static int msql_execute (dbconn_t * c, const char * s)
{
if (msqlQuery(c->msql.handle, s) != -1) {
c->msql.result_set = msqlStoreResult();
if (!c->msql.result_set) {
/* Query was an UPDATE or INSERT or DELETE */
return 0;
}
return msqlNumRows(c->msql.result_set);
}
return -1;
}
int Result::GetRowCount()
{
if (result == (T_RESULT*)NULL)
{
throw "Result set closed.";
}
#ifdef HAS_MSQL
rowCount = msqlNumRows(result);
#elif defined HAS_MYSQL
rowCount = mysql_num_rows(result);
#endif
if (rowCount > -1)
{
return rowCount;
}
return 0;
}
static array_t *msql_fetch (dbconn_t * c, int row)
{
int i, num_fields;
m_row this_row;
array_t *v;
if (!c->msql.result_set) {
return &the_null_array;
}
if (row < 1 || row > msqlNumRows(c->msql.result_set)) {
return &the_null_array;
}
num_fields = msqlNumFields(c->msql.result_set);
if (num_fields < 1) {
return &the_null_array;
}
msqlDataSeek(c->msql.result_set, row - 1);
this_row = msqlFetchRow(c->msql.result_set);
if (!this_row) {
return &the_null_array;
}
v = allocate_empty_array(num_fields);
for (i = 0; i < num_fields; i++) {
m_field *field;
field = msqlFetchField(c->msql.result_set);
if (!field || !this_row[i]) {
v->item[i] = const0u;
} else {
switch (field->type) {
case INT_TYPE:
case UINT_TYPE:
v->item[i].type = T_NUMBER;
v->item[i].u.number = atoi(this_row[i]);
break;
case REAL_TYPE:
case MONEY_TYPE:
v->item[i].type = T_REAL;
v->item[i].u.real = atof(this_row[i]);
break;
case CHAR_TYPE:
case TEXT_TYPE:
case DATE_TYPE:
case TIME_TYPE:
v->item[i].type = T_STRING;
v->item[i].subtype = STRING_MALLOC;
v->item[i].u.string = string_copy(this_row[i], "msql_fetch");
break;
default:
v->item[i] = const0u;
break;
}
}
}
msqlFieldSeek(c->msql.result_set, 0);
return v;
}
/*
* SubVar
*
* This function substitutes variables designated by the leading separator (sep)
* with values with matching names. The string buffer will be realloced in 512-byte
* chunks if needed.
*/
char *SubVar(char sep, char *var_name, char *var_value, char *oldbuf, int *bufsize) {
char *buf, *s, *t;
int l, n;
char o;
char *local_buf;
#if MSQL
char *u;
int i,j;
int numi, numj;
char temp[1024];
m_result *result=NULL;
m_row record;
int new_connection=0;
#endif
l=strlen(oldbuf);
n=strlen(var_value);
if(l-(int)strlen(var_name)-1+(int)strlen(var_value) >(int)(*bufsize-1)) {
#if DEBUG
fprintf(fperr,"Query buffer re-allocated\n");
fflush(fperr);
#endif
buf=realloc(oldbuf,*bufsize+((n>512)?n:512));
*bufsize+=((n>512)?n:512);
} else buf=oldbuf;
/* I don't trust strdup() on many systems */
local_buf=malloc(*bufsize*sizeof(char));
strcpy(local_buf,buf);
if(!local_buf) {
html_error("FI Error","Unable to allocate memory");
exit(-1);
}
s=local_buf;
while(*s!='\0') {
if(*s==sep) {
if(s>local_buf && *(s-1)=='\\') { /* Allow for escaping the separator */
s++;
continue;
}
n=strcspn(s+1," ,()'\n:;.{}[]-+=~!@#$%^*<>\"");
t=s+n+1;
o=*t;
*t='\0';
if(!strcasecmp(var_name,s+1)) {
*s='\0';
#if MSQL
if(!strcasecmp(var_name,"sql")) {
/* looking for database name */
#if DEBUG
fprintf(fperr,"var_name=[%s], var_value=[%s]\n",var_name,var_value);
fflush(fperr);
#endif
u=strchr(var_value,' ');
if(u) {
*u='\0';
if(strlen(current_db)==0) {
if(dbsock==-1) {
dbsock=msqlConnect(NULL);
new_connection=1;
}
if(msqlSelectDB(dbsock,var_value)<0) {
strcpy(temp,msqlErrMsg);
current_db[0]='\0';
} else {
strcpy(current_db,var_value);
}
}
if(msqlQuery(dbsock,u+1)<0) strcpy(temp,msqlErrMsg);
else {
temp[0]='\0';
msqlStoreResult(result);
numi=msqlNumRows(result);
for(i=0;i<numi;i++) {
if(strlen(before_record)) strcat(temp,before_record);
msqlDataSeek(result,i);
numj=msqlNumFields(result);
record=msqlFetchRow(result);
for(j=0;j<numj;j++) {
if(strlen(before_element)) strcat(temp,before_element);
strcat(temp,record[j]);
if(strlen(after_element)) strcat(temp,after_element);
}
if(strlen(after_record)) strcat(temp,after_record);
}
msqlFreeResult(result);
if(new_connection) {
msqlClose(dbsock);
dbsock=-1;
current_db[0]='\0';
}
}
}
}
#endif
sprintf(buf,"%s%s%c%s",local_buf,var_value,o,t+1);
strcpy(local_buf,buf);
} else {
*t=o;
}
s=t+1;
} else s++;
}
free(local_buf);
return(buf);
}
SQLRETURN _Execute( SQLHSTMT hDrvStmt )
{
HDRVSTMT hStmt = (HDRVSTMT)hDrvStmt;
int nColumn;
int nCols;
int nRow;
m_result *pResults; /* mSQL DATA */
m_row rowResult; /* mSQL ROW */
m_field *pField; /* mSQL COL HDR */
COLUMNHDR *pColumnHeader;
/* SANITY CHECKS */
if( NULL == hStmt )
return SQL_INVALID_HANDLE;
sprintf( hStmt->szSqlMsg, "hStmt = $%08lX", hStmt );
logPushMsg( hStmt->hLog, __FILE__, __FILE__, __LINE__, LOG_WARNING, LOG_WARNING, hStmt->szSqlMsg );
if( hStmt->pszQuery == NULL )
{
logPushMsg( hStmt->hLog, __FILE__, __FILE__, __LINE__, LOG_WARNING, LOG_WARNING, "SQL_ERROR No prepared statement" );
return SQL_ERROR;
}
/**************************
* Free any current results
**************************/
if ( hStmt->hStmtExtras->aResults )
_FreeResults( hStmt->hStmtExtras );
/**************************
* send prepared query to server
**************************/
if ( (hStmt->hStmtExtras->nRows = msqlQuery( ((HDRVDBC)hStmt->hDbc)->hDbcExtras->hServer, hStmt->pszQuery )) == -1 )
{
sprintf( hStmt->szSqlMsg, "SQL_ERROR Query failed. %s", msqlErrMsg );
logPushMsg( hStmt->hLog, __FILE__, __FILE__, __LINE__, LOG_WARNING, LOG_WARNING, hStmt->szSqlMsg );
return SQL_ERROR;
}
/**************************
* snapshot our results (assume no results means UPDATE, DELETE or INSERT
**************************/
pResults = msqlStoreResult();
if ( !pResults )
return SQL_SUCCESS;
/**************************
* allocate memory for columns headers and result data (row 0 is column header while col 0 is reserved for bookmarks)
**************************/
hStmt->hStmtExtras->nRows = msqlNumRows( pResults );
hStmt->hStmtExtras->nCols = msqlNumFields( pResults );
hStmt->hStmtExtras->aResults = malloc( sizeof(char*) * (hStmt->hStmtExtras->nRows+1) * (hStmt->hStmtExtras->nCols+1) );
if ( hStmt->hStmtExtras->aResults == NULL )
{
logPushMsg( hStmt->hLog, __FILE__, __FILE__, __LINE__, LOG_WARNING, LOG_WARNING, "Not enough memory. (malloc failed)" );
hStmt->hStmtExtras->nRows = 0;
hStmt->hStmtExtras->nCols = 0;
msqlFreeResult( pResults );
return SQL_ERROR;
}
memset( hStmt->hStmtExtras->aResults, 0, sizeof(char*) * (hStmt->hStmtExtras->nRows+1) * (hStmt->hStmtExtras->nCols+1) );
/**************************
* gather column header information (save col 0 for bookmarks)
**************************/
for ( nColumn = 1; nColumn <= hStmt->hStmtExtras->nCols; nColumn++ )
{
pField = msqlFetchField( pResults );
(hStmt->hStmtExtras->aResults)[nColumn] = malloc( sizeof(COLUMNHDR) );
memset( (hStmt->hStmtExtras->aResults)[nColumn], 0, sizeof(COLUMNHDR) );
pColumnHeader = (COLUMNHDR*)(hStmt->hStmtExtras->aResults)[nColumn];
_NativeToSQLColumnHeader( pColumnHeader, pField );
}
/************************
* gather data (save col 0 for bookmarks)
************************/
nCols = hStmt->hStmtExtras->nCols;
nRow = 0;
while ( (rowResult = msqlFetchRow( pResults )) != NULL )
{
nRow++;
msqlFieldSeek( pResults, 0 );
for ( nColumn=1; nColumn <= nCols; nColumn++ )
{
if ( rowResult[nColumn-1] )
(hStmt->hStmtExtras->aResults)[nRow*nCols+nColumn] = (char *)strdup( rowResult[nColumn-1] );
}
}
hStmt->hStmtExtras->nRow = 0;
/**************************
* free the snapshot
**************************/
msqlFreeResult( pResults );
logPushMsg( hStmt->hLog, __FILE__, __FILE__, __LINE__, LOG_INFO, LOG_INFO, "SQL_SUCCESS" );
return SQL_SUCCESS;
}
if (row)
return row[no];
return NULL;
};
long int mSQLDBC::getRecordCount(){
