TRUE;
break;
case SQL_API_SQLFREESTMT:
*pfExists = TRUE;
break;
case SQL_API_SQLGETCURSORNAME:
*pfExists = TRUE;
break;
case SQL_API_SQLNUMRESULTCOLS:
*pfExists = TRUE;
break;
case SQL_API_SQLPREPARE:
*pfExists = TRUE;
break;
case SQL_API_SQLROWCOUNT:
*pfExists = TRUE;
break;
case SQL_API_SQLSETCURSORNAME:
*pfExists = TRUE;
break;
/* ODBC level 1 functions */
case SQL_API_SQLBINDPARAMETER:
*pfExists = TRUE;
break;
case SQL_API_SQLCOLUMNS:
*pfExists = TRUE;
break;
case SQL_API_SQLDRIVERCONNECT:
*pfExists = TRUE;
break;
case SQL_API_SQLGETDATA:
*pfExists = TRUE;
break;
case SQL_API_SQLGETFUNCTIONS:
*pfExists = TRUE;
break;
case SQL_API_SQLGETINFO:
*pfExists = TRUE;
break;
case SQL_API_SQLGETTYPEINFO:
*pfExists = TRUE;
break;
case SQL_API_SQLPARAMDATA:
*pfExists = TRUE;
break;
case SQL_API_SQLPUTDATA:
*pfExists = TRUE;
break;
case SQL_API_SQLSPECIALCOLUMNS:
*pfExists = TRUE;
break;
case SQL_API_SQLSTATISTICS:
*pfExists = TRUE;
break;
case SQL_API_SQLTABLES:
*pfExists = TRUE;
break;
/* ODBC level 2 functions */
case SQL_API_SQLBROWSECONNECT:
*pfExists = FALSE;
break;
case SQL_API_SQLCOLUMNPRIVILEGES:
*pfExists = FALSE;
break;
case SQL_API_SQLDATASOURCES:
*pfExists = FALSE;
break; /* only implemented by DM */
case SQL_API_SQLDESCRIBEPARAM:
if (SUPPORT_DESCRIBE_PARAM(ci))
*pfExists = TRUE;
else
*pfExists = FALSE;
break; /* not properly implemented */
case SQL_API_SQLDRIVERS:
*pfExists = FALSE;
break; /* only implemented by DM */
case SQL_API_SQLEXTENDEDFETCH:
*pfExists = TRUE;
break;
case SQL_API_SQLFOREIGNKEYS:
*pfExists = TRUE;
break;
case SQL_API_SQLMORERESULTS:
*pfExists = TRUE;
break;
case SQL_API_SQLNATIVESQL:
*pfExists = TRUE;
break;
case SQL_API_SQLNUMPARAMS:
*pfExists = TRUE;
break;
case SQL_API_SQLPRIMARYKEYS:
*pfExists = TRUE;
break;
case SQL_API_SQLPROCEDURECOLUMNS:
*pfExists = TRUE;
break;
case SQL_API_SQLPROCEDURES:
*pfExists = TRUE;
break;
case SQL_API_SQLSETPOS:
*pfExists = TRUE;
break;
case SQL_API_SQLTABLEPRIVILEGES:
*pfExists = TRUE;
break;
case SQL_API_SQLBULKOPERATIONS: /* 24 */
case SQL_API_SQLALLOCHANDLE: /* 1001 */
case SQL_API_SQLBINDPARAM: /* 1002 */
case SQL_API_SQLCLOSECURSOR: /* 1003 */
case SQL_API_SQLENDTRAN: /* 1005 */
case SQL_API_SQLFETCHSCROLL: /* 1021 */
case SQL_API_SQLFREEHANDLE: /* 1006 */
case SQL_API_SQLGETCONNECTATTR: /* 1007 */
case SQL_API_SQLGETDESCFIELD: /* 1008 */
case SQL_API_SQLGETDIAGFIELD: /* 1010 */
case SQL_API_SQLGETDIAGREC: /* 1011 */
case SQL_API_SQLGETENVATTR: /* 1012 */
case SQL_API_SQLGETSTMTATTR: /* 1014 */
case SQL_API_SQLSETCONNECTATTR: /* 1016 */
case SQL_API_SQLSETDESCFIELD: /* 1017 */
case SQL_API_SQLSETENVATTR: /* 1019 */
case SQL_API_SQLSETSTMTATTR: /* 1020 */
*pfExists = TRUE;
break;
case SQL_API_SQLGETDESCREC: /* 1009 */
case SQL_API_SQLSETDESCREC: /* 1018 */
case SQL_API_SQLCOPYDESC: /* 1004 */
*pfExists = FALSE;
break;
default:
*pfExists = FALSE;
break;
}
}
}
return SQL_SUCCESS;
}
char *
identifierEscape(const SQLCHAR *src, SQLLEN srclen, const ConnectionClass *conn, char *buf, size_t bufsize, BOOL double_quote)
{
int i, outlen;
UCHAR tchar;
char *dest = NULL, escape_ch = CC_get_escape(conn);
encoded_str encstr;
if (!src || srclen == SQL_NULL_DATA)
return dest;
else if (srclen == SQL_NTS)
srclen = (SQLLEN) strlen((char *) src);
if (srclen <= 0)
return dest;
MYLOG(0, "entering in=%s(" FORMAT_LEN ")\n", src, srclen);
if (NULL != buf && bufsize > 0)
dest = buf;
else
{
bufsize = 2 * srclen + 1;
dest = malloc(bufsize);
}
if (!dest) return NULL;
encoded_str_constr(&encstr, conn->ccsc, (char *) src);
outlen = 0;
if (double_quote)
dest[outlen++] = IDENTIFIER_QUOTE;
for (i = 0, tchar = encoded_nextchar(&encstr); i < srclen && outlen < bufsize - 1; i++, tchar = encoded_nextchar(&encstr))
{
if (MBCS_NON_ASCII(encstr))
{
dest[outlen++] = tchar;
continue;
}
if (LITERAL_QUOTE == tchar ||
escape_ch == tchar)
dest[outlen++] = tchar;
else if (double_quote &&
IDENTIFIER_QUOTE == tchar)
dest[outlen++] = tchar;
dest[outlen++] = tchar;
}
if (double_quote)
dest[outlen++] = IDENTIFIER_QUOTE;
dest[outlen] = '\0';
MYLOG(0, "leaving output=%s(%d)\n", dest, outlen);
return dest;
}
static char *
simpleCatalogEscape(const SQLCHAR *src, SQLLEN srclen, const ConnectionClass *conn)
{
return identifierEscape(src, srclen, conn, NULL, -1, FALSE);
}
/*
* PostgreSQL needs 2 '\\' to escape '_' and '%'.
*/
static char *
adjustLikePattern(const SQLCHAR *src, int srclen, const ConnectionClass *conn)
{
int i, outlen;
UCHAR tchar;
char *dest = NULL, escape_in_literal = CC_get_escape(conn);
BOOL escape_in = FALSE;
encoded_str encstr;
if (!src || srclen == SQL_NULL_DATA)
return dest;
else if (srclen == SQL_NTS)
srclen = (int) strlen((char *) src);
/* if (srclen <= 0) */
if (srclen < 0)
return dest;
MYLOG(0, "entering in=%.*s(%d)\n", srclen, src, srclen);
encoded_str_constr(&encstr, conn->ccsc, (char *) src);
dest = malloc(4 * srclen + 1);
if (!dest) return NULL;
for (i = 0, outlen = 0; i < srclen; i++)
{
tchar = encoded_nextchar(&encstr);
if (MBCS_NON_ASCII(encstr))
{
dest[outlen++] = tchar;
continue;
}
if (escape_in)
{
switch (tchar)
{
case '%':
case '_':
break;
default:
if (SEARCH_PATTERN_ESCAPE == escape_in_literal)
dest[outlen++] = escape_in_literal;
dest[outlen++] = SEARCH_PATTERN_ESCAPE;
break;
}
}
if (tchar == SEARCH_PATTERN_ESCAPE)
{
escape_in = TRUE;
if (SEARCH_PATTERN_ESCAPE == escape_in_literal)
dest[outlen++] = escape_in_literal; /* insert 1 more LEXER escape */
}
else
{
escape_in = FALSE;
if (LITERAL_QUOTE == tchar)
dest[outlen++] = tchar;
}
dest[outlen++] = tchar;
}
if (escape_in)
{
if (SEARCH_PATTERN_ESCAPE == escape_in_literal)
dest[outlen++] = escape_in_literal;
dest[outlen++] = SEARCH_PATTERN_ESCAPE;
}
dest[outlen] = '\0';
MYLOG(0, "leaving output=%s(%d)\n", dest, outlen);
return dest;
}
#define CSTR_SYS_TABLE "SYSTEM TABLE"
#define CSTR_TABLE "TABLE"
#define CSTR_VIEW "VIEW"
#define CSTR_FOREIGN_TABLE "FOREIGN TABLE"
#define CSTR_MATVIEW "MATVIEW"
CSTR like_op_sp = "like ";
CSTR like_op_ext = "like E";
CSTR eq_op_sp = "= ";
CSTR eq_op_ext = "= E";
#define IS_VALID_NAME(str) ((str) && (str)[0])
static const char *gen_opestr(const char *orig_opestr, const ConnectionClass * conn)
{
BOOL addE = (0 != CC_get_escape(conn) && PG_VERSION_GE(conn, 8.1));
if (0 == strcmp(orig_opestr, eqop))
return (addE ? eq_op_ext : eq_op_sp);
return (addE ? like_op_ext : like_op_sp);
}
/*
* If specified schema name == user_name and the current schema is
* 'public', allowed to use the 'public' schema.
*/
static BOOL
allow_public_schema(ConnectionClass *conn, const SQLCHAR *szSchemaName, SQLSMALLINT cbSchemaName)
{
const char *user = CC_get_username(conn);
const char *curschema;
size_t userlen = strlen(user);
size_t schemalen;
if (NULL == szSchemaName)
return FALSE;
if (SQL_NTS == cbSchemaName)
schemalen = strlen((char *) szSchemaName);
else
schemalen = cbSchemaName;
if (schemalen != userlen)
return FALSE;
if (strnicmp((char *) szSchemaName, user, userlen) != 0)
return FALSE;
curschema = CC_get_current_schema(conn);
if (curschema == NULL)
return FALSE;
return stricmp(curschema, (const char *) pubstr) == 0;
}
#define TABLE_IN_RELKIND "('r', 'v', 'm', 'f', 'p')"
RETCODE SQL_API
PGAPI_Tables(HSTMT hstmt,
const SQLCHAR * szTableQualifier, /* PV X*/
SQLSMALLINT cbTableQualifier,
const SQLCHAR * szTableOwner, /* PV E*/
SQLSMALLINT cbTableOwner,
const SQLCHAR * szTableName, /* PV E*/
SQLSMALLINT cbTableName,
const SQLCHAR * szTableType,
SQLSMALLINT cbTableType,
UWORD flag)
{
CSTR func = "PGAPI_Tables";
StatementClass *stmt = (StatementClass *) hstmt;
StatementClass *tbl_stmt = NULL;
QResultClass *res;
TupleField *tuple;
RETCODE ret = SQL_ERROR, result;
int result_cols;
char *tableType = NULL;
PQExpBufferData tables_query = {0};
char table_name[MAX_INFO_STRING],
table_owner[MAX_INFO_STRING],
relkind_or_hasrules[MAX_INFO_STRING];
#ifdef HAVE_STRTOK_R
char *last;
#endif /* HAVE_STRTOK_R */
ConnectionClass *conn;
ConnInfo *ci;
char *escCatName = NULL, *escSchemaName = NULL, *escTableName = NULL;
/* Support up to 32 system table prefixes. Should be more than enough. */
#define MAX_PREFIXES 32
char *prefix[MAX_PREFIXES],
prefixes[MEDIUM_REGISTRY_LEN];
int nprefixes;
char show_system_tables,
show_regular_tables,
show_views,
show_matviews,
show_foreign_tables;
char regular_table,
view,
matview,
foreign_table,
systable;
int i;
SQLSMALLINT internal_asis_type = SQL_C_CHAR, cbSchemaName;
const char *like_or_eq, *op_string;
const SQLCHAR *szSchemaName;
BOOL search_pattern;
BOOL list_cat = FALSE, list_schemas = FALSE, list_table_types = FALSE, list_some = FALSE;
SQLLEN cbRelname, cbRelkind, cbSchName;
EnvironmentClass *env;
MYLOG(0, "entering...stmt=%p scnm=%p len=%d\n", stmt, szTableOwner, cbTableOwner);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
conn = SC_get_conn(stmt);
ci = &(conn->connInfo);
env = CC_get_env(conn);
result = PGAPI_AllocStmt(conn, (HSTMT *) &tbl_stmt, 0);
if (!SQL_SUCCEEDED(result))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate statement for PGAPI_Tables result.", func);
return SQL_ERROR;
}
szSchemaName = szTableOwner;
cbSchemaName = cbTableOwner;
#define return DONT_CALL_RETURN_FROM_HERE???
search_pattern = (0 == (flag & PODBC_NOT_SEARCH_PATTERN));
if (search_pattern)
{
like_or_eq = likeop;
escCatName = adjustLikePattern(szTableQualifier, cbTableQualifier, conn);
escTableName = adjustLikePattern(szTableName, cbTableName, conn);
}
else
{
like_or_eq = eqop;
escCatName = simpleCatalogEscape(szTableQualifier, cbTableQualifier, conn);
escTableName = simpleCatalogEscape(szTableName, cbTableName, conn);
}
retry_public_schema:
if (escSchemaName)
free(escSchemaName);
if (search_pattern)
escSchemaName = adjustLikePattern(szSchemaName, cbSchemaName, conn);
else
escSchemaName = simpleCatalogEscape(szSchemaName, cbSchemaName, conn);
/*
* Create the query to find out the tables
*/
/* make_string mallocs memory */
tableType = make_string(szTableType, cbTableType, NULL, 0);
if (search_pattern &&
escTableName && '\0' == escTableName[0] &&
escCatName && escSchemaName)
{
if ('\0' == escSchemaName[0])
{
if (stricmp(escCatName, SQL_ALL_CATALOGS) == 0)
list_cat = TRUE;
else if ('\0' == escCatName[0] && NULL != tableType &&
stricmp(tableType, SQL_ALL_TABLE_TYPES) == 0)
list_table_types = TRUE;
}
else if ('\0' == escCatName[0] &&
stricmp(escSchemaName, SQL_ALL_SCHEMAS) == 0)
list_schemas = TRUE;
}
list_some = (list_cat || list_schemas || list_table_types);
initPQExpBuffer(&tables_query);
#define return DONT_CALL_RETURN_FROM_HERE???
if (list_cat)
appendPQExpBufferStr(&tables_query, "select NULL, NULL, NULL");
else if (list_table_types)
{
/*
* Query relations depending on what is available:
* - 10 and newer versions have partition tables
* - 9.3 and newer versions have materialized views
* - 9.1 and newer versions have foreign tables
*/
appendPQExpBufferStr(&tables_query,
"select NULL, NULL, relkind from (select 'r' as relkind "
"union select 'v' "
"union select 'm' "
"union select 'f' "
"union select 'p') as a");
}
else if (list_schemas)
{
appendPQExpBufferStr(&tables_query, "select NULL, nspname, NULL"
" from pg_catalog.pg_namespace n where true");
}
else
{
/*
* View is represented by its relkind since 7.1,
* Materialized views are added in 9.3, and foreign
* tables in 9.1.
*/
appendPQExpBufferStr(&tables_query, "select relname, nspname, relkind "
"from pg_catalog.pg_class c, pg_catalog.pg_namespace n "
"where relkind in " TABLE_IN_RELKIND);
}
op_string = gen_opestr(like_or_eq, conn);
if (!list_some)
{
schema_appendPQExpBuffer1(&tables_query, " and nspname %s'%.*s'", op_string, escSchemaName, TABLE_IS_VALID(szTableName, cbTableName), conn);
if (IS_VALID_NAME(escTableName))
appendPQExpBuffer(&tables_query,
" and relname %s'%s'", op_string, escTableName);
}
/*
* Parse the extra systable prefix configuration variable into an array
* of prefixes.
*/
STRCPY_FIXED(prefixes, ci->drivers.extra_systable_prefixes);
for (i = 0; i < MAX_PREFIXES; i++)
{
char *str = (i == 0) ? prefixes : NULL;
#ifdef HAVE_STRTOK_R
prefix[i] = strtok_r(str, ";", &last);
#else
prefix[i] = strtok(str, ";");
#endif /* HAVE_STRTOK_R */
if (prefix[i] == NULL)
break;
}
nprefixes = i;
/* Parse the desired table types to return */
show_system_tables = FALSE;
show_regular_tables = FALSE;
show_views = FALSE;
show_foreign_tables = FALSE;
show_matviews = FALSE;
/* TABLE_TYPE */
if (!tableType)
{
show_regular_tables = TRUE;
show_views = TRUE;
show_foreign_tables = TRUE;
show_matviews = TRUE;
}
else if (list_some || stricmp(tableType, SQL_ALL_TABLE_TYPES) == 0)
{
show_regular_tables = TRUE;
show_views = TRUE;
show_foreign_tables = TRUE;
show_matviews = TRUE;
}
else
{
/* Check for desired table types to return */
char *srcstr;
for (srcstr = tableType;; srcstr = NULL)
{
char *typestr;
#ifdef HAVE_STRTOK_R
typestr = strtok_r(srcstr, ",", &last);
#else
typestr = strtok(srcstr, ",");
#endif /* HAVE_STRTOK_R */
if (typestr == NULL)
break;
while (isspace((unsigned char) *typestr))
typestr++;
if (*typestr == '\'')
typestr++;
if (strnicmp(typestr, CSTR_SYS_TABLE, strlen(CSTR_SYS_TABLE)) == 0)
show_system_tables = TRUE;
else if (strnicmp(typestr, CSTR_TABLE, strlen(CSTR_TABLE)) == 0)
show_regular_tables = TRUE;
else if (strnicmp(typestr, CSTR_VIEW, strlen(CSTR_VIEW)) == 0)
show_views = TRUE;
else if (strnicmp(typestr, CSTR_FOREIGN_TABLE, strlen(CSTR_FOREIGN_TABLE)) == 0)
show_foreign_tables = TRUE;
else if (strnicmp(typestr, CSTR_MATVIEW, strlen(CSTR_MATVIEW)) == 0)
show_matviews = TRUE;
}
}
/*
* If not interested in SYSTEM TABLES then filter them out to save
* some time on the query. If treating system tables as regular
* tables, then dont filter either.
*/
if ((list_schemas || !list_some) && !atoi(ci->show_system_tables) && !show_system_tables)
appendPQExpBufferStr(&tables_query, " and nspname not in ('pg_catalog', 'information_schema', 'pg_toast', 'pg_temp_1')");
if (!list_some)
{
if (CC_accessible_only(conn))
appendPQExpBufferStr(&tables_query, " and has_table_privilege(c.oid, 'select')");
}
if (list_schemas)
appendPQExpBufferStr(&tables_query, " order by nspname");
else if (list_some)
;
else
appendPQExpBufferStr(&tables_query, " and n.oid = relnamespace order by nspname, relname");
if (PQExpBufferDataBroken(tables_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_Tables()", func);
goto cleanup;
}
result = PGAPI_ExecDirect(tbl_stmt, (SQLCHAR *) tables_query.data, SQL_NTS, PODBC_RDONLY);
if (!SQL_SUCCEEDED(result))
{
SC_full_error_copy(stmt, tbl_stmt, FALSE);
goto cleanup;
}
/* If not found */
if ((res = SC_get_Result(tbl_stmt)) &&
0 == QR_get_num_total_tuples(res))
{
if (allow_public_schema(conn, szSchemaName, cbSchemaName))
{
szSchemaName = pubstr;
cbSchemaName = SQL_NTS;
goto retry_public_schema;
}
}
#ifdef UNICODE_SUPPORT
if (CC_is_in_unicode_driver(conn))
internal_asis_type = INTERNAL_ASIS_TYPE;
#endif /* UNICODE_SUPPORT */
result = PGAPI_BindCol(tbl_stmt, 1, internal_asis_type,
table_name, MAX_INFO_STRING, &cbRelname);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 2, internal_asis_type,
table_owner, MAX_INFO_STRING, &cbSchName);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 3, internal_asis_type,
relkind_or_hasrules, MAX_INFO_STRING, &cbRelkind);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
if (res = QR_Constructor(), !res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for PGAPI_Tables result.", func);
goto cleanup;
}
SC_set_Result(stmt, res);
/* the binding structure for a statement is not set up until */
/*
* a statement is actually executed, so we'll have to do this
* ourselves.
*/
result_cols = NUM_OF_TABLES_FIELDS;
extend_column_bindings(SC_get_ARDF(stmt), result_cols);
stmt->catalog_result = TRUE;
/* set the field names */
QR_set_num_fields(res, result_cols);
if (EN_is_odbc3(env))
{
QR_set_field_info_v(res, TABLES_CATALOG_NAME, "TABLE_CAT", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, TABLES_SCHEMA_NAME, "TABLE_SCHEM", PG_TYPE_VARCHAR, MAX_INFO_STRING);
}
else
{
QR_set_field_info_v(res, TABLES_CATALOG_NAME, "TABLE_QUALIFIER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, TABLES_SCHEMA_NAME, "TABLE_OWNER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
}
QR_set_field_info_v(res, TABLES_TABLE_NAME, "TABLE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, TABLES_TABLE_TYPE, "TABLE_TYPE", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, TABLES_REMARKS, "REMARKS", PG_TYPE_VARCHAR, INFO_VARCHAR_SIZE);
/* add the tuples */
table_name[0] = '\0';
table_owner[0] = '\0';
result = PGAPI_Fetch(tbl_stmt);
while (SQL_SUCCEEDED(result))
{
/*
* Determine if this table name is a system table. If treating
* system tables as regular tables, then no need to do this test.
*/
systable = FALSE;
if (!atoi(ci->show_system_tables))
{
if (stricmp(table_owner, "pg_catalog") == 0 ||
stricmp(table_owner, "pg_toast") == 0 ||
strnicmp(table_owner, "pg_temp_", 8) == 0 ||
stricmp(table_owner, "information_schema") == 0)
systable = TRUE;
else
{
/* Check extra system table prefixes */
for (i = 0; i < nprefixes; i++)
{
MYLOG(0, "table_name='%s', prefix[%d]='%s'\n", table_name, i, prefix[i]);
if (strncmp(table_name, prefix[i], strlen(prefix[i])) == 0)
{
systable = TRUE;
break;
}
}
}
}
/* Determine if the table name is a view */
view = (relkind_or_hasrules[0] == 'v');
/* Check for foreign tables and materialized views ... */
foreign_table = (relkind_or_hasrules[0] == 'f');
matview = (relkind_or_hasrules[0] == 'm');
/* It must be a regular table */
regular_table = (!systable && !view);
/* Include the row in the result set if meets all criteria */
/*
* NOTE: Unsupported table types (i.e., LOCAL TEMPORARY, ALIAS,
* etc) will return nothing
*/
if ((systable && show_system_tables) ||
(view && show_views) ||
(foreign_table && show_foreign_tables) ||
(matview && show_matviews) ||
(regular_table && show_regular_tables))
{
tuple = QR_AddNew(res);
if (list_cat || !list_some)
set_tuplefield_string(&tuple[TABLES_CATALOG_NAME], CurrCat(conn));
else
set_tuplefield_null(&tuple[TABLES_CATALOG_NAME]);
/*
* I have to hide the table owner from Access, otherwise it
* insists on referring to the table as 'owner.table'. (this
* is valid according to the ODBC SQL grammar, but Postgres
* won't support it.)
*
* set_tuplefield_string(&tuple[TABLES_SCHEMA_NAME], table_owner);
*/
MYLOG(0, "table_name = '%s'\n", table_name);
if (list_schemas || !list_some)
set_tuplefield_string(&tuple[TABLES_SCHEMA_NAME], GET_SCHEMA_NAME(table_owner));
else
set_tuplefield_null(&tuple[TABLES_SCHEMA_NAME]);
if (list_some)
set_tuplefield_null(&tuple[TABLES_TABLE_NAME]);
else
set_tuplefield_string(&tuple[TABLES_TABLE_NAME], table_name);
if (list_table_types || !list_some)
{
if (systable)
set_tuplefield_string(&tuple[TABLES_TABLE_TYPE], CSTR_SYS_TABLE);
else if (view)
set_tuplefield_string(&tuple[TABLES_TABLE_TYPE], CSTR_VIEW);
else if (matview)
set_tuplefield_string(&tuple[TABLES_TABLE_TYPE], CSTR_MATVIEW);
else if (foreign_table)
set_tuplefield_string(&tuple[TABLES_TABLE_TYPE], CSTR_FOREIGN_TABLE);
else
set_tuplefield_string(&tuple[TABLES_TABLE_TYPE], CSTR_TABLE);
}
else
set_tuplefield_null(&tuple[TABLES_TABLE_TYPE]);
set_tuplefield_string(&tuple[TABLES_REMARKS], NULL_STRING);
/*** set_tuplefield_string(&tuple[TABLES_REMARKS], "TABLE"); ***/
}
result = PGAPI_Fetch(tbl_stmt);
}
if (result != SQL_NO_DATA_FOUND)
{
SC_full_error_copy(stmt, tbl_stmt, FALSE);
goto cleanup;
}
ret = SQL_SUCCESS;
cleanup:
#undef return
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
if (!SQL_SUCCEEDED(ret) && 0 >= SC_get_errornumber(stmt))
SC_error_copy(stmt, tbl_stmt, TRUE);
if (!PQExpBufferDataBroken(tables_query))
termPQExpBuffer(&tables_query);
if (escCatName)
free(escCatName);
if (escSchemaName)
free(escSchemaName);
if (escTableName)
free(escTableName);
if (tableType)
free(tableType);
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
if (tbl_stmt)
PGAPI_FreeStmt(tbl_stmt, SQL_DROP);
MYLOG(0, "leaving stmt=%p, ret=%d\n", stmt, ret);
return ret;
}
/*
* macros for pgtype_attr_xxxx() calls which have
* PG_ADT_UNSET or PG_UNKNOWNS_UNSET parameters
*/
#define PGTYPE_ATTR_COLUMN_SIZE(conn, pgType, atttypmod) pgtype_attr_column_size(conn, pgType, atttypmod, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_ATTR_TO_CONCISE_TYPE(conn, pgType, atttypmod) pgtype_attr_to_concise_type(conn, pgType, atttypmod, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_ATTR_TO_SQLDESCTYPE(conn, pgType, atttypmod) pgtype_attr_to_sqldesctype(conn, pgType, atttypmod, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_ATTR_DISPLAY_SIZE(conn, pgType, atttypmod) pgtype_attr_display_size(conn, pgType, atttypmod, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_ATTR_BUFFER_LENGTH(conn, pgType, atttypmod) pgtype_attr_buffer_length(conn, pgType, atttypmod, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_ATTR_DECIMAL_DIGITS(conn, pgType, atttypmod) pgtype_attr_decimal_digits(conn, pgType, atttypmod, PG_ADT_UNSET, PG_UNKNOWNS_UNSET)
#define PGTYPE_ATTR_TRANSFER_OCTET_LENGTH(conn, pgType, atttypmod) pgtype_attr_transfer_octet_length(conn, pgType, atttypmod, PG_UNKNOWNS_UNSET)
/*
* for oid or xmin
*/
static void
add_tuple_for_oid_or_xmin(TupleField *tuple, int ordinal, const char *colname, OID the_type, const char *typname, const ConnectionClass *conn, const char *table_owner, const char *table_name, OID greloid, int attnum, BOOL auto_increment, int table_info)
{
int sqltype;
const int atttypmod = -1;
set_tuplefield_string(&tuple[COLUMNS_CATALOG_NAME], CurrCat(conn));
/* see note in SQLTables() */
set_tuplefield_string(&tuple[COLUMNS_SCHEMA_NAME], GET_SCHEMA_NAME(table_owner));
set_tuplefield_string(&tuple[COLUMNS_TABLE_NAME], table_name);
set_tuplefield_string(&tuple[COLUMNS_COLUMN_NAME], colname);
sqltype = PGTYPE_ATTR_TO_CONCISE_TYPE(conn, the_type, atttypmod);
set_tuplefield_int2(&tuple[COLUMNS_DATA_TYPE], sqltype);
set_tuplefield_string(&tuple[COLUMNS_TYPE_NAME], typname);
set_tuplefield_int4(&tuple[COLUMNS_PRECISION], PGTYPE_ATTR_COLUMN_SIZE(conn, the_type, atttypmod));
set_tuplefield_int4(&tuple[COLUMNS_LENGTH], PGTYPE_ATTR_BUFFER_LENGTH(conn, the_type, atttypmod));
set_nullfield_int2(&tuple[COLUMNS_SCALE], PGTYPE_ATTR_DECIMAL_DIGITS(conn, the_type, atttypmod));
set_nullfield_int2(&tuple[COLUMNS_RADIX], pgtype_radix(conn, the_type));
set_tuplefield_int2(&tuple[COLUMNS_NULLABLE], SQL_NO_NULLS);
set_tuplefield_string(&tuple[COLUMNS_REMARKS], NULL_STRING);
set_tuplefield_null(&tuple[COLUMNS_COLUMN_DEF]);
set_tuplefield_int2(&tuple[COLUMNS_SQL_DATA_TYPE], sqltype);
set_tuplefield_null(&tuple[COLUMNS_SQL_DATETIME_SUB]);
set_tuplefield_null(&tuple[COLUMNS_CHAR_OCTET_LENGTH]);
set_tuplefield_int4(&tuple[COLUMNS_ORDINAL_POSITION], ordinal);
set_tuplefield_string(&tuple[COLUMNS_IS_NULLABLE], "No");
set_tuplefield_int4(&tuple[COLUMNS_DISPLAY_SIZE], PGTYPE_ATTR_DISPLAY_SIZE(conn, the_type, atttypmod));
set_tuplefield_int4(&tuple[COLUMNS_FIELD_TYPE], the_type);
set_tuplefield_int4(&tuple[COLUMNS_AUTO_INCREMENT], auto_increment);
set_tuplefield_int2(&tuple[COLUMNS_PHYSICAL_NUMBER], attnum);
set_tuplefield_int4(&tuple[COLUMNS_TABLE_OID], greloid);
set_tuplefield_int4(&tuple[COLUMNS_BASE_TYPEID], 0);
set_tuplefield_int4(&tuple[COLUMNS_ATTTYPMOD], -1);
set_tuplefield_int4(&tuple[COLUMNS_TABLE_INFO], table_info);
}
RETCODE SQL_API
PGAPI_Columns(HSTMT hstmt,
const SQLCHAR * szTableQualifier, /* OA X*/
SQLSMALLINT cbTableQualifier,
const SQLCHAR * szTableOwner, /* PV E*/
SQLSMALLINT cbTableOwner,
const SQLCHAR * szTableName, /* PV E*/
SQLSMALLINT cbTableName,
const SQLCHAR * szColumnName, /* PV E*/
SQLSMALLINT cbColumnName,
UWORD flag,
OID reloid,
Int2 attnum)
{
CSTR func = "PGAPI_Columns";
StatementClass *stmt = (StatementClass *) hstmt;
QResultClass *res;
TupleField *tuple;
StatementClass *col_stmt = NULL;
PQExpBufferData columns_query = {0};
RETCODE ret = SQL_ERROR, result;
char table_owner[MAX_INFO_STRING],
table_name[MAX_INFO_STRING],
field_name[MAX_INFO_STRING],
field_type_name[MAX_INFO_STRING];
Int2 field_number, sqltype, concise_type,
result_cols;
Int4 mod_length,
ordinal,
typmod, relhasoids, relhassubclass;
OID field_type, greloid, basetype;
char not_null[MAX_INFO_STRING],
relhasrules[MAX_INFO_STRING], relkind[8], attidentity[2];
char *escSchemaName = NULL, *escTableName = NULL, *escColumnName = NULL;
BOOL search_pattern = TRUE, search_by_ids, relisaview, show_oid_column, row_versioning;
ConnInfo *ci;
ConnectionClass *conn;
SQLSMALLINT internal_asis_type = SQL_C_CHAR, cbSchemaName;
const char *like_or_eq = likeop, *op_string;
const SQLCHAR *szSchemaName;
BOOL setIdentity = FALSE;
int table_info = 0;
MYLOG(0, "entering...stmt=%p scnm=%p len=%d\n", stmt, szTableOwner, cbTableOwner);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
conn = SC_get_conn(stmt);
ci = &(conn->connInfo);
#ifdef UNICODE_SUPPORT
if (CC_is_in_unicode_driver(conn))
internal_asis_type = INTERNAL_ASIS_TYPE;
#endif /* UNICODE_SUPPORT */
#define return DONT_CALL_RETURN_FROM_HERE???
show_oid_column = ((flag & PODBC_SHOW_OID_COLUMN) != 0);
row_versioning = ((flag & PODBC_ROW_VERSIONING) != 0);
search_by_ids = ((flag & PODBC_SEARCH_BY_IDS) != 0);
if (search_by_ids)
{
szSchemaName = NULL;
cbSchemaName = SQL_NULL_DATA;
}
else
{
szSchemaName = szTableOwner;
cbSchemaName = cbTableOwner;
reloid = 0;
attnum = 0;
/*
* TableName or ColumnName is ordinarily an pattern value,
*/
search_pattern = ((flag & PODBC_NOT_SEARCH_PATTERN) == 0);
if (search_pattern)
{
like_or_eq = likeop;
escTableName = adjustLikePattern(szTableName, cbTableName, conn);
escColumnName = adjustLikePattern(szColumnName, cbColumnName, conn);
}
else
{
like_or_eq = eqop;
escTableName = simpleCatalogEscape(szTableName, cbTableName, conn);
escColumnName = simpleCatalogEscape(szColumnName, cbColumnName, conn);
}
}
retry_public_schema:
if (!search_by_ids)
{
if (escSchemaName)
free(escSchemaName);
if (search_pattern)
escSchemaName = adjustLikePattern(szSchemaName, cbSchemaName, conn);
else
escSchemaName = simpleCatalogEscape(szSchemaName, cbSchemaName, conn);
}
initPQExpBuffer(&columns_query);
#define return DONT_CALL_RETURN_FROM_HERE???
/*
* Create the query to find out the columns (Note: pre 6.3 did not
* have the atttypmod field)
*/
op_string = gen_opestr(like_or_eq, conn);
printfPQExpBuffer(&columns_query,
"select n.nspname, c.relname, a.attname, a.atttypid, "
"t.typname, a.attnum, a.attlen, a.atttypmod, a.attnotnull, "
"c.relhasrules, c.relkind, c.oid, pg_get_expr(d.adbin, d.adrelid), "
"case t.typtype when 'd' then t.typbasetype else 0 end, t.typtypmod, "
"c.relhasoids, %s, c.relhassubclass "
"from (((pg_catalog.pg_class c "
"inner join pg_catalog.pg_namespace n on n.oid = c.relnamespace", PG_VERSION_GE(conn, 10.0) ? "attidentity" : "' '");
if (search_by_ids)
appendPQExpBuffer(&columns_query, " and c.oid = %u", reloid);
else
{
if (escTableName)
appendPQExpBuffer(&columns_query, " and c.relname %s'%s'", op_string, escTableName);
schema_appendPQExpBuffer1(&columns_query, " and n.nspname %s'%.*s'", op_string, escSchemaName, TABLE_IS_VALID(szTableName, cbTableName), conn);
}
appendPQExpBufferStr(&columns_query, ") inner join pg_catalog.pg_attribute a"
" on (not a.attisdropped)");
if (0 == attnum && (NULL == escColumnName || like_or_eq != eqop))
appendPQExpBufferStr(&columns_query, " and a.attnum > 0");
if (search_by_ids)
{
if (attnum != 0)
appendPQExpBuffer(&columns_query, " and a.attnum = %d", attnum);
}
else if (escColumnName)
appendPQExpBuffer(&columns_query, " and a.attname %s'%s'", op_string, escColumnName);
appendPQExpBufferStr(&columns_query,
" and a.attrelid = c.oid) inner join pg_catalog.pg_type t"
" on t.oid = a.atttypid) left outer join pg_attrdef d"
" on a.atthasdef and d.adrelid = a.attrelid and d.adnum = a.attnum");
appendPQExpBufferStr(&columns_query, " order by n.nspname, c.relname, attnum");
if (PQExpBufferDataBroken(columns_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_Columns()", func);
goto cleanup;
}
result = PGAPI_AllocStmt(conn, (HSTMT *) &col_stmt, 0);
if (!SQL_SUCCEEDED(result))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate statement for PGAPI_Columns result.", func);
goto cleanup;
}
MYLOG(0, "col_stmt = %p\n", col_stmt);
result = PGAPI_ExecDirect(col_stmt, (SQLCHAR *) columns_query.data, SQL_NTS, PODBC_RDONLY);
if (!SQL_SUCCEEDED(result))
{
SC_full_error_copy(stmt, col_stmt, FALSE);
goto cleanup;
}
/* If not found */
if ((flag & PODBC_SEARCH_PUBLIC_SCHEMA) != 0 &&
(res = SC_get_Result(col_stmt)) &&
0 == QR_get_num_total_tuples(res))
{
if (!search_by_ids &&
allow_public_schema(conn, szSchemaName, cbSchemaName))
{
PGAPI_FreeStmt(col_stmt, SQL_DROP);
col_stmt = NULL;
szSchemaName = pubstr;
cbSchemaName = SQL_NTS;
goto retry_public_schema;
}
}
result = PGAPI_BindCol(col_stmt, 1, internal_asis_type,
table_owner, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 2, internal_asis_type,
table_name, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 3, internal_asis_type,
field_name, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 4, SQL_C_ULONG,
&field_type, 4, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 5, internal_asis_type,
field_type_name, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 6, SQL_C_SHORT,
&field_number, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
#ifdef NOT_USED
result = PGAPI_BindCol(col_stmt, 7, SQL_C_LONG,
&field_length, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
#endif /* NOT_USED */
result = PGAPI_BindCol(col_stmt, 8, SQL_C_LONG,
&mod_length, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 9, internal_asis_type,
not_null, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 10, internal_asis_type,
relhasrules, MAX_INFO_STRING, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 11, internal_asis_type,
relkind, sizeof(relkind), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 12, SQL_C_LONG,
&greloid, sizeof(greloid), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 14, SQL_C_ULONG,
&basetype, sizeof(basetype), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 15, SQL_C_LONG,
&typmod, sizeof(typmod), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 16, SQL_C_LONG,
&relhasoids, sizeof(relhasoids), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 17, SQL_C_CHAR,
attidentity, sizeof(attidentity), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 18, SQL_C_LONG,
&relhassubclass, sizeof(relhassubclass), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
if (res = QR_Constructor(), !res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for PGAPI_Columns result.", func);
goto cleanup;
}
SC_set_Result(stmt, res);
/* the binding structure for a statement is not set up until */
/*
* a statement is actually executed, so we'll have to do this
* ourselves.
*/
result_cols = NUM_OF_COLUMNS_FIELDS;
extend_column_bindings(SC_get_ARDF(stmt), result_cols);
/*
* Setting catalog_result here affects the behavior of
* pgtype_xxx() functions. So set it later.
* stmt->catalog_result = TRUE;
*/
/* set the field names */
QR_set_num_fields(res, result_cols);
QR_set_field_info_v(res, COLUMNS_CATALOG_NAME, "TABLE_QUALIFIER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, COLUMNS_SCHEMA_NAME, "TABLE_OWNER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, COLUMNS_TABLE_NAME, "TABLE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, COLUMNS_COLUMN_NAME, "COLUMN_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, COLUMNS_DATA_TYPE, "DATA_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, COLUMNS_TYPE_NAME, "TYPE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, COLUMNS_PRECISION, "PRECISION", PG_TYPE_INT4, 4); /* COLUMN_SIZE */
QR_set_field_info_v(res, COLUMNS_LENGTH, "LENGTH", PG_TYPE_INT4, 4); /* BUFFER_LENGTH */
QR_set_field_info_v(res, COLUMNS_SCALE, "SCALE", PG_TYPE_INT2, 2); /* DECIMAL_DIGITS ***/
QR_set_field_info_v(res, COLUMNS_RADIX, "RADIX", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, COLUMNS_NULLABLE, "NULLABLE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, COLUMNS_REMARKS, "REMARKS", PG_TYPE_VARCHAR, INFO_VARCHAR_SIZE);
QR_set_field_info_v(res, COLUMNS_COLUMN_DEF, "COLUMN_DEF", PG_TYPE_VARCHAR, INFO_VARCHAR_SIZE);
QR_set_field_info_v(res, COLUMNS_SQL_DATA_TYPE, "SQL_DATA_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, COLUMNS_SQL_DATETIME_SUB, "SQL_DATETIME_SUB", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, COLUMNS_CHAR_OCTET_LENGTH, "CHAR_OCTET_LENGTH", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, COLUMNS_ORDINAL_POSITION, "ORDINAL_POSITION", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, COLUMNS_IS_NULLABLE, "IS_NULLABLE", PG_TYPE_VARCHAR, INFO_VARCHAR_SIZE);
/* User defined fields */
QR_set_field_info_v(res, COLUMNS_DISPLAY_SIZE, "DISPLAY_SIZE", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, COLUMNS_FIELD_TYPE, "FIELD_TYPE", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, COLUMNS_AUTO_INCREMENT, "AUTO_INCREMENT", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, COLUMNS_PHYSICAL_NUMBER, "PHYSICAL NUMBER", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, COLUMNS_TABLE_OID, "TABLE OID", PG_TYPE_OID, 4);
QR_set_field_info_v(res, COLUMNS_BASE_TYPEID, "BASE TYPEID", PG_TYPE_OID, 4);
QR_set_field_info_v(res, COLUMNS_ATTTYPMOD, "TYPMOD", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, COLUMNS_TABLE_INFO, "TABLE INFO", PG_TYPE_INT4, 4);
ordinal = 1;
result = PGAPI_Fetch(col_stmt);
/*
* Only show oid if option AND there are other columns AND it's not
* being called by SQLStatistics . Always show OID if it's a system
* table
*/
relisaview = (relkind[0] == 'v');
if (SQL_SUCCEEDED(result))
{
if (relhasoids)
table_info |= TBINFO_HASOIDS;
if (relhassubclass)
table_info |= TBINFO_HASSUBCLASS;
if (!relisaview &&
relhasoids &&
(show_oid_column ||
strncmp(table_name, POSTGRES_SYS_PREFIX, strlen(POSTGRES_SYS_PREFIX)) == 0) &&
(NULL == escColumnName ||
0 == strcmp(escColumnName, OID_NAME)))
{
const char *typname;
/* For OID fields */
tuple = QR_AddNew(res);
if (CC_fake_mss(conn))
{
typname = "OID identity";
setIdentity = TRUE;
}
else
typname = OID_NAME;
add_tuple_for_oid_or_xmin(tuple, ordinal, OID_NAME, PG_TYPE_OID, typname, conn, table_owner, table_name, greloid, OID_ATTNUM, TRUE, table_info);
ordinal++;
}
}
while (SQL_SUCCEEDED(result))
{
int auto_unique;
SQLLEN len_needed;
char *attdef;
attdef = NULL;
PGAPI_SetPos(col_stmt, 1, SQL_POSITION, 0);
PGAPI_GetData(col_stmt, 13, internal_asis_type, NULL, 0, &len_needed);
if (len_needed > 0)
{
MYLOG(0, "len_needed=" FORMAT_LEN "\n", len_needed);
attdef = malloc(len_needed + 1);
if (!attdef)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for attdef.", func);
goto cleanup;
}
PGAPI_GetData(col_stmt, 13, internal_asis_type, attdef, len_needed + 1, &len_needed);
MYLOG(0, " and the data=%s\n", attdef);
}
tuple = QR_AddNew(res);
sqltype = SQL_TYPE_NULL; /* unspecified */
set_tuplefield_string(&tuple[COLUMNS_CATALOG_NAME], CurrCat(conn));
/* see note in SQLTables() */
set_tuplefield_string(&tuple[COLUMNS_SCHEMA_NAME], GET_SCHEMA_NAME(table_owner));
set_tuplefield_string(&tuple[COLUMNS_TABLE_NAME], table_name);
set_tuplefield_string(&tuple[COLUMNS_COLUMN_NAME], field_name);
auto_unique = SQL_FALSE;
if (field_type = pg_true_type(conn, field_type, basetype), field_type == basetype)
mod_length = typmod;
switch (field_type)
{
case PG_TYPE_OID:
if (0 != atoi(ci->fake_oid_index))
{
auto_unique = SQL_TRUE;
set_tuplefield_string(&tuple[COLUMNS_TYPE_NAME], "identity");
break;
}
case PG_TYPE_INT4:
case PG_TYPE_INT8:
if ((attidentity[0] != 0 && attidentity[0] != ' ') ||
(attdef && strnicmp(attdef, "nextval(", 8) == 0 &&
not_null[0] != '0'))
{
auto_unique = SQL_TRUE;
if (!setIdentity &&
CC_fake_mss(conn))
{
char tmp[32];
SPRINTF_FIXED(tmp, "%s identity", field_type_name);
set_tuplefield_string(&tuple[COLUMNS_TYPE_NAME], tmp);
break;
}
}
default:
set_tuplefield_string(&tuple[COLUMNS_TYPE_NAME], field_type_name);
break;
}
/*----------
* Some Notes about Postgres Data Types:
*
* VARCHAR - the length is stored in the pg_attribute.atttypmod field
* BPCHAR - the length is also stored as varchar is
*
* NUMERIC - the decimal_digits is stored in atttypmod as follows:
*
* column_size =((atttypmod - VARHDRSZ) >> 16) & 0xffff
* decimal_digits = (Int2)((atttypmod - VARHDRSZ) & 0xffff)
*
*----------
*/
MYLOG(0, "table='%s',field_name='%s',type=%d,name='%s'\n",
table_name, field_name, field_type, field_type_name);
/* Subtract the header length */
switch (field_type)
{
case PG_TYPE_DATETIME:
case PG_TYPE_TIMESTAMP_NO_TMZONE:
case PG_TYPE_TIME:
case PG_TYPE_TIME_WITH_TMZONE:
case PG_TYPE_SMALLDATETIME:
case PG_TYPE_BIT:
break;
default:
if (mod_length >= 4)
mod_length -= 4;
}
set_tuplefield_int4(&tuple[COLUMNS_PRECISION], PGTYPE_ATTR_COLUMN_SIZE(conn, field_type, mod_length));
set_tuplefield_int4(&tuple[COLUMNS_LENGTH], PGTYPE_ATTR_BUFFER_LENGTH(conn, field_type, mod_length));
set_tuplefield_int4(&tuple[COLUMNS_DISPLAY_SIZE], PGTYPE_ATTR_DISPLAY_SIZE(conn, field_type, mod_length));
set_nullfield_int2(&tuple[COLUMNS_SCALE], PGTYPE_ATTR_DECIMAL_DIGITS(conn, field_type, mod_length));
sqltype = PGTYPE_ATTR_TO_CONCISE_TYPE(conn, field_type, mod_length);
concise_type = PGTYPE_ATTR_TO_SQLDESCTYPE(conn, field_type, mod_length);
set_tuplefield_int2(&tuple[COLUMNS_DATA_TYPE], sqltype);
set_nullfield_int2(&tuple[COLUMNS_RADIX], pgtype_radix(conn, field_type));
set_tuplefield_int2(&tuple[COLUMNS_NULLABLE], (Int2) (not_null[0] != '0' ? SQL_NO_NULLS : pgtype_nullable(conn, field_type)));
set_tuplefield_string(&tuple[COLUMNS_REMARKS], NULL_STRING);
if (attdef && strlen(attdef) > INFO_VARCHAR_SIZE)
set_tuplefield_string(&tuple[COLUMNS_COLUMN_DEF], "TRUNCATE");
else
set_tuplefield_string(&tuple[COLUMNS_COLUMN_DEF], attdef);
set_tuplefield_int2(&tuple[COLUMNS_SQL_DATA_TYPE], concise_type);
set_nullfield_int2(&tuple[COLUMNS_SQL_DATETIME_SUB], pgtype_attr_to_datetime_sub(conn, field_type, mod_length));
set_tuplefield_int4(&tuple[COLUMNS_CHAR_OCTET_LENGTH], PGTYPE_ATTR_TRANSFER_OCTET_LENGTH(conn, field_type, mod_length));
set_tuplefield_int4(&tuple[COLUMNS_ORDINAL_POSITION], ordinal);
set_tuplefield_null(&tuple[COLUMNS_IS_NULLABLE]);
set_tuplefield_int4(&tuple[COLUMNS_FIELD_TYPE], field_type);
set_tuplefield_int4(&tuple[COLUMNS_AUTO_INCREMENT], auto_unique);
set_tuplefield_int2(&tuple[COLUMNS_PHYSICAL_NUMBER], field_number);
set_tuplefield_int4(&tuple[COLUMNS_TABLE_OID], greloid);
set_tuplefield_int4(&tuple[COLUMNS_BASE_TYPEID], basetype);
set_tuplefield_int4(&tuple[COLUMNS_ATTTYPMOD], mod_length);
set_tuplefield_int4(&tuple[COLUMNS_TABLE_INFO], table_info);
ordinal++;
result = PGAPI_Fetch(col_stmt);
if (attdef)
free(attdef);
}
if (result != SQL_NO_DATA_FOUND)
{
SC_full_error_copy(stmt, col_stmt, FALSE);
goto cleanup;
}
/*
* Put the row version column at the end so it might not be mistaken
* for a key field.
*/
if (!relisaview && row_versioning &&
(NULL == escColumnName ||
0 == strcmp(escColumnName, XMIN_NAME)))
{
/* For Row Versioning fields */
tuple = QR_AddNew(res);
add_tuple_for_oid_or_xmin(tuple, ordinal, XMIN_NAME, PG_TYPE_XID, "xid", conn, table_owner, table_name, greloid, XMIN_ATTNUM, FALSE, table_info);
ordinal++;
}
ret = SQL_SUCCESS;
cleanup:
#undef return
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
stmt->catalog_result = TRUE;
if (!SQL_SUCCEEDED(ret) && 0 >= SC_get_errornumber(stmt))
SC_error_copy(stmt, col_stmt, TRUE);
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
if (!PQExpBufferDataBroken(columns_query))
termPQExpBuffer(&columns_query);
if (escSchemaName)
free(escSchemaName);
if (escTableName)
free(escTableName);
if (escColumnName)
free(escColumnName);
if (col_stmt)
PGAPI_FreeStmt(col_stmt, SQL_DROP);
MYLOG(0, "leaving stmt=%p\n", stmt);
return ret;
}
RETCODE SQL_API
PGAPI_SpecialColumns(HSTMT hstmt,
SQLUSMALLINT fColType,
const SQLCHAR * szTableQualifier,
SQLSMALLINT cbTableQualifier,
const SQLCHAR * szTableOwner, /* OA E*/
SQLSMALLINT cbTableOwner,
const SQLCHAR * szTableName, /* OA(R) E*/
SQLSMALLINT cbTableName,
SQLUSMALLINT fScope,
SQLUSMALLINT fNullable)
{
CSTR func = "PGAPI_SpecialColumns";
TupleField *tuple;
StatementClass *stmt = (StatementClass *) hstmt;
ConnectionClass *conn;
QResultClass *res;
StatementClass *col_stmt = NULL;
PQExpBufferData columns_query = {0};
char *escSchemaName = NULL, *escTableName = NULL;
RETCODE ret = SQL_ERROR, result;
char relhasrules[MAX_INFO_STRING], relkind[8], relhasoids[8];
BOOL relisaview;
SQLSMALLINT internal_asis_type = SQL_C_CHAR, cbSchemaName;
const SQLCHAR *szSchemaName;
const char *eq_string;
int result_cols;
MYLOG(0, "entering...stmt=%p scnm=%p len=%d colType=%d scope=%d\n", stmt, szTableOwner, cbTableOwner, fColType, fScope);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
conn = SC_get_conn(stmt);
#ifdef UNICODE_SUPPORT
if (CC_is_in_unicode_driver(conn))
internal_asis_type = INTERNAL_ASIS_TYPE;
#endif /* UNICODE_SUPPORT */
szSchemaName = szTableOwner;
cbSchemaName = cbTableOwner;
escTableName = simpleCatalogEscape(szTableName, cbTableName, conn);
if (!escTableName)
{
SC_set_error(stmt, STMT_INVALID_NULL_ARG, "The table name is required", func);
return SQL_ERROR;
}
#define return DONT_CALL_RETURN_FROM_HERE???
retry_public_schema:
if (escSchemaName)
free(escSchemaName);
escSchemaName = simpleCatalogEscape(szSchemaName, cbSchemaName, conn);
eq_string = gen_opestr(eqop, conn);
initPQExpBuffer(&columns_query);
#define return DONT_CALL_RETURN_FROM_HERE???
/*
* Create the query to find out if this is a view or not...
*/
appendPQExpBufferStr(&columns_query, "select c.relhasrules, c.relkind, c.relhasoids");
appendPQExpBufferStr(&columns_query, " from pg_catalog.pg_namespace u,"
" pg_catalog.pg_class c where "
"u.oid = c.relnamespace");
/* TableName cannot contain a string search pattern */
if (escTableName)
appendPQExpBuffer(&columns_query,
" and c.relname %s'%s'", eq_string, escTableName);
/* SchemaName cannot contain a string search pattern */
schema_appendPQExpBuffer1(&columns_query, " and u.nspname %s'%.*s'", eq_string, escSchemaName, TABLE_IS_VALID(szTableName, cbTableName), conn);
result = PGAPI_AllocStmt(conn, (HSTMT *) &col_stmt, 0);
if (!SQL_SUCCEEDED(result))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate statement for SQLSpecialColumns result.", func);
goto cleanup;
}
MYLOG(0, "col_stmt = %p\n", col_stmt);
if (PQExpBufferDataBroken(columns_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_SpecialColumns()", func);
goto cleanup;
}
result = PGAPI_ExecDirect(col_stmt, (SQLCHAR *) columns_query.data, SQL_NTS, PODBC_RDONLY);
if (!SQL_SUCCEEDED(result))
{
SC_full_error_copy(stmt, col_stmt, FALSE);
goto cleanup;
}
/* If not found */
if ((res = SC_get_Result(col_stmt)) &&
0 == QR_get_num_total_tuples(res))
{
if (allow_public_schema(conn, szSchemaName, cbSchemaName))
{
PGAPI_FreeStmt(col_stmt, SQL_DROP);
col_stmt = NULL;
szSchemaName = pubstr;
cbSchemaName = SQL_NTS;
goto retry_public_schema;
}
}
result = PGAPI_BindCol(col_stmt, 1, internal_asis_type,
relhasrules, sizeof(relhasrules), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, 2, internal_asis_type,
relkind, sizeof(relkind), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
relhasoids[0] = '1';
result = PGAPI_BindCol(col_stmt, 3, internal_asis_type,
relhasoids, sizeof(relhasoids), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_Fetch(col_stmt);
relisaview = (relkind[0] == 'v');
PGAPI_FreeStmt(col_stmt, SQL_DROP);
col_stmt = NULL;
res = QR_Constructor();
if (!res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for query.", func);
goto cleanup;
}
SC_set_Result(stmt, res);
extend_column_bindings(SC_get_ARDF(stmt), 8);
stmt->catalog_result = TRUE;
result_cols = NUM_OF_SPECOLS_FIELDS;
QR_set_num_fields(res, result_cols);
QR_set_field_info_v(res, 0, "SCOPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 1, "COLUMN_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 2, "DATA_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 3, "TYPE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 4, "PRECISION", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, 5, "LENGTH", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, 6, "SCALE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, 7, "PSEUDO_COLUMN", PG_TYPE_INT2, 2);
if (relisaview)
{
/* there's no oid for views */
if (fColType == SQL_BEST_ROWID)
{
ret = SQL_SUCCESS;
goto cleanup;
}
else if (fColType == SQL_ROWVER)
{
Int2 the_type = PG_TYPE_TID;
int atttypmod = -1;
tuple = QR_AddNew(res);
set_tuplefield_null(&tuple[SPECOLS_SCOPE]);
set_tuplefield_string(&tuple[SPECOLS_COLUMN_NAME], "ctid");
set_tuplefield_int2(&tuple[SPECOLS_DATA_TYPE], PGTYPE_ATTR_TO_CONCISE_TYPE(conn, the_type, atttypmod));
set_tuplefield_string(&tuple[SPECOLS_TYPE_NAME], pgtype_attr_to_name(conn, the_type, atttypmod, FALSE));
set_tuplefield_int4(&tuple[SPECOLS_COLUMN_SIZE], PGTYPE_ATTR_COLUMN_SIZE(conn, the_type, atttypmod));
set_tuplefield_int4(&tuple[SPECOLS_BUFFER_LENGTH], PGTYPE_ATTR_BUFFER_LENGTH(conn, the_type, atttypmod));
set_tuplefield_int2(&tuple[SPECOLS_DECIMAL_DIGITS], PGTYPE_ATTR_DECIMAL_DIGITS(conn, the_type, atttypmod));
set_tuplefield_int2(&tuple[SPECOLS_PSEUDO_COLUMN], SQL_PC_NOT_PSEUDO);
MYLOG(DETAIL_LOG_LEVEL, "Add ctid\n");
}
}
else
{
/* use the oid value for the rowid */
if (fColType == SQL_BEST_ROWID)
{
Int2 the_type = PG_TYPE_OID;
int atttypmod = -1;
if (relhasoids[0] != '1')
{
ret = SQL_SUCCESS;
goto cleanup;
}
tuple = QR_AddNew(res);
set_tuplefield_int2(&tuple[SPECOLS_SCOPE], SQL_SCOPE_SESSION);
set_tuplefield_string(&tuple[SPECOLS_COLUMN_NAME], OID_NAME);
set_tuplefield_int2(&tuple[SPECOLS_DATA_TYPE], PGTYPE_ATTR_TO_CONCISE_TYPE(conn, the_type, atttypmod));
set_tuplefield_string(&tuple[SPECOLS_TYPE_NAME], pgtype_attr_to_name(conn, the_type, atttypmod, TRUE));
set_tuplefield_int4(&tuple[SPECOLS_COLUMN_SIZE], PGTYPE_ATTR_COLUMN_SIZE(conn, the_type, atttypmod));
set_tuplefield_int4(&tuple[SPECOLS_BUFFER_LENGTH], PGTYPE_ATTR_BUFFER_LENGTH(conn, the_type, atttypmod));
set_tuplefield_int2(&tuple[SPECOLS_DECIMAL_DIGITS], PGTYPE_ATTR_DECIMAL_DIGITS(conn, the_type, atttypmod));
set_tuplefield_int2(&tuple[SPECOLS_PSEUDO_COLUMN], SQL_PC_PSEUDO);
}
else if (fColType == SQL_ROWVER)
{
Int2 the_type = PG_TYPE_XID;
int atttypmod = -1;
tuple = QR_AddNew(res);
set_tuplefield_null(&tuple[SPECOLS_SCOPE]);
set_tuplefield_string(&tuple[SPECOLS_COLUMN_NAME], XMIN_NAME);
set_tuplefield_int2(&tuple[SPECOLS_DATA_TYPE], PGTYPE_ATTR_TO_CONCISE_TYPE(conn, the_type, atttypmod));
set_tuplefield_string(&tuple[SPECOLS_TYPE_NAME], pgtype_attr_to_name(conn, the_type, atttypmod, FALSE));
set_tuplefield_int4(&tuple[SPECOLS_COLUMN_SIZE], PGTYPE_ATTR_COLUMN_SIZE(conn, the_type, atttypmod));
set_tuplefield_int4(&tuple[SPECOLS_BUFFER_LENGTH], PGTYPE_ATTR_BUFFER_LENGTH(conn, the_type, atttypmod));
set_tuplefield_int2(&tuple[SPECOLS_DECIMAL_DIGITS], PGTYPE_ATTR_DECIMAL_DIGITS(conn, the_type, atttypmod));
set_tuplefield_int2(&tuple[SPECOLS_PSEUDO_COLUMN], SQL_PC_PSEUDO);
}
}
ret = SQL_SUCCESS;
cleanup:
#undef return
if (!SQL_SUCCEEDED(ret) && 0 >= SC_get_errornumber(stmt))
SC_error_copy(stmt, col_stmt, TRUE);
if (!PQExpBufferDataBroken(columns_query))
termPQExpBuffer(&columns_query);
if (escSchemaName)
free(escSchemaName);
if (escTableName)
free(escTableName);
stmt->status = STMT_FINISHED;
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
if (col_stmt)
PGAPI_FreeStmt(col_stmt, SQL_DROP);
MYLOG(0, "leaving stmt=%p\n", stmt);
return ret;
}
#define INDOPTION_DESC 0x0001 /* values are in reverse order */
RETCODE SQL_API
PGAPI_Statistics(HSTMT hstmt,
const SQLCHAR * szTableQualifier, /* OA X*/
SQLSMALLINT cbTableQualifier,
const SQLCHAR * szTableOwner, /* OA E*/
SQLSMALLINT cbTableOwner,
const SQLCHAR * szTableName, /* OA(R) E*/
SQLSMALLINT cbTableName,
SQLUSMALLINT fUnique,
SQLUSMALLINT fAccuracy)
{
CSTR func = "PGAPI_Statistics";
StatementClass *stmt = (StatementClass *) hstmt;
ConnectionClass *conn;
QResultClass *res;
PQExpBufferData index_query = {0};
RETCODE ret = SQL_ERROR, result;
char *escSchemaName = NULL, *table_name = NULL, *escTableName = NULL;
char index_name[MAX_INFO_STRING];
short fields_vector[INDEX_KEYS_STORAGE_COUNT + 1];
short indopt_vector[INDEX_KEYS_STORAGE_COUNT + 1];
char isunique[10],
isclustered[10],
ishash[MAX_INFO_STRING];
SQLLEN index_name_len, fields_vector_len;
TupleField *tuple;
int i;
StatementClass *col_stmt = NULL, *indx_stmt = NULL;
char column_name[MAX_INFO_STRING],
table_schemaname[MAX_INFO_STRING],
relhasrules[10];
struct columns_idx {
int pnum;
char *col_name;
} *column_names = NULL;
/* char **column_names = NULL; */
SQLLEN column_name_len;
int total_columns = 0, alcount;
ConnInfo *ci;
char buf[256];
SQLSMALLINT internal_asis_type = SQL_C_CHAR, cbSchemaName, field_number;
const SQLCHAR *szSchemaName;
const char *eq_string;
OID ioid;
Int4 relhasoids;
MYLOG(0, "entering...stmt=%p scnm=%p len=%d\n", stmt, szTableOwner, cbTableOwner);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
table_name = make_string(szTableName, cbTableName, NULL, 0);
if (!table_name)
{
SC_set_error(stmt, STMT_INVALID_NULL_ARG, "The table name is required", func);
return result;
}
conn = SC_get_conn(stmt);
ci = &(conn->connInfo);
#ifdef UNICODE_SUPPORT
if (CC_is_in_unicode_driver(conn))
internal_asis_type = INTERNAL_ASIS_TYPE;
#endif /* UNICODE_SUPPORT */
if (res = QR_Constructor(), !res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for PGAPI_Statistics result.", func);
free(table_name);
return SQL_ERROR;
}
SC_set_Result(stmt, res);
/* the binding structure for a statement is not set up until */
/*
* a statement is actually executed, so we'll have to do this
* ourselves.
*/
extend_column_bindings(SC_get_ARDF(stmt), 13);
stmt->catalog_result = TRUE;
/* set the field names */
QR_set_num_fields(res, NUM_OF_STATS_FIELDS);
QR_set_field_info_v(res, STATS_CATALOG_NAME, "TABLE_QUALIFIER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, STATS_SCHEMA_NAME, "TABLE_OWNER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, STATS_TABLE_NAME, "TABLE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, STATS_NON_UNIQUE, "NON_UNIQUE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, STATS_INDEX_QUALIFIER, "INDEX_QUALIFIER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, STATS_INDEX_NAME, "INDEX_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, STATS_TYPE, "TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, STATS_SEQ_IN_INDEX, "SEQ_IN_INDEX", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, STATS_COLUMN_NAME, "COLUMN_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, STATS_COLLATION, "COLLATION", PG_TYPE_CHAR, 1);
QR_set_field_info_v(res, STATS_CARDINALITY, "CARDINALITY", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, STATS_PAGES, "PAGES", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, STATS_FILTER_CONDITION, "FILTER_CONDITION", PG_TYPE_VARCHAR, MAX_INFO_STRING);
#define return DONT_CALL_RETURN_FROM_HERE???
szSchemaName = szTableOwner;
cbSchemaName = cbTableOwner;
table_schemaname[0] = '\0';
schema_str(table_schemaname, sizeof(table_schemaname), szSchemaName, cbSchemaName, TABLE_IS_VALID(szTableName, cbTableName), conn);
/*
* we need to get a list of the field names first, so we can return
* them later.
*/
result = PGAPI_AllocStmt(conn, (HSTMT *) &col_stmt, 0);
if (!SQL_SUCCEEDED(result))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "PGAPI_AllocStmt failed in PGAPI_Statistics for columns.", func);
goto cleanup;
}
/*
* table_name parameter cannot contain a string search pattern.
*/
result = PGAPI_Columns(col_stmt,
NULL, 0,
(SQLCHAR *) table_schemaname, SQL_NTS,
(SQLCHAR *) table_name, SQL_NTS,
NULL, 0,
PODBC_NOT_SEARCH_PATTERN | PODBC_SEARCH_PUBLIC_SCHEMA, 0, 0);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, COLUMNS_COLUMN_NAME + 1, internal_asis_type,
column_name, sizeof(column_name), &column_name_len);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(col_stmt, COLUMNS_PHYSICAL_NUMBER + 1, SQL_C_SHORT,
&field_number, sizeof(field_number), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
alcount = 0;
result = PGAPI_Fetch(col_stmt);
while (SQL_SUCCEEDED(result))
{
if (0 == total_columns)
PGAPI_GetData(col_stmt, 2, internal_asis_type, table_schemaname, sizeof(table_schemaname), NULL);
if (total_columns >= alcount)
{
if (0 == alcount)
alcount = 4;
else
alcount *= 2;
SC_REALLOC_gexit_with_error(column_names, struct columns_idx, alcount * sizeof(struct columns_idx), stmt, "Couldn't allocate memory for column names.", (result = SQL_ERROR));
}
column_names[total_columns].col_name = strdup(column_name);
if (!column_names[total_columns].col_name)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for column name.", func);
goto cleanup;
}
column_names[total_columns].pnum = field_number;
total_columns++;
MYLOG(0, "column_name = '%s'\n", column_name);
result = PGAPI_Fetch(col_stmt);
}
if (result != SQL_NO_DATA_FOUND)
{
SC_full_error_copy(stmt, col_stmt, FALSE);
goto cleanup;
}
PGAPI_FreeStmt(col_stmt, SQL_DROP);
col_stmt = NULL;
if (total_columns == 0)
{
/* Couldn't get column names in SQLStatistics.; */
ret = SQL_SUCCESS;
goto cleanup;
}
/* get a list of indexes on this table */
result = PGAPI_AllocStmt(conn, (HSTMT *) &indx_stmt, 0);
if (!SQL_SUCCEEDED(result))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "PGAPI_AllocStmt failed in SQLStatistics for indices.", func);
goto cleanup;
}
/* TableName cannot contain a string search pattern */
escTableName = simpleCatalogEscape((SQLCHAR *) table_name, SQL_NTS, conn);
eq_string = gen_opestr(eqop, conn);
escSchemaName = simpleCatalogEscape((SQLCHAR *) table_schemaname, SQL_NTS, conn);
initPQExpBuffer(&index_query);
printfPQExpBuffer(&index_query, "select c.relname, i.indkey, i.indisunique"
", i.indisclustered, a.amname, c.relhasrules, n.nspname"
", c.oid, d.relhasoids, %s"
" from pg_catalog.pg_index i, pg_catalog.pg_class c,"
" pg_catalog.pg_class d, pg_catalog.pg_am a,"
" pg_catalog.pg_namespace n"
" where d.relname %s'%s'"
" and n.nspname %s'%s'"
" and n.oid = d.relnamespace"
" and d.oid = i.indrelid"
" and i.indexrelid = c.oid"
" and c.relam = a.oid order by"
, PG_VERSION_GE(conn, 8.3) ? "i.indoption" : "0"
, eq_string, escTableName, eq_string, escSchemaName);
appendPQExpBufferStr(&index_query, " i.indisprimary desc,");
appendPQExpBufferStr(&index_query, " i.indisunique, n.nspname, c.relname");
if (PQExpBufferDataBroken(index_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_Columns()", func);
goto cleanup;
}
result = PGAPI_ExecDirect(indx_stmt, (SQLCHAR *) index_query.data, SQL_NTS, PODBC_RDONLY);
if (!SQL_SUCCEEDED(result))
{
/*
* "Couldn't execute index query (w/SQLExecDirect) in
* SQLStatistics.";
*/
SC_full_error_copy(stmt, indx_stmt, FALSE);
goto cleanup;
}
/* bind the index name column */
result = PGAPI_BindCol(indx_stmt, 1, internal_asis_type,
index_name, MAX_INFO_STRING, &index_name_len);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
/* bind the vector column */
result = PGAPI_BindCol(indx_stmt, 2, SQL_C_DEFAULT,
fields_vector, sizeof(fields_vector), &fields_vector_len);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
/* bind the "is unique" column */
result = PGAPI_BindCol(indx_stmt, 3, internal_asis_type,
isunique, sizeof(isunique), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
/* bind the "is clustered" column */
result = PGAPI_BindCol(indx_stmt, 4, internal_asis_type,
isclustered, sizeof(isclustered), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
/* bind the "is hash" column */
result = PGAPI_BindCol(indx_stmt, 5, internal_asis_type,
ishash, sizeof(ishash), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(indx_stmt, 6, internal_asis_type,
relhasrules, sizeof(relhasrules), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(indx_stmt, 8, SQL_C_ULONG,
&ioid, sizeof(ioid), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(indx_stmt, 9, SQL_C_ULONG,
&relhasoids, sizeof(relhasoids), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
/* bind the vector column */
result = PGAPI_BindCol(indx_stmt, 10, SQL_C_DEFAULT,
indopt_vector, sizeof(fields_vector), &fields_vector_len);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
relhasrules[0] = '0';
result = PGAPI_Fetch(indx_stmt);
/* fake index of OID */
if (relhasoids && relhasrules[0] != '1' && atoi(ci->show_oid_column) && atoi(ci->fake_oid_index))
{
tuple = QR_AddNew(res);
/* no table qualifier */
set_tuplefield_string(&tuple[STATS_CATALOG_NAME], CurrCat(conn));
/* don't set the table owner, else Access tries to use it */
set_tuplefield_string(&tuple[STATS_SCHEMA_NAME], GET_SCHEMA_NAME(table_schemaname));
set_tuplefield_string(&tuple[STATS_TABLE_NAME], table_name);
/* non-unique index? */
set_tuplefield_int2(&tuple[STATS_NON_UNIQUE], (Int2) (ci->drivers.unique_index ? FALSE : TRUE));
/* no index qualifier */
set_tuplefield_string(&tuple[STATS_INDEX_QUALIFIER], GET_SCHEMA_NAME(table_schemaname));
SPRINTF_FIXED(buf, "%s_idx_fake_oid", table_name);
set_tuplefield_string(&tuple[STATS_INDEX_NAME], buf);
/*
* Clustered/HASH index?
*/
set_tuplefield_int2(&tuple[STATS_TYPE], (Int2) SQL_INDEX_OTHER);
set_tuplefield_int2(&tuple[STATS_SEQ_IN_INDEX], (Int2) 1);
set_tuplefield_string(&tuple[STATS_COLUMN_NAME], OID_NAME);
set_tuplefield_string(&tuple[STATS_COLLATION], "A");
set_tuplefield_null(&tuple[STATS_CARDINALITY]);
set_tuplefield_null(&tuple[STATS_PAGES]);
set_tuplefield_null(&tuple[STATS_FILTER_CONDITION]);
}
while (SQL_SUCCEEDED(result))
{
/* If only requesting unique indexs, then just return those. */
if (fUnique == SQL_INDEX_ALL ||
(fUnique == SQL_INDEX_UNIQUE && atoi(isunique)))
{
int colcnt, attnum;
/* add a row in this table for each field in the index */
colcnt = fields_vector[0];
for (i = 1; i <= colcnt; i++)
{
tuple = QR_AddNew(res);
/* no table qualifier */
set_tuplefield_string(&tuple[STATS_CATALOG_NAME], CurrCat(conn));
/* don't set the table owner, else Access tries to use it */
set_tuplefield_string(&tuple[STATS_SCHEMA_NAME], GET_SCHEMA_NAME(table_schemaname));
set_tuplefield_string(&tuple[STATS_TABLE_NAME], table_name);
/* non-unique index? */
if (ci->drivers.unique_index)
set_tuplefield_int2(&tuple[STATS_NON_UNIQUE], (Int2) (atoi(isunique) ? FALSE : TRUE));
else
set_tuplefield_int2(&tuple[STATS_NON_UNIQUE], TRUE);
/* no index qualifier */
set_tuplefield_string(&tuple[STATS_INDEX_QUALIFIER], GET_SCHEMA_NAME(table_schemaname));
set_tuplefield_string(&tuple[STATS_INDEX_NAME], index_name);
/*
* Clustered/HASH index?
*/
set_tuplefield_int2(&tuple[STATS_TYPE], (Int2)
(atoi(isclustered) ? SQL_INDEX_CLUSTERED :
(!strncmp(ishash, "hash", 4)) ? SQL_INDEX_HASHED : SQL_INDEX_OTHER));
set_tuplefield_int2(&tuple[STATS_SEQ_IN_INDEX], (Int2) i);
attnum = fields_vector[i];
if (OID_ATTNUM == attnum)
{
set_tuplefield_string(&tuple[STATS_COLUMN_NAME], OID_NAME);
MYLOG(0, "column name = oid\n");
}
else if (0 == attnum)
{
char cmd[64];
QResultClass *res;
SPRINTF_FIXED(cmd, "select pg_get_indexdef(%u, %d, true)", ioid, i);
res = CC_send_query(conn, cmd, NULL, READ_ONLY_QUERY, stmt);
if (QR_command_maybe_successful(res))
set_tuplefield_string(&tuple[STATS_COLUMN_NAME], QR_get_value_backend_text(res, 0, 0));
QR_Destructor(res);
}
else
{
int j, matchidx;
BOOL unknownf = TRUE;
if (attnum > 0)
{
for (j = 0; j < total_columns; j++)
{
if (attnum == column_names[j].pnum)
{
matchidx = j;
unknownf = FALSE;
break;
}
}
}
if (unknownf)
{
set_tuplefield_string(&tuple[STATS_COLUMN_NAME], "UNKNOWN");
MYLOG(0, "column name = UNKNOWN\n");
}
else
{
set_tuplefield_string(&tuple[STATS_COLUMN_NAME], column_names[matchidx].col_name);
MYLOG(0, "column name = '%s'\n", column_names[matchidx].col_name);
}
}
if (i <= indopt_vector[0] &&
(indopt_vector[i] & INDOPTION_DESC) != 0)
set_tuplefield_string(&tuple[STATS_COLLATION], "D");
else
set_tuplefield_string(&tuple[STATS_COLLATION], "A");
set_tuplefield_null(&tuple[STATS_CARDINALITY]);
set_tuplefield_null(&tuple[STATS_PAGES]);
set_tuplefield_null(&tuple[STATS_FILTER_CONDITION]);
}
}
result = PGAPI_Fetch(indx_stmt);
}
if (result != SQL_NO_DATA_FOUND)
{
/* "SQLFetch failed in SQLStatistics."; */
SC_full_error_copy(stmt, indx_stmt, FALSE);
goto cleanup;
}
ret = SQL_SUCCESS;
cleanup:
#undef return
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
if (!SQL_SUCCEEDED(ret) && 0 >= SC_get_errornumber(stmt))
{
SC_error_copy(stmt, col_stmt, TRUE);
if (0 >= SC_get_errornumber(stmt))
SC_error_copy(stmt, indx_stmt, TRUE);
}
if (col_stmt)
PGAPI_FreeStmt(col_stmt, SQL_DROP);
if (indx_stmt)
PGAPI_FreeStmt(indx_stmt, SQL_DROP);
/* These things should be freed on any error ALSO! */
if (!PQExpBufferDataBroken(index_query))
termPQExpBuffer(&index_query);
if (table_name)
free(table_name);
if (escTableName)
free(escTableName);
if (escSchemaName)
free(escSchemaName);
if (column_names)
{
for (i = 0; i < total_columns; i++)
free(column_names[i].col_name);
free(column_names);
}
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
MYLOG(0, "leaving stmt=%p, ret=%d\n", stmt, ret);
return ret;
}
RETCODE SQL_API
PGAPI_ColumnPrivileges(HSTMT hstmt,
const SQLCHAR * szTableQualifier, /* OA X*/
SQLSMALLINT cbTableQualifier,
const SQLCHAR * szTableOwner, /* OA E*/
SQLSMALLINT cbTableOwner,
const SQLCHAR * szTableName, /* OA(R) E*/
SQLSMALLINT cbTableName,
const SQLCHAR * szColumnName, /* PV E*/
SQLSMALLINT cbColumnName,
UWORD flag)
{
CSTR func = "PGAPI_ColumnPrivileges";
StatementClass *stmt = (StatementClass *) hstmt;
ConnectionClass *conn = SC_get_conn(stmt);
RETCODE ret = SQL_ERROR;
char *escSchemaName = NULL, *escTableName = NULL, *escColumnName = NULL;
const char *like_or_eq, *op_string, *eq_string;
PQExpBufferData column_query = {0};
BOOL search_pattern;
QResultClass *res = NULL;
MYLOG(0, "entering...\n");
/* Neither Access or Borland care about this. */
if (SC_initialize_and_recycle(stmt) != SQL_SUCCESS)
return SQL_ERROR;
escSchemaName = simpleCatalogEscape(szTableOwner, cbTableOwner, conn);
escTableName = simpleCatalogEscape(szTableName, cbTableName, conn);
search_pattern = (0 == (flag & PODBC_NOT_SEARCH_PATTERN));
if (search_pattern)
{
like_or_eq = likeop;
escColumnName = adjustLikePattern(szColumnName, cbColumnName, conn);
}
else
{
like_or_eq = eqop;
escColumnName = simpleCatalogEscape(szColumnName, cbColumnName, conn);
}
initPQExpBuffer(&column_query);
#define return DONT_CALL_RETURN_FROM_HERE???
appendPQExpBufferStr(&column_query, "select '' as TABLE_CAT, table_schema as TABLE_SCHEM,"
" table_name, column_name, grantor, grantee,"
" privilege_type as PRIVILEGE, is_grantable from"
" information_schema.column_privileges where true");
op_string = gen_opestr(like_or_eq, conn);
eq_string = gen_opestr(eqop, conn);
if (escSchemaName)
appendPQExpBuffer(&column_query, " and table_schem %s'%s'", eq_string, escSchemaName);
if (escTableName)
appendPQExpBuffer(&column_query, " and table_name %s'%s'", eq_string, escTableName);
if (escColumnName)
appendPQExpBuffer(&column_query, " and column_name %s'%s'", op_string, escColumnName);
if (PQExpBufferDataBroken(column_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_ColumnPriviles()", func);
goto cleanup;
}
if (res = CC_send_query(conn, column_query.data, NULL, READ_ONLY_QUERY, stmt), !QR_command_maybe_successful(res))
{
SC_set_error(stmt, STMT_EXEC_ERROR, "PGAPI_ColumnPrivileges query error", func);
goto cleanup;
}
SC_set_Result(stmt, res);
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
extend_column_bindings(SC_get_ARDF(stmt), 8);
/* set up the current tuple pointer for SQLFetch */
ret = SQL_SUCCESS;
cleanup:
#undef return
if (!SQL_SUCCEEDED(ret))
QR_Destructor(res);
/* set up the current tuple pointer for SQLFetch */
stmt->status = STMT_FINISHED;
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
if (!PQExpBufferDataBroken(column_query))
termPQExpBuffer(&column_query);
if (escSchemaName)
free(escSchemaName);
if (escTableName)
free(escTableName);
if (escColumnName)
free(escColumnName);
return ret;
}
/*
* SQLPrimaryKeys()
*
* Retrieve the primary key columns for the specified table.
*/
RETCODE SQL_API
PGAPI_PrimaryKeys(HSTMT hstmt,
const SQLCHAR * szTableQualifier, /* OA X*/
SQLSMALLINT cbTableQualifier,
const SQLCHAR * szTableOwner, /* OA E*/
SQLSMALLINT cbTableOwner,
const SQLCHAR * szTableName, /* OA(R) E*/
SQLSMALLINT cbTableName,
OID reloid)
{
CSTR func = "PGAPI_PrimaryKeys";
StatementClass *stmt = (StatementClass *) hstmt;
QResultClass *res;
ConnectionClass *conn;
TupleField *tuple;
RETCODE ret = SQL_ERROR, result;
int seq = 0;
StatementClass *tbl_stmt = NULL;
PQExpBufferData tables_query = {0};
char attname[MAX_INFO_STRING];
SQLLEN attname_len;
char *pktab = NULL, *pktbname;
char pkscm[SCHEMA_NAME_STORAGE_LEN + 1];
SQLLEN pkscm_len;
char tabname[TABLE_NAME_STORAGE_LEN + 1];
SQLLEN tabname_len;
char pkname[TABLE_NAME_STORAGE_LEN + 1];
Int2 result_cols;
int qno,
qstart,
qend;
SQLSMALLINT internal_asis_type = SQL_C_CHAR, cbSchemaName;
const SQLCHAR *szSchemaName;
const char *eq_string;
char *escSchemaName = NULL, *escTableName = NULL;
MYLOG(0, "entering...stmt=%p scnm=%p len=%d\n", stmt, szTableOwner, cbTableOwner);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
if (res = QR_Constructor(), !res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for PGAPI_PrimaryKeys result.", func);
return SQL_ERROR;
}
SC_set_Result(stmt, res);
/* the binding structure for a statement is not set up until
*
* a statement is actually executed, so we'll have to do this
* ourselves.
*/
result_cols = NUM_OF_PKS_FIELDS;
extend_column_bindings(SC_get_ARDF(stmt), result_cols);
stmt->catalog_result = TRUE;
/* set the field names */
QR_set_num_fields(res, result_cols);
QR_set_field_info_v(res, PKS_TABLE_CAT, "TABLE_QUALIFIER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PKS_TABLE_SCHEM, "TABLE_OWNER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PKS_TABLE_NAME, "TABLE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PKS_COLUMN_NAME, "COLUMN_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PKS_KEY_SQ, "KEY_SEQ", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PKS_PK_NAME, "PK_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
conn = SC_get_conn(stmt);
result = PGAPI_AllocStmt(conn, (HSTMT *) &tbl_stmt, 0);
if (!SQL_SUCCEEDED(result))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate statement for Primary Key result.", func);
goto cleanup;
}
#ifdef UNICODE_SUPPORT
if (CC_is_in_unicode_driver(conn))
internal_asis_type = INTERNAL_ASIS_TYPE;
#endif /* UNICODE_SUPPORT */
#define return DONT_CALL_RETURN_FROM_HERE???
if (0 != reloid)
{
szSchemaName = NULL;
cbSchemaName = SQL_NULL_DATA;
}
else
{
pktab = make_string(szTableName, cbTableName, NULL, 0);
if (!pktab || pktab[0] == '\0')
{
SC_set_error(stmt, STMT_INTERNAL_ERROR, "No Table specified to PGAPI_PrimaryKeys.", func);
goto cleanup;
}
szSchemaName = szTableOwner;
cbSchemaName = cbTableOwner;
escTableName = simpleCatalogEscape(szTableName, cbTableName, conn);
}
eq_string = gen_opestr(eqop, conn);
retry_public_schema:
pkscm[0] = '\0';
if (0 == reloid)
{
if (escSchemaName)
free(escSchemaName);
escSchemaName = simpleCatalogEscape(szSchemaName, cbSchemaName, conn);
schema_str(pkscm, sizeof(pkscm), (SQLCHAR *) escSchemaName, SQL_NTS, TABLE_IS_VALID(szTableName, cbTableName), conn);
}
result = PGAPI_BindCol(tbl_stmt, 1, internal_asis_type,
attname, MAX_INFO_STRING, &attname_len);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 3, internal_asis_type,
pkname, TABLE_NAME_STORAGE_LEN, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 4, internal_asis_type,
pkscm, SCHEMA_NAME_STORAGE_LEN, &pkscm_len);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 5, internal_asis_type,
tabname, TABLE_NAME_STORAGE_LEN, &tabname_len);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
initPQExpBuffer(&tables_query);
qstart = 1;
if (0 == reloid)
qend = 2;
else
qend = 1;
for (qno = qstart; qno <= qend; qno++)
{
resetPQExpBuffer(&tables_query);
switch (qno)
{
case 1:
/*
* Simplified query to remove assumptions about number of
* possible index columns. Courtesy of Tom Lane - thomas
* 2000-03-21
*/
appendPQExpBufferStr(&tables_query,
"select ta.attname, ia.attnum, ic.relname, n.nspname, tc.relname"
" from pg_catalog.pg_attribute ta,"
" pg_catalog.pg_attribute ia, pg_catalog.pg_class tc,"
" pg_catalog.pg_index i, pg_catalog.pg_namespace n"
", pg_catalog.pg_class ic");
if (0 == reloid)
appendPQExpBuffer(&tables_query,
" where tc.relname %s'%s'"
" AND n.nspname %s'%s'"
, eq_string, escTableName, eq_string, pkscm);
else
appendPQExpBuffer(&tables_query, " where tc.oid = %u", reloid);
appendPQExpBufferStr(&tables_query,
" AND tc.oid = i.indrelid"
" AND n.oid = tc.relnamespace"
" AND i.indisprimary = 't'"
" AND ia.attrelid = i.indexrelid"
" AND ta.attrelid = i.indrelid"
" AND ta.attnum = i.indkey[ia.attnum-1]"
" AND (NOT ta.attisdropped)"
" AND (NOT ia.attisdropped)"
" AND ic.oid = i.indexrelid"
" order by ia.attnum");
break;
case 2:
/*
* Simplified query to search old fashoned primary key
*/
appendPQExpBuffer(&tables_query, "select ta.attname, ia.attnum, ic.relname, n.nspname, NULL"
" from pg_catalog.pg_attribute ta,"
" pg_catalog.pg_attribute ia, pg_catalog.pg_class ic,"
" pg_catalog.pg_index i, pg_catalog.pg_namespace n"
" where ic.relname %s'%s_pkey'"
" AND n.nspname %s'%s'"
" AND ic.oid = i.indexrelid"
" AND n.oid = ic.relnamespace"
" AND ia.attrelid = i.indexrelid"
" AND ta.attrelid = i.indrelid"
" AND ta.attnum = i.indkey[ia.attnum-1]"
" AND (NOT ta.attisdropped)"
" AND (NOT ia.attisdropped)"
" order by ia.attnum", eq_string, escTableName, eq_string, pkscm);
break;
}
if (PQExpBufferDataBroken(tables_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_PrimaryKeys()", func);
goto cleanup;
}
MYLOG(0, "tables_query='%s'\n", tables_query.data);
result = PGAPI_ExecDirect(tbl_stmt, (SQLCHAR *) tables_query.data, SQL_NTS, PODBC_RDONLY);
if (!SQL_SUCCEEDED(result))
{
SC_full_error_copy(stmt, tbl_stmt, FALSE);
goto cleanup;
}
result = PGAPI_Fetch(tbl_stmt);
if (result != SQL_NO_DATA_FOUND)
break;
}
/* If not found */
if (SQL_NO_DATA_FOUND == result)
{
if (0 == reloid &&
allow_public_schema(conn, szSchemaName, cbSchemaName))
{
szSchemaName = pubstr;
cbSchemaName = SQL_NTS;
goto retry_public_schema;
}
}
while (SQL_SUCCEEDED(result))
{
tuple = QR_AddNew(res);
set_tuplefield_string(&tuple[PKS_TABLE_CAT], CurrCat(conn));
/*
* I have to hide the table owner from Access, otherwise it
* insists on referring to the table as 'owner.table'. (this is
* valid according to the ODBC SQL grammar, but Postgres won't
* support it.)
*/
if (SQL_NULL_DATA == pkscm_len)
pkscm[0] = '\0';
set_tuplefield_string(&tuple[PKS_TABLE_SCHEM], GET_SCHEMA_NAME(pkscm));
if (SQL_NULL_DATA == tabname_len)
tabname[0] = '\0';
pktbname = pktab ? pktab : tabname;
set_tuplefield_string(&tuple[PKS_TABLE_NAME], pktbname);
set_tuplefield_string(&tuple[PKS_COLUMN_NAME], attname);
set_tuplefield_int2(&tuple[PKS_KEY_SQ], (Int2) (++seq));
set_tuplefield_string(&tuple[PKS_PK_NAME], pkname);
MYLOG(0, ">> primaryKeys: schema ='%s', pktab = '%s', attname = '%s', seq = %d\n", pkscm, pktbname, attname, seq);
result = PGAPI_Fetch(tbl_stmt);
}
if (result != SQL_NO_DATA_FOUND)
{
SC_full_error_copy(stmt, tbl_stmt, FALSE);
goto cleanup;
}
ret = SQL_SUCCESS;
cleanup:
#undef return
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
if (!SQL_SUCCEEDED(ret) && 0 >= SC_get_errornumber(stmt))
SC_error_copy(stmt, tbl_stmt, TRUE);
if (tbl_stmt)
PGAPI_FreeStmt(tbl_stmt, SQL_DROP);
if (!PQExpBufferDataBroken(tables_query))
termPQExpBuffer(&tables_query);
if (pktab)
free(pktab);
if (escSchemaName)
free(escSchemaName);
if (escTableName)
free(escTableName);
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
MYLOG(0, "leaving stmt=%p, ret=%d\n", stmt, ret);
return ret;
}
/*
* Multibyte support stuff for SQLForeignKeys().
* There may be much more effective way in the
* future version. The way is very forcible currently.
*/
static BOOL
isMultibyte(const char *str)
{
for (; *str; str++)
{
if ((unsigned char) *str >= 0x80)
return TRUE;
}
return FALSE;
}
static char *
getClientColumnName(ConnectionClass *conn, UInt4 relid, char *serverColumnName, BOOL *nameAlloced)
{
char query[1024], saveattnum[16],
*ret = serverColumnName;
const char *eq_string;
BOOL continueExec = TRUE,
bError = FALSE;
QResultClass *res = NULL;
UWORD flag = READ_ONLY_QUERY;
*nameAlloced = FALSE;
if (!conn->original_client_encoding || !isMultibyte(serverColumnName))
return ret;
if (!conn->server_encoding)
{
if (res = CC_send_query(conn, "select getdatabaseencoding()", NULL, flag, NULL), QR_command_maybe_successful(res))
{
if (QR_get_num_cached_tuples(res) > 0)
conn->server_encoding = strdup(QR_get_value_backend_text(res, 0, 0));
}
QR_Destructor(res);
res = NULL;
}
if (!conn->server_encoding)
return ret;
SPRINTF_FIXED(query, "SET CLIENT_ENCODING TO '%s'", conn->server_encoding);
bError = (!QR_command_maybe_successful((res = CC_send_query(conn, query, NULL, flag, NULL))));
QR_Destructor(res);
eq_string = gen_opestr(eqop, conn);
if (!bError && continueExec)
{
SPRINTF_FIXED(query, "select attnum from pg_attribute "
"where attrelid = %u and attname %s'%s'",
relid, eq_string, serverColumnName);
if (res = CC_send_query(conn, query, NULL, flag, NULL), QR_command_maybe_successful(res))
{
if (QR_get_num_cached_tuples(res) > 0)
{
STRCPY_FIXED(saveattnum, QR_get_value_backend_text(res, 0, 0));
}
else
continueExec = FALSE;
}
else
bError = TRUE;
QR_Destructor(res);
}
continueExec = (continueExec && !bError);
/* restore the cleint encoding */
SPRINTF_FIXED(query, "SET CLIENT_ENCODING TO '%s'", conn->original_client_encoding);
bError = (!QR_command_maybe_successful((res = CC_send_query(conn, query, NULL, flag, NULL))));
QR_Destructor(res);
if (bError || !continueExec)
return ret;
SPRINTF_FIXED(query, "select attname from pg_attribute where attrelid = %u and attnum = %s", relid, saveattnum);
if (res = CC_send_query(conn, query, NULL, flag, NULL), QR_command_maybe_successful(res))
{
if (QR_get_num_cached_tuples(res) > 0)
{
char *tmp;
tmp = strdup(QR_get_value_backend_text(res, 0, 0));
if (tmp)
{
ret = tmp;
*nameAlloced = TRUE;
}
}
}
QR_Destructor(res);
return ret;
}
static RETCODE SQL_API
PGAPI_ForeignKeys_new(HSTMT hstmt,
const SQLCHAR * szPkTableQualifier, /* OA X*/
SQLSMALLINT cbPkTableQualifier,
const SQLCHAR * szPkTableOwner, /* OA E*/
SQLSMALLINT cbPkTableOwner,
const SQLCHAR * szPkTableName, /* OA(R) E*/
SQLSMALLINT cbPkTableName,
const SQLCHAR * szFkTableQualifier, /* OA X*/
SQLSMALLINT cbFkTableQualifier,
const SQLCHAR * szFkTableOwner, /* OA E*/
SQLSMALLINT cbFkTableOwner,
const SQLCHAR * szFkTableName, /* OA(R) E*/
SQLSMALLINT cbFkTableName);
static RETCODE SQL_API
PGAPI_ForeignKeys_old(HSTMT hstmt,
const SQLCHAR * szPkTableQualifier, /* OA X*/
SQLSMALLINT cbPkTableQualifier,
const SQLCHAR * szPkTableOwner, /* OA E*/
SQLSMALLINT cbPkTableOwner,
const SQLCHAR * szPkTableName, /* OA(R) E*/
SQLSMALLINT cbPkTableName,
const SQLCHAR * szFkTableQualifier, /* OA X*/
SQLSMALLINT cbFkTableQualifier,
const SQLCHAR * szFkTableOwner, /* OA E*/
SQLSMALLINT cbFkTableOwner,
const SQLCHAR * szFkTableName, /* OA(R) E*/
SQLSMALLINT cbFkTableName)
{
CSTR func = "PGAPI_ForeignKeys";
StatementClass *stmt = (StatementClass *) hstmt;
QResultClass *res;
TupleField *tuple;
HSTMT hpkey_stmt = NULL;
StatementClass *tbl_stmt = NULL;
RETCODE ret = SQL_ERROR, result, keyresult;
PQExpBufferData tables_query = {0};
char trig_deferrable[2];
char trig_initdeferred[2];
char trig_args[1024];
char upd_rule[TABLE_NAME_STORAGE_LEN],
del_rule[TABLE_NAME_STORAGE_LEN];
char *pk_table_needed = NULL, *escPkTableName = NULL;
char fk_table_fetched[TABLE_NAME_STORAGE_LEN + 1];
char *fk_table_needed = NULL, *escFkTableName = NULL;
char pk_table_fetched[TABLE_NAME_STORAGE_LEN + 1];
char schema_needed[SCHEMA_NAME_STORAGE_LEN + 1];
char schema_fetched[SCHEMA_NAME_STORAGE_LEN + 1];
char constrname[NAMESTORAGELEN + 1], pkname[TABLE_NAME_STORAGE_LEN + 1];
char *pkey_ptr,
*pkey_text = NULL,
*fkey_ptr,
*fkey_text = NULL;
ConnectionClass *conn;
BOOL pkey_alloced,
fkey_alloced, got_pkname;
int i,
j,
k,
num_keys;
SQLSMALLINT trig_nargs,
upd_rule_type = 0,
del_rule_type = 0;
SQLSMALLINT internal_asis_type = SQL_C_CHAR;
SQLSMALLINT defer_type;
char pkey[MAX_INFO_STRING];
Int2 result_cols;
UInt4 relid1, relid2;
const char *eq_string;
MYLOG(0, "entering...stmt=%p\n", stmt);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
if (res = QR_Constructor(), !res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for PGAPI_ForeignKeys result.", func);
return SQL_ERROR;
}
SC_set_Result(stmt, res);
/* the binding structure for a statement is not set up until */
/*
* a statement is actually executed, so we'll have to do this
* ourselves.
*/
result_cols = NUM_OF_FKS_FIELDS;
extend_column_bindings(SC_get_ARDF(stmt), result_cols);
stmt->catalog_result = TRUE;
/* set the field names */
QR_set_num_fields(res, result_cols);
QR_set_field_info_v(res, FKS_PKTABLE_CAT, "PKTABLE_QUALIFIER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_PKTABLE_SCHEM, "PKTABLE_OWNER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_PKTABLE_NAME, "PKTABLE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_PKCOLUMN_NAME, "PKCOLUMN_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_FKTABLE_CAT, "FKTABLE_QUALIFIER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_FKTABLE_SCHEM, "FKTABLE_OWNER", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_FKTABLE_NAME, "FKTABLE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_FKCOLUMN_NAME, "FKCOLUMN_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_KEY_SEQ, "KEY_SEQ", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, FKS_UPDATE_RULE, "UPDATE_RULE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, FKS_DELETE_RULE, "DELETE_RULE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, FKS_FK_NAME, "FK_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_PK_NAME, "PK_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, FKS_DEFERRABILITY, "DEFERRABILITY", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, FKS_TRIGGER_NAME, "TRIGGER_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
conn = SC_get_conn(stmt);
result = PGAPI_AllocStmt(conn, (HSTMT *) &tbl_stmt, 0);
if (!SQL_SUCCEEDED(result))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate statement for PGAPI_ForeignKeys result.", func);
return SQL_ERROR;
}
#define return DONT_CALL_RETURN_FROM_HERE???
schema_needed[0] = '\0';
schema_fetched[0] = '\0';
pk_table_needed = make_string(szPkTableName, cbPkTableName, NULL, 0);
fk_table_needed = make_string(szFkTableName, cbFkTableName, NULL, 0);
#ifdef UNICODE_SUPPORT
if (CC_is_in_unicode_driver(conn))
internal_asis_type = INTERNAL_ASIS_TYPE;
#endif /* UNICODE_SUPPORT */
pkey_alloced = fkey_alloced = FALSE;
eq_string = gen_opestr(eqop, conn);
initPQExpBuffer(&tables_query);
/*
* Case #2 -- Get the foreign keys in the specified table (fktab) that
* refer to the primary keys of other table(s).
*/
if (fk_table_needed && fk_table_needed[0] != '\0')
{
char *escSchemaName;
MYLOG(0, " Foreign Key Case #2\n");
escFkTableName = simpleCatalogEscape((SQLCHAR *) fk_table_needed, SQL_NTS, conn);
schema_str(schema_needed, sizeof(schema_needed), szFkTableOwner, cbFkTableOwner, TABLE_IS_VALID(szFkTableName, cbFkTableName), conn);
escSchemaName = simpleCatalogEscape((SQLCHAR *) schema_needed, SQL_NTS, conn);
printfPQExpBuffer(&tables_query, "SELECT pt.tgargs, "
" pt.tgnargs, "
" pt.tgdeferrable, "
" pt.tginitdeferred, "
" pp1.proname, "
" pp2.proname, "
" pc.oid, "
" pc1.oid, "
" pc1.relname, "
" pt.tgconstrname, pn.nspname "
"FROM pg_catalog.pg_class pc, "
" pg_catalog.pg_proc pp1, "
" pg_catalog.pg_proc pp2, "
" pg_catalog.pg_trigger pt1, "
" pg_catalog.pg_trigger pt2, "
" pg_catalog.pg_proc pp, "
" pg_catalog.pg_trigger pt, "
" pg_catalog.pg_class pc1, "
" pg_catalog.pg_namespace pn, "
" pg_catalog.pg_namespace pn1 "
"WHERE pt.tgrelid = pc.oid "
"AND pp.oid = pt.tgfoid "
"AND pt1.tgconstrrelid = pc.oid "
"AND pp1.oid = pt1.tgfoid "
"AND pt2.tgfoid = pp2.oid "
"AND pt2.tgconstrrelid = pc.oid "
"AND ((pc.relname %s'%s') "
"AND (pn1.oid = pc.relnamespace) "
"AND (pn1.nspname %s'%s') "
"AND (pp.proname LIKE '%%ins') "
"AND (pp1.proname LIKE '%%upd') "
"AND (pp1.proname not LIKE '%%check%%') "
"AND (pp2.proname LIKE '%%del') "
"AND (pt1.tgrelid=pt.tgconstrrelid) "
"AND (pt1.tgconstrname=pt.tgconstrname) "
"AND (pt2.tgrelid=pt.tgconstrrelid) "
"AND (pt2.tgconstrname=pt.tgconstrname) "
"AND (pt.tgconstrrelid=pc1.oid) "
"AND (pc1.relnamespace=pn.oid))"
" order by pt.tgconstrname",
eq_string, escFkTableName, eq_string, escSchemaName);
free(escSchemaName);
if (PQExpBufferDataBroken(tables_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_ForeignKeys()", func);
goto cleanup;
}
result = PGAPI_ExecDirect(tbl_stmt, (SQLCHAR *) tables_query.data, SQL_NTS, PODBC_RDONLY);
if (!SQL_SUCCEEDED(result))
{
SC_full_error_copy(stmt, tbl_stmt, FALSE);
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 1, SQL_C_BINARY,
trig_args, sizeof(trig_args), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 2, SQL_C_SHORT,
&trig_nargs, 0, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 3, internal_asis_type,
trig_deferrable, sizeof(trig_deferrable), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 4, internal_asis_type,
trig_initdeferred, sizeof(trig_initdeferred), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 5, internal_asis_type,
upd_rule, sizeof(upd_rule), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 6, internal_asis_type,
del_rule, sizeof(del_rule), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 7, SQL_C_ULONG,
&relid1, sizeof(relid1), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 8, SQL_C_ULONG,
&relid2, sizeof(relid2), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 9, internal_asis_type,
pk_table_fetched, TABLE_NAME_STORAGE_LEN, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 10, internal_asis_type,
constrname, NAMESTORAGELEN, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 11, internal_asis_type,
schema_fetched, SCHEMA_NAME_STORAGE_LEN, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_Fetch(tbl_stmt);
if (result == SQL_NO_DATA_FOUND)
{
ret = SQL_SUCCESS;
goto cleanup;
}
if (result != SQL_SUCCESS)
{
SC_full_error_copy(stmt, tbl_stmt, FALSE);
goto cleanup;
}
keyresult = PGAPI_AllocStmt(conn, &hpkey_stmt, 0);
if (!SQL_SUCCEEDED(keyresult))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate statement for PGAPI_ForeignKeys (pkeys) result.", func);
goto cleanup;
}
keyresult = PGAPI_BindCol(hpkey_stmt, 4, internal_asis_type,
pkey, sizeof(pkey), NULL);
if (keyresult != SQL_SUCCESS)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't bindcol for primary keys for PGAPI_ForeignKeys result.", func);
goto cleanup;
}
while (result == SQL_SUCCESS)
{
/* Compute the number of keyparts. */
num_keys = (trig_nargs - 4) / 2;
MYLOG(0, "Foreign Key Case#2: trig_nargs = %d, num_keys = %d\n", trig_nargs, num_keys);
/* If there is a pk table specified, then check it. */
if (pk_table_needed && pk_table_needed[0] != '\0')
{
/* If it doesn't match, then continue */
if (strcmp(pk_table_fetched, pk_table_needed))
{
result = PGAPI_Fetch(tbl_stmt);
continue;
}
}
got_pkname = FALSE;
keyresult = PGAPI_PrimaryKeys(hpkey_stmt, NULL, 0,
(SQLCHAR *) schema_fetched, SQL_NTS,
(SQLCHAR *) pk_table_fetched, SQL_NTS,
0);
if (keyresult != SQL_SUCCESS)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't get primary keys for PGAPI_ForeignKeys result.", func);
goto cleanup;
}
/* Get to first primary key */
pkey_ptr = trig_args;
for (i = 0; i < 5; i++)
pkey_ptr += strlen(pkey_ptr) + 1;
for (k = 0; k < num_keys; k++)
{
/* Check that the key listed is the primary key */
keyresult = PGAPI_Fetch(hpkey_stmt);
if (keyresult != SQL_SUCCESS)
{
num_keys = 0;
break;
}
if (!got_pkname)
{
PGAPI_GetData(hpkey_stmt, 6, internal_asis_type, pkname, sizeof(pkname), NULL);
got_pkname = TRUE;
}
pkey_text = getClientColumnName(conn, relid2, pkey_ptr, &pkey_alloced);
MYLOG(0, "pkey_ptr='%s', pkey='%s'\n", pkey_text != NULL ? pkey_text : "<NULL>", pkey);
if (pkey_text)
{
if (strcmp(pkey_text, pkey))
{
num_keys = 0;
break;
}
if (pkey_alloced)
free(pkey_text);
pkey_alloced = FALSE;
}
/* Get to next primary key */
for (k = 0; k < 2; k++)
pkey_ptr += strlen(pkey_ptr) + 1;
}
PGAPI_FreeStmt(hpkey_stmt, SQL_CLOSE);
/* Set to first fk column */
fkey_ptr = trig_args;
for (k = 0; k < 4; k++)
fkey_ptr += strlen(fkey_ptr) + 1;
/* Set update and delete actions for foreign keys */
if (!strcmp(upd_rule, "RI_FKey_cascade_upd"))
upd_rule_type = SQL_CASCADE;
else if (!strcmp(upd_rule, "RI_FKey_noaction_upd"))
upd_rule_type = SQL_NO_ACTION;
else if (!strcmp(upd_rule, "RI_FKey_restrict_upd"))
upd_rule_type = SQL_NO_ACTION;
else if (!strcmp(upd_rule, "RI_FKey_setdefault_upd"))
upd_rule_type = SQL_SET_DEFAULT;
else if (!strcmp(upd_rule, "RI_FKey_setnull_upd"))
upd_rule_type = SQL_SET_NULL;
if (!strcmp(del_rule, "RI_FKey_cascade_del"))
del_rule_type = SQL_CASCADE;
else if (!strcmp(del_rule, "RI_FKey_noaction_del"))
del_rule_type = SQL_NO_ACTION;
else if (!strcmp(del_rule, "RI_FKey_restrict_del"))
del_rule_type = SQL_NO_ACTION;
else if (!strcmp(del_rule, "RI_FKey_setdefault_del"))
del_rule_type = SQL_SET_DEFAULT;
else if (!strcmp(del_rule, "RI_FKey_setnull_del"))
del_rule_type = SQL_SET_NULL;
/* Set deferrability type */
if (!strcmp(trig_initdeferred, "y"))
defer_type = SQL_INITIALLY_DEFERRED;
else if (!strcmp(trig_deferrable, "y"))
defer_type = SQL_INITIALLY_IMMEDIATE;
else
defer_type = SQL_NOT_DEFERRABLE;
/* Get to first primary key */
pkey_ptr = trig_args;
for (i = 0; i < 5; i++)
pkey_ptr += strlen(pkey_ptr) + 1;
for (k = 0; k < num_keys; k++)
{
tuple = QR_AddNew(res);
pkey_text = getClientColumnName(conn, relid2, pkey_ptr, &pkey_alloced);
fkey_text = getClientColumnName(conn, relid1, fkey_ptr, &fkey_alloced);
MYLOG(0, "pk_table = '%s', pkey_ptr = '%s'\n", pk_table_fetched, pkey_text);
set_tuplefield_string(&tuple[FKS_PKTABLE_CAT], CurrCat(conn));
set_tuplefield_string(&tuple[FKS_PKTABLE_SCHEM], GET_SCHEMA_NAME(schema_fetched));
set_tuplefield_string(&tuple[FKS_PKTABLE_NAME], pk_table_fetched);
set_tuplefield_string(&tuple[FKS_PKCOLUMN_NAME], pkey_text);
MYLOG(0, "fk_table_needed = '%s', fkey_ptr = '%s'\n", fk_table_needed, fkey_text);
set_tuplefield_string(&tuple[FKS_FKTABLE_CAT], CurrCat(conn));
set_tuplefield_string(&tuple[FKS_FKTABLE_SCHEM], GET_SCHEMA_NAME(schema_needed));
set_tuplefield_string(&tuple[FKS_FKTABLE_NAME], fk_table_needed);
set_tuplefield_string(&tuple[FKS_FKCOLUMN_NAME], fkey_text);
MYLOG(0, "upd_rule_type = '%i', del_rule_type = '%i'\n, trig_name = '%s'", upd_rule_type, del_rule_type, trig_args);
set_tuplefield_int2(&tuple[FKS_KEY_SEQ], (Int2) (k + 1));
set_tuplefield_int2(&tuple[FKS_UPDATE_RULE], upd_rule_type);
set_tuplefield_int2(&tuple[FKS_DELETE_RULE], del_rule_type);
set_tuplefield_string(&tuple[FKS_FK_NAME], constrname);
set_tuplefield_string(&tuple[FKS_PK_NAME], pkname);
set_tuplefield_int2(&tuple[FKS_DEFERRABILITY], defer_type);
set_tuplefield_string(&tuple[FKS_TRIGGER_NAME], trig_args);
if (fkey_alloced)
free(fkey_text);
fkey_alloced = FALSE;
if (pkey_alloced)
free(pkey_text);
pkey_alloced = FALSE;
/* next primary/foreign key */
for (i = 0; i < 2; i++)
{
fkey_ptr += strlen(fkey_ptr) + 1;
pkey_ptr += strlen(pkey_ptr) + 1;
}
}
result = PGAPI_Fetch(tbl_stmt);
}
}
/*
* Case #1 -- Get the foreign keys in other tables that refer to the
* primary key in the specified table (pktab). i.e., Who points to
* me?
*/
else if (pk_table_needed && pk_table_needed[0] != '\0')
{
char *escSchemaName;
escPkTableName = simpleCatalogEscape((SQLCHAR *) pk_table_needed, SQL_NTS, conn);
schema_str(schema_needed, sizeof(schema_needed), szPkTableOwner, cbPkTableOwner, TABLE_IS_VALID(szPkTableName, cbPkTableName), conn);
escSchemaName = simpleCatalogEscape((SQLCHAR *) schema_needed, SQL_NTS, conn);
printfPQExpBuffer(&tables_query, "SELECT pt.tgargs, "
" pt.tgnargs, "
" pt.tgdeferrable, "
" pt.tginitdeferred, "
" pp1.proname, "
" pp2.proname, "
" pc.oid, "
" pc1.oid, "
" pc1.relname, "
" pt.tgconstrname, pn1.nspname "
"FROM pg_catalog.pg_class pc, "
" pg_catalog.pg_class pc1, "
" pg_catalog.pg_proc pp, "
" pg_catalog.pg_proc pp1, "
" pg_catalog.pg_proc pp2, "
" pg_catalog.pg_trigger pt, "
" pg_catalog.pg_trigger pt1, "
" pg_catalog.pg_trigger pt2, "
" pg_catalog.pg_namespace pn, "
" pg_catalog.pg_namespace pn1 "
"WHERE pc.relname %s'%s' "
" AND pn.nspname %s'%s' "
" AND pc.relnamespace = pn.oid "
" AND pt.tgconstrrelid = pc.oid "
" AND pp.oid = pt.tgfoid "
" AND pp.proname Like '%%ins' "
" AND pt1.tgconstrname = pt.tgconstrname "
" AND pt1.tgconstrrelid = pt.tgrelid "
" AND pt1.tgrelid = pc.oid "
" AND pc1.oid = pt.tgrelid "
" AND pp1.oid = pt1.tgfoid "
" AND pp1.proname like '%%upd' "
" AND (pp1.proname not like '%%check%%') "
" AND pt2.tgconstrname = pt.tgconstrname "
" AND pt2.tgconstrrelid = pt.tgrelid "
" AND pt2.tgrelid = pc.oid "
" AND pp2.oid = pt2.tgfoid "
" AND pp2.proname Like '%%del' "
" AND pn1.oid = pc1.relnamespace "
" order by pt.tgconstrname",
eq_string, escPkTableName, eq_string, escSchemaName);
free(escSchemaName);
if (PQExpBufferDataBroken(tables_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_ForeignKeys()", func);
goto cleanup;
}
result = PGAPI_ExecDirect(tbl_stmt, (SQLCHAR *) tables_query.data, SQL_NTS, PODBC_RDONLY);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 1, SQL_C_BINARY,
trig_args, sizeof(trig_args), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 2, SQL_C_SHORT,
&trig_nargs, 0, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 3, internal_asis_type,
trig_deferrable, sizeof(trig_deferrable), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 4, internal_asis_type,
trig_initdeferred, sizeof(trig_initdeferred), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 5, internal_asis_type,
upd_rule, sizeof(upd_rule), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 6, internal_asis_type,
del_rule, sizeof(del_rule), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 7, SQL_C_ULONG,
&relid1, sizeof(relid1), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 8, SQL_C_ULONG,
&relid2, sizeof(relid2), NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 9, internal_asis_type,
fk_table_fetched, TABLE_NAME_STORAGE_LEN, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 10, internal_asis_type,
constrname, NAMESTORAGELEN, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_BindCol(tbl_stmt, 11, internal_asis_type,
schema_fetched, SCHEMA_NAME_STORAGE_LEN, NULL);
if (!SQL_SUCCEEDED(result))
{
goto cleanup;
}
result = PGAPI_Fetch(tbl_stmt);
if (result == SQL_NO_DATA_FOUND)
{
ret = SQL_SUCCESS;
goto cleanup;
}
if (result != SQL_SUCCESS)
{
SC_full_error_copy(stmt, tbl_stmt, FALSE);
goto cleanup;
}
/*
* get pk_name here
*/
keyresult = PGAPI_AllocStmt(conn, &hpkey_stmt, 0);
if (!SQL_SUCCEEDED(keyresult))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate statement for PGAPI_ForeignKeys (pkeys) result.", func);
goto cleanup;
}
keyresult = PGAPI_BindCol(hpkey_stmt, 6, internal_asis_type,
pkname, sizeof(pkname), NULL);
if (keyresult != SQL_SUCCESS)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't bindcol for primary keys for PGAPI_ForeignKeys result.", func);
goto cleanup;
}
keyresult = PGAPI_PrimaryKeys(hpkey_stmt, NULL, 0,
(SQLCHAR *) schema_needed, SQL_NTS,
(SQLCHAR *) pk_table_needed, SQL_NTS, 0);
if (keyresult != SQL_SUCCESS)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't get primary keys for PGAPI_ForeignKeys result.", func);
goto cleanup;
}
pkname[0] = '\0';
keyresult = PGAPI_Fetch(hpkey_stmt);
PGAPI_FreeStmt(hpkey_stmt, SQL_CLOSE);
while (result == SQL_SUCCESS)
{
/* Calculate the number of key parts */
num_keys = (trig_nargs - 4) / 2;;
/* Handle action (i.e., 'cascade', 'restrict', 'setnull') */
if (!strcmp(upd_rule, "RI_FKey_cascade_upd"))
upd_rule_type = SQL_CASCADE;
else if (!strcmp(upd_rule, "RI_FKey_noaction_upd"))
upd_rule_type = SQL_NO_ACTION;
else if (!strcmp(upd_rule, "RI_FKey_restrict_upd"))
upd_rule_type = SQL_NO_ACTION;
else if (!strcmp(upd_rule, "RI_FKey_setdefault_upd"))
upd_rule_type = SQL_SET_DEFAULT;
else if (!strcmp(upd_rule, "RI_FKey_setnull_upd"))
upd_rule_type = SQL_SET_NULL;
if (!strcmp(del_rule, "RI_FKey_cascade_del"))
del_rule_type = SQL_CASCADE;
else if (!strcmp(del_rule, "RI_FKey_noaction_del"))
del_rule_type = SQL_NO_ACTION;
else if (!strcmp(del_rule, "RI_FKey_restrict_del"))
del_rule_type = SQL_NO_ACTION;
else if (!strcmp(del_rule, "RI_FKey_setdefault_del"))
del_rule_type = SQL_SET_DEFAULT;
else if (!strcmp(del_rule, "RI_FKey_setnull_del"))
del_rule_type = SQL_SET_NULL;
/* Set deferrability type */
if (!strcmp(trig_initdeferred, "y"))
defer_type = SQL_INITIALLY_DEFERRED;
else if (!strcmp(trig_deferrable, "y"))
defer_type = SQL_INITIALLY_IMMEDIATE;
else
defer_type = SQL_NOT_DEFERRABLE;
MYLOG(0, "Foreign Key Case#1: trig_nargs = %d, num_keys = %d\n", trig_nargs, num_keys);
/* Get to first primary key */
pkey_ptr = trig_args;
for (i = 0; i < 5; i++)
pkey_ptr += strlen(pkey_ptr) + 1;
/* Get to first foreign key */
fkey_ptr = trig_args;
for (k = 0; k < 4; k++)
fkey_ptr += strlen(fkey_ptr) + 1;
for (k = 0; k < num_keys; k++)
{
pkey_text = getClientColumnName(conn, relid1, pkey_ptr, &pkey_alloced);
fkey_text = getClientColumnName(conn, relid2, fkey_ptr, &fkey_alloced);
MYLOG(0, "pkey_ptr = '%s', fk_table = '%s', fkey_ptr = '%s'\n", pkey_text, fk_table_fetched, fkey_text);
tuple = QR_AddNew(res);
MYLOG(0, "pk_table_needed = '%s', pkey_ptr = '%s'\n", pk_table_needed, pkey_text);
set_tuplefield_string(&tuple[FKS_PKTABLE_CAT], CurrCat(conn));
set_tuplefield_string(&tuple[FKS_PKTABLE_SCHEM], GET_SCHEMA_NAME(schema_needed));
set_tuplefield_string(&tuple[FKS_PKTABLE_NAME], pk_table_needed);
set_tuplefield_string(&tuple[FKS_PKCOLUMN_NAME], pkey_text);
MYLOG(0, "fk_table = '%s', fkey_ptr = '%s'\n", fk_table_fetched, fkey_text);
set_tuplefield_string(&tuple[FKS_FKTABLE_CAT], CurrCat(conn));
set_tuplefield_string(&tuple[FKS_FKTABLE_SCHEM], GET_SCHEMA_NAME(schema_fetched));
set_tuplefield_string(&tuple[FKS_FKTABLE_NAME], fk_table_fetched);
set_tuplefield_string(&tuple[FKS_FKCOLUMN_NAME], fkey_text);
set_tuplefield_int2(&tuple[FKS_KEY_SEQ], (Int2) (k + 1));
MYLOG(0, "upd_rule = %d, del_rule= %d", upd_rule_type, del_rule_type);
set_nullfield_int2(&tuple[FKS_UPDATE_RULE], upd_rule_type);
set_nullfield_int2(&tuple[FKS_DELETE_RULE], del_rule_type);
set_tuplefield_string(&tuple[FKS_FK_NAME], constrname);
set_tuplefield_string(&tuple[FKS_PK_NAME], pkname);
set_tuplefield_string(&tuple[FKS_TRIGGER_NAME], trig_args);
MYPRINTF(0, " defer_type = %d\n", defer_type);
set_tuplefield_int2(&tuple[FKS_DEFERRABILITY], defer_type);
if (pkey_alloced)
free(pkey_text);
pkey_alloced = FALSE;
if (fkey_alloced)
free(fkey_text);
fkey_alloced = FALSE;
/* next primary/foreign key */
for (j = 0; j < 2; j++)
{
pkey_ptr += strlen(pkey_ptr) + 1;
fkey_ptr += strlen(fkey_ptr) + 1;
}
}
result = PGAPI_Fetch(tbl_stmt);
}
}
else
{
SC_set_error(stmt, STMT_INTERNAL_ERROR, "No tables specified to PGAPI_ForeignKeys.", func);
goto cleanup;
}
ret = SQL_SUCCESS;
cleanup:
#undef return
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
if (!SQL_SUCCEEDED(ret) && 0 >= SC_get_errornumber(stmt))
SC_error_copy(stmt, tbl_stmt, TRUE);
if (!PQExpBufferDataBroken(tables_query))
termPQExpBuffer(&tables_query);
if (pkey_alloced)
free(pkey_text);
if (fkey_alloced)
free(fkey_text);
if (pk_table_needed)
free(pk_table_needed);
if (escPkTableName)
free(escPkTableName);
if (fk_table_needed)
free(fk_table_needed);
if (escFkTableName)
free(escFkTableName);
if (tbl_stmt)
PGAPI_FreeStmt(tbl_stmt, SQL_DROP);
if (hpkey_stmt)
PGAPI_FreeStmt(hpkey_stmt, SQL_DROP);
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
MYLOG(0, "leaving stmt=%p, ret=%d\n", stmt, ret);
return ret;
}
RETCODE SQL_API
PGAPI_ForeignKeys(HSTMT hstmt,
const SQLCHAR * szPkTableQualifier, /* OA X*/
SQLSMALLINT cbPkTableQualifier,
const SQLCHAR * szPkTableOwner, /* OA E*/
SQLSMALLINT cbPkTableOwner,
const SQLCHAR * szPkTableName, /* OA(R) E*/
SQLSMALLINT cbPkTableName,
const SQLCHAR * szFkTableQualifier, /* OA X*/
SQLSMALLINT cbFkTableQualifier,
const SQLCHAR * szFkTableOwner, /* OA E*/
SQLSMALLINT cbFkTableOwner,
const SQLCHAR * szFkTableName, /* OA(R) E*/
SQLSMALLINT cbFkTableName)
{
ConnectionClass *conn = SC_get_conn(((StatementClass *) hstmt));
if (PG_VERSION_GE(conn, 8.1))
return PGAPI_ForeignKeys_new(hstmt,
szPkTableQualifier, cbPkTableQualifier,
szPkTableOwner, cbPkTableOwner,
szPkTableName, cbPkTableName,
szFkTableQualifier, cbFkTableQualifier,
szFkTableOwner, cbFkTableOwner,
szFkTableName, cbFkTableName);
else
return PGAPI_ForeignKeys_old(hstmt,
szPkTableQualifier, cbPkTableQualifier,
szPkTableOwner, cbPkTableOwner,
szPkTableName, cbPkTableName,
szFkTableQualifier, cbFkTableQualifier,
szFkTableOwner, cbFkTableOwner,
szFkTableName, cbFkTableName);
}
#define PRORET_COUNT
#define DISPLAY_ARGNAME
static BOOL
has_outparam(const char *proargmodes)
{
const char *ptr;
if (!proargmodes)
return FALSE;
for (ptr = proargmodes; *ptr; ptr++)
{
switch (*ptr)
{
case 'o':
case 'b':
case 't':
return TRUE;
}
}
return FALSE;
}
RETCODE SQL_API
PGAPI_ProcedureColumns(HSTMT hstmt,
const SQLCHAR * szProcQualifier, /* OA X*/
SQLSMALLINT cbProcQualifier,
const SQLCHAR * szProcOwner, /* PV E*/
SQLSMALLINT cbProcOwner,
const SQLCHAR * szProcName, /* PV E*/
SQLSMALLINT cbProcName,
const SQLCHAR * szColumnName, /* PV X*/
SQLSMALLINT cbColumnName,
UWORD flag)
{
CSTR func = "PGAPI_ProcedureColumns";
StatementClass *stmt = (StatementClass *) hstmt;
ConnectionClass *conn = SC_get_conn(stmt);
PQExpBufferData proc_query = {0};
Int2 result_cols;
TupleField *tuple;
char *schema_name, *procname;
char *escSchemaName = NULL, *escProcName = NULL;
char *params, *proargnames;
char *proargmodes;
char *delim = NULL;
char *atttypid, *attname, *column_name;
QResultClass *res, *tres = NULL;
SQLLEN tcount;
OID pgtype;
Int4 paramcount, column_size, i, j;
RETCODE ret = SQL_ERROR, result;
BOOL search_pattern, bRetset, outpara_exist;
const char *like_or_eq, *op_string, *retset;
int ret_col = -1, ext_pos = -1, poid_pos = -1, attid_pos = -1, attname_pos = -1;
UInt4 poid = 0, newpoid;
MYLOG(0, "entering...\n");
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
search_pattern = (0 == (flag & PODBC_NOT_SEARCH_PATTERN));
if (search_pattern)
{
like_or_eq = likeop;
escSchemaName = adjustLikePattern(szProcOwner, cbProcOwner, conn);
escProcName = adjustLikePattern(szProcName, cbProcName, conn);
}
else
{
like_or_eq = eqop;
escSchemaName = simpleCatalogEscape(szProcOwner, cbProcOwner, conn);
escProcName = simpleCatalogEscape(szProcName, cbProcName, conn);
}
op_string = gen_opestr(like_or_eq, conn);
initPQExpBuffer(&proc_query);
#define return DONT_CALL_RETURN_FROM_HERE???
appendPQExpBufferStr(&proc_query, "select proname, proretset, prorettype, "
"pronargs, proargtypes, nspname, p.oid");
ret_col = ext_pos = 7;
poid_pos = 6;
#ifdef PRORET_COUNT
appendPQExpBufferStr(&proc_query, ", atttypid, attname");
attid_pos = ext_pos;
attname_pos = ext_pos + 1;
ret_col += 2;
ext_pos = ret_col;
#endif /* PRORET_COUNT */
if (PG_VERSION_GE(conn, 8.0))
{
appendPQExpBufferStr(&proc_query, ", proargnames");
ret_col++;
}
if (PG_VERSION_GE(conn, 8.1))
{
appendPQExpBufferStr(&proc_query, ", proargmodes, proallargtypes");
ret_col += 2;
}
#ifdef PRORET_COUNT
appendPQExpBufferStr(&proc_query, " from ((pg_catalog.pg_namespace n inner join"
" pg_catalog.pg_proc p on p.pronamespace = n.oid)"
" inner join pg_type t on t.oid = p.prorettype)"
" left outer join pg_attribute a on a.attrelid = t.typrelid "
" and attnum > 0 and not attisdropped where");
#else
appendPQExpBufferStr(&proc_query, " from pg_catalog.pg_namespace n,"
" pg_catalog.pg_proc p where");
" p.pronamespace = n.oid and"
" (not proretset) and");
#endif /* PRORET_COUNT */
appendPQExpBuffer(&proc_query,
" has_function_privilege(p.oid, 'EXECUTE')");
if (IS_VALID_NAME(escSchemaName))
appendPQExpBuffer(&proc_query,
" and nspname %s'%s'",
op_string, escSchemaName);
if (escProcName)
appendPQExpBuffer(&proc_query,
" and proname %s'%s'", op_string, escProcName);
appendPQExpBuffer(&proc_query,
" order by nspname, proname, p.oid, attnum");
if (escSchemaName)
free(escSchemaName);
if (escProcName)
free(escProcName);
if (PQExpBufferDataBroken(proc_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_ProcedureColumns()", func);
goto cleanup;
}
tres = CC_send_query(conn, proc_query.data, NULL, READ_ONLY_QUERY, stmt);
if (!QR_command_maybe_successful(tres))
{
SC_set_error(stmt, STMT_EXEC_ERROR, "PGAPI_ProcedureColumns query error", func);
QR_Destructor(tres);
goto cleanup;
}
if (res = QR_Constructor(), !res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for PGAPI_ProcedureColumns result.", func);
goto cleanup;
}
SC_set_Result(stmt, res);
/*
* the binding structure for a statement is not set up until
* a statement is actually executed, so we'll have to do this
* ourselves.
*/
result_cols = NUM_OF_PROCOLS_FIELDS;
extend_column_bindings(SC_get_ARDF(stmt), result_cols);
stmt->catalog_result = TRUE;
/* set the field names */
QR_set_num_fields(res, result_cols);
QR_set_field_info_v(res, PROCOLS_PROCEDURE_CAT, "PROCEDURE_CAT", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PROCOLS_PROCEDURE_SCHEM, "PROCEDUR_SCHEM", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PROCOLS_PROCEDURE_NAME, "PROCEDURE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PROCOLS_COLUMN_NAME, "COLUMN_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PROCOLS_COLUMN_TYPE, "COLUMN_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PROCOLS_DATA_TYPE, "DATA_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PROCOLS_TYPE_NAME, "TYPE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PROCOLS_COLUMN_SIZE, "COLUMN_SIZE", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, PROCOLS_BUFFER_LENGTH, "BUFFER_LENGTH", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, PROCOLS_DECIMAL_DIGITS, "DECIMAL_DIGITS", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PROCOLS_NUM_PREC_RADIX, "NUM_PREC_RADIX", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PROCOLS_NULLABLE, "NULLABLE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PROCOLS_REMARKS, "REMARKS", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PROCOLS_COLUMN_DEF, "COLUMN_DEF", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, PROCOLS_SQL_DATA_TYPE, "SQL_DATA_TYPE", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PROCOLS_SQL_DATETIME_SUB, "SQL_DATETIME_SUB", PG_TYPE_INT2, 2);
QR_set_field_info_v(res, PROCOLS_CHAR_OCTET_LENGTH, "CHAR_OCTET_LENGTH", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, PROCOLS_ORDINAL_POSITION, "ORDINAL_POSITION", PG_TYPE_INT4, 4);
QR_set_field_info_v(res, PROCOLS_IS_NULLABLE, "IS_NULLABLE", PG_TYPE_VARCHAR, MAX_INFO_STRING);
column_name = make_string(szColumnName, cbColumnName, NULL, 0);
if (column_name) /* column_name is unavailable now */
{
tcount = 0;
free(column_name);
}
else
tcount = QR_get_num_total_tuples(tres);
for (i = 0, poid = 0; i < tcount; i++)
{
schema_name = GET_SCHEMA_NAME(QR_get_value_backend_text(tres, i, 5));
procname = QR_get_value_backend_text(tres, i, 0);
retset = QR_get_value_backend_text(tres, i, 1);
pgtype = QR_get_value_backend_int(tres, i, 2, NULL);
bRetset = retset && (retset[0] == 't' || retset[0] == 'y');
outpara_exist = FALSE;
newpoid = 0;
if (poid_pos >= 0)
newpoid = QR_get_value_backend_int(tres, i, poid_pos, NULL);
MYLOG(0, "newpoid=%d\n", newpoid);
atttypid = NULL;
if (attid_pos >= 0)
{
atttypid = QR_get_value_backend_text(tres, i, attid_pos);
MYLOG(0, "atttypid=%s\n", atttypid ? atttypid : "(null)");
}
if (poid == 0 || newpoid != poid)
{
poid = newpoid;
proargmodes = NULL;
proargnames = NULL;
if (ext_pos >=0)
{
#ifdef DISPLAY_ARGNAME /* !! named parameter is unavailable !! */
if (PG_VERSION_GE(conn, 8.0))
proargnames = QR_get_value_backend_text(tres, i, ext_pos);
#endif /* DISPLAY_ARGNAME */
if (PG_VERSION_GE(conn, 8.1))
proargmodes = QR_get_value_backend_text(tres, i, ext_pos + 1);
}
outpara_exist = has_outparam(proargmodes);
/* RETURN_VALUE info */
if (0 != pgtype && PG_TYPE_VOID != pgtype && !bRetset && !atttypid && !outpara_exist)
{
tuple = QR_AddNew(res);
set_tuplefield_string(&tuple[PROCOLS_PROCEDURE_CAT], CurrCat(conn));
set_nullfield_string(&tuple[PROCOLS_PROCEDURE_SCHEM], schema_name);
set_tuplefield_string(&tuple[PROCOLS_PROCEDURE_NAME], procname);
set_tuplefield_string(&tuple[PROCOLS_COLUMN_NAME], NULL_STRING);
set_tuplefield_int2(&tuple[PROCOLS_COLUMN_TYPE], SQL_RETURN_VALUE);
set_tuplefield_int2(&tuple[PROCOLS_DATA_TYPE], PGTYPE_TO_CONCISE_TYPE(conn, pgtype));
set_tuplefield_string(&tuple[PROCOLS_TYPE_NAME], PGTYPE_TO_NAME(conn, pgtype, FALSE));
column_size = PGTYPE_COLUMN_SIZE(conn, pgtype);
set_nullfield_int4(&tuple[PROCOLS_COLUMN_SIZE], column_size);
set_tuplefield_int4(&tuple[PROCOLS_BUFFER_LENGTH], PGTYPE_BUFFER_LENGTH(conn, pgtype));
set_nullfield_int2(&tuple[PROCOLS_DECIMAL_DIGITS], PGTYPE_DECIMAL_DIGITS(conn, pgtype));
set_nullfield_int2(&tuple[PROCOLS_NUM_PREC_RADIX], pgtype_radix(conn, pgtype));
set_tuplefield_int2(&tuple[PROCOLS_NULLABLE], SQL_NULLABLE_UNKNOWN);
set_tuplefield_null(&tuple[PROCOLS_REMARKS]);
set_tuplefield_null(&tuple[PROCOLS_COLUMN_DEF]);
set_tuplefield_int2(&tuple[PROCOLS_SQL_DATA_TYPE], PGTYPE_TO_SQLDESCTYPE(conn, pgtype));
set_nullfield_int2(&tuple[PROCOLS_SQL_DATETIME_SUB], PGTYPE_TO_DATETIME_SUB(conn, pgtype));
set_nullfield_int4(&tuple[PROCOLS_CHAR_OCTET_LENGTH], PGTYPE_TRANSFER_OCTET_LENGTH(conn, pgtype));
set_tuplefield_int4(&tuple[PROCOLS_ORDINAL_POSITION], 0);
set_tuplefield_string(&tuple[PROCOLS_IS_NULLABLE], NULL_STRING);
}
if (proargmodes)
{
const char *p;
paramcount = 0;
for (p = proargmodes; *p; p++)
{
if (',' == (*p))
paramcount++;
}
paramcount++;
params = QR_get_value_backend_text(tres, i, ext_pos + 2);
if ('{' == *proargmodes)
proargmodes++;
if (params != NULL && '{' == *params)
params++;
}
else
{
paramcount = QR_get_value_backend_int(tres, i, 3, NULL);
params = QR_get_value_backend_text(tres, i, 4);
}
if (proargnames)
{
if ('{' == *proargnames)
proargnames++;
}
/* PARAMETERS info */
for (j = 0; j < paramcount; j++)
{
/* PG type of parameters */
pgtype = 0;
if (params)
{
while (isspace((unsigned char) *params) || ',' == *params)
params++;
if ('\0' == *params || '}' == *params)
params = NULL;
else
{
sscanf(params, "%u", &pgtype);
while (isdigit((unsigned char) *params))
params++;
}
}
/* input/output type of parameters */
if (proargmodes)
{
while (isspace((unsigned char) *proargmodes) || ',' == *proargmodes)
proargmodes++;
if ('\0' == *proargmodes || '}' == *proargmodes)
proargmodes = NULL;
}
/* name of parameters */
if (proargnames)
{
while (isspace((unsigned char) *proargnames) || ',' == *proargnames)
proargnames++;
if ('\0' == *proargnames || '}' == *proargnames)
proargnames = NULL;
else if ('"' == *proargnames)
{
proargnames++;
for (delim = proargnames; *delim && *delim != '"'; delim++)
;
}
else
{
for (delim = proargnames; IS_NOT_SPACE(*delim) && ',' != *delim && '}' != *delim; delim++)
;
}
if (proargnames && '\0' == *delim) /* discard the incomplete name */
proargnames = NULL;
}
tuple = QR_AddNew(res);
set_tuplefield_string(&tuple[PROCOLS_PROCEDURE_CAT], CurrCat(conn));
set_nullfield_string(&tuple[PROCOLS_PROCEDURE_SCHEM], schema_name);
set_tuplefield_string(&tuple[PROCOLS_PROCEDURE_NAME], procname);
if (proargnames)
{
*delim = '\0';
set_tuplefield_string(&tuple[PROCOLS_COLUMN_NAME], proargnames);
proargnames = delim + 1;
}
else
set_tuplefield_string(&tuple[PROCOLS_COLUMN_NAME], NULL_STRING);
if (proargmodes)
{
int ptype;
switch (*proargmodes)
{
case 'o':
case 't':
ptype = bRetset ? SQL_RESULT_COL : SQL_PARAM_OUTPUT;
break;
case 'b':
ptype = SQL_PARAM_INPUT_OUTPUT;
break;
default:
ptype = SQL_PARAM_INPUT;
break;
}
set_tuplefield_int2(&tuple[PROCOLS_COLUMN_TYPE], ptype);
proargmodes++;
}
else
set_tuplefield_int2(&tuple[PROCOLS_COLUMN_TYPE], SQL_PARAM_INPUT);
set_tuplefield_int2(&tuple[PROCOLS_DATA_TYPE], PGTYPE_TO_CONCISE_TYPE(conn, pgtype));
set_tuplefield_string(&tuple[PROCOLS_TYPE_NAME], PGTYPE_TO_NAME(conn, pgtype, FALSE));
column_size = PGTYPE_COLUMN_SIZE(conn, pgtype);
set_nullfield_int4(&tuple[PROCOLS_COLUMN_SIZE], column_size);
set_tuplefield_int4(&tuple[PROCOLS_BUFFER_LENGTH], PGTYPE_BUFFER_LENGTH(conn, pgtype));
set_nullfield_int2(&tuple[PROCOLS_DECIMAL_DIGITS], PGTYPE_DECIMAL_DIGITS(conn, pgtype));
set_nullfield_int2(&tuple[PROCOLS_NUM_PREC_RADIX], pgtype_radix(conn, pgtype));
set_tuplefield_int2(&tuple[PROCOLS_NULLABLE], SQL_NULLABLE_UNKNOWN);
set_tuplefield_null(&tuple[PROCOLS_REMARKS]);
set_tuplefield_null(&tuple[PROCOLS_COLUMN_DEF]);
set_tuplefield_int2(&tuple[PROCOLS_SQL_DATA_TYPE], PGTYPE_TO_SQLDESCTYPE(conn, pgtype));
set_nullfield_int2(&tuple[PROCOLS_SQL_DATETIME_SUB], PGTYPE_TO_DATETIME_SUB(conn, pgtype));
set_nullfield_int4(&tuple[PROCOLS_CHAR_OCTET_LENGTH], PGTYPE_TRANSFER_OCTET_LENGTH(conn, pgtype));
set_tuplefield_int4(&tuple[PROCOLS_ORDINAL_POSITION], j + 1);
set_tuplefield_string(&tuple[PROCOLS_IS_NULLABLE], NULL_STRING);
}
}
/* RESULT Columns info */
if (!outpara_exist &&
(NULL != atttypid || bRetset))
{
int typid;
if (!atttypid)
{
typid = pgtype;
attname = NULL;
}
else
{
typid = atoi(atttypid);
attname = QR_get_value_backend_text(tres, i, attname_pos);
}
tuple = QR_AddNew(res);
set_tuplefield_string(&tuple[PROCOLS_PROCEDURE_CAT], CurrCat(conn));
set_nullfield_string(&tuple[PROCOLS_PROCEDURE_SCHEM], schema_name);
set_tuplefield_string(&tuple[PROCOLS_PROCEDURE_NAME], procname);
set_tuplefield_string(&tuple[PROCOLS_COLUMN_NAME], attname);
set_tuplefield_int2(&tuple[PROCOLS_COLUMN_TYPE], bRetset ? SQL_RESULT_COL : SQL_PARAM_OUTPUT);
set_tuplefield_int2(&tuple[PROCOLS_DATA_TYPE], PGTYPE_TO_CONCISE_TYPE(conn, typid));
set_tuplefield_string(&tuple[PROCOLS_TYPE_NAME], PGTYPE_TO_NAME(conn, typid, FALSE));
column_size = PGTYPE_COLUMN_SIZE(conn, typid);
set_nullfield_int4(&tuple[PROCOLS_COLUMN_SIZE], column_size);
set_tuplefield_int4(&tuple[PROCOLS_BUFFER_LENGTH], PGTYPE_BUFFER_LENGTH(conn, typid));
set_nullfield_int2(&tuple[PROCOLS_DECIMAL_DIGITS], PGTYPE_DECIMAL_DIGITS(conn, typid));
set_nullfield_int2(&tuple[PROCOLS_NUM_PREC_RADIX], pgtype_radix(conn, typid));
set_tuplefield_int2(&tuple[PROCOLS_NULLABLE], SQL_NULLABLE_UNKNOWN);
set_tuplefield_null(&tuple[PROCOLS_REMARKS]);
set_tuplefield_null(&tuple[PROCOLS_COLUMN_DEF]);
set_tuplefield_int2(&tuple[PROCOLS_SQL_DATA_TYPE], PGTYPE_TO_SQLDESCTYPE(conn, typid));
set_nullfield_int2(&tuple[PROCOLS_SQL_DATETIME_SUB], PGTYPE_TO_DATETIME_SUB(conn, typid));
set_nullfield_int4(&tuple[PROCOLS_CHAR_OCTET_LENGTH], PGTYPE_TRANSFER_OCTET_LENGTH(conn, typid));
set_tuplefield_int4(&tuple[PROCOLS_ORDINAL_POSITION], 0);
set_tuplefield_string(&tuple[PROCOLS_IS_NULLABLE], NULL_STRING);
}
}
ret = SQL_SUCCESS;
cleanup:
#undef return
if (tres)
QR_Destructor(tres);
if (!PQExpBufferDataBroken(proc_query))
termPQExpBuffer(&proc_query);
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
return ret;
}
RETCODE SQL_API
PGAPI_Procedures(HSTMT hstmt,
const SQLCHAR * szProcQualifier, /* OA X*/
SQLSMALLINT cbProcQualifier,
const SQLCHAR * szProcOwner, /* PV E*/
SQLSMALLINT cbProcOwner,
const SQLCHAR * szProcName, /* PV E*/
SQLSMALLINT cbProcName,
UWORD flag)
{
CSTR func = "PGAPI_Procedures";
StatementClass *stmt = (StatementClass *) hstmt;
ConnectionClass *conn = SC_get_conn(stmt);
PQExpBufferData proc_query = {0};
char *escSchemaName = NULL, *escProcName = NULL;
QResultClass *res;
RETCODE ret = SQL_ERROR, result;
const char *like_or_eq, *op_string;
BOOL search_pattern;
MYLOG(0, "entering... scnm=%p len=%d\n", szProcOwner, cbProcOwner);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
search_pattern = (0 == (flag & PODBC_NOT_SEARCH_PATTERN));
if (search_pattern)
{
like_or_eq = likeop;
escSchemaName = adjustLikePattern(szProcOwner, cbProcOwner, conn);
escProcName = adjustLikePattern(szProcName, cbProcName, conn);
}
else
{
like_or_eq = eqop;
escSchemaName = simpleCatalogEscape(szProcOwner, cbProcOwner, conn);
escProcName = simpleCatalogEscape(szProcName, cbProcName, conn);
}
/*
* The following seems the simplest implementation
*/
op_string = gen_opestr(like_or_eq, conn);
initPQExpBuffer(&proc_query);
#define return DONT_CALL_RETURN_FROM_HERE???
appendPQExpBufferStr(&proc_query, "select ''::varchar as " "PROCEDURE_CAT" ", nspname as " "PROCEDURE_SCHEM" ","
" proname as " "PROCEDURE_NAME" ", ''::varchar as " "NUM_INPUT_PARAMS" ","
" ''::varchar as " "NUM_OUTPUT_PARAMS" ", ''::varchar as " "NUM_RESULT_SETS" ","
" ''::varchar as " "REMARKS" ","
" case when prorettype = 0 then 1::int2 else 2::int2 end"
" as " "PROCEDURE_TYPE" " from pg_catalog.pg_namespace,"
" pg_catalog.pg_proc"
" where pg_proc.pronamespace = pg_namespace.oid");
schema_appendPQExpBuffer1(&proc_query, " and nspname %s'%.*s'", op_string, escSchemaName, TABLE_IS_VALID(szProcName, cbProcName), conn);
if (IS_VALID_NAME(escProcName))
appendPQExpBuffer(&proc_query,
" and proname %s'%s'", op_string, escProcName);
if (PQExpBufferDataBroken(proc_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_Procedures()", func);
goto cleanup;
}
res = CC_send_query(conn, proc_query.data, NULL, READ_ONLY_QUERY, stmt);
if (!QR_command_maybe_successful(res))
{
SC_set_error(stmt, STMT_EXEC_ERROR, "PGAPI_Procedures query error", func);
QR_Destructor(res);
goto cleanup;
}
SC_set_Result(stmt, res);
ret = SQL_SUCCESS;
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
cleanup:
#undef return
stmt->status = STMT_FINISHED;
extend_column_bindings(SC_get_ARDF(stmt), 8);
if (escSchemaName)
free(escSchemaName);
if (escProcName)
free(escProcName);
if (!PQExpBufferDataBroken(proc_query))
termPQExpBuffer(&proc_query);
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
return ret;
}
#define ACLMAX 8
#define ALL_PRIVILIGES "arwdRxt"
static int
usracl_auth(char *usracl, const char *auth)
{
int i, j, addcnt = 0;
for (i = 0; auth[i]; i++)
{
for (j = 0; j < ACLMAX; j++)
{
if (usracl[j] == auth[i])
break;
else if (!usracl[j])
{
usracl[j]= auth[i];
addcnt++;
break;
}
}
}
return addcnt;
}
static void
useracl_upd(char (*useracl)[ACLMAX], QResultClass *allures, const char *user, const char *auth)
{
int usercount = (int) QR_get_num_cached_tuples(allures), i, addcnt = 0;
MYLOG(0, "auth=%s\n", auth);
if (user[0])
for (i = 0; i < usercount; i++)
{
if (strcmp(QR_get_value_backend_text(allures, i, 0), user) == 0)
{
addcnt += usracl_auth(useracl[i], auth);
break;
}
}
else
for (i = 0; i < usercount; i++)
{
addcnt += usracl_auth(useracl[i], auth);
}
MYLOG(0, "addcnt=%d\n", addcnt);
}
RETCODE SQL_API
PGAPI_TablePrivileges(HSTMT hstmt,
const SQLCHAR * szTableQualifier, /* OA X*/
SQLSMALLINT cbTableQualifier,
const SQLCHAR * szTableOwner, /* PV E*/
SQLSMALLINT cbTableOwner,
const SQLCHAR * szTableName, /* PV E*/
SQLSMALLINT cbTableName,
UWORD flag)
{
StatementClass *stmt = (StatementClass *) hstmt;
CSTR func = "PGAPI_TablePrivileges";
ConnectionClass *conn = SC_get_conn(stmt);
Int2 result_cols;
PQExpBufferData proc_query = {0};
QResultClass *res, *wres = NULL, *allures = NULL;
TupleField *tuple;
Int4 tablecount, usercount, i, j, k;
BOOL grpauth, sys, su;
char (*useracl)[ACLMAX] = NULL, *acl, *user, *delim, *auth;
const char *reln, *owner, *priv, *schnm = NULL;
RETCODE result, ret = SQL_ERROR;
const char *like_or_eq, *op_string;
const SQLCHAR *szSchemaName;
SQLSMALLINT cbSchemaName;
char *escSchemaName = NULL, *escTableName = NULL;
BOOL search_pattern;
MYLOG(0, "entering... scnm=%p len-%d\n", szTableOwner, cbTableOwner);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
/*
* a statement is actually executed, so we'll have to do this
* ourselves.
*/
result_cols = NUM_OF_TABPRIV_FIELDS;
extend_column_bindings(SC_get_ARDF(stmt), result_cols);
stmt->catalog_result = TRUE;
/* set the field names */
res = QR_Constructor();
if (!res)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for query.", func);
return SQL_ERROR;
}
SC_set_Result(stmt, res);
QR_set_num_fields(res, result_cols);
QR_set_field_info_v(res, 0, "TABLE_CAT", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 1, "TABLE_SCHEM", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 2, "TABLE_NAME", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 3, "GRANTOR", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 4, "GRANTEE", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 5, "PRIVILEGE", PG_TYPE_VARCHAR, MAX_INFO_STRING);
QR_set_field_info_v(res, 6, "IS_GRANTABLE", PG_TYPE_VARCHAR, MAX_INFO_STRING);
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
stmt->status = STMT_FINISHED;
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
szSchemaName = szTableOwner;
cbSchemaName = cbTableOwner;
#define return DONT_CALL_RETURN_FROM_HERE???
search_pattern = (0 == (flag & PODBC_NOT_SEARCH_PATTERN));
if (search_pattern)
{
like_or_eq = likeop;
escTableName = adjustLikePattern(szTableName, cbTableName, conn);
}
else
{
like_or_eq = eqop;
escTableName = simpleCatalogEscape(szTableName, cbTableName, conn);
}
retry_public_schema:
if (escSchemaName)
free(escSchemaName);
if (search_pattern)
escSchemaName = adjustLikePattern(szSchemaName, cbSchemaName, conn);
else
escSchemaName = simpleCatalogEscape(szSchemaName, cbSchemaName, conn);
op_string = gen_opestr(like_or_eq, conn);
initPQExpBuffer(&proc_query);
appendPQExpBufferStr(&proc_query, "select relname, usename, relacl, nspname"
" from pg_catalog.pg_namespace, pg_catalog.pg_class ,"
" pg_catalog.pg_user where");
if (escSchemaName)
schema_appendPQExpBuffer1(&proc_query, " nspname %s'%.*s' and", op_string, escSchemaName, TABLE_IS_VALID(szTableName, cbTableName), conn);
if (escTableName)
appendPQExpBuffer(&proc_query, " relname %s'%s' and", op_string, escTableName);
appendPQExpBufferStr(&proc_query, " pg_namespace.oid = relnamespace and relkind in " TABLE_IN_RELKIND " and");
if ((!escTableName) && (!escSchemaName))
appendPQExpBufferStr(&proc_query, " nspname not in ('pg_catalog', 'information_schema') and");
appendPQExpBufferStr(&proc_query, " pg_user.usesysid = relowner");
if (PQExpBufferDataBroken(proc_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_TablePrivileges()", func);
goto cleanup;
}
if (wres = CC_send_query(conn, proc_query.data, NULL, READ_ONLY_QUERY, stmt), !QR_command_maybe_successful(wres))
{
SC_set_error(stmt, STMT_EXEC_ERROR, "PGAPI_TablePrivileges query error", func);
goto cleanup;
}
tablecount = (Int4) QR_get_num_cached_tuples(wres);
/* If not found */
if ((flag & PODBC_SEARCH_PUBLIC_SCHEMA) != 0 &&
0 == tablecount)
{
if (allow_public_schema(conn, szSchemaName, cbSchemaName))
{
QR_Destructor(wres);
wres = NULL;
szSchemaName = pubstr;
cbSchemaName = SQL_NTS;
goto retry_public_schema;
}
}
resetPQExpBuffer(&proc_query);
appendPQExpBufferStr(&proc_query, "select usename, usesysid, usesuper from pg_user");
if (PQExpBufferDataBroken(proc_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_TablePrivileges()", func);
goto cleanup;
}
if (allures = CC_send_query(conn, proc_query.data, NULL, READ_ONLY_QUERY, stmt), !QR_command_maybe_successful(allures))
{
SC_set_error(stmt, STMT_EXEC_ERROR, "PGAPI_TablePrivileges query error", func);
goto cleanup;
}
usercount = (Int4) QR_get_num_cached_tuples(allures);
useracl = (char (*)[ACLMAX]) malloc(usercount * sizeof(char [ACLMAX]));
if (!useracl)
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Couldn't allocate memory for user acl.", func);
goto cleanup;
}
for (i = 0; i < tablecount; i++)
{
memset(useracl, 0, usercount * sizeof(char[ACLMAX]));
acl = (char *) QR_get_value_backend_text(wres, i, 2);
if (acl && acl[0] == '{')
user = acl + 1;
else
user = NULL;
for (; user && *user;)
{
grpauth = FALSE;
if (user[0] == '"' && strncmp(user + 1, "group ", 6) == 0)
{
user += 7;
grpauth = TRUE;
}
if (delim = strchr(user, '='), !delim)
break;
*delim = '\0';
auth = delim + 1;
if (grpauth)
{
if (delim = strchr(auth, '"'), delim)
{
*delim = '\0';
delim++;
}
}
else if (delim = strchr(auth, ','), delim)
*delim = '\0';
else if (delim = strchr(auth, '}'), delim)
*delim = '\0';
if (grpauth) /* handle group privilege */
{
QResultClass *gres;
int i;
char *grolist, *uid, *delm;
resetPQExpBuffer(&proc_query);
appendPQExpBuffer(&proc_query, "select grolist from pg_group where groname = '%s'", user);
if (PQExpBufferDataBroken(proc_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_TablePrivileges()", func);
goto cleanup;
}
if (gres = CC_send_query(conn, proc_query.data, NULL, READ_ONLY_QUERY, stmt), !QR_command_maybe_successful(gres))
{
grolist = QR_get_value_backend_text(gres, 0, 0);
if (grolist && grolist[0] == '{')
{
for (uid = grolist + 1; *uid;)
{
if (delm = strchr(uid, ','), delm)
*delm = '\0';
else if (delm = strchr(uid, '}'), delm)
*delm = '\0';
for (i = 0; i < usercount; i++)
{
if (strcmp(QR_get_value_backend_text(allures, i, 1), uid) == 0)
useracl_upd(useracl, allures, QR_get_value_backend_text(allures, i, 0), auth);
}
uid = delm + 1;
}
}
}
QR_Destructor(gres);
}
else
useracl_upd(useracl, allures, user, auth);
if (!delim)
break;
user = delim + 1;
}
reln = QR_get_value_backend_text(wres, i, 0);
owner = QR_get_value_backend_text(wres, i, 1);
schnm = QR_get_value_backend_text(wres, i, 3);
/* The owner has all privileges */
useracl_upd(useracl, allures, owner, ALL_PRIVILIGES);
for (j = 0; j < usercount; j++)
{
user = QR_get_value_backend_text(allures, j, 0);
su = (strcmp(QR_get_value_backend_text(allures, j, 2), "t") == 0);
sys = (strcmp(user, owner) == 0);
/* Super user has all privileges */
if (su)
useracl_upd(useracl, allures, user, ALL_PRIVILIGES);
for (k = 0; k < ACLMAX; k++)
{
if (!useracl[j][k])
break;
switch (useracl[j][k])
{
case 'R': /* rule */
case 't': /* trigger */
continue;
}
tuple = QR_AddNew(res);
set_tuplefield_string(&tuple[TABPRIV_TABLE_CAT], CurrCat(conn));
set_tuplefield_string(&tuple[TABPRIV_TABLE_SCHEM], GET_SCHEMA_NAME(schnm));
set_tuplefield_string(&tuple[TABPRIV_TABLE_NAME], reln);
if (su || sys)
set_tuplefield_string(&tuple[TABPRIV_GRANTOR], "_SYSTEM");
else
set_tuplefield_string(&tuple[TABPRIV_GRANTOR], owner);
set_tuplefield_string(&tuple[TABPRIV_GRANTEE], user);
switch (useracl[j][k])
{
case 'a':
priv = "INSERT";
break;
case 'r':
priv = "SELECT";
break;
case 'w':
priv = "UPDATE";
break;
case 'd':
priv = "DELETE";
break;
case 'x':
priv = "REFERENCES";
break;
default:
priv = NULL_STRING;
}
set_tuplefield_string(&tuple[TABPRIV_PRIVILEGE], priv);
/* The owner and the super user are grantable */
if (sys || su)
set_tuplefield_string(&tuple[TABPRIV_IS_GRANTABLE], "YES");
else
set_tuplefield_string(&tuple[TABPRIV_IS_GRANTABLE], "NO");
}
}
}
ret = SQL_SUCCESS;
cleanup:
#undef return
if (escSchemaName)
free(escSchemaName);
if (escTableName)
free(escTableName);
if (useracl)
free(useracl);
if (!PQExpBufferDataBroken(proc_query))
termPQExpBuffer(&proc_query);
if (wres)
QR_Destructor(wres);
if (allures)
QR_Destructor(allures);
return ret;
}
static RETCODE SQL_API
PGAPI_ForeignKeys_new(HSTMT hstmt,
const SQLCHAR * szPkTableQualifier, /* OA X*/
SQLSMALLINT cbPkTableQualifier,
const SQLCHAR * szPkTableOwner, /* OA E*/
SQLSMALLINT cbPkTableOwner,
const SQLCHAR * szPkTableName, /* OA(R) E*/
SQLSMALLINT cbPkTableName,
const SQLCHAR * szFkTableQualifier, /* OA X*/
SQLSMALLINT cbFkTableQualifier,
const SQLCHAR * szFkTableOwner, /* OA E*/
SQLSMALLINT cbFkTableOwner,
const SQLCHAR * szFkTableName, /* OA(R) E*/
SQLSMALLINT cbFkTableName)
{
CSTR func = "PGAPI_ForeignKeys";
StatementClass *stmt = (StatementClass *) hstmt;
QResultClass *res = NULL;
RETCODE ret = SQL_ERROR, result;
PQExpBufferData tables_query = {0};
char *pk_table_needed = NULL, *escTableName = NULL;
char *fk_table_needed = NULL;
char schema_needed[SCHEMA_NAME_STORAGE_LEN + 1];
char *escSchemaName;
char catName[SCHEMA_NAME_STORAGE_LEN],
scmName1[SCHEMA_NAME_STORAGE_LEN],
scmName2[SCHEMA_NAME_STORAGE_LEN];
const char *relqual;
ConnectionClass *conn = SC_get_conn(stmt);
const char *eq_string;
MYLOG(0, "entering...stmt=%p\n", stmt);
if (result = SC_initialize_and_recycle(stmt), SQL_SUCCESS != result)
return result;
schema_needed[0] = '\0';
#define return DONT_CALL_RETURN_FROM_HERE???
pk_table_needed = make_string(szPkTableName, cbPkTableName, NULL, 0);
fk_table_needed = make_string(szFkTableName, cbFkTableName, NULL, 0);
eq_string = gen_opestr(eqop, conn);
/*
* Case #2 -- Get the foreign keys in the specified table (fktab) that
* refer to the primary keys of other table(s).
*/
if (NULL != fk_table_needed)
{
MYLOG(0, " Foreign Key Case #2\n");
escTableName = simpleCatalogEscape((SQLCHAR *) fk_table_needed, SQL_NTS, conn);
schema_str(schema_needed, sizeof(schema_needed), szFkTableOwner, cbFkTableOwner, TABLE_IS_VALID(szFkTableName, cbFkTableName), conn);
relqual = "\n and conrelid = c.oid";
}
/*
* Case #1 -- Get the foreign keys in other tables that refer to the
* primary key in the specified table (pktab). i.e., Who points to
* me?
*/
else if (NULL != pk_table_needed)
{
escTableName = simpleCatalogEscape((SQLCHAR *) pk_table_needed, SQL_NTS, conn);
schema_str(schema_needed, sizeof(schema_needed), szPkTableOwner, cbPkTableOwner, TABLE_IS_VALID(szPkTableName, cbPkTableName), conn);
relqual = "\n and confrelid = c.oid";
}
else
{
SC_set_error(stmt, STMT_INTERNAL_ERROR, "No tables specified to PGAPI_ForeignKeys.", func);
goto cleanup;
}
if (NULL != CurrCat(conn))
SPRINTF_FIXED(catName, "'%s'::name", CurrCat(conn));
else
STRCPY_FIXED(catName, "NULL::name");
STRCPY_FIXED(scmName1, "n2.nspname");
STRCPY_FIXED(scmName2, "n1.nspname");
escSchemaName = simpleCatalogEscape((SQLCHAR *) schema_needed, SQL_NTS, conn);
initPQExpBuffer(&tables_query);
#define return DONT_CALL_RETURN_FROM_HERE???
printfPQExpBuffer(&tables_query,
"select"
" %s as PKTABLE_CAT"
",\n %s as PKTABLE_SCHEM"
",\n c2.relname as PKTABLE_NAME"
",\n a2.attname as PKCOLUMN_NAME"
",\n %s as FKTABLE_CAT"
",\n %s as FKTABLE_SCHEM"
",\n c1.relname as FKTABLE_NAME"
",\n a1.attname as FKCOLUMN_NAME"
",\n i::int2 as KEY_SEQ"
",\n case ref.confupdtype"
"\n when 'c' then %d::int2"
"\n when 'n' then %d::int2"
"\n when 'd' then %d::int2"
"\n when 'r' then %d::int2"
"\n else %d::int2"
"\n end as UPDATE_RULE"
",\n case ref.confdeltype"
"\n when 'c' then %d::int2"
"\n when 'n' then %d::int2"
"\n when 'd' then %d::int2"
"\n when 'r' then %d::int2"
"\n else %d::int2"
"\n end as DELETE_RULE"
",\n ref.conname as FK_NAME"
",\n cn.conname as PK_NAME"
",\n case"
"\n when ref.condeferrable then"
"\n case"
"\n when ref.condeferred then %d::int2"
"\n else %d::int2"
"\n end"
"\n else %d::int2"
"\n end as DEFERRABLITY"
"\n from"
"\n ((((((("
" (select cn.oid, conrelid, conkey, confrelid, confkey"
",\n generate_series(array_lower(conkey, 1), array_upper(conkey, 1)) as i"
",\n confupdtype, confdeltype, conname"
",\n condeferrable, condeferred"
"\n from pg_catalog.pg_constraint cn"
",\n pg_catalog.pg_class c"
",\n pg_catalog.pg_namespace n"
"\n where contype = 'f' %s"
"\n and relname %s'%s'"
"\n and n.oid = c.relnamespace"
"\n and n.nspname %s'%s'"
"\n ) ref"
"\n inner join pg_catalog.pg_class c1"
"\n on c1.oid = ref.conrelid)"
"\n inner join pg_catalog.pg_namespace n1"
"\n on n1.oid = c1.relnamespace)"
"\n inner join pg_catalog.pg_attribute a1"
"\n on a1.attrelid = c1.oid"
"\n and a1.attnum = conkey[i])"
"\n inner join pg_catalog.pg_class c2"
"\n on c2.oid = ref.confrelid)"
"\n inner join pg_catalog.pg_namespace n2"
"\n on n2.oid = c2.relnamespace)"
"\n inner join pg_catalog.pg_attribute a2"
"\n on a2.attrelid = c2.oid"
"\n and a2.attnum = confkey[i])"
"\n left outer join pg_catalog.pg_constraint cn"
"\n on cn.conrelid = ref.confrelid"
"\n and cn.contype = 'p')"
, catName
, scmName1
, catName
, scmName2
, SQL_CASCADE
, SQL_SET_NULL
, SQL_SET_DEFAULT
, SQL_RESTRICT
, SQL_NO_ACTION
, SQL_CASCADE
, SQL_SET_NULL
, SQL_SET_DEFAULT
, SQL_RESTRICT
, SQL_NO_ACTION
, SQL_INITIALLY_DEFERRED
, SQL_INITIALLY_IMMEDIATE
, SQL_NOT_DEFERRABLE
, relqual
, eq_string, escTableName
, eq_string, escSchemaName);
free(escSchemaName);
if (NULL != pk_table_needed &&
NULL != fk_table_needed)
{
free(escTableName);
escTableName = simpleCatalogEscape((SQLCHAR *) pk_table_needed, SQL_NTS, conn);
appendPQExpBuffer(&tables_query,
"\n where c2.relname %s'%s'",
eq_string, escTableName);
}
appendPQExpBufferStr(&tables_query, "\n order by ref.oid, ref.i");
if (PQExpBufferDataBroken(tables_query))
{
SC_set_error(stmt, STMT_NO_MEMORY_ERROR, "Out of memory in PGAPI_SpecialColumns()", func);
goto cleanup;
}
if (res = CC_send_query(conn, tables_query.data, NULL, READ_ONLY_QUERY, stmt), !QR_command_maybe_successful(res))
{
SC_set_error(stmt, STMT_EXEC_ERROR, "PGAPI_ForeignKeys query error", func);
QR_Destructor(res);
goto cleanup;
}
SC_set_Result(stmt, res);
ret = SQL_SUCCESS;
cleanup:
#undef return
/*
* also, things need to think that this statement is finished so the
* results can be retrieved.
*/
if (SQL_SUCCEEDED(ret))
{
stmt->status = STMT_FINISHED;
extend_column_bindings(SC_get_ARDF(stmt), QR_NumResultCols(res));
}
if (pk_table_needed)
free(pk_table_needed);
if (escTableName)
free(escTableName);
if (fk_table_needed)
free(fk_table_needed);
if (!PQExpBufferDataBroken(tables_query))
termPQExpBuffer(&tables_query);
/* set up the current tuple pointer for SQLFetch */
stmt->currTuple = -1;
SC_set_rowset_start(stmt, -1, FALSE);
SC_set_current_col(stmt, -1);
MYLOG(0, "leaving stmt=%p, ret=%d\n", stmt, ret);
return ret;
}
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