/*- * 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. */ /***MODULE:fuzzy * rspamd module that checks fuzzy checksums for messages * * Allowed options: * - symbol (string): symbol to insert (default: 'R_FUZZY') * - max_score (double): maximum score to that weights of hashes would be normalized (default: 0 - no normalization) * * - fuzzy_map (string): a string that contains map in format { fuzzy_key => [ symbol, weight ] } where fuzzy_key is number of * fuzzy list. This string itself should be in format 1:R_FUZZY_SAMPLE1:10,2:R_FUZZY_SAMPLE2:1 etc, where first number is fuzzy * key, second is symbol to insert and third - weight for normalization * * - min_length (integer): minimum length (in characters) for text part to be checked for fuzzy hash (default: 0 - no limit) * - whitelist (map string): map of ip addresses that should not be checked with this module * - servers (string): list of fuzzy servers in format "server1:port,server2:port" - these servers would be used for checking and storing * fuzzy hashes */ #include "config.h" #include "libmime/message.h" #include "libutil/map.h" #include "libutil/map_helpers.h" #include "libmime/images.h" #include "libserver/worker_util.h" #include "libserver/mempool_vars_internal.h" #include "fuzzy_wire.h" #include "utlist.h" #include "ottery.h" #include "lua/lua_common.h" #include "unix-std.h" #include "libutil/http_private.h" #include "libstat/stat_api.h" #include #define DEFAULT_SYMBOL "R_FUZZY_HASH" #define DEFAULT_UPSTREAM_ERROR_TIME 10 #define DEFAULT_UPSTREAM_DEAD_TIME 300 #define DEFAULT_UPSTREAM_MAXERRORS 10 #define DEFAULT_IO_TIMEOUT 500 #define DEFAULT_RETRANSMITS 3 #define DEFAULT_PORT 11335 #define RSPAMD_FUZZY_PLUGIN_VERSION RSPAMD_FUZZY_VERSION static const gint rspamd_fuzzy_hash_len = 5; struct fuzzy_ctx; struct fuzzy_mapping { guint64 fuzzy_flag; const gchar *symbol; double weight; }; struct fuzzy_mime_type { rspamd_regexp_t *type_re; rspamd_regexp_t *subtype_re; }; struct fuzzy_rule { struct upstream_list *servers; const gchar *symbol; const gchar *algorithm_str; const gchar *name; enum rspamd_shingle_alg alg; GHashTable *mappings; GPtrArray *mime_types; GPtrArray *fuzzy_headers; GString *hash_key; GString *shingles_key; struct rspamd_cryptobox_keypair *local_key; struct rspamd_cryptobox_pubkey *peer_key; double max_score; guint32 min_bytes; gboolean read_only; gboolean skip_unknown; gboolean fuzzy_images; gboolean short_text_direct_hash; gint learn_condition_cb; struct rspamd_hash_map_helper *skip_map; struct fuzzy_ctx *ctx; }; struct fuzzy_ctx { struct module_ctx ctx; rspamd_mempool_t *fuzzy_pool; GPtrArray *fuzzy_rules; struct rspamd_config *cfg; const gchar *default_symbol; guint32 min_hash_len; struct rspamd_radix_map_helper *whitelist; struct rspamd_keypair_cache *keypairs_cache; gdouble text_multiplier; guint32 min_bytes; guint32 min_height; guint32 min_width; guint32 io_timeout; guint32 retransmits; gboolean enabled; }; enum fuzzy_result_type { FUZZY_RESULT_TXT, FUZZY_RESULT_IMG, FUZZY_RESULT_BIN }; struct fuzzy_client_result { const gchar *symbol; gchar *option; gdouble score; gdouble prob; enum fuzzy_result_type type; }; struct fuzzy_client_session { GPtrArray *commands; GPtrArray *results; struct rspamd_task *task; struct upstream *server; rspamd_inet_addr_t *addr; struct fuzzy_rule *rule; struct event ev; struct event timev; struct timeval tv; gint state; gint fd; guint retransmits; }; struct fuzzy_learn_session { GPtrArray *commands; gint *saved; GError **err; struct rspamd_http_connection_entry *http_entry; struct rspamd_async_session *session; struct upstream *server; rspamd_inet_addr_t *addr; struct fuzzy_rule *rule; struct rspamd_task *task; struct event ev; struct event timev; struct timeval tv; gint fd; guint retransmits; }; #define FUZZY_CMD_FLAG_REPLIED (1 << 0) #define FUZZY_CMD_FLAG_SENT (1 << 1) #define FUZZY_CMD_FLAG_IMAGE (1 << 2) #define FUZZY_CHECK_FLAG_NOIMAGES (1 << 0) #define FUZZY_CHECK_FLAG_NOATTACHMENTS (1 << 1) #define FUZZY_CHECK_FLAG_NOTEXT (1 << 2) struct fuzzy_cmd_io { guint32 tag; guint32 flags; struct rspamd_fuzzy_cmd cmd; struct iovec io; }; static const char *default_headers = "Subject,Content-Type,Reply-To,X-Mailer"; static void fuzzy_symbol_callback (struct rspamd_task *task, void *unused); /* Initialization */ gint fuzzy_check_module_init (struct rspamd_config *cfg, struct module_ctx **ctx); gint fuzzy_check_module_config (struct rspamd_config *cfg); gint fuzzy_check_module_reconfig (struct rspamd_config *cfg); static gint fuzzy_attach_controller (struct module_ctx *ctx, GHashTable *commands); static gint fuzzy_lua_learn_handler (lua_State *L); static gint fuzzy_lua_unlearn_handler (lua_State *L); module_t fuzzy_check_module = { "fuzzy_check", fuzzy_check_module_init, fuzzy_check_module_config, fuzzy_check_module_reconfig, fuzzy_attach_controller, RSPAMD_MODULE_VER, (guint)-1, }; static inline struct fuzzy_ctx * fuzzy_get_context (struct rspamd_config *cfg) { return (struct fuzzy_ctx *)g_ptr_array_index (cfg->c_modules, fuzzy_check_module.ctx_offset); } static void parse_flags (struct fuzzy_rule *rule, struct rspamd_config *cfg, const ucl_object_t *val, gint cb_id) { const ucl_object_t *elt; struct fuzzy_mapping *map; const gchar *sym = NULL; if (val->type == UCL_STRING) { msg_err_config ( "string mappings are deprecated and no longer supported, use new style configuration"); } else if (val->type == UCL_OBJECT) { elt = ucl_object_lookup (val, "symbol"); if (elt == NULL || !ucl_object_tostring_safe (elt, &sym)) { sym = ucl_object_key (val); } if (sym != NULL) { map = rspamd_mempool_alloc (cfg->cfg_pool, sizeof (struct fuzzy_mapping)); map->symbol = sym; elt = ucl_object_lookup (val, "flag"); if (elt != NULL) { map->fuzzy_flag = ucl_obj_toint (elt); elt = ucl_object_lookup (val, "max_score"); if (elt != NULL) { map->weight = ucl_obj_todouble (elt); } else { map->weight = rule->max_score; } /* Add flag to hash table */ g_hash_table_insert (rule->mappings, GINT_TO_POINTER (map->fuzzy_flag), map); rspamd_symbols_cache_add_symbol (cfg->cache, map->symbol, 0, NULL, NULL, SYMBOL_TYPE_VIRTUAL|SYMBOL_TYPE_FINE, cb_id); } else { msg_err_config ("fuzzy_map parameter has no flag definition"); } } else { msg_err_config ("fuzzy_map parameter has no symbol definition"); } } else { msg_err_config ("fuzzy_map parameter is of an unsupported type"); } } static GPtrArray * parse_mime_types (struct rspamd_config *cfg, const gchar *str) { gchar **strvec, *p; gint num, i; struct fuzzy_mime_type *type; GPtrArray *res; strvec = g_strsplit_set (str, ",", 0); num = g_strv_length (strvec); res = g_ptr_array_sized_new (num); for (i = 0; i < num; i++) { g_strstrip (strvec[i]); if ((p = strchr (strvec[i], '/')) != NULL) { type = rspamd_mempool_alloc (cfg->cfg_pool, sizeof (struct fuzzy_mime_type)); type->type_re = rspamd_regexp_from_glob (strvec[i], p - strvec[i], NULL); type->subtype_re = rspamd_regexp_from_glob (p + 1, 0, NULL); rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t)rspamd_regexp_unref, type->type_re); rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t)rspamd_regexp_unref, type->subtype_re); g_ptr_array_add (res, type); } else { type = rspamd_mempool_alloc (cfg->cfg_pool, sizeof (struct fuzzy_mime_type)); type->type_re = rspamd_regexp_from_glob (strvec[i], 0, NULL); rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t)rspamd_regexp_unref, type->type_re); type->subtype_re = NULL; g_ptr_array_add (res, type); } } g_strfreev (strvec); return res; } static GPtrArray * parse_fuzzy_headers (struct rspamd_config *cfg, const gchar *str) { gchar **strvec; gint num, i; GPtrArray *res; strvec = g_strsplit_set (str, ",", 0); num = g_strv_length (strvec); res = g_ptr_array_sized_new (num); for (i = 0; i < num; i++) { g_strstrip (strvec[i]); g_ptr_array_add (res, rspamd_mempool_strdup ( cfg->cfg_pool, strvec[i])); } g_strfreev (strvec); return res; } static gboolean fuzzy_check_content_type (struct fuzzy_rule *rule, struct rspamd_content_type *ct) { struct fuzzy_mime_type *ft; guint i; PTR_ARRAY_FOREACH (rule->mime_types, i, ft) { if (ft->type_re) { if (ct->type.len > 0 && rspamd_regexp_match (ft->type_re, ct->type.begin, ct->type.len, TRUE)) { if (ft->subtype_re) { if (ct->subtype.len > 0 && rspamd_regexp_match (ft->subtype_re, ct->subtype.begin, ct->subtype.len, TRUE)) { return TRUE; } } else { return TRUE; } } } } return FALSE; } static double fuzzy_normalize (gint32 in, double weight) { if (weight == 0) { return 0; } #ifdef HAVE_TANH return tanh (G_E * (double)in / weight); #else return (in < weight ? in / weight : weight); #endif } static struct fuzzy_rule * fuzzy_rule_new (const char *default_symbol, rspamd_mempool_t *pool) { struct fuzzy_rule *rule; rule = rspamd_mempool_alloc0 (pool, sizeof (struct fuzzy_rule)); rule->mappings = g_hash_table_new (g_direct_hash, g_direct_equal); rule->symbol = default_symbol; rspamd_mempool_add_destructor (pool, (rspamd_mempool_destruct_t)g_hash_table_unref, rule->mappings); rule->read_only = FALSE; return rule; } static void fuzzy_free_rule (gpointer r) { struct fuzzy_rule *rule = (struct fuzzy_rule *)r; g_string_free (rule->hash_key, TRUE); g_string_free (rule->shingles_key, TRUE); if (rule->local_key) { rspamd_keypair_unref (rule->local_key); } if (rule->peer_key) { rspamd_pubkey_unref (rule->peer_key); } } static gint fuzzy_parse_rule (struct rspamd_config *cfg, const ucl_object_t *obj, const gchar *name, gint cb_id) { const ucl_object_t *value, *cur; struct fuzzy_rule *rule; ucl_object_iter_t it = NULL; const char *k = NULL, *key_str = NULL, *shingles_key_str = NULL, *lua_script; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (cfg); if (obj->type != UCL_OBJECT) { msg_err_config ("invalid rule definition"); return -1; } rule = fuzzy_rule_new (fuzzy_module_ctx->default_symbol, cfg->cfg_pool); rule->ctx = fuzzy_module_ctx; rule->learn_condition_cb = -1; rule->alg = RSPAMD_SHINGLES_OLD; rule->skip_map = NULL; if ((value = ucl_object_lookup (obj, "skip_hashes")) != NULL) { rspamd_map_add_from_ucl (cfg, value, "Fuzzy hashes whitelist", rspamd_kv_list_read, rspamd_kv_list_fin, rspamd_kv_list_dtor, (void **)&rule->skip_map); } if ((value = ucl_object_lookup (obj, "mime_types")) != NULL) { it = NULL; while ((cur = ucl_object_iterate (value, &it, value->type == UCL_ARRAY)) != NULL) { GPtrArray *tmp; guint i; gpointer ptr; tmp = parse_mime_types (cfg, ucl_obj_tostring (cur)); if (tmp) { if (rule->mime_types) { PTR_ARRAY_FOREACH (tmp, i, ptr) { g_ptr_array_add (rule->mime_types, ptr); } g_ptr_array_free (tmp, TRUE); } else { rule->mime_types = tmp; } } } if (rule->mime_types) { rspamd_mempool_add_destructor (cfg->cfg_pool, rspamd_ptr_array_free_hard, rule->mime_types); } } if ((value = ucl_object_lookup (obj, "headers")) != NULL) { it = NULL; while ((cur = ucl_object_iterate (value, &it, value->type == UCL_ARRAY)) != NULL) { GPtrArray *tmp; guint i; gpointer ptr; tmp = parse_fuzzy_headers (cfg, ucl_obj_tostring (cur)); if (tmp) { if (rule->fuzzy_headers) { PTR_ARRAY_FOREACH (tmp, i, ptr) { g_ptr_array_add (rule->fuzzy_headers, ptr); } g_ptr_array_free (tmp, TRUE); } else { rule->fuzzy_headers = tmp; } } } } else { rule->fuzzy_headers = parse_fuzzy_headers (cfg, default_headers); } if (rule->fuzzy_headers != NULL) { rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t) rspamd_ptr_array_free_hard, rule->fuzzy_headers); } if ((value = ucl_object_lookup (obj, "max_score")) != NULL) { rule->max_score = ucl_obj_todouble (value); } if ((value = ucl_object_lookup (obj, "min_bytes")) != NULL) { rule->min_bytes = ucl_obj_toint (value); } if ((value = ucl_object_lookup (obj, "symbol")) != NULL) { rule->symbol = ucl_obj_tostring (value); } if (name) { rule->name = name; } else { rule->name = rule->symbol; } if ((value = ucl_object_lookup (obj, "read_only")) != NULL) { rule->read_only = ucl_obj_toboolean (value); } if ((value = ucl_object_lookup (obj, "skip_unknown")) != NULL) { rule->skip_unknown = ucl_obj_toboolean (value); } if ((value = ucl_object_lookup (obj, "short_text_direct_hash")) != NULL) { rule->short_text_direct_hash = ucl_obj_toboolean (value); } if ((value = ucl_object_lookup (obj, "fuzzy_images")) != NULL) { rule->fuzzy_images = ucl_obj_toboolean (value); } if ((value = ucl_object_lookup (obj, "algorithm")) != NULL) { rule->algorithm_str = ucl_object_tostring (value); if (rule->algorithm_str) { if (g_ascii_strcasecmp (rule->algorithm_str, "old") == 0 || g_ascii_strcasecmp (rule->algorithm_str, "siphash") == 0) { rule->alg = RSPAMD_SHINGLES_OLD; } else if (g_ascii_strcasecmp (rule->algorithm_str, "xxhash") == 0) { rule->alg = RSPAMD_SHINGLES_XXHASH; } else if (g_ascii_strcasecmp (rule->algorithm_str, "mumhash") == 0) { rule->alg = RSPAMD_SHINGLES_MUMHASH; } else if (g_ascii_strcasecmp (rule->algorithm_str, "fasthash") == 0 || g_ascii_strcasecmp (rule->algorithm_str, "fast") == 0) { rule->alg = RSPAMD_SHINGLES_FAST; } else { msg_warn_config ("unknown algorithm: %s, use siphash by default", rule->algorithm_str); } } } /* Set a consistent and short string name */ switch (rule->alg) { case RSPAMD_SHINGLES_OLD: rule->algorithm_str = "sip"; break; case RSPAMD_SHINGLES_XXHASH: rule->algorithm_str = "xx"; break; case RSPAMD_SHINGLES_MUMHASH: rule->algorithm_str = "mum"; break; case RSPAMD_SHINGLES_FAST: rule->algorithm_str = "fast"; break; } if ((value = ucl_object_lookup (obj, "servers")) != NULL) { rule->servers = rspamd_upstreams_create (cfg->ups_ctx); rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t)rspamd_upstreams_destroy, rule->servers); if (!rspamd_upstreams_from_ucl (rule->servers, value, DEFAULT_PORT, NULL)) { msg_err_config ("cannot read servers definition"); return -1; } } if ((value = ucl_object_lookup (obj, "fuzzy_map")) != NULL) { it = NULL; while ((cur = ucl_object_iterate (value, &it, true)) != NULL) { parse_flags (rule, cfg, cur, cb_id); } } if ((value = ucl_object_lookup (obj, "encryption_key")) != NULL) { /* Create key from user's input */ k = ucl_object_tostring (value); if (k == NULL || (rule->peer_key = rspamd_pubkey_from_base32 (k, 0, RSPAMD_KEYPAIR_KEX, RSPAMD_CRYPTOBOX_MODE_25519)) == NULL) { msg_err_config ("bad encryption key value: %s", k); return -1; } rule->local_key = rspamd_keypair_new (RSPAMD_KEYPAIR_KEX, RSPAMD_CRYPTOBOX_MODE_25519); } if ((value = ucl_object_lookup (obj, "learn_condition")) != NULL) { lua_script = ucl_object_tostring (value); if (lua_script) { if (luaL_dostring (cfg->lua_state, lua_script) != 0) { msg_err_config ("cannot execute lua script for fuzzy " "learn condition: %s", lua_tostring (cfg->lua_state, -1)); } else { if (lua_type (cfg->lua_state, -1) == LUA_TFUNCTION) { rule->learn_condition_cb = luaL_ref (cfg->lua_state, LUA_REGISTRYINDEX); msg_info_config ("loaded learn condition script for fuzzy rule:" " %s", rule->name); } else { msg_err_config ("lua script must return " "function(task) and not %s", lua_typename (cfg->lua_state, lua_type (cfg->lua_state, -1))); } } } } key_str = NULL; if ((value = ucl_object_lookup (obj, "fuzzy_key")) != NULL) { /* Create key from user's input */ key_str = ucl_object_tostring (value); } /* Setup keys */ if (key_str == NULL) { /* Use some default key for all ops */ key_str = "rspamd"; } rule->hash_key = g_string_sized_new (rspamd_cryptobox_HASHBYTES); rspamd_cryptobox_hash (rule->hash_key->str, key_str, strlen (key_str), NULL, 0); rule->hash_key->len = rspamd_cryptobox_HASHKEYBYTES; shingles_key_str = NULL; if ((value = ucl_object_lookup (obj, "fuzzy_shingles_key")) != NULL) { shingles_key_str = ucl_object_tostring (value); } if (shingles_key_str == NULL) { shingles_key_str = "rspamd"; } rule->shingles_key = g_string_sized_new (rspamd_cryptobox_HASHBYTES); rspamd_cryptobox_hash (rule->shingles_key->str, shingles_key_str, strlen (shingles_key_str), NULL, 0); rule->shingles_key->len = 16; if (rspamd_upstreams_count (rule->servers) == 0) { msg_err_config ("no servers defined for fuzzy rule with name: %s", rule->name); return -1; } else { g_ptr_array_add (fuzzy_module_ctx->fuzzy_rules, rule); if (rule->symbol != fuzzy_module_ctx->default_symbol) { rspamd_symbols_cache_add_symbol (cfg->cache, rule->symbol, 0, NULL, NULL, SYMBOL_TYPE_VIRTUAL|SYMBOL_TYPE_FINE, cb_id); } msg_info_config ("added fuzzy rule %s, key: %*xs, " "shingles_key: %*xs, algorithm: %s", rule->symbol, 6, rule->hash_key->str, 6, rule->shingles_key->str, rule->algorithm_str); } rspamd_mempool_add_destructor (cfg->cfg_pool, fuzzy_free_rule, rule); return 0; } gint fuzzy_check_module_init (struct rspamd_config *cfg, struct module_ctx **ctx) { struct fuzzy_ctx *fuzzy_module_ctx; fuzzy_module_ctx = rspamd_mempool_alloc0 (cfg->cfg_pool, sizeof (struct fuzzy_ctx)); fuzzy_module_ctx->fuzzy_pool = rspamd_mempool_new (rspamd_mempool_suggest_size (), NULL); /* TODO: this should match rules count actually */ fuzzy_module_ctx->keypairs_cache = rspamd_keypair_cache_new (32); fuzzy_module_ctx->fuzzy_rules = g_ptr_array_new (); fuzzy_module_ctx->cfg = cfg; rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t)rspamd_mempool_delete, fuzzy_module_ctx->fuzzy_pool); rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t)rspamd_keypair_cache_destroy, fuzzy_module_ctx->keypairs_cache); rspamd_mempool_add_destructor (cfg->cfg_pool, (rspamd_mempool_destruct_t)rspamd_ptr_array_free_hard, fuzzy_module_ctx->fuzzy_rules); *ctx = (struct module_ctx *)fuzzy_module_ctx; rspamd_rcl_add_doc_by_path (cfg, NULL, "Fuzzy check plugin", "fuzzy_check", UCL_OBJECT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Default symbol", "symbol", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Minimum number of *words* to check a text part", "min_length", UCL_INT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Minimum number of *bytes* to check a non-text part", "min_bytes", UCL_INT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Multiplier for bytes limit when checking for text parts", "text_multiplier", UCL_FLOAT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Minimum height in pixels for embedded images to check using fuzzy storage", "min_height", UCL_INT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Minimum width in pixels for embedded images to check using fuzzy storage", "min_width", UCL_INT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Timeout for waiting reply from a fuzzy server", "timeout", UCL_TIME, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Maximum number of retransmits for a single request", "retransmits", UCL_INT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Whitelisted IPs map", "whitelist", UCL_STRING, NULL, 0, NULL, 0); /* Rules doc strings */ rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check", "Fuzzy check rule", "rule", UCL_OBJECT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Headers that are used to make a separate hash", "headers", UCL_ARRAY, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Whitelisted hashes map", "skip_hashes", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Set of mime types (in form type/subtype, or type/*, or *) to check with fuzzy", "mime_types", UCL_ARRAY, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Maximum value for fuzzy hash when weight of symbol is exactly 1.0 (if value is higher then score is still 1.0)", "max_score", UCL_INT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "List of servers to check (or learn)", "servers", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "If true then never try to learn this fuzzy storage", "read_only", UCL_BOOLEAN, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "If true then ignore unknown flags and not add the default fuzzy symbol", "skip_unknown", UCL_BOOLEAN, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Default symbol for rule (if no flags defined or matched)", "symbol", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Base32 value for the protocol encryption public key", "encryption_key", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Base32 value for the hashing key (for private storages)", "fuzzy_key", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Base32 value for the shingles hashing key (for private storages)", "fuzzy_shingles_key", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Lua script that returns boolean function to check if this task " "should be considered when learning fuzzy storage", "learn_condition", UCL_STRING, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Map of SYMBOL -> data for flags configuration", "fuzzy_map", UCL_OBJECT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Use direct hash for short texts", "short_text_direct_hash", UCL_BOOLEAN, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule", "Override module default min bytes for this rule", "min_bytes", UCL_INT, NULL, 0, NULL, 0); /* Fuzzy map doc strings */ rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule.fuzzy_map", "Maximum score for this flag", "max_score", UCL_INT, NULL, 0, NULL, 0); rspamd_rcl_add_doc_by_path (cfg, "fuzzy_check.rule.fuzzy_map", "Flag number", "flag", UCL_INT, NULL, 0, NULL, 0); return 0; } gint fuzzy_check_module_config (struct rspamd_config *cfg) { const ucl_object_t *value, *cur, *elt; ucl_object_iter_t it; gint res = TRUE, cb_id, nrules = 0; lua_State *L = cfg->lua_state; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (cfg); if (!rspamd_config_is_module_enabled (cfg, "fuzzy_check")) { return TRUE; } fuzzy_module_ctx->enabled = TRUE; if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "symbol")) != NULL) { fuzzy_module_ctx->default_symbol = ucl_obj_tostring (value); } else { fuzzy_module_ctx->default_symbol = DEFAULT_SYMBOL; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "min_length")) != NULL) { fuzzy_module_ctx->min_hash_len = ucl_obj_toint (value); } else { fuzzy_module_ctx->min_hash_len = 0; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "min_bytes")) != NULL) { fuzzy_module_ctx->min_bytes = ucl_obj_toint (value); } else { fuzzy_module_ctx->min_bytes = 0; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "text_multiplier")) != NULL) { fuzzy_module_ctx->text_multiplier = ucl_object_todouble (value); } else { fuzzy_module_ctx->text_multiplier = 2.0; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "min_height")) != NULL) { fuzzy_module_ctx->min_height = ucl_obj_toint (value); } else { fuzzy_module_ctx->min_height = 0; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "min_width")) != NULL) { fuzzy_module_ctx->min_width = ucl_obj_toint (value); } else { fuzzy_module_ctx->min_width = 0; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "timeout")) != NULL) { fuzzy_module_ctx->io_timeout = ucl_obj_todouble (value) * 1000; } else { fuzzy_module_ctx->io_timeout = DEFAULT_IO_TIMEOUT; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "retransmits")) != NULL) { fuzzy_module_ctx->retransmits = ucl_obj_toint (value); } else { fuzzy_module_ctx->retransmits = DEFAULT_RETRANSMITS; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "whitelist")) != NULL) { rspamd_config_radix_from_ucl (cfg, value, "Fuzzy whitelist", &fuzzy_module_ctx->whitelist, NULL); } else { fuzzy_module_ctx->whitelist = NULL; } if ((value = rspamd_config_get_module_opt (cfg, "fuzzy_check", "rule")) != NULL) { cb_id = rspamd_symbols_cache_add_symbol (cfg->cache, "FUZZY_CALLBACK", 0, fuzzy_symbol_callback, NULL, SYMBOL_TYPE_CALLBACK|SYMBOL_TYPE_FINE, -1); /* * Here we can have 2 possibilities: * * unnamed rules: * * rule { * ... * } * rule { * ... * } * * - or - named rules: * * rule { * "rule1": { * ... * } * "rule2": { * ... * } * } * * So, for each element, we check, if there 'servers' key. If 'servers' is * presented, then we treat it as unnamed rule, otherwise we treat it as * named rule. */ LL_FOREACH (value, cur) { if (ucl_object_lookup (cur, "servers")) { /* Unnamed rule */ fuzzy_parse_rule (cfg, cur, NULL, cb_id); nrules ++; } else { /* Named rule */ it = NULL; while ((elt = ucl_object_iterate (cur, &it, true)) != NULL) { fuzzy_parse_rule (cfg, elt, ucl_object_key (elt), cb_id); nrules ++; } } } } if (fuzzy_module_ctx->fuzzy_rules == NULL) { msg_warn_config ("fuzzy module is enabled but no rules are defined"); } msg_info_config ("init internal fuzzy_check module, %d rules loaded", nrules); /* Register global methods */ lua_getglobal (L, "rspamd_plugins"); if (lua_type (L, -1) == LUA_TTABLE) { lua_pushstring (L, "fuzzy_check"); lua_createtable (L, 0, 2); /* Set methods */ lua_pushstring (L, "unlearn"); lua_pushcfunction (L, fuzzy_lua_unlearn_handler); lua_settable (L, -3); lua_pushstring (L, "learn"); lua_pushcfunction (L, fuzzy_lua_learn_handler); lua_settable (L, -3); /* Finish fuzzy_check key */ lua_settable (L, -3); } lua_pop (L, 1); /* Remove global function */ return res; } gint fuzzy_check_module_reconfig (struct rspamd_config *cfg) { return fuzzy_check_module_config (cfg); } /* Finalize IO */ static void fuzzy_io_fin (void *ud) { struct fuzzy_client_session *session = ud; if (session->commands) { g_ptr_array_free (session->commands, TRUE); } if (session->results) { g_ptr_array_free (session->results, TRUE); } event_del (&session->ev); event_del (&session->timev); close (session->fd); } static GArray * fuzzy_preprocess_words (struct rspamd_mime_text_part *part, rspamd_mempool_t *pool) { return part->utf_words; } static void fuzzy_encrypt_cmd (struct fuzzy_rule *rule, struct rspamd_fuzzy_encrypted_req_hdr *hdr, guchar *data, gsize datalen) { const guchar *pk; guint pklen; g_assert (hdr != NULL); g_assert (data != NULL); g_assert (rule != NULL); /* Encrypt data */ memcpy (hdr->magic, fuzzy_encrypted_magic, sizeof (hdr->magic)); ottery_rand_bytes (hdr->nonce, sizeof (hdr->nonce)); pk = rspamd_keypair_component (rule->local_key, RSPAMD_KEYPAIR_COMPONENT_PK, &pklen); memcpy (hdr->pubkey, pk, MIN (pklen, sizeof (hdr->pubkey))); pk = rspamd_pubkey_get_pk (rule->peer_key, &pklen); memcpy (hdr->key_id, pk, MIN (sizeof (hdr->key_id), pklen)); rspamd_keypair_cache_process (rule->ctx->keypairs_cache, rule->local_key, rule->peer_key); rspamd_cryptobox_encrypt_nm_inplace (data, datalen, hdr->nonce, rspamd_pubkey_get_nm (rule->peer_key, rule->local_key), hdr->mac, rspamd_pubkey_alg (rule->peer_key)); } static struct fuzzy_cmd_io * fuzzy_cmd_stat (struct fuzzy_rule *rule, int c, gint flag, guint32 weight, rspamd_mempool_t *pool) { struct rspamd_fuzzy_cmd *cmd; struct rspamd_fuzzy_encrypted_cmd *enccmd = NULL; struct fuzzy_cmd_io *io; if (rule->peer_key) { enccmd = rspamd_mempool_alloc0 (pool, sizeof (*enccmd)); cmd = &enccmd->cmd; } else { cmd = rspamd_mempool_alloc0 (pool, sizeof (*cmd)); } cmd->cmd = c; cmd->version = RSPAMD_FUZZY_PLUGIN_VERSION; cmd->shingles_count = 0; cmd->tag = ottery_rand_uint32 (); io = rspamd_mempool_alloc (pool, sizeof (*io)); io->flags = 0; io->tag = cmd->tag; memcpy (&io->cmd, cmd, sizeof (io->cmd)); if (rule->peer_key && enccmd) { fuzzy_encrypt_cmd (rule, &enccmd->hdr, (guchar *)cmd, sizeof (*cmd)); io->io.iov_base = enccmd; io->io.iov_len = sizeof (*enccmd); } else { io->io.iov_base = cmd; io->io.iov_len = sizeof (*cmd); } return io; } static struct fuzzy_cmd_io * fuzzy_cmd_hash (struct fuzzy_rule *rule, int c, const rspamd_ftok_t *hash, gint flag, guint32 weight, rspamd_mempool_t *pool) { struct rspamd_fuzzy_cmd *cmd; struct rspamd_fuzzy_encrypted_cmd *enccmd = NULL; struct fuzzy_cmd_io *io; if (rule->peer_key) { enccmd = rspamd_mempool_alloc0 (pool, sizeof (*enccmd)); cmd = &enccmd->cmd; } else { cmd = rspamd_mempool_alloc0 (pool, sizeof (*cmd)); } if (hash->len == sizeof (cmd->digest) * 2) { /* It is hex encoding */ if (rspamd_decode_hex_buf (hash->begin, hash->len, cmd->digest, sizeof (cmd->digest)) == -1) { msg_err_pool ("cannot decode hash, wrong encoding"); return NULL; } } else { msg_err_pool ("cannot decode hash, wrong length: %z", hash->len); return NULL; } cmd->cmd = c; cmd->version = RSPAMD_FUZZY_PLUGIN_VERSION; cmd->shingles_count = 0; cmd->tag = ottery_rand_uint32 (); io = rspamd_mempool_alloc (pool, sizeof (*io)); io->flags = 0; io->tag = cmd->tag; memcpy (&io->cmd, cmd, sizeof (io->cmd)); if (rule->peer_key && enccmd) { fuzzy_encrypt_cmd (rule, &enccmd->hdr, (guchar *)cmd, sizeof (*cmd)); io->io.iov_base = enccmd; io->io.iov_len = sizeof (*enccmd); } else { io->io.iov_base = cmd; io->io.iov_len = sizeof (*cmd); } return io; } struct rspamd_cached_shingles { struct rspamd_shingle *sh; guchar digest[rspamd_cryptobox_HASHBYTES]; }; static struct rspamd_cached_shingles * fuzzy_cmd_get_cached (struct fuzzy_rule *rule, rspamd_mempool_t *pool, gpointer p) { gchar key[32]; gint key_part; memcpy (&key_part, rule->shingles_key->str, sizeof (key_part)); rspamd_snprintf (key, sizeof (key), "%p%s%d", p, rule->algorithm_str, key_part); return rspamd_mempool_get_variable (pool, key); } static void fuzzy_cmd_set_cached (struct fuzzy_rule *rule, rspamd_mempool_t *pool, gpointer p, struct rspamd_cached_shingles *data) { gchar key[32]; gint key_part; memcpy (&key_part, rule->shingles_key->str, sizeof (key_part)); rspamd_snprintf (key, sizeof (key), "%p%s%d", p, rule->algorithm_str, key_part); /* Key is copied */ rspamd_mempool_set_variable (pool, key, data, NULL); } /* * Create fuzzy command from a text part */ static struct fuzzy_cmd_io * fuzzy_cmd_from_text_part (struct rspamd_task *task, struct fuzzy_rule *rule, int c, gint flag, guint32 weight, gboolean short_text, rspamd_mempool_t *pool, struct rspamd_mime_text_part *part) { struct rspamd_fuzzy_shingle_cmd *shcmd = NULL; struct rspamd_fuzzy_cmd *cmd = NULL; struct rspamd_fuzzy_encrypted_shingle_cmd *encshcmd = NULL; struct rspamd_fuzzy_encrypted_cmd *enccmd = NULL; struct rspamd_cached_shingles *cached = NULL; struct rspamd_shingle *sh = NULL; guint i; rspamd_cryptobox_hash_state_t st; rspamd_stat_token_t *word; GArray *words; struct fuzzy_cmd_io *io; cached = fuzzy_cmd_get_cached (rule, pool, part); if (cached) { /* Copy cached */ if (short_text) { enccmd = rspamd_mempool_alloc0 (pool, sizeof (*enccmd)); cmd = &enccmd->cmd; memcpy (cmd->digest, cached->digest, sizeof (cached->digest)); cmd->shingles_count = 0; } else { encshcmd = rspamd_mempool_alloc0 (pool, sizeof (*encshcmd)); shcmd = &encshcmd->cmd; memcpy (&shcmd->sgl, cached->sh, sizeof (struct rspamd_shingle)); memcpy (shcmd->basic.digest, cached->digest, sizeof (cached->digest)); shcmd->basic.shingles_count = RSPAMD_SHINGLE_SIZE; } } else { cached = rspamd_mempool_alloc (pool, sizeof (*cached)); if (short_text) { enccmd = rspamd_mempool_alloc0 (pool, sizeof (*encshcmd)); cmd = &enccmd->cmd; rspamd_cryptobox_hash_init (&st, rule->hash_key->str, rule->hash_key->len); rspamd_cryptobox_hash_update (&st, part->utf_stripped_content->data, part->utf_stripped_content->len); if (task->subject) { /* We also include subject */ rspamd_cryptobox_hash_update (&st, task->subject, strlen (task->subject)); } rspamd_cryptobox_hash_final (&st, cmd->digest); memcpy (cached->digest, cmd->digest, sizeof (cached->digest)); cached->sh = NULL; } else { encshcmd = rspamd_mempool_alloc0 (pool, sizeof (*encshcmd)); shcmd = &encshcmd->cmd; /* * Generate hash from all words in the part */ rspamd_cryptobox_hash_init (&st, rule->hash_key->str, rule->hash_key->len); words = fuzzy_preprocess_words (part, pool); for (i = 0; i < words->len; i ++) { word = &g_array_index (words, rspamd_stat_token_t, i); rspamd_cryptobox_hash_update (&st, word->begin, word->len); } rspamd_cryptobox_hash_final (&st, shcmd->basic.digest); msg_debug_pool ("loading shingles of type %s with key %*xs", rule->algorithm_str, 16, rule->shingles_key->str); sh = rspamd_shingles_from_text (words, rule->shingles_key->str, pool, rspamd_shingles_default_filter, NULL, rule->alg); if (sh != NULL) { memcpy (&shcmd->sgl, sh, sizeof (shcmd->sgl)); shcmd->basic.shingles_count = RSPAMD_SHINGLE_SIZE; } cached->sh = sh; memcpy (cached->digest, shcmd->basic.digest, sizeof (cached->digest)); } /* * We always save encrypted command as it can handle both * encrypted and unencrypted requests. * * Since it is copied when obtained from the cache, it is safe to use * it this way. */ fuzzy_cmd_set_cached (rule, pool, part, cached); } io = rspamd_mempool_alloc (pool, sizeof (*io)); if (!short_text) { shcmd->basic.tag = ottery_rand_uint32 (); shcmd->basic.cmd = c; shcmd->basic.version = RSPAMD_FUZZY_PLUGIN_VERSION; if (c != FUZZY_CHECK) { shcmd->basic.flag = flag; shcmd->basic.value = weight; } io->tag = shcmd->basic.tag; memcpy (&io->cmd, &shcmd->basic, sizeof (io->cmd)); } else { cmd->tag = ottery_rand_uint32 (); cmd->cmd = c; cmd->version = RSPAMD_FUZZY_PLUGIN_VERSION; if (c != FUZZY_CHECK) { cmd->flag = flag; cmd->value = weight; } io->tag = cmd->tag; memcpy (&io->cmd, cmd, sizeof (io->cmd)); } io->flags = 0; if (rule->peer_key) { /* Encrypt data */ if (!short_text) { fuzzy_encrypt_cmd (rule, &encshcmd->hdr, (guchar *) shcmd, sizeof (*shcmd)); io->io.iov_base = encshcmd; io->io.iov_len = sizeof (*encshcmd); } else { fuzzy_encrypt_cmd (rule, &enccmd->hdr, (guchar *)cmd, sizeof (*cmd)); io->io.iov_base = enccmd; io->io.iov_len = sizeof (*enccmd); } } else { if (!short_text) { io->io.iov_base = shcmd; io->io.iov_len = sizeof (*shcmd); } else { io->io.iov_base = cmd; io->io.iov_len = sizeof (*cmd); } } return io; } static struct fuzzy_cmd_io * fuzzy_cmd_from_image_part (struct fuzzy_rule *rule, int c, gint flag, guint32 weight, rspamd_mempool_t *pool, struct rspamd_image *img) { struct rspamd_fuzzy_shingle_cmd *shcmd; struct rspamd_fuzzy_encrypted_shingle_cmd *encshcmd; struct fuzzy_cmd_io *io; struct rspamd_shingle *sh; struct rspamd_cached_shingles *cached; cached = fuzzy_cmd_get_cached (rule, pool, img); if (cached) { /* Copy cached */ encshcmd = rspamd_mempool_alloc0 (pool, sizeof (*encshcmd)); shcmd = &encshcmd->cmd; memcpy (&shcmd->sgl, cached->sh, sizeof (struct rspamd_shingle)); memcpy (shcmd->basic.digest, cached->digest, sizeof (cached->digest)); shcmd->basic.shingles_count = RSPAMD_SHINGLE_SIZE; } else { encshcmd = rspamd_mempool_alloc0 (pool, sizeof (*encshcmd)); shcmd = &encshcmd->cmd; /* * Generate shingles */ sh = rspamd_shingles_from_image (img->dct, rule->shingles_key->str, pool, rspamd_shingles_default_filter, NULL, rule->alg); if (sh != NULL) { memcpy (&shcmd->sgl, sh->hashes, sizeof (shcmd->sgl)); shcmd->basic.shingles_count = RSPAMD_SHINGLE_SIZE; #if 0 for (unsigned int i = 0; i < RSPAMD_SHINGLE_SIZE; i ++) { msg_err ("shingle %d: %L", i, sh->hashes[i]); } #endif } rspamd_cryptobox_hash (shcmd->basic.digest, (const guchar *)img->dct, RSPAMD_DCT_LEN / NBBY, rule->hash_key->str, rule->hash_key->len); msg_debug_pool ("loading shingles of type %s with key %*xs", rule->algorithm_str, 16, rule->shingles_key->str); /* * We always save encrypted command as it can handle both * encrypted and unencrypted requests. * * Since it is copied when obtained from the cache, it is safe to use * it this way. */ cached = rspamd_mempool_alloc (pool, sizeof (*cached)); cached->sh = sh; memcpy (cached->digest, shcmd->basic.digest, sizeof (cached->digest)); fuzzy_cmd_set_cached (rule, pool, img, cached); } shcmd->basic.tag = ottery_rand_uint32 (); shcmd->basic.cmd = c; shcmd->basic.version = RSPAMD_FUZZY_PLUGIN_VERSION; if (c != FUZZY_CHECK) { shcmd->basic.flag = flag; shcmd->basic.value = weight; } io = rspamd_mempool_alloc (pool, sizeof (*io)); io->tag = shcmd->basic.tag; io->flags = FUZZY_CMD_FLAG_IMAGE; memcpy (&io->cmd, &shcmd->basic, sizeof (io->cmd)); if (rule->peer_key) { /* Encrypt data */ fuzzy_encrypt_cmd (rule, &encshcmd->hdr, (guchar *) shcmd, sizeof (*shcmd)); io->io.iov_base = encshcmd; io->io.iov_len = sizeof (*encshcmd); } else { io->io.iov_base = shcmd; io->io.iov_len = sizeof (*shcmd); } return io; } static struct fuzzy_cmd_io * fuzzy_cmd_from_data_part (struct fuzzy_rule *rule, int c, gint flag, guint32 weight, rspamd_mempool_t *pool, guchar digest[rspamd_cryptobox_HASHBYTES]) { struct rspamd_fuzzy_cmd *cmd; struct rspamd_fuzzy_encrypted_cmd *enccmd = NULL; struct fuzzy_cmd_io *io; if (rule->peer_key) { enccmd = rspamd_mempool_alloc0 (pool, sizeof (*enccmd)); cmd = &enccmd->cmd; } else { cmd = rspamd_mempool_alloc0 (pool, sizeof (*cmd)); } cmd->cmd = c; cmd->version = RSPAMD_FUZZY_PLUGIN_VERSION; if (c != FUZZY_CHECK) { cmd->flag = flag; cmd->value = weight; } cmd->shingles_count = 0; cmd->tag = ottery_rand_uint32 (); memcpy (cmd->digest, digest, sizeof (cmd->digest)); io = rspamd_mempool_alloc (pool, sizeof (*io)); io->flags = 0; io->tag = cmd->tag; memcpy (&io->cmd, cmd, sizeof (io->cmd)); if (rule->peer_key) { g_assert (enccmd != NULL); fuzzy_encrypt_cmd (rule, &enccmd->hdr, (guchar *) cmd, sizeof (*cmd)); io->io.iov_base = enccmd; io->io.iov_len = sizeof (*enccmd); } else { io->io.iov_base = cmd; io->io.iov_len = sizeof (*cmd); } return io; } static gboolean fuzzy_cmd_to_wire (gint fd, struct iovec *io) { struct msghdr msg; memset (&msg, 0, sizeof (msg)); msg.msg_iov = io; msg.msg_iovlen = 1; while (sendmsg (fd, &msg, 0) == -1) { if (errno == EINTR) { continue; } return FALSE; } return TRUE; } static gboolean fuzzy_cmd_vector_to_wire (gint fd, GPtrArray *v) { guint i; gboolean all_sent = TRUE, all_replied = TRUE; struct fuzzy_cmd_io *io; gboolean processed = FALSE; /* First try to resend unsent commands */ for (i = 0; i < v->len; i ++) { io = g_ptr_array_index (v, i); if (io->flags & FUZZY_CMD_FLAG_REPLIED) { continue; } all_replied = FALSE; if (!(io->flags & FUZZY_CMD_FLAG_SENT)) { if (!fuzzy_cmd_to_wire (fd, &io->io)) { return FALSE; } processed = TRUE; io->flags |= FUZZY_CMD_FLAG_SENT; all_sent = FALSE; } } if (all_sent && !all_replied) { /* Now try to resend each command in the vector */ for (i = 0; i < v->len; i++) { io = g_ptr_array_index (v, i); if (!(io->flags & FUZZY_CMD_FLAG_REPLIED)) { io->flags &= ~FUZZY_CMD_FLAG_SENT; } } return fuzzy_cmd_vector_to_wire (fd, v); } return processed; } /* * Read replies one-by-one and remove them from req array */ static const struct rspamd_fuzzy_reply * fuzzy_process_reply (guchar **pos, gint *r, GPtrArray *req, struct fuzzy_rule *rule, struct rspamd_fuzzy_cmd **pcmd, struct fuzzy_cmd_io **pio) { guchar *p = *pos; gint remain = *r; guint i, required_size; struct fuzzy_cmd_io *io; const struct rspamd_fuzzy_reply *rep; struct rspamd_fuzzy_encrypted_reply encrep; gboolean found = FALSE; if (rule->peer_key) { required_size = sizeof (encrep); } else { required_size = sizeof (*rep); } if (remain <= 0 || (guint)remain < required_size) { return NULL; } if (rule->peer_key) { memcpy (&encrep, p, sizeof (encrep)); *pos += required_size; *r -= required_size; /* Try to decrypt reply */ rspamd_keypair_cache_process (rule->ctx->keypairs_cache, rule->local_key, rule->peer_key); if (!rspamd_cryptobox_decrypt_nm_inplace ((guchar *)&encrep.rep, sizeof (encrep.rep), encrep.hdr.nonce, rspamd_pubkey_get_nm (rule->peer_key, rule->local_key), encrep.hdr.mac, rspamd_pubkey_alg (rule->peer_key))) { msg_info ("cannot decrypt reply"); return NULL; } /* Copy decrypted over the input wire */ memcpy (p, &encrep.rep, sizeof (encrep.rep)); } else { *pos += required_size; *r -= required_size; } rep = (const struct rspamd_fuzzy_reply *) p; /* * Search for tag */ for (i = 0; i < req->len; i ++) { io = g_ptr_array_index (req, i); if (io->tag == rep->v1.tag) { if (!(io->flags & FUZZY_CMD_FLAG_REPLIED)) { io->flags |= FUZZY_CMD_FLAG_REPLIED; if (pcmd) { *pcmd = &io->cmd; } if (pio) { *pio = io; } return rep; } found = TRUE; } } if (!found) { msg_info ("unexpected tag: %ud", rep->v1.tag); } return NULL; } static void fuzzy_insert_result (struct fuzzy_client_session *session, const struct rspamd_fuzzy_reply *rep, struct rspamd_fuzzy_cmd *cmd, struct fuzzy_cmd_io *io, guint flag) { const gchar *symbol; struct fuzzy_mapping *map; struct rspamd_task *task = session->task; double weight; double nval; guchar buf[2048]; const gchar *type = "bin"; struct fuzzy_client_result *res; gboolean is_fuzzy = FALSE; gchar hexbuf[rspamd_cryptobox_HASHBYTES * 2 + 1]; /* Get mapping by flag */ if ((map = g_hash_table_lookup (session->rule->mappings, GINT_TO_POINTER (rep->v1.flag))) == NULL) { /* Default symbol and default weight */ symbol = session->rule->symbol; weight = session->rule->max_score; } else { /* Get symbol and weight from map */ symbol = map->symbol; weight = map->weight; } res = rspamd_mempool_alloc0 (task->task_pool, sizeof (*res)); res->prob = rep->v1.prob; res->symbol = symbol; /* * Hash is assumed to be found if probability is more than 0.5 * In that case `value` means number of matches * Otherwise `value` means error code */ nval = fuzzy_normalize (rep->v1.value, weight); if (io && (io->flags & FUZZY_CMD_FLAG_IMAGE)) { nval *= rspamd_normalize_probability (rep->v1.prob, 0.5); type = "img"; res->type = FUZZY_RESULT_IMG; } else { if (cmd->shingles_count > 0) { type = "txt"; res->type = FUZZY_RESULT_TXT; } else { res->type = FUZZY_RESULT_BIN; } nval *= rspamd_normalize_probability (rep->v1.prob, 0.5); } res->score = nval; if (memcmp (rep->digest, cmd->digest, sizeof (rep->digest)) != 0) { is_fuzzy = TRUE; } if (map != NULL || !session->rule->skip_unknown) { GList *fuzzy_var; rspamd_fstring_t *hex_result; if (session->rule->skip_map) { rspamd_encode_hex_buf (cmd->digest, sizeof (cmd->digest), hexbuf, sizeof (hexbuf) - 1); hexbuf[sizeof (hexbuf) - 1] = '\0'; if (rspamd_match_hash_map (session->rule->skip_map, hexbuf)) { return; } } rspamd_encode_hex_buf (rep->digest, sizeof (rep->digest), hexbuf, sizeof (hexbuf) - 1); hexbuf[sizeof (hexbuf) - 1] = '\0'; if (is_fuzzy) { msg_info_task ( "found fuzzy hash(%s) %s (%*xs requested) with weight: " "%.2f, probability %.2f, in list: %s:%d%s", type, hexbuf, (gint) sizeof (cmd->digest), cmd->digest, nval, (gdouble) rep->v1.prob, symbol, rep->v1.flag, map == NULL ? "(unknown)" : ""); } else { msg_info_task ( "found exact fuzzy hash(%s) %s with weight: " "%.2f, probability %.2f, in list: %s:%d%s", type, hexbuf, nval, (gdouble) rep->v1.prob, symbol, rep->v1.flag, map == NULL ? "(unknown)" : ""); } rspamd_snprintf (buf, sizeof (buf), "%d:%*s:%.2f:%s", rep->v1.flag, (gint)MIN(rspamd_fuzzy_hash_len * 2, sizeof (rep->digest) * 2), hexbuf, rep->v1.prob, type); res->option = rspamd_mempool_strdup (task->task_pool, buf); g_ptr_array_add (session->results, res); /* Store hex string in pool variable */ hex_result = rspamd_mempool_alloc (task->task_pool, sizeof (rspamd_fstring_t) + sizeof (hexbuf)); memcpy (hex_result->str, hexbuf, sizeof (hexbuf)); hex_result->len = sizeof (hexbuf) - 1; hex_result->allocated = (gsize)-1; fuzzy_var = rspamd_mempool_get_variable (task->task_pool, RSPAMD_MEMPOOL_FUZZY_RESULT); if (fuzzy_var == NULL) { fuzzy_var = g_list_prepend (NULL, hex_result); rspamd_mempool_set_variable (task->task_pool, RSPAMD_MEMPOOL_FUZZY_RESULT, fuzzy_var, (rspamd_mempool_destruct_t)g_list_free); } else { /* Not very efficient, but we don't really use it intensively */ fuzzy_var = g_list_append (fuzzy_var, hex_result); } } } static gint fuzzy_check_try_read (struct fuzzy_client_session *session) { struct rspamd_task *task; const struct rspamd_fuzzy_reply *rep; struct rspamd_fuzzy_cmd *cmd = NULL; struct fuzzy_cmd_io *io = NULL; gint r, ret; guchar buf[2048], *p; task = session->task; if ((r = read (session->fd, buf, sizeof (buf) - 1)) == -1) { if (errno == EAGAIN || errno == EWOULDBLOCK || errno == EINTR) { return 0; } else { return -1; } } else { p = buf; ret = 0; while ((rep = fuzzy_process_reply (&p, &r, session->commands, session->rule, &cmd, &io)) != NULL) { if (rep->v1.prob > 0.5) { if (cmd->cmd == FUZZY_CHECK) { fuzzy_insert_result (session, rep, cmd, io, rep->v1.flag); } else if (cmd->cmd == FUZZY_STAT) { /* Just set pool variable to extract it in further */ struct rspamd_fuzzy_stat_entry *pval; GList *res; pval = rspamd_mempool_alloc (task->task_pool, sizeof (*pval)); pval->fuzzy_cnt = rep->v1.flag; pval->name = session->rule->name; res = rspamd_mempool_get_variable (task->task_pool, "fuzzy_stat"); if (res == NULL) { res = g_list_append (NULL, pval); rspamd_mempool_set_variable (task->task_pool, "fuzzy_stat", res, (rspamd_mempool_destruct_t)g_list_free); } else { res = g_list_append (res, pval); } } } else if (rep->v1.value == 403) { rspamd_task_insert_result (task, "FUZZY_BLOCKED", 0.0, session->rule->name); } else if (rep->v1.value == 401) { if (cmd->cmd != FUZZY_CHECK) { msg_info_task ( "fuzzy check error for %d: skipped by server", rep->v1.flag); } } else if (rep->v1.value != 0) { msg_info_task ( "fuzzy check error for %d: unknown error (%d)", rep->v1.flag, rep->v1.value); } ret = 1; } } return ret; } static void fuzzy_insert_metric_results (struct rspamd_task *task, GPtrArray *results) { struct fuzzy_client_result *res; guint i; gboolean seen_text = FALSE, seen_img = FALSE; gdouble prob_txt = 0.0, mult; PTR_ARRAY_FOREACH (results, i, res) { if (res->type == FUZZY_RESULT_TXT) { seen_text = TRUE; prob_txt = MAX (prob_txt, res->prob); } else if (res->type == FUZZY_RESULT_IMG) { seen_img = TRUE; } } PTR_ARRAY_FOREACH (results, i, res) { mult = 1.0; if (res->type == FUZZY_RESULT_IMG) { if (!seen_text) { mult *= 0.25; } else if (prob_txt < 0.75) { /* Penalize sole image without matching text */ mult *= prob_txt; } } else if (res->type == FUZZY_RESULT_TXT) { if (seen_img) { /* Slightly increase score */ mult = 1.1; } } rspamd_task_insert_result_single (task, res->symbol, res->score * mult, res->option); } } static gboolean fuzzy_check_session_is_completed (struct fuzzy_client_session *session) { struct fuzzy_cmd_io *io; guint nreplied = 0, i; rspamd_upstream_ok (session->server); for (i = 0; i < session->commands->len; i++) { io = g_ptr_array_index (session->commands, i); if (io->flags & FUZZY_CMD_FLAG_REPLIED) { nreplied++; } } if (nreplied == session->commands->len) { fuzzy_insert_metric_results (session->task, session->results); rspamd_session_remove_event (session->task->s, fuzzy_io_fin, session); return TRUE; } return FALSE; } /* Fuzzy check callback */ static void fuzzy_check_io_callback (gint fd, short what, void *arg) { struct fuzzy_client_session *session = arg; struct rspamd_task *task; struct event_base *ev_base; gint r; enum { return_error = 0, return_want_more, return_finished } ret = return_error; task = session->task; if ((what & EV_READ) || session->state == 1) { /* Try to read reply */ r = fuzzy_check_try_read (session); switch (r) { case 0: ret = return_want_more; break; case 1: ret = return_finished; break; default: ret = return_error; break; } } else if (what & EV_WRITE) { if (!fuzzy_cmd_vector_to_wire (fd, session->commands)) { ret = return_error; } else { session->state = 1; ret = return_want_more; } } else { /* Should not happen */ g_assert (0); } if (ret == return_want_more) { /* Processed write, switch to reading */ ev_base = event_get_base (&session->ev); event_del (&session->ev); event_set (&session->ev, fd, EV_READ, fuzzy_check_io_callback, session); event_base_set (ev_base, &session->ev); event_add (&session->ev, NULL); } else if (ret == return_error) { /* Error state */ msg_err_task ("got error on IO with server %s(%s), on %s, %d, %s", rspamd_upstream_name (session->server), rspamd_inet_address_to_string_pretty (session->addr), session->state == 1 ? "read" : "write", errno, strerror (errno)); rspamd_upstream_fail (session->server, FALSE); rspamd_session_remove_event (session->task->s, fuzzy_io_fin, session); } else { /* Read something from network */ if (!fuzzy_check_session_is_completed (session)) { /* Need to read more */ ev_base = event_get_base (&session->ev); event_del (&session->ev); event_set (&session->ev, session->fd, EV_READ, fuzzy_check_io_callback, session); event_base_set (ev_base, &session->ev); event_add (&session->ev, NULL); } } } /* Fuzzy check timeout callback */ static void fuzzy_check_timer_callback (gint fd, short what, void *arg) { struct fuzzy_client_session *session = arg; struct rspamd_task *task; struct event_base *ev_base; task = session->task; /* We might be here because of other checks being slow */ if (fuzzy_check_try_read (session) > 0) { if (fuzzy_check_session_is_completed (session)) { return; } } if (session->retransmits >= session->rule->ctx->retransmits) { msg_err_task ("got IO timeout with server %s(%s), after %d retransmits", rspamd_upstream_name (session->server), rspamd_inet_address_to_string_pretty (session->addr), session->retransmits); rspamd_upstream_fail (session->server, FALSE); rspamd_session_remove_event (session->task->s, fuzzy_io_fin, session); } else { /* Plan write event */ ev_base = event_get_base (&session->ev); event_del (&session->ev); event_set (&session->ev, fd, EV_WRITE|EV_READ, fuzzy_check_io_callback, session); event_base_set (ev_base, &session->ev); event_add (&session->ev, NULL); /* Plan new retransmit timer */ ev_base = event_get_base (&session->timev); event_del (&session->timev); event_base_set (ev_base, &session->timev); event_add (&session->timev, &session->tv); session->retransmits ++; } } static void fuzzy_lua_fin (void *ud) { struct fuzzy_learn_session *session = ud; (*session->saved)--; event_del (&session->ev); event_del (&session->timev); close (session->fd); } /* Controller IO */ static void fuzzy_controller_io_callback (gint fd, short what, void *arg) { struct fuzzy_learn_session *session = arg; const struct rspamd_fuzzy_reply *rep; struct fuzzy_mapping *map; struct rspamd_task *task; guchar buf[2048], *p; struct fuzzy_cmd_io *io; struct rspamd_fuzzy_cmd *cmd = NULL; const gchar *symbol, *ftype; struct event_base *ev_base; gint r; enum { return_error = 0, return_want_more, return_finished } ret = return_want_more; guint i, nreplied; const gchar *op = "process"; task = session->task; if (what & EV_READ) { if ((r = read (fd, buf, sizeof (buf) - 1)) == -1) { if (errno == EAGAIN || errno == EWOULDBLOCK || errno == EINTR) { event_add (&session->ev, NULL); return; } msg_info_task ("cannot process fuzzy hash for message <%s>: %s", session->task->message_id, strerror (errno)); if (*(session->err) == NULL) { g_set_error (session->err, g_quark_from_static_string ("fuzzy check"), errno, "read socket error: %s", strerror (errno)); } ret = return_error; } else { p = buf; ret = return_want_more; while ((rep = fuzzy_process_reply (&p, &r, session->commands, session->rule, &cmd, &io)) != NULL) { if ((map = g_hash_table_lookup (session->rule->mappings, GINT_TO_POINTER (rep->v1.flag))) == NULL) { /* Default symbol and default weight */ symbol = session->rule->symbol; } else { /* Get symbol and weight from map */ symbol = map->symbol; } ftype = "bin"; if (io && (io->flags & FUZZY_CMD_FLAG_IMAGE)) { ftype = "img"; } else if (cmd->shingles_count > 0) { ftype = "txt"; } if (io->cmd.cmd == FUZZY_WRITE) { op = "added"; } else if (io->cmd.cmd == FUZZY_DEL) { op = "deleted"; } if (rep->v1.prob > 0.5) { msg_info_task ("%s fuzzy hash (%s) %*xs, list: %s:%d for " "message <%s>", op, ftype, (gint)sizeof (rep->digest), rep->digest, symbol, rep->v1.flag, session->task->message_id); } else { if (rep->v1.value == 401) { msg_info_task ( "fuzzy hash (%s) for message cannot be %s" "<%s>, %*xs, " "list %s:%d, skipped by server", ftype, op, session->task->message_id, (gint)sizeof (rep->digest), rep->digest, symbol, rep->v1.flag); if (*(session->err) == NULL) { g_set_error (session->err, g_quark_from_static_string ("fuzzy check"), rep->v1.value, "fuzzy hash is skipped"); } } else { msg_info_task ( "fuzzy hash (%s) for message cannot be %s" "<%s>, %*xs, " "list %s:%d, error: %d", ftype, op, session->task->message_id, (gint)sizeof (rep->digest), rep->digest, symbol, rep->v1.flag, rep->v1.value); if (*(session->err) == NULL) { g_set_error (session->err, g_quark_from_static_string ("fuzzy check"), rep->v1.value, "process fuzzy error"); } } ret = return_finished; } } nreplied = 0; for (i = 0; i < session->commands->len; i++) { io = g_ptr_array_index (session->commands, i); if (io->flags & FUZZY_CMD_FLAG_REPLIED) { nreplied++; } } if (nreplied == session->commands->len) { ret = return_finished; } } } else if (what & EV_WRITE) { /* Send commands to storage */ if (!fuzzy_cmd_vector_to_wire (fd, session->commands)) { if (*(session->err) == NULL) { g_set_error (session->err, g_quark_from_static_string ("fuzzy check"), errno, "write socket error: %s", strerror (errno)); } ret = return_error; } } else { g_assert (0); } if (ret == return_want_more) { ev_base = event_get_base (&session->ev); event_del (&session->ev); event_set (&session->ev, fd, EV_READ, fuzzy_controller_io_callback, session); event_base_set (ev_base, &session->ev); event_add (&session->ev, NULL); return; } else if (ret == return_error) { msg_err_task ("got error in IO with server %s(%s), %d, %s", rspamd_upstream_name (session->server), rspamd_inet_address_to_string_pretty (session->addr), errno, strerror (errno)); rspamd_upstream_fail (session->server, FALSE); } /* * XXX: actually, we check merely a single reply, which is not correct... * XXX: when we send a command, we do not check if *all* commands have been * written * XXX: please, please, change this code some day */ if (session->session == NULL) { (*session->saved)--; if (session->http_entry) { rspamd_http_connection_unref (session->http_entry->conn); } event_del (&session->ev); event_del (&session->timev); close (session->fd); if (*session->saved == 0) { goto cleanup; } } else { /* Lua handler */ rspamd_session_remove_event (session->session, fuzzy_lua_fin, session); } return; cleanup: /* * When we send learn commands to fuzzy storages, this code is executed * *once* when we have queried all storages. We also don't know which * storage has been failed. * * Therefore, we cleanup sessions earlier and actually this code is wrong. */ if (*(session->err) != NULL) { if (session->http_entry) { rspamd_controller_send_error (session->http_entry, (*session->err)->code, (*session->err)->message); } g_error_free (*session->err); } else { rspamd_upstream_ok (session->server); if (session->http_entry) { ucl_object_t *reply, *hashes; guint i; gchar hexbuf[rspamd_cryptobox_HASHBYTES * 2 + 1]; reply = ucl_object_typed_new (UCL_OBJECT); ucl_object_insert_key (reply, ucl_object_frombool (true), "success", 0, false); hashes = ucl_object_typed_new (UCL_ARRAY); for (i = 0; i < session->commands->len; i ++) { io = g_ptr_array_index (session->commands, i); rspamd_snprintf (hexbuf, sizeof (hexbuf), "%*xs", (gint)sizeof (io->cmd.digest), io->cmd.digest); ucl_array_append (hashes, ucl_object_fromstring (hexbuf)); } ucl_object_insert_key (reply, hashes, "hashes", 0, false); rspamd_controller_send_ucl (session->http_entry, reply); ucl_object_unref (reply); } } if (session->task != NULL) { if (session->http_entry) { rspamd_task_free (session->task); } session->task = NULL; } } static void fuzzy_controller_timer_callback (gint fd, short what, void *arg) { struct fuzzy_learn_session *session = arg; struct rspamd_task *task; struct event_base *ev_base; task = session->task; if (session->retransmits >= session->rule->ctx->retransmits) { rspamd_upstream_fail (session->server, FALSE); msg_err_task_check ("got IO timeout with server %s(%s), " "after %d retransmits", rspamd_upstream_name (session->server), rspamd_inet_address_to_string_pretty (session->addr), session->retransmits); if (session->session) { rspamd_session_remove_event (session->session, fuzzy_lua_fin, session); } else { if (session->http_entry) { rspamd_controller_send_error (session->http_entry, 500, "IO timeout with fuzzy storage"); } if (*session->saved > 0 ) { (*session->saved)--; if (*session->saved == 0) { if (session->http_entry) { rspamd_task_free (session->task); } session->task = NULL; } } if (session->http_entry) { rspamd_http_connection_unref (session->http_entry->conn); } event_del (&session->ev); event_del (&session->timev); close (session->fd); } } else { /* Plan write event */ ev_base = event_get_base (&session->ev); event_del (&session->ev); event_set (&session->ev, fd, EV_WRITE|EV_READ, fuzzy_controller_io_callback, session); event_base_set (ev_base, &session->ev); event_add (&session->ev, NULL); /* Plan new retransmit timer */ ev_base = event_get_base (&session->timev); event_del (&session->timev); event_base_set (ev_base, &session->timev); event_add (&session->timev, &session->tv); session->retransmits ++; } } static GPtrArray * fuzzy_generate_commands (struct rspamd_task *task, struct fuzzy_rule *rule, gint c, gint flag, guint32 value, guint flags) { struct rspamd_mime_text_part *part; struct rspamd_mime_part *mime_part; struct rspamd_image *image; struct fuzzy_cmd_io *io, *cur; guint i, j, min_bytes = 0; GPtrArray *res; res = g_ptr_array_sized_new (task->parts->len + 1); if (rule->min_bytes) { min_bytes = rule->min_bytes; } else { min_bytes = rule->ctx->min_bytes; } if (c == FUZZY_STAT) { io = fuzzy_cmd_stat (rule, c, flag, value, task->task_pool); if (io) { g_ptr_array_add (res, io); } goto end; } if (G_LIKELY (!(flags & FUZZY_CHECK_FLAG_NOTEXT))) { for (i = 0; i < task->text_parts->len; i ++) { gdouble fac; gboolean short_text = FALSE; part = g_ptr_array_index (task->text_parts, i); if (IS_PART_EMPTY (part)) { continue; } /* Check length of part */ fac = rule->ctx->text_multiplier * part->utf_content->len; if ((double)min_bytes > fac) { if (!rule->short_text_direct_hash) { msg_info_task ( "<%s>, part is shorter than %d bytes: %.0f " "(%d * %.2f bytes), " "skip fuzzy check", task->message_id, min_bytes, fac, part->utf_content->len, rule->ctx->text_multiplier); continue; } else { msg_info_task ( "<%s>, part is shorter than %d bytes: %.0f " "(%d * %.2f bytes), " "use direct hash", task->message_id, min_bytes, fac, part->utf_content->len, rule->ctx->text_multiplier); short_text = TRUE; } } if (part->utf_words == NULL || part->utf_words->len == 0) { msg_info_task ("<%s>, part hash empty, skip fuzzy check", task->message_id); continue; } if (rule->ctx->min_hash_len != 0 && part->utf_words->len < rule->ctx->min_hash_len) { if (!rule->short_text_direct_hash) { msg_info_task ( "<%s>, part hash is shorter than %d symbols, " "skip fuzzy check", task->message_id, rule->ctx->min_hash_len); continue; } else { msg_info_task ( "<%s>, part hash is shorter than %d symbols, " "use direct hash", task->message_id, rule->ctx->min_hash_len); short_text = TRUE; } } io = fuzzy_cmd_from_text_part (task, rule, c, flag, value, short_text, task->task_pool, part); if (io) { gboolean skip_existing = FALSE; PTR_ARRAY_FOREACH (res, j, cur) { if (memcmp (cur->cmd.digest, io->cmd.digest, sizeof (io->cmd.digest)) == 0) { skip_existing = TRUE; break; } } if (!skip_existing) { g_ptr_array_add (res, io); } } } } /* Process other parts and images */ for (i = 0; i < task->parts->len; i ++) { mime_part = g_ptr_array_index (task->parts, i); if (mime_part->flags & RSPAMD_MIME_PART_IMAGE) { if (G_LIKELY (!(flags & FUZZY_CHECK_FLAG_NOIMAGES))) { image = mime_part->specific.img; if (image->data->len > 0) { /* Check: * - min height * - min width * - min bytes */ if ((rule->ctx->min_height == 0 || image->height >= rule->ctx->min_height) && (rule->ctx->min_width == 0 || image->width >= rule->ctx->min_width) && (min_bytes == 0 || mime_part->parsed_data.len >= min_bytes)) { io = fuzzy_cmd_from_data_part (rule, c, flag, value, task->task_pool, image->parent->digest); if (io) { gboolean skip_existing = FALSE; PTR_ARRAY_FOREACH (res, j, cur) { if (memcmp (cur->cmd.digest, io->cmd.digest, sizeof (io->cmd.digest)) == 0) { skip_existing = TRUE; break; } } if (!skip_existing) { g_ptr_array_add (res, io); } } if (rule->fuzzy_images) { /* Try to normalize image */ if (!image->is_normalized) { rspamd_image_normalize (task, image); } } if (image->is_normalized) { io = fuzzy_cmd_from_image_part (rule, c, flag, value, task->task_pool, image); if (io) { gboolean skip_existing = FALSE; PTR_ARRAY_FOREACH (res, j, cur) { if (memcmp (cur->cmd.digest, io->cmd.digest, sizeof (io->cmd.digest)) == 0) { skip_existing = TRUE; break; } } if (!skip_existing) { g_ptr_array_add (res, io); } } } } } } continue; } if (G_LIKELY (!(flags & FUZZY_CHECK_FLAG_NOIMAGES))) { if (mime_part->ct && !(mime_part->flags & (RSPAMD_MIME_PART_TEXT|RSPAMD_MIME_PART_IMAGE)) && mime_part->parsed_data.len > 0 && fuzzy_check_content_type (rule, mime_part->ct)) { if (min_bytes == 0 || mime_part->parsed_data.len >= min_bytes) { io = fuzzy_cmd_from_data_part (rule, c, flag, value, task->task_pool, mime_part->digest); if (io) { gboolean skip_existing = FALSE; PTR_ARRAY_FOREACH (res, j, cur) { if (memcmp (cur->cmd.digest, io->cmd.digest, sizeof (io->cmd.digest)) == 0) { skip_existing = TRUE; break; } } if (!skip_existing) { g_ptr_array_add (res, io); } } } } } } /* Process metadata */ #if 0 io = fuzzy_cmd_from_task_meta (rule, c, flag, value, task->task_pool, task); if (io) { g_ptr_array_add (res, io); } #endif end: if (res->len == 0) { g_ptr_array_free (res, TRUE); return NULL; } return res; } static inline void register_fuzzy_client_call (struct rspamd_task *task, struct fuzzy_rule *rule, GPtrArray *commands) { struct fuzzy_client_session *session; struct upstream *selected; rspamd_inet_addr_t *addr; gint sock; if (!rspamd_session_blocked (task->s)) { /* Get upstream */ selected = rspamd_upstream_get (rule->servers, RSPAMD_UPSTREAM_ROUND_ROBIN, NULL, 0); if (selected) { addr = rspamd_upstream_addr (selected); if ((sock = rspamd_inet_address_connect (addr, SOCK_DGRAM, TRUE)) == -1) { msg_warn_task ("cannot connect to %s(%s), %d, %s", rspamd_upstream_name (selected), rspamd_inet_address_to_string_pretty (addr), errno, strerror (errno)); rspamd_upstream_fail (selected, FALSE); g_ptr_array_free (commands, TRUE); } else { /* Create session for a socket */ session = rspamd_mempool_alloc0 (task->task_pool, sizeof (struct fuzzy_client_session)); msec_to_tv (rule->ctx->io_timeout, &session->tv); session->state = 0; session->commands = commands; session->task = task; session->fd = sock; session->server = selected; session->rule = rule; session->addr = addr; session->results = g_ptr_array_sized_new (32); event_set (&session->ev, sock, EV_WRITE, fuzzy_check_io_callback, session); event_base_set (session->task->ev_base, &session->ev); event_add (&session->ev, NULL); evtimer_set (&session->timev, fuzzy_check_timer_callback, session); event_base_set (session->task->ev_base, &session->timev); event_add (&session->timev, &session->tv); rspamd_session_add_event (task->s, NULL, fuzzy_io_fin, session, g_quark_from_static_string ("fuzzy check")); } } } } /* This callback is called when we check message in fuzzy hashes storage */ static void fuzzy_symbol_callback (struct rspamd_task *task, void *unused) { struct fuzzy_rule *rule; guint i; GPtrArray *commands; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (task->cfg); if (!fuzzy_module_ctx->enabled) { return; } /* Check whitelist */ if (fuzzy_module_ctx->whitelist) { if (rspamd_match_radix_map_addr (fuzzy_module_ctx->whitelist, task->from_addr) != NULL) { msg_info_task ("<%s>, address %s is whitelisted, skip fuzzy check", task->message_id, rspamd_inet_address_to_string (task->from_addr)); return; } } PTR_ARRAY_FOREACH (fuzzy_module_ctx->fuzzy_rules, i, rule) { commands = fuzzy_generate_commands (task, rule, FUZZY_CHECK, 0, 0, 0); if (commands != NULL) { register_fuzzy_client_call (task, rule, commands); } } } void fuzzy_stat_command (struct rspamd_task *task) { struct fuzzy_rule *rule; guint i; GPtrArray *commands; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (task->cfg); if (!fuzzy_module_ctx->enabled) { return; } PTR_ARRAY_FOREACH (fuzzy_module_ctx->fuzzy_rules, i, rule) { commands = fuzzy_generate_commands (task, rule, FUZZY_STAT, 0, 0, 0); if (commands != NULL) { register_fuzzy_client_call (task, rule, commands); } } } static inline gint register_fuzzy_controller_call (struct rspamd_http_connection_entry *entry, struct fuzzy_rule *rule, struct rspamd_task *task, GPtrArray *commands, gint *saved, GError **err) { struct fuzzy_learn_session *s; struct upstream *selected; rspamd_inet_addr_t *addr; struct rspamd_controller_session *session = entry->ud; gint sock; gint ret = -1; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (task->cfg); /* Get upstream */ while ((selected = rspamd_upstream_get (rule->servers, RSPAMD_UPSTREAM_SEQUENTIAL, NULL, 0))) { /* Create UDP socket */ addr = rspamd_upstream_addr (selected); if ((sock = rspamd_inet_address_connect (addr, SOCK_DGRAM, TRUE)) == -1) { rspamd_upstream_fail (selected, TRUE); } else { s = rspamd_mempool_alloc0 (session->pool, sizeof (struct fuzzy_learn_session)); msec_to_tv (fuzzy_module_ctx->io_timeout, &s->tv); s->task = task; s->addr = addr; s->commands = commands; s->http_entry = entry; s->server = selected; s->saved = saved; s->fd = sock; s->err = err; s->rule = rule; /* We ref connection to avoid freeing before we process fuzzy rule */ rspamd_http_connection_ref (entry->conn); event_set (&s->ev, sock, EV_WRITE, fuzzy_controller_io_callback, s); event_base_set (entry->rt->ev_base, &s->ev); event_add (&s->ev, NULL); evtimer_set (&s->timev, fuzzy_controller_timer_callback, s); event_base_set (s->task->ev_base, &s->timev); event_add (&s->timev, &s->tv); (*saved)++; ret = 1; } } return ret; } static void fuzzy_process_handler (struct rspamd_http_connection_entry *conn_ent, struct rspamd_http_message *msg, gint cmd, gint value, gint flag, struct fuzzy_ctx *ctx, gboolean is_hash, guint flags) { struct fuzzy_rule *rule; struct rspamd_controller_session *session = conn_ent->ud; struct rspamd_task *task, **ptask; gboolean processed = FALSE, res = TRUE, skip = FALSE; guint i; GError **err; GPtrArray *commands; GString *tb; lua_State *L; gint r, *saved, rules = 0, err_idx; struct fuzzy_ctx *fuzzy_module_ctx; /* Prepare task */ task = rspamd_task_new (session->wrk, session->cfg, NULL, session->lang_det); task->cfg = ctx->cfg; task->ev_base = conn_ent->rt->ev_base; saved = rspamd_mempool_alloc0 (session->pool, sizeof (gint)); err = rspamd_mempool_alloc0 (session->pool, sizeof (GError *)); fuzzy_module_ctx = fuzzy_get_context (ctx->cfg); if (!is_hash) { /* Allocate message from string */ /* XXX: what about encrypted messages ? */ task->msg.begin = msg->body_buf.begin; task->msg.len = msg->body_buf.len; r = rspamd_message_parse (task); if (r == -1) { msg_warn_task ("<%s>: cannot process message for fuzzy", task->message_id); rspamd_task_free (task); rspamd_controller_send_error (conn_ent, 400, "Message processing error"); return; } rspamd_message_process (task); } PTR_ARRAY_FOREACH (fuzzy_module_ctx->fuzzy_rules, i, rule) { if (rule->read_only) { continue; } /* Check for flag */ if (g_hash_table_lookup (rule->mappings, GINT_TO_POINTER (flag)) == NULL) { msg_info_task ("skip rule %s as it has no flag %d defined" " false", rule->name, flag); continue; } /* Check learn condition */ if (rule->learn_condition_cb != -1) { skip = FALSE; L = session->cfg->lua_state; lua_pushcfunction (L, &rspamd_lua_traceback); err_idx = lua_gettop (L); lua_rawgeti (L, LUA_REGISTRYINDEX, rule->learn_condition_cb); ptask = lua_newuserdata (L, sizeof (struct rspamd_task *)); *ptask = task; rspamd_lua_setclass (L, "rspamd{task}", -1); if (lua_pcall (L, 1, LUA_MULTRET, 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 { if (lua_gettop (L) > err_idx + 1) { /* 2 return values */ skip = !(lua_toboolean (L, err_idx + 1)); if (lua_isnumber (L, err_idx + 2)) { msg_info_task ("learn condition changed flag from %d to " "%d", flag, (gint)lua_tonumber (L, err_idx + 2)); flag = lua_tonumber (L, err_idx + 2); } } else { if (lua_isboolean (L, err_idx + 1)) { skip = !(lua_toboolean (L, err_idx + 1)); } else { msg_warn_task ("set skip for rule %s as its condition " "callback returned" " a valid boolean", rule->name); skip = TRUE; } } } /* Result + error function */ lua_settop (L, 0); if (skip) { msg_info_task ("skip rule %s by condition callback", rule->name); continue; } } rules ++; res = 0; if (is_hash) { GPtrArray *args; const rspamd_ftok_t *arg; guint j; args = rspamd_http_message_find_header_multiple (msg, "Hash"); if (args) { struct fuzzy_cmd_io *io; commands = g_ptr_array_sized_new (args->len); for (j = 0; j < args->len; j ++) { arg = g_ptr_array_index (args, j); io = fuzzy_cmd_hash (rule, cmd, arg, flag, value, task->task_pool); if (io) { g_ptr_array_add (commands, io); } } res = register_fuzzy_controller_call (conn_ent, rule, task, commands, saved, err); rspamd_mempool_add_destructor (task->task_pool, rspamd_ptr_array_free_hard, commands); g_ptr_array_free (args, TRUE); } else { rspamd_controller_send_error (conn_ent, 400, "No hash defined"); rspamd_task_free (task); return; } } else { commands = fuzzy_generate_commands (task, rule, cmd, flag, value, flags); if (commands != NULL) { res = register_fuzzy_controller_call (conn_ent, rule, task, commands, saved, err); rspamd_mempool_add_destructor (task->task_pool, rspamd_ptr_array_free_hard, commands); } } if (res) { processed = TRUE; } } if (res == -1) { msg_warn_task ("<%s>: cannot send fuzzy request: %s", task->message_id, strerror (errno)); rspamd_controller_send_error (conn_ent, 400, "Message sending error"); rspamd_task_free (task); return; } else if (!processed) { if (rules) { msg_warn_task ("<%s>: no content to generate fuzzy", task->message_id); rspamd_controller_send_error (conn_ent, 404, "No content to generate fuzzy for flag %d", flag); } else { if (skip) { rspamd_controller_send_error (conn_ent, 403, "Message is conditionally skipped for flag %d", flag); } else { msg_warn_task ("<%s>: no fuzzy rules found for flag %d", task->message_id, flag); rspamd_controller_send_error (conn_ent, 404, "No fuzzy rules matched for flag %d", flag); } } rspamd_task_free (task); } } static int fuzzy_controller_handler (struct rspamd_http_connection_entry *conn_ent, struct rspamd_http_message *msg, struct module_ctx *ctx, gint cmd, gboolean is_hash) { const rspamd_ftok_t *arg; glong value = 1, flag = 0, send_flags = 0; struct fuzzy_ctx *fuzzy_module_ctx = (struct fuzzy_ctx *)ctx; if (!fuzzy_module_ctx->enabled) { msg_err ("fuzzy_check module is not enabled"); rspamd_controller_send_error (conn_ent, 500, "Module disabled"); return 0; } if (fuzzy_module_ctx->fuzzy_rules == NULL) { msg_err ("fuzzy_check module has no rules defined"); rspamd_controller_send_error (conn_ent, 500, "Module has no rules"); return 0; } /* Get size */ arg = rspamd_http_message_find_header (msg, "Weight"); if (arg) { errno = 0; if (!rspamd_strtol (arg->begin, arg->len, &value)) { msg_info ("error converting numeric argument %T", arg); } } arg = rspamd_http_message_find_header (msg, "Flag"); if (arg) { errno = 0; if (!rspamd_strtol (arg->begin, arg->len, &flag)) { msg_info ("error converting numeric argument %T", arg); flag = 0; } } else { flag = 0; arg = rspamd_http_message_find_header (msg, "Symbol"); /* Search flag by symbol */ if (arg) { struct fuzzy_rule *rule; guint i; GHashTableIter it; gpointer k, v; struct fuzzy_mapping *map; PTR_ARRAY_FOREACH (fuzzy_module_ctx->fuzzy_rules, i, rule) { if (flag != 0) { break; } g_hash_table_iter_init (&it, rule->mappings); while (g_hash_table_iter_next (&it, &k, &v)) { map = v; if (strlen (map->symbol) == arg->len && rspamd_lc_cmp (map->symbol, arg->begin, arg->len) == 0) { flag = map->fuzzy_flag; break; } } } } } if (flag == 0) { msg_err ("no flag defined to learn fuzzy"); rspamd_controller_send_error (conn_ent, 404, "Unknown or missing flag"); return 0; } arg = rspamd_http_message_find_header (msg, "Skip-Images"); if (arg) { send_flags |= FUZZY_CHECK_FLAG_NOIMAGES; } arg = rspamd_http_message_find_header (msg, "Skip-Attachments"); if (arg) { send_flags |= FUZZY_CHECK_FLAG_NOATTACHMENTS; } arg = rspamd_http_message_find_header (msg, "Skip-Text"); if (arg) { send_flags |= FUZZY_CHECK_FLAG_NOTEXT; } fuzzy_process_handler (conn_ent, msg, cmd, value, flag, (struct fuzzy_ctx *)ctx, is_hash, send_flags); return 0; } static inline gint fuzzy_check_send_lua_learn (struct fuzzy_rule *rule, struct rspamd_task *task, GPtrArray *commands, gint *saved, GError **err) { struct fuzzy_learn_session *s; struct upstream *selected; rspamd_inet_addr_t *addr; gint sock; gint ret = -1; /* Get upstream */ if (!rspamd_session_blocked (task->s)) { while ((selected = rspamd_upstream_get (rule->servers, RSPAMD_UPSTREAM_SEQUENTIAL, NULL, 0))) { /* Create UDP socket */ addr = rspamd_upstream_addr (selected); if ((sock = rspamd_inet_address_connect (addr, SOCK_DGRAM, TRUE)) == -1) { rspamd_upstream_fail (selected, TRUE); } else { s = rspamd_mempool_alloc0 (task->task_pool, sizeof (struct fuzzy_learn_session)); msec_to_tv (rule->ctx->io_timeout, &s->tv); s->task = task; s->addr = addr; s->commands = commands; s->http_entry = NULL; s->server = selected; s->saved = saved; s->fd = sock; s->err = err; s->rule = rule; s->session = task->s; event_set (&s->ev, sock, EV_WRITE, fuzzy_controller_io_callback, s); event_base_set (task->ev_base, &s->ev); event_add (&s->ev, NULL); evtimer_set (&s->timev, fuzzy_controller_timer_callback, s); event_base_set (s->task->ev_base, &s->timev); event_add (&s->timev, &s->tv); rspamd_session_add_event (task->s, NULL, fuzzy_lua_fin, s, g_quark_from_static_string ("fuzzy check")); (*saved)++; ret = 1; } } } return ret; } static gboolean fuzzy_check_lua_process_learn (struct rspamd_task *task, gint cmd, gint value, gint flag, guint send_flags) { struct fuzzy_rule *rule; gboolean processed = FALSE, res = TRUE; guint i; GError **err; GPtrArray *commands; gint *saved, rules = 0; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (task->cfg); saved = rspamd_mempool_alloc0 (task->task_pool, sizeof (gint)); err = rspamd_mempool_alloc0 (task->task_pool, sizeof (GError *)); PTR_ARRAY_FOREACH (fuzzy_module_ctx->fuzzy_rules, i, rule) { if (!res) { break; } if (rule->read_only) { continue; } /* Check for flag */ if (g_hash_table_lookup (rule->mappings, GINT_TO_POINTER (flag)) == NULL) { msg_info_task ("skip rule %s as it has no flag %d defined" " false", rule->name, flag); continue; } rules ++; res = 0; commands = fuzzy_generate_commands (task, rule, cmd, flag, value, send_flags); if (commands != NULL) { res = fuzzy_check_send_lua_learn (rule, task, commands, saved, err); rspamd_mempool_add_destructor (task->task_pool, rspamd_ptr_array_free_hard, commands); } if (res) { processed = TRUE; } } if (res == -1) { msg_warn_task ("<%s>: cannot send fuzzy request: %s", task->message_id, strerror (errno)); } else if (!processed) { if (rules) { msg_warn_task ("<%s>: no content to generate fuzzy", task->message_id); return FALSE; } else { msg_warn_task ("<%s>: no fuzzy rules found for flag %d", task->message_id, flag); return FALSE; } } return TRUE; } static gint fuzzy_lua_learn_handler (lua_State *L) { struct rspamd_task *task = lua_check_task (L, 1); guint flag = 0, weight = 1.0, send_flags = 0; const gchar *symbol; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (task->cfg); if (task) { if (lua_type (L, 2) == LUA_TNUMBER) { flag = lua_tonumber (L, 2); } else if (lua_type (L, 2) == LUA_TSTRING) { struct fuzzy_rule *rule; guint i; GHashTableIter it; gpointer k, v; struct fuzzy_mapping *map; symbol = lua_tostring (L, 2); PTR_ARRAY_FOREACH (fuzzy_module_ctx->fuzzy_rules, i, rule) { if (flag != 0) { break; } g_hash_table_iter_init (&it, rule->mappings); while (g_hash_table_iter_next (&it, &k, &v)) { map = v; if (g_ascii_strcasecmp (symbol, map->symbol) == 0) { flag = map->fuzzy_flag; break; } } } } if (flag == 0) { return luaL_error (L, "bad flag"); } if (lua_type (L, 3) == LUA_TNUMBER) { weight = lua_tonumber (L, 3); } if (lua_type (L, 4) == LUA_TTABLE) { const gchar *sf; for (lua_pushnil (L); lua_next (L, -2); lua_pop (L, 1)) { sf = lua_tostring (L, -1); if (sf) { if (g_ascii_strcasecmp (sf, "noimages") == 0) { send_flags |= FUZZY_CHECK_FLAG_NOIMAGES; } else if (g_ascii_strcasecmp (sf, "noattachments") == 0) { send_flags |= FUZZY_CHECK_FLAG_NOATTACHMENTS; } else if (g_ascii_strcasecmp (sf, "notext") == 0) { send_flags |= FUZZY_CHECK_FLAG_NOTEXT; } } } } lua_pushboolean (L, fuzzy_check_lua_process_learn (task, FUZZY_WRITE, weight, flag, send_flags)); } else { return luaL_error (L, "invalid arguments"); } return 1; } static gint fuzzy_lua_unlearn_handler (lua_State *L) { struct rspamd_task *task = lua_check_task (L, 1); guint flag = 0, weight = 1.0, send_flags = 0; const gchar *symbol; struct fuzzy_ctx *fuzzy_module_ctx = fuzzy_get_context (task->cfg); if (task) { if (lua_type (L, 2) == LUA_TNUMBER) { flag = lua_tonumber (L, 1); } else if (lua_type (L, 2) == LUA_TSTRING) { struct fuzzy_rule *rule; guint i; GHashTableIter it; gpointer k, v; struct fuzzy_mapping *map; symbol = lua_tostring (L, 2); PTR_ARRAY_FOREACH (fuzzy_module_ctx->fuzzy_rules, i, rule) { if (flag != 0) { break; } g_hash_table_iter_init (&it, rule->mappings); while (g_hash_table_iter_next (&it, &k, &v)) { map = v; if (g_ascii_strcasecmp (symbol, map->symbol) == 0) { flag = map->fuzzy_flag; break; } } } } if (flag == 0) { return luaL_error (L, "bad flag"); } if (lua_type (L, 3) == LUA_TNUMBER) { weight = lua_tonumber (L, 3); } if (lua_type (L, 4) == LUA_TTABLE) { const gchar *sf; for (lua_pushnil (L); lua_next (L, -2); lua_pop (L, 1)) { sf = lua_tostring (L, -1); if (sf) { if (g_ascii_strcasecmp (sf, "noimages") == 0) { send_flags |= FUZZY_CHECK_FLAG_NOIMAGES; } else if (g_ascii_strcasecmp (sf, "noattachments") == 0) { send_flags |= FUZZY_CHECK_FLAG_NOATTACHMENTS; } else if (g_ascii_strcasecmp (sf, "notext") == 0) { send_flags |= FUZZY_CHECK_FLAG_NOTEXT; } } } } lua_pushboolean (L, fuzzy_check_lua_process_learn (task, FUZZY_DEL, weight, flag, send_flags)); } else { return luaL_error (L, "invalid arguments"); } return 1; } static gboolean fuzzy_add_handler (struct rspamd_http_connection_entry *conn_ent, struct rspamd_http_message *msg, struct module_ctx *ctx) { return fuzzy_controller_handler (conn_ent, msg, ctx, FUZZY_WRITE, FALSE); } static gboolean fuzzy_delete_handler (struct rspamd_http_connection_entry *conn_ent, struct rspamd_http_message *msg, struct module_ctx *ctx) { return fuzzy_controller_handler (conn_ent, msg, ctx, FUZZY_DEL, FALSE); } static gboolean fuzzy_deletehash_handler (struct rspamd_http_connection_entry *conn_ent, struct rspamd_http_message *msg, struct module_ctx *ctx) { return fuzzy_controller_handler (conn_ent, msg, ctx, FUZZY_DEL, TRUE); } static int fuzzy_attach_controller (struct module_ctx *ctx, GHashTable *commands) { struct fuzzy_ctx *fctx = (struct fuzzy_ctx *)ctx; struct rspamd_custom_controller_command *cmd; cmd = rspamd_mempool_alloc (fctx->fuzzy_pool, sizeof (*cmd)); cmd->privilleged = TRUE; cmd->require_message = TRUE; cmd->handler = fuzzy_add_handler; cmd->ctx = ctx; g_hash_table_insert (commands, "/fuzzyadd", cmd); cmd = rspamd_mempool_alloc (fctx->fuzzy_pool, sizeof (*cmd)); cmd->privilleged = TRUE; cmd->require_message = TRUE; cmd->handler = fuzzy_delete_handler; cmd->ctx = ctx; g_hash_table_insert (commands, "/fuzzydel", cmd); cmd = rspamd_mempool_alloc (fctx->fuzzy_pool, sizeof (*cmd)); cmd->privilleged = TRUE; cmd->require_message = FALSE; cmd->handler = fuzzy_deletehash_handler; cmd->ctx = ctx; g_hash_table_insert (commands, "/fuzzydelhash", cmd); return 0; }