/*- * 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" #include "message.h" #include "html.h" #include "html_tags.h" #include "images.h" /*** * @module rspamd_html * This module provides different methods to access HTML tags. To get HTML context * from an HTML part you could use method `part:get_html()` * @example rspamd_config.R_EMPTY_IMAGE = function(task) local tp = task:get_text_parts() -- get text parts in a message for _,p in ipairs(tp) do -- iterate over text parts array using `ipairs` if p:is_html() then -- if the current part is html part local hc = p:get_html() -- we get HTML context local len = p:get_length() -- and part's length if len < 50 then -- if we have a part that has less than 50 bytes of text local images = hc:get_images() -- then we check for HTML images if images then -- if there are images for _,i in ipairs(images) do -- then iterate over images in the part if i['height'] + i['width'] >= 400 then -- if we have a large image return true -- add symbol end end end end end end end */ /*** * @method html:has_tag(name) * Checks if a specified tag `name` is presented in a part * @param {string} name name of tag to check * @return {boolean} `true` if the tag exists in HTML tree */ LUA_FUNCTION_DEF (html, has_tag); /*** * @method html:check_property(name) * Checks if the HTML has a specific property. Here is the list of available properties: * * - `no_html` - no html tag presented * - `bad_element` - part has some broken elements * - `xml` - part is xhtml * - `unknown_element` - part has some unknown elements * - `duplicate_element` - part has some duplicate elements that should be unique (namely, `title` tag) * - `unbalanced` - part has unbalanced tags * @param {string} name name of property * @return {boolean} true if the part has the specified property */ LUA_FUNCTION_DEF (html, has_property); /*** * @method html:get_images() * Returns a table of images found in html. Each image is, in turn, a table with the following fields: * * - `src` - link to the source * - `height` - height in pixels * - `width` - width in pixels * - `embeded` - `true` if an image is embedded in a message * @return {table} table of images in html part */ LUA_FUNCTION_DEF (html, get_images); /*** * @method html:get_blocks() * Returns a table of html blocks. Each block provides the following data: * * `tag` - corresponding tag * `color` - a triplet (r g b) for font color * `bgcolor` - a triplet (r g b) for background color * `style` - rspamd{text} with the full style description * @return {table} table of blocks in html part */ LUA_FUNCTION_DEF (html, get_blocks); /*** * @method html:foreach_tag(tagname, callback) * Processes HTML tree calling the specified callback for each tag of the specified * type. * * Callback is called with the following attributes: * * - `tag`: html tag structure * - `content_length`: length of content within a tag * * Callback function should return `true` to **stop** processing and `false` to continue * @return nothing */ LUA_FUNCTION_DEF (html, foreach_tag); static const struct luaL_reg htmllib_m[] = { LUA_INTERFACE_DEF (html, has_tag), LUA_INTERFACE_DEF (html, has_property), LUA_INTERFACE_DEF (html, get_images), LUA_INTERFACE_DEF (html, get_blocks), LUA_INTERFACE_DEF (html, foreach_tag), {"__tostring", rspamd_lua_class_tostring}, {NULL, NULL} }; /*** * @method html_tag:get_type() * Returns string representation of HTML type for a tag * @return {string} type of tag */ LUA_FUNCTION_DEF (html_tag, get_type); /*** * @method html_tag:get_extra() * Returns extra data associated with the tag * @return {url|image|nil} extra data associated with the tag */ LUA_FUNCTION_DEF (html_tag, get_extra); /*** * @method html_tag:get_parent() * Returns parent node for a specified tag * @return {html_tag} parent object for a specified tag */ LUA_FUNCTION_DEF (html_tag, get_parent); /*** * @method html_tag:get_flags() * Returns flags a specified tag: * * - `closed`: tag is properly closed * - `closing`: tag is a closing tag * - `broken`: tag is somehow broken * - `unbalanced`: tag is unbalanced * - `xml`: tag is xml tag * @return {table} table of flags */ LUA_FUNCTION_DEF (html_tag, get_flags); /*** * @method html_tag:get_content() * Returns content of tag (approximate for some cases) * @return {rspamd_text} rspamd text with tag's content */ LUA_FUNCTION_DEF (html_tag, get_content); /*** * @method html_tag:get_content_length() * Returns length of a tag's content * @return {number} size of content enclosed within a tag */ LUA_FUNCTION_DEF (html_tag, get_content_length); static const struct luaL_reg taglib_m[] = { LUA_INTERFACE_DEF (html_tag, get_type), LUA_INTERFACE_DEF (html_tag, get_extra), LUA_INTERFACE_DEF (html_tag, get_parent), LUA_INTERFACE_DEF (html_tag, get_flags), LUA_INTERFACE_DEF (html_tag, get_content), LUA_INTERFACE_DEF (html_tag, get_content_length), {"__tostring", rspamd_lua_class_tostring}, {NULL, NULL} }; static struct html_content * lua_check_html (lua_State * L, gint pos) { void *ud = rspamd_lua_check_udata (L, pos, "rspamd{html}"); luaL_argcheck (L, ud != NULL, pos, "'html' expected"); return ud ? *((struct html_content **)ud) : NULL; } static struct html_tag * lua_check_html_tag (lua_State * L, gint pos) { void *ud = rspamd_lua_check_udata (L, pos, "rspamd{html_tag}"); luaL_argcheck (L, ud != NULL, pos, "'html_tag' expected"); return ud ? *((struct html_tag **)ud) : NULL; } static gint lua_html_has_tag (lua_State *L) { struct html_content *hc = lua_check_html (L, 1); const gchar *tagname = luaL_checkstring (L, 2); gboolean ret = FALSE; if (hc && tagname) { if (rspamd_html_tag_seen (hc, tagname)) { ret = TRUE; } } lua_pushboolean (L, ret); return 1; } static gint lua_html_has_property (lua_State *L) { struct html_content *hc = lua_check_html (L, 1); const gchar *propname = luaL_checkstring (L, 2); gboolean ret = FALSE; if (hc && propname) { /* * - `no_html` * - `bad_element` * - `xml` * - `unknown_element` * - `duplicate_element` * - `unbalanced` */ if (strcmp (propname, "no_html") == 0) { ret = hc->flags & RSPAMD_HTML_FLAG_BAD_START; } else if (strcmp (propname, "bad_element") == 0) { ret = hc->flags & RSPAMD_HTML_FLAG_BAD_ELEMENTS; } else if (strcmp (propname, "xml") == 0) { ret = hc->flags & RSPAMD_HTML_FLAG_XML; } else if (strcmp (propname, "unknown_element") == 0) { ret = hc->flags & RSPAMD_HTML_FLAG_UNKNOWN_ELEMENTS; } else if (strcmp (propname, "duplicate_element") == 0) { ret = hc->flags & RSPAMD_HTML_FLAG_DUPLICATE_ELEMENTS; } else if (strcmp (propname, "unbalanced") == 0) { ret = hc->flags & RSPAMD_HTML_FLAG_UNBALANCED; } } lua_pushboolean (L, ret); return 1; } static void lua_html_push_image (lua_State *L, struct html_image *img) { struct html_tag **ptag; lua_newtable (L); if (img->src) { lua_pushstring (L, "src"); lua_pushstring (L, img->src); lua_settable (L, -3); } if (img->tag) { lua_pushstring (L, "tag"); ptag = lua_newuserdata (L, sizeof (gpointer)); *ptag = img->tag; rspamd_lua_setclass (L, "rspamd{html_tag}", -1); lua_settable (L, -3); } lua_pushstring (L, "height"); lua_pushnumber (L, img->height); lua_settable (L, -3); lua_pushstring (L, "width"); lua_pushnumber (L, img->width); lua_settable (L, -3); lua_pushstring (L, "embedded"); lua_pushboolean (L, img->flags & RSPAMD_HTML_FLAG_IMAGE_EMBEDDED); lua_settable (L, -3); } static gint lua_html_get_images (lua_State *L) { struct html_content *hc = lua_check_html (L, 1); struct html_image *img; guint i; if (hc != NULL) { lua_newtable (L); if (hc->images && hc->images->len > 0) { for (i = 0; i < hc->images->len; i ++) { img = g_ptr_array_index (hc->images, i); lua_html_push_image (L, img); lua_rawseti (L, -2, i + 1); } } else { lua_pushnil (L); } } else { lua_pushnil (L); } return 1; } static void lua_html_push_block (lua_State *L, struct html_block *bl) { struct rspamd_lua_text *t; struct html_tag **ptag; lua_createtable (L, 0, 4); if (bl->tag) { lua_pushstring (L, "tag"); ptag = lua_newuserdata (L, sizeof (gpointer)); *ptag = bl->tag; rspamd_lua_setclass (L, "rspamd{html_tag}", -1); lua_settable (L, -3); } if (bl->font_color.valid) { lua_pushstring (L, "color"); lua_newtable (L); lua_pushnumber (L, bl->font_color.d.comp.r); lua_rawseti (L, -2, 1); lua_pushnumber (L, bl->font_color.d.comp.g); lua_rawseti (L, -2, 2); lua_pushnumber (L, bl->font_color.d.comp.b); lua_rawseti (L, -2, 3); lua_settable (L, -3); } if (bl->background_color.valid) { lua_pushstring (L, "bgcolor"); lua_newtable (L); lua_pushnumber (L, bl->background_color.d.comp.r); lua_rawseti (L, -2, 1); lua_pushnumber (L, bl->background_color.d.comp.g); lua_rawseti (L, -2, 2); lua_pushnumber (L, bl->background_color.d.comp.b); lua_rawseti (L, -2, 3); lua_settable (L, -3); } if (bl->style.len > 0) { lua_pushstring (L, "style"); t = lua_newuserdata (L, sizeof (*t)); t->start = bl->style.start; t->len = bl->style.len; t->own = FALSE; lua_settable (L, -3); } } static gint lua_html_get_blocks (lua_State *L) { struct html_content *hc = lua_check_html (L, 1); struct html_block *bl; guint i; if (hc != NULL) { lua_createtable (L, hc->blocks->len, 0); if (hc->blocks && hc->blocks->len > 0) { for (i = 0; i < hc->blocks->len; i ++) { bl = g_ptr_array_index (hc->blocks, i); lua_html_push_block (L, bl); lua_rawseti (L, -2, i + 1); } } else { lua_pushnil (L); } } else { return luaL_error (L, "invalid arguments"); } return 1; } struct lua_html_traverse_ud { lua_State *L; gint cbref; gint tag_id; }; static gboolean lua_html_node_foreach_cb (GNode *n, gpointer d) { struct lua_html_traverse_ud *ud = d; struct html_tag *tag = n->data, **ptag; if (tag && (ud->tag_id == -1 || ud->tag_id == tag->id)) { lua_rawgeti (ud->L, LUA_REGISTRYINDEX, ud->cbref); ptag = lua_newuserdata (ud->L, sizeof (*ptag)); *ptag = tag; rspamd_lua_setclass (ud->L, "rspamd{html_tag}", -1); lua_pushnumber (ud->L, tag->content_length); if (lua_pcall (ud->L, 2, 1, 0) != 0) { msg_err ("error in foreach_tag callback: %s", lua_tostring (ud->L, -1)); lua_pop (ud->L, 1); return TRUE; } if (lua_toboolean (ud->L, -1)) { lua_pop (ud->L, 1); return TRUE; } lua_pop (ud->L, 1); } return FALSE; } static gint lua_html_foreach_tag (lua_State *L) { struct html_content *hc = lua_check_html (L, 1); struct lua_html_traverse_ud ud; const gchar *tagname; gint id; tagname = luaL_checkstring (L, 2); if (hc && tagname && lua_isfunction (L, 3)) { if (hc->html_tags) { if (strcmp (tagname, "any") == 0) { id = -1; } else { id = rspamd_html_tag_by_name (tagname); if (id == -1) { return luaL_error (L, "invalid tagname: %s", tagname); } } lua_pushvalue (L, 3); ud.cbref = luaL_ref (L, LUA_REGISTRYINDEX); ud.L = L; ud.tag_id = id; g_node_traverse (hc->html_tags, G_PRE_ORDER, G_TRAVERSE_ALL, -1, lua_html_node_foreach_cb, &ud); luaL_unref (L, LUA_REGISTRYINDEX, ud.cbref); } } else { return luaL_error (L, "invalid arguments"); } return 0; } static gint lua_html_tag_get_type (lua_State *L) { struct html_tag *tag = lua_check_html_tag (L, 1); const gchar *tagname; if (tag != NULL) { tagname = rspamd_html_tag_by_id (tag->id); if (tagname) { lua_pushstring (L, tagname); } else { lua_pushnil (L); } } else { return luaL_error (L, "invalid arguments"); } return 1; } static gint lua_html_tag_get_parent (lua_State *L) { struct html_tag *tag = lua_check_html_tag (L, 1), **ptag; GNode *node; if (tag != NULL) { node = tag->parent; if (node && node->data) { ptag = lua_newuserdata (L, sizeof (gpointer)); *ptag = node->data; rspamd_lua_setclass (L, "rspamd{html_tag}", -1); } } else { return luaL_error (L, "invalid arguments"); } return 1; } static gint lua_html_tag_get_flags (lua_State *L) { struct html_tag *tag = lua_check_html_tag (L, 1); gint i = 1; if (tag) { /* Push flags */ lua_createtable (L, 4, 0); if (tag->flags & FL_CLOSING) { lua_pushstring (L, "closing"); lua_rawseti (L, -2, i++); } if (tag->flags & FL_CLOSED) { lua_pushstring (L, "closed"); lua_rawseti (L, -2, i++); } if (tag->flags & FL_BROKEN) { lua_pushstring (L, "broken"); lua_rawseti (L, -2, i++); } if (tag->flags & FL_XML) { lua_pushstring (L, "xml"); lua_rawseti (L, -2, i++); } if (tag->flags & RSPAMD_HTML_FLAG_UNBALANCED) { lua_pushstring (L, "unbalanced"); lua_rawseti (L, -2, i++); } } else { return luaL_error (L, "invalid arguments"); } return 1; } static gint lua_html_tag_get_content (lua_State *L) { struct html_tag *tag = lua_check_html_tag (L, 1); struct rspamd_lua_text *t; if (tag) { if (tag->content && tag->content_length) { t = lua_newuserdata (L, sizeof (*t)); rspamd_lua_setclass (L, "rspamd{text}", -1); t->start = tag->content; t->len = tag->content_length; t->own = FALSE; } else { lua_pushnil (L); } } else { return luaL_error (L, "invalid arguments"); } return 1; } static gint lua_html_tag_get_content_length (lua_State *L) { struct html_tag *tag = lua_check_html_tag (L, 1); if (tag) { lua_pushnumber (L, tag->content_length); } else { return luaL_error (L, "invalid arguments"); } return 1; } static gint lua_html_tag_get_extra (lua_State *L) { struct html_tag *tag = lua_check_html_tag (L, 1); struct html_image *img; struct rspamd_url **purl; if (tag) { if (tag->extra) { if (tag->id == Tag_A || tag->id == Tag_IFRAME) { /* For A that's URL */ purl = lua_newuserdata (L, sizeof (gpointer)); *purl = tag->extra; rspamd_lua_setclass (L, "rspamd{url}", -1); } else if (tag->id == Tag_IMG) { img = tag->extra; lua_html_push_image (L, img); } else if (tag->flags & FL_BLOCK) { lua_html_push_block (L, tag->extra); } else { /* Unknown extra ? */ lua_pushnil (L); } } else { lua_pushnil (L); } } else { return luaL_error (L, "invalid arguments"); } return 1; } void luaopen_html (lua_State * L) { rspamd_lua_new_class (L, "rspamd{html}", htmllib_m); lua_pop (L, 1); rspamd_lua_new_class (L, "rspamd{html_tag}", taglib_m); lua_pop (L, 1); }