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Diffstat (limited to 'src/interfaces/odbc/parse.c')
| -rw-r--r-- | src/interfaces/odbc/parse.c | 775 |
1 files changed, 775 insertions, 0 deletions
diff --git a/src/interfaces/odbc/parse.c b/src/interfaces/odbc/parse.c new file mode 100644 index 00000000000..0a6382a493d --- /dev/null +++ b/src/interfaces/odbc/parse.c @@ -0,0 +1,775 @@ + +/* Module: parse.c + * + * Description: This module contains routines related to parsing SQL statements. + * This can be useful for two reasons: + * + * 1. So the query does not actually have to be executed to return data about it + * + * 2. To be able to return information about precision, nullability, aliases, etc. + * in the functions SQLDescribeCol and SQLColAttributes. Currently, Postgres + * doesn't return any information about these things in a query. + * + * Classes: none + * + * API functions: none + * + * Comments: See "notice.txt" for copyright and license information. + * + */ + +#include <stdio.h> +#include <string.h> + +#include "statement.h" +#include "connection.h" +#include "qresult.h" +#include "pgtypes.h" + +#ifdef UNIX +#if !HAVE_STRICMP +#define stricmp(s1,s2) strcasecmp(s1,s2) +#define strnicmp(s1,s2,n) strncasecmp(s1,s2,n) +#endif +#endif + +#define FLD_INCR 32 +#define TAB_INCR 8 +#define COL_INCR 16 + +char * +getNextToken(char *s, char *token, int smax, char *delim, char *quote, char *dquote, char *numeric) +{ +int i = 0; +int out = 0; +char qc, in_escape = FALSE; + + if (smax <= 1) + return NULL; + + smax--; + + /* skip leading delimiters */ + while (isspace(s[i]) || s[i] == ',') { + // mylog("skipping '%c'\n", s[i]); + i++; + } + + if (s[0] == '\0') { + token[0] = '\0'; + return NULL; + } + + if (quote) *quote = FALSE; + if (dquote) *dquote = FALSE; + if (numeric) *numeric = FALSE; + + /* get the next token */ + while ( ! isspace(s[i]) && s[i] != ',' && s[i] != '\0' && out != smax) { + + /* Handle quoted stuff */ + if ( out == 0 && (s[i] == '\"' || s[i] == '\'')) { + qc = s[i]; + if (qc == '\"') { + if (dquote) *dquote = TRUE; + } + if (qc == '\'') { + if (quote) *quote = TRUE; + } + + i++; /* dont return the quote */ + while (s[i] != '\0' && out != smax) { + if (s[i] == qc && ! in_escape) { + break; + } + if (s[i] == '\\' && ! in_escape) { + in_escape = TRUE; + } + else { + in_escape = FALSE; + token[out++] = s[i]; + } + i++; + } + if (s[i] == qc) + i++; + break; + } + + /* Check for numeric literals */ + if ( out == 0 && isdigit(s[i])) { + if (numeric) *numeric = TRUE; + token[out++] = s[i++]; + while ( isalnum(s[i]) || s[i] == '.') + token[out++] = s[i++]; + + break; + } + + if ( ispunct(s[i])) { + if (out == 0) { + token[out++] = s[i++]; + break; + } + else + break; + } + + if (out != smax) + token[out++] = s[i]; + + i++; + } + + // mylog("done -- s[%d] = '%c'\n", i, s[i]); + + token[out] = '\0'; + + /* find the delimiter */ + while ( isspace(s[i])) + i++; + + /* return the most priority delimiter */ + if (s[i] == ',') { + if (delim) *delim = s[i]; + } + else if (s[i] == '\0') { + if (delim) *delim = '\0'; + } + else { + if (delim) *delim = ' '; + } + + /* skip trailing blanks */ + while ( isspace(s[i])) { + i++; + } + + return &s[i]; +} + + +/* +QR_set_num_fields(stmt->result, 14); +QR_set_field_info(stmt->result, 0, "TABLE_QUALIFIER", PG_TYPE_TEXT, MAX_INFO_STRING); +QR_set_field_info(stmt->result, 1, "TABLE_OWNER", PG_TYPE_TEXT, MAX_INFO_STRING); +QR_set_field_info(stmt->result, 2, "TABLE_NAME", PG_TYPE_TEXT, MAX_INFO_STRING); +QR_set_field_info(stmt->result, 3, "COLUMN_NAME", PG_TYPE_TEXT, MAX_INFO_STRING); +QR_set_field_info(stmt->result, 4, "DATA_TYPE", PG_TYPE_INT2, 2); +QR_set_field_info(stmt->result, 5, "TYPE_NAME", PG_TYPE_TEXT, MAX_INFO_STRING); +QR_set_field_info(stmt->result, 6, "PRECISION", PG_TYPE_INT4, 4); +QR_set_field_info(stmt->result, 7, "LENGTH", PG_TYPE_INT4, 4); +QR_set_field_info(stmt->result, 8, "SCALE", PG_TYPE_INT2, 2); +QR_set_field_info(stmt->result, 9, "RADIX", PG_TYPE_INT2, 2); +QR_set_field_info(stmt->result, 10, "NULLABLE", PG_TYPE_INT2, 2); +QR_set_field_info(stmt->result, 11, "REMARKS", PG_TYPE_TEXT, 254); +// User defined fields +QR_set_field_info(stmt->result, 12, "DISPLAY_SIZE", PG_TYPE_INT4, 4); +QR_set_field_info(stmt->result, 13, "FIELD_TYPE", PG_TYPE_INT4, 4); +*/ + +void +getColInfo(COL_INFO *col_info, FIELD_INFO *fi, int k) +{ + if (fi->name[0] == '\0') + strcpy(fi->name, QR_get_value_manual(col_info->result, k, 3)); + + fi->type = atoi( QR_get_value_manual(col_info->result, k, 13)); + fi->precision = atoi( QR_get_value_manual(col_info->result, k, 6)); + fi->length = atoi( QR_get_value_manual(col_info->result, k, 7)); + fi->nullable = atoi( QR_get_value_manual(col_info->result, k, 10)); + fi->display_size = atoi( QR_get_value_manual(col_info->result, k, 12)); +} + +char +searchColInfo(COL_INFO *col_info, FIELD_INFO *fi) +{ +int k; +char *col; + + + for (k = 0; k < QR_get_num_tuples(col_info->result); k++) { + col = QR_get_value_manual(col_info->result, k, 3); + if ( ! strcmp(col, fi->name)) { + getColInfo(col_info, fi, k); + + mylog("PARSE: searchColInfo: \n"); + return TRUE; + } + } + + return FALSE; +} + + +char +parse_statement(StatementClass *stmt) +{ +char token[256]; +char delim, quote, dquote, numeric, unquoted; +char *ptr; +char in_select = FALSE, in_distinct = FALSE, in_on = FALSE, in_from = FALSE, in_where = FALSE, in_table = FALSE; +char in_field = FALSE, in_expr = FALSE, in_func = FALSE, in_dot = FALSE, in_as = FALSE; +int j, i, k, n, blevel = 0; +FIELD_INFO **fi; +TABLE_INFO **ti; +char parse; +ConnectionClass *conn = stmt->hdbc; +HSTMT hcol_stmt; +StatementClass *col_stmt; +RETCODE result; + + + ptr = stmt->statement; + fi = stmt->fi; + ti = stmt->ti; + + stmt->nfld = 0; + stmt->ntab = 0; + + while (ptr = getNextToken(ptr, token, sizeof(token), &delim, "e, &dquote, &numeric)) { + + unquoted = ! ( quote || dquote ); + + mylog("unquoted=%d, quote=%d, dquote=%d, numeric=%d, delim='%c', token='%s', ptr='%s'\n", unquoted, quote, dquote, numeric, delim, token, ptr); + + if ( unquoted && ! stricmp(token, "select")) { + in_select = TRUE; + + mylog("SELECT\n"); + continue; + } + + if ( unquoted && in_select && ! stricmp(token, "distinct")) { + in_distinct = TRUE; + + mylog("DISTINCT\n"); + continue; + } + + if ( unquoted && ! stricmp(token, "into")) { + in_select = FALSE; + + mylog("INTO\n"); + continue; + } + + if ( unquoted && ! stricmp(token, "from")) { + in_select = FALSE; + in_from = TRUE; + + mylog("FROM\n"); + continue; + } + + if ( unquoted && (! stricmp(token, "where") || + ! stricmp(token, "union") || + ! stricmp(token, "order") || + ! stricmp(token, "group") || + ! stricmp(token, "having"))) { + + in_select = FALSE; + in_from = FALSE; + in_where = TRUE; + + mylog("WHERE...\n"); + break; + } + + if (in_select) { + + if ( in_distinct) { + mylog("in distinct\n"); + + if (unquoted && ! stricmp(token, "on")) { + in_on = TRUE; + mylog("got on\n"); + continue; + } + if (in_on) { + in_distinct = FALSE; + in_on = FALSE; + continue; /* just skip the unique on field */ + } + mylog("done distinct\n"); + in_distinct = FALSE; + } + + if ( in_expr || in_func) { /* just eat the expression */ + mylog("in_expr=%d or func=%d\n", in_expr, in_func); + if (quote || dquote) + continue; + + if (in_expr && blevel == 0 && delim == ',') { + mylog("**** in_expr and Got comma\n"); + in_expr = FALSE; + in_field = FALSE; + } + + else if (token[0] == '(') { + blevel++; + mylog("blevel++ = %d\n", blevel); + } + else if (token[0] == ')') { + blevel--; + mylog("blevel-- = %d\n", blevel); + if (delim==',') { + in_func = FALSE; + in_expr = FALSE; + in_field = FALSE; + } + } + continue; + } + + if ( ! in_field) { + + if ( ! token[0]) + continue; + + if ( ! (stmt->nfld % FLD_INCR)) { + mylog("reallocing at nfld=%d\n", stmt->nfld); + fi = (FIELD_INFO **) realloc(fi, (stmt->nfld + FLD_INCR) * sizeof(FIELD_INFO *)); + if ( ! fi) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + stmt->fi = fi; + } + + fi[stmt->nfld] = (FIELD_INFO *) malloc( sizeof(FIELD_INFO)); + if (fi[stmt->nfld] == NULL) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + + /* Initialize the field info */ + memset(fi[stmt->nfld], 0, sizeof(FIELD_INFO)); + + /* double quotes are for qualifiers */ + if (dquote) + fi[stmt->nfld]->dquote = TRUE; + + if (quote) { + fi[stmt->nfld++]->quote = TRUE; + continue; + } + else if (numeric) { + mylog("**** got numeric: nfld = %d\n", stmt->nfld); + fi[stmt->nfld]->numeric = TRUE; + } + else if (token[0] == '(') { /* expression */ + mylog("got EXPRESSION\n"); + fi[stmt->nfld++]->expr = TRUE; + in_expr = TRUE; + blevel = 1; + continue; + } + + else { + strcpy(fi[stmt->nfld]->name, token); + fi[stmt->nfld]->dot[0] = '\0'; + } + mylog("got field='%s', dot='%s'\n", fi[stmt->nfld]->name, fi[stmt->nfld]->dot); + + if (delim == ',') { + mylog("comma (1)\n"); + } + else { + in_field = TRUE; + } + stmt->nfld++; + continue; + } + + /**************************/ + /* We are in a field now */ + /**************************/ + if (in_dot) { + stmt->nfld--; + strcpy(fi[stmt->nfld]->dot, fi[stmt->nfld]->name); + strcpy(fi[stmt->nfld]->name, token); + stmt->nfld++; + in_dot = FALSE; + + if (delim == ',') { + mylog("in_dot: got comma\n"); + in_field = FALSE; + } + + continue; + } + + if (in_as) { + stmt->nfld--; + strcpy(fi[stmt->nfld]->alias, token); + mylog("alias for field '%s' is '%s'\n", fi[stmt->nfld]->name, fi[stmt->nfld]->alias); + in_as = FALSE; + in_field = FALSE; + + stmt->nfld++; + + if (delim == ',') { + mylog("comma(2)\n"); + } + continue; + } + + /* Function */ + if (token[0] == '(') { + in_func = TRUE; + blevel = 1; + fi[stmt->nfld-1]->func = TRUE; + /* name will have the function name -- maybe useful some day */ + mylog("**** got function = '%s'\n", fi[stmt->nfld-1]->name); + continue; + } + + if (token[0] == '.') { + in_dot = TRUE; + mylog("got dot\n"); + continue; + } + + if ( ! stricmp(token, "as")) { + in_as = TRUE; + mylog("got AS\n"); + continue; + } + + /* otherwise, its probably an expression */ + in_expr = TRUE; + fi[stmt->nfld-1]->expr = TRUE; + fi[stmt->nfld-1]->name[0] = '\0'; + mylog("*** setting expression\n"); + + } + + if (in_from) { + + if ( ! in_table) { + if ( ! token[0]) + continue; + + if ( ! (stmt->ntab % TAB_INCR)) { + ti = (TABLE_INFO **) realloc(ti, (stmt->ntab + TAB_INCR) * sizeof(TABLE_INFO *)); + if ( ! ti) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + stmt->ti = ti; + } + ti[stmt->ntab] = (TABLE_INFO *) malloc(sizeof(TABLE_INFO)); + if (ti[stmt->ntab] == NULL) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + + ti[stmt->ntab]->alias[0] = '\0'; + + strcpy(ti[stmt->ntab]->name, token); + mylog("got table = '%s'\n", ti[stmt->ntab]->name); + + if (delim == ',') { + mylog("more than 1 tables\n"); + } + else { + in_table = TRUE; + } + stmt->ntab++; + continue; + } + + strcpy(ti[stmt->ntab-1]->alias, token); + mylog("alias for table '%s' is '%s'\n", ti[stmt->ntab-1]->name, ti[stmt->ntab-1]->alias); + in_table = FALSE; + if (delim == ',') { + mylog("more than 1 tables\n"); + } + } + } + + + /*************************************************/ + /* Resolve any possible field names with tables */ + /*************************************************/ + + parse = TRUE; + + /* Resolve field names with tables */ + for (i = 0; i < stmt->nfld; i++) { + + if (fi[i]->func || fi[i]->expr || fi[i]->numeric) { + fi[i]->ti = NULL; + fi[i]->type = -1; + parse = FALSE; + continue; + } + + else if (fi[i]->quote) { /* handle as text */ + fi[i]->ti = NULL; + fi[i]->type = PG_TYPE_TEXT; + fi[i]->precision = 0; + continue; + } + + /* its a dot, resolve to table or alias */ + else if (fi[i]->dot[0]) { + for (k = 0; k < stmt->ntab; k++) { + if ( ! stricmp(ti[k]->name, fi[i]->dot)) { + fi[i]->ti = ti[k]; + break; + } + else if ( ! stricmp(ti[k]->alias, fi[i]->dot)) { + fi[i]->ti = ti[k]; + break; + } + } + } + else if (stmt->ntab == 1) + fi[i]->ti = ti[0]; + } + + mylog("--------------------------------------------\n"); + mylog("nfld=%d, ntab=%d\n", stmt->nfld, stmt->ntab); + + for (i=0; i < stmt->nfld; i++) { + mylog("Field %d: expr=%d, func=%d, quote=%d, dquote=%d, numeric=%d, name='%s', alias='%s', dot='%s'\n", i, fi[i]->expr, fi[i]->func, fi[i]->quote, fi[i]->dquote, fi[i]->numeric, fi[i]->name, fi[i]->alias, fi[i]->dot); + if (fi[i]->ti) + mylog(" ----> table_name='%s', table_alias='%s'\n", fi[i]->ti->name, fi[i]->ti->alias); + } + + for (i=0; i < stmt->ntab; i++) { + mylog("Table %d: name='%s', alias='%s'\n", i, ti[i]->name, ti[i]->alias); + } + + + /******************************************************/ + /* Now save the SQLColumns Info for the parse tables */ + /******************************************************/ + + + /* Call SQLColumns for each table and store the result */ + for (i = 0; i < stmt->ntab; i++) { + + /* See if already got it */ + char found = FALSE; + for (k = 0; k < conn->ntables; k++) { + if ( ! stricmp(conn->col_info[k]->name, ti[i]->name)) { + mylog("FOUND col_info table='%s'\n", ti[i]->name); + found = TRUE; + break; + } + } + + if ( ! found) { + + mylog("PARSE: Getting SQLColumns for table[%d]='%s'\n", i, ti[i]->name); + + result = SQLAllocStmt( stmt->hdbc, &hcol_stmt); + if((result != SQL_SUCCESS) && (result != SQL_SUCCESS_WITH_INFO)) { + stmt->errormsg = "SQLAllocStmt failed in parse_statement for columns."; + stmt->errornumber = STMT_NO_MEMORY_ERROR; + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + + col_stmt = (StatementClass *) hcol_stmt; + col_stmt->internal = TRUE; + + result = SQLColumns(hcol_stmt, "", 0, "", 0, + ti[i]->name, (SWORD) strlen(ti[i]->name), "", 0); + + mylog(" Past SQLColumns\n"); + if (result == SQL_SUCCESS) { + mylog(" Success\n"); + if ( ! (conn->ntables % COL_INCR)) { + + mylog("PARSE: Allocing col_info at ntables=%d\n", conn->ntables); + + conn->col_info = (COL_INFO **) realloc(conn->col_info, (conn->ntables + COL_INCR) * sizeof(COL_INFO *)); + if ( ! conn->col_info) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + } + + mylog("PARSE: malloc at conn->col_info[%d]\n", conn->ntables); + conn->col_info[conn->ntables] = (COL_INFO *) malloc(sizeof(COL_INFO)); + if ( ! conn->col_info[conn->ntables]) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + + /* Store the table name and the SQLColumns result structure */ + strcpy(conn->col_info[conn->ntables]->name, ti[i]->name); + conn->col_info[conn->ntables]->result = col_stmt->result; + + /* The connection will now free the result structures, so make + sure that the statement doesn't free it + */ + col_stmt->result = NULL; + + conn->ntables++; + + SQLFreeStmt(hcol_stmt, SQL_DROP); + mylog("Created col_info table='%s', ntables=%d\n", ti[i]->name, conn->ntables); + } + else { + SQLFreeStmt(hcol_stmt, SQL_DROP); + break; + } + } + + /* Associate a table from the statement with a SQLColumn info */ + ti[i]->col_info = conn->col_info[k]; + mylog("associate col_info: i=%d, k=%d\n", i, k); + } + + + mylog("Done SQLColumns\n"); + + /******************************************************/ + /* Now resolve the fields to point to column info */ + /******************************************************/ + + + + for (i = 0; i < stmt->nfld;) { + + /* Dont worry about functions or quotes */ + if (fi[i]->func || fi[i]->quote || fi[i]->numeric) { + i++; + continue; + } + + /* Stars get expanded to all fields in the table */ + else if (fi[i]->name[0] == '*') { + + char do_all_tables; + int total_cols, old_size, need, cols; + + mylog("expanding field %d\n", i); + + total_cols = 0; + + if (fi[i]->ti) /* The star represents only the qualified table */ + total_cols = QR_get_num_tuples(fi[i]->ti->col_info->result); + + else { /* The star represents all tables */ + + /* Calculate the total number of columns after expansion */ + for (k = 0; k < stmt->ntab; k++) { + total_cols += QR_get_num_tuples(ti[k]->col_info->result); + } + } + total_cols--; /* makes up for the star */ + + /* Allocate some more field pointers if necessary */ + //------------------------------------------------------------- + old_size = (stmt->nfld / FLD_INCR * FLD_INCR + FLD_INCR); + need = total_cols - (old_size - stmt->nfld); + + mylog("k=%d, total_cols=%d, old_size=%d, need=%d\n", k,total_cols,old_size,need); + + if (need > 0) { + int new_size = need / FLD_INCR * FLD_INCR + FLD_INCR; + mylog("need more cols: new_size = %d\n", new_size); + fi = (FIELD_INFO **) realloc(fi, (old_size + new_size) * sizeof(FIELD_INFO *)); + if ( ! fi) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + } + + //------------------------------------------------------------- + // copy any other fields (if there are any) up past the expansion + for (j = stmt->nfld - 1; j > i; j--) { + mylog("copying field %d to %d\n", j, total_cols + j); + fi[total_cols + j] = fi[j]; + } + mylog("done copying fields\n"); + + //------------------------------------------------------------- + // Set the new number of fields + stmt->nfld += total_cols; + mylog("stmt->nfld now at %d\n", stmt->nfld); + + + //------------------------------------------------------------- + // copy the new field info + + + do_all_tables = (fi[i]->ti ? FALSE : TRUE); + + for (k = 0; k < (do_all_tables ? stmt->ntab : 1); k++) { + + TABLE_INFO *the_ti = do_all_tables ? ti[k] : fi[i]->ti; + + cols = QR_get_num_tuples(the_ti->col_info->result); + + for (n = 0; n < cols; n++) { + mylog("creating field info: n=%d\n", n); + // skip malloc (already did it for the Star) + if (k > 0 || n > 0) { + mylog("allocating field info at %d\n", n + i); + fi[n + i] = (FIELD_INFO *) malloc( sizeof(FIELD_INFO)); + if (fi[n + i] == NULL) { + stmt->parse_status = STMT_PARSE_FATAL; + return FALSE; + } + } + /* Initialize the new space (or the * field) */ + memset(fi[n + i], 0, sizeof(FIELD_INFO)); + fi[n + i]->ti = the_ti; + + mylog("about to copy at %d\n", n + i); + + getColInfo(the_ti->col_info, fi[n + i], n); + + mylog("done copying\n"); + } + + i += cols; + mylog("i now at %d\n", i); + } + + //------------------------------------------------------------- + } + + /* We either know which table the field was in because it was qualified + with a table name or alias -OR- there was only 1 table. + */ + else if (fi[i]->ti) { + + if ( ! searchColInfo(fi[i]->ti->col_info, fi[i])) + parse = FALSE; + + i++; + } + + /* Don't know the table -- search all tables in "from" list */ + else { + parse = FALSE; + for (k = 0; k < stmt->ntab; k++) { + if ( searchColInfo(ti[k]->col_info, fi[i])) { + fi[i]->ti = ti[k]; /* now know the table */ + parse = TRUE; + break; + } + } + i++; + } + } + + + if ( ! parse) + stmt->parse_status = STMT_PARSE_INCOMPLETE; + else + stmt->parse_status = STMT_PARSE_COMPLETE; + + + mylog("done parse_statement: parse=%d, parse_status=%d\n", parse, stmt->parse_status); + return parse; +} + |