/*-
* 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 "task.h"
#include "rspamd.h"
#include "scan_result.h"
#include "libserver/protocol.h"
#include "libserver/protocol_internal.h"
#include "message.h"
#include "lua/lua_common.h"
#include "email_addr.h"
#include "src/libserver/composites/composites.h"
#include "stat_api.h"
#include "unix-std.h"
#include "utlist.h"
#include "libserver/mempool_vars_internal.h"
#include "libserver/cfg_file_private.h"
#include "libmime/lang_detection.h"
#include "libmime/scan_result_private.h"
#ifdef WITH_JEMALLOC
#include <jemalloc/jemalloc.h>
#else
# if defined(__GLIBC__) && defined(_GNU_SOURCE)
# include <malloc.h>
# endif
#endif
#include <math.h>
#ifdef SYS_ZSTD
# include "zstd.h"
#else
# include "contrib/zstd/zstd.h"
#endif
__KHASH_IMPL (rspamd_req_headers_hash, static inline,
rspamd_ftok_t *, struct rspamd_request_header_chain *, 1,
rspamd_ftok_icase_hash, rspamd_ftok_icase_equal)
/*
* Do not print more than this amount of elts
*/
static const int max_log_elts = 7;
static GQuark
rspamd_task_quark (void)
{
return g_quark_from_static_string ("task-error");
}
/*
* Create new task
*/
struct rspamd_task *
rspamd_task_new (struct rspamd_worker *worker,
struct rspamd_config *cfg,
rspamd_mempool_t *pool,
struct rspamd_lang_detector *lang_det,
struct ev_loop *event_loop,
gboolean debug_mem)
{
struct rspamd_task *new_task;
rspamd_mempool_t *task_pool;
guint flags = 0;
if (pool == NULL) {
task_pool = rspamd_mempool_new (rspamd_mempool_suggest_size (),
"task", debug_mem ? RSPAMD_MEMPOOL_DEBUG : 0);
flags |= RSPAMD_TASK_FLAG_OWN_POOL;
}
else {
task_pool = pool;
}
new_task = rspamd_mempool_alloc0 (task_pool, sizeof (struct rspamd_task));
new_task->task_pool = task_pool;
new_task->flags = flags;
new_task->worker = worker;
new_task->lang_det = lang_det;
if (cfg) {
new_task->cfg = cfg;
REF_RETAIN (cfg);
if (cfg->check_all_filters) {
new_task->flags |= RSPAMD_TASK_FLAG_PASS_ALL;
}
if (cfg->re_cache) {
new_task->re_rt = rspamd_re_cache_runtime_new (cfg->re_cache);
}
if (new_task->lang_det == NULL && cfg->lang_det != NULL) {
new_task->lang_det = cfg->lang_det;
}
}
new_task->event_loop = event_loop;
new_task->task_timestamp = ev_time ();
new_task->time_real_finish = NAN;
new_task->request_headers = kh_init (rspamd_req_headers_hash);
new_task->sock = -1;
new_task->flags |= (RSPAMD_TASK_FLAG_MIME);
/* Default results chain */
rspamd_create_metric_result (new_task, NULL, -1);
new_task->queue_id = "undef";
new_task->messages = ucl_object_typed_new (UCL_OBJECT);
new_task->lua_cache = g_hash_table_new (rspamd_str_hash, rspamd_str_equal);
return new_task;
}
static void
rspamd_task_reply (struct rspamd_task *task)
{
const ev_tstamp write_timeout = 5.0;
if (task->fin_callback) {
task->fin_callback (task, task->fin_arg);
}
else {
if (!(task->processed_stages & RSPAMD_TASK_STAGE_REPLIED)) {
rspamd_protocol_write_reply (task, write_timeout);
}
}
}
/*
* Called if all filters are processed
* @return TRUE if session should be terminated
*/
gboolean
rspamd_task_fin (void *arg)
{
struct rspamd_task *task = (struct rspamd_task *) arg;
/* Task is already finished or skipped */
if (RSPAMD_TASK_IS_PROCESSED (task)) {
rspamd_task_reply (task);
return TRUE;
}
if (!rspamd_task_process (task, RSPAMD_TASK_PROCESS_ALL)) {
rspamd_task_reply (task);
return TRUE;
}
if (RSPAMD_TASK_IS_PROCESSED (task)) {
rspamd_task_reply (task);
return TRUE;
}
/* One more iteration */
return FALSE;
}
/*
* Called if session was restored inside fin callback
*/
void
rspamd_task_restore (void *arg)
{
/* XXX: not needed now ? */
}
/*
* Free all structures of worker_task
*/
void
rspamd_task_free (struct rspamd_task *task)
{
struct rspamd_email_address *addr;
struct rspamd_lua_cached_entry *entry;
static guint free_iters = 0;
GHashTableIter it;
gpointer k, v;
guint i;
if (task) {
debug_task ("free pointer %p", task);
if (task->rcpt_envelope) {
for (i = 0; i < task->rcpt_envelope->len; i ++) {
addr = g_ptr_array_index (task->rcpt_envelope, i);
rspamd_email_address_free (addr);
}
g_ptr_array_free (task->rcpt_envelope, TRUE);
}
if (task->from_envelope) {
rspamd_email_address_free (task->from_envelope);
}
if (task->from_envelope_orig) {
rspamd_email_address_free (task->from_envelope_orig);
}
if (task->meta_words) {
g_array_free (task->meta_words, TRUE);
}
ucl_object_unref (task->messages);
if (task->re_rt) {
rspamd_re_cache_runtime_destroy (task->re_rt);
}
if (task->http_conn != NULL) {
rspamd_http_connection_reset (task->http_conn);
rspamd_http_connection_unref (task->http_conn);
}
if (task->settings != NULL) {
ucl_object_unref (task->settings);
}
if (task->settings_elt != NULL) {
REF_RELEASE (task->settings_elt);
}
if (task->client_addr) {
rspamd_inet_address_free (task->client_addr);
}
if (task->from_addr) {
rspamd_inet_address_free (task->from_addr);
}
if (task->err) {
g_error_free (task->err);
}
ev_timer_stop (task->event_loop, &task->timeout_ev);
ev_io_stop (task->event_loop, &task->guard_ev);
if (task->sock != -1) {
close (task->sock);
}
if (task->cfg) {
if (task->lua_cache) {
g_hash_table_iter_init (&it, task->lua_cache);
while (g_hash_table_iter_next (&it, &k, &v)) {
entry = (struct rspamd_lua_cached_entry *)v;
luaL_unref (task->cfg->lua_state,
LUA_REGISTRYINDEX, entry->ref);
}
g_hash_table_unref (task->lua_cache);
}
if (task->cfg->full_gc_iters && (++free_iters > task->cfg->full_gc_iters)) {
/* Perform more expensive cleanup cycle */
gsize allocated = 0, active = 0, metadata = 0,
resident = 0, mapped = 0, old_lua_mem = 0;
gdouble t1, t2;
old_lua_mem = lua_gc (task->cfg->lua_state, LUA_GCCOUNT, 0);
t1 = rspamd_get_ticks (FALSE);
#ifdef WITH_JEMALLOC
gsize sz = sizeof (gsize);
mallctl ("stats.allocated", &allocated, &sz, NULL, 0);
mallctl ("stats.active", &active, &sz, NULL, 0);
mallctl ("stats.metadata", &metadata, &sz, NULL, 0);
mallctl ("stats.resident", &resident, &sz, NULL, 0);
mallctl ("stats.mapped", &mapped, &sz, NULL, 0);
#else
# if defined(__GLIBC__) && defined(_GNU_SOURCE)
malloc_trim (0);
# endif
#endif
lua_gc (task->cfg->lua_state, LUA_GCCOLLECT, 0);
t2 = rspamd_get_ticks (FALSE);
msg_notice_task ("perform full gc cycle; memory stats: "
"%Hz allocated, %Hz active, %Hz metadata, %Hz resident, %Hz mapped;"
" lua memory: %z kb -> %d kb; %f ms for gc iter",
allocated, active, metadata, resident, mapped,
old_lua_mem, lua_gc (task->cfg->lua_state, LUA_GCCOUNT, 0),
(t2 - t1) * 1000.0);
free_iters = rspamd_time_jitter (0,
(gdouble)task->cfg->full_gc_iters / 2);
}
REF_RELEASE (task->cfg);
}
kh_destroy (rspamd_req_headers_hash, task->request_headers);
rspamd_message_unref (task->message);
if (task->flags & RSPAMD_TASK_FLAG_OWN_POOL) {
rspamd_mempool_delete (task->task_pool);
}
}
}
struct rspamd_task_map {
gpointer begin;
gulong len;
gint fd;
};
static void
rspamd_task_unmapper (gpointer ud)
{
struct rspamd_task_map *m = ud;
munmap (m->begin, m->len);
close (m->fd);
}
gboolean
rspamd_task_load_message (struct rspamd_task *task,
struct rspamd_http_message *msg, const gchar *start, gsize len)
{
guint control_len, r;
struct ucl_parser *parser;
ucl_object_t *control_obj;
gchar filepath[PATH_MAX], *fp;
gint fd, flen;
gulong offset = 0, shmem_size = 0;
rspamd_ftok_t *tok;
gpointer map;
struct stat st;
struct rspamd_task_map *m;
const gchar *ft;
#ifdef HAVE_SANE_SHMEM
ft = "shm";
#else
ft = "file";
#endif
if (msg) {
rspamd_protocol_handle_headers (task, msg);
}
tok = rspamd_task_get_request_header (task, "shm");
if (tok) {
/* Shared memory part */
r = rspamd_strlcpy (filepath, tok->begin,
MIN (sizeof (filepath), tok->len + 1));
rspamd_url_decode (filepath, filepath, r + 1);
flen = strlen (filepath);
if (filepath[0] == '"' && flen > 2) {
/* We need to unquote filepath */
fp = &filepath[1];
fp[flen - 2] = '\0';
}
else {
fp = &filepath[0];
}
#ifdef HAVE_SANE_SHMEM
fd = shm_open (fp, O_RDONLY, 00600);
#else
fd = open (fp, O_RDONLY, 00600);
#endif
if (fd == -1) {
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Cannot open %s segment (%s): %s", ft, fp, strerror (errno));
return FALSE;
}
if (fstat (fd, &st) == -1) {
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Cannot stat %s segment (%s): %s", ft, fp, strerror (errno));
close (fd);
return FALSE;
}
map = mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0);
if (map == MAP_FAILED) {
close (fd);
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Cannot mmap %s (%s): %s", ft, fp, strerror (errno));
return FALSE;
}
tok = rspamd_task_get_request_header (task, "shm-offset");
if (tok) {
rspamd_strtoul (tok->begin, tok->len, &offset);
if (offset > (gulong)st.st_size) {
msg_err_task ("invalid offset %ul (%ul available) for shm "
"segment %s", offset, (gulong)st.st_size, fp);
munmap (map, st.st_size);
close (fd);
return FALSE;
}
}
tok = rspamd_task_get_request_header (task, "shm-length");
shmem_size = st.st_size;
if (tok) {
rspamd_strtoul (tok->begin, tok->len, &shmem_size);
if (shmem_size > (gulong)st.st_size) {
msg_err_task ("invalid length %ul (%ul available) for %s "
"segment %s", shmem_size, (gulong)st.st_size, ft, fp);
munmap (map, st.st_size);
close (fd);
return FALSE;
}
}
task->msg.begin = ((guchar *)map) + offset;
task->msg.len = shmem_size;
m = rspamd_mempool_alloc (task->task_pool, sizeof (*m));
m->begin = map;
m->len = st.st_size;
m->fd = fd;
msg_info_task ("loaded message from shared memory %s (%ul size, %ul offset), fd=%d",
fp, shmem_size, offset, fd);
rspamd_mempool_add_destructor (task->task_pool, rspamd_task_unmapper, m);
return TRUE;
}
tok = rspamd_task_get_request_header (task, "file");
if (tok == NULL) {
tok = rspamd_task_get_request_header (task, "path");
}
if (tok) {
debug_task ("want to scan file %T", tok);
r = rspamd_strlcpy (filepath, tok->begin,
MIN (sizeof (filepath), tok->len + 1));
rspamd_url_decode (filepath, filepath, r + 1);
flen = strlen (filepath);
if (filepath[0] == '"' && flen > 2) {
/* We need to unquote filepath */
fp = &filepath[1];
fp[flen - 2] = '\0';
}
else {
fp = &filepath[0];
}
if (stat (fp, &st) == -1) {
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Invalid file (%s): %s", fp, strerror (errno));
return FALSE;
}
if (G_UNLIKELY (st.st_size == 0)) {
/* Empty file */
task->flags |= RSPAMD_TASK_FLAG_EMPTY;
task->msg.begin = rspamd_mempool_strdup (task->task_pool, "");
task->msg.len = 0;
}
else {
fd = open (fp, O_RDONLY);
if (fd == -1) {
g_set_error (&task->err, rspamd_task_quark (),
RSPAMD_PROTOCOL_ERROR,
"Cannot open file (%s): %s", fp, strerror (errno));
return FALSE;
}
map = mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0);
if (map == MAP_FAILED) {
close (fd);
g_set_error (&task->err, rspamd_task_quark (),
RSPAMD_PROTOCOL_ERROR,
"Cannot mmap file (%s): %s", fp, strerror (errno));
return FALSE;
}
task->msg.begin = map;
task->msg.len = st.st_size;
m = rspamd_mempool_alloc (task->task_pool, sizeof (*m));
m->begin = map;
m->len = st.st_size;
m->fd = fd;
rspamd_mempool_add_destructor (task->task_pool, rspamd_task_unmapper, m);
}
task->msg.fpath = rspamd_mempool_strdup (task->task_pool, fp);
task->flags |= RSPAMD_TASK_FLAG_FILE;
msg_info_task ("loaded message from file %s", fp);
return TRUE;
}
/* Plain data */
debug_task ("got input of length %z", task->msg.len);
/* Check compression */
tok = rspamd_task_get_request_header (task, "compression");
if (tok) {
/* Need to uncompress */
rspamd_ftok_t t;
t.begin = "zstd";
t.len = 4;
if (rspamd_ftok_casecmp (tok, &t) == 0) {
ZSTD_DStream *zstream;
ZSTD_inBuffer zin;
ZSTD_outBuffer zout;
guchar *out;
gsize outlen, r;
gulong dict_id;
if (!rspamd_libs_reset_decompression (task->cfg->libs_ctx)) {
g_set_error (&task->err, rspamd_task_quark(),
RSPAMD_PROTOCOL_ERROR,
"Cannot decompress, decompressor init failed");
return FALSE;
}
tok = rspamd_task_get_request_header (task, "dictionary");
if (tok != NULL) {
/* We need to use custom dictionary */
if (!rspamd_strtoul (tok->begin, tok->len, &dict_id)) {
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Non numeric dictionary");
return FALSE;
}
if (!task->cfg->libs_ctx->in_dict) {
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Unknown dictionary, undefined locally");
return FALSE;
}
if (task->cfg->libs_ctx->in_dict->id != dict_id) {
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Unknown dictionary, invalid dictionary id");
return FALSE;
}
}
zstream = task->cfg->libs_ctx->in_zstream;
zin.pos = 0;
zin.src = start;
zin.size = len;
if ((outlen = ZSTD_getDecompressedSize (start, len)) == 0) {
outlen = ZSTD_DStreamOutSize ();
}
out = g_malloc (outlen);
zout.dst = out;
zout.pos = 0;
zout.size = outlen;
while (zin.pos < zin.size) {
r = ZSTD_decompressStream (zstream, &zout, &zin);
if (ZSTD_isError (r)) {
g_set_error (&task->err, rspamd_task_quark(),
RSPAMD_PROTOCOL_ERROR,
"Decompression error: %s", ZSTD_getErrorName (r));
return FALSE;
}
if (zout.pos == zout.size) {
/* We need to extend output buffer */
zout.size = zout.size * 2 + 1;
zout.dst = g_realloc (zout.dst, zout.size);
}
}
rspamd_mempool_add_destructor (task->task_pool, g_free, zout.dst);
task->msg.begin = zout.dst;
task->msg.len = zout.pos;
task->protocol_flags |= RSPAMD_TASK_PROTOCOL_FLAG_COMPRESSED;
msg_info_task ("loaded message from zstd compressed stream; "
"compressed: %ul; uncompressed: %ul",
(gulong)zin.size, (gulong)zout.pos);
}
else {
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Invalid compression method");
return FALSE;
}
}
else {
task->msg.begin = start;
task->msg.len = len;
}
if (task->msg.len == 0) {
task->flags |= RSPAMD_TASK_FLAG_EMPTY;
}
if (task->protocol_flags & RSPAMD_TASK_PROTOCOL_FLAG_HAS_CONTROL) {
rspamd_ftok_t *hv = rspamd_task_get_request_header (task, MLEN_HEADER);
gulong message_len = 0;
if (!hv || !rspamd_strtoul (hv->begin, hv->len, &message_len) ||
task->msg.len < message_len) {
msg_warn_task ("message has invalid message length: %ul and total len: %ul",
message_len, task->msg.len);
g_set_error (&task->err, rspamd_task_quark(), RSPAMD_PROTOCOL_ERROR,
"Invalid length");
return FALSE;
}
control_len = task->msg.len - message_len;
if (control_len > 0) {
parser = ucl_parser_new (UCL_PARSER_KEY_LOWERCASE);
if (!ucl_parser_add_chunk (parser, task->msg.begin, control_len)) {
msg_warn_task ("processing of control chunk failed: %s",
ucl_parser_get_error (parser));
ucl_parser_free (parser);
}
else {
control_obj = ucl_parser_get_object (parser);
ucl_parser_free (parser);
rspamd_protocol_handle_control (task, control_obj);
ucl_object_unref (control_obj);
}
task->msg.begin += control_len;
task->msg.len -= control_len;
}
}
return TRUE;
}
static gint
rspamd_task_select_processing_stage (struct rspamd_task *task, guint stages)
{
gint st, mask;
mask = task->processed_stages;
if (mask == 0) {
st = 0;
}
else {
for (st = 1; mask != 1; st ++) {
mask = (unsigned int)mask >> 1;
}
}
st = 1 << st;
if (stages & st) {
return st;
}
else if (st < RSPAMD_TASK_STAGE_DONE) {
/* We assume that the stage that was not requested is done */
task->processed_stages |= st;
return rspamd_task_select_processing_stage (task, stages);
}
/* We are done */
return RSPAMD_TASK_STAGE_DONE;
}
gboolean
rspamd_task_process (struct rspamd_task *task, guint stages)
{
gint st;
gboolean ret = TRUE, all_done = TRUE;
GError *stat_error = NULL;
/* Avoid nested calls */
if (task->flags & RSPAMD_TASK_FLAG_PROCESSING) {
return TRUE;
}
if (RSPAMD_TASK_IS_PROCESSED (task)) {
return TRUE;
}
task->flags |= RSPAMD_TASK_FLAG_PROCESSING;
st = rspamd_task_select_processing_stage (task, stages);
switch (st) {
case RSPAMD_TASK_STAGE_CONNFILTERS:
all_done = rspamd_symcache_process_symbols (task, task->cfg->cache, st);
break;
case RSPAMD_TASK_STAGE_READ_MESSAGE:
if (!rspamd_message_parse (task)) {
ret = FALSE;
}
break;
case RSPAMD_TASK_STAGE_PROCESS_MESSAGE:
if (!(task->flags & RSPAMD_TASK_FLAG_SKIP_PROCESS)) {
rspamd_message_process (task);
}
break;
case RSPAMD_TASK_STAGE_PRE_FILTERS:
case RSPAMD_TASK_STAGE_FILTERS:
all_done = rspamd_symcache_process_symbols (task, task->cfg->cache, st);
break;
case RSPAMD_TASK_STAGE_CLASSIFIERS:
case RSPAMD_TASK_STAGE_CLASSIFIERS_PRE:
case RSPAMD_TASK_STAGE_CLASSIFIERS_POST:
if (!RSPAMD_TASK_IS_EMPTY (task)) {
if (rspamd_stat_classify (task, task->cfg->lua_state, st, &stat_error) ==
RSPAMD_STAT_PROCESS_ERROR) {
msg_err_task ("classify error: %e", stat_error);
g_error_free (stat_error);
}
}
break;
case RSPAMD_TASK_STAGE_COMPOSITES:
rspamd_composites_process_task (task);
task->result->nresults_postfilters = task->result->nresults;
break;
case RSPAMD_TASK_STAGE_POST_FILTERS:
all_done = rspamd_symcache_process_symbols (task, task->cfg->cache,
st);
if (all_done && (task->flags & RSPAMD_TASK_FLAG_LEARN_AUTO) &&
!RSPAMD_TASK_IS_EMPTY (task) &&
!(task->flags & (RSPAMD_TASK_FLAG_LEARN_SPAM|RSPAMD_TASK_FLAG_LEARN_HAM))) {
rspamd_stat_check_autolearn (task);
}
break;
case RSPAMD_TASK_STAGE_LEARN:
case RSPAMD_TASK_STAGE_LEARN_PRE:
case RSPAMD_TASK_STAGE_LEARN_POST:
if (task->flags & (RSPAMD_TASK_FLAG_LEARN_SPAM|RSPAMD_TASK_FLAG_LEARN_HAM)) {
if (task->err == NULL) {
if (!rspamd_stat_learn (task,
task->flags & RSPAMD_TASK_FLAG_LEARN_SPAM,
task->cfg->lua_state, task->classifier,
st, &stat_error)) {
if (stat_error == NULL) {
g_set_error (&stat_error,
g_quark_from_static_string ("stat"), 500,
"Unknown statistics error, found on stage %s;"
" classifier: %s",
rspamd_task_stage_name (st), task->classifier);
}
if (stat_error->code >= 400) {
msg_err_task ("learn error: %e", stat_error);
}
else {
msg_notice_task ("skip learning: %e", stat_error);
}
if (!(task->flags & RSPAMD_TASK_FLAG_LEARN_AUTO)) {
task->err = stat_error;
task->processed_stages |= RSPAMD_TASK_STAGE_DONE;
}
else {
/* Do not skip idempotent in case of learn error */
if (stat_error) {
g_error_free (stat_error);
}
task->processed_stages |= RSPAMD_TASK_STAGE_LEARN|
RSPAMD_TASK_STAGE_LEARN_PRE|
RSPAMD_TASK_STAGE_LEARN_POST;
}
}
}
}
break;
case RSPAMD_TASK_STAGE_COMPOSITES_POST:
/* Second run of composites processing before idempotent filters (if needed) */
if (task->result->nresults_postfilters != task->result->nresults) {
rspamd_composites_process_task (task);
}
else {
msg_debug_task ("skip second run of composites as the result has not been changed");
}
break;
case RSPAMD_TASK_STAGE_IDEMPOTENT:
/* Stop task timeout */
if (ev_can_stop (&task->timeout_ev)) {
ev_timer_stop (task->event_loop, &task->timeout_ev);
}
all_done = rspamd_symcache_process_symbols (task, task->cfg->cache, st);
break;
case RSPAMD_TASK_STAGE_DONE:
task->processed_stages |= RSPAMD_TASK_STAGE_DONE;
break;
default:
/* TODO: not implemented stage */
break;
}
if (RSPAMD_TASK_IS_SKIPPED (task)) {
/* Set all bits except idempotent filters */
task->processed_stages |= 0x7FFF;
}
task->flags &= ~RSPAMD_TASK_FLAG_PROCESSING;
if (!ret || RSPAMD_TASK_IS_PROCESSED (task)) {
if (!ret) {
/* Set processed flags */
task->processed_stages |= RSPAMD_TASK_STAGE_DONE;
}
msg_debug_task ("task is processed");
return ret;
}
if (ret) {
if (rspamd_session_events_pending (task->s) != 0) {
/* We have events pending, so we consider this stage as incomplete */
msg_debug_task ("need more work on stage %d", st);
}
else {
if (all_done) {
/* Mark the current stage as done and go to the next stage */
msg_debug_task ("completed stage %d", st);
task->processed_stages |= st;
}
else {
msg_debug_task ("need more processing on stage %d", st);
}
/* Tail recursion */
return rspamd_task_process (task, stages);
}
}
return ret;
}
struct rspamd_email_address*
rspamd_task_get_sender (struct rspamd_task *task)
{
return task->from_envelope;
}
static const gchar *
rspamd_task_cache_principal_recipient (struct rspamd_task *task,
const gchar *rcpt, gsize len)
{
gchar *rcpt_lc;
if (rcpt == NULL) {
return NULL;
}
rcpt_lc = rspamd_mempool_alloc (task->task_pool, len + 1);
rspamd_strlcpy (rcpt_lc, rcpt, len + 1);
rspamd_str_lc (rcpt_lc, len);
rspamd_mempool_set_variable (task->task_pool,
RSPAMD_MEMPOOL_PRINCIPAL_RECIPIENT, rcpt_lc, NULL);
return rcpt_lc;
}
const gchar *
rspamd_task_get_principal_recipient (struct rspamd_task *task)
{
const gchar *val;
struct rspamd_email_address *addr;
guint i;
val = rspamd_mempool_get_variable (task->task_pool,
RSPAMD_MEMPOOL_PRINCIPAL_RECIPIENT);
if (val) {
return val;
}
if (task->deliver_to) {
return rspamd_task_cache_principal_recipient (task, task->deliver_to,
strlen (task->deliver_to));
}
if (task->rcpt_envelope != NULL) {
PTR_ARRAY_FOREACH (task->rcpt_envelope, i, addr) {
if (addr->addr && !(addr->flags & RSPAMD_EMAIL_ADDR_ORIGINAL)) {
return rspamd_task_cache_principal_recipient (task, addr->addr,
addr->addr_len);
}
}
}
GPtrArray *rcpt_mime = MESSAGE_FIELD_CHECK (task, rcpt_mime);
if (rcpt_mime != NULL && rcpt_mime->len > 0) {
PTR_ARRAY_FOREACH (rcpt_mime, i, addr) {
if (addr->addr && !(addr->flags & RSPAMD_EMAIL_ADDR_ORIGINAL)) {
return rspamd_task_cache_principal_recipient (task, addr->addr,
addr->addr_len);
}
}
}
return NULL;
}
gboolean
rspamd_learn_task_spam (struct rspamd_task *task,
gboolean is_spam,
const gchar *classifier,
GError **err)
{
if (is_spam) {
task->flags |= RSPAMD_TASK_FLAG_LEARN_SPAM;
}
else {
task->flags |= RSPAMD_TASK_FLAG_LEARN_HAM;
}
task->classifier = classifier;
return TRUE;
}
static gboolean
rspamd_task_log_check_condition (struct rspamd_task *task,
struct rspamd_log_format *lf)
{
gboolean ret = FALSE;
switch (lf->type) {
case RSPAMD_LOG_MID:
if (MESSAGE_FIELD_CHECK (task, message_id) &&
strcmp (MESSAGE_FIELD (task, message_id) , "undef") != 0) {
ret = TRUE;
}
break;
case RSPAMD_LOG_QID:
if (task->queue_id && strcmp (task->queue_id, "undef") != 0) {
ret = TRUE;
}
break;
case RSPAMD_LOG_USER:
if (task->user) {
ret = TRUE;
}
break;
case RSPAMD_LOG_IP:
if (task->from_addr && rspamd_ip_is_valid (task->from_addr)) {
ret = TRUE;
}
break;
case RSPAMD_LOG_SMTP_RCPT:
case RSPAMD_LOG_SMTP_RCPTS:
if (task->rcpt_envelope && task->rcpt_envelope->len > 0) {
ret = TRUE;
}
break;
case RSPAMD_LOG_MIME_RCPT:
case RSPAMD_LOG_MIME_RCPTS:
if (MESSAGE_FIELD_CHECK (task, rcpt_mime) &&
MESSAGE_FIELD (task, rcpt_mime)->len > 0) {
ret = TRUE;
}
break;
case RSPAMD_LOG_SMTP_FROM:
if (task->from_envelope) {
ret = TRUE;
}
break;
case RSPAMD_LOG_MIME_FROM:
if (MESSAGE_FIELD_CHECK (task, from_mime) &&
MESSAGE_FIELD (task, from_mime)->len > 0) {
ret = TRUE;
}
break;
case RSPAMD_LOG_FILENAME:
if (task->msg.fpath) {
ret = TRUE;
}
break;
case RSPAMD_LOG_FORCED_ACTION:
if (task->result->passthrough_result) {
ret = TRUE;
}
break;
case RSPAMD_LOG_SETTINGS_ID:
if (task->settings_elt) {
ret = TRUE;
}
break;
default:
ret = TRUE;
break;
}
return ret;
}
/*
* Sort by symbol's score -> name
*/
static gint
rspamd_task_compare_log_sym (gconstpointer a, gconstpointer b)
{
const struct rspamd_symbol_result *s1 = *(const struct rspamd_symbol_result **)a,
*s2 = *(const struct rspamd_symbol_result **)b;
gdouble w1, w2;
w1 = fabs (s1->score);
w2 = fabs (s2->score);
if (w1 == w2 && s1->name && s2->name) {
return strcmp (s1->name, s2->name);
}
return (w2 - w1) * 1000.0;
}
static gint
rspamd_task_compare_log_group (gconstpointer a, gconstpointer b)
{
const struct rspamd_symbols_group *s1 = *(const struct rspamd_symbols_group **)a,
*s2 = *(const struct rspamd_symbols_group **)b;
return strcmp (s1->name, s2->name);
}
static rspamd_ftok_t
rspamd_task_log_metric_res (struct rspamd_task *task,
struct rspamd_log_format *lf)
{
static gchar scorebuf[32];
rspamd_ftok_t res = {.begin = NULL, .len = 0};
struct rspamd_scan_result *mres;
gboolean first = TRUE;
rspamd_fstring_t *symbuf;
struct rspamd_symbol_result *sym;
GPtrArray *sorted_symbols;
struct rspamd_action *act;
struct rspamd_symbols_group *gr;
guint i, j;
khiter_t k;
mres = task->result;
act = rspamd_check_action_metric (task, NULL, NULL);
if (mres != NULL) {
switch (lf->type) {
case RSPAMD_LOG_ISSPAM:
if (RSPAMD_TASK_IS_SKIPPED (task)) {
res.begin = "S";
}
else if (!(act->flags & RSPAMD_ACTION_HAM)) {
res.begin = "T";
}
else {
res.begin = "F";
}
res.len = 1;
break;
case RSPAMD_LOG_ACTION:
res.begin = act->name;
res.len = strlen (res.begin);
break;
case RSPAMD_LOG_SCORES:
res.len = rspamd_snprintf (scorebuf, sizeof (scorebuf), "%.2f/%.2f",
mres->score, rspamd_task_get_required_score (task, mres));
res.begin = scorebuf;
break;
case RSPAMD_LOG_SYMBOLS:
symbuf = rspamd_fstring_sized_new (128);
sorted_symbols = g_ptr_array_sized_new (kh_size (mres->symbols));
kh_foreach_value (mres->symbols, sym, {
if (!(sym->flags & RSPAMD_SYMBOL_RESULT_IGNORED)) {
g_ptr_array_add (sorted_symbols, (gpointer)sym);
}
});
g_ptr_array_sort (sorted_symbols, rspamd_task_compare_log_sym);
for (i = 0; i < sorted_symbols->len; i ++) {
sym = g_ptr_array_index (sorted_symbols, i);
if (first) {
rspamd_printf_fstring (&symbuf, "%s", sym->name);
}
else {
rspamd_printf_fstring (&symbuf, ",%s", sym->name);
}
if (lf->flags & RSPAMD_LOG_FMT_FLAG_SYMBOLS_SCORES) {
rspamd_printf_fstring (&symbuf, "(%.2f)", sym->score);
}
if (lf->flags & RSPAMD_LOG_FMT_FLAG_SYMBOLS_PARAMS) {
rspamd_printf_fstring (&symbuf, "{");
if (sym->options) {
struct rspamd_symbol_option *opt;
j = 0;
DL_FOREACH (sym->opts_head, opt) {
rspamd_printf_fstring (&symbuf, "%*s;",
(gint)opt->optlen, opt->option);
if (j >= max_log_elts) {
rspamd_printf_fstring (&symbuf, "...;");
break;
}
j ++;
}
}
rspamd_printf_fstring (&symbuf, "}");
}
first = FALSE;
}
g_ptr_array_free (sorted_symbols, TRUE);
rspamd_mempool_add_destructor (task->task_pool,
(rspamd_mempool_destruct_t)rspamd_fstring_free,
symbuf);
rspamd_mempool_notify_alloc (task->task_pool, symbuf->len);
res.begin = symbuf->str;
res.len = symbuf->len;
break;
case RSPAMD_LOG_GROUPS:
case RSPAMD_LOG_PUBLIC_GROUPS:
symbuf = rspamd_fstring_sized_new (128);
sorted_symbols = g_ptr_array_sized_new (kh_size (mres->sym_groups));
kh_foreach_key (mres->sym_groups, gr,{
if (!(gr->flags & RSPAMD_SYMBOL_GROUP_PUBLIC)) {
if (lf->type == RSPAMD_LOG_PUBLIC_GROUPS) {
continue;
}
}
g_ptr_array_add (sorted_symbols, gr);
});
g_ptr_array_sort (sorted_symbols, rspamd_task_compare_log_group);
for (i = 0; i < sorted_symbols->len; i++) {
gr = g_ptr_array_index (sorted_symbols, i);
if (first) {
rspamd_printf_fstring (&symbuf, "%s", gr->name);
}
else {
rspamd_printf_fstring (&symbuf, ",%s", gr->name);
}
k = kh_get (rspamd_symbols_group_hash, mres->sym_groups, gr);
rspamd_printf_fstring (&symbuf, "(%.2f)",
kh_value (mres->sym_groups, k));
first = FALSE;
}
g_ptr_array_free (sorted_symbols, TRUE);
rspamd_mempool_add_destructor (task->task_pool,
(rspamd_mempool_destruct_t) rspamd_fstring_free,
symbuf);
rspamd_mempool_notify_alloc (task->task_pool, symbuf->len);
res.begin = symbuf->str;
res.len = symbuf->len;
break;
default:
break;
}
}
return res;
}
static rspamd_fstring_t *
rspamd_task_log_write_var (struct rspamd_task *task, rspamd_fstring_t *logbuf,
const rspamd_ftok_t *var, const rspamd_ftok_t *content)
{
rspamd_fstring_t *res = logbuf;
const gchar *p, *c, *end;
if (content == NULL) {
/* Just output variable */
res = rspamd_fstring_append (res, var->begin, var->len);
}
else {
/* Replace $ with variable value */
p = content->begin;
c = p;
end = p + content->len;
while (p < end) {
if (*p == '$') {
if (p > c) {
res = rspamd_fstring_append (res, c, p - c);
}
res = rspamd_fstring_append (res, var->begin, var->len);
p ++;
c = p;
}
else {
p ++;
}
}
if (p > c) {
res = rspamd_fstring_append (res, c, p - c);
}
}
return res;
}
static rspamd_fstring_t *
rspamd_task_write_ialist (struct rspamd_task *task,
GPtrArray *addrs, gint lim,
struct rspamd_log_format *lf,
rspamd_fstring_t *logbuf)
{
rspamd_fstring_t *res = logbuf, *varbuf;
rspamd_ftok_t var = {.begin = NULL, .len = 0};
struct rspamd_email_address *addr;
gint i, nchars = 0, wr = 0, cur_chars;
gboolean has_orig = FALSE;
if (addrs && lim <= 0) {
lim = addrs->len;
}
PTR_ARRAY_FOREACH (addrs, i, addr) {
if (addr->flags & RSPAMD_EMAIL_ADDR_ORIGINAL) {
has_orig = TRUE;
break;
}
}
varbuf = rspamd_fstring_new ();
PTR_ARRAY_FOREACH (addrs, i, addr) {
if (wr >= lim) {
break;
}
if (has_orig) {
/* Report merely original addresses */
if (!(addr->flags & RSPAMD_EMAIL_ADDR_ORIGINAL)) {
continue;
}
}
cur_chars = addr->addr_len;
varbuf = rspamd_fstring_append (varbuf, addr->addr,
cur_chars);
nchars += cur_chars;
wr ++;
if (varbuf->len > 0) {
if (i != lim - 1) {
varbuf = rspamd_fstring_append (varbuf, ",", 1);
}
}
if (wr >= max_log_elts || nchars >= max_log_elts * 10) {
varbuf = rspamd_fstring_append (varbuf, "...", 3);
break;
}
}
if (varbuf->len > 0) {
var.begin = varbuf->str;
var.len = varbuf->len;
res = rspamd_task_log_write_var (task, logbuf,
&var, (const rspamd_ftok_t *) lf->data);
}
rspamd_fstring_free (varbuf);
return res;
}
static rspamd_fstring_t *
rspamd_task_write_addr_list (struct rspamd_task *task,
GPtrArray *addrs, gint lim,
struct rspamd_log_format *lf,
rspamd_fstring_t *logbuf)
{
rspamd_fstring_t *res = logbuf, *varbuf;
rspamd_ftok_t var = {.begin = NULL, .len = 0};
struct rspamd_email_address *addr;
gint i;
if (lim <= 0) {
lim = addrs->len;
}
varbuf = rspamd_fstring_new ();
for (i = 0; i < lim; i++) {
addr = g_ptr_array_index (addrs, i);
if (addr->addr) {
varbuf = rspamd_fstring_append (varbuf, addr->addr, addr->addr_len);
}
if (varbuf->len > 0) {
if (i != lim - 1) {
varbuf = rspamd_fstring_append (varbuf, ",", 1);
}
}
if (i >= max_log_elts) {
varbuf = rspamd_fstring_append (varbuf, "...", 3);
break;
}
}
if (varbuf->len > 0) {
var.begin = varbuf->str;
var.len = varbuf->len;
res = rspamd_task_log_write_var (task, logbuf,
&var, (const rspamd_ftok_t *) lf->data);
}
rspamd_fstring_free (varbuf);
return res;
}
static rspamd_fstring_t *
rspamd_task_log_variable (struct rspamd_task *task,
struct rspamd_log_format *lf, rspamd_fstring_t *logbuf)
{
rspamd_fstring_t *res = logbuf;
rspamd_ftok_t var = {.begin = NULL, .len = 0};
static gchar numbuf[128];
static const gchar undef[] = "undef";
switch (lf->type) {
/* String vars */
case RSPAMD_LOG_MID:
if (MESSAGE_FIELD_CHECK (task, message_id)) {
var.begin = MESSAGE_FIELD (task, message_id);
var.len = strlen (var.begin);
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
case RSPAMD_LOG_QID:
if (task->queue_id) {
var.begin = task->queue_id;
var.len = strlen (var.begin);
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
case RSPAMD_LOG_USER:
if (task->user) {
var.begin = task->user;
var.len = strlen (var.begin);
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
case RSPAMD_LOG_IP:
if (task->from_addr && rspamd_ip_is_valid (task->from_addr)) {
var.begin = rspamd_inet_address_to_string (task->from_addr);
var.len = strlen (var.begin);
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
/* Numeric vars */
case RSPAMD_LOG_LEN:
var.len = rspamd_snprintf (numbuf, sizeof (numbuf), "%uz",
task->msg.len);
var.begin = numbuf;
break;
case RSPAMD_LOG_DNS_REQ:
var.len = rspamd_snprintf (numbuf, sizeof (numbuf), "%uD",
task->dns_requests);
var.begin = numbuf;
break;
case RSPAMD_LOG_TIME_REAL:
var.begin = rspamd_log_check_time (task->task_timestamp,
task->time_real_finish,
task->cfg->clock_res);
var.len = strlen (var.begin);
break;
case RSPAMD_LOG_TIME_VIRTUAL:
var.begin = rspamd_log_check_time (task->task_timestamp,
task->time_real_finish,
task->cfg->clock_res);
var.len = strlen (var.begin);
break;
/* InternetAddress vars */
case RSPAMD_LOG_SMTP_FROM:
if (task->from_envelope) {
var.begin = task->from_envelope->addr;
var.len = task->from_envelope->addr_len;
}
break;
case RSPAMD_LOG_MIME_FROM:
if (MESSAGE_FIELD_CHECK (task, from_mime)) {
return rspamd_task_write_ialist (task,
MESSAGE_FIELD (task, from_mime),
1,
lf,
logbuf);
}
break;
case RSPAMD_LOG_SMTP_RCPT:
if (task->rcpt_envelope) {
return rspamd_task_write_addr_list (task, task->rcpt_envelope, 1, lf,
logbuf);
}
break;
case RSPAMD_LOG_MIME_RCPT:
if (MESSAGE_FIELD_CHECK (task, rcpt_mime)) {
return rspamd_task_write_ialist (task,
MESSAGE_FIELD (task, rcpt_mime),
1,
lf,
logbuf);
}
break;
case RSPAMD_LOG_SMTP_RCPTS:
if (task->rcpt_envelope) {
return rspamd_task_write_addr_list (task, task->rcpt_envelope, -1, lf,
logbuf);
}
break;
case RSPAMD_LOG_MIME_RCPTS:
if (MESSAGE_FIELD_CHECK (task, rcpt_mime)) {
return rspamd_task_write_ialist (task,
MESSAGE_FIELD (task, rcpt_mime),
-1, /* All addresses */
lf,
logbuf);
}
break;
case RSPAMD_LOG_DIGEST:
if (task->message) {
var.len = rspamd_snprintf (numbuf, sizeof (numbuf), "%*xs",
(gint) sizeof (MESSAGE_FIELD (task, digest)),
MESSAGE_FIELD (task, digest));
var.begin = numbuf;
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
case RSPAMD_LOG_FILENAME:
if (task->msg.fpath) {
var.len = strlen (task->msg.fpath);
var.begin = task->msg.fpath;
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
case RSPAMD_LOG_FORCED_ACTION:
if (task->result->passthrough_result) {
struct rspamd_passthrough_result *pr = task->result->passthrough_result;
if (!isnan (pr->target_score)) {
var.len = rspamd_snprintf (numbuf, sizeof (numbuf),
"%s \"%s\"; score=%.2f (set by %s)",
pr->action->name,
pr->message,
pr->target_score,
pr->module);
}
else {
var.len = rspamd_snprintf (numbuf, sizeof (numbuf),
"%s \"%s\"; score=nan (set by %s)",
pr->action->name,
pr->message,
pr->module);
}
var.begin = numbuf;
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
case RSPAMD_LOG_SETTINGS_ID:
if (task->settings_elt) {
var.begin = task->settings_elt->name;
var.len = strlen (task->settings_elt->name);
}
else {
var.begin = undef;
var.len = sizeof (undef) - 1;
}
break;
case RSPAMD_LOG_MEMPOOL_SIZE:
var.len = rspamd_snprintf (numbuf, sizeof (numbuf),
"%Hz",
rspamd_mempool_get_used_size (task->task_pool));
var.begin = numbuf;
break;
case RSPAMD_LOG_MEMPOOL_WASTE:
var.len = rspamd_snprintf (numbuf, sizeof (numbuf),
"%Hz",
rspamd_mempool_get_wasted_size (task->task_pool));
var.begin = numbuf;
break;
default:
var = rspamd_task_log_metric_res (task, lf);
break;
}
if (var.len > 0) {
res = rspamd_task_log_write_var (task, logbuf,
&var, (const rspamd_ftok_t *)lf->data);
}
return res;
}
void
rspamd_task_write_log (struct rspamd_task *task)
{
rspamd_fstring_t *logbuf;
struct rspamd_log_format *lf;
struct rspamd_task **ptask;
const gchar *lua_str;
gsize lua_str_len;
lua_State *L;
g_assert (task != NULL);
if (task->cfg->log_format == NULL ||
(task->flags & RSPAMD_TASK_FLAG_NO_LOG)) {
msg_debug_task ("skip logging due to no log flag");
return;
}
logbuf = rspamd_fstring_sized_new (1000);
DL_FOREACH (task->cfg->log_format, lf) {
switch (lf->type) {
case RSPAMD_LOG_STRING:
logbuf = rspamd_fstring_append (logbuf, lf->data, lf->len);
break;
case RSPAMD_LOG_LUA:
L = task->cfg->lua_state;
lua_rawgeti (L, LUA_REGISTRYINDEX, GPOINTER_TO_INT (lf->data));
ptask = lua_newuserdata (L, sizeof (*ptask));
rspamd_lua_setclass (L, "rspamd{task}", -1);
*ptask = task;
if (lua_pcall (L, 1, 1, 0) != 0) {
msg_err_task ("call to log function failed: %s",
lua_tostring (L, -1));
lua_pop (L, 1);
}
else {
lua_str = lua_tolstring (L, -1, &lua_str_len);
if (lua_str != NULL) {
logbuf = rspamd_fstring_append (logbuf, lua_str, lua_str_len);
}
lua_pop (L, 1);
}
break;
default:
/* We have a variable in log format */
if (lf->flags & RSPAMD_LOG_FMT_FLAG_CONDITION) {
if (!rspamd_task_log_check_condition (task, lf)) {
continue;
}
}
logbuf = rspamd_task_log_variable (task, lf, logbuf);
break;
}
}
msg_notice_task ("%V", logbuf);
rspamd_fstring_free (logbuf);
}
gdouble
rspamd_task_get_required_score (struct rspamd_task *task, struct rspamd_scan_result *m)
{
gint i;
if (m == NULL) {
m = task->result;
if (m == NULL) {
return NAN;
}
}
for (i = m->nactions - 1; i >= 0; i --) {
struct rspamd_action_result *action_lim = &m->actions_limits[i];
if (!isnan (action_lim->cur_limit) &&
!(action_lim->action->flags & (RSPAMD_ACTION_NO_THRESHOLD|RSPAMD_ACTION_HAM))) {
return m->actions_limits[i].cur_limit;
}
}
return NAN;
}
rspamd_ftok_t *
rspamd_task_get_request_header (struct rspamd_task *task,
const gchar *name)
{
struct rspamd_request_header_chain *ret =
rspamd_task_get_request_header_multiple (task, name);
if (ret) {
return ret->hdr;
}
return NULL;
}
struct rspamd_request_header_chain *
rspamd_task_get_request_header_multiple (struct rspamd_task *task,
const gchar *name)
{
struct rspamd_request_header_chain *ret = NULL;
rspamd_ftok_t srch;
khiter_t k;
srch.begin = (gchar *)name;
srch.len = strlen (name);
k = kh_get (rspamd_req_headers_hash, task->request_headers,
&srch);
if (k != kh_end (task->request_headers)) {
ret = kh_value (task->request_headers, k);
}
return ret;
}
void
rspamd_task_add_request_header (struct rspamd_task *task,
rspamd_ftok_t *name, rspamd_ftok_t *value)
{
khiter_t k;
gint res;
struct rspamd_request_header_chain *chain, *nchain;
k = kh_put (rspamd_req_headers_hash, task->request_headers,
name, &res);
if (res == 0) {
/* Existing name */
nchain = rspamd_mempool_alloc (task->task_pool, sizeof (*nchain));
nchain->hdr = value;
nchain->next = NULL;
chain = kh_value (task->request_headers, k);
/* Slow but OK here */
LL_APPEND (chain, nchain);
}
else {
nchain = rspamd_mempool_alloc (task->task_pool, sizeof (*nchain));
nchain->hdr = value;
nchain->next = NULL;
kh_value (task->request_headers, k) = nchain;
}
}
void
rspamd_task_profile_set (struct rspamd_task *task, const gchar *key,
gdouble value)
{
GHashTable *tbl;
gdouble *pval;
if (key == NULL) {
return;
}
tbl = rspamd_mempool_get_variable (task->task_pool, RSPAMD_MEMPOOL_PROFILE);
if (tbl == NULL) {
tbl = g_hash_table_new (rspamd_str_hash, rspamd_str_equal);
rspamd_mempool_set_variable (task->task_pool, RSPAMD_MEMPOOL_PROFILE,
tbl, (rspamd_mempool_destruct_t)g_hash_table_unref);
}
pval = g_hash_table_lookup (tbl, key);
if (pval == NULL) {
pval = rspamd_mempool_alloc (task->task_pool, sizeof (*pval));
*pval = value;
g_hash_table_insert (tbl, (void *)key, pval);
}
else {
*pval = value;
}
}
gdouble*
rspamd_task_profile_get (struct rspamd_task *task, const gchar *key)
{
GHashTable *tbl;
gdouble *pval = NULL;
tbl = rspamd_mempool_get_variable (task->task_pool, RSPAMD_MEMPOOL_PROFILE);
if (tbl != NULL) {
pval = g_hash_table_lookup (tbl, key);
}
return pval;
}
gboolean
rspamd_task_set_finish_time (struct rspamd_task *task)
{
if (isnan (task->time_real_finish)) {
task->time_real_finish = ev_time ();
return TRUE;
}
return FALSE;
}
const gchar *
rspamd_task_stage_name (enum rspamd_task_stage stg)
{
const gchar *ret = "unknown stage";
switch (stg) {
case RSPAMD_TASK_STAGE_CONNECT:
ret = "connect";
break;
case RSPAMD_TASK_STAGE_CONNFILTERS:
ret = "connection_filter";
break;
case RSPAMD_TASK_STAGE_READ_MESSAGE:
ret = "read_message";
break;
case RSPAMD_TASK_STAGE_PRE_FILTERS:
ret = "prefilters";
break;
case RSPAMD_TASK_STAGE_PROCESS_MESSAGE:
ret = "process_message";
break;
case RSPAMD_TASK_STAGE_FILTERS:
ret = "filters";
break;
case RSPAMD_TASK_STAGE_CLASSIFIERS_PRE:
ret = "classifiers_pre";
break;
case RSPAMD_TASK_STAGE_CLASSIFIERS:
ret = "classifiers";
break;
case RSPAMD_TASK_STAGE_CLASSIFIERS_POST:
ret = "classifiers_post";
break;
case RSPAMD_TASK_STAGE_COMPOSITES:
ret = "composites";
break;
case RSPAMD_TASK_STAGE_POST_FILTERS:
ret = "postfilters";
break;
case RSPAMD_TASK_STAGE_LEARN_PRE:
ret = "learn_pre";
break;
case RSPAMD_TASK_STAGE_LEARN:
ret = "learn";
break;
case RSPAMD_TASK_STAGE_LEARN_POST:
ret = "learn_post";
break;
case RSPAMD_TASK_STAGE_COMPOSITES_POST:
ret = "composites_post";
break;
case RSPAMD_TASK_STAGE_IDEMPOTENT:
ret = "idempotent";
break;
case RSPAMD_TASK_STAGE_DONE:
ret = "done";
break;
case RSPAMD_TASK_STAGE_REPLIED:
ret = "replied";
break;
default:
break;
}
return ret;
}
void
rspamd_task_timeout (EV_P_ ev_timer *w, int revents)
{
struct rspamd_task *task = (struct rspamd_task *)w->data;
if (!(task->processed_stages & RSPAMD_TASK_STAGE_FILTERS)) {
ev_now_update_if_cheap (task->event_loop);
msg_info_task ("processing of task time out: %.1fs spent; %.1fs limit; "
"forced processing",
ev_now (task->event_loop) - task->task_timestamp,
w->repeat);
if (task->cfg->soft_reject_on_timeout) {
struct rspamd_action *action, *soft_reject;
action = rspamd_check_action_metric (task, NULL, NULL);
if (action->action_type != METRIC_ACTION_REJECT) {
soft_reject = rspamd_config_get_action_by_type (task->cfg,
METRIC_ACTION_SOFT_REJECT);
rspamd_add_passthrough_result (task,
soft_reject,
0,
NAN,
"timeout processing message",
"task timeout",
0, NULL);
}
}
ev_timer_again (EV_A_ w);
task->processed_stages |= RSPAMD_TASK_STAGE_FILTERS;
rspamd_session_cleanup (task->s);
rspamd_task_process (task, RSPAMD_TASK_PROCESS_ALL);
rspamd_session_pending (task->s);
}
else {
/* Postprocessing timeout */
msg_info_task ("post-processing of task time out: %.1f second spent; forced processing",
ev_now (task->event_loop) - task->task_timestamp);
if (task->cfg->soft_reject_on_timeout) {
struct rspamd_action *action, *soft_reject;
action = rspamd_check_action_metric (task, NULL, NULL);
if (action->action_type != METRIC_ACTION_REJECT) {
soft_reject = rspamd_config_get_action_by_type (task->cfg,
METRIC_ACTION_SOFT_REJECT);
rspamd_add_passthrough_result (task,
soft_reject,
0,
NAN,
"timeout post-processing message",
"task timeout",
0, NULL);
}
}
ev_timer_stop (EV_A_ w);
task->processed_stages |= RSPAMD_TASK_STAGE_DONE;
rspamd_session_cleanup (task->s);
rspamd_task_process (task, RSPAMD_TASK_PROCESS_ALL);
rspamd_session_pending (task->s);
}
}
void
rspamd_worker_guard_handler (EV_P_ ev_io *w, int revents)
{
struct rspamd_task *task = (struct rspamd_task *)w->data;
gchar fake_buf[1024];
gssize r;
r = read (w->fd, fake_buf, sizeof (fake_buf));
if (r > 0) {
msg_warn_task ("received extra data after task is loaded, ignoring");
}
else {
if (r == 0) {
/*
* Poor man approach, that might break things in case of
* shutdown (SHUT_WR) but sockets are so bad that there's no
* reliable way to distinguish between shutdown(SHUT_WR) and
* close.
*/
if (task->cmd != CMD_CHECK_V2 && task->cfg->enable_shutdown_workaround) {
msg_info_task ("workaround for shutdown enabled, please update "
"your client, this support might be removed in future");
shutdown (w->fd, SHUT_RD);
ev_io_stop (task->event_loop, &task->guard_ev);
}
else {
msg_err_task ("the peer has closed connection unexpectedly");
rspamd_session_destroy (task->s);
}
}
else if (errno != EAGAIN) {
msg_err_task ("the peer has closed connection unexpectedly: %s",
strerror (errno));
rspamd_session_destroy (task->s);
}
else {
return;
}
}
}