/*- * Copyright 2016 Vsevolod Stakhov * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "config.h" #include "rspamd.h" #include "sqlite3.h" #include "libutil/sqlite_utils.h" #include "libstat/stat_internal.h" #include "libmime/message.h" #include "lua/lua_common.h" #include "unix-std.h" #define SQLITE3_BACKEND_TYPE "sqlite3" #define SQLITE3_SCHEMA_VERSION "1" #define SQLITE3_DEFAULT "default" struct rspamd_stat_sqlite3_db { sqlite3 *sqlite; gchar *fname; GArray *prstmt; lua_State *L; rspamd_mempool_t *pool; gboolean in_transaction; gboolean enable_users; gboolean enable_languages; gint cbref_user; gint cbref_language; }; struct rspamd_stat_sqlite3_rt { struct rspamd_task *task; struct rspamd_stat_sqlite3_db *db; struct rspamd_statfile_config *cf; gint64 user_id; gint64 lang_id; }; static const char *create_tables_sql = "BEGIN IMMEDIATE;" "CREATE TABLE tokenizer(data BLOB);" "CREATE TABLE users(" "id INTEGER PRIMARY KEY," "name TEXT," "learns INTEGER" ");" "CREATE TABLE languages(" "id INTEGER PRIMARY KEY," "name TEXT," "learns INTEGER" ");" "CREATE TABLE tokens(" "token INTEGER NOT NULL," "user INTEGER NOT NULL REFERENCES users(id) ON DELETE CASCADE," "language INTEGER NOT NULL REFERENCES languages(id) ON DELETE CASCADE," "value INTEGER," "modified INTEGER," "CONSTRAINT tid UNIQUE (token, user, language) ON CONFLICT REPLACE" ");" "CREATE UNIQUE INDEX IF NOT EXISTS un ON users(name);" "CREATE INDEX IF NOT EXISTS tok ON tokens(token);" "CREATE UNIQUE INDEX IF NOT EXISTS ln ON languages(name);" "PRAGMA user_version=" SQLITE3_SCHEMA_VERSION ";" "INSERT INTO users(id, name, learns) VALUES(0, '" SQLITE3_DEFAULT "',0);" "INSERT INTO languages(id, name, learns) VALUES(0, '" SQLITE3_DEFAULT "',0);" "COMMIT;"; enum rspamd_stat_sqlite3_stmt_idx { RSPAMD_STAT_BACKEND_TRANSACTION_START_IM = 0, RSPAMD_STAT_BACKEND_TRANSACTION_START_DEF, RSPAMD_STAT_BACKEND_TRANSACTION_START_EXCL, RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT, RSPAMD_STAT_BACKEND_TRANSACTION_ROLLBACK, RSPAMD_STAT_BACKEND_GET_TOKEN, RSPAMD_STAT_BACKEND_SET_TOKEN, RSPAMD_STAT_BACKEND_INC_LEARNS, RSPAMD_STAT_BACKEND_DEC_LEARNS, RSPAMD_STAT_BACKEND_GET_LEARNS, RSPAMD_STAT_BACKEND_GET_LANGUAGE, RSPAMD_STAT_BACKEND_GET_USER, RSPAMD_STAT_BACKEND_INSERT_USER, RSPAMD_STAT_BACKEND_INSERT_LANGUAGE, RSPAMD_STAT_BACKEND_SAVE_TOKENIZER, RSPAMD_STAT_BACKEND_LOAD_TOKENIZER, RSPAMD_STAT_BACKEND_NTOKENS, RSPAMD_STAT_BACKEND_NLANGUAGES, RSPAMD_STAT_BACKEND_NUSERS, RSPAMD_STAT_BACKEND_MAX }; static struct rspamd_sqlite3_prstmt prepared_stmts[RSPAMD_STAT_BACKEND_MAX] = { [RSPAMD_STAT_BACKEND_TRANSACTION_START_IM] = { .idx = RSPAMD_STAT_BACKEND_TRANSACTION_START_IM, .sql = "BEGIN IMMEDIATE TRANSACTION;", .args = "", .stmt = NULL, .result = SQLITE_DONE, .flags = 0, .ret = "", }, [RSPAMD_STAT_BACKEND_TRANSACTION_START_DEF] = { .idx = RSPAMD_STAT_BACKEND_TRANSACTION_START_DEF, .sql = "BEGIN DEFERRED TRANSACTION;", .args = "", .stmt = NULL, .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_TRANSACTION_START_EXCL] = { .idx = RSPAMD_STAT_BACKEND_TRANSACTION_START_EXCL, .sql = "BEGIN EXCLUSIVE TRANSACTION;", .args = "", .stmt = NULL, .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT] = { .idx = RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT, .sql = "COMMIT;", .args = "", .stmt = NULL, .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_TRANSACTION_ROLLBACK] = { .idx = RSPAMD_STAT_BACKEND_TRANSACTION_ROLLBACK, .sql = "ROLLBACK;", .args = "", .stmt = NULL, .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_GET_TOKEN] = { .idx = RSPAMD_STAT_BACKEND_GET_TOKEN, .sql = "SELECT value FROM tokens " "LEFT JOIN languages ON tokens.language=languages.id " "LEFT JOIN users ON tokens.user=users.id " "WHERE token=?1 AND (users.id=?2) " "AND (languages.id=?3 OR languages.id=0);", .stmt = NULL, .args = "III", .result = SQLITE_ROW, .flags = 0, .ret = "I" }, [RSPAMD_STAT_BACKEND_SET_TOKEN] = { .idx = RSPAMD_STAT_BACKEND_SET_TOKEN, .sql = "INSERT OR REPLACE INTO tokens (token, user, language, value, modified) " "VALUES (?1, ?2, ?3, ?4, strftime('%s','now'));", .stmt = NULL, .args = "IIII", .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_INC_LEARNS] = { .idx = RSPAMD_STAT_BACKEND_INC_LEARNS, .sql = "UPDATE languages SET learns=learns + 1 WHERE id=?1;" "UPDATE users SET learns=learns + 1 WHERE id=?2;", .stmt = NULL, .args = "II", .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_DEC_LEARNS] = { .idx = RSPAMD_STAT_BACKEND_DEC_LEARNS, .sql = "UPDATE languages SET learns=MAX(0, learns - 1) WHERE id=?1;" "UPDATE users SET learns=MAX(0, learns - 1) WHERE id=?2;", .stmt = NULL, .args = "II", .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_GET_LEARNS] = { .idx = RSPAMD_STAT_BACKEND_GET_LEARNS, .sql = "SELECT SUM(MAX(0, learns)) FROM languages;", .stmt = NULL, .args = "", .result = SQLITE_ROW, .flags = 0, .ret = "I" }, [RSPAMD_STAT_BACKEND_GET_LANGUAGE] = { .idx = RSPAMD_STAT_BACKEND_GET_LANGUAGE, .sql = "SELECT id FROM languages WHERE name=?1;", .stmt = NULL, .args = "T", .result = SQLITE_ROW, .flags = 0, .ret = "I" }, [RSPAMD_STAT_BACKEND_GET_USER] = { .idx = RSPAMD_STAT_BACKEND_GET_USER, .sql = "SELECT id FROM users WHERE name=?1;", .stmt = NULL, .args = "T", .result = SQLITE_ROW, .flags = 0, .ret = "I" }, [RSPAMD_STAT_BACKEND_INSERT_USER] = { .idx = RSPAMD_STAT_BACKEND_INSERT_USER, .sql = "INSERT INTO users (name, learns) VALUES (?1, 0);", .stmt = NULL, .args = "T", .result = SQLITE_DONE, .flags = 0, .ret = "L" }, [RSPAMD_STAT_BACKEND_INSERT_LANGUAGE] = { .idx = RSPAMD_STAT_BACKEND_INSERT_LANGUAGE, .sql = "INSERT INTO languages (name, learns) VALUES (?1, 0);", .stmt = NULL, .args = "T", .result = SQLITE_DONE, .flags = 0, .ret = "L" }, [RSPAMD_STAT_BACKEND_SAVE_TOKENIZER] = { .idx = RSPAMD_STAT_BACKEND_SAVE_TOKENIZER, .sql = "INSERT INTO tokenizer(data) VALUES (?1);", .stmt = NULL, .args = "B", .result = SQLITE_DONE, .flags = 0, .ret = "" }, [RSPAMD_STAT_BACKEND_LOAD_TOKENIZER] = { .idx = RSPAMD_STAT_BACKEND_LOAD_TOKENIZER, .sql = "SELECT data FROM tokenizer;", .stmt = NULL, .args = "", .result = SQLITE_ROW, .flags = 0, .ret = "B" }, [RSPAMD_STAT_BACKEND_NTOKENS] = { .idx = RSPAMD_STAT_BACKEND_NTOKENS, .sql = "SELECT COUNT(*) FROM tokens;", .stmt = NULL, .args = "", .result = SQLITE_ROW, .flags = 0, .ret = "I" }, [RSPAMD_STAT_BACKEND_NLANGUAGES] = { .idx = RSPAMD_STAT_BACKEND_NLANGUAGES, .sql = "SELECT COUNT(*) FROM languages;", .stmt = NULL, .args = "", .result = SQLITE_ROW, .flags = 0, .ret = "I" }, [RSPAMD_STAT_BACKEND_NUSERS] = { .idx = RSPAMD_STAT_BACKEND_NUSERS, .sql = "SELECT COUNT(*) FROM users;", .stmt = NULL, .args = "", .result = SQLITE_ROW, .flags = 0, .ret = "I" } }; static GQuark rspamd_sqlite3_backend_quark (void) { return g_quark_from_static_string ("sqlite3-stat-backend"); } static gint64 rspamd_sqlite3_get_user (struct rspamd_stat_sqlite3_db *db, struct rspamd_task *task, gboolean learn) { gint64 id = 0; /* Default user is 0 */ gint rc, err_idx; const gchar *user = NULL; struct rspamd_task **ptask; lua_State *L = db->L; GString *tb; if (db->cbref_user == -1) { user = rspamd_task_get_principal_recipient (task); } else { /* Execute lua function to get userdata */ lua_pushcfunction (L, &rspamd_lua_traceback); err_idx = lua_gettop (L); lua_rawgeti (L, LUA_REGISTRYINDEX, db->cbref_user); ptask = lua_newuserdata (L, sizeof (struct rspamd_task *)); *ptask = task; rspamd_lua_setclass (L, "rspamd{task}", -1); if (lua_pcall (L, 1, 1, err_idx) != 0) { tb = lua_touserdata (L, -1); msg_err_task ("call to user extraction script failed: %v", tb); g_string_free (tb, TRUE); } else { user = rspamd_mempool_strdup (task->task_pool, lua_tostring (L, -1)); } /* Result + error function */ lua_pop (L, 2); } if (user != NULL) { rspamd_mempool_set_variable (task->task_pool, "stat_user", (gpointer)user, NULL); rc = rspamd_sqlite3_run_prstmt (task->task_pool, db->sqlite, db->prstmt, RSPAMD_STAT_BACKEND_GET_USER, user, &id); if (rc != SQLITE_OK && learn) { /* We need to insert a new user */ if (!db->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, db->sqlite, db->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_START_IM); db->in_transaction = TRUE; } rc = rspamd_sqlite3_run_prstmt (task->task_pool, db->sqlite, db->prstmt, RSPAMD_STAT_BACKEND_INSERT_USER, user, &id); } } return id; } static gint64 rspamd_sqlite3_get_language (struct rspamd_stat_sqlite3_db *db, struct rspamd_task *task, gboolean learn) { gint64 id = 0; /* Default language is 0 */ gint rc, err_idx; guint i; const gchar *language = NULL; struct rspamd_mime_text_part *tp; struct rspamd_task **ptask; lua_State *L = db->L; GString *tb; if (db->cbref_language == -1) { for (i = 0; i < task->text_parts->len; i++) { tp = g_ptr_array_index (task->text_parts, i); if (tp->language != NULL && tp->language[0] != '\0' && strcmp (tp->language, "en") != 0) { language = tp->language; break; } } } else { /* Execute lua function to get userdata */ lua_pushcfunction (L, &rspamd_lua_traceback); err_idx = lua_gettop (L); lua_rawgeti (L, LUA_REGISTRYINDEX, db->cbref_language); ptask = lua_newuserdata (L, sizeof (struct rspamd_task *)); *ptask = task; rspamd_lua_setclass (L, "rspamd{task}", -1); if (lua_pcall (L, 1, 1, err_idx) != 0) { tb = lua_touserdata (L, -1); msg_err_task ("call to language extraction script failed: %v", tb); g_string_free (tb, TRUE); } else { language = rspamd_mempool_strdup (task->task_pool, lua_tostring (L, -1)); } /* Result + error function */ lua_pop (L, 2); } /* XXX: We ignore multiple languages but default + extra */ if (language != NULL) { rc = rspamd_sqlite3_run_prstmt (task->task_pool, db->sqlite, db->prstmt, RSPAMD_STAT_BACKEND_GET_LANGUAGE, language, &id); if (rc != SQLITE_OK && learn) { /* We need to insert a new language */ if (!db->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, db->sqlite, db->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_START_IM); db->in_transaction = TRUE; } rc = rspamd_sqlite3_run_prstmt (task->task_pool, db->sqlite, db->prstmt, RSPAMD_STAT_BACKEND_INSERT_LANGUAGE, language, &id); } } return id; } static struct rspamd_stat_sqlite3_db * rspamd_sqlite3_opendb (rspamd_mempool_t *pool, struct rspamd_statfile_config *stcf, const gchar *path, const ucl_object_t *opts, gboolean create, GError **err) { struct rspamd_stat_sqlite3_db *bk; struct rspamd_stat_tokenizer *tokenizer; gpointer tk_conf; gsize sz = 0; gint64 sz64 = 0; gchar *tok_conf_encoded; gint ret, ntries = 0; const gint max_tries = 100; struct timespec sleep_ts = { .tv_sec = 0, .tv_nsec = 1000000 }; bk = g_malloc0 (sizeof (*bk)); bk->sqlite = rspamd_sqlite3_open_or_create (pool, path, create_tables_sql, 0, err); bk->pool = pool; if (bk->sqlite == NULL) { g_free (bk); return NULL; } bk->fname = g_strdup (path); bk->prstmt = rspamd_sqlite3_init_prstmt (bk->sqlite, prepared_stmts, RSPAMD_STAT_BACKEND_MAX, err); if (bk->prstmt == NULL) { sqlite3_close (bk->sqlite); g_free (bk); return NULL; } /* Check tokenizer configuration */ while ((ret = rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_START_EXCL)) == SQLITE_BUSY && ++ntries <= max_tries) { nanosleep (&sleep_ts, NULL); } if (ret != SQLITE_OK) { msg_err_pool ("failed to stard transaction: %d, %s", ret, sqlite3_errmsg (bk->sqlite)); sqlite3_close (bk->sqlite); g_free (bk); return NULL; } if (rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_LOAD_TOKENIZER, &sz64, &tk_conf) != SQLITE_OK || sz64 == 0) { msg_info_pool ("absent tokenizer conf in %s, creating a new one", bk->fname); g_assert (stcf->clcf->tokenizer != NULL); tokenizer = rspamd_stat_get_tokenizer (stcf->clcf->tokenizer->name); g_assert (tokenizer != NULL); tk_conf = tokenizer->get_config (pool, stcf->clcf->tokenizer, &sz); /* Encode to base32 */ tok_conf_encoded = rspamd_encode_base32 (tk_conf, sz); if (rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_SAVE_TOKENIZER, (gint64)strlen (tok_conf_encoded), tok_conf_encoded) != SQLITE_OK) { sqlite3_close (bk->sqlite); g_free (bk); g_free (tok_conf_encoded); return NULL; } g_free (tok_conf_encoded); } else { g_free (tk_conf); } rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT); return bk; } gpointer rspamd_sqlite3_init (struct rspamd_stat_ctx *ctx, struct rspamd_config *cfg, struct rspamd_statfile *st) { struct rspamd_classifier_config *clf = st->classifier->cfg; struct rspamd_statfile_config *stf = st->stcf; const ucl_object_t *filenameo, *lang_enabled, *users_enabled; const gchar *filename, *lua_script; struct rspamd_stat_sqlite3_db *bk; GError *err = NULL; filenameo = ucl_object_lookup (stf->opts, "filename"); if (filenameo == NULL || ucl_object_type (filenameo) != UCL_STRING) { filenameo = ucl_object_lookup (stf->opts, "path"); if (filenameo == NULL || ucl_object_type (filenameo) != UCL_STRING) { msg_err_config ("statfile %s has no filename defined", stf->symbol); return NULL; } } filename = ucl_object_tostring (filenameo); if ((bk = rspamd_sqlite3_opendb (cfg->cfg_pool, stf, filename, stf->opts, TRUE, &err)) == NULL) { msg_err_config ("cannot open sqlite3 db: %e", err); g_error_free (err); return NULL; } bk->L = cfg->lua_state; users_enabled = ucl_object_lookup_any (clf->opts, "per_user", "users_enabled", NULL); if (users_enabled != NULL) { if (ucl_object_type (users_enabled) == UCL_BOOLEAN) { bk->enable_users = ucl_object_toboolean (users_enabled); bk->cbref_user = -1; } else if (ucl_object_type (users_enabled) == UCL_STRING) { lua_script = ucl_object_tostring (users_enabled); if (luaL_dostring (cfg->lua_state, lua_script) != 0) { msg_err_config ("cannot execute lua script for users " "extraction: %s", lua_tostring (cfg->lua_state, -1)); } else { if (lua_type (cfg->lua_state, -1) == LUA_TFUNCTION) { bk->enable_users = TRUE; bk->cbref_user = luaL_ref (cfg->lua_state, LUA_REGISTRYINDEX); } else { msg_err_config ("lua script must return " "function(task) and not %s", lua_typename (cfg->lua_state, lua_type ( cfg->lua_state, -1))); } } } } else { bk->enable_users = FALSE; } lang_enabled = ucl_object_lookup_any (clf->opts, "per_language", "languages_enabled", NULL); if (lang_enabled != NULL) { if (ucl_object_type (lang_enabled) == UCL_BOOLEAN) { bk->enable_languages = ucl_object_toboolean (lang_enabled); bk->cbref_language = -1; } else if (ucl_object_type (lang_enabled) == UCL_STRING) { lua_script = ucl_object_tostring (lang_enabled); if (luaL_dostring (cfg->lua_state, lua_script) != 0) { msg_err_config ( "cannot execute lua script for languages " "extraction: %s", lua_tostring (cfg->lua_state, -1)); } else { if (lua_type (cfg->lua_state, -1) == LUA_TFUNCTION) { bk->enable_languages = TRUE; bk->cbref_language = luaL_ref (cfg->lua_state, LUA_REGISTRYINDEX); } else { msg_err_config ("lua script must return " "function(task) and not %s", lua_typename (cfg->lua_state, lua_type (cfg->lua_state, -1))); } } } } else { bk->enable_languages = FALSE; } if (bk->enable_languages) { msg_info_config ("enable per language statistics for %s", stf->symbol); } if (bk->enable_users) { msg_info_config ("enable per users statistics for %s", stf->symbol); } return (gpointer) bk; } void rspamd_sqlite3_close (gpointer p) { struct rspamd_stat_sqlite3_db *bk = p; if (bk->sqlite) { if (bk->in_transaction) { rspamd_sqlite3_run_prstmt (bk->pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT); } rspamd_sqlite3_close_prstmt (bk->sqlite, bk->prstmt); sqlite3_close (bk->sqlite); g_free (bk->fname); g_free (bk); } } gpointer rspamd_sqlite3_runtime (struct rspamd_task *task, struct rspamd_statfile_config *stcf, gboolean learn, gpointer p) { struct rspamd_stat_sqlite3_rt *rt = NULL; struct rspamd_stat_sqlite3_db *bk = p; if (bk) { rt = rspamd_mempool_alloc (task->task_pool, sizeof (*rt)); rt->db = bk; rt->task = task; rt->user_id = -1; rt->lang_id = -1; rt->cf = stcf; } return rt; } gboolean rspamd_sqlite3_process_tokens (struct rspamd_task *task, GPtrArray *tokens, gint id, gpointer p) { struct rspamd_stat_sqlite3_db *bk; struct rspamd_stat_sqlite3_rt *rt = p; gint64 iv = 0; guint i; rspamd_token_t *tok; g_assert (p != NULL); g_assert (tokens != NULL); bk = rt->db; for (i = 0; i < tokens->len; i ++) { tok = g_ptr_array_index (tokens, i); if (bk == NULL) { /* Statfile is does not exist, so all values are zero */ tok->values[id] = 0.0; continue; } if (!bk->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_START_DEF); bk->in_transaction = TRUE; } if (rt->user_id == -1) { if (bk->enable_users) { rt->user_id = rspamd_sqlite3_get_user (bk, task, FALSE); } else { rt->user_id = 0; } } if (rt->lang_id == -1) { if (bk->enable_languages) { rt->lang_id = rspamd_sqlite3_get_language (bk, task, FALSE); } else { rt->lang_id = 0; } } if (rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_GET_TOKEN, tok->data, rt->user_id, rt->lang_id, &iv) == SQLITE_OK) { tok->values[id] = iv; } else { tok->values[id] = 0.0; } if (rt->cf->is_spam) { task->flags |= RSPAMD_TASK_FLAG_HAS_SPAM_TOKENS; } else { task->flags |= RSPAMD_TASK_FLAG_HAS_HAM_TOKENS; } } return TRUE; } gboolean rspamd_sqlite3_finalize_process (struct rspamd_task *task, gpointer runtime, gpointer ctx) { struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; g_assert (rt != NULL); bk = rt->db; if (bk->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT); bk->in_transaction = FALSE; } rt->lang_id = -1; rt->user_id = -1; return TRUE; } gboolean rspamd_sqlite3_learn_tokens (struct rspamd_task *task, GPtrArray *tokens, gint id, gpointer p) { struct rspamd_stat_sqlite3_db *bk; struct rspamd_stat_sqlite3_rt *rt = p; gint64 iv = 0; guint i; rspamd_token_t *tok; g_assert (tokens != NULL); g_assert (p != NULL); bk = rt->db; for (i = 0; i < tokens->len; i++) { tok = g_ptr_array_index (tokens, i); if (bk == NULL) { /* Statfile is does not exist, so all values are zero */ return FALSE; } if (!bk->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_START_IM); bk->in_transaction = TRUE; } if (rt->user_id == -1) { if (bk->enable_users) { rt->user_id = rspamd_sqlite3_get_user (bk, task, TRUE); } else { rt->user_id = 0; } } if (rt->lang_id == -1) { if (bk->enable_languages) { rt->lang_id = rspamd_sqlite3_get_language (bk, task, TRUE); } else { rt->lang_id = 0; } } iv = tok->values[id]; if (rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_SET_TOKEN, tok->data, rt->user_id, rt->lang_id, iv) != SQLITE_OK) { rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_ROLLBACK); bk->in_transaction = FALSE; return FALSE; } } return TRUE; } gboolean rspamd_sqlite3_finalize_learn (struct rspamd_task *task, gpointer runtime, gpointer ctx, GError **err) { struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; gint wal_frames, wal_checkpointed, mode; g_assert (rt != NULL); bk = rt->db; if (bk->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT); bk->in_transaction = FALSE; } #ifdef SQLITE_OPEN_WAL #ifdef SQLITE_CHECKPOINT_TRUNCATE mode = SQLITE_CHECKPOINT_TRUNCATE; #elif defined(SQLITE_CHECKPOINT_RESTART) mode = SQLITE_CHECKPOINT_RESTART; #elif defined(SQLITE_CHECKPOINT_FULL) mode = SQLITE_CHECKPOINT_FULL; #endif /* Perform wal checkpoint (might be long) */ if (sqlite3_wal_checkpoint_v2 (bk->sqlite, NULL, mode, &wal_frames, &wal_checkpointed) != SQLITE_OK) { msg_warn_task ("cannot commit checkpoint: %s", sqlite3_errmsg (bk->sqlite)); g_set_error (err, rspamd_sqlite3_backend_quark (), 500, "cannot commit checkpoint: %s", sqlite3_errmsg (bk->sqlite)); return FALSE; } #endif return TRUE; } gulong rspamd_sqlite3_total_learns (struct rspamd_task *task, gpointer runtime, gpointer ctx) { struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; guint64 res; g_assert (rt != NULL); bk = rt->db; rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_GET_LEARNS, &res); return res; } gulong rspamd_sqlite3_inc_learns (struct rspamd_task *task, gpointer runtime, gpointer ctx) { struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; guint64 res; g_assert (rt != NULL); bk = rt->db; rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_INC_LEARNS, rt->lang_id, rt->user_id); if (bk->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT); bk->in_transaction = FALSE; } rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_GET_LEARNS, &res); return res; } gulong rspamd_sqlite3_dec_learns (struct rspamd_task *task, gpointer runtime, gpointer ctx) { struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; guint64 res; g_assert (rt != NULL); bk = rt->db; rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_DEC_LEARNS, rt->lang_id, rt->user_id); if (bk->in_transaction) { rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_TRANSACTION_COMMIT); bk->in_transaction = FALSE; } rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_GET_LEARNS, &res); return res; } gulong rspamd_sqlite3_learns (struct rspamd_task *task, gpointer runtime, gpointer ctx) { struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; guint64 res; g_assert (rt != NULL); bk = rt->db; rspamd_sqlite3_run_prstmt (task->task_pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_GET_LEARNS, &res); return res; } ucl_object_t * rspamd_sqlite3_get_stat (gpointer runtime, gpointer ctx) { ucl_object_t *res = NULL; struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; rspamd_mempool_t *pool; struct stat st; gint64 rev; g_assert (rt != NULL); bk = rt->db; pool = bk->pool; (void)stat (bk->fname, &st); rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_GET_LEARNS, &rev); res = ucl_object_typed_new (UCL_OBJECT); ucl_object_insert_key (res, ucl_object_fromint (rev), "revision", 0, false); ucl_object_insert_key (res, ucl_object_fromint (st.st_size), "size", 0, false); rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_NTOKENS, &rev); ucl_object_insert_key (res, ucl_object_fromint (rev), "total", 0, false); ucl_object_insert_key (res, ucl_object_fromint (rev), "used", 0, false); ucl_object_insert_key (res, ucl_object_fromstring (rt->cf->symbol), "symbol", 0, false); ucl_object_insert_key (res, ucl_object_fromstring ("sqlite3"), "type", 0, false); rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_NLANGUAGES, &rev); ucl_object_insert_key (res, ucl_object_fromint (rev), "languages", 0, false); rspamd_sqlite3_run_prstmt (pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_NUSERS, &rev); ucl_object_insert_key (res, ucl_object_fromint (rev), "users", 0, false); if (rt->cf->label) { ucl_object_insert_key (res, ucl_object_fromstring (rt->cf->label), "label", 0, false); } return res; } gpointer rspamd_sqlite3_load_tokenizer_config (gpointer runtime, gsize *len) { gpointer tk_conf, copied_conf; guint64 sz; struct rspamd_stat_sqlite3_rt *rt = runtime; struct rspamd_stat_sqlite3_db *bk; g_assert (rt != NULL); bk = rt->db; g_assert (rspamd_sqlite3_run_prstmt (rt->db->pool, bk->sqlite, bk->prstmt, RSPAMD_STAT_BACKEND_LOAD_TOKENIZER, &sz, &tk_conf) == SQLITE_OK); g_assert (sz > 0); /* * Here we can have either decoded or undecoded version of tokenizer config * XXX: dirty hack to check if we have osb magic here */ if (sz > 7 && memcmp (tk_conf, "osbtokv", 7) == 0) { copied_conf = rspamd_mempool_alloc (rt->task->task_pool, sz); memcpy (copied_conf, tk_conf, sz); g_free (tk_conf); } else { /* Need to decode */ copied_conf = rspamd_decode_base32 (tk_conf, sz, len); g_free (tk_conf); rspamd_mempool_add_destructor (rt->task->task_pool, g_free, copied_conf); } if (len) { *len = sz; } return copied_conf; }