/*- * 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 "lua_thread_pool.h" #include "libserver/ssl_util.h" #include "utlist.h" #include "unix-std.h" #include static const gchar *M = "rspamd lua tcp"; /*** * @module rspamd_tcp * Rspamd TCP module represents generic TCP asynchronous client available from LUA code. * This module hides all complexity: DNS resolving, sessions management, zero-copy * text transfers and so on under the hood. It can work in partial or complete modes: * * - partial mode is used when you need to call a continuation routine each time data is available for read * - complete mode calls for continuation merely when all data is read from socket (e.g. when a server sends reply and closes a connection) * @example local logger = require "rspamd_logger" local tcp = require "rspamd_tcp" rspamd_config.SYM = function(task) local function cb(err, data) logger.infox('err: %1, data: %2', err, tostring(data)) end tcp.request({ task = task, host = "google.com", port = 80, data = {"GET / HTTP/1.0\r\n", "Host: google.com\r\n", "\r\n"}, callback = cb}) end -- New TCP syntax test rspamd_config:register_symbol({ name = 'TCP_TEST', type = "normal", callback = function(task) local logger = require "rspamd_logger" local function rcpt_done_cb(err, data, conn) logger.errx(task, 'RCPT: got reply: %s, error: %s', data, err) conn:close() end local function rcpt_cb(err, conn) logger.errx(task, 'written rcpt, error: %s', err) conn:add_read(rcpt_done_cb, '\r\n') end local function from_done_cb(err, data, conn) logger.errx(task, 'FROM: got reply: %s, error: %s', data, err) conn:add_write(rcpt_cb, 'RCPT TO: \r\n') end local function from_cb(err, conn) logger.errx(task, 'written from, error: %s', err) conn:add_read(from_done_cb, '\r\n') end local function hello_done_cb(err, data, conn) logger.errx(task, 'HELO: got reply: %s, error: %s', data, err) conn:add_write(from_cb, 'MAIL FROM: <>\r\n') end local function hello_cb(err, conn) logger.errx(task, 'written hello, error: %s', err) conn:add_read(hello_done_cb, '\r\n') end local function init_cb(err, data, conn) logger.errx(task, 'got reply: %s, error: %s', data, err) conn:add_write(hello_cb, 'HELO example.com\r\n') end tcp.request{ task = task, callback = init_cb, stop_pattern = '\r\n', host = 'mx.yandex.ru', port = 25 } end, priority = 10, }) */ LUA_FUNCTION_DEF(tcp, request); /*** * @function rspamd_tcp.connect_sync() * * Creates pseudo-synchronous TCP connection. * Each method of the connection requiring IO, becomes a yielding point, * i.e. current thread Lua thread is get suspended and resumes as soon as IO is done * * This class represents low-level API, using of "lua_tcp_sync" module is recommended. * * @example local rspamd_tcp = require "rspamd_tcp" local logger = require "rspamd_logger" local function http_simple_tcp_symbol(task) local err local is_ok, connection = rspamd_tcp.connect_sync { task = task, host = '127.0.0.1', timeout = 20, port = 18080, ssl = false, -- If SSL connection is needed ssl_verify = true, -- set to false if verify is not needed } is_ok, err = connection:write('GET /request_sync HTTP/1.1\r\nConnection: keep-alive\r\n\r\n') logger.errx(task, 'write %1, %2', is_ok, err) if not is_ok then logger.errx(task, 'write error: %1', err) end local data is_ok, data = connection:read_once(); logger.errx(task, 'read_once: is_ok: %1, data: %2', is_ok, data) is_ok, err = connection:write("POST /request2 HTTP/1.1\r\n\r\n") logger.errx(task, 'write[2] %1, %2', is_ok, err) is_ok, data = connection:read_once(); logger.errx(task, 'read_once[2]: is_ok %1, data: %2', is_ok, data) connection:close() end rspamd_config:register_symbol({ name = 'SIMPLE_TCP_TEST', score = 1.0, callback = http_simple_tcp_symbol, no_squeeze = true }) * */ LUA_FUNCTION_DEF(tcp, connect_sync); /*** * @method tcp:close() * * Closes TCP connection */ LUA_FUNCTION_DEF(tcp, close); /*** * @method tcp:add_read(callback, [pattern]) * * Adds new read event to the tcp connection * @param {function} callback to be called when data is read * @param {string} pattern optional stop pattern */ LUA_FUNCTION_DEF(tcp, add_read); /*** * @method tcp:add_write(callback, data) * * Adds new write event to the tcp connection * @param {function} optional callback to be called when data is completely written * @param {table/string/text} data to send to a remote server */ LUA_FUNCTION_DEF(tcp, add_write); /*** * @method tcp:shift_callback() * * Shifts the current callback and go to the next one (if any) */ LUA_FUNCTION_DEF(tcp, shift_callback); /*** * @method tcp:starttls([no_verify]) * * Starts tls connection * @param {boolean} no_verify used to skip ssl verification */ LUA_FUNCTION_DEF(tcp, starttls); static const struct luaL_reg tcp_libf[] = { LUA_INTERFACE_DEF(tcp, request), {"new", lua_tcp_request}, {"connect", lua_tcp_request}, {"connect_sync", lua_tcp_connect_sync}, {NULL, NULL}}; static const struct luaL_reg tcp_libm[] = { LUA_INTERFACE_DEF(tcp, close), LUA_INTERFACE_DEF(tcp, add_read), LUA_INTERFACE_DEF(tcp, add_write), LUA_INTERFACE_DEF(tcp, shift_callback), LUA_INTERFACE_DEF(tcp, starttls), {"__tostring", rspamd_lua_class_tostring}, {NULL, NULL}}; /*** * @method tcp:close() * * Closes TCP connection */ LUA_FUNCTION_DEF(tcp_sync, close); /*** * @method read_once() * * Performs one read operation. If syscall returned with EAGAIN/EINT, * restarts the operation, so it always returns either data or error. */ LUA_FUNCTION_DEF(tcp_sync, read_once); /*** * @method eof() * * True if last IO operation ended with EOF, i.e. endpoint closed connection */ LUA_FUNCTION_DEF(tcp_sync, eof); /*** * @method shutdown() * * Half-shutdown TCP connection */ LUA_FUNCTION_DEF(tcp_sync, shutdown); /*** * @method write() * * Writes data into the stream. If syscall returned with EAGAIN/EINT * restarts the operation. If performs write() until all the passed * data is written completely. */ LUA_FUNCTION_DEF(tcp_sync, write); LUA_FUNCTION_DEF(tcp_sync, gc); static void lua_tcp_sync_session_dtor(gpointer ud); static const struct luaL_reg tcp_sync_libm[] = { LUA_INTERFACE_DEF(tcp_sync, close), LUA_INTERFACE_DEF(tcp_sync, read_once), LUA_INTERFACE_DEF(tcp_sync, write), LUA_INTERFACE_DEF(tcp_sync, eof), LUA_INTERFACE_DEF(tcp_sync, shutdown), {"__gc", lua_tcp_sync_gc}, {"__tostring", rspamd_lua_class_tostring}, {NULL, NULL}}; struct lua_tcp_read_handler { gchar *stop_pattern; guint plen; gint cbref; }; struct lua_tcp_write_handler { struct iovec *iov; guint iovlen; gint cbref; gsize pos; gsize total_bytes; }; enum lua_tcp_handler_type { LUA_WANT_WRITE = 0, LUA_WANT_READ, LUA_WANT_CONNECT }; struct lua_tcp_handler { union { struct lua_tcp_read_handler r; struct lua_tcp_write_handler w; } h; enum lua_tcp_handler_type type; }; struct lua_tcp_dtor { rspamd_mempool_destruct_t dtor; void *data; struct lua_tcp_dtor *next; }; #define LUA_TCP_FLAG_PARTIAL (1u << 0u) #define LUA_TCP_FLAG_SHUTDOWN (1u << 2u) #define LUA_TCP_FLAG_CONNECTED (1u << 3u) #define LUA_TCP_FLAG_FINISHED (1u << 4u) #define LUA_TCP_FLAG_SYNC (1u << 5u) #define LUA_TCP_FLAG_RESOLVED (1u << 6u) #define LUA_TCP_FLAG_SSL (1u << 7u) #define LUA_TCP_FLAG_SSL_NOVERIFY (1u << 8u) #undef TCP_DEBUG_REFS #ifdef TCP_DEBUG_REFS #define TCP_RETAIN(x) \ do { \ msg_info("retain ref %p, refcount: %d", (x), (x)->ref.refcount); \ REF_RETAIN(x); \ } while (0) #define TCP_RELEASE(x) \ do { \ msg_info("release ref %p, refcount: %d", (x), (x)->ref.refcount); \ REF_RELEASE(x); \ } while (0) #else #define TCP_RETAIN(x) REF_RETAIN(x) #define TCP_RELEASE(x) REF_RELEASE(x) #endif struct lua_tcp_cbdata { struct rspamd_async_session *session; struct rspamd_async_event *async_ev; struct ev_loop *event_loop; rspamd_inet_addr_t *addr; GByteArray *in; GQueue *handlers; gint fd; gint connect_cb; guint port; guint flags; gchar tag[7]; struct rspamd_io_ev ev; struct lua_tcp_dtor *dtors; ref_entry_t ref; struct rspamd_task *task; struct rspamd_symcache_dynamic_item *item; struct thread_entry *thread; struct rspamd_config *cfg; struct rspamd_ssl_connection *ssl_conn; gchar *hostname; struct upstream *up; gboolean eof; }; #define IS_SYNC(c) (((c)->flags & LUA_TCP_FLAG_SYNC) != 0) #define msg_debug_tcp(...) rspamd_conditional_debug_fast(NULL, cbd->addr, \ rspamd_lua_tcp_log_id, "lua_tcp", cbd->tag, \ G_STRFUNC, \ __VA_ARGS__) INIT_LOG_MODULE(lua_tcp) static void lua_tcp_handler(int fd, short what, gpointer ud); static void lua_tcp_plan_handler_event(struct lua_tcp_cbdata *cbd, gboolean can_read, gboolean can_write); static void lua_tcp_unregister_event(struct lua_tcp_cbdata *cbd); static void lua_tcp_void_finalyser(gpointer arg) { } static const gdouble default_tcp_timeout = 5.0; static struct rspamd_dns_resolver * lua_tcp_global_resolver(struct ev_loop *ev_base, struct rspamd_config *cfg) { static struct rspamd_dns_resolver *global_resolver; if (cfg && cfg->dns_resolver) { return cfg->dns_resolver; } if (global_resolver == NULL) { global_resolver = rspamd_dns_resolver_init(NULL, ev_base, cfg); } return global_resolver; } static gboolean lua_tcp_shift_handler(struct lua_tcp_cbdata *cbd) { struct lua_tcp_handler *hdl; hdl = g_queue_pop_head(cbd->handlers); if (hdl == NULL) { /* We are done */ return FALSE; } if (hdl->type == LUA_WANT_READ) { msg_debug_tcp("switch from read handler %d", hdl->h.r.cbref); if (hdl->h.r.cbref && hdl->h.r.cbref != -1) { luaL_unref(cbd->cfg->lua_state, LUA_REGISTRYINDEX, hdl->h.r.cbref); } if (hdl->h.r.stop_pattern) { g_free(hdl->h.r.stop_pattern); } } else if (hdl->type == LUA_WANT_WRITE) { msg_debug_tcp("switch from write handler %d", hdl->h.r.cbref); if (hdl->h.w.cbref && hdl->h.w.cbref != -1) { luaL_unref(cbd->cfg->lua_state, LUA_REGISTRYINDEX, hdl->h.w.cbref); } if (hdl->h.w.iov) { g_free(hdl->h.w.iov); } } else { msg_debug_tcp("removing connect handler"); /* LUA_WANT_CONNECT: it doesn't allocate anything, nothing to do here */ } g_free(hdl); return TRUE; } static void lua_tcp_fin(gpointer arg) { struct lua_tcp_cbdata *cbd = (struct lua_tcp_cbdata *) arg; struct lua_tcp_dtor *dtor, *dttmp; if (IS_SYNC(cbd) && cbd->task) { /* pointer is now becoming invalid, we should remove registered destructor, all the necessary steps are done here */ rspamd_mempool_replace_destructor(cbd->task->task_pool, lua_tcp_sync_session_dtor, cbd, NULL); } msg_debug_tcp("finishing TCP %s connection", IS_SYNC(cbd) ? "sync" : "async"); if (cbd->connect_cb != -1) { luaL_unref(cbd->cfg->lua_state, LUA_REGISTRYINDEX, cbd->connect_cb); } if (cbd->ssl_conn) { /* TODO: postpone close in case ssl is used ! */ rspamd_ssl_connection_free(cbd->ssl_conn); } if (cbd->fd != -1) { rspamd_ev_watcher_stop(cbd->event_loop, &cbd->ev); close(cbd->fd); cbd->fd = -1; } if (cbd->addr) { rspamd_inet_address_free(cbd->addr); } if (cbd->up) { rspamd_upstream_unref(cbd->up); } while (lua_tcp_shift_handler(cbd)) {} g_queue_free(cbd->handlers); LL_FOREACH_SAFE(cbd->dtors, dtor, dttmp) { dtor->dtor(dtor->data); g_free(dtor); } g_byte_array_unref(cbd->in); g_free(cbd->hostname); g_free(cbd); } static struct lua_tcp_cbdata * lua_check_tcp(lua_State *L, gint pos) { void *ud = rspamd_lua_check_udata(L, pos, "rspamd{tcp}"); luaL_argcheck(L, ud != NULL, pos, "'tcp' expected"); return ud ? *((struct lua_tcp_cbdata **) ud) : NULL; } static void lua_tcp_maybe_free(struct lua_tcp_cbdata *cbd) { if (IS_SYNC(cbd)) { /* * in this mode, we don't remove object, we only remove the event * Object is owned by lua and will be destroyed on __gc() */ if (cbd->item) { rspamd_symcache_item_async_dec_check(cbd->task, cbd->item, M); cbd->item = NULL; } if (cbd->async_ev) { rspamd_session_remove_event(cbd->session, lua_tcp_void_finalyser, cbd); } cbd->async_ev = NULL; } else { if (cbd->item) { rspamd_symcache_item_async_dec_check(cbd->task, cbd->item, M); cbd->item = NULL; } if (cbd->async_ev) { rspamd_session_remove_event(cbd->session, lua_tcp_fin, cbd); } else { lua_tcp_fin(cbd); } } } #ifdef __GNUC__ static void lua_tcp_push_error(struct lua_tcp_cbdata *cbd, gboolean is_fatal, const char *err, ...) __attribute__((format(printf, 3, 4))); #endif static void lua_tcp_resume_thread_error_argp(struct lua_tcp_cbdata *cbd, const gchar *error, va_list argp); static void lua_tcp_push_error(struct lua_tcp_cbdata *cbd, gboolean is_fatal, const char *err, ...) { va_list ap, ap_copy; struct lua_tcp_cbdata **pcbd; struct lua_tcp_handler *hdl; gint cbref, top; struct lua_callback_state cbs; lua_State *L; gboolean callback_called = FALSE; if (is_fatal && cbd->up) { rspamd_upstream_fail(cbd->up, false, err); } if (cbd->thread) { va_start(ap, err); lua_tcp_resume_thread_error_argp(cbd, err, ap); va_end(ap); return; } lua_thread_pool_prepare_callback(cbd->cfg->lua_thread_pool, &cbs); L = cbs.L; va_start(ap, err); for (;;) { hdl = g_queue_peek_head(cbd->handlers); if (hdl == NULL) { break; } if (hdl->type == LUA_WANT_READ) { cbref = hdl->h.r.cbref; } else { cbref = hdl->h.w.cbref; } if (cbref != -1) { top = lua_gettop(L); lua_rawgeti(L, LUA_REGISTRYINDEX, cbref); /* Error message */ va_copy(ap_copy, ap); lua_pushvfstring(L, err, ap_copy); va_end(ap_copy); /* Body */ lua_pushnil(L); /* Connection */ pcbd = lua_newuserdata(L, sizeof(*pcbd)); *pcbd = cbd; rspamd_lua_setclass(L, "rspamd{tcp}", -1); TCP_RETAIN(cbd); if (cbd->item) { rspamd_symcache_set_cur_item(cbd->task, cbd->item); } if (lua_pcall(L, 3, 0, 0) != 0) { msg_info("callback call failed: %s", lua_tostring(L, -1)); } lua_settop(L, top); TCP_RELEASE(cbd); if ((cbd->flags & (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) == (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) { /* A callback has called `close` method, so we need to release a refcount */ TCP_RELEASE(cbd); } callback_called = TRUE; } if (!is_fatal) { if (callback_called) { /* Stop on the first callback found */ break; } else { /* Shift to another callback to inform about non fatal error */ msg_debug_tcp("non fatal error find matching callback"); lua_tcp_shift_handler(cbd); continue; } } else { msg_debug_tcp("fatal error rollback all handlers"); lua_tcp_shift_handler(cbd); } } va_end(ap); lua_thread_pool_restore_callback(&cbs); } static void lua_tcp_resume_thread(struct lua_tcp_cbdata *cbd, const guint8 *str, gsize len); static void lua_tcp_push_data(struct lua_tcp_cbdata *cbd, const guint8 *str, gsize len) { struct rspamd_lua_text *t; struct lua_tcp_cbdata **pcbd; struct lua_tcp_handler *hdl; gint cbref, arg_cnt, top; struct lua_callback_state cbs; lua_State *L; if (cbd->thread) { lua_tcp_resume_thread(cbd, str, len); return; } lua_thread_pool_prepare_callback(cbd->cfg->lua_thread_pool, &cbs); L = cbs.L; hdl = g_queue_peek_head(cbd->handlers); g_assert(hdl != NULL); if (hdl->type == LUA_WANT_READ) { cbref = hdl->h.r.cbref; } else { cbref = hdl->h.w.cbref; } if (cbref != -1) { top = lua_gettop(L); lua_rawgeti(L, LUA_REGISTRYINDEX, cbref); /* Error */ lua_pushnil(L); /* Body */ if (hdl->type == LUA_WANT_READ) { t = lua_newuserdata(L, sizeof(*t)); rspamd_lua_setclass(L, "rspamd{text}", -1); t->start = (const gchar *) str; t->len = len; t->flags = 0; arg_cnt = 3; } else { arg_cnt = 2; } /* Connection */ pcbd = lua_newuserdata(L, sizeof(*pcbd)); *pcbd = cbd; rspamd_lua_setclass(L, "rspamd{tcp}", -1); TCP_RETAIN(cbd); if (cbd->item) { rspamd_symcache_set_cur_item(cbd->task, cbd->item); } if (lua_pcall(L, arg_cnt, 0, 0) != 0) { msg_info("callback call failed: %s", lua_tostring(L, -1)); } lua_settop(L, top); TCP_RELEASE(cbd); if ((cbd->flags & (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) == (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) { /* A callback has called `close` method, so we need to release a refcount */ TCP_RELEASE(cbd); } } lua_thread_pool_restore_callback(&cbs); } static void lua_tcp_resume_thread_error_argp(struct lua_tcp_cbdata *cbd, const gchar *error, va_list argp) { struct thread_entry *thread = cbd->thread; lua_State *L = thread->lua_state; lua_pushboolean(L, FALSE); lua_pushvfstring(L, error, argp); lua_tcp_shift_handler(cbd); // lua_tcp_unregister_event (cbd); lua_thread_pool_set_running_entry(cbd->cfg->lua_thread_pool, cbd->thread); lua_thread_resume(thread, 2); TCP_RELEASE(cbd); } static void lua_tcp_resume_thread(struct lua_tcp_cbdata *cbd, const guint8 *str, gsize len) { /* * typical call returns: * * read: * error: * (nil, error message) * got data: * (true, data) * write/connect: * error: * (nil, error message) * wrote * (true) */ lua_State *L = cbd->thread->lua_state; struct lua_tcp_handler *hdl; hdl = g_queue_peek_head(cbd->handlers); lua_pushboolean(L, TRUE); if (hdl->type == LUA_WANT_READ) { lua_pushlstring(L, str, len); } else { lua_pushnil(L); } lua_tcp_shift_handler(cbd); lua_thread_pool_set_running_entry(cbd->cfg->lua_thread_pool, cbd->thread); if (cbd->item) { rspamd_symcache_set_cur_item(cbd->task, cbd->item); } lua_thread_resume(cbd->thread, 2); TCP_RELEASE(cbd); } static void lua_tcp_plan_read(struct lua_tcp_cbdata *cbd) { rspamd_ev_watcher_reschedule(cbd->event_loop, &cbd->ev, EV_READ); } static void lua_tcp_connect_helper(struct lua_tcp_cbdata *cbd) { /* This is used for sync mode only */ lua_State *L = cbd->thread->lua_state; struct lua_tcp_cbdata **pcbd; lua_pushboolean(L, TRUE); lua_thread_pool_set_running_entry(cbd->cfg->lua_thread_pool, cbd->thread); pcbd = lua_newuserdata(L, sizeof(*pcbd)); *pcbd = cbd; rspamd_lua_setclass(L, "rspamd{tcp_sync}", -1); msg_debug_tcp("tcp connected"); lua_tcp_shift_handler(cbd); // lua_tcp_unregister_event (cbd); lua_thread_resume(cbd->thread, 2); TCP_RELEASE(cbd); } static void lua_tcp_write_helper(struct lua_tcp_cbdata *cbd) { struct iovec *start; guint niov, i; gint flags = 0; bool allocated_iov = false; gsize remain; gssize r; struct iovec *cur_iov; struct lua_tcp_handler *hdl; struct lua_tcp_write_handler *wh; struct msghdr msg; hdl = g_queue_peek_head(cbd->handlers); g_assert(hdl != NULL && hdl->type == LUA_WANT_WRITE); wh = &hdl->h.w; if (wh->pos == wh->total_bytes) { goto call_finish_handler; } start = &wh->iov[0]; niov = wh->iovlen; remain = wh->pos; /* We know that niov is small enough for that */ if (niov < 1024) { cur_iov = g_alloca(niov * sizeof(struct iovec)); } else { cur_iov = g_malloc0(niov * sizeof(struct iovec)); allocated_iov = true; } memcpy(cur_iov, wh->iov, niov * sizeof(struct iovec)); for (i = 0; i < wh->iovlen && remain > 0; i++) { /* Find out the first iov required */ start = &cur_iov[i]; if (start->iov_len <= remain) { remain -= start->iov_len; start = &cur_iov[i + 1]; niov--; } else { start->iov_base = (void *) ((char *) start->iov_base + remain); start->iov_len -= remain; remain = 0; } } memset(&msg, 0, sizeof(msg)); msg.msg_iov = start; msg.msg_iovlen = MIN(IOV_MAX, niov); g_assert(niov > 0); #ifdef MSG_NOSIGNAL flags = MSG_NOSIGNAL; #endif msg_debug_tcp("want write %d io vectors of %d", (int) msg.msg_iovlen, (int) niov); if (cbd->ssl_conn) { r = rspamd_ssl_writev(cbd->ssl_conn, msg.msg_iov, msg.msg_iovlen); } else { r = sendmsg(cbd->fd, &msg, flags); } if (allocated_iov) { g_free(cur_iov); } if (r == -1) { if (!(cbd->ssl_conn)) { if (errno == EAGAIN || errno == EWOULDBLOCK || errno == EINTR) { msg_debug_tcp("got temporary failure, retry write"); lua_tcp_plan_handler_event(cbd, TRUE, TRUE); return; } else { lua_tcp_push_error(cbd, TRUE, "IO write error while trying to write %d bytes: %s", (gint) remain, strerror(errno)); msg_debug_tcp("write error, terminate connection"); TCP_RELEASE(cbd); } } return; } else { wh->pos += r; } msg_debug_tcp("written %z bytes: %z/%z", r, wh->pos, wh->total_bytes); if (wh->pos >= wh->total_bytes) { goto call_finish_handler; } else { /* Want to write more */ if (r > 0) { /* XXX: special case: we know that we want to write more data * than it is available in iov function. * * Hence, we need to check if we can write more at some point... */ lua_tcp_write_helper(cbd); } } return; call_finish_handler: msg_debug_tcp("finishing TCP write, calling TCP handler"); if ((cbd->flags & LUA_TCP_FLAG_SHUTDOWN)) { /* Half close the connection */ shutdown(cbd->fd, SHUT_WR); cbd->flags &= ~LUA_TCP_FLAG_SHUTDOWN; } if (cbd->up) { rspamd_upstream_ok(cbd->up); } lua_tcp_push_data(cbd, NULL, 0); if (!IS_SYNC(cbd)) { lua_tcp_shift_handler(cbd); lua_tcp_plan_handler_event(cbd, TRUE, TRUE); } } static gboolean lua_tcp_process_read_handler(struct lua_tcp_cbdata *cbd, struct lua_tcp_read_handler *rh, gboolean eof) { guint slen; goffset pos; if (rh->stop_pattern) { slen = rh->plen; if (cbd->in->len >= slen) { if ((pos = rspamd_substring_search(cbd->in->data, cbd->in->len, rh->stop_pattern, slen)) != -1) { msg_debug_tcp("found TCP stop pattern"); lua_tcp_push_data(cbd, cbd->in->data, pos); if (!IS_SYNC(cbd)) { lua_tcp_shift_handler(cbd); } if (pos + slen < cbd->in->len) { /* We have a leftover */ memmove(cbd->in->data, cbd->in->data + pos + slen, cbd->in->len - (pos + slen)); cbd->in->len = cbd->in->len - (pos + slen); } else { cbd->in->len = 0; } return TRUE; } else { /* Plan new read */ msg_debug_tcp("NOT found TCP stop pattern"); if (!cbd->eof) { lua_tcp_plan_read(cbd); } else { /* Got session finished but no stop pattern */ lua_tcp_push_error(cbd, TRUE, "IO read error: connection terminated"); } } } } else { msg_debug_tcp("read TCP partial data %d bytes", cbd->in->len); slen = cbd->in->len; /* we have eaten all the data, handler should not know that there is something */ cbd->in->len = 0; lua_tcp_push_data(cbd, cbd->in->data, slen); if (!IS_SYNC(cbd)) { lua_tcp_shift_handler(cbd); } return TRUE; } return FALSE; } static void lua_tcp_process_read(struct lua_tcp_cbdata *cbd, guchar *in, gssize r) { struct lua_tcp_handler *hdl; struct lua_tcp_read_handler *rh; hdl = g_queue_peek_head(cbd->handlers); g_assert(hdl != NULL && hdl->type == LUA_WANT_READ); rh = &hdl->h.r; if (r > 0) { if (cbd->flags & LUA_TCP_FLAG_PARTIAL) { lua_tcp_push_data(cbd, in, r); /* Plan next event */ lua_tcp_plan_read(cbd); } else { g_byte_array_append(cbd->in, in, r); if (!lua_tcp_process_read_handler(cbd, rh, FALSE)) { /* Plan more read */ lua_tcp_plan_read(cbd); } else { /* Go towards the next handler */ if (!IS_SYNC(cbd)) { lua_tcp_plan_handler_event(cbd, TRUE, TRUE); } } } } else if (r == 0) { /* EOF */ cbd->eof = TRUE; if (cbd->in->len > 0) { /* We have some data to process */ lua_tcp_process_read_handler(cbd, rh, TRUE); } else { lua_tcp_push_error(cbd, TRUE, "IO read error: connection terminated"); if ((cbd->flags & LUA_TCP_FLAG_FINISHED)) { /* A callback has called `close` method, so we need to release a refcount */ TCP_RELEASE(cbd); } } lua_tcp_plan_handler_event(cbd, FALSE, FALSE); } else { /* An error occurred */ if (errno == EAGAIN || errno == EINTR) { /* Restart call */ lua_tcp_plan_read(cbd); return; } /* Fatal error */ cbd->eof = TRUE; if (cbd->in->len > 0) { /* We have some data to process */ lua_tcp_process_read_handler(cbd, rh, TRUE); } else { lua_tcp_push_error(cbd, TRUE, "IO read error while trying to read data: %s", strerror(errno)); if ((cbd->flags & LUA_TCP_FLAG_FINISHED)) { /* A callback has called `close` method, so we need to release a refcount */ TCP_RELEASE(cbd); } } lua_tcp_plan_handler_event(cbd, FALSE, FALSE); } } static void lua_tcp_handler(int fd, short what, gpointer ud) { struct lua_tcp_cbdata *cbd = ud; guchar inbuf[8192]; gssize r; gint so_error = 0; socklen_t so_len = sizeof(so_error); struct lua_callback_state cbs; lua_State *L; enum lua_tcp_handler_type event_type; TCP_RETAIN(cbd); msg_debug_tcp("processed TCP event: %d", what); struct lua_tcp_handler *rh = g_queue_peek_head(cbd->handlers); event_type = rh->type; rspamd_ev_watcher_stop(cbd->event_loop, &cbd->ev); if (what == EV_READ) { if (cbd->ssl_conn) { r = rspamd_ssl_read(cbd->ssl_conn, inbuf, sizeof(inbuf)); } else { r = read(cbd->fd, inbuf, sizeof(inbuf)); } lua_tcp_process_read(cbd, inbuf, r); } else if (what == EV_WRITE) { if (!(cbd->flags & LUA_TCP_FLAG_CONNECTED)) { if (getsockopt(fd, SOL_SOCKET, SO_ERROR, &so_error, &so_len) == -1) { lua_tcp_push_error(cbd, TRUE, "Cannot get socket error: %s", strerror(errno)); TCP_RELEASE(cbd); goto out; } else if (so_error != 0) { lua_tcp_push_error(cbd, TRUE, "Socket error detected: %s", strerror(so_error)); TCP_RELEASE(cbd); goto out; } else { cbd->flags |= LUA_TCP_FLAG_CONNECTED; if (cbd->connect_cb != -1) { struct lua_tcp_cbdata **pcbd; gint top; lua_thread_pool_prepare_callback(cbd->cfg->lua_thread_pool, &cbs); L = cbs.L; top = lua_gettop(L); lua_rawgeti(L, LUA_REGISTRYINDEX, cbd->connect_cb); pcbd = lua_newuserdata(L, sizeof(*pcbd)); *pcbd = cbd; TCP_RETAIN(cbd); rspamd_lua_setclass(L, "rspamd{tcp}", -1); if (cbd->item) { rspamd_symcache_set_cur_item(cbd->task, cbd->item); } if (lua_pcall(L, 1, 0, 0) != 0) { msg_info("callback call failed: %s", lua_tostring(L, -1)); } lua_settop(L, top); TCP_RELEASE(cbd); lua_thread_pool_restore_callback(&cbs); if ((cbd->flags & (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) == (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) { /* A callback has called `close` method, so we need to release a refcount */ TCP_RELEASE(cbd); } } } } if (event_type == LUA_WANT_WRITE) { lua_tcp_write_helper(cbd); } else if (event_type == LUA_WANT_CONNECT) { lua_tcp_connect_helper(cbd); } else { g_assert_not_reached(); } if ((cbd->flags & (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) == (LUA_TCP_FLAG_FINISHED | LUA_TCP_FLAG_CONNECTED)) { /* A callback has called `close` method, so we need to release a refcount */ TCP_RELEASE(cbd); } } else { lua_tcp_push_error(cbd, TRUE, "IO timeout"); TCP_RELEASE(cbd); } out: TCP_RELEASE(cbd); } static void lua_tcp_plan_handler_event(struct lua_tcp_cbdata *cbd, gboolean can_read, gboolean can_write) { struct lua_tcp_handler *hdl; hdl = g_queue_peek_head(cbd->handlers); if (hdl == NULL) { if (!(cbd->flags & LUA_TCP_FLAG_FINISHED)) { /* We are finished with a connection */ msg_debug_tcp("no handlers left, finish session"); cbd->flags |= LUA_TCP_FLAG_FINISHED; TCP_RELEASE(cbd); } } else { if (hdl->type == LUA_WANT_READ) { /* We need to check if we have some leftover in the buffer */ if (cbd->in->len > 0) { msg_debug_tcp("process read buffer leftover"); if (lua_tcp_process_read_handler(cbd, &hdl->h.r, FALSE)) { if (!IS_SYNC(cbd)) { /* We can go to the next handler */ lua_tcp_plan_handler_event(cbd, can_read, can_write); } } } else { if (can_read) { /* We need to plan a new event */ msg_debug_tcp("plan new read"); rspamd_ev_watcher_reschedule(cbd->event_loop, &cbd->ev, EV_READ); } else { /* Cannot read more */ msg_debug_tcp("cannot read more"); lua_tcp_push_error(cbd, FALSE, "EOF, cannot read more data"); if (!IS_SYNC(cbd)) { lua_tcp_shift_handler(cbd); lua_tcp_plan_handler_event(cbd, can_read, can_write); } } } } else if (hdl->type == LUA_WANT_WRITE) { /* * We need to plan write event if there is something in the * write request */ if (hdl->h.w.pos < hdl->h.w.total_bytes) { msg_debug_tcp("plan new write"); if (can_write) { rspamd_ev_watcher_reschedule(cbd->event_loop, &cbd->ev, EV_WRITE); } else { /* Cannot write more */ lua_tcp_push_error(cbd, FALSE, "EOF, cannot write more data"); if (!IS_SYNC(cbd)) { lua_tcp_shift_handler(cbd); lua_tcp_plan_handler_event(cbd, can_read, can_write); } } } else { /* We shouldn't have empty write handlers */ g_assert_not_reached(); } } else { /* LUA_WANT_CONNECT */ msg_debug_tcp("plan new connect"); rspamd_ev_watcher_reschedule(cbd->event_loop, &cbd->ev, EV_WRITE); } } } static gboolean lua_tcp_register_event(struct lua_tcp_cbdata *cbd) { if (cbd->session) { event_finalizer_t fin = IS_SYNC(cbd) ? lua_tcp_void_finalyser : lua_tcp_fin; if (cbd->item) { cbd->async_ev = rspamd_session_add_event_full(cbd->session, fin, cbd, M, rspamd_symcache_dyn_item_name(cbd->task, cbd->item)); } else { cbd->async_ev = rspamd_session_add_event(cbd->session, fin, cbd, M); } if (!cbd->async_ev) { return FALSE; } } return TRUE; } static void lua_tcp_register_watcher(struct lua_tcp_cbdata *cbd) { if (cbd->item && cbd->task) { rspamd_symcache_item_async_inc(cbd->task, cbd->item, M); } } static void lua_tcp_ssl_on_error(gpointer ud, GError *err) { struct lua_tcp_cbdata *cbd = (struct lua_tcp_cbdata *) ud; if (err) { lua_tcp_push_error(cbd, TRUE, "ssl error: %s", err->message); } else { lua_tcp_push_error(cbd, TRUE, "ssl error: unknown error"); } TCP_RELEASE(cbd); } static gboolean lua_tcp_make_connection(struct lua_tcp_cbdata *cbd) { int fd; rspamd_inet_address_set_port(cbd->addr, cbd->port); fd = rspamd_inet_address_connect(cbd->addr, SOCK_STREAM, TRUE); if (fd == -1) { if (cbd->session) { rspamd_mempool_t *pool = rspamd_session_mempool(cbd->session); msg_info_pool("cannot connect to %s (%s): %s", rspamd_inet_address_to_string(cbd->addr), cbd->hostname, strerror(errno)); } else { msg_info("cannot connect to %s (%s): %s", rspamd_inet_address_to_string(cbd->addr), cbd->hostname, strerror(errno)); } return FALSE; } cbd->fd = fd; #if 0 if (!(cbd->flags & LUA_TCP_FLAG_RESOLVED)) { /* We come here without resolving, so we need to add a watcher */ lua_tcp_register_watcher (cbd); } else { cbd->flags |= LUA_TCP_FLAG_RESOLVED; } #endif if (cbd->flags & LUA_TCP_FLAG_SSL) { gpointer ssl_ctx; gboolean verify_peer; if (cbd->flags & LUA_TCP_FLAG_SSL_NOVERIFY) { ssl_ctx = cbd->cfg->libs_ctx->ssl_ctx_noverify; verify_peer = FALSE; } else { ssl_ctx = cbd->cfg->libs_ctx->ssl_ctx; verify_peer = TRUE; } cbd->ssl_conn = rspamd_ssl_connection_new(ssl_ctx, cbd->event_loop, verify_peer, cbd->tag); if (!rspamd_ssl_connect_fd(cbd->ssl_conn, fd, cbd->hostname, &cbd->ev, cbd->ev.timeout, lua_tcp_handler, lua_tcp_ssl_on_error, cbd)) { lua_tcp_push_error(cbd, TRUE, "ssl connection failed: %s", strerror(errno)); return FALSE; } else { lua_tcp_register_event(cbd); } } else { rspamd_ev_watcher_init(&cbd->ev, cbd->fd, EV_WRITE, lua_tcp_handler, cbd); lua_tcp_register_event(cbd); lua_tcp_plan_handler_event(cbd, TRUE, TRUE); } return TRUE; } static void lua_tcp_dns_handler(struct rdns_reply *reply, gpointer ud) { struct lua_tcp_cbdata *cbd = (struct lua_tcp_cbdata *) ud; const struct rdns_request_name *rn; if (reply->code != RDNS_RC_NOERROR) { rn = rdns_request_get_name(reply->request, NULL); lua_tcp_push_error(cbd, TRUE, "unable to resolve host: %s", rn->name); TCP_RELEASE(cbd); } else { /* * We set this flag as it means that we have already registered the watcher * when started DNS query */ struct rdns_reply_entry *entry; DL_FOREACH(reply->entries, entry) { if (entry->type == RDNS_REQUEST_A) { cbd->addr = rspamd_inet_address_new(AF_INET, &entry->content.a.addr); break; } else if (entry->type == RDNS_REQUEST_AAAA) { cbd->addr = rspamd_inet_address_new(AF_INET6, &entry->content.aaa.addr); break; } } if (cbd->addr == NULL) { rn = rdns_request_get_name(reply->request, NULL); lua_tcp_push_error(cbd, TRUE, "unable to resolve host: %s; no records with this name", rn->name); TCP_RELEASE(cbd); return; } cbd->flags |= LUA_TCP_FLAG_RESOLVED; rspamd_inet_address_set_port(cbd->addr, cbd->port); if (!lua_tcp_make_connection(cbd)) { lua_tcp_push_error(cbd, TRUE, "unable to make connection to the host %s", rspamd_inet_address_to_string(cbd->addr)); TCP_RELEASE(cbd); } } } static gboolean lua_tcp_arg_toiovec(lua_State *L, gint pos, struct lua_tcp_cbdata *cbd, struct iovec *vec) { struct rspamd_lua_text *t; gsize len; const gchar *str; struct lua_tcp_dtor *dtor; if (lua_type(L, pos) == LUA_TUSERDATA) { t = lua_check_text(L, pos); if (t) { vec->iov_base = (void *) t->start; vec->iov_len = t->len; if (t->flags & RSPAMD_TEXT_FLAG_OWN) { /* Steal ownership */ t->flags = 0; dtor = g_malloc0(sizeof(*dtor)); dtor->dtor = g_free; dtor->data = (void *) t->start; LL_PREPEND(cbd->dtors, dtor); } } else { msg_err("bad userdata argument at position %d", pos); return FALSE; } } else if (lua_type(L, pos) == LUA_TSTRING) { str = luaL_checklstring(L, pos, &len); vec->iov_base = g_malloc(len); dtor = g_malloc0(sizeof(*dtor)); dtor->dtor = g_free; dtor->data = vec->iov_base; LL_PREPEND(cbd->dtors, dtor); memcpy(vec->iov_base, str, len); vec->iov_len = len; } else { msg_err("bad argument at position %d", pos); return FALSE; } return TRUE; } /*** * @function rspamd_tcp.request({params}) * This function creates and sends TCP request to the specified host and port, * resolves hostname (if needed) and invokes continuation callback upon data received * from the remote peer. This function accepts table of arguments with the following * attributes * * - `task`: rspamd task objects (implies `pool`, `session`, `ev_base` and `resolver` arguments) * - `ev_base`: event base (if no task specified) * - `resolver`: DNS resolver (no task) * - `session`: events session (no task) * - `host`: IP or name of the peer (required) * - `port`: remote port to use * - `data`: a table of strings or `rspamd_text` objects that contains data pieces * - `callback`: continuation function (required) * - `on_connect`: callback called on connection success * - `timeout`: floating point value that specifies timeout for IO operations in **seconds** * - `partial`: boolean flag that specifies that callback should be called on any data portion received * - `stop_pattern`: stop reading on finding a certain pattern (e.g. \r\n.\r\n for smtp) * - `shutdown`: half-close socket after writing (boolean: default false) * - `read`: read response after sending request (boolean: default true) * - `upstream`: optional upstream object that would be used to get an address * @return {boolean} true if request has been sent */ static gint lua_tcp_request(lua_State *L) { LUA_TRACE_POINT; const gchar *host; gchar *stop_pattern = NULL; guint port; gint cbref, tp, conn_cbref = -1; gsize plen = 0; struct ev_loop *event_loop = NULL; struct lua_tcp_cbdata *cbd; struct rspamd_dns_resolver *resolver = NULL; struct rspamd_async_session *session = NULL; struct rspamd_task *task = NULL; struct rspamd_config *cfg = NULL; struct iovec *iov = NULL; struct upstream *up = NULL; guint niov = 0, total_out; guint64 h; gdouble timeout = default_tcp_timeout; gboolean partial = FALSE, do_shutdown = FALSE, do_read = TRUE, ssl = FALSE, ssl_noverify = FALSE; if (lua_type(L, 1) == LUA_TTABLE) { lua_pushstring(L, "host"); lua_gettable(L, -2); host = luaL_checkstring(L, -1); lua_pop(L, 1); lua_pushstring(L, "port"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TNUMBER) { port = lua_tointeger(L, -1); } else { /* We assume that it is a unix socket */ port = 0; } lua_pop(L, 1); lua_pushstring(L, "callback"); lua_gettable(L, -2); if (host == NULL || lua_type(L, -1) != LUA_TFUNCTION) { lua_pop(L, 1); msg_err("tcp request has bad params"); lua_pushboolean(L, FALSE); return 1; } cbref = luaL_ref(L, LUA_REGISTRYINDEX); cbd = g_malloc0(sizeof(*cbd)); lua_pushstring(L, "task"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TUSERDATA) { task = lua_check_task(L, -1); event_loop = task->event_loop; resolver = task->resolver; session = task->s; cfg = task->cfg; } lua_pop(L, 1); if (task == NULL) { lua_pushstring(L, "ev_base"); lua_gettable(L, -2); if (rspamd_lua_check_udata_maybe(L, -1, "rspamd{ev_base}")) { event_loop = *(struct ev_loop **) lua_touserdata(L, -1); } else { g_free(cbd); return luaL_error(L, "event loop is required"); } lua_pop(L, 1); lua_pushstring(L, "session"); lua_gettable(L, -2); if (rspamd_lua_check_udata_maybe(L, -1, "rspamd{session}")) { session = *(struct rspamd_async_session **) lua_touserdata(L, -1); } else { session = NULL; } lua_pop(L, 1); lua_pushstring(L, "config"); lua_gettable(L, -2); if (rspamd_lua_check_udata_maybe(L, -1, "rspamd{config}")) { cfg = *(struct rspamd_config **) lua_touserdata(L, -1); } else { cfg = NULL; } lua_pop(L, 1); lua_pushstring(L, "resolver"); lua_gettable(L, -2); if (rspamd_lua_check_udata_maybe(L, -1, "rspamd{resolver}")) { resolver = *(struct rspamd_dns_resolver **) lua_touserdata(L, -1); } else { resolver = lua_tcp_global_resolver(event_loop, cfg); } lua_pop(L, 1); } lua_pushstring(L, "timeout"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TNUMBER) { timeout = lua_tonumber(L, -1); } lua_pop(L, 1); lua_pushstring(L, "stop_pattern"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TSTRING) { const gchar *p; p = lua_tolstring(L, -1, &plen); if (p && plen > 0) { stop_pattern = g_malloc(plen); memcpy(stop_pattern, p, plen); } } lua_pop(L, 1); lua_pushstring(L, "partial"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TBOOLEAN) { partial = lua_toboolean(L, -1); } lua_pop(L, 1); lua_pushstring(L, "shutdown"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TBOOLEAN) { do_shutdown = lua_toboolean(L, -1); } lua_pop(L, 1); lua_pushstring(L, "read"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TBOOLEAN) { do_read = lua_toboolean(L, -1); } lua_pop(L, 1); lua_pushstring(L, "ssl"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TBOOLEAN) { ssl = lua_toboolean(L, -1); } lua_pop(L, 1); lua_pushstring(L, "ssl_noverify"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TBOOLEAN) { ssl_noverify = lua_toboolean(L, -1); lua_pop(L, 1); } else { lua_pop(L, 1); /* Previous nil... */ /* Similar to lua http, meh... */ lua_pushstring(L, "no_ssl_verify"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TBOOLEAN) { ssl_noverify = lua_toboolean(L, -1); } lua_pop(L, 1); } lua_pushstring(L, "on_connect"); lua_gettable(L, -2); if (lua_type(L, -1) == LUA_TFUNCTION) { conn_cbref = luaL_ref(L, LUA_REGISTRYINDEX); } else { lua_pop(L, 1); } lua_pushstring(L, "upstream"); lua_gettable(L, 1); if (lua_type(L, -1) == LUA_TUSERDATA) { struct rspamd_lua_upstream *lup = lua_check_upstream(L, -1); if (lup) { /* Preserve pointer in case if lup is destructed */ up = lup->up; } } lua_pop(L, 1); lua_pushstring(L, "data"); lua_gettable(L, -2); total_out = 0; tp = lua_type(L, -1); if (tp == LUA_TSTRING || tp == LUA_TUSERDATA) { iov = g_malloc(sizeof(*iov)); niov = 1; if (!lua_tcp_arg_toiovec(L, -1, cbd, iov)) { lua_pop(L, 1); msg_err("tcp request has bad data argument"); lua_pushboolean(L, FALSE); g_free(iov); g_free(cbd); return 1; } total_out = iov[0].iov_len; } else if (tp == LUA_TTABLE) { /* Count parts */ lua_pushnil(L); while (lua_next(L, -2) != 0) { niov++; lua_pop(L, 1); } iov = g_malloc(sizeof(*iov) * niov); lua_pushnil(L); niov = 0; while (lua_next(L, -2) != 0) { if (!lua_tcp_arg_toiovec(L, -1, cbd, &iov[niov])) { lua_pop(L, 2); msg_err("tcp request has bad data argument at pos %d", niov); lua_pushboolean(L, FALSE); g_free(iov); g_free(cbd); return 1; } total_out += iov[niov].iov_len; niov++; lua_pop(L, 1); } } lua_pop(L, 1); } else { return luaL_error(L, "tcp request has bad params"); } if (resolver == NULL && cfg == NULL && task == NULL) { g_free(cbd); g_free(iov); return luaL_error(L, "tcp request has bad params: one of " "{resolver,task,config} should be set"); } cbd->task = task; if (task) { cbd->item = rspamd_symcache_get_cur_item(task); } cbd->cfg = cfg; h = rspamd_random_uint64_fast(); rspamd_snprintf(cbd->tag, sizeof(cbd->tag), "%uxL", h); cbd->handlers = g_queue_new(); cbd->hostname = g_strdup(host); if (total_out > 0) { struct lua_tcp_handler *wh; wh = g_malloc0(sizeof(*wh)); wh->type = LUA_WANT_WRITE; wh->h.w.iov = iov; wh->h.w.iovlen = niov; wh->h.w.total_bytes = total_out; wh->h.w.pos = 0; /* Cannot set write handler here */ wh->h.w.cbref = -1; if (cbref != -1 && !do_read) { /* We have write only callback */ wh->h.w.cbref = cbref; } else { /* We have simple client callback */ wh->h.w.cbref = -1; } g_queue_push_tail(cbd->handlers, wh); } cbd->event_loop = event_loop; cbd->fd = -1; cbd->port = port; cbd->ev.timeout = timeout; if (ssl) { cbd->flags |= LUA_TCP_FLAG_SSL; if (ssl_noverify) { cbd->flags |= LUA_TCP_FLAG_SSL_NOVERIFY; } } if (do_read) { cbd->in = g_byte_array_sized_new(8192); } else { /* Save some space... */ cbd->in = g_byte_array_new(); } if (partial) { cbd->flags |= LUA_TCP_FLAG_PARTIAL; } if (do_shutdown) { cbd->flags |= LUA_TCP_FLAG_SHUTDOWN; } if (do_read) { struct lua_tcp_handler *rh; rh = g_malloc0(sizeof(*rh)); rh->type = LUA_WANT_READ; rh->h.r.cbref = cbref; rh->h.r.stop_pattern = stop_pattern; rh->h.r.plen = plen; g_queue_push_tail(cbd->handlers, rh); } cbd->connect_cb = conn_cbref; REF_INIT_RETAIN(cbd, lua_tcp_maybe_free); if (up) { cbd->up = rspamd_upstream_ref(up); } if (session) { cbd->session = session; if (rspamd_session_blocked(session)) { lua_tcp_push_error(cbd, TRUE, "async session is the blocked state"); TCP_RELEASE(cbd); cbd->item = NULL; /* To avoid decrease with no watcher */ lua_pushboolean(L, FALSE); return 1; } } if (cbd->up) { /* Use upstream to get addr */ cbd->addr = rspamd_inet_address_copy(rspamd_upstream_addr_next(cbd->up), NULL); /* Host is numeric IP, no need to resolve */ lua_tcp_register_watcher(cbd); if (!lua_tcp_make_connection(cbd)) { lua_tcp_push_error(cbd, TRUE, "cannot connect to the host: %s", host); lua_pushboolean(L, FALSE); rspamd_upstream_fail(cbd->up, true, "failed to connect"); /* No reset of the item as watcher has been registered */ TCP_RELEASE(cbd); return 1; } } else if (rspamd_parse_inet_address(&cbd->addr, host, strlen(host), RSPAMD_INET_ADDRESS_PARSE_DEFAULT)) { rspamd_inet_address_set_port(cbd->addr, port); /* Host is numeric IP, no need to resolve */ lua_tcp_register_watcher(cbd); if (!lua_tcp_make_connection(cbd)) { lua_tcp_push_error(cbd, TRUE, "cannot connect to the host: %s", host); lua_pushboolean(L, FALSE); /* No reset of the item as watcher has been registered */ TCP_RELEASE(cbd); return 1; } } else { if (task == NULL) { if (!rspamd_dns_resolver_request(resolver, session, NULL, lua_tcp_dns_handler, cbd, RDNS_REQUEST_A, host)) { lua_tcp_push_error(cbd, TRUE, "cannot resolve host: %s", host); lua_pushboolean(L, FALSE); cbd->item = NULL; /* To avoid decrease with no watcher */ TCP_RELEASE(cbd); return 1; } else { lua_tcp_register_watcher(cbd); } } else { if (!rspamd_dns_resolver_request_task(task, lua_tcp_dns_handler, cbd, RDNS_REQUEST_A, host)) { lua_tcp_push_error(cbd, TRUE, "cannot resolve host: %s", host); lua_pushboolean(L, FALSE); cbd->item = NULL; /* To avoid decrease with no watcher */ TCP_RELEASE(cbd); return 1; } else { lua_tcp_register_watcher(cbd); } } } lua_pushboolean(L, TRUE); return 1; } /*** * @function rspamd_tcp.connect_sync({params}) * Creates new pseudo-synchronous connection to the specific address:port * * - `task`: rspamd task objects (implies `pool`, `session`, `ev_base` and `resolver` arguments) * - `ev_base`: event base (if no task specified) * - `resolver`: DNS resolver (no task) * - `session`: events session (no task) * - `config`: config (no task) * - `host`: IP or name of the peer (required) * - `port`: remote port to use * - `timeout`: floating point value that specifies timeout for IO operations in **seconds** * @return {boolean} true if request has been sent */ static gint lua_tcp_connect_sync(lua_State *L) { LUA_TRACE_POINT; GError *err = NULL; gint64 port = -1; gdouble timeout = default_tcp_timeout; const gchar *host = NULL; gint ret; guint64 h; struct rspamd_task *task = NULL; struct rspamd_async_session *session = NULL; struct rspamd_dns_resolver *resolver = NULL; struct rspamd_config *cfg = NULL; struct ev_loop *ev_base = NULL; struct lua_tcp_cbdata *cbd; int arguments_validated = rspamd_lua_parse_table_arguments(L, 1, &err, RSPAMD_LUA_PARSE_ARGUMENTS_DEFAULT, "task=U{task};session=U{session};resolver=U{resolver};ev_base=U{ev_base};" "*host=S;*port=I;timeout=D;config=U{config}", &task, &session, &resolver, &ev_base, &host, &port, &timeout, &cfg); if (!arguments_validated) { if (err) { ret = luaL_error(L, "invalid arguments: %s", err->message); g_error_free(err); return ret; } return luaL_error(L, "invalid arguments"); } if (0 > port || port > 65535) { return luaL_error(L, "invalid port given (correct values: 1..65535)"); } if (task == NULL && (cfg == NULL || ev_base == NULL || session == NULL)) { return luaL_error(L, "invalid arguments: either task or config+ev_base+session should be set"); } if (isnan(timeout)) { /* rspamd_lua_parse_table_arguments() sets missing N field to zero */ timeout = default_tcp_timeout; } cbd = g_new0(struct lua_tcp_cbdata, 1); if (task) { static const gchar hexdigests[16] = "0123456789abcdef"; cfg = task->cfg; ev_base = task->event_loop; session = task->s; /* Make a readable tag */ memcpy(cbd->tag, task->task_pool->tag.uid, sizeof(cbd->tag) - 2); cbd->tag[sizeof(cbd->tag) - 2] = hexdigests[GPOINTER_TO_INT(cbd) & 0xf]; cbd->tag[sizeof(cbd->tag) - 1] = 0; } else { h = rspamd_random_uint64_fast(); rspamd_snprintf(cbd->tag, sizeof(cbd->tag), "%uxL", h); } if (resolver == NULL) { if (task) { resolver = task->resolver; } else { resolver = lua_tcp_global_resolver(ev_base, cfg); } } cbd->task = task; cbd->cfg = cfg; cbd->thread = lua_thread_pool_get_running_entry(cfg->lua_thread_pool); cbd->handlers = g_queue_new(); cbd->event_loop = ev_base; cbd->flags |= LUA_TCP_FLAG_SYNC; cbd->fd = -1; cbd->port = (guint16) port; cbd->in = g_byte_array_new(); cbd->connect_cb = -1; REF_INIT_RETAIN(cbd, lua_tcp_maybe_free); if (task) { rspamd_mempool_add_destructor(task->task_pool, lua_tcp_sync_session_dtor, cbd); } struct lua_tcp_handler *wh; wh = g_malloc0(sizeof(*wh)); wh->type = LUA_WANT_CONNECT; g_queue_push_tail(cbd->handlers, wh); if (session) { cbd->session = session; if (rspamd_session_blocked(session)) { TCP_RELEASE(cbd); lua_pushboolean(L, FALSE); lua_pushliteral(L, "Session is being destroyed, requests are not allowed"); return 2; } } if (rspamd_parse_inet_address(&cbd->addr, host, strlen(host), RSPAMD_INET_ADDRESS_PARSE_DEFAULT)) { rspamd_inet_address_set_port(cbd->addr, (guint16) port); /* Host is numeric IP, no need to resolve */ if (!lua_tcp_make_connection(cbd)) { lua_pushboolean(L, FALSE); lua_pushliteral(L, "Failed to initiate connection"); TCP_RELEASE(cbd); return 2; } } else { if (task == NULL) { if (!rspamd_dns_resolver_request(resolver, session, NULL, lua_tcp_dns_handler, cbd, RDNS_REQUEST_A, host)) { lua_pushboolean(L, FALSE); lua_pushliteral(L, "Failed to initiate dns request"); TCP_RELEASE(cbd); return 2; } else { lua_tcp_register_watcher(cbd); } } else { cbd->item = rspamd_symcache_get_cur_item(task); if (!rspamd_dns_resolver_request_task(task, lua_tcp_dns_handler, cbd, RDNS_REQUEST_A, host)) { cbd->item = NULL; /* We have not registered watcher */ lua_pushboolean(L, FALSE); lua_pushliteral(L, "Failed to initiate dns request"); TCP_RELEASE(cbd); return 2; } else { lua_tcp_register_watcher(cbd); } } } return lua_thread_yield(cbd->thread, 0); } static gint lua_tcp_close(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_tcp(L, 1); if (cbd == NULL) { return luaL_error(L, "invalid arguments"); } cbd->flags |= LUA_TCP_FLAG_FINISHED; if (cbd->ssl_conn) { /* TODO: postpone close in case ssl is used ! */ rspamd_ssl_connection_free(cbd->ssl_conn); cbd->ssl_conn = NULL; } if (cbd->fd != -1) { rspamd_ev_watcher_stop(cbd->event_loop, &cbd->ev); close(cbd->fd); cbd->fd = -1; } if (cbd->addr) { rspamd_inet_address_free(cbd->addr); cbd->addr = NULL; } if (cbd->up) { rspamd_upstream_unref(cbd->up); cbd->up = NULL; } /* Do not release refcount as it will be handled elsewhere */ /* TCP_RELEASE (cbd); */ return 0; } static gint lua_tcp_add_read(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_tcp(L, 1); struct lua_tcp_handler *rh; gchar *stop_pattern = NULL; const gchar *p; gsize plen = 0; gint cbref = -1; if (cbd == NULL) { return luaL_error(L, "invalid arguments"); } if (lua_type(L, 2) == LUA_TFUNCTION) { lua_pushvalue(L, 2); cbref = luaL_ref(L, LUA_REGISTRYINDEX); } if (lua_type(L, 3) == LUA_TSTRING) { p = lua_tolstring(L, 3, &plen); if (p && plen > 0) { stop_pattern = g_malloc(plen); memcpy(stop_pattern, p, plen); } } rh = g_malloc0(sizeof(*rh)); rh->type = LUA_WANT_READ; rh->h.r.cbref = cbref; rh->h.r.stop_pattern = stop_pattern; rh->h.r.plen = plen; msg_debug_tcp("added read event, cbref: %d", cbref); g_queue_push_tail(cbd->handlers, rh); return 0; } static gint lua_tcp_add_write(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_tcp(L, 1); struct lua_tcp_handler *wh; gint cbref = -1, tp; struct iovec *iov = NULL; guint niov = 0, total_out = 0; if (cbd == NULL) { return luaL_error(L, "invalid arguments"); } if (lua_type(L, 2) == LUA_TFUNCTION) { lua_pushvalue(L, 2); cbref = luaL_ref(L, LUA_REGISTRYINDEX); } tp = lua_type(L, 3); if (tp == LUA_TSTRING || tp == LUA_TUSERDATA) { iov = g_malloc(sizeof(*iov)); niov = 1; if (!lua_tcp_arg_toiovec(L, 3, cbd, iov)) { msg_err("tcp request has bad data argument"); lua_pushboolean(L, FALSE); g_free(iov); return 1; } total_out = iov[0].iov_len; } else if (tp == LUA_TTABLE) { /* Count parts */ lua_pushvalue(L, 3); lua_pushnil(L); while (lua_next(L, -2) != 0) { niov++; lua_pop(L, 1); } iov = g_malloc(sizeof(*iov) * niov); lua_pushnil(L); niov = 0; while (lua_next(L, -2) != 0) { if (!lua_tcp_arg_toiovec(L, -1, cbd, &iov[niov])) { lua_pop(L, 2); msg_err("tcp request has bad data argument at pos %d", niov); lua_pushboolean(L, FALSE); g_free(iov); g_free(cbd); return 1; } total_out += iov[niov].iov_len; niov++; lua_pop(L, 1); } lua_pop(L, 1); } wh = g_malloc0(sizeof(*wh)); wh->type = LUA_WANT_WRITE; wh->h.w.iov = iov; wh->h.w.iovlen = niov; wh->h.w.total_bytes = total_out; wh->h.w.pos = 0; /* Cannot set write handler here */ wh->h.w.cbref = cbref; msg_debug_tcp("added write event, cbref: %d", cbref); g_queue_push_tail(cbd->handlers, wh); lua_pushboolean(L, TRUE); return 1; } static gint lua_tcp_shift_callback(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_tcp(L, 1); if (cbd == NULL) { return luaL_error(L, "invalid arguments"); } lua_tcp_shift_handler(cbd); lua_tcp_plan_handler_event(cbd, TRUE, TRUE); return 0; } static struct lua_tcp_cbdata * lua_check_sync_tcp(lua_State *L, gint pos) { void *ud = rspamd_lua_check_udata(L, pos, "rspamd{tcp_sync}"); luaL_argcheck(L, ud != NULL, pos, "'tcp' expected"); return ud ? *((struct lua_tcp_cbdata **) ud) : NULL; } static int lua_tcp_sync_close(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_sync_tcp(L, 1); if (cbd == NULL) { return luaL_error(L, "invalid arguments [self is not rspamd{tcp_sync}]"); } cbd->flags |= LUA_TCP_FLAG_FINISHED; if (cbd->fd != -1) { rspamd_ev_watcher_stop(cbd->event_loop, &cbd->ev); close(cbd->fd); cbd->fd = -1; } return 0; } static void lua_tcp_sync_session_dtor(gpointer ud) { struct lua_tcp_cbdata *cbd = ud; cbd->flags |= LUA_TCP_FLAG_FINISHED; if (cbd->fd != -1) { msg_debug("closing sync TCP connection"); rspamd_ev_watcher_stop(cbd->event_loop, &cbd->ev); close(cbd->fd); cbd->fd = -1; } /* Task is gone, we should not try use it anymore */ cbd->task = NULL; /* All events are removed when task is done, we should not refer them */ cbd->async_ev = NULL; } static int lua_tcp_sync_read_once(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_sync_tcp(L, 1); struct lua_tcp_handler *rh; if (cbd == NULL) { return luaL_error(L, "invalid arguments [self is not rspamd{tcp_sync}]"); } struct thread_entry *thread = lua_thread_pool_get_running_entry(cbd->cfg->lua_thread_pool); rh = g_malloc0(sizeof(*rh)); rh->type = LUA_WANT_READ; rh->h.r.cbref = -1; msg_debug_tcp("added read sync event, thread: %p", thread); g_queue_push_tail(cbd->handlers, rh); lua_tcp_plan_handler_event(cbd, TRUE, TRUE); TCP_RETAIN(cbd); return lua_thread_yield(thread, 0); } static int lua_tcp_sync_write(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_sync_tcp(L, 1); struct lua_tcp_handler *wh; gint tp; struct iovec *iov = NULL; guint niov = 0; gsize total_out = 0; if (cbd == NULL) { return luaL_error(L, "invalid arguments [self is not rspamd{tcp_sync}]"); } struct thread_entry *thread = lua_thread_pool_get_running_entry(cbd->cfg->lua_thread_pool); tp = lua_type(L, 2); if (tp == LUA_TSTRING || tp == LUA_TUSERDATA) { iov = g_malloc(sizeof(*iov)); niov = 1; if (!lua_tcp_arg_toiovec(L, 2, cbd, iov)) { msg_err("tcp request has bad data argument"); g_free(iov); g_free(cbd); return luaL_error(L, "invalid arguments second parameter (data) is expected to be either string or rspamd{text}"); } total_out = iov[0].iov_len; } else if (tp == LUA_TTABLE) { /* Count parts */ lua_pushvalue(L, 3); lua_pushnil(L); while (lua_next(L, -2) != 0) { niov++; lua_pop(L, 1); } iov = g_malloc(sizeof(*iov) * niov); lua_pushnil(L); niov = 0; while (lua_next(L, -2) != 0) { if (!lua_tcp_arg_toiovec(L, -1, cbd, &iov[niov])) { msg_err("tcp request has bad data argument at pos %d", niov); g_free(iov); g_free(cbd); return luaL_error(L, "invalid arguments second parameter (data) is expected to be either string or rspamd{text}"); } total_out += iov[niov].iov_len; niov++; lua_pop(L, 1); } lua_pop(L, 1); } wh = g_malloc0(sizeof(*wh)); wh->type = LUA_WANT_WRITE; wh->h.w.iov = iov; wh->h.w.iovlen = niov; wh->h.w.total_bytes = total_out; wh->h.w.pos = 0; wh->h.w.cbref = -1; msg_debug_tcp("added sync write event, thread: %p", thread); g_queue_push_tail(cbd->handlers, wh); lua_tcp_plan_handler_event(cbd, TRUE, TRUE); TCP_RETAIN(cbd); return lua_thread_yield(thread, 0); } static gint lua_tcp_sync_eof(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_sync_tcp(L, 1); if (cbd == NULL) { return luaL_error(L, "invalid arguments [self is not rspamd{tcp_sync}]"); } lua_pushboolean(L, cbd->eof); return 1; } static gint lua_tcp_sync_shutdown(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_sync_tcp(L, 1); if (cbd == NULL) { return luaL_error(L, "invalid arguments [self is not rspamd{tcp_sync}]"); } shutdown(cbd->fd, SHUT_WR); return 0; } static gint lua_tcp_starttls(lua_State *L) { LUA_TRACE_POINT; struct lua_tcp_cbdata *cbd = lua_check_tcp(L, 1); gpointer ssl_ctx; gboolean verify_peer; if (cbd == NULL || cbd->ssl_conn != NULL) { return luaL_error(L, "invalid arguments"); } if (cbd->flags & LUA_TCP_FLAG_SSL_NOVERIFY) { ssl_ctx = cbd->cfg->libs_ctx->ssl_ctx_noverify; verify_peer = FALSE; } else { ssl_ctx = cbd->cfg->libs_ctx->ssl_ctx; verify_peer = TRUE; } cbd->ssl_conn = rspamd_ssl_connection_new(ssl_ctx, cbd->event_loop, verify_peer, cbd->tag); if (!rspamd_ssl_connect_fd(cbd->ssl_conn, cbd->fd, cbd->hostname, &cbd->ev, cbd->ev.timeout, lua_tcp_handler, lua_tcp_ssl_on_error, cbd)) { lua_tcp_push_error(cbd, TRUE, "ssl connection failed: %s", strerror(errno)); } return 0; } static gint lua_tcp_sync_gc(lua_State *L) { struct lua_tcp_cbdata *cbd = lua_check_sync_tcp(L, 1); if (!cbd) { return luaL_error(L, "invalid arguments [self is not rspamd{tcp_sync}]"); } lua_tcp_maybe_free(cbd); lua_tcp_fin(cbd); return 0; } static gint lua_load_tcp(lua_State *L) { lua_newtable(L); luaL_register(L, NULL, tcp_libf); return 1; } void luaopen_tcp(lua_State *L) { rspamd_lua_add_preload(L, "rspamd_tcp", lua_load_tcp); rspamd_lua_new_class(L, "rspamd{tcp}", tcp_libm); rspamd_lua_new_class(L, "rspamd{tcp_sync}", tcp_sync_libm); lua_pop(L, 1); }