1 /*************************************************
2 * Exim - an Internet mail transport agent *
3 *************************************************/
5 /* Copyright (c) University of Cambridge 1995 - 2018 */
6 /* See the file NOTICE for conditions of use and distribution. */
8 /* Functions that operate on the input queue. */
19 #ifndef COMPILE_UTILITY
21 /* The number of nodes to use for the bottom-up merge sort when a list of queue
22 items is to be ordered. The code for this sort was contributed as a patch by
25 #define LOG2_MAXNODES 32
29 /*************************************************
30 * Helper sort function for queue_get_spool_list *
31 *************************************************/
33 /* This function is used when sorting the queue list in the function
34 queue_get_spool_list() below.
37 a points to an ordered list of queue_filename items
38 b points to another ordered list
40 Returns: a pointer to a merged ordered list
43 static queue_filename *
44 merge_queue_lists(queue_filename *a, queue_filename *b)
46 queue_filename *first = NULL;
47 queue_filename **append = &first;
52 if ((d = Ustrncmp(a->text, b->text, 6)) == 0)
53 d = Ustrcmp(a->text + 14, b->text + 14);
76 /*************************************************
77 * Get list of spool files *
78 *************************************************/
80 /* Scan the spool directory and return a list of the relevant file names
81 therein. Single-character sub-directories are handled as follows:
83 If the first argument is > 0, a sub-directory is scanned; the letter is
84 taken from the nth entry in subdirs.
86 If the first argument is 0, sub-directories are not scanned. However, a
87 list of them is returned.
89 If the first argument is < 0, sub-directories are scanned for messages,
90 and a single, unified list is created. The returned data blocks contain the
91 identifying character of the subdirectory, if any. The subdirs vector is
92 still required as an argument.
94 If the randomize argument is TRUE, messages are returned in "randomized" order.
95 Actually, the order is anything but random, but the algorithm is cheap, and the
96 point is simply to ensure that the same order doesn't occur every time, in case
97 a particular message is causing a remote MTA to barf - we would like to try
98 other messages to that MTA first.
100 If the randomize argument is FALSE, sort the list according to the file name.
101 This should give the order in which the messages arrived. It is normally used
102 only for presentation to humans, in which case the (possibly expensive) sort
103 that it does is not part of the normal operational code. However, if
104 queue_run_in_order is set, sorting has to take place for queue runs as well.
105 When randomize is FALSE, the first argument is normally -1, so all messages are
109 subdiroffset sub-directory character offset, or 0 or -1 (see above)
110 subdirs vector to store list of subdirchars
111 subcount pointer to int in which to store count of subdirs
112 randomize TRUE if the order of the list is to be unpredictable
113 pcount If not NULL, fill in with count of files and do not return list
115 Returns: pointer to a chain of queue name items
118 static queue_filename *
119 queue_get_spool_list(int subdiroffset, uschar *subdirs, int *subcount,
120 BOOL randomize, unsigned * pcount)
126 queue_filename *yield = NULL;
127 queue_filename *last = NULL;
131 queue_filename *root[LOG2_MAXNODES];
133 /* When randomizing, the file names are added to the start or end of the list
134 according to the bits of the flags variable. Get a collection of bits from the
135 current time. Use the bottom 16 and just keep re-using them if necessary. When
136 not randomizing, initialize the sublists for the bottom-up merge sort. */
141 resetflags = time(NULL) & 0xFFFF;
143 for (i = 0; i < LOG2_MAXNODES; i++)
146 /* If processing the full queue, or just the top-level, start at the base
147 directory, and initialize the first subdirectory name (as none). Otherwise,
148 start at the sub-directory offset. */
150 if (subdiroffset <= 0)
159 /* Set up prototype for the directory name. */
161 spool_pname_buf(buffer, sizeof(buffer));
162 buffer[sizeof(buffer) - 3] = 0;
163 subptr = Ustrlen(buffer);
164 buffer[subptr+2] = 0; /* terminator for lengthened name */
166 /* This loop runs at least once, for the main or given directory, and then as
167 many times as necessary to scan any subdirectories encountered in the main
168 directory, if they are to be scanned at this time. */
170 for (; i <= *subcount; i++)
173 int subdirchar = subdirs[i]; /* 0 for main directory */
177 buffer[subptr] = '/';
178 buffer[subptr+1] = subdirchar;
181 DEBUG(D_queue_run) debug_printf("looking in %s\n", buffer);
182 if (!(dd = opendir(CS buffer)))
185 /* Now scan the directory. */
187 while ((ent = readdir(dd)))
189 uschar *name = US ent->d_name;
190 int len = Ustrlen(name);
196 /* If we find a single alphameric sub-directory in the base directory,
197 add it to the list for subsequent scans. */
199 if (i == 0 && len == 1 && isalnum(*name))
201 *subcount = *subcount + 1;
202 subdirs[*subcount] = *name;
206 /* Otherwise, if it is a header spool file, add it to the list */
208 if (len == SPOOL_NAME_LENGTH &&
209 Ustrcmp(name + SPOOL_NAME_LENGTH - 2, "-H") == 0)
214 queue_filename *next =
215 store_get(sizeof(queue_filename) + Ustrlen(name), is_tainted(name));
216 Ustrcpy(next->text, name);
217 next->dir_uschar = subdirchar;
219 /* Handle the creation of a randomized list. The first item becomes both
220 the top and bottom of the list. Subsequent items are inserted either at
221 the top or the bottom, randomly. This is, I argue, faster than doing a
222 sort by allocating a random number to each item, and it also saves having
223 to store the number with each item. */
235 if ((flags & 1) == 0)
249 /* Otherwise do a bottom-up merge sort based on the name. */
254 for (int j = 0; j < LOG2_MAXNODES; j++)
257 next = merge_queue_lists(next, root[j]);
258 root[j] = j == LOG2_MAXNODES - 1 ? next : NULL;
269 /* Finished with this directory */
273 /* If we have just scanned a sub-directory, and it was empty (count == 2
274 implies just "." and ".." entries), and Exim is no longer configured to
275 use sub-directories, attempt to get rid of it. At the same time, try to
276 get rid of any corresponding msglog subdirectory. These are just cosmetic
277 tidying actions, so just ignore failures. If we are scanning just a single
278 sub-directory, break the loop. */
282 if (!split_spool_directory && count <= 2)
287 subdir[0] = subdirchar; subdir[1] = 0;
288 rmdir(CS spool_dname(US"msglog", subdir));
290 if (subdiroffset > 0) break; /* Single sub-directory */
293 /* If we have just scanned the base directory, and subdiroffset is 0,
294 we do not want to continue scanning the sub-directories. */
296 else if (subdiroffset == 0)
298 } /* Loop for multiple subdirectories */
300 /* When using a bottom-up merge sort, do the final merging of the sublists.
301 Then pass back the final list of file items. */
303 if (!pcount && !randomize)
304 for (i = 0; i < LOG2_MAXNODES; ++i)
305 yield = merge_queue_lists(yield, root[i]);
313 /*************************************************
314 * Perform a queue run *
315 *************************************************/
317 /* The arguments give the messages to start and stop at; NULL means start at
318 the beginning or stop at the end. If the given start message doesn't exist, we
319 start at the next lexically greater one, and likewise we stop at the after the
320 previous lexically lesser one if the given stop message doesn't exist. Because
321 a queue run can take some time, stat each file before forking, in case it has
322 been delivered in the meantime by some other means.
324 The global variables queue_run_force and queue_run_local may be set to cause
325 forced deliveries or local-only deliveries, respectively.
327 If deliver_selectstring[_sender] is not NULL, skip messages whose recipients do
328 not contain the string. As this option is typically used when a machine comes
329 back online, we want to ensure that at least one delivery attempt takes place,
330 so force the first one. The selecting string can optionally be a regex, or
331 refer to the sender instead of recipients.
333 If queue_2stage is set, the queue is scanned twice. The first time, queue_smtp
334 is set so that routing is done for all messages. Thus in the second run those
335 that are routed to the same host should go down the same SMTP connection.
338 start_id message id to start at, or NULL for all
339 stop_id message id to end at, or NULL for all
340 recurse TRUE if recursing for 2-stage run
346 queue_run(uschar *start_id, uschar *stop_id, BOOL recurse)
348 BOOL force_delivery = f.queue_run_force || deliver_selectstring != NULL ||
349 deliver_selectstring_sender != NULL;
350 const pcre *selectstring_regex = NULL;
351 const pcre *selectstring_regex_sender = NULL;
352 uschar *log_detail = NULL;
355 pid_t qpid[4] = {0}; /* Parallelism factor for q2stage 1st phase */
356 BOOL single_id = FALSE;
358 #ifdef MEASURE_TIMING
359 report_time_since(×tamp_startup, US"queue_run start");
362 /* Cancel any specific queue domains. Turn off the flag that causes SMTP
363 deliveries not to happen, unless doing a 2-stage queue run, when the SMTP flag
364 gets set. Save the queue_runner's pid and the flag that indicates any
365 deliveries run directly from this process. Deliveries that are run by handing
366 on TCP/IP channels have queue_run_pid set, but not queue_running. */
368 queue_domains = NULL;
369 queue_smtp_domains = NULL;
370 f.queue_smtp = f.queue_2stage;
372 queue_run_pid = getpid();
373 f.queue_running = TRUE;
375 /* Log the true start of a queue run, and fancy options */
382 if (f.queue_2stage) *p++ = 'q';
383 if (f.queue_run_first_delivery) *p++ = 'i';
384 if (f.queue_run_force) *p++ = 'f';
385 if (f.deliver_force_thaw) *p++ = 'f';
386 if (f.queue_run_local) *p++ = 'l';
390 p += sprintf(CS p, "pid=%d", (int)queue_run_pid);
393 p += sprintf(CS p, " -q%s", extras);
395 if (deliver_selectstring)
396 p += sprintf(CS p, " -R%s %s", f.deliver_selectstring_regex? "r" : "",
397 deliver_selectstring);
399 if (deliver_selectstring_sender)
400 p += sprintf(CS p, " -S%s %s", f.deliver_selectstring_sender_regex? "r" : "",
401 deliver_selectstring_sender);
403 log_detail = string_copy(big_buffer);
405 log_write(L_queue_run, LOG_MAIN, "Start '%s' queue run: %s",
406 queue_name, log_detail);
408 log_write(L_queue_run, LOG_MAIN, "Start queue run: %s", log_detail);
410 single_id = start_id && stop_id && !f.queue_2stage
411 && Ustrcmp(start_id, stop_id) == 0;
414 /* If deliver_selectstring is a regex, compile it. */
416 if (deliver_selectstring && f.deliver_selectstring_regex)
417 selectstring_regex = regex_must_compile(deliver_selectstring, TRUE, FALSE);
419 if (deliver_selectstring_sender && f.deliver_selectstring_sender_regex)
420 selectstring_regex_sender =
421 regex_must_compile(deliver_selectstring_sender, TRUE, FALSE);
423 /* If the spool is split into subdirectories, we want to process it one
424 directory at a time, so as to spread out the directory scanning and the
425 delivering when there are lots of messages involved, except when
426 queue_run_in_order is set.
428 In the random order case, this loop runs once for the main directory (handling
429 any messages therein), and then repeats for any subdirectories that were found.
430 When the first argument of queue_get_spool_list() is 0, it scans the top
431 directory, fills in subdirs, and sets subcount. The order of the directories is
432 then randomized after the first time through, before they are scanned in
433 subsequent iterations.
435 When the first argument of queue_get_spool_list() is -1 (for queue_run_in_
436 order), it scans all directories and makes a single message list. */
438 for (int i = queue_run_in_order ? -1 : 0;
439 i <= (queue_run_in_order ? -1 : subcount);
442 rmark reset_point1 = store_mark();
447 debug_printf("queue running main directory\n");
449 debug_printf("queue running combined directories\n");
451 debug_printf("queue running subdirectory '%c'\n", subdirs[i]);
454 for (queue_filename * fq = queue_get_spool_list(i, subdirs, &subcount,
455 !queue_run_in_order, NULL);
464 /* Unless deliveries are forced, if deliver_queue_load_max is non-negative,
465 check that the load average is low enough to permit deliveries. */
467 if (!f.queue_run_force && deliver_queue_load_max >= 0)
468 if ((load_average = os_getloadavg()) > deliver_queue_load_max)
470 log_write(L_queue_run, LOG_MAIN, "Abandon queue run: %s (load %.2f, max %.2f)",
472 (double)load_average/1000.0,
473 (double)deliver_queue_load_max/1000.0);
474 i = subcount; /* Don't process other directories */
478 DEBUG(D_load) debug_printf("load average = %.2f max = %.2f\n",
479 (double)load_average/1000.0,
480 (double)deliver_queue_load_max/1000.0);
482 /* If initial of a 2-phase run, maintain a set of child procs
483 to get disk parallelism */
485 if (f.queue_2stage && !queue_run_in_order)
488 if (qpid[f.running_in_test_harness ? 0 : nelem(qpid) - 1])
490 DEBUG(D_queue_run) debug_printf("q2stage waiting for child %d\n", (int)qpid[0]);
491 waitpid(qpid[0], NULL, 0);
492 DEBUG(D_queue_run) debug_printf("q2stage reaped child %d\n", (int)qpid[0]);
493 if (f.running_in_test_harness) i = 0;
494 else for (i = 0; i < nelem(qpid) - 1; i++) qpid[i] = qpid[i+1];
498 for (i = 0; qpid[i]; ) i++;
499 DEBUG(D_queue_run) debug_printf("q2stage forking\n");
500 if ((qpid[i] = exim_fork(US"qrun phase one")))
501 continue; /* parent loops around */
502 DEBUG(D_queue_run) debug_printf("q2stage child\n");
505 /* Skip this message unless it's within the ID limits */
507 if (stop_id && Ustrncmp(fq->text, stop_id, MESSAGE_ID_LENGTH) > 0)
509 if (start_id && Ustrncmp(fq->text, start_id, MESSAGE_ID_LENGTH) < 0)
512 /* Check that the message still exists */
514 message_subdir[0] = fq->dir_uschar;
515 if (Ustat(spool_fname(US"input", message_subdir, fq->text, US""), &statbuf) < 0)
518 /* There are some tests that require the reading of the header file. Ensure
519 the store used is scavenged afterwards so that this process doesn't keep
520 growing its store. We have to read the header file again when actually
521 delivering, but it's cheaper than forking a delivery process for each
522 message when many are not going to be delivered. */
524 if (deliver_selectstring || deliver_selectstring_sender ||
525 f.queue_run_first_delivery)
528 BOOL orig_dont_deliver = f.dont_deliver;
529 rmark reset_point2 = store_mark();
531 /* Restore the original setting of dont_deliver after reading the header,
532 so that a setting for a particular message doesn't force it for any that
533 follow. If the message is chosen for delivery, the header is read again
534 in the deliver_message() function, in a subprocess. */
536 if (spool_read_header(fq->text, FALSE, TRUE) != spool_read_OK) goto go_around;
537 f.dont_deliver = orig_dont_deliver;
539 /* Now decide if we want to deliver this message. As we have read the
540 header file, we might as well do the freeze test now, and save forking
543 if (f.deliver_freeze && !f.deliver_force_thaw)
545 log_write(L_skip_delivery, LOG_MAIN, "Message is frozen");
549 /* Check first_delivery in the case when there are no message logs. */
551 else if (f.queue_run_first_delivery && !f.deliver_firsttime)
553 DEBUG(D_queue_run) debug_printf("%s: not first delivery\n", fq->text);
557 /* Check for a matching address if deliver_selectstring[_sender] is set.
558 If so, we do a fully delivery - don't want to omit other addresses since
559 their routing might trigger re-writing etc. */
561 /* Sender matching */
563 else if ( deliver_selectstring_sender
564 && !(f.deliver_selectstring_sender_regex
565 ? (pcre_exec(selectstring_regex_sender, NULL,
566 CS sender_address, Ustrlen(sender_address), 0, PCRE_EOPT,
568 : (strstric(sender_address, deliver_selectstring_sender, FALSE)
572 DEBUG(D_queue_run) debug_printf("%s: sender address did not match %s\n",
573 fq->text, deliver_selectstring_sender);
577 /* Recipient matching */
579 else if (deliver_selectstring)
582 for (i = 0; i < recipients_count; i++)
584 uschar *address = recipients_list[i].address;
585 if ( (f.deliver_selectstring_regex
586 ? (pcre_exec(selectstring_regex, NULL, CS address,
587 Ustrlen(address), 0, PCRE_EOPT, NULL, 0) >= 0)
588 : (strstric(address, deliver_selectstring, FALSE) != NULL)
590 && tree_search(tree_nonrecipients, address) == NULL
595 if (i >= recipients_count)
598 debug_printf("%s: no recipient address matched %s\n",
599 fq->text, deliver_selectstring);
604 /* Recover store used when reading the header */
606 spool_clear_header_globals();
607 store_reset(reset_point2);
608 if (!wanted) goto go_around; /* With next message */
611 /* OK, got a message we want to deliver. Create a pipe which will
612 serve as a means of detecting when all the processes created by the
613 delivery process are finished. This is relevant when the delivery
614 process passes one or more SMTP channels on to its own children. The
615 pipe gets passed down; by reading on it here we detect when the last
616 descendent dies by the unblocking of the read. It's a pity that for
617 most of the time the pipe isn't used, but creating a pipe should be
621 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "failed to create pipe in queue "
622 "runner process %d: %s", queue_run_pid, strerror(errno));
623 queue_run_pipe = pfd[pipe_write]; /* To ensure it gets passed on. */
625 /* Make sure it isn't stdin. This seems unlikely, but just to be on the
628 if (queue_run_pipe == 0)
630 queue_run_pipe = dup(queue_run_pipe);
634 /* Before forking to deliver the message, ensure any open and cached
635 lookup files or databases are closed. Otherwise, closing in the subprocess
636 can make the next subprocess have problems. There won't often be anything
637 open here, but it is possible (e.g. if spool_directory is an expanded
638 string). A single call before this loop would probably suffice, but just in
639 case expansions get inserted at some point, I've taken the heavy-handed
640 approach. When nothing is open, the call should be cheap. */
644 /* Now deliver the message; get the id by cutting the -H off the file
645 name. The return of the process is zero if a delivery was attempted. */
647 set_process_info("running queue: %s", fq->text);
648 fq->text[SPOOL_NAME_LENGTH-2] = 0;
649 #ifdef MEASURE_TIMING
650 report_time_since(×tamp_startup, US"queue msg selected");
654 if ((pid = exim_fork(US"qrun delivery")) == 0)
657 testharness_pause_ms(100);
658 (void)close(pfd[pipe_read]);
659 rc = deliver_message(fq->text, force_delivery, FALSE);
660 exim_underbar_exit(rc == DELIVER_NOT_ATTEMPTED, US"qrun-delivery");
663 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "fork of delivery process from "
664 "queue runner %d failed\n", queue_run_pid);
666 /* Close the writing end of the synchronizing pipe in this process,
667 then wait for the first level process to terminate. */
669 (void)close(pfd[pipe_write]);
670 set_process_info("running queue: waiting for %s (%d)", fq->text, pid);
671 while (wait(&status) != pid);
673 /* A zero return means a delivery was attempted; turn off the force flag
674 for any subsequent calls unless queue_force is set. */
676 if (!(status & 0xffff)) force_delivery = f.queue_run_force;
678 /* If the process crashed, tell somebody */
680 else if (status & 0x00ff)
681 log_write(0, LOG_MAIN|LOG_PANIC,
682 "queue run: process %d crashed with signal %d while delivering %s",
683 (int)pid, status & 0x00ff, fq->text);
685 /* If single-item delivery was untried (likely due to locking)
686 retry once after a delay */
688 if (status & 0xff00 && single_id)
691 DEBUG(D_queue_run) debug_printf("qrun single-item pause before retry\n");
693 DEBUG(D_queue_run) debug_printf("qrun single-item retry after pause\n");
694 goto single_item_retry;
697 /* Before continuing, wait till the pipe gets closed at the far end. This
698 tells us that any children created by the delivery to re-use any SMTP
699 channels have all finished. Since no process actually writes to the pipe,
700 the mere fact that read() unblocks is enough. */
702 set_process_info("running queue: waiting for children of %d", pid);
703 if ((status = read(pfd[pipe_read], buffer, sizeof(buffer))) != 0)
704 log_write(0, LOG_MAIN|LOG_PANIC, status > 0 ?
705 "queue run: unexpected data on pipe" : "queue run: error on pipe: %s",
707 (void)close(pfd[pipe_read]);
708 set_process_info("running queue");
710 /* If initial of a 2-phase run, we are a child - so just exit */
711 if (f.queue_2stage && !queue_run_in_order)
712 exim_exit(EXIT_SUCCESS, US"2-phase child");
714 /* If we are in the test harness, and this is not the first of a 2-stage
715 queue run, update fudged queue times. */
717 if (f.running_in_test_harness && !f.queue_2stage)
719 uschar * fqtnext = Ustrchr(fudged_queue_times, '/');
720 if (fqtnext) fudged_queue_times = fqtnext + 1;
727 /* If initial of a 2-phase run, we are a child - so just exit */
728 if (f.queue_2stage && !queue_run_in_order)
729 exim_exit(EXIT_SUCCESS, US"2-phase child");
730 } /* End loop for list of messages */
732 tree_nonrecipients = NULL;
733 store_reset(reset_point1); /* Scavenge list of messages */
735 /* If this was the first time through for random order processing, and
736 sub-directories have been found, randomize their order if necessary. */
738 if (i == 0 && subcount > 1 && !queue_run_in_order)
739 for (int j = 1; j <= subcount; j++)
742 if ((r = random_number(100)) >= 50)
744 int k = (r % subcount) + 1;
746 subdirs[j] = subdirs[k];
750 } /* End loop for multiple directories */
752 /* If queue_2stage is true, we do it all again, with the 2stage flag
758 /* wait for last children */
759 for (int i = 0; i < nelem(qpid); i++)
762 DEBUG(D_queue_run) debug_printf("q2stage reaped child %d\n", (int)qpid[i]);
763 waitpid(qpid[i], NULL, 0);
767 #ifdef MEASURE_TIMING
768 report_time_since(×tamp_startup, US"queue_run 1st phase done");
770 f.queue_2stage = FALSE;
771 queue_run(start_id, stop_id, TRUE);
774 /* At top level, log the end of the run. */
778 log_write(L_queue_run, LOG_MAIN, "End '%s' queue run: %s",
779 queue_name, log_detail);
781 log_write(L_queue_run, LOG_MAIN, "End queue run: %s", log_detail);
787 /************************************************
788 * Count messages on the queue *
789 ************************************************/
791 /* Called as a result of -bpc
804 (void) queue_get_spool_list(-1, /* entire queue */
805 subdirs, /* for holding sub list */
806 &subcount, /* for subcount */
807 FALSE, /* not random */
808 &count); /* just get the count */
813 #define QUEUE_SIZE_AGE 60 /* update rate for queue_size */
816 queue_count_cached(void)
819 if ((now = time(NULL)) >= queue_size_next)
821 queue_size = queue_count();
822 queue_size_next = now + (f.running_in_test_harness ? 3 : QUEUE_SIZE_AGE);
827 /************************************************
828 * List extra deliveries *
829 ************************************************/
831 /* This is called from queue_list below to print out all addresses that
832 have received a message but which were not primary addresses. That is, all
833 the addresses in the tree of non-recipients that are not primary addresses.
834 The tree has been scanned and the data field filled in for those that are
837 Argument: points to the tree node
842 queue_list_extras(tree_node *p)
844 if (p->left) queue_list_extras(p->left);
845 if (!p->data.val) printf(" +D %s\n", p->name);
846 if (p->right) queue_list_extras(p->right);
851 /************************************************
852 * List messages on the queue *
853 ************************************************/
855 /* Or a given list of messages. In the "all" case, we get a list of file names
856 as quickly as possible, then scan each one for information to output. If any
857 disappear while we are processing, just leave them out, but give an error if an
858 explicit list was given. This function is a top-level function that is obeyed
859 as a result of the -bp argument. As there may be a lot of messages on the
860 queue, we must tidy up the store after reading the headers for each one.
863 option 0 => list top-level recipients, with "D" for those delivered
864 1 => list only undelivered top-level recipients
865 2 => as 0, plus any generated delivered recipients
866 If 8 is added to any of these values, the queue is listed in
868 list => first of any message ids to list
869 count count of message ids; 0 => all
875 queue_list(int option, uschar **list, int count)
878 int now = (int)time(NULL);
880 queue_filename * qf = NULL;
883 /* If given a list of messages, build a chain containing their ids. */
887 queue_filename *last = NULL;
888 for (int i = 0; i < count; i++)
890 queue_filename *next =
891 store_get(sizeof(queue_filename) + Ustrlen(list[i]) + 2, is_tainted(list[i]));
892 sprintf(CS next->text, "%s-H", list[i]);
893 next->dir_uschar = '*';
895 if (i == 0) qf = next; else last->next = next;
900 /* Otherwise get a list of the entire queue, in order if necessary. */
903 qf = queue_get_spool_list(
904 -1, /* entire queue */
905 subdirs, /* for holding sub list */
906 &subcount, /* for subcount */
907 option >= 8, /* randomize if required */
908 NULL); /* don't just count */
910 if (option >= 8) option -= 8;
912 /* Now scan the chain and print information, resetting store used
916 qf && (reset_point = store_mark());
917 spool_clear_header_globals(), store_reset(reset_point), qf = qf->next
925 message_subdir[0] = qf->dir_uschar;
926 rc = spool_read_header(qf->text, FALSE, count <= 0);
927 if (rc == spool_read_notopen && errno == ENOENT && count <= 0)
931 env_read = (rc == spool_read_OK || rc == spool_read_hdrerror);
938 uschar * fname = spool_fname(US"input", message_subdir, qf->text, US"");
940 ptr = Ustrlen(fname)-1;
943 /* Add the data size to the header size; don't count the file name
944 at the start of the data file, but add one for the notional blank line
945 that precedes the data. */
947 if (Ustat(fname, &statbuf) == 0)
948 size = message_size + statbuf.st_size - SPOOL_DATA_START_OFFSET + 1;
949 i = (now - received_time.tv_sec)/60; /* minutes on queue */
953 if (i > 72) printf("%2dd ", (i + 12)/24); else printf("%2dh ", i);
955 else printf("%2dm ", i);
957 /* Collect delivered addresses from any J file */
960 if ((jread = Ufopen(fname, "rb")))
962 while (Ufgets(big_buffer, big_buffer_size, jread) != NULL)
964 int n = Ustrlen(big_buffer);
966 tree_add_nonrecipient(big_buffer);
972 fprintf(stdout, "%s ", string_format_size(size, big_buffer));
973 for (int i = 0; i < 16; i++) fputc(qf->text[i], stdout);
975 if (env_read && sender_address)
977 printf(" <%s>", sender_address);
978 if (f.sender_set_untrusted) printf(" (%s)", originator_login);
981 if (rc != spool_read_OK)
984 if (save_errno == ERRNO_SPOOLFORMAT)
987 uschar * fname = spool_fname(US"input", message_subdir, qf->text, US"");
989 if (Ustat(fname, &statbuf) == 0)
990 printf("*** spool format error: size=" OFF_T_FMT " ***",
992 else printf("*** spool format error ***");
994 else printf("*** spool read error: %s ***", strerror(save_errno));
995 if (rc != spool_read_hdrerror)
1002 if (f.deliver_freeze) printf(" *** frozen ***");
1006 if (recipients_list)
1008 for (int i = 0; i < recipients_count; i++)
1010 tree_node *delivered =
1011 tree_search(tree_nonrecipients, recipients_list[i].address);
1012 if (!delivered || option != 1)
1014 delivered ? "D" : " ", recipients_list[i].address);
1015 if (delivered) delivered->data.val = TRUE;
1017 if (option == 2 && tree_nonrecipients)
1018 queue_list_extras(tree_nonrecipients);
1026 /*************************************************
1027 * Act on a specific message *
1028 *************************************************/
1030 /* Actions that require a list of addresses make use of argv/argc/
1031 recipients_arg. Other actions do not. This function does its own
1035 id id of the message to work on
1036 action which action is required (MSG_xxx)
1037 argv the original argv for Exim
1038 argc the original argc for Exim
1039 recipients_arg offset to the list of recipients in argv
1041 Returns: FALSE if there was any problem
1045 queue_action(uschar *id, int action, uschar **argv, int argc, int recipients_arg)
1048 BOOL removed = FALSE;
1050 uschar *doing = NULL;
1053 uschar spoolname[32];
1055 /* Set the global message_id variable, used when re-writing spool files. This
1056 also causes message ids to be added to log messages. */
1058 Ustrcpy(message_id, id);
1060 /* The "actions" that just list the files do not require any locking to be
1061 done. Only admin users may read the spool files. */
1063 if (action >= MSG_SHOW_BODY)
1066 uschar *subdirectory, *suffix;
1070 printf("Permission denied\n");
1074 if (recipients_arg < argc)
1076 printf("*** Only one message can be listed at once\n");
1080 if (action == MSG_SHOW_BODY)
1082 subdirectory = US"input";
1085 else if (action == MSG_SHOW_HEADER)
1087 subdirectory = US"input";
1092 subdirectory = US"msglog";
1096 for (int i = 0; i < 2; i++)
1098 set_subdir_str(message_subdir, id, i);
1099 if ((fd = Uopen(spool_fname(subdirectory, message_subdir, id, suffix),
1105 printf("Failed to open %s file for %s%s: %s\n", subdirectory, id, suffix,
1107 if (action == MSG_SHOW_LOG && !message_logs)
1108 printf("(No message logs are being created because the message_logs "
1109 "option is false.)\n");
1113 while((rc = read(fd, big_buffer, big_buffer_size)) > 0)
1114 rc = write(fileno(stdout), big_buffer, rc);
1120 /* For actions that actually act, open and lock the data file to ensure that no
1121 other process is working on this message. If the file does not exist, continue
1122 only if the action is remove and the user is an admin user, to allow for
1123 tidying up broken states. */
1125 if ((deliver_datafile = spool_open_datafile(id)) < 0)
1126 if (errno == ENOENT)
1129 printf("Spool data file for %s does not exist\n", id);
1130 if (action != MSG_REMOVE || !f.admin_user) return FALSE;
1131 printf("Continuing, to ensure all files removed\n");
1135 if (errno == 0) printf("Message %s is locked\n", id);
1136 else printf("Couldn't open spool file for %s: %s\n", id,
1141 /* Read the spool header file for the message. Again, continue after an
1142 error only in the case of deleting by an administrator. Setting the third
1143 argument false causes it to look both in the main spool directory and in
1144 the appropriate subdirectory, and set message_subdir according to where it
1145 found the message. */
1147 sprintf(CS spoolname, "%s-H", id);
1148 if (spool_read_header(spoolname, TRUE, FALSE) != spool_read_OK)
1151 if (errno != ERRNO_SPOOLFORMAT)
1152 printf("Spool read error for %s: %s\n", spoolname, strerror(errno));
1154 printf("Spool format error for %s\n", spoolname);
1155 if (action != MSG_REMOVE || !f.admin_user)
1157 (void)close(deliver_datafile);
1158 deliver_datafile = -1;
1161 printf("Continuing to ensure all files removed\n");
1164 /* Check that the user running this process is entitled to operate on this
1165 message. Only admin users may freeze/thaw, add/cancel recipients, or otherwise
1166 mess about, but the original sender is permitted to remove a message. That's
1167 why we leave this check until after the headers are read. */
1169 if (!f.admin_user && (action != MSG_REMOVE || real_uid != originator_uid))
1171 printf("Permission denied\n");
1172 (void)close(deliver_datafile);
1173 deliver_datafile = -1;
1177 /* Set up the user name for logging. */
1179 pw = getpwuid(real_uid);
1180 username = (pw != NULL)?
1181 US pw->pw_name : string_sprintf("uid %ld", (long int)real_uid);
1183 /* Take the necessary action. */
1185 if (action != MSG_SHOW_COPY) printf("Message %s ", id);
1191 transport_ctx tctx = {{0}};
1192 deliver_in_buffer = store_malloc(DELIVER_IN_BUFFER_SIZE);
1193 deliver_out_buffer = store_malloc(DELIVER_OUT_BUFFER_SIZE);
1195 (void) transport_write_message(&tctx, 0);
1201 if (f.deliver_freeze)
1204 printf("is already frozen\n");
1208 f.deliver_freeze = TRUE;
1209 f.deliver_manual_thaw = FALSE;
1210 deliver_frozen_at = time(NULL);
1211 if (spool_write_header(id, SW_MODIFYING, &errmsg) >= 0)
1213 printf("is now frozen\n");
1214 log_write(0, LOG_MAIN, "frozen by %s", username);
1219 printf("could not be frozen: %s\n", errmsg);
1226 if (!f.deliver_freeze)
1229 printf("is not frozen\n");
1233 f.deliver_freeze = FALSE;
1234 f.deliver_manual_thaw = TRUE;
1235 if (spool_write_header(id, SW_MODIFYING, &errmsg) >= 0)
1237 printf("is no longer frozen\n");
1238 log_write(0, LOG_MAIN, "unfrozen by %s", username);
1243 printf("could not be unfrozen: %s\n", errmsg);
1249 /* We must ensure all files are removed from both the input directory
1250 and the appropriate subdirectory, to clean up cases when there are odd
1251 files left lying around in odd places. In the normal case message_subdir
1252 will have been set correctly by spool_read_header, but as this is a rare
1253 operation, just run everything twice. */
1261 message_subdir[0] = id[5];
1263 for (int j = 0; j < 2; message_subdir[0] = 0, j++)
1265 uschar * fname = spool_fname(US"msglog", message_subdir, id, US"");
1267 DEBUG(D_any) debug_printf(" removing %s", fname);
1268 if (Uunlink(fname) < 0)
1270 if (errno != ENOENT)
1273 printf("Error while removing %s: %s\n", fname, strerror(errno));
1275 else DEBUG(D_any) debug_printf(" (no file)\n");
1280 DEBUG(D_any) debug_printf(" (ok)\n");
1283 for (int i = 0; i < 3; i++)
1287 suffix[1] = (US"DHJ")[i];
1288 fname = spool_fname(US"input", message_subdir, id, suffix);
1290 DEBUG(D_any) debug_printf(" removing %s", fname);
1291 if (Uunlink(fname) < 0)
1293 if (errno != ENOENT)
1296 printf("Error while removing %s: %s\n", fname, strerror(errno));
1298 else DEBUG(D_any) debug_printf(" (no file)\n");
1303 DEBUG(D_any) debug_printf(" (done)\n");
1308 /* In the common case, the datafile is open (and locked), so give the
1309 obvious message. Otherwise be more specific. */
1311 if (deliver_datafile >= 0) printf("has been removed\n");
1312 else printf("has been removed or did not exist\n");
1315 #ifndef DISABLE_EVENT
1316 if (event_action) for (int i = 0; i < recipients_count; i++)
1318 tree_node *delivered =
1319 tree_search(tree_nonrecipients, recipients_list[i].address);
1322 uschar * save_local = deliver_localpart;
1323 const uschar * save_domain = deliver_domain;
1324 uschar * addr = recipients_list[i].address, * errmsg = NULL;
1325 int start, end, dom;
1327 if (!parse_extract_address(addr, &errmsg, &start, &end, &dom, TRUE))
1328 log_write(0, LOG_MAIN|LOG_PANIC,
1329 "failed to parse address '%.100s'\n: %s", addr, errmsg);
1333 string_copyn(addr+start, dom ? (dom-1) - start : end - start);
1334 deliver_domain = dom
1335 ? CUS string_copyn(addr+dom, end - dom) : CUS"";
1337 event_raise(event_action, US"msg:fail:internal",
1338 string_sprintf("message removed by %s", username));
1340 deliver_localpart = save_local;
1341 deliver_domain = save_domain;
1345 (void) event_raise(event_action, US"msg:complete", NULL);
1347 log_write(0, LOG_MAIN, "removed by %s", username);
1348 log_write(0, LOG_MAIN, "Completed");
1355 /* The global "queue_name_dest" is used as destination, "queue_name"
1358 spool_move_message(id, message_subdir, US"", US"");
1362 case MSG_MARK_ALL_DELIVERED:
1363 for (int i = 0; i < recipients_count; i++)
1364 tree_add_nonrecipient(recipients_list[i].address);
1366 if (spool_write_header(id, SW_MODIFYING, &errmsg) >= 0)
1368 printf("has been modified\n");
1369 for (int i = 0; i < recipients_count; i++)
1370 log_write(0, LOG_MAIN, "address <%s> marked delivered by %s",
1371 recipients_list[i].address, username);
1376 printf("- could not mark all delivered: %s\n", errmsg);
1381 case MSG_EDIT_SENDER:
1382 if (recipients_arg < argc - 1)
1385 printf("- only one sender address can be specified\n");
1388 doing = US"editing sender";
1391 case MSG_ADD_RECIPIENT:
1392 if (doing == NULL) doing = US"adding recipient";
1395 case MSG_MARK_DELIVERED:
1396 if (doing == NULL) doing = US"marking as delivered";
1398 /* Common code for EDIT_SENDER, ADD_RECIPIENT, & MARK_DELIVERED */
1400 if (recipients_arg >= argc)
1403 printf("- error while %s: no address given\n", doing);
1407 for (; recipients_arg < argc; recipients_arg++)
1409 int start, end, domain;
1412 parse_extract_address(argv[recipients_arg], &errmess, &start, &end,
1413 &domain, (action == MSG_EDIT_SENDER));
1415 if (recipient == NULL)
1418 printf("- error while %s:\n bad address %s: %s\n",
1419 doing, argv[recipients_arg], errmess);
1421 else if (recipient[0] != 0 && domain == 0)
1424 printf("- error while %s:\n bad address %s: "
1425 "domain missing\n", doing, argv[recipients_arg]);
1429 if (action == MSG_ADD_RECIPIENT)
1432 if (string_is_utf8(recipient)) allow_utf8_domains = message_smtputf8 = TRUE;
1434 receive_add_recipient(recipient, -1);
1435 log_write(0, LOG_MAIN, "recipient <%s> added by %s",
1436 recipient, username);
1438 else if (action == MSG_MARK_DELIVERED)
1441 for (i = 0; i < recipients_count; i++)
1442 if (Ustrcmp(recipients_list[i].address, recipient) == 0) break;
1443 if (i >= recipients_count)
1445 printf("- error while %s:\n %s is not a recipient:"
1446 " message not updated\n", doing, recipient);
1451 tree_add_nonrecipient(recipients_list[i].address);
1452 log_write(0, LOG_MAIN, "address <%s> marked delivered by %s",
1453 recipient, username);
1456 else /* MSG_EDIT_SENDER */
1459 if (string_is_utf8(recipient)) allow_utf8_domains = message_smtputf8 = TRUE;
1461 sender_address = recipient;
1462 log_write(0, LOG_MAIN, "sender address changed to <%s> by %s",
1463 recipient, username);
1469 if (spool_write_header(id, SW_MODIFYING, &errmsg) >= 0)
1470 printf("has been modified\n");
1474 printf("- while %s: %s\n", doing, errmsg);
1480 /* Closing the datafile releases the lock and permits other processes
1481 to operate on the message (if it still exists). */
1483 if (deliver_datafile >= 0)
1485 (void)close(deliver_datafile);
1486 deliver_datafile = -1;
1493 /*************************************************
1494 * Check the queue_only_file condition *
1495 *************************************************/
1497 /* The queue_only_file option forces certain kinds of queueing if a given file
1505 queue_check_only(void)
1508 struct stat statbuf;
1509 const uschar * s = queue_only_file;
1513 while ((ss = string_nextinlist(&s, &sep, NULL, 0)))
1514 if (Ustrncmp(ss, "smtp", 4) == 0)
1517 if (Ustat(ss, &statbuf) == 0)
1519 f.queue_smtp = TRUE;
1520 DEBUG(D_receive) debug_printf("queue_smtp set because %s exists\n", ss);
1524 if (Ustat(ss, &statbuf) == 0)
1527 DEBUG(D_receive) debug_printf("queue_only set because %s exists\n", ss);
1533 /******************************************************************************/
1534 /******************************************************************************/
1536 #ifdef EXPERIMENTAL_QUEUE_RAMP
1538 queue_notify_daemon(const uschar * msgid)
1540 uschar buf[MESSAGE_ID_LENGTH + 2];
1543 DEBUG(D_queue_run) debug_printf("%s: %s\n", __FUNCTION__, msgid);
1545 buf[0] = NOTIFY_MSG_QRUN;
1546 memcpy(buf+1, msgid, MESSAGE_ID_LENGTH+1);
1548 if ((fd = socket(AF_UNIX, SOCK_DGRAM, 0)) >= 0)
1550 struct sockaddr_un sa_un = {.sun_family = AF_UNIX};
1553 #ifdef EXIM_HAVE_ABSTRACT_UNIX_SOCKETS
1554 int len = offsetof(struct sockaddr_un, sun_path) + 1
1555 + snprintf(sa_un.sun_path+1, sizeof(sa_un.sun_path)-1, "%s",
1556 expand_string(notifier_socket));
1557 sa_un.sun_path[0] = 0;
1559 int len = offsetof(struct sockaddr_un, sun_path)
1560 + snprintf(sa_un.sun_path, sizeof(sa_un.sun_path), "%s",
1561 expand_string(notifier_socket));
1564 if (sendto(fd, buf, sizeof(buf), 0, (struct sockaddr *)&sa_un, len) < 0)
1566 debug_printf("%s: sendto %s\n", __FUNCTION__, strerror(errno));
1569 else DEBUG(D_queue_run) debug_printf(" socket: %s\n", strerror(errno));
1573 #endif /*!COMPILE_UTILITY*/
1575 /* End of queue.c */