[wxWidgets.git] / src / iodbc / prepare.c

/*
 *  prepare.c
 *
 *  $Id$
 *
 *  Prepare a query
 *
 *  The iODBC driver manager.
 *  
 *  Copyright (C) 1995 by Ke Jin <kejin@empress.com> 
 *
 *  This library is free software; you can redistribute it and/or
 *  modify it under the terms of the GNU Library General Public
 *  License as published by the Free Software Foundation; either
 *  version 2 of the License, or (at your option) any later version.
 *
 *  This library is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 *  Library General Public License for more details.
 *
 *  You should have received a copy of the GNU Library General Public
 *  License along with this library; if not, write to the Free
 *  Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 */

#include	"config.h"

#include	"isql.h"
#include	"isqlext.h"

#include        "dlproc.h"

#include	"herr.h"
#include	"henv.h"
#include	"hdbc.h"
#include	"hstmt.h"

#include	"itrace.h"

#include        <unistd.h>

RETCODE SQL_API 
SQLPrepare (
    HSTMT hstmt,
    UCHAR FAR * szSqlStr,
    SDWORD cbSqlStr)
{
  STMT_t FAR *pstmt = (STMT_t *) hstmt;

  HPROC hproc = SQL_NULL_HPROC;
  RETCODE retcode = SQL_SUCCESS;
  int sqlstat = en_00000;

  if (hstmt == SQL_NULL_HSTMT || pstmt->hdbc == SQL_NULL_HDBC)
    {
      return SQL_INVALID_HANDLE;
    }

  /* check state */
  if (pstmt->asyn_on == en_NullProc)
    {
      /* not on asyn state */
      switch (pstmt->state)
	 {
	 case en_stmt_fetched:
	 case en_stmt_xfetched:
	   sqlstat = en_24000;
	   break;

	 case en_stmt_needdata:
	 case en_stmt_mustput:
	 case en_stmt_canput:
	   sqlstat = en_S1010;
	   break;

	 default:
	   break;
	 }
    }
  else if (pstmt->asyn_on != en_Prepare)
    {
      /* asyn on other */
      sqlstat = en_S1010;
    }

  if (sqlstat != en_00000)
    {
      PUSHSQLERR (pstmt->herr, sqlstat);

      return SQL_ERROR;
    }

  if (szSqlStr == NULL)
    {
      PUSHSQLERR (pstmt->herr, en_S1009);

      return SQL_ERROR;
    }

  if (cbSqlStr < 0 && cbSqlStr != SQL_NTS)
    {
      PUSHSQLERR (pstmt->herr, en_S1090);

      return SQL_ERROR;
    }

  hproc = _iodbcdm_getproc (pstmt->hdbc, en_Prepare);

  if (hproc == SQL_NULL_HPROC)
    {
      PUSHSQLERR (pstmt->herr, en_IM001);
      return SQL_ERROR;
    }

  CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_Prepare,
    (pstmt->dhstmt, szSqlStr, cbSqlStr))

  /* stmt state transition */
  if (pstmt->asyn_on == en_Prepare)
    {
      switch (retcode)
	 {
	 case SQL_SUCCESS:
	 case SQL_SUCCESS_WITH_INFO:
	 case SQL_ERROR:
	   pstmt->asyn_on = en_NullProc;
	   return retcode;

	 case SQL_STILL_EXECUTING:
	 default:
	   return retcode;
	 }
    }

  switch (retcode)
     {
     case SQL_STILL_EXECUTING:
       pstmt->asyn_on = en_Prepare;
       break;

     case SQL_SUCCESS:
     case SQL_SUCCESS_WITH_INFO:
       pstmt->state = en_stmt_prepared;
       pstmt->prep_state = 1;
       break;

     case SQL_ERROR:
       switch (pstmt->state)
	  {
	  case en_stmt_prepared:
	  case en_stmt_executed:
	    pstmt->state = en_stmt_allocated;
	    pstmt->prep_state = 0;
	    break;

	  default:
	    break;
	  }

     default:
       break;
     }

  return retcode;
}


RETCODE SQL_API 
SQLSetCursorName (
    HSTMT hstmt,
    UCHAR FAR * szCursor,
    SWORD cbCursor)
{
  STMT_t FAR *pstmt = (STMT_t *) hstmt;
  HPROC hproc = SQL_NULL_HPROC;

  RETCODE retcode = SQL_SUCCESS;
  int sqlstat = en_00000;

  if (hstmt == SQL_NULL_HSTMT || pstmt->hdbc == SQL_NULL_HDBC)
    {
      return SQL_INVALID_HANDLE;
    }

  if (szCursor == NULL)
    {
      PUSHSQLERR (pstmt->herr, en_S1009);

      return SQL_ERROR;
    }

  if (cbCursor < 0 && cbCursor != SQL_NTS)
    {
      PUSHSQLERR (pstmt->herr, en_S1090);

      return SQL_ERROR;
    }

  /* check state */
  if (pstmt->asyn_on != en_NullProc)
    {
      sqlstat = en_S1010;
    }
  else
    {
      switch (pstmt->state)
	 {
	 case en_stmt_executed:
	 case en_stmt_cursoropen:
	 case en_stmt_fetched:
	 case en_stmt_xfetched:
	   sqlstat = en_24000;
	   break;

	 case en_stmt_needdata:
	 case en_stmt_mustput:
	 case en_stmt_canput:
	   sqlstat = en_S1010;
	   break;

	 default:
	   break;
	 }
    }

  if (sqlstat != en_00000)
    {
      PUSHSQLERR (pstmt->herr, sqlstat);

      return SQL_ERROR;
    }

  hproc = _iodbcdm_getproc (pstmt->hdbc, en_SetCursorName);

  if (hproc == SQL_NULL_HPROC)
    {
      PUSHSQLERR (pstmt->herr, en_IM001);

      return SQL_ERROR;
    }

  CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_SetCursorName,
    (pstmt->dhstmt, szCursor, cbCursor))

  if (retcode == SQL_SUCCESS || retcode == SQL_SUCCESS_WITH_INFO)
    {
      pstmt->cursor_state = en_stmt_cursor_named;
    }

  return retcode;
}


RETCODE SQL_API 
SQLBindParameter (
    HSTMT hstmt,
    UWORD ipar,
    SWORD fParamType,
    SWORD fCType,
    SWORD fSqlType,
    UDWORD cbColDef,
    SWORD ibScale,
    PTR rgbValue,
    SDWORD cbValueMax,
    SDWORD FAR * pcbValue)
{
  STMT_t FAR *pstmt = (STMT_t FAR *) hstmt;
  HPROC hproc = SQL_NULL_HPROC;

  int sqlstat = en_00000;
  RETCODE retcode = SQL_SUCCESS;

  if (hstmt == SQL_NULL_HSTMT || pstmt->hdbc == SQL_NULL_HDBC)
    {
      return SQL_INVALID_HANDLE;
    }

  /* check param */
  if (fSqlType > SQL_TYPE_MAX || 
	(fSqlType < SQL_TYPE_MIN && fSqlType > SQL_TYPE_DRIVER_START))
    /* Note: SQL_TYPE_DRIVER_START is a nagtive number 
     * So, we use ">" */
    {
      sqlstat = en_S1004;
    }
  else if (ipar < 1)
    {
      sqlstat = en_S1093;
    }
  else if ((rgbValue == NULL && pcbValue == NULL)
      && fParamType != SQL_PARAM_OUTPUT)
    {
      sqlstat = en_S1009;
      /* This means, I allow output to nowhere
       * (i.e. * junk output result). But I can't  
       * allow input from nowhere. 
       */
    }
/**********
	else if( cbValueMax < 0L && cbValueMax != SQL_SETPARAM_VALUE_MAX )
	{
		sqlstat = en_S1090;
	}
**********/
  else if (fParamType != SQL_PARAM_INPUT
	&& fParamType != SQL_PARAM_OUTPUT
      && fParamType != SQL_PARAM_INPUT_OUTPUT)
    {
      sqlstat = en_S1105;
    }
  else
    {
      switch (fCType)
	 {
	 case SQL_C_DEFAULT:
	 case SQL_C_CHAR:
	 case SQL_C_BINARY:
	 case SQL_C_BIT:
	 case SQL_C_TINYINT:
	 case SQL_C_STINYINT:
	 case SQL_C_UTINYINT:
	 case SQL_C_SHORT:
	 case SQL_C_SSHORT:
	 case SQL_C_USHORT:
	 case SQL_C_LONG:
	 case SQL_C_SLONG:
	 case SQL_C_ULONG:
	 case SQL_C_FLOAT:
	 case SQL_C_DOUBLE:
	 case SQL_C_DATE:
	 case SQL_C_TIME:
	 case SQL_C_TIMESTAMP:
	   break;

	 default:
	   sqlstat = en_S1003;
	   break;
	 }
    }

  if (sqlstat != en_00000)
    {
      PUSHSQLERR (pstmt->herr, sqlstat);

      return SQL_ERROR;
    }

  /* check state */
  if (pstmt->state >= en_stmt_needdata || pstmt->asyn_on != en_NullProc)
    {
      PUSHSQLERR (pstmt->herr, en_S1010);

      retcode = SQL_ERROR;
    }

  hproc = _iodbcdm_getproc (pstmt->hdbc, en_BindParameter);

  if (hproc == SQL_NULL_HPROC)
    {
      PUSHSQLERR (pstmt->herr, en_IM001);

      return SQL_ERROR;
    }

  CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_BindParameter,
    (pstmt->dhstmt, ipar, fParamType, fCType, fSqlType, cbColDef,
      ibScale, rgbValue, cbValueMax, pcbValue))

  return retcode;
}


RETCODE SQL_API 
SQLParamOptions (
    HSTMT hstmt,
    UDWORD crow,
    UDWORD FAR * pirow)
{
  STMT_t FAR *pstmt = (STMT_t FAR *) hstmt;
  HPROC hproc;
  RETCODE retcode;

  if (hstmt == SQL_NULL_HSTMT || pstmt->hdbc == SQL_NULL_HDBC)
    {
      return SQL_INVALID_HANDLE;
    }

  if (crow == (UDWORD) 0UL)
    {
      PUSHSQLERR (pstmt->herr, en_S1107);

      return SQL_ERROR;
    }

  if (pstmt->state >= en_stmt_needdata || pstmt->asyn_on != en_NullProc)
    {
      PUSHSQLERR (pstmt->herr, en_S1010);

      return SQL_ERROR;
    }

  hproc = _iodbcdm_getproc (pstmt->hdbc, en_ParamOptions);

  if (hproc == SQL_NULL_HPROC)
    {
      PUSHSQLERR (pstmt->herr, en_IM001);

      return SQL_ERROR;
    }

  CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_ParamOptions,
    (pstmt->dhstmt, crow, pirow))

  return retcode;
}


RETCODE SQL_API 
SQLSetScrollOptions (
    HSTMT hstmt,
    UWORD fConcurrency,
    SDWORD crowKeyset,
    UWORD crowRowset)
{
  STMT_t FAR *pstmt = (STMT_t FAR *) hstmt;
  HPROC hproc;
  int sqlstat = en_00000;
  RETCODE retcode;

  if (hstmt == SQL_NULL_HSTMT || pstmt->hdbc == SQL_NULL_HDBC)
    {
      return SQL_INVALID_HANDLE;
    }

  for (;;)
    {
      if (crowRowset == (UWORD) 0)
	{
	  sqlstat = en_S1107;
	  break;
	}

      if (crowKeyset > (SDWORD) 0L && crowKeyset < (SDWORD) crowRowset)
	{
	  sqlstat = en_S1107;
	  break;
	}

      if (crowKeyset < 1)
	{
	  if (crowKeyset != SQL_SCROLL_FORWARD_ONLY
	      && crowKeyset != SQL_SCROLL_STATIC
	      && crowKeyset != SQL_SCROLL_KEYSET_DRIVEN
	      && crowKeyset != SQL_SCROLL_DYNAMIC)
	    {
	      sqlstat = en_S1107;
	      break;
	    }
	}

      if (fConcurrency != SQL_CONCUR_READ_ONLY
	  && fConcurrency != SQL_CONCUR_LOCK
	  && fConcurrency != SQL_CONCUR_ROWVER
	  && fConcurrency != SQL_CONCUR_VALUES)
	{
	  sqlstat = en_S1108;
	  break;
	}

      if (pstmt->state != en_stmt_allocated)
	{
	  sqlstat = en_S1010;
	  break;
	}

      hproc = _iodbcdm_getproc (pstmt->hdbc, en_SetScrollOptions);

      if (hproc == SQL_NULL_HPROC)
	{
	  sqlstat = en_IM001;
	  break;
	}

      sqlstat = en_00000;
      if (1)			/* turn off solaris warning message */
	break;
    }

  if (sqlstat != en_00000)
    {
      PUSHSQLERR (pstmt->herr, sqlstat);

      return SQL_ERROR;
    }

  CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_SetScrollOptions,
    (pstmt->dhstmt, fConcurrency, crowKeyset, crowRowset))

  return retcode;
}


RETCODE SQL_API 
SQLSetParam (
    HSTMT hstmt,
    UWORD ipar,
    SWORD fCType,
    SWORD fSqlType,
    UDWORD cbColDef,
    SWORD ibScale,
    PTR rgbValue,
    SDWORD FAR * pcbValue)
{
  return SQLBindParameter (hstmt,
      ipar,
      (SWORD) SQL_PARAM_INPUT_OUTPUT,
      fCType,
      fSqlType,
      cbColDef,
      ibScale,
      rgbValue,
      SQL_SETPARAM_VALUE_MAX,
      pcbValue);
}
Commit	Line	Data
cd5bf2a6 RR	1	/*
	2	* prepare.c
	3	*
	4	* $Id$
	5	*
	6	* Prepare a query
	7	*
	8	* The iODBC driver manager.
	9	*
	10	* Copyright (C) 1995 by Ke Jin <kejin@empress.com>
	11	*
	12	* This library is free software; you can redistribute it and/or
	13	* modify it under the terms of the GNU Library General Public
	14	* License as published by the Free Software Foundation; either
	15	* version 2 of the License, or (at your option) any later version.
	16	*
	17	* This library is distributed in the hope that it will be useful,
	18	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	19	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	20	* Library General Public License for more details.
	21	*
	22	* You should have received a copy of the GNU Library General Public
	23	* License along with this library; if not, write to the Free
	24	* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
	25	*/
	26
88ac883a	27	#include "config.h"
cd5bf2a6	28
88ac883a VZ	29	#include "isql.h"
88ac883a VZ	30	#include "isqlext.h"
cd5bf2a6	31
88ac883a	32	#include "dlproc.h"
cd5bf2a6	33
88ac883a VZ	34	#include "herr.h"
	35	#include "henv.h"
	36	#include "hdbc.h"
	37	#include "hstmt.h"
cd5bf2a6	38
88ac883a	39	#include "itrace.h"
cd5bf2a6 RR	40
	41	#include <unistd.h>
	42
	43	RETCODE SQL_API
	44	SQLPrepare (
	45	HSTMT hstmt,
	46	UCHAR FAR * szSqlStr,
	47	SDWORD cbSqlStr)
1a6944fd	48	{
cd5bf2a6 RR	49	STMT_t FAR pstmt = (STMT_t ) hstmt;
	50
	51	HPROC hproc = SQL_NULL_HPROC;
	52	RETCODE retcode = SQL_SUCCESS;
	53	int sqlstat = en_00000;
	54
	55	if (hstmt == SQL_NULL_HSTMT \|\| pstmt->hdbc == SQL_NULL_HDBC)
	56	{
	57	return SQL_INVALID_HANDLE;
	58	}
	59
	60	/* check state */
	61	if (pstmt->asyn_on == en_NullProc)
	62	{
	63	/* not on asyn state */
	64	switch (pstmt->state)
	65	{
	66	case en_stmt_fetched:
	67	case en_stmt_xfetched:
	68	sqlstat = en_24000;
	69	break;
	70
	71	case en_stmt_needdata:
	72	case en_stmt_mustput:
	73	case en_stmt_canput:
	74	sqlstat = en_S1010;
	75	break;
	76
	77	default:
	78	break;
	79	}
	80	}
	81	else if (pstmt->asyn_on != en_Prepare)
	82	{
	83	/* asyn on other */
	84	sqlstat = en_S1010;
	85	}
	86
	87	if (sqlstat != en_00000)
	88	{
	89	PUSHSQLERR (pstmt->herr, sqlstat);
	90
	91	return SQL_ERROR;
	92	}
	93
	94	if (szSqlStr == NULL)
	95	{
	96	PUSHSQLERR (pstmt->herr, en_S1009);
	97
	98	return SQL_ERROR;
	99	}
	100
	101	if (cbSqlStr < 0 && cbSqlStr != SQL_NTS)
	102	{
	103	PUSHSQLERR (pstmt->herr, en_S1090);
	104
	105	return SQL_ERROR;
	106	}
	107
	108	hproc = _iodbcdm_getproc (pstmt->hdbc, en_Prepare);
	109
	110	if (hproc == SQL_NULL_HPROC)
	111	{
	112	PUSHSQLERR (pstmt->herr, en_IM001);
113	return SQL_ERROR;
114	}
115
116	CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_Prepare,
117	(pstmt->dhstmt, szSqlStr, cbSqlStr))
118
119	/* stmt state transition */
120	if (pstmt->asyn_on == en_Prepare)
121	{
122	switch (retcode)
123	{
124	case SQL_SUCCESS:
125	case SQL_SUCCESS_WITH_INFO:
126	case SQL_ERROR:
127	pstmt->asyn_on = en_NullProc;
128	return retcode;
129
130	case SQL_STILL_EXECUTING:
131	default:
132	return retcode;
133	}
134	}
135
136	switch (retcode)
137	{
138	case SQL_STILL_EXECUTING:
139	pstmt->asyn_on = en_Prepare;
140	break;
141
142	case SQL_SUCCESS:
143	case SQL_SUCCESS_WITH_INFO:
144	pstmt->state = en_stmt_prepared;
145	pstmt->prep_state = 1;
146	break;
147
148	case SQL_ERROR:
149	switch (pstmt->state)
150	{
151	case en_stmt_prepared:
152	case en_stmt_executed:
153	pstmt->state = en_stmt_allocated;
154	pstmt->prep_state = 0;
155	break;
156
157	default:
158	break;
159	}
160
161	default:
162	break;
163	}
164
165	return retcode;
1a6944fd RR	166	}
1a6944fd RR	167
cd5bf2a6 RR	168
	169	RETCODE SQL_API
	170	SQLSetCursorName (
	171	HSTMT hstmt,
	172	UCHAR FAR * szCursor,
	173	SWORD cbCursor)
1a6944fd	174	{
cd5bf2a6 RR	175	STMT_t FAR pstmt = (STMT_t ) hstmt;
	176	HPROC hproc = SQL_NULL_HPROC;
	177
	178	RETCODE retcode = SQL_SUCCESS;
	179	int sqlstat = en_00000;
	180
	181	if (hstmt == SQL_NULL_HSTMT \|\| pstmt->hdbc == SQL_NULL_HDBC)
	182	{
	183	return SQL_INVALID_HANDLE;
	184	}
	185
	186	if (szCursor == NULL)
	187	{
	188	PUSHSQLERR (pstmt->herr, en_S1009);
	189
	190	return SQL_ERROR;
	191	}
	192
	193	if (cbCursor < 0 && cbCursor != SQL_NTS)
	194	{
	195	PUSHSQLERR (pstmt->herr, en_S1090);
	196
	197	return SQL_ERROR;
	198	}
	199
	200	/* check state */
	201	if (pstmt->asyn_on != en_NullProc)
	202	{
	203	sqlstat = en_S1010;
	204	}
	205	else
	206	{
	207	switch (pstmt->state)
	208	{
	209	case en_stmt_executed:
	210	case en_stmt_cursoropen:
	211	case en_stmt_fetched:
	212	case en_stmt_xfetched:
	213	sqlstat = en_24000;
	214	break;
	215
	216	case en_stmt_needdata:
	217	case en_stmt_mustput:
	218	case en_stmt_canput:
	219	sqlstat = en_S1010;
	220	break;
	221
	222	default:
	223	break;
	224	}
	225	}
	226
	227	if (sqlstat != en_00000)
	228	{
	229	PUSHSQLERR (pstmt->herr, sqlstat);
	230
	231	return SQL_ERROR;
	232	}
	233
	234	hproc = _iodbcdm_getproc (pstmt->hdbc, en_SetCursorName);
	235
	236	if (hproc == SQL_NULL_HPROC)
	237	{
	238	PUSHSQLERR (pstmt->herr, en_IM001);
239
240	return SQL_ERROR;
241	}
242
243	CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_SetCursorName,
244	(pstmt->dhstmt, szCursor, cbCursor))
245
246	if (retcode == SQL_SUCCESS \|\| retcode == SQL_SUCCESS_WITH_INFO)
247	{
248	pstmt->cursor_state = en_stmt_cursor_named;
249	}
250
251	return retcode;
1a6944fd RR	252	}
1a6944fd RR	253
cd5bf2a6 RR	254
	255	RETCODE SQL_API
	256	SQLBindParameter (
	257	HSTMT hstmt,
	258	UWORD ipar,
	259	SWORD fParamType,
	260	SWORD fCType,
	261	SWORD fSqlType,
	262	UDWORD cbColDef,
	263	SWORD ibScale,
	264	PTR rgbValue,
	265	SDWORD cbValueMax,
	266	SDWORD FAR * pcbValue)
1a6944fd	267	{
cd5bf2a6 RR	268	STMT_t FAR pstmt = (STMT_t FAR ) hstmt;
	269	HPROC hproc = SQL_NULL_HPROC;
	270
	271	int sqlstat = en_00000;
	272	RETCODE retcode = SQL_SUCCESS;
	273
	274	if (hstmt == SQL_NULL_HSTMT \|\| pstmt->hdbc == SQL_NULL_HDBC)
	275	{
	276	return SQL_INVALID_HANDLE;
	277	}
	278
	279	/* check param */
	280	if (fSqlType > SQL_TYPE_MAX \|\|
	281	(fSqlType < SQL_TYPE_MIN && fSqlType > SQL_TYPE_DRIVER_START))
	282	/* Note: SQL_TYPE_DRIVER_START is a nagtive number
	283	* So, we use ">" */
	284	{
	285	sqlstat = en_S1004;
	286	}
	287	else if (ipar < 1)
	288	{
	289	sqlstat = en_S1093;
	290	}
	291	else if ((rgbValue == NULL && pcbValue == NULL)
	292	&& fParamType != SQL_PARAM_OUTPUT)
	293	{
	294	sqlstat = en_S1009;
	295	/* This means, I allow output to nowhere
	296	* (i.e. * junk output result). But I can't
	297	* allow input from nowhere.
	298	*/
	299	}
1a6944fd	300	/**********
cd5bf2a6 RR	301	else if( cbValueMax < 0L && cbValueMax != SQL_SETPARAM_VALUE_MAX )
	302	{
	303	sqlstat = en_S1090;
	304	}
1a6944fd	305	**********/
cd5bf2a6 RR	306	else if (fParamType != SQL_PARAM_INPUT
	307	&& fParamType != SQL_PARAM_OUTPUT
	308	&& fParamType != SQL_PARAM_INPUT_OUTPUT)
	309	{
	310	sqlstat = en_S1105;
	311	}
	312	else
	313	{
	314	switch (fCType)
	315	{
	316	case SQL_C_DEFAULT:
	317	case SQL_C_CHAR:
	318	case SQL_C_BINARY:
	319	case SQL_C_BIT:
	320	case SQL_C_TINYINT:
	321	case SQL_C_STINYINT:
	322	case SQL_C_UTINYINT:
	323	case SQL_C_SHORT:
	324	case SQL_C_SSHORT:
	325	case SQL_C_USHORT:
	326	case SQL_C_LONG:
	327	case SQL_C_SLONG:
	328	case SQL_C_ULONG:
	329	case SQL_C_FLOAT:
	330	case SQL_C_DOUBLE:
	331	case SQL_C_DATE:
	332	case SQL_C_TIME:
	333	case SQL_C_TIMESTAMP:
	334	break;
	335
	336	default:
	337	sqlstat = en_S1003;
	338	break;
	339	}
	340	}
	341
	342	if (sqlstat != en_00000)
	343	{
	344	PUSHSQLERR (pstmt->herr, sqlstat);
	345
	346	return SQL_ERROR;
	347	}
	348
	349	/* check state */
	350	if (pstmt->state >= en_stmt_needdata \|\| pstmt->asyn_on != en_NullProc)
	351	{
	352	PUSHSQLERR (pstmt->herr, en_S1010);
	353
	354	retcode = SQL_ERROR;
	355	}
	356
	357	hproc = _iodbcdm_getproc (pstmt->hdbc, en_BindParameter);
	358
	359	if (hproc == SQL_NULL_HPROC)
	360	{
	361	PUSHSQLERR (pstmt->herr, en_IM001);
	362
	363	return SQL_ERROR;
	364	}
	365
	366	CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_BindParameter,
	367	(pstmt->dhstmt, ipar, fParamType, fCType, fSqlType, cbColDef,
	368	ibScale, rgbValue, cbValueMax, pcbValue))
	369
370	return retcode;
1a6944fd RR	371	}
1a6944fd RR	372
7e616b10	373
cd5bf2a6 RR	374	RETCODE SQL_API
	375	SQLParamOptions (
	376	HSTMT hstmt,
	377	UDWORD crow,
	378	UDWORD FAR * pirow)
	379	{
	380	STMT_t FAR pstmt = (STMT_t FAR ) hstmt;
	381	HPROC hproc;
	382	RETCODE retcode;
1a6944fd	383
cd5bf2a6 RR	384	if (hstmt == SQL_NULL_HSTMT \|\| pstmt->hdbc == SQL_NULL_HDBC)
	385	{
	386	return SQL_INVALID_HANDLE;
	387	}
1a6944fd	388
cd5bf2a6 RR	389	if (crow == (UDWORD) 0UL)
	390	{
	391	PUSHSQLERR (pstmt->herr, en_S1107);
1a6944fd	392
cd5bf2a6 RR	393	return SQL_ERROR;
cd5bf2a6 RR	394	}
1a6944fd	395
cd5bf2a6 RR	396	if (pstmt->state >= en_stmt_needdata \|\| pstmt->asyn_on != en_NullProc)
	397	{
	398	PUSHSQLERR (pstmt->herr, en_S1010);
1a6944fd	399
cd5bf2a6 RR	400	return SQL_ERROR;
cd5bf2a6 RR	401	}
1a6944fd	402
cd5bf2a6	403	hproc = _iodbcdm_getproc (pstmt->hdbc, en_ParamOptions);
1a6944fd	404
cd5bf2a6 RR	405	if (hproc == SQL_NULL_HPROC)
	406	{
	407	PUSHSQLERR (pstmt->herr, en_IM001);
1a6944fd	408
cd5bf2a6 RR	409	return SQL_ERROR;
cd5bf2a6 RR	410	}
1a6944fd	411
cd5bf2a6 RR	412	CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_ParamOptions,
cd5bf2a6 RR	413	(pstmt->dhstmt, crow, pirow))
1a6944fd	414
cd5bf2a6	415	return retcode;
1a6944fd RR	416	}
1a6944fd RR	417
cd5bf2a6 RR	418
	419	RETCODE SQL_API
	420	SQLSetScrollOptions (
	421	HSTMT hstmt,
	422	UWORD fConcurrency,
	423	SDWORD crowKeyset,
	424	UWORD crowRowset)
1a6944fd	425	{
cd5bf2a6 RR	426	STMT_t FAR pstmt = (STMT_t FAR ) hstmt;
	427	HPROC hproc;
	428	int sqlstat = en_00000;
	429	RETCODE retcode;
	430
	431	if (hstmt == SQL_NULL_HSTMT \|\| pstmt->hdbc == SQL_NULL_HDBC)
	432	{
	433	return SQL_INVALID_HANDLE;
	434	}
	435
	436	for (;;)
	437	{
	438	if (crowRowset == (UWORD) 0)
	439	{
	440	sqlstat = en_S1107;
	441	break;
	442	}
	443
	444	if (crowKeyset > (SDWORD) 0L && crowKeyset < (SDWORD) crowRowset)
	445	{
	446	sqlstat = en_S1107;
	447	break;
	448	}
	449
	450	if (crowKeyset < 1)
	451	{
	452	if (crowKeyset != SQL_SCROLL_FORWARD_ONLY
	453	&& crowKeyset != SQL_SCROLL_STATIC
	454	&& crowKeyset != SQL_SCROLL_KEYSET_DRIVEN
	455	&& crowKeyset != SQL_SCROLL_DYNAMIC)
	456	{
	457	sqlstat = en_S1107;
	458	break;
	459	}
	460	}
	461
	462	if (fConcurrency != SQL_CONCUR_READ_ONLY
	463	&& fConcurrency != SQL_CONCUR_LOCK
	464	&& fConcurrency != SQL_CONCUR_ROWVER
	465	&& fConcurrency != SQL_CONCUR_VALUES)
	466	{
	467	sqlstat = en_S1108;
	468	break;
	469	}
	470
	471	if (pstmt->state != en_stmt_allocated)
	472	{
	473	sqlstat = en_S1010;
	474	break;
	475	}
	476
	477	hproc = _iodbcdm_getproc (pstmt->hdbc, en_SetScrollOptions);
	478
	479	if (hproc == SQL_NULL_HPROC)
	480	{
	481	sqlstat = en_IM001;
	482	break;
	483	}
	484
	485	sqlstat = en_00000;
	486	if (1) /* turn off solaris warning message */
	487	break;
	488	}
	489
490	if (sqlstat != en_00000)
491	{
492	PUSHSQLERR (pstmt->herr, sqlstat);
493
494	return SQL_ERROR;
495	}
496
497	CALL_DRIVER (pstmt->hdbc, retcode, hproc, en_SetScrollOptions,
498	(pstmt->dhstmt, fConcurrency, crowKeyset, crowRowset))
499
500	return retcode;
1a6944fd RR	501	}
1a6944fd RR	502
cd5bf2a6 RR	503
	504	RETCODE SQL_API
	505	SQLSetParam (
	506	HSTMT hstmt,
	507	UWORD ipar,
	508	SWORD fCType,
	509	SWORD fSqlType,
	510	UDWORD cbColDef,
	511	SWORD ibScale,
	512	PTR rgbValue,
	513	SDWORD FAR * pcbValue)
1a6944fd	514	{
cd5bf2a6 RR	515	return SQLBindParameter (hstmt,
	516	ipar,
	517	(SWORD) SQL_PARAM_INPUT_OUTPUT,
	518	fCType,
	519	fSqlType,
	520	cbColDef,
	521	ibScale,
	522	rgbValue,
	523	SQL_SETPARAM_VALUE_MAX,
	524	pcbValue);
1a6944fd	525	}