/*- * Copyright 2016 Vsevolod Stakhov * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "lua_common.h" /*** * @module rspamd_regexp * Rspamd regexp is an utility module that handles rspamd perl compatible * regular expressions * @example * local rspamd_regexp = require "rspamd_regexp" * * local re = rspamd_regexp.create_cached('/^\\s*some_string\\s*$/i') * re:match('some_string') * local re = rspamd_regexp.create_cached('/\\s+/i') * re:split('word word word') -- returns ['word', 'word', 'word'] */ LUA_FUNCTION_DEF(regexp, create); LUA_FUNCTION_DEF(regexp, import_glob); LUA_FUNCTION_DEF(regexp, import_plain); LUA_FUNCTION_DEF(regexp, create_cached); LUA_FUNCTION_DEF(regexp, get_cached); LUA_FUNCTION_DEF(regexp, get_pattern); LUA_FUNCTION_DEF(regexp, set_limit); LUA_FUNCTION_DEF(regexp, set_max_hits); LUA_FUNCTION_DEF(regexp, get_max_hits); LUA_FUNCTION_DEF(regexp, search); LUA_FUNCTION_DEF(regexp, match); LUA_FUNCTION_DEF(regexp, matchn); LUA_FUNCTION_DEF(regexp, split); LUA_FUNCTION_DEF(regexp, destroy); LUA_FUNCTION_DEF(regexp, gc); static const struct luaL_reg regexplib_m[] = { LUA_INTERFACE_DEF(regexp, get_pattern), LUA_INTERFACE_DEF(regexp, set_limit), LUA_INTERFACE_DEF(regexp, set_max_hits), LUA_INTERFACE_DEF(regexp, get_max_hits), LUA_INTERFACE_DEF(regexp, match), LUA_INTERFACE_DEF(regexp, matchn), LUA_INTERFACE_DEF(regexp, search), LUA_INTERFACE_DEF(regexp, split), LUA_INTERFACE_DEF(regexp, destroy), {"__tostring", lua_regexp_get_pattern}, {"__gc", lua_regexp_gc}, {NULL, NULL}}; static const struct luaL_reg regexplib_f[] = { LUA_INTERFACE_DEF(regexp, create), LUA_INTERFACE_DEF(regexp, import_glob), LUA_INTERFACE_DEF(regexp, import_plain), LUA_INTERFACE_DEF(regexp, get_cached), LUA_INTERFACE_DEF(regexp, create_cached), {NULL, NULL}}; #define LUA_REGEXP_FLAG_DESTROYED (1 << 0) #define IS_DESTROYED(re) ((re)->re_flags & LUA_REGEXP_FLAG_DESTROYED) rspamd_mempool_t *regexp_static_pool = NULL; struct rspamd_lua_regexp * lua_check_regexp(lua_State *L, gint pos) { void *ud = rspamd_lua_check_udata(L, pos, "rspamd{regexp}"); luaL_argcheck(L, ud != NULL, pos, "'regexp' expected"); return ud ? *((struct rspamd_lua_regexp **) ud) : NULL; } /*** * @function rspamd_regexp.create(pattern[, flags]) * Creates new rspamd_regexp * @param {string} pattern pattern to build regexp. If this pattern is enclosed in `//` then it is possible to specify flags after it * @param {string} flags optional flags to create regular expression * @return {regexp} regexp argument that is *not* automatically destroyed * @example * local regexp = require "rspamd_regexp" * * local re = regexp.create('/^test.*[0-9]\\s*$/i') */ static int lua_regexp_create(lua_State *L) { LUA_TRACE_POINT; rspamd_regexp_t *re; struct rspamd_lua_regexp *new, **pnew; const gchar *string, *flags_str = NULL; GError *err = NULL; string = luaL_checkstring(L, 1); if (lua_gettop(L) == 2) { flags_str = luaL_checkstring(L, 2); } if (string) { re = rspamd_regexp_new(string, flags_str, &err); if (re == NULL) { lua_pushnil(L); msg_info("cannot parse regexp: %s, error: %s", string, err == NULL ? "undefined" : err->message); g_error_free(err); } else { new = g_malloc0(sizeof(struct rspamd_lua_regexp)); new->re = re; new->re_pattern = g_strdup(string); new->module = rspamd_lua_get_module_name(L); pnew = lua_newuserdata(L, sizeof(struct rspamd_lua_regexp *)); rspamd_lua_setclass(L, "rspamd{regexp}", -1); *pnew = new; } } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @function rspamd_regexp.import_glob(glob_pattern[, flags]) * Creates new rspamd_regexp from glob * @param {string} pattern pattern to build regexp. * @param {string} flags optional flags to create regular expression * @return {regexp} regexp argument that is *not* automatically destroyed * @example * local regexp = require "rspamd_regexp" * * local re = regexp.import_glob('ab*', 'i') */ static int lua_regexp_import_glob(lua_State *L) { LUA_TRACE_POINT; rspamd_regexp_t *re; struct rspamd_lua_regexp *new, **pnew; const gchar *string, *flags_str = NULL; gchar *escaped; gsize pat_len; GError *err = NULL; string = luaL_checklstring(L, 1, &pat_len); if (lua_gettop(L) == 2) { flags_str = luaL_checkstring(L, 2); } if (string) { escaped = rspamd_str_regexp_escape(string, pat_len, NULL, RSPAMD_REGEXP_ESCAPE_GLOB | RSPAMD_REGEXP_ESCAPE_UTF); re = rspamd_regexp_new(escaped, flags_str, &err); if (re == NULL) { lua_pushnil(L); msg_info("cannot parse regexp: %s, error: %s", string, err == NULL ? "undefined" : err->message); g_error_free(err); g_free(escaped); } else { new = g_malloc0(sizeof(struct rspamd_lua_regexp)); new->re = re; new->re_pattern = escaped; new->module = rspamd_lua_get_module_name(L); pnew = lua_newuserdata(L, sizeof(struct rspamd_lua_regexp *)); rspamd_lua_setclass(L, "rspamd{regexp}", -1); *pnew = new; } } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @function rspamd_regexp.import_plain(plain_string[, flags]) * Creates new rspamd_regexp from plain string (escaping specials) * @param {string} pattern pattern to build regexp. * @param {string} flags optional flags to create regular expression * @return {regexp} regexp argument that is *not* automatically destroyed * @example * local regexp = require "rspamd_regexp" * * local re = regexp.import_plain('exact_string_with*', 'i') */ static int lua_regexp_import_plain(lua_State *L) { LUA_TRACE_POINT; rspamd_regexp_t *re; struct rspamd_lua_regexp *new, **pnew; const gchar *string, *flags_str = NULL; gchar *escaped; gsize pat_len; GError *err = NULL; string = luaL_checklstring(L, 1, &pat_len); if (lua_gettop(L) == 2) { flags_str = luaL_checkstring(L, 2); } if (string) { escaped = rspamd_str_regexp_escape(string, pat_len, NULL, RSPAMD_REGEXP_ESCAPE_ASCII); re = rspamd_regexp_new(escaped, flags_str, &err); if (re == NULL) { lua_pushnil(L); msg_info("cannot parse regexp: %s, error: %s", string, err == NULL ? "undefined" : err->message); g_error_free(err); g_free(escaped); } else { new = g_malloc0(sizeof(struct rspamd_lua_regexp)); new->re = re; new->re_pattern = escaped; new->module = rspamd_lua_get_module_name(L); pnew = lua_newuserdata(L, sizeof(struct rspamd_lua_regexp *)); rspamd_lua_setclass(L, "rspamd{regexp}", -1); *pnew = new; } } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @function rspamd_regexp.get_cached(pattern) * This function gets cached and pre-compiled regexp created by either `create` * or `create_cached` methods. If no cached regexp is found then `nil` is returned. * * @param {string} pattern regexp pattern * @return {regexp} cached regexp structure or `nil` */ static int lua_regexp_get_cached(lua_State *L) { LUA_TRACE_POINT; rspamd_regexp_t *re; struct rspamd_lua_regexp *new, **pnew; const gchar *string, *flags_str = NULL; string = luaL_checkstring(L, 1); if (lua_gettop(L) == 2) { flags_str = luaL_checkstring(L, 2); } if (string) { re = rspamd_regexp_cache_query(NULL, string, flags_str); if (re) { new = g_malloc0(sizeof(struct rspamd_lua_regexp)); new->re = rspamd_regexp_ref(re); new->re_pattern = g_strdup(string); new->module = rspamd_lua_get_module_name(L); pnew = lua_newuserdata(L, sizeof(struct rspamd_lua_regexp *)); rspamd_lua_setclass(L, "rspamd{regexp}", -1); *pnew = new; } else { lua_pushnil(L); } } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @function rspamd_regexp.create_cached(pattern[, flags]) * This function is similar to `create` but it tries to search for regexp in the * cache first. * @param {string} pattern pattern to build regexp. If this pattern is enclosed in `//` then it is possible to specify flags after it * @param {string} flags optional flags to create regular expression * @return {regexp} regexp argument that is *not* automatically destroyed * @example * local regexp = require "rspamd_regexp" * * local re = regexp.create_cached('/^test.*[0-9]\\s*$/i') * ... * -- This doesn't create new regexp object * local other_re = regexp.create_cached('/^test.*[0-9]\\s*$/i') */ static int lua_regexp_create_cached(lua_State *L) { LUA_TRACE_POINT; rspamd_regexp_t *re; struct rspamd_lua_regexp *new, **pnew; const gchar *string, *flags_str = NULL; GError *err = NULL; string = luaL_checkstring(L, 1); if (lua_gettop(L) == 2) { flags_str = luaL_checkstring(L, 2); } if (string) { re = rspamd_regexp_cache_query(NULL, string, flags_str); if (re) { new = g_malloc0(sizeof(struct rspamd_lua_regexp)); new->re = rspamd_regexp_ref(re); new->re_pattern = g_strdup(string); new->module = rspamd_lua_get_module_name(L); pnew = lua_newuserdata(L, sizeof(struct rspamd_lua_regexp *)); rspamd_lua_setclass(L, "rspamd{regexp}", -1); *pnew = new; } else { re = rspamd_regexp_cache_create(NULL, string, flags_str, &err); if (re == NULL) { lua_pushnil(L); msg_info("cannot parse regexp: %s, error: %s", string, err == NULL ? "undefined" : err->message); g_error_free(err); } else { new = g_malloc0(sizeof(struct rspamd_lua_regexp)); new->re = rspamd_regexp_ref(re); new->re_pattern = g_strdup(string); new->module = rspamd_lua_get_module_name(L); pnew = lua_newuserdata(L, sizeof(struct rspamd_lua_regexp *)); rspamd_lua_setclass(L, "rspamd{regexp}", -1); *pnew = new; } } } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @method re:get_pattern() * Get a pattern for specified regexp object * @return {string} pattern line */ static int lua_regexp_get_pattern(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); if (re && re->re && !IS_DESTROYED(re)) { lua_pushstring(L, rspamd_regexp_get_pattern(re->re)); } else { lua_pushnil(L); } return 1; } /*** * @method re:set_limit(lim) * Set maximum size of text length to be matched with this regexp (if `lim` is * less or equal to zero then all texts are checked) * @param {number} lim limit in bytes */ static int lua_regexp_set_limit(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); gint64 lim; lim = lua_tointeger(L, 2); if (re && re->re && !IS_DESTROYED(re)) { if (lim > 0) { rspamd_regexp_set_match_limit(re->re, lim); } else { rspamd_regexp_set_match_limit(re->re, 0); } } return 0; } /*** * @method re:set_max_hits(lim) * Set maximum number of hits returned by a regexp * @param {number} lim limit in hits count * @return {number} old number of max hits */ static int lua_regexp_set_max_hits(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); guint lim; lim = luaL_checkinteger(L, 2); if (re && re->re && !IS_DESTROYED(re)) { lua_pushinteger(L, rspamd_regexp_set_maxhits(re->re, lim)); } else { lua_pushnil(L); } return 1; } /*** * @method re:get_max_hits(lim) * Get maximum number of hits returned by a regexp * @return {number} number of max hits */ static int lua_regexp_get_max_hits(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); if (re && re->re && !IS_DESTROYED(re)) { lua_pushinteger(L, rspamd_regexp_get_maxhits(re->re)); } else { lua_pushinteger(L, 1); } return 1; } /*** * @method re:search(line[, raw[, capture]]) * Search line in regular expression object. If line matches then this * function returns the table of captured strings. Otherwise, nil is returned. * If `raw` is specified, then input is treated as raw data not encoded in `utf-8`. * If `capture` is true, then this function saves all captures to the table of * values, so the first element is the whole matched string and the * subsequent elements are ordered captures defined within pattern. * * @param {string} line match the specified line against regexp object * @param {bool} match raw regexp instead of utf8 one * @param {bool} capture perform subpatterns capturing * @return {table or nil} table of strings or tables (if `capture` is true) or nil if not matched * @example * local re = regexp.create_cached('/^\s*([0-9]+)\s*$/') * -- returns nil * local m1 = re:search('blah') * local m2 = re:search(' 190 ') * -- prints ' 190 ' * print(m2[1]) * * local m3 = re:search(' 100500 ') * -- prints ' 100500 ' * print(m3[1][1]) * -- prints '100500' capture * print(m3[1][2]) */ static int lua_regexp_search(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); const gchar *data = NULL; struct rspamd_lua_text *t; const gchar *start = NULL, *end = NULL; gint i; gsize len = 0, capn; gboolean matched = FALSE, capture = FALSE, raw = FALSE; GArray *captures = NULL; struct rspamd_re_capture *cap; if (re && !IS_DESTROYED(re)) { if (lua_type(L, 2) == LUA_TSTRING) { data = luaL_checklstring(L, 2, &len); } else if (lua_type(L, 2) == LUA_TUSERDATA) { t = lua_check_text(L, 2); if (t != NULL) { data = t->start; len = t->len; } } if (lua_gettop(L) >= 3) { raw = lua_toboolean(L, 3); } if (data && len > 0) { if (lua_gettop(L) >= 4 && lua_toboolean(L, 4)) { capture = TRUE; captures = g_array_new(FALSE, TRUE, sizeof(struct rspamd_re_capture)); } lua_newtable(L); i = 0; while (rspamd_regexp_search(re->re, data, len, &start, &end, raw, captures)) { if (capture) { lua_createtable(L, captures->len, 0); for (capn = 0; capn < captures->len; capn++) { cap = &g_array_index(captures, struct rspamd_re_capture, capn); lua_pushlstring(L, cap->p, cap->len); lua_rawseti(L, -2, capn + 1); } lua_rawseti(L, -2, ++i); } else { lua_pushlstring(L, start, end - start); lua_rawseti(L, -2, ++i); } matched = TRUE; } if (!matched) { lua_pop(L, 1); lua_pushnil(L); } if (capture) { g_array_free(captures, TRUE); } } else { lua_pushnil(L); } } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @method re:match(line[, raw_match]) * Matches line against the regular expression and return true if line matches * (partially or completely) * * @param {string} line match the specified line against regexp object * @param {bool} match raw regexp instead of utf8 one * @return {bool} true if `line` matches */ static int lua_regexp_match(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); struct rspamd_lua_text *t; const gchar *data = NULL; gsize len = 0; gboolean raw = FALSE; if (re && !IS_DESTROYED(re)) { if (lua_type(L, 2) == LUA_TSTRING) { data = luaL_checklstring(L, 2, &len); } else if (lua_type(L, 2) == LUA_TUSERDATA) { t = lua_check_text(L, 2); if (t != NULL) { data = t->start; len = t->len; } } if (lua_gettop(L) == 3) { raw = lua_toboolean(L, 3); } if (data && len > 0) { if (rspamd_regexp_search(re->re, data, len, NULL, NULL, raw, NULL)) { lua_pushboolean(L, TRUE); } else { lua_pushboolean(L, FALSE); } } else { lua_pushboolean(L, FALSE); } } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @method re:matchn(line, max_matches, [, raw_match]) * Matches line against the regular expression and return number of matches if line matches * (partially or completely). This process stop when `max_matches` is reached. * If `max_matches` is zero, then only a single match is counted which is equal to * @see re:match If `max_matches` is negative, then all matches are considered. * * @param {string} line match the specified line against regexp object * @param {number} max_matches maximum number of matches * @param {bool} match raw regexp instead of utf8 one * @return {number} number of matches found in the `line` argument */ static int lua_regexp_matchn(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); struct rspamd_lua_text *t; const gchar *data = NULL, *start = NULL, *end = NULL; gint max_matches, matches; gsize len = 0; gboolean raw = FALSE; if (re && !IS_DESTROYED(re)) { if (lua_type(L, 2) == LUA_TSTRING) { data = luaL_checklstring(L, 2, &len); } else if (lua_type(L, 2) == LUA_TUSERDATA) { t = lua_check_text(L, 2); if (t != NULL) { data = t->start; len = t->len; } } max_matches = lua_tointeger(L, 3); matches = 0; if (lua_gettop(L) == 4) { raw = lua_toboolean(L, 4); } if (data && len > 0) { for (;;) { if (rspamd_regexp_search(re->re, data, len, &start, &end, raw, NULL)) { matches++; } else { break; } if (max_matches >= 0 && matches >= max_matches) { break; } } } lua_pushinteger(L, matches); } else { return luaL_error(L, "invalid arguments"); } return 1; } /*** * @method re:split(line) * Split line using the specified regular expression. * Breaks the string on the pattern, and returns an array of the tokens. * If the pattern contains capturing parentheses, then the text for each * of the substrings will also be returned. If the pattern does not match * anywhere in the string, then the whole string is returned as the first * token. * @param {string/text} line line to split * @return {table} table of split line portions (if text was the input, then text is used for return parts) */ static int lua_regexp_split(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *re = lua_check_regexp(L, 1); const gchar *data = NULL; struct rspamd_lua_text *t; gboolean matched = FALSE, is_text = FALSE; gsize len = 0; const gchar *start = NULL, *end = NULL, *old_start; gint i; if (re && !IS_DESTROYED(re)) { if (lua_type(L, 2) == LUA_TSTRING) { data = luaL_checklstring(L, 2, &len); } else if (lua_type(L, 2) == LUA_TUSERDATA) { t = lua_check_text(L, 2); if (t == NULL) { lua_error(L); return 0; } data = t->start; len = t->len; is_text = TRUE; } if (data && len > 0) { lua_newtable(L); i = 0; old_start = data; while (rspamd_regexp_search(re->re, data, len, &start, &end, FALSE, NULL)) { if (start - old_start > 0) { if (!is_text) { lua_pushlstring(L, old_start, start - old_start); } else { t = lua_newuserdata(L, sizeof(*t)); rspamd_lua_setclass(L, "rspamd{text}", -1); t->start = old_start; t->len = start - old_start; t->flags = 0; } lua_rawseti(L, -2, ++i); matched = TRUE; } else if (start == end) { break; } old_start = end; } if (len > 0 && (end == NULL || end < data + len)) { if (end == NULL) { end = data; } if (!is_text) { lua_pushlstring(L, end, (data + len) - end); } else { t = lua_newuserdata(L, sizeof(*t)); rspamd_lua_setclass(L, "rspamd{text}", -1); t->start = end; t->len = (data + len) - end; t->flags = 0; } lua_rawseti(L, -2, ++i); matched = TRUE; } if (!matched) { lua_pop(L, 1); lua_pushnil(L); } return 1; } } else { return luaL_error(L, "invalid arguments"); } lua_pushnil(L); return 1; } /*** * @method re:destroy() * Destroy regexp from caches if needed (the pointer is removed by garbage collector) */ static gint lua_regexp_destroy(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *to_del = lua_check_regexp(L, 1); if (to_del) { rspamd_regexp_cache_remove(NULL, to_del->re); rspamd_regexp_unref(to_del->re); to_del->re = NULL; to_del->re_flags |= LUA_REGEXP_FLAG_DESTROYED; } return 0; } static gint lua_regexp_gc(lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_regexp *to_del = lua_check_regexp(L, 1); if (to_del) { if (!IS_DESTROYED(to_del)) { rspamd_regexp_unref(to_del->re); } g_free(to_del->re_pattern); g_free(to_del->module); g_free(to_del); } return 0; } static gint lua_load_regexp(lua_State *L) { lua_newtable(L); luaL_register(L, NULL, regexplib_f); return 1; } void luaopen_regexp(lua_State *L) { if (!regexp_static_pool) { regexp_static_pool = rspamd_mempool_new(rspamd_mempool_suggest_size(), "regexp_lua_pool", 0); } rspamd_lua_new_class(L, "rspamd{regexp}", regexplib_m); lua_pop(L, 1); rspamd_lua_add_preload(L, "rspamd_regexp", lua_load_regexp); } RSPAMD_DESTRUCTOR(lua_re_static_pool_dtor) { if (regexp_static_pool) { rspamd_mempool_delete(regexp_static_pool); } }