/* Copyright (c) 2013, Vsevolod Stakhov * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED ''AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "cfg_rcl.h" #include "main.h" #include "settings.h" #include "cfg_file.h" #include "lua/lua_common.h" #include "expressions.h" #include "view.h" #include "classifiers/classifiers.h" #include "tokenizers/tokenizers.h" /* * Common section handlers */ static gboolean rspamd_rcl_logging_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val; const gchar *facility, *log_type, *log_level; val = ucl_object_find_key (obj, "type"); if (val != NULL && ucl_object_tostring_safe (val, &log_type)) { if (g_ascii_strcasecmp (log_type, "file") == 0) { /* Need to get filename */ val = ucl_object_find_key (obj, "filename"); if (val == NULL || val->type != UCL_STRING) { g_set_error (err, CFG_RCL_ERROR, ENOENT, "filename attribute must be specified for file logging type"); return FALSE; } cfg->log_type = RSPAMD_LOG_FILE; cfg->log_file = memory_pool_strdup (cfg->cfg_pool, ucl_object_tostring (val)); } else if (g_ascii_strcasecmp (log_type, "syslog") == 0) { /* Need to get facility */ cfg->log_facility = LOG_DAEMON; cfg->log_type = RSPAMD_LOG_SYSLOG; val = ucl_object_find_key (obj, "facility"); if (val != NULL && ucl_object_tostring_safe (val, &facility)) { if (g_ascii_strcasecmp (facility, "LOG_AUTH") == 0 || g_ascii_strcasecmp (facility, "auth") == 0 ) { cfg->log_facility = LOG_AUTH; } else if (g_ascii_strcasecmp (facility, "LOG_CRON") == 0 || g_ascii_strcasecmp (facility, "cron") == 0 ) { cfg->log_facility = LOG_CRON; } else if (g_ascii_strcasecmp (facility, "LOG_DAEMON") == 0 || g_ascii_strcasecmp (facility, "daemon") == 0 ) { cfg->log_facility = LOG_DAEMON; } else if (g_ascii_strcasecmp (facility, "LOG_MAIL") == 0 || g_ascii_strcasecmp (facility, "mail") == 0) { cfg->log_facility = LOG_MAIL; } else if (g_ascii_strcasecmp (facility, "LOG_USER") == 0 || g_ascii_strcasecmp (facility, "user") == 0 ) { cfg->log_facility = LOG_USER; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL0") == 0 || g_ascii_strcasecmp (facility, "local0") == 0) { cfg->log_facility = LOG_LOCAL0; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL1") == 0 || g_ascii_strcasecmp (facility, "local1") == 0) { cfg->log_facility = LOG_LOCAL1; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL2") == 0 || g_ascii_strcasecmp (facility, "local2") == 0) { cfg->log_facility = LOG_LOCAL2; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL3") == 0 || g_ascii_strcasecmp (facility, "local3") == 0) { cfg->log_facility = LOG_LOCAL3; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL4") == 0 || g_ascii_strcasecmp (facility, "local4") == 0) { cfg->log_facility = LOG_LOCAL4; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL5") == 0 || g_ascii_strcasecmp (facility, "local5") == 0) { cfg->log_facility = LOG_LOCAL5; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL6") == 0 || g_ascii_strcasecmp (facility, "local6") == 0) { cfg->log_facility = LOG_LOCAL6; } else if (g_ascii_strcasecmp (facility, "LOG_LOCAL7") == 0 || g_ascii_strcasecmp (facility, "local7") == 0) { cfg->log_facility = LOG_LOCAL7; } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "invalid log facility: %s", facility); return FALSE; } } } else if (g_ascii_strcasecmp (log_type, "stderr") == 0 || g_ascii_strcasecmp (log_type, "console") == 0) { cfg->log_type = RSPAMD_LOG_CONSOLE; } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "invalid log type: %s", log_type); return FALSE; } } else { /* No type specified */ msg_warn ("logging type is not specified correctly, log output to the console"); } /* Handle log level */ val = ucl_object_find_key (obj, "level"); if (val != NULL && ucl_object_tostring_safe (val, &log_level)) { if (g_ascii_strcasecmp (log_level, "error") == 0) { cfg->log_level = G_LOG_LEVEL_ERROR | G_LOG_LEVEL_CRITICAL; } else if (g_ascii_strcasecmp (log_level, "warning") == 0) { cfg->log_level = G_LOG_LEVEL_WARNING; } else if (g_ascii_strcasecmp (log_level, "info") == 0) { cfg->log_level = G_LOG_LEVEL_INFO | G_LOG_LEVEL_MESSAGE; } else if (g_ascii_strcasecmp (log_level, "debug") == 0) { cfg->log_level = G_LOG_LEVEL_DEBUG; } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "invalid log level: %s", log_level); return FALSE; } } return rspamd_rcl_section_parse_defaults (section, cfg, obj, cfg, err); } static gboolean rspamd_rcl_options_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val; const gchar *user_settings, *domain_settings; /* Handle user and domain settings */ val = ucl_object_find_key (obj, "user_settings"); if (val != NULL && ucl_object_tostring_safe (val, &user_settings)) { if (!read_settings (user_settings, "Users' settings", cfg, cfg->user_settings)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot read settings: %s", user_settings); return FALSE; } cfg->user_settings_str = memory_pool_strdup (cfg->cfg_pool, user_settings); } val = ucl_object_find_key (obj, "domain_settings"); if (val != NULL && ucl_object_tostring_safe (val, &domain_settings)) { if (!read_settings (domain_settings, "Domains settings", cfg, cfg->domain_settings)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot read settings: %s", domain_settings); return FALSE; } cfg->domain_settings_str = memory_pool_strdup (cfg->cfg_pool, domain_settings); } return rspamd_rcl_section_parse_defaults (section, cfg, obj, cfg, err); } static gint rspamd_symbols_group_find_func (gconstpointer a, gconstpointer b) { const struct symbols_group *gr = a; const gchar *uv = b; return g_ascii_strcasecmp (gr->name, uv); } /** * Insert a symbol to the metric * @param cfg * @param metric * @param obj symbol rcl object (either float value or an object) * @param err * @return */ static gboolean rspamd_rcl_insert_symbol (struct config_file *cfg, struct metric *metric, ucl_object_t *obj, gboolean is_legacy, GError **err) { const gchar *group = "ungrouped", *description = NULL, *sym_name; gdouble symbol_score, *score_ptr; ucl_object_t *val; struct symbols_group *sym_group; struct symbol_def *sym_def; GList *metric_list, *group_list; /* * We allow two type of definitions: * symbol = weight * or * symbol { * weight = ...; * description = ...; * group = ...; * } */ if (is_legacy) { val = ucl_object_find_key (obj, "name"); if (val == NULL) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "symbol name is missing"); return FALSE; } sym_name = ucl_object_tostring (val); } else { sym_name = ucl_object_key (obj); } if (ucl_object_todouble_safe (obj, &symbol_score)) { description = NULL; } else if (obj->type == UCL_OBJECT) { val = ucl_object_find_key (obj, "weight"); if (val == NULL || !ucl_object_todouble_safe (val, &symbol_score)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "invalid symbol score: %s", sym_name); return FALSE; } val = ucl_object_find_key (obj, "description"); if (val != NULL) { description = ucl_object_tostring (val); } val = ucl_object_find_key (obj, "group"); if (val != NULL) { ucl_object_tostring_safe (val, &group); } } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "invalid symbol type: %s", sym_name); return FALSE; } sym_def = memory_pool_alloc (cfg->cfg_pool, sizeof (struct symbol_def)); score_ptr = memory_pool_alloc (cfg->cfg_pool, sizeof (gdouble)); *score_ptr = symbol_score; sym_def->weight_ptr = score_ptr; sym_def->name = memory_pool_strdup (cfg->cfg_pool, sym_name); sym_def->description = (gchar *)description; g_hash_table_insert (metric->symbols, sym_def->name, score_ptr); if ((metric_list = g_hash_table_lookup (cfg->metrics_symbols, sym_def->name)) == NULL) { metric_list = g_list_prepend (NULL, metric); memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func)g_list_free, metric_list); g_hash_table_insert (cfg->metrics_symbols, sym_def->name, metric_list); } else { /* Slow but keep start element of list in safe */ if (!g_list_find (metric_list, metric)) { metric_list = g_list_append (metric_list, metric); } } /* Search for symbol group */ group_list = g_list_find_custom (cfg->symbols_groups, group, rspamd_symbols_group_find_func); if (group_list == NULL) { /* Create new group */ sym_group = memory_pool_alloc (cfg->cfg_pool, sizeof (struct symbols_group)); sym_group->name = memory_pool_strdup (cfg->cfg_pool, group); sym_group->symbols = NULL; cfg->symbols_groups = g_list_prepend (cfg->symbols_groups, sym_group); } else { sym_group = group_list->data; } /* Insert symbol */ sym_group->symbols = g_list_prepend (sym_group->symbols, sym_def); return TRUE; } static gboolean rspamd_rcl_metric_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val, *cur; const gchar *metric_name, *subject_name, *semicolon, *act_str; struct metric *metric; struct metric_action *action; gdouble action_score, grow_factor; gint action_value; gboolean new = TRUE, have_actions = FALSE; ucl_object_iter_t it = NULL; val = ucl_object_find_key (obj, "name"); if (val == NULL || !ucl_object_tostring_safe (val, &metric_name)) { metric_name = DEFAULT_METRIC; } metric = g_hash_table_lookup (cfg->metrics, metric_name); if (metric == NULL) { metric = check_metric_conf (cfg, metric); metric->name = metric_name; } else { new = FALSE; } /* Handle actions */ val = ucl_object_find_key (obj, "actions"); if (val != NULL) { if (val->type != UCL_OBJECT) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "actions must be an object"); return FALSE; } while ((cur = ucl_iterate_object (val, &it, true)) != NULL) { if (!check_action_str (ucl_object_key (cur), &action_value) || !ucl_object_todouble_safe (cur, &action_score)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "invalid action definition: %s", ucl_object_key (cur)); return FALSE; } action = &metric->actions[action_value]; action->action = action_value; action->score = action_score; } } else if (new) { /* Switch to legacy mode */ val = ucl_object_find_key (obj, "required_score"); if (val != NULL && ucl_object_todouble_safe (val, &action_score)) { action = &metric->actions[METRIC_ACTION_REJECT]; action->action = METRIC_ACTION_REJECT; action->score = action_score; have_actions = TRUE; } val = ucl_object_find_key (obj, "action"); LL_FOREACH (val, cur) { if (cur->type == UCL_STRING) { act_str = ucl_object_tostring (cur); semicolon = strchr (act_str, ':'); if (semicolon != NULL) { if (check_action_str (act_str, &action_value)) { action_score = strtod (semicolon + 1, NULL); action = &metric->actions[action_value]; action->action = action_value; action->score = action_score; have_actions = TRUE; } } } } if (!have_actions) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "metric %s has no actions", metric_name); return FALSE; } } /* Handle symbols */ val = ucl_object_find_key (obj, "symbols"); if (val != NULL) { if (val->type == UCL_ARRAY) { val = val->value.ov; } if (val->type != UCL_OBJECT) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "symbols must be an object"); return FALSE; } it = NULL; while ((cur = ucl_iterate_object (val, &it, true)) != NULL) { if (!rspamd_rcl_insert_symbol (cfg, metric, cur, FALSE, err)) { return FALSE; } } } else { /* Legacy variant */ val = ucl_object_find_key (obj, "symbol"); if (val != NULL) { if (val->type == UCL_ARRAY) { val = val->value.ov; } if (val->type != UCL_OBJECT) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "symbols must be an object"); return FALSE; } LL_FOREACH (val, cur) { if (!rspamd_rcl_insert_symbol (cfg, metric, cur, TRUE, err)) { return FALSE; } } } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "metric %s has no symbols", metric_name); return FALSE; } } val = ucl_object_find_key (obj, "grow_factor"); if (val && ucl_object_todouble_safe (val, &grow_factor)) { metric->grow_factor = grow_factor; } val = ucl_object_find_key (obj, "subject"); if (val && ucl_object_tostring_safe (val, &subject_name)) { metric->subject = (gchar *)subject_name; } /* Insert the resulting metric */ g_hash_table_insert (cfg->metrics, (void *)metric->name, metric); cfg->metrics_list = g_list_prepend (cfg->metrics_list, metric); return TRUE; } static gboolean rspamd_rcl_worker_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val, *cur; ucl_object_iter_t it = NULL; const gchar *worker_type, *worker_bind; GQuark qtype; struct worker_conf *wrk; struct rspamd_worker_cfg_parser *wparser; struct rspamd_worker_param_parser *whandler; val = ucl_object_find_key (obj, "type"); if (val != NULL && ucl_object_tostring_safe (val, &worker_type)) { qtype = g_quark_try_string (worker_type); if (qtype != 0) { wrk = check_worker_conf (cfg, NULL); wrk->worker = get_worker_by_type (qtype); if (wrk->worker == NULL) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "unknown worker type: %s", worker_type); return FALSE; } wrk->type = qtype; if (wrk->worker->worker_init_func) { wrk->ctx = wrk->worker->worker_init_func (cfg); } } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "unknown worker type: %s", worker_type); return FALSE; } } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "undefined worker type"); return FALSE; } val = ucl_object_find_key (obj, "bind_socket"); if (val != NULL) { if (val->type == UCL_ARRAY) { val = val->value.ov; } LL_FOREACH (val, cur) { if (!ucl_object_tostring_safe (cur, &worker_bind)) { continue; } if (!parse_bind_line (cfg, wrk, worker_bind)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot parse bind line: %s", worker_bind); return FALSE; } } } wrk->options = obj; if (!rspamd_rcl_section_parse_defaults (section, cfg, obj, wrk, err)) { return FALSE; } /* Parse other attributes */ HASH_FIND_INT (cfg->wrk_parsers, (gint *)&qtype, wparser); if (wparser != NULL && obj->type == UCL_OBJECT) { while ((cur = ucl_iterate_object (obj, &it, true)) != NULL) { HASH_FIND_STR (wparser->parsers, ucl_object_key (cur), whandler); if (whandler != NULL) { if (!whandler->handler (cfg, cur, &whandler->parser, section, err)) { return FALSE; } } } if (wparser->def_obj_parser != NULL) { if (! wparser->def_obj_parser (obj, wparser->def_ud)) { return FALSE; } } } cfg->workers = g_list_prepend (cfg->workers, wrk); return TRUE; } static void rspamd_rcl_set_lua_globals (struct config_file *cfg, lua_State *L) { struct config_file **pcfg; /* First check for global variable 'config' */ lua_getglobal (L, "config"); if (lua_isnil (L, -1)) { /* Assign global table to set up attributes */ lua_newtable (L); lua_setglobal (L, "config"); } lua_getglobal (L, "metrics"); if (lua_isnil (L, -1)) { lua_newtable (L); lua_setglobal (L, "metrics"); } lua_getglobal (L, "composites"); if (lua_isnil (L, -1)) { lua_newtable (L); lua_setglobal (L, "composites"); } lua_getglobal (L, "classifiers"); if (lua_isnil (L, -1)) { lua_newtable (L); lua_setglobal (L, "classifiers"); } pcfg = lua_newuserdata (L, sizeof (struct config_file *)); lua_setclass (L, "rspamd{config}", -1); *pcfg = cfg; lua_setglobal (L, "rspamd_config"); /* Clear stack from globals */ lua_pop (L, 4); } static gboolean rspamd_rcl_lua_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { const gchar *lua_src = memory_pool_strdup (cfg->cfg_pool, ucl_object_tostring (obj)); gchar *cur_dir, *lua_dir, *lua_file, *tmp1, *tmp2; lua_State *L = cfg->lua_state; tmp1 = g_strdup (lua_src); tmp2 = g_strdup (lua_src); lua_dir = dirname (tmp1); lua_file = basename (tmp2); if (lua_dir && lua_file) { cur_dir = g_malloc (PATH_MAX); if (getcwd (cur_dir, PATH_MAX) != NULL && chdir (lua_dir) != -1) { /* Load file */ if (luaL_loadfile (L, lua_file) != 0) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot load lua file %s: %s", lua_src, lua_tostring (L, -1)); if (chdir (cur_dir) == -1) { msg_err ("cannot chdir to %s: %s", cur_dir, strerror (errno));; } g_free (cur_dir); g_free (tmp1); g_free (tmp2); return FALSE; } rspamd_rcl_set_lua_globals (cfg, L); /* Now do it */ if (lua_pcall (L, 0, LUA_MULTRET, 0) != 0) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot init lua file %s: %s", lua_src, lua_tostring (L, -1)); if (chdir (cur_dir) == -1) { msg_err ("cannot chdir to %s: %s", cur_dir, strerror (errno));; } g_free (cur_dir); g_free (tmp1); g_free (tmp2); return FALSE; } } else { g_set_error (err, CFG_RCL_ERROR, ENOENT, "cannot chdir to %s: %s", lua_src, strerror (errno)); if (chdir (cur_dir) == -1) { msg_err ("cannot chdir to %s: %s", cur_dir, strerror (errno));; } g_free (cur_dir); g_free (tmp1); g_free (tmp2); return FALSE; } if (chdir (cur_dir) == -1) { msg_err ("cannot chdir to %s: %s", cur_dir, strerror (errno));; } g_free (cur_dir); g_free (tmp1); g_free (tmp2); } else { g_set_error (err, CFG_RCL_ERROR, ENOENT, "cannot find to %s: %s", lua_src, strerror (errno)); return FALSE; } return TRUE; } static gboolean rspamd_rcl_add_module_path (struct config_file *cfg, const gchar *path, GError **err) { struct stat st; struct script_module *cur_mod; glob_t globbuf; gchar *pattern; size_t len; guint i; if (stat (path, &st) == -1) { g_set_error (err, CFG_RCL_ERROR, errno, "cannot stat path %s, %s", path, strerror (errno)); return FALSE; } /* Handle directory */ if (S_ISDIR (st.st_mode)) { globbuf.gl_offs = 0; len = strlen (path) + sizeof ("*.lua"); pattern = g_malloc (len); snprintf (pattern, len, "%s%s", path, "*.lua"); if (glob (pattern, GLOB_DOOFFS, NULL, &globbuf) == 0) { for (i = 0; i < globbuf.gl_pathc; i ++) { cur_mod = memory_pool_alloc (cfg->cfg_pool, sizeof (struct script_module)); cur_mod->path = memory_pool_strdup (cfg->cfg_pool, globbuf.gl_pathv[i]); cfg->script_modules = g_list_prepend (cfg->script_modules, cur_mod); } globfree (&globbuf); g_free (pattern); } else { g_set_error (err, CFG_RCL_ERROR, errno, "glob failed for %s, %s", pattern, strerror (errno)); g_free (pattern); return FALSE; } } else { /* Handle single file */ cur_mod = memory_pool_alloc (cfg->cfg_pool, sizeof (struct script_module)); cur_mod->path = memory_pool_strdup (cfg->cfg_pool, path); cfg->script_modules = g_list_prepend (cfg->script_modules, cur_mod); } return TRUE; } static gboolean rspamd_rcl_modules_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val, *cur; const gchar *data; if (obj->type == UCL_OBJECT) { val = ucl_object_find_key (obj, "path"); LL_FOREACH (val, cur) { if (ucl_object_tostring_safe (cur, &data)) { if (!rspamd_rcl_add_module_path (cfg, memory_pool_strdup (cfg->cfg_pool, data), err)) { return FALSE; } } } } else if (ucl_object_tostring_safe (obj, &data)) { if (!rspamd_rcl_add_module_path (cfg, memory_pool_strdup (cfg->cfg_pool, data), err)) { return FALSE; } } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "module parameter has wrong type (must be an object or a string)"); return FALSE; } return TRUE; } static gboolean rspamd_rcl_statfile_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { struct classifier_config *ccf = ud; ucl_object_t *val; struct statfile *st; const gchar *data; gdouble binlog_rotate; GList *labels; st = check_statfile_conf (cfg, NULL); val = ucl_object_find_key (obj, "binlog"); if (val != NULL && ucl_object_tostring_safe (val, &data)) { if (st->binlog == NULL) { st->binlog = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct statfile_binlog_params)); } if (g_ascii_strcasecmp (data, "master") == 0) { st->binlog->affinity = AFFINITY_MASTER; } else if (g_ascii_strcasecmp (data, "slave") == 0) { st->binlog->affinity = AFFINITY_SLAVE; } else { st->binlog->affinity = AFFINITY_NONE; } /* Parse remaining binlog attributes */ val = ucl_object_find_key (obj, "binlog_rotate"); if (val != NULL && ucl_object_todouble_safe (val, &binlog_rotate)) { st->binlog->rotate_time = binlog_rotate; } val = ucl_object_find_key (obj, "binlog_master"); if (val != NULL && ucl_object_tostring_safe (val, &data)) { if (!parse_host_port (cfg->cfg_pool, data, &st->binlog->master_addr, &st->binlog->master_port)) { msg_err ("cannot parse master address: %s", data); return FALSE; } } } if (rspamd_rcl_section_parse_defaults (section, cfg, obj, st, err)) { ccf->statfiles = g_list_prepend (ccf->statfiles, st); if (st->label != NULL) { labels = g_hash_table_lookup (ccf->labels, st->label); if (labels != NULL) { labels = g_list_append (labels, st); } else { g_hash_table_insert (ccf->labels, st->label, g_list_prepend (NULL, st)); } } if (st->symbol != NULL) { g_hash_table_insert (cfg->classifiers_symbols, st->symbol, st); } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "statfile must have a symbol defined"); return FALSE; } if (st->path == NULL) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "statfile must have a path defined"); return FALSE; } st->opts = obj; val = ucl_object_find_key (obj, "spam"); if (val == NULL) { msg_info ("statfile %s has no explicit 'spam' setting, trying to guess by symbol", st->symbol); if (rspamd_strncasestr (st->symbol, "spam", strlen (st->symbol)) != NULL) { st->is_spam = TRUE; } else if (rspamd_strncasestr (st->symbol, "ham", strlen (st->symbol)) != NULL) { st->is_spam = FALSE; } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot guess spam setting from %s", st->symbol); return FALSE; } msg_info ("guessed that statfile with symbol %s is %s", st->symbol, st->is_spam ? "spam" : "ham"); } return TRUE; } return FALSE; } static gboolean rspamd_rcl_classifier_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val, *cur; ucl_object_iter_t it = NULL; const gchar *key; struct classifier_config *ccf; gboolean res = TRUE; struct rspamd_rcl_section *stat_section; ccf = check_classifier_conf (cfg, NULL); HASH_FIND_STR (section->subsections, "statfile", stat_section); while ((val = ucl_iterate_object (obj, &it, true)) != NULL && res) { key = ucl_object_key (val); if (key != NULL) { if (g_ascii_strcasecmp (key, "statfile") == 0) { LL_FOREACH (val, cur) { res = rspamd_rcl_statfile_handler (cfg, cur, ccf, stat_section, err); if (!res) { return FALSE; } } } else if (g_ascii_strcasecmp (key, "type") == 0 && val->type == UCL_STRING) { ccf->classifier = get_classifier (ucl_object_tostring (val)); } else if (g_ascii_strcasecmp (key, "tokenizer") == 0 && val->type == UCL_STRING) { ccf->tokenizer = get_tokenizer (ucl_object_tostring (val)); } else { /* Just insert a value of option to the hash */ g_hash_table_insert (ccf->opts, (gpointer)key, (gpointer)ucl_object_tostring_forced (val)); } } } cfg->classifiers = g_list_prepend (cfg->classifiers, ccf); return res; } static gboolean rspamd_rcl_composite_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val; struct expression *expr; struct rspamd_composite *composite; const gchar *composite_name, *composite_expression; val = ucl_object_find_key (obj, "name"); if (val == NULL || !ucl_object_tostring_safe (val, &composite_name)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "composite must have a name defined"); return FALSE; } val = ucl_object_find_key (obj, "expression"); if (val == NULL || !ucl_object_tostring_safe (val, &composite_expression)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "composite must have an expression defined"); return FALSE; } if ((expr = parse_expression (cfg->cfg_pool, (gchar *)composite_expression)) == NULL) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot parse composite expression: %s", composite_expression); return FALSE; } composite = memory_pool_alloc (cfg->cfg_pool, sizeof (struct rspamd_composite)); composite->expr = expr; composite->id = g_hash_table_size (cfg->composite_symbols) + 1; g_hash_table_insert (cfg->composite_symbols, (gpointer)composite_name, composite); register_virtual_symbol (&cfg->cache, composite_name, 1); return TRUE; } static gboolean rspamd_rcl_view_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { ucl_object_t *val, *cur; struct rspamd_view *view; const gchar *view_ip, *view_client_ip, *view_symbols, *view_rcpt, *view_from; bool skip_check = false; view = init_view (cfg, cfg->cfg_pool); val = ucl_object_find_key (obj, "ip"); LL_FOREACH (val, cur) { if (cur != NULL && ucl_object_tostring_safe (cur, &view_ip)) { if (!add_view_ip (view, view_ip)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot parse view ip: %s", view_ip); return FALSE; } } } val = ucl_object_find_key (obj, "client_ip"); LL_FOREACH (val, cur) { if (cur != NULL && ucl_object_tostring_safe (cur, &view_client_ip)) { if (!add_view_client_ip (view, view_client_ip)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot parse view client ip: %s", view_client_ip); return FALSE; } } } val = ucl_object_find_key (obj, "symbols"); LL_FOREACH (val, cur) { if (cur != NULL && ucl_object_tostring_safe (cur, &view_symbols)) { if (!add_view_symbols (view, view_symbols)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot parse view client symbols: %s", view_symbols); return FALSE; } } } val = ucl_object_find_key (obj, "rcpt"); LL_FOREACH (val, cur) { if (cur != NULL && ucl_object_tostring_safe (cur, &view_rcpt)) { if (!add_view_rcpt (view, view_rcpt)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot parse view recipient: %s", view_rcpt); return FALSE; } } } val = ucl_object_find_key (obj, "from"); LL_FOREACH (val, cur) { if (cur != NULL && ucl_object_tostring_safe (cur, &view_from)) { if (!add_view_from (view, view_from)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot parse view from: %s", view_from); return FALSE; } } } val = ucl_object_find_key (obj, "skip_check"); if (val != NULL && ucl_object_toboolean_safe (val, &skip_check)) { view->skip_check = skip_check; } cfg->views = g_list_prepend (cfg->views, view); return TRUE; } /** * Fake handler to parse default options only, uses struct cfg_file as pointer * for default handlers */ static gboolean rspamd_rcl_empty_handler (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { return rspamd_rcl_section_parse_defaults (section, cfg, obj, cfg, err); } /** * Add new section to the configuration * @param top top section * @param name the name of the section * @param handler handler function for all attributes * @param type type of object handled by a handler * @param required whether at least one of these sections is required * @param strict_type turn on strict check for types for this section * @return newly created structure */ static inline struct rspamd_rcl_section* rspamd_rcl_add_section (struct rspamd_rcl_section **top, const gchar *name, rspamd_rcl_handler_t handler, enum ucl_type type, gboolean required, gboolean strict_type) { struct rspamd_rcl_section *new; new = g_slice_alloc0 (sizeof (struct rspamd_rcl_section)); new->name = name; new->handler = handler; new->type = type; new->strict_type = strict_type; HASH_ADD_KEYPTR (hh, *top, new->name, strlen (new->name), new); return new; } /** * Add a default handler for a section * @param section section pointer * @param name name of param * @param handler handler of param * @param offset offset in a structure * @param flags flags for the parser * @return newly created structure */ static inline struct rspamd_rcl_default_handler_data * rspamd_rcl_add_default_handler (struct rspamd_rcl_section *section, const gchar *name, rspamd_rcl_handler_t handler, gsize offset, gint flags) { struct rspamd_rcl_default_handler_data *new; new = g_slice_alloc0 (sizeof (struct rspamd_rcl_default_handler_data)); new->key = name; new->handler = handler; new->pd.offset = offset; new->pd.flags = flags; HASH_ADD_KEYPTR (hh, section->default_parser, new->key, strlen (new->key), new); return new; } struct rspamd_rcl_section* rspamd_rcl_config_init (void) { struct rspamd_rcl_section *new = NULL, *sub, *ssub; /* TODO: add all known rspamd sections here */ /** * Logging section */ sub = rspamd_rcl_add_section (&new, "logging", rspamd_rcl_logging_handler, UCL_OBJECT, FALSE, TRUE); /* Default handlers */ rspamd_rcl_add_default_handler (sub, "log_buffer", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct config_file, log_buf_size), 0); rspamd_rcl_add_default_handler (sub, "log_urls", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct config_file, log_urls), 0); rspamd_rcl_add_default_handler (sub, "debug_ip", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, debug_ip_map), 0); rspamd_rcl_add_default_handler (sub, "debug_symbols", rspamd_rcl_parse_struct_string_list, G_STRUCT_OFFSET (struct config_file, debug_symbols), 0); rspamd_rcl_add_default_handler (sub, "log_color", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct config_file, log_color), 0); /** * Options section */ sub = rspamd_rcl_add_section (&new, "options", rspamd_rcl_options_handler, UCL_OBJECT, FALSE, TRUE); rspamd_rcl_add_default_handler (sub, "cache_file", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, cache_filename), RSPAMD_CL_FLAG_STRING_PATH); rspamd_rcl_add_default_handler (sub, "dns_nameserver", rspamd_rcl_parse_struct_string_list, G_STRUCT_OFFSET (struct config_file, nameservers), 0); rspamd_rcl_add_default_handler (sub, "dns_timeout", rspamd_rcl_parse_struct_time, G_STRUCT_OFFSET (struct config_file, dns_timeout), RSPAMD_CL_FLAG_TIME_INTEGER); rspamd_rcl_add_default_handler (sub, "dns_retransmits", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct config_file, dns_retransmits), RSPAMD_CL_FLAG_INT_32); rspamd_rcl_add_default_handler (sub, "dns_sockets", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct config_file, dns_io_per_server), RSPAMD_CL_FLAG_INT_32); rspamd_rcl_add_default_handler (sub, "raw_mode", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct config_file, raw_mode), 0); rspamd_rcl_add_default_handler (sub, "one_shot", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct config_file, one_shot_mode), 0); rspamd_rcl_add_default_handler (sub, "check_attachements", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct config_file, check_text_attachements), 0); rspamd_rcl_add_default_handler (sub, "tempdir", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, temp_dir), RSPAMD_CL_FLAG_STRING_PATH); rspamd_rcl_add_default_handler (sub, "pidfile", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, pid_file), RSPAMD_CL_FLAG_STRING_PATH); rspamd_rcl_add_default_handler (sub, "filters", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, filters_str), 0); rspamd_rcl_add_default_handler (sub, "sync_interval", rspamd_rcl_parse_struct_time, G_STRUCT_OFFSET (struct config_file, statfile_sync_interval), RSPAMD_CL_FLAG_TIME_INTEGER); rspamd_rcl_add_default_handler (sub, "sync_timeout", rspamd_rcl_parse_struct_time, G_STRUCT_OFFSET (struct config_file, statfile_sync_timeout), RSPAMD_CL_FLAG_TIME_INTEGER); rspamd_rcl_add_default_handler (sub, "max_diff", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct config_file, max_diff), RSPAMD_CL_FLAG_INT_SIZE); rspamd_rcl_add_default_handler (sub, "map_watch_interval", rspamd_rcl_parse_struct_time, G_STRUCT_OFFSET (struct config_file, map_timeout), RSPAMD_CL_FLAG_TIME_FLOAT); rspamd_rcl_add_default_handler (sub, "dynamic_conf", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, dynamic_conf), 0); rspamd_rcl_add_default_handler (sub, "rrd", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, rrd_file), RSPAMD_CL_FLAG_STRING_PATH); rspamd_rcl_add_default_handler (sub, "history_file", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct config_file, history_file), RSPAMD_CL_FLAG_STRING_PATH); rspamd_rcl_add_default_handler (sub, "use_mlock", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct config_file, mlock_statfile_pool), 0); rspamd_rcl_add_default_handler (sub, "strict_protocol_headers", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct config_file, strict_protocol_headers), 0); /** * Metric section */ sub = rspamd_rcl_add_section (&new, "metric", rspamd_rcl_metric_handler, UCL_OBJECT, FALSE, TRUE); /** * Worker section */ sub = rspamd_rcl_add_section (&new, "worker", rspamd_rcl_worker_handler, UCL_OBJECT, FALSE, TRUE); rspamd_rcl_add_default_handler (sub, "count", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct worker_conf, count), RSPAMD_CL_FLAG_INT_16); rspamd_rcl_add_default_handler (sub, "max_files", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct worker_conf, rlimit_nofile), RSPAMD_CL_FLAG_INT_32); rspamd_rcl_add_default_handler (sub, "max_core", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct worker_conf, rlimit_maxcore), RSPAMD_CL_FLAG_INT_32); /** * Lua handler */ sub = rspamd_rcl_add_section (&new, "lua", rspamd_rcl_lua_handler, UCL_STRING, FALSE, TRUE); /** * Modules handler */ sub = rspamd_rcl_add_section (&new, "modules", rspamd_rcl_modules_handler, UCL_OBJECT, FALSE, FALSE); /** * Classifiers handler */ sub = rspamd_rcl_add_section (&new, "classifier", rspamd_rcl_classifier_handler, UCL_OBJECT, FALSE, TRUE); ssub = rspamd_rcl_add_section (&sub->subsections, "statfile", rspamd_rcl_statfile_handler, UCL_OBJECT, TRUE, TRUE); rspamd_rcl_add_default_handler (ssub, "symbol", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct statfile, symbol), 0); rspamd_rcl_add_default_handler (ssub, "path", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct statfile, path), RSPAMD_CL_FLAG_STRING_PATH); rspamd_rcl_add_default_handler (ssub, "label", rspamd_rcl_parse_struct_string, G_STRUCT_OFFSET (struct statfile, label), 0); rspamd_rcl_add_default_handler (ssub, "size", rspamd_rcl_parse_struct_integer, G_STRUCT_OFFSET (struct statfile, size), RSPAMD_CL_FLAG_INT_SIZE); rspamd_rcl_add_default_handler (ssub, "spam", rspamd_rcl_parse_struct_boolean, G_STRUCT_OFFSET (struct statfile, is_spam), 0); /** * Composites handler */ sub = rspamd_rcl_add_section (&new, "composite", rspamd_rcl_composite_handler, UCL_OBJECT, FALSE, TRUE); /** * Views handler */ sub = rspamd_rcl_add_section (&new, "view", rspamd_rcl_view_handler, UCL_OBJECT, FALSE, TRUE); return new; } struct rspamd_rcl_section * rspamd_rcl_config_get_section (struct rspamd_rcl_section *top, const char *path) { struct rspamd_rcl_section *cur, *found; char **path_components; gint ncomponents, i; if (path == NULL) { return top; } path_components = g_strsplit_set (path, "/", -1); ncomponents = g_strv_length (path_components); cur = top; for (i = 0; i < ncomponents; i ++) { if (cur == NULL) { g_strfreev (path_components); return NULL; } HASH_FIND_STR (cur, path_components[i], found); if (found == NULL) { g_strfreev (path_components); return NULL; } cur = found; } g_strfreev (path_components); return found; } gboolean rspamd_read_rcl_config (struct rspamd_rcl_section *top, struct config_file *cfg, ucl_object_t *obj, GError **err) { ucl_object_t *found, *cur_obj; struct rspamd_rcl_section *cur, *tmp; if (obj->type != UCL_OBJECT) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "top configuration must be an object"); return FALSE; } /* Iterate over known sections and ignore unknown ones */ HASH_ITER (hh, top, cur, tmp) { found = ucl_object_find_key (obj, cur->name); if (found == NULL) { if (cur->required) { g_set_error (err, CFG_RCL_ERROR, ENOENT, "required section %s is missing", cur->name); return FALSE; } } else { /* Check type */ if (cur->strict_type) { if (cur->type != found->type) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "object in section %s has invalid type", cur->name); return FALSE; } } LL_FOREACH (found, cur_obj) { if (!cur->handler (cfg, cur_obj, NULL, cur, err)) { return FALSE; } } } if (cur->fin) { cur->fin (cfg, cur->fin_ud); } } cfg->rcl_obj = obj; return TRUE; } gboolean rspamd_rcl_section_parse_defaults (struct rspamd_rcl_section *section, struct config_file *cfg, ucl_object_t *obj, gpointer ptr, GError **err) { ucl_object_t *found; struct rspamd_rcl_default_handler_data *cur, *tmp; if (obj->type != UCL_OBJECT) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "default configuration must be an object"); return FALSE; } HASH_ITER (hh, section->default_parser, cur, tmp) { found = ucl_object_find_key (obj, cur->key); if (found != NULL) { cur->pd.user_struct = ptr; if (!cur->handler (cfg, found, &cur->pd, section, err)) { return FALSE; } } } return TRUE; } gboolean rspamd_rcl_parse_struct_string (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { struct rspamd_rcl_struct_parser *pd = ud; gchar **target; const gsize num_str_len = 32; target = (gchar **)(((gchar *)pd->user_struct) + pd->offset); switch (obj->type) { case UCL_STRING: *target = memory_pool_strdup (cfg->cfg_pool, ucl_copy_value_trash (obj)); break; case UCL_INT: *target = memory_pool_alloc (cfg->cfg_pool, num_str_len); rspamd_snprintf (*target, num_str_len, "%L", obj->value.iv); break; case UCL_FLOAT: *target = memory_pool_alloc (cfg->cfg_pool, num_str_len); rspamd_snprintf (*target, num_str_len, "%f", obj->value.dv); break; case UCL_BOOLEAN: *target = memory_pool_alloc (cfg->cfg_pool, num_str_len); rspamd_snprintf (*target, num_str_len, "%b", (gboolean)obj->value.iv); break; default: g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert object or array to string"); return FALSE; } return TRUE; } gboolean rspamd_rcl_parse_struct_integer (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { struct rspamd_rcl_struct_parser *pd = ud; union { gint *ip; gint32 *i32p; gint16 *i16p; gint64 *i64p; gsize *sp; } target; gint64 val; if (pd->flags == RSPAMD_CL_FLAG_INT_32) { target.i32p = (gint32 *)(((gchar *)pd->user_struct) + pd->offset); if (!ucl_object_toint_safe (obj, &val)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert param to integer"); return FALSE; } *target.i32p = val; } else if (pd->flags == RSPAMD_CL_FLAG_INT_64) { target.i64p = (gint64 *)(((gchar *)pd->user_struct) + pd->offset); if (!ucl_object_toint_safe (obj, &val)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert param to integer"); return FALSE; } *target.i64p = val; } else if (pd->flags == RSPAMD_CL_FLAG_INT_SIZE) { target.sp = (gsize *)(((gchar *)pd->user_struct) + pd->offset); if (!ucl_object_toint_safe (obj, &val)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert param to integer"); return FALSE; } *target.sp = val; } else if (pd->flags == RSPAMD_CL_FLAG_INT_16) { target.i16p = (gint16 *)(((gchar *)pd->user_struct) + pd->offset); if (!ucl_object_toint_safe (obj, &val)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert param to integer"); return FALSE; } *target.i16p = val; } else { target.ip = (gint *)(((gchar *)pd->user_struct) + pd->offset); if (!ucl_object_toint_safe (obj, &val)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert param to integer"); return FALSE; } *target.ip = val; } return TRUE; } gboolean rspamd_rcl_parse_struct_double (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { struct rspamd_rcl_struct_parser *pd = ud; gdouble *target; target = (gdouble *)(((gchar *)pd->user_struct) + pd->offset); if (!ucl_object_todouble_safe (obj, target)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert param to double"); return FALSE; } return TRUE; } gboolean rspamd_rcl_parse_struct_time (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { struct rspamd_rcl_struct_parser *pd = ud; union { gint *psec; guint32 *pu32; gdouble *pdv; struct timeval *ptv; struct timespec *pts; } target; gdouble val; if (!ucl_object_todouble_safe (obj, &val)) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert param to double"); return FALSE; } if (pd->flags == RSPAMD_CL_FLAG_TIME_TIMEVAL) { target.ptv = (struct timeval *)(((gchar *)pd->user_struct) + pd->offset); target.ptv->tv_sec = (glong)val; target.ptv->tv_usec = (val - (glong)val) * 1000000; } else if (pd->flags == RSPAMD_CL_FLAG_TIME_TIMESPEC) { target.pts = (struct timespec *)(((gchar *)pd->user_struct) + pd->offset); target.pts->tv_sec = (glong)val; target.pts->tv_nsec = (val - (glong)val) * 1000000000000LL; } else if (pd->flags == RSPAMD_CL_FLAG_TIME_FLOAT) { target.pdv = (double *)(((gchar *)pd->user_struct) + pd->offset); *target.pdv = val; } else if (pd->flags == RSPAMD_CL_FLAG_TIME_INTEGER) { target.psec = (gint *)(((gchar *)pd->user_struct) + pd->offset); *target.psec = val * 1000; } else if (pd->flags == RSPAMD_CL_FLAG_TIME_UINT_32) { target.pu32 = (guint32 *)(((gchar *)pd->user_struct) + pd->offset); *target.pu32 = val * 1000; } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "invalid flags to parse time value"); return FALSE; } return TRUE; } gboolean rspamd_rcl_parse_struct_string_list (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { struct rspamd_rcl_struct_parser *pd = ud; GList **target; gchar *val; ucl_object_t *cur; const gsize num_str_len = 32; target = (GList **)(((gchar *)pd->user_struct) + pd->offset); if (obj->type != UCL_ARRAY) { g_set_error (err, CFG_RCL_ERROR, EINVAL, "an array of strings is expected"); return FALSE; } for (cur = obj; cur != NULL; cur = cur->next) { switch (cur->type) { case UCL_STRING: val = memory_pool_strdup (cfg->cfg_pool, ucl_copy_value_trash (obj)); break; case UCL_INT: val = memory_pool_alloc (cfg->cfg_pool, num_str_len); rspamd_snprintf (val, num_str_len, "%L", cur->value.iv); break; case UCL_FLOAT: val = memory_pool_alloc (cfg->cfg_pool, num_str_len); rspamd_snprintf (val, num_str_len, "%f", cur->value.dv); break; case UCL_BOOLEAN: val = memory_pool_alloc (cfg->cfg_pool, num_str_len); rspamd_snprintf (val, num_str_len, "%b", (gboolean)cur->value.iv); break; default: g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert an object or array to string"); return FALSE; } *target = g_list_prepend (*target, val); } /* Add a destructor */ memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func)g_list_free, *target); return TRUE; } gboolean rspamd_rcl_parse_struct_boolean (struct config_file *cfg, ucl_object_t *obj, gpointer ud, struct rspamd_rcl_section *section, GError **err) { struct rspamd_rcl_struct_parser *pd = ud; gboolean *target; target = (gboolean *)(((gchar *)pd->user_struct) + pd->offset); if (obj->type == UCL_BOOLEAN) { *target = obj->value.iv; } else if (obj->type == UCL_INT) { *target = obj->value.iv; } else { g_set_error (err, CFG_RCL_ERROR, EINVAL, "cannot convert an object to boolean"); return FALSE; } return TRUE; } void rspamd_rcl_register_worker_option (struct config_file *cfg, gint type, const gchar *name, rspamd_rcl_handler_t handler, gpointer target, gsize offset, gint flags) { struct rspamd_worker_param_parser *nhandler; struct rspamd_worker_cfg_parser *nparser; HASH_FIND_INT (cfg->wrk_parsers, &type, nparser); if (nparser == NULL) { /* Allocate new parser for this worker */ nparser = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct rspamd_worker_cfg_parser)); nparser->type = type; HASH_ADD_INT (cfg->wrk_parsers, type, nparser); } HASH_FIND_STR (nparser->parsers, name, nhandler); if (nhandler != NULL) { msg_warn ("handler for parameter %s is already registered for worker type %s", name, g_quark_to_string (type)); return; } nhandler = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct rspamd_worker_param_parser)); nhandler->name = name; nhandler->parser.flags = flags; nhandler->parser.offset = offset; nhandler->parser.user_struct = target; nhandler->handler = handler; HASH_ADD_KEYPTR (hh, nparser->parsers, name, strlen (name), nhandler); } void rspamd_rcl_register_worker_parser (struct config_file *cfg, gint type, gboolean (*func)(ucl_object_t *, gpointer), gpointer ud) { struct rspamd_worker_cfg_parser *nparser; HASH_FIND_INT (cfg->wrk_parsers, &type, nparser); if (nparser == NULL) { /* Allocate new parser for this worker */ nparser = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct rspamd_worker_cfg_parser)); nparser->type = type; HASH_ADD_INT (cfg->wrk_parsers, type, nparser); } nparser->def_obj_parser = func; nparser->def_ud = ud; }