#include "quakedef.h" //SQLITE: //should probably be compiled with -DSQLITE_OMIT_ATTACH -DSQLITE_OMIT_LOAD_EXTENSION which would mean we don't need to override authorisation. #ifdef SQL #include "sv_sql.h" #ifdef USE_MYSQL static void (VARGS *qmysql_library_end)(void); static int (VARGS *qmysql_library_init)(int argc, char **argv, char **groups); static my_ulonglong (VARGS *qmysql_affected_rows)(MYSQL *mysql); static void (VARGS *qmysql_close)(MYSQL *sock); static void (VARGS *qmysql_data_seek)(MYSQL_RES *result, my_ulonglong offset); static unsigned int (VARGS *qmysql_errno)(MYSQL *mysql); static const char *(VARGS *qmysql_error)(MYSQL *mysql); static MYSQL_FIELD *(VARGS *qmysql_fetch_field_direct)(MYSQL_RES *res, unsigned int fieldnr); static MYSQL_ROW (VARGS *qmysql_fetch_row)(MYSQL_RES *result); static unsigned long *(VARGS *qmysql_fetch_lengths)(MYSQL_RES *result); static unsigned int (VARGS *qmysql_field_count)(MYSQL *mysql); static void (VARGS *qmysql_free_result)(MYSQL_RES *result); static const char *(VARGS *qmysql_get_client_info)(void); static MYSQL *(VARGS *qmysql_init)(MYSQL *mysql); static MYSQL_RES *(VARGS *qmysql_store_result)(MYSQL *mysql); static unsigned int (VARGS *qmysql_num_fields)(MYSQL_RES *res); static my_ulonglong (VARGS *qmysql_num_rows)(MYSQL_RES *res); static int (VARGS *qmysql_options)(MYSQL *mysql, enum mysql_option option, const char *arg); static int (VARGS *qmysql_query)(MYSQL *mysql, const char *q); static MYSQL *(VARGS *qmysql_real_connect)(MYSQL *mysql, const char *host, const char *user, const char *passwd, const char *db, unsigned int port, const char *unix_socket, unsigned long clientflag); static unsigned long (VARGS *qmysql_real_escape_string)(MYSQL *mysql, char *to, const char *from, unsigned long length); static void (VARGS *qmysql_thread_end)(void); static my_bool (VARGS *qmysql_thread_init)(void); static unsigned int (VARGS *qmysql_thread_safe)(void); static dllfunction_t mysqlfuncs[] = { {(void*)&qmysql_library_end, "mysql_server_end"}, /* written as a define alias in mysql.h */ {(void*)&qmysql_library_init, "mysql_server_init"}, /* written as a define alias in mysql.h */ {(void*)&qmysql_affected_rows, "mysql_affected_rows"}, {(void*)&qmysql_close, "mysql_close"}, {(void*)&qmysql_data_seek, "mysql_data_seek"}, {(void*)&qmysql_errno, "mysql_errno"}, {(void*)&qmysql_error, "mysql_error"}, {(void*)&qmysql_fetch_field_direct, "mysql_fetch_field_direct"}, {(void*)&qmysql_fetch_row, "mysql_fetch_row"}, {(void*)&qmysql_fetch_lengths, "mysql_fetch_lengths"}, {(void*)&qmysql_field_count, "mysql_field_count"}, {(void*)&qmysql_free_result, "mysql_free_result"}, {(void*)&qmysql_get_client_info, "mysql_get_client_info"}, {(void*)&qmysql_init, "mysql_init"}, {(void*)&qmysql_store_result, "mysql_store_result"}, {(void*)&qmysql_num_fields, "mysql_num_fields"}, {(void*)&qmysql_num_rows, "mysql_num_rows"}, {(void*)&qmysql_options, "mysql_options"}, {(void*)&qmysql_query, "mysql_query"}, {(void*)&qmysql_real_connect, "mysql_real_connect"}, {(void*)&qmysql_real_escape_string, "mysql_real_escape_string"}, {(void*)&qmysql_thread_end, "mysql_thread_end"}, {(void*)&qmysql_thread_init, "mysql_thread_init"}, {(void*)&qmysql_thread_safe, "mysql_thread_safe"}, {NULL} }; dllhandle_t *mysqlhandle; #endif #ifdef USE_SQLITE #include "sqlite3.h" SQLITE_API int (QDECL *qsqlite3_open)(const char *zFilename, sqlite3 **ppDb); SQLITE_API const char *(QDECL *qsqlite3_libversion)(void); SQLITE_API int (QDECL *qsqlite3_set_authorizer)(sqlite3*, int (QDECL *xAuth)(void*,int,const char*,const char*,const char*,const char*), void *pUserData); SQLITE_API int (QDECL *qsqlite3_enable_load_extension)(sqlite3 *db, int onoff); SQLITE_API const char *(QDECL *qsqlite3_errmsg)(sqlite3 *db); SQLITE_API int (QDECL *qsqlite3_close)(sqlite3 *db); SQLITE_API int (QDECL *qsqlite3_prepare)(sqlite3 *db, const char *zSql, int nBytes, sqlite3_stmt **ppStmt, const char **pzTail); SQLITE_API int (QDECL *qsqlite3_column_count)(sqlite3_stmt *pStmt); SQLITE_API const char *(QDECL *qsqlite3_column_name)(sqlite3_stmt *pStmt, int N); SQLITE_API int (QDECL *qsqlite3_step)(sqlite3_stmt *pStmt); SQLITE_API const unsigned char *(QDECL *qsqlite3_column_text)(sqlite3_stmt *pStmt, int i); SQLITE_API int (QDECL *qsqlite3_column_bytes)(sqlite3_stmt*, int iCol); SQLITE_API int (QDECL *qsqlite3_finalize)(sqlite3_stmt *pStmt); static dllfunction_t sqlitefuncs[] = { {(void*)&qsqlite3_open, "sqlite3_open"}, /* written as a define alias in mysql.h */ {(void*)&qsqlite3_libversion, "sqlite3_libversion"}, /* written as a define alias in mysql.h */ {(void*)&qsqlite3_set_authorizer, "sqlite3_set_authorizer"}, {(void*)&qsqlite3_enable_load_extension, "sqlite3_enable_load_extension"}, {(void*)&qsqlite3_errmsg, "sqlite3_errmsg"}, {(void*)&qsqlite3_close, "sqlite3_close"}, {(void*)&qsqlite3_prepare, "sqlite3_prepare"}, {(void*)&qsqlite3_column_count, "sqlite3_column_count"}, {(void*)&qsqlite3_column_name, "sqlite3_column_name"}, {(void*)&qsqlite3_step, "sqlite3_step"}, {(void*)&qsqlite3_column_text, "sqlite3_column_text"}, {(void*)&qsqlite3_column_bytes, "sqlite3_column_bytes"}, {(void*)&qsqlite3_finalize, "sqlite3_finalize"}, {NULL} }; dllhandle_t *sqlitehandle; #endif cvar_t sql_driver = CVARF("sv_sql_driver", "", CVAR_NOUNSAFEEXPAND); cvar_t sql_host = CVARF("sv_sql_host", "127.0.0.1", CVAR_NOUNSAFEEXPAND); cvar_t sql_username = CVARF("sv_sql_username", "", CVAR_NOUNSAFEEXPAND); cvar_t sql_password = CVARF("sv_sql_password", "", CVAR_NOUNSAFEEXPAND); cvar_t sql_defaultdb = CVARF("sv_sql_defaultdb", "", CVAR_NOUNSAFEEXPAND); void SQL_PushResult(sqlserver_t *server, queryresult_t *qres) { Sys_LockMutex(server->resultlock); qres->next = NULL; if (!server->resultslast) server->results = server->resultslast = qres; else server->resultslast = server->resultslast->next = qres; Sys_UnlockMutex(server->resultlock); } queryresult_t *SQL_PullResult(sqlserver_t *server) { queryresult_t *qres; Sys_LockMutex(server->resultlock); qres = server->results; if (qres) { server->results = qres->next; if (!server->results) server->resultslast = NULL; } Sys_UnlockMutex(server->resultlock); return qres; } //called by main thread void SQL_PushRequest(sqlserver_t *server, queryrequest_t *qreq) { qreq->state = SR_PENDING; Sys_LockConditional(server->requestcondv); qreq->nextqueue = NULL; if (!server->requestslast) server->requestqueue = server->requestslast = qreq; else server->requestslast = server->requestslast->nextqueue = qreq; Sys_UnlockConditional(server->requestcondv); } //called by sql worker thread queryrequest_t *SQL_PullRequest(sqlserver_t *server, qboolean lock) { queryrequest_t *qreq; if (lock) Sys_LockConditional(server->requestcondv); qreq = server->requestqueue; if (qreq) { server->requestqueue = qreq->nextqueue; if (!server->requestqueue) server->requestslast = NULL; } Sys_UnlockConditional(server->requestcondv); return qreq; } struct { void *owner; sqlserver_t *handle; } *sqlservers; static int sqlservercount; static int sqlavailable; static int sqlinited; #ifdef USE_SQLITE //this is to try to sandbox sqlite so it can only edit the file its originally opened with. int QDECL mysqlite_authorizer(void *ctx, int action, const char *detail0, const char *detail1, const char *detail2, const char *detail3) { if (action == SQLITE_PRAGMA) { Sys_Printf("SQL: Rejecting pragma \"%s\"\n", detail0); return SQLITE_DENY; } if (action == SQLITE_ATTACH) { Sys_Printf("SQL: Rejecting attach to \"%s\"\n", detail0); return SQLITE_DENY; } return SQLITE_OK; } #endif int sql_serverworker(void *sref) { sqlserver_t *server = (sqlserver_t *)sref; const char *error = NULL; int i; qboolean needlock = false; qboolean allokay = true; #ifdef USE_MYSQL int tinit = -1; #endif switch(server->driver) { #ifdef USE_MYSQL case SQLDRV_MYSQL: { my_bool reconnect = 1; if (!qmysql_thread_init) error = "MYSQL library not available"; else if (tinit = qmysql_thread_init()) error = "MYSQL thread init failed"; else if (!(server->mysql = qmysql_init(NULL))) error = "MYSQL init failed"; else if (qmysql_options(server->mysql, MYSQL_OPT_RECONNECT, &reconnect)) error = "MYSQL reconnect options set failed"; else { int port = 0; char *colon; colon = strchr(server->connectparams[0], ':'); if (colon) { *colon = '\0'; port = atoi(colon + 1); } if (!(server->mysql = qmysql_real_connect(server->mysql, server->connectparams[0], server->connectparams[1], server->connectparams[2], server->connectparams[3], port, 0, 0))) error = "MYSQL initial connect attempt failed"; if (colon) *colon = ':'; } } break; #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: if (qsqlite3_open(server->connectparams[3], &server->sqlite)) { error = qsqlite3_errmsg(server->sqlite); } else { //disable extension loading, set up an authorizer hook. qsqlite3_enable_load_extension(server->sqlite, false); qsqlite3_set_authorizer(server->sqlite, mysqlite_authorizer, server); } break; #endif default: error = "That driver is not enabled in this build."; break; } if (error) allokay = false; while (allokay) { Sys_LockConditional(server->requestcondv); if (!server->requestqueue) // this is needed for thread startup and to catch any "lost" changes Sys_ConditionWait(server->requestcondv); needlock = false; // so we don't try to relock first round while (1) { queryrequest_t *qreq = NULL; queryresult_t *qres; int columns = -1; if (!(qreq = SQL_PullRequest(server, needlock))) { if (!server->active) allokay = false; break; } // pullrequest makes sure our condition is unlocked but we'll need // a lock next round needlock = true; switch(server->driver) { default: error = "Bad database driver"; allokay = false; break; #ifdef USE_MYSQL case SQLDRV_MYSQL: { void *res = NULL; int qesize = 0; int rows = -1; const char *qerror = NULL; // perform the query and fill out the result structure if (qmysql_query(server->mysql, qreq->query)) qerror = qmysql_error(server->mysql); else // query succeeded { res = qmysql_store_result(server->mysql); if (res) // result set returned { rows = qmysql_num_rows(res); columns = qmysql_num_fields(res); } else if (qmysql_field_count(server->mysql) == 0) // no result set { rows = qmysql_affected_rows(server->mysql); if (rows < 0) rows = 0; columns = 0; } else // error qerror = qmysql_error(server->mysql); } if (qerror) qesize = Q_strlen(qerror); qres = (queryresult_t *)ZF_Malloc(sizeof(queryresult_t) + qesize); if (qres) { if (qerror) Q_strncpyz(qres->error, qerror, qesize); qres->result = res; qres->rows = rows; qres->columns = columns; qres->request = qreq; qres->eof = true; // store result has no more rows to read afterwards SQL_PushResult(server, qres); } else // we're screwed here so bomb out { server->active = false; error = "MALLOC ERROR! Unable to allocate query result!"; break; } } break; #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: { int rc; sqlite3_stmt *pStmt; const char *trailingstring; char *statementstring = qreq->query; sqliteresult_t *mat; int rowspace; int totalrows = 0; qboolean keeplooping = true; // Sys_Printf("processing %s\n", statementstring); // qsqlite3_mutex_enter(server->sqlite->mutex); // while(*statementstring) // { if (qsqlite3_prepare(server->sqlite, statementstring, -1, &pStmt, &trailingstring) == SQLITE_OK) { //sql statement is valid, apparently. columns = qsqlite3_column_count(pStmt); rc = qsqlite3_step(pStmt); while(keeplooping) { rowspace = 65; qres = (queryresult_t *)ZF_Malloc(sizeof(queryresult_t) + columns * sizeof(sqliteresult_t) * rowspace); mat = (sqliteresult_t*)(qres + 1); if (qres) { qres->result = mat; qres->rows = 0; qres->columns = columns; qres->request = qreq; qres->firstrow = totalrows; qres->eof = false; qreq->nextqueue = NULL; //headers technically take a row. for (i = 0; i < columns; i++) { mat[i].ptr = strdup(qsqlite3_column_name(pStmt, i)); mat[i].len = 0; } rowspace--; mat += columns; while(1) { if (rc == SQLITE_ROW) { if (!rowspace) break; //generate the row info for (i = 0; i < columns; i++) { const char *data = qsqlite3_column_text(pStmt, i); mat[i].len = qsqlite3_column_bytes(pStmt, i); mat[i].ptr = malloc(mat[i].len+1); memcpy(mat[i].ptr, data, mat[i].len); mat[i].ptr[mat[i].len] = 0; //make sure blobs are null terminated, in case someone reads them as a string. } qres->rows++; totalrows++; rowspace--; mat += columns; } else if (rc == SQLITE_DONE) { //no more data to get. keeplooping = false; qres->eof = true; //this one was the ender. break; } else { Sys_Printf("sqlite error code %i: %s\n", rc, statementstring); keeplooping = false; qres->eof = true; //this one was the ender. if (!qres->columns) qres->columns = -1; break; } rc = qsqlite3_step(pStmt); } } else keeplooping = false; SQL_PushResult(server, qres); } qsqlite3_finalize(pStmt); } else { qres = (queryresult_t *)ZF_Malloc(sizeof(queryresult_t) + 18 + strlen(statementstring)); if (qres) { strcpy(qres->error, "Bad SQL statement "); strcpy(qres->error+18, statementstring); qres->result = NULL; qres->rows = 0; qres->columns = -1; qres->firstrow = totalrows; qres->request = qreq; qres->eof = true; qreq->nextqueue = NULL; SQL_PushResult(server, qres); } break; } // statementstring = trailingstring; // } // qsqlite3_mutex_leave(server->sqlite->mutex); } break; #endif } } } server->active = false; switch(server->driver) { #ifdef USE_MYSQL case SQLDRV_MYSQL: if (server->mysql) qmysql_close(server->mysql); break; #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: qsqlite3_close(server->sqlite); server->sqlite = NULL; break; #endif default: break; } // if we have a server error we still need to put it on the queue if (error) { int esize = Q_strlen(error); queryresult_t *qres = (queryresult_t *)Z_Malloc(sizeof(queryresult_t) + esize); if (qres) { // hopefully the qmysql_close gained us some memory otherwise we're pretty screwed qres->rows = qres->columns = -1; Q_strncpyz(qres->error, error, esize); SQL_PushResult(server, qres); } } #ifdef USE_MYSQL if (!tinit) qmysql_thread_end(); #endif server->terminated = true; return 0; } sqlserver_t *SQL_GetServer (void *owner, int serveridx, qboolean inactives) { if (serveridx < 0 || serveridx >= sqlservercount) return NULL; if (owner && sqlservers[serveridx].owner != owner) return NULL; if (!sqlservers[serveridx].handle) return NULL; if (!inactives && sqlservers[serveridx].handle->active == false) return NULL; return sqlservers[serveridx].handle; } queryrequest_t *SQL_GetQueryRequest (sqlserver_t *server, int queryidx) { queryrequest_t *qreq; for (qreq = server->requests; qreq; qreq = qreq->nextreq) { if (qreq->num == queryidx) return qreq; } return NULL; } queryresult_t *SQL_GetQueryResult (sqlserver_t *server, int queryidx, int row) { queryresult_t *qres; queryrequest_t *qreq; qreq = SQL_GetQueryRequest(server, queryidx); for (qres = qreq->results; qres; qres = qres->next) if (qres->request && qres->request->num == queryidx && (row >= qres->firstrow || (row == -1 && !qres->firstrow)) && row < qres->firstrow + qres->rows) return qres; return NULL; } static void SQL_DeallocResult(sqlserver_t *server, queryresult_t *qres) { // deallocate current result switch(server->driver) { default: break; #ifdef USE_MYSQL case SQLDRV_MYSQL: if (qres->result) qmysql_free_result(qres->result); break; #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: if (qres->result) { sqliteresult_t *mat = qres->result; int i; for (i = 0; i < qres->columns * (qres->rows+1); i++) free(mat[i].ptr); } break; #endif } Z_Free(qres); } static void SQL_CloseRequestResult(sqlserver_t *server, queryresult_t *qres) { queryresult_t *prev, *cur; prev = qres->request->results; if (prev == qres) { qres->request->results = prev->next; SQL_DeallocResult(server, prev); return; } for (cur = prev->next; cur; prev = cur, cur = prev->next) { if (cur == qres) { prev = cur->next; SQL_DeallocResult(server, cur); return; } } } //MT only. flush a result without discarding the request. will result in gaps. void SQL_CloseResult(sqlserver_t *server, queryresult_t *qres) { if (!qres) return; /* if (qres == server->currentresult) { SQL_DeallocResult(server, server->currentresult); server->currentresult = NULL; return; } */ // else we have a persistant query SQL_CloseRequestResult(server, qres); } //MT only. releases the request. void SQL_CloseRequest(sqlserver_t *server, queryrequest_t *qreq, qboolean force) { while(qreq->results) { SQL_CloseResult(server, qreq->results); } //if the worker thread is still active with it for whatever reason, flag it as aborted but keep it otherwise valid. actually close it later on when we get the results back. if (qreq->state != SR_FINISHED && qreq->state != SR_NEW && !force) qreq->state = SR_ABORTED; else { queryrequest_t *prev, *cur; //unlink and free it now that its complete. prev = server->requests; if (prev == qreq) server->requests = prev->nextreq; else { for (cur = prev->nextreq; cur; prev = cur, cur = prev->nextreq) { if (cur == qreq) { prev->nextreq = cur->nextreq; break; } } } Z_Free(qreq); } } void SQL_CloseAllRequests(sqlserver_t *server) { queryresult_t *oldqres, *qres; //we assume lock is either held or the thread has already died. this function isn't (worker)thread safe. // close pending results qres = server->results; while (qres) { oldqres = qres; qres = qres->next; SQL_DeallocResult(server, oldqres); } //now terminate all the requests while(server->requests) { SQL_CloseRequest(server, server->requests, true); } // close server result if (server->serverresult) { SQL_DeallocResult(server, server->serverresult); server->serverresult = NULL; } } char *SQL_ReadField (sqlserver_t *server, queryresult_t *qres, int row, int col, qboolean fields, size_t *resultsize) { if (resultsize) *resultsize = 0; if (!qres->result) return NULL; else { // store_result query row -= qres->firstrow; if (qres->rows < row || qres->columns < col || col < 0) return NULL; if (row < 0) { // fetch field name if (fields) // but only if we asked for them { switch(server->driver) { #ifdef USE_MYSQL case SQLDRV_MYSQL: { MYSQL_FIELD *field = qmysql_fetch_field_direct(qres->result, col); if (resultsize) *resultsize = 0; if (!field) return NULL; else return field->name; } #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: { sqliteresult_t *mat = qres->result; if (mat) { if (resultsize) *resultsize = mat[col].len; return mat[col].ptr; } } return NULL; #endif default: return NULL; } } else return NULL; } else { // fetch data switch(server->driver) { #ifdef USE_MYSQL case SQLDRV_MYSQL: { MYSQL_ROW sqlrow; unsigned long *lengths; qmysql_data_seek(qres->result, row); sqlrow = qmysql_fetch_row(qres->result); lengths = qmysql_fetch_lengths(qres->result); if (resultsize) *resultsize = lengths?lengths[col]:0; if (!sqlrow || !sqlrow[col]) return NULL; else return sqlrow[col]; } #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: { sqliteresult_t *mat = qres->result; col += qres->columns * (row+1); if (mat) { if (resultsize) *resultsize = mat[col].len; return mat[col].ptr; } } return NULL; #endif default: return NULL; } } } } void SQL_CleanupServer(sqlserver_t *server) { int i; queryrequest_t *qreq, *oldqreq; server->active = false; // set thread to kill itself if (server->requestcondv) Sys_ConditionBroadcast(server->requestcondv); // force condition check if (server->thread) Sys_WaitOnThread(server->thread); // wait on thread to die // server resource deallocation (TODO: should this be done in the thread itself?) if (server->requestcondv) Sys_DestroyConditional(server->requestcondv); if (server->resultlock) Sys_DestroyMutex(server->resultlock); // close orphaned requests qreq = server->requestqueue; while (qreq) { oldqreq = qreq; qreq = qreq->nextqueue; Z_Free(oldqreq); } SQL_CloseAllRequests(server); for (i = SQL_CONNECT_STRUCTPARAMS; i < SQL_CONNECT_PARAMS; i++) Z_Free(server->connectparams[i]); if (server->connectparams) BZ_Free(server->connectparams); Z_Free(server); } int SQL_NewServer(void *owner, const char *driver, const char **paramstr) { sqlserver_t *server; int serverref; int drvchoice; int paramsize[SQL_CONNECT_PARAMS]; char nativepath[MAX_OSPATH]; int i, tsize; //name matches if (Q_strcasecmp(driver, "mysql") == 0) drvchoice = SQLDRV_MYSQL; else if (Q_strcasecmp(driver, "sqlite") == 0) drvchoice = SQLDRV_SQLITE; else if (!*driver && (sqlavailable & (1u<connectparams = (char **)BZ_Malloc(sizeof(char *) * SQL_CONNECT_PARAMS); tsize = 0; for (i = 0; i < SQL_CONNECT_STRUCTPARAMS; i++) { server->connectparams[i] = ((char *)(server + 1)) + tsize; Q_strncpyz(server->connectparams[i], paramstr[i], paramsize[i]); // string should be null-terminated due to Z_Malloc tsize += paramsize[i] + 1; } for (i = SQL_CONNECT_STRUCTPARAMS; i < SQL_CONNECT_PARAMS; i++) { server->connectparams[i] = (char *)Z_Malloc(sizeof(char) * (paramsize[i] + 1)); Q_strncpyz(server->connectparams[i], paramstr[i], paramsize[i]); // string should be null-terminated due to Z_Malloc } sqlservers[serverref].owner = owner; sqlservers[serverref].handle = server; server->driver = (sqldrv_t)drvchoice; server->querynum = 1; server->active = true; server->requestcondv = Sys_CreateConditional(); server->resultlock = Sys_CreateMutex(); if (!server->requestcondv || !server->resultlock) { if (server->requestcondv) Sys_DestroyConditional(server->requestcondv); if (server->resultlock) Sys_DestroyMutex(server->resultlock); Z_Free(server); sqlservercount--; return -1; } server->thread = Sys_CreateThread("sqlworker", sql_serverworker, (void *)server, THREADP_NORMAL, 1024); if (!server->thread) { Z_Free(server); sqlservercount--; return -1; } return serverref; } int SQL_NewQuery(sqlserver_t *server, qboolean (*callback)(queryrequest_t *req, int firstrow, int numrows, int numcols, qboolean eof), const char *str, queryrequest_t **reqout) { int qsize = Q_strlen(str); queryrequest_t *qreq; int querynum; qreq = (queryrequest_t *)ZF_Malloc(sizeof(queryrequest_t) + qsize); if (qreq) { qreq->state = SR_NEW; querynum = qreq->num = server->querynum; // prevent the reference num from getting too big to prevent FP problems while(1) { if (++server->querynum > (1<<21)) server->querynum = 1; if (!SQL_GetQueryRequest(server, server->querynum)) break; } qreq->callback = callback; Q_strncpyz(qreq->query, str, qsize); qreq->nextreq = server->requests; server->requests = qreq; SQL_PushRequest(server, qreq); Sys_ConditionSignal(server->requestcondv); if (reqout) *reqout = qreq; return querynum; } if (reqout) *reqout = NULL; return -1; } void SQL_Disconnect(sqlserver_t *server) { server->active = false; // force the threads to reiterate requests and hopefully terminate Sys_ConditionBroadcast(server->requestcondv); } void SQL_Escape(sqlserver_t *server, const char *src, char *dst, int dstlen) { switch (server->driver) { #ifdef USE_MYSQL case SQLDRV_MYSQL: { int srclen = strlen(dst); if (srclen > (dstlen / 2 - 1)) dst[0] = '\0'; else qmysql_real_escape_string(server->mysql, dst, src, srclen); } break; #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: { dstlen--; while (dstlen > 2 && *src) { if (*src == '\'') { *dst++ = *src; dstlen--; } *dst++ = *src++; dstlen--; } *dst = '\0'; } break; #endif default: dst[0] = '\0'; } } const char *SQL_Info(sqlserver_t *server) { switch (server->driver) { #ifdef USE_MYSQL case SQLDRV_MYSQL: if (qmysql_get_client_info) return va("mysql: %s", qmysql_get_client_info()); else return "ERROR: mysql library not loaded"; break; #endif #ifdef USE_SQLITE case SQLDRV_SQLITE: if (qsqlite3_libversion) return va("sqlite: %s", qsqlite3_libversion()); else return "ERROR: sqlite library not loaded"; #endif default: return "unknown"; } } qboolean SQL_Available(void) { if (!sqlinited) { sqlinited = true; #ifdef USE_MYSQL //mysql pokes network etc. there's no sandbox. people can use quake clients to pry upon private databases. if (COM_CheckParm("-mysql")) if (SQL_MYSQLInit()) sqlavailable |= 1u<resultlock); Sys_LockConditional(server->requestcondv); for (qreq = server->requests; qreq; qreq = qreq->nextreq) reqnum++; for (qres = server->results; qres; qres = qres->next) resnum++; switch(server->driver) { case SQLDRV_MYSQL: Con_Printf("#%i %s@%s: %s\n", i, server->connectparams[1], server->connectparams[0], server->active ? "active" : "inactive"); break; case SQLDRV_SQLITE: Con_Printf("#%i %s: %s\n", i, server->connectparams[3], server->active ? "active" : "inactive"); break; default: Con_Printf("Bad driver\n"); break; } if (reqnum) { Con_Printf ("- %i requests\n", reqnum); for (qreq = server->requests; qreq; qreq = qreq->nextqueue) { switch (qreq->state) { case SR_NEW: stat = "new"; break; case SR_PENDING: stat = "pending"; break; case SR_PARTIAL: stat = "partial"; break; case SR_FINISHED: stat = "finished"; break; case SR_ABORTED: stat = "aborted"; break; default: stat = "???"; break; } Con_Printf (" query #%i (%s): %s\n", qreq->num, stat, qreq->query); // TODO: function lookup? } } if (resnum) { Con_Printf ("- %i pending results\n", resnum); for (qres = server->results; qres; qres = qres->next) { Con_Printf (" * %i rows, %i columns", qres->rows, qres->columns); if (qres->error[0]) Con_Printf(", error %s\n", qres->error); else Con_Printf("\n"); // TODO: request info? } } if (server->serverresult) Con_Printf ("server result: error %s\n", server->serverresult->error); // TODO: list all requests, results here Sys_UnlockMutex(server->resultlock); Sys_UnlockConditional(server->requestcondv); } } void SQL_Kill_f (void) { sqlserver_t *server; if (Cmd_Argc() < 2) { Con_Printf ("Syntax: %s serverid\n", Cmd_Argv(0)); return; } server = SQL_GetServer(NULL, atoi(Cmd_Argv(1)), false); if (server) { server->active = false; Sys_ConditionBroadcast(server->requestcondv); return; } } void SQL_Killall_f (void) { SQL_KillServers(NULL); } void SQL_ServerCycle (void) { int i; for (i = 0; i < sqlservercount; i++) { sqlserver_t *server = sqlservers[i].handle; queryresult_t *qres; queryrequest_t *qreq; if (!server) continue; while ((qres = SQL_PullResult(server))) { qreq = qres->request; qres->next = NULL; if (qreq && qreq->callback) { qboolean persist; //save it for later. qres->next = qreq->results; qreq->results = qres; if (developer.ival) if (*qres->error) Con_Printf("%s\n", qres->error); if (qreq->state == SR_ABORTED) { persist = false; if (qres->eof) SQL_CloseRequest(server, qreq, true); } else { if (qreq->state == SR_FINISHED) Sys_Error("SQL: Results after finished!\n"); if (qreq->state == SR_PENDING) qreq->state = SR_PARTIAL; if (qres->eof) qreq->state = SR_FINISHED; persist = qreq->callback(qreq, qres->firstrow, qres->rows, qres->columns, qres->eof); } if (!persist) { SQL_CloseResult(server, qres); if (qreq->state == SR_FINISHED) SQL_CloseRequest(server, qreq, false); } } else // error or server-only result { if (server->serverresult) SQL_CloseResult(server, server->serverresult); server->serverresult = qres; } } if (server->terminated) { sqlservers[i].handle = NULL; SQL_CleanupServer(server); continue; } } } #ifdef USE_MYSQL qboolean SQL_MYSQLInit(void) { if ((mysqlhandle = Sys_LoadLibrary("libmysql", mysqlfuncs))) { if (qmysql_thread_safe()) { if (!qmysql_library_init(0, NULL, NULL)) { Con_Printf("MYSQL backend loaded\n"); return true; } else Con_Printf("MYSQL library init failed!\n"); } else Con_Printf("MYSQL client is not thread safe!\n"); Sys_CloseLibrary(mysqlhandle); } else { Con_Printf("mysql client didn't load\n"); } return false; } #endif void SQL_Init(void) { sqlavailable = 0; Cmd_AddCommand ("sqlstatus", SQL_Status_f); Cmd_AddCommand ("sqlkill", SQL_Kill_f); Cmd_AddCommand ("sqlkillall", SQL_Killall_f); Cvar_Register(&sql_driver, SQLCVAROPTIONS); Cvar_Register(&sql_host, SQLCVAROPTIONS); Cvar_Register(&sql_username, SQLCVAROPTIONS); Cvar_Register(&sql_password, SQLCVAROPTIONS); Cvar_Register(&sql_defaultdb, SQLCVAROPTIONS); } void SQL_KillServers(void *owner) { int i; for (i = sqlservercount; i-- > 0; ) { if (!owner || sqlservers[i].owner == owner) { sqlserver_t *server = sqlservers[i].handle; sqlservers[i].handle = NULL; sqlservers[i].owner = NULL; if (server) SQL_CleanupServer(server); if (sqlservercount == i+1) sqlservercount--; } } if (!sqlservercount) { if (sqlservers) Z_Free(sqlservers); sqlservers = NULL; } } void SQL_DeInit(void) { sqlavailable = 0; SQL_KillServers(NULL); sqlinited = false; #ifdef USE_MYSQL if (qmysql_library_end) qmysql_library_end(); if (mysqlhandle) Sys_CloseLibrary(mysqlhandle); #endif #ifdef USE_SQLITE if (sqlitehandle) Sys_CloseLibrary(sqlitehandle); #endif } #endif