/* src/interfaces/ecpg/ecpglib/execute.c */ /* * The aim is to get a simpler interface to the database routines. * All the tedious messing around with tuples is supposed to be hidden * by this function. */ /* Author: Linus Tolke (actually most if the code is "borrowed" from the distribution and just slightly modified) */ /* Taken over as part of PostgreSQL by Michael Meskes on Feb. 5th, 1998 */ #define POSTGRES_ECPG_INTERNAL #include "postgres_fe.h" #include #include "catalog/pg_type_d.h" #include "ecpgerrno.h" #include "ecpglib.h" #include "ecpglib_extern.h" #include "ecpgtype.h" #include "pgtypes_date.h" #include "pgtypes_interval.h" #include "pgtypes_numeric.h" #include "pgtypes_timestamp.h" #include "sql3types.h" #include "sqlca.h" #include "sqlda-compat.h" #include "sqlda-native.h" /* * This function returns a newly malloced string that has ' and \ * escaped. */ static char * quote_postgres(char *arg, bool quote, int lineno) { char *res; size_t length; size_t escaped_len; size_t buffer_len; /* * if quote is false we just need to store things in a descriptor they * will be quoted once they are inserted in a statement */ if (!quote) return arg; else { length = strlen(arg); buffer_len = 2 * length + 1; res = (char *) ecpg_alloc(buffer_len + 3, lineno); if (!res) return res; escaped_len = PQescapeString(res + 1, arg, buffer_len); if (length == escaped_len) { res[0] = res[escaped_len + 1] = '\''; res[escaped_len + 2] = '\0'; } else { /* * We don't know if the target database is using * standard_conforming_strings, so we always use E'' strings. */ memmove(res + 2, res + 1, escaped_len); res[0] = ESCAPE_STRING_SYNTAX; res[1] = res[escaped_len + 2] = '\''; res[escaped_len + 3] = '\0'; } ecpg_free(arg); return res; } } static void free_variable(struct variable *var) { struct variable *var_next; while (var) { var_next = var->next; ecpg_free(var); var = var_next; } } static void free_statement(struct statement *stmt) { if (stmt == NULL) return; free_variable(stmt->inlist); free_variable(stmt->outlist); ecpg_free(stmt->command); ecpg_free(stmt->name); #ifndef HAVE_USELOCALE ecpg_free(stmt->oldlocale); #endif ecpg_free(stmt); } static int next_insert(char *text, int pos, bool questionmarks, bool std_strings) { bool string = false; int p = pos; for (; text[p] != '\0'; p++) { if (string && !std_strings && text[p] == '\\') /* escape character */ p++; else if (text[p] == '\'') string = string ? false : true; else if (!string) { if (text[p] == '$' && isdigit((unsigned char) text[p + 1])) { /* this can be either a dollar quote or a variable */ int i; for (i = p + 1; isdigit((unsigned char) text[i]); i++) /* empty loop body */ ; if (!isalpha((unsigned char) text[i]) && isascii((unsigned char) text[i]) && text[i] != '_') /* not dollar delimited quote */ return p; } else if (questionmarks && text[p] == '?') { /* also allow old style placeholders */ return p; } } } return -1; } static bool ecpg_type_infocache_push(struct ECPGtype_information_cache **cache, int oid, enum ARRAY_TYPE isarray, int lineno) { struct ECPGtype_information_cache *new_entry = (struct ECPGtype_information_cache *) ecpg_alloc(sizeof(struct ECPGtype_information_cache), lineno); if (new_entry == NULL) return false; new_entry->oid = oid; new_entry->isarray = isarray; new_entry->next = *cache; *cache = new_entry; return true; } static enum ARRAY_TYPE ecpg_is_type_an_array(int type, const struct statement *stmt, const struct variable *var) { char *array_query; enum ARRAY_TYPE isarray = ECPG_ARRAY_NOT_SET; PGresult *query; struct ECPGtype_information_cache *cache_entry; if ((stmt->connection->cache_head) == NULL) { /* * Text like types are not an array for ecpg, but postgres counts them * as an array. This define reminds you to not 'correct' these values. */ #define not_an_array_in_ecpg ECPG_ARRAY_NONE /* populate cache with well known types to speed things up */ if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), BOOLOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), BYTEAOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), CHAROID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), NAMEOID, not_an_array_in_ecpg, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), INT8OID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), INT2OID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), INT2VECTOROID, ECPG_ARRAY_VECTOR, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), INT4OID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), REGPROCOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), TEXTOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), OIDOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), TIDOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), XIDOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), CIDOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), OIDVECTOROID, ECPG_ARRAY_VECTOR, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), POINTOID, ECPG_ARRAY_VECTOR, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), LSEGOID, ECPG_ARRAY_VECTOR, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), PATHOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), BOXOID, ECPG_ARRAY_VECTOR, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), POLYGONOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), LINEOID, ECPG_ARRAY_VECTOR, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), FLOAT4OID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), FLOAT8OID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), UNKNOWNOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), CIRCLEOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), MONEYOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), INETOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), CIDROID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), BPCHAROID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), VARCHAROID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), DATEOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), TIMEOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), TIMESTAMPOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), TIMESTAMPTZOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), INTERVALOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), TIMETZOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), BITOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), VARBITOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; if (!ecpg_type_infocache_push(&(stmt->connection->cache_head), NUMERICOID, ECPG_ARRAY_NONE, stmt->lineno)) return ECPG_ARRAY_ERROR; } for (cache_entry = (stmt->connection->cache_head); cache_entry != NULL; cache_entry = cache_entry->next) { if (cache_entry->oid == type) return cache_entry->isarray; } array_query = (char *) ecpg_alloc(strlen("select typlen from pg_type where oid= and typelem<>0") + 11, stmt->lineno); if (array_query == NULL) return ECPG_ARRAY_ERROR; sprintf(array_query, "select typlen from pg_type where oid=%d and typelem<>0", type); query = PQexec(stmt->connection->connection, array_query); ecpg_free(array_query); if (!ecpg_check_PQresult(query, stmt->lineno, stmt->connection->connection, stmt->compat)) return ECPG_ARRAY_ERROR; else if (PQresultStatus(query) == PGRES_TUPLES_OK) { if (PQntuples(query) == 0) isarray = ECPG_ARRAY_NONE; else { isarray = (atol((char *) PQgetvalue(query, 0, 0)) == -1) ? ECPG_ARRAY_ARRAY : ECPG_ARRAY_VECTOR; if (ecpg_dynamic_type(type) == SQL3_CHARACTER || ecpg_dynamic_type(type) == SQL3_CHARACTER_VARYING) { /* * arrays of character strings are not yet implemented */ isarray = ECPG_ARRAY_NONE; } } PQclear(query); } else return ECPG_ARRAY_ERROR; ecpg_type_infocache_push(&(stmt->connection->cache_head), type, isarray, stmt->lineno); ecpg_log("ecpg_is_type_an_array on line %d: type (%d); C (%d); array (%s)\n", stmt->lineno, type, var->type, ECPG_IS_ARRAY(isarray) ? "yes" : "no"); return isarray; } bool ecpg_store_result(const PGresult *results, int act_field, const struct statement *stmt, struct variable *var) { enum ARRAY_TYPE isarray; int act_tuple, ntuples = PQntuples(results); bool status = true; if ((isarray = ecpg_is_type_an_array(PQftype(results, act_field), stmt, var)) == ECPG_ARRAY_ERROR) { ecpg_raise(stmt->lineno, ECPG_OUT_OF_MEMORY, ECPG_SQLSTATE_ECPG_OUT_OF_MEMORY, NULL); return false; } if (isarray == ECPG_ARRAY_NONE) { /* * if we don't have enough space, we cannot read all tuples */ if ((var->arrsize > 0 && ntuples > var->arrsize) || (var->ind_arrsize > 0 && ntuples > var->ind_arrsize)) { ecpg_log("ecpg_store_result on line %d: incorrect number of matches; %d don't fit into array of %ld\n", stmt->lineno, ntuples, var->arrsize); ecpg_raise(stmt->lineno, INFORMIX_MODE(stmt->compat) ? ECPG_INFORMIX_SUBSELECT_NOT_ONE : ECPG_TOO_MANY_MATCHES, ECPG_SQLSTATE_CARDINALITY_VIOLATION, NULL); return false; } } else { /* * since we read an array, the variable has to be an array too */ if (var->arrsize == 0) { ecpg_raise(stmt->lineno, ECPG_NO_ARRAY, ECPG_SQLSTATE_DATATYPE_MISMATCH, NULL); return false; } } /* * allocate memory for NULL pointers */ if ((var->arrsize == 0 || var->varcharsize == 0) && var->value == NULL) { int len = 0; if (!PQfformat(results, act_field)) { switch (var->type) { case ECPGt_char: case ECPGt_unsigned_char: case ECPGt_string: if (!var->varcharsize && !var->arrsize) { /* special mode for handling char**foo=0 */ for (act_tuple = 0; act_tuple < ntuples; act_tuple++) len += strlen(PQgetvalue(results, act_tuple, act_field)) + 1; len *= var->offset; /* should be 1, but YMNK */ len += (ntuples + 1) * sizeof(char *); } else { var->varcharsize = 0; /* check strlen for each tuple */ for (act_tuple = 0; act_tuple < ntuples; act_tuple++) { int slen = strlen(PQgetvalue(results, act_tuple, act_field)) + 1; if (slen > var->varcharsize) var->varcharsize = slen; } var->offset *= var->varcharsize; len = var->offset * ntuples; } break; case ECPGt_varchar: len = ntuples * (var->varcharsize + sizeof(int)); break; default: len = var->offset * ntuples; break; } } else { for (act_tuple = 0; act_tuple < ntuples; act_tuple++) len += PQgetlength(results, act_tuple, act_field); } ecpg_log("ecpg_store_result on line %d: allocating memory for %d tuples\n", stmt->lineno, ntuples); var->value = (char *) ecpg_auto_alloc(len, stmt->lineno); if (!var->value) return false; *((char **) var->pointer) = var->value; } /* allocate indicator variable if needed */ if ((var->ind_arrsize == 0 || var->ind_varcharsize == 0) && var->ind_value == NULL && var->ind_pointer != NULL) { int len = var->ind_offset * ntuples; var->ind_value = (char *) ecpg_auto_alloc(len, stmt->lineno); if (!var->ind_value) return false; *((char **) var->ind_pointer) = var->ind_value; } /* fill the variable with the tuple(s) */ if (!var->varcharsize && !var->arrsize && (var->type == ECPGt_char || var->type == ECPGt_unsigned_char || var->type == ECPGt_string)) { /* special mode for handling char**foo=0 */ /* filling the array of (char*)s */ char **current_string = (char **) var->value; /* storing the data (after the last array element) */ char *current_data_location = (char *) ¤t_string[ntuples + 1]; for (act_tuple = 0; act_tuple < ntuples && status; act_tuple++) { int len = strlen(PQgetvalue(results, act_tuple, act_field)) + 1; if (!ecpg_get_data(results, act_tuple, act_field, stmt->lineno, var->type, var->ind_type, current_data_location, var->ind_value, len, 0, var->ind_offset, isarray, stmt->compat, stmt->force_indicator)) status = false; else { *current_string = current_data_location; current_data_location += len; current_string++; } } /* terminate the list */ *current_string = NULL; } else { for (act_tuple = 0; act_tuple < ntuples && status; act_tuple++) { if (!ecpg_get_data(results, act_tuple, act_field, stmt->lineno, var->type, var->ind_type, var->value, var->ind_value, var->varcharsize, var->offset, var->ind_offset, isarray, stmt->compat, stmt->force_indicator)) status = false; } } return status; } static void sprintf_double_value(char *ptr, double value, const char *delim) { if (isnan(value)) sprintf(ptr, "%s%s", "NaN", delim); else if (isinf(value)) { if (value < 0) sprintf(ptr, "%s%s", "-Infinity", delim); else sprintf(ptr, "%s%s", "Infinity", delim); } else sprintf(ptr, "%.15g%s", value, delim); } static void sprintf_float_value(char *ptr, float value, const char *delim) { if (isnan(value)) sprintf(ptr, "%s%s", "NaN", delim); else if (isinf(value)) { if (value < 0) sprintf(ptr, "%s%s", "-Infinity", delim); else sprintf(ptr, "%s%s", "Infinity", delim); } else sprintf(ptr, "%.15g%s", value, delim); } static char * convert_bytea_to_string(char *from_data, int from_len, int lineno) { char *to_data; int to_len = ecpg_hex_enc_len(from_len) + 4 + 1; /* backslash + 'x' + * quote + quote */ to_data = ecpg_alloc(to_len, lineno); if (!to_data) return NULL; strcpy(to_data, "'\\x"); ecpg_hex_encode(from_data, from_len, to_data + 3); strcpy(to_data + 3 + ecpg_hex_enc_len(from_len), "\'"); return to_data; } bool ecpg_store_input(const int lineno, const bool force_indicator, const struct variable *var, char **tobeinserted_p, bool quote) { char *mallocedval = NULL; char *newcopy = NULL; /* * arrays are not possible unless the column is an array, too FIXME: we do * not know if the column is an array here array input to singleton column * will result in a runtime error */ /* * Some special treatment is needed for records since we want their * contents to arrive in a comma-separated list on insert (I think). */ *tobeinserted_p = ""; /* check for null value and set input buffer accordingly */ switch (var->ind_type) { case ECPGt_short: case ECPGt_unsigned_short: if (*(short *) var->ind_value < 0) *tobeinserted_p = NULL; break; case ECPGt_int: case ECPGt_unsigned_int: if (*(int *) var->ind_value < 0) *tobeinserted_p = NULL; break; case ECPGt_long: case ECPGt_unsigned_long: if (*(long *) var->ind_value < 0L) *tobeinserted_p = NULL; break; case ECPGt_long_long: case ECPGt_unsigned_long_long: if (*(long long int *) var->ind_value < (long long) 0) *tobeinserted_p = NULL; break; case ECPGt_NO_INDICATOR: if (force_indicator == false) { if (ECPGis_noind_null(var->type, var->value)) *tobeinserted_p = NULL; } break; default: break; } if (*tobeinserted_p != NULL) { int asize = var->arrsize ? var->arrsize : 1; switch (var->type) { int element; case ECPGt_short: if (!(mallocedval = ecpg_alloc(asize * 20, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%hd,", ((short *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%hd", *((short *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_int: if (!(mallocedval = ecpg_alloc(asize * 20, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%d,", ((int *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%d", *((int *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_unsigned_short: if (!(mallocedval = ecpg_alloc(asize * 20, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%hu,", ((unsigned short *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%hu", *((unsigned short *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_unsigned_int: if (!(mallocedval = ecpg_alloc(asize * 20, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%u,", ((unsigned int *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%u", *((unsigned int *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_long: if (!(mallocedval = ecpg_alloc(asize * 20, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%ld,", ((long *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%ld", *((long *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_unsigned_long: if (!(mallocedval = ecpg_alloc(asize * 20, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%lu,", ((unsigned long *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%lu", *((unsigned long *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_long_long: if (!(mallocedval = ecpg_alloc(asize * 30, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%lld,", ((long long int *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%lld", *((long long int *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_unsigned_long_long: if (!(mallocedval = ecpg_alloc(asize * 30, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%llu,", ((unsigned long long int *) var->value)[element]); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf(mallocedval, "%llu", *((unsigned long long int *) var->value)); *tobeinserted_p = mallocedval; break; case ECPGt_float: if (!(mallocedval = ecpg_alloc(asize * 25, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf_float_value(mallocedval + strlen(mallocedval), ((float *) var->value)[element], ","); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf_float_value(mallocedval, *((float *) var->value), ""); *tobeinserted_p = mallocedval; break; case ECPGt_double: if (!(mallocedval = ecpg_alloc(asize * 25, lineno))) return false; if (asize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf_double_value(mallocedval + strlen(mallocedval), ((double *) var->value)[element], ","); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else sprintf_double_value(mallocedval, *((double *) var->value), ""); *tobeinserted_p = mallocedval; break; case ECPGt_bool: if (!(mallocedval = ecpg_alloc(var->arrsize + sizeof("{}"), lineno))) return false; if (var->arrsize > 1) { strcpy(mallocedval, "{"); for (element = 0; element < asize; element++) sprintf(mallocedval + strlen(mallocedval), "%c,", (((bool *) var->value)[element]) ? 't' : 'f'); strcpy(mallocedval + strlen(mallocedval) - 1, "}"); } else { if (var->offset == sizeof(char)) sprintf(mallocedval, "%c", (*((char *) var->value)) ? 't' : 'f'); else if (var->offset == sizeof(int)) sprintf(mallocedval, "%c", (*((int *) var->value)) ? 't' : 'f'); else ecpg_raise(lineno, ECPG_CONVERT_BOOL, ECPG_SQLSTATE_DATATYPE_MISMATCH, NULL); } *tobeinserted_p = mallocedval; break; case ECPGt_char: case ECPGt_unsigned_char: case ECPGt_string: { /* set slen to string length if type is char * */ int slen = (var->varcharsize == 0) ? strlen((char *) var->value) : (unsigned int) var->varcharsize; if (!(newcopy = ecpg_alloc(slen + 1, lineno))) return false; strncpy(newcopy, (char *) var->value, slen); newcopy[slen] = '\0'; mallocedval = quote_postgres(newcopy, quote, lineno); if (!mallocedval) { ecpg_free(newcopy); return false; } *tobeinserted_p = mallocedval; } break; case ECPGt_const: case ECPGt_char_variable: { int slen = strlen((char *) var->value); if (!(mallocedval = ecpg_alloc(slen + 1, lineno))) return false; strncpy(mallocedval, (char *) var->value, slen); mallocedval[slen] = '\0'; *tobeinserted_p = mallocedval; } break; case ECPGt_bytea: { struct ECPGgeneric_bytea *variable = (struct ECPGgeneric_bytea *) (var->value); if (!(mallocedval = (char *) ecpg_alloc(variable->len, lineno))) return false; memcpy(mallocedval, variable->arr, variable->len); *tobeinserted_p = mallocedval; } break; case ECPGt_varchar: { struct ECPGgeneric_varchar *variable = (struct ECPGgeneric_varchar *) (var->value); if (!(newcopy = (char *) ecpg_alloc(variable->len + 1, lineno))) return false; strncpy(newcopy, variable->arr, variable->len); newcopy[variable->len] = '\0'; mallocedval = quote_postgres(newcopy, quote, lineno); if (!mallocedval) { ecpg_free(newcopy); return false; } *tobeinserted_p = mallocedval; } break; case ECPGt_decimal: case ECPGt_numeric: { char *str = NULL; int slen; numeric *nval; if (var->arrsize > 1) mallocedval = ecpg_strdup("{", lineno); else mallocedval = ecpg_strdup("", lineno); if (!mallocedval) return false; for (element = 0; element < asize; element++) { int result; nval = PGTYPESnumeric_new(); if (!nval) { ecpg_free(mallocedval); return false; } if (var->type == ECPGt_numeric) result = PGTYPESnumeric_copy(&(((numeric *) (var->value))[element]), nval); else result = PGTYPESnumeric_from_decimal(&(((decimal *) (var->value))[element]), nval); if (result != 0) { PGTYPESnumeric_free(nval); ecpg_free(mallocedval); return false; } str = PGTYPESnumeric_to_asc(nval, nval->dscale); slen = strlen(str); PGTYPESnumeric_free(nval); if (!(newcopy = ecpg_realloc(mallocedval, strlen(mallocedval) + slen + 2, lineno))) { ecpg_free(mallocedval); ecpg_free(str); return false; } mallocedval = newcopy; /* also copy trailing '\0' */ memcpy(mallocedval + strlen(mallocedval), str, slen + 1); if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval), ","); ecpg_free(str); } if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval) - 1, "}"); *tobeinserted_p = mallocedval; } break; case ECPGt_interval: { char *str = NULL; int slen; if (var->arrsize > 1) mallocedval = ecpg_strdup("{", lineno); else mallocedval = ecpg_strdup("", lineno); if (!mallocedval) return false; for (element = 0; element < asize; element++) { str = quote_postgres(PGTYPESinterval_to_asc(&(((interval *) (var->value))[element])), quote, lineno); if (!str) { ecpg_free(mallocedval); return false; } slen = strlen(str); if (!(newcopy = ecpg_realloc(mallocedval, strlen(mallocedval) + slen + 2, lineno))) { ecpg_free(mallocedval); ecpg_free(str); return false; } mallocedval = newcopy; /* also copy trailing '\0' */ memcpy(mallocedval + strlen(mallocedval), str, slen + 1); if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval), ","); ecpg_free(str); } if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval) - 1, "}"); *tobeinserted_p = mallocedval; } break; case ECPGt_date: { char *str = NULL; int slen; if (var->arrsize > 1) mallocedval = ecpg_strdup("{", lineno); else mallocedval = ecpg_strdup("", lineno); if (!mallocedval) return false; for (element = 0; element < asize; element++) { str = quote_postgres(PGTYPESdate_to_asc(((date *) (var->value))[element]), quote, lineno); if (!str) { ecpg_free(mallocedval); return false; } slen = strlen(str); if (!(newcopy = ecpg_realloc(mallocedval, strlen(mallocedval) + slen + 2, lineno))) { ecpg_free(mallocedval); ecpg_free(str); return false; } mallocedval = newcopy; /* also copy trailing '\0' */ memcpy(mallocedval + strlen(mallocedval), str, slen + 1); if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval), ","); ecpg_free(str); } if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval) - 1, "}"); *tobeinserted_p = mallocedval; } break; case ECPGt_timestamp: { char *str = NULL; int slen; if (var->arrsize > 1) mallocedval = ecpg_strdup("{", lineno); else mallocedval = ecpg_strdup("", lineno); if (!mallocedval) return false; for (element = 0; element < asize; element++) { str = quote_postgres(PGTYPEStimestamp_to_asc(((timestamp *) (var->value))[element]), quote, lineno); if (!str) { ecpg_free(mallocedval); return false; } slen = strlen(str); if (!(newcopy = ecpg_realloc(mallocedval, strlen(mallocedval) + slen + 2, lineno))) { ecpg_free(mallocedval); ecpg_free(str); return false; } mallocedval = newcopy; /* also copy trailing '\0' */ memcpy(mallocedval + strlen(mallocedval), str, slen + 1); if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval), ","); ecpg_free(str); } if (var->arrsize > 1) strcpy(mallocedval + strlen(mallocedval) - 1, "}"); *tobeinserted_p = mallocedval; } break; case ECPGt_descriptor: case ECPGt_sqlda: break; default: /* Not implemented yet */ ecpg_raise(lineno, ECPG_UNSUPPORTED, ECPG_SQLSTATE_ECPG_INTERNAL_ERROR, ecpg_type_name(var->type)); return false; break; } } return true; } static void print_param_value(char *value, int len, int is_binary, int lineno, int nth) { char *value_s; bool malloced = false; if (value == NULL) value_s = "null"; else if (!is_binary) value_s = value; else { value_s = ecpg_alloc(ecpg_hex_enc_len(len) + 1, lineno); if (value_s != NULL) { ecpg_hex_encode(value, len, value_s); value_s[ecpg_hex_enc_len(len)] = '\0'; malloced = true; } else value_s = "no memory for logging of parameter"; } ecpg_log("ecpg_free_params on line %d: parameter %d = %s\n", lineno, nth, value_s); if (malloced) ecpg_free(value_s); } void ecpg_free_params(struct statement *stmt, bool print) { int n; for (n = 0; n < stmt->nparams; n++) { if (print) print_param_value(stmt->paramvalues[n], stmt->paramlengths[n], stmt->paramformats[n], stmt->lineno, n + 1); ecpg_free(stmt->paramvalues[n]); } ecpg_free(stmt->paramvalues); ecpg_free(stmt->paramlengths); ecpg_free(stmt->paramformats); stmt->paramvalues = NULL; stmt->paramlengths = NULL; stmt->paramformats = NULL; stmt->nparams = 0; } static bool insert_tobeinserted(int position, int ph_len, struct statement *stmt, char *tobeinserted) { char *newcopy; if (!(newcopy = (char *) ecpg_alloc(strlen(stmt->command) + strlen(tobeinserted) + 1, stmt->lineno))) { ecpg_free(tobeinserted); return false; } strcpy(newcopy, stmt->command); strcpy(newcopy + position - 1, tobeinserted); /* * The strange thing in the second argument is the rest of the string from * the old string */ strcat(newcopy, stmt->command + position + ph_len - 1); ecpg_free(stmt->command); stmt->command = newcopy; ecpg_free(tobeinserted); return true; } static bool store_input_from_desc(struct statement *stmt, struct descriptor_item *desc_item, char **tobeinserted) { struct variable var; /* * In case of binary data, only allocate memory and memcpy because binary * data have been already stored into desc_item->data with * ecpg_store_input() at ECPGset_desc(). */ if (desc_item->is_binary) { if (!(*tobeinserted = ecpg_alloc(desc_item->data_len, stmt->lineno))) return false; memcpy(*tobeinserted, desc_item->data, desc_item->data_len); return true; } var.type = ECPGt_char; var.varcharsize = strlen(desc_item->data); var.value = desc_item->data; var.pointer = &(desc_item->data); var.arrsize = 1; var.offset = 0; if (!desc_item->indicator) { var.ind_type = ECPGt_NO_INDICATOR; var.ind_value = var.ind_pointer = NULL; var.ind_varcharsize = var.ind_arrsize = var.ind_offset = 0; } else { var.ind_type = ECPGt_int; var.ind_value = &(desc_item->indicator); var.ind_pointer = &(var.ind_value); var.ind_varcharsize = var.ind_arrsize = 1; var.ind_offset = 0; } if (!ecpg_store_input(stmt->lineno, stmt->force_indicator, &var, tobeinserted, false)) return false; return true; } /* * ecpg_build_params * Build statement parameters * * The input values are taken from user variables, and the results are stored * in arrays which can be used by PQexecParams(). */ bool ecpg_build_params(struct statement *stmt) { struct variable *var; int desc_counter = 0; int position = 0; const char *value; bool std_strings = false; /* Get standard_conforming_strings setting. */ value = PQparameterStatus(stmt->connection->connection, "standard_conforming_strings"); if (value && strcmp(value, "on") == 0) std_strings = true; /* * If the type is one of the fill in types then we take the argument and * enter it to our parameter array at the first position. Then if there * are any more fill in types we add more parameters. */ var = stmt->inlist; while (var) { char *tobeinserted; int counter = 1; bool binary_format; int binary_length; tobeinserted = NULL; binary_length = 0; binary_format = false; /* * A descriptor is a special case since it contains many variables but * is listed only once. */ if (var->type == ECPGt_descriptor) { /* * We create an additional variable list here, so the same logic * applies. */ struct descriptor *desc; struct descriptor_item *desc_item; desc = ecpg_find_desc(stmt->lineno, var->pointer); if (desc == NULL) return false; desc_counter++; for (desc_item = desc->items; desc_item; desc_item = desc_item->next) { if (desc_item->num != desc_counter) continue; if (!store_input_from_desc(stmt, desc_item, &tobeinserted)) return false; if (desc_item->is_binary) { binary_length = desc_item->data_len; binary_format = true; } break; } if (desc->count == desc_counter) desc_counter = 0; } else if (var->type == ECPGt_sqlda) { if (INFORMIX_MODE(stmt->compat)) { struct sqlda_compat *sqlda = *(struct sqlda_compat **) var->pointer; struct variable desc_inlist; int i; if (sqlda == NULL) return false; desc_counter++; for (i = 0; i < sqlda->sqld; i++) { if (i + 1 == desc_counter) { desc_inlist.type = sqlda->sqlvar[i].sqltype; desc_inlist.value = sqlda->sqlvar[i].sqldata; desc_inlist.pointer = &(sqlda->sqlvar[i].sqldata); switch (desc_inlist.type) { case ECPGt_char: case ECPGt_varchar: desc_inlist.varcharsize = strlen(sqlda->sqlvar[i].sqldata); break; default: desc_inlist.varcharsize = 0; break; } desc_inlist.arrsize = 1; desc_inlist.offset = 0; if (sqlda->sqlvar[i].sqlind) { desc_inlist.ind_type = ECPGt_short; /* ECPG expects indicator value < 0 */ if (*(sqlda->sqlvar[i].sqlind)) *(sqlda->sqlvar[i].sqlind) = -1; desc_inlist.ind_value = sqlda->sqlvar[i].sqlind; desc_inlist.ind_pointer = &(sqlda->sqlvar[i].sqlind); desc_inlist.ind_varcharsize = desc_inlist.ind_arrsize = 1; desc_inlist.ind_offset = 0; } else { desc_inlist.ind_type = ECPGt_NO_INDICATOR; desc_inlist.ind_value = desc_inlist.ind_pointer = NULL; desc_inlist.ind_varcharsize = desc_inlist.ind_arrsize = desc_inlist.ind_offset = 0; } if (!ecpg_store_input(stmt->lineno, stmt->force_indicator, &desc_inlist, &tobeinserted, false)) return false; break; } } if (sqlda->sqld == desc_counter) desc_counter = 0; } else { struct sqlda_struct *sqlda = *(struct sqlda_struct **) var->pointer; struct variable desc_inlist; int i; if (sqlda == NULL) return false; desc_counter++; for (i = 0; i < sqlda->sqln; i++) { if (i + 1 == desc_counter) { desc_inlist.type = sqlda->sqlvar[i].sqltype; desc_inlist.value = sqlda->sqlvar[i].sqldata; desc_inlist.pointer = &(sqlda->sqlvar[i].sqldata); switch (desc_inlist.type) { case ECPGt_char: case ECPGt_varchar: desc_inlist.varcharsize = strlen(sqlda->sqlvar[i].sqldata); break; default: desc_inlist.varcharsize = 0; break; } desc_inlist.arrsize = 1; desc_inlist.offset = 0; if (sqlda->sqlvar[i].sqlind) { desc_inlist.ind_type = ECPGt_short; /* ECPG expects indicator value < 0 */ if (*(sqlda->sqlvar[i].sqlind)) *(sqlda->sqlvar[i].sqlind) = -1; desc_inlist.ind_value = sqlda->sqlvar[i].sqlind; desc_inlist.ind_pointer = &(sqlda->sqlvar[i].sqlind); desc_inlist.ind_varcharsize = desc_inlist.ind_arrsize = 1; desc_inlist.ind_offset = 0; } else { desc_inlist.ind_type = ECPGt_NO_INDICATOR; desc_inlist.ind_value = desc_inlist.ind_pointer = NULL; desc_inlist.ind_varcharsize = desc_inlist.ind_arrsize = desc_inlist.ind_offset = 0; } if (!ecpg_store_input(stmt->lineno, stmt->force_indicator, &desc_inlist, &tobeinserted, false)) return false; break; } } if (sqlda->sqln == desc_counter) desc_counter = 0; } } else { if (!ecpg_store_input(stmt->lineno, stmt->force_indicator, var, &tobeinserted, false)) return false; if (var->type == ECPGt_bytea) { binary_length = ((struct ECPGgeneric_bytea *) (var->value))->len; binary_format = true; } } /* * now tobeinserted points to an area that contains the next * parameter; now find the position in the string where it belongs */ if ((position = next_insert(stmt->command, position, stmt->questionmarks, std_strings) + 1) == 0) { /* * We have an argument but we don't have the matched up * placeholder in the string */ ecpg_raise(stmt->lineno, ECPG_TOO_MANY_ARGUMENTS, ECPG_SQLSTATE_USING_CLAUSE_DOES_NOT_MATCH_PARAMETERS, NULL); ecpg_free_params(stmt, false); ecpg_free(tobeinserted); return false; } /* * if var->type=ECPGt_char_variable we have a dynamic cursor we have * to simulate a dynamic cursor because there is no backend * functionality for it */ if (var->type == ECPGt_char_variable) { int ph_len = (stmt->command[position] == '?') ? strlen("?") : strlen("$1"); if (!insert_tobeinserted(position, ph_len, stmt, tobeinserted)) { ecpg_free_params(stmt, false); return false; } tobeinserted = NULL; } /* * if the placeholder is '$0' we have to replace it on the client side * this is for places we want to support variables at that are not * supported in the backend */ else if (stmt->command[position] == '0') { if (stmt->statement_type == ECPGst_prepare || stmt->statement_type == ECPGst_exec_with_exprlist) { /* Need to double-quote the inserted statement name. */ char *str = ecpg_alloc(strlen(tobeinserted) + 2 + 1, stmt->lineno); if (!str) { ecpg_free(tobeinserted); ecpg_free_params(stmt, false); return false; } sprintf(str, "\"%s\"", tobeinserted); ecpg_free(tobeinserted); tobeinserted = str; } if (!insert_tobeinserted(position, 2, stmt, tobeinserted)) { ecpg_free_params(stmt, false); return false; } tobeinserted = NULL; } else if (stmt->statement_type == ECPGst_exec_with_exprlist) { if (binary_format) { char *p = convert_bytea_to_string(tobeinserted, binary_length, stmt->lineno); ecpg_free(tobeinserted); if (!p) { ecpg_free_params(stmt, false); return false; } tobeinserted = p; } if (!insert_tobeinserted(position, 2, stmt, tobeinserted)) { ecpg_free_params(stmt, false); return false; } tobeinserted = NULL; } else { bool realloc_failed = false; char **newparamvalues; int *newparamlengths; int *newparamformats; /* enlarge all the param arrays */ if ((newparamvalues = (char **) ecpg_realloc(stmt->paramvalues, sizeof(char *) * (stmt->nparams + 1), stmt->lineno))) stmt->paramvalues = newparamvalues; else realloc_failed = true; if ((newparamlengths = (int *) ecpg_realloc(stmt->paramlengths, sizeof(int) * (stmt->nparams + 1), stmt->lineno))) stmt->paramlengths = newparamlengths; else realloc_failed = true; if ((newparamformats = (int *) ecpg_realloc(stmt->paramformats, sizeof(int) * (stmt->nparams + 1), stmt->lineno))) stmt->paramformats = newparamformats; else realloc_failed = true; if (realloc_failed) { ecpg_free_params(stmt, false); ecpg_free(tobeinserted); return false; } /* only now can we assign ownership of "tobeinserted" to stmt */ stmt->paramvalues[stmt->nparams] = tobeinserted; stmt->paramlengths[stmt->nparams] = binary_length; stmt->paramformats[stmt->nparams] = (binary_format ? 1 : 0); stmt->nparams++; /* let's see if this was an old style placeholder */ if (stmt->command[position] == '?') { /* yes, replace with new style */ int buffersize = sizeof(int) * CHAR_BIT * 10 / 3; /* a rough guess of the * size we need */ if (!(tobeinserted = (char *) ecpg_alloc(buffersize, stmt->lineno))) { ecpg_free_params(stmt, false); return false; } snprintf(tobeinserted, buffersize, "$%d", counter++); if (!insert_tobeinserted(position, 2, stmt, tobeinserted)) { ecpg_free_params(stmt, false); return false; } tobeinserted = NULL; } } if (desc_counter == 0) var = var->next; } /* * Check if there are unmatched things left. PREPARE AS has no parameter. * Check other statement. */ if (stmt->statement_type != ECPGst_prepare && next_insert(stmt->command, position, stmt->questionmarks, std_strings) >= 0) { ecpg_raise(stmt->lineno, ECPG_TOO_FEW_ARGUMENTS, ECPG_SQLSTATE_USING_CLAUSE_DOES_NOT_MATCH_PARAMETERS, NULL); ecpg_free_params(stmt, false); return false; } return true; } /* * ecpg_autostart_transaction * If we are in non-autocommit mode, automatically start a transaction. */ bool ecpg_autostart_transaction(struct statement *stmt) { if (PQtransactionStatus(stmt->connection->connection) == PQTRANS_IDLE && !stmt->connection->autocommit) { stmt->results = PQexec(stmt->connection->connection, "begin transaction"); if (!ecpg_check_PQresult(stmt->results, stmt->lineno, stmt->connection->connection, stmt->compat)) { ecpg_free_params(stmt, false); return false; } PQclear(stmt->results); stmt->results = NULL; } return true; } /* * ecpg_execute * Execute the SQL statement. */ bool ecpg_execute(struct statement *stmt) { ecpg_log("ecpg_execute on line %d: query: %s; with %d parameter(s) on connection %s\n", stmt->lineno, stmt->command, stmt->nparams, stmt->connection->name); if (stmt->statement_type == ECPGst_execute) { stmt->results = PQexecPrepared(stmt->connection->connection, stmt->name, stmt->nparams, (const char *const *) stmt->paramvalues, (const int *) stmt->paramlengths, (const int *) stmt->paramformats, 0); ecpg_log("ecpg_execute on line %d: using PQexecPrepared for \"%s\"\n", stmt->lineno, stmt->command); } else { if (stmt->nparams == 0) { stmt->results = PQexec(stmt->connection->connection, stmt->command); ecpg_log("ecpg_execute on line %d: using PQexec\n", stmt->lineno); } else { stmt->results = PQexecParams(stmt->connection->connection, stmt->command, stmt->nparams, NULL, (const char *const *) stmt->paramvalues, (const int *) stmt->paramlengths, (const int *) stmt->paramformats, 0); ecpg_log("ecpg_execute on line %d: using PQexecParams\n", stmt->lineno); } if (stmt->statement_type == ECPGst_prepare) { if (!ecpg_register_prepared_stmt(stmt)) { ecpg_free_params(stmt, true); return false; } } } ecpg_free_params(stmt, true); if (!ecpg_check_PQresult(stmt->results, stmt->lineno, stmt->connection->connection, stmt->compat)) return false; return true; } /*------- * ecpg_process_output * * Process the statement result and store it into application variables. This * function can be called repeatedly during the same statement in case cursor * readahead is used and the application does FETCH N which overflows the * readahead window. * * Parameters * stmt statement structure holding the PGresult and * the list of output variables * clear_result * PQclear() the result upon returning from this function * * Returns success as boolean. Also an SQL error is raised in case of failure. *------- */ bool ecpg_process_output(struct statement *stmt, bool clear_result) { struct variable *var; bool status = false; char *cmdstat; PGnotify *notify; struct sqlca_t *sqlca = ECPGget_sqlca(); int nfields, ntuples, act_field; if (sqlca == NULL) { ecpg_raise(stmt->lineno, ECPG_OUT_OF_MEMORY, ECPG_SQLSTATE_ECPG_OUT_OF_MEMORY, NULL); return false; } var = stmt->outlist; switch (PQresultStatus(stmt->results)) { case PGRES_TUPLES_OK: nfields = PQnfields(stmt->results); sqlca->sqlerrd[2] = ntuples = PQntuples(stmt->results); ecpg_log("ecpg_process_output on line %d: correctly got %d tuples with %d fields\n", stmt->lineno, ntuples, nfields); status = true; if (ntuples < 1) { if (ntuples) ecpg_log("ecpg_process_output on line %d: incorrect number of matches (%d)\n", stmt->lineno, ntuples); ecpg_raise(stmt->lineno, ECPG_NOT_FOUND, ECPG_SQLSTATE_NO_DATA, NULL); status = false; break; } if (var != NULL && var->type == ECPGt_descriptor) { struct descriptor *desc = ecpg_find_desc(stmt->lineno, var->pointer); if (desc == NULL) status = false; else { PQclear(desc->result); desc->result = stmt->results; clear_result = false; ecpg_log("ecpg_process_output on line %d: putting result (%d tuples) into descriptor %s\n", stmt->lineno, PQntuples(stmt->results), (const char *) var->pointer); } var = var->next; } else if (var != NULL && var->type == ECPGt_sqlda) { if (INFORMIX_MODE(stmt->compat)) { struct sqlda_compat **_sqlda = (struct sqlda_compat **) var->pointer; struct sqlda_compat *sqlda = *_sqlda; struct sqlda_compat *sqlda_new; int i; /* * If we are passed in a previously existing sqlda (chain) * then free it. */ while (sqlda) { sqlda_new = sqlda->desc_next; free(sqlda); sqlda = sqlda_new; } *_sqlda = sqlda = sqlda_new = NULL; for (i = ntuples - 1; i >= 0; i--) { /* * Build a new sqlda structure. Note that only * fetching 1 record is supported */ sqlda_new = ecpg_build_compat_sqlda(stmt->lineno, stmt->results, i, stmt->compat); if (!sqlda_new) { /* cleanup all SQLDAs we created up */ while (sqlda) { sqlda_new = sqlda->desc_next; free(sqlda); sqlda = sqlda_new; } *_sqlda = NULL; ecpg_log("ecpg_process_output on line %d: out of memory allocating a new sqlda\n", stmt->lineno); status = false; break; } else { ecpg_log("ecpg_process_output on line %d: new sqlda was built\n", stmt->lineno); *_sqlda = sqlda_new; ecpg_set_compat_sqlda(stmt->lineno, _sqlda, stmt->results, i, stmt->compat); ecpg_log("ecpg_process_output on line %d: putting result (1 tuple %d fields) into sqlda descriptor\n", stmt->lineno, PQnfields(stmt->results)); sqlda_new->desc_next = sqlda; sqlda = sqlda_new; } } } else { struct sqlda_struct **_sqlda = (struct sqlda_struct **) var->pointer; struct sqlda_struct *sqlda = *_sqlda; struct sqlda_struct *sqlda_new; int i; /* * If we are passed in a previously existing sqlda (chain) * then free it. */ while (sqlda) { sqlda_new = sqlda->desc_next; free(sqlda); sqlda = sqlda_new; } *_sqlda = sqlda = sqlda_new = NULL; for (i = ntuples - 1; i >= 0; i--) { /* * Build a new sqlda structure. Note that only * fetching 1 record is supported */ sqlda_new = ecpg_build_native_sqlda(stmt->lineno, stmt->results, i, stmt->compat); if (!sqlda_new) { /* cleanup all SQLDAs we created up */ while (sqlda) { sqlda_new = sqlda->desc_next; free(sqlda); sqlda = sqlda_new; } *_sqlda = NULL; ecpg_log("ecpg_process_output on line %d: out of memory allocating a new sqlda\n", stmt->lineno); status = false; break; } else { ecpg_log("ecpg_process_output on line %d: new sqlda was built\n", stmt->lineno); *_sqlda = sqlda_new; ecpg_set_native_sqlda(stmt->lineno, _sqlda, stmt->results, i, stmt->compat); ecpg_log("ecpg_process_output on line %d: putting result (1 tuple %d fields) into sqlda descriptor\n", stmt->lineno, PQnfields(stmt->results)); sqlda_new->desc_next = sqlda; sqlda = sqlda_new; } } } var = var->next; } else for (act_field = 0; act_field < nfields && status; act_field++) { if (var != NULL) { status = ecpg_store_result(stmt->results, act_field, stmt, var); var = var->next; } else if (!INFORMIX_MODE(stmt->compat)) { ecpg_raise(stmt->lineno, ECPG_TOO_FEW_ARGUMENTS, ECPG_SQLSTATE_USING_CLAUSE_DOES_NOT_MATCH_TARGETS, NULL); return false; } } if (status && var != NULL) { ecpg_raise(stmt->lineno, ECPG_TOO_MANY_ARGUMENTS, ECPG_SQLSTATE_USING_CLAUSE_DOES_NOT_MATCH_TARGETS, NULL); status = false; } break; case PGRES_COMMAND_OK: status = true; cmdstat = PQcmdStatus(stmt->results); sqlca->sqlerrd[1] = PQoidValue(stmt->results); sqlca->sqlerrd[2] = atol(PQcmdTuples(stmt->results)); ecpg_log("ecpg_process_output on line %d: OK: %s\n", stmt->lineno, cmdstat); if (stmt->compat != ECPG_COMPAT_INFORMIX_SE && !sqlca->sqlerrd[2] && (strncmp(cmdstat, "UPDATE", 6) == 0 || strncmp(cmdstat, "INSERT", 6) == 0 || strncmp(cmdstat, "DELETE", 6) == 0)) ecpg_raise(stmt->lineno, ECPG_NOT_FOUND, ECPG_SQLSTATE_NO_DATA, NULL); break; case PGRES_COPY_OUT: { char *buffer; int res; ecpg_log("ecpg_process_output on line %d: COPY OUT data transfer in progress\n", stmt->lineno); while ((res = PQgetCopyData(stmt->connection->connection, &buffer, 0)) > 0) { printf("%s", buffer); PQfreemem(buffer); } if (res == -1) { /* COPY done */ PQclear(stmt->results); stmt->results = PQgetResult(stmt->connection->connection); if (PQresultStatus(stmt->results) == PGRES_COMMAND_OK) ecpg_log("ecpg_process_output on line %d: got PGRES_COMMAND_OK after PGRES_COPY_OUT\n", stmt->lineno); else ecpg_log("ecpg_process_output on line %d: got error after PGRES_COPY_OUT: %s", stmt->lineno, PQresultErrorMessage(stmt->results)); } break; } default: /* * execution should never reach this code because it is already * handled in ecpg_check_PQresult() */ ecpg_log("ecpg_process_output on line %d: unknown execution status type\n", stmt->lineno); ecpg_raise_backend(stmt->lineno, stmt->results, stmt->connection->connection, stmt->compat); status = false; break; } if (clear_result) { PQclear(stmt->results); stmt->results = NULL; } /* check for asynchronous returns */ PQconsumeInput(stmt->connection->connection); while ((notify = PQnotifies(stmt->connection->connection)) != NULL) { ecpg_log("ecpg_process_output on line %d: asynchronous notification of \"%s\" from backend PID %d received\n", stmt->lineno, notify->relname, notify->be_pid); PQfreemem(notify); PQconsumeInput(stmt->connection->connection); } return status; } /* * ecpg_do_prologue * * Initialize various infrastructure elements for executing the statement: * * - create the statement structure * - set the C numeric locale for communicating with the backend * - preprocess the variable list of input/output parameters into * linked lists */ bool ecpg_do_prologue(int lineno, const int compat, const int force_indicator, const char *connection_name, const bool questionmarks, enum ECPG_statement_type statement_type, const char *query, va_list args, struct statement **stmt_out) { struct statement *stmt = NULL; struct connection *con; enum ECPGttype type; struct variable **list; char *prepname; bool is_prepared_name_set; *stmt_out = NULL; if (!query) { ecpg_raise(lineno, ECPG_EMPTY, ECPG_SQLSTATE_ECPG_INTERNAL_ERROR, NULL); return false; } #ifdef ENABLE_THREAD_SAFETY ecpg_pthreads_init(); #endif con = ecpg_get_connection(connection_name); if (!ecpg_init(con, connection_name, lineno)) return false; stmt = (struct statement *) ecpg_alloc(sizeof(struct statement), lineno); if (stmt == NULL) return false; /* * Make sure we do NOT honor the locale for numeric input/output since the * database wants the standard decimal point. If available, use * uselocale() for this because it's thread-safe. Windows doesn't have * that, but it usually does have _configthreadlocale(). In some versions * of MinGW, _configthreadlocale() exists but always returns -1 --- so * treat that situation as if the function doesn't exist. */ #ifdef HAVE_USELOCALE /* * Since ecpg_init() succeeded, we have a connection. Any successful * connection initializes ecpg_clocale. */ Assert(ecpg_clocale); stmt->oldlocale = uselocale(ecpg_clocale); if (stmt->oldlocale == (locale_t) 0) { ecpg_do_epilogue(stmt); return false; } #else #ifdef HAVE__CONFIGTHREADLOCALE stmt->oldthreadlocale = _configthreadlocale(_ENABLE_PER_THREAD_LOCALE); #endif stmt->oldlocale = ecpg_strdup(setlocale(LC_NUMERIC, NULL), lineno); if (stmt->oldlocale == NULL) { ecpg_do_epilogue(stmt); return false; } setlocale(LC_NUMERIC, "C"); #endif /* * If statement type is ECPGst_prepnormal we are supposed to prepare the * statement before executing them */ if (statement_type == ECPGst_prepnormal) { if (!ecpg_auto_prepare(lineno, connection_name, compat, &prepname, query)) { ecpg_do_epilogue(stmt); return false; } /* * statement is now prepared, so instead of the query we have to * execute the name */ stmt->command = prepname; statement_type = ECPGst_execute; } else stmt->command = ecpg_strdup(query, lineno); stmt->name = NULL; if (statement_type == ECPGst_execute) { /* if we have an EXECUTE command, only the name is send */ char *command = ecpg_prepared(stmt->command, con); if (command) { stmt->name = stmt->command; stmt->command = ecpg_strdup(command, lineno); } else { ecpg_raise(lineno, ECPG_INVALID_STMT, ECPG_SQLSTATE_INVALID_SQL_STATEMENT_NAME, stmt->command); ecpg_do_epilogue(stmt); return false; } } /* name of PREPARE AS will be set in loop of inlist */ stmt->connection = con; stmt->lineno = lineno; stmt->compat = compat; stmt->force_indicator = force_indicator; stmt->questionmarks = questionmarks; stmt->statement_type = statement_type; /*------ * create a list of variables * * The variables are listed with input variables preceding output * variables. The end of each group is marked by an end marker. * Per variable we list: * * type - as defined in ecpgtype.h * value - where to store the data * varcharsize - length of string in case we have a stringvariable, else 0 * arraysize - 0 for pointer (we don't know the size of the array), 1 for * simple variable, size for arrays * offset - offset between ith and (i+1)th entry in an array, normally * that means sizeof(type) * ind_type - type of indicator variable * ind_pointer - pointer to indicator variable * ind_varcharsize - empty * ind_arrsize - arraysize of indicator array * ind_offset - indicator offset *------ */ is_prepared_name_set = false; list = &(stmt->inlist); type = va_arg(args, enum ECPGttype); while (type != ECPGt_EORT) { if (type == ECPGt_EOIT) list = &(stmt->outlist); else { struct variable *var, *ptr; if (!(var = (struct variable *) ecpg_alloc(sizeof(struct variable), lineno))) { ecpg_do_epilogue(stmt); return false; } var->type = type; var->pointer = va_arg(args, char *); var->varcharsize = va_arg(args, long); var->arrsize = va_arg(args, long); var->offset = va_arg(args, long); /* * Unknown array size means pointer to an array. Unknown * varcharsize usually also means pointer. But if the type is * character and the array size is known, it is an array of * pointers to char, so use var->pointer as it is. */ if (var->arrsize == 0 || (var->varcharsize == 0 && ((var->type != ECPGt_char && var->type != ECPGt_unsigned_char) || (var->arrsize <= 1)))) var->value = *((char **) (var->pointer)); else var->value = var->pointer; /* * negative values are used to indicate an array without given * bounds */ /* reset to zero for us */ if (var->arrsize < 0) var->arrsize = 0; if (var->varcharsize < 0) var->varcharsize = 0; var->next = NULL; var->ind_type = va_arg(args, enum ECPGttype); var->ind_pointer = va_arg(args, char *); var->ind_varcharsize = va_arg(args, long); var->ind_arrsize = va_arg(args, long); var->ind_offset = va_arg(args, long); if (var->ind_type != ECPGt_NO_INDICATOR && (var->ind_arrsize == 0 || var->ind_varcharsize == 0)) var->ind_value = *((char **) (var->ind_pointer)); else var->ind_value = var->ind_pointer; /* * negative values are used to indicate an array without given * bounds */ /* reset to zero for us */ if (var->ind_arrsize < 0) var->ind_arrsize = 0; if (var->ind_varcharsize < 0) var->ind_varcharsize = 0; /* if variable is NULL, the statement hasn't been prepared */ if (var->pointer == NULL) { ecpg_raise(lineno, ECPG_INVALID_STMT, ECPG_SQLSTATE_INVALID_SQL_STATEMENT_NAME, NULL); ecpg_free(var); ecpg_do_epilogue(stmt); return false; } for (ptr = *list; ptr && ptr->next; ptr = ptr->next) ; if (ptr == NULL) *list = var; else ptr->next = var; if (!is_prepared_name_set && stmt->statement_type == ECPGst_prepare) { stmt->name = ecpg_strdup(var->value, lineno); is_prepared_name_set = true; } } type = va_arg(args, enum ECPGttype); } /* are we connected? */ if (con == NULL || con->connection == NULL) { ecpg_raise(lineno, ECPG_NOT_CONN, ECPG_SQLSTATE_ECPG_INTERNAL_ERROR, (con) ? con->name : ecpg_gettext("")); ecpg_do_epilogue(stmt); return false; } if (!is_prepared_name_set && stmt->statement_type == ECPGst_prepare) { ecpg_raise(lineno, ECPG_TOO_FEW_ARGUMENTS, ECPG_SQLSTATE_ECPG_INTERNAL_ERROR, (con) ? con->name : ecpg_gettext("")); ecpg_do_epilogue(stmt); return false; } /* initialize auto_mem struct */ ecpg_clear_auto_mem(); *stmt_out = stmt; return true; } /* * ecpg_do_epilogue * Restore the application locale and free the statement structure. */ void ecpg_do_epilogue(struct statement *stmt) { if (stmt == NULL) return; #ifdef HAVE_USELOCALE if (stmt->oldlocale != (locale_t) 0) uselocale(stmt->oldlocale); #else if (stmt->oldlocale) setlocale(LC_NUMERIC, stmt->oldlocale); #ifdef HAVE__CONFIGTHREADLOCALE /* * This is a bit trickier than it looks: if we failed partway through * statement initialization, oldthreadlocale could still be 0. But that's * okay because a call with 0 is defined to be a no-op. */ if (stmt->oldthreadlocale != -1) (void) _configthreadlocale(stmt->oldthreadlocale); #endif #endif free_statement(stmt); } /* * Execute SQL statements in the backend. * The input/output parameters (variable argument list) are passed * in a va_list, so other functions can use this interface. */ bool ecpg_do(const int lineno, const int compat, const int force_indicator, const char *connection_name, const bool questionmarks, const int st, const char *query, va_list args) { struct statement *stmt = NULL; if (!ecpg_do_prologue(lineno, compat, force_indicator, connection_name, questionmarks, (enum ECPG_statement_type) st, query, args, &stmt)) goto fail; if (!ecpg_build_params(stmt)) goto fail; if (!ecpg_autostart_transaction(stmt)) goto fail; if (!ecpg_execute(stmt)) goto fail; if (!ecpg_process_output(stmt, true)) goto fail; ecpg_do_epilogue(stmt); return true; fail: ecpg_do_epilogue(stmt); return false; } /* * Execute SQL statements in the backend. * The input/output parameters are passed as variable-length argument list. */ bool ECPGdo(const int lineno, const int compat, const int force_indicator, const char *connection_name, const bool questionmarks, const int st, const char *query,...) { va_list args; bool ret; va_start(args, query); ret = ecpg_do(lineno, compat, force_indicator, connection_name, questionmarks, st, query, args); va_end(args); return ret; } /* old descriptor interface */ bool ECPGdo_descriptor(int line, const char *connection, const char *descriptor, const char *query) { return ECPGdo(line, ECPG_COMPAT_PGSQL, true, connection, '\0', 0, query, ECPGt_EOIT, ECPGt_descriptor, descriptor, 0L, 0L, 0L, ECPGt_NO_INDICATOR, NULL, 0L, 0L, 0L, ECPGt_EORT); }