/* * Copyright 2023 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 #include "config.h" #include "util.h" #include "cfg_file.h" #include "rspamd.h" #include "message.h" #include "mime_expressions.h" #include "libserver/html/html.h" #include "lua/lua_common.h" #include "utlist.h" gboolean rspamd_compare_encoding(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_header_exists(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_parts_distance(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_recipients_distance(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_has_only_html_part(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_is_recipients_sorted(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_compare_transfer_encoding(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_is_html_balanced(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_has_html_tag(struct rspamd_task *task, GArray *args, void *unused); gboolean rspamd_has_fake_html(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_raw_header_exists(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_check_smtp_data(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_content_type_is_type(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_content_type_is_subtype(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_content_type_has_param(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_content_type_compare_param(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_has_content_part(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_has_content_part_len(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_is_empty_body(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_has_flag_expr(struct rspamd_task *task, GArray *args, void *unused); static gboolean rspamd_has_symbol_expr(struct rspamd_task *task, GArray *args, void *unused); static rspamd_expression_atom_t *rspamd_mime_expr_parse(const char *line, gsize len, rspamd_mempool_t *pool, gpointer ud, GError **err); static double rspamd_mime_expr_process(void *ud, rspamd_expression_atom_t *atom); static int rspamd_mime_expr_priority(rspamd_expression_atom_t *atom); static void rspamd_mime_expr_destroy(rspamd_expression_atom_t *atom); /** * Regexp structure */ struct rspamd_regexp_atom { enum rspamd_re_type type; /**< regexp type */ char *regexp_text; /**< regexp text representation */ rspamd_regexp_t *regexp; /**< regexp structure */ union { const char *header; /**< header name for header regexps */ const char *selector; /**< selector name for lua selector regexp */ } extra; gboolean is_test; /**< true if this expression must be tested */ gboolean is_strong; /**< true if headers search must be case sensitive */ gboolean is_multiple; /**< true if we need to match all inclusions of atom */ }; /** * Rspamd expression function */ struct rspamd_function_atom { char *name; /**< name of function */ GArray *args; /**< its args */ }; enum rspamd_mime_atom_type { MIME_ATOM_REGEXP = 0, MIME_ATOM_INTERNAL_FUNCTION, MIME_ATOM_LUA_FUNCTION, MIME_ATOM_LOCAL_LUA_FUNCTION, /* New style */ }; struct rspamd_mime_atom { char *str; union { struct rspamd_regexp_atom *re; struct rspamd_function_atom *func; const char *lua_function; int lua_cbref; } d; enum rspamd_mime_atom_type type; }; /* * List of internal functions of rspamd * Sorted by name to use bsearch */ static struct _fl { const char *name; rspamd_internal_func_t func; void *user_data; } rspamd_functions_list[] = { {"check_smtp_data", rspamd_check_smtp_data, NULL}, {"compare_encoding", rspamd_compare_encoding, NULL}, {"compare_parts_distance", rspamd_parts_distance, NULL}, {"compare_recipients_distance", rspamd_recipients_distance, NULL}, {"compare_transfer_encoding", rspamd_compare_transfer_encoding, NULL}, {"content_type_compare_param", rspamd_content_type_compare_param, NULL}, {"content_type_has_param", rspamd_content_type_has_param, NULL}, {"content_type_is_subtype", rspamd_content_type_is_subtype, NULL}, {"content_type_is_type", rspamd_content_type_is_type, NULL}, {"has_content_part", rspamd_has_content_part, NULL}, {"has_content_part_len", rspamd_has_content_part_len, NULL}, {"has_fake_html", rspamd_has_fake_html, NULL}, {"has_flag", rspamd_has_flag_expr, NULL}, {"has_html_tag", rspamd_has_html_tag, NULL}, {"has_only_html_part", rspamd_has_only_html_part, NULL}, {"has_symbol", rspamd_has_symbol_expr, NULL}, {"header_exists", rspamd_header_exists, NULL}, {"is_empty_body", rspamd_is_empty_body, NULL}, {"is_html_balanced", rspamd_is_html_balanced, NULL}, {"is_recipients_sorted", rspamd_is_recipients_sorted, NULL}, {"raw_header_exists", rspamd_raw_header_exists, NULL}, }; const struct rspamd_atom_subr mime_expr_subr = { .parse = rspamd_mime_expr_parse, .process = rspamd_mime_expr_process, .priority = rspamd_mime_expr_priority, .destroy = rspamd_mime_expr_destroy}; static struct _fl *list_ptr = &rspamd_functions_list[0]; static uint32_t functions_number = sizeof(rspamd_functions_list) / sizeof(struct _fl); static gboolean list_allocated = FALSE; /* Bsearch routine */ static int fl_cmp(const void *s1, const void *s2) { struct _fl *fl1 = (struct _fl *) s1; struct _fl *fl2 = (struct _fl *) s2; return strcmp(fl1->name, fl2->name); } static GQuark rspamd_mime_expr_quark(void) { return g_quark_from_static_string("mime-expressions"); } #define TYPE_CHECK(str, type, len) (sizeof(type) - 1 == (len) && rspamd_lc_cmp((str), (type), (len)) == 0) static gboolean rspamd_parse_long_option(const char *start, gsize len, struct rspamd_regexp_atom *a) { gboolean ret = FALSE; if (TYPE_CHECK(start, "body", len)) { ret = TRUE; a->type = RSPAMD_RE_BODY; } else if (TYPE_CHECK(start, "part", len) || TYPE_CHECK(start, "mime", len)) { ret = TRUE; a->type = RSPAMD_RE_MIME; } else if (TYPE_CHECK(start, "raw_part", len) || TYPE_CHECK(start, "raw_mime", len) || TYPE_CHECK(start, "mime_raw", len)) { ret = TRUE; a->type = RSPAMD_RE_RAWMIME; } else if (TYPE_CHECK(start, "header", len)) { ret = TRUE; a->type = RSPAMD_RE_HEADER; } else if (TYPE_CHECK(start, "mime_header", len) || TYPE_CHECK(start, "header_mime", len)) { ret = TRUE; a->type = RSPAMD_RE_MIMEHEADER; } else if (TYPE_CHECK(start, "raw_header", len) || TYPE_CHECK(start, "header_raw", len)) { ret = TRUE; a->type = RSPAMD_RE_RAWHEADER; } else if (TYPE_CHECK(start, "all_header", len) || TYPE_CHECK(start, "header_all", len) || TYPE_CHECK(start, "all_headers", len)) { ret = TRUE; a->type = RSPAMD_RE_ALLHEADER; } else if (TYPE_CHECK(start, "url", len)) { ret = TRUE; a->type = RSPAMD_RE_URL; } else if (TYPE_CHECK(start, "email", len)) { ret = TRUE; a->type = RSPAMD_RE_EMAIL; } else if (TYPE_CHECK(start, "sa_body", len)) { ret = TRUE; a->type = RSPAMD_RE_SABODY; } else if (TYPE_CHECK(start, "sa_raw_body", len) || TYPE_CHECK(start, "sa_body_raw", len)) { ret = TRUE; a->type = RSPAMD_RE_SARAWBODY; } else if (TYPE_CHECK(start, "words", len)) { ret = TRUE; a->type = RSPAMD_RE_WORDS; } else if (TYPE_CHECK(start, "raw_words", len)) { ret = TRUE; a->type = RSPAMD_RE_RAWWORDS; } else if (TYPE_CHECK(start, "stem_words", len)) { ret = TRUE; a->type = RSPAMD_RE_STEMWORDS; } else if (TYPE_CHECK(start, "selector", len)) { ret = TRUE; a->type = RSPAMD_RE_SELECTOR; } return ret; } /* * Rspamd regexp utility functions */ static struct rspamd_regexp_atom * rspamd_mime_expr_parse_regexp_atom(rspamd_mempool_t *pool, const char *line, struct rspamd_config *cfg) { const char *begin, *end, *p, *src, *start, *brace; char *dbegin, *dend, *extra = NULL; struct rspamd_regexp_atom *result; GError *err = NULL; GString *re_flags; if (line == NULL) { msg_err_pool("cannot parse NULL line"); return NULL; } src = line; result = rspamd_mempool_alloc0(pool, sizeof(struct rspamd_regexp_atom)); /* Skip whitespaces */ while (g_ascii_isspace(*line)) { line++; } if (*line == '\0') { msg_warn_pool("got empty regexp"); return NULL; } result->type = RSPAMD_RE_MAX; start = line; /* First try to find header name */ begin = strchr(line, '/'); if (begin != NULL) { p = begin; end = NULL; while (p != line) { if (*p == '=') { end = p; break; } p--; } if (end) { extra = rspamd_mempool_alloc(pool, end - line + 1); rspamd_strlcpy(extra, line, end - line + 1); line = end; } } else { extra = rspamd_mempool_strdup(pool, line); result->type = RSPAMD_RE_MAX; line = start; } /* Find begin of regexp */ while (*line && *line != '/') { line++; } if (*line != '\0') { begin = line + 1; } else if (extra == NULL) { /* Assume that line without // is just a header name */ extra = rspamd_mempool_strdup(pool, line); result->type = RSPAMD_RE_HEADER; return result; } else { /* We got header name earlier but have not found // expression, so it is invalid regexp */ msg_warn_pool( "got no header name (eg. header=) but without corresponding regexp, %s", src); return NULL; } /* Find end */ end = begin; while (*end && (*end != '/' || *(end - 1) == '\\')) { end++; } if (end == begin || *end != '/') { msg_warn_pool("no trailing / in regexp %s", src); return NULL; } /* Parse flags */ p = end + 1; re_flags = g_string_sized_new(32); while (p != NULL) { switch (*p) { case 'i': case 'm': case 's': case 'x': case 'u': case 'O': case 'r': case 'L': /* Handled by rspamd_regexp_t */ g_string_append_c(re_flags, *p); p++; break; case 'o': p++; break; /* Type flags */ case 'H': result->type = RSPAMD_RE_HEADER; p++; break; case 'R': result->type = RSPAMD_RE_ALLHEADER; p++; break; case 'B': result->type = RSPAMD_RE_MIMEHEADER; p++; break; case 'C': result->type = RSPAMD_RE_SABODY; p++; break; case 'D': result->type = RSPAMD_RE_SARAWBODY; p++; break; case 'M': result->type = RSPAMD_RE_BODY; p++; break; case 'P': result->type = RSPAMD_RE_MIME; p++; break; case 'Q': result->type = RSPAMD_RE_RAWMIME; p++; break; case 'U': result->type = RSPAMD_RE_URL; p++; break; case 'X': result->type = RSPAMD_RE_RAWHEADER; p++; break; case '$': result->type = RSPAMD_RE_SELECTOR; p++; break; case '{': /* Long definition */ if ((brace = strchr(p + 1, '}')) != NULL) { if (!rspamd_parse_long_option(p + 1, brace - (p + 1), result)) { msg_warn_pool("invalid long regexp type: %*s in '%s'", (int) (brace - (p + 1)), p + 1, src); p = NULL; } else { p = brace + 1; } } else { p = NULL; } break; /* Other flags */ case 'T': result->is_test = TRUE; p++; break; case 'S': result->is_strong = TRUE; p++; break; case 'A': result->is_multiple = TRUE; p++; break; /* Stop flags parsing */ default: p = NULL; break; } } if (result->type >= RSPAMD_RE_MAX) { if (extra) { /* Assume header regexp */ result->extra.header = extra; result->type = RSPAMD_RE_HEADER; } else { msg_err_pool("could not read regexp: %s, unknown type", src); return NULL; } } if ((result->type == RSPAMD_RE_HEADER || result->type == RSPAMD_RE_RAWHEADER || result->type == RSPAMD_RE_MIMEHEADER)) { if (extra == NULL) { msg_err_pool("header regexp: '%s' has no header part", src); return NULL; } else { result->extra.header = extra; } } if (result->type == RSPAMD_RE_SELECTOR) { if (extra == NULL) { msg_err_pool("selector regexp: '%s' has no selector part", src); return NULL; } else { result->extra.selector = extra; } } result->regexp_text = rspamd_mempool_strdup(pool, start); dbegin = result->regexp_text + (begin - start); dend = result->regexp_text + (end - start); *dend = '\0'; result->regexp = rspamd_regexp_new(dbegin, re_flags->str, &err); g_string_free(re_flags, TRUE); if (result->regexp == NULL || err != NULL) { msg_warn_pool("could not read regexp: %s while reading regexp %e", src, err); if (err) { g_error_free(err); } return NULL; } if (result->is_multiple) { rspamd_regexp_set_maxhits(result->regexp, 0); } else { rspamd_regexp_set_maxhits(result->regexp, 1); } rspamd_regexp_set_ud(result->regexp, result); *dend = '/'; return result; } struct rspamd_function_atom * rspamd_mime_expr_parse_function_atom(rspamd_mempool_t *pool, const char *input) { const char *obrace, *ebrace, *p, *c; char t, *databuf; unsigned int len; struct rspamd_function_atom *res; struct expression_argument arg; GError *err = NULL; enum { start_read_argument = 0, in_string, in_regexp, got_backslash, got_comma } state, prev_state = 0; obrace = strchr(input, '('); ebrace = strrchr(input, ')'); g_assert(obrace != NULL && ebrace != NULL); res = rspamd_mempool_alloc0(pool, sizeof(*res)); res->name = rspamd_mempool_alloc(pool, obrace - input + 1); rspamd_strlcpy(res->name, input, obrace - input + 1); res->args = g_array_new(FALSE, FALSE, sizeof(struct expression_argument)); p = obrace + 1; c = p; state = start_read_argument; /* Read arguments */ while (p <= ebrace) { t = *p; switch (state) { case start_read_argument: if (t == '/') { state = in_regexp; c = p; } else if (!g_ascii_isspace(t)) { state = in_string; if (t == '\'' || t == '\"') { c = p + 1; } else { c = p; } } p++; break; case in_regexp: if (t == '\\') { state = got_backslash; prev_state = in_regexp; } else if (t == ',' || p == ebrace) { len = p - c + 1; databuf = rspamd_mempool_alloc(pool, len); rspamd_strlcpy(databuf, c, len); arg.type = EXPRESSION_ARGUMENT_REGEXP; arg.data = rspamd_regexp_cache_create(NULL, databuf, NULL, &err); if (arg.data == NULL) { /* Fallback to string */ msg_warn("cannot parse slashed argument %s as regexp: %s", databuf, err->message); g_error_free(err); arg.type = EXPRESSION_ARGUMENT_NORMAL; arg.data = databuf; } g_array_append_val(res->args, arg); state = got_comma; } p++; break; case in_string: if (t == '\\') { state = got_backslash; prev_state = in_string; } else if (t == ',' || p == ebrace) { if (*(p - 1) == '\'' || *(p - 1) == '\"') { len = p - c; } else { len = p - c + 1; } databuf = rspamd_mempool_alloc(pool, len); rspamd_strlcpy(databuf, c, len); arg.type = EXPRESSION_ARGUMENT_NORMAL; arg.data = databuf; g_array_append_val(res->args, arg); state = got_comma; } p++; break; case got_backslash: state = prev_state; p++; break; case got_comma: state = start_read_argument; break; } } return res; } static rspamd_expression_atom_t * rspamd_mime_expr_parse(const char *line, gsize len, rspamd_mempool_t *pool, gpointer ud, GError **err) { rspamd_expression_atom_t *a = NULL; struct rspamd_mime_atom *mime_atom = NULL; const char *p, *end, *c = NULL; struct rspamd_mime_expr_ud *real_ud = (struct rspamd_mime_expr_ud *) ud; struct rspamd_config *cfg; rspamd_regexp_t *own_re; char t; int type = MIME_ATOM_REGEXP, obraces = 0, ebraces = 0; enum { in_header = 0, got_slash, in_regexp, got_backslash, got_second_slash, in_flags, in_flags_brace, got_obrace, in_function, in_local_function, got_ebrace, end_atom, bad_atom } state = 0, prev_state = 0; p = line; end = p + len; cfg = real_ud->cfg; while (p < end) { t = *p; switch (state) { case in_header: if (t == '/') { /* Regexp */ state = got_slash; } else if (t == '(') { /* Function */ state = got_obrace; } else if (!g_ascii_isalnum(t) && t != '_' && t != '-' && t != '=') { if (t == ':') { if (p - line == 3 && memcmp(line, "lua", 3) == 0) { type = MIME_ATOM_LOCAL_LUA_FUNCTION; state = in_local_function; c = p + 1; } } else { /* Likely lua function, identified by just a string */ type = MIME_ATOM_LUA_FUNCTION; state = end_atom; /* Do not increase p */ continue; } } else if (g_ascii_isspace(t)) { state = bad_atom; } p++; break; case got_slash: state = in_regexp; break; case in_regexp: if (t == '\\') { state = got_backslash; prev_state = in_regexp; } else if (t == '/') { state = got_second_slash; } p++; break; case got_second_slash: state = in_flags; break; case in_flags: if (t == '{') { state = in_flags_brace; p++; } else if (!g_ascii_isalpha(t) && t != '$') { state = end_atom; } else { p++; } break; case in_flags_brace: if (t == '}') { state = in_flags; } p++; break; case got_backslash: state = prev_state; p++; break; case got_obrace: state = in_function; type = MIME_ATOM_INTERNAL_FUNCTION; obraces++; break; case in_function: if (t == '\\') { state = got_backslash; prev_state = in_function; } else if (t == '(') { obraces++; } else if (t == ')') { ebraces++; if (ebraces == obraces) { state = got_ebrace; } } p++; break; case in_local_function: if (!(g_ascii_isalnum(t) || t == '-' || t == '_')) { g_assert(c != NULL); state = end_atom; } else { p++; } break; case got_ebrace: state = end_atom; break; case bad_atom: g_set_error(err, rspamd_mime_expr_quark(), 100, "cannot parse" " mime atom '%s' when reading symbol '%c' at offset %d, " "near %.*s", line, t, (int) (p - line), (int) MIN(end - p, 10), p); return NULL; case end_atom: goto set; } } set: if (p - line == 0 || (state != got_ebrace && state != got_second_slash && state != in_flags && state != end_atom)) { g_set_error(err, rspamd_mime_expr_quark(), 200, "incomplete or empty" " mime atom"); return NULL; } mime_atom = rspamd_mempool_alloc(pool, sizeof(*mime_atom)); mime_atom->type = type; mime_atom->str = rspamd_mempool_alloc(pool, p - line + 1); rspamd_strlcpy(mime_atom->str, line, p - line + 1); if (type == MIME_ATOM_REGEXP) { mime_atom->d.re = rspamd_mime_expr_parse_regexp_atom(pool, mime_atom->str, cfg); if (mime_atom->d.re == NULL) { g_set_error(err, rspamd_mime_expr_quark(), 200, "cannot parse regexp '%s'", mime_atom->str); goto err; } else { int lua_cbref = -1; /* Check regexp condition */ if (real_ud->conf_obj != NULL) { const ucl_object_t *re_conditions = ucl_object_lookup(real_ud->conf_obj, "re_conditions"); if (re_conditions != NULL) { if (ucl_object_type(re_conditions) != UCL_OBJECT) { g_set_error(err, rspamd_mime_expr_quark(), 320, "re_conditions is not a table for '%s'", mime_atom->str); rspamd_regexp_unref(mime_atom->d.re->regexp); goto err; } const ucl_object_t *function_obj = ucl_object_lookup(re_conditions, mime_atom->str); if (function_obj != NULL) { if (ucl_object_type(function_obj) != UCL_USERDATA) { g_set_error(err, rspamd_mime_expr_quark(), 320, "condition for '%s' is invalid, must be function", mime_atom->str); rspamd_regexp_unref(mime_atom->d.re->regexp); goto err; } struct ucl_lua_funcdata *fd = function_obj->value.ud; lua_cbref = fd->idx; } } } if (lua_cbref != -1) { msg_info_config("added condition for regexp %s", mime_atom->str); /* Add SOM_LEFTMOST_FLAG implicitly */ rspamd_regexp_set_flags(mime_atom->d.re->regexp, rspamd_regexp_get_flags(mime_atom->d.re->regexp) | RSPAMD_REGEXP_FLAG_LEFTMOST); } /* Register new item in the cache */ if (mime_atom->d.re->type == RSPAMD_RE_HEADER || mime_atom->d.re->type == RSPAMD_RE_RAWHEADER || mime_atom->d.re->type == RSPAMD_RE_MIMEHEADER) { if (mime_atom->d.re->extra.header != NULL) { own_re = mime_atom->d.re->regexp; mime_atom->d.re->regexp = rspamd_re_cache_add(cfg->re_cache, mime_atom->d.re->regexp, mime_atom->d.re->type, mime_atom->d.re->extra.header, strlen(mime_atom->d.re->extra.header) + 1, lua_cbref); /* Pass ownership to the cache */ rspamd_regexp_unref(own_re); } else { /* We have header regexp, but no header name is detected */ g_set_error(err, rspamd_mime_expr_quark(), 200, "no header name in header regexp: '%s'", mime_atom->str); rspamd_regexp_unref(mime_atom->d.re->regexp); goto err; } } else if (mime_atom->d.re->type == RSPAMD_RE_SELECTOR) { if (mime_atom->d.re->extra.selector != NULL) { own_re = mime_atom->d.re->regexp; mime_atom->d.re->regexp = rspamd_re_cache_add(cfg->re_cache, mime_atom->d.re->regexp, mime_atom->d.re->type, mime_atom->d.re->extra.selector, strlen(mime_atom->d.re->extra.selector) + 1, lua_cbref); /* Pass ownership to the cache */ rspamd_regexp_unref(own_re); } else { /* We have selector regexp, but no selector name is detected */ g_set_error(err, rspamd_mime_expr_quark(), 200, "no selector name in selector regexp: '%s'", mime_atom->str); rspamd_regexp_unref(mime_atom->d.re->regexp); goto err; } } else { own_re = mime_atom->d.re->regexp; mime_atom->d.re->regexp = rspamd_re_cache_add(cfg->re_cache, mime_atom->d.re->regexp, mime_atom->d.re->type, NULL, 0, lua_cbref); /* Pass ownership to the cache */ rspamd_regexp_unref(own_re); } } } else if (type == MIME_ATOM_LUA_FUNCTION) { mime_atom->d.lua_function = mime_atom->str; lua_getglobal(cfg->lua_state, mime_atom->str); if (lua_type(cfg->lua_state, -1) != LUA_TFUNCTION) { g_set_error(err, rspamd_mime_expr_quark(), 200, "no such lua function '%s'", mime_atom->str); lua_pop(cfg->lua_state, 1); goto err; } lua_pop(cfg->lua_state, 1); } else if (type == MIME_ATOM_LOCAL_LUA_FUNCTION) { /* p pointer is set to the start of Lua function name */ if (real_ud->conf_obj == NULL) { g_set_error(err, rspamd_mime_expr_quark(), 300, "no config object for '%s'", mime_atom->str); goto err; } const ucl_object_t *functions = ucl_object_lookup(real_ud->conf_obj, "functions"); if (functions == NULL) { g_set_error(err, rspamd_mime_expr_quark(), 310, "no functions defined for '%s'", mime_atom->str); goto err; } if (ucl_object_type(functions) != UCL_OBJECT) { g_set_error(err, rspamd_mime_expr_quark(), 320, "functions is not a table for '%s'", mime_atom->str); goto err; } const ucl_object_t *function_obj; function_obj = ucl_object_lookup_len(functions, c, p - c); if (function_obj == NULL) { g_set_error(err, rspamd_mime_expr_quark(), 320, "function %.*s is not found for '%s'", (int) (p - c), c, mime_atom->str); goto err; } if (ucl_object_type(function_obj) != UCL_USERDATA) { g_set_error(err, rspamd_mime_expr_quark(), 320, "function %.*s has invalid type for '%s'", (int) (p - c), c, mime_atom->str); goto err; } struct ucl_lua_funcdata *fd = function_obj->value.ud; mime_atom->d.lua_cbref = fd->idx; } else { mime_atom->d.func = rspamd_mime_expr_parse_function_atom(pool, mime_atom->str); if (mime_atom->d.func == NULL) { g_set_error(err, rspamd_mime_expr_quark(), 200, "cannot parse function '%s'", mime_atom->str); goto err; } } a = rspamd_mempool_alloc0(pool, sizeof(*a)); a->len = p - line; a->priority = 0; a->data = mime_atom; return a; err: return NULL; } static int rspamd_mime_expr_process_regexp(struct rspamd_regexp_atom *re, struct rspamd_task *task) { int ret; if (re == NULL) { msg_info_task("invalid regexp passed"); return 0; } if (re->type == RSPAMD_RE_HEADER || re->type == RSPAMD_RE_RAWHEADER) { ret = rspamd_re_cache_process(task, re->regexp, re->type, re->extra.header, strlen(re->extra.header), re->is_strong); } else if (re->type == RSPAMD_RE_SELECTOR) { ret = rspamd_re_cache_process(task, re->regexp, re->type, re->extra.selector, strlen(re->extra.selector), re->is_strong); } else { ret = rspamd_re_cache_process(task, re->regexp, re->type, NULL, 0, re->is_strong); } if (re->is_test) { msg_info_task("test %s regexp '%s' returned %d", rspamd_re_cache_type_to_string(re->type), re->regexp_text, ret); } return ret; } static int rspamd_mime_expr_priority(rspamd_expression_atom_t *atom) { struct rspamd_mime_atom *mime_atom = atom->data; int ret = 0; switch (mime_atom->type) { case MIME_ATOM_INTERNAL_FUNCTION: /* Prioritize internal functions slightly */ ret = RSPAMD_EXPRESSION_MAX_PRIORITY - RSPAMD_EXPRESSION_MAX_PRIORITY / 8; break; case MIME_ATOM_LUA_FUNCTION: case MIME_ATOM_LOCAL_LUA_FUNCTION: ret = RSPAMD_EXPRESSION_MAX_PRIORITY - RSPAMD_EXPRESSION_MAX_PRIORITY / 4; break; case MIME_ATOM_REGEXP: switch (mime_atom->d.re->type) { case RSPAMD_RE_HEADER: case RSPAMD_RE_RAWHEADER: ret = RSPAMD_EXPRESSION_MAX_PRIORITY - RSPAMD_EXPRESSION_MAX_PRIORITY / 16; break; case RSPAMD_RE_URL: case RSPAMD_RE_EMAIL: ret = RSPAMD_EXPRESSION_MAX_PRIORITY - RSPAMD_EXPRESSION_MAX_PRIORITY / 8; break; case RSPAMD_RE_SELECTOR: ret = RSPAMD_EXPRESSION_MAX_PRIORITY - RSPAMD_EXPRESSION_MAX_PRIORITY / 8; break; case RSPAMD_RE_MIME: case RSPAMD_RE_RAWMIME: ret = RSPAMD_EXPRESSION_MAX_PRIORITY - RSPAMD_EXPRESSION_MAX_PRIORITY / 2; break; case RSPAMD_RE_WORDS: case RSPAMD_RE_RAWWORDS: case RSPAMD_RE_STEMWORDS: default: /* For expensive regexps */ ret = 0; break; } } return ret; } static void rspamd_mime_expr_destroy(rspamd_expression_atom_t *atom) { struct rspamd_mime_atom *mime_atom = atom->data; if (mime_atom) { if (mime_atom->type == MIME_ATOM_INTERNAL_FUNCTION) { /* Need to cleanup arguments */ g_array_free(mime_atom->d.func->args, TRUE); } } } static gboolean rspamd_mime_expr_process_function(struct rspamd_function_atom *func, struct rspamd_task *task, lua_State *L) { struct _fl *selected, key; key.name = func->name; selected = bsearch(&key, list_ptr, functions_number, sizeof(struct _fl), fl_cmp); if (selected == NULL) { /* Try to check lua function */ return FALSE; } return selected->func(task, func->args, selected->user_data); } static double rspamd_mime_expr_process(void *ud, rspamd_expression_atom_t *atom) { struct rspamd_task *task = (struct rspamd_task *) ud; struct rspamd_mime_atom *mime_atom; lua_State *L; double ret = 0; g_assert(task != NULL); g_assert(atom != NULL); mime_atom = atom->data; if (mime_atom->type == MIME_ATOM_REGEXP) { ret = rspamd_mime_expr_process_regexp(mime_atom->d.re, task); } else if (mime_atom->type == MIME_ATOM_LUA_FUNCTION) { L = task->cfg->lua_state; lua_getglobal(L, mime_atom->d.lua_function); rspamd_lua_task_push(L, task); if (lua_pcall(L, 1, 1, 0) != 0) { msg_info_task("lua call to global function '%s' for atom '%s' failed: %s", mime_atom->d.lua_function, mime_atom->str, lua_tostring(L, -1)); lua_pop(L, 1); } else { if (lua_type(L, -1) == LUA_TBOOLEAN) { ret = lua_toboolean(L, -1); } else if (lua_type(L, -1) == LUA_TNUMBER) { ret = lua_tonumber(L, 1); } else { msg_err_task("%s returned wrong return type: %s", mime_atom->str, lua_typename(L, lua_type(L, -1))); } /* Remove result */ lua_pop(L, 1); } } else if (mime_atom->type == MIME_ATOM_LOCAL_LUA_FUNCTION) { int err_idx; L = task->cfg->lua_state; lua_pushcfunction(L, &rspamd_lua_traceback); err_idx = lua_gettop(L); lua_rawgeti(L, LUA_REGISTRYINDEX, mime_atom->d.lua_cbref); rspamd_lua_task_push(L, task); if (lua_pcall(L, 1, 1, err_idx) != 0) { msg_info_task("lua call to local function for atom '%s' failed: %s", mime_atom->str, lua_tostring(L, -1)); } else { if (lua_type(L, -1) == LUA_TBOOLEAN) { ret = lua_toboolean(L, -1); } else if (lua_type(L, -1) == LUA_TNUMBER) { ret = lua_tonumber(L, 1); } else { msg_err_task("%s returned wrong return type: %s", mime_atom->str, lua_typename(L, lua_type(L, -1))); } } lua_settop(L, 0); } else { ret = rspamd_mime_expr_process_function(mime_atom->d.func, task, task->cfg->lua_state); } return ret; } void register_expression_function(const char *name, rspamd_internal_func_t func, void *user_data) { static struct _fl *new; functions_number++; new = g_new(struct _fl, functions_number); memcpy(new, list_ptr, (functions_number - 1) * sizeof(struct _fl)); if (list_allocated) { g_free(list_ptr); } list_allocated = TRUE; new[functions_number - 1].name = name; new[functions_number - 1].func = func; new[functions_number - 1].user_data = user_data; qsort(new, functions_number, sizeof(struct _fl), fl_cmp); list_ptr = new; } gboolean rspamd_compare_encoding(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg; if (args == NULL || task == NULL) { return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } /* XXX: really write this function */ return TRUE; } gboolean rspamd_header_exists(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg; struct rspamd_mime_header *rh; if (args == NULL || task == NULL) { return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } rh = rspamd_message_get_header_array(task, (char *) arg->data, FALSE); debug_task("try to get header %s: %d", (char *) arg->data, (rh != NULL)); if (rh) { return TRUE; } return FALSE; } /* * This function is designed to find difference between text/html and text/plain parts * It takes one argument: difference threshold, if we have two text parts, compare * its hashes and check for threshold, if value is greater than threshold, return TRUE * and return FALSE otherwise. */ gboolean rspamd_parts_distance(struct rspamd_task *task, GArray *args, void *unused) { int threshold, threshold2 = -1; struct expression_argument *arg; double *pdiff, diff; if (args == NULL || args->len == 0) { debug_task("no threshold is specified, assume it 100"); threshold = 100; } else { errno = 0; arg = &g_array_index(args, struct expression_argument, 0); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } threshold = strtoul((char *) arg->data, NULL, 10); if (errno != 0) { msg_info_task("bad numeric value for threshold \"%s\", assume it 100", (char *) arg->data); threshold = 100; } if (args->len >= 2) { arg = &g_array_index(args, struct expression_argument, 1); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } errno = 0; threshold2 = strtoul((char *) arg->data, NULL, 10); if (errno != 0) { msg_info_task("bad numeric value for threshold \"%s\", ignore it", (char *) arg->data); threshold2 = -1; } } } if ((pdiff = rspamd_mempool_get_variable(task->task_pool, "parts_distance")) != NULL) { diff = (1.0 - (*pdiff)) * 100.0; if (diff != -1) { if (threshold2 > 0) { if (diff >= MIN(threshold, threshold2) && diff < MAX(threshold, threshold2)) { return TRUE; } } else { if (diff <= threshold) { return TRUE; } } return FALSE; } else { return FALSE; } } return FALSE; } struct addr_list { const char *name; unsigned int namelen; const char *addr; unsigned int addrlen; }; static int addr_list_cmp_func(const void *a, const void *b) { const struct addr_list *addra = (struct addr_list *) a, *addrb = (struct addr_list *) b; if (addra->addrlen != addrb->addrlen) { return addra->addrlen - addrb->addrlen; } return memcmp(addra->addr, addrb->addr, addra->addrlen); } #define COMPARE_RCPT_LEN 3 #define MIN_RCPT_TO_COMPARE 7 gboolean rspamd_recipients_distance(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg; struct rspamd_email_address *cur; double threshold; struct addr_list *ar; int num, i, hits = 0; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } errno = 0; threshold = strtod((char *) arg->data, NULL); if (errno != 0) { msg_warn_task("invalid numeric value '%s': %s", (char *) arg->data, strerror(errno)); return FALSE; } if (!MESSAGE_FIELD(task, rcpt_mime)) { return FALSE; } num = MESSAGE_FIELD(task, rcpt_mime)->len; if (num < MIN_RCPT_TO_COMPARE) { return FALSE; } ar = rspamd_mempool_alloc0(task->task_pool, num * sizeof(struct addr_list)); /* Fill array */ num = 0; PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, rcpt_mime), i, cur) { if (cur->addr_len > COMPARE_RCPT_LEN) { ar[num].name = cur->addr; ar[num].namelen = cur->addr_len; ar[num].addr = cur->domain; ar[num].addrlen = cur->domain_len; num++; } } qsort(ar, num, sizeof(*ar), addr_list_cmp_func); /* Cycle all elements in array */ for (i = 0; i < num; i++) { if (i < num - 1) { if (ar[i].namelen == ar[i + 1].namelen) { if (rspamd_lc_cmp(ar[i].name, ar[i + 1].name, COMPARE_RCPT_LEN) == 0) { hits++; } } } } if ((hits * num / 2.) / (double) num >= threshold) { return TRUE; } return FALSE; } gboolean rspamd_has_only_html_part(struct rspamd_task *task, GArray *args, void *unused) { struct rspamd_mime_text_part *p; unsigned int i, cnt_html = 0, cnt_txt = 0; PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, text_parts), i, p) { if (!IS_TEXT_PART_ATTACHMENT(p)) { if (IS_TEXT_PART_HTML(p)) { cnt_html++; } else { cnt_txt++; } } } return (cnt_html > 0 && cnt_txt == 0); } static gboolean is_recipient_list_sorted(GPtrArray *ar) { struct rspamd_email_address *addr; gboolean res = TRUE; rspamd_ftok_t cur, prev; int i; /* Do not check to short address lists */ if (ar == NULL || ar->len < MIN_RCPT_TO_COMPARE) { return FALSE; } prev.len = 0; prev.begin = NULL; PTR_ARRAY_FOREACH(ar, i, addr) { cur.begin = addr->addr; cur.len = addr->addr_len; if (prev.len != 0) { if (rspamd_ftok_casecmp(&cur, &prev) <= 0) { res = FALSE; break; } } prev = cur; } return res; } gboolean rspamd_is_recipients_sorted(struct rspamd_task *task, GArray *args, void *unused) { /* Check all types of addresses */ if (MESSAGE_FIELD(task, rcpt_mime)) { return is_recipient_list_sorted(MESSAGE_FIELD(task, rcpt_mime)); } return FALSE; } gboolean rspamd_compare_transfer_encoding(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg; unsigned int i; struct rspamd_mime_part *part; enum rspamd_cte cte; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } cte = rspamd_cte_from_string(arg->data); if (cte == RSPAMD_CTE_UNKNOWN) { msg_warn_task("unknown cte: %s", arg->data); return FALSE; } PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, parts), i, part) { if (IS_PART_TEXT(part)) { if (part->cte == cte) { return TRUE; } } } return FALSE; } gboolean rspamd_is_html_balanced(struct rspamd_task *task, GArray *args, void *unused) { /* Totally broken but seems to be never used */ return TRUE; } gboolean rspamd_has_html_tag(struct rspamd_task *task, GArray *args, void *unused) { struct rspamd_mime_text_part *p; struct expression_argument *arg; unsigned int i; gboolean res = FALSE; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, text_parts), i, p) { if (IS_TEXT_PART_HTML(p) && p->html) { res = rspamd_html_tag_seen(p->html, arg->data); } if (res) { break; } } return res; } gboolean rspamd_has_fake_html(struct rspamd_task *task, GArray *args, void *unused) { struct rspamd_mime_text_part *p; unsigned int i; gboolean res = FALSE; PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, text_parts), i, p) { if (IS_TEXT_PART_HTML(p) && (rspamd_html_get_tags_count(p->html) < 2)) { res = TRUE; } if (res) { break; } } return res; } static gboolean rspamd_raw_header_exists(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg; if (args == NULL || task == NULL) { return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); if (!arg || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid argument to function is passed"); return FALSE; } return rspamd_message_get_header_array(task, arg->data, FALSE) != NULL; } static gboolean match_smtp_data(struct rspamd_task *task, struct expression_argument *arg, const char *what, gsize len) { rspamd_regexp_t *re; int r = 0; if (arg->type == EXPRESSION_ARGUMENT_REGEXP) { /* This is a regexp */ re = arg->data; if (re == NULL) { msg_warn_task("cannot compile regexp for function"); return FALSE; } if (len > 0) { r = rspamd_regexp_search(re, what, len, NULL, NULL, FALSE, NULL); } return r; } else if (arg->type == EXPRESSION_ARGUMENT_NORMAL && g_ascii_strncasecmp(arg->data, what, len) == 0) { return TRUE; } return FALSE; } static gboolean rspamd_check_smtp_data(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg; struct rspamd_email_address *addr = NULL; GPtrArray *rcpts = NULL; const char *type, *str = NULL; unsigned int i; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); if (!arg || !arg->data || arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("no parameters to function"); return FALSE; } else { type = arg->data; switch (*type) { case 'f': case 'F': if (g_ascii_strcasecmp(type, "from") == 0) { addr = rspamd_task_get_sender(task); } else { msg_warn_task("bad argument to function: %s", type); return FALSE; } break; case 'h': case 'H': if (g_ascii_strcasecmp(type, "helo") == 0) { str = task->helo; } else { msg_warn_task("bad argument to function: %s", type); return FALSE; } break; case 'u': case 'U': if (g_ascii_strcasecmp(type, "user") == 0) { str = task->auth_user; } else { msg_warn_task("bad argument to function: %s", type); return FALSE; } break; case 's': case 'S': if (g_ascii_strcasecmp(type, "subject") == 0) { str = MESSAGE_FIELD(task, subject); } else { msg_warn_task("bad argument to function: %s", type); return FALSE; } break; case 'r': case 'R': if (g_ascii_strcasecmp(type, "rcpt") == 0) { rcpts = task->rcpt_envelope; } else { msg_warn_task("bad argument to function: %s", type); return FALSE; } break; default: msg_warn_task("bad argument to function: %s", type); return FALSE; } } if (str == NULL && addr == NULL && rcpts == NULL) { /* Not enough data so regexp would NOT be found anyway */ return FALSE; } /* We would process only one more argument, others are ignored */ if (args->len >= 2) { arg = &g_array_index(args, struct expression_argument, 1); if (arg) { if (str != NULL) { return match_smtp_data(task, arg, str, strlen(str)); } else if (addr != NULL && addr->addr) { return match_smtp_data(task, arg, addr->addr, addr->addr_len); } else { if (rcpts != NULL) { for (i = 0; i < rcpts->len; i++) { addr = g_ptr_array_index(rcpts, i); if (addr && addr->addr && match_smtp_data(task, arg, addr->addr, addr->addr_len)) { return TRUE; } } } } } } return FALSE; } static inline gboolean rspamd_check_ct_attr(const char *begin, gsize len, struct expression_argument *arg_pattern) { rspamd_regexp_t *re; gboolean r = FALSE; if (arg_pattern->type == EXPRESSION_ARGUMENT_REGEXP) { re = arg_pattern->data; if (len > 0) { r = rspamd_regexp_search(re, begin, len, NULL, NULL, FALSE, NULL); } if (r) { return TRUE; } } else { /* Just do strcasecmp */ gsize plen = strlen(arg_pattern->data); if (plen == len && g_ascii_strncasecmp(arg_pattern->data, begin, len) == 0) { return TRUE; } } return FALSE; } static gboolean rspamd_content_type_compare_param(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg, *arg1, *arg_pattern; gboolean recursive = FALSE; struct rspamd_mime_part *cur_part; unsigned int i; rspamd_ftok_t srch; struct rspamd_content_type_param *found = NULL, *cur; const char *param_name; if (args == NULL || args->len < 2) { msg_warn_task("no parameters to function"); return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); g_assert(arg->type == EXPRESSION_ARGUMENT_NORMAL); param_name = arg->data; arg_pattern = &g_array_index(args, struct expression_argument, 1); PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, parts), i, cur_part) { if (args->len >= 3) { arg1 = &g_array_index(args, struct expression_argument, 2); if (g_ascii_strncasecmp(arg1->data, "true", sizeof("true") - 1) == 0) { recursive = TRUE; } } else { /* * If user did not specify argument, let's assume that he wants * recursive search if mime part is multipart/mixed */ if (IS_PART_MULTIPART(cur_part)) { recursive = TRUE; } } rspamd_ftok_t lit; RSPAMD_FTOK_FROM_STR(&srch, param_name); RSPAMD_FTOK_FROM_STR(&lit, "charset"); if (rspamd_ftok_equal(&srch, &lit)) { if (rspamd_check_ct_attr(cur_part->ct->charset.begin, cur_part->ct->charset.len, arg_pattern)) { return TRUE; } } RSPAMD_FTOK_FROM_STR(&lit, "boundary"); if (rspamd_ftok_equal(&srch, &lit)) { if (rspamd_check_ct_attr(cur_part->ct->orig_boundary.begin, cur_part->ct->orig_boundary.len, arg_pattern)) { return TRUE; } } if (cur_part->ct->attrs) { found = g_hash_table_lookup(cur_part->ct->attrs, &srch); if (found) { DL_FOREACH(found, cur) { if (rspamd_check_ct_attr(cur->value.begin, cur->value.len, arg_pattern)) { return TRUE; } } } } if (!recursive) { break; } } return FALSE; } static gboolean rspamd_content_type_has_param(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *arg, *arg1; gboolean recursive = FALSE; struct rspamd_mime_part *cur_part; unsigned int i; rspamd_ftok_t srch; struct rspamd_content_type_param *found = NULL; const char *param_name; if (args == NULL || args->len < 1) { msg_warn_task("no parameters to function"); return FALSE; } arg = &g_array_index(args, struct expression_argument, 0); g_assert(arg->type == EXPRESSION_ARGUMENT_NORMAL); param_name = arg->data; PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, parts), i, cur_part) { if (args->len >= 2) { arg1 = &g_array_index(args, struct expression_argument, 1); if (g_ascii_strncasecmp(arg1->data, "true", sizeof("true") - 1) == 0) { recursive = TRUE; } } else { /* * If user did not specify argument, let's assume that he wants * recursive search if mime part is multipart/mixed */ if (IS_PART_MULTIPART(cur_part)) { recursive = TRUE; } } rspamd_ftok_t lit; RSPAMD_FTOK_FROM_STR(&srch, param_name); RSPAMD_FTOK_FROM_STR(&lit, "charset"); if (rspamd_ftok_equal(&srch, &lit)) { if (cur_part->ct->charset.len > 0) { return TRUE; } } RSPAMD_FTOK_FROM_STR(&lit, "boundary"); if (rspamd_ftok_equal(&srch, &lit)) { if (cur_part->ct->boundary.len > 0) { return TRUE; } } if (cur_part->ct->attrs) { found = g_hash_table_lookup(cur_part->ct->attrs, &srch); if (found) { return TRUE; } } if (!recursive) { break; } } return FALSE; } static gboolean rspamd_content_type_check(struct rspamd_task *task, GArray *args, gboolean check_subtype) { rspamd_ftok_t *param_data, srch; rspamd_regexp_t *re; struct expression_argument *arg1, *arg_pattern; struct rspamd_content_type *ct; int r = 0; unsigned int i; gboolean recursive = FALSE; struct rspamd_mime_part *cur_part; if (args == NULL || args->len < 1) { msg_warn_task("no parameters to function"); return FALSE; } arg_pattern = &g_array_index(args, struct expression_argument, 0); PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, parts), i, cur_part) { ct = cur_part->ct; if (args->len >= 2) { arg1 = &g_array_index(args, struct expression_argument, 1); if (g_ascii_strncasecmp(arg1->data, "true", sizeof("true") - 1) == 0) { recursive = TRUE; } } else { /* * If user did not specify argument, let's assume that he wants * recursive search if mime part is multipart/mixed */ if (IS_PART_MULTIPART(cur_part)) { recursive = TRUE; } } if (check_subtype) { param_data = &ct->subtype; } else { param_data = &ct->type; } if (arg_pattern->type == EXPRESSION_ARGUMENT_REGEXP) { re = arg_pattern->data; if (param_data->len > 0) { r = rspamd_regexp_search(re, param_data->begin, param_data->len, NULL, NULL, FALSE, NULL); } if (r) { return TRUE; } } else { /* Just do strcasecmp */ srch.begin = arg_pattern->data; srch.len = strlen(arg_pattern->data); if (rspamd_ftok_casecmp(param_data, &srch) == 0) { return TRUE; } } /* Get next part */ if (!recursive) { break; } } return FALSE; } static gboolean rspamd_content_type_is_type(struct rspamd_task *task, GArray *args, void *unused) { return rspamd_content_type_check(task, args, FALSE); } static gboolean rspamd_content_type_is_subtype(struct rspamd_task *task, GArray *args, void *unused) { return rspamd_content_type_check(task, args, TRUE); } static gboolean compare_subtype(struct rspamd_task *task, struct rspamd_content_type *ct, struct expression_argument *subtype) { rspamd_regexp_t *re; rspamd_ftok_t srch; int r = 0; if (subtype == NULL || ct == NULL) { msg_warn_task("invalid parameters passed"); return FALSE; } if (subtype->type == EXPRESSION_ARGUMENT_REGEXP) { re = subtype->data; if (ct->subtype.len > 0) { r = rspamd_regexp_search(re, ct->subtype.begin, ct->subtype.len, NULL, NULL, FALSE, NULL); } } else { srch.begin = subtype->data; srch.len = strlen(subtype->data); /* Just do strcasecmp */ if (rspamd_ftok_casecmp(&ct->subtype, &srch) == 0) { return TRUE; } } return r; } static gboolean compare_len(struct rspamd_mime_part *part, unsigned int min, unsigned int max) { if (min == 0 && max == 0) { return TRUE; } if (min == 0) { return part->parsed_data.len <= max; } else if (max == 0) { return part->parsed_data.len >= min; } else { return part->parsed_data.len >= min && part->parsed_data.len <= max; } } static gboolean common_has_content_part(struct rspamd_task *task, struct expression_argument *param_type, struct expression_argument *param_subtype, int min_len, int max_len) { rspamd_regexp_t *re; struct rspamd_mime_part *part; struct rspamd_content_type *ct; rspamd_ftok_t srch; int r = 0; unsigned int i; PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, parts), i, part) { ct = part->ct; if (ct == NULL) { continue; } if (param_type->type == EXPRESSION_ARGUMENT_REGEXP) { re = param_type->data; if (ct->type.len > 0) { r = rspamd_regexp_search(re, ct->type.begin, ct->type.len, NULL, NULL, FALSE, NULL); } /* Also check subtype and length of the part */ if (r && param_subtype) { r = compare_len(part, min_len, max_len) && compare_subtype(task, ct, param_subtype); return r; } } else { /* Just do strcasecmp */ srch.begin = param_type->data; srch.len = strlen(param_type->data); if (rspamd_ftok_casecmp(&ct->type, &srch) == 0) { if (param_subtype) { if (compare_subtype(task, ct, param_subtype)) { if (compare_len(part, min_len, max_len)) { return TRUE; } } } else { if (compare_len(part, min_len, max_len)) { return TRUE; } } } } } return FALSE; } static gboolean rspamd_has_content_part(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *param_type = NULL, *param_subtype = NULL; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } param_type = &g_array_index(args, struct expression_argument, 0); if (args->len >= 2) { param_subtype = &g_array_index(args, struct expression_argument, 1); } return common_has_content_part(task, param_type, param_subtype, 0, 0); } static gboolean rspamd_has_content_part_len(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *param_type = NULL, *param_subtype = NULL; int min = 0, max = 0; struct expression_argument *arg; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } param_type = &g_array_index(args, struct expression_argument, 0); if (args->len >= 2) { param_subtype = &g_array_index(args, struct expression_argument, 1); if (args->len >= 3) { arg = &g_array_index(args, struct expression_argument, 2); errno = 0; min = strtoul(arg->data, NULL, 10); g_assert(arg->type == EXPRESSION_ARGUMENT_NORMAL); if (errno != 0) { msg_warn_task("invalid numeric value '%s': %s", (char *) arg->data, strerror(errno)); return FALSE; } if (args->len >= 4) { arg = &g_array_index(args, struct expression_argument, 3); g_assert(arg->type == EXPRESSION_ARGUMENT_NORMAL); max = strtoul(arg->data, NULL, 10); if (errno != 0) { msg_warn_task("invalid numeric value '%s': %s", (char *) arg->data, strerror(errno)); return FALSE; } } } } return common_has_content_part(task, param_type, param_subtype, min, max); } static gboolean rspamd_is_empty_body(struct rspamd_task *task, GArray *args, void *unused) { struct rspamd_mime_part *part; unsigned int i; PTR_ARRAY_FOREACH(MESSAGE_FIELD(task, parts), i, part) { if (part->parsed_data.len > 0) { return FALSE; } } return TRUE; } #define TASK_FLAG_READ(flag) \ do { \ result = !!(task->flags & (flag)); \ } while (0) #define TASK_GET_FLAG(flag, strname, macro) \ do { \ if (!found && strcmp((flag), strname) == 0) { \ TASK_FLAG_READ((macro)); \ found = TRUE; \ } \ } while (0) #define TASK_PROTOCOL_FLAG_READ(flag) \ do { \ result = !!(task->protocol_flags & (flag)); \ } while (0) #define TASK_GET_PROTOCOL_FLAG(flag, strname, macro) \ do { \ if (!found && strcmp((flag), strname) == 0) { \ TASK_PROTOCOL_FLAG_READ((macro)); \ found = TRUE; \ } \ } while (0) static gboolean rspamd_has_flag_expr(struct rspamd_task *task, GArray *args, void *unused) { gboolean found = FALSE, result = FALSE; struct expression_argument *flag_arg; const char *flag_str; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } flag_arg = &g_array_index(args, struct expression_argument, 0); if (flag_arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid parameter to function"); return FALSE; } flag_str = (const char *) flag_arg->data; TASK_GET_FLAG(flag_str, "pass_all", RSPAMD_TASK_FLAG_PASS_ALL); TASK_GET_FLAG(flag_str, "no_log", RSPAMD_TASK_FLAG_NO_LOG); TASK_GET_FLAG(flag_str, "no_stat", RSPAMD_TASK_FLAG_NO_STAT); TASK_GET_FLAG(flag_str, "skip", RSPAMD_TASK_FLAG_SKIP); TASK_GET_PROTOCOL_FLAG(flag_str, "extended_urls", RSPAMD_TASK_PROTOCOL_FLAG_EXT_URLS); TASK_GET_FLAG(flag_str, "learn_spam", RSPAMD_TASK_FLAG_LEARN_SPAM); TASK_GET_FLAG(flag_str, "learn_ham", RSPAMD_TASK_FLAG_LEARN_HAM); TASK_GET_FLAG(flag_str, "greylisted", RSPAMD_TASK_FLAG_GREYLISTED); TASK_GET_FLAG(flag_str, "broken_headers", RSPAMD_TASK_FLAG_BROKEN_HEADERS); TASK_GET_FLAG(flag_str, "skip_process", RSPAMD_TASK_FLAG_SKIP_PROCESS); TASK_GET_PROTOCOL_FLAG(flag_str, "milter", RSPAMD_TASK_PROTOCOL_FLAG_MILTER); TASK_GET_FLAG(flag_str, "bad_unicode", RSPAMD_TASK_FLAG_BAD_UNICODE); if (!found) { msg_warn_task("invalid flag name %s", flag_str); return FALSE; } return result; } static gboolean rspamd_has_symbol_expr(struct rspamd_task *task, GArray *args, void *unused) { struct expression_argument *sym_arg; const char *symbol_str; if (args == NULL) { msg_warn_task("no parameters to function"); return FALSE; } sym_arg = &g_array_index(args, struct expression_argument, 0); if (sym_arg->type != EXPRESSION_ARGUMENT_NORMAL) { msg_warn_task("invalid parameter to function"); return FALSE; } symbol_str = (const char *) sym_arg->data; if (rspamd_task_find_symbol_result(task, symbol_str, NULL)) { return TRUE; } return FALSE; }