Commit | Line | Data |
---|---|---|
d7d7b7b9 | 1 | /* $Cambridge: exim/src/src/deliver.c,v 1.26 2006/02/07 11:19:00 ph10 Exp $ */ |
059ec3d9 PH |
2 | |
3 | /************************************************* | |
4 | * Exim - an Internet mail transport agent * | |
5 | *************************************************/ | |
6 | ||
d7d7b7b9 | 7 | /* Copyright (c) University of Cambridge 1995 - 2006 */ |
059ec3d9 PH |
8 | /* See the file NOTICE for conditions of use and distribution. */ |
9 | ||
10 | /* The main code for delivering a message. */ | |
11 | ||
12 | ||
13 | #include "exim.h" | |
14 | ||
15 | ||
16 | /* Data block for keeping track of subprocesses for parallel remote | |
17 | delivery. */ | |
18 | ||
19 | typedef struct pardata { | |
20 | address_item *addrlist; /* chain of addresses */ | |
21 | address_item *addr; /* next address data expected for */ | |
22 | pid_t pid; /* subprocess pid */ | |
23 | int fd; /* pipe fd for getting result from subprocess */ | |
24 | int transport_count; /* returned transport count value */ | |
25 | BOOL done; /* no more data needed */ | |
26 | uschar *msg; /* error message */ | |
27 | uschar *return_path; /* return_path for these addresses */ | |
28 | } pardata; | |
29 | ||
30 | /* Values for the process_recipients variable */ | |
31 | ||
32 | enum { RECIP_ACCEPT, RECIP_IGNORE, RECIP_DEFER, | |
33 | RECIP_FAIL, RECIP_FAIL_FILTER, RECIP_FAIL_TIMEOUT, | |
34 | RECIP_FAIL_LOOP}; | |
35 | ||
36 | /* Mutually recursive functions for marking addresses done. */ | |
37 | ||
38 | static void child_done(address_item *, uschar *); | |
39 | static void address_done(address_item *, uschar *); | |
40 | ||
41 | /* Table for turning base-62 numbers into binary */ | |
42 | ||
43 | static uschar tab62[] = | |
44 | {0,1,2,3,4,5,6,7,8,9,0,0,0,0,0,0, /* 0-9 */ | |
45 | 0,10,11,12,13,14,15,16,17,18,19,20, /* A-K */ | |
46 | 21,22,23,24,25,26,27,28,29,30,31,32, /* L-W */ | |
47 | 33,34,35, 0, 0, 0, 0, 0, /* X-Z */ | |
48 | 0,36,37,38,39,40,41,42,43,44,45,46, /* a-k */ | |
49 | 47,48,49,50,51,52,53,54,55,56,57,58, /* l-w */ | |
50 | 59,60,61}; /* x-z */ | |
51 | ||
52 | ||
53 | /************************************************* | |
54 | * Local static variables * | |
55 | *************************************************/ | |
56 | ||
57 | /* addr_duplicate is global because it needs to be seen from the Envelope-To | |
58 | writing code. */ | |
59 | ||
60 | static address_item *addr_defer = NULL; | |
61 | static address_item *addr_failed = NULL; | |
62 | static address_item *addr_fallback = NULL; | |
63 | static address_item *addr_local = NULL; | |
64 | static address_item *addr_new = NULL; | |
65 | static address_item *addr_remote = NULL; | |
66 | static address_item *addr_route = NULL; | |
67 | static address_item *addr_succeed = NULL; | |
68 | ||
69 | static FILE *message_log = NULL; | |
70 | static BOOL update_spool; | |
71 | static BOOL remove_journal; | |
72 | static int parcount = 0; | |
73 | static pardata *parlist = NULL; | |
74 | static int return_count; | |
75 | static uschar *frozen_info = US""; | |
76 | static uschar *used_return_path = NULL; | |
77 | ||
78 | static uschar spoolname[PATH_MAX]; | |
79 | ||
80 | ||
81 | ||
82 | /************************************************* | |
83 | * Make a new address item * | |
84 | *************************************************/ | |
85 | ||
86 | /* This function gets the store and initializes with default values. The | |
87 | transport_return value defaults to DEFER, so that any unexpected failure to | |
88 | deliver does not wipe out the message. The default unique string is set to a | |
89 | copy of the address, so that its domain can be lowercased. | |
90 | ||
91 | Argument: | |
92 | address the RFC822 address string | |
93 | copy force a copy of the address | |
94 | ||
95 | Returns: a pointer to an initialized address_item | |
96 | */ | |
97 | ||
98 | address_item * | |
99 | deliver_make_addr(uschar *address, BOOL copy) | |
100 | { | |
101 | address_item *addr = store_get(sizeof(address_item)); | |
102 | *addr = address_defaults; | |
103 | if (copy) address = string_copy(address); | |
104 | addr->address = address; | |
105 | addr->unique = string_copy(address); | |
106 | return addr; | |
107 | } | |
108 | ||
109 | ||
110 | ||
111 | ||
112 | /************************************************* | |
113 | * Set expansion values for an address * | |
114 | *************************************************/ | |
115 | ||
116 | /* Certain expansion variables are valid only when handling an address or | |
117 | address list. This function sets them up or clears the values, according to its | |
118 | argument. | |
119 | ||
120 | Arguments: | |
121 | addr the address in question, or NULL to clear values | |
122 | Returns: nothing | |
123 | */ | |
124 | ||
125 | void | |
126 | deliver_set_expansions(address_item *addr) | |
127 | { | |
128 | if (addr == NULL) | |
129 | { | |
130 | uschar ***p = address_expansions; | |
131 | while (*p != NULL) **p++ = NULL; | |
132 | return; | |
133 | } | |
134 | ||
135 | /* Exactly what gets set depends on whether there is one or more addresses, and | |
136 | what they contain. These first ones are always set, taking their values from | |
137 | the first address. */ | |
138 | ||
139 | if (addr->host_list == NULL) | |
140 | { | |
141 | deliver_host = deliver_host_address = US""; | |
142 | } | |
143 | else | |
144 | { | |
145 | deliver_host = addr->host_list->name; | |
146 | deliver_host_address = addr->host_list->address; | |
147 | } | |
148 | ||
149 | deliver_recipients = addr; | |
150 | deliver_address_data = addr->p.address_data; | |
151 | deliver_domain_data = addr->p.domain_data; | |
152 | deliver_localpart_data = addr->p.localpart_data; | |
153 | ||
154 | /* These may be unset for multiple addresses */ | |
155 | ||
156 | deliver_domain = addr->domain; | |
157 | self_hostname = addr->self_hostname; | |
158 | ||
8523533c TK |
159 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
160 | bmi_deliver = 1; /* deliver by default */ | |
161 | bmi_alt_location = NULL; | |
162 | bmi_base64_verdict = NULL; | |
163 | bmi_base64_tracker_verdict = NULL; | |
164 | #endif | |
165 | ||
059ec3d9 PH |
166 | /* If there's only one address we can set everything. */ |
167 | ||
168 | if (addr->next == NULL) | |
169 | { | |
170 | address_item *addr_orig; | |
171 | ||
172 | deliver_localpart = addr->local_part; | |
173 | deliver_localpart_prefix = addr->prefix; | |
174 | deliver_localpart_suffix = addr->suffix; | |
175 | ||
176 | for (addr_orig = addr; addr_orig->parent != NULL; | |
177 | addr_orig = addr_orig->parent); | |
178 | deliver_domain_orig = addr_orig->domain; | |
179 | ||
180 | /* Re-instate any prefix and suffix in the original local part. In all | |
181 | normal cases, the address will have a router associated with it, and we can | |
182 | choose the caseful or caseless version accordingly. However, when a system | |
183 | filter sets up a pipe, file, or autoreply delivery, no router is involved. | |
184 | In this case, though, there won't be any prefix or suffix to worry about. */ | |
185 | ||
186 | deliver_localpart_orig = (addr_orig->router == NULL)? addr_orig->local_part : | |
187 | addr_orig->router->caseful_local_part? | |
188 | addr_orig->cc_local_part : addr_orig->lc_local_part; | |
189 | ||
190 | /* If there's a parent, make its domain and local part available, and if | |
191 | delivering to a pipe or file, or sending an autoreply, get the local | |
192 | part from the parent. For pipes and files, put the pipe or file string | |
193 | into address_pipe and address_file. */ | |
194 | ||
195 | if (addr->parent != NULL) | |
196 | { | |
197 | deliver_domain_parent = addr->parent->domain; | |
198 | deliver_localpart_parent = (addr->parent->router == NULL)? | |
199 | addr->parent->local_part : | |
200 | addr->parent->router->caseful_local_part? | |
201 | addr->parent->cc_local_part : addr->parent->lc_local_part; | |
202 | ||
203 | /* File deliveries have their own flag because they need to be picked out | |
204 | as special more often. */ | |
205 | ||
206 | if (testflag(addr, af_pfr)) | |
207 | { | |
208 | if (testflag(addr, af_file)) address_file = addr->local_part; | |
209 | else if (deliver_localpart[0] == '|') address_pipe = addr->local_part; | |
210 | deliver_localpart = addr->parent->local_part; | |
211 | deliver_localpart_prefix = addr->parent->prefix; | |
212 | deliver_localpart_suffix = addr->parent->suffix; | |
213 | } | |
214 | } | |
8523533c TK |
215 | |
216 | #ifdef EXPERIMENTAL_BRIGHTMAIL | |
217 | /* Set expansion variables related to Brightmail AntiSpam */ | |
218 | bmi_base64_verdict = bmi_get_base64_verdict(deliver_localpart_orig, deliver_domain_orig); | |
219 | bmi_base64_tracker_verdict = bmi_get_base64_tracker_verdict(bmi_base64_verdict); | |
220 | /* get message delivery status (0 - don't deliver | 1 - deliver) */ | |
221 | bmi_deliver = bmi_get_delivery_status(bmi_base64_verdict); | |
222 | /* if message is to be delivered, get eventual alternate location */ | |
223 | if (bmi_deliver == 1) { | |
224 | bmi_alt_location = bmi_get_alt_location(bmi_base64_verdict); | |
225 | }; | |
226 | #endif | |
227 | ||
059ec3d9 PH |
228 | } |
229 | ||
230 | /* For multiple addresses, don't set local part, and leave the domain and | |
231 | self_hostname set only if it is the same for all of them. */ | |
232 | ||
233 | else | |
234 | { | |
235 | address_item *addr2; | |
236 | for (addr2 = addr->next; addr2 != NULL; addr2 = addr2->next) | |
237 | { | |
238 | if (deliver_domain != NULL && | |
239 | Ustrcmp(deliver_domain, addr2->domain) != 0) | |
240 | deliver_domain = NULL; | |
241 | if (self_hostname != NULL && (addr2->self_hostname == NULL || | |
242 | Ustrcmp(self_hostname, addr2->self_hostname) != 0)) | |
243 | self_hostname = NULL; | |
244 | if (deliver_domain == NULL && self_hostname == NULL) break; | |
245 | } | |
246 | } | |
247 | } | |
248 | ||
249 | ||
250 | ||
251 | ||
252 | /************************************************* | |
253 | * Open a msglog file * | |
254 | *************************************************/ | |
255 | ||
256 | /* This function is used both for normal message logs, and for files in the | |
257 | msglog directory that are used to catch output from pipes. Try to create the | |
258 | directory if it does not exist. From release 4.21, normal message logs should | |
259 | be created when the message is received. | |
260 | ||
261 | Argument: | |
262 | filename the file name | |
263 | mode the mode required | |
264 | error used for saying what failed | |
265 | ||
266 | Returns: a file descriptor, or -1 (with errno set) | |
267 | */ | |
268 | ||
269 | static int | |
270 | open_msglog_file(uschar *filename, int mode, uschar **error) | |
271 | { | |
272 | int fd = Uopen(filename, O_WRONLY|O_APPEND|O_CREAT, mode); | |
273 | ||
274 | if (fd < 0 && errno == ENOENT) | |
275 | { | |
276 | uschar temp[16]; | |
277 | sprintf(CS temp, "msglog/%s", message_subdir); | |
278 | if (message_subdir[0] == 0) temp[6] = 0; | |
279 | (void)directory_make(spool_directory, temp, MSGLOG_DIRECTORY_MODE, TRUE); | |
280 | fd = Uopen(filename, O_WRONLY|O_APPEND|O_CREAT, mode); | |
281 | } | |
282 | ||
283 | /* Set the close-on-exec flag and change the owner to the exim uid/gid (this | |
284 | function is called as root). Double check the mode, because the group setting | |
285 | doesn't always get set automatically. */ | |
286 | ||
287 | if (fd >= 0) | |
288 | { | |
ff790e47 | 289 | (void)fcntl(fd, F_SETFD, fcntl(fd, F_GETFD) | FD_CLOEXEC); |
059ec3d9 PH |
290 | if (fchown(fd, exim_uid, exim_gid) < 0) |
291 | { | |
292 | *error = US"chown"; | |
293 | return -1; | |
294 | } | |
295 | if (fchmod(fd, mode) < 0) | |
296 | { | |
297 | *error = US"chmod"; | |
298 | return -1; | |
299 | } | |
300 | } | |
301 | else *error = US"create"; | |
302 | ||
303 | return fd; | |
304 | } | |
305 | ||
306 | ||
307 | ||
308 | ||
309 | /************************************************* | |
310 | * Write to msglog if required * | |
311 | *************************************************/ | |
312 | ||
313 | /* Write to the message log, if configured. This function may also be called | |
314 | from transports. | |
315 | ||
316 | Arguments: | |
317 | format a string format | |
318 | ||
319 | Returns: nothing | |
320 | */ | |
321 | ||
322 | void | |
323 | deliver_msglog(const char *format, ...) | |
324 | { | |
325 | va_list ap; | |
326 | if (!message_logs) return; | |
327 | va_start(ap, format); | |
328 | vfprintf(message_log, format, ap); | |
329 | fflush(message_log); | |
330 | va_end(ap); | |
331 | } | |
332 | ||
333 | ||
334 | ||
335 | ||
336 | /************************************************* | |
337 | * Replicate status for batch * | |
338 | *************************************************/ | |
339 | ||
340 | /* When a transport handles a batch of addresses, it may treat them | |
341 | individually, or it may just put the status in the first one, and return FALSE, | |
342 | requesting that the status be copied to all the others externally. This is the | |
343 | replication function. As well as the status, it copies the transport pointer, | |
344 | which may have changed if appendfile passed the addresses on to a different | |
345 | transport. | |
346 | ||
347 | Argument: pointer to the first address in a chain | |
348 | Returns: nothing | |
349 | */ | |
350 | ||
351 | static void | |
352 | replicate_status(address_item *addr) | |
353 | { | |
354 | address_item *addr2; | |
355 | for (addr2 = addr->next; addr2 != NULL; addr2 = addr2->next) | |
356 | { | |
357 | addr2->transport = addr->transport; | |
358 | addr2->transport_return = addr->transport_return; | |
359 | addr2->basic_errno = addr->basic_errno; | |
360 | addr2->more_errno = addr->more_errno; | |
361 | addr2->special_action = addr->special_action; | |
362 | addr2->message = addr->message; | |
363 | addr2->user_message = addr->user_message; | |
364 | } | |
365 | } | |
366 | ||
367 | ||
368 | ||
369 | /************************************************* | |
370 | * Compare lists of hosts * | |
371 | *************************************************/ | |
372 | ||
373 | /* This function is given two pointers to chains of host items, and it yields | |
374 | TRUE if the lists refer to the same hosts in the same order, except that | |
375 | ||
376 | (1) Multiple hosts with the same non-negative MX values are permitted to appear | |
377 | in different orders. Round-robinning nameservers can cause this to happen. | |
378 | ||
379 | (2) Multiple hosts with the same negative MX values less than MX_NONE are also | |
380 | permitted to appear in different orders. This is caused by randomizing | |
381 | hosts lists. | |
382 | ||
383 | This enables Exim to use a single SMTP transaction for sending to two entirely | |
384 | different domains that happen to end up pointing at the same hosts. | |
385 | ||
386 | Arguments: | |
387 | one points to the first host list | |
388 | two points to the second host list | |
389 | ||
390 | Returns: TRUE if the lists refer to the same host set | |
391 | */ | |
392 | ||
393 | static BOOL | |
394 | same_hosts(host_item *one, host_item *two) | |
395 | { | |
396 | while (one != NULL && two != NULL) | |
397 | { | |
398 | if (Ustrcmp(one->name, two->name) != 0) | |
399 | { | |
400 | int mx = one->mx; | |
401 | host_item *end_one = one; | |
402 | host_item *end_two = two; | |
403 | ||
404 | /* Batch up only if there was no MX and the list was not randomized */ | |
405 | ||
406 | if (mx == MX_NONE) return FALSE; | |
407 | ||
408 | /* Find the ends of the shortest sequence of identical MX values */ | |
409 | ||
410 | while (end_one->next != NULL && end_one->next->mx == mx && | |
411 | end_two->next != NULL && end_two->next->mx == mx) | |
412 | { | |
413 | end_one = end_one->next; | |
414 | end_two = end_two->next; | |
415 | } | |
416 | ||
417 | /* If there aren't any duplicates, there's no match. */ | |
418 | ||
419 | if (end_one == one) return FALSE; | |
420 | ||
421 | /* For each host in the 'one' sequence, check that it appears in the 'two' | |
422 | sequence, returning FALSE if not. */ | |
423 | ||
424 | for (;;) | |
425 | { | |
426 | host_item *hi; | |
427 | for (hi = two; hi != end_two->next; hi = hi->next) | |
428 | if (Ustrcmp(one->name, hi->name) == 0) break; | |
429 | if (hi == end_two->next) return FALSE; | |
430 | if (one == end_one) break; | |
431 | one = one->next; | |
432 | } | |
433 | ||
434 | /* All the hosts in the 'one' sequence were found in the 'two' sequence. | |
435 | Ensure both are pointing at the last host, and carry on as for equality. */ | |
436 | ||
437 | two = end_two; | |
438 | } | |
439 | ||
440 | /* Hosts matched */ | |
441 | ||
442 | one = one->next; | |
443 | two = two->next; | |
444 | } | |
445 | ||
446 | /* True if both are NULL */ | |
447 | ||
448 | return (one == two); | |
449 | } | |
450 | ||
451 | ||
452 | ||
453 | /************************************************* | |
454 | * Compare header lines * | |
455 | *************************************************/ | |
456 | ||
457 | /* This function is given two pointers to chains of header items, and it yields | |
458 | TRUE if they are the same header texts in the same order. | |
459 | ||
460 | Arguments: | |
461 | one points to the first header list | |
462 | two points to the second header list | |
463 | ||
464 | Returns: TRUE if the lists refer to the same header set | |
465 | */ | |
466 | ||
467 | static BOOL | |
468 | same_headers(header_line *one, header_line *two) | |
469 | { | |
470 | for (;;) | |
471 | { | |
472 | if (one == two) return TRUE; /* Includes the case where both NULL */ | |
473 | if (one == NULL || two == NULL) return FALSE; | |
474 | if (Ustrcmp(one->text, two->text) != 0) return FALSE; | |
475 | one = one->next; | |
476 | two = two->next; | |
477 | } | |
478 | } | |
479 | ||
480 | ||
481 | ||
482 | /************************************************* | |
483 | * Compare string settings * | |
484 | *************************************************/ | |
485 | ||
486 | /* This function is given two pointers to strings, and it returns | |
487 | TRUE if they are the same pointer, or if the two strings are the same. | |
488 | ||
489 | Arguments: | |
490 | one points to the first string | |
491 | two points to the second string | |
492 | ||
493 | Returns: TRUE or FALSE | |
494 | */ | |
495 | ||
496 | static BOOL | |
497 | same_strings(uschar *one, uschar *two) | |
498 | { | |
499 | if (one == two) return TRUE; /* Includes the case where both NULL */ | |
500 | if (one == NULL || two == NULL) return FALSE; | |
501 | return (Ustrcmp(one, two) == 0); | |
502 | } | |
503 | ||
504 | ||
505 | ||
506 | /************************************************* | |
507 | * Compare uid/gid for addresses * | |
508 | *************************************************/ | |
509 | ||
510 | /* This function is given a transport and two addresses. It yields TRUE if the | |
511 | uid/gid/initgroups settings for the two addresses are going to be the same when | |
512 | they are delivered. | |
513 | ||
514 | Arguments: | |
515 | tp the transort | |
516 | addr1 the first address | |
517 | addr2 the second address | |
518 | ||
519 | Returns: TRUE or FALSE | |
520 | */ | |
521 | ||
522 | static BOOL | |
523 | same_ugid(transport_instance *tp, address_item *addr1, address_item *addr2) | |
524 | { | |
525 | if (!tp->uid_set && tp->expand_uid == NULL && !tp->deliver_as_creator) | |
526 | { | |
527 | if (testflag(addr1, af_uid_set) != testflag(addr2, af_gid_set) || | |
528 | (testflag(addr1, af_uid_set) && | |
529 | (addr1->uid != addr2->uid || | |
530 | testflag(addr1, af_initgroups) != testflag(addr2, af_initgroups)))) | |
531 | return FALSE; | |
532 | } | |
533 | ||
534 | if (!tp->gid_set && tp->expand_gid == NULL) | |
535 | { | |
536 | if (testflag(addr1, af_gid_set) != testflag(addr2, af_gid_set) || | |
537 | (testflag(addr1, af_gid_set) && addr1->gid != addr2->gid)) | |
538 | return FALSE; | |
539 | } | |
540 | ||
541 | return TRUE; | |
542 | } | |
543 | ||
544 | ||
545 | ||
546 | ||
547 | /************************************************* | |
548 | * Record that an address is complete * | |
549 | *************************************************/ | |
550 | ||
551 | /* This function records that an address is complete. This is straightforward | |
552 | for most addresses, where the unique address is just the full address with the | |
553 | domain lower cased. For homonyms (addresses that are the same as one of their | |
554 | ancestors) their are complications. Their unique addresses have \x\ prepended | |
555 | (where x = 0, 1, 2...), so that de-duplication works correctly for siblings and | |
556 | cousins. | |
557 | ||
558 | Exim used to record the unique addresses of homonyms as "complete". This, | |
559 | however, fails when the pattern of redirection varies over time (e.g. if taking | |
560 | unseen copies at only some times of day) because the prepended numbers may vary | |
561 | from one delivery run to the next. This problem is solved by never recording | |
562 | prepended unique addresses as complete. Instead, when a homonymic address has | |
563 | actually been delivered via a transport, we record its basic unique address | |
564 | followed by the name of the transport. This is checked in subsequent delivery | |
565 | runs whenever an address is routed to a transport. | |
566 | ||
567 | If the completed address is a top-level one (has no parent, which means it | |
568 | cannot be homonymic) we also add the original address to the non-recipients | |
569 | tree, so that it gets recorded in the spool file and therefore appears as | |
570 | "done" in any spool listings. The original address may differ from the unique | |
571 | address in the case of the domain. | |
572 | ||
573 | Finally, this function scans the list of duplicates, marks as done any that | |
574 | match this address, and calls child_done() for their ancestors. | |
575 | ||
576 | Arguments: | |
577 | addr address item that has been completed | |
578 | now current time as a string | |
579 | ||
580 | Returns: nothing | |
581 | */ | |
582 | ||
583 | static void | |
584 | address_done(address_item *addr, uschar *now) | |
585 | { | |
586 | address_item *dup; | |
587 | ||
588 | update_spool = TRUE; /* Ensure spool gets updated */ | |
589 | ||
590 | /* Top-level address */ | |
591 | ||
592 | if (addr->parent == NULL) | |
593 | { | |
594 | tree_add_nonrecipient(addr->unique); | |
595 | tree_add_nonrecipient(addr->address); | |
596 | } | |
597 | ||
598 | /* Homonymous child address */ | |
599 | ||
600 | else if (testflag(addr, af_homonym)) | |
601 | { | |
602 | if (addr->transport != NULL) | |
603 | { | |
604 | tree_add_nonrecipient( | |
605 | string_sprintf("%s/%s", addr->unique + 3, addr->transport->name)); | |
606 | } | |
607 | } | |
608 | ||
609 | /* Non-homonymous child address */ | |
610 | ||
611 | else tree_add_nonrecipient(addr->unique); | |
612 | ||
613 | /* Check the list of duplicate addresses and ensure they are now marked | |
614 | done as well. */ | |
615 | ||
616 | for (dup = addr_duplicate; dup != NULL; dup = dup->next) | |
617 | { | |
618 | if (Ustrcmp(addr->unique, dup->unique) == 0) | |
619 | { | |
620 | tree_add_nonrecipient(dup->address); | |
621 | child_done(dup, now); | |
622 | } | |
623 | } | |
624 | } | |
625 | ||
626 | ||
627 | ||
628 | ||
629 | /************************************************* | |
630 | * Decrease counts in parents and mark done * | |
631 | *************************************************/ | |
632 | ||
633 | /* This function is called when an address is complete. If there is a parent | |
634 | address, its count of children is decremented. If there are still other | |
635 | children outstanding, the function exits. Otherwise, if the count has become | |
636 | zero, address_done() is called to mark the parent and its duplicates complete. | |
637 | Then loop for any earlier ancestors. | |
638 | ||
639 | Arguments: | |
640 | addr points to the completed address item | |
641 | now the current time as a string, for writing to the message log | |
642 | ||
643 | Returns: nothing | |
644 | */ | |
645 | ||
646 | static void | |
647 | child_done(address_item *addr, uschar *now) | |
648 | { | |
649 | address_item *aa; | |
650 | while (addr->parent != NULL) | |
651 | { | |
652 | addr = addr->parent; | |
653 | if ((addr->child_count -= 1) > 0) return; /* Incomplete parent */ | |
654 | address_done(addr, now); | |
655 | ||
656 | /* Log the completion of all descendents only when there is no ancestor with | |
657 | the same original address. */ | |
658 | ||
659 | for (aa = addr->parent; aa != NULL; aa = aa->parent) | |
660 | if (Ustrcmp(aa->address, addr->address) == 0) break; | |
661 | if (aa != NULL) continue; | |
662 | ||
663 | deliver_msglog("%s %s: children all complete\n", now, addr->address); | |
664 | DEBUG(D_deliver) debug_printf("%s: children all complete\n", addr->address); | |
665 | } | |
666 | } | |
667 | ||
668 | ||
669 | ||
670 | ||
671 | /************************************************* | |
672 | * Actions at the end of handling an address * | |
673 | *************************************************/ | |
674 | ||
675 | /* This is a function for processing a single address when all that can be done | |
676 | with it has been done. | |
677 | ||
678 | Arguments: | |
679 | addr points to the address block | |
680 | result the result of the delivery attempt | |
681 | logflags flags for log_write() (LOG_MAIN and/or LOG_PANIC) | |
682 | driver_type indicates which type of driver (transport, or router) was last | |
683 | to process the address | |
684 | logchar '=' or '-' for use when logging deliveries with => or -> | |
685 | ||
686 | Returns: nothing | |
687 | */ | |
688 | ||
689 | static void | |
690 | post_process_one(address_item *addr, int result, int logflags, int driver_type, | |
691 | int logchar) | |
692 | { | |
693 | uschar *now = tod_stamp(tod_log); | |
694 | uschar *driver_kind = NULL; | |
695 | uschar *driver_name = NULL; | |
696 | uschar *log_address; | |
697 | ||
698 | int size = 256; /* Used for a temporary, */ | |
699 | int ptr = 0; /* expanding buffer, for */ | |
700 | uschar *s; /* building log lines; */ | |
701 | void *reset_point; /* released afterwards. */ | |
702 | ||
703 | ||
704 | DEBUG(D_deliver) debug_printf("post-process %s (%d)\n", addr->address, result); | |
705 | ||
706 | /* Set up driver kind and name for logging. Disable logging if the router or | |
707 | transport has disabled it. */ | |
708 | ||
709 | if (driver_type == DTYPE_TRANSPORT) | |
710 | { | |
711 | if (addr->transport != NULL) | |
712 | { | |
713 | driver_name = addr->transport->name; | |
714 | driver_kind = US" transport"; | |
715 | disable_logging = addr->transport->disable_logging; | |
716 | } | |
717 | else driver_kind = US"transporting"; | |
718 | } | |
719 | else if (driver_type == DTYPE_ROUTER) | |
720 | { | |
721 | if (addr->router != NULL) | |
722 | { | |
723 | driver_name = addr->router->name; | |
724 | driver_kind = US" router"; | |
725 | disable_logging = addr->router->disable_logging; | |
726 | } | |
727 | else driver_kind = US"routing"; | |
728 | } | |
729 | ||
730 | /* If there's an error message set, ensure that it contains only printing | |
731 | characters - it should, but occasionally things slip in and this at least | |
49c2d5ea PH |
732 | stops the log format from getting wrecked. We also scan the message for an LDAP |
733 | expansion item that has a password setting, and flatten the password. This is a | |
734 | fudge, but I don't know a cleaner way of doing this. (If the item is badly | |
735 | malformed, it won't ever have gone near LDAP.) */ | |
059ec3d9 | 736 | |
49c2d5ea PH |
737 | if (addr->message != NULL) |
738 | { | |
739 | addr->message = string_printing(addr->message); | |
740 | if (Ustrstr(addr->message, "failed to expand") != NULL && | |
741 | (Ustrstr(addr->message, "ldap:") != NULL || | |
742 | Ustrstr(addr->message, "ldapdn:") != NULL || | |
743 | Ustrstr(addr->message, "ldapm:") != NULL)) | |
744 | { | |
745 | uschar *p = Ustrstr(addr->message, "pass="); | |
746 | if (p != NULL) | |
747 | { | |
748 | p += 5; | |
749 | while (*p != 0 && !isspace(*p)) *p++ = 'x'; | |
750 | } | |
751 | } | |
752 | } | |
059ec3d9 PH |
753 | |
754 | /* If we used a transport that has one of the "return_output" options set, and | |
755 | if it did in fact generate some output, then for return_output we treat the | |
756 | message as failed if it was not already set that way, so that the output gets | |
757 | returned to the sender, provided there is a sender to send it to. For | |
758 | return_fail_output, do this only if the delivery failed. Otherwise we just | |
759 | unlink the file, and remove the name so that if the delivery failed, we don't | |
760 | try to send back an empty or unwanted file. The log_output options operate only | |
761 | on a non-empty file. | |
762 | ||
763 | In any case, we close the message file, because we cannot afford to leave a | |
764 | file-descriptor for one address while processing (maybe very many) others. */ | |
765 | ||
766 | if (addr->return_file >= 0 && addr->return_filename != NULL) | |
767 | { | |
768 | BOOL return_output = FALSE; | |
769 | struct stat statbuf; | |
770 | fsync(addr->return_file); | |
771 | ||
772 | /* If there is no output, do nothing. */ | |
773 | ||
774 | if (fstat(addr->return_file, &statbuf) == 0 && statbuf.st_size > 0) | |
775 | { | |
776 | transport_instance *tb = addr->transport; | |
777 | ||
778 | /* Handle logging options */ | |
779 | ||
780 | if (tb->log_output || (result == FAIL && tb->log_fail_output) || | |
781 | (result == DEFER && tb->log_defer_output)) | |
782 | { | |
783 | uschar *s; | |
784 | FILE *f = Ufopen(addr->return_filename, "rb"); | |
785 | if (f == NULL) | |
786 | log_write(0, LOG_MAIN|LOG_PANIC, "failed to open %s to log output " | |
787 | "from %s transport: %s", addr->return_filename, tb->name, | |
788 | strerror(errno)); | |
789 | else | |
790 | { | |
791 | s = US Ufgets(big_buffer, big_buffer_size, f); | |
792 | if (s != NULL) | |
793 | { | |
794 | uschar *p = big_buffer + Ustrlen(big_buffer); | |
795 | while (p > big_buffer && isspace(p[-1])) p--; | |
796 | *p = 0; | |
797 | s = string_printing(big_buffer); | |
798 | log_write(0, LOG_MAIN, "<%s>: %s transport output: %s", | |
799 | addr->address, tb->name, s); | |
800 | } | |
f1e894f3 | 801 | (void)fclose(f); |
059ec3d9 PH |
802 | } |
803 | } | |
804 | ||
805 | /* Handle returning options, but only if there is an address to return | |
806 | the text to. */ | |
807 | ||
808 | if (sender_address[0] != 0 || addr->p.errors_address != NULL) | |
809 | { | |
810 | if (tb->return_output) | |
811 | { | |
812 | addr->transport_return = result = FAIL; | |
813 | if (addr->basic_errno == 0 && addr->message == NULL) | |
814 | addr->message = US"return message generated"; | |
815 | return_output = TRUE; | |
816 | } | |
817 | else | |
818 | if (tb->return_fail_output && result == FAIL) return_output = TRUE; | |
819 | } | |
820 | } | |
821 | ||
822 | /* Get rid of the file unless it might be returned, but close it in | |
823 | all cases. */ | |
824 | ||
825 | if (!return_output) | |
826 | { | |
827 | Uunlink(addr->return_filename); | |
828 | addr->return_filename = NULL; | |
829 | addr->return_file = -1; | |
830 | } | |
831 | ||
f1e894f3 | 832 | (void)close(addr->return_file); |
059ec3d9 PH |
833 | } |
834 | ||
835 | /* Create the address string for logging. Must not do this earlier, because | |
836 | an OK result may be changed to FAIL when a pipe returns text. */ | |
837 | ||
838 | log_address = string_log_address(addr, | |
839 | (log_write_selector & L_all_parents) != 0, result == OK); | |
840 | ||
841 | /* The sucess case happens only after delivery by a transport. */ | |
842 | ||
843 | if (result == OK) | |
844 | { | |
845 | addr->next = addr_succeed; | |
846 | addr_succeed = addr; | |
847 | ||
848 | /* Call address_done() to ensure that we don't deliver to this address again, | |
849 | and write appropriate things to the message log. If it is a child address, we | |
850 | call child_done() to scan the ancestors and mark them complete if this is the | |
851 | last child to complete. */ | |
852 | ||
853 | address_done(addr, now); | |
854 | DEBUG(D_deliver) debug_printf("%s delivered\n", addr->address); | |
855 | ||
856 | if (addr->parent == NULL) | |
857 | { | |
858 | deliver_msglog("%s %s: %s%s succeeded\n", now, addr->address, | |
859 | driver_name, driver_kind); | |
860 | } | |
861 | else | |
862 | { | |
863 | deliver_msglog("%s %s <%s>: %s%s succeeded\n", now, addr->address, | |
864 | addr->parent->address, driver_name, driver_kind); | |
865 | child_done(addr, now); | |
866 | } | |
867 | ||
868 | /* Log the delivery on the main log. We use an extensible string to build up | |
869 | the log line, and reset the store afterwards. Remote deliveries should always | |
870 | have a pointer to the host item that succeeded; local deliveries can have a | |
871 | pointer to a single host item in their host list, for use by the transport. */ | |
872 | ||
873 | s = reset_point = store_get(size); | |
874 | s[ptr++] = logchar; | |
875 | ||
876 | s = string_append(s, &size, &ptr, 2, US"> ", log_address); | |
877 | ||
878 | if ((log_extra_selector & LX_sender_on_delivery) != 0) | |
879 | s = string_append(s, &size, &ptr, 3, US" F=<", sender_address, US">"); | |
880 | ||
384152a6 TK |
881 | #ifdef EXPERIMENTAL_SRS |
882 | if(addr->p.srs_sender) | |
883 | s = string_append(s, &size, &ptr, 3, US" SRS=<", addr->p.srs_sender, US">"); | |
884 | #endif | |
885 | ||
059ec3d9 PH |
886 | /* You might think that the return path must always be set for a successful |
887 | delivery; indeed, I did for some time, until this statement crashed. The case | |
888 | when it is not set is for a delivery to /dev/null which is optimised by not | |
889 | being run at all. */ | |
890 | ||
891 | if (used_return_path != NULL && | |
892 | (log_extra_selector & LX_return_path_on_delivery) != 0) | |
893 | s = string_append(s, &size, &ptr, 3, US" P=<", used_return_path, US">"); | |
894 | ||
895 | /* For a delivery from a system filter, there may not be a router */ | |
896 | ||
897 | if (addr->router != NULL) | |
898 | s = string_append(s, &size, &ptr, 2, US" R=", addr->router->name); | |
899 | ||
900 | s = string_append(s, &size, &ptr, 2, US" T=", addr->transport->name); | |
901 | ||
902 | if ((log_extra_selector & LX_delivery_size) != 0) | |
903 | s = string_append(s, &size, &ptr, 2, US" S=", | |
904 | string_sprintf("%d", transport_count)); | |
905 | ||
906 | /* Local delivery */ | |
907 | ||
908 | if (addr->transport->info->local) | |
909 | { | |
910 | if (addr->host_list != NULL) | |
911 | s = string_append(s, &size, &ptr, 2, US" H=", addr->host_list->name); | |
912 | if (addr->shadow_message != NULL) | |
913 | s = string_cat(s, &size, &ptr, addr->shadow_message, | |
914 | Ustrlen(addr->shadow_message)); | |
915 | } | |
916 | ||
917 | /* Remote delivery */ | |
918 | ||
919 | else | |
920 | { | |
921 | if (addr->host_used != NULL) | |
922 | { | |
923 | s = string_append(s, &size, &ptr, 5, US" H=", addr->host_used->name, | |
924 | US" [", addr->host_used->address, US"]"); | |
925 | if ((log_extra_selector & LX_outgoing_port) != 0) | |
926 | s = string_append(s, &size, &ptr, 2, US":", string_sprintf("%d", | |
927 | addr->host_used->port)); | |
928 | if (continue_sequence > 1) | |
929 | s = string_cat(s, &size, &ptr, US"*", 1); | |
930 | } | |
931 | ||
932 | #ifdef SUPPORT_TLS | |
933 | if ((log_extra_selector & LX_tls_cipher) != 0 && addr->cipher != NULL) | |
934 | s = string_append(s, &size, &ptr, 2, US" X=", addr->cipher); | |
935 | if ((log_extra_selector & LX_tls_certificate_verified) != 0 && | |
936 | addr->cipher != NULL) | |
937 | s = string_append(s, &size, &ptr, 2, US" CV=", | |
938 | testflag(addr, af_cert_verified)? "yes":"no"); | |
939 | if ((log_extra_selector & LX_tls_peerdn) != 0 && addr->peerdn != NULL) | |
940 | s = string_append(s, &size, &ptr, 3, US" DN=\"", addr->peerdn, US"\""); | |
941 | #endif | |
942 | ||
943 | if ((log_extra_selector & LX_smtp_confirmation) != 0 && | |
944 | addr->message != NULL) | |
945 | { | |
946 | int i; | |
947 | uschar *p = big_buffer; | |
948 | uschar *ss = addr->message; | |
949 | *p++ = '\"'; | |
950 | for (i = 0; i < 100 && ss[i] != 0; i++) | |
951 | { | |
952 | if (ss[i] == '\"' || ss[i] == '\\') *p++ = '\\'; | |
953 | *p++ = ss[i]; | |
954 | } | |
955 | *p++ = '\"'; | |
956 | *p = 0; | |
957 | s = string_append(s, &size, &ptr, 2, US" C=", big_buffer); | |
958 | } | |
959 | } | |
960 | ||
961 | /* Time on queue and actual time taken to deliver */ | |
962 | ||
963 | if ((log_extra_selector & LX_queue_time) != 0) | |
964 | { | |
965 | s = string_append(s, &size, &ptr, 2, US" QT=", | |
966 | readconf_printtime(time(NULL) - received_time)); | |
967 | } | |
968 | ||
969 | if ((log_extra_selector & LX_deliver_time) != 0) | |
970 | { | |
971 | s = string_append(s, &size, &ptr, 2, US" DT=", | |
972 | readconf_printtime(addr->more_errno)); | |
973 | } | |
974 | ||
975 | /* string_cat() always leaves room for the terminator. Release the | |
976 | store we used to build the line after writing it. */ | |
977 | ||
978 | s[ptr] = 0; | |
979 | log_write(0, LOG_MAIN, "%s", s); | |
980 | store_reset(reset_point); | |
981 | } | |
982 | ||
983 | ||
984 | /* Soft failure, or local delivery process failed; freezing may be | |
985 | requested. */ | |
986 | ||
987 | else if (result == DEFER || result == PANIC) | |
988 | { | |
989 | if (result == PANIC) logflags |= LOG_PANIC; | |
990 | ||
991 | /* This puts them on the chain in reverse order. Do not change this, because | |
992 | the code for handling retries assumes that the one with the retry | |
993 | information is last. */ | |
994 | ||
995 | addr->next = addr_defer; | |
996 | addr_defer = addr; | |
997 | ||
998 | /* The only currently implemented special action is to freeze the | |
999 | message. Logging of this is done later, just before the -H file is | |
1000 | updated. */ | |
1001 | ||
1002 | if (addr->special_action == SPECIAL_FREEZE) | |
1003 | { | |
1004 | deliver_freeze = TRUE; | |
1005 | deliver_frozen_at = time(NULL); | |
1006 | update_spool = TRUE; | |
1007 | } | |
1008 | ||
1009 | /* If doing a 2-stage queue run, we skip writing to either the message | |
1010 | log or the main log for SMTP defers. */ | |
1011 | ||
1012 | if (!queue_2stage || addr->basic_errno != 0) | |
1013 | { | |
1014 | uschar ss[32]; | |
1015 | ||
1016 | /* For errors of the type "retry time not reached" (also remotes skipped | |
1017 | on queue run), logging is controlled by L_retry_defer. Note that this kind | |
1018 | of error number is negative, and all the retry ones are less than any | |
1019 | others. */ | |
1020 | ||
1021 | unsigned int use_log_selector = (addr->basic_errno <= ERRNO_RETRY_BASE)? | |
1022 | L_retry_defer : 0; | |
1023 | ||
1024 | /* Build up the line that is used for both the message log and the main | |
1025 | log. */ | |
1026 | ||
1027 | s = reset_point = store_get(size); | |
1028 | s = string_cat(s, &size, &ptr, log_address, Ustrlen(log_address)); | |
1029 | ||
1030 | /* Either driver_name contains something and driver_kind contains | |
1031 | " router" or " transport" (note the leading space), or driver_name is | |
1032 | a null string and driver_kind contains "routing" without the leading | |
1033 | space, if all routing has been deferred. When a domain has been held, | |
1034 | so nothing has been done at all, both variables contain null strings. */ | |
1035 | ||
1036 | if (driver_name == NULL) | |
1037 | { | |
1038 | if (driver_kind != NULL) | |
1039 | s = string_append(s, &size, &ptr, 2, US" ", driver_kind); | |
1040 | } | |
1041 | else | |
1042 | { | |
1043 | if (driver_kind[1] == 't' && addr->router != NULL) | |
1044 | s = string_append(s, &size, &ptr, 2, US" R=", addr->router->name); | |
1045 | Ustrcpy(ss, " ?="); | |
1046 | ss[1] = toupper(driver_kind[1]); | |
1047 | s = string_append(s, &size, &ptr, 2, ss, driver_name); | |
1048 | } | |
1049 | ||
1050 | sprintf(CS ss, " defer (%d)", addr->basic_errno); | |
1051 | s = string_cat(s, &size, &ptr, ss, Ustrlen(ss)); | |
1052 | ||
1053 | if (addr->basic_errno > 0) | |
1054 | s = string_append(s, &size, &ptr, 2, US": ", | |
1055 | US strerror(addr->basic_errno)); | |
1056 | ||
1057 | if (addr->message != NULL) | |
1058 | s = string_append(s, &size, &ptr, 2, US": ", addr->message); | |
1059 | ||
1060 | s[ptr] = 0; | |
1061 | ||
1062 | /* Log the deferment in the message log, but don't clutter it | |
1063 | up with retry-time defers after the first delivery attempt. */ | |
1064 | ||
1065 | if (deliver_firsttime || addr->basic_errno > ERRNO_RETRY_BASE) | |
1066 | deliver_msglog("%s %s\n", now, s); | |
1067 | ||
1068 | /* Write the main log and reset the store */ | |
1069 | ||
1070 | log_write(use_log_selector, logflags, "== %s", s); | |
1071 | store_reset(reset_point); | |
1072 | } | |
1073 | } | |
1074 | ||
1075 | ||
1076 | /* Hard failure. If there is an address to which an error message can be sent, | |
1077 | put this address on the failed list. If not, put it on the deferred list and | |
1078 | freeze the mail message for human attention. The latter action can also be | |
1079 | explicitly requested by a router or transport. */ | |
1080 | ||
1081 | else | |
1082 | { | |
1083 | /* If this is a delivery error, or a message for which no replies are | |
1084 | wanted, and the message's age is greater than ignore_bounce_errors_after, | |
1085 | force the af_ignore_error flag. This will cause the address to be discarded | |
1086 | later (with a log entry). */ | |
1087 | ||
1088 | if (sender_address[0] == 0 && message_age >= ignore_bounce_errors_after) | |
1089 | setflag(addr, af_ignore_error); | |
1090 | ||
1091 | /* Freeze the message if requested, or if this is a bounce message (or other | |
652e1b65 PH |
1092 | message with null sender) and this address does not have its own errors |
1093 | address. However, don't freeze if errors are being ignored. The actual code | |
1094 | to ignore occurs later, instead of sending a message. Logging of freezing | |
1095 | occurs later, just before writing the -H file. */ | |
059ec3d9 PH |
1096 | |
1097 | if (!testflag(addr, af_ignore_error) && | |
652e1b65 PH |
1098 | (addr->special_action == SPECIAL_FREEZE || |
1099 | (sender_address[0] == 0 && addr->p.errors_address == NULL) | |
1100 | )) | |
059ec3d9 PH |
1101 | { |
1102 | frozen_info = (addr->special_action == SPECIAL_FREEZE)? US"" : | |
1103 | (sender_local && !local_error_message)? | |
1104 | US" (message created with -f <>)" : US" (delivery error message)"; | |
1105 | deliver_freeze = TRUE; | |
1106 | deliver_frozen_at = time(NULL); | |
1107 | update_spool = TRUE; | |
1108 | ||
1109 | /* The address is put on the defer rather than the failed queue, because | |
1110 | the message is being retained. */ | |
1111 | ||
1112 | addr->next = addr_defer; | |
1113 | addr_defer = addr; | |
1114 | } | |
1115 | ||
1116 | /* Don't put the address on the nonrecipients tree yet; wait until an | |
1117 | error message has been successfully sent. */ | |
1118 | ||
1119 | else | |
1120 | { | |
1121 | addr->next = addr_failed; | |
1122 | addr_failed = addr; | |
1123 | } | |
1124 | ||
1125 | /* Build up the log line for the message and main logs */ | |
1126 | ||
1127 | s = reset_point = store_get(size); | |
1128 | s = string_cat(s, &size, &ptr, log_address, Ustrlen(log_address)); | |
1129 | ||
1130 | if ((log_extra_selector & LX_sender_on_delivery) != 0) | |
1131 | s = string_append(s, &size, &ptr, 3, US" F=<", sender_address, US">"); | |
1132 | ||
1133 | /* Return path may not be set if no delivery actually happened */ | |
1134 | ||
1135 | if (used_return_path != NULL && | |
1136 | (log_extra_selector & LX_return_path_on_delivery) != 0) | |
1137 | { | |
1138 | s = string_append(s, &size, &ptr, 3, US" P=<", used_return_path, US">"); | |
1139 | } | |
1140 | ||
1141 | if (addr->router != NULL) | |
1142 | s = string_append(s, &size, &ptr, 2, US" R=", addr->router->name); | |
1143 | if (addr->transport != NULL) | |
1144 | s = string_append(s, &size, &ptr, 2, US" T=", addr->transport->name); | |
1145 | ||
1146 | if (addr->host_used != NULL) | |
1147 | s = string_append(s, &size, &ptr, 5, US" H=", addr->host_used->name, | |
1148 | US" [", addr->host_used->address, US"]"); | |
1149 | ||
1150 | if (addr->basic_errno > 0) | |
1151 | s = string_append(s, &size, &ptr, 2, US": ", | |
1152 | US strerror(addr->basic_errno)); | |
1153 | ||
1154 | if (addr->message != NULL) | |
1155 | s = string_append(s, &size, &ptr, 2, US": ", addr->message); | |
1156 | ||
1157 | s[ptr] = 0; | |
1158 | ||
1159 | /* Do the logging. For the message log, "routing failed" for those cases, | |
1160 | just to make it clearer. */ | |
1161 | ||
1162 | if (driver_name == NULL) | |
1163 | deliver_msglog("%s %s failed for %s\n", now, driver_kind, s); | |
1164 | else | |
1165 | deliver_msglog("%s %s\n", now, s); | |
1166 | ||
1167 | log_write(0, LOG_MAIN, "** %s", s); | |
1168 | store_reset(reset_point); | |
1169 | } | |
1170 | ||
1171 | /* Ensure logging is turned on again in all cases */ | |
1172 | ||
1173 | disable_logging = FALSE; | |
1174 | } | |
1175 | ||
1176 | ||
1177 | ||
1178 | ||
1179 | /************************************************* | |
1180 | * Address-independent error * | |
1181 | *************************************************/ | |
1182 | ||
1183 | /* This function is called when there's an error that is not dependent on a | |
1184 | particular address, such as an expansion string failure. It puts the error into | |
1185 | all the addresses in a batch, logs the incident on the main and panic logs, and | |
1186 | clears the expansions. It is mostly called from local_deliver(), but can be | |
1187 | called for a remote delivery via findugid(). | |
1188 | ||
1189 | Arguments: | |
1190 | logit TRUE if (MAIN+PANIC) logging required | |
1191 | addr the first of the chain of addresses | |
1192 | code the error code | |
1193 | format format string for error message, or NULL if already set in addr | |
1194 | ... arguments for the format | |
1195 | ||
1196 | Returns: nothing | |
1197 | */ | |
1198 | ||
1199 | static void | |
1200 | common_error(BOOL logit, address_item *addr, int code, uschar *format, ...) | |
1201 | { | |
1202 | address_item *addr2; | |
1203 | addr->basic_errno = code; | |
1204 | ||
1205 | if (format != NULL) | |
1206 | { | |
1207 | va_list ap; | |
1208 | uschar buffer[512]; | |
1209 | va_start(ap, format); | |
1210 | if (!string_vformat(buffer, sizeof(buffer), CS format, ap)) | |
1211 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, | |
1212 | "common_error expansion was longer than %d", sizeof(buffer)); | |
1213 | va_end(ap); | |
1214 | addr->message = string_copy(buffer); | |
1215 | } | |
1216 | ||
1217 | for (addr2 = addr->next; addr2 != NULL; addr2 = addr2->next) | |
1218 | { | |
1219 | addr2->basic_errno = code; | |
1220 | addr2->message = addr->message; | |
1221 | } | |
1222 | ||
1223 | if (logit) log_write(0, LOG_MAIN|LOG_PANIC, "%s", addr->message); | |
1224 | deliver_set_expansions(NULL); | |
1225 | } | |
1226 | ||
1227 | ||
1228 | ||
1229 | ||
1230 | /************************************************* | |
1231 | * Check a "never users" list * | |
1232 | *************************************************/ | |
1233 | ||
1234 | /* This function is called to check whether a uid is on one of the two "never | |
1235 | users" lists. | |
1236 | ||
1237 | Arguments: | |
1238 | uid the uid to be checked | |
1239 | nusers the list to be scanned; the first item in the list is the count | |
1240 | ||
1241 | Returns: TRUE if the uid is on the list | |
1242 | */ | |
1243 | ||
1244 | static BOOL | |
1245 | check_never_users(uid_t uid, uid_t *nusers) | |
1246 | { | |
1247 | int i; | |
1248 | if (nusers == NULL) return FALSE; | |
1249 | for (i = 1; i <= (int)(nusers[0]); i++) if (nusers[i] == uid) return TRUE; | |
1250 | return FALSE; | |
1251 | } | |
1252 | ||
1253 | ||
1254 | ||
1255 | /************************************************* | |
1256 | * Find uid and gid for a transport * | |
1257 | *************************************************/ | |
1258 | ||
1259 | /* This function is called for both local and remote deliveries, to find the | |
1260 | uid/gid under which to run the delivery. The values are taken preferentially | |
1261 | from the transport (either explicit or deliver_as_creator), then from the | |
1262 | address (i.e. the router), and if nothing is set, the exim uid/gid are used. If | |
1263 | the resulting uid is on the "never_users" or the "fixed_never_users" list, a | |
1264 | panic error is logged, and the function fails (which normally leads to delivery | |
1265 | deferral). | |
1266 | ||
1267 | Arguments: | |
1268 | addr the address (possibly a chain) | |
1269 | tp the transport | |
1270 | uidp pointer to uid field | |
1271 | gidp pointer to gid field | |
1272 | igfp pointer to the use_initgroups field | |
1273 | ||
1274 | Returns: FALSE if failed - error has been set in address(es) | |
1275 | */ | |
1276 | ||
1277 | static BOOL | |
1278 | findugid(address_item *addr, transport_instance *tp, uid_t *uidp, gid_t *gidp, | |
1279 | BOOL *igfp) | |
1280 | { | |
1281 | uschar *nuname = NULL; | |
1282 | BOOL gid_set = FALSE; | |
1283 | ||
1284 | /* Default initgroups flag comes from the transport */ | |
1285 | ||
1286 | *igfp = tp->initgroups; | |
1287 | ||
1288 | /* First see if there's a gid on the transport, either fixed or expandable. | |
1289 | The expanding function always logs failure itself. */ | |
1290 | ||
1291 | if (tp->gid_set) | |
1292 | { | |
1293 | *gidp = tp->gid; | |
1294 | gid_set = TRUE; | |
1295 | } | |
1296 | else if (tp->expand_gid != NULL) | |
1297 | { | |
1298 | if (route_find_expanded_group(tp->expand_gid, tp->name, US"transport", gidp, | |
1299 | &(addr->message))) gid_set = TRUE; | |
1300 | else | |
1301 | { | |
1302 | common_error(FALSE, addr, ERRNO_GIDFAIL, NULL); | |
1303 | return FALSE; | |
1304 | } | |
1305 | } | |
1306 | ||
911f6fde PH |
1307 | /* If the transport did not set a group, see if the router did. */ |
1308 | ||
1309 | if (!gid_set && testflag(addr, af_gid_set)) | |
1310 | { | |
1311 | *gidp = addr->gid; | |
1312 | gid_set = TRUE; | |
1313 | } | |
1314 | ||
059ec3d9 PH |
1315 | /* Pick up a uid from the transport if one is set. */ |
1316 | ||
1317 | if (tp->uid_set) *uidp = tp->uid; | |
1318 | ||
1319 | /* Otherwise, try for an expandable uid field. If it ends up as a numeric id, | |
1320 | it does not provide a passwd value from which a gid can be taken. */ | |
1321 | ||
1322 | else if (tp->expand_uid != NULL) | |
1323 | { | |
1324 | struct passwd *pw; | |
1325 | if (!route_find_expanded_user(tp->expand_uid, tp->name, US"transport", &pw, | |
1326 | uidp, &(addr->message))) | |
1327 | { | |
1328 | common_error(FALSE, addr, ERRNO_UIDFAIL, NULL); | |
1329 | return FALSE; | |
1330 | } | |
1331 | if (!gid_set && pw != NULL) | |
1332 | { | |
1333 | *gidp = pw->pw_gid; | |
1334 | gid_set = TRUE; | |
1335 | } | |
1336 | } | |
1337 | ||
1338 | /* If the transport doesn't set the uid, test the deliver_as_creator flag. */ | |
1339 | ||
1340 | else if (tp->deliver_as_creator) | |
1341 | { | |
1342 | *uidp = originator_uid; | |
1343 | if (!gid_set) | |
1344 | { | |
1345 | *gidp = originator_gid; | |
1346 | gid_set = TRUE; | |
1347 | } | |
1348 | } | |
1349 | ||
911f6fde PH |
1350 | /* Otherwise see if the address specifies the uid and if so, take it and its |
1351 | initgroups flag. */ | |
059ec3d9 PH |
1352 | |
1353 | else if (testflag(addr, af_uid_set)) | |
1354 | { | |
1355 | *uidp = addr->uid; | |
1356 | *igfp = testflag(addr, af_initgroups); | |
059ec3d9 PH |
1357 | } |
1358 | ||
1359 | /* Nothing has specified the uid - default to the Exim user, and group if the | |
1360 | gid is not set. */ | |
1361 | ||
1362 | else | |
1363 | { | |
1364 | *uidp = exim_uid; | |
1365 | if (!gid_set) | |
1366 | { | |
1367 | *gidp = exim_gid; | |
1368 | gid_set = TRUE; | |
1369 | } | |
1370 | } | |
1371 | ||
911f6fde PH |
1372 | /* If no gid is set, it is a disaster. We default to the Exim gid only if |
1373 | defaulting to the Exim uid. In other words, if the configuration has specified | |
1374 | a uid, it must also provide a gid. */ | |
059ec3d9 PH |
1375 | |
1376 | if (!gid_set) | |
1377 | { | |
1378 | common_error(TRUE, addr, ERRNO_GIDFAIL, US"User set without group for " | |
1379 | "%s transport", tp->name); | |
1380 | return FALSE; | |
1381 | } | |
1382 | ||
1383 | /* Check that the uid is not on the lists of banned uids that may not be used | |
1384 | for delivery processes. */ | |
1385 | ||
1386 | if (check_never_users(*uidp, never_users)) | |
1387 | nuname = US"never_users"; | |
1388 | else if (check_never_users(*uidp, fixed_never_users)) | |
1389 | nuname = US"fixed_never_users"; | |
1390 | ||
1391 | if (nuname != NULL) | |
1392 | { | |
1393 | common_error(TRUE, addr, ERRNO_UIDFAIL, US"User %ld set for %s transport " | |
1394 | "is on the %s list", (long int)(*uidp), tp->name, nuname); | |
1395 | return FALSE; | |
1396 | } | |
1397 | ||
1398 | /* All is well */ | |
1399 | ||
1400 | return TRUE; | |
1401 | } | |
1402 | ||
1403 | ||
1404 | ||
1405 | ||
1406 | /************************************************* | |
1407 | * Check the size of a message for a transport * | |
1408 | *************************************************/ | |
1409 | ||
1410 | /* Checks that the message isn't too big for the selected transport. | |
1411 | This is called only when it is known that the limit is set. | |
1412 | ||
1413 | Arguments: | |
1414 | tp the transport | |
1415 | addr the (first) address being delivered | |
1416 | ||
1417 | Returns: OK | |
1418 | DEFER expansion failed or did not yield an integer | |
1419 | FAIL message too big | |
1420 | */ | |
1421 | ||
1422 | int | |
1423 | check_message_size(transport_instance *tp, address_item *addr) | |
1424 | { | |
1425 | int rc = OK; | |
1426 | int size_limit; | |
1427 | ||
1428 | deliver_set_expansions(addr); | |
1429 | size_limit = expand_string_integer(tp->message_size_limit); | |
1430 | deliver_set_expansions(NULL); | |
1431 | ||
1432 | if (size_limit < 0) | |
1433 | { | |
1434 | rc = DEFER; | |
1435 | if (size_limit == -1) | |
1436 | addr->message = string_sprintf("failed to expand message_size_limit " | |
1437 | "in %s transport: %s", tp->name, expand_string_message); | |
1438 | else | |
1439 | addr->message = string_sprintf("invalid message_size_limit " | |
1440 | "in %s transport: %s", tp->name, expand_string_message); | |
1441 | } | |
1442 | else if (size_limit > 0 && message_size > size_limit) | |
1443 | { | |
1444 | rc = FAIL; | |
1445 | addr->message = | |
1446 | string_sprintf("message is too big (transport limit = %d)", | |
1447 | size_limit); | |
1448 | } | |
1449 | ||
1450 | return rc; | |
1451 | } | |
1452 | ||
1453 | ||
1454 | ||
1455 | /************************************************* | |
1456 | * Transport-time check for a previous delivery * | |
1457 | *************************************************/ | |
1458 | ||
1459 | /* Check that this base address hasn't previously been delivered to its routed | |
c2c19e9d PH |
1460 | transport. If it has been delivered, mark it done. The check is necessary at |
1461 | delivery time in order to handle homonymic addresses correctly in cases where | |
1462 | the pattern of redirection changes between delivery attempts (so the unique | |
1463 | fields change). Non-homonymic previous delivery is detected earlier, at routing | |
1464 | time (which saves unnecessary routing). | |
1465 | ||
1466 | Arguments: | |
1467 | addr the address item | |
1468 | testing TRUE if testing wanted only, without side effects | |
059ec3d9 | 1469 | |
059ec3d9 PH |
1470 | Returns: TRUE if previously delivered by the transport |
1471 | */ | |
1472 | ||
1473 | static BOOL | |
c2c19e9d | 1474 | previously_transported(address_item *addr, BOOL testing) |
059ec3d9 PH |
1475 | { |
1476 | (void)string_format(big_buffer, big_buffer_size, "%s/%s", | |
1477 | addr->unique + (testflag(addr, af_homonym)? 3:0), addr->transport->name); | |
1478 | ||
1479 | if (tree_search(tree_nonrecipients, big_buffer) != 0) | |
1480 | { | |
1481 | DEBUG(D_deliver|D_route|D_transport) | |
1482 | debug_printf("%s was previously delivered (%s transport): discarded\n", | |
1483 | addr->address, addr->transport->name); | |
c2c19e9d | 1484 | if (!testing) child_done(addr, tod_stamp(tod_log)); |
059ec3d9 PH |
1485 | return TRUE; |
1486 | } | |
1487 | ||
1488 | return FALSE; | |
1489 | } | |
1490 | ||
1491 | ||
1492 | ||
1493 | ||
1494 | /************************************************* | |
1495 | * Perform a local delivery * | |
1496 | *************************************************/ | |
1497 | ||
1498 | /* Each local delivery is performed in a separate process which sets its | |
1499 | uid and gid as specified. This is a safer way than simply changing and | |
1500 | restoring using seteuid(); there is a body of opinion that seteuid() cannot be | |
1501 | used safely. From release 4, Exim no longer makes any use of it. Besides, not | |
1502 | all systems have seteuid(). | |
1503 | ||
1504 | If the uid/gid are specified in the transport_instance, they are used; the | |
1505 | transport initialization must ensure that either both or neither are set. | |
1506 | Otherwise, the values associated with the address are used. If neither are set, | |
1507 | it is a configuration error. | |
1508 | ||
1509 | The transport or the address may specify a home directory (transport over- | |
1510 | rides), and if they do, this is set as $home. If neither have set a working | |
1511 | directory, this value is used for that as well. Otherwise $home is left unset | |
1512 | and the cwd is set to "/" - a directory that should be accessible to all users. | |
1513 | ||
1514 | Using a separate process makes it more complicated to get error information | |
1515 | back. We use a pipe to pass the return code and also an error code and error | |
1516 | text string back to the parent process. | |
1517 | ||
1518 | Arguments: | |
1519 | addr points to an address block for this delivery; for "normal" local | |
1520 | deliveries this is the only address to be delivered, but for | |
1521 | pseudo-remote deliveries (e.g. by batch SMTP to a file or pipe) | |
1522 | a number of addresses can be handled simultaneously, and in this | |
1523 | case addr will point to a chain of addresses with the same | |
1524 | characteristics. | |
1525 | ||
1526 | shadowing TRUE if running a shadow transport; this causes output from pipes | |
1527 | to be ignored. | |
1528 | ||
1529 | Returns: nothing | |
1530 | */ | |
1531 | ||
1532 | static void | |
1533 | deliver_local(address_item *addr, BOOL shadowing) | |
1534 | { | |
1535 | BOOL use_initgroups; | |
1536 | uid_t uid; | |
1537 | gid_t gid; | |
1538 | int status, len, rc; | |
1539 | int pfd[2]; | |
1540 | pid_t pid; | |
1541 | uschar *working_directory; | |
1542 | address_item *addr2; | |
1543 | transport_instance *tp = addr->transport; | |
1544 | ||
1545 | /* Set up the return path from the errors or sender address. If the transport | |
1546 | has its own return path setting, expand it and replace the existing value. */ | |
1547 | ||
384152a6 TK |
1548 | if(addr->p.errors_address != NULL) |
1549 | return_path = addr->p.errors_address; | |
1550 | #ifdef EXPERIMENTAL_SRS | |
1551 | else if(addr->p.srs_sender != NULL) | |
1552 | return_path = addr->p.srs_sender; | |
1553 | #endif | |
1554 | else | |
1555 | return_path = sender_address; | |
059ec3d9 PH |
1556 | |
1557 | if (tp->return_path != NULL) | |
1558 | { | |
1559 | uschar *new_return_path = expand_string(tp->return_path); | |
1560 | if (new_return_path == NULL) | |
1561 | { | |
1562 | if (!expand_string_forcedfail) | |
1563 | { | |
1564 | common_error(TRUE, addr, ERRNO_EXPANDFAIL, | |
1565 | US"Failed to expand return path \"%s\" in %s transport: %s", | |
1566 | tp->return_path, tp->name, expand_string_message); | |
1567 | return; | |
1568 | } | |
1569 | } | |
1570 | else return_path = new_return_path; | |
1571 | } | |
1572 | ||
1573 | /* For local deliveries, one at a time, the value used for logging can just be | |
1574 | set directly, once and for all. */ | |
1575 | ||
1576 | used_return_path = return_path; | |
1577 | ||
1578 | /* Sort out the uid, gid, and initgroups flag. If an error occurs, the message | |
1579 | gets put into the address(es), and the expansions are unset, so we can just | |
1580 | return. */ | |
1581 | ||
1582 | if (!findugid(addr, tp, &uid, &gid, &use_initgroups)) return; | |
1583 | ||
1584 | /* See if either the transport or the address specifies a home and/or a current | |
1585 | working directory. Expand it if necessary. If nothing is set, use "/", for the | |
1586 | working directory, which is assumed to be a directory to which all users have | |
1587 | access. It is necessary to be in a visible directory for some operating systems | |
1588 | when running pipes, as some commands (e.g. "rm" under Solaris 2.5) require | |
1589 | this. */ | |
1590 | ||
1591 | deliver_home = (tp->home_dir != NULL)? tp->home_dir : | |
1592 | (addr->home_dir != NULL)? addr->home_dir : NULL; | |
1593 | ||
1594 | if (deliver_home != NULL && !testflag(addr, af_home_expanded)) | |
1595 | { | |
1596 | uschar *rawhome = deliver_home; | |
1597 | deliver_home = NULL; /* in case it contains $home */ | |
1598 | deliver_home = expand_string(rawhome); | |
1599 | if (deliver_home == NULL) | |
1600 | { | |
1601 | common_error(TRUE, addr, ERRNO_EXPANDFAIL, US"home directory \"%s\" failed " | |
1602 | "to expand for %s transport: %s", rawhome, tp->name, | |
1603 | expand_string_message); | |
1604 | return; | |
1605 | } | |
1606 | if (*deliver_home != '/') | |
1607 | { | |
1608 | common_error(TRUE, addr, ERRNO_NOTABSOLUTE, US"home directory path \"%s\" " | |
1609 | "is not absolute for %s transport", deliver_home, tp->name); | |
1610 | return; | |
1611 | } | |
1612 | } | |
1613 | ||
1614 | working_directory = (tp->current_dir != NULL)? tp->current_dir : | |
1615 | (addr->current_dir != NULL)? addr->current_dir : NULL; | |
1616 | ||
1617 | if (working_directory != NULL) | |
1618 | { | |
1619 | uschar *raw = working_directory; | |
1620 | working_directory = expand_string(raw); | |
1621 | if (working_directory == NULL) | |
1622 | { | |
1623 | common_error(TRUE, addr, ERRNO_EXPANDFAIL, US"current directory \"%s\" " | |
1624 | "failed to expand for %s transport: %s", raw, tp->name, | |
1625 | expand_string_message); | |
1626 | return; | |
1627 | } | |
1628 | if (*working_directory != '/') | |
1629 | { | |
1630 | common_error(TRUE, addr, ERRNO_NOTABSOLUTE, US"current directory path " | |
1631 | "\"%s\" is not absolute for %s transport", working_directory, tp->name); | |
1632 | return; | |
1633 | } | |
1634 | } | |
1635 | else working_directory = (deliver_home == NULL)? US"/" : deliver_home; | |
1636 | ||
1637 | /* If one of the return_output flags is set on the transport, create and open a | |
1638 | file in the message log directory for the transport to write its output onto. | |
1639 | This is mainly used by pipe transports. The file needs to be unique to the | |
1640 | address. This feature is not available for shadow transports. */ | |
1641 | ||
1642 | if (!shadowing && (tp->return_output || tp->return_fail_output || | |
1643 | tp->log_output || tp->log_fail_output)) | |
1644 | { | |
1645 | uschar *error; | |
1646 | addr->return_filename = | |
1647 | string_sprintf("%s/msglog/%s/%s-%d-%d", spool_directory, message_subdir, | |
1648 | message_id, getpid(), return_count++); | |
1649 | addr->return_file = open_msglog_file(addr->return_filename, 0400, &error); | |
1650 | if (addr->return_file < 0) | |
1651 | { | |
1652 | common_error(TRUE, addr, errno, US"Unable to %s file for %s transport " | |
1653 | "to return message: %s", error, tp->name, strerror(errno)); | |
1654 | return; | |
1655 | } | |
1656 | } | |
1657 | ||
1658 | /* Create the pipe for inter-process communication. */ | |
1659 | ||
1660 | if (pipe(pfd) != 0) | |
1661 | { | |
1662 | common_error(TRUE, addr, ERRNO_PIPEFAIL, US"Creation of pipe failed: %s", | |
1663 | strerror(errno)); | |
1664 | return; | |
1665 | } | |
1666 | ||
1667 | /* Now fork the process to do the real work in the subprocess, but first | |
1668 | ensure that all cached resources are freed so that the subprocess starts with | |
1669 | a clean slate and doesn't interfere with the parent process. */ | |
1670 | ||
1671 | search_tidyup(); | |
1672 | ||
1673 | if ((pid = fork()) == 0) | |
1674 | { | |
1675 | BOOL replicate = TRUE; | |
1676 | ||
1677 | /* Prevent core dumps, as we don't want them in users' home directories. | |
1678 | HP-UX doesn't have RLIMIT_CORE; I don't know how to do this in that | |
1679 | system. Some experimental/developing systems (e.g. GNU/Hurd) may define | |
1680 | RLIMIT_CORE but not support it in setrlimit(). For such systems, do not | |
1681 | complain if the error is "not supported". */ | |
1682 | ||
1683 | #ifdef RLIMIT_CORE | |
1684 | struct rlimit rl; | |
1685 | rl.rlim_cur = 0; | |
1686 | rl.rlim_max = 0; | |
1687 | if (setrlimit(RLIMIT_CORE, &rl) < 0) | |
1688 | { | |
1689 | #ifdef SETRLIMIT_NOT_SUPPORTED | |
1690 | if (errno != ENOSYS && errno != ENOTSUP) | |
1691 | #endif | |
1692 | log_write(0, LOG_MAIN|LOG_PANIC, "setrlimit(RLIMIT_CORE) failed: %s", | |
1693 | strerror(errno)); | |
1694 | } | |
1695 | #endif | |
1696 | ||
1697 | /* Reset the random number generator, so different processes don't all | |
1698 | have the same sequence. */ | |
1699 | ||
1700 | random_seed = 0; | |
1701 | ||
1702 | /* If the transport has a setup entry, call this first, while still | |
1703 | privileged. (Appendfile uses this to expand quota, for example, while | |
1704 | able to read private files.) */ | |
1705 | ||
1706 | if (addr->transport->setup != NULL) | |
1707 | { | |
1708 | switch((addr->transport->setup)(addr->transport, addr, NULL, | |
1709 | &(addr->message))) | |
1710 | { | |
1711 | case DEFER: | |
1712 | addr->transport_return = DEFER; | |
1713 | goto PASS_BACK; | |
1714 | ||
1715 | case FAIL: | |
1716 | addr->transport_return = PANIC; | |
1717 | goto PASS_BACK; | |
1718 | } | |
1719 | } | |
1720 | ||
1721 | /* Ignore SIGINT and SIGTERM during delivery. Also ignore SIGUSR1, as | |
1722 | when the process becomes unprivileged, it won't be able to write to the | |
1723 | process log. SIGHUP is ignored throughout exim, except when it is being | |
1724 | run as a daemon. */ | |
1725 | ||
1726 | signal(SIGINT, SIG_IGN); | |
1727 | signal(SIGTERM, SIG_IGN); | |
1728 | signal(SIGUSR1, SIG_IGN); | |
1729 | ||
1730 | /* Close the unwanted half of the pipe, and set close-on-exec for the other | |
1731 | half - for transports that exec things (e.g. pipe). Then set the required | |
1732 | gid/uid. */ | |
1733 | ||
f1e894f3 | 1734 | (void)close(pfd[pipe_read]); |
ff790e47 | 1735 | (void)fcntl(pfd[pipe_write], F_SETFD, fcntl(pfd[pipe_write], F_GETFD) | |
059ec3d9 PH |
1736 | FD_CLOEXEC); |
1737 | exim_setugid(uid, gid, use_initgroups, | |
1738 | string_sprintf("local delivery to %s <%s> transport=%s", addr->local_part, | |
1739 | addr->address, addr->transport->name)); | |
1740 | ||
1741 | DEBUG(D_deliver) | |
1742 | { | |
1743 | address_item *batched; | |
1744 | debug_printf(" home=%s current=%s\n", deliver_home, working_directory); | |
1745 | for (batched = addr->next; batched != NULL; batched = batched->next) | |
1746 | debug_printf("additional batched address: %s\n", batched->address); | |
1747 | } | |
1748 | ||
1749 | /* Set an appropriate working directory. */ | |
1750 | ||
1751 | if (Uchdir(working_directory) < 0) | |
1752 | { | |
1753 | addr->transport_return = DEFER; | |
1754 | addr->basic_errno = errno; | |
1755 | addr->message = string_sprintf("failed to chdir to %s", working_directory); | |
1756 | } | |
1757 | ||
1758 | /* If successful, call the transport */ | |
1759 | ||
1760 | else | |
1761 | { | |
1762 | BOOL ok = TRUE; | |
1763 | set_process_info("delivering %s to %s using %s", message_id, | |
1764 | addr->local_part, addr->transport->name); | |
1765 | ||
1766 | /* If a transport filter has been specified, set up its argument list. | |
1767 | Any errors will get put into the address, and FALSE yielded. */ | |
1768 | ||
1769 | if (addr->transport->filter_command != NULL) | |
1770 | { | |
1771 | ok = transport_set_up_command(&transport_filter_argv, | |
1772 | addr->transport->filter_command, | |
1773 | TRUE, PANIC, addr, US"transport filter", NULL); | |
1774 | transport_filter_timeout = addr->transport->filter_timeout; | |
1775 | } | |
1776 | else transport_filter_argv = NULL; | |
1777 | ||
1778 | if (ok) | |
1779 | { | |
1780 | debug_print_string(addr->transport->debug_string); | |
1781 | replicate = !(addr->transport->info->code)(addr->transport, addr); | |
1782 | } | |
1783 | } | |
1784 | ||
1785 | /* Pass the results back down the pipe. If necessary, first replicate the | |
1786 | status in the top address to the others in the batch. The label is the | |
1787 | subject of a goto when a call to the transport's setup function fails. We | |
1788 | pass the pointer to the transport back in case it got changed as a result of | |
1789 | file_format in appendfile. */ | |
1790 | ||
1791 | PASS_BACK: | |
1792 | ||
1793 | if (replicate) replicate_status(addr); | |
1794 | for (addr2 = addr; addr2 != NULL; addr2 = addr2->next) | |
1795 | { | |
1796 | int i; | |
1797 | int local_part_length = Ustrlen(addr2->local_part); | |
1798 | uschar *s; | |
1799 | ||
f1e894f3 PH |
1800 | (void)write(pfd[pipe_write], (void *)&(addr2->transport_return), sizeof(int)); |
1801 | (void)write(pfd[pipe_write], (void *)&transport_count, sizeof(transport_count)); | |
1802 | (void)write(pfd[pipe_write], (void *)&(addr2->flags), sizeof(addr2->flags)); | |
1803 | (void)write(pfd[pipe_write], (void *)&(addr2->basic_errno), sizeof(int)); | |
1804 | (void)write(pfd[pipe_write], (void *)&(addr2->more_errno), sizeof(int)); | |
1805 | (void)write(pfd[pipe_write], (void *)&(addr2->special_action), sizeof(int)); | |
1806 | (void)write(pfd[pipe_write], (void *)&(addr2->transport), | |
059ec3d9 PH |
1807 | sizeof(transport_instance *)); |
1808 | ||
1809 | /* For a file delivery, pass back the local part, in case the original | |
1810 | was only part of the final delivery path. This gives more complete | |
1811 | logging. */ | |
1812 | ||
1813 | if (testflag(addr2, af_file)) | |
1814 | { | |
f1e894f3 PH |
1815 | (void)write(pfd[pipe_write], (void *)&local_part_length, sizeof(int)); |
1816 | (void)write(pfd[pipe_write], addr2->local_part, local_part_length); | |
059ec3d9 PH |
1817 | } |
1818 | ||
1819 | /* Now any messages */ | |
1820 | ||
1821 | for (i = 0, s = addr2->message; i < 2; i++, s = addr2->user_message) | |
1822 | { | |
1823 | int message_length = (s == NULL)? 0 : Ustrlen(s) + 1; | |
f1e894f3 PH |
1824 | (void)write(pfd[pipe_write], (void *)&message_length, sizeof(int)); |
1825 | if (message_length > 0) (void)write(pfd[pipe_write], s, message_length); | |
059ec3d9 PH |
1826 | } |
1827 | } | |
1828 | ||
1829 | /* OK, this process is now done. Free any cached resources that it opened, | |
1830 | and close the pipe we were writing down before exiting. */ | |
1831 | ||
f1e894f3 | 1832 | (void)close(pfd[pipe_write]); |
059ec3d9 PH |
1833 | search_tidyup(); |
1834 | exit(EXIT_SUCCESS); | |
1835 | } | |
1836 | ||
1837 | /* Back in the main process: panic if the fork did not succeed. This seems | |
1838 | better than returning an error - if forking is failing it is probably best | |
1839 | not to try other deliveries for this message. */ | |
1840 | ||
1841 | if (pid < 0) | |
1842 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "Fork failed for local delivery to %s", | |
1843 | addr->address); | |
1844 | ||
1845 | /* Read the pipe to get the delivery status codes and error messages. Our copy | |
1846 | of the writing end must be closed first, as otherwise read() won't return zero | |
1847 | on an empty pipe. We check that a status exists for each address before | |
1848 | overwriting the address structure. If data is missing, the default DEFER status | |
1849 | will remain. Afterwards, close the reading end. */ | |
1850 | ||
f1e894f3 | 1851 | (void)close(pfd[pipe_write]); |
059ec3d9 PH |
1852 | |
1853 | for (addr2 = addr; addr2 != NULL; addr2 = addr2->next) | |
1854 | { | |
1855 | len = read(pfd[pipe_read], (void *)&status, sizeof(int)); | |
1856 | if (len > 0) | |
1857 | { | |
1858 | int i; | |
1859 | uschar **sptr; | |
1860 | ||
1861 | addr2->transport_return = status; | |
1862 | len = read(pfd[pipe_read], (void *)&transport_count, | |
1863 | sizeof(transport_count)); | |
1864 | len = read(pfd[pipe_read], (void *)&(addr2->flags), sizeof(addr2->flags)); | |
1865 | len = read(pfd[pipe_read], (void *)&(addr2->basic_errno), sizeof(int)); | |
1866 | len = read(pfd[pipe_read], (void *)&(addr2->more_errno), sizeof(int)); | |
1867 | len = read(pfd[pipe_read], (void *)&(addr2->special_action), sizeof(int)); | |
1868 | len = read(pfd[pipe_read], (void *)&(addr2->transport), | |
1869 | sizeof(transport_instance *)); | |
1870 | ||
1871 | if (testflag(addr2, af_file)) | |
1872 | { | |
1873 | int local_part_length; | |
1874 | len = read(pfd[pipe_read], (void *)&local_part_length, sizeof(int)); | |
1875 | len = read(pfd[pipe_read], (void *)big_buffer, local_part_length); | |
1876 | big_buffer[local_part_length] = 0; | |
1877 | addr2->local_part = string_copy(big_buffer); | |
1878 | } | |
1879 | ||
1880 | for (i = 0, sptr = &(addr2->message); i < 2; | |
1881 | i++, sptr = &(addr2->user_message)) | |
1882 | { | |
1883 | int message_length; | |
1884 | len = read(pfd[pipe_read], (void *)&message_length, sizeof(int)); | |
1885 | if (message_length > 0) | |
1886 | { | |
1887 | len = read(pfd[pipe_read], (void *)big_buffer, message_length); | |
1888 | if (len > 0) *sptr = string_copy(big_buffer); | |
1889 | } | |
1890 | } | |
1891 | } | |
1892 | ||
1893 | else | |
1894 | { | |
1895 | log_write(0, LOG_MAIN|LOG_PANIC, "failed to read delivery status for %s " | |
1896 | "from delivery subprocess", addr2->unique); | |
1897 | break; | |
1898 | } | |
1899 | } | |
1900 | ||
f1e894f3 | 1901 | (void)close(pfd[pipe_read]); |
059ec3d9 PH |
1902 | |
1903 | /* Unless shadowing, write all successful addresses immediately to the journal | |
1904 | file, to ensure they are recorded asap. For homonymic addresses, use the base | |
1905 | address plus the transport name. Failure to write the journal is panic-worthy, | |
1906 | but don't stop, as it may prove possible subsequently to update the spool file | |
1907 | in order to record the delivery. */ | |
1908 | ||
1909 | if (!shadowing) | |
1910 | { | |
1911 | for (addr2 = addr; addr2 != NULL; addr2 = addr2->next) | |
1912 | { | |
1913 | if (addr2->transport_return != OK) continue; | |
1914 | ||
1915 | if (testflag(addr2, af_homonym)) | |
1916 | sprintf(CS big_buffer, "%.500s/%s\n", addr2->unique + 3, tp->name); | |
1917 | else | |
1918 | sprintf(CS big_buffer, "%.500s\n", addr2->unique); | |
1919 | ||
1920 | /* In the test harness, wait just a bit to let the subprocess finish off | |
1921 | any debug output etc first. */ | |
1922 | ||
1923 | if (running_in_test_harness) millisleep(300); | |
1924 | ||
1925 | DEBUG(D_deliver) debug_printf("journalling %s", big_buffer); | |
1926 | len = Ustrlen(big_buffer); | |
1927 | if (write(journal_fd, big_buffer, len) != len) | |
1928 | log_write(0, LOG_MAIN|LOG_PANIC, "failed to update journal for %s: %s", | |
1929 | big_buffer, strerror(errno)); | |
1930 | } | |
1931 | ||
1932 | /* Ensure the journal file is pushed out to disk. */ | |
1933 | ||
1934 | if (fsync(journal_fd) < 0) | |
1935 | log_write(0, LOG_MAIN|LOG_PANIC, "failed to fsync journal: %s", | |
1936 | strerror(errno)); | |
1937 | } | |
1938 | ||
1939 | /* Wait for the process to finish. If it terminates with a non-zero code, | |
1940 | freeze the message (except for SIGTERM, SIGKILL and SIGQUIT), but leave the | |
1941 | status values of all the addresses as they are. Take care to handle the case | |
1942 | when the subprocess doesn't seem to exist. This has been seen on one system | |
1943 | when Exim was called from an MUA that set SIGCHLD to SIG_IGN. When that | |
1944 | happens, wait() doesn't recognize the termination of child processes. Exim now | |
1945 | resets SIGCHLD to SIG_DFL, but this code should still be robust. */ | |
1946 | ||
1947 | while ((rc = wait(&status)) != pid) | |
1948 | { | |
1949 | if (rc < 0 && errno == ECHILD) /* Process has vanished */ | |
1950 | { | |
1951 | log_write(0, LOG_MAIN, "%s transport process vanished unexpectedly", | |
1952 | addr->transport->driver_name); | |
1953 | status = 0; | |
1954 | break; | |
1955 | } | |
1956 | } | |
1957 | ||
1958 | if ((status & 0xffff) != 0) | |
1959 | { | |
1960 | int msb = (status >> 8) & 255; | |
1961 | int lsb = status & 255; | |
1962 | int code = (msb == 0)? (lsb & 0x7f) : msb; | |
1963 | if (msb != 0 || (code != SIGTERM && code != SIGKILL && code != SIGQUIT)) | |
1964 | addr->special_action = SPECIAL_FREEZE; | |
1965 | log_write(0, LOG_MAIN|LOG_PANIC, "%s transport process returned non-zero " | |
1966 | "status 0x%04x: %s %d", | |
1967 | addr->transport->driver_name, | |
1968 | status, | |
1969 | (msb == 0)? "terminated by signal" : "exit code", | |
1970 | code); | |
1971 | } | |
1972 | ||
1973 | /* If SPECIAL_WARN is set in the top address, send a warning message. */ | |
1974 | ||
1975 | if (addr->special_action == SPECIAL_WARN && | |
1976 | addr->transport->warn_message != NULL) | |
1977 | { | |
1978 | int fd; | |
1979 | uschar *warn_message; | |
1980 | ||
1981 | DEBUG(D_deliver) debug_printf("Warning message requested by transport\n"); | |
1982 | ||
1983 | warn_message = expand_string(addr->transport->warn_message); | |
1984 | if (warn_message == NULL) | |
1985 | log_write(0, LOG_MAIN|LOG_PANIC, "Failed to expand \"%s\" (warning " | |
1986 | "message for %s transport): %s", addr->transport->warn_message, | |
1987 | addr->transport->name, expand_string_message); | |
1988 | else | |
1989 | { | |
1990 | pid_t pid = child_open_exim(&fd); | |
1991 | if (pid > 0) | |
1992 | { | |
1993 | FILE *f = fdopen(fd, "wb"); | |
1994 | ||
1995 | if (errors_reply_to != NULL) | |
1996 | fprintf(f, "Reply-To: %s\n", errors_reply_to); | |
456682f5 | 1997 | fprintf(f, "Auto-Submitted: auto-replied\n"); |
059ec3d9 PH |
1998 | fprintf(f, "From: Mail Delivery System <Mailer-Daemon@%s>\n", |
1999 | qualify_domain_sender); | |
2000 | fprintf(f, "%s", CS warn_message); | |
2001 | ||
2002 | /* Close and wait for child process to complete, without a timeout. */ | |
2003 | ||
f1e894f3 | 2004 | (void)fclose(f); |
059ec3d9 PH |
2005 | (void)child_close(pid, 0); |
2006 | } | |
2007 | } | |
2008 | ||
2009 | addr->special_action = SPECIAL_NONE; | |
2010 | } | |
2011 | } | |
2012 | ||
2013 | ||
2014 | ||
2015 | /************************************************* | |
2016 | * Do local deliveries * | |
2017 | *************************************************/ | |
2018 | ||
2019 | /* This function processes the list of addresses in addr_local. True local | |
2020 | deliveries are always done one address at a time. However, local deliveries can | |
2021 | be batched up in some cases. Typically this is when writing batched SMTP output | |
2022 | files for use by some external transport mechanism, or when running local | |
2023 | deliveries over LMTP. | |
2024 | ||
2025 | Arguments: None | |
2026 | Returns: Nothing | |
2027 | */ | |
2028 | ||
2029 | static void | |
2030 | do_local_deliveries(void) | |
2031 | { | |
2032 | open_db dbblock; | |
2033 | open_db *dbm_file = NULL; | |
2034 | time_t now = time(NULL); | |
2035 | ||
2036 | /* Loop until we have exhausted the supply of local deliveries */ | |
2037 | ||
2038 | while (addr_local != NULL) | |
2039 | { | |
2040 | time_t delivery_start; | |
2041 | int deliver_time; | |
2042 | address_item *addr2, *addr3, *nextaddr; | |
2043 | int logflags = LOG_MAIN; | |
2044 | int logchar = dont_deliver? '*' : '='; | |
2045 | transport_instance *tp; | |
2046 | ||
2047 | /* Pick the first undelivered address off the chain */ | |
2048 | ||
2049 | address_item *addr = addr_local; | |
2050 | addr_local = addr->next; | |
2051 | addr->next = NULL; | |
2052 | ||
2053 | DEBUG(D_deliver|D_transport) | |
2054 | debug_printf("--------> %s <--------\n", addr->address); | |
2055 | ||
2056 | /* An internal disaster if there is no transport. Should not occur! */ | |
2057 | ||
2058 | if ((tp = addr->transport) == NULL) | |
2059 | { | |
2060 | logflags |= LOG_PANIC; | |
2061 | disable_logging = FALSE; /* Jic */ | |
2062 | addr->message = | |
2063 | (addr->router != NULL)? | |
2064 | string_sprintf("No transport set by %s router", addr->router->name) | |
2065 | : | |
2066 | string_sprintf("No transport set by system filter"); | |
2067 | post_process_one(addr, DEFER, logflags, DTYPE_TRANSPORT, 0); | |
2068 | continue; | |
2069 | } | |
2070 | ||
2071 | /* Check that this base address hasn't previously been delivered to this | |
2072 | transport. The check is necessary at this point to handle homonymic addresses | |
2073 | correctly in cases where the pattern of redirection changes between delivery | |
2074 | attempts. Non-homonymic previous delivery is detected earlier, at routing | |
2075 | time. */ | |
2076 | ||
c2c19e9d | 2077 | if (previously_transported(addr, FALSE)) continue; |
059ec3d9 PH |
2078 | |
2079 | /* There are weird cases where logging is disabled */ | |
2080 | ||
2081 | disable_logging = tp->disable_logging; | |
2082 | ||
2083 | /* Check for batched addresses and possible amalgamation. File deliveries can | |
2084 | never be batched. Skip all the work if either batch_max <= 1 or there aren't | |
2085 | any other addresses for local delivery. */ | |
2086 | ||
2087 | if (!testflag(addr, af_file) && tp->batch_max > 1 && addr_local != NULL) | |
2088 | { | |
2089 | int batch_count = 1; | |
2090 | BOOL uses_dom = readconf_depends((driver_instance *)tp, US"domain"); | |
2091 | BOOL uses_lp = readconf_depends((driver_instance *)tp, US"local_part"); | |
2092 | uschar *batch_id = NULL; | |
2093 | address_item **anchor = &addr_local; | |
2094 | address_item *last = addr; | |
2095 | address_item *next; | |
2096 | ||
2097 | /* Expand the batch_id string for comparison with other addresses. | |
2098 | Expansion failure suppresses batching. */ | |
2099 | ||
2100 | if (tp->batch_id != NULL) | |
2101 | { | |
2102 | deliver_set_expansions(addr); | |
2103 | batch_id = expand_string(tp->batch_id); | |
2104 | deliver_set_expansions(NULL); | |
2105 | if (batch_id == NULL) | |
2106 | { | |
2107 | log_write(0, LOG_MAIN|LOG_PANIC, "Failed to expand batch_id option " | |
2108 | "in %s transport (%s): %s", tp->name, addr->address, | |
2109 | expand_string_message); | |
2110 | batch_count = tp->batch_max; | |
2111 | } | |
2112 | } | |
2113 | ||
2114 | /* Until we reach the batch_max limit, pick off addresses which have the | |
2115 | same characteristics. These are: | |
2116 | ||
2117 | same transport | |
7816e254 | 2118 | not previously delivered (see comment about 50 lines above) |
059ec3d9 PH |
2119 | same local part if the transport's configuration contains $local_part |
2120 | same domain if the transport's configuration contains $domain | |
2121 | same errors address | |
2122 | same additional headers | |
2123 | same headers to be removed | |
2124 | same uid/gid for running the transport | |
2125 | same first host if a host list is set | |
2126 | */ | |
2127 | ||
2128 | while ((next = *anchor) != NULL && batch_count < tp->batch_max) | |
2129 | { | |
2130 | BOOL ok = | |
2131 | tp == next->transport && | |
c2c19e9d | 2132 | !previously_transported(next, TRUE) && |
059ec3d9 PH |
2133 | (!uses_lp || Ustrcmp(next->local_part, addr->local_part) == 0) && |
2134 | (!uses_dom || Ustrcmp(next->domain, addr->domain) == 0) && | |
2135 | same_strings(next->p.errors_address, addr->p.errors_address) && | |
2136 | same_headers(next->p.extra_headers, addr->p.extra_headers) && | |
2137 | same_strings(next->p.remove_headers, addr->p.remove_headers) && | |
2138 | same_ugid(tp, addr, next) && | |
2139 | ((addr->host_list == NULL && next->host_list == NULL) || | |
2140 | (addr->host_list != NULL && next->host_list != NULL && | |
2141 | Ustrcmp(addr->host_list->name, next->host_list->name) == 0)); | |
2142 | ||
2143 | /* If the transport has a batch_id setting, batch_id will be non-NULL | |
2144 | from the expansion outside the loop. Expand for this address and compare. | |
2145 | Expansion failure makes this address ineligible for batching. */ | |
2146 | ||
2147 | if (ok && batch_id != NULL) | |
2148 | { | |
2149 | uschar *bid; | |
2150 | address_item *save_nextnext = next->next; | |
2151 | next->next = NULL; /* Expansion for a single address */ | |
2152 | deliver_set_expansions(next); | |
2153 | next->next = save_nextnext; | |
2154 | bid = expand_string(tp->batch_id); | |
2155 | deliver_set_expansions(NULL); | |
2156 | if (bid == NULL) | |
2157 | { | |
2158 | log_write(0, LOG_MAIN|LOG_PANIC, "Failed to expand batch_id option " | |
2159 | "in %s transport (%s): %s", tp->name, next->address, | |
2160 | expand_string_message); | |
2161 | ok = FALSE; | |
2162 | } | |
2163 | else ok = (Ustrcmp(batch_id, bid) == 0); | |
2164 | } | |
2165 | ||
2166 | /* Take address into batch if OK. */ | |
2167 | ||
2168 | if (ok) | |
2169 | { | |
2170 | *anchor = next->next; /* Include the address */ | |
2171 | next->next = NULL; | |
2172 | last->next = next; | |
2173 | last = next; | |
2174 | batch_count++; | |
2175 | } | |
2176 | else anchor = &(next->next); /* Skip the address */ | |
2177 | } | |
2178 | } | |
2179 | ||
2180 | /* We now have one or more addresses that can be delivered in a batch. Check | |
2181 | whether the transport is prepared to accept a message of this size. If not, | |
2182 | fail them all forthwith. If the expansion fails, or does not yield an | |
2183 | integer, defer delivery. */ | |
2184 | ||
2185 | if (tp->message_size_limit != NULL) | |
2186 | { | |
2187 | int rc = check_message_size(tp, addr); | |
2188 | if (rc != OK) | |
2189 | { | |
2190 | replicate_status(addr); | |
2191 | while (addr != NULL) | |
2192 | { | |
2193 | addr2 = addr->next; | |
2194 | post_process_one(addr, rc, logflags, DTYPE_TRANSPORT, 0); | |
2195 | addr = addr2; | |
2196 | } | |
2197 | continue; /* With next batch of addresses */ | |
2198 | } | |
2199 | } | |
2200 | ||
2201 | /* If we are not running the queue, or if forcing, all deliveries will be | |
2202 | attempted. Otherwise, we must respect the retry times for each address. Even | |
2203 | when not doing this, we need to set up the retry key string, and determine | |
2204 | whether a retry record exists, because after a successful delivery, a delete | |
2205 | retry item must be set up. Keep the retry database open only for the duration | |
2206 | of these checks, rather than for all local deliveries, because some local | |
2207 | deliveries (e.g. to pipes) can take a substantial time. */ | |
2208 | ||
2209 | dbm_file = dbfn_open(US"retry", O_RDONLY, &dbblock, FALSE); | |
2210 | if (dbm_file == NULL) | |
2211 | { | |
2212 | DEBUG(D_deliver|D_retry|D_hints_lookup) | |
2213 | debug_printf("no retry data available\n"); | |
2214 | } | |
2215 | ||
2216 | addr2 = addr; | |
2217 | addr3 = NULL; | |
2218 | while (addr2 != NULL) | |
2219 | { | |
2220 | BOOL ok = TRUE; /* to deliver this address */ | |
2221 | uschar *retry_key; | |
2222 | ||
2223 | /* Set up the retry key to include the domain or not, and change its | |
2224 | leading character from "R" to "T". Must make a copy before doing this, | |
2225 | because the old key may be pointed to from a "delete" retry item after | |
2226 | a routing delay. */ | |
2227 | ||
2228 | retry_key = string_copy( | |
2229 | (tp->retry_use_local_part)? addr2->address_retry_key : | |
2230 | addr2->domain_retry_key); | |
2231 | *retry_key = 'T'; | |
2232 | ||
2233 | /* Inspect the retry data. If there is no hints file, delivery happens. */ | |
2234 | ||
2235 | if (dbm_file != NULL) | |
2236 | { | |
2237 | dbdata_retry *retry_record = dbfn_read(dbm_file, retry_key); | |
2238 | ||
2239 | /* If there is no retry record, delivery happens. If there is, | |
2240 | remember it exists so it can be deleted after a successful delivery. */ | |
2241 | ||
2242 | if (retry_record != NULL) | |
2243 | { | |
2244 | setflag(addr2, af_lt_retry_exists); | |
2245 | ||
2246 | /* A retry record exists for this address. If queue running and not | |
2247 | forcing, inspect its contents. If the record is too old, or if its | |
2248 | retry time has come, or if it has passed its cutoff time, delivery | |
2249 | will go ahead. */ | |
2250 | ||
2251 | DEBUG(D_retry) | |
2252 | { | |
2253 | debug_printf("retry record exists: age=%d (max=%d)\n", | |
2254 | (int)(now - retry_record->time_stamp), retry_data_expire); | |
2255 | debug_printf(" time to retry = %d expired = %d\n", | |
2256 | (int)(now - retry_record->next_try), retry_record->expired); | |
2257 | } | |
2258 | ||
2259 | if (queue_running && !deliver_force) | |
2260 | { | |
2261 | ok = (now - retry_record->time_stamp > retry_data_expire) || | |
2262 | (now >= retry_record->next_try) || | |
2263 | retry_record->expired; | |
2264 | ||
2265 | /* If we haven't reached the retry time, there is one more check | |
2266 | to do, which is for the ultimate address timeout. */ | |
2267 | ||
2268 | if (!ok) | |
2269 | { | |
2270 | retry_config *retry = | |
2271 | retry_find_config(retry_key+2, addr2->domain, | |
2272 | retry_record->basic_errno, | |
2273 | retry_record->more_errno); | |
2274 | ||
2275 | DEBUG(D_deliver|D_retry) | |
2276 | debug_printf("retry time not reached for %s: " | |
2277 | "checking ultimate address timeout\n", addr2->address); | |
2278 | ||
2279 | if (retry != NULL && retry->rules != NULL) | |
2280 | { | |
2281 | retry_rule *last_rule; | |
2282 | for (last_rule = retry->rules; | |
2283 | last_rule->next != NULL; | |
2284 | last_rule = last_rule->next); | |
2285 | if (now - received_time > last_rule->timeout) ok = TRUE; | |
2286 | } | |
2287 | else ok = TRUE; /* No rule => timed out */ | |
2288 | ||
2289 | DEBUG(D_deliver|D_retry) | |
2290 | { | |
2291 | if (ok) debug_printf("on queue longer than maximum retry for " | |
2292 | "address - allowing delivery\n"); | |
2293 | } | |
2294 | } | |
2295 | } | |
2296 | } | |
2297 | else DEBUG(D_retry) debug_printf("no retry record exists\n"); | |
2298 | } | |
2299 | ||
2300 | /* This address is to be delivered. Leave it on the chain. */ | |
2301 | ||
2302 | if (ok) | |
2303 | { | |
2304 | addr3 = addr2; | |
2305 | addr2 = addr2->next; | |
2306 | } | |
2307 | ||
2308 | /* This address is to be deferred. Take it out of the chain, and | |
2309 | post-process it as complete. Must take it out of the chain first, | |
2310 | because post processing puts it on another chain. */ | |
2311 | ||
2312 | else | |
2313 | { | |
2314 | address_item *this = addr2; | |
2315 | this->message = US"Retry time not yet reached"; | |
2316 | this->basic_errno = ERRNO_LRETRY; | |
2317 | if (addr3 == NULL) addr2 = addr = addr2->next; | |
2318 | else addr2 = addr3->next = addr2->next; | |
2319 | post_process_one(this, DEFER, logflags, DTYPE_TRANSPORT, 0); | |
2320 | } | |
2321 | } | |
2322 | ||
2323 | if (dbm_file != NULL) dbfn_close(dbm_file); | |
2324 | ||
2325 | /* If there are no addresses left on the chain, they all deferred. Loop | |
2326 | for the next set of addresses. */ | |
2327 | ||
2328 | if (addr == NULL) continue; | |
2329 | ||
2330 | /* So, finally, we do have some addresses that can be passed to the | |
2331 | transport. Before doing so, set up variables that are relevant to a | |
2332 | single delivery. */ | |
2333 | ||
2334 | deliver_set_expansions(addr); | |
2335 | delivery_start = time(NULL); | |
2336 | deliver_local(addr, FALSE); | |
2337 | deliver_time = (int)(time(NULL) - delivery_start); | |
2338 | ||
2339 | /* If a shadow transport (which must perforce be another local transport), is | |
2340 | defined, and its condition is met, we must pass the message to the shadow | |
2341 | too, but only those addresses that succeeded. We do this by making a new | |
2342 | chain of addresses - also to keep the original chain uncontaminated. We must | |
2343 | use a chain rather than doing it one by one, because the shadow transport may | |
2344 | batch. | |
2345 | ||
2346 | NOTE: if the condition fails because of a lookup defer, there is nothing we | |
2347 | can do! */ | |
2348 | ||
2349 | if (tp->shadow != NULL && | |
2350 | (tp->shadow_condition == NULL || | |
2351 | expand_check_condition(tp->shadow_condition, tp->name, US"transport"))) | |
2352 | { | |
2353 | transport_instance *stp; | |
2354 | address_item *shadow_addr = NULL; | |
2355 | address_item **last = &shadow_addr; | |
2356 | ||
2357 | for (stp = transports; stp != NULL; stp = stp->next) | |
2358 | if (Ustrcmp(stp->name, tp->shadow) == 0) break; | |
2359 | ||
2360 | if (stp == NULL) | |
2361 | log_write(0, LOG_MAIN|LOG_PANIC, "shadow transport \"%s\" not found ", | |
2362 | tp->shadow); | |
2363 | ||
2364 | /* Pick off the addresses that have succeeded, and make clones. Put into | |
2365 | the shadow_message field a pointer to the shadow_message field of the real | |
2366 | address. */ | |
2367 | ||
2368 | else for (addr2 = addr; addr2 != NULL; addr2 = addr2->next) | |
2369 | { | |
2370 | if (addr2->transport_return != OK) continue; | |
2371 | addr3 = store_get(sizeof(address_item)); | |
2372 | *addr3 = *addr2; | |
2373 | addr3->next = NULL; | |
2374 | addr3->shadow_message = (uschar *)(&(addr2->shadow_message)); | |
2375 | addr3->transport = stp; | |
2376 | addr3->transport_return = DEFER; | |
2377 | addr3->return_filename = NULL; | |
2378 | addr3->return_file = -1; | |
2379 | *last = addr3; | |
2380 | last = &(addr3->next); | |
2381 | } | |
2382 | ||
2383 | /* If we found any addresses to shadow, run the delivery, and stick any | |
2384 | message back into the shadow_message field in the original. */ | |
2385 | ||
2386 | if (shadow_addr != NULL) | |
2387 | { | |
2388 | int save_count = transport_count; | |
2389 | ||
2390 | DEBUG(D_deliver|D_transport) | |
2391 | debug_printf(">>>>>>>>>>>>>>>> Shadow delivery >>>>>>>>>>>>>>>>\n"); | |
2392 | deliver_local(shadow_addr, TRUE); | |
2393 | ||
2394 | for(; shadow_addr != NULL; shadow_addr = shadow_addr->next) | |
2395 | { | |
2396 | int sresult = shadow_addr->transport_return; | |
2397 | *((uschar **)(shadow_addr->shadow_message)) = (sresult == OK)? | |
2398 | string_sprintf(" ST=%s", stp->name) : | |
2399 | string_sprintf(" ST=%s (%s%s%s)", stp->name, | |
2400 | (shadow_addr->basic_errno <= 0)? | |
2401 | US"" : US strerror(shadow_addr->basic_errno), | |
2402 | (shadow_addr->basic_errno <= 0 || shadow_addr->message == NULL)? | |
2403 | US"" : US": ", | |
2404 | (shadow_addr->message != NULL)? shadow_addr->message : | |
2405 | (shadow_addr->basic_errno <= 0)? US"unknown error" : US""); | |
2406 | ||
2407 | DEBUG(D_deliver|D_transport) | |
2408 | debug_printf("%s shadow transport returned %s for %s\n", | |
2409 | stp->name, | |
2410 | (sresult == OK)? "OK" : | |
2411 | (sresult == DEFER)? "DEFER" : | |
2412 | (sresult == FAIL)? "FAIL" : | |
2413 | (sresult == PANIC)? "PANIC" : "?", | |
2414 | shadow_addr->address); | |
2415 | } | |
2416 | ||
2417 | DEBUG(D_deliver|D_transport) | |
2418 | debug_printf(">>>>>>>>>>>>>>>> End shadow delivery >>>>>>>>>>>>>>>>\n"); | |
2419 | ||
2420 | transport_count = save_count; /* Restore original transport count */ | |
2421 | } | |
2422 | } | |
2423 | ||
2424 | /* Cancel the expansions that were set up for the delivery. */ | |
2425 | ||
2426 | deliver_set_expansions(NULL); | |
2427 | ||
2428 | /* Now we can process the results of the real transport. We must take each | |
2429 | address off the chain first, because post_process_one() puts it on another | |
2430 | chain. */ | |
2431 | ||
2432 | for (addr2 = addr; addr2 != NULL; addr2 = nextaddr) | |
2433 | { | |
2434 | int result = addr2->transport_return; | |
2435 | nextaddr = addr2->next; | |
2436 | ||
2437 | DEBUG(D_deliver|D_transport) | |
2438 | debug_printf("%s transport returned %s for %s\n", | |
2439 | tp->name, | |
2440 | (result == OK)? "OK" : | |
2441 | (result == DEFER)? "DEFER" : | |
2442 | (result == FAIL)? "FAIL" : | |
2443 | (result == PANIC)? "PANIC" : "?", | |
2444 | addr2->address); | |
2445 | ||
2446 | /* If there is a retry_record, or if delivery is deferred, build a retry | |
2447 | item for setting a new retry time or deleting the old retry record from | |
2448 | the database. These items are handled all together after all addresses | |
2449 | have been handled (so the database is open just for a short time for | |
2450 | updating). */ | |
2451 | ||
2452 | if (result == DEFER || testflag(addr2, af_lt_retry_exists)) | |
2453 | { | |
2454 | int flags = (result == DEFER)? 0 : rf_delete; | |
2455 | uschar *retry_key = string_copy((tp->retry_use_local_part)? | |
2456 | addr2->address_retry_key : addr2->domain_retry_key); | |
2457 | *retry_key = 'T'; | |
2458 | retry_add_item(addr2, retry_key, flags); | |
2459 | } | |
2460 | ||
2461 | /* Done with this address */ | |
2462 | ||
2463 | if (result == OK) addr2->more_errno = deliver_time; | |
2464 | post_process_one(addr2, result, logflags, DTYPE_TRANSPORT, logchar); | |
2465 | ||
2466 | /* If a pipe delivery generated text to be sent back, the result may be | |
2467 | changed to FAIL, and we must copy this for subsequent addresses in the | |
2468 | batch. */ | |
2469 | ||
2470 | if (addr2->transport_return != result) | |
2471 | { | |
2472 | for (addr3 = nextaddr; addr3 != NULL; addr3 = addr3->next) | |
2473 | { | |
2474 | addr3->transport_return = addr2->transport_return; | |
2475 | addr3->basic_errno = addr2->basic_errno; | |
2476 | addr3->message = addr2->message; | |
2477 | } | |
2478 | result = addr2->transport_return; | |
2479 | } | |
2480 | ||
2481 | /* Whether or not the result was changed to FAIL, we need to copy the | |
2482 | return_file value from the first address into all the addresses of the | |
2483 | batch, so they are all listed in the error message. */ | |
2484 | ||
2485 | addr2->return_file = addr->return_file; | |
2486 | ||
2487 | /* Change log character for recording successful deliveries. */ | |
2488 | ||
2489 | if (result == OK) logchar = '-'; | |
2490 | } | |
2491 | } /* Loop back for next batch of addresses */ | |
2492 | } | |
2493 | ||
2494 | ||
2495 | ||
2496 | ||
2497 | /************************************************* | |
2498 | * Sort remote deliveries * | |
2499 | *************************************************/ | |
2500 | ||
2501 | /* This function is called if remote_sort_domains is set. It arranges that the | |
2502 | chain of addresses for remote deliveries is ordered according to the strings | |
2503 | specified. Try to make this shuffling reasonably efficient by handling | |
2504 | sequences of addresses rather than just single ones. | |
2505 | ||
2506 | Arguments: None | |
2507 | Returns: Nothing | |
2508 | */ | |
2509 | ||
2510 | static void | |
2511 | sort_remote_deliveries(void) | |
2512 | { | |
2513 | int sep = 0; | |
2514 | address_item **aptr = &addr_remote; | |
2515 | uschar *listptr = remote_sort_domains; | |
2516 | uschar *pattern; | |
2517 | uschar patbuf[256]; | |
2518 | ||
2519 | while (*aptr != NULL && | |
2520 | (pattern = string_nextinlist(&listptr, &sep, patbuf, sizeof(patbuf))) | |
2521 | != NULL) | |
2522 | { | |
2523 | address_item *moved = NULL; | |
2524 | address_item **bptr = &moved; | |
2525 | ||
2526 | while (*aptr != NULL) | |
2527 | { | |
2528 | address_item **next; | |
2529 | deliver_domain = (*aptr)->domain; /* set $domain */ | |
2530 | if (match_isinlist(deliver_domain, &pattern, UCHAR_MAX+1, | |
2531 | &domainlist_anchor, NULL, MCL_DOMAIN, TRUE, NULL) == OK) | |
2532 | { | |
2533 | aptr = &((*aptr)->next); | |
2534 | continue; | |
2535 | } | |
2536 | ||
2537 | next = &((*aptr)->next); | |
2538 | while (*next != NULL && | |
2539 | (deliver_domain = (*next)->domain, /* Set $domain */ | |
2540 | match_isinlist(deliver_domain, &pattern, UCHAR_MAX+1, | |
2541 | &domainlist_anchor, NULL, MCL_DOMAIN, TRUE, NULL)) != OK) | |
2542 | next = &((*next)->next); | |
2543 | ||
2544 | /* If the batch of non-matchers is at the end, add on any that were | |
2545 | extracted further up the chain, and end this iteration. Otherwise, | |
2546 | extract them from the chain and hang on the moved chain. */ | |
2547 | ||
2548 | if (*next == NULL) | |
2549 | { | |
2550 | *next = moved; | |
2551 | break; | |
2552 | } | |
2553 | ||
2554 | *bptr = *aptr; | |
2555 | *aptr = *next; | |
2556 | *next = NULL; | |
2557 | bptr = next; | |
2558 | aptr = &((*aptr)->next); | |
2559 | } | |
2560 | ||
2561 | /* If the loop ended because the final address matched, *aptr will | |
2562 | be NULL. Add on to the end any extracted non-matching addresses. If | |
2563 | *aptr is not NULL, the loop ended via "break" when *next is null, that | |
2564 | is, there was a string of non-matching addresses at the end. In this | |
2565 | case the extracted addresses have already been added on the end. */ | |
2566 | ||
2567 | if (*aptr == NULL) *aptr = moved; | |
2568 | } | |
2569 | ||
2570 | DEBUG(D_deliver) | |
2571 | { | |
2572 | address_item *addr; | |
2573 | debug_printf("remote addresses after sorting:\n"); | |
2574 | for (addr = addr_remote; addr != NULL; addr = addr->next) | |
2575 | debug_printf(" %s\n", addr->address); | |
2576 | } | |
2577 | } | |
2578 | ||
2579 | ||
2580 | ||
2581 | /************************************************* | |
2582 | * Read from pipe for remote delivery subprocess * | |
2583 | *************************************************/ | |
2584 | ||
2585 | /* This function is called when the subprocess is complete, but can also be | |
2586 | called before it is complete, in order to empty a pipe that is full (to prevent | |
2587 | deadlock). It must therefore keep track of its progress in the parlist data | |
2588 | block. | |
2589 | ||
2590 | We read the pipe to get the delivery status codes and a possible error message | |
2591 | for each address, optionally preceded by unusability data for the hosts and | |
2592 | also by optional retry data. | |
2593 | ||
2594 | Read in large chunks into the big buffer and then scan through, interpreting | |
2595 | the data therein. In most cases, only a single read will be necessary. No | |
1c5466b9 PH |
2596 | individual item will ever be anywhere near 2500 bytes in length, so by ensuring |
2597 | that we read the next chunk when there is less than 2500 bytes left in the | |
2598 | non-final chunk, we can assume each item is complete in the buffer before | |
2599 | handling it. Each item is written using a single write(), which is atomic for | |
2600 | small items (less than PIPE_BUF, which seems to be at least 512 in any Unix and | |
2601 | often bigger) so even if we are reading while the subprocess is still going, we | |
2602 | should never have only a partial item in the buffer. | |
059ec3d9 PH |
2603 | |
2604 | Argument: | |
2605 | poffset the offset of the parlist item | |
2606 | eop TRUE if the process has completed | |
2607 | ||
2608 | Returns: TRUE if the terminating 'Z' item has been read, | |
2609 | or there has been a disaster (i.e. no more data needed); | |
2610 | FALSE otherwise | |
2611 | */ | |
2612 | ||
2613 | static BOOL | |
2614 | par_read_pipe(int poffset, BOOL eop) | |
2615 | { | |
2616 | host_item *h; | |
2617 | pardata *p = parlist + poffset; | |
2618 | address_item *addrlist = p->addrlist; | |
2619 | address_item *addr = p->addr; | |
2620 | pid_t pid = p->pid; | |
2621 | int fd = p->fd; | |
2622 | uschar *endptr = big_buffer; | |
2623 | uschar *ptr = endptr; | |
2624 | uschar *msg = p->msg; | |
2625 | BOOL done = p->done; | |
2626 | BOOL unfinished = TRUE; | |
2627 | ||
2628 | /* Loop through all items, reading from the pipe when necessary. The pipe | |
2629 | is set up to be non-blocking, but there are two different Unix mechanisms in | |
2630 | use. Exim uses O_NONBLOCK if it is defined. This returns 0 for end of file, | |
2631 | and EAGAIN for no more data. If O_NONBLOCK is not defined, Exim uses O_NDELAY, | |
2632 | which returns 0 for both end of file and no more data. We distinguish the | |
2633 | two cases by taking 0 as end of file only when we know the process has | |
2634 | completed. | |
2635 | ||
2636 | Each separate item is written to the pipe in a single write(), and as they are | |
2637 | all short items, the writes will all be atomic and we should never find | |
8e669ac1 PH |
2638 | ourselves in the position of having read an incomplete item. "Short" in this |
2639 | case can mean up to about 1K in the case when there is a long error message | |
1c5466b9 | 2640 | associated with an address. */ |
059ec3d9 PH |
2641 | |
2642 | DEBUG(D_deliver) debug_printf("reading pipe for subprocess %d (%s)\n", | |
2643 | (int)p->pid, eop? "ended" : "not ended"); | |
2644 | ||
2645 | while (!done) | |
2646 | { | |
2647 | retry_item *r, **rp; | |
2648 | int remaining = endptr - ptr; | |
2649 | ||
2650 | /* Read (first time) or top up the chars in the buffer if necessary. | |
2651 | There will be only one read if we get all the available data (i.e. don't | |
2652 | fill the buffer completely). */ | |
2653 | ||
1c5466b9 | 2654 | if (remaining < 2500 && unfinished) |
059ec3d9 PH |
2655 | { |
2656 | int len; | |
2657 | int available = big_buffer_size - remaining; | |
2658 | ||
2659 | if (remaining > 0) memmove(big_buffer, ptr, remaining); | |
2660 | ||
2661 | ptr = big_buffer; | |
2662 | endptr = big_buffer + remaining; | |
2663 | len = read(fd, endptr, available); | |
2664 | ||
2665 | DEBUG(D_deliver) debug_printf("read() yielded %d\n", len); | |
2666 | ||
2667 | /* If the result is EAGAIN and the process is not complete, just | |
2668 | stop reading any more and process what we have already. */ | |
2669 | ||
2670 | if (len < 0) | |
2671 | { | |
2672 | if (!eop && errno == EAGAIN) len = 0; else | |
2673 | { | |
2674 | msg = string_sprintf("failed to read pipe from transport process " | |
2675 | "%d for transport %s: %s", pid, addr->transport->driver_name, | |
2676 | strerror(errno)); | |
2677 | break; | |
2678 | } | |
2679 | } | |
2680 | ||
2681 | /* If the length is zero (eof or no-more-data), just process what we | |
2682 | already have. Note that if the process is still running and we have | |
2683 | read all the data in the pipe (but less that "available") then we | |
2684 | won't read any more, as "unfinished" will get set FALSE. */ | |
2685 | ||
2686 | endptr += len; | |
2687 | unfinished = len == available; | |
2688 | } | |
2689 | ||
2690 | /* If we are at the end of the available data, exit the loop. */ | |
2691 | ||
2692 | if (ptr >= endptr) break; | |
2693 | ||
2694 | /* Handle each possible type of item, assuming the complete item is | |
2695 | available in store. */ | |
2696 | ||
2697 | switch (*ptr++) | |
2698 | { | |
2699 | /* Host items exist only if any hosts were marked unusable. Match | |
2700 | up by checking the IP address. */ | |
2701 | ||
2702 | case 'H': | |
2703 | for (h = addrlist->host_list; h != NULL; h = h->next) | |
2704 | { | |
2705 | if (h->address == NULL || Ustrcmp(h->address, ptr+2) != 0) continue; | |
2706 | h->status = ptr[0]; | |
2707 | h->why = ptr[1]; | |
2708 | } | |
2709 | ptr += 2; | |
2710 | while (*ptr++); | |
2711 | break; | |
2712 | ||
2713 | /* Retry items are sent in a preceding R item for each address. This is | |
2714 | kept separate to keep each message short enough to guarantee it won't | |
2715 | be split in the pipe. Hopefully, in the majority of cases, there won't in | |
2716 | fact be any retry items at all. | |
2717 | ||
2718 | The complete set of retry items might include an item to delete a | |
2719 | routing retry if there was a previous routing delay. However, routing | |
2720 | retries are also used when a remote transport identifies an address error. | |
2721 | In that case, there may also be an "add" item for the same key. Arrange | |
2722 | that a "delete" item is dropped in favour of an "add" item. */ | |
2723 | ||
2724 | case 'R': | |
2725 | if (addr == NULL) goto ADDR_MISMATCH; | |
2726 | ||
2727 | DEBUG(D_deliver|D_retry) | |
2728 | debug_printf("reading retry information for %s from subprocess\n", | |
2729 | ptr+1); | |
2730 | ||
2731 | /* Cut out any "delete" items on the list. */ | |
2732 | ||
2733 | for (rp = &(addr->retries); (r = *rp) != NULL; rp = &(r->next)) | |
2734 | { | |
2735 | if (Ustrcmp(r->key, ptr+1) == 0) /* Found item with same key */ | |
2736 | { | |
2737 | if ((r->flags & rf_delete) == 0) break; /* It was not "delete" */ | |
2738 | *rp = r->next; /* Excise a delete item */ | |
2739 | DEBUG(D_deliver|D_retry) | |
2740 | debug_printf(" existing delete item dropped\n"); | |
2741 | } | |
2742 | } | |
2743 | ||
2744 | /* We want to add a delete item only if there is no non-delete item; | |
2745 | however we still have to step ptr through the data. */ | |
2746 | ||
2747 | if (r == NULL || (*ptr & rf_delete) == 0) | |
2748 | { | |
2749 | r = store_get(sizeof(retry_item)); | |
2750 | r->next = addr->retries; | |
2751 | addr->retries = r; | |
2752 | r->flags = *ptr++; | |
2753 | r->key = string_copy(ptr); | |
2754 | while (*ptr++); | |
2755 | memcpy(&(r->basic_errno), ptr, sizeof(r->basic_errno)); | |
2756 | ptr += sizeof(r->basic_errno); | |
2757 | memcpy(&(r->more_errno), ptr, sizeof(r->more_errno)); | |
2758 | ptr += sizeof(r->more_errno); | |
2759 | r->message = (*ptr)? string_copy(ptr) : NULL; | |
2760 | DEBUG(D_deliver|D_retry) | |
2761 | debug_printf(" added %s item\n", | |
2762 | ((r->flags & rf_delete) == 0)? "retry" : "delete"); | |
2763 | } | |
2764 | ||
2765 | else | |
2766 | { | |
2767 | DEBUG(D_deliver|D_retry) | |
2768 | debug_printf(" delete item not added: non-delete item exists\n"); | |
2769 | ptr++; | |
2770 | while(*ptr++); | |
2771 | ptr += sizeof(r->basic_errno) + sizeof(r->more_errno); | |
2772 | } | |
2773 | ||
2774 | while(*ptr++); | |
2775 | break; | |
2776 | ||
2777 | /* Put the amount of data written into the parlist block */ | |
2778 | ||
2779 | case 'S': | |
2780 | memcpy(&(p->transport_count), ptr, sizeof(transport_count)); | |
2781 | ptr += sizeof(transport_count); | |
2782 | break; | |
2783 | ||
2784 | /* Address items are in the order of items on the address chain. We | |
2785 | remember the current address value in case this function is called | |
2786 | several times to empty the pipe in stages. Information about delivery | |
2787 | over TLS is sent in a preceding X item for each address. We don't put | |
2788 | it in with the other info, in order to keep each message short enough to | |
2789 | guarantee it won't be split in the pipe. */ | |
2790 | ||
2791 | #ifdef SUPPORT_TLS | |
2792 | case 'X': | |
2793 | if (addr == NULL) goto ADDR_MISMATCH; /* Below, in 'A' handler */ | |
2794 | addr->cipher = (*ptr)? string_copy(ptr) : NULL; | |
2795 | while (*ptr++); | |
2796 | addr->peerdn = (*ptr)? string_copy(ptr) : NULL; | |
2797 | while (*ptr++); | |
2798 | break; | |
2799 | #endif | |
2800 | ||
2801 | case 'A': | |
2802 | if (addr == NULL) | |
2803 | { | |
2804 | ADDR_MISMATCH: | |
2805 | msg = string_sprintf("address count mismatch for data read from pipe " | |
2806 | "for transport process %d for transport %s", pid, | |
2807 | addrlist->transport->driver_name); | |
2808 | done = TRUE; | |
2809 | break; | |
2810 | } | |
2811 | ||
2812 | addr->transport_return = *ptr++; | |
2813 | addr->special_action = *ptr++; | |
2814 | memcpy(&(addr->basic_errno), ptr, sizeof(addr->basic_errno)); | |
2815 | ptr += sizeof(addr->basic_errno); | |
2816 | memcpy(&(addr->more_errno), ptr, sizeof(addr->more_errno)); | |
2817 | ptr += sizeof(addr->more_errno); | |
2818 | memcpy(&(addr->flags), ptr, sizeof(addr->flags)); | |
2819 | ptr += sizeof(addr->flags); | |
2820 | addr->message = (*ptr)? string_copy(ptr) : NULL; | |
2821 | while(*ptr++); | |
2822 | addr->user_message = (*ptr)? string_copy(ptr) : NULL; | |
2823 | while(*ptr++); | |
2824 | ||
2825 | /* Always two strings for host information, followed by the port number */ | |
2826 | ||
2827 | if (*ptr != 0) | |
2828 | { | |
2829 | h = store_get(sizeof(host_item)); | |
2830 | h->name = string_copy(ptr); | |
2831 | while (*ptr++); | |
2832 | h->address = string_copy(ptr); | |
2833 | while(*ptr++); | |
2834 | memcpy(&(h->port), ptr, sizeof(h->port)); | |
2835 | ptr += sizeof(h->port); | |
2836 | addr->host_used = h; | |
2837 | } | |
2838 | else ptr++; | |
2839 | ||
2840 | /* Finished with this address */ | |
2841 | ||
2842 | addr = addr->next; | |
2843 | break; | |
2844 | ||
2845 | /* Z marks the logical end of the data. It is followed by '0' if | |
2846 | continue_transport was NULL at the end of transporting, otherwise '1'. | |
2847 | We need to know when it becomes NULL during a delivery down a passed SMTP | |
2848 | channel so that we don't try to pass anything more down it. Of course, for | |
2849 | most normal messages it will remain NULL all the time. */ | |
2850 | ||
2851 | case 'Z': | |
2852 | if (*ptr == '0') | |
2853 | { | |
2854 | continue_transport = NULL; | |
2855 | continue_hostname = NULL; | |
2856 | } | |
2857 | done = TRUE; | |
2858 | DEBUG(D_deliver) debug_printf("Z%c item read\n", *ptr); | |
2859 | break; | |
2860 | ||
2861 | /* Anything else is a disaster. */ | |
2862 | ||
2863 | default: | |
2864 | msg = string_sprintf("malformed data (%d) read from pipe for transport " | |
2865 | "process %d for transport %s", ptr[-1], pid, | |
2866 | addr->transport->driver_name); | |
2867 | done = TRUE; | |
2868 | break; | |
2869 | } | |
2870 | } | |
2871 | ||
2872 | /* The done flag is inspected externally, to determine whether or not to | |
2873 | call the function again when the process finishes. */ | |
2874 | ||
2875 | p->done = done; | |
2876 | ||
2877 | /* If the process hadn't finished, and we haven't seen the end of the data | |
2878 | or suffered a disaster, update the rest of the state, and return FALSE to | |
2879 | indicate "not finished". */ | |
2880 | ||
2881 | if (!eop && !done) | |
2882 | { | |
2883 | p->addr = addr; | |
2884 | p->msg = msg; | |
2885 | return FALSE; | |
2886 | } | |
2887 | ||
2888 | /* Close our end of the pipe, to prevent deadlock if the far end is still | |
2889 | pushing stuff into it. */ | |
2890 | ||
f1e894f3 | 2891 | (void)close(fd); |
059ec3d9 PH |
2892 | p->fd = -1; |
2893 | ||
2894 | /* If we have finished without error, but haven't had data for every address, | |
2895 | something is wrong. */ | |
2896 | ||
2897 | if (msg == NULL && addr != NULL) | |
2898 | msg = string_sprintf("insufficient address data read from pipe " | |
2899 | "for transport process %d for transport %s", pid, | |
2900 | addr->transport->driver_name); | |
2901 | ||
2902 | /* If an error message is set, something has gone wrong in getting back | |
2903 | the delivery data. Put the message into each address and freeze it. */ | |
2904 | ||
2905 | if (msg != NULL) | |
2906 | { | |
2907 | for (addr = addrlist; addr != NULL; addr = addr->next) | |
2908 | { | |
2909 | addr->transport_return = DEFER; | |
2910 | addr->special_action = SPECIAL_FREEZE; | |
2911 | addr->message = msg; | |
2912 | } | |
2913 | } | |
2914 | ||
2915 | /* Return TRUE to indicate we have got all we need from this process, even | |
2916 | if it hasn't actually finished yet. */ | |
2917 | ||
2918 | return TRUE; | |
2919 | } | |
2920 | ||
2921 | ||
2922 | ||
2923 | /************************************************* | |
2924 | * Post-process a set of remote addresses * | |
2925 | *************************************************/ | |
2926 | ||
2927 | /* Do what has to be done immediately after a remote delivery for each set of | |
2928 | addresses, then re-write the spool if necessary. Note that post_process_one | |
2929 | puts the address on an appropriate queue; hence we must fish off the next | |
2930 | one first. This function is also called if there is a problem with setting | |
2931 | up a subprocess to do a remote delivery in parallel. In this case, the final | |
2932 | argument contains a message, and the action must be forced to DEFER. | |
2933 | ||
2934 | Argument: | |
2935 | addr pointer to chain of address items | |
2936 | logflags flags for logging | |
2937 | msg NULL for normal cases; -> error message for unexpected problems | |
2938 | fallback TRUE if processing fallback hosts | |
2939 | ||
2940 | Returns: nothing | |
2941 | */ | |
2942 | ||
2943 | static void | |
2944 | remote_post_process(address_item *addr, int logflags, uschar *msg, | |
2945 | BOOL fallback) | |
2946 | { | |
2947 | host_item *h; | |
2948 | ||
2949 | /* If any host addresses were found to be unusable, add them to the unusable | |
2950 | tree so that subsequent deliveries don't try them. */ | |
2951 | ||
2952 | for (h = addr->host_list; h != NULL; h = h->next) | |
2953 | { | |
2954 | if (h->address == NULL) continue; | |
2955 | if (h->status >= hstatus_unusable) tree_add_unusable(h); | |
2956 | } | |
2957 | ||
2958 | /* Now handle each address on the chain. The transport has placed '=' or '-' | |
2959 | into the special_action field for each successful delivery. */ | |
2960 | ||
2961 | while (addr != NULL) | |
2962 | { | |
2963 | address_item *next = addr->next; | |
2964 | ||
2965 | /* If msg == NULL (normal processing) and the result is DEFER and we are | |
2966 | processing the main hosts and there are fallback hosts available, put the | |
2967 | address on the list for fallback delivery. */ | |
2968 | ||
2969 | if (addr->transport_return == DEFER && | |
2970 | addr->fallback_hosts != NULL && | |
2971 | !fallback && | |
2972 | msg == NULL) | |
2973 | { | |
2974 | addr->host_list = addr->fallback_hosts; | |
2975 | addr->next = addr_fallback; | |
2976 | addr_fallback = addr; | |
2977 | DEBUG(D_deliver) debug_printf("%s queued for fallback host(s)\n", addr->address); | |
2978 | } | |
2979 | ||
2980 | /* If msg is set (=> unexpected problem), set it in the address before | |
2981 | doing the ordinary post processing. */ | |
2982 | ||
2983 | else | |
2984 | { | |
2985 | if (msg != NULL) | |
2986 | { | |
2987 | addr->message = msg; | |
2988 | addr->transport_return = DEFER; | |
2989 | } | |
2990 | (void)post_process_one(addr, addr->transport_return, logflags, | |
2991 | DTYPE_TRANSPORT, addr->special_action); | |
2992 | } | |
2993 | ||
2994 | /* Next address */ | |
2995 | ||
2996 | addr = next; | |
2997 | } | |
2998 | ||
2999 | /* If we have just delivered down a passed SMTP channel, and that was | |
3000 | the last address, the channel will have been closed down. Now that | |
3001 | we have logged that delivery, set continue_sequence to 1 so that | |
3002 | any subsequent deliveries don't get "*" incorrectly logged. */ | |
3003 | ||
3004 | if (continue_transport == NULL) continue_sequence = 1; | |
3005 | } | |
3006 | ||
3007 | ||
3008 | ||
3009 | /************************************************* | |
3010 | * Wait for one remote delivery subprocess * | |
3011 | *************************************************/ | |
3012 | ||
3013 | /* This function is called while doing remote deliveries when either the | |
3014 | maximum number of processes exist and we need one to complete so that another | |
3015 | can be created, or when waiting for the last ones to complete. It must wait for | |
3016 | the completion of one subprocess, empty the control block slot, and return a | |
3017 | pointer to the address chain. | |
3018 | ||
3019 | Arguments: none | |
3020 | Returns: pointer to the chain of addresses handled by the process; | |
3021 | NULL if no subprocess found - this is an unexpected error | |
3022 | */ | |
3023 | ||
3024 | static address_item * | |
3025 | par_wait(void) | |
3026 | { | |
3027 | int poffset, status; | |
3028 | address_item *addr, *addrlist; | |
3029 | pid_t pid; | |
3030 | ||
3031 | set_process_info("delivering %s: waiting for a remote delivery subprocess " | |
3032 | "to finish", message_id); | |
3033 | ||
3034 | /* Loop until either a subprocess completes, or there are no subprocesses in | |
3035 | existence - in which case give an error return. We cannot proceed just by | |
3036 | waiting for a completion, because a subprocess may have filled up its pipe, and | |
3037 | be waiting for it to be emptied. Therefore, if no processes have finished, we | |
3038 | wait for one of the pipes to acquire some data by calling select(), with a | |
3039 | timeout just in case. | |
3040 | ||
3041 | The simple approach is just to iterate after reading data from a ready pipe. | |
3042 | This leads to non-ideal behaviour when the subprocess has written its final Z | |
3043 | item, closed the pipe, and is in the process of exiting (the common case). A | |
3044 | call to waitpid() yields nothing completed, but select() shows the pipe ready - | |
3045 | reading it yields EOF, so you end up with busy-waiting until the subprocess has | |
3046 | actually finished. | |
3047 | ||
3048 | To avoid this, if all the data that is needed has been read from a subprocess | |
3049 | after select(), an explicit wait() for it is done. We know that all it is doing | |
3050 | is writing to the pipe and then exiting, so the wait should not be long. | |
3051 | ||
3052 | The non-blocking waitpid() is to some extent just insurance; if we could | |
3053 | reliably detect end-of-file on the pipe, we could always know when to do a | |
3054 | blocking wait() for a completed process. However, because some systems use | |
3055 | NDELAY, which doesn't distinguish between EOF and pipe empty, it is easier to | |
3056 | use code that functions without the need to recognize EOF. | |
3057 | ||
3058 | There's a double loop here just in case we end up with a process that is not in | |
3059 | the list of remote delivery processes. Something has obviously gone wrong if | |
3060 | this is the case. (For example, a process that is incorrectly left over from | |
3061 | routing or local deliveries might be found.) The damage can be minimized by | |
3062 | looping back and looking for another process. If there aren't any, the error | |
3063 | return will happen. */ | |
3064 | ||
3065 | for (;;) /* Normally we do not repeat this loop */ | |
3066 | { | |
3067 | while ((pid = waitpid(-1, &status, WNOHANG)) <= 0) | |
3068 | { | |
3069 | struct timeval tv; | |
3070 | fd_set select_pipes; | |
3071 | int maxpipe, readycount; | |
3072 | ||
3073 | /* A return value of -1 can mean several things. If errno != ECHILD, it | |
3074 | either means invalid options (which we discount), or that this process was | |
3075 | interrupted by a signal. Just loop to try the waitpid() again. | |
3076 | ||
3077 | If errno == ECHILD, waitpid() is telling us that there are no subprocesses | |
3078 | in existence. This should never happen, and is an unexpected error. | |
3079 | However, there is a nasty complication when running under Linux. If "strace | |
3080 | -f" is being used under Linux to trace this process and its children, | |
3081 | subprocesses are "stolen" from their parents and become the children of the | |
3082 | tracing process. A general wait such as the one we've just obeyed returns | |
3083 | as if there are no children while subprocesses are running. Once a | |
3084 | subprocess completes, it is restored to the parent, and waitpid(-1) finds | |
3085 | it. Thanks to Joachim Wieland for finding all this out and suggesting a | |
3086 | palliative. | |
3087 | ||
3088 | This does not happen using "truss" on Solaris, nor (I think) with other | |
3089 | tracing facilities on other OS. It seems to be specific to Linux. | |
3090 | ||
3091 | What we do to get round this is to use kill() to see if any of our | |
3092 | subprocesses are still in existence. If kill() gives an OK return, we know | |
3093 | it must be for one of our processes - it can't be for a re-use of the pid, | |
3094 | because if our process had finished, waitpid() would have found it. If any | |
3095 | of our subprocesses are in existence, we proceed to use select() as if | |
3096 | waitpid() had returned zero. I think this is safe. */ | |
3097 | ||
3098 | if (pid < 0) | |
3099 | { | |
3100 | if (errno != ECHILD) continue; /* Repeats the waitpid() */ | |
3101 | ||
3102 | DEBUG(D_deliver) | |
3103 | debug_printf("waitpid() returned -1/ECHILD: checking explicitly " | |
3104 | "for process existence\n"); | |
3105 | ||
3106 | for (poffset = 0; poffset < remote_max_parallel; poffset++) | |
3107 | { | |
3108 | if ((pid = parlist[poffset].pid) != 0 && kill(pid, 0) == 0) | |
3109 | { | |
3110 | DEBUG(D_deliver) debug_printf("process %d still exists: assume " | |
3111 | "stolen by strace\n", (int)pid); | |
3112 | break; /* With poffset set */ | |
3113 | } | |
3114 | } | |
3115 | ||
3116 | if (poffset >= remote_max_parallel) | |
3117 | { | |
3118 | DEBUG(D_deliver) debug_printf("*** no delivery children found\n"); | |
3119 | return NULL; /* This is the error return */ | |
3120 | } | |
3121 | } | |
3122 | ||
3123 | /* A pid value greater than 0 breaks the "while" loop. A negative value has | |
3124 | been handled above. A return value of zero means that there is at least one | |
3125 | subprocess, but there are no completed subprocesses. See if any pipes are | |
3126 | ready with any data for reading. */ | |
3127 | ||
3128 | DEBUG(D_deliver) debug_printf("selecting on subprocess pipes\n"); | |
3129 | ||
3130 | maxpipe = 0; | |
3131 | FD_ZERO(&select_pipes); | |
3132 | for (poffset = 0; poffset < remote_max_parallel; poffset++) | |
3133 | { | |
3134 | if (parlist[poffset].pid != 0) | |
3135 | { | |
3136 | int fd = parlist[poffset].fd; | |
3137 | FD_SET(fd, &select_pipes); | |
3138 | if (fd > maxpipe) maxpipe = fd; | |
3139 | } | |
3140 | } | |
3141 | ||
3142 | /* Stick in a 60-second timeout, just in case. */ | |
3143 | ||
3144 | tv.tv_sec = 60; | |
3145 | tv.tv_usec = 0; | |
3146 | ||
3147 | readycount = select(maxpipe + 1, (SELECT_ARG2_TYPE *)&select_pipes, | |
3148 | NULL, NULL, &tv); | |
3149 | ||
3150 | /* Scan through the pipes and read any that are ready; use the count | |
3151 | returned by select() to stop when there are no more. Select() can return | |
3152 | with no processes (e.g. if interrupted). This shouldn't matter. | |
3153 | ||
3154 | If par_read_pipe() returns TRUE, it means that either the terminating Z was | |
3155 | read, or there was a disaster. In either case, we are finished with this | |
3156 | process. Do an explicit wait() for the process and break the main loop if | |
3157 | it succeeds. | |
3158 | ||
3159 | It turns out that we have to deal with the case of an interrupted system | |
3160 | call, which can happen on some operating systems if the signal handling is | |
3161 | set up to do that by default. */ | |
3162 | ||
3163 | for (poffset = 0; | |
3164 | readycount > 0 && poffset < remote_max_parallel; | |
3165 | poffset++) | |
3166 | { | |
3167 | if ((pid = parlist[poffset].pid) != 0 && | |
3168 | FD_ISSET(parlist[poffset].fd, &select_pipes)) | |
3169 | { | |
3170 | readycount--; | |
3171 | if (par_read_pipe(poffset, FALSE)) /* Finished with this pipe */ | |
3172 | { | |
3173 | for (;;) /* Loop for signals */ | |
3174 | { | |
3175 | pid_t endedpid = waitpid(pid, &status, 0); | |
3176 | if (endedpid == pid) goto PROCESS_DONE; | |
3177 | if (endedpid != (pid_t)(-1) || errno != EINTR) | |
3178 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "Unexpected error return " | |
3179 | "%d (errno = %d) from waitpid() for process %d", | |
3180 | (int)endedpid, errno, (int)pid); | |
3181 | } | |
3182 | } | |
3183 | } | |
3184 | } | |
3185 | ||
3186 | /* Now go back and look for a completed subprocess again. */ | |
3187 | } | |
3188 | ||
3189 | /* A completed process was detected by the non-blocking waitpid(). Find the | |
3190 | data block that corresponds to this subprocess. */ | |
3191 | ||
3192 | for (poffset = 0; poffset < remote_max_parallel; poffset++) | |
3193 | if (pid == parlist[poffset].pid) break; | |
3194 | ||
3195 | /* Found the data block; this is a known remote delivery process. We don't | |
3196 | need to repeat the outer loop. This should be what normally happens. */ | |
3197 | ||
3198 | if (poffset < remote_max_parallel) break; | |
3199 | ||
3200 | /* This situation is an error, but it's probably better to carry on looking | |
3201 | for another process than to give up (as we used to do). */ | |
3202 | ||
3203 | log_write(0, LOG_MAIN|LOG_PANIC, "Process %d finished: not found in remote " | |
3204 | "transport process list", pid); | |
3205 | } /* End of the "for" loop */ | |
3206 | ||
3207 | /* Come here when all the data was completely read after a select(), and | |
3208 | the process in pid has been wait()ed for. */ | |
3209 | ||
3210 | PROCESS_DONE: | |
3211 | ||
3212 | DEBUG(D_deliver) | |
3213 | { | |
3214 | if (status == 0) | |
3215 | debug_printf("remote delivery process %d ended\n", (int)pid); | |
3216 | else | |
3217 | debug_printf("remote delivery process %d ended: status=%04x\n", (int)pid, | |
3218 | status); | |
3219 | } | |
3220 | ||
3221 | set_process_info("delivering %s", message_id); | |
3222 | ||
3223 | /* Get the chain of processed addresses */ | |
3224 | ||
3225 | addrlist = parlist[poffset].addrlist; | |
3226 | ||
3227 | /* If the process did not finish cleanly, record an error and freeze (except | |
3228 | for SIGTERM, SIGKILL and SIGQUIT), and also ensure the journal is not removed, | |
3229 | in case the delivery did actually happen. */ | |
3230 | ||
3231 | if ((status & 0xffff) != 0) | |
3232 | { | |
3233 | uschar *msg; | |
3234 | int msb = (status >> 8) & 255; | |
3235 | int lsb = status & 255; | |
3236 | int code = (msb == 0)? (lsb & 0x7f) : msb; | |
3237 | ||
3238 | msg = string_sprintf("%s transport process returned non-zero status 0x%04x: " | |
3239 | "%s %d", | |
3240 | addrlist->transport->driver_name, | |
3241 | status, | |
3242 | (msb == 0)? "terminated by signal" : "exit code", | |
3243 | code); | |
3244 | ||
3245 | if (msb != 0 || (code != SIGTERM && code != SIGKILL && code != SIGQUIT)) | |
3246 | addrlist->special_action = SPECIAL_FREEZE; | |
3247 | ||
3248 | for (addr = addrlist; addr != NULL; addr = addr->next) | |
3249 | { | |
3250 | addr->transport_return = DEFER; | |
3251 | addr->message = msg; | |
3252 | } | |
3253 | ||
3254 | remove_journal = FALSE; | |
3255 | } | |
3256 | ||
3257 | /* Else complete reading the pipe to get the result of the delivery, if all | |
3258 | the data has not yet been obtained. */ | |
3259 | ||
3260 | else if (!parlist[poffset].done) (void)par_read_pipe(poffset, TRUE); | |
3261 | ||
3262 | /* Put the data count and return path into globals, mark the data slot unused, | |
3263 | decrement the count of subprocesses, and return the address chain. */ | |
3264 | ||
3265 | transport_count = parlist[poffset].transport_count; | |
3266 | used_return_path = parlist[poffset].return_path; | |
3267 | parlist[poffset].pid = 0; | |
3268 | parcount--; | |
3269 | return addrlist; | |
3270 | } | |
3271 | ||
3272 | ||
3273 | ||
3274 | /************************************************* | |
3275 | * Wait for subprocesses and post-process * | |
3276 | *************************************************/ | |
3277 | ||
3278 | /* This function waits for subprocesses until the number that are still running | |
3279 | is below a given threshold. For each complete subprocess, the addresses are | |
3280 | post-processed. If we can't find a running process, there is some shambles. | |
3281 | Better not bomb out, as that might lead to multiple copies of the message. Just | |
3282 | log and proceed as if all done. | |
3283 | ||
3284 | Arguments: | |
3285 | max maximum number of subprocesses to leave running | |
3286 | fallback TRUE if processing fallback hosts | |
3287 | ||
3288 | Returns: nothing | |
3289 | */ | |
3290 | ||
3291 | static void | |
3292 | par_reduce(int max, BOOL fallback) | |
3293 | { | |
3294 | while (parcount > max) | |
3295 | { | |
3296 | address_item *doneaddr = par_wait(); | |
3297 | if (doneaddr == NULL) | |
3298 | { | |
3299 | log_write(0, LOG_MAIN|LOG_PANIC, | |
3300 | "remote delivery process count got out of step"); | |
3301 | parcount = 0; | |
3302 | } | |
3303 | else remote_post_process(doneaddr, LOG_MAIN, NULL, fallback); | |
3304 | } | |
3305 | } | |
3306 | ||
3307 | ||
3308 | ||
3309 | ||
3310 | /************************************************* | |
3311 | * Do remote deliveries * | |
3312 | *************************************************/ | |
3313 | ||
3314 | /* This function is called to process the addresses in addr_remote. We must | |
3315 | pick off the queue all addresses that have the same transport, remote | |
3316 | destination, and errors address, and hand them to the transport in one go, | |
3317 | subject to some configured limitations. If this is a run to continue delivering | |
3318 | to an existing delivery channel, skip all but those addresses that can go to | |
3319 | that channel. The skipped addresses just get deferred. | |
3320 | ||
3321 | If mua_wrapper is set, all addresses must be able to be sent in a single | |
3322 | transaction. If not, this function yields FALSE. | |
3323 | ||
3324 | In Exim 4, remote deliveries are always done in separate processes, even | |
3325 | if remote_max_parallel = 1 or if there's only one delivery to do. The reason | |
3326 | is so that the base process can retain privilege. This makes the | |
3327 | implementation of fallback transports feasible (though not initially done.) | |
3328 | ||
3329 | We create up to the configured number of subprocesses, each of which passes | |
3330 | back the delivery state via a pipe. (However, when sending down an existing | |
3331 | connection, remote_max_parallel is forced to 1.) | |
3332 | ||
3333 | Arguments: | |
3334 | fallback TRUE if processing fallback hosts | |
3335 | ||
3336 | Returns: TRUE normally | |
3337 | FALSE if mua_wrapper is set and the addresses cannot all be sent | |
3338 | in one transaction | |
3339 | */ | |
3340 | ||
3341 | static BOOL | |
3342 | do_remote_deliveries(BOOL fallback) | |
3343 | { | |
3344 | int parmax; | |
3345 | int delivery_count; | |
3346 | int poffset; | |
3347 | ||
3348 | parcount = 0; /* Number of executing subprocesses */ | |
3349 | ||
3350 | /* When sending down an existing channel, only do one delivery at a time. | |
3351 | We use a local variable (parmax) to hold the maximum number of processes; | |
3352 | this gets reduced from remote_max_parallel if we can't create enough pipes. */ | |
3353 | ||
3354 | if (continue_transport != NULL) remote_max_parallel = 1; | |
3355 | parmax = remote_max_parallel; | |
3356 | ||
3357 | /* If the data for keeping a list of processes hasn't yet been | |
3358 | set up, do so. */ | |
3359 | ||
3360 | if (parlist == NULL) | |
3361 | { | |
3362 | parlist = store_get(remote_max_parallel * sizeof(pardata)); | |
3363 | for (poffset = 0; poffset < remote_max_parallel; poffset++) | |
3364 | parlist[poffset].pid = 0; | |
3365 | } | |
3366 | ||
3367 | /* Now loop for each remote delivery */ | |
3368 | ||
3369 | for (delivery_count = 0; addr_remote != NULL; delivery_count++) | |
3370 | { | |
3371 | pid_t pid; | |
3372 | uid_t uid; | |
3373 | gid_t gid; | |
3374 | int pfd[2]; | |
3375 | int address_count = 1; | |
3376 | int address_count_max; | |
3377 | BOOL multi_domain; | |
3378 | BOOL use_initgroups; | |
3379 | BOOL pipe_done = FALSE; | |
3380 | transport_instance *tp; | |
3381 | address_item **anchor = &addr_remote; | |
3382 | address_item *addr = addr_remote; | |
3383 | address_item *last = addr; | |
3384 | address_item *next; | |
3385 | ||
3386 | /* Pull the first address right off the list. */ | |
3387 | ||
3388 | addr_remote = addr->next; | |
3389 | addr->next = NULL; | |
3390 | ||
3391 | DEBUG(D_deliver|D_transport) | |
3392 | debug_printf("--------> %s <--------\n", addr->address); | |
3393 | ||
3394 | /* If no transport has been set, there has been a big screw-up somewhere. */ | |
3395 | ||
3396 | if ((tp = addr->transport) == NULL) | |
3397 | { | |
3398 | disable_logging = FALSE; /* Jic */ | |
3399 | remote_post_process(addr, LOG_MAIN|LOG_PANIC, | |
3400 | US"No transport set by router", fallback); | |
3401 | continue; | |
3402 | } | |
3403 | ||
3404 | /* Check that this base address hasn't previously been delivered to this | |
3405 | transport. The check is necessary at this point to handle homonymic addresses | |
3406 | correctly in cases where the pattern of redirection changes between delivery | |
3407 | attempts. Non-homonymic previous delivery is detected earlier, at routing | |
3408 | time. */ | |
3409 | ||
c2c19e9d | 3410 | if (previously_transported(addr, FALSE)) continue; |
059ec3d9 PH |
3411 | |
3412 | /* Force failure if the message is too big. */ | |
3413 | ||
3414 | if (tp->message_size_limit != NULL) | |
3415 | { | |
3416 | int rc = check_message_size(tp, addr); | |
3417 | if (rc != OK) | |
3418 | { | |
3419 | addr->transport_return = rc; | |
3420 | remote_post_process(addr, LOG_MAIN, NULL, fallback); | |
3421 | continue; | |
3422 | } | |
3423 | } | |
3424 | ||
3425 | /* Get the flag which specifies whether the transport can handle different | |
3426 | domains that nevertheless resolve to the same set of hosts. */ | |
3427 | ||
3428 | multi_domain = tp->multi_domain; | |
3429 | ||
3430 | /* Get the maximum it can handle in one envelope, with zero meaning | |
3431 | unlimited, which is forced for the MUA wrapper case. */ | |
3432 | ||
3433 | address_count_max = tp->max_addresses; | |
3434 | if (address_count_max == 0 || mua_wrapper) address_count_max = 999999; | |
3435 | ||
3436 | ||
3437 | /************************************************************************/ | |
3438 | /***** This is slightly experimental code, but should be safe. *****/ | |
3439 | ||
3440 | /* The address_count_max value is the maximum number of addresses that the | |
3441 | transport can send in one envelope. However, the transport must be capable of | |
3442 | dealing with any number of addresses. If the number it gets exceeds its | |
3443 | envelope limitation, it must send multiple copies of the message. This can be | |
3444 | done over a single connection for SMTP, so uses less resources than making | |
3445 | multiple connections. On the other hand, if remote_max_parallel is greater | |
3446 | than one, it is perhaps a good idea to use parallel processing to move the | |
3447 | message faster, even if that results in multiple simultaneous connections to | |
3448 | the same host. | |
3449 | ||
3450 | How can we come to some compromise between these two ideals? What we do is to | |
3451 | limit the number of addresses passed to a single instance of a transport to | |
3452 | the greater of (a) its address limit (rcpt_max for SMTP) and (b) the total | |
3453 | number of addresses routed to remote transports divided by | |
3454 | remote_max_parallel. For example, if the message has 100 remote recipients, | |
3455 | remote max parallel is 2, and rcpt_max is 10, we'd never send more than 50 at | |
3456 | once. But if rcpt_max is 100, we could send up to 100. | |
3457 | ||
3458 | Of course, not all the remotely addresses in a message are going to go to the | |
3459 | same set of hosts (except in smarthost configurations), so this is just a | |
3460 | heuristic way of dividing up the work. | |
3461 | ||
3462 | Furthermore (1), because this may not be wanted in some cases, and also to | |
3463 | cope with really pathological cases, there is also a limit to the number of | |
3464 | messages that are sent over one connection. This is the same limit that is | |
3465 | used when sending several different messages over the same connection. | |
3466 | Continue_sequence is set when in this situation, to the number sent so | |
3467 | far, including this message. | |
3468 | ||
3469 | Furthermore (2), when somebody explicitly sets the maximum value to 1, it | |
3470 | is probably because they are using VERP, in which case they want to pass only | |
3471 | one address at a time to the transport, in order to be able to use | |
3472 | $local_part and $domain in constructing a new return path. We could test for | |
3473 | the use of these variables, but as it is so likely they will be used when the | |
3474 | maximum is 1, we don't bother. Just leave the value alone. */ | |
3475 | ||
3476 | if (address_count_max != 1 && | |
3477 | address_count_max < remote_delivery_count/remote_max_parallel) | |
3478 | { | |
3479 | int new_max = remote_delivery_count/remote_max_parallel; | |
3480 | int message_max = tp->connection_max_messages; | |
3481 | if (connection_max_messages >= 0) message_max = connection_max_messages; | |
3482 | message_max -= continue_sequence - 1; | |
3483 | if (message_max > 0 && new_max > address_count_max * message_max) | |
3484 | new_max = address_count_max * message_max; | |
3485 | address_count_max = new_max; | |
3486 | } | |
3487 | ||
3488 | /************************************************************************/ | |
3489 | ||
3490 | ||
3491 | /* Pick off all addresses which have the same transport, errors address, | |
3492 | destination, and extra headers. In some cases they point to the same host | |
3493 | list, but we also need to check for identical host lists generated from | |
3494 | entirely different domains. The host list pointers can be NULL in the case | |
3495 | where the hosts are defined in the transport. There is also a configured | |
3496 | maximum limit of addresses that can be handled at once (see comments above | |
3497 | for how it is computed). */ | |
3498 | ||
3499 | while ((next = *anchor) != NULL && address_count < address_count_max) | |
3500 | { | |
3501 | if ((multi_domain || Ustrcmp(next->domain, addr->domain) == 0) | |
3502 | && | |
3503 | tp == next->transport | |
3504 | && | |
3505 | same_hosts(next->host_list, addr->host_list) | |
3506 | && | |
3507 | same_strings(next->p.errors_address, addr->p.errors_address) | |
3508 | && | |
3509 | same_headers(next->p.extra_headers, addr->p.extra_headers) | |
3510 | && | |
3511 | same_ugid(tp, next, addr) | |
3512 | && | |
3513 | (next->p.remove_headers == addr->p.remove_headers || | |
3514 | (next->p.remove_headers != NULL && | |
3515 | addr->p.remove_headers != NULL && | |
3516 | Ustrcmp(next->p.remove_headers, addr->p.remove_headers) == 0))) | |
3517 | { | |
3518 | *anchor = next->next; | |
3519 | next->next = NULL; | |
3520 | next->first = addr; /* remember top one (for retry processing) */ | |
3521 | last->next = next; | |
3522 | last = next; | |
3523 | address_count++; | |
3524 | } | |
3525 | else anchor = &(next->next); | |
3526 | } | |
3527 | ||
3528 | /* If we are acting as an MUA wrapper, all addresses must go in a single | |
3529 | transaction. If not, put them back on the chain and yield FALSE. */ | |
3530 | ||
3531 | if (mua_wrapper && addr_remote != NULL) | |
3532 | { | |
3533 | last->next = addr_remote; | |
3534 | addr_remote = addr; | |
3535 | return FALSE; | |
3536 | } | |
3537 | ||
3538 | /* Set up the expansion variables for this set of addresses */ | |
3539 | ||
3540 | deliver_set_expansions(addr); | |
3541 | ||
3542 | /* Compute the return path, expanding a new one if required. The old one | |
3543 | must be set first, as it might be referred to in the expansion. */ | |
3544 | ||
384152a6 TK |
3545 | if(addr->p.errors_address != NULL) |
3546 | return_path = addr->p.errors_address; | |
3547 | #ifdef EXPERIMENTAL_SRS | |
3548 | else if(addr->p.srs_sender != NULL) | |
3549 | return_path = addr->p.srs_sender; | |
3550 | #endif | |
3551 | else | |
3552 | return_path = sender_address; | |
059ec3d9 PH |
3553 | |
3554 | if (tp->return_path != NULL) | |
3555 | { | |
3556 | uschar *new_return_path = expand_string(tp->return_path); | |
3557 | if (new_return_path == NULL) | |
3558 | { | |
3559 | if (!expand_string_forcedfail) | |
3560 | { | |
3561 | remote_post_process(addr, LOG_MAIN|LOG_PANIC, | |
3562 | string_sprintf("Failed to expand return path \"%s\": %s", | |
3563 | tp->return_path, expand_string_message), fallback); | |
3564 | continue; | |
3565 | } | |
3566 | } | |
3567 | else return_path = new_return_path; | |
3568 | } | |
3569 | ||
3570 | /* If this transport has a setup function, call it now so that it gets | |
3571 | run in this process and not in any subprocess. That way, the results of | |
3572 | any setup that are retained by the transport can be reusable. */ | |
3573 | ||
3574 | if (tp->setup != NULL) | |
3575 | (void)((tp->setup)(addr->transport, addr, NULL, NULL)); | |
3576 | ||
3577 | /* If this is a run to continue delivery down an already-established | |
3578 | channel, check that this set of addresses matches the transport and | |
3579 | the channel. If it does not, defer the addresses. If a host list exists, | |
3580 | we must check that the continue host is on the list. Otherwise, the | |
3581 | host is set in the transport. */ | |
3582 | ||
3583 | continue_more = FALSE; /* In case got set for the last lot */ | |
3584 | if (continue_transport != NULL) | |
3585 | { | |
3586 | BOOL ok = Ustrcmp(continue_transport, tp->name) == 0; | |
3587 | if (ok && addr->host_list != NULL) | |
3588 | { | |
3589 | host_item *h; | |
3590 | ok = FALSE; | |
3591 | for (h = addr->host_list; h != NULL; h = h->next) | |
3592 | { | |
3593 | if (Ustrcmp(h->name, continue_hostname) == 0) | |
3594 | { ok = TRUE; break; } | |
3595 | } | |
3596 | } | |
3597 | ||
3598 | /* Addresses not suitable; defer or queue for fallback hosts (which | |
3599 | might be the continue host) and skip to next address. */ | |
3600 | ||
3601 | if (!ok) | |
3602 | { | |
3603 | DEBUG(D_deliver) debug_printf("not suitable for continue_transport\n"); | |
3604 | next = addr; | |
3605 | ||
3606 | if (addr->fallback_hosts != NULL && !fallback) | |
3607 | { | |
3608 | for (;;) | |
3609 | { | |
3610 | next->host_list = next->fallback_hosts; | |
3611 | DEBUG(D_deliver) debug_printf("%s queued for fallback host(s)\n", next->address); | |
3612 | if (next->next == NULL) break; | |
3613 | next = next->next; | |
3614 | } | |
3615 | next->next = addr_fallback; | |
3616 | addr_fallback = addr; | |
3617 | } | |
3618 | ||
3619 | else | |
3620 | { | |
3621 | while (next->next != NULL) next = next->next; | |
3622 | next->next = addr_defer; | |
3623 | addr_defer = addr; | |
3624 | } | |
3625 | ||
3626 | continue; | |
3627 | } | |
3628 | ||
3629 | /* Set a flag indicating whether there are further addresses that list | |
3630 | the continued host. This tells the transport to leave the channel open, | |
3631 | but not to pass it to another delivery process. */ | |
3632 | ||
3633 | for (next = addr_remote; next != NULL; next = next->next) | |
3634 | { | |
3635 | host_item *h; | |
3636 | for (h = next->host_list; h != NULL; h = h->next) | |
3637 | { | |
3638 | if (Ustrcmp(h->name, continue_hostname) == 0) | |
3639 | { continue_more = TRUE; break; } | |
3640 | } | |
3641 | } | |
3642 | } | |
3643 | ||
3644 | /* The transports set up the process info themselves as they may connect | |
3645 | to more than one remote machine. They also have to set up the filter | |
3646 | arguments, if required, so that the host name and address are available | |
3647 | for expansion. */ | |
3648 | ||
3649 | transport_filter_argv = NULL; | |
3650 | ||
3651 | /* Find the uid, gid, and use_initgroups setting for this transport. Failure | |
3652 | logs and sets up error messages, so we just post-process and continue with | |
3653 | the next address. */ | |
3654 | ||
3655 | if (!findugid(addr, tp, &uid, &gid, &use_initgroups)) | |
3656 | { | |
3657 | remote_post_process(addr, LOG_MAIN|LOG_PANIC, NULL, fallback); | |
3658 | continue; | |
3659 | } | |
3660 | ||
3661 | /* Create the pipe for inter-process communication. If pipe creation | |
3662 | fails, it is probably because the value of remote_max_parallel is so | |
3663 | large that too many file descriptors for pipes have been created. Arrange | |
3664 | to wait for a process to finish, and then try again. If we still can't | |
3665 | create a pipe when all processes have finished, break the retry loop. */ | |
3666 | ||
3667 | while (!pipe_done) | |
3668 | { | |
3669 | if (pipe(pfd) == 0) pipe_done = TRUE; | |
3670 | else if (parcount > 0) parmax = parcount; | |
3671 | else break; | |
3672 | ||
3673 | /* We need to make the reading end of the pipe non-blocking. There are | |
3674 | two different options for this. Exim is cunningly (I hope!) coded so | |
3675 | that it can use either of them, though it prefers O_NONBLOCK, which | |
3676 | distinguishes between EOF and no-more-data. */ | |
3677 | ||
3678 | #ifdef O_NONBLOCK | |
ff790e47 | 3679 | (void)fcntl(pfd[pipe_read], F_SETFL, O_NONBLOCK); |
059ec3d9 | 3680 | #else |
ff790e47 | 3681 | (void)fcntl(pfd[pipe_read], F_SETFL, O_NDELAY); |
059ec3d9 PH |
3682 | #endif |
3683 | ||
3684 | /* If the maximum number of subprocesses already exist, wait for a process | |
3685 | to finish. If we ran out of file descriptors, parmax will have been reduced | |
3686 | from its initial value of remote_max_parallel. */ | |
3687 | ||
3688 | par_reduce(parmax - 1, fallback); | |
3689 | } | |
3690 | ||
3691 | /* If we failed to create a pipe and there were no processes to wait | |
3692 | for, we have to give up on this one. Do this outside the above loop | |
3693 | so that we can continue the main loop. */ | |
3694 | ||
3695 | if (!pipe_done) | |
3696 | { | |
3697 | remote_post_process(addr, LOG_MAIN|LOG_PANIC, | |
3698 | string_sprintf("unable to create pipe: %s", strerror(errno)), fallback); | |
3699 | continue; | |
3700 | } | |
3701 | ||
3702 | /* Find a free slot in the pardata list. Must do this after the possible | |
3703 | waiting for processes to finish, because a terminating process will free | |
3704 | up a slot. */ | |
3705 | ||
3706 | for (poffset = 0; poffset < remote_max_parallel; poffset++) | |
3707 | if (parlist[poffset].pid == 0) break; | |
3708 | ||
3709 | /* If there isn't one, there has been a horrible disaster. */ | |
3710 | ||
3711 | if (poffset >= remote_max_parallel) | |
3712 | { | |
f1e894f3 PH |
3713 | (void)close(pfd[pipe_write]); |
3714 | (void)close(pfd[pipe_read]); | |
059ec3d9 PH |
3715 | remote_post_process(addr, LOG_MAIN|LOG_PANIC, |
3716 | US"Unexpectedly no free subprocess slot", fallback); | |
3717 | continue; | |
3718 | } | |
3719 | ||
3720 | /* Now fork a subprocess to do the remote delivery, but before doing so, | |
3721 | ensure that any cached resourses are released so as not to interfere with | |
3722 | what happens in the subprocess. */ | |
3723 | ||
3724 | search_tidyup(); | |
3725 | ||
3726 | if ((pid = fork()) == 0) | |
3727 | { | |
3728 | int fd = pfd[pipe_write]; | |
3729 | host_item *h; | |
3730 | ||
3731 | /* There are weird circumstances in which logging is disabled */ | |
3732 | ||
3733 | disable_logging = tp->disable_logging; | |
3734 | ||
3735 | /* Show pids on debug output if parallelism possible */ | |
3736 | ||
3737 | if (parmax > 1 && (parcount > 0 || addr_remote != NULL)) | |
3738 | { | |
3739 | DEBUG(D_any|D_v) debug_selector |= D_pid; | |
3740 | DEBUG(D_deliver) debug_printf("Remote delivery process started\n"); | |
3741 | } | |
3742 | ||
3743 | /* Reset the random number generator, so different processes don't all | |
3744 | have the same sequence. In the test harness we want different, but | |
3745 | predictable settings for each delivery process, so do something explicit | |
3746 | here rather they rely on the fixed reset in the random number function. */ | |
3747 | ||
3748 | random_seed = running_in_test_harness? 42 + 2*delivery_count : 0; | |
3749 | ||
3750 | /* Set close-on-exec on the pipe so that it doesn't get passed on to | |
3751 | a new process that may be forked to do another delivery down the same | |
3752 | SMTP connection. */ | |
3753 | ||
ff790e47 | 3754 | (void)fcntl(fd, F_SETFD, fcntl(fd, F_GETFD) | FD_CLOEXEC); |
059ec3d9 PH |
3755 | |
3756 | /* Close open file descriptors for the pipes of other processes | |
3757 | that are running in parallel. */ | |
3758 | ||
3759 | for (poffset = 0; poffset < remote_max_parallel; poffset++) | |
f1e894f3 | 3760 | if (parlist[poffset].pid != 0) (void)close(parlist[poffset].fd); |
059ec3d9 PH |
3761 | |
3762 | /* This process has inherited a copy of the file descriptor | |
3763 | for the data file, but its file pointer is shared with all the | |
3764 | other processes running in parallel. Therefore, we have to re-open | |
3765 | the file in order to get a new file descriptor with its own | |
3766 | file pointer. We don't need to lock it, as the lock is held by | |
3767 | the parent process. There doesn't seem to be any way of doing | |
3768 | a dup-with-new-file-pointer. */ | |
3769 | ||
f1e894f3 | 3770 | (void)close(deliver_datafile); |
059ec3d9 PH |
3771 | sprintf(CS spoolname, "%s/input/%s/%s-D", spool_directory, message_subdir, |
3772 | message_id); | |
3773 | deliver_datafile = Uopen(spoolname, O_RDWR | O_APPEND, 0); | |
3774 | ||
3775 | if (deliver_datafile < 0) | |
3776 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "Failed to reopen %s for remote " | |
3777 | "parallel delivery: %s", spoolname, strerror(errno)); | |
3778 | ||
3779 | /* Set the close-on-exec flag */ | |
3780 | ||
ff790e47 | 3781 | (void)fcntl(deliver_datafile, F_SETFD, fcntl(deliver_datafile, F_GETFD) | |
059ec3d9 PH |
3782 | FD_CLOEXEC); |
3783 | ||
3784 | /* Set the uid/gid of this process; bombs out on failure. */ | |
3785 | ||
3786 | exim_setugid(uid, gid, use_initgroups, | |
3787 | string_sprintf("remote delivery to %s with transport=%s", | |
3788 | addr->address, tp->name)); | |
3789 | ||
3790 | /* Close the unwanted half of this process' pipe, set the process state, | |
3791 | and run the transport. Afterwards, transport_count will contain the number | |
3792 | of bytes written. */ | |
3793 | ||
f1e894f3 | 3794 | (void)close(pfd[pipe_read]); |
059ec3d9 PH |
3795 | set_process_info("delivering %s using %s", message_id, tp->name); |
3796 | debug_print_string(tp->debug_string); | |
3797 | if (!(tp->info->code)(addr->transport, addr)) replicate_status(addr); | |
3798 | ||
3799 | set_process_info("delivering %s (just run %s for %s%s in subprocess)", | |
3800 | message_id, tp->name, addr->address, (addr->next == NULL)? "" : ", ..."); | |
3801 | ||
3802 | /* Ensure any cached resources that we used are now released */ | |
3803 | ||
3804 | search_tidyup(); | |
3805 | ||
3806 | /* Pass the result back down the pipe. This is a lot more information | |
3807 | than is needed for a local delivery. We have to send back the error | |
3808 | status for each address, the usability status for each host that is | |
3809 | flagged as unusable, and all the retry items. When TLS is in use, we | |
3810 | send also the cipher and peerdn information. Each type of information | |
3811 | is flagged by an identifying byte, and is then in a fixed format (with | |
3812 | strings terminated by zeros), and there is a final terminator at the | |
3813 | end. The host information and retry information is all attached to | |
3814 | the first address, so that gets sent at the start. */ | |
3815 | ||
3816 | /* Host unusability information: for most success cases this will | |
3817 | be null. */ | |
3818 | ||
3819 | for (h = addr->host_list; h != NULL; h = h->next) | |
3820 | { | |
3821 | if (h->address == NULL || h->status < hstatus_unusable) continue; | |
3822 | sprintf(CS big_buffer, "H%c%c%s", h->status, h->why, h->address); | |
f1e894f3 | 3823 | (void)write(fd, big_buffer, Ustrlen(big_buffer+3) + 4); |
059ec3d9 PH |
3824 | } |
3825 | ||
3826 | /* The number of bytes written. This is the same for each address. Even | |
3827 | if we sent several copies of the message down the same connection, the | |
3828 | size of each one is the same, and it's that value we have got because | |
3829 | transport_count gets reset before calling transport_write_message(). */ | |
3830 | ||
3831 | big_buffer[0] = 'S'; | |
3832 | memcpy(big_buffer+1, &transport_count, sizeof(transport_count)); | |
f1e894f3 | 3833 | (void)write(fd, big_buffer, sizeof(transport_count) + 1); |
059ec3d9 PH |
3834 | |
3835 | /* Information about what happened to each address. Three item types are | |
3836 | used: an optional 'X' item first, for TLS information, followed by 'R' | |
3837 | items for any retry settings, and finally an 'A' item for the remaining | |
3838 | data. */ | |
3839 | ||
3840 | for(; addr != NULL; addr = addr->next) | |
3841 | { | |
3842 | uschar *ptr; | |
3843 | retry_item *r; | |
3844 | ||
3845 | /* The certificate verification status goes into the flags */ | |
3846 | ||
3847 | if (tls_certificate_verified) setflag(addr, af_cert_verified); | |
3848 | ||
3849 | /* Use an X item only if there's something to send */ | |
3850 | ||
3851 | #ifdef SUPPORT_TLS | |
3852 | if (addr->cipher != NULL) | |
3853 | { | |
3854 | ptr = big_buffer; | |
3855 | *ptr++ = 'X'; | |
3856 | sprintf(CS ptr, "%.128s", addr->cipher); | |
3857 | while(*ptr++); | |
3858 | if (addr->peerdn == NULL) *ptr++ = 0; else | |
3859 | { | |
3860 | sprintf(CS ptr, "%.512s", addr->peerdn); | |
3861 | while(*ptr++); | |
3862 | } | |
f1e894f3 | 3863 | (void)write(fd, big_buffer, ptr - big_buffer); |
059ec3d9 PH |
3864 | } |
3865 | #endif | |
3866 | ||
3867 | /* Retry information: for most success cases this will be null. */ | |
3868 | ||
3869 | for (r = addr->retries; r != NULL; r = r->next) | |
3870 | { | |
3871 | uschar *ptr; | |
3872 | sprintf(CS big_buffer, "R%c%.500s", r->flags, r->key); | |
3873 | ptr = big_buffer + Ustrlen(big_buffer+2) + 3; | |
3874 | memcpy(ptr, &(r->basic_errno), sizeof(r->basic_errno)); | |
3875 | ptr += sizeof(r->basic_errno); | |
3876 | memcpy(ptr, &(r->more_errno), sizeof(r->more_errno)); | |
3877 | ptr += sizeof(r->more_errno); | |
3878 | if (r->message == NULL) *ptr++ = 0; else | |
3879 | { | |
3880 | sprintf(CS ptr, "%.512s", r->message); | |
3881 | while(*ptr++); | |
3882 | } | |
f1e894f3 | 3883 | (void)write(fd, big_buffer, ptr - big_buffer); |
059ec3d9 PH |
3884 | } |
3885 | ||
3886 | /* The rest of the information goes in an 'A' item. */ | |
3887 | ||
3888 | ptr = big_buffer + 3; | |
3889 | sprintf(CS big_buffer, "A%c%c", addr->transport_return, | |
3890 | addr->special_action); | |
3891 | memcpy(ptr, &(addr->basic_errno), sizeof(addr->basic_errno)); | |
3892 | ptr += sizeof(addr->basic_errno); | |
3893 | memcpy(ptr, &(addr->more_errno), sizeof(addr->more_errno)); | |
3894 | ptr += sizeof(addr->more_errno); | |
3895 | memcpy(ptr, &(addr->flags), sizeof(addr->flags)); | |
3896 | ptr += sizeof(addr->flags); | |
3897 | ||
3898 | if (addr->message == NULL) *ptr++ = 0; else | |
3899 | { | |
3900 | sprintf(CS ptr, "%.1024s", addr->message); | |
3901 | while(*ptr++); | |
3902 | } | |
3903 | ||
3904 | if (addr->user_message == NULL) *ptr++ = 0; else | |
3905 | { | |
3906 | sprintf(CS ptr, "%.1024s", addr->user_message); | |
3907 | while(*ptr++); | |
3908 | } | |
3909 | ||
3910 | if (addr->host_used == NULL) *ptr++ = 0; else | |
3911 | { | |
3912 | sprintf(CS ptr, "%.256s", addr->host_used->name); | |
3913 | while(*ptr++); | |
3914 | sprintf(CS ptr, "%.64s", addr->host_used->address); | |
3915 | while(*ptr++); | |
3916 | memcpy(ptr, &(addr->host_used->port), sizeof(addr->host_used->port)); | |
3917 | ptr += sizeof(addr->host_used->port); | |
3918 | } | |
f1e894f3 | 3919 | (void)write(fd, big_buffer, ptr - big_buffer); |
059ec3d9 PH |
3920 | } |
3921 | ||
3922 | /* Add termination flag, close the pipe, and that's it. The character | |
3923 | after 'Z' indicates whether continue_transport is now NULL or not. | |
3924 | A change from non-NULL to NULL indicates a problem with a continuing | |
3925 | connection. */ | |
3926 | ||
3927 | big_buffer[0] = 'Z'; | |
3928 | big_buffer[1] = (continue_transport == NULL)? '0' : '1'; | |
f1e894f3 PH |
3929 | (void)write(fd, big_buffer, 2); |
3930 | (void)close(fd); | |
059ec3d9 PH |
3931 | exit(EXIT_SUCCESS); |
3932 | } | |
3933 | ||
3934 | /* Back in the mainline: close the unwanted half of the pipe. */ | |
3935 | ||
f1e894f3 | 3936 | (void)close(pfd[pipe_write]); |
059ec3d9 PH |
3937 | |
3938 | /* Fork failed; defer with error message */ | |
3939 | ||
3940 | if (pid < 0) | |
3941 | { | |
f1e894f3 | 3942 | (void)close(pfd[pipe_read]); |
059ec3d9 PH |
3943 | remote_post_process(addr, LOG_MAIN|LOG_PANIC, |
3944 | string_sprintf("fork failed for remote delivery to %s: %s", | |
3945 | addr->domain, strerror(errno)), fallback); | |
3946 | continue; | |
3947 | } | |
3948 | ||
3949 | /* Fork succeeded; increment the count, and remember relevant data for | |
3950 | when the process finishes. */ | |
3951 | ||
3952 | parcount++; | |
3953 | parlist[poffset].addrlist = parlist[poffset].addr = addr; | |
3954 | parlist[poffset].pid = pid; | |
3955 | parlist[poffset].fd = pfd[pipe_read]; | |
3956 | parlist[poffset].done = FALSE; | |
3957 | parlist[poffset].msg = NULL; | |
3958 | parlist[poffset].return_path = return_path; | |
3959 | ||
3960 | /* If the process we've just started is sending a message down an existing | |
3961 | channel, wait for it now. This ensures that only one such process runs at | |
3962 | once, whatever the value of remote_max parallel. Otherwise, we might try to | |
3963 | send two or more messages simultaneously down the same channel. This could | |
3964 | happen if there are different domains that include the same host in otherwise | |
3965 | different host lists. | |
3966 | ||
3967 | Also, if the transport closes down the channel, this information gets back | |
3968 | (continue_transport gets set to NULL) before we consider any other addresses | |
3969 | in this message. */ | |
3970 | ||
3971 | if (continue_transport != NULL) par_reduce(0, fallback); | |
3972 | ||
3973 | /* Otherwise, if we are running in the test harness, wait a bit, to let the | |
3974 | newly created process get going before we create another process. This should | |
3975 | ensure repeatability in the tests. We only need to wait a tad. */ | |
3976 | ||
3977 | else if (running_in_test_harness) millisleep(500); | |
3978 | } | |
3979 | ||
3980 | /* Reached the end of the list of addresses. Wait for all the subprocesses that | |
3981 | are still running and post-process their addresses. */ | |
3982 | ||
3983 | par_reduce(0, fallback); | |
3984 | return TRUE; | |
3985 | } | |
3986 | ||
3987 | ||
3988 | ||
3989 | ||
3990 | /************************************************* | |
3991 | * Split an address into local part and domain * | |
3992 | *************************************************/ | |
3993 | ||
3994 | /* This function initializes an address for routing by splitting it up into a | |
3995 | local part and a domain. The local part is set up twice - once in its original | |
3996 | casing, and once in lower case, and it is dequoted. We also do the "percent | |
3997 | hack" for configured domains. This may lead to a DEFER result if a lookup | |
3998 | defers. When a percent-hacking takes place, we insert a copy of the original | |
3999 | address as a new parent of this address, as if we have had a redirection. | |
4000 | ||
4001 | Argument: | |
4002 | addr points to an addr_item block containing the address | |
4003 | ||
4004 | Returns: OK | |
4005 | DEFER - could not determine if domain is %-hackable | |
4006 | */ | |
4007 | ||
4008 | int | |
4009 | deliver_split_address(address_item *addr) | |
4010 | { | |
4011 | uschar *address = addr->address; | |
4012 | uschar *domain = Ustrrchr(address, '@'); | |
4013 | uschar *t; | |
4014 | int len = domain - address; | |
4015 | ||
4016 | addr->domain = string_copylc(domain+1); /* Domains are always caseless */ | |
4017 | ||
4018 | /* The implication in the RFCs (though I can't say I've seen it spelled out | |
4019 | explicitly) is that quoting should be removed from local parts at the point | |
4020 | where they are locally interpreted. [The new draft "821" is more explicit on | |
4021 | this, Jan 1999.] We know the syntax is valid, so this can be done by simply | |
4022 | removing quoting backslashes and any unquoted doublequotes. */ | |
4023 | ||
4024 | t = addr->cc_local_part = store_get(len+1); | |
4025 | while(len-- > 0) | |
4026 | { | |
4027 | register int c = *address++; | |
4028 | if (c == '\"') continue; | |
4029 | if (c == '\\') | |
4030 | { | |
4031 | *t++ = *address++; | |
4032 | len--; | |
4033 | } | |
4034 | else *t++ = c; | |
4035 | } | |
4036 | *t = 0; | |
4037 | ||
4038 | /* We do the percent hack only for those domains that are listed in | |
4039 | percent_hack_domains. A loop is required, to copy with multiple %-hacks. */ | |
4040 | ||
4041 | if (percent_hack_domains != NULL) | |
4042 | { | |
4043 | int rc; | |
4044 | uschar *new_address = NULL; | |
4045 | uschar *local_part = addr->cc_local_part; | |
4046 | ||
4047 | deliver_domain = addr->domain; /* set $domain */ | |
4048 | ||
4049 | while ((rc = match_isinlist(deliver_domain, &percent_hack_domains, 0, | |
4050 | &domainlist_anchor, addr->domain_cache, MCL_DOMAIN, TRUE, NULL)) | |
4051 | == OK && | |
4052 | (t = Ustrrchr(local_part, '%')) != NULL) | |
4053 | { | |
4054 | new_address = string_copy(local_part); | |
4055 | new_address[t - local_part] = '@'; | |
4056 | deliver_domain = string_copylc(t+1); | |
4057 | local_part = string_copyn(local_part, t - local_part); | |
4058 | } | |
4059 | ||
4060 | if (rc == DEFER) return DEFER; /* lookup deferred */ | |
4061 | ||
4062 | /* If hackery happened, set up new parent and alter the current address. */ | |
4063 | ||
4064 | if (new_address != NULL) | |
4065 | { | |
4066 | address_item *new_parent = store_get(sizeof(address_item)); | |
4067 | *new_parent = *addr; | |
4068 | addr->parent = new_parent; | |
4069 | addr->address = new_address; | |
4070 | addr->unique = string_copy(new_address); | |
4071 | addr->domain = deliver_domain; | |
4072 | addr->cc_local_part = local_part; | |
4073 | DEBUG(D_deliver) debug_printf("%%-hack changed address to: %s\n", | |
4074 | addr->address); | |
4075 | } | |
4076 | } | |
4077 | ||
4078 | /* Create the lowercased version of the final local part, and make that the | |
4079 | default one to be used. */ | |
4080 | ||
4081 | addr->local_part = addr->lc_local_part = string_copylc(addr->cc_local_part); | |
4082 | return OK; | |
4083 | } | |
4084 | ||
4085 | ||
4086 | ||
4087 | ||
4088 | /************************************************* | |
4089 | * Get next error message text * | |
4090 | *************************************************/ | |
4091 | ||
4092 | /* If f is not NULL, read the next "paragraph", from a customized error message | |
4093 | text file, terminated by a line containing ****, and expand it. | |
4094 | ||
4095 | Arguments: | |
4096 | f NULL or a file to read from | |
4097 | which string indicating which string (for errors) | |
4098 | ||
4099 | Returns: NULL or an expanded string | |
4100 | */ | |
4101 | ||
4102 | static uschar * | |
4103 | next_emf(FILE *f, uschar *which) | |
4104 | { | |
4105 | int size = 256; | |
4106 | int ptr = 0; | |
4107 | uschar *para, *yield; | |
4108 | uschar buffer[256]; | |
4109 | ||
4110 | if (f == NULL) return NULL; | |
4111 | ||
4112 | if (Ufgets(buffer, sizeof(buffer), f) == NULL || | |
4113 | Ustrcmp(buffer, "****\n") == 0) return NULL; | |
4114 | ||
4115 | para = store_get(size); | |
4116 | for (;;) | |
4117 | { | |
4118 | para = string_cat(para, &size, &ptr, buffer, Ustrlen(buffer)); | |
4119 | if (Ufgets(buffer, sizeof(buffer), f) == NULL || | |
4120 | Ustrcmp(buffer, "****\n") == 0) break; | |
4121 | } | |
4122 | para[ptr] = 0; | |
4123 | ||
4124 | yield = expand_string(para); | |
4125 | if (yield != NULL) return yield; | |
4126 | ||
4127 | log_write(0, LOG_MAIN|LOG_PANIC, "Failed to expand string from " | |
4128 | "bounce_message_file or warn_message_file (%s): %s", which, | |
4129 | expand_string_message); | |
4130 | return NULL; | |
4131 | } | |
4132 | ||
4133 | ||
4134 | ||
4135 | ||
4136 | /************************************************* | |
4137 | * Close down a passed transport channel * | |
4138 | *************************************************/ | |
4139 | ||
4140 | /* This function is called when a passed transport channel cannot be used. | |
4141 | It attempts to close it down tidily. The yield is always DELIVER_NOT_ATTEMPTED | |
4142 | so that the function call can be the argument of a "return" statement. | |
4143 | ||
4144 | Arguments: None | |
4145 | Returns: DELIVER_NOT_ATTEMPTED | |
4146 | */ | |
4147 | ||
4148 | static int | |
4149 | continue_closedown(void) | |
4150 | { | |
4151 | if (continue_transport != NULL) | |
4152 | { | |
4153 | transport_instance *t; | |
4154 | for (t = transports; t != NULL; t = t->next) | |
4155 | { | |
4156 | if (Ustrcmp(t->name, continue_transport) == 0) | |
4157 | { | |
4158 | if (t->info->closedown != NULL) (t->info->closedown)(t); | |
4159 | break; | |
4160 | } | |
4161 | } | |
4162 | } | |
4163 | return DELIVER_NOT_ATTEMPTED; | |
4164 | } | |
4165 | ||
4166 | ||
4167 | ||
4168 | ||
4169 | /************************************************* | |
4170 | * Print address information * | |
4171 | *************************************************/ | |
4172 | ||
4173 | /* This function is called to output an address, or information about an | |
4174 | address, for bounce or defer messages. If the hide_child flag is set, all we | |
4175 | output is the original ancestor address. | |
4176 | ||
4177 | Arguments: | |
4178 | addr points to the address | |
4179 | f the FILE to print to | |
4180 | si an initial string | |
4181 | sc a continuation string for before "generated" | |
4182 | se an end string | |
4183 | ||
4184 | Returns: TRUE if the address is not hidden | |
4185 | */ | |
4186 | ||
4187 | static BOOL | |
4188 | print_address_information(address_item *addr, FILE *f, uschar *si, uschar *sc, | |
4189 | uschar *se) | |
4190 | { | |
4191 | BOOL yield = TRUE; | |
4192 | uschar *printed = US""; | |
4193 | address_item *ancestor = addr; | |
4194 | while (ancestor->parent != NULL) ancestor = ancestor->parent; | |
4195 | ||
4196 | fprintf(f, "%s", CS si); | |
4197 | ||
4198 | if (addr->parent != NULL && testflag(addr, af_hide_child)) | |
4199 | { | |
4200 | printed = US"an undisclosed address"; | |
4201 | yield = FALSE; | |
4202 | } | |
059ec3d9 PH |
4203 | else if (!testflag(addr, af_pfr) || addr->parent == NULL) |
4204 | printed = addr->address; | |
4205 | ||
4206 | else | |
4207 | { | |
4208 | uschar *s = addr->address; | |
4209 | uschar *ss; | |
4210 | ||
4211 | if (addr->address[0] == '>') { ss = US"mail"; s++; } | |
4212 | else if (addr->address[0] == '|') ss = US"pipe"; | |
4213 | else ss = US"save"; | |
4214 | ||
4215 | fprintf(f, "%s to %s%sgenerated by ", ss, s, sc); | |
4216 | printed = addr->parent->address; | |
4217 | } | |
4218 | ||
4219 | fprintf(f, "%s", CS string_printing(printed)); | |
4220 | ||
4221 | if (ancestor != addr) | |
4222 | { | |
4223 | uschar *original = (ancestor->onetime_parent == NULL)? | |
4224 | ancestor->address : ancestor->onetime_parent; | |
4225 | if (strcmpic(original, printed) != 0) | |
4226 | fprintf(f, "%s(%sgenerated from %s)", sc, | |
4227 | (ancestor != addr->parent)? "ultimately " : "", | |
4228 | string_printing(original)); | |
4229 | } | |
4230 | ||
4231 | fprintf(f, "%s", CS se); | |
4232 | return yield; | |
4233 | } | |
4234 | ||
4235 | ||
4236 | ||
4237 | ||
4238 | ||
059ec3d9 PH |
4239 | /************************************************* |
4240 | * Print error for an address * | |
4241 | *************************************************/ | |
4242 | ||
4243 | /* This function is called to print the error information out of an address for | |
4244 | a bounce or a warning message. It tries to format the message reasonably by | |
4245 | introducing newlines. All lines are indented by 4; the initial printing | |
4246 | position must be set before calling. | |
4247 | ||
447d236c PH |
4248 | This function used always to print the error. Nowadays we want to restrict it |
4249 | to cases such as SMTP errors from a remote host, and errors from :fail: and | |
4250 | filter "fail". We no longer pass other information willy-nilly in bounce and | |
4251 | warning messages. Text in user_message is always output; text in message only | |
4252 | if the af_pass_message flag is set. | |
4253 | ||
059ec3d9 | 4254 | Arguments: |
447d236c | 4255 | addr the address |
059ec3d9 | 4256 | f the FILE to print on |
447d236c | 4257 | s some leading text |
059ec3d9 PH |
4258 | |
4259 | Returns: nothing | |
4260 | */ | |
4261 | ||
4262 | static void | |
447d236c | 4263 | print_address_error(address_item *addr, FILE *f, uschar *t) |
059ec3d9 | 4264 | { |
447d236c | 4265 | int count = Ustrlen(t); |
059ec3d9 | 4266 | uschar *s = (addr->user_message != NULL)? addr->user_message : addr->message; |
447d236c PH |
4267 | |
4268 | if (addr->user_message != NULL) | |
4269 | s = addr->user_message; | |
4270 | else | |
059ec3d9 | 4271 | { |
447d236c PH |
4272 | if (!testflag(addr, af_pass_message) || addr->message == NULL) return; |
4273 | s = addr->message; | |
059ec3d9 | 4274 | } |
447d236c PH |
4275 | |
4276 | fprintf(f, "\n %s", t); | |
4277 | ||
4278 | while (*s != 0) | |
059ec3d9 | 4279 | { |
447d236c PH |
4280 | if (*s == '\\' && s[1] == 'n') |
4281 | { | |
4282 | fprintf(f, "\n "); | |
4283 | s += 2; | |
4284 | count = 0; | |
4285 | } | |
4286 | else | |
059ec3d9 | 4287 | { |
447d236c PH |
4288 | fputc(*s, f); |
4289 | count++; | |
4290 | if (*s++ == ':' && isspace(*s) && count > 45) | |
059ec3d9 | 4291 | { |
447d236c | 4292 | fprintf(f, "\n "); /* sic (because space follows) */ |
059ec3d9 PH |
4293 | count = 0; |
4294 | } | |
059ec3d9 PH |
4295 | } |
4296 | } | |
4297 | } | |
4298 | ||
4299 | ||
4300 | ||
447d236c PH |
4301 | |
4302 | ||
4303 | ||
d7174846 PH |
4304 | /************************************************* |
4305 | * Check list of addresses for duplication * | |
4306 | *************************************************/ | |
4307 | ||
4308 | /* This function was introduced when the test for duplicate addresses that are | |
4309 | not pipes, files, or autoreplies was moved from the middle of routing to when | |
4310 | routing was complete. That was to fix obscure cases when the routing history | |
4311 | affects the subsequent routing of identical addresses. If that change has to be | |
4312 | reversed, this function is no longer needed. For a while, the old code that was | |
4313 | affected by this change is commented with !!!OLD-DE-DUP!!! so it can be found | |
4314 | easily. | |
4315 | ||
4316 | This function is called after routing, to check that the final routed addresses | |
4317 | are not duplicates. If we detect a duplicate, we remember what it is a | |
4318 | duplicate of. Note that pipe, file, and autoreply de-duplication is handled | |
4319 | during routing, so we must leave such "addresses" alone here, as otherwise they | |
4320 | will incorrectly be discarded. | |
4321 | ||
4322 | Argument: address of list anchor | |
4323 | Returns: nothing | |
4324 | */ | |
4325 | ||
4326 | static void | |
4327 | do_duplicate_check(address_item **anchor) | |
4328 | { | |
4329 | address_item *addr; | |
4330 | while ((addr = *anchor) != NULL) | |
4331 | { | |
4332 | tree_node *tnode; | |
4333 | if (testflag(addr, af_pfr)) | |
4334 | { | |
4335 | anchor = &(addr->next); | |
4336 | } | |
4337 | else if ((tnode = tree_search(tree_duplicates, addr->unique)) != NULL) | |
4338 | { | |
4339 | DEBUG(D_deliver|D_route) | |
4340 | debug_printf("%s is a duplicate address: discarded\n", addr->unique); | |
4341 | *anchor = addr->next; | |
4342 | addr->dupof = tnode->data.ptr; | |
4343 | addr->next = addr_duplicate; | |
4344 | addr_duplicate = addr; | |
4345 | } | |
4346 | else | |
4347 | { | |
4348 | tree_add_duplicate(addr->unique, addr); | |
4349 | anchor = &(addr->next); | |
4350 | } | |
4351 | } | |
4352 | } | |
4353 | ||
4354 | ||
4355 | ||
059ec3d9 PH |
4356 | |
4357 | /************************************************* | |
4358 | * Deliver one message * | |
4359 | *************************************************/ | |
4360 | ||
4361 | /* This is the function which is called when a message is to be delivered. It | |
4362 | is passed the id of the message. It is possible that the message no longer | |
4363 | exists, if some other process has delivered it, and it is also possible that | |
4364 | the message is being worked on by another process, in which case the data file | |
4365 | will be locked. | |
4366 | ||
4367 | If no delivery is attempted for any of the above reasons, the function returns | |
4368 | DELIVER_NOT_ATTEMPTED. | |
4369 | ||
4370 | If the give_up flag is set true, do not attempt any deliveries, but instead | |
4371 | fail all outstanding addresses and return the message to the sender (or | |
4372 | whoever). | |
4373 | ||
4374 | A delivery operation has a process all to itself; we never deliver more than | |
4375 | one message in the same process. Therefore we needn't worry too much about | |
4376 | store leakage. | |
4377 | ||
4378 | Arguments: | |
4379 | id the id of the message to be delivered | |
4380 | forced TRUE if delivery was forced by an administrator; this overrides | |
4381 | retry delays and causes a delivery to be tried regardless | |
4382 | give_up TRUE if an administrator has requested that delivery attempts | |
4383 | be abandoned | |
4384 | ||
4385 | Returns: When the global variable mua_wrapper is FALSE: | |
4386 | DELIVER_ATTEMPTED_NORMAL if a delivery attempt was made | |
4387 | DELIVER_NOT_ATTEMPTED otherwise (see comment above) | |
4388 | When the global variable mua_wrapper is TRUE: | |
4389 | DELIVER_MUA_SUCCEEDED if delivery succeeded | |
4390 | DELIVER_MUA_FAILED if delivery failed | |
4391 | DELIVER_NOT_ATTEMPTED if not attempted (should not occur) | |
4392 | */ | |
4393 | ||
4394 | int | |
4395 | deliver_message(uschar *id, BOOL forced, BOOL give_up) | |
4396 | { | |
4397 | int i, rc; | |
4398 | int final_yield = DELIVER_ATTEMPTED_NORMAL; | |
4399 | time_t now = time(NULL); | |
4400 | address_item *addr_last = NULL; | |
4401 | uschar *filter_message = NULL; | |
4402 | FILE *jread; | |
4403 | int process_recipients = RECIP_ACCEPT; | |
4404 | open_db dbblock; | |
4405 | open_db *dbm_file; | |
4406 | ||
4407 | uschar *info = (queue_run_pid == (pid_t)0)? | |
4408 | string_sprintf("delivering %s", id) : | |
4409 | string_sprintf("delivering %s (queue run pid %d)", id, queue_run_pid); | |
4410 | ||
4411 | /* If the D_process_info bit is on, set_process_info() will output debugging | |
4412 | information. If not, we want to show this initial information if D_deliver or | |
4413 | D_queue_run is set or in verbose mode. */ | |
4414 | ||
4415 | set_process_info("%s", info); | |
4416 | ||
4417 | if ((debug_selector & D_process_info) == 0 && | |
4418 | (debug_selector & (D_deliver|D_queue_run|D_v)) != 0) | |
4419 | debug_printf("%s\n", info); | |
4420 | ||
4421 | /* Ensure that we catch any subprocesses that are created. Although Exim | |
4422 | sets SIG_DFL as its initial default, some routes through the code end up | |
4423 | here with it set to SIG_IGN - cases where a non-synchronous delivery process | |
4424 | has been forked, but no re-exec has been done. We use sigaction rather than | |
4425 | plain signal() on those OS where SA_NOCLDWAIT exists, because we want to be | |
4426 | sure it is turned off. (There was a problem on AIX with this.) */ | |
4427 | ||
4428 | #ifdef SA_NOCLDWAIT | |
4429 | { | |
4430 | struct sigaction act; | |
4431 | act.sa_handler = SIG_DFL; | |
4432 | sigemptyset(&(act.sa_mask)); | |
4433 | act.sa_flags = 0; | |
4434 | sigaction(SIGCHLD, &act, NULL); | |
4435 | } | |
4436 | #else | |
4437 | signal(SIGCHLD, SIG_DFL); | |
4438 | #endif | |
4439 | ||
4440 | /* Make the forcing flag available for routers and transports, set up the | |
4441 | global message id field, and initialize the count for returned files and the | |
4442 | message size. This use of strcpy() is OK because the length id is checked when | |
4443 | it is obtained from a command line (the -M or -q options), and otherwise it is | |
4444 | known to be a valid message id. */ | |
4445 | ||
4446 | Ustrcpy(message_id, id); | |
4447 | deliver_force = forced; | |
4448 | return_count = 0; | |
4449 | message_size = 0; | |
4450 | ||
4451 | /* Initialize some flags */ | |
4452 | ||
4453 | update_spool = FALSE; | |
4454 | remove_journal = TRUE; | |
4455 | ||
4456 | /* Reset the random number generator, so that if several delivery processes are | |
4457 | started from a queue runner that has already used random numbers (for sorting), | |
4458 | they don't all get the same sequence. */ | |
4459 | ||
4460 | random_seed = 0; | |
4461 | ||
4462 | /* Open and lock the message's data file. Exim locks on this one because the | |
4463 | header file may get replaced as it is re-written during the delivery process. | |
4464 | Any failures cause messages to be written to the log, except for missing files | |
4465 | while queue running - another process probably completed delivery. As part of | |
4466 | opening the data file, message_subdir gets set. */ | |
4467 | ||
4468 | if (!spool_open_datafile(id)) | |
4469 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4470 | ||
4471 | /* The value of message_size at this point has been set to the data length, | |
4472 | plus one for the blank line that notionally precedes the data. */ | |
4473 | ||
4474 | /* Now read the contents of the header file, which will set up the headers in | |
4475 | store, and also the list of recipients and the tree of non-recipients and | |
4476 | assorted flags. It updates message_size. If there is a reading or format error, | |
4477 | give up; if the message has been around for sufficiently long, remove it. */ | |
4478 | ||
4479 | sprintf(CS spoolname, "%s-H", id); | |
4480 | if ((rc = spool_read_header(spoolname, TRUE, TRUE)) != spool_read_OK) | |
4481 | { | |
4482 | if (errno == ERRNO_SPOOLFORMAT) | |
4483 | { | |
4484 | struct stat statbuf; | |
4485 | sprintf(CS big_buffer, "%s/input/%s/%s", spool_directory, message_subdir, | |
4486 | spoolname); | |
4487 | if (Ustat(big_buffer, &statbuf) == 0) | |
b1c749bb PH |
4488 | log_write(0, LOG_MAIN, "Format error in spool file %s: " |
4489 | "size=" OFF_T_FMT, spoolname, statbuf.st_size); | |
059ec3d9 PH |
4490 | else log_write(0, LOG_MAIN, "Format error in spool file %s", spoolname); |
4491 | } | |
4492 | else | |
4493 | log_write(0, LOG_MAIN, "Error reading spool file %s: %s", spoolname, | |
4494 | strerror(errno)); | |
4495 | ||
4496 | /* If we managed to read the envelope data, received_time contains the | |
4497 | time the message was received. Otherwise, we can calculate it from the | |
4498 | message id. */ | |
4499 | ||
4500 | if (rc != spool_read_hdrerror) | |
4501 | { | |
4502 | received_time = 0; | |
4503 | for (i = 0; i < 6; i++) | |
4504 | received_time = received_time * BASE_62 + tab62[id[i] - '0']; | |
4505 | } | |
4506 | ||
4507 | /* If we've had this malformed message too long, sling it. */ | |
4508 | ||
4509 | if (now - received_time > keep_malformed) | |
4510 | { | |
4511 | sprintf(CS spoolname, "%s/msglog/%s/%s", spool_directory, message_subdir, id); | |
4512 | Uunlink(spoolname); | |
4513 | sprintf(CS spoolname, "%s/input/%s/%s-D", spool_directory, message_subdir, id); | |
4514 | Uunlink(spoolname); | |
4515 | sprintf(CS spoolname, "%s/input/%s/%s-H", spool_directory, message_subdir, id); | |
4516 | Uunlink(spoolname); | |
4517 | sprintf(CS spoolname, "%s/input/%s/%s-J", spool_directory, message_subdir, id); | |
4518 | Uunlink(spoolname); | |
4519 | log_write(0, LOG_MAIN, "Message removed because older than %s", | |
4520 | readconf_printtime(keep_malformed)); | |
4521 | } | |
4522 | ||
f1e894f3 | 4523 | (void)close(deliver_datafile); |
059ec3d9 PH |
4524 | deliver_datafile = -1; |
4525 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4526 | } | |
4527 | ||
4528 | /* The spool header file has been read. Look to see if there is an existing | |
4529 | journal file for this message. If there is, it means that a previous delivery | |
4530 | attempt crashed (program or host) before it could update the spool header file. | |
4531 | Read the list of delivered addresses from the journal and add them to the | |
4532 | nonrecipients tree. Then update the spool file. We can leave the journal in | |
4533 | existence, as it will get further successful deliveries added to it in this | |
4534 | run, and it will be deleted if this function gets to its end successfully. | |
4535 | Otherwise it might be needed again. */ | |
4536 | ||
4537 | sprintf(CS spoolname, "%s/input/%s/%s-J", spool_directory, message_subdir, id); | |
4538 | jread = Ufopen(spoolname, "rb"); | |
4539 | if (jread != NULL) | |
4540 | { | |
4541 | while (Ufgets(big_buffer, big_buffer_size, jread) != NULL) | |
4542 | { | |
4543 | int n = Ustrlen(big_buffer); | |
4544 | big_buffer[n-1] = 0; | |
4545 | tree_add_nonrecipient(big_buffer); | |
4546 | DEBUG(D_deliver) debug_printf("Previously delivered address %s taken from " | |
4547 | "journal file\n", big_buffer); | |
4548 | } | |
f1e894f3 | 4549 | (void)fclose(jread); |
059ec3d9 PH |
4550 | /* Panic-dies on error */ |
4551 | (void)spool_write_header(message_id, SW_DELIVERING, NULL); | |
4552 | } | |
4553 | else if (errno != ENOENT) | |
4554 | { | |
4555 | log_write(0, LOG_MAIN|LOG_PANIC, "attempt to open journal for reading gave: " | |
4556 | "%s", strerror(errno)); | |
4557 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4558 | } | |
4559 | ||
4560 | /* A null recipients list indicates some kind of disaster. */ | |
4561 | ||
4562 | if (recipients_list == NULL) | |
4563 | { | |
f1e894f3 | 4564 | (void)close(deliver_datafile); |
059ec3d9 PH |
4565 | deliver_datafile = -1; |
4566 | log_write(0, LOG_MAIN, "Spool error: no recipients for %s", spoolname); | |
4567 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4568 | } | |
4569 | ||
4570 | ||
4571 | /* Handle a message that is frozen. There are a number of different things that | |
4572 | can happen, but in the default situation, unless forced, no delivery is | |
4573 | attempted. */ | |
4574 | ||
4575 | if (deliver_freeze) | |
4576 | { | |
4577 | #ifdef SUPPORT_MOVE_FROZEN_MESSAGES | |
4578 | /* Moving to another directory removes the message from Exim's view. Other | |
4579 | tools must be used to deal with it. Logging of this action happens in | |
4580 | spool_move_message() and its subfunctions. */ | |
4581 | ||
4582 | if (move_frozen_messages && | |
4583 | spool_move_message(id, message_subdir, US"", US"F")) | |
4584 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4585 | #endif | |
4586 | ||
4587 | /* For all frozen messages (bounces or not), timeout_frozen_after sets the | |
4588 | maximum time to keep messages that are frozen. Thaw if we reach it, with a | |
4589 | flag causing all recipients to be failed. The time is the age of the | |
4590 | message, not the time since freezing. */ | |
4591 | ||
4592 | if (timeout_frozen_after > 0 && message_age >= timeout_frozen_after) | |
4593 | { | |
4594 | log_write(0, LOG_MAIN, "cancelled by timeout_frozen_after"); | |
4595 | process_recipients = RECIP_FAIL_TIMEOUT; | |
4596 | } | |
4597 | ||
4598 | /* For bounce messages (and others with no sender), thaw if the error message | |
4599 | ignore timer is exceeded. The message will be discarded if this delivery | |
4600 | fails. */ | |
4601 | ||
4602 | else if (sender_address[0] == 0 && message_age >= ignore_bounce_errors_after) | |
4603 | { | |
4604 | log_write(0, LOG_MAIN, "Unfrozen by errmsg timer"); | |
4605 | } | |
4606 | ||
ef213c3b PH |
4607 | /* If this is a bounce message, or there's no auto thaw, or we haven't |
4608 | reached the auto thaw time yet, and this delivery is not forced by an admin | |
4609 | user, do not attempt delivery of this message. Note that forced is set for | |
4610 | continuing messages down the same channel, in order to skip load checking and | |
4611 | ignore hold domains, but we don't want unfreezing in that case. */ | |
059ec3d9 PH |
4612 | |
4613 | else | |
4614 | { | |
ef213c3b PH |
4615 | if ((sender_address[0] == 0 || |
4616 | auto_thaw <= 0 || | |
4617 | now <= deliver_frozen_at + auto_thaw | |
4618 | ) | |
4619 | && | |
4620 | (!forced || !deliver_force_thaw || !admin_user || | |
4621 | continue_hostname != NULL | |
4622 | )) | |
059ec3d9 | 4623 | { |
f1e894f3 | 4624 | (void)close(deliver_datafile); |
059ec3d9 PH |
4625 | deliver_datafile = -1; |
4626 | log_write(L_skip_delivery, LOG_MAIN, "Message is frozen"); | |
4627 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4628 | } | |
4629 | ||
4630 | /* If delivery was forced (by an admin user), assume a manual thaw. | |
4631 | Otherwise it's an auto thaw. */ | |
4632 | ||
4633 | if (forced) | |
4634 | { | |
4635 | deliver_manual_thaw = TRUE; | |
4636 | log_write(0, LOG_MAIN, "Unfrozen by forced delivery"); | |
4637 | } | |
4638 | else log_write(0, LOG_MAIN, "Unfrozen by auto-thaw"); | |
4639 | } | |
4640 | ||
4641 | /* We get here if any of the rules for unfreezing have triggered. */ | |
4642 | ||
4643 | deliver_freeze = FALSE; | |
4644 | update_spool = TRUE; | |
4645 | } | |
4646 | ||
4647 | ||
4648 | /* Open the message log file if we are using them. This records details of | |
4649 | deliveries, deferments, and failures for the benefit of the mail administrator. | |
4650 | The log is not used by exim itself to track the progress of a message; that is | |
4651 | done by rewriting the header spool file. */ | |
4652 | ||
4653 | if (message_logs) | |
4654 | { | |
4655 | uschar *error; | |
4656 | int fd; | |
4657 | ||
4658 | sprintf(CS spoolname, "%s/msglog/%s/%s", spool_directory, message_subdir, id); | |
4659 | fd = open_msglog_file(spoolname, SPOOL_MODE, &error); | |
4660 | ||
4661 | if (fd < 0) | |
4662 | { | |
4663 | log_write(0, LOG_MAIN|LOG_PANIC, "Couldn't %s message log %s: %s", error, | |
4664 | spoolname, strerror(errno)); | |
4665 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4666 | } | |
4667 | ||
4668 | /* Make a C stream out of it. */ | |
4669 | ||
4670 | message_log = fdopen(fd, "a"); | |
4671 | if (message_log == NULL) | |
4672 | { | |
4673 | log_write(0, LOG_MAIN|LOG_PANIC, "Couldn't fdopen message log %s: %s", | |
4674 | spoolname, strerror(errno)); | |
4675 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4676 | } | |
4677 | } | |
4678 | ||
4679 | ||
4680 | /* If asked to give up on a message, log who did it, and set the action for all | |
4681 | the addresses. */ | |
4682 | ||
4683 | if (give_up) | |
4684 | { | |
4685 | struct passwd *pw = getpwuid(real_uid); | |
4686 | log_write(0, LOG_MAIN, "cancelled by %s", (pw != NULL)? | |
4687 | US pw->pw_name : string_sprintf("uid %ld", (long int)real_uid)); | |
4688 | process_recipients = RECIP_FAIL; | |
4689 | } | |
4690 | ||
4691 | /* Otherwise, if there are too many Received: headers, fail all recipients. */ | |
4692 | ||
4693 | else if (received_count > received_headers_max) | |
4694 | process_recipients = RECIP_FAIL_LOOP; | |
4695 | ||
4696 | /* Otherwise, if a system-wide, address-independent message filter is | |
4697 | specified, run it now, except in the case when we are failing all recipients as | |
4698 | a result of timeout_frozen_after. If the system filter yields "delivered", then | |
4699 | ignore the true recipients of the message. Failure of the filter file is | |
4700 | logged, and the delivery attempt fails. */ | |
4701 | ||
4702 | else if (system_filter != NULL && process_recipients != RECIP_FAIL_TIMEOUT) | |
4703 | { | |
4704 | int rc; | |
4705 | int filtertype; | |
4706 | ugid_block ugid; | |
4707 | redirect_block redirect; | |
4708 | ||
4709 | if (system_filter_uid_set) | |
4710 | { | |
4711 | ugid.uid = system_filter_uid; | |
4712 | ugid.gid = system_filter_gid; | |
4713 | ugid.uid_set = ugid.gid_set = TRUE; | |
4714 | } | |
4715 | else | |
4716 | { | |
4717 | ugid.uid_set = ugid.gid_set = FALSE; | |
4718 | } | |
4719 | ||
4720 | return_path = sender_address; | |
4721 | enable_dollar_recipients = TRUE; /* Permit $recipients in system filter */ | |
4722 | system_filtering = TRUE; | |
4723 | ||
4724 | /* Any error in the filter file causes a delivery to be abandoned. */ | |
4725 | ||
4726 | redirect.string = system_filter; | |
4727 | redirect.isfile = TRUE; | |
4728 | redirect.check_owner = redirect.check_group = FALSE; | |
4729 | redirect.owners = NULL; | |
4730 | redirect.owngroups = NULL; | |
4731 | redirect.pw = NULL; | |
4732 | redirect.modemask = 0; | |
4733 | ||
4734 | DEBUG(D_deliver|D_filter) debug_printf("running system filter\n"); | |
4735 | ||
4736 | rc = rda_interpret( | |
4737 | &redirect, /* Where the data is */ | |
4738 | RDO_DEFER | /* Turn on all the enabling options */ | |
4739 | RDO_FAIL | /* Leave off all the disabling options */ | |
4740 | RDO_FILTER | | |
4741 | RDO_FREEZE | | |
4742 | RDO_REALLOG | | |
4743 | RDO_REWRITE, | |
4744 | NULL, /* No :include: restriction (not used in filter) */ | |
4745 | NULL, /* No sieve vacation directory (not sieve!) */ | |
e4a89c47 PH |
4746 | NULL, /* No sieve user address (not sieve!) */ |
4747 | NULL, /* No sieve subaddress (not sieve!) */ | |
059ec3d9 PH |
4748 | &ugid, /* uid/gid data */ |
4749 | &addr_new, /* Where to hang generated addresses */ | |
4750 | &filter_message, /* Where to put error message */ | |
4751 | NULL, /* Don't skip syntax errors */ | |
4752 | &filtertype, /* Will always be set to FILTER_EXIM for this call */ | |
4753 | US"system filter"); /* For error messages */ | |
4754 | ||
4755 | DEBUG(D_deliver|D_filter) debug_printf("system filter returned %d\n", rc); | |
4756 | ||
4757 | if (rc == FF_ERROR || rc == FF_NONEXIST) | |
4758 | { | |
f1e894f3 | 4759 | (void)close(deliver_datafile); |
059ec3d9 PH |
4760 | deliver_datafile = -1; |
4761 | log_write(0, LOG_MAIN|LOG_PANIC, "Error in system filter: %s", | |
4762 | string_printing(filter_message)); | |
4763 | return continue_closedown(); /* yields DELIVER_NOT_ATTEMPTED */ | |
4764 | } | |
4765 | ||
4766 | /* Reset things. If the filter message is an empty string, which can happen | |
4767 | for a filter "fail" or "freeze" command with no text, reset it to NULL. */ | |
4768 | ||
4769 | system_filtering = FALSE; | |
4770 | enable_dollar_recipients = FALSE; | |
4771 | if (filter_message != NULL && filter_message[0] == 0) filter_message = NULL; | |
4772 | ||
4773 | /* Save the values of the system filter variables so that user filters | |
4774 | can use them. */ | |
4775 | ||
4776 | memcpy(filter_sn, filter_n, sizeof(filter_sn)); | |
4777 | ||
4778 | /* The filter can request that delivery of the original addresses be | |
4779 | deferred. */ | |
4780 | ||
4781 | if (rc == FF_DEFER) | |
4782 | { | |
4783 | process_recipients = RECIP_DEFER; | |
4784 | deliver_msglog("Delivery deferred by system filter\n"); | |
4785 | log_write(0, LOG_MAIN, "Delivery deferred by system filter"); | |
4786 | } | |
4787 | ||
4788 | /* The filter can request that a message be frozen, but this does not | |
4789 | take place if the message has been manually thawed. In that case, we must | |
4790 | unset "delivered", which is forced by the "freeze" command to make -bF | |
4791 | work properly. */ | |
4792 | ||
4793 | else if (rc == FF_FREEZE && !deliver_manual_thaw) | |
4794 | { | |
4795 | deliver_freeze = TRUE; | |
4796 | deliver_frozen_at = time(NULL); | |
4797 | process_recipients = RECIP_DEFER; | |
4798 | frozen_info = string_sprintf(" by the system filter%s%s", | |
4799 | (filter_message == NULL)? US"" : US": ", | |
4800 | (filter_message == NULL)? US"" : filter_message); | |
4801 | } | |
4802 | ||
4803 | /* The filter can request that a message be failed. The error message may be | |
4804 | quite long - it is sent back to the sender in the bounce - but we don't want | |
4805 | to fill up the log with repetitions of it. If it starts with << then the text | |
4806 | between << and >> is written to the log, with the rest left for the bounce | |
4807 | message. */ | |
4808 | ||
4809 | else if (rc == FF_FAIL) | |
4810 | { | |
4811 | uschar *colon = US""; | |
4812 | uschar *logmsg = US""; | |
4813 | int loglen = 0; | |
4814 | ||
4815 | process_recipients = RECIP_FAIL_FILTER; | |
4816 | ||
4817 | if (filter_message != NULL) | |
4818 | { | |
4819 | uschar *logend; | |
4820 | colon = US": "; | |
4821 | if (filter_message[0] == '<' && filter_message[1] == '<' && | |
4822 | (logend = Ustrstr(filter_message, ">>")) != NULL) | |
4823 | { | |
4824 | logmsg = filter_message + 2; | |
4825 | loglen = logend - logmsg; | |
4826 | filter_message = logend + 2; | |
4827 | if (filter_message[0] == 0) filter_message = NULL; | |
4828 | } | |
4829 | else | |
4830 | { | |
4831 | logmsg = filter_message; | |
4832 | loglen = Ustrlen(filter_message); | |
4833 | } | |
4834 | } | |
4835 | ||
4836 | log_write(0, LOG_MAIN, "cancelled by system filter%s%.*s", colon, loglen, | |
4837 | logmsg); | |
4838 | } | |
4839 | ||
4840 | /* Delivery can be restricted only to those recipients (if any) that the | |
4841 | filter specified. */ | |
4842 | ||
4843 | else if (rc == FF_DELIVERED) | |
4844 | { | |
4845 | process_recipients = RECIP_IGNORE; | |
4846 | if (addr_new == NULL) | |
4847 | log_write(0, LOG_MAIN, "=> discarded (system filter)"); | |
4848 | else | |
4849 | log_write(0, LOG_MAIN, "original recipients ignored (system filter)"); | |
4850 | } | |
4851 | ||
4852 | /* If any new addresses were created by the filter, fake up a "parent" | |
4853 | for them. This is necessary for pipes, etc., which are expected to have | |
4854 | parents, and it also gives some sensible logging for others. Allow | |
4855 | pipes, files, and autoreplies, and run them as the filter uid if set, | |
4856 | otherwise as the current uid. */ | |
4857 | ||
4858 | if (addr_new != NULL) | |
4859 | { | |
4860 | int uid = (system_filter_uid_set)? system_filter_uid : geteuid(); | |
4861 | int gid = (system_filter_gid_set)? system_filter_gid : getegid(); | |
4862 | ||
4863 | /* The text "system-filter" is tested in transport_set_up_command() and in | |
4864 | set_up_shell_command() in the pipe transport, to enable them to permit | |
4865 | $recipients, so don't change it here without also changing it there. */ | |
4866 | ||
4867 | address_item *p = addr_new; | |
4868 | address_item *parent = deliver_make_addr(US"system-filter", FALSE); | |
4869 | ||
4870 | parent->domain = string_copylc(qualify_domain_recipient); | |
4871 | parent->local_part = US"system-filter"; | |
4872 | ||
4873 | /* As part of this loop, we arrange for addr_last to end up pointing | |
4874 | at the final address. This is used if we go on to add addresses for the | |
4875 | original recipients. */ | |
4876 | ||
4877 | while (p != NULL) | |
4878 | { | |
4879 | parent->child_count++; | |
4880 | p->parent = parent; | |
4881 | ||
4882 | if (testflag(p, af_pfr)) | |
4883 | { | |
4884 | uschar *tpname; | |
4885 | uschar *type; | |
4886 | p->uid = uid; | |
4887 | p->gid = gid; | |
4888 | setflag(p, af_uid_set | | |
4889 | af_gid_set | | |
4890 | af_allow_file | | |
4891 | af_allow_pipe | | |
4892 | af_allow_reply); | |
4893 | ||
4894 | /* Find the name of the system filter's appropriate pfr transport */ | |
4895 | ||
4896 | if (p->address[0] == '|') | |
4897 | { | |
4898 | type = US"pipe"; | |
4899 | tpname = system_filter_pipe_transport; | |
4900 | address_pipe = p->address; | |
4901 | } | |
4902 | else if (p->address[0] == '>') | |
4903 | { | |
4904 | type = US"reply"; | |
4905 | tpname = system_filter_reply_transport; | |
4906 | } | |
4907 | else | |
4908 | { | |
4909 | if (p->address[Ustrlen(p->address)-1] == '/') | |
4910 | { | |
4911 | type = US"directory"; | |
4912 | tpname = system_filter_directory_transport; | |
4913 | } | |
4914 | else | |
4915 | { | |
4916 | type = US"file"; | |
4917 | tpname = system_filter_file_transport; | |
4918 | } | |
4919 | address_file = p->address; | |
4920 | } | |
4921 | ||
4922 | /* Now find the actual transport, first expanding the name. We have | |
4923 | set address_file or address_pipe above. */ | |
4924 | ||
4925 | if (tpname != NULL) | |
4926 | { | |
4927 | uschar *tmp = expand_string(tpname); | |
4928 | address_file = address_pipe = NULL; | |
4929 | if (tmp == NULL) | |
4930 | p->message = string_sprintf("failed to expand \"%s\" as a " | |
4931 | "system filter transport name", tpname); | |
4932 | tpname = tmp; | |
4933 | } | |
4934 | else | |
4935 | { | |
4936 | p->message = string_sprintf("system_filter_%s_transport is unset", | |
4937 | type); | |
4938 | } | |
4939 | ||
4940 | if (tpname != NULL) | |
4941 | { | |
4942 | transport_instance *tp; | |
4943 | for (tp = transports; tp != NULL; tp = tp->next) | |
4944 | { | |
4945 | if (Ustrcmp(tp->name, tpname) == 0) | |
4946 | { | |
4947 | p->transport = tp; | |
4948 | break; | |
4949 | } | |
4950 | } | |
4951 | if (tp == NULL) | |
4952 | p->message = string_sprintf("failed to find \"%s\" transport " | |
4953 | "for system filter delivery", tpname); | |
4954 | } | |
4955 | ||
4956 | /* If we couldn't set up a transport, defer the delivery, putting the | |
4957 | error on the panic log as well as the main log. */ | |
4958 | ||
4959 | if (p->transport == NULL) | |
4960 | { | |
4961 | address_item *badp = p; | |
4962 | p = p->next; | |
4963 | if (addr_last == NULL) addr_new = p; else addr_last->next = p; | |
4964 | badp->local_part = badp->address; /* Needed for log line */ | |
4965 | post_process_one(badp, DEFER, LOG_MAIN|LOG_PANIC, DTYPE_ROUTER, 0); | |
4966 | continue; | |
4967 | } | |
4968 | } /* End of pfr handling */ | |
4969 | ||
4970 | /* Either a non-pfr delivery, or we found a transport */ | |
4971 | ||
4972 | DEBUG(D_deliver|D_filter) | |
4973 | debug_printf("system filter added %s\n", p->address); | |
4974 | ||
4975 | addr_last = p; | |
4976 | p = p->next; | |
4977 | } /* Loop through all addr_new addresses */ | |
4978 | } | |
4979 | } | |
4980 | ||
4981 | ||
4982 | /* Scan the recipients list, and for every one that is not in the non- | |
4983 | recipients tree, add an addr item to the chain of new addresses. If the pno | |
4984 | value is non-negative, we must set the onetime parent from it. This which | |
4985 | points to the relevant entry in the recipients list. | |
4986 | ||
4987 | This processing can be altered by the setting of the process_recipients | |
4988 | variable, which is changed if recipients are to be ignored, failed, or | |
4989 | deferred. This can happen as a result of system filter activity, or if the -Mg | |
4990 | option is used to fail all of them. | |
4991 | ||
4992 | Duplicate addresses are handled later by a different tree structure; we can't | |
4993 | just extend the non-recipients tree, because that will be re-written to the | |
4994 | spool if the message is deferred, and in any case there are casing | |
4995 | complications for local addresses. */ | |
4996 | ||
4997 | if (process_recipients != RECIP_IGNORE) | |
4998 | { | |
4999 | for (i = 0; i < recipients_count; i++) | |
5000 | { | |
5001 | if (tree_search(tree_nonrecipients, recipients_list[i].address) == NULL) | |
5002 | { | |
5003 | recipient_item *r = recipients_list + i; | |
5004 | address_item *new = deliver_make_addr(r->address, FALSE); | |
5005 | new->p.errors_address = r->errors_to; | |
5006 | ||
5007 | if (r->pno >= 0) | |
5008 | new->onetime_parent = recipients_list[r->pno].address; | |
5009 | ||
5010 | switch (process_recipients) | |
5011 | { | |
5012 | /* RECIP_DEFER is set when a system filter freezes a message. */ | |
5013 | ||
5014 | case RECIP_DEFER: | |
5015 | new->next = addr_defer; | |
5016 | addr_defer = new; | |
5017 | break; | |
5018 | ||
5019 | ||
5020 | /* RECIP_FAIL_FILTER is set when a system filter has obeyed a "fail" | |
5021 | command. */ | |
5022 | ||
5023 | case RECIP_FAIL_FILTER: | |
5024 | new->message = | |
5025 | (filter_message == NULL)? US"delivery cancelled" : filter_message; | |
447d236c | 5026 | setflag(new, af_pass_message); |
059ec3d9 PH |
5027 | goto RECIP_QUEUE_FAILED; /* below */ |
5028 | ||
5029 | ||
5030 | /* RECIP_FAIL_TIMEOUT is set when a message is frozen, but is older | |
5031 | than the value in timeout_frozen_after. Treat non-bounce messages | |
5032 | similarly to -Mg; for bounce messages we just want to discard, so | |
5033 | don't put the address on the failed list. The timeout has already | |
5034 | been logged. */ | |
5035 | ||
5036 | case RECIP_FAIL_TIMEOUT: | |
5037 | new->message = US"delivery cancelled; message timed out"; | |
5038 | goto RECIP_QUEUE_FAILED; /* below */ | |
5039 | ||
5040 | ||
5041 | /* RECIP_FAIL is set when -Mg has been used. */ | |
5042 | ||
5043 | case RECIP_FAIL: | |
5044 | new->message = US"delivery cancelled by administrator"; | |
5045 | /* Fall through */ | |
5046 | ||
5047 | /* Common code for the failure cases above. If this is not a bounce | |
5048 | message, put the address on the failed list so that it is used to | |
5049 | create a bounce. Otherwise do nothing - this just discards the address. | |
5050 | The incident has already been logged. */ | |
5051 | ||
5052 | RECIP_QUEUE_FAILED: | |
5053 | if (sender_address[0] != 0) | |
5054 | { | |
5055 | new->next = addr_failed; | |
5056 | addr_failed = new; | |
5057 | } | |
5058 | break; | |
5059 | ||
5060 | ||
5061 | /* RECIP_FAIL_LOOP is set when there are too many Received: headers | |
5062 | in the message. Process each address as a routing failure; if this | |
5063 | is a bounce message, it will get frozen. */ | |
5064 | ||
5065 | case RECIP_FAIL_LOOP: | |
5066 | new->message = US"Too many \"Received\" headers - suspected mail loop"; | |
5067 | post_process_one(new, FAIL, LOG_MAIN, DTYPE_ROUTER, 0); | |
5068 | break; | |
5069 | ||
5070 | ||
5071 | /* Value should be RECIP_ACCEPT; take this as the safe default. */ | |
5072 | ||
5073 | default: | |
5074 | if (addr_new == NULL) addr_new = new; else addr_last->next = new; | |
5075 | addr_last = new; | |
5076 | break; | |
5077 | } | |
5078 | } | |
5079 | } | |
5080 | } | |
5081 | ||
5082 | DEBUG(D_deliver) | |
5083 | { | |
5084 | address_item *p = addr_new; | |
5085 | debug_printf("Delivery address list:\n"); | |
5086 | while (p != NULL) | |
5087 | { | |
5088 | debug_printf(" %s %s\n", p->address, (p->onetime_parent == NULL)? US"" : | |
5089 | p->onetime_parent); | |
5090 | p = p->next; | |
5091 | } | |
5092 | } | |
5093 | ||
5094 | /* Set up the buffers used for copying over the file when delivering. */ | |
5095 | ||
5096 | deliver_in_buffer = store_malloc(DELIVER_IN_BUFFER_SIZE); | |
5097 | deliver_out_buffer = store_malloc(DELIVER_OUT_BUFFER_SIZE); | |
5098 | ||
5099 | ||
5100 | ||
5101 | /* Until there are no more new addresses, handle each one as follows: | |
5102 | ||
5103 | . If this is a generated address (indicated by the presence of a parent | |
5104 | pointer) then check to see whether it is a pipe, file, or autoreply, and | |
5105 | if so, handle it directly here. The router that produced the address will | |
5106 | have set the allow flags into the address, and also set the uid/gid required. | |
5107 | Having the routers generate new addresses and then checking them here at | |
5108 | the outer level is tidier than making each router do the checking, and | |
5109 | means that routers don't need access to the failed address queue. | |
5110 | ||
5111 | . Break up the address into local part and domain, and make lowercased | |
5112 | versions of these strings. We also make unquoted versions of the local part. | |
5113 | ||
5114 | . Handle the percent hack for those domains for which it is valid. | |
5115 | ||
5116 | . For child addresses, determine if any of the parents have the same address. | |
5117 | If so, generate a different string for previous delivery checking. Without | |
5118 | this code, if the address spqr generates spqr via a forward or alias file, | |
5119 | delivery of the generated spqr stops further attempts at the top level spqr, | |
5120 | which is not what is wanted - it may have generated other addresses. | |
5121 | ||
5122 | . Check on the retry database to see if routing was previously deferred, but | |
5123 | only if in a queue run. Addresses that are to be routed are put on the | |
5124 | addr_route chain. Addresses that are to be deferred are put on the | |
5125 | addr_defer chain. We do all the checking first, so as not to keep the | |
5126 | retry database open any longer than necessary. | |
5127 | ||
5128 | . Now we run the addresses through the routers. A router may put the address | |
5129 | on either the addr_local or the addr_remote chain for local or remote | |
5130 | delivery, respectively, or put it on the addr_failed chain if it is | |
5131 | undeliveable, or it may generate child addresses and put them on the | |
5132 | addr_new chain, or it may defer an address. All the chain anchors are | |
5133 | passed as arguments so that the routers can be called for verification | |
5134 | purposes as well. | |
5135 | ||
5136 | . If new addresses have been generated by the routers, da capo. | |
5137 | */ | |
5138 | ||
5139 | header_rewritten = FALSE; /* No headers rewritten yet */ | |
5140 | while (addr_new != NULL) /* Loop until all addresses dealt with */ | |
5141 | { | |
5142 | address_item *addr, *parent; | |
5143 | dbm_file = dbfn_open(US"retry", O_RDONLY, &dbblock, FALSE); | |
5144 | ||
5145 | /* Failure to open the retry database is treated the same as if it does | |
5146 | not exist. In both cases, dbm_file is NULL. */ | |
5147 | ||
5148 | if (dbm_file == NULL) | |
5149 | { | |
5150 | DEBUG(D_deliver|D_retry|D_route|D_hints_lookup) | |
5151 | debug_printf("no retry data available\n"); | |
5152 | } | |
5153 | ||
5154 | /* Scan the current batch of new addresses, to handle pipes, files and | |
5155 | autoreplies, and determine which others are ready for routing. */ | |
5156 | ||
5157 | while (addr_new != NULL) | |
5158 | { | |
5159 | int rc; | |
5160 | uschar *p; | |
5161 | tree_node *tnode; | |
5162 | dbdata_retry *domain_retry_record; | |
5163 | dbdata_retry *address_retry_record; | |
5164 | ||
5165 | addr = addr_new; | |
5166 | addr_new = addr->next; | |
5167 | ||
5168 | DEBUG(D_deliver|D_retry|D_route) | |
5169 | { | |
5170 | debug_printf(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n"); | |
5171 | debug_printf("Considering: %s\n", addr->address); | |
5172 | } | |
5173 | ||
5174 | /* Handle generated address that is a pipe or a file or an autoreply. */ | |
5175 | ||
5176 | if (testflag(addr, af_pfr)) | |
5177 | { | |
424a1c63 PH |
5178 | /* If an autoreply in a filter could not generate a syntactically valid |
5179 | address, give up forthwith. Set af_ignore_error so that we don't try to | |
5180 | generate a bounce. */ | |
5181 | ||
5182 | if (testflag(addr, af_bad_reply)) | |
5183 | { | |
5184 | addr->basic_errno = ERRNO_BADADDRESS2; | |
5185 | addr->local_part = addr->address; | |
5186 | addr->message = | |
5187 | US"filter autoreply generated syntactically invalid recipient"; | |
5188 | setflag(addr, af_ignore_error); | |
5189 | (void)post_process_one(addr, FAIL, LOG_MAIN, DTYPE_ROUTER, 0); | |
5190 | continue; /* with the next new address */ | |
5191 | } | |
059ec3d9 PH |
5192 | |
5193 | /* If two different users specify delivery to the same pipe or file or | |
5194 | autoreply, there should be two different deliveries, so build a unique | |
5195 | string that incorporates the original address, and use this for | |
5196 | duplicate testing and recording delivery, and also for retrying. */ | |
5197 | ||
5198 | addr->unique = | |
424a1c63 PH |
5199 | string_sprintf("%s:%s", addr->address, addr->parent->unique + |
5200 | (testflag(addr->parent, af_homonym)? 3:0)); | |
059ec3d9 PH |
5201 | |
5202 | addr->address_retry_key = addr->domain_retry_key = | |
5203 | string_sprintf("T:%s", addr->unique); | |
5204 | ||
5205 | /* If a filter file specifies two deliveries to the same pipe or file, | |
5206 | we want to de-duplicate, but this is probably not wanted for two mail | |
5207 | commands to the same address, where probably both should be delivered. | |
5208 | So, we have to invent a different unique string in that case. Just | |
5209 | keep piling '>' characters on the front. */ | |
5210 | ||
5211 | if (addr->address[0] == '>') | |
5212 | { | |
5213 | while (tree_search(tree_duplicates, addr->unique) != NULL) | |
5214 | addr->unique = string_sprintf(">%s", addr->unique); | |
5215 | } | |
5216 | ||
5217 | else if ((tnode = tree_search(tree_duplicates, addr->unique)) != NULL) | |
5218 | { | |
5219 | DEBUG(D_deliver|D_route) | |
5220 | debug_printf("%s is a duplicate address: discarded\n", addr->address); | |
5221 | addr->dupof = tnode->data.ptr; | |
5222 | addr->next = addr_duplicate; | |
5223 | addr_duplicate = addr; | |
5224 | continue; | |
5225 | } | |
5226 | ||
5227 | DEBUG(D_deliver|D_route) debug_printf("unique = %s\n", addr->unique); | |
5228 | ||
5229 | /* Check for previous delivery */ | |
5230 | ||
5231 | if (tree_search(tree_nonrecipients, addr->unique) != NULL) | |
5232 | { | |
5233 | DEBUG(D_deliver|D_route) | |
5234 | debug_printf("%s was previously delivered: discarded\n", addr->address); | |
5235 | child_done(addr, tod_stamp(tod_log)); | |
5236 | continue; | |
5237 | } | |
5238 | ||
5239 | /* Save for checking future duplicates */ | |
5240 | ||
5241 | tree_add_duplicate(addr->unique, addr); | |
5242 | ||
5243 | /* Set local part and domain */ | |
5244 | ||
5245 | addr->local_part = addr->address; | |
5246 | addr->domain = addr->parent->domain; | |
5247 | ||
5248 | /* Ensure that the delivery is permitted. */ | |
5249 | ||
5250 | if (testflag(addr, af_file)) | |
5251 | { | |
5252 | if (!testflag(addr, af_allow_file)) | |
5253 | { | |
5254 | addr->basic_errno = ERRNO_FORBIDFILE; | |
5255 | addr->message = US"delivery to file forbidden"; | |
5256 | (void)post_process_one(addr, FAIL, LOG_MAIN, DTYPE_ROUTER, 0); | |
5257 | continue; /* with the next new address */ | |
5258 | } | |
5259 | } | |
5260 | else if (addr->address[0] == '|') | |
5261 | { | |
5262 | if (!testflag(addr, af_allow_pipe)) | |
5263 | { | |
5264 | addr->basic_errno = ERRNO_FORBIDPIPE; | |
5265 | addr->message = US"delivery to pipe forbidden"; | |
5266 | (void)post_process_one(addr, FAIL, LOG_MAIN, DTYPE_ROUTER, 0); | |
5267 | continue; /* with the next new address */ | |
5268 | } | |
5269 | } | |
5270 | else if (!testflag(addr, af_allow_reply)) | |
5271 | { | |
5272 | addr->basic_errno = ERRNO_FORBIDREPLY; | |
5273 | addr->message = US"autoreply forbidden"; | |
5274 | (void)post_process_one(addr, FAIL, LOG_MAIN, DTYPE_ROUTER, 0); | |
5275 | continue; /* with the next new address */ | |
5276 | } | |
5277 | ||
5278 | /* If the errno field is already set to BADTRANSPORT, it indicates | |
5279 | failure to expand a transport string, or find the associated transport, | |
5280 | or an unset transport when one is required. Leave this test till now so | |
5281 | that the forbid errors are given in preference. */ | |
5282 | ||
5283 | if (addr->basic_errno == ERRNO_BADTRANSPORT) | |
5284 | { | |
5285 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_ROUTER, 0); | |
5286 | continue; | |
5287 | } | |
5288 | ||
5289 | /* Treat /dev/null as a special case and abandon the delivery. This | |
5290 | avoids having to specify a uid on the transport just for this case. | |
5291 | Arrange for the transport name to be logged as "**bypassed**". */ | |
5292 | ||
5293 | if (Ustrcmp(addr->address, "/dev/null") == 0) | |
5294 | { | |
5295 | uschar *save = addr->transport->name; | |
5296 | addr->transport->name = US"**bypassed**"; | |
5297 | (void)post_process_one(addr, OK, LOG_MAIN, DTYPE_TRANSPORT, '='); | |
5298 | addr->transport->name = save; | |
5299 | continue; /* with the next new address */ | |
5300 | } | |
5301 | ||
5302 | /* Pipe, file, or autoreply delivery is to go ahead as a normal local | |
5303 | delivery. */ | |
5304 | ||
5305 | DEBUG(D_deliver|D_route) | |
5306 | debug_printf("queued for %s transport\n", addr->transport->name); | |
5307 | addr->next = addr_local; | |
5308 | addr_local = addr; | |
5309 | continue; /* with the next new address */ | |
5310 | } | |
5311 | ||
5312 | /* Handle normal addresses. First, split up into local part and domain, | |
5313 | handling the %-hack if necessary. There is the possibility of a defer from | |
5314 | a lookup in percent_hack_domains. */ | |
5315 | ||
5316 | if ((rc = deliver_split_address(addr)) == DEFER) | |
5317 | { | |
5318 | addr->message = US"cannot check percent_hack_domains"; | |
5319 | addr->basic_errno = ERRNO_LISTDEFER; | |
5320 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_NONE, 0); | |
5321 | continue; | |
5322 | } | |
5323 | ||
5324 | /* Check to see if the domain is held. If so, proceed only if the | |
5325 | delivery was forced by hand. */ | |
5326 | ||
5327 | deliver_domain = addr->domain; /* set $domain */ | |
5328 | if (!forced && hold_domains != NULL && | |
5329 | (rc = match_isinlist(addr->domain, &hold_domains, 0, | |
5330 | &domainlist_anchor, addr->domain_cache, MCL_DOMAIN, TRUE, | |
5331 | NULL)) != FAIL) | |
5332 | { | |
5333 | if (rc == DEFER) | |
5334 | { | |
5335 | addr->message = US"hold_domains lookup deferred"; | |
5336 | addr->basic_errno = ERRNO_LISTDEFER; | |
5337 | } | |
5338 | else | |
5339 | { | |
5340 | addr->message = US"domain is held"; | |
5341 | addr->basic_errno = ERRNO_HELD; | |
5342 | } | |
5343 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_NONE, 0); | |
5344 | continue; | |
5345 | } | |
5346 | ||
5347 | /* Now we can check for duplicates and previously delivered addresses. In | |
5348 | order to do this, we have to generate a "unique" value for each address, | |
5349 | because there may be identical actual addresses in a line of descendents. | |
5350 | The "unique" field is initialized to the same value as the "address" field, | |
5351 | but gets changed here to cope with identically-named descendents. */ | |
5352 | ||
5353 | for (parent = addr->parent; parent != NULL; parent = parent->parent) | |
5354 | if (strcmpic(addr->address, parent->address) == 0) break; | |
5355 | ||
5356 | /* If there's an ancestor with the same name, set the homonym flag. This | |
5357 | influences how deliveries are recorded. Then add a prefix on the front of | |
5358 | the unique address. We use \n\ where n starts at 0 and increases each time. | |
5359 | It is unlikely to pass 9, but if it does, it may look odd but will still | |
5360 | work. This means that siblings or cousins with the same names are treated | |
5361 | as duplicates, which is what we want. */ | |
5362 | ||
5363 | if (parent != NULL) | |
5364 | { | |
5365 | setflag(addr, af_homonym); | |
5366 | if (parent->unique[0] != '\\') | |
5367 | addr->unique = string_sprintf("\\0\\%s", addr->address); | |
5368 | else | |
5369 | addr->unique = string_sprintf("\\%c\\%s", parent->unique[1] + 1, | |
5370 | addr->address); | |
5371 | } | |
5372 | ||
5373 | /* Ensure that the domain in the unique field is lower cased, because | |
5374 | domains are always handled caselessly. */ | |
5375 | ||
5376 | p = Ustrrchr(addr->unique, '@'); | |
5377 | while (*p != 0) { *p = tolower(*p); p++; } | |
5378 | ||
5379 | DEBUG(D_deliver|D_route) debug_printf("unique = %s\n", addr->unique); | |
5380 | ||
5381 | if (tree_search(tree_nonrecipients, addr->unique) != NULL) | |
5382 | { | |
5383 | DEBUG(D_deliver|D_route) | |
5384 | debug_printf("%s was previously delivered: discarded\n", addr->unique); | |
5385 | child_done(addr, tod_stamp(tod_log)); | |
5386 | continue; | |
5387 | } | |
5388 | ||
d7174846 PH |
5389 | |
5390 | /* !!!OLD-DE-DUP!!! We used to test for duplicates at this point, in order | |
5391 | to save effort on routing duplicate addresses. However, facilities have | |
5392 | been added to Exim so that now two identical addresses that are children of | |
5393 | other addresses may be routed differently as a result of their previous | |
5394 | routing history. For example, different redirect routers may have given | |
5395 | them different redirect_router values, but there are other cases too. | |
5396 | Therefore, tests for duplicates now take place when routing is complete. | |
5397 | This is the old code, kept for a while for the record, and in case this | |
63955bf2 | 5398 | radical change has to be backed out for some reason. */ |
d7174846 PH |
5399 | |
5400 | #ifdef NEVER | |
059ec3d9 PH |
5401 | /* If it's a duplicate, remember what it's a duplicate of */ |
5402 | ||
5403 | if ((tnode = tree_search(tree_duplicates, addr->unique)) != NULL) | |
5404 | { | |
5405 | DEBUG(D_deliver|D_route) | |
5406 | debug_printf("%s is a duplicate address: discarded\n", addr->unique); | |
5407 | addr->dupof = tnode->data.ptr; | |
5408 | addr->next = addr_duplicate; | |
5409 | addr_duplicate = addr; | |
5410 | continue; | |
5411 | } | |
5412 | ||
5413 | /* Record this address, so subsequent duplicates get picked up. */ | |
5414 | ||
5415 | tree_add_duplicate(addr->unique, addr); | |
d7174846 PH |
5416 | #endif |
5417 | ||
5418 | ||
059ec3d9 PH |
5419 | |
5420 | /* Get the routing retry status, saving the two retry keys (with and | |
5421 | without the local part) for subsequent use. Ignore retry records that | |
5422 | are too old. */ | |
5423 | ||
5424 | addr->domain_retry_key = string_sprintf("R:%s", addr->domain); | |
5425 | addr->address_retry_key = string_sprintf("R:%s@%s", addr->local_part, | |
5426 | addr->domain); | |
5427 | ||
5428 | if (dbm_file == NULL) | |
5429 | domain_retry_record = address_retry_record = NULL; | |
5430 | else | |
5431 | { | |
5432 | domain_retry_record = dbfn_read(dbm_file, addr->domain_retry_key); | |
5433 | if (domain_retry_record != NULL && | |
5434 | now - domain_retry_record->time_stamp > retry_data_expire) | |
5435 | domain_retry_record = NULL; | |
5436 | ||
5437 | address_retry_record = dbfn_read(dbm_file, addr->address_retry_key); | |
5438 | if (address_retry_record != NULL && | |
5439 | now - address_retry_record->time_stamp > retry_data_expire) | |
5440 | address_retry_record = NULL; | |
5441 | } | |
5442 | ||
5443 | DEBUG(D_deliver|D_retry) | |
5444 | { | |
5445 | if (domain_retry_record == NULL) | |
5446 | debug_printf("no domain retry record\n"); | |
5447 | if (address_retry_record == NULL) | |
5448 | debug_printf("no address retry record\n"); | |
5449 | } | |
5450 | ||
5451 | /* If we are sending a message down an existing SMTP connection, we must | |
5452 | assume that the message which created the connection managed to route | |
5453 | an address to that connection. We do not want to run the risk of taking | |
5454 | a long time over routing here, because if we do, the server at the other | |
5455 | end of the connection may time it out. This is especially true for messages | |
5456 | with lots of addresses. For this kind of delivery, queue_running is not | |
5457 | set, so we would normally route all addresses. We take a pragmatic approach | |
5458 | and defer routing any addresses that have any kind of domain retry record. | |
5459 | That is, we don't even look at their retry times. It doesn't matter if this | |
5460 | doesn't work occasionally. This is all just an optimization, after all. | |
5461 | ||
5462 | The reason for not doing the same for address retries is that they normally | |
5463 | arise from 4xx responses, not DNS timeouts. */ | |
5464 | ||
5465 | if (continue_hostname != NULL && domain_retry_record != NULL) | |
5466 | { | |
5467 | addr->message = US"reusing SMTP connection skips previous routing defer"; | |
5468 | addr->basic_errno = ERRNO_RRETRY; | |
5469 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_ROUTER, 0); | |
5470 | } | |
5471 | ||
5472 | /* If queue_running, defer routing unless no retry data or we've | |
5473 | passed the next retry time, or this message is forced. However, | |
5474 | if the retry time has expired, allow the routing attempt. | |
5475 | If it fails again, the address will be failed. This ensures that | |
5476 | each address is routed at least once, even after long-term routing | |
5477 | failures. | |
5478 | ||
5479 | If there is an address retry, check that too; just wait for the next | |
5480 | retry time. This helps with the case when the temporary error on the | |
5481 | address was really message-specific rather than address specific, since | |
5482 | it allows other messages through. */ | |
5483 | ||
5484 | else if (!deliver_force && queue_running && | |
5485 | ((domain_retry_record != NULL && | |
5486 | now < domain_retry_record->next_try && | |
5487 | !domain_retry_record->expired) | |
5488 | || | |
5489 | (address_retry_record != NULL && | |
5490 | now < address_retry_record->next_try)) | |
5491 | ) | |
5492 | { | |
5493 | addr->message = US"retry time not reached"; | |
5494 | addr->basic_errno = ERRNO_RRETRY; | |
5495 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_ROUTER, 0); | |
5496 | } | |
5497 | ||
5498 | /* The domain is OK for routing. Remember if retry data exists so it | |
5499 | can be cleaned up after a successful delivery. */ | |
5500 | ||
5501 | else | |
5502 | { | |
5503 | if (domain_retry_record != NULL || address_retry_record != NULL) | |
5504 | setflag(addr, af_dr_retry_exists); | |
5505 | addr->next = addr_route; | |
5506 | addr_route = addr; | |
5507 | DEBUG(D_deliver|D_route) | |
5508 | debug_printf("%s: queued for routing\n", addr->address); | |
5509 | } | |
5510 | } | |
5511 | ||
5512 | /* The database is closed while routing is actually happening. Requests to | |
5513 | update it are put on a chain and all processed together at the end. */ | |
5514 | ||
5515 | if (dbm_file != NULL) dbfn_close(dbm_file); | |
5516 | ||
5517 | /* If queue_domains is set, we don't even want to try routing addresses in | |
5518 | those domains. During queue runs, queue_domains is forced to be unset. | |
5519 | Optimize by skipping this pass through the addresses if nothing is set. */ | |
5520 | ||
5521 | if (!deliver_force && queue_domains != NULL) | |
5522 | { | |
5523 | address_item *okaddr = NULL; | |
5524 | while (addr_route != NULL) | |
5525 | { | |
5526 | address_item *addr = addr_route; | |
5527 | addr_route = addr->next; | |
5528 | ||
5529 | deliver_domain = addr->domain; /* set $domain */ | |
5530 | if ((rc = match_isinlist(addr->domain, &queue_domains, 0, | |
5531 | &domainlist_anchor, addr->domain_cache, MCL_DOMAIN, TRUE, NULL)) | |
5532 | != OK) | |
5533 | { | |
5534 | if (rc == DEFER) | |
5535 | { | |
5536 | addr->basic_errno = ERRNO_LISTDEFER; | |
5537 | addr->message = US"queue_domains lookup deferred"; | |
5538 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_ROUTER, 0); | |
5539 | } | |
5540 | else | |
5541 | { | |
5542 | addr->next = okaddr; | |
5543 | okaddr = addr; | |
5544 | } | |
5545 | } | |
5546 | else | |
5547 | { | |
5548 | addr->basic_errno = ERRNO_QUEUE_DOMAIN; | |
5549 | addr->message = US"domain is in queue_domains"; | |
5550 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_ROUTER, 0); | |
5551 | } | |
5552 | } | |
5553 | ||
5554 | addr_route = okaddr; | |
5555 | } | |
5556 | ||
5557 | /* Now route those addresses that are not deferred. */ | |
5558 | ||
5559 | while (addr_route != NULL) | |
5560 | { | |
5561 | int rc; | |
5562 | address_item *addr = addr_route; | |
5563 | uschar *old_domain = addr->domain; | |
5564 | uschar *old_unique = addr->unique; | |
5565 | addr_route = addr->next; | |
5566 | addr->next = NULL; | |
5567 | ||
5568 | /* Just in case some router parameter refers to it. */ | |
5569 | ||
5570 | return_path = (addr->p.errors_address != NULL)? | |
5571 | addr->p.errors_address : sender_address; | |
5572 | ||
5573 | /* If a router defers an address, add a retry item. Whether or not to | |
5574 | use the local part in the key is a property of the router. */ | |
5575 | ||
5576 | if ((rc = route_address(addr, &addr_local, &addr_remote, &addr_new, | |
5577 | &addr_succeed, v_none)) == DEFER) | |
5578 | retry_add_item(addr, (addr->router->retry_use_local_part)? | |
5579 | string_sprintf("R:%s@%s", addr->local_part, addr->domain) : | |
5580 | string_sprintf("R:%s", addr->domain), 0); | |
5581 | ||
5582 | /* Otherwise, if there is an existing retry record in the database, add | |
5583 | retry items to delete both forms. Since the domain might have been | |
5584 | rewritten (expanded to fully qualified) as a result of routing, ensure | |
5585 | that the rewritten form is also deleted. */ | |
5586 | ||
5587 | else if (testflag(addr, af_dr_retry_exists)) | |
5588 | { | |
5589 | retry_add_item(addr, addr->address_retry_key, rf_delete); | |
5590 | retry_add_item(addr, addr->domain_retry_key, rf_delete); | |
5591 | if (Ustrcmp(addr->domain, old_domain) != 0) | |
5592 | retry_add_item(addr, string_sprintf("R:%s", old_domain), rf_delete); | |
5593 | } | |
5594 | ||
5595 | /* DISCARD is given for :blackhole: and "seen finish". The event has been | |
5596 | logged, but we need to ensure the address (and maybe parents) is marked | |
5597 | done. */ | |
5598 | ||
5599 | if (rc == DISCARD) | |
5600 | { | |
5601 | address_done(addr, tod_stamp(tod_log)); | |
5602 | continue; /* route next address */ | |
5603 | } | |
5604 | ||
5605 | /* The address is finished with (failed or deferred). */ | |
5606 | ||
5607 | if (rc != OK) | |
5608 | { | |
5609 | (void)post_process_one(addr, rc, LOG_MAIN, DTYPE_ROUTER, 0); | |
5610 | continue; /* route next address */ | |
5611 | } | |
5612 | ||
5613 | /* The address has been routed. If the router changed the domain, it will | |
5614 | also have changed the unique address. We have to test whether this address | |
5615 | has already been delivered, because it's the unique address that finally | |
5616 | gets recorded. */ | |
5617 | ||
5618 | if (addr->unique != old_unique && | |
5619 | tree_search(tree_nonrecipients, addr->unique) != 0) | |
5620 | { | |
5621 | DEBUG(D_deliver|D_route) debug_printf("%s was previously delivered: " | |
5622 | "discarded\n", addr->address); | |
5623 | if (addr_remote == addr) addr_remote = addr->next; | |
5624 | else if (addr_local == addr) addr_local = addr->next; | |
5625 | } | |
5626 | ||
5627 | /* If the router has same_domain_copy_routing set, we are permitted to copy | |
5628 | the routing for any other addresses with the same domain. This is an | |
5629 | optimisation to save repeated DNS lookups for "standard" remote domain | |
5630 | routing. The option is settable only on routers that generate host lists. | |
5631 | We play it very safe, and do the optimization only if the address is routed | |
5632 | to a remote transport, there are no header changes, and the domain was not | |
5633 | modified by the router. */ | |
5634 | ||
5635 | if (addr_remote == addr && | |
5636 | addr->router->same_domain_copy_routing && | |
5637 | addr->p.extra_headers == NULL && | |
5638 | addr->p.remove_headers == NULL && | |
5639 | old_domain == addr->domain) | |
5640 | { | |
5641 | address_item **chain = &addr_route; | |
5642 | while (*chain != NULL) | |
5643 | { | |
5644 | address_item *addr2 = *chain; | |
5645 | if (Ustrcmp(addr2->domain, addr->domain) != 0) | |
5646 | { | |
5647 | chain = &(addr2->next); | |
5648 | continue; | |
5649 | } | |
5650 | ||
5651 | /* Found a suitable address; take it off the routing list and add it to | |
5652 | the remote delivery list. */ | |
5653 | ||
5654 | *chain = addr2->next; | |
5655 | addr2->next = addr_remote; | |
5656 | addr_remote = addr2; | |
5657 | ||
5658 | /* Copy the routing data */ | |
5659 | ||
5660 | addr2->domain = addr->domain; | |
5661 | addr2->router = addr->router; | |
5662 | addr2->transport = addr->transport; | |
5663 | addr2->host_list = addr->host_list; | |
5664 | addr2->fallback_hosts = addr->fallback_hosts; | |
5665 | addr2->p.errors_address = addr->p.errors_address; | |
5666 | copyflag(addr2, addr, af_hide_child | af_local_host_removed); | |
5667 | ||
5668 | DEBUG(D_deliver|D_route) | |
5669 | { | |
5670 | debug_printf(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n" | |
5671 | "routing %s\n" | |
5672 | "Routing for %s copied from %s\n", | |
5673 | addr2->address, addr2->address, addr->address); | |
5674 | } | |
5675 | } | |
5676 | } | |
5677 | } /* Continue with routing the next address. */ | |
5678 | } /* Loop to process any child addresses that the routers created, and | |
5679 | any rerouted addresses that got put back on the new chain. */ | |
5680 | ||
5681 | ||
5682 | /* Debugging: show the results of the routing */ | |
5683 | ||
5684 | DEBUG(D_deliver|D_retry|D_route) | |
5685 | { | |
5686 | address_item *p = addr_local; | |
5687 | debug_printf(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n"); | |
5688 | debug_printf("After routing:\n Local deliveries:\n"); | |
5689 | while (p != NULL) | |
5690 | { | |
5691 | debug_printf(" %s\n", p->address); | |
5692 | p = p->next; | |
5693 | } | |
5694 | ||
5695 | p = addr_remote; | |
5696 | debug_printf(" Remote deliveries:\n"); | |
5697 | while (p != NULL) | |
5698 | { | |
5699 | debug_printf(" %s\n", p->address); | |
5700 | p = p->next; | |
5701 | } | |
5702 | ||
5703 | p = addr_failed; | |
5704 | debug_printf(" Failed addresses:\n"); | |
5705 | while (p != NULL) | |
5706 | { | |
5707 | debug_printf(" %s\n", p->address); | |
5708 | p = p->next; | |
5709 | } | |
5710 | ||
5711 | p = addr_defer; | |
5712 | debug_printf(" Deferred addresses:\n"); | |
5713 | while (p != NULL) | |
5714 | { | |
5715 | debug_printf(" %s\n", p->address); | |
5716 | p = p->next; | |
5717 | } | |
5718 | } | |
5719 | ||
5720 | /* Free any resources that were cached during routing. */ | |
5721 | ||
5722 | search_tidyup(); | |
5723 | route_tidyup(); | |
5724 | ||
5725 | /* These two variables are set only during routing, after check_local_user. | |
5726 | Ensure they are not set in transports. */ | |
5727 | ||
5728 | local_user_gid = (gid_t)(-1); | |
5729 | local_user_uid = (uid_t)(-1); | |
5730 | ||
d7174846 PH |
5731 | |
5732 | /* !!!OLD-DE-DUP!!! The next two statement were introduced when checking for | |
5733 | duplicates was moved from within routing to afterwards. If that change has to | |
5734 | be backed out, they should be removed. */ | |
5735 | ||
5736 | /* Check for any duplicate addresses. This check is delayed until after | |
5737 | routing, because the flexibility of the routing configuration means that | |
5738 | identical addresses with different parentage may end up being redirected to | |
5739 | different addresses. Checking for duplicates too early (as we previously used | |
5740 | to) makes this kind of thing not work. */ | |
5741 | ||
5742 | do_duplicate_check(&addr_local); | |
5743 | do_duplicate_check(&addr_remote); | |
5744 | ||
5745 | ||
059ec3d9 PH |
5746 | /* When acting as an MUA wrapper, we proceed only if all addresses route to a |
5747 | remote transport. The check that they all end up in one transaction happens in | |
5748 | the do_remote_deliveries() function. */ | |
5749 | ||
5750 | if (mua_wrapper && (addr_local != NULL || addr_failed != NULL || | |
5751 | addr_defer != NULL)) | |
5752 | { | |
5753 | address_item *addr; | |
5754 | uschar *which, *colon, *msg; | |
5755 | ||
5756 | if (addr_local != NULL) | |
5757 | { | |
5758 | addr = addr_local; | |
5759 | which = US"local"; | |
5760 | } | |
5761 | else if (addr_defer != NULL) | |
5762 | { | |
5763 | addr = addr_defer; | |
5764 | which = US"deferred"; | |
5765 | } | |
5766 | else | |
5767 | { | |
5768 | addr = addr_failed; | |
5769 | which = US"failed"; | |
5770 | } | |
5771 | ||
5772 | while (addr->parent != NULL) addr = addr->parent; | |
5773 | ||
5774 | if (addr->message != NULL) | |
5775 | { | |
5776 | colon = US": "; | |
5777 | msg = addr->message; | |
5778 | } | |
5779 | else colon = msg = US""; | |
5780 | ||
5781 | /* We don't need to log here for a forced failure as it will already | |
5782 | have been logged. Defer will also have been logged, but as a defer, so we do | |
5783 | need to do the failure logging. */ | |
5784 | ||
5785 | if (addr != addr_failed) | |
5786 | log_write(0, LOG_MAIN, "** %s routing yielded a %s delivery", | |
5787 | addr->address, which); | |
5788 | ||
5789 | /* Always write an error to the caller */ | |
5790 | ||
5791 | fprintf(stderr, "routing %s yielded a %s delivery%s%s\n", addr->address, | |
5792 | which, colon, msg); | |
5793 | ||
5794 | final_yield = DELIVER_MUA_FAILED; | |
5795 | addr_failed = addr_defer = NULL; /* So that we remove the message */ | |
5796 | goto DELIVERY_TIDYUP; | |
5797 | } | |
5798 | ||
5799 | ||
5800 | /* If this is a run to continue deliveries to an external channel that is | |
5801 | already set up, defer any local deliveries. */ | |
5802 | ||
5803 | if (continue_transport != NULL) | |
5804 | { | |
5805 | if (addr_defer == NULL) addr_defer = addr_local; else | |
5806 | { | |
5807 | address_item *addr = addr_defer; | |
5808 | while (addr->next != NULL) addr = addr->next; | |
5809 | addr->next = addr_local; | |
5810 | } | |
5811 | addr_local = NULL; | |
5812 | } | |
5813 | ||
5814 | ||
5815 | /* Because address rewriting can happen in the routers, we should not really do | |
5816 | ANY deliveries until all addresses have been routed, so that all recipients of | |
5817 | the message get the same headers. However, this is in practice not always | |
5818 | possible, since sometimes remote addresses give DNS timeouts for days on end. | |
5819 | The pragmatic approach is to deliver what we can now, saving any rewritten | |
5820 | headers so that at least the next lot of recipients benefit from the rewriting | |
5821 | that has already been done. | |
5822 | ||
5823 | If any headers have been rewritten during routing, update the spool file to | |
5824 | remember them for all subsequent deliveries. This can be delayed till later if | |
5825 | there is only address to be delivered - if it succeeds the spool write need not | |
5826 | happen. */ | |
5827 | ||
5828 | if (header_rewritten && | |
5829 | ((addr_local != NULL && | |
5830 | (addr_local->next != NULL || addr_remote != NULL)) || | |
5831 | (addr_remote != NULL && addr_remote->next != NULL))) | |
5832 | { | |
5833 | /* Panic-dies on error */ | |
5834 | (void)spool_write_header(message_id, SW_DELIVERING, NULL); | |
5835 | header_rewritten = FALSE; | |
5836 | } | |
5837 | ||
5838 | ||
5839 | /* If there are any deliveries to be done, open the journal file. This is used | |
5840 | to record successful deliveries as soon as possible after each delivery is | |
5841 | known to be complete. A file opened with O_APPEND is used so that several | |
5842 | processes can run simultaneously. | |
5843 | ||
5844 | The journal is just insurance against crashes. When the spool file is | |
5845 | ultimately updated at the end of processing, the journal is deleted. If a | |
5846 | journal is found to exist at the start of delivery, the addresses listed | |
5847 | therein are added to the non-recipients. */ | |
5848 | ||
5849 | if (addr_local != NULL || addr_remote != NULL) | |
5850 | { | |
5851 | sprintf(CS spoolname, "%s/input/%s/%s-J", spool_directory, message_subdir, id); | |
5852 | journal_fd = Uopen(spoolname, O_WRONLY|O_APPEND|O_CREAT, SPOOL_MODE); | |
5853 | ||
5854 | if (journal_fd < 0) | |
5855 | { | |
5856 | log_write(0, LOG_MAIN|LOG_PANIC, "Couldn't open journal file %s: %s", | |
5857 | spoolname, strerror(errno)); | |
5858 | return DELIVER_NOT_ATTEMPTED; | |
5859 | } | |
5860 | ||
5861 | /* Set the close-on-exec flag, make the file owned by Exim, and ensure | |
5862 | that the mode is correct - the group setting doesn't always seem to get | |
5863 | set automatically. */ | |
5864 | ||
ff790e47 PH |
5865 | (void)fcntl(journal_fd, F_SETFD, fcntl(journal_fd, F_GETFD) | FD_CLOEXEC); |
5866 | (void)fchown(journal_fd, exim_uid, exim_gid); | |
5867 | (void)fchmod(journal_fd, SPOOL_MODE); | |
059ec3d9 PH |
5868 | } |
5869 | ||
5870 | ||
5871 | /* Now we can get down to the business of actually doing deliveries. Local | |
5872 | deliveries are done first, then remote ones. If ever the problems of how to | |
5873 | handle fallback transports are figured out, this section can be put into a loop | |
5874 | for handling fallbacks, though the uid switching will have to be revised. */ | |
5875 | ||
f1513293 PH |
5876 | /* Precompile a regex that is used to recognize a parameter in response |
5877 | to an LHLO command, if is isn't already compiled. This may be used on both | |
5878 | local and remote LMTP deliveries. */ | |
5879 | ||
5880 | if (regex_IGNOREQUOTA == NULL) regex_IGNOREQUOTA = | |
5881 | regex_must_compile(US"\\n250[\\s\\-]IGNOREQUOTA(\\s|\\n|$)", FALSE, TRUE); | |
5882 | ||
5883 | /* Handle local deliveries */ | |
5884 | ||
059ec3d9 PH |
5885 | if (addr_local != NULL) |
5886 | { | |
5887 | DEBUG(D_deliver|D_transport) | |
5888 | debug_printf(">>>>>>>>>>>>>>>> Local deliveries >>>>>>>>>>>>>>>>\n"); | |
5889 | do_local_deliveries(); | |
5890 | disable_logging = FALSE; | |
5891 | } | |
5892 | ||
5893 | /* If queue_run_local is set, we do not want to attempt any remote deliveries, | |
5894 | so just queue them all. */ | |
5895 | ||
5896 | if (queue_run_local) | |
5897 | { | |
5898 | while (addr_remote != NULL) | |
5899 | { | |
5900 | address_item *addr = addr_remote; | |
5901 | addr_remote = addr->next; | |
5902 | addr->next = NULL; | |
5903 | addr->basic_errno = ERRNO_LOCAL_ONLY; | |
5904 | addr->message = US"remote deliveries suppressed"; | |
5905 | (void)post_process_one(addr, DEFER, LOG_MAIN, DTYPE_TRANSPORT, 0); | |
5906 | } | |
5907 | } | |
5908 | ||
5909 | /* Handle remote deliveries */ | |
5910 | ||
5911 | if (addr_remote != NULL) | |
5912 | { | |
5913 | DEBUG(D_deliver|D_transport) | |
5914 | debug_printf(">>>>>>>>>>>>>>>> Remote deliveries >>>>>>>>>>>>>>>>\n"); | |
5915 | ||
5916 | /* Precompile some regex that are used to recognize parameters in response | |
5917 | to an EHLO command, if they aren't already compiled. */ | |
5918 | ||
5919 | if (regex_PIPELINING == NULL) regex_PIPELINING = | |
5920 | regex_must_compile(US"\\n250[\\s\\-]PIPELINING(\\s|\\n|$)", FALSE, TRUE); | |
5921 | ||
5922 | if (regex_SIZE == NULL) regex_SIZE = | |
5923 | regex_must_compile(US"\\n250[\\s\\-]SIZE(\\s|\\n|$)", FALSE, TRUE); | |
5924 | ||
5925 | if (regex_AUTH == NULL) regex_AUTH = | |
5926 | regex_must_compile(US"\\n250[\\s\\-]AUTH\\s+([\\-\\w\\s]+)(?:\\n|$)", | |
5927 | FALSE, TRUE); | |
5928 | ||
5929 | #ifdef SUPPORT_TLS | |
5930 | if (regex_STARTTLS == NULL) regex_STARTTLS = | |
5931 | regex_must_compile(US"\\n250[\\s\\-]STARTTLS(\\s|\\n|$)", FALSE, TRUE); | |
5932 | #endif | |
5933 | ||
5934 | /* Now sort the addresses if required, and do the deliveries. The yield of | |
5935 | do_remote_deliveries is FALSE when mua_wrapper is set and all addresses | |
5936 | cannot be delivered in one transaction. */ | |
5937 | ||
5938 | if (remote_sort_domains != NULL) sort_remote_deliveries(); | |
5939 | if (!do_remote_deliveries(FALSE)) | |
5940 | { | |
5941 | log_write(0, LOG_MAIN, "** mua_wrapper is set but recipients cannot all " | |
5942 | "be delivered in one transaction"); | |
5943 | fprintf(stderr, "delivery to smarthost failed (configuration problem)\n"); | |
5944 | ||
5945 | final_yield = DELIVER_MUA_FAILED; | |
5946 | addr_failed = addr_defer = NULL; /* So that we remove the message */ | |
5947 | goto DELIVERY_TIDYUP; | |
5948 | } | |
5949 | ||
5950 | /* See if any of the addresses that failed got put on the queue for delivery | |
5951 | to their fallback hosts. We do it this way because often the same fallback | |
5952 | host is used for many domains, so all can be sent in a single transaction | |
5953 | (if appropriately configured). */ | |
5954 | ||
5955 | if (addr_fallback != NULL && !mua_wrapper) | |
5956 | { | |
5957 | DEBUG(D_deliver) debug_printf("Delivering to fallback hosts\n"); | |
5958 | addr_remote = addr_fallback; | |
5959 | addr_fallback = NULL; | |
5960 | if (remote_sort_domains != NULL) sort_remote_deliveries(); | |
5961 | do_remote_deliveries(TRUE); | |
5962 | } | |
5963 | disable_logging = FALSE; | |
5964 | } | |
5965 | ||
5966 | ||
5967 | /* All deliveries are now complete. Ignore SIGTERM during this tidying up | |
5968 | phase, to minimize cases of half-done things. */ | |
5969 | ||
5970 | DEBUG(D_deliver) | |
5971 | debug_printf(">>>>>>>>>>>>>>>> deliveries are done >>>>>>>>>>>>>>>>\n"); | |
5972 | ||
5973 | /* Root privilege is no longer needed */ | |
5974 | ||
5975 | exim_setugid(exim_uid, exim_gid, FALSE, US"post-delivery tidying"); | |
5976 | ||
5977 | set_process_info("tidying up after delivering %s", message_id); | |
5978 | signal(SIGTERM, SIG_IGN); | |
5979 | ||
5980 | /* When we are acting as an MUA wrapper, the smtp transport will either have | |
47c7a64a PH |
5981 | succeeded for all addresses, or failed them all in normal cases. However, there |
5982 | are some setup situations (e.g. when a named port does not exist) that cause an | |
5983 | immediate exit with deferral of all addresses. Convert those into failures. We | |
5984 | do not ever want to retry, nor do we want to send a bounce message. */ | |
059ec3d9 PH |
5985 | |
5986 | if (mua_wrapper) | |
5987 | { | |
47c7a64a PH |
5988 | if (addr_defer != NULL) |
5989 | { | |
5990 | address_item *addr, *nextaddr; | |
5991 | for (addr = addr_defer; addr != NULL; addr = nextaddr) | |
5992 | { | |
5993 | log_write(0, LOG_MAIN, "** %s mua_wrapper forced failure for deferred " | |
5994 | "delivery", addr->address); | |
5995 | nextaddr = addr->next; | |
5996 | addr->next = addr_failed; | |
5997 | addr_failed = addr; | |
5998 | } | |
5999 | addr_defer = NULL; | |
6000 | } | |
6001 | ||
6002 | /* Now all should either have succeeded or failed. */ | |
6003 | ||
059ec3d9 PH |
6004 | if (addr_failed == NULL) final_yield = DELIVER_MUA_SUCCEEDED; else |
6005 | { | |
6006 | uschar *s = (addr_failed->user_message != NULL)? | |
6007 | addr_failed->user_message : addr_failed->message; | |
6008 | ||
6009 | fprintf(stderr, "Delivery failed: "); | |
6010 | if (addr_failed->basic_errno > 0) | |
6011 | { | |
6012 | fprintf(stderr, "%s", strerror(addr_failed->basic_errno)); | |
6013 | if (s != NULL) fprintf(stderr, ": "); | |
6014 | } | |
6015 | if (s == NULL) | |
6016 | { | |
6017 | if (addr_failed->basic_errno <= 0) fprintf(stderr, "unknown error"); | |
6018 | } | |
6019 | else fprintf(stderr, "%s", CS s); | |
6020 | fprintf(stderr, "\n"); | |
6021 | ||
6022 | final_yield = DELIVER_MUA_FAILED; | |
6023 | addr_failed = NULL; | |
6024 | } | |
6025 | } | |
6026 | ||
6027 | /* In a normal configuration, we now update the retry database. This is done in | |
6028 | one fell swoop at the end in order not to keep opening and closing (and | |
6029 | locking) the database. The code for handling retries is hived off into a | |
6030 | separate module for convenience. We pass it the addresses of the various | |
6031 | chains, because deferred addresses can get moved onto the failed chain if the | |
6032 | retry cutoff time has expired for all alternative destinations. Bypass the | |
6033 | updating of the database if the -N flag is set, which is a debugging thing that | |
6034 | prevents actual delivery. */ | |
6035 | ||
6036 | else if (!dont_deliver) retry_update(&addr_defer, &addr_failed, &addr_succeed); | |
6037 | ||
6038 | /* If any addresses failed, we must send a message to somebody, unless | |
6039 | af_ignore_error is set, in which case no action is taken. It is possible for | |
6040 | several messages to get sent if there are addresses with different | |
6041 | requirements. */ | |
6042 | ||
6043 | while (addr_failed != NULL) | |
6044 | { | |
6045 | pid_t pid; | |
6046 | int fd; | |
6047 | uschar *logtod = tod_stamp(tod_log); | |
6048 | address_item *addr; | |
6049 | address_item *handled_addr = NULL; | |
6050 | address_item **paddr; | |
6051 | address_item *msgchain = NULL; | |
6052 | address_item **pmsgchain = &msgchain; | |
6053 | ||
6054 | /* There are weird cases when logging is disabled in the transport. However, | |
6055 | there may not be a transport (address failed by a router). */ | |
6056 | ||
6057 | disable_logging = FALSE; | |
6058 | if (addr_failed->transport != NULL) | |
6059 | disable_logging = addr_failed->transport->disable_logging; | |
6060 | ||
6061 | DEBUG(D_deliver) | |
6062 | debug_printf("processing failed address %s\n", addr_failed->address); | |
6063 | ||
6064 | /* There are only two ways an address in a bounce message can get here: | |
6065 | ||
6066 | (1) When delivery was initially deferred, but has now timed out (in the call | |
6067 | to retry_update() above). We can detect this by testing for | |
6068 | af_retry_timedout. If the address does not have its own errors address, | |
6069 | we arrange to ignore the error. | |
6070 | ||
6071 | (2) If delivery failures for bounce messages are being ignored. We can detect | |
6072 | this by testing for af_ignore_error. This will also be set if a bounce | |
6073 | message has been autothawed and the ignore_bounce_errors_after time has | |
6074 | passed. It might also be set if a router was explicitly configured to | |
6075 | ignore errors (errors_to = ""). | |
6076 | ||
6077 | If neither of these cases obtains, something has gone wrong. Log the | |
6078 | incident, but then ignore the error. */ | |
6079 | ||
6080 | if (sender_address[0] == 0 && addr_failed->p.errors_address == NULL) | |
6081 | { | |
6082 | if (!testflag(addr_failed, af_retry_timedout) && | |
6083 | !testflag(addr_failed, af_ignore_error)) | |
6084 | { | |
6085 | log_write(0, LOG_MAIN|LOG_PANIC, "internal error: bounce message " | |
6086 | "failure is neither frozen nor ignored (it's been ignored)"); | |
6087 | } | |
6088 | setflag(addr_failed, af_ignore_error); | |
6089 | } | |
6090 | ||
6091 | /* If the first address on the list has af_ignore_error set, just remove | |
6092 | it from the list, throw away any saved message file, log it, and | |
6093 | mark the recipient done. */ | |
6094 | ||
6095 | if (testflag(addr_failed, af_ignore_error)) | |
6096 | { | |
6097 | addr = addr_failed; | |
6098 | addr_failed = addr->next; | |
6099 | if (addr->return_filename != NULL) Uunlink(addr->return_filename); | |
6100 | ||
6101 | log_write(0, LOG_MAIN, "%s%s%s%s: error ignored", | |
6102 | addr->address, | |
6103 | (addr->parent == NULL)? US"" : US" <", | |
6104 | (addr->parent == NULL)? US"" : addr->parent->address, | |
6105 | (addr->parent == NULL)? US"" : US">"); | |
6106 | ||
6107 | address_done(addr, logtod); | |
6108 | child_done(addr, logtod); | |
6109 | /* Panic-dies on error */ | |
6110 | (void)spool_write_header(message_id, SW_DELIVERING, NULL); | |
6111 | } | |
6112 | ||
6113 | /* Otherwise, handle the sending of a message. Find the error address for | |
6114 | the first address, then send a message that includes all failed addresses | |
6115 | that have the same error address. Note the bounce_recipient is a global so | |
6116 | that it can be accesssed by $bounce_recipient while creating a customized | |
6117 | error message. */ | |
6118 | ||
6119 | else | |
6120 | { | |
6121 | bounce_recipient = (addr_failed->p.errors_address == NULL)? | |
6122 | sender_address : addr_failed->p.errors_address; | |
6123 | ||
6124 | /* Make a subprocess to send a message */ | |
6125 | ||
6126 | pid = child_open_exim(&fd); | |
6127 | ||
6128 | /* Creation of child failed */ | |
6129 | ||
6130 | if (pid < 0) | |
6131 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "Process %d (parent %d) failed to " | |
6132 | "create child process to send failure message: %s", getpid(), | |
6133 | getppid(), strerror(errno)); | |
6134 | ||
6135 | /* Creation of child succeeded */ | |
6136 | ||
6137 | else | |
6138 | { | |
6139 | int ch, rc; | |
6140 | int filecount = 0; | |
6141 | int rcount = 0; | |
6142 | uschar *bcc, *emf_text; | |
6143 | FILE *f = fdopen(fd, "wb"); | |
6144 | FILE *emf = NULL; | |
6145 | BOOL to_sender = strcmpic(sender_address, bounce_recipient) == 0; | |
6146 | int max = (bounce_return_size_limit/DELIVER_IN_BUFFER_SIZE + 1) * | |
6147 | DELIVER_IN_BUFFER_SIZE; | |
6148 | ||
6149 | DEBUG(D_deliver) | |
6150 | debug_printf("sending error message to: %s\n", bounce_recipient); | |
6151 | ||
6152 | /* Scan the addresses for all that have the same errors address, removing | |
6153 | them from the addr_failed chain, and putting them on msgchain. */ | |
6154 | ||
6155 | paddr = &addr_failed; | |
6156 | for (addr = addr_failed; addr != NULL; addr = *paddr) | |
6157 | { | |
6158 | if (Ustrcmp(bounce_recipient, (addr->p.errors_address == NULL)? | |
6159 | sender_address : addr->p.errors_address) != 0) | |
6160 | { | |
6161 | paddr = &(addr->next); /* Not the same; skip */ | |
6162 | } | |
6163 | else /* The same - dechain */ | |
6164 | { | |
6165 | *paddr = addr->next; | |
6166 | *pmsgchain = addr; | |
6167 | addr->next = NULL; | |
6168 | pmsgchain = &(addr->next); | |
6169 | } | |
6170 | } | |
6171 | ||
6172 | /* Include X-Failed-Recipients: for automatic interpretation, but do | |
6173 | not let any one header line get too long. We do this by starting a | |
6174 | new header every 50 recipients. Omit any addresses for which the | |
6175 | "hide_child" flag is set. */ | |
6176 | ||
6177 | for (addr = msgchain; addr != NULL; addr = addr->next) | |
6178 | { | |
6179 | if (testflag(addr, af_hide_child)) continue; | |
6180 | if (rcount >= 50) | |
6181 | { | |
6182 | fprintf(f, "\n"); | |
6183 | rcount = 0; | |
6184 | } | |
6185 | fprintf(f, "%s%s", | |
6186 | (rcount++ == 0)? "X-Failed-Recipients: " : ",\n ", | |
6187 | (testflag(addr, af_pfr) && addr->parent != NULL)? | |
6188 | string_printing(addr->parent->address) : | |
6189 | string_printing(addr->address)); | |
6190 | } | |
6191 | if (rcount > 0) fprintf(f, "\n"); | |
6192 | ||
6193 | /* Output the standard headers */ | |
6194 | ||
6195 | if (errors_reply_to != NULL) | |
6196 | fprintf(f, "Reply-To: %s\n", errors_reply_to); | |
456682f5 | 6197 | fprintf(f, "Auto-Submitted: auto-replied\n"); |
059ec3d9 PH |
6198 | fprintf(f, "From: Mail Delivery System <Mailer-Daemon@%s>\n", |
6199 | qualify_domain_sender); | |
6200 | fprintf(f, "To: %s\n", bounce_recipient); | |
6201 | ||
6202 | /* Open a template file if one is provided. Log failure to open, but | |
6203 | carry on - default texts will be used. */ | |
6204 | ||
6205 | if (bounce_message_file != NULL) | |
6206 | { | |
6207 | emf = Ufopen(bounce_message_file, "rb"); | |
6208 | if (emf == NULL) | |
6209 | log_write(0, LOG_MAIN|LOG_PANIC, "Failed to open %s for error " | |
6210 | "message texts: %s", bounce_message_file, strerror(errno)); | |
6211 | } | |
6212 | ||
6213 | /* Quietly copy to configured additional addresses if required. */ | |
6214 | ||
6215 | bcc = moan_check_errorcopy(bounce_recipient); | |
6216 | if (bcc != NULL) fprintf(f, "Bcc: %s\n", bcc); | |
6217 | ||
6218 | /* The texts for the message can be read from a template file; if there | |
6219 | isn't one, or if it is too short, built-in texts are used. The first | |
6220 | emf text is a Subject: and any other headers. */ | |
6221 | ||
6222 | emf_text = next_emf(emf, US"header"); | |
6223 | if (emf_text != NULL) fprintf(f, "%s\n", emf_text); else | |
6224 | { | |
6225 | fprintf(f, "Subject: Mail delivery failed%s\n\n", | |
6226 | to_sender? ": returning message to sender" : ""); | |
6227 | } | |
6228 | ||
6229 | emf_text = next_emf(emf, US"intro"); | |
6230 | if (emf_text != NULL) fprintf(f, "%s", CS emf_text); else | |
6231 | { | |
6232 | fprintf(f, | |
6233 | /* This message has been reworded several times. It seems to be confusing to | |
6234 | somebody, however it is worded. I have retreated to the original, simple | |
6235 | wording. */ | |
6236 | "This message was created automatically by mail delivery software.\n"); | |
6237 | if (bounce_message_text != NULL) fprintf(f, "%s", CS bounce_message_text); | |
6238 | if (to_sender) | |
6239 | { | |
6240 | fprintf(f, | |
6241 | "\nA message that you sent could not be delivered to one or more of its\n" | |
6242 | "recipients. This is a permanent error. The following address(es) failed:\n"); | |
6243 | } | |
6244 | else | |
6245 | { | |
6246 | fprintf(f, | |
6247 | "\nA message sent by\n\n <%s>\n\n" | |
6248 | "could not be delivered to one or more of its recipients. The following\n" | |
6249 | "address(es) failed:\n", sender_address); | |
6250 | } | |
6251 | } | |
6252 | fprintf(f, "\n"); | |
6253 | ||
6254 | /* Process the addresses, leaving them on the msgchain if they have a | |
6255 | file name for a return message. (There has already been a check in | |
447d236c PH |
6256 | post_process_one() for the existence of data in the message file.) A TRUE |
6257 | return from print_address_information() means that the address is not | |
6258 | hidden. */ | |
059ec3d9 PH |
6259 | |
6260 | paddr = &msgchain; | |
6261 | for (addr = msgchain; addr != NULL; addr = *paddr) | |
6262 | { | |
6263 | if (print_address_information(addr, f, US" ", US"\n ", US"")) | |
447d236c | 6264 | print_address_error(addr, f, US""); |
059ec3d9 PH |
6265 | |
6266 | /* End the final line for the address */ | |
6267 | ||
6268 | fputc('\n', f); | |
6269 | ||
6270 | /* Leave on msgchain if there's a return file. */ | |
6271 | ||
6272 | if (addr->return_file >= 0) | |
6273 | { | |
6274 | paddr = &(addr->next); | |
6275 | filecount++; | |
6276 | } | |
6277 | ||
6278 | /* Else save so that we can tick off the recipient when the | |
6279 | message is sent. */ | |
6280 | ||
6281 | else | |
6282 | { | |
6283 | *paddr = addr->next; | |
6284 | addr->next = handled_addr; | |
6285 | handled_addr = addr; | |
6286 | } | |
6287 | } | |
6288 | ||
6289 | fprintf(f, "\n"); | |
6290 | ||
6291 | /* Get the next text, whether we need it or not, so as to be | |
6292 | positioned for the one after. */ | |
6293 | ||
6294 | emf_text = next_emf(emf, US"generated text"); | |
6295 | ||
6296 | /* If there were any file messages passed by the local transports, | |
6297 | include them in the message. Then put the address on the handled chain. | |
6298 | In the case of a batch of addresses that were all sent to the same | |
6299 | transport, the return_file field in all of them will contain the same | |
6300 | fd, and the return_filename field in the *last* one will be set (to the | |
6301 | name of the file). */ | |
6302 | ||
6303 | if (msgchain != NULL) | |
6304 | { | |
6305 | address_item *nextaddr; | |
6306 | ||
6307 | if (emf_text != NULL) fprintf(f, "%s", CS emf_text); else | |
6308 | fprintf(f, | |
6309 | "The following text was generated during the delivery " | |
6310 | "attempt%s:\n", (filecount > 1)? "s" : ""); | |
6311 | ||
6312 | for (addr = msgchain; addr != NULL; addr = nextaddr) | |
6313 | { | |
6314 | FILE *fm; | |
6315 | address_item *topaddr = addr; | |
6316 | ||
6317 | /* List all the addresses that relate to this file */ | |
6318 | ||
6319 | fprintf(f, "\n"); | |
6320 | while(addr != NULL) /* Insurance */ | |
6321 | { | |
6322 | print_address_information(addr, f, US"------ ", US"\n ", | |
6323 | US" ------\n"); | |
6324 | if (addr->return_filename != NULL) break; | |
6325 | addr = addr->next; | |
6326 | } | |
6327 | fprintf(f, "\n"); | |
6328 | ||
6329 | /* Now copy the file */ | |
6330 | ||
6331 | fm = Ufopen(addr->return_filename, "rb"); | |
6332 | ||
6333 | if (fm == NULL) | |
6334 | fprintf(f, " +++ Exim error... failed to open text file: %s\n", | |
6335 | strerror(errno)); | |
6336 | else | |
6337 | { | |
6338 | while ((ch = fgetc(fm)) != EOF) fputc(ch, f); | |
f1e894f3 | 6339 | (void)fclose(fm); |
059ec3d9 PH |
6340 | } |
6341 | Uunlink(addr->return_filename); | |
6342 | ||
6343 | /* Can now add to handled chain, first fishing off the next | |
6344 | address on the msgchain. */ | |
6345 | ||
6346 | nextaddr = addr->next; | |
6347 | addr->next = handled_addr; | |
6348 | handled_addr = topaddr; | |
6349 | } | |
6350 | fprintf(f, "\n"); | |
6351 | } | |
6352 | ||
6353 | /* Now copy the message, trying to give an intelligible comment if | |
6354 | it is too long for it all to be copied. The limit isn't strictly | |
6355 | applied because of the buffering. There is, however, an option | |
6356 | to suppress copying altogether. */ | |
6357 | ||
6358 | emf_text = next_emf(emf, US"copy"); | |
6359 | ||
6360 | if (bounce_return_message) | |
6361 | { | |
6362 | int topt = topt_add_return_path; | |
6363 | if (!bounce_return_body) topt |= topt_no_body; | |
6364 | ||
6365 | if (emf_text != NULL) fprintf(f, "%s", CS emf_text); else | |
6366 | { | |
6367 | if (bounce_return_body) fprintf(f, | |
6368 | "------ This is a copy of the message, including all the headers. ------\n"); | |
6369 | else fprintf(f, | |
6370 | "------ This is a copy of the message's headers. ------\n"); | |
6371 | } | |
6372 | ||
6373 | /* While reading the "truncated" message, set return_size_limit to | |
6374 | the actual max testing value, rounded. We need to read the message | |
6375 | whether we are going to use it or not. */ | |
6376 | ||
6377 | { | |
6378 | int temp = bounce_return_size_limit; | |
6379 | bounce_return_size_limit = (max/1000)*1000; | |
6380 | emf_text = next_emf(emf, US"truncated"); | |
6381 | bounce_return_size_limit = temp; | |
6382 | } | |
6383 | ||
6384 | if (bounce_return_body && bounce_return_size_limit > 0) | |
6385 | { | |
6386 | struct stat statbuf; | |
6387 | if (fstat(deliver_datafile, &statbuf) == 0 && statbuf.st_size > max) | |
6388 | { | |
6389 | if (emf_text != NULL) fprintf(f, "%s", CS emf_text); else | |
6390 | { | |
6391 | fprintf(f, | |
b1c749bb PH |
6392 | "------ The body of the message is " OFF_T_FMT " characters long; only the first\n" |
6393 | "------ %d or so are included here.\n", statbuf.st_size, max); | |
059ec3d9 PH |
6394 | } |
6395 | } | |
6396 | } | |
6397 | ||
6398 | fprintf(f, "\n"); | |
6399 | fflush(f); | |
6400 | transport_filter_argv = NULL; /* Just in case */ | |
6401 | return_path = sender_address; /* In case not previously set */ | |
6402 | transport_write_message(NULL, fileno(f), topt, | |
6403 | bounce_return_size_limit, NULL, NULL, NULL, NULL, NULL, 0); | |
6404 | } | |
6405 | ||
6406 | /* Write final text and close the template file if one is open */ | |
6407 | ||
6408 | if (emf != NULL) | |
6409 | { | |
6410 | emf_text = next_emf(emf, US"final"); | |
6411 | if (emf_text != NULL) fprintf(f, "%s", CS emf_text); | |
f1e894f3 | 6412 | (void)fclose(emf); |
059ec3d9 PH |
6413 | } |
6414 | ||
6415 | /* Close the file, which should send an EOF to the child process | |
6416 | that is receiving the message. Wait for it to finish. */ | |
6417 | ||
f1e894f3 | 6418 | (void)fclose(f); |
059ec3d9 PH |
6419 | rc = child_close(pid, 0); /* Waits for child to close, no timeout */ |
6420 | ||
6421 | /* In the test harness, let the child do it's thing first. */ | |
6422 | ||
6423 | if (running_in_test_harness) millisleep(500); | |
6424 | ||
6425 | /* If the process failed, there was some disaster in setting up the | |
6426 | error message. Unless the message is very old, ensure that addr_defer | |
6427 | is non-null, which will have the effect of leaving the message on the | |
6428 | spool. The failed addresses will get tried again next time. However, we | |
6429 | don't really want this to happen too often, so freeze the message unless | |
6430 | there are some genuine deferred addresses to try. To do this we have | |
6431 | to call spool_write_header() here, because with no genuine deferred | |
6432 | addresses the normal code below doesn't get run. */ | |
6433 | ||
6434 | if (rc != 0) | |
6435 | { | |
6436 | uschar *s = US""; | |
6437 | if (now - received_time < retry_maximum_timeout && addr_defer == NULL) | |
6438 | { | |
6439 | addr_defer = (address_item *)(+1); | |
6440 | deliver_freeze = TRUE; | |
6441 | deliver_frozen_at = time(NULL); | |
6442 | /* Panic-dies on error */ | |
6443 | (void)spool_write_header(message_id, SW_DELIVERING, NULL); | |
6444 | s = US" (frozen)"; | |
6445 | } | |
6446 | deliver_msglog("Process failed (%d) when writing error message " | |
6447 | "to %s%s", rc, bounce_recipient, s); | |
6448 | log_write(0, LOG_MAIN, "Process failed (%d) when writing error message " | |
6449 | "to %s%s", rc, bounce_recipient, s); | |
6450 | } | |
6451 | ||
6452 | /* The message succeeded. Ensure that the recipients that failed are | |
6453 | now marked finished with on the spool and their parents updated. */ | |
6454 | ||
6455 | else | |
6456 | { | |
6457 | for (addr = handled_addr; addr != NULL; addr = addr->next) | |
6458 | { | |
6459 | address_done(addr, logtod); | |
6460 | child_done(addr, logtod); | |
6461 | } | |
6462 | /* Panic-dies on error */ | |
6463 | (void)spool_write_header(message_id, SW_DELIVERING, NULL); | |
6464 | } | |
6465 | } | |
6466 | } | |
6467 | } | |
6468 | ||
6469 | disable_logging = FALSE; /* In case left set */ | |
6470 | ||
6471 | /* Come here from the mua_wrapper case if routing goes wrong */ | |
6472 | ||
6473 | DELIVERY_TIDYUP: | |
6474 | ||
6475 | /* If there are now no deferred addresses, we are done. Preserve the | |
6476 | message log if so configured, and we are using them. Otherwise, sling it. | |
6477 | Then delete the message itself. */ | |
6478 | ||
6479 | if (addr_defer == NULL) | |
6480 | { | |
6481 | if (message_logs) | |
6482 | { | |
6483 | sprintf(CS spoolname, "%s/msglog/%s/%s", spool_directory, message_subdir, | |
6484 | id); | |
6485 | if (preserve_message_logs) | |
6486 | { | |
6487 | int rc; | |
6488 | sprintf(CS big_buffer, "%s/msglog.OLD/%s", spool_directory, id); | |
6489 | if ((rc = Urename(spoolname, big_buffer)) < 0) | |
6490 | { | |
6491 | (void)directory_make(spool_directory, US"msglog.OLD", | |
6492 | MSGLOG_DIRECTORY_MODE, TRUE); | |
6493 | rc = Urename(spoolname, big_buffer); | |
6494 | } | |
6495 | if (rc < 0) | |
6496 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "failed to move %s to the " | |
6497 | "msglog.OLD directory", spoolname); | |
6498 | } | |
6499 | else | |
6500 | { | |
6501 | if (Uunlink(spoolname) < 0) | |
6502 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "failed to unlink %s", spoolname); | |
6503 | } | |
6504 | } | |
6505 | ||
6506 | /* Remove the two message files. */ | |
8e669ac1 | 6507 | |
059ec3d9 PH |
6508 | sprintf(CS spoolname, "%s/input/%s/%s-D", spool_directory, message_subdir, id); |
6509 | if (Uunlink(spoolname) < 0) | |
6510 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "failed to unlink %s", spoolname); | |
6511 | sprintf(CS spoolname, "%s/input/%s/%s-H", spool_directory, message_subdir, id); | |
6512 | if (Uunlink(spoolname) < 0) | |
6513 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "failed to unlink %s", spoolname); | |
2ac0e484 PH |
6514 | |
6515 | /* Log the end of this message, with queue time if requested. */ | |
6516 | ||
6517 | if ((log_extra_selector & LX_queue_time_overall) != 0) | |
8e669ac1 | 6518 | log_write(0, LOG_MAIN, "Completed QT=%s", |
2ac0e484 PH |
6519 | readconf_printtime(time(NULL) - received_time)); |
6520 | else | |
6521 | log_write(0, LOG_MAIN, "Completed"); | |
059ec3d9 PH |
6522 | } |
6523 | ||
6524 | /* If there are deferred addresses, we are keeping this message because it is | |
6525 | not yet completed. Lose any temporary files that were catching output from | |
6526 | pipes for any of the deferred addresses, handle one-time aliases, and see if | |
6527 | the message has been on the queue for so long that it is time to send a warning | |
6528 | message to the sender, unless it is a mailer-daemon. If all deferred addresses | |
6529 | have the same domain, we can set deliver_domain for the expansion of | |
6530 | delay_warning_ condition - if any of them are pipes, files, or autoreplies, use | |
6531 | the parent's domain. | |
6532 | ||
6533 | If all the deferred addresses have an error number that indicates "retry time | |
6534 | not reached", skip sending the warning message, because it won't contain the | |
6535 | reason for the delay. It will get sent at the next real delivery attempt. | |
6536 | However, if at least one address has tried, we'd better include all of them in | |
6537 | the message. | |
6538 | ||
6539 | If we can't make a process to send the message, don't worry. | |
6540 | ||
6541 | For mailing list expansions we want to send the warning message to the | |
6542 | mailing list manager. We can't do a perfect job here, as some addresses may | |
6543 | have different errors addresses, but if we take the errors address from | |
6544 | each deferred address it will probably be right in most cases. | |
6545 | ||
6546 | If addr_defer == +1, it means there was a problem sending an error message | |
6547 | for failed addresses, and there were no "real" deferred addresses. The value | |
6548 | was set just to keep the message on the spool, so there is nothing to do here. | |
6549 | */ | |
6550 | ||
6551 | else if (addr_defer != (address_item *)(+1)) | |
6552 | { | |
6553 | address_item *addr; | |
6554 | uschar *recipients = US""; | |
6555 | BOOL delivery_attempted = FALSE; | |
6556 | ||
6557 | deliver_domain = testflag(addr_defer, af_pfr)? | |
6558 | addr_defer->parent->domain : addr_defer->domain; | |
6559 | ||
6560 | for (addr = addr_defer; addr != NULL; addr = addr->next) | |
6561 | { | |
6562 | address_item *otaddr; | |
6563 | ||
6564 | if (addr->basic_errno > ERRNO_RETRY_BASE) delivery_attempted = TRUE; | |
6565 | ||
6566 | if (deliver_domain != NULL) | |
6567 | { | |
6568 | uschar *d = (testflag(addr, af_pfr))? addr->parent->domain : addr->domain; | |
6569 | ||
6570 | /* The domain may be unset for an address that has never been routed | |
6571 | because the system filter froze the message. */ | |
6572 | ||
6573 | if (d == NULL || Ustrcmp(d, deliver_domain) != 0) deliver_domain = NULL; | |
6574 | } | |
6575 | ||
6576 | if (addr->return_filename != NULL) Uunlink(addr->return_filename); | |
6577 | ||
6578 | /* Handle the case of one-time aliases. If any address in the ancestry | |
6579 | of this one is flagged, ensure it is in the recipients list, suitably | |
6580 | flagged, and that its parent is marked delivered. */ | |
6581 | ||
6582 | for (otaddr = addr; otaddr != NULL; otaddr = otaddr->parent) | |
6583 | if (otaddr->onetime_parent != NULL) break; | |
6584 | ||
6585 | if (otaddr != NULL) | |
6586 | { | |
6587 | int i; | |
6588 | int t = recipients_count; | |
6589 | ||
6590 | for (i = 0; i < recipients_count; i++) | |
6591 | { | |
6592 | uschar *r = recipients_list[i].address; | |
6593 | if (Ustrcmp(otaddr->onetime_parent, r) == 0) t = i; | |
6594 | if (Ustrcmp(otaddr->address, r) == 0) break; | |
6595 | } | |
6596 | ||
6597 | /* Didn't find the address already in the list, and did find the | |
6598 | ultimate parent's address in the list. After adding the recipient, | |
6599 | update the errors address in the recipients list. */ | |
6600 | ||
6601 | if (i >= recipients_count && t < recipients_count) | |
6602 | { | |
6603 | DEBUG(D_deliver) debug_printf("one_time: adding %s in place of %s\n", | |
6604 | otaddr->address, otaddr->parent->address); | |
6605 | receive_add_recipient(otaddr->address, t); | |
6606 | recipients_list[recipients_count-1].errors_to = otaddr->p.errors_address; | |
6607 | tree_add_nonrecipient(otaddr->parent->address); | |
6608 | update_spool = TRUE; | |
6609 | } | |
6610 | } | |
6611 | ||
6612 | /* Except for error messages, ensure that either the errors address for | |
6613 | this deferred address or, if there is none, the sender address, is on the | |
6614 | list of recipients for a warning message. */ | |
6615 | ||
6616 | if (sender_address[0] != 0) | |
6617 | { | |
6618 | if (addr->p.errors_address == NULL) | |
6619 | { | |
6620 | if (Ustrstr(recipients, sender_address) == NULL) | |
6621 | recipients = string_sprintf("%s%s%s", recipients, | |
6622 | (recipients[0] == 0)? "" : ",", sender_address); | |
6623 | } | |
6624 | else | |
6625 | { | |
6626 | if (Ustrstr(recipients, addr->p.errors_address) == NULL) | |
6627 | recipients = string_sprintf("%s%s%s", recipients, | |
6628 | (recipients[0] == 0)? "" : ",", addr->p.errors_address); | |
6629 | } | |
6630 | } | |
6631 | } | |
6632 | ||
6633 | /* Send a warning message if the conditions are right. If the condition check | |
6634 | fails because of a lookup defer, there is nothing we can do. The warning | |
6635 | is not sent. Another attempt will be made at the next delivery attempt (if | |
6636 | it also defers). */ | |
6637 | ||
6638 | if (!queue_2stage && delivery_attempted && | |
6639 | delay_warning[1] > 0 && sender_address[0] != 0 && | |
6640 | (delay_warning_condition == NULL || | |
6641 | expand_check_condition(delay_warning_condition, | |
6642 | US"delay_warning", US"option"))) | |
6643 | { | |
6644 | int count; | |
6645 | int show_time; | |
6646 | int queue_time = time(NULL) - received_time; | |
6647 | ||
6648 | /* When running in the test harness, there's an option that allows us to | |
6649 | fudge this time so as to get repeatability of the tests. Take the first | |
6650 | time off the list. In queue runs, the list pointer gets updated in the | |
6651 | calling process. */ | |
6652 | ||
6653 | if (running_in_test_harness && fudged_queue_times[0] != 0) | |
6654 | { | |
6655 | int qt = readconf_readtime(fudged_queue_times, '/', FALSE); | |
6656 | if (qt >= 0) | |
6657 | { | |
6658 | DEBUG(D_deliver) debug_printf("fudged queue_times = %s\n", | |
6659 | fudged_queue_times); | |
6660 | queue_time = qt; | |
6661 | } | |
6662 | } | |
6663 | ||
6664 | /* See how many warnings we should have sent by now */ | |
6665 | ||
6666 | for (count = 0; count < delay_warning[1]; count++) | |
6667 | if (queue_time < delay_warning[count+2]) break; | |
6668 | ||
6669 | show_time = delay_warning[count+1]; | |
6670 | ||
6671 | if (count >= delay_warning[1]) | |
6672 | { | |
6673 | int extra; | |
6674 | int last_gap = show_time; | |
6675 | if (count > 1) last_gap -= delay_warning[count]; | |
6676 | extra = (queue_time - delay_warning[count+1])/last_gap; | |
6677 | show_time += last_gap * extra; | |
6678 | count += extra; | |
6679 | } | |
6680 | ||
6681 | DEBUG(D_deliver) | |
6682 | { | |
6683 | debug_printf("time on queue = %s\n", readconf_printtime(queue_time)); | |
6684 | debug_printf("warning counts: required %d done %d\n", count, | |
6685 | warning_count); | |
6686 | } | |
6687 | ||
6688 | /* We have computed the number of warnings there should have been by now. | |
6689 | If there haven't been enough, send one, and up the count to what it should | |
6690 | have been. */ | |
6691 | ||
6692 | if (warning_count < count) | |
6693 | { | |
6694 | header_line *h; | |
6695 | int fd; | |
6696 | pid_t pid = child_open_exim(&fd); | |
6697 | ||
6698 | if (pid > 0) | |
6699 | { | |
6700 | uschar *wmf_text; | |
6701 | FILE *wmf = NULL; | |
6702 | FILE *f = fdopen(fd, "wb"); | |
6703 | ||
6704 | if (warn_message_file != NULL) | |
6705 | { | |
6706 | wmf = Ufopen(warn_message_file, "rb"); | |
6707 | if (wmf == NULL) | |
6708 | log_write(0, LOG_MAIN|LOG_PANIC, "Failed to open %s for warning " | |
6709 | "message texts: %s", warn_message_file, strerror(errno)); | |
6710 | } | |
6711 | ||
6712 | warnmsg_recipients = recipients; | |
6713 | warnmsg_delay = (queue_time < 120*60)? | |
6714 | string_sprintf("%d minutes", show_time/60): | |
6715 | string_sprintf("%d hours", show_time/3600); | |
6716 | ||
6717 | if (errors_reply_to != NULL) | |
6718 | fprintf(f, "Reply-To: %s\n", errors_reply_to); | |
456682f5 | 6719 | fprintf(f, "Auto-Submitted: auto-replied\n"); |
059ec3d9 PH |
6720 | fprintf(f, "From: Mail Delivery System <Mailer-Daemon@%s>\n", |
6721 | qualify_domain_sender); | |
6722 | fprintf(f, "To: %s\n", recipients); | |
6723 | ||
6724 | wmf_text = next_emf(wmf, US"header"); | |
6725 | if (wmf_text != NULL) | |
6726 | fprintf(f, "%s\n", wmf_text); | |
6727 | else | |
6728 | fprintf(f, "Subject: Warning: message %s delayed %s\n\n", | |
6729 | message_id, warnmsg_delay); | |
6730 | ||
6731 | wmf_text = next_emf(wmf, US"intro"); | |
6732 | if (wmf_text != NULL) fprintf(f, "%s", CS wmf_text); else | |
6733 | { | |
6734 | fprintf(f, | |
6735 | "This message was created automatically by mail delivery software.\n"); | |
6736 | ||
6737 | if (Ustrcmp(recipients, sender_address) == 0) | |
6738 | fprintf(f, | |
6739 | "A message that you sent has not yet been delivered to one or more of its\n" | |
6740 | "recipients after more than "); | |
6741 | ||
6742 | else fprintf(f, | |
6743 | "A message sent by\n\n <%s>\n\n" | |
6744 | "has not yet been delivered to one or more of its recipients after more than \n", | |
6745 | sender_address); | |
6746 | ||
6747 | fprintf(f, "%s on the queue on %s.\n\n", warnmsg_delay, | |
6748 | primary_hostname); | |
6749 | fprintf(f, "The message identifier is: %s\n", message_id); | |
6750 | ||
6751 | for (h = header_list; h != NULL; h = h->next) | |
6752 | { | |
6753 | if (strncmpic(h->text, US"Subject:", 8) == 0) | |
6754 | fprintf(f, "The subject of the message is: %s", h->text + 9); | |
6755 | else if (strncmpic(h->text, US"Date:", 5) == 0) | |
6756 | fprintf(f, "The date of the message is: %s", h->text + 6); | |
6757 | } | |
6758 | fprintf(f, "\n"); | |
6759 | ||
6760 | fprintf(f, "The address%s to which the message has not yet been " | |
6761 | "delivered %s:\n", | |
6762 | (addr_defer->next == NULL)? "" : "es", | |
6763 | (addr_defer->next == NULL)? "is": "are"); | |
6764 | } | |
6765 | ||
447d236c | 6766 | /* List the addresses, with error information if allowed */ |
059ec3d9 PH |
6767 | |
6768 | fprintf(f, "\n"); | |
6769 | while (addr_defer != NULL) | |
6770 | { | |
6771 | address_item *addr = addr_defer; | |
6772 | addr_defer = addr->next; | |
447d236c PH |
6773 | if (print_address_information(addr, f, US" ", US"\n ", US"")) |
6774 | print_address_error(addr, f, US"Delay reason: "); | |
059ec3d9 PH |
6775 | fprintf(f, "\n"); |
6776 | } | |
6777 | fprintf(f, "\n"); | |
6778 | ||
6779 | /* Final text */ | |
6780 | ||
6781 | if (wmf != NULL) | |
6782 | { | |
6783 | wmf_text = next_emf(wmf, US"final"); | |
6784 | if (wmf_text != NULL) fprintf(f, "%s", CS wmf_text); | |
f1e894f3 | 6785 | (void)fclose(wmf); |
059ec3d9 PH |
6786 | } |
6787 | else | |
6788 | { | |
6789 | fprintf(f, | |
6790 | "No action is required on your part. Delivery attempts will continue for\n" | |
6791 | "some time, and this warning may be repeated at intervals if the message\n" | |
6792 | "remains undelivered. Eventually the mail delivery software will give up,\n" | |
6793 | "and when that happens, the message will be returned to you.\n"); | |
6794 | } | |
6795 | ||
6796 | /* Close and wait for child process to complete, without a timeout. | |
6797 | If there's an error, don't update the count. */ | |
6798 | ||
f1e894f3 | 6799 | (void)fclose(f); |
059ec3d9 PH |
6800 | if (child_close(pid, 0) == 0) |
6801 | { | |
6802 | warning_count = count; | |
6803 | update_spool = TRUE; /* Ensure spool rewritten */ | |
6804 | } | |
6805 | } | |
6806 | } | |
6807 | } | |
6808 | ||
6809 | /* Clear deliver_domain */ | |
6810 | ||
6811 | deliver_domain = NULL; | |
6812 | ||
6813 | /* If this was a first delivery attempt, unset the first time flag, and | |
6814 | ensure that the spool gets updated. */ | |
6815 | ||
6816 | if (deliver_firsttime) | |
6817 | { | |
6818 | deliver_firsttime = FALSE; | |
6819 | update_spool = TRUE; | |
6820 | } | |
6821 | ||
6822 | /* If delivery was frozen and freeze_tell is set, generate an appropriate | |
6823 | message, unless the message is a local error message (to avoid loops). Then | |
6824 | log the freezing. If the text in "frozen_info" came from a system filter, | |
6825 | it has been escaped into printing characters so as not to mess up log lines. | |
6826 | For the "tell" message, we turn \n back into newline. Also, insert a newline | |
6827 | near the start instead of the ": " string. */ | |
6828 | ||
6829 | if (deliver_freeze) | |
6830 | { | |
6831 | if (freeze_tell != NULL && freeze_tell[0] != 0 && !local_error_message) | |
6832 | { | |
6833 | uschar *s = string_copy(frozen_info); | |
6834 | uschar *ss = Ustrstr(s, " by the system filter: "); | |
6835 | ||
6836 | if (ss != NULL) | |
6837 | { | |
6838 | ss[21] = '.'; | |
6839 | ss[22] = '\n'; | |
6840 | } | |
6841 | ||
6842 | ss = s; | |
6843 | while (*ss != 0) | |
6844 | { | |
6845 | if (*ss == '\\' && ss[1] == 'n') | |
6846 | { | |
6847 | *ss++ = ' '; | |
6848 | *ss++ = '\n'; | |
6849 | } | |
6850 | else ss++; | |
6851 | } | |
6852 | moan_tell_someone(freeze_tell, addr_defer, US"Message frozen", | |
6853 | "Message %s has been frozen%s.\nThe sender is <%s>.\n", message_id, | |
6854 | s, sender_address); | |
6855 | } | |
6856 | ||
6857 | /* Log freezing just before we update the -H file, to minimize the chance | |
6858 | of a race problem. */ | |
6859 | ||
6860 | deliver_msglog("*** Frozen%s\n", frozen_info); | |
6861 | log_write(0, LOG_MAIN, "Frozen%s", frozen_info); | |
6862 | } | |
6863 | ||
6864 | /* If there have been any updates to the non-recipients list, or other things | |
6865 | that get written to the spool, we must now update the spool header file so | |
6866 | that it has the right information for the next delivery attempt. If there | |
6867 | was more than one address being delivered, the header_change update is done | |
6868 | earlier, in case one succeeds and then something crashes. */ | |
6869 | ||
6870 | DEBUG(D_deliver) | |
6871 | debug_printf("delivery deferred: update_spool=%d header_rewritten=%d\n", | |
6872 | update_spool, header_rewritten); | |
6873 | ||
6874 | if (update_spool || header_rewritten) | |
6875 | /* Panic-dies on error */ | |
6876 | (void)spool_write_header(message_id, SW_DELIVERING, NULL); | |
6877 | } | |
6878 | ||
6879 | /* Finished with the message log. If the message is complete, it will have | |
6880 | been unlinked or renamed above. */ | |
6881 | ||
f1e894f3 | 6882 | if (message_logs) (void)fclose(message_log); |
059ec3d9 PH |
6883 | |
6884 | /* Now we can close and remove the journal file. Its only purpose is to record | |
6885 | successfully completed deliveries asap so that this information doesn't get | |
6886 | lost if Exim (or the machine) crashes. Forgetting about a failed delivery is | |
6887 | not serious, as trying it again is not harmful. The journal might not be open | |
6888 | if all addresses were deferred at routing or directing. Nevertheless, we must | |
6889 | remove it if it exists (may have been lying around from a crash during the | |
6890 | previous delivery attempt). We don't remove the journal if a delivery | |
6891 | subprocess failed to pass back delivery information; this is controlled by | |
6892 | the remove_journal flag. When the journal is left, we also don't move the | |
6893 | message off the main spool if frozen and the option is set. It should get moved | |
6894 | at the next attempt, after the journal has been inspected. */ | |
6895 | ||
f1e894f3 | 6896 | if (journal_fd >= 0) (void)close(journal_fd); |
059ec3d9 PH |
6897 | |
6898 | if (remove_journal) | |
6899 | { | |
6900 | sprintf(CS spoolname, "%s/input/%s/%s-J", spool_directory, message_subdir, id); | |
6901 | if (Uunlink(spoolname) < 0 && errno != ENOENT) | |
6902 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "failed to unlink %s: %s", spoolname, | |
6903 | strerror(errno)); | |
6904 | ||
6905 | /* Move the message off the spool if reqested */ | |
6906 | ||
6907 | #ifdef SUPPORT_MOVE_FROZEN_MESSAGES | |
6908 | if (deliver_freeze && move_frozen_messages) | |
6909 | (void)spool_move_message(id, message_subdir, US"", US"F"); | |
6910 | #endif | |
6911 | } | |
6912 | ||
6913 | /* Closing the data file frees the lock; if the file has been unlinked it | |
6914 | will go away. Otherwise the message becomes available for another process | |
6915 | to try delivery. */ | |
6916 | ||
f1e894f3 | 6917 | (void)close(deliver_datafile); |
059ec3d9 PH |
6918 | deliver_datafile = -1; |
6919 | DEBUG(D_deliver) debug_printf("end delivery of %s\n", id); | |
6920 | ||
6921 | /* It is unlikely that there will be any cached resources, since they are | |
6922 | released after routing, and in the delivery subprocesses. However, it's | |
6923 | possible for an expansion for something afterwards (for example, | |
6924 | expand_check_condition) to do a lookup. We must therefore be sure everything is | |
6925 | released. */ | |
6926 | ||
6927 | search_tidyup(); | |
6928 | return final_yield; | |
6929 | } | |
6930 | ||
6931 | /* End of deliver.c */ |