/* * FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application * Copyright (C) 2005-2012, Anthony Minessale II * * Version: MPL 1.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application * * The Initial Developer of the Original Code is * Anthony Minessale II * Portions created by the Initial Developer are Copyright (C) * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Anthony Minessale II * Michael Jerris * Paul D. Tinsley * * * switch_core_sqldb.c -- Main Core Library (statistics tracker) * */ #include #include "private/switch_core_pvt.h" #define SWITCH_SQL_QUEUE_LEN 100000 #define SWITCH_SQL_QUEUE_PAUSE_LEN 90000 struct switch_cache_db_handle { char name[CACHE_DB_LEN]; switch_cache_db_handle_type_t type; switch_cache_db_native_handle_t native_handle; time_t last_used; switch_mutex_t *mutex; switch_mutex_t *io_mutex; switch_memory_pool_t *pool; int32_t flags; unsigned long hash; unsigned long thread_hash; char creator[CACHE_DB_LEN]; char last_user[CACHE_DB_LEN]; uint32_t use_count; struct switch_cache_db_handle *next; }; static struct { switch_cache_db_handle_t *event_db; switch_queue_t *sql_queue[2]; switch_memory_pool_t *memory_pool; switch_event_node_t *event_node; switch_thread_t *thread; switch_thread_t *db_thread; int thread_running; int db_thread_running; switch_bool_t manage; switch_mutex_t *io_mutex; switch_mutex_t *dbh_mutex; switch_cache_db_handle_t *handle_pool; switch_thread_cond_t *cond; switch_mutex_t *cond_mutex; uint32_t total_handles; uint32_t total_used_handles; } sql_manager; static switch_cache_db_handle_t *create_handle(switch_cache_db_handle_type_t type) { switch_cache_db_handle_t *new_dbh = NULL; switch_memory_pool_t *pool = NULL; switch_core_new_memory_pool(&pool); new_dbh = switch_core_alloc(pool, sizeof(*new_dbh)); new_dbh->pool = pool; new_dbh->type = type; switch_mutex_init(&new_dbh->mutex, SWITCH_MUTEX_NESTED, new_dbh->pool); return new_dbh; } static void add_handle(switch_cache_db_handle_t *dbh, const char *db_str, const char *db_callsite_str, const char *thread_str) { switch_ssize_t hlen = -1; switch_mutex_lock(sql_manager.dbh_mutex); switch_set_string(dbh->creator, db_callsite_str); switch_set_string(dbh->name, db_str); dbh->hash = switch_ci_hashfunc_default(db_str, &hlen); dbh->thread_hash = switch_ci_hashfunc_default(thread_str, &hlen); dbh->use_count++; sql_manager.total_used_handles++; dbh->next = sql_manager.handle_pool; sql_manager.handle_pool = dbh; sql_manager.total_handles++; switch_mutex_lock(dbh->mutex); switch_mutex_unlock(sql_manager.dbh_mutex); } static void del_handle(switch_cache_db_handle_t *dbh) { switch_cache_db_handle_t *dbh_ptr, *last = NULL; switch_mutex_lock(sql_manager.dbh_mutex); for (dbh_ptr = sql_manager.handle_pool; dbh_ptr; dbh_ptr = dbh_ptr->next) { if (dbh_ptr == dbh) { if (last) { last->next = dbh_ptr->next; } else { sql_manager.handle_pool = dbh_ptr->next; } sql_manager.total_handles--; break; } last = dbh_ptr; } switch_mutex_unlock(sql_manager.dbh_mutex); } static switch_cache_db_handle_t *get_handle(const char *db_str, const char *user_str, const char *thread_str) { switch_ssize_t hlen = -1; unsigned long hash = 0, thread_hash = 0; switch_cache_db_handle_t *dbh_ptr, *r = NULL; hash = switch_ci_hashfunc_default(db_str, &hlen); thread_hash = switch_ci_hashfunc_default(thread_str, &hlen); switch_mutex_lock(sql_manager.dbh_mutex); for (dbh_ptr = sql_manager.handle_pool; dbh_ptr; dbh_ptr = dbh_ptr->next) { if (dbh_ptr->thread_hash == thread_hash && dbh_ptr->hash == hash && !switch_test_flag(dbh_ptr, CDF_PRUNE) && switch_mutex_trylock(dbh_ptr->mutex) == SWITCH_STATUS_SUCCESS) { r = dbh_ptr; } } if (!r) { for (dbh_ptr = sql_manager.handle_pool; dbh_ptr; dbh_ptr = dbh_ptr->next) { if (dbh_ptr->hash == hash && !dbh_ptr->use_count && !switch_test_flag(dbh_ptr, CDF_PRUNE) && switch_mutex_trylock(dbh_ptr->mutex) == SWITCH_STATUS_SUCCESS) { r = dbh_ptr; break; } } } if (r) { r->use_count++; sql_manager.total_used_handles++; r->hash = switch_ci_hashfunc_default(db_str, &hlen); r->thread_hash = thread_hash; switch_set_string(r->last_user, user_str); } switch_mutex_unlock(sql_manager.dbh_mutex); return r; } #define SWITCH_CORE_DB "core" /*! \brief Open the default system database */ SWITCH_DECLARE(switch_status_t) _switch_core_db_handle(switch_cache_db_handle_t **dbh, const char *file, const char *func, int line) { switch_cache_db_connection_options_t options = { {0} }; switch_status_t r; if (!sql_manager.manage) { return SWITCH_STATUS_FALSE; } if (zstr(runtime.odbc_dsn)) { if (switch_test_flag((&runtime), SCF_CORE_ODBC_REQ)) { return SWITCH_STATUS_FALSE; } if (runtime.dbname) { options.core_db_options.db_path = runtime.dbname; } else { options.core_db_options.db_path = SWITCH_CORE_DB; } r = _switch_cache_db_get_db_handle(dbh, SCDB_TYPE_CORE_DB, &options, file, func, line); } else { options.odbc_options.dsn = runtime.odbc_dsn; options.odbc_options.user = runtime.odbc_user; options.odbc_options.pass = runtime.odbc_pass; r = _switch_cache_db_get_db_handle(dbh, SCDB_TYPE_ODBC, &options, file, func, line); } /* I *think* we can do without this now, if not let me know if (r == SWITCH_STATUS_SUCCESS && !(*dbh)->io_mutex) { (*dbh)->io_mutex = sql_manager.io_mutex; } */ return r; } #define SQL_CACHE_TIMEOUT 30 #define SQL_REG_TIMEOUT 15 static void sql_close(time_t prune) { switch_cache_db_handle_t *dbh = NULL; int locked = 0; switch_mutex_lock(sql_manager.dbh_mutex); top: locked = 0; for (dbh = sql_manager.handle_pool; dbh; dbh = dbh->next) { time_t diff = 0; if (prune > 0 && prune > dbh->last_used) { diff = (time_t) prune - dbh->last_used; } if (prune > 0 && (dbh->use_count || (diff < SQL_CACHE_TIMEOUT && !switch_test_flag(dbh, CDF_PRUNE)))) { continue; } if (switch_mutex_trylock(dbh->mutex) == SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG10, "Dropping idle DB connection %s\n", dbh->name); switch (dbh->type) { case SCDB_TYPE_ODBC: { switch_odbc_handle_destroy(&dbh->native_handle.odbc_dbh); } break; case SCDB_TYPE_CORE_DB: { switch_core_db_close(dbh->native_handle.core_db_dbh); dbh->native_handle.core_db_dbh = NULL; } break; } del_handle(dbh); switch_mutex_unlock(dbh->mutex); switch_core_destroy_memory_pool(&dbh->pool); goto top; } else { if (!prune) { locked++; } continue; } } if (locked) { goto top; } switch_mutex_unlock(sql_manager.dbh_mutex); } SWITCH_DECLARE(switch_cache_db_handle_type_t) switch_cache_db_get_type(switch_cache_db_handle_t *dbh) { return dbh->type; } SWITCH_DECLARE(void) switch_cache_db_flush_handles(void) { sql_close(switch_epoch_time_now(NULL) + SQL_CACHE_TIMEOUT + 1); } SWITCH_DECLARE(void) switch_cache_db_release_db_handle(switch_cache_db_handle_t **dbh) { if (dbh && *dbh) { switch_mutex_lock(sql_manager.dbh_mutex); (*dbh)->last_used = switch_epoch_time_now(NULL); (*dbh)->io_mutex = NULL; if ((*dbh)->use_count) { if (--(*dbh)->use_count == 0) { (*dbh)->thread_hash = 1; } } switch_mutex_unlock((*dbh)->mutex); sql_manager.total_used_handles--; *dbh = NULL; switch_mutex_unlock(sql_manager.dbh_mutex); } } SWITCH_DECLARE(void) switch_cache_db_dismiss_db_handle(switch_cache_db_handle_t **dbh) { switch_cache_db_release_db_handle(dbh); } SWITCH_DECLARE(switch_status_t) _switch_cache_db_get_db_handle(switch_cache_db_handle_t **dbh, switch_cache_db_handle_type_t type, switch_cache_db_connection_options_t *connection_options, const char *file, const char *func, int line) { switch_thread_id_t self = switch_thread_self(); char thread_str[CACHE_DB_LEN] = ""; char db_str[CACHE_DB_LEN] = ""; char db_callsite_str[CACHE_DB_LEN] = ""; switch_cache_db_handle_t *new_dbh = NULL; int waiting = 0; uint32_t yield_len = 100000, total_yield = 0; const char *db_name = NULL; const char *db_user = NULL; const char *db_pass = NULL; while(runtime.max_db_handles && sql_manager.total_handles >= runtime.max_db_handles && sql_manager.total_used_handles >= sql_manager.total_handles) { if (!waiting++) { switch_log_printf(SWITCH_CHANNEL_ID_LOG, file, func, line, NULL, SWITCH_LOG_WARNING, "Max handles %u exceeded, blocking....\n", runtime.max_db_handles); } switch_yield(yield_len); total_yield += yield_len; if (runtime.db_handle_timeout && total_yield > runtime.db_handle_timeout) { switch_log_printf(SWITCH_CHANNEL_ID_LOG, file, func, line, NULL, SWITCH_LOG_ERROR, "Error connecting\n"); *dbh = NULL; return SWITCH_STATUS_FALSE; } } switch (type) { case SCDB_TYPE_ODBC: { db_name = connection_options->odbc_options.dsn; db_user = connection_options->odbc_options.user; db_pass = connection_options->odbc_options.pass; } break; case SCDB_TYPE_CORE_DB: { db_name = connection_options->core_db_options.db_path; db_user = ""; db_pass = ""; } break; } if (!db_name) { return SWITCH_STATUS_FALSE; } snprintf(db_str, sizeof(db_str) - 1, "db=\"%s\";user=\"%s\";pass=\"%s\"", db_name, db_user, db_pass); snprintf(db_callsite_str, sizeof(db_callsite_str) - 1, "%s:%d", file, line); snprintf(thread_str, sizeof(thread_str) - 1, "thread=\"%lu\"", (unsigned long) (intptr_t) self); if ((new_dbh = get_handle(db_str, db_callsite_str, thread_str))) { switch_log_printf(SWITCH_CHANNEL_ID_LOG, file, func, line, NULL, SWITCH_LOG_DEBUG10, "Reuse Unused Cached DB handle %s [%s]\n", new_dbh->name, switch_cache_db_type_name(new_dbh->type)); } else { switch_core_db_t *db = NULL; switch_odbc_handle_t *odbc_dbh = NULL; switch (type) { case SCDB_TYPE_ODBC: { if (!switch_odbc_available()) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Failure! ODBC NOT AVAILABLE! Can't connect to DSN %s\n", connection_options->odbc_options.dsn); goto end; } if ((odbc_dbh = switch_odbc_handle_new(connection_options->odbc_options.dsn, connection_options->odbc_options.user, connection_options->odbc_options.pass))) { if (switch_odbc_handle_connect(odbc_dbh) != SWITCH_ODBC_SUCCESS) { switch_odbc_handle_destroy(&odbc_dbh); } } } break; case SCDB_TYPE_CORE_DB: { db = switch_core_db_open_file(connection_options->core_db_options.db_path); } break; default: goto end; } if (!db && !odbc_dbh) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Failure to connect to %s %s!\n", db?"SQLITE":"ODBC", db?connection_options->core_db_options.db_path:connection_options->odbc_options.dsn); goto end; } switch_log_printf(SWITCH_CHANNEL_ID_LOG, file, func, line, NULL, SWITCH_LOG_DEBUG10, "Create Cached DB handle %s [%s] %s:%d\n", new_dbh->name, switch_cache_db_type_name(type), file, line); new_dbh = create_handle(type); if (db) { new_dbh->native_handle.core_db_dbh = db; } else { new_dbh->native_handle.odbc_dbh = odbc_dbh; } add_handle(new_dbh, db_str, db_callsite_str, thread_str); } end: if (new_dbh) { new_dbh->last_used = switch_epoch_time_now(NULL); } *dbh = new_dbh; return *dbh ? SWITCH_STATUS_SUCCESS : SWITCH_STATUS_FALSE; } static switch_status_t switch_cache_db_execute_sql_real(switch_cache_db_handle_t *dbh, const char *sql, char **err) { switch_status_t status = SWITCH_STATUS_FALSE; char *errmsg = NULL; char *tmp = NULL; switch_mutex_t *io_mutex = dbh->io_mutex; if (io_mutex) switch_mutex_lock(io_mutex); if (err) { *err = NULL; } switch (dbh->type) { case SCDB_TYPE_ODBC: { status = switch_odbc_handle_exec(dbh->native_handle.odbc_dbh, sql, NULL, &errmsg); } break; case SCDB_TYPE_CORE_DB: { int ret = switch_core_db_exec(dbh->native_handle.core_db_dbh, sql, NULL, NULL, &errmsg); if (ret == SWITCH_CORE_DB_OK) { status = SWITCH_STATUS_SUCCESS; } if (errmsg) { switch_strdup(tmp, errmsg); switch_core_db_free(errmsg); errmsg = tmp; } } break; } if (errmsg) { if (!switch_stristr("already exists", errmsg) && !switch_stristr("duplicate key name", errmsg)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "SQL ERR [%s]\n%s\n", errmsg, sql); } if (err) { *err = errmsg; } else { free(errmsg); } } if (io_mutex) switch_mutex_unlock(io_mutex); return status; } static void wake_thread(int force) { if (force) { switch_thread_cond_signal(sql_manager.cond); return; } if (switch_mutex_trylock(sql_manager.cond_mutex) == SWITCH_STATUS_SUCCESS) { switch_thread_cond_signal(sql_manager.cond); switch_mutex_unlock(sql_manager.cond_mutex); } } /** OMFG you cruel bastards. Who chooses 64k as a max buffer len for a sql statement, have you ever heard of transactions? **/ static switch_status_t switch_cache_db_execute_sql_chunked(switch_cache_db_handle_t *dbh, char *sql, uint32_t chunk_size, char **err) { switch_status_t status = SWITCH_STATUS_FALSE; char *p, *s, *e; int chunk_count; switch_size_t len; switch_assert(chunk_size); if (err) *err = NULL; len = strlen(sql); if (chunk_size > len) { return switch_cache_db_execute_sql_real(dbh, sql, err); } if (!(chunk_count = strlen(sql) / chunk_size)) { return SWITCH_STATUS_FALSE; } e = end_of_p(sql); s = sql; while (s && s < e) { p = s + chunk_size; if (p > e) { p = e; } while (p > s) { if (*p == '\n' && *(p - 1) == ';') { *p = '\0'; *(p - 1) = '\0'; p++; break; } p--; } if (p <= s) break; status = switch_cache_db_execute_sql_real(dbh, s, err); if (status != SWITCH_STATUS_SUCCESS || (err && *err)) { break; } s = p; } return status; } SWITCH_DECLARE(switch_status_t) switch_cache_db_execute_sql(switch_cache_db_handle_t *dbh, char *sql, char **err) { switch_status_t status = SWITCH_STATUS_FALSE; switch_mutex_t *io_mutex = dbh->io_mutex; if (io_mutex) switch_mutex_lock(io_mutex); switch (dbh->type) { default: { status = switch_cache_db_execute_sql_chunked(dbh, (char *) sql, 32768, err); } break; } if (io_mutex) switch_mutex_unlock(io_mutex); return status; } SWITCH_DECLARE(int) switch_cache_db_affected_rows(switch_cache_db_handle_t *dbh) { switch (dbh->type) { case SCDB_TYPE_CORE_DB: { return switch_core_db_changes(dbh->native_handle.core_db_dbh); } break; case SCDB_TYPE_ODBC: { return switch_odbc_handle_affected_rows(dbh->native_handle.odbc_dbh); } break; } return 0; } SWITCH_DECLARE(char *) switch_cache_db_execute_sql2str(switch_cache_db_handle_t *dbh, char *sql, char *str, size_t len, char **err) { switch_status_t status = SWITCH_STATUS_FALSE; switch_mutex_t *io_mutex = dbh->io_mutex; if (io_mutex) switch_mutex_lock(io_mutex); memset(str, 0, len); switch (dbh->type) { case SCDB_TYPE_CORE_DB: { switch_core_db_stmt_t *stmt; if (switch_core_db_prepare(dbh->native_handle.core_db_dbh, sql, -1, &stmt, 0)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Statement Error [%s]!\n", sql); goto end; } else { int running = 1; int colcount; while (running < 5000) { int result = switch_core_db_step(stmt); const unsigned char *txt; if (result == SWITCH_CORE_DB_ROW) { if ((colcount = switch_core_db_column_count(stmt)) > 0) { if ((txt = switch_core_db_column_text(stmt, 0))) { switch_copy_string(str, (char *) txt, len); status = SWITCH_STATUS_SUCCESS; } else { goto end; } } break; } else if (result == SWITCH_CORE_DB_BUSY) { running++; switch_cond_next(); continue; } break; } switch_core_db_finalize(stmt); } } break; case SCDB_TYPE_ODBC: { status = switch_odbc_handle_exec_string(dbh->native_handle.odbc_dbh, sql, str, len, err); } break; } end: if (io_mutex) switch_mutex_unlock(io_mutex); return status == SWITCH_STATUS_SUCCESS ? str : NULL; } SWITCH_DECLARE(switch_status_t) switch_cache_db_persistant_execute(switch_cache_db_handle_t *dbh, const char *sql, uint32_t retries) { char *errmsg = NULL; switch_status_t status = SWITCH_STATUS_FALSE; uint8_t forever = 0; switch_mutex_t *io_mutex = dbh->io_mutex; if (!retries) { forever = 1; retries = 1000; } while (retries > 0) { if (io_mutex) switch_mutex_lock(io_mutex); switch_cache_db_execute_sql_real(dbh, sql, &errmsg); if (io_mutex) switch_mutex_unlock(io_mutex); if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "SQL ERR [%s]\n", errmsg); switch_safe_free(errmsg); switch_yield(100000); retries--; if (retries == 0 && forever) { retries = 1000; continue; } } else { status = SWITCH_STATUS_SUCCESS; break; } } return status; } SWITCH_DECLARE(switch_status_t) switch_cache_db_persistant_execute_trans(switch_cache_db_handle_t *dbh, char *sql, uint32_t retries) { char *errmsg = NULL; switch_status_t status = SWITCH_STATUS_FALSE; uint8_t forever = 0; unsigned begin_retries = 100; uint8_t again = 0; switch_mutex_t *io_mutex = dbh->io_mutex; if (!retries) { forever = 1; retries = 1000; } if (io_mutex) switch_mutex_lock(io_mutex); if (!zstr(runtime.core_db_pre_trans_execute)) { switch_cache_db_execute_sql_real(dbh, runtime.core_db_pre_trans_execute, &errmsg); if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "SQL PRE TRANS EXEC %s [%s]\n", runtime.core_db_pre_trans_execute, errmsg); free(errmsg); } } again: while (begin_retries > 0) { again = 0; if (runtime.odbc_dbtype == DBTYPE_DEFAULT) { switch_cache_db_execute_sql_real(dbh, "BEGIN", &errmsg); } else { switch_odbc_status_t result; if ((result = switch_odbc_SQLSetAutoCommitAttr(dbh->native_handle.odbc_dbh, 0)) != SWITCH_ODBC_SUCCESS) { char tmp[100]; switch_snprintfv(tmp, sizeof(tmp), "%q-%i", "Unable to Set AutoCommit Off", result); errmsg = strdup(tmp); } } if (errmsg) { begin_retries--; if (strstr(errmsg, "cannot start a transaction within a transaction")) { again = 1; } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "SQL Retry [%s]\n", errmsg); } free(errmsg); errmsg = NULL; if (again) { if (runtime.odbc_dbtype == DBTYPE_DEFAULT) { switch_cache_db_execute_sql_real(dbh, "COMMIT", NULL); } else { switch_odbc_SQLEndTran(dbh->native_handle.odbc_dbh, 1); switch_odbc_SQLSetAutoCommitAttr(dbh->native_handle.odbc_dbh, 1); } goto again; } switch_yield(100000); if (begin_retries == 0) { goto done; } continue; } break; } if (!zstr(runtime.core_db_inner_pre_trans_execute)) { switch_cache_db_execute_sql_real(dbh, runtime.core_db_inner_pre_trans_execute, &errmsg); if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "SQL PRE TRANS EXEC %s [%s]\n", runtime.core_db_inner_pre_trans_execute, errmsg); free(errmsg); } } while (retries > 0) { switch_cache_db_execute_sql(dbh, sql, &errmsg); if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "SQL ERR [%s]\n", errmsg); free(errmsg); errmsg = NULL; switch_yield(100000); retries--; if (retries == 0 && forever) { retries = 1000; continue; } } else { status = SWITCH_STATUS_SUCCESS; break; } } if (!zstr(runtime.core_db_inner_post_trans_execute)) { switch_cache_db_execute_sql_real(dbh, runtime.core_db_inner_post_trans_execute, &errmsg); if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "SQL POST TRANS EXEC %s [%s]\n", runtime.core_db_inner_post_trans_execute, errmsg); free(errmsg); } } done: if (runtime.odbc_dbtype == DBTYPE_DEFAULT) { switch_cache_db_execute_sql_real(dbh, "COMMIT", NULL); } else { switch_odbc_SQLEndTran(dbh->native_handle.odbc_dbh, 1); switch_odbc_SQLSetAutoCommitAttr(dbh->native_handle.odbc_dbh, 1); } if (!zstr(runtime.core_db_post_trans_execute)) { switch_cache_db_execute_sql_real(dbh, runtime.core_db_post_trans_execute, &errmsg); if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "SQL POST TRANS EXEC %s [%s]\n", runtime.core_db_post_trans_execute, errmsg); free(errmsg); } } if (io_mutex) switch_mutex_unlock(io_mutex); return status; } SWITCH_DECLARE(switch_status_t) switch_cache_db_execute_sql_callback(switch_cache_db_handle_t *dbh, const char *sql, switch_core_db_callback_func_t callback, void *pdata, char **err) { switch_status_t status = SWITCH_STATUS_FALSE; char *errmsg = NULL; switch_mutex_t *io_mutex = dbh->io_mutex; if (err) { *err = NULL; } if (io_mutex) switch_mutex_lock(io_mutex); switch (dbh->type) { case SCDB_TYPE_ODBC: { status = switch_odbc_handle_callback_exec(dbh->native_handle.odbc_dbh, sql, callback, pdata, err); } break; case SCDB_TYPE_CORE_DB: { int ret = switch_core_db_exec(dbh->native_handle.core_db_dbh, sql, callback, pdata, &errmsg); if (ret == SWITCH_CORE_DB_OK || ret == SWITCH_CORE_DB_ABORT) { status = SWITCH_STATUS_SUCCESS; } if (errmsg) { dbh->last_used = switch_epoch_time_now(NULL) - (SQL_CACHE_TIMEOUT * 2); if (!strstr(errmsg, "query abort")) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "SQL ERR: [%s] %s\n", sql, errmsg); } switch_core_db_free(errmsg); } } break; } if (io_mutex) switch_mutex_unlock(io_mutex); return status; } SWITCH_DECLARE(switch_bool_t) switch_cache_db_test_reactive(switch_cache_db_handle_t *dbh, const char *test_sql, const char *drop_sql, const char *reactive_sql) { char *errmsg; switch_bool_t r = SWITCH_TRUE; switch_mutex_t *io_mutex = dbh->io_mutex; if (!switch_test_flag((&runtime), SCF_CLEAR_SQL)) { return SWITCH_TRUE; } if (!switch_test_flag((&runtime), SCF_AUTO_SCHEMAS)) { switch_cache_db_execute_sql(dbh, (char *)test_sql, NULL); return SWITCH_TRUE; } if (io_mutex) switch_mutex_lock(io_mutex); switch (dbh->type) { case SCDB_TYPE_ODBC: { if (switch_odbc_handle_exec(dbh->native_handle.odbc_dbh, test_sql, NULL, NULL) != SWITCH_ODBC_SUCCESS) { r = SWITCH_FALSE; if (drop_sql) { switch_odbc_handle_exec(dbh->native_handle.odbc_dbh, drop_sql, NULL, NULL); } switch_odbc_handle_exec(dbh->native_handle.odbc_dbh, reactive_sql, NULL, NULL); } } break; case SCDB_TYPE_CORE_DB: { if (test_sql) { switch_core_db_exec(dbh->native_handle.core_db_dbh, test_sql, NULL, NULL, &errmsg); if (errmsg) { r = SWITCH_FALSE; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "SQL ERR [%s]\n[%s]\nAuto Generating Table!\n", errmsg, test_sql); switch_core_db_free(errmsg); errmsg = NULL; if (drop_sql) { switch_core_db_exec(dbh->native_handle.core_db_dbh, drop_sql, NULL, NULL, &errmsg); } if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "SQL ERR [%s]\n[%s]\n", errmsg, drop_sql); switch_core_db_free(errmsg); errmsg = NULL; } switch_core_db_exec(dbh->native_handle.core_db_dbh, reactive_sql, NULL, NULL, &errmsg); if (errmsg) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "SQL ERR [%s]\n[%s]\n", errmsg, reactive_sql); switch_core_db_free(errmsg); errmsg = NULL; } } } } break; } if (io_mutex) switch_mutex_unlock(io_mutex); return r; } static void *SWITCH_THREAD_FUNC switch_core_sql_db_thread(switch_thread_t *thread, void *obj) { int sec = 0, reg_sec = 0;; sql_manager.db_thread_running = 1; while (sql_manager.db_thread_running == 1) { if (++sec == SQL_CACHE_TIMEOUT) { sql_close(switch_epoch_time_now(NULL)); wake_thread(0); sec = 0; } if (switch_test_flag((&runtime), SCF_USE_SQL) && ++reg_sec == SQL_REG_TIMEOUT) { switch_core_expire_registration(0); reg_sec = 0; } switch_yield(1000000); } return NULL; } static void *SWITCH_THREAD_FUNC switch_core_sql_thread(switch_thread_t *thread, void *obj) { void *pop = NULL; uint32_t iterations = 0; uint8_t trans = 0; uint32_t target = 20000; switch_size_t len = 0, sql_len = runtime.sql_buffer_len; char *tmp, *sqlbuf = (char *) malloc(sql_len); char *sql = NULL, *save_sql = NULL; switch_size_t newlen; int lc = 0, wrote = 0, do_sleep = 1; uint32_t sanity = 120; int auto_pause = 0; switch_assert(sqlbuf); while (!sql_manager.event_db) { if (switch_core_db_handle(&sql_manager.event_db) == SWITCH_STATUS_SUCCESS && sql_manager.event_db) break; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Error getting core db, Retrying\n"); switch_yield(500000); sanity--; } if (!sql_manager.event_db) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Error getting core db Disabling core sql functionality\n"); return NULL; } sql_manager.thread_running = 1; switch_mutex_lock(sql_manager.cond_mutex); switch (sql_manager.event_db->type) { case SCDB_TYPE_ODBC: break; case SCDB_TYPE_CORE_DB: { switch_cache_db_execute_sql(sql_manager.event_db, "PRAGMA synchronous=OFF;", NULL); switch_cache_db_execute_sql(sql_manager.event_db, "PRAGMA count_changes=OFF;", NULL); switch_cache_db_execute_sql(sql_manager.event_db, "PRAGMA temp_store=MEMORY;", NULL); switch_cache_db_execute_sql(sql_manager.event_db, "PRAGMA journal_mode=OFF;", NULL); } break; } while (sql_manager.thread_running == 1) { if (save_sql || switch_queue_trypop(sql_manager.sql_queue[0], &pop) == SWITCH_STATUS_SUCCESS || switch_queue_trypop(sql_manager.sql_queue[1], &pop) == SWITCH_STATUS_SUCCESS) { if (save_sql) { sql = save_sql; save_sql = NULL; } else if ((sql = (char *) pop)) { pop = NULL; } if (sql) { newlen = strlen(sql) + 2; if (iterations == 0) { trans = 1; } if (len + newlen + 1 > sql_len) { int new_mlen = len + newlen + 10240; if (new_mlen < runtime.max_sql_buffer_len) { sql_len = new_mlen; if (switch_test_flag((&runtime), SCF_DEBUG_SQL)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "REALLOC %ld %d %d\n", (long int)sql_len, switch_queue_size(sql_manager.sql_queue[0]), switch_queue_size(sql_manager.sql_queue[1])); } if (!(tmp = realloc(sqlbuf, sql_len))) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "SQL thread ending on mem err\n"); abort(); break; } sqlbuf = tmp; } else { if (switch_test_flag((&runtime), SCF_DEBUG_SQL)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "SAVE %d %d\n", switch_queue_size(sql_manager.sql_queue[0]), switch_queue_size(sql_manager.sql_queue[1])); } save_sql = sql; sql = NULL; lc = 0; goto skip; } } iterations++; sprintf(sqlbuf + len, "%s;\n", sql); len += newlen; free(sql); sql = NULL; } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_NOTICE, "SQL thread ending\n"); break; } } lc = switch_queue_size(sql_manager.sql_queue[0]) + switch_queue_size(sql_manager.sql_queue[1]); if (lc > SWITCH_SQL_QUEUE_PAUSE_LEN) { if (!auto_pause) { auto_pause = 1; switch_core_session_ctl(SCSC_PAUSE_INBOUND, &auto_pause); auto_pause = 1; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "SQL Queue overflowing [%d], Pausing calls.\n", lc); } } else { if (auto_pause && lc < 1000) { auto_pause = 0; switch_core_session_ctl(SCSC_PAUSE_INBOUND, &auto_pause); auto_pause = 0; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "SQL Queue back to normal size, resuming..\n"); } } skip: wrote = 0; if (trans && iterations && (iterations > target || !lc)) { if (switch_test_flag((&runtime), SCF_DEBUG_SQL)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "RUN %d %d %d\n", switch_queue_size(sql_manager.sql_queue[0]), switch_queue_size(sql_manager.sql_queue[1]), iterations); } if (switch_cache_db_persistant_execute_trans(sql_manager.event_db, sqlbuf, 1) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "SQL thread unable to commit transaction, records lost!\n"); } if (switch_test_flag((&runtime), SCF_DEBUG_SQL)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "DONE\n"); } iterations = 0; trans = 0; len = 0; *sqlbuf = '\0'; lc = 0; if (do_sleep) { switch_yield(200000); } else { switch_yield(1000); } wrote = 1; } lc = switch_queue_size(sql_manager.sql_queue[0]) + switch_queue_size(sql_manager.sql_queue[1]); if (!lc) { switch_thread_cond_wait(sql_manager.cond, sql_manager.cond_mutex); } else if (wrote) { if (lc > 2000) { do_sleep = 0; } else { do_sleep = 1; } } } switch_mutex_unlock(sql_manager.cond_mutex); while (switch_queue_trypop(sql_manager.sql_queue[0], &pop) == SWITCH_STATUS_SUCCESS) { free(pop); } while (switch_queue_trypop(sql_manager.sql_queue[1], &pop) == SWITCH_STATUS_SUCCESS) { free(pop); } free(sqlbuf); sql_manager.thread_running = 0; switch_cache_db_release_db_handle(&sql_manager.event_db); return NULL; } static char *parse_presence_data_cols(switch_event_t *event) { char *cols[128] = { 0 }; int col_count = 0; char *data_copy; switch_stream_handle_t stream = { 0 }; int i; char *r; char col_name[128] = ""; const char *data = switch_event_get_header(event, "presence-data-cols"); if (zstr(data)) { return NULL; } data_copy = strdup(data); col_count = switch_split(data_copy, ':', cols); SWITCH_STANDARD_STREAM(stream); for (i = 0; i < col_count; i++) { const char *val = NULL; switch_snprintfv(col_name, sizeof(col_name), "PD-%q", cols[i]); val = switch_event_get_header_nil(event, col_name); if (zstr(val)) { stream.write_function(&stream, "%q=NULL,", cols[i]); } else { stream.write_function(&stream, "%q='%q',", cols[i], val); } } r = (char *) stream.data; if (end_of(r) == ',') { end_of(r) = '\0'; } switch_safe_free(data_copy); return r; } #define MAX_SQL 5 #define new_sql() switch_assert(sql_idx+1 < MAX_SQL); sql[sql_idx++] static void core_event_handler(switch_event_t *event) { char *sql[MAX_SQL] = { 0 }; int sql_idx = 0; char *extra_cols; switch_assert(event); switch (event->event_id) { case SWITCH_EVENT_ADD_SCHEDULE: { const char *id = switch_event_get_header(event, "task-id"); const char *manager = switch_event_get_header(event, "task-sql_manager"); if (id) { new_sql() = switch_mprintf("insert into tasks values(%q,'%q','%q',%q, '%q')", id, switch_event_get_header_nil(event, "task-desc"), switch_event_get_header_nil(event, "task-group"), manager ? manager : "0", switch_core_get_switchname() ); } } break; case SWITCH_EVENT_DEL_SCHEDULE: case SWITCH_EVENT_EXE_SCHEDULE: new_sql() = switch_mprintf("delete from tasks where task_id=%q and hostname='%q'", switch_event_get_header_nil(event, "task-id"), switch_core_get_switchname()); break; case SWITCH_EVENT_RE_SCHEDULE: { const char *id = switch_event_get_header(event, "task-id"); const char *manager = switch_event_get_header(event, "task-sql_manager"); if (id) { new_sql() = switch_mprintf("update tasks set task_desc='%q',task_group='%q', task_sql_manager=%q where task_id=%q and hostname='%q'", switch_event_get_header_nil(event, "task-desc"), switch_event_get_header_nil(event, "task-group"), manager ? manager : "0", id, switch_core_get_switchname()); } } break; case SWITCH_EVENT_CHANNEL_DESTROY: { const char *uuid = switch_event_get_header(event, "unique-id"); if (uuid) { new_sql() = switch_mprintf("delete from channels where uuid='%q'", uuid); new_sql() = switch_mprintf("delete from calls where (caller_uuid='%q' or callee_uuid='%q')", uuid, uuid); } } break; case SWITCH_EVENT_CHANNEL_UUID: { new_sql() = switch_mprintf("update channels set uuid='%q' where uuid='%q'", switch_event_get_header_nil(event, "unique-id"), switch_event_get_header_nil(event, "old-unique-id") ); new_sql() = switch_mprintf("update channels set call_uuid='%q' where call_uuid='%q'", switch_event_get_header_nil(event, "unique-id"), switch_event_get_header_nil(event, "old-unique-id") ); break; } case SWITCH_EVENT_CHANNEL_CREATE: new_sql() = switch_mprintf("insert into channels (uuid,direction,created,created_epoch, name,state,callstate,dialplan,context,hostname) " "values('%q','%q','%q','%ld','%q','%q','%q','%q','%q','%q')", switch_event_get_header_nil(event, "unique-id"), switch_event_get_header_nil(event, "call-direction"), switch_event_get_header_nil(event, "event-date-local"), (long) switch_epoch_time_now(NULL), switch_event_get_header_nil(event, "channel-name"), switch_event_get_header_nil(event, "channel-state"), switch_event_get_header_nil(event, "channel-call-state"), switch_event_get_header_nil(event, "caller-dialplan"), switch_event_get_header_nil(event, "caller-context"), switch_core_get_switchname() ); break; case SWITCH_EVENT_CODEC: new_sql() = switch_mprintf ("update channels set read_codec='%q',read_rate='%q',read_bit_rate='%q',write_codec='%q',write_rate='%q',write_bit_rate='%q' where uuid='%q'", switch_event_get_header_nil(event, "channel-read-codec-name"), switch_event_get_header_nil(event, "channel-read-codec-rate"), switch_event_get_header_nil(event, "channel-read-codec-bit-rate"), switch_event_get_header_nil(event, "channel-write-codec-name"), switch_event_get_header_nil(event, "channel-write-codec-rate"), switch_event_get_header_nil(event, "channel-write-codec-bit-rate"), switch_event_get_header_nil(event, "unique-id")); break; case SWITCH_EVENT_CHANNEL_HOLD: case SWITCH_EVENT_CHANNEL_UNHOLD: case SWITCH_EVENT_CHANNEL_EXECUTE: { new_sql() = switch_mprintf("update channels set application='%q',application_data='%q'," "presence_id='%q',presence_data='%q' where uuid='%q'", switch_event_get_header_nil(event, "application"), switch_event_get_header_nil(event, "application-data"), switch_event_get_header_nil(event, "channel-presence-id"), switch_event_get_header_nil(event, "channel-presence-data"), switch_event_get_header_nil(event, "unique-id") ); } break; case SWITCH_EVENT_CHANNEL_ORIGINATE: { if ((extra_cols = parse_presence_data_cols(event))) { new_sql() = switch_mprintf("update channels set " "presence_id='%q',presence_data='%q', call_uuid='%q',%s where uuid='%q'", switch_event_get_header_nil(event, "channel-presence-id"), switch_event_get_header_nil(event, "channel-presence-data"), switch_event_get_header_nil(event, "channel-call-uuid"), extra_cols, switch_event_get_header_nil(event, "unique-id")); free(extra_cols); } else { new_sql() = switch_mprintf("update channels set " "presence_id='%q',presence_data='%q', call_uuid='%q' where uuid='%q'", switch_event_get_header_nil(event, "channel-presence-id"), switch_event_get_header_nil(event, "channel-presence-data"), switch_event_get_header_nil(event, "channel-call-uuid"), switch_event_get_header_nil(event, "unique-id")); } } break; case SWITCH_EVENT_CALL_UPDATE: { new_sql() = switch_mprintf("update channels set callee_name='%q',callee_num='%q',sent_callee_name='%q',sent_callee_num='%q',callee_direction='%q'," "cid_name='%q',cid_num='%q' where uuid='%s'", switch_event_get_header_nil(event, "caller-callee-id-name"), switch_event_get_header_nil(event, "caller-callee-id-number"), switch_event_get_header_nil(event, "sent-callee-id-name"), switch_event_get_header_nil(event, "sent-callee-id-number"), switch_event_get_header_nil(event, "direction"), switch_event_get_header_nil(event, "caller-caller-id-name"), switch_event_get_header_nil(event, "caller-caller-id-number"), switch_event_get_header_nil(event, "unique-id") ); } break; case SWITCH_EVENT_CHANNEL_CALLSTATE: { char *num = switch_event_get_header_nil(event, "channel-call-state-number"); switch_channel_callstate_t callstate = CCS_DOWN; if (num) { callstate = atoi(num); } if (callstate != CCS_DOWN && callstate != CCS_HANGUP) { if ((extra_cols = parse_presence_data_cols(event))) { new_sql() = switch_mprintf("update channels set callstate='%q',%s where uuid='%q'", switch_event_get_header_nil(event, "channel-call-state"), extra_cols, switch_event_get_header_nil(event, "unique-id")); free(extra_cols); } else { new_sql() = switch_mprintf("update channels set callstate='%q' where uuid='%q'", switch_event_get_header_nil(event, "channel-call-state"), switch_event_get_header_nil(event, "unique-id")); } } } break; case SWITCH_EVENT_CHANNEL_STATE: { char *state = switch_event_get_header_nil(event, "channel-state-number"); switch_channel_state_t state_i = CS_DESTROY; if (!zstr(state)) { state_i = atoi(state); } switch (state_i) { case CS_NEW: case CS_DESTROY: case CS_REPORTING: break; case CS_EXECUTE: if ((extra_cols = parse_presence_data_cols(event))) { new_sql() = switch_mprintf("update channels set state='%s',%s where uuid='%q'", switch_event_get_header_nil(event, "channel-state"), extra_cols, switch_event_get_header_nil(event, "unique-id")); free(extra_cols); } else { new_sql() = switch_mprintf("update channels set state='%s' where uuid='%s'", switch_event_get_header_nil(event, "channel-state"), switch_event_get_header_nil(event, "unique-id")); } break; case CS_ROUTING: if ((extra_cols = parse_presence_data_cols(event))) { new_sql() = switch_mprintf("update channels set state='%s',cid_name='%q',cid_num='%q',callee_name='%q',callee_num='%q'," "sent_callee_name='%q',sent_callee_num='%q'," "ip_addr='%s',dest='%q',dialplan='%q',context='%q',presence_id='%q',presence_data='%q',%s " "where uuid='%s'", switch_event_get_header_nil(event, "channel-state"), switch_event_get_header_nil(event, "caller-caller-id-name"), switch_event_get_header_nil(event, "caller-caller-id-number"), switch_event_get_header_nil(event, "caller-callee-id-name"), switch_event_get_header_nil(event, "caller-callee-id-number"), switch_event_get_header_nil(event, "sent-callee-id-name"), switch_event_get_header_nil(event, "sent-callee-id-number"), switch_event_get_header_nil(event, "caller-network-addr"), switch_event_get_header_nil(event, "caller-destination-number"), switch_event_get_header_nil(event, "caller-dialplan"), switch_event_get_header_nil(event, "caller-context"), switch_event_get_header_nil(event, "channel-presence-id"), switch_event_get_header_nil(event, "channel-presence-data"), extra_cols, switch_event_get_header_nil(event, "unique-id")); free(extra_cols); } else { new_sql() = switch_mprintf("update channels set state='%s',cid_name='%q',cid_num='%q',callee_name='%q',callee_num='%q'," "sent_callee_name='%q',sent_callee_num='%q'," "ip_addr='%s',dest='%q',dialplan='%q',context='%q',presence_id='%q',presence_data='%q' " "where uuid='%s'", switch_event_get_header_nil(event, "channel-state"), switch_event_get_header_nil(event, "caller-caller-id-name"), switch_event_get_header_nil(event, "caller-caller-id-number"), switch_event_get_header_nil(event, "caller-callee-id-name"), switch_event_get_header_nil(event, "caller-callee-id-number"), switch_event_get_header_nil(event, "sent-callee-id-name"), switch_event_get_header_nil(event, "sent-callee-id-number"), switch_event_get_header_nil(event, "caller-network-addr"), switch_event_get_header_nil(event, "caller-destination-number"), switch_event_get_header_nil(event, "caller-dialplan"), switch_event_get_header_nil(event, "caller-context"), switch_event_get_header_nil(event, "channel-presence-id"), switch_event_get_header_nil(event, "channel-presence-data"), switch_event_get_header_nil(event, "unique-id")); } break; default: new_sql() = switch_mprintf("update channels set state='%s' where uuid='%s'", switch_event_get_header_nil(event, "channel-state"), switch_event_get_header_nil(event, "unique-id")); break; } break; } case SWITCH_EVENT_CHANNEL_BRIDGE: { const char *a_uuid, *b_uuid, *uuid; a_uuid = switch_event_get_header(event, "Bridge-A-Unique-ID"); b_uuid = switch_event_get_header(event, "Bridge-B-Unique-ID"); uuid = switch_event_get_header(event, "unique-id"); if (zstr(a_uuid) || zstr(b_uuid)) { a_uuid = switch_event_get_header_nil(event, "caller-unique-id"); b_uuid = switch_event_get_header_nil(event, "other-leg-unique-id"); } if (uuid && (extra_cols = parse_presence_data_cols(event))) { new_sql() = switch_mprintf("update channels set %s where uuid='%s'", extra_cols, uuid); free(extra_cols); } new_sql() = switch_mprintf("update channels set call_uuid='%q' where uuid='%s' or uuid='%s'", switch_event_get_header_nil(event, "channel-call-uuid"), a_uuid, b_uuid); new_sql() = switch_mprintf("insert into calls (call_uuid,call_created,call_created_epoch," "caller_uuid,callee_uuid,hostname) " "values ('%s','%s','%ld','%q','%q','%q')", switch_event_get_header_nil(event, "channel-call-uuid"), switch_event_get_header_nil(event, "event-date-local"), (long) switch_epoch_time_now(NULL), a_uuid, b_uuid, switch_core_get_switchname() ); } break; case SWITCH_EVENT_CHANNEL_UNBRIDGE: { char *cuuid = switch_event_get_header_nil(event, "caller-unique-id"); char *uuid = switch_event_get_header(event, "unique-id"); if (uuid && (extra_cols = parse_presence_data_cols(event))) { new_sql() = switch_mprintf("update channels set %s where uuid='%s'", extra_cols, uuid); free(extra_cols); } new_sql() = switch_mprintf("update channels set call_uuid=uuid where call_uuid='%s'", switch_event_get_header_nil(event, "channel-call-uuid")); new_sql() = switch_mprintf("delete from calls where (caller_uuid='%q' or callee_uuid='%q')", cuuid, cuuid); break; } case SWITCH_EVENT_SHUTDOWN: new_sql() = switch_mprintf("delete from channels where hostname='%q';" "delete from interfaces where hostname='%q';" "delete from calls where hostname='%q'", switch_core_get_switchname(), switch_core_get_switchname(), switch_core_get_switchname() ); break; case SWITCH_EVENT_LOG: return; case SWITCH_EVENT_MODULE_LOAD: { const char *type = switch_event_get_header_nil(event, "type"); const char *name = switch_event_get_header_nil(event, "name"); const char *description = switch_event_get_header_nil(event, "description"); const char *syntax = switch_event_get_header_nil(event, "syntax"); const char *key = switch_event_get_header_nil(event, "key"); const char *filename = switch_event_get_header_nil(event, "filename"); if (!zstr(type) && !zstr(name)) { new_sql() = switch_mprintf ("insert into interfaces (type,name,description,syntax,ikey,filename,hostname) values('%q','%q','%q','%q','%q','%q','%q')", type, name, switch_str_nil(description), switch_str_nil(syntax), switch_str_nil(key), switch_str_nil(filename), switch_core_get_switchname() ); } break; } case SWITCH_EVENT_MODULE_UNLOAD: { const char *type = switch_event_get_header_nil(event, "type"); const char *name = switch_event_get_header_nil(event, "name"); if (!zstr(type) && !zstr(name)) { new_sql() = switch_mprintf("delete from interfaces where type='%q' and name='%q' and hostname='%q'", type, name, switch_core_get_switchname()); } break; } case SWITCH_EVENT_CALL_SECURE: { const char *type = switch_event_get_header_nil(event, "secure_type"); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Secure Type: %s\n", type); if (zstr(type)) { break; } new_sql() = switch_mprintf("update channels set secure='%s' where uuid='%s'", type, switch_event_get_header_nil(event, "caller-unique-id") ); break; } case SWITCH_EVENT_NAT: { const char *op = switch_event_get_header_nil(event, "op"); switch_bool_t sticky = switch_true(switch_event_get_header_nil(event, "sticky")); if (!strcmp("add", op)) { new_sql() = switch_mprintf("insert into nat (port, proto, sticky, hostname) values (%s, %s, %d,'%q')", switch_event_get_header_nil(event, "port"), switch_event_get_header_nil(event, "proto"), sticky, switch_core_get_switchname() ); } else if (!strcmp("del", op)) { new_sql() = switch_mprintf("delete from nat where port=%s and proto=%s and hostname='%q'", switch_event_get_header_nil(event, "port"), switch_event_get_header_nil(event, "proto"), switch_core_get_switchname()); } else if (!strcmp("status", op)) { /* call show nat api */ } else if (!strcmp("status_response", op)) { /* ignore */ } else { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Unknown op for SWITCH_EVENT_NAT: %s\n", op); } break; } default: break; } if (sql_idx) { int i = 0; for (i = 0; i < sql_idx; i++) { if (switch_stristr("update channels", sql[i]) || switch_stristr("delete from channels", sql[i])) { switch_queue_push(sql_manager.sql_queue[1], sql[i]); } else { switch_queue_push(sql_manager.sql_queue[0], sql[i]); } sql[i] = NULL; wake_thread(0); } } } static char create_complete_sql[] = "CREATE TABLE complete (\n" " sticky INTEGER,\n" " a1 VARCHAR(128),\n" " a2 VARCHAR(128),\n" " a3 VARCHAR(128),\n" " a4 VARCHAR(128),\n" " a5 VARCHAR(128),\n" " a6 VARCHAR(128),\n" " a7 VARCHAR(128),\n" " a8 VARCHAR(128),\n" " a9 VARCHAR(128),\n" " a10 VARCHAR(128),\n" " hostname VARCHAR(256)\n" ");\n"; static char create_alias_sql[] = "CREATE TABLE aliases (\n" " sticky INTEGER,\n" " alias VARCHAR(128),\n" " command VARCHAR(4096),\n" " hostname VARCHAR(256)\n" ");\n"; static char create_channels_sql[] = "CREATE TABLE channels (\n" " uuid VARCHAR(256),\n" " direction VARCHAR(32),\n" " created VARCHAR(128),\n" " created_epoch INTEGER,\n" " name VARCHAR(1024),\n" " state VARCHAR(64),\n" " cid_name VARCHAR(1024),\n" " cid_num VARCHAR(256),\n" " ip_addr VARCHAR(256),\n" " dest VARCHAR(1024),\n" " application VARCHAR(128),\n" " application_data VARCHAR(4096),\n" " dialplan VARCHAR(128),\n" " context VARCHAR(128),\n" " read_codec VARCHAR(128),\n" " read_rate VARCHAR(32),\n" " read_bit_rate VARCHAR(32),\n" " write_codec VARCHAR(128),\n" " write_rate VARCHAR(32),\n" " write_bit_rate VARCHAR(32),\n" " secure VARCHAR(32),\n" " hostname VARCHAR(256),\n" " presence_id VARCHAR(4096),\n" " presence_data VARCHAR(4096),\n" " callstate VARCHAR(64),\n" " callee_name VARCHAR(1024),\n" " callee_num VARCHAR(256),\n" " callee_direction VARCHAR(5),\n" " call_uuid VARCHAR(256),\n" " sent_callee_name VARCHAR(1024),\n" " sent_callee_num VARCHAR(256)\n" ");\n"; static char create_calls_sql[] = "CREATE TABLE calls (\n" " call_uuid VARCHAR(255),\n" " call_created VARCHAR(128),\n" " call_created_epoch INTEGER,\n" " caller_uuid VARCHAR(256),\n" " callee_uuid VARCHAR(256),\n" " hostname VARCHAR(256)\n" ");\n"; static char create_interfaces_sql[] = "CREATE TABLE interfaces (\n" " type VARCHAR(128),\n" " name VARCHAR(1024),\n" " description VARCHAR(4096),\n" " ikey VARCHAR(1024),\n" " filename VARCHAR(4096),\n" " syntax VARCHAR(4096),\n" " hostname VARCHAR(256)\n" ");\n"; static char create_tasks_sql[] = "CREATE TABLE tasks (\n" " task_id INTEGER,\n" " task_desc VARCHAR(4096),\n" " task_group VARCHAR(1024),\n" " task_sql_manager INTEGER,\n" " hostname VARCHAR(256)\n" ");\n"; static char create_nat_sql[] = "CREATE TABLE nat (\n" " sticky INTEGER,\n" " port INTEGER,\n" " proto INTEGER,\n" " hostname VARCHAR(256)\n" ");\n"; static char create_registrations_sql[] = "CREATE TABLE registrations (\n" " reg_user VARCHAR(256),\n" " realm VARCHAR(256),\n" " token VARCHAR(256),\n" /* If url is modified please check for code in switch_core_sqldb_start for dependencies for MSSQL" */ " url TEXT,\n" " expires INTEGER,\n" " network_ip VARCHAR(256),\n" " network_port VARCHAR(256),\n" " network_proto VARCHAR(256),\n" " hostname VARCHAR(256),\n" " metadata VARCHAR(256)\n" ");\n"; static char detailed_calls_sql[] = "create view detailed_calls as select " "a.uuid as uuid," "a.direction as direction," "a.created as created," "a.created_epoch as created_epoch," "a.name as name," "a.state as state," "a.cid_name as cid_name," "a.cid_num as cid_num," "a.ip_addr as ip_addr," "a.dest as dest," "a.application as application," "a.application_data as application_data," "a.dialplan as dialplan," "a.context as context," "a.read_codec as read_codec," "a.read_rate as read_rate," "a.read_bit_rate as read_bit_rate," "a.write_codec as write_codec," "a.write_rate as write_rate," "a.write_bit_rate as write_bit_rate," "a.secure as secure," "a.hostname as hostname," "a.presence_id as presence_id," "a.presence_data as presence_data," "a.callstate as callstate," "a.callee_name as callee_name," "a.callee_num as callee_num," "a.callee_direction as callee_direction," "a.call_uuid as call_uuid," "a.sent_callee_name as sent_callee_name," "a.sent_callee_num as sent_callee_num," "b.uuid as b_uuid," "b.direction as b_direction," "b.created as b_created," "b.created_epoch as b_created_epoch," "b.name as b_name," "b.state as b_state," "b.cid_name as b_cid_name," "b.cid_num as b_cid_num," "b.ip_addr as b_ip_addr," "b.dest as b_dest," "b.application as b_application," "b.application_data as b_application_data," "b.dialplan as b_dialplan," "b.context as b_context," "b.read_codec as b_read_codec," "b.read_rate as b_read_rate," "b.read_bit_rate as b_read_bit_rate," "b.write_codec as b_write_codec," "b.write_rate as b_write_rate," "b.write_bit_rate as b_write_bit_rate," "b.secure as b_secure," "b.hostname as b_hostname," "b.presence_id as b_presence_id," "b.presence_data as b_presence_data," "b.callstate as b_callstate," "b.callee_name as b_callee_name," "b.callee_num as b_callee_num," "b.callee_direction as b_callee_direction," "b.call_uuid as b_call_uuid," "b.sent_callee_name as b_sent_callee_name," "b.sent_callee_num as b_sent_callee_num," "c.call_created_epoch as call_created_epoch " "from channels a " "left join calls c on a.uuid = c.caller_uuid and a.hostname = c.hostname " "left join channels b on b.uuid = c.callee_uuid and b.hostname = c.hostname " "where a.uuid = c.caller_uuid or a.uuid not in (select callee_uuid from calls)"; static char basic_calls_sql[] = "create view basic_calls as select " "a.uuid as uuid," "a.direction as direction," "a.created as created," "a.created_epoch as created_epoch," "a.name as name," "a.state as state," "a.cid_name as cid_name," "a.cid_num as cid_num," "a.ip_addr as ip_addr," "a.dest as dest," "a.presence_id as presence_id," "a.presence_data as presence_data," "a.callstate as callstate," "a.callee_name as callee_name," "a.callee_num as callee_num," "a.callee_direction as callee_direction," "a.call_uuid as call_uuid," "a.hostname as hostname," "a.sent_callee_name as sent_callee_name," "a.sent_callee_num as sent_callee_num," "b.uuid as b_uuid," "b.direction as b_direction," "b.created as b_created," "b.created_epoch as b_created_epoch," "b.name as b_name," "b.state as b_state," "b.cid_name as b_cid_name," "b.cid_num as b_cid_num," "b.ip_addr as b_ip_addr," "b.dest as b_dest," "b.presence_id as b_presence_id," "b.presence_data as b_presence_data," "b.callstate as b_callstate," "b.callee_name as b_callee_name," "b.callee_num as b_callee_num," "b.callee_direction as b_callee_direction," "b.sent_callee_name as b_sent_callee_name," "b.sent_callee_num as b_sent_callee_num," "c.call_created_epoch as call_created_epoch " "from channels a " "left join calls c on a.uuid = c.caller_uuid and a.hostname = c.hostname " "left join channels b on b.uuid = c.callee_uuid and b.hostname = c.hostname " "where a.uuid = c.caller_uuid or a.uuid not in (select callee_uuid from calls)"; SWITCH_DECLARE(switch_status_t) switch_core_add_registration(const char *user, const char *realm, const char *token, const char *url, uint32_t expires, const char *network_ip, const char *network_port, const char *network_proto, const char *metadata) { char *sql; if (!switch_test_flag((&runtime), SCF_USE_SQL)) { return SWITCH_STATUS_FALSE; } if (runtime.multiple_registrations) { sql = switch_mprintf("delete from registrations where hostname='%q' and (url='%q' or token='%q')", switch_core_get_switchname(), url, switch_str_nil(token)); } else { sql = switch_mprintf("delete from registrations where reg_user='%q' and realm='%q' and hostname='%q'", user, realm, switch_core_get_switchname()); } switch_queue_push(sql_manager.sql_queue[0], sql); if ( !zstr(metadata) ) { sql = switch_mprintf("insert into registrations (reg_user,realm,token,url,expires,network_ip,network_port,network_proto,hostname,metadata) " "values ('%q','%q','%q','%q',%ld,'%q','%q','%q','%q','%q')", switch_str_nil(user), switch_str_nil(realm), switch_str_nil(token), switch_str_nil(url), expires, switch_str_nil(network_ip), switch_str_nil(network_port), switch_str_nil(network_proto), switch_core_get_switchname(), metadata ); } else { sql = switch_mprintf("insert into registrations (reg_user,realm,token,url,expires,network_ip,network_port,network_proto,hostname) " "values ('%q','%q','%q','%q',%ld,'%q','%q','%q','%q')", switch_str_nil(user), switch_str_nil(realm), switch_str_nil(token), switch_str_nil(url), expires, switch_str_nil(network_ip), switch_str_nil(network_port), switch_str_nil(network_proto), switch_core_get_switchname() ); } switch_queue_push(sql_manager.sql_queue[0], sql); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_core_del_registration(const char *user, const char *realm, const char *token) { char *sql; if (!switch_test_flag((&runtime), SCF_USE_SQL)) { return SWITCH_STATUS_FALSE; } if (!zstr(token) && runtime.multiple_registrations) { sql = switch_mprintf("delete from registrations where reg_user='%q' and realm='%q' and hostname='%q' and token='%q'", user, realm, switch_core_get_switchname(), token); } else { sql = switch_mprintf("delete from registrations where reg_user='%q' and realm='%q' and hostname='%q'", user, realm, switch_core_get_switchname()); } switch_queue_push(sql_manager.sql_queue[0], sql); return SWITCH_STATUS_SUCCESS; } SWITCH_DECLARE(switch_status_t) switch_core_expire_registration(int force) { char *sql; time_t now; if (!switch_test_flag((&runtime), SCF_USE_SQL)) { return SWITCH_STATUS_FALSE; } now = switch_epoch_time_now(NULL); if (force) { sql = switch_mprintf("delete from registrations where hostname='%q'", switch_core_get_switchname()); } else { sql = switch_mprintf("delete from registrations where expires > 0 and expires <= %ld and hostname='%q'", now, switch_core_get_switchname()); } switch_queue_push(sql_manager.sql_queue[0], sql); return SWITCH_STATUS_SUCCESS; } switch_status_t switch_core_sqldb_start(switch_memory_pool_t *pool, switch_bool_t manage) { switch_threadattr_t *thd_attr; switch_cache_db_handle_t *dbh; uint32_t sanity = 400; sql_manager.memory_pool = pool; sql_manager.manage = manage; switch_mutex_init(&sql_manager.dbh_mutex, SWITCH_MUTEX_NESTED, sql_manager.memory_pool); switch_mutex_init(&sql_manager.io_mutex, SWITCH_MUTEX_NESTED, sql_manager.memory_pool); switch_mutex_init(&sql_manager.cond_mutex, SWITCH_MUTEX_NESTED, sql_manager.memory_pool); switch_thread_cond_create(&sql_manager.cond, sql_manager.memory_pool); top: if (!sql_manager.manage) goto skip; /* Activate SQL database */ if (switch_core_db_handle(&dbh) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error Opening DB!\n"); if (switch_test_flag((&runtime), SCF_CORE_ODBC_REQ)) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Failure! ODBC IS REQUIRED!\n"); return SWITCH_STATUS_FALSE; } if (runtime.odbc_dsn) { runtime.odbc_dsn = NULL; runtime.odbc_user = NULL; runtime.odbc_pass = NULL; runtime.odbc_dbtype = DBTYPE_DEFAULT; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Falling back to core_db.\n"); goto top; } switch_clear_flag((&runtime), SCF_USE_SQL); return SWITCH_STATUS_FALSE; } switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "Opening DB\n"); switch (dbh->type) { case SCDB_TYPE_ODBC: if (switch_test_flag((&runtime), SCF_CLEAR_SQL)) { char sql[512] = ""; char *tables[] = { "channels", "calls", "interfaces", "tasks", NULL }; int i; const char *hostname = switch_core_get_switchname(); for (i = 0; tables[i]; i++) { switch_snprintfv(sql, sizeof(sql), "delete from %q where hostname='%q'", tables[i], hostname); switch_cache_db_execute_sql(dbh, sql, NULL); } } break; case SCDB_TYPE_CORE_DB: { switch_cache_db_execute_sql(dbh, "drop table channels", NULL); switch_cache_db_execute_sql(dbh, "drop table calls", NULL); switch_cache_db_execute_sql(dbh, "drop view detailed_calls", NULL); switch_cache_db_execute_sql(dbh, "drop view basic_calls", NULL); switch_cache_db_execute_sql(dbh, "drop table interfaces", NULL); switch_cache_db_execute_sql(dbh, "drop table tasks", NULL); switch_cache_db_execute_sql(dbh, "PRAGMA synchronous=OFF;", NULL); switch_cache_db_execute_sql(dbh, "PRAGMA count_changes=OFF;", NULL); switch_cache_db_execute_sql(dbh, "PRAGMA default_cache_size=8000", NULL); switch_cache_db_execute_sql(dbh, "PRAGMA temp_store=MEMORY;", NULL); switch_cache_db_execute_sql(dbh, "PRAGMA journal_mode=OFF;", NULL); } break; } switch_cache_db_test_reactive(dbh, "select hostname from complete", "DROP TABLE complete", create_complete_sql); switch_cache_db_test_reactive(dbh, "select hostname from aliases", "DROP TABLE aliases", create_alias_sql); switch_cache_db_test_reactive(dbh, "select hostname from nat", "DROP TABLE nat", create_nat_sql); switch_cache_db_test_reactive(dbh, "delete from registrations where reg_user='' or network_proto='tcp' or network_proto='tls'", "DROP TABLE registrations", create_registrations_sql); switch_cache_db_test_reactive(dbh, "select metadata from registrations", NULL, "ALTER TABLE registrations ADD COLUMN metadata VARCHAR(256)"); switch (dbh->type) { case SCDB_TYPE_ODBC: { char *err; switch_cache_db_test_reactive(dbh, "select call_uuid, read_bit_rate, sent_callee_name from channels", "DROP TABLE channels", create_channels_sql); switch_cache_db_test_reactive(dbh, "select * from detailed_calls where sent_callee_name=''", "DROP VIEW detailed_calls", detailed_calls_sql); switch_cache_db_test_reactive(dbh, "select * from basic_calls where sent_callee_name=''", "DROP VIEW basic_calls", basic_calls_sql); switch_cache_db_test_reactive(dbh, "select call_uuid from calls", "DROP TABLE calls", create_calls_sql); if (runtime.odbc_dbtype == DBTYPE_DEFAULT) { switch_cache_db_test_reactive(dbh, "delete from registrations where reg_user='' or network_proto='tcp' or network_proto='tls'", "DROP TABLE registrations", create_registrations_sql); } else { char *tmp = switch_string_replace(create_registrations_sql, "url TEXT", "url VARCHAR(max)"); switch_cache_db_test_reactive(dbh, "delete from registrations where reg_user='' or network_proto='tcp' or network_proto='tls'", "DROP TABLE registrations", tmp); free(tmp); } switch_cache_db_test_reactive(dbh, "select ikey from interfaces", "DROP TABLE interfaces", create_interfaces_sql); switch_cache_db_test_reactive(dbh, "select hostname from tasks", "DROP TABLE tasks", create_tasks_sql); if (runtime.odbc_dbtype == DBTYPE_DEFAULT) { switch_cache_db_execute_sql(dbh, "begin;delete from channels where hostname='';delete from channels where hostname='';commit;", &err); } else { switch_cache_db_execute_sql(dbh, "delete from channels where hostname='';delete from channels where hostname='';", &err); } if (err) { runtime.odbc_dsn = NULL; runtime.odbc_user = NULL; runtime.odbc_pass = NULL; switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Transactions not supported on your DB, disabling ODBC\n"); switch_cache_db_release_db_handle(&dbh); free(err); goto top; } } break; case SCDB_TYPE_CORE_DB: { switch_cache_db_execute_sql(dbh, create_channels_sql, NULL); switch_cache_db_execute_sql(dbh, create_calls_sql, NULL); switch_cache_db_execute_sql(dbh, create_interfaces_sql, NULL); switch_cache_db_execute_sql(dbh, create_tasks_sql, NULL); switch_cache_db_execute_sql(dbh, detailed_calls_sql, NULL); switch_cache_db_execute_sql(dbh, basic_calls_sql, NULL); } break; } switch_cache_db_execute_sql(dbh, "delete from complete where sticky=0", NULL); switch_cache_db_execute_sql(dbh, "delete from aliases where sticky=0", NULL); switch_cache_db_execute_sql(dbh, "delete from nat where sticky=0", NULL); switch_cache_db_execute_sql(dbh, "create index alias1 on aliases (alias)", NULL); switch_cache_db_execute_sql(dbh, "create index tasks1 on tasks (hostname,task_id)", NULL); switch_cache_db_execute_sql(dbh, "create index complete1 on complete (a1,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete2 on complete (a2,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete3 on complete (a3,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete4 on complete (a4,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete5 on complete (a5,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete6 on complete (a6,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete7 on complete (a7,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete8 on complete (a8,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete9 on complete (a9,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete10 on complete (a10,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index complete11 on complete (a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index nat_map_port_proto on nat (port,proto,hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index channels1 on channels(hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index calls1 on calls(hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index chidx1 on channels (hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index uuindex on channels (uuid)", NULL); switch_cache_db_execute_sql(dbh, "create index uuindex2 on channels (call_uuid)", NULL); switch_cache_db_execute_sql(dbh, "create index callsidx1 on calls (hostname)", NULL); switch_cache_db_execute_sql(dbh, "create index eruuindex on calls (caller_uuid)", NULL); switch_cache_db_execute_sql(dbh, "create index eeuuindex on calls (callee_uuid)", NULL); switch_cache_db_execute_sql(dbh, "create index eeuuindex2 on calls (call_uuid)", NULL); switch_cache_db_execute_sql(dbh, "create index regindex1 on registrations (reg_user,realm,hostname)", NULL); skip: if (sql_manager.manage) { if (switch_event_bind_removable("core_db", SWITCH_EVENT_ALL, SWITCH_EVENT_SUBCLASS_ANY, core_event_handler, NULL, &sql_manager.event_node) != SWITCH_STATUS_SUCCESS) { switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Couldn't bind event handler!\n"); } switch_queue_create(&sql_manager.sql_queue[0], SWITCH_SQL_QUEUE_LEN, sql_manager.memory_pool); switch_queue_create(&sql_manager.sql_queue[1], SWITCH_SQL_QUEUE_LEN, sql_manager.memory_pool); } switch_threadattr_create(&thd_attr, sql_manager.memory_pool); switch_threadattr_stacksize_set(thd_attr, SWITCH_THREAD_STACKSIZE); if (sql_manager.manage) { switch_thread_create(&sql_manager.thread, thd_attr, switch_core_sql_thread, NULL, sql_manager.memory_pool); } switch_thread_create(&sql_manager.db_thread, thd_attr, switch_core_sql_db_thread, NULL, sql_manager.memory_pool); while (sql_manager.manage && !sql_manager.thread_running && --sanity) { switch_yield(10000); } if (sql_manager.manage) switch_cache_db_release_db_handle(&dbh); return SWITCH_STATUS_SUCCESS; } void switch_core_sqldb_stop(void) { switch_status_t st; switch_event_unbind(&sql_manager.event_node); if (sql_manager.thread && sql_manager.thread_running) { if (sql_manager.manage) { switch_queue_push(sql_manager.sql_queue[0], NULL); switch_queue_push(sql_manager.sql_queue[1], NULL); switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG10, "Waiting for unfinished SQL transactions\n"); wake_thread(0); } sql_manager.thread_running = -1; switch_thread_join(&st, sql_manager.thread); } if (sql_manager.thread && sql_manager.db_thread_running) { sql_manager.db_thread_running = -1; switch_thread_join(&st, sql_manager.db_thread); } switch_cache_db_flush_handles(); sql_close(0); } SWITCH_DECLARE(void) switch_cache_db_status(switch_stream_handle_t *stream) { /* return some status info suitable for the cli */ switch_cache_db_handle_t *dbh = NULL; switch_bool_t locked = SWITCH_FALSE; time_t now = switch_epoch_time_now(NULL); char cleankey_str[CACHE_DB_LEN]; char *pos1 = NULL; char *pos2 = NULL; int count = 0, used = 0; switch_mutex_lock(sql_manager.dbh_mutex); for (dbh = sql_manager.handle_pool; dbh; dbh = dbh->next) { char *needle = "pass=\""; time_t diff = 0; diff = now - dbh->last_used; if (switch_mutex_trylock(dbh->mutex) == SWITCH_STATUS_SUCCESS) { switch_mutex_unlock(dbh->mutex); locked = SWITCH_FALSE; } else { locked = SWITCH_TRUE; } /* sanitize password */ memset(cleankey_str, 0, sizeof(cleankey_str)); pos1 = strstr(dbh->name, needle) + strlen(needle); pos2 = strstr(pos1, "\""); strncpy(cleankey_str, dbh->name, pos1 - dbh->name); strcpy(&cleankey_str[pos1 - dbh->name], pos2); count++; if (dbh->use_count) { used++; } stream->write_function(stream, "%s\n\tType: %s\n\tLast used: %d\n\tFlags: %s, %s(%d)\n" "\tCreator: %s\n\tLast User: %s\n", cleankey_str, switch_cache_db_type_name(dbh->type), diff, locked ? "Locked" : "Unlocked", dbh->use_count ? "Attached" : "Detached", dbh->use_count, dbh->creator, dbh->last_user); } stream->write_function(stream, "%d total. %d in use.\n", count, used); switch_mutex_unlock(sql_manager.dbh_mutex); } SWITCH_DECLARE(char*)switch_sql_concat(void) { if(runtime.odbc_dbtype == DBTYPE_MSSQL) return "+"; return "||"; } /* For Emacs: * Local Variables: * mode:c * indent-tabs-mode:t * tab-width:4 * c-basic-offset:4 * End: * For VIM: * vim:set softtabstop=4 shiftwidth=4 tabstop=4: */