/* * Copyright (c) 2009-2012, 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 BY AUTHOR ''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 "config.h" #include "cfg_file.h" #include "main.h" #include "filter.h" #include "settings.h" #include "classifiers/classifiers.h" #include "lua/lua_common.h" #include "kvstorage_config.h" #include "map.h" #include "dynamic_cfg.h" #define DEFAULT_SCORE 10.0 #define DEFAULT_RLIMIT_NOFILE 2048 #define DEFAULT_RLIMIT_MAXCORE 0 #define DEFAULT_MAP_TIMEOUT 10 struct rspamd_ucl_map_cbdata { struct config_file *cfg; GString *buf; }; static gchar* rspamd_ucl_read_cb (memory_pool_t * pool, gchar * chunk, gint len, struct map_cb_data *data); static void rspamd_ucl_fin_cb (memory_pool_t * pool, struct map_cb_data *data); static gboolean parse_host_port_priority_strv (memory_pool_t *pool, gchar **tokens, gchar **addr, guint16 *port, guint *priority, guint default_port) { gchar *err_str, portbuf[8]; const gchar *cur_tok, *cur_port; struct addrinfo hints, *res; guint port_parsed, priority_parsed, saved_errno = errno; gint r; union { struct sockaddr_in v4; struct sockaddr_in6 v6; } addr_holder; /* Now try to parse host and write address to ina */ memset (&hints, 0, sizeof (hints)); hints.ai_socktype = SOCK_STREAM; /* Type of the socket */ hints.ai_flags = AI_NUMERICSERV; cur_tok = tokens[0]; if (strcmp (cur_tok, "*v6") == 0) { hints.ai_family = AF_INET6; hints.ai_flags |= AI_PASSIVE; cur_tok = NULL; } else if (strcmp (cur_tok, "*v4") == 0) { hints.ai_family = AF_INET; hints.ai_flags |= AI_PASSIVE; cur_tok = NULL; } else { hints.ai_family = AF_UNSPEC; } if (tokens[1] != NULL) { /* Port part */ rspamd_strlcpy (portbuf, tokens[1], sizeof (portbuf)); cur_port = portbuf; if (port != NULL) { errno = 0; port_parsed = strtoul (tokens[1], &err_str, 10); if (*err_str != '\0' || errno != 0) { msg_warn ("cannot parse port: %s, at symbol %c, error: %s", tokens[1], *err_str, strerror (errno)); hints.ai_flags ^= AI_NUMERICSERV; } else if (port_parsed > G_MAXUINT16) { errno = ERANGE; msg_warn ("cannot parse port: %s, error: %s", tokens[1], *err_str, strerror (errno)); hints.ai_flags ^= AI_NUMERICSERV; } else { *port = port_parsed; } } if (priority != NULL) { if (port != NULL) { cur_tok = tokens[2]; } else { cur_tok = tokens[1]; } if (cur_tok != NULL) { /* Priority part */ errno = 0; priority_parsed = strtoul (cur_tok, &err_str, 10); if (*err_str != '\0' || errno != 0) { msg_warn ("cannot parse priority: %s, at symbol %c, error: %s", tokens[1], *err_str, strerror (errno)); } else { *priority = priority_parsed; } } } } else if (default_port != 0) { rspamd_snprintf (portbuf, sizeof (portbuf), "%ud", default_port); cur_port = portbuf; } else { cur_port = NULL; } if ((r = getaddrinfo (cur_tok, cur_port, &hints, &res)) == 0) { memcpy (&addr_holder, res->ai_addr, MIN (sizeof (addr_holder), res->ai_addrlen)); if (res->ai_family == AF_INET) { if (pool != NULL) { *addr = memory_pool_alloc (pool, INET_ADDRSTRLEN + 1); } inet_ntop (res->ai_family, &addr_holder.v4.sin_addr, *addr, INET_ADDRSTRLEN + 1); } else { if (pool != NULL) { *addr = memory_pool_alloc (pool, INET6_ADDRSTRLEN + 1); } inet_ntop (res->ai_family, &addr_holder.v6.sin6_addr, *addr, INET6_ADDRSTRLEN + 1); } freeaddrinfo (res); } else { msg_err ("address resolution for %s failed: %s", tokens[0], gai_strerror (r)); goto err; } /* Restore errno */ errno = saved_errno; return TRUE; err: errno = saved_errno; return FALSE; } gboolean parse_host_port_priority (memory_pool_t *pool, const gchar *str, gchar **addr, guint16 *port, guint *priority) { gchar **tokens; gboolean ret; tokens = g_strsplit_set (str, ":", 0); if (!tokens || !tokens[0]) { return FALSE; } ret = parse_host_port_priority_strv (pool, tokens, addr, port, priority, 0); g_strfreev (tokens); return ret; } gboolean parse_host_port (memory_pool_t *pool, const gchar *str, gchar **addr, guint16 *port) { return parse_host_port_priority (pool, str, addr, port, NULL); } gboolean parse_host_priority (memory_pool_t *pool, const gchar *str, gchar **addr, guint *priority) { return parse_host_port_priority (pool, str, addr, NULL, priority); } gboolean parse_bind_line (struct config_file *cfg, struct worker_conf *cf, const gchar *str) { struct rspamd_worker_bind_conf *cnf; gchar **tokens, *tmp, *err; gboolean ret = TRUE; if (str == NULL) { return FALSE; } tokens = g_strsplit_set (str, ":", 0); if (!tokens || !tokens[0]) { return FALSE; } cnf = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct rspamd_worker_bind_conf)); cnf->bind_port = DEFAULT_BIND_PORT; cnf->bind_host = memory_pool_strdup (cfg->cfg_pool, str); cnf->ai = AF_UNSPEC; if (*tokens[0] == '/' || *tokens[0] == '.') { cnf->ai = AF_UNIX; LL_PREPEND (cf->bind_conf, cnf); return TRUE; } else if (strcmp (tokens[0], "*") == 0) { /* We need to add two listen entries: one for ipv4 and one for ipv6 */ tmp = tokens[0]; tokens[0] = "*v4"; cnf->ai = AF_INET; if ((ret = parse_host_port_priority_strv (cfg->cfg_pool, tokens, &cnf->bind_host, &cnf->bind_port, NULL, DEFAULT_BIND_PORT))) { LL_PREPEND (cf->bind_conf, cnf); } cnf = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct rspamd_worker_bind_conf)); cnf->bind_port = DEFAULT_BIND_PORT; cnf->bind_host = memory_pool_strdup (cfg->cfg_pool, str); cnf->ai = AF_INET6; tokens[0] = "*v6"; if ((ret &= parse_host_port_priority_strv (cfg->cfg_pool, tokens, &cnf->bind_host, &cnf->bind_port, NULL, DEFAULT_BIND_PORT))) { LL_PREPEND (cf->bind_conf, cnf); } tokens[0] = tmp; } else if (strcmp (tokens[0], "systemd") == 0) { /* The actual socket will be passed by systemd environment */ cnf->bind_host = memory_pool_strdup (cfg->cfg_pool, str); cnf->ai = strtoul (tokens[1], &err, 10); cnf->is_systemd = TRUE; if (err == NULL || *err == '\0') { LL_PREPEND (cf->bind_conf, cnf); } } else { if ((ret = parse_host_port_priority_strv (cfg->cfg_pool, tokens, &cnf->bind_host, &cnf->bind_port, NULL, DEFAULT_BIND_PORT))) { LL_PREPEND (cf->bind_conf, cnf); } } g_strfreev (tokens); return ret; } void init_defaults (struct config_file *cfg) { cfg->memcached_error_time = DEFAULT_UPSTREAM_ERROR_TIME; cfg->memcached_dead_time = DEFAULT_UPSTREAM_DEAD_TIME; cfg->memcached_maxerrors = DEFAULT_UPSTREAM_MAXERRORS; cfg->memcached_protocol = TCP_TEXT; cfg->dns_timeout = 1000; cfg->dns_retransmits = 5; /* After 20 errors do throttling for 10 seconds */ cfg->dns_throttling_errors = 20; cfg->dns_throttling_time = 10000; /* 16 sockets per DNS server */ cfg->dns_io_per_server = 16; cfg->statfile_sync_interval = 60000; cfg->statfile_sync_timeout = 20000; /* 20 Kb */ cfg->max_diff = 20480; cfg->metrics = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); cfg->c_modules = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); cfg->composite_symbols = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); cfg->classifiers_symbols = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); cfg->cfg_params = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); cfg->metrics_symbols = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); cfg->map_timeout = DEFAULT_MAP_TIMEOUT; cfg->log_level = G_LOG_LEVEL_WARNING; cfg->log_extended = TRUE; init_settings (cfg); } void free_config (struct config_file *cfg) { GList *cur; struct symbols_group *gr; remove_all_maps (cfg); ucl_obj_unref (cfg->rcl_obj); g_hash_table_remove_all (cfg->metrics); g_hash_table_unref (cfg->metrics); g_hash_table_remove_all (cfg->c_modules); g_hash_table_unref (cfg->c_modules); g_hash_table_remove_all (cfg->composite_symbols); g_hash_table_unref (cfg->composite_symbols); g_hash_table_remove_all (cfg->cfg_params); g_hash_table_unref (cfg->cfg_params); g_hash_table_destroy (cfg->metrics_symbols); g_hash_table_destroy (cfg->classifiers_symbols); /* Free symbols groups */ cur = cfg->symbols_groups; while (cur) { gr = cur->data; if (gr->symbols) { g_list_free (gr->symbols); } cur = g_list_next (cur); } if (cfg->symbols_groups) { g_list_free (cfg->symbols_groups); } if (cfg->checksum) { g_free (cfg->checksum); } g_list_free (cfg->classifiers); g_list_free (cfg->metrics_list); memory_pool_delete (cfg->cfg_pool); } const ucl_object_t * get_module_opt (struct config_file *cfg, const gchar *module_name, const gchar *opt_name) { const ucl_object_t *res = NULL, *sec; sec = ucl_obj_get_key (cfg->rcl_obj, module_name); if (sec != NULL) { res = ucl_obj_get_key (sec, opt_name); } return res; } guint64 parse_limit (const gchar *limit, guint len) { guint64 result = 0; const gchar *err_str; if (!limit || *limit == '\0' || len == 0) { return 0; } errno = 0; result = strtoull (limit, (gchar **)&err_str, 10); if (*err_str != '\0') { /* Megabytes */ if (*err_str == 'm' || *err_str == 'M') { result *= 1048576L; } /* Kilobytes */ else if (*err_str == 'k' || *err_str == 'K') { result *= 1024; } /* Gigabytes */ else if (*err_str == 'g' || *err_str == 'G') { result *= 1073741824L; } else if (len > 0 && err_str - limit != (gint)len) { msg_warn ("invalid limit value '%s' at position '%s'", limit, err_str); result = 0; } } return result; } gchar parse_flag (const gchar *str) { guint len; gchar c; if (!str || !*str) { return -1; } len = strlen (str); switch (len) { case 1: c = g_ascii_tolower (*str); if (c == 'y' || c == '1') { return 1; } else if (c == 'n' || c == '0') { return 0; } break; case 2: if (g_ascii_strncasecmp (str, "no", len) == 0) { return 0; } else if (g_ascii_strncasecmp (str, "on", len) == 0) { return 1; } break; case 3: if (g_ascii_strncasecmp (str, "yes", len) == 0) { return 1; } else if (g_ascii_strncasecmp (str, "off", len) == 0) { return 0; } break; case 4: if (g_ascii_strncasecmp (str, "true", len) == 0) { return 1; } break; case 5: if (g_ascii_strncasecmp (str, "false", len) == 0) { return 0; } break; } return -1; } gboolean get_config_checksum (struct config_file *cfg) { gint fd; void *map; struct stat st; /* Compute checksum for config file that should be used by xml dumper */ if ((fd = open (cfg->cfg_name, O_RDONLY)) == -1) { msg_err ("config file %s is no longer available, cannot calculate checksum"); return FALSE; } if (stat (cfg->cfg_name, &st) == -1) { msg_err ("cannot stat %s: %s", cfg->cfg_name, strerror (errno)); return FALSE; } /* Now mmap this file to simplify reading process */ if ((map = mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0)) == MAP_FAILED) { msg_err ("cannot mmap %s: %s", cfg->cfg_name, strerror (errno)); close (fd); return FALSE; } close (fd); /* Get checksum for a file */ cfg->checksum = g_compute_checksum_for_string (G_CHECKSUM_MD5, map, st.st_size); munmap (map, st.st_size); return TRUE; } /* * Perform post load actions */ void post_load_config (struct config_file *cfg) { #ifdef HAVE_CLOCK_GETTIME struct timespec ts; #endif struct metric *def_metric; #ifdef HAVE_CLOCK_GETTIME #ifdef HAVE_CLOCK_PROCESS_CPUTIME_ID clock_getres (CLOCK_PROCESS_CPUTIME_ID, &ts); # elif defined(HAVE_CLOCK_VIRTUAL) clock_getres (CLOCK_VIRTUAL, &ts); # else clock_getres (CLOCK_REALTIME, &ts); # endif cfg->clock_res = (gint)log10 (1000000 / ts.tv_nsec); if (cfg->clock_res < 0) { cfg->clock_res = 0; } if (cfg->clock_res > 3) { cfg->clock_res = 3; } #else /* For gettimeofday */ cfg->clock_res = 1; #endif if ((def_metric = g_hash_table_lookup (cfg->metrics, DEFAULT_METRIC)) == NULL) { def_metric = check_metric_conf (cfg, NULL); def_metric->name = DEFAULT_METRIC; def_metric->actions[METRIC_ACTION_REJECT].score = DEFAULT_SCORE; cfg->metrics_list = g_list_prepend (cfg->metrics_list, def_metric); g_hash_table_insert (cfg->metrics, DEFAULT_METRIC, def_metric); } cfg->default_metric = def_metric; /* Lua options */ (void)lua_post_load_config (cfg); init_dynamic_config (cfg); } #if 0 void parse_err (const gchar *fmt, ...) { va_list aq; gchar logbuf[BUFSIZ], readbuf[32]; gint r; va_start (aq, fmt); rspamd_strlcpy (readbuf, yytext, sizeof (readbuf)); r = snprintf (logbuf, sizeof (logbuf), "config file parse error! line: %d, text: %s, reason: ", yylineno, readbuf); r += vsnprintf (logbuf + r, sizeof (logbuf) - r, fmt, aq); va_end (aq); g_critical ("%s", logbuf); } void parse_warn (const gchar *fmt, ...) { va_list aq; gchar logbuf[BUFSIZ], readbuf[32]; gint r; va_start (aq, fmt); rspamd_strlcpy (readbuf, yytext, sizeof (readbuf)); r = snprintf (logbuf, sizeof (logbuf), "config file parse warning! line: %d, text: %s, reason: ", yylineno, readbuf); r += vsnprintf (logbuf + r, sizeof (logbuf) - r, fmt, aq); va_end (aq); g_warning ("%s", logbuf); } #endif void unescape_quotes (gchar *line) { gchar *c = line, *t; while (*c) { if (*c == '\\' && *(c + 1) == '"') { t = c; while (*t) { *t = *(t + 1); t++; } } c++; } } GList * parse_comma_list (memory_pool_t * pool, const gchar *line) { GList *res = NULL; const gchar *c, *p; gchar *str; c = line; p = c; while (*p) { if (*p == ',' && *c != *p) { str = memory_pool_alloc (pool, p - c + 1); rspamd_strlcpy (str, c, p - c + 1); res = g_list_prepend (res, str); /* Skip spaces */ while (g_ascii_isspace (*(++p))); c = p; continue; } p++; } if (res != NULL) { memory_pool_add_destructor (pool, (pool_destruct_func) g_list_free, res); } return res; } struct classifier_config * check_classifier_conf (struct config_file *cfg, struct classifier_config *c) { if (c == NULL) { c = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct classifier_config)); } if (c->opts == NULL) { c->opts = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func) g_hash_table_destroy, c->opts); } if (c->labels == NULL) { c->labels = g_hash_table_new_full (rspamd_str_hash, rspamd_str_equal, NULL, (GDestroyNotify)g_list_free); memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func) g_hash_table_destroy, c->labels); } return c; } struct statfile* check_statfile_conf (struct config_file *cfg, struct statfile *c) { if (c == NULL) { c = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct statfile)); } return c; } struct metric * check_metric_conf (struct config_file *cfg, struct metric *c) { int i; if (c == NULL) { c = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct metric)); c->grow_factor = 1.0; c->symbols = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); c->descriptions = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); for (i = METRIC_ACTION_REJECT; i < METRIC_ACTION_MAX; i ++) { c->actions[i].score = -1.0; } memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func) g_hash_table_destroy, c->symbols); memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func) g_hash_table_destroy, c->descriptions); } return c; } struct worker_conf * check_worker_conf (struct config_file *cfg, struct worker_conf *c) { if (c == NULL) { c = memory_pool_alloc0 (cfg->cfg_pool, sizeof (struct worker_conf)); c->params = g_hash_table_new (rspamd_str_hash, rspamd_str_equal); c->active_workers = g_queue_new (); memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func)g_hash_table_destroy, c->params); memory_pool_add_destructor (cfg->cfg_pool, (pool_destruct_func)g_queue_free, c->active_workers); #ifdef HAVE_SC_NPROCESSORS_ONLN c->count = sysconf (_SC_NPROCESSORS_ONLN); #else c->count = DEFAULT_WORKERS_NUM; #endif c->rlimit_nofile = DEFAULT_RLIMIT_NOFILE; c->rlimit_maxcore = DEFAULT_RLIMIT_MAXCORE; } return c; } static bool rspamd_include_map_handler (const guchar *data, gsize len, void* ud) { struct config_file *cfg = (struct config_file *)ud; struct rspamd_ucl_map_cbdata *cbdata, **pcbdata; gchar *map_line; map_line = memory_pool_alloc (cfg->cfg_pool, len + 1); rspamd_strlcpy (map_line, data, len + 1); cbdata = g_malloc (sizeof (struct rspamd_ucl_map_cbdata)); pcbdata = g_malloc (sizeof (struct rspamd_ucl_map_cbdata *)); cbdata->buf = NULL; cbdata->cfg = cfg; *pcbdata = cbdata; return add_map (cfg, map_line, "ucl include", rspamd_ucl_read_cb, rspamd_ucl_fin_cb, (void **)pcbdata); } /* * Variables: * $CONFDIR - configuration directory * $RUNDIR - local states directory * $DBDIR - databases dir * $LOGDIR - logs dir * $PLUGINSDIR - pluggins dir * $PREFIX - installation prefix * $VERSION - rspamd version */ #define RSPAMD_CONFDIR_MACRO "CONFDIR" #define RSPAMD_RUNDIR_MACRO "RUNDIR" #define RSPAMD_DBDIR_MACRO "DBDIR" #define RSPAMD_LOGDIR_MACRO "LOGDIR" #define RSPAMD_PLUGINSDIR_MACRO "PLUGINSDIR" #define RSPAMD_PREFIX_MACRO "PREFIX" #define RSPAMD_VERSION_MACRO "VERSION" static void rspamd_ucl_add_conf_variables (struct ucl_parser *parser) { ucl_parser_register_variable (parser, RSPAMD_CONFDIR_MACRO, RSPAMD_CONFDIR); ucl_parser_register_variable (parser, RSPAMD_RUNDIR_MACRO, RSPAMD_RUNDIR); ucl_parser_register_variable (parser, RSPAMD_DBDIR_MACRO, RSPAMD_DBDIR); ucl_parser_register_variable (parser, RSPAMD_LOGDIR_MACRO, RSPAMD_LOGDIR); ucl_parser_register_variable (parser, RSPAMD_PLUGINSDIR_MACRO, RSPAMD_PLUGINSDIR); ucl_parser_register_variable (parser, RSPAMD_PREFIX_MACRO, RSPAMD_PREFIX); ucl_parser_register_variable (parser, RSPAMD_VERSION_MACRO, RVERSION); } static void rspamd_ucl_add_conf_macros (struct ucl_parser *parser, struct config_file *cfg) { ucl_parser_register_macro (parser, "include_map", rspamd_include_map_handler, cfg); } gboolean read_rspamd_config (struct config_file *cfg, const gchar *filename, const gchar *convert_to, rspamd_rcl_section_fin_t logger_fin, gpointer logger_ud) { struct stat st; gint fd; gchar *data; GError *err = NULL; struct rspamd_rcl_section *top, *logger; gboolean res; struct ucl_parser *parser; if (stat (filename, &st) == -1) { msg_err ("cannot stat %s: %s", filename, strerror (errno)); return FALSE; } if ((fd = open (filename, O_RDONLY)) == -1) { msg_err ("cannot open %s: %s", filename, strerror (errno)); return FALSE; } /* Now mmap this file to simplify reading process */ if ((data = mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0)) == MAP_FAILED) { msg_err ("cannot mmap %s: %s", filename, strerror (errno)); close (fd); return FALSE; } close (fd); parser = ucl_parser_new (0); rspamd_ucl_add_conf_variables (parser); rspamd_ucl_add_conf_macros (parser, cfg); if (!ucl_parser_add_chunk (parser, data, st.st_size)) { msg_err ("ucl parser error: %s", ucl_parser_get_error (parser)); ucl_parser_free (parser); munmap (data, st.st_size); return FALSE; } munmap (data, st.st_size); cfg->rcl_obj = ucl_parser_get_object (parser); ucl_parser_free (parser); res = TRUE; if (!res) { return FALSE; } top = rspamd_rcl_config_init (); err = NULL; HASH_FIND_STR(top, "logging", logger); if (logger != NULL) { logger->fin = logger_fin; logger->fin_ud = logger_ud; } if (!rspamd_read_rcl_config (top, cfg, cfg->rcl_obj, &err)) { msg_err ("rcl parse error: %s", err->message); return FALSE; } return TRUE; } static void symbols_classifiers_callback (gpointer key, gpointer value, gpointer ud) { struct config_file *cfg = ud; register_virtual_symbol (&cfg->cache, key, 1.0); } void insert_classifier_symbols (struct config_file *cfg) { g_hash_table_foreach (cfg->classifiers_symbols, symbols_classifiers_callback, cfg); } struct classifier_config* find_classifier_conf (struct config_file *cfg, const gchar *name) { GList *cur; struct classifier_config *cf; if (name == NULL) { return NULL; } cur = cfg->classifiers; while (cur) { cf = cur->data; if (g_ascii_strcasecmp (cf->classifier->name, name) == 0) { return cf; } cur = g_list_next (cur); } return NULL; } gboolean check_classifier_statfiles (struct classifier_config *cf) { struct statfile *st; gboolean has_other = FALSE, res = FALSE, cur_class; GList *cur; /* First check classes directly */ cur = cf->statfiles; while (cur) { st = cur->data; if (!has_other) { cur_class = st->is_spam; has_other = TRUE; } else { if (cur_class != st->is_spam) { return TRUE; } } cur = g_list_next (cur); } if (!has_other) { /* We have only one statfile */ return FALSE; } /* We have not detected any statfile that has different class, so turn on euristic based on symbol's name */ has_other = FALSE; cur = cf->statfiles; while (cur) { st = cur->data; if (rspamd_strncasestr (st->symbol, "spam", -1) != NULL) { st->is_spam = TRUE; } else if (rspamd_strncasestr (st->symbol, "ham", -1) != NULL) { st->is_spam = FALSE; } if (!has_other) { cur_class = st->is_spam; has_other = TRUE; } else { if (cur_class != st->is_spam) { res = TRUE; } } cur = g_list_next (cur); } return res; } static gchar* rspamd_ucl_read_cb (memory_pool_t * pool, gchar * chunk, gint len, struct map_cb_data *data) { struct rspamd_ucl_map_cbdata *cbdata = data->cur_data, *prev; if (cbdata == NULL) { cbdata = g_malloc (sizeof (struct rspamd_ucl_map_cbdata)); prev = data->prev_data; cbdata->buf = g_string_sized_new (BUFSIZ); cbdata->cfg = prev->cfg; data->cur_data = cbdata; } g_string_append_len (cbdata->buf, chunk, len); /* Say not to copy any part of this buffer */ return NULL; } static void rspamd_ucl_fin_cb (memory_pool_t * pool, struct map_cb_data *data) { struct rspamd_ucl_map_cbdata *cbdata = data->cur_data, *prev = data->prev_data; ucl_object_t *obj; struct ucl_parser *parser; guint32 checksum; if (prev != NULL) { if (prev->buf != NULL) { g_string_free (prev->buf, TRUE); } g_free (prev); } if (cbdata == NULL) { msg_err ("map fin error: new data is NULL"); return; } checksum = murmur32_hash (cbdata->buf->str, cbdata->buf->len); if (data->map->checksum != checksum) { /* New data available */ parser = ucl_parser_new (0); if (!ucl_parser_add_chunk (parser, cbdata->buf->str, cbdata->buf->len)) { msg_err ("cannot parse map %s: %s", data->map->uri, ucl_parser_get_error (parser)); ucl_parser_free (parser); } else { obj = ucl_parser_get_object (parser); ucl_parser_free (parser); /* XXX: add replace objects code */ ucl_object_unref (obj); data->map->checksum = checksum; } } else { msg_info ("do not reload map %s, checksum is the same: %d", data->map->uri, checksum); } } gboolean rspamd_parse_ip_list (const gchar *ip_list, radix_tree_t **tree) { gchar **strvec, **cur; struct in_addr ina; guint32 mask; strvec = g_strsplit_set (ip_list, ",", 0); cur = strvec; while (*cur != NULL) { /* XXX: handle only ipv4 addresses */ if (parse_ipmask_v4 (*cur, &ina, &mask)) { if (*tree == NULL) { *tree = radix_tree_create (); } radix32tree_add (*tree, htonl (ina.s_addr), mask, 1); } cur ++; } return (*tree != NULL); } /* * vi:ts=4 */