/* * $Id$ * * DBText library * * Copyright (C) 2001-2003 FhG Fokus * * This file is part of ser, a free SIP server. * * ser is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version * * For a license to use the ser software under conditions * other than those described here, or to purchase support for this * software, please contact iptel.org by e-mail at the following addresses: * info@iptel.org * * ser 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /** * DBText library * * 2003-02-05 created by Daniel * */ #include #include "../../str.h" #include "../../mem/mem.h" #include "dbt_res.h" #include "dbt_api.h" /* * Release memory used by columns */ int dbt_free_columns(db_res_t* _r) { if (!_r) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_free_columns: Invalid parameter\n"); #endif return -1; } if (RES_NAMES(_r)) pkg_free(RES_NAMES(_r)); if (RES_TYPES(_r)) pkg_free(RES_TYPES(_r)); return 0; } /* * Release memory used by row */ int dbt_free_row(db_row_t* _r) { if (!_r) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_free_row: Invalid parameter value\n"); #endif return -1; } if(ROW_VALUES(_r)) pkg_free(ROW_VALUES(_r)); return 0; } /* * Release memory used by rows */ int dbt_free_rows(db_res_t* _r) { int i; if (!_r) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_free_rows: Invalid parameter value\n"); #endif return -1; } if (RES_ROWS(_r)) { for(i = 0; i < RES_ROW_N(_r); i++) { dbt_free_row(&(RES_ROWS(_r)[i])); } pkg_free(RES_ROWS(_r)); } return 0; } /* * Release memory used by a result structure */ int dbt_free_result(db_res_t* _r) { if (!_r) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_free_result: Invalid parameter\n"); #endif return -1; } dbt_free_columns(_r); dbt_free_rows(_r); pkg_free(_r); return 0; } int dbt_use_table(db_con_t* _h, const char* _t) { if ((!_h) || (!_t)) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_use_table: Invalid parameter value\n"); #endif return -1; } CON_TABLE(_h) = _t; return 0; } /* * Create a new result structure and initialize it */ db_res_t* dbt_new_result(void) { db_res_t* r; r = (db_res_t*)pkg_malloc(sizeof(db_res_t)); if (!r) { LOG(L_ERR, "dbt_new_result(): No memory left\n"); return 0; } RES_NAMES(r) = 0; RES_TYPES(r) = 0; RES_COL_N(r) = 0; RES_ROWS(r) = 0; RES_ROW_N(r) = 0; return r; } /* * Fill the structure with data from database */ int dbt_convert_result(db_con_t* _h, db_res_t* _r) { if ((!_h) || (!_r)) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_convert_result: Invalid parameter\n"); #endif return -1; } if (dbt_get_columns(_h, _r) < 0) { LOG(L_ERR, "DBT:dbt_convert_result: Error while getting column names\n"); return -2; } if (dbt_convert_rows(_h, _r) < 0) { LOG(L_ERR, "DBT:dbt_convert_result: Error while converting rows\n"); dbt_free_columns(_r); return -3; } return 0; } /* * Retrieve result set */ int dbt_get_result(db_con_t* _h, db_res_t** _r) { if ((!_h) || (!_r)) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_get_result: Invalid parameter value\n"); #endif return -1; } if (!DBT_CON_RESULT(_h)) { LOG(L_ERR, "DBT:dbt_get_result: error getting result\n"); *_r = 0; return -3; } *_r = dbt_new_result(); if (*_r == 0) { LOG(L_ERR, "DBT:dbt_get_result: No memory left\n"); return -2; } if (dbt_convert_result(_h, *_r) < 0) { LOG(L_ERR, "DBT:dbt_get_result: Error while converting result\n"); pkg_free(*_r); return -4; } return 0; } /* * Get and convert columns from a result */ int dbt_get_columns(db_con_t* _h, db_res_t* _r) { int n, i; if ((!_h) || (!_r)) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_get_columns: Invalid parameter\n"); #endif return -1; } n = DBT_CON_RESULT(_h)->nrcols; if (!n) { LOG(L_ERR, "DBT:dbt_get_columns: No columns\n"); return -2; } RES_NAMES(_r) = (db_key_t*)pkg_malloc(sizeof(db_key_t) * n); if (!RES_NAMES(_r)) { LOG(L_ERR, "DBT:dbt_get_columns: No memory left\n"); return -3; } RES_TYPES(_r) = (db_type_t*)pkg_malloc(sizeof(db_type_t) * n); if (!RES_TYPES(_r)) { LOG(L_ERR, "DBT:dbt_get_columns: No memory left\n"); pkg_free(RES_NAMES(_r)); return -4; } RES_COL_N(_r) = n; for(i = 0; i < n; i++) { RES_NAMES(_r)[i] = DBT_CON_RESULT(_h)->colv[i].name.s; switch( DBT_CON_RESULT(_h)->colv[i].type) { case DB_INT: case DB_DATETIME: RES_TYPES(_r)[i] = DB_INT; break; case DB_FLOAT: RES_TYPES(_r)[i] = DB_FLOAT; break; case DB_DOUBLE: RES_TYPES(_r)[i] = DB_DOUBLE; break; default: RES_TYPES(_r)[i] = DB_STR; break; } } return 0; } /* * Convert rows from internal to db API representation */ int dbt_convert_rows(db_con_t* _h, db_res_t* _r) { int n, i; dbt_row_p _rp = NULL; if ((!_h) || (!_r)) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_convert_rows: Invalid parameter\n"); #endif return -1; } n = DBT_CON_RESULT(_h)->nrrows; RES_ROW_N(_r) = n; if (!n) { RES_ROWS(_r) = 0; return 0; } RES_ROWS(_r) = (struct db_row*)pkg_malloc(sizeof(db_row_t) * n); if (!RES_ROWS(_r)) { LOG(L_ERR, "DBT:dbt_convert_rows: No memory left\n"); return -2; } i = 0; _rp = DBT_CON_RESULT(_h)->rows; while(_rp) { DBT_CON_ROW(_h) = _rp; if (!DBT_CON_ROW(_h)) { LOG(L_ERR, "DBT:dbt_convert_rows: error getting current row\n"); RES_ROW_N(_r) = i; dbt_free_rows(_r); return -3; } if (dbt_convert_row(_h, _r, &(RES_ROWS(_r)[i])) < 0) { LOG(L_ERR, "DBT:dbt_convert_rows: Error while converting" " row #%d\n", i); RES_ROW_N(_r) = i; dbt_free_rows(_r); return -4; } i++; _rp = _rp->next; } return 0; } /* * Convert a row from result into db API representation */ int dbt_convert_row(db_con_t* _h, db_res_t* _res, db_row_t* _r) { int i; if ((!_h) || (!_r) || (!_res)) { #ifdef DBT_EXTRA_DEBUG LOG(L_ERR, "DBT:dbt_convert_row: Invalid parameter value\n"); #endif return -1; } ROW_VALUES(_r) = (db_val_t*)pkg_malloc(sizeof(db_val_t) * RES_COL_N(_res)); ROW_N(_r) = RES_COL_N(_res); if (!ROW_VALUES(_r)) { LOG(L_ERR, "DBT:dbt_convert_row: No memory left\n"); return -1; } for(i = 0; i < RES_COL_N(_res); i++) { (ROW_VALUES(_r)[i]).nul = DBT_CON_ROW(_h)->fields[i].nul; switch(RES_TYPES(_res)[i]) { case DB_INT: VAL_INT(&(ROW_VALUES(_r)[i])) = DBT_CON_ROW(_h)->fields[i].val.int_val; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_INT; break; case DB_FLOAT: VAL_FLOAT(&(ROW_VALUES(_r)[i])) = DBT_CON_ROW(_h)->fields[i].val.float_val; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_FLOAT; break; case DB_DOUBLE: VAL_DOUBLE(&(ROW_VALUES(_r)[i])) = DBT_CON_ROW(_h)->fields[i].val.double_val; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_DOUBLE; break; case DB_STRING: VAL_STR(&(ROW_VALUES(_r)[i])).s = DBT_CON_ROW(_h)->fields[i].val.str_val.s; VAL_STR(&(ROW_VALUES(_r)[i])).len = DBT_CON_ROW(_h)->fields[i].val.str_val.len; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_STR; break; case DB_STR: VAL_STR(&(ROW_VALUES(_r)[i])).s = DBT_CON_ROW(_h)->fields[i].val.str_val.s; VAL_STR(&(ROW_VALUES(_r)[i])).len = DBT_CON_ROW(_h)->fields[i].val.str_val.len; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_STR; break; case DB_DATETIME: VAL_INT(&(ROW_VALUES(_r)[i])) = DBT_CON_ROW(_h)->fields[i].val.int_val; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_INT; break; case DB_BLOB: VAL_STR(&(ROW_VALUES(_r)[i])).s = DBT_CON_ROW(_h)->fields[i].val.str_val.s; VAL_STR(&(ROW_VALUES(_r)[i])).len = DBT_CON_ROW(_h)->fields[i].val.str_val.len; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_STR; break; case DB_BITMAP: VAL_INT(&(ROW_VALUES(_r)[i])) = DBT_CON_ROW(_h)->fields[i].val.bitmap_val; VAL_TYPE(&(ROW_VALUES(_r)[i])) = DB_INT; break; } } return 0; }