// Berkeley Open Infrastructure for Network Computing // http://boinc.berkeley.edu // Copyright (C) 2005 University of California // // This is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; // either version 2.1 of the License, or (at your option) any later version. // // This software 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 Lesser General Public License for more details. // // To view the GNU Lesser General Public License visit // http://www.gnu.org/copyleft/lesser.html // or write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA #include "config.h" #include #include #include #include #include "error_numbers.h" #include "str_util.h" #include "db_base.h" #ifdef _USING_FCGI_ #include "fcgi_stdio.h" #endif // uncomment the following to print all queries. // Useful for low-level debugging //#define SHOW_QUERIES DB_CONN::DB_CONN() { mysql = 0; } int DB_CONN::open(char* db_name, char* db_host, char* db_user, char* dbpassword) { mysql = mysql_init(0); if (!mysql) return ERR_DB_CANT_INIT; mysql = mysql_real_connect(mysql, db_host, db_user, dbpassword, db_name, 0, 0, 0); if (mysql == 0) return ERR_DB_CANT_CONNECT; return 0; } void DB_CONN::close() { if (mysql) mysql_close(mysql); } int DB_CONN::set_isolation_level(ISOLATION_LEVEL level) { const char* level_str; char query[256]; switch(level) { case READ_UNCOMMITTED: level_str = "READ UNCOMMITTED"; break; case READ_COMMITTED: level_str = "READ COMMITTED"; break; case REPEATABLE_READ: level_str = "REPEATABLE READ"; break; case SERIALIZABLE: level_str = "SERIALIZABLE"; break; default: return -1; } sprintf(query, "SET SESSION TRANSACTION ISOLATION LEVEL %s", level_str); return do_query(query); } int DB_CONN::do_query(const char* p) { int retval; #ifdef SHOW_QUERIES fprintf(stderr, "query: %s\n", p); #endif retval = mysql_query(mysql, p); if (retval) { fprintf(stderr, "Database error: %s\nquery=%s\n", error_string(), p); } return retval; } int DB_CONN::affected_rows() { unsigned long x = (unsigned long)mysql_affected_rows(mysql); //fprintf(stderr, "x: %lu i: %d\n", x, (int)x); return (int)x; } int DB_CONN::insert_id() { int retval; MYSQL_ROW row; MYSQL_RES* rp; retval = do_query("select LAST_INSERT_ID()"); if (retval) return retval; rp = mysql_store_result(mysql); row = mysql_fetch_row(rp); mysql_free_result(rp); return atoi(row[0]); } void DB_CONN::print_error(const char* p) { fprintf(stderr, "%s: Database error: %s\n", p, error_string()); } const char* DB_CONN::error_string() { return mysql?mysql_error(mysql):"Not connected"; } int DB_CONN::start_transaction() { return do_query("START TRANSACTION"); } int DB_CONN::commit_transaction() { return do_query("COMMIT"); } DB_BASE::DB_BASE(const char *tn, DB_CONN* p) : db(p), table_name(tn) { is_high_priority = false; } int DB_BASE::get_id() { return 0;} void DB_BASE::db_print(char*) {} void DB_BASE::db_parse(MYSQL_ROW&) {} int DB_BASE::insert() { char vals[MAX_QUERY_LEN], query[MAX_QUERY_LEN]; db_print(vals); sprintf(query, "insert into %s set %s", table_name, vals); return db->do_query(query); } int DB_BASE::insert_batch(std::string& values) { std::string query; query = "insert into " + std::string(table_name) + " values " + values; return db->do_query(query.c_str()); } // update an entire record // int DB_BASE::update() { char vals[MAX_QUERY_LEN], query[MAX_QUERY_LEN]; db_print(vals); sprintf(query, "update %s set %s where id=%d", table_name, vals, get_id()); return db->do_query(query); } // update one or more fields // "clause" is something like "foo=5, blah='xxx'" or "foo=foo+5" // int DB_BASE::update_field(const char* clause) { char query[MAX_QUERY_LEN]; sprintf(query, "update %s set %s where id=%d", table_name, clause, get_id()); return db->do_query(query); } // delete record // int DB_BASE::delete_from_db() { char vals[MAX_QUERY_LEN], query[MAX_QUERY_LEN]; db_print(vals); sprintf(query, "delete from %s where id=%d", table_name, get_id()); return db->do_query(query); } int DB_BASE::get_field_int(const char* field, int& val) { char query[MAX_QUERY_LEN]; int retval; MYSQL_ROW row; MYSQL_RES* rp; sprintf(query, "select %s from %s where id=%d", field, table_name, get_id()); retval = db->do_query(query); if (retval) return retval; rp = mysql_store_result(db->mysql); if (!rp) return -1; row = mysql_fetch_row(rp); if (row) val = atoi(row[0]); mysql_free_result(rp); if (row == 0) return ERR_DB_NOT_FOUND; return 0; } int DB_BASE::get_field_str(const char* field, char* buf, int buflen) { char query[MAX_QUERY_LEN]; int retval; MYSQL_ROW row; MYSQL_RES* rp; sprintf(query, "select %s from %s where id=%d", field, table_name, get_id()); retval = db->do_query(query); if (retval) return retval; rp = mysql_store_result(db->mysql); if (!rp) return -1; row = mysql_fetch_row(rp); if (row && row[0]) { strlcpy(buf, row[0], buflen); } mysql_free_result(rp); if (row == 0) return ERR_DB_NOT_FOUND; return 0; } int DB_BASE::lookup(const char* clause) { char query[MAX_QUERY_LEN]; int retval; MYSQL_ROW row; MYSQL_RES* rp; if (is_high_priority) { sprintf(query, "select HIGH_PRIORITY * from %s %s", table_name, clause); } else { sprintf(query, "select * from %s %s", table_name, clause); } retval = db->do_query(query); if (retval) return retval; rp = mysql_store_result(db->mysql); if (!rp) return -1; row = mysql_fetch_row(rp); if (row) db_parse(row); mysql_free_result(rp); if (row == 0) return ERR_DB_NOT_FOUND; return 0; } int DB_BASE::lookup_id(int id) { char query[MAX_QUERY_LEN]; int retval; MYSQL_ROW row; MYSQL_RES* rp; if (is_high_priority) { sprintf(query, "select HIGH_PRIORITY * from %s where id=%d", table_name, id); } else { sprintf(query, "select * from %s where id=%d", table_name, id); } retval = db->do_query(query); if (retval) return retval; rp = mysql_store_result(db->mysql); if (!rp) return -1; row = mysql_fetch_row(rp); if (row) db_parse(row); mysql_free_result(rp); if (row == 0) return ERR_DB_NOT_FOUND; // don't bother checking for uniqueness here return 0; } int DB_BASE::enumerate(const char* clause, bool use_use_result) { int x; char query[MAX_QUERY_LEN]; MYSQL_ROW row; if (!cursor.active) { cursor.active = true; if (is_high_priority) { sprintf(query, "select HIGH_PRIORITY * from %s %s", table_name, clause); } else { sprintf(query, "select * from %s %s", table_name, clause); } x = db->do_query(query); if (x) return mysql_errno(db->mysql); // if you use mysql_use_result() here, // any other transactions will fail // if (use_use_result) { cursor.rp = mysql_use_result(db->mysql); } else { cursor.rp = mysql_store_result(db->mysql); } if (!cursor.rp) return mysql_errno(db->mysql); } row = mysql_fetch_row(cursor.rp); if (!row) { mysql_free_result(cursor.rp); cursor.active = false; x = mysql_errno(db->mysql); if (x) return x; return ERR_DB_NOT_FOUND; } else { db_parse(row); } return 0; } // call this to end an enumeration before reaching end // int DB_BASE::end_enumerate() { if (cursor.active) { mysql_free_result(cursor.rp); cursor.active = false; } return 0; } int DB_BASE::get_integer(const char* query, int& n) { int retval; MYSQL_ROW row; MYSQL_RES* resp; retval = db->do_query(query); if (retval) return retval; resp = mysql_store_result(db->mysql); if (!resp) return ERR_DB_NOT_FOUND; row = mysql_fetch_row(resp); mysql_free_result(resp); if (!row) return ERR_DB_NOT_FOUND; if (!row[0]) return ERR_DB_NOT_FOUND; n = atoi(row[0]); return 0; } int DB_BASE::get_double(const char* query, double& x) { int retval; MYSQL_ROW row; MYSQL_RES* resp; retval = db->do_query(query); if (retval) return retval; resp = mysql_store_result(db->mysql); if (!resp) return ERR_DB_NOT_FOUND; row = mysql_fetch_row(resp); mysql_free_result(resp); if (!row) return ERR_DB_NOT_FOUND; if (!row[0]) return ERR_DB_NOT_FOUND; x = atof(row[0]); return 0; } int DB_BASE::count(int& n, const char* clause) { char query[MAX_QUERY_LEN]; if (is_high_priority) { sprintf(query, "select HIGH_PRIORITY count(*) from %s %s", table_name, clause); } else { sprintf(query, "select count(*) from %s %s", table_name, clause); } return get_integer(query, n); } int DB_BASE::max_id(int& n, const char* clause) { char query[MAX_QUERY_LEN]; sprintf(query, "select max(id) from %s %s", table_name, clause); return get_integer(query, n); } int DB_BASE::sum(double& x, const char* field, const char* clause) { char query[MAX_QUERY_LEN]; if (is_high_priority) { sprintf(query, "select HIGH_PRIORITY sum(%s) from %s %s", field, table_name, clause); } else { sprintf(query, "select sum(%s) from %s %s", field, table_name, clause); } return get_double(query, x); } DB_BASE_SPECIAL::DB_BASE_SPECIAL(DB_CONN* p) : db(p) { } // convert a string into a form that allows it to be used // in SQL queries delimited by single quotes: // replace ' with \', '\' with '\\' // void escape_string(char* field, int len) { char buf[MAX_QUERY_LEN]; char* q = buf, *p = field; // Make sure that final result won't overflow field[]. // Don't need to worry about overflowing buf[] since // in worst case string length only doubles. // while (*p && q < buf+len-2) { if (*p == '\'') { // this does ' to \' transformation // *q++ = '\\'; *q++ = '\''; } else if (*p == '\\') { // this does \ to \\ transformation // *q++ = '\\'; *q++ = '\\'; } else { // this handles all other characters // *q++ = *p; } p++; } *q = 0; strlcpy(field, buf, len); } // undo the above process // (len not used because this doesn't expand the string) // void unescape_string(char* p, int /*len*/) { char* q = p; while (*p) { if (*p == '\\') { p++; if (!*p) break; // SHOULD NEVER HAPPEN! } *q++ = *p++; } *q='\0'; } // replace _ with \\_, % with \\% // void escape_mysql_like_pattern(const char* in, char* out) { while (*in) { if (*in == '_' || *in == '%') { *out++ = '\\'; *out++ = '\\'; } *out++ = *in++; } } const char *BOINC_RCSID_43d919556b = "$Id$";