1 /* $Cambridge: exim/src/src/expand.c,v 1.108 2010/06/07 08:42:15 pdp Exp $ */
3 /*************************************************
4 * Exim - an Internet mail transport agent *
5 *************************************************/
7 /* Copyright (c) University of Cambridge 1995 - 2009 */
8 /* See the file NOTICE for conditions of use and distribution. */
11 /* Functions for handling string expansion. */
16 /* Recursively called function */
18 static uschar *expand_string_internal(uschar *, BOOL, uschar **, BOOL);
21 #ifndef SUPPORT_CRYPTEQ
22 #define SUPPORT_CRYPTEQ
27 #include "lookups/ldap.h"
30 #ifdef SUPPORT_CRYPTEQ
35 extern char* crypt16(char*, char*);
39 /* The handling of crypt16() is a mess. I will record below the analysis of the
40 mess that was sent to me. We decided, however, to make changing this very low
41 priority, because in practice people are moving away from the crypt()
42 algorithms nowadays, so it doesn't seem worth it.
45 There is an algorithm named "crypt16" in Ultrix and Tru64. It crypts
46 the first 8 characters of the password using a 20-round version of crypt
47 (standard crypt does 25 rounds). It then crypts the next 8 characters,
48 or an empty block if the password is less than 9 characters, using a
49 20-round version of crypt and the same salt as was used for the first
50 block. Charaters after the first 16 are ignored. It always generates
51 a 16-byte hash, which is expressed together with the salt as a string
52 of 24 base 64 digits. Here are some links to peruse:
54 http://cvs.pld.org.pl/pam/pamcrypt/crypt16.c?rev=1.2
55 http://seclists.org/bugtraq/1999/Mar/0076.html
57 There's a different algorithm named "bigcrypt" in HP-UX, Digital Unix,
58 and OSF/1. This is the same as the standard crypt if given a password
59 of 8 characters or less. If given more, it first does the same as crypt
60 using the first 8 characters, then crypts the next 8 (the 9th to 16th)
61 using as salt the first two base 64 digits from the first hash block.
62 If the password is more than 16 characters then it crypts the 17th to 24th
63 characters using as salt the first two base 64 digits from the second hash
64 block. And so on: I've seen references to it cutting off the password at
65 40 characters (5 blocks), 80 (10 blocks), or 128 (16 blocks). Some links:
67 http://cvs.pld.org.pl/pam/pamcrypt/bigcrypt.c?rev=1.2
68 http://seclists.org/bugtraq/1999/Mar/0109.html
69 http://h30097.www3.hp.com/docs/base_doc/DOCUMENTATION/HTML/AA-Q0R2D-
70 TET1_html/sec.c222.html#no_id_208
72 Exim has something it calls "crypt16". It will either use a native
73 crypt16 or its own implementation. A native crypt16 will presumably
74 be the one that I called "crypt16" above. The internal "crypt16"
75 function, however, is a two-block-maximum implementation of what I called
76 "bigcrypt". The documentation matches the internal code.
78 I suspect that whoever did the "crypt16" stuff for Exim didn't realise
79 that crypt16 and bigcrypt were different things.
81 Exim uses the LDAP-style scheme identifier "{crypt16}" to refer
82 to whatever it is using under that name. This unfortunately sets a
83 precedent for using "{crypt16}" to identify two incompatible algorithms
84 whose output can't be distinguished. With "{crypt16}" thus rendered
85 ambiguous, I suggest you deprecate it and invent two new identifiers
86 for the two algorithms.
88 Both crypt16 and bigcrypt are very poor algorithms, btw. Hashing parts
89 of the password separately means they can be cracked separately, so
90 the double-length hash only doubles the cracking effort instead of
91 squaring it. I recommend salted SHA-1 ({SSHA}), or the Blowfish-based
99 /*************************************************
100 * Local statics and tables *
101 *************************************************/
103 /* Table of item names, and corresponding switch numbers. The names must be in
104 alphabetical order. */
106 static uschar *item_table[] = {
150 /* Tables of operator names, and corresponding switch numbers. The names must be
151 in alphabetical order. There are two tables, because underscore is used in some
152 cases to introduce arguments, whereas for other it is part of the name. This is
153 an historical mis-design. */
155 static uschar *op_table_underscore[] = {
158 US"quote_local_part",
166 EOP_QUOTE_LOCAL_PART,
171 static uschar *op_table_main[] = {
205 EOP_ADDRESS = sizeof(op_table_underscore)/sizeof(uschar *),
238 /* Table of condition names, and corresponding switch numbers. The names must
239 be in alphabetical order. */
241 static uschar *cond_table[] = {
245 US"==", /* Backward compatibility */
275 US"match_local_part",
299 ECOND_FIRST_DELIVERY,
318 ECOND_MATCH_LOCAL_PART,
328 /* Type for main variable table */
336 /* Type for entries pointing to address/length pairs. Not currently
344 /* Types of table entry */
347 vtype_int, /* value is address of int */
348 vtype_filter_int, /* ditto, but recognized only when filtering */
349 vtype_ino, /* value is address of ino_t (not always an int) */
350 vtype_uid, /* value is address of uid_t (not always an int) */
351 vtype_gid, /* value is address of gid_t (not always an int) */
352 vtype_stringptr, /* value is address of pointer to string */
353 vtype_msgbody, /* as stringptr, but read when first required */
354 vtype_msgbody_end, /* ditto, the end of the message */
355 vtype_msgheaders, /* the message's headers, processed */
356 vtype_msgheaders_raw, /* the message's headers, unprocessed */
357 vtype_localpart, /* extract local part from string */
358 vtype_domain, /* extract domain from string */
359 vtype_recipients, /* extract recipients from recipients list */
360 /* (available only in system filters, ACLs, and */
362 vtype_todbsdin, /* value not used; generate BSD inbox tod */
363 vtype_tode, /* value not used; generate tod in epoch format */
364 vtype_todf, /* value not used; generate full tod */
365 vtype_todl, /* value not used; generate log tod */
366 vtype_todlf, /* value not used; generate log file datestamp tod */
367 vtype_todzone, /* value not used; generate time zone only */
368 vtype_todzulu, /* value not used; generate zulu tod */
369 vtype_reply, /* value not used; get reply from headers */
370 vtype_pid, /* value not used; result is pid */
371 vtype_host_lookup, /* value not used; get host name */
372 vtype_load_avg, /* value not used; result is int from os_getloadavg */
373 vtype_pspace, /* partition space; value is T/F for spool/log */
374 vtype_pinodes /* partition inodes; value is T/F for spool/log */
376 ,vtype_dkim /* Lookup of value in DKIM signature */
380 /* This table must be kept in alphabetical order. */
382 static var_entry var_table[] = {
383 /* WARNING: Do not invent variables whose names start acl_c or acl_m because
384 they will be confused with user-creatable ACL variables. */
385 { "acl_verify_message", vtype_stringptr, &acl_verify_message },
386 { "address_data", vtype_stringptr, &deliver_address_data },
387 { "address_file", vtype_stringptr, &address_file },
388 { "address_pipe", vtype_stringptr, &address_pipe },
389 { "authenticated_id", vtype_stringptr, &authenticated_id },
390 { "authenticated_sender",vtype_stringptr, &authenticated_sender },
391 { "authentication_failed",vtype_int, &authentication_failed },
392 #ifdef EXPERIMENTAL_BRIGHTMAIL
393 { "bmi_alt_location", vtype_stringptr, &bmi_alt_location },
394 { "bmi_base64_tracker_verdict", vtype_stringptr, &bmi_base64_tracker_verdict },
395 { "bmi_base64_verdict", vtype_stringptr, &bmi_base64_verdict },
396 { "bmi_deliver", vtype_int, &bmi_deliver },
398 { "body_linecount", vtype_int, &body_linecount },
399 { "body_zerocount", vtype_int, &body_zerocount },
400 { "bounce_recipient", vtype_stringptr, &bounce_recipient },
401 { "bounce_return_size_limit", vtype_int, &bounce_return_size_limit },
402 { "caller_gid", vtype_gid, &real_gid },
403 { "caller_uid", vtype_uid, &real_uid },
404 { "compile_date", vtype_stringptr, &version_date },
405 { "compile_number", vtype_stringptr, &version_cnumber },
406 { "csa_status", vtype_stringptr, &csa_status },
407 #ifdef EXPERIMENTAL_DCC
408 { "dcc_header", vtype_stringptr, &dcc_header },
409 { "dcc_result", vtype_stringptr, &dcc_result },
411 #ifdef WITH_OLD_DEMIME
412 { "demime_errorlevel", vtype_int, &demime_errorlevel },
413 { "demime_reason", vtype_stringptr, &demime_reason },
416 { "dkim_algo", vtype_dkim, (void *)DKIM_ALGO },
417 { "dkim_bodylength", vtype_dkim, (void *)DKIM_BODYLENGTH },
418 { "dkim_canon_body", vtype_dkim, (void *)DKIM_CANON_BODY },
419 { "dkim_canon_headers", vtype_dkim, (void *)DKIM_CANON_HEADERS },
420 { "dkim_copiedheaders", vtype_dkim, (void *)DKIM_COPIEDHEADERS },
421 { "dkim_created", vtype_dkim, (void *)DKIM_CREATED },
422 { "dkim_cur_signer", vtype_stringptr, &dkim_cur_signer },
423 { "dkim_domain", vtype_stringptr, &dkim_signing_domain },
424 { "dkim_expires", vtype_dkim, (void *)DKIM_EXPIRES },
425 { "dkim_headernames", vtype_dkim, (void *)DKIM_HEADERNAMES },
426 { "dkim_identity", vtype_dkim, (void *)DKIM_IDENTITY },
427 { "dkim_key_granularity",vtype_dkim, (void *)DKIM_KEY_GRANULARITY },
428 { "dkim_key_nosubdomains",vtype_dkim, (void *)DKIM_NOSUBDOMAINS },
429 { "dkim_key_notes", vtype_dkim, (void *)DKIM_KEY_NOTES },
430 { "dkim_key_srvtype", vtype_dkim, (void *)DKIM_KEY_SRVTYPE },
431 { "dkim_key_testing", vtype_dkim, (void *)DKIM_KEY_TESTING },
432 { "dkim_selector", vtype_stringptr, &dkim_signing_selector },
433 { "dkim_signers", vtype_stringptr, &dkim_signers },
434 { "dkim_verify_reason", vtype_dkim, (void *)DKIM_VERIFY_REASON },
435 { "dkim_verify_status", vtype_dkim, (void *)DKIM_VERIFY_STATUS},
437 { "dnslist_domain", vtype_stringptr, &dnslist_domain },
438 { "dnslist_matched", vtype_stringptr, &dnslist_matched },
439 { "dnslist_text", vtype_stringptr, &dnslist_text },
440 { "dnslist_value", vtype_stringptr, &dnslist_value },
441 { "domain", vtype_stringptr, &deliver_domain },
442 { "domain_data", vtype_stringptr, &deliver_domain_data },
443 { "exim_gid", vtype_gid, &exim_gid },
444 { "exim_path", vtype_stringptr, &exim_path },
445 { "exim_uid", vtype_uid, &exim_uid },
446 #ifdef WITH_OLD_DEMIME
447 { "found_extension", vtype_stringptr, &found_extension },
449 { "home", vtype_stringptr, &deliver_home },
450 { "host", vtype_stringptr, &deliver_host },
451 { "host_address", vtype_stringptr, &deliver_host_address },
452 { "host_data", vtype_stringptr, &host_data },
453 { "host_lookup_deferred",vtype_int, &host_lookup_deferred },
454 { "host_lookup_failed", vtype_int, &host_lookup_failed },
455 { "inode", vtype_ino, &deliver_inode },
456 { "interface_address", vtype_stringptr, &interface_address },
457 { "interface_port", vtype_int, &interface_port },
458 { "item", vtype_stringptr, &iterate_item },
460 { "ldap_dn", vtype_stringptr, &eldap_dn },
462 { "load_average", vtype_load_avg, NULL },
463 { "local_part", vtype_stringptr, &deliver_localpart },
464 { "local_part_data", vtype_stringptr, &deliver_localpart_data },
465 { "local_part_prefix", vtype_stringptr, &deliver_localpart_prefix },
466 { "local_part_suffix", vtype_stringptr, &deliver_localpart_suffix },
467 { "local_scan_data", vtype_stringptr, &local_scan_data },
468 { "local_user_gid", vtype_gid, &local_user_gid },
469 { "local_user_uid", vtype_uid, &local_user_uid },
470 { "localhost_number", vtype_int, &host_number },
471 { "log_inodes", vtype_pinodes, (void *)FALSE },
472 { "log_space", vtype_pspace, (void *)FALSE },
473 { "mailstore_basename", vtype_stringptr, &mailstore_basename },
474 #ifdef WITH_CONTENT_SCAN
475 { "malware_name", vtype_stringptr, &malware_name },
477 { "max_received_linelength", vtype_int, &max_received_linelength },
478 { "message_age", vtype_int, &message_age },
479 { "message_body", vtype_msgbody, &message_body },
480 { "message_body_end", vtype_msgbody_end, &message_body_end },
481 { "message_body_size", vtype_int, &message_body_size },
482 { "message_exim_id", vtype_stringptr, &message_id },
483 { "message_headers", vtype_msgheaders, NULL },
484 { "message_headers_raw", vtype_msgheaders_raw, NULL },
485 { "message_id", vtype_stringptr, &message_id },
486 { "message_linecount", vtype_int, &message_linecount },
487 { "message_size", vtype_int, &message_size },
488 #ifdef WITH_CONTENT_SCAN
489 { "mime_anomaly_level", vtype_int, &mime_anomaly_level },
490 { "mime_anomaly_text", vtype_stringptr, &mime_anomaly_text },
491 { "mime_boundary", vtype_stringptr, &mime_boundary },
492 { "mime_charset", vtype_stringptr, &mime_charset },
493 { "mime_content_description", vtype_stringptr, &mime_content_description },
494 { "mime_content_disposition", vtype_stringptr, &mime_content_disposition },
495 { "mime_content_id", vtype_stringptr, &mime_content_id },
496 { "mime_content_size", vtype_int, &mime_content_size },
497 { "mime_content_transfer_encoding",vtype_stringptr, &mime_content_transfer_encoding },
498 { "mime_content_type", vtype_stringptr, &mime_content_type },
499 { "mime_decoded_filename", vtype_stringptr, &mime_decoded_filename },
500 { "mime_filename", vtype_stringptr, &mime_filename },
501 { "mime_is_coverletter", vtype_int, &mime_is_coverletter },
502 { "mime_is_multipart", vtype_int, &mime_is_multipart },
503 { "mime_is_rfc822", vtype_int, &mime_is_rfc822 },
504 { "mime_part_count", vtype_int, &mime_part_count },
506 { "n0", vtype_filter_int, &filter_n[0] },
507 { "n1", vtype_filter_int, &filter_n[1] },
508 { "n2", vtype_filter_int, &filter_n[2] },
509 { "n3", vtype_filter_int, &filter_n[3] },
510 { "n4", vtype_filter_int, &filter_n[4] },
511 { "n5", vtype_filter_int, &filter_n[5] },
512 { "n6", vtype_filter_int, &filter_n[6] },
513 { "n7", vtype_filter_int, &filter_n[7] },
514 { "n8", vtype_filter_int, &filter_n[8] },
515 { "n9", vtype_filter_int, &filter_n[9] },
516 { "original_domain", vtype_stringptr, &deliver_domain_orig },
517 { "original_local_part", vtype_stringptr, &deliver_localpart_orig },
518 { "originator_gid", vtype_gid, &originator_gid },
519 { "originator_uid", vtype_uid, &originator_uid },
520 { "parent_domain", vtype_stringptr, &deliver_domain_parent },
521 { "parent_local_part", vtype_stringptr, &deliver_localpart_parent },
522 { "pid", vtype_pid, NULL },
523 { "primary_hostname", vtype_stringptr, &primary_hostname },
524 { "prvscheck_address", vtype_stringptr, &prvscheck_address },
525 { "prvscheck_keynum", vtype_stringptr, &prvscheck_keynum },
526 { "prvscheck_result", vtype_stringptr, &prvscheck_result },
527 { "qualify_domain", vtype_stringptr, &qualify_domain_sender },
528 { "qualify_recipient", vtype_stringptr, &qualify_domain_recipient },
529 { "rcpt_count", vtype_int, &rcpt_count },
530 { "rcpt_defer_count", vtype_int, &rcpt_defer_count },
531 { "rcpt_fail_count", vtype_int, &rcpt_fail_count },
532 { "received_count", vtype_int, &received_count },
533 { "received_for", vtype_stringptr, &received_for },
534 { "received_ip_address", vtype_stringptr, &interface_address },
535 { "received_port", vtype_int, &interface_port },
536 { "received_protocol", vtype_stringptr, &received_protocol },
537 { "received_time", vtype_int, &received_time },
538 { "recipient_data", vtype_stringptr, &recipient_data },
539 { "recipient_verify_failure",vtype_stringptr,&recipient_verify_failure },
540 { "recipients", vtype_recipients, NULL },
541 { "recipients_count", vtype_int, &recipients_count },
542 #ifdef WITH_CONTENT_SCAN
543 { "regex_match_string", vtype_stringptr, ®ex_match_string },
545 { "reply_address", vtype_reply, NULL },
546 { "return_path", vtype_stringptr, &return_path },
547 { "return_size_limit", vtype_int, &bounce_return_size_limit },
548 { "runrc", vtype_int, &runrc },
549 { "self_hostname", vtype_stringptr, &self_hostname },
550 { "sender_address", vtype_stringptr, &sender_address },
551 { "sender_address_data", vtype_stringptr, &sender_address_data },
552 { "sender_address_domain", vtype_domain, &sender_address },
553 { "sender_address_local_part", vtype_localpart, &sender_address },
554 { "sender_data", vtype_stringptr, &sender_data },
555 { "sender_fullhost", vtype_stringptr, &sender_fullhost },
556 { "sender_helo_name", vtype_stringptr, &sender_helo_name },
557 { "sender_host_address", vtype_stringptr, &sender_host_address },
558 { "sender_host_authenticated",vtype_stringptr, &sender_host_authenticated },
559 { "sender_host_name", vtype_host_lookup, NULL },
560 { "sender_host_port", vtype_int, &sender_host_port },
561 { "sender_ident", vtype_stringptr, &sender_ident },
562 { "sender_rate", vtype_stringptr, &sender_rate },
563 { "sender_rate_limit", vtype_stringptr, &sender_rate_limit },
564 { "sender_rate_period", vtype_stringptr, &sender_rate_period },
565 { "sender_rcvhost", vtype_stringptr, &sender_rcvhost },
566 { "sender_verify_failure",vtype_stringptr, &sender_verify_failure },
567 { "sending_ip_address", vtype_stringptr, &sending_ip_address },
568 { "sending_port", vtype_int, &sending_port },
569 { "smtp_active_hostname", vtype_stringptr, &smtp_active_hostname },
570 { "smtp_command", vtype_stringptr, &smtp_cmd_buffer },
571 { "smtp_command_argument", vtype_stringptr, &smtp_cmd_argument },
572 { "smtp_count_at_connection_start", vtype_int, &smtp_accept_count },
573 { "smtp_notquit_reason", vtype_stringptr, &smtp_notquit_reason },
574 { "sn0", vtype_filter_int, &filter_sn[0] },
575 { "sn1", vtype_filter_int, &filter_sn[1] },
576 { "sn2", vtype_filter_int, &filter_sn[2] },
577 { "sn3", vtype_filter_int, &filter_sn[3] },
578 { "sn4", vtype_filter_int, &filter_sn[4] },
579 { "sn5", vtype_filter_int, &filter_sn[5] },
580 { "sn6", vtype_filter_int, &filter_sn[6] },
581 { "sn7", vtype_filter_int, &filter_sn[7] },
582 { "sn8", vtype_filter_int, &filter_sn[8] },
583 { "sn9", vtype_filter_int, &filter_sn[9] },
584 #ifdef WITH_CONTENT_SCAN
585 { "spam_bar", vtype_stringptr, &spam_bar },
586 { "spam_report", vtype_stringptr, &spam_report },
587 { "spam_score", vtype_stringptr, &spam_score },
588 { "spam_score_int", vtype_stringptr, &spam_score_int },
590 #ifdef EXPERIMENTAL_SPF
591 { "spf_guess", vtype_stringptr, &spf_guess },
592 { "spf_header_comment", vtype_stringptr, &spf_header_comment },
593 { "spf_received", vtype_stringptr, &spf_received },
594 { "spf_result", vtype_stringptr, &spf_result },
595 { "spf_smtp_comment", vtype_stringptr, &spf_smtp_comment },
597 { "spool_directory", vtype_stringptr, &spool_directory },
598 { "spool_inodes", vtype_pinodes, (void *)TRUE },
599 { "spool_space", vtype_pspace, (void *)TRUE },
600 #ifdef EXPERIMENTAL_SRS
601 { "srs_db_address", vtype_stringptr, &srs_db_address },
602 { "srs_db_key", vtype_stringptr, &srs_db_key },
603 { "srs_orig_recipient", vtype_stringptr, &srs_orig_recipient },
604 { "srs_orig_sender", vtype_stringptr, &srs_orig_sender },
605 { "srs_recipient", vtype_stringptr, &srs_recipient },
606 { "srs_status", vtype_stringptr, &srs_status },
608 { "thisaddress", vtype_stringptr, &filter_thisaddress },
609 { "tls_certificate_verified", vtype_int, &tls_certificate_verified },
610 { "tls_cipher", vtype_stringptr, &tls_cipher },
611 { "tls_peerdn", vtype_stringptr, &tls_peerdn },
612 { "tod_bsdinbox", vtype_todbsdin, NULL },
613 { "tod_epoch", vtype_tode, NULL },
614 { "tod_full", vtype_todf, NULL },
615 { "tod_log", vtype_todl, NULL },
616 { "tod_logfile", vtype_todlf, NULL },
617 { "tod_zone", vtype_todzone, NULL },
618 { "tod_zulu", vtype_todzulu, NULL },
619 { "value", vtype_stringptr, &lookup_value },
620 { "version_number", vtype_stringptr, &version_string },
621 { "warn_message_delay", vtype_stringptr, &warnmsg_delay },
622 { "warn_message_recipient",vtype_stringptr, &warnmsg_recipients },
623 { "warn_message_recipients",vtype_stringptr,&warnmsg_recipients },
624 { "warnmsg_delay", vtype_stringptr, &warnmsg_delay },
625 { "warnmsg_recipient", vtype_stringptr, &warnmsg_recipients },
626 { "warnmsg_recipients", vtype_stringptr, &warnmsg_recipients }
629 static int var_table_size = sizeof(var_table)/sizeof(var_entry);
630 static uschar var_buffer[256];
631 static BOOL malformed_header;
633 /* For textual hashes */
635 static const char *hashcodes = "abcdefghijklmnopqrtsuvwxyz"
636 "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
639 enum { HMAC_MD5, HMAC_SHA1 };
641 /* For numeric hashes */
643 static unsigned int prime[] = {
644 2, 3, 5, 7, 11, 13, 17, 19, 23, 29,
645 31, 37, 41, 43, 47, 53, 59, 61, 67, 71,
646 73, 79, 83, 89, 97, 101, 103, 107, 109, 113};
648 /* For printing modes in symbolic form */
650 static uschar *mtable_normal[] =
651 { US"---", US"--x", US"-w-", US"-wx", US"r--", US"r-x", US"rw-", US"rwx" };
653 static uschar *mtable_setid[] =
654 { US"--S", US"--s", US"-wS", US"-ws", US"r-S", US"r-s", US"rwS", US"rws" };
656 static uschar *mtable_sticky[] =
657 { US"--T", US"--t", US"-wT", US"-wt", US"r-T", US"r-t", US"rwT", US"rwt" };
661 /*************************************************
662 * Tables for UTF-8 support *
663 *************************************************/
665 /* Table of the number of extra characters, indexed by the first character
666 masked with 0x3f. The highest number for a valid UTF-8 character is in fact
669 static uschar utf8_table1[] = {
670 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
671 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
672 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,
673 3,3,3,3,3,3,3,3,4,4,4,4,5,5,5,5 };
675 /* These are the masks for the data bits in the first byte of a character,
676 indexed by the number of additional bytes. */
678 static int utf8_table2[] = { 0xff, 0x1f, 0x0f, 0x07, 0x03, 0x01};
680 /* Get the next UTF-8 character, advancing the pointer. */
682 #define GETUTF8INC(c, ptr) \
684 if ((c & 0xc0) == 0xc0) \
686 int a = utf8_table1[c & 0x3f]; /* Number of additional bytes */ \
688 c = (c & utf8_table2[a]) << s; \
692 c |= (*ptr++ & 0x3f) << s; \
697 /*************************************************
698 * Binary chop search on a table *
699 *************************************************/
701 /* This is used for matching expansion items and operators.
704 name the name that is being sought
705 table the table to search
706 table_size the number of items in the table
708 Returns: the offset in the table, or -1
712 chop_match(uschar *name, uschar **table, int table_size)
714 uschar **bot = table;
715 uschar **top = table + table_size;
719 uschar **mid = bot + (top - bot)/2;
720 int c = Ustrcmp(name, *mid);
721 if (c == 0) return mid - table;
722 if (c > 0) bot = mid + 1; else top = mid;
730 /*************************************************
731 * Check a condition string *
732 *************************************************/
734 /* This function is called to expand a string, and test the result for a "true"
735 or "false" value. Failure of the expansion yields FALSE; logged unless it was a
736 forced fail or lookup defer. All store used by the function can be released on
739 The actual false-value tests should be replicated for ECOND_BOOL_LAX.
742 condition the condition string
743 m1 text to be incorporated in panic error
746 Returns: TRUE if condition is met, FALSE if not
750 expand_check_condition(uschar *condition, uschar *m1, uschar *m2)
753 void *reset_point = store_get(0);
754 uschar *ss = expand_string(condition);
757 if (!expand_string_forcedfail && !search_find_defer)
758 log_write(0, LOG_MAIN|LOG_PANIC, "failed to expand condition \"%s\" "
759 "for %s %s: %s", condition, m1, m2, expand_string_message);
762 rc = ss[0] != 0 && Ustrcmp(ss, "0") != 0 && strcmpic(ss, US"no") != 0 &&
763 strcmpic(ss, US"false") != 0;
764 store_reset(reset_point);
770 /*************************************************
771 * Pseudo-random number generation *
772 *************************************************/
774 /* Pseudo-random number generation. The result is not "expected" to be
775 cryptographically strong but not so weak that someone will shoot themselves
776 in the foot using it as a nonce in some email header scheme or whatever
777 weirdness they'll twist this into. The result should ideally handle fork().
779 However, if we're stuck unable to provide this, then we'll fall back to
780 appallingly bad randomness.
782 If SUPPORT_TLS is defined and OpenSSL is used, then this will not be used.
783 The GNUTLS randomness functions found do not seem amenable to extracting
784 random numbers outside of a TLS context. Any volunteers?
788 Returns a random number in range [0, max-1]
791 #if !defined(SUPPORT_TLS) || defined(USE_GNUTLS)
793 pseudo_random_number(int max)
795 static pid_t pid = 0;
797 #if defined(HAVE_SRANDOM) && !defined(HAVE_SRANDOMDEV)
807 #ifdef HAVE_ARC4RANDOM
808 /* cryptographically strong randomness, common on *BSD platforms, not
809 so much elsewhere. Alas. */
811 #elif defined(HAVE_SRANDOM) || defined(HAVE_SRANDOMDEV)
812 #ifdef HAVE_SRANDOMDEV
813 /* uses random(4) for seeding */
816 gettimeofday(&tv, NULL);
817 srandom(tv.tv_sec | tv.tv_usec | getpid());
820 /* Poor randomness and no seeding here */
827 #ifdef HAVE_ARC4RANDOM
828 return arc4random() % max;
829 #elif defined(HAVE_SRANDOM) || defined(HAVE_SRANDOMDEV)
830 return random() % max;
832 /* This one returns a 16-bit number, definitely not crypto-strong */
833 return random_number(max);
839 /*************************************************
840 * Pick out a name from a string *
841 *************************************************/
843 /* If the name is too long, it is silently truncated.
846 name points to a buffer into which to put the name
847 max is the length of the buffer
848 s points to the first alphabetic character of the name
849 extras chars other than alphanumerics to permit
851 Returns: pointer to the first character after the name
853 Note: The test for *s != 0 in the while loop is necessary because
854 Ustrchr() yields non-NULL if the character is zero (which is not something
858 read_name(uschar *name, int max, uschar *s, uschar *extras)
861 while (*s != 0 && (isalnum(*s) || Ustrchr(extras, *s) != NULL))
863 if (ptr < max-1) name[ptr++] = *s;
872 /*************************************************
873 * Pick out the rest of a header name *
874 *************************************************/
876 /* A variable name starting $header_ (or just $h_ for those who like
877 abbreviations) might not be the complete header name because headers can
878 contain any printing characters in their names, except ':'. This function is
879 called to read the rest of the name, chop h[eader]_ off the front, and put ':'
880 on the end, if the name was terminated by white space.
883 name points to a buffer in which the name read so far exists
884 max is the length of the buffer
885 s points to the first character after the name so far, i.e. the
886 first non-alphameric character after $header_xxxxx
888 Returns: a pointer to the first character after the header name
892 read_header_name(uschar *name, int max, uschar *s)
894 int prelen = Ustrchr(name, '_') - name + 1;
895 int ptr = Ustrlen(name) - prelen;
896 if (ptr > 0) memmove(name, name+prelen, ptr);
897 while (mac_isgraph(*s) && *s != ':')
899 if (ptr < max-1) name[ptr++] = *s;
910 /*************************************************
911 * Pick out a number from a string *
912 *************************************************/
915 n points to an integer into which to put the number
916 s points to the first digit of the number
918 Returns: a pointer to the character after the last digit
922 read_number(int *n, uschar *s)
925 while (isdigit(*s)) *n = *n * 10 + (*s++ - '0');
931 /*************************************************
932 * Extract keyed subfield from a string *
933 *************************************************/
935 /* The yield is in dynamic store; NULL means that the key was not found.
938 key points to the name of the key
939 s points to the string from which to extract the subfield
941 Returns: NULL if the subfield was not found, or
942 a pointer to the subfield's data
946 expand_getkeyed(uschar *key, uschar *s)
948 int length = Ustrlen(key);
949 while (isspace(*s)) s++;
951 /* Loop to search for the key */
959 while (*s != 0 && *s != '=' && !isspace(*s)) s++;
960 dkeylength = s - dkey;
961 while (isspace(*s)) s++;
962 if (*s == '=') while (isspace((*(++s))));
964 data = string_dequote(&s);
965 if (length == dkeylength && strncmpic(key, dkey, length) == 0)
968 while (isspace(*s)) s++;
977 /*************************************************
978 * Extract numbered subfield from string *
979 *************************************************/
981 /* Extracts a numbered field from a string that is divided by tokens - for
982 example a line from /etc/passwd is divided by colon characters. First field is
983 numbered one. Negative arguments count from the right. Zero returns the whole
984 string. Returns NULL if there are insufficient tokens in the string
987 Modifies final argument - this is a dynamically generated string, so that's OK.
990 field number of field to be extracted,
991 first field = 1, whole string = 0, last field = -1
992 separators characters that are used to break string into tokens
993 s points to the string from which to extract the subfield
995 Returns: NULL if the field was not found,
996 a pointer to the field's data inside s (modified to add 0)
1000 expand_gettokened (int field, uschar *separators, uschar *s)
1005 uschar *fieldtext = NULL;
1007 if (field == 0) return s;
1009 /* Break the line up into fields in place; for field > 0 we stop when we have
1010 done the number of fields we want. For field < 0 we continue till the end of
1011 the string, counting the number of fields. */
1013 count = (field > 0)? field : INT_MAX;
1019 /* Previous field was the last one in the string. For a positive field
1020 number, this means there are not enough fields. For a negative field number,
1021 check that there are enough, and scan back to find the one that is wanted. */
1025 if (field > 0 || (-field) > (INT_MAX - count - 1)) return NULL;
1026 if ((-field) == (INT_MAX - count - 1)) return s;
1030 while (ss[-1] != 0) ss--;
1036 /* Previous field was not last in the string; save its start and put a
1040 len = Ustrcspn(ss, separators);
1051 /*************************************************
1052 * Extract a substring from a string *
1053 *************************************************/
1055 /* Perform the ${substr or ${length expansion operations.
1058 subject the input string
1059 value1 the offset from the start of the input string to the start of
1060 the output string; if negative, count from the right.
1061 value2 the length of the output string, or negative (-1) for unset
1062 if value1 is positive, unset means "all after"
1063 if value1 is negative, unset means "all before"
1064 len set to the length of the returned string
1066 Returns: pointer to the output string, or NULL if there is an error
1070 extract_substr(uschar *subject, int value1, int value2, int *len)
1072 int sublen = Ustrlen(subject);
1074 if (value1 < 0) /* count from right */
1078 /* If the position is before the start, skip to the start, and adjust the
1079 length. If the length ends up negative, the substring is null because nothing
1080 can precede. This falls out naturally when the length is unset, meaning "all
1086 if (value2 < 0) value2 = 0;
1090 /* Otherwise an unset length => characters before value1 */
1092 else if (value2 < 0)
1099 /* For a non-negative offset, if the starting position is past the end of the
1100 string, the result will be the null string. Otherwise, an unset length means
1101 "rest"; just set it to the maximum - it will be cut down below if necessary. */
1105 if (value1 > sublen)
1110 else if (value2 < 0) value2 = sublen;
1113 /* Cut the length down to the maximum possible for the offset value, and get
1114 the required characters. */
1116 if (value1 + value2 > sublen) value2 = sublen - value1;
1118 return subject + value1;
1124 /*************************************************
1125 * Old-style hash of a string *
1126 *************************************************/
1128 /* Perform the ${hash expansion operation.
1131 subject the input string (an expanded substring)
1132 value1 the length of the output string; if greater or equal to the
1133 length of the input string, the input string is returned
1134 value2 the number of hash characters to use, or 26 if negative
1135 len set to the length of the returned string
1137 Returns: pointer to the output string, or NULL if there is an error
1141 compute_hash(uschar *subject, int value1, int value2, int *len)
1143 int sublen = Ustrlen(subject);
1145 if (value2 < 0) value2 = 26;
1146 else if (value2 > Ustrlen(hashcodes))
1148 expand_string_message =
1149 string_sprintf("hash count \"%d\" too big", value2);
1153 /* Calculate the hash text. We know it is shorter than the original string, so
1154 can safely place it in subject[] (we know that subject is always itself an
1155 expanded substring). */
1157 if (value1 < sublen)
1162 while ((c = (subject[j])) != 0)
1164 int shift = (c + j++) & 7;
1165 subject[i] ^= (c << shift) | (c >> (8-shift));
1166 if (++i >= value1) i = 0;
1168 for (i = 0; i < value1; i++)
1169 subject[i] = hashcodes[(subject[i]) % value2];
1171 else value1 = sublen;
1180 /*************************************************
1181 * Numeric hash of a string *
1182 *************************************************/
1184 /* Perform the ${nhash expansion operation. The first characters of the
1185 string are treated as most important, and get the highest prime numbers.
1188 subject the input string
1189 value1 the maximum value of the first part of the result
1190 value2 the maximum value of the second part of the result,
1191 or negative to produce only a one-part result
1192 len set to the length of the returned string
1194 Returns: pointer to the output string, or NULL if there is an error.
1198 compute_nhash (uschar *subject, int value1, int value2, int *len)
1200 uschar *s = subject;
1202 unsigned long int total = 0; /* no overflow */
1206 if (i == 0) i = sizeof(prime)/sizeof(int) - 1;
1207 total += prime[i--] * (unsigned int)(*s++);
1210 /* If value2 is unset, just compute one number */
1214 s = string_sprintf("%d", total % value1);
1217 /* Otherwise do a div/mod hash */
1221 total = total % (value1 * value2);
1222 s = string_sprintf("%d/%d", total/value2, total % value2);
1233 /*************************************************
1234 * Find the value of a header or headers *
1235 *************************************************/
1237 /* Multiple instances of the same header get concatenated, and this function
1238 can also return a concatenation of all the header lines. When concatenating
1239 specific headers that contain lists of addresses, a comma is inserted between
1240 them. Otherwise we use a straight concatenation. Because some messages can have
1241 pathologically large number of lines, there is a limit on the length that is
1242 returned. Also, to avoid massive store use which would result from using
1243 string_cat() as it copies and extends strings, we do a preliminary pass to find
1244 out exactly how much store will be needed. On "normal" messages this will be
1248 name the name of the header, without the leading $header_ or $h_,
1249 or NULL if a concatenation of all headers is required
1250 exists_only TRUE if called from a def: test; don't need to build a string;
1251 just return a string that is not "" and not "0" if the header
1253 newsize return the size of memory block that was obtained; may be NULL
1254 if exists_only is TRUE
1255 want_raw TRUE if called for $rh_ or $rheader_ variables; no processing,
1256 other than concatenating, will be done on the header. Also used
1257 for $message_headers_raw.
1258 charset name of charset to translate MIME words to; used only if
1259 want_raw is false; if NULL, no translation is done (this is
1260 used for $bh_ and $bheader_)
1262 Returns: NULL if the header does not exist, else a pointer to a new
1267 find_header(uschar *name, BOOL exists_only, int *newsize, BOOL want_raw,
1270 BOOL found = name == NULL;
1272 int len = found? 0 : Ustrlen(name);
1274 uschar *yield = NULL;
1277 /* Loop for two passes - saves code repetition */
1279 for (i = 0; i < 2; i++)
1284 for (h = header_list; size < header_insert_maxlen && h != NULL; h = h->next)
1286 if (h->type != htype_old && h->text != NULL) /* NULL => Received: placeholder */
1288 if (name == NULL || (len <= h->slen && strncmpic(name, h->text, len) == 0))
1293 if (exists_only) return US"1"; /* don't need actual string */
1295 t = h->text + len; /* text to insert */
1296 if (!want_raw) /* unless wanted raw, */
1297 while (isspace(*t)) t++; /* remove leading white space */
1298 ilen = h->slen - (t - h->text); /* length to insert */
1300 /* Unless wanted raw, remove trailing whitespace, including the
1304 while (ilen > 0 && isspace(t[ilen-1])) ilen--;
1306 /* Set comma = 1 if handling a single header and it's one of those
1307 that contains an address list, except when asked for raw headers. Only
1308 need to do this once. */
1310 if (!want_raw && name != NULL && comma == 0 &&
1311 Ustrchr("BCFRST", h->type) != NULL)
1314 /* First pass - compute total store needed; second pass - compute
1315 total store used, including this header. */
1317 size += ilen + comma + 1; /* +1 for the newline */
1319 /* Second pass - concatentate the data, up to a maximum. Note that
1320 the loop stops when size hits the limit. */
1324 if (size > header_insert_maxlen)
1326 ilen -= size - header_insert_maxlen - 1;
1329 Ustrncpy(ptr, t, ilen);
1332 /* For a non-raw header, put in the comma if needed, then add
1333 back the newline we removed above, provided there was some text in
1336 if (!want_raw && ilen > 0)
1338 if (comma != 0) *ptr++ = ',';
1346 /* At end of first pass, return NULL if no header found. Then truncate size
1347 if necessary, and get the buffer to hold the data, returning the buffer size.
1352 if (!found) return NULL;
1353 if (size > header_insert_maxlen) size = header_insert_maxlen;
1354 *newsize = size + 1;
1355 ptr = yield = store_get(*newsize);
1359 /* That's all we do for raw header expansion. */
1366 /* Otherwise, remove a final newline and a redundant added comma. Then we do
1367 RFC 2047 decoding, translating the charset if requested. The rfc2047_decode2()
1368 function can return an error with decoded data if the charset translation
1369 fails. If decoding fails, it returns NULL. */
1373 uschar *decoded, *error;
1374 if (ptr > yield && ptr[-1] == '\n') ptr--;
1375 if (ptr > yield && comma != 0 && ptr[-1] == ',') ptr--;
1377 decoded = rfc2047_decode2(yield, check_rfc2047_length, charset, '?', NULL,
1381 DEBUG(D_any) debug_printf("*** error in RFC 2047 decoding: %s\n"
1382 " input was: %s\n", error, yield);
1384 if (decoded != NULL) yield = decoded;
1393 /*************************************************
1394 * Find value of a variable *
1395 *************************************************/
1397 /* The table of variables is kept in alphabetic order, so we can search it
1398 using a binary chop. The "choplen" variable is nothing to do with the binary
1402 name the name of the variable being sought
1403 exists_only TRUE if this is a def: test; passed on to find_header()
1404 skipping TRUE => skip any processing evaluation; this is not the same as
1405 exists_only because def: may test for values that are first
1407 newsize pointer to an int which is initially zero; if the answer is in
1408 a new memory buffer, *newsize is set to its size
1410 Returns: NULL if the variable does not exist, or
1411 a pointer to the variable's contents, or
1412 something non-NULL if exists_only is TRUE
1416 find_variable(uschar *name, BOOL exists_only, BOOL skipping, int *newsize)
1419 int last = var_table_size;
1421 /* Handle ACL variables, whose names are of the form acl_cxxx or acl_mxxx.
1422 Originally, xxx had to be a number in the range 0-9 (later 0-19), but from
1423 release 4.64 onwards arbitrary names are permitted, as long as the first 5
1424 characters are acl_c or acl_m and the sixth is either a digit or an underscore
1425 (this gave backwards compatibility at the changeover). There may be built-in
1426 variables whose names start acl_ but they should never start in this way. This
1427 slightly messy specification is a consequence of the history, needless to say.
1429 If an ACL variable does not exist, treat it as empty, unless strict_acl_vars is
1430 set, in which case give an error. */
1432 if ((Ustrncmp(name, "acl_c", 5) == 0 || Ustrncmp(name, "acl_m", 5) == 0) &&
1436 tree_search((name[4] == 'c')? acl_var_c : acl_var_m, name + 4);
1437 return (node == NULL)? (strict_acl_vars? NULL : US"") : node->data.ptr;
1440 /* Handle $auth<n> variables. */
1442 if (Ustrncmp(name, "auth", 4) == 0)
1445 int n = Ustrtoul(name + 4, &endptr, 10);
1446 if (*endptr == 0 && n != 0 && n <= AUTH_VARS)
1447 return (auth_vars[n-1] == NULL)? US"" : auth_vars[n-1];
1450 /* For all other variables, search the table */
1452 while (last > first)
1456 int middle = (first + last)/2;
1457 int c = Ustrcmp(name, var_table[middle].name);
1459 if (c > 0) { first = middle + 1; continue; }
1460 if (c < 0) { last = middle; continue; }
1462 /* Found an existing variable. If in skipping state, the value isn't needed,
1463 and we want to avoid processing (such as looking up the host name). */
1465 if (skipping) return US"";
1467 switch (var_table[middle].type)
1469 case vtype_filter_int:
1470 if (!filter_running) return NULL;
1474 sprintf(CS var_buffer, "%d", *(int *)(var_table[middle].value)); /* Integer */
1478 sprintf(CS var_buffer, "%ld", (long int)(*(ino_t *)(var_table[middle].value))); /* Inode */
1482 sprintf(CS var_buffer, "%ld", (long int)(*(gid_t *)(var_table[middle].value))); /* gid */
1486 sprintf(CS var_buffer, "%ld", (long int)(*(uid_t *)(var_table[middle].value))); /* uid */
1489 case vtype_stringptr: /* Pointer to string */
1490 s = *((uschar **)(var_table[middle].value));
1491 return (s == NULL)? US"" : s;
1494 sprintf(CS var_buffer, "%d", (int)getpid()); /* pid */
1497 case vtype_load_avg:
1498 sprintf(CS var_buffer, "%d", OS_GETLOADAVG()); /* load_average */
1501 case vtype_host_lookup: /* Lookup if not done so */
1502 if (sender_host_name == NULL && sender_host_address != NULL &&
1503 !host_lookup_failed && host_name_lookup() == OK)
1504 host_build_sender_fullhost();
1505 return (sender_host_name == NULL)? US"" : sender_host_name;
1507 case vtype_localpart: /* Get local part from address */
1508 s = *((uschar **)(var_table[middle].value));
1509 if (s == NULL) return US"";
1510 domain = Ustrrchr(s, '@');
1511 if (domain == NULL) return s;
1512 if (domain - s > sizeof(var_buffer) - 1)
1513 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "local part longer than %d in "
1514 "string expansion", sizeof(var_buffer));
1515 Ustrncpy(var_buffer, s, domain - s);
1516 var_buffer[domain - s] = 0;
1519 case vtype_domain: /* Get domain from address */
1520 s = *((uschar **)(var_table[middle].value));
1521 if (s == NULL) return US"";
1522 domain = Ustrrchr(s, '@');
1523 return (domain == NULL)? US"" : domain + 1;
1525 case vtype_msgheaders:
1526 return find_header(NULL, exists_only, newsize, FALSE, NULL);
1528 case vtype_msgheaders_raw:
1529 return find_header(NULL, exists_only, newsize, TRUE, NULL);
1531 case vtype_msgbody: /* Pointer to msgbody string */
1532 case vtype_msgbody_end: /* Ditto, the end of the msg */
1533 ss = (uschar **)(var_table[middle].value);
1534 if (*ss == NULL && deliver_datafile >= 0) /* Read body when needed */
1537 off_t start_offset = SPOOL_DATA_START_OFFSET;
1538 int len = message_body_visible;
1539 if (len > message_size) len = message_size;
1540 *ss = body = store_malloc(len+1);
1542 if (var_table[middle].type == vtype_msgbody_end)
1544 struct stat statbuf;
1545 if (fstat(deliver_datafile, &statbuf) == 0)
1547 start_offset = statbuf.st_size - len;
1548 if (start_offset < SPOOL_DATA_START_OFFSET)
1549 start_offset = SPOOL_DATA_START_OFFSET;
1552 lseek(deliver_datafile, start_offset, SEEK_SET);
1553 len = read(deliver_datafile, body, len);
1557 if (message_body_newlines) /* Separate loops for efficiency */
1560 { if (body[--len] == 0) body[len] = ' '; }
1565 { if (body[--len] == '\n' || body[len] == 0) body[len] = ' '; }
1569 return (*ss == NULL)? US"" : *ss;
1571 case vtype_todbsdin: /* BSD inbox time of day */
1572 return tod_stamp(tod_bsdin);
1574 case vtype_tode: /* Unix epoch time of day */
1575 return tod_stamp(tod_epoch);
1577 case vtype_todf: /* Full time of day */
1578 return tod_stamp(tod_full);
1580 case vtype_todl: /* Log format time of day */
1581 return tod_stamp(tod_log_bare); /* (without timezone) */
1583 case vtype_todzone: /* Time zone offset only */
1584 return tod_stamp(tod_zone);
1586 case vtype_todzulu: /* Zulu time */
1587 return tod_stamp(tod_zulu);
1589 case vtype_todlf: /* Log file datestamp tod */
1590 return tod_stamp(tod_log_datestamp_daily);
1592 case vtype_reply: /* Get reply address */
1593 s = find_header(US"reply-to:", exists_only, newsize, TRUE,
1595 if (s != NULL) while (isspace(*s)) s++;
1596 if (s == NULL || *s == 0)
1598 *newsize = 0; /* For the *s==0 case */
1599 s = find_header(US"from:", exists_only, newsize, TRUE, headers_charset);
1604 while (isspace(*s)) s++;
1605 for (t = s; *t != 0; t++) if (*t == '\n') *t = ' ';
1606 while (t > s && isspace(t[-1])) t--;
1609 return (s == NULL)? US"" : s;
1611 /* A recipients list is available only during system message filtering,
1612 during ACL processing after DATA, and while expanding pipe commands
1613 generated from a system filter, but not elsewhere. */
1615 case vtype_recipients:
1616 if (!enable_dollar_recipients) return NULL; else
1621 s = store_get(size);
1622 for (i = 0; i < recipients_count; i++)
1624 if (i != 0) s = string_cat(s, &size, &ptr, US", ", 2);
1625 s = string_cat(s, &size, &ptr, recipients_list[i].address,
1626 Ustrlen(recipients_list[i].address));
1628 s[ptr] = 0; /* string_cat() leaves room */
1635 sprintf(CS var_buffer, "%d",
1636 receive_statvfs(var_table[middle].value == (void *)TRUE, &inodes));
1643 (void) receive_statvfs(var_table[middle].value == (void *)TRUE, &inodes);
1644 sprintf(CS var_buffer, "%d", inodes);
1648 #ifndef DISABLE_DKIM
1650 return dkim_exim_expand_query((int)(long)var_table[middle].value);
1656 return NULL; /* Unknown variable name */
1662 /*************************************************
1663 * Read and expand substrings *
1664 *************************************************/
1666 /* This function is called to read and expand argument substrings for various
1667 expansion items. Some have a minimum requirement that is less than the maximum;
1668 in these cases, the first non-present one is set to NULL.
1671 sub points to vector of pointers to set
1672 n maximum number of substrings
1674 sptr points to current string pointer
1675 skipping the skipping flag
1676 check_end if TRUE, check for final '}'
1677 name name of item, for error message
1679 Returns: 0 OK; string pointer updated
1680 1 curly bracketing error (too few arguments)
1681 2 too many arguments (only if check_end is set); message set
1682 3 other error (expansion failure)
1686 read_subs(uschar **sub, int n, int m, uschar **sptr, BOOL skipping,
1687 BOOL check_end, uschar *name)
1692 while (isspace(*s)) s++;
1693 for (i = 0; i < n; i++)
1697 if (i < m) return 1;
1701 sub[i] = expand_string_internal(s+1, TRUE, &s, skipping);
1702 if (sub[i] == NULL) return 3;
1703 if (*s++ != '}') return 1;
1704 while (isspace(*s)) s++;
1706 if (check_end && *s++ != '}')
1710 expand_string_message = string_sprintf("Too many arguments for \"%s\" "
1711 "(max is %d)", name, n);
1724 /*************************************************
1725 * Elaborate message for bad variable *
1726 *************************************************/
1728 /* For the "unknown variable" message, take a look at the variable's name, and
1729 give additional information about possible ACL variables. The extra information
1730 is added on to expand_string_message.
1732 Argument: the name of the variable
1737 check_variable_error_message(uschar *name)
1739 if (Ustrncmp(name, "acl_", 4) == 0)
1740 expand_string_message = string_sprintf("%s (%s)", expand_string_message,
1741 (name[4] == 'c' || name[4] == 'm')?
1743 US"6th character of a user-defined ACL variable must be a digit or underscore" :
1744 US"strict_acl_vars is set" /* Syntax is OK, it has to be this */
1746 US"user-defined ACL variables must start acl_c or acl_m");
1751 /*************************************************
1752 * Read and evaluate a condition *
1753 *************************************************/
1757 s points to the start of the condition text
1758 yield points to a BOOL to hold the result of the condition test;
1759 if NULL, we are just reading through a condition that is
1760 part of an "or" combination to check syntax, or in a state
1761 where the answer isn't required
1763 Returns: a pointer to the first character after the condition, or
1768 eval_condition(uschar *s, BOOL *yield)
1770 BOOL testfor = TRUE;
1771 BOOL tempcond, combined_cond;
1773 int i, rc, cond_type, roffset;
1775 struct stat statbuf;
1780 const uschar *rerror;
1784 while (isspace(*s)) s++;
1785 if (*s == '!') { testfor = !testfor; s++; } else break;
1788 /* Numeric comparisons are symbolic */
1790 if (*s == '=' || *s == '>' || *s == '<')
1802 /* All other conditions are named */
1804 else s = read_name(name, 256, s, US"_");
1806 /* If we haven't read a name, it means some non-alpha character is first. */
1810 expand_string_message = string_sprintf("condition name expected, "
1811 "but found \"%.16s\"", s);
1815 /* Find which condition we are dealing with, and switch on it */
1817 cond_type = chop_match(name, cond_table, sizeof(cond_table)/sizeof(uschar *));
1820 /* def: tests for a non-empty variable, or for the existence of a header. If
1821 yield == NULL we are in a skipping state, and don't care about the answer. */
1826 expand_string_message = US"\":\" expected after \"def\"";
1830 s = read_name(name, 256, s+1, US"_");
1832 /* Test for a header's existence. If the name contains a closing brace
1833 character, this may be a user error where the terminating colon has been
1834 omitted. Set a flag to adjust a subsequent error message in this case. */
1836 if (Ustrncmp(name, "h_", 2) == 0 ||
1837 Ustrncmp(name, "rh_", 3) == 0 ||
1838 Ustrncmp(name, "bh_", 3) == 0 ||
1839 Ustrncmp(name, "header_", 7) == 0 ||
1840 Ustrncmp(name, "rheader_", 8) == 0 ||
1841 Ustrncmp(name, "bheader_", 8) == 0)
1843 s = read_header_name(name, 256, s);
1844 if (Ustrchr(name, '}') != NULL) malformed_header = TRUE;
1845 if (yield != NULL) *yield =
1846 (find_header(name, TRUE, NULL, FALSE, NULL) != NULL) == testfor;
1849 /* Test for a variable's having a non-empty value. A non-existent variable
1850 causes an expansion failure. */
1854 uschar *value = find_variable(name, TRUE, yield == NULL, NULL);
1857 expand_string_message = (name[0] == 0)?
1858 string_sprintf("variable name omitted after \"def:\"") :
1859 string_sprintf("unknown variable \"%s\" after \"def:\"", name);
1860 check_variable_error_message(name);
1863 if (yield != NULL) *yield = (value[0] != 0) == testfor;
1869 /* first_delivery tests for first delivery attempt */
1871 case ECOND_FIRST_DELIVERY:
1872 if (yield != NULL) *yield = deliver_firsttime == testfor;
1876 /* queue_running tests for any process started by a queue runner */
1878 case ECOND_QUEUE_RUNNING:
1879 if (yield != NULL) *yield = (queue_run_pid != (pid_t)0) == testfor;
1883 /* exists: tests for file existence
1884 isip: tests for any IP address
1885 isip4: tests for an IPv4 address
1886 isip6: tests for an IPv6 address
1887 pam: does PAM authentication
1888 radius: does RADIUS authentication
1889 ldapauth: does LDAP authentication
1890 pwcheck: does Cyrus SASL pwcheck authentication
1899 case ECOND_LDAPAUTH:
1902 while (isspace(*s)) s++;
1903 if (*s != '{') goto COND_FAILED_CURLY_START;
1905 sub[0] = expand_string_internal(s+1, TRUE, &s, yield == NULL);
1906 if (sub[0] == NULL) return NULL;
1907 if (*s++ != '}') goto COND_FAILED_CURLY_END;
1909 if (yield == NULL) return s; /* No need to run the test if skipping */
1914 if ((expand_forbid & RDO_EXISTS) != 0)
1916 expand_string_message = US"File existence tests are not permitted";
1919 *yield = (Ustat(sub[0], &statbuf) == 0) == testfor;
1925 rc = string_is_ip_address(sub[0], NULL);
1926 *yield = ((cond_type == ECOND_ISIP)? (rc != 0) :
1927 (cond_type == ECOND_ISIP4)? (rc == 4) : (rc == 6)) == testfor;
1930 /* Various authentication tests - all optionally compiled */
1934 rc = auth_call_pam(sub[0], &expand_string_message);
1937 goto COND_FAILED_NOT_COMPILED;
1938 #endif /* SUPPORT_PAM */
1941 #ifdef RADIUS_CONFIG_FILE
1942 rc = auth_call_radius(sub[0], &expand_string_message);
1945 goto COND_FAILED_NOT_COMPILED;
1946 #endif /* RADIUS_CONFIG_FILE */
1948 case ECOND_LDAPAUTH:
1951 /* Just to keep the interface the same */
1953 int old_pool = store_pool;
1954 store_pool = POOL_SEARCH;
1955 rc = eldapauth_find((void *)(-1), NULL, sub[0], Ustrlen(sub[0]), NULL,
1956 &expand_string_message, &do_cache);
1957 store_pool = old_pool;
1961 goto COND_FAILED_NOT_COMPILED;
1962 #endif /* LOOKUP_LDAP */
1965 #ifdef CYRUS_PWCHECK_SOCKET
1966 rc = auth_call_pwcheck(sub[0], &expand_string_message);
1969 goto COND_FAILED_NOT_COMPILED;
1970 #endif /* CYRUS_PWCHECK_SOCKET */
1972 #if defined(SUPPORT_PAM) || defined(RADIUS_CONFIG_FILE) || \
1973 defined(LOOKUP_LDAP) || defined(CYRUS_PWCHECK_SOCKET)
1975 if (rc == ERROR || rc == DEFER) return NULL;
1976 *yield = (rc == OK) == testfor;
1982 /* saslauthd: does Cyrus saslauthd authentication. Four parameters are used:
1984 ${if saslauthd {{username}{password}{service}{realm}} {yes}[no}}
1986 However, the last two are optional. That is why the whole set is enclosed
1987 in their own set or braces. */
1989 case ECOND_SASLAUTHD:
1990 #ifndef CYRUS_SASLAUTHD_SOCKET
1991 goto COND_FAILED_NOT_COMPILED;
1993 while (isspace(*s)) s++;
1994 if (*s++ != '{') goto COND_FAILED_CURLY_START;
1995 switch(read_subs(sub, 4, 2, &s, yield == NULL, TRUE, US"saslauthd"))
1997 case 1: expand_string_message = US"too few arguments or bracketing "
1998 "error for saslauthd";
2000 case 3: return NULL;
2002 if (sub[2] == NULL) sub[3] = NULL; /* realm if no service */
2006 rc = auth_call_saslauthd(sub[0], sub[1], sub[2], sub[3],
2007 &expand_string_message);
2008 if (rc == ERROR || rc == DEFER) return NULL;
2009 *yield = (rc == OK) == testfor;
2012 #endif /* CYRUS_SASLAUTHD_SOCKET */
2015 /* symbolic operators for numeric and string comparison, and a number of
2016 other operators, all requiring two arguments.
2018 match: does a regular expression match and sets up the numerical
2019 variables if it succeeds
2020 match_address: matches in an address list
2021 match_domain: matches in a domain list
2022 match_ip: matches a host list that is restricted to IP addresses
2023 match_local_part: matches in a local part list
2024 crypteq: encrypts plaintext and compares against an encrypted text,
2025 using crypt(), crypt16(), MD5 or SHA-1
2029 case ECOND_MATCH_ADDRESS:
2030 case ECOND_MATCH_DOMAIN:
2031 case ECOND_MATCH_IP:
2032 case ECOND_MATCH_LOCAL_PART:
2035 case ECOND_NUM_L: /* Numerical comparisons */
2042 case ECOND_STR_LT: /* String comparisons */
2053 for (i = 0; i < 2; i++)
2055 while (isspace(*s)) s++;
2058 if (i == 0) goto COND_FAILED_CURLY_START;
2059 expand_string_message = string_sprintf("missing 2nd string in {} "
2060 "after \"%s\"", name);
2063 sub[i] = expand_string_internal(s+1, TRUE, &s, yield == NULL);
2064 if (sub[i] == NULL) return NULL;
2065 if (*s++ != '}') goto COND_FAILED_CURLY_END;
2067 /* Convert to numerical if required; we know that the names of all the
2068 conditions that compare numbers do not start with a letter. This just saves
2069 checking for them individually. */
2071 if (!isalpha(name[0]) && yield != NULL)
2077 debug_printf("empty string cast to zero for numerical comparison\n");
2081 num[i] = expand_string_integer(sub[i], FALSE);
2082 if (expand_string_message != NULL) return NULL;
2087 /* Result not required */
2089 if (yield == NULL) return s;
2091 /* Do an appropriate comparison */
2097 *yield = (num[0] == num[1]) == testfor;
2101 *yield = (num[0] > num[1]) == testfor;
2105 *yield = (num[0] >= num[1]) == testfor;
2109 *yield = (num[0] < num[1]) == testfor;
2113 *yield = (num[0] <= num[1]) == testfor;
2117 *yield = (Ustrcmp(sub[0], sub[1]) < 0) == testfor;
2121 *yield = (strcmpic(sub[0], sub[1]) < 0) == testfor;
2125 *yield = (Ustrcmp(sub[0], sub[1]) <= 0) == testfor;
2129 *yield = (strcmpic(sub[0], sub[1]) <= 0) == testfor;
2133 *yield = (Ustrcmp(sub[0], sub[1]) == 0) == testfor;
2137 *yield = (strcmpic(sub[0], sub[1]) == 0) == testfor;
2141 *yield = (Ustrcmp(sub[0], sub[1]) > 0) == testfor;
2145 *yield = (strcmpic(sub[0], sub[1]) > 0) == testfor;
2149 *yield = (Ustrcmp(sub[0], sub[1]) >= 0) == testfor;
2153 *yield = (strcmpic(sub[0], sub[1]) >= 0) == testfor;
2156 case ECOND_MATCH: /* Regular expression match */
2157 re = pcre_compile(CS sub[1], PCRE_COPT, (const char **)&rerror, &roffset,
2161 expand_string_message = string_sprintf("regular expression error in "
2162 "\"%s\": %s at offset %d", sub[1], rerror, roffset);
2165 *yield = regex_match_and_setup(re, sub[0], 0, -1) == testfor;
2168 case ECOND_MATCH_ADDRESS: /* Match in an address list */
2169 rc = match_address_list(sub[0], TRUE, FALSE, &(sub[1]), NULL, -1, 0, NULL);
2170 goto MATCHED_SOMETHING;
2172 case ECOND_MATCH_DOMAIN: /* Match in a domain list */
2173 rc = match_isinlist(sub[0], &(sub[1]), 0, &domainlist_anchor, NULL,
2174 MCL_DOMAIN + MCL_NOEXPAND, TRUE, NULL);
2175 goto MATCHED_SOMETHING;
2177 case ECOND_MATCH_IP: /* Match IP address in a host list */
2178 if (sub[0][0] != 0 && string_is_ip_address(sub[0], NULL) == 0)
2180 expand_string_message = string_sprintf("\"%s\" is not an IP address",
2186 unsigned int *nullcache = NULL;
2187 check_host_block cb;
2189 cb.host_name = US"";
2190 cb.host_address = sub[0];
2192 /* If the host address starts off ::ffff: it is an IPv6 address in
2193 IPv4-compatible mode. Find the IPv4 part for checking against IPv4
2196 cb.host_ipv4 = (Ustrncmp(cb.host_address, "::ffff:", 7) == 0)?
2197 cb.host_address + 7 : cb.host_address;
2199 rc = match_check_list(
2200 &sub[1], /* the list */
2201 0, /* separator character */
2202 &hostlist_anchor, /* anchor pointer */
2203 &nullcache, /* cache pointer */
2204 check_host, /* function for testing */
2205 &cb, /* argument for function */
2206 MCL_HOST, /* type of check */
2207 sub[0], /* text for debugging */
2208 NULL); /* where to pass back data */
2210 goto MATCHED_SOMETHING;
2212 case ECOND_MATCH_LOCAL_PART:
2213 rc = match_isinlist(sub[0], &(sub[1]), 0, &localpartlist_anchor, NULL,
2214 MCL_LOCALPART + MCL_NOEXPAND, TRUE, NULL);
2229 expand_string_message = string_sprintf("unable to complete match "
2230 "against \"%s\": %s", sub[1], search_error_message);
2236 /* Various "encrypted" comparisons. If the second string starts with
2237 "{" then an encryption type is given. Default to crypt() or crypt16()
2238 (build-time choice). */
2241 #ifndef SUPPORT_CRYPTEQ
2242 goto COND_FAILED_NOT_COMPILED;
2244 if (strncmpic(sub[1], US"{md5}", 5) == 0)
2246 int sublen = Ustrlen(sub[1]+5);
2251 md5_end(&base, (uschar *)sub[0], Ustrlen(sub[0]), digest);
2253 /* If the length that we are comparing against is 24, the MD5 digest
2254 is expressed as a base64 string. This is the way LDAP does it. However,
2255 some other software uses a straightforward hex representation. We assume
2256 this if the length is 32. Other lengths fail. */
2260 uschar *coded = auth_b64encode((uschar *)digest, 16);
2261 DEBUG(D_auth) debug_printf("crypteq: using MD5+B64 hashing\n"
2262 " subject=%s\n crypted=%s\n", coded, sub[1]+5);
2263 *yield = (Ustrcmp(coded, sub[1]+5) == 0) == testfor;
2265 else if (sublen == 32)
2269 for (i = 0; i < 16; i++) sprintf(CS (coded+2*i), "%02X", digest[i]);
2271 DEBUG(D_auth) debug_printf("crypteq: using MD5+hex hashing\n"
2272 " subject=%s\n crypted=%s\n", coded, sub[1]+5);
2273 *yield = (strcmpic(coded, sub[1]+5) == 0) == testfor;
2277 DEBUG(D_auth) debug_printf("crypteq: length for MD5 not 24 or 32: "
2278 "fail\n crypted=%s\n", sub[1]+5);
2283 else if (strncmpic(sub[1], US"{sha1}", 6) == 0)
2285 int sublen = Ustrlen(sub[1]+6);
2290 sha1_end(&base, (uschar *)sub[0], Ustrlen(sub[0]), digest);
2292 /* If the length that we are comparing against is 28, assume the SHA1
2293 digest is expressed as a base64 string. If the length is 40, assume a
2294 straightforward hex representation. Other lengths fail. */
2298 uschar *coded = auth_b64encode((uschar *)digest, 20);
2299 DEBUG(D_auth) debug_printf("crypteq: using SHA1+B64 hashing\n"
2300 " subject=%s\n crypted=%s\n", coded, sub[1]+6);
2301 *yield = (Ustrcmp(coded, sub[1]+6) == 0) == testfor;
2303 else if (sublen == 40)
2307 for (i = 0; i < 20; i++) sprintf(CS (coded+2*i), "%02X", digest[i]);
2309 DEBUG(D_auth) debug_printf("crypteq: using SHA1+hex hashing\n"
2310 " subject=%s\n crypted=%s\n", coded, sub[1]+6);
2311 *yield = (strcmpic(coded, sub[1]+6) == 0) == testfor;
2315 DEBUG(D_auth) debug_printf("crypteq: length for SHA-1 not 28 or 40: "
2316 "fail\n crypted=%s\n", sub[1]+6);
2321 else /* {crypt} or {crypt16} and non-{ at start */
2326 if (strncmpic(sub[1], US"{crypt}", 7) == 0)
2331 else if (strncmpic(sub[1], US"{crypt16}", 9) == 0)
2336 else if (sub[1][0] == '{')
2338 expand_string_message = string_sprintf("unknown encryption mechanism "
2339 "in \"%s\"", sub[1]);
2345 case 0: coded = US DEFAULT_CRYPT(CS sub[0], CS sub[1]); break;
2346 case 1: coded = US crypt(CS sub[0], CS sub[1]); break;
2347 default: coded = US crypt16(CS sub[0], CS sub[1]); break;
2351 #define XSTR(s) STR(s)
2352 DEBUG(D_auth) debug_printf("crypteq: using %s()\n"
2353 " subject=%s\n crypted=%s\n",
2354 (which == 0)? XSTR(DEFAULT_CRYPT) : (which == 1)? "crypt" : "crypt16",
2359 /* If the encrypted string contains fewer than two characters (for the
2360 salt), force failure. Otherwise we get false positives: with an empty
2361 string the yield of crypt() is an empty string! */
2363 *yield = (Ustrlen(sub[1]) < 2)? !testfor :
2364 (Ustrcmp(coded, sub[1]) == 0) == testfor;
2367 #endif /* SUPPORT_CRYPTEQ */
2368 } /* Switch for comparison conditions */
2370 return s; /* End of comparison conditions */
2373 /* and/or: computes logical and/or of several conditions */
2377 subcondptr = (yield == NULL)? NULL : &tempcond;
2378 combined_cond = (cond_type == ECOND_AND);
2380 while (isspace(*s)) s++;
2381 if (*s++ != '{') goto COND_FAILED_CURLY_START;
2385 while (isspace(*s)) s++;
2386 if (*s == '}') break;
2389 expand_string_message = string_sprintf("each subcondition "
2390 "inside an \"%s{...}\" condition must be in its own {}", name);
2394 s = eval_condition(s+1, subcondptr);
2397 expand_string_message = string_sprintf("%s inside \"%s{...}\" condition",
2398 expand_string_message, name);
2401 while (isspace(*s)) s++;
2405 expand_string_message = string_sprintf("missing } at end of condition "
2406 "inside \"%s\" group", name);
2412 if (cond_type == ECOND_AND)
2414 combined_cond &= tempcond;
2415 if (!combined_cond) subcondptr = NULL; /* once false, don't */
2416 } /* evaluate any more */
2419 combined_cond |= tempcond;
2420 if (combined_cond) subcondptr = NULL; /* once true, don't */
2421 } /* evaluate any more */
2425 if (yield != NULL) *yield = (combined_cond == testfor);
2429 /* forall/forany: iterates a condition with different values */
2435 uschar *save_iterate_item = iterate_item;
2437 while (isspace(*s)) s++;
2438 if (*s++ != '{') goto COND_FAILED_CURLY_START;
2439 sub[0] = expand_string_internal(s, TRUE, &s, (yield == NULL));
2440 if (sub[0] == NULL) return NULL;
2441 if (*s++ != '}') goto COND_FAILED_CURLY_END;
2443 while (isspace(*s)) s++;
2444 if (*s++ != '{') goto COND_FAILED_CURLY_START;
2448 /* Call eval_condition once, with result discarded (as if scanning a
2449 "false" part). This allows us to find the end of the condition, because if
2450 the list it empty, we won't actually evaluate the condition for real. */
2452 s = eval_condition(sub[1], NULL);
2455 expand_string_message = string_sprintf("%s inside \"%s\" condition",
2456 expand_string_message, name);
2459 while (isspace(*s)) s++;
2463 expand_string_message = string_sprintf("missing } at end of condition "
2464 "inside \"%s\"", name);
2468 if (yield != NULL) *yield = !testfor;
2469 while ((iterate_item = string_nextinlist(&sub[0], &sep, NULL, 0)) != NULL)
2471 DEBUG(D_expand) debug_printf("%s: $item = \"%s\"\n", name, iterate_item);
2472 if (eval_condition(sub[1], &tempcond) == NULL)
2474 expand_string_message = string_sprintf("%s inside \"%s\" condition",
2475 expand_string_message, name);
2476 iterate_item = save_iterate_item;
2479 DEBUG(D_expand) debug_printf("%s: condition evaluated to %s\n", name,
2480 tempcond? "true":"false");
2482 if (yield != NULL) *yield = (tempcond == testfor);
2483 if (tempcond == (cond_type == ECOND_FORANY)) break;
2486 iterate_item = save_iterate_item;
2491 /* The bool{} expansion condition maps a string to boolean.
2492 The values supported should match those supported by the ACL condition
2493 (acl.c, ACLC_CONDITION) so that we keep to a minimum the different ideas
2494 of true/false. Note that Router "condition" rules have a different
2495 interpretation, where general data can be used and only a few values
2497 Note that readconf.c boolean matching, for boolean configuration options,
2498 only matches true/yes/false/no.
2499 The bool_lax{} condition matches the Router logic, which is much more
2502 case ECOND_BOOL_LAX:
2508 BOOL boolvalue = FALSE;
2509 while (isspace(*s)) s++;
2510 if (*s != '{') goto COND_FAILED_CURLY_START;
2511 ourname = cond_type == ECOND_BOOL_LAX ? US"bool_lax" : US"bool";
2512 switch(read_subs(sub_arg, 1, 1, &s, yield == NULL, FALSE, ourname))
2514 case 1: expand_string_message = string_sprintf(
2515 "too few arguments or bracketing error for %s",
2519 case 3: return NULL;
2522 while (isspace(*t)) t++;
2526 /* trailing whitespace: seems like a good idea to ignore it too */
2528 while (isspace(*t2)) t2--;
2529 if (t2 != (t + len))
2536 debug_printf("considering %s: %s\n", ourname, len ? t : US"<empty>");
2537 /* logic for the lax case from expand_check_condition(), which also does
2538 expands, and the logic is both short and stable enough that there should
2539 be no maintenance burden from replicating it. */
2542 else if (Ustrspn(t, "0123456789") == len)
2544 boolvalue = (Uatoi(t) == 0) ? FALSE : TRUE;
2545 /* expand_check_condition only does a literal string "0" check */
2546 if ((cond_type == ECOND_BOOL_LAX) && (len > 1))
2549 else if (strcmpic(t, US"true") == 0 || strcmpic(t, US"yes") == 0)
2551 else if (strcmpic(t, US"false") == 0 || strcmpic(t, US"no") == 0)
2553 else if (cond_type == ECOND_BOOL_LAX)
2557 expand_string_message = string_sprintf("unrecognised boolean "
2561 if (yield != NULL) *yield = (boolvalue == testfor);
2565 /* Unknown condition */
2568 expand_string_message = string_sprintf("unknown condition \"%s\"", name);
2570 } /* End switch on condition type */
2572 /* Missing braces at start and end of data */
2574 COND_FAILED_CURLY_START:
2575 expand_string_message = string_sprintf("missing { after \"%s\"", name);
2578 COND_FAILED_CURLY_END:
2579 expand_string_message = string_sprintf("missing } at end of \"%s\" condition",
2583 /* A condition requires code that is not compiled */
2585 #if !defined(SUPPORT_PAM) || !defined(RADIUS_CONFIG_FILE) || \
2586 !defined(LOOKUP_LDAP) || !defined(CYRUS_PWCHECK_SOCKET) || \
2587 !defined(SUPPORT_CRYPTEQ) || !defined(CYRUS_SASLAUTHD_SOCKET)
2588 COND_FAILED_NOT_COMPILED:
2589 expand_string_message = string_sprintf("support for \"%s\" not compiled",
2598 /*************************************************
2599 * Save numerical variables *
2600 *************************************************/
2602 /* This function is called from items such as "if" that want to preserve and
2603 restore the numbered variables.
2606 save_expand_string points to an array of pointers to set
2607 save_expand_nlength points to an array of ints for the lengths
2609 Returns: the value of expand max to save
2613 save_expand_strings(uschar **save_expand_nstring, int *save_expand_nlength)
2616 for (i = 0; i <= expand_nmax; i++)
2618 save_expand_nstring[i] = expand_nstring[i];
2619 save_expand_nlength[i] = expand_nlength[i];
2626 /*************************************************
2627 * Restore numerical variables *
2628 *************************************************/
2630 /* This function restored saved values of numerical strings.
2633 save_expand_nmax the number of strings to restore
2634 save_expand_string points to an array of pointers
2635 save_expand_nlength points to an array of ints
2641 restore_expand_strings(int save_expand_nmax, uschar **save_expand_nstring,
2642 int *save_expand_nlength)
2645 expand_nmax = save_expand_nmax;
2646 for (i = 0; i <= expand_nmax; i++)
2648 expand_nstring[i] = save_expand_nstring[i];
2649 expand_nlength[i] = save_expand_nlength[i];
2657 /*************************************************
2658 * Handle yes/no substrings *
2659 *************************************************/
2661 /* This function is used by ${if}, ${lookup} and ${extract} to handle the
2662 alternative substrings that depend on whether or not the condition was true,
2663 or the lookup or extraction succeeded. The substrings always have to be
2664 expanded, to check their syntax, but "skipping" is set when the result is not
2665 needed - this avoids unnecessary nested lookups.
2668 skipping TRUE if we were skipping when this item was reached
2669 yes TRUE if the first string is to be used, else use the second
2670 save_lookup a value to put back into lookup_value before the 2nd expansion
2671 sptr points to the input string pointer
2672 yieldptr points to the output string pointer
2673 sizeptr points to the output string size
2674 ptrptr points to the output string pointer
2675 type "lookup" or "if" or "extract" or "run", for error message
2677 Returns: 0 OK; lookup_value has been reset to save_lookup
2679 2 expansion failed because of bracketing error
2683 process_yesno(BOOL skipping, BOOL yes, uschar *save_lookup, uschar **sptr,
2684 uschar **yieldptr, int *sizeptr, int *ptrptr, uschar *type)
2687 uschar *s = *sptr; /* Local value */
2688 uschar *sub1, *sub2;
2690 /* If there are no following strings, we substitute the contents of $value for
2691 lookups and for extractions in the success case. For the ${if item, the string
2692 "true" is substituted. In the fail case, nothing is substituted for all three
2695 while (isspace(*s)) s++;
2700 if (yes) *yieldptr = string_cat(*yieldptr, sizeptr, ptrptr, US"true", 4);
2704 if (yes && lookup_value != NULL)
2705 *yieldptr = string_cat(*yieldptr, sizeptr, ptrptr, lookup_value,
2706 Ustrlen(lookup_value));
2707 lookup_value = save_lookup;
2713 /* The first following string must be braced. */
2715 if (*s++ != '{') goto FAILED_CURLY;
2717 /* Expand the first substring. Forced failures are noticed only if we actually
2718 want this string. Set skipping in the call in the fail case (this will always
2719 be the case if we were already skipping). */
2721 sub1 = expand_string_internal(s, TRUE, &s, !yes);
2722 if (sub1 == NULL && (yes || !expand_string_forcedfail)) goto FAILED;
2723 expand_string_forcedfail = FALSE;
2724 if (*s++ != '}') goto FAILED_CURLY;
2726 /* If we want the first string, add it to the output */
2729 *yieldptr = string_cat(*yieldptr, sizeptr, ptrptr, sub1, Ustrlen(sub1));
2731 /* If this is called from a lookup or an extract, we want to restore $value to
2732 what it was at the start of the item, so that it has this value during the
2733 second string expansion. For the call from "if" or "run" to this function,
2734 save_lookup is set to lookup_value, so that this statement does nothing. */
2736 lookup_value = save_lookup;
2738 /* There now follows either another substring, or "fail", or nothing. This
2739 time, forced failures are noticed only if we want the second string. We must
2740 set skipping in the nested call if we don't want this string, or if we were
2741 already skipping. */
2743 while (isspace(*s)) s++;
2746 sub2 = expand_string_internal(s+1, TRUE, &s, yes || skipping);
2747 if (sub2 == NULL && (!yes || !expand_string_forcedfail)) goto FAILED;
2748 expand_string_forcedfail = FALSE;
2749 if (*s++ != '}') goto FAILED_CURLY;
2751 /* If we want the second string, add it to the output */
2754 *yieldptr = string_cat(*yieldptr, sizeptr, ptrptr, sub2, Ustrlen(sub2));
2757 /* If there is no second string, but the word "fail" is present when the use of
2758 the second string is wanted, set a flag indicating it was a forced failure
2759 rather than a syntactic error. Swallow the terminating } in case this is nested
2760 inside another lookup or if or extract. */
2765 s = read_name(name, sizeof(name), s, US"_");
2766 if (Ustrcmp(name, "fail") == 0)
2768 if (!yes && !skipping)
2770 while (isspace(*s)) s++;
2771 if (*s++ != '}') goto FAILED_CURLY;
2772 expand_string_message =
2773 string_sprintf("\"%s\" failed and \"fail\" requested", type);
2774 expand_string_forcedfail = TRUE;
2780 expand_string_message =
2781 string_sprintf("syntax error in \"%s\" item - \"fail\" expected", type);
2786 /* All we have to do now is to check on the final closing brace. */
2788 while (isspace(*s)) s++;
2789 if (*s++ == '}') goto RETURN;
2791 /* Get here if there is a bracketing failure */
2796 /* Get here for other failures */
2801 /* Update the input pointer value before returning */
2811 /*************************************************
2812 * Handle MD5 or SHA-1 computation for HMAC *
2813 *************************************************/
2815 /* These are some wrapping functions that enable the HMAC code to be a bit
2816 cleaner. A good compiler will spot the tail recursion.
2819 type HMAC_MD5 or HMAC_SHA1
2820 remaining are as for the cryptographic hash functions
2826 chash_start(int type, void *base)
2828 if (type == HMAC_MD5)
2829 md5_start((md5 *)base);
2831 sha1_start((sha1 *)base);
2835 chash_mid(int type, void *base, uschar *string)
2837 if (type == HMAC_MD5)
2838 md5_mid((md5 *)base, string);
2840 sha1_mid((sha1 *)base, string);
2844 chash_end(int type, void *base, uschar *string, int length, uschar *digest)
2846 if (type == HMAC_MD5)
2847 md5_end((md5 *)base, string, length, digest);
2849 sha1_end((sha1 *)base, string, length, digest);
2856 /********************************************************
2857 * prvs: Get last three digits of days since Jan 1, 1970 *
2858 ********************************************************/
2860 /* This is needed to implement the "prvs" BATV reverse
2863 Argument: integer "days" offset to add or substract to
2864 or from the current number of days.
2866 Returns: pointer to string containing the last three
2867 digits of the number of days since Jan 1, 1970,
2868 modified by the offset argument, NULL if there
2869 was an error in the conversion.
2874 prvs_daystamp(int day_offset)
2876 uschar *days = store_get(32); /* Need at least 24 for cases */
2877 (void)string_format(days, 32, TIME_T_FMT, /* where TIME_T_FMT is %lld */
2878 (time(NULL) + day_offset*86400)/86400);
2879 return (Ustrlen(days) >= 3) ? &days[Ustrlen(days)-3] : US"100";
2884 /********************************************************
2885 * prvs: perform HMAC-SHA1 computation of prvs bits *
2886 ********************************************************/
2888 /* This is needed to implement the "prvs" BATV reverse
2892 address RFC2821 Address to use
2893 key The key to use (must be less than 64 characters
2895 key_num Single-digit key number to use. Defaults to
2898 Returns: pointer to string containing the first three
2899 bytes of the final hash in hex format, NULL if
2900 there was an error in the process.
2904 prvs_hmac_sha1(uschar *address, uschar *key, uschar *key_num, uschar *daystamp)
2906 uschar *hash_source, *p;
2907 int size = 0,offset = 0,i;
2909 void *use_base = &sha1_base;
2910 uschar innerhash[20];
2911 uschar finalhash[20];
2912 uschar innerkey[64];
2913 uschar outerkey[64];
2914 uschar *finalhash_hex = store_get(40);
2916 if (key_num == NULL)
2919 if (Ustrlen(key) > 64)
2922 hash_source = string_cat(NULL,&size,&offset,key_num,1);
2923 string_cat(hash_source,&size,&offset,daystamp,3);
2924 string_cat(hash_source,&size,&offset,address,Ustrlen(address));
2925 hash_source[offset] = '\0';
2927 DEBUG(D_expand) debug_printf("prvs: hash source is '%s'\n", hash_source);
2929 memset(innerkey, 0x36, 64);
2930 memset(outerkey, 0x5c, 64);
2932 for (i = 0; i < Ustrlen(key); i++)
2934 innerkey[i] ^= key[i];
2935 outerkey[i] ^= key[i];
2938 chash_start(HMAC_SHA1, use_base);
2939 chash_mid(HMAC_SHA1, use_base, innerkey);
2940 chash_end(HMAC_SHA1, use_base, hash_source, offset, innerhash);
2942 chash_start(HMAC_SHA1, use_base);
2943 chash_mid(HMAC_SHA1, use_base, outerkey);
2944 chash_end(HMAC_SHA1, use_base, innerhash, 20, finalhash);
2947 for (i = 0; i < 3; i++)
2949 *p++ = hex_digits[(finalhash[i] & 0xf0) >> 4];
2950 *p++ = hex_digits[finalhash[i] & 0x0f];
2954 return finalhash_hex;
2960 /*************************************************
2961 * Join a file onto the output string *
2962 *************************************************/
2964 /* This is used for readfile and after a run expansion. It joins the contents
2965 of a file onto the output string, globally replacing newlines with a given
2966 string (optionally). The file is closed at the end.
2970 yield pointer to the expandable string
2971 sizep pointer to the current size
2972 ptrp pointer to the current position
2973 eol newline replacement string, or NULL
2975 Returns: new value of string pointer
2979 cat_file(FILE *f, uschar *yield, int *sizep, int *ptrp, uschar *eol)
2982 uschar buffer[1024];
2984 eollen = (eol == NULL)? 0 : Ustrlen(eol);
2986 while (Ufgets(buffer, sizeof(buffer), f) != NULL)
2988 int len = Ustrlen(buffer);
2989 if (eol != NULL && buffer[len-1] == '\n') len--;
2990 yield = string_cat(yield, sizep, ptrp, buffer, len);
2991 if (buffer[len] != 0)
2992 yield = string_cat(yield, sizep, ptrp, eol, eollen);
2995 if (yield != NULL) yield[*ptrp] = 0;
3003 /*************************************************
3004 * Evaluate numeric expression *
3005 *************************************************/
3007 /* This is a set of mutually recursive functions that evaluate an arithmetic
3008 expression involving + - * / % & | ^ ~ << >> and parentheses. The only one of
3009 these functions that is called from elsewhere is eval_expr, whose interface is:
3012 sptr pointer to the pointer to the string - gets updated
3013 decimal TRUE if numbers are to be assumed decimal
3014 error pointer to where to put an error message - must be NULL on input
3015 endket TRUE if ')' must terminate - FALSE for external call
3017 Returns: on success: the value of the expression, with *error still NULL
3018 on failure: an undefined value, with *error = a message
3021 static int eval_op_or(uschar **, BOOL, uschar **);
3025 eval_expr(uschar **sptr, BOOL decimal, uschar **error, BOOL endket)
3028 int x = eval_op_or(&s, decimal, error);
3034 *error = US"expecting closing parenthesis";
3036 while (isspace(*(++s)));
3038 else if (*s != 0) *error = US"expecting operator";
3046 eval_number(uschar **sptr, BOOL decimal, uschar **error)
3051 while (isspace(*s)) s++;
3056 (void)sscanf(CS s, (decimal? "%d%n" : "%i%n"), &n, &count);
3058 if (tolower(*s) == 'k') { n *= 1024; s++; }
3059 else if (tolower(*s) == 'm') { n *= 1024*1024; s++; }
3060 while (isspace (*s)) s++;
3065 n = eval_expr(&s, decimal, error, 1);
3069 *error = US"expecting number or opening parenthesis";
3077 static int eval_op_unary(uschar **sptr, BOOL decimal, uschar **error)
3081 while (isspace(*s)) s++;
3082 if (*s == '+' || *s == '-' || *s == '~')
3085 x = eval_op_unary(&s, decimal, error);
3086 if (op == '-') x = -x;
3087 else if (op == '~') x = ~x;
3091 x = eval_number(&s, decimal, error);
3098 static int eval_op_mult(uschar **sptr, BOOL decimal, uschar **error)
3101 int x = eval_op_unary(&s, decimal, error);
3104 while (*s == '*' || *s == '/' || *s == '%')
3107 int y = eval_op_unary(&s, decimal, error);
3108 if (*error != NULL) break;
3109 /* SIGFPE both on div/mod by zero and on INT_MIN / -1, which would give
3110 * a value of INT_MAX+1. Note that INT_MIN * -1 gives INT_MIN for me, which
3111 * is a bug somewhere in [gcc 4.2.1, FreeBSD, amd64]. In fact, -N*-M where
3112 * -N*M is INT_MIN will yielf INT_MIN.
3113 * Since we don't support floating point, this is somewhat simpler.
3114 * Ideally, we'd return an error, but since we overflow for all other
3115 * arithmetic, consistency suggests otherwise, but what's the correct value
3116 * to use? There is none.
3117 * The C standard guarantees overflow for unsigned arithmetic but signed
3118 * overflow invokes undefined behaviour; in practice, this is overflow
3119 * except for converting INT_MIN to INT_MAX+1. We also can't guarantee
3120 * that long/longlong larger than int are available, or we could just work
3121 * with larger types. We should consider whether to guarantee 32bit eval
3122 * and 64-bit working variables, with errors returned. For now ...
3123 * So, the only SIGFPEs occur with a non-shrinking div/mod, thus -1; we
3124 * can just let the other invalid results occur otherwise, as they have
3125 * until now. For this one case, we can coerce.
3127 if (y == -1 && x == INT_MIN && op != '*')
3130 debug_printf("Integer exception dodging: %d%c-1 coerced to %d\n",
3131 INT_MIN, op, INT_MAX);
3141 *error = (op == '/') ? US"divide by zero" : US"modulo by zero";
3157 static int eval_op_sum(uschar **sptr, BOOL decimal, uschar **error)
3160 int x = eval_op_mult(&s, decimal, error);
3163 while (*s == '+' || *s == '-')
3166 int y = eval_op_mult(&s, decimal, error);
3167 if (*error != NULL) break;
3168 if (op == '+') x += y; else x -= y;
3176 static int eval_op_shift(uschar **sptr, BOOL decimal, uschar **error)
3179 int x = eval_op_sum(&s, decimal, error);
3182 while ((*s == '<' || *s == '>') && s[1] == s[0])
3187 y = eval_op_sum(&s, decimal, error);
3188 if (*error != NULL) break;
3189 if (op == '<') x <<= y; else x >>= y;
3197 static int eval_op_and(uschar **sptr, BOOL decimal, uschar **error)
3200 int x = eval_op_shift(&s, decimal, error);
3207 y = eval_op_shift(&s, decimal, error);
3208 if (*error != NULL) break;
3217 static int eval_op_xor(uschar **sptr, BOOL decimal, uschar **error)
3220 int x = eval_op_and(&s, decimal, error);
3227 y = eval_op_and(&s, decimal, error);
3228 if (*error != NULL) break;
3237 static int eval_op_or(uschar **sptr, BOOL decimal, uschar **error)
3240 int x = eval_op_xor(&s, decimal, error);
3247 y = eval_op_xor(&s, decimal, error);
3248 if (*error != NULL) break;
3258 /*************************************************
3260 *************************************************/
3262 /* Returns either an unchanged string, or the expanded string in stacking pool
3263 store. Interpreted sequences are:
3265 \... normal escaping rules
3266 $name substitutes the variable
3268 ${op:string} operates on the expanded string value
3269 ${item{arg1}{arg2}...} expands the args and then does the business
3270 some literal args are not enclosed in {}
3272 There are now far too many operators and item types to make it worth listing
3273 them here in detail any more.
3275 We use an internal routine recursively to handle embedded substrings. The
3276 external function follows. The yield is NULL if the expansion failed, and there
3277 are two cases: if something collapsed syntactically, or if "fail" was given
3278 as the action on a lookup failure. These can be distinguised by looking at the
3279 variable expand_string_forcedfail, which is TRUE in the latter case.
3281 The skipping flag is set true when expanding a substring that isn't actually
3282 going to be used (after "if" or "lookup") and it prevents lookups from
3283 happening lower down.
3285 Store usage: At start, a store block of the length of the input plus 64
3286 is obtained. This is expanded as necessary by string_cat(), which might have to
3287 get a new block, or might be able to expand the original. At the end of the
3288 function we can release any store above that portion of the yield block that
3289 was actually used. In many cases this will be optimal.
3291 However: if the first item in the expansion is a variable name or header name,
3292 we reset the store before processing it; if the result is in fresh store, we
3293 use that without copying. This is helpful for expanding strings like
3294 $message_headers which can get very long.
3296 There's a problem if a ${dlfunc item has side-effects that cause allocation,
3297 since resetting the store at the end of the expansion will free store that was
3298 allocated by the plugin code as well as the slop after the expanded string. So
3299 we skip any resets if ${dlfunc has been used. This is an unfortunate
3300 consequence of string expansion becoming too powerful.
3303 string the string to be expanded
3304 ket_ends true if expansion is to stop at }
3305 left if not NULL, a pointer to the first character after the
3306 expansion is placed here (typically used with ket_ends)
3307 skipping TRUE for recursive calls when the value isn't actually going
3308 to be used (to allow for optimisation)
3310 Returns: NULL if expansion fails:
3311 expand_string_forcedfail is set TRUE if failure was forced
3312 expand_string_message contains a textual error message
3313 a pointer to the expanded string on success
3317 expand_string_internal(uschar *string, BOOL ket_ends, uschar **left,
3321 int size = Ustrlen(string)+ 64;
3323 uschar *yield = store_get(size);
3325 uschar *save_expand_nstring[EXPAND_MAXN+1];
3326 int save_expand_nlength[EXPAND_MAXN+1];
3327 BOOL resetok = TRUE;
3329 expand_string_forcedfail = FALSE;
3330 expand_string_message = US"";
3337 /* \ escapes the next character, which must exist, or else
3338 the expansion fails. There's a special escape, \N, which causes
3339 copying of the subject verbatim up to the next \N. Otherwise,
3340 the escapes are the standard set. */
3346 expand_string_message = US"\\ at end of string";
3353 for (s = t; *s != 0; s++) if (*s == '\\' && s[1] == 'N') break;
3354 yield = string_cat(yield, &size, &ptr, t, s - t);
3355 if (*s != 0) s += 2;
3361 ch[0] = string_interpret_escape(&s);
3363 yield = string_cat(yield, &size, &ptr, ch, 1);
3369 /* Anything other than $ is just copied verbatim, unless we are
3370 looking for a terminating } character. */
3372 if (ket_ends && *s == '}') break;
3376 yield = string_cat(yield, &size, &ptr, s++, 1);
3380 /* No { after the $ - must be a plain name or a number for string
3381 match variable. There has to be a fudge for variables that are the
3382 names of header fields preceded by "$header_" because header field
3383 names can contain any printing characters except space and colon.
3384 For those that don't like typing this much, "$h_" is a synonym for
3385 "$header_". A non-existent header yields a NULL value; nothing is
3388 if (isalpha((*(++s))))
3393 s = read_name(name, sizeof(name), s, US"_");
3395 /* If this is the first thing to be expanded, release the pre-allocated
3398 if (ptr == 0 && yield != NULL)
3400 if (resetok) store_reset(yield);
3407 if (Ustrncmp(name, "h_", 2) == 0 ||
3408 Ustrncmp(name, "rh_", 3) == 0 ||
3409 Ustrncmp(name, "bh_", 3) == 0 ||
3410 Ustrncmp(name, "header_", 7) == 0 ||
3411 Ustrncmp(name, "rheader_", 8) == 0 ||
3412 Ustrncmp(name, "bheader_", 8) == 0)
3414 BOOL want_raw = (name[0] == 'r')? TRUE : FALSE;
3415 uschar *charset = (name[0] == 'b')? NULL : headers_charset;
3416 s = read_header_name(name, sizeof(name), s);
3417 value = find_header(name, FALSE, &newsize, want_raw, charset);
3419 /* If we didn't find the header, and the header contains a closing brace
3420 character, this may be a user error where the terminating colon
3421 has been omitted. Set a flag to adjust the error message in this case.
3422 But there is no error here - nothing gets inserted. */
3426 if (Ustrchr(name, '}') != NULL) malformed_header = TRUE;
3435 value = find_variable(name, FALSE, skipping, &newsize);
3438 expand_string_message =
3439 string_sprintf("unknown variable name \"%s\"", name);
3440 check_variable_error_message(name);
3445 /* If the data is known to be in a new buffer, newsize will be set to the
3446 size of that buffer. If this is the first thing in an expansion string,
3447 yield will be NULL; just point it at the new store instead of copying. Many
3448 expansion strings contain just one reference, so this is a useful
3449 optimization, especially for humungous headers. */
3451 len = Ustrlen(value);
3452 if (yield == NULL && newsize != 0)
3458 else yield = string_cat(yield, &size, &ptr, value, len);
3466 s = read_number(&n, s);
3467 if (n >= 0 && n <= expand_nmax)
3468 yield = string_cat(yield, &size, &ptr, expand_nstring[n],
3473 /* Otherwise, if there's no '{' after $ it's an error. */
3477 expand_string_message = US"$ not followed by letter, digit, or {";
3481 /* After { there can be various things, but they all start with
3482 an initial word, except for a number for a string match variable. */
3484 if (isdigit((*(++s))))
3487 s = read_number(&n, s);
3490 expand_string_message = US"} expected after number";
3493 if (n >= 0 && n <= expand_nmax)
3494 yield = string_cat(yield, &size, &ptr, expand_nstring[n],
3501 expand_string_message = US"letter or digit expected after ${";
3505 /* Allow "-" in names to cater for substrings with negative
3506 arguments. Since we are checking for known names after { this is
3509 s = read_name(name, sizeof(name), s, US"_-");
3510 item_type = chop_match(name, item_table, sizeof(item_table)/sizeof(uschar *));
3514 /* Handle conditionals - preserve the values of the numerical expansion
3515 variables in case they get changed by a regular expression match in the
3516 condition. If not, they retain their external settings. At the end
3517 of this "if" section, they get restored to their previous values. */
3523 int save_expand_nmax =
3524 save_expand_strings(save_expand_nstring, save_expand_nlength);
3526 while (isspace(*s)) s++;
3527 next_s = eval_condition(s, skipping? NULL : &cond);
3528 if (next_s == NULL) goto EXPAND_FAILED; /* message already set */
3531 debug_printf("condition: %.*s\n result: %s\n", (int)(next_s - s), s,
3532 cond? "true" : "false");
3536 /* The handling of "yes" and "no" result strings is now in a separate
3537 function that is also used by ${lookup} and ${extract} and ${run}. */
3539 switch(process_yesno(
3540 skipping, /* were previously skipping */
3541 cond, /* success/failure indicator */
3542 lookup_value, /* value to reset for string2 */
3543 &s, /* input pointer */
3544 &yield, /* output pointer */
3545 &size, /* output size */
3546 &ptr, /* output current point */
3547 US"if")) /* condition type */
3549 case 1: goto EXPAND_FAILED; /* when all is well, the */
3550 case 2: goto EXPAND_FAILED_CURLY; /* returned value is 0 */
3553 /* Restore external setting of expansion variables for continuation
3556 restore_expand_strings(save_expand_nmax, save_expand_nstring,
3557 save_expand_nlength);
3561 /* Handle database lookups unless locked out. If "skipping" is TRUE, we are
3562 expanding an internal string that isn't actually going to be used. All we
3563 need to do is check the syntax, so don't do a lookup at all. Preserve the
3564 values of the numerical expansion variables in case they get changed by a
3565 partial lookup. If not, they retain their external settings. At the end
3566 of this "lookup" section, they get restored to their previous values. */
3570 int stype, partial, affixlen, starflags;
3571 int expand_setup = 0;
3573 uschar *key, *filename, *affix;
3574 uschar *save_lookup_value = lookup_value;
3575 int save_expand_nmax =
3576 save_expand_strings(save_expand_nstring, save_expand_nlength);
3578 if ((expand_forbid & RDO_LOOKUP) != 0)
3580 expand_string_message = US"lookup expansions are not permitted";
3584 /* Get the key we are to look up for single-key+file style lookups.
3585 Otherwise set the key NULL pro-tem. */
3587 while (isspace(*s)) s++;
3590 key = expand_string_internal(s+1, TRUE, &s, skipping);
3591 if (key == NULL) goto EXPAND_FAILED;
3592 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
3593 while (isspace(*s)) s++;
3597 /* Find out the type of database */
3601 expand_string_message = US"missing lookup type";
3605 /* The type is a string that may contain special characters of various
3606 kinds. Allow everything except space or { to appear; the actual content
3607 is checked by search_findtype_partial. */
3609 while (*s != 0 && *s != '{' && !isspace(*s))
3611 if (nameptr < sizeof(name) - 1) name[nameptr++] = *s;
3615 while (isspace(*s)) s++;
3617 /* Now check for the individual search type and any partial or default
3618 options. Only those types that are actually in the binary are valid. */
3620 stype = search_findtype_partial(name, &partial, &affix, &affixlen,
3624 expand_string_message = search_error_message;
3628 /* Check that a key was provided for those lookup types that need it,
3629 and was not supplied for those that use the query style. */
3631 if (!mac_islookup(stype, lookup_querystyle|lookup_absfilequery))
3635 expand_string_message = string_sprintf("missing {key} for single-"
3636 "key \"%s\" lookup", name);
3644 expand_string_message = string_sprintf("a single key was given for "
3645 "lookup type \"%s\", which is not a single-key lookup type", name);
3650 /* Get the next string in brackets and expand it. It is the file name for
3651 single-key+file lookups, and the whole query otherwise. In the case of
3652 queries that also require a file name (e.g. sqlite), the file name comes
3655 if (*s != '{') goto EXPAND_FAILED_CURLY;
3656 filename = expand_string_internal(s+1, TRUE, &s, skipping);
3657 if (filename == NULL) goto EXPAND_FAILED;
3658 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
3659 while (isspace(*s)) s++;
3661 /* If this isn't a single-key+file lookup, re-arrange the variables
3662 to be appropriate for the search_ functions. For query-style lookups,
3663 there is just a "key", and no file name. For the special query-style +
3664 file types, the query (i.e. "key") starts with a file name. */
3668 while (isspace(*filename)) filename++;
3671 if (mac_islookup(stype, lookup_querystyle))
3677 if (*filename != '/')
3679 expand_string_message = string_sprintf(
3680 "absolute file name expected for \"%s\" lookup", name);
3683 while (*key != 0 && !isspace(*key)) key++;
3684 if (*key != 0) *key++ = 0;
3688 /* If skipping, don't do the next bit - just lookup_value == NULL, as if
3689 the entry was not found. Note that there is no search_close() function.
3690 Files are left open in case of re-use. At suitable places in higher logic,
3691 search_tidyup() is called to tidy all open files. This can save opening
3692 the same file several times. However, files may also get closed when
3693 others are opened, if too many are open at once. The rule is that a
3694 handle should not be used after a second search_open().
3696 Request that a partial search sets up $1 and maybe $2 by passing
3697 expand_setup containing zero. If its value changes, reset expand_nmax,
3698 since new variables will have been set. Note that at the end of this
3699 "lookup" section, the old numeric variables are restored. */
3702 lookup_value = NULL;
3705 void *handle = search_open(filename, stype, 0, NULL, NULL);
3708 expand_string_message = search_error_message;
3711 lookup_value = search_find(handle, filename, key, partial, affix,
3712 affixlen, starflags, &expand_setup);
3713 if (search_find_defer)
3715 expand_string_message =
3716 string_sprintf("lookup of \"%s\" gave DEFER: %s",
3717 string_printing2(key, FALSE), search_error_message);
3720 if (expand_setup > 0) expand_nmax = expand_setup;
3723 /* The handling of "yes" and "no" result strings is now in a separate
3724 function that is also used by ${if} and ${extract}. */
3726 switch(process_yesno(
3727 skipping, /* were previously skipping */
3728 lookup_value != NULL, /* success/failure indicator */
3729 save_lookup_value, /* value to reset for string2 */
3730 &s, /* input pointer */
3731 &yield, /* output pointer */
3732 &size, /* output size */
3733 &ptr, /* output current point */
3734 US"lookup")) /* condition type */
3736 case 1: goto EXPAND_FAILED; /* when all is well, the */
3737 case 2: goto EXPAND_FAILED_CURLY; /* returned value is 0 */
3740 /* Restore external setting of expansion variables for carrying on
3741 at this level, and continue. */
3743 restore_expand_strings(save_expand_nmax, save_expand_nstring,
3744 save_expand_nlength);
3748 /* If Perl support is configured, handle calling embedded perl subroutines,
3749 unless locked out at this time. Syntax is ${perl{sub}} or ${perl{sub}{arg}}
3750 or ${perl{sub}{arg1}{arg2}} or up to a maximum of EXIM_PERL_MAX_ARGS
3751 arguments (defined below). */
3753 #define EXIM_PERL_MAX_ARGS 8
3757 expand_string_message = US"\"${perl\" encountered, but this facility "
3758 "is not included in this binary";
3761 #else /* EXIM_PERL */
3763 uschar *sub_arg[EXIM_PERL_MAX_ARGS + 2];
3766 if ((expand_forbid & RDO_PERL) != 0)
3768 expand_string_message = US"Perl calls are not permitted";
3772 switch(read_subs(sub_arg, EXIM_PERL_MAX_ARGS + 1, 1, &s, skipping, TRUE,
3775 case 1: goto EXPAND_FAILED_CURLY;
3777 case 3: goto EXPAND_FAILED;
3780 /* If skipping, we don't actually do anything */
3782 if (skipping) continue;
3784 /* Start the interpreter if necessary */
3786 if (!opt_perl_started)
3789 if (opt_perl_startup == NULL)
3791 expand_string_message = US"A setting of perl_startup is needed when "
3792 "using the Perl interpreter";
3795 DEBUG(D_any) debug_printf("Starting Perl interpreter\n");
3796 initerror = init_perl(opt_perl_startup);
3797 if (initerror != NULL)
3799 expand_string_message =
3800 string_sprintf("error in perl_startup code: %s\n", initerror);
3803 opt_perl_started = TRUE;
3806 /* Call the function */
3808 sub_arg[EXIM_PERL_MAX_ARGS + 1] = NULL;
3809 new_yield = call_perl_cat(yield, &size, &ptr, &expand_string_message,
3810 sub_arg[0], sub_arg + 1);
3812 /* NULL yield indicates failure; if the message pointer has been set to
3813 NULL, the yield was undef, indicating a forced failure. Otherwise the
3814 message will indicate some kind of Perl error. */
3816 if (new_yield == NULL)
3818 if (expand_string_message == NULL)
3820 expand_string_message =
3821 string_sprintf("Perl subroutine \"%s\" returned undef to force "
3822 "failure", sub_arg[0]);
3823 expand_string_forcedfail = TRUE;
3828 /* Yield succeeded. Ensure forcedfail is unset, just in case it got
3829 set during a callback from Perl. */
3831 expand_string_forcedfail = FALSE;
3835 #endif /* EXIM_PERL */
3837 /* Transform email address to "prvs" scheme to use
3838 as BATV-signed return path */
3845 switch(read_subs(sub_arg, 3, 2, &s, skipping, TRUE, US"prvs"))
3847 case 1: goto EXPAND_FAILED_CURLY;
3849 case 3: goto EXPAND_FAILED;
3852 /* If skipping, we don't actually do anything */
3853 if (skipping) continue;
3855 /* sub_arg[0] is the address */
3856 domain = Ustrrchr(sub_arg[0],'@');
3857 if ( (domain == NULL) || (domain == sub_arg[0]) || (Ustrlen(domain) == 1) )
3859 expand_string_message = US"prvs first argument must be a qualified email address";
3863 /* Calculate the hash. The second argument must be a single-digit
3864 key number, or unset. */
3866 if (sub_arg[2] != NULL &&
3867 (!isdigit(sub_arg[2][0]) || sub_arg[2][1] != 0))
3869 expand_string_message = US"prvs second argument must be a single digit";
3873 p = prvs_hmac_sha1(sub_arg[0],sub_arg[1],sub_arg[2],prvs_daystamp(7));
3876 expand_string_message = US"prvs hmac-sha1 conversion failed";
3880 /* Now separate the domain from the local part */
3883 yield = string_cat(yield,&size,&ptr,US"prvs=",5);
3884 string_cat(yield,&size,&ptr,(sub_arg[2] != NULL) ? sub_arg[2] : US"0", 1);
3885 string_cat(yield,&size,&ptr,prvs_daystamp(7),3);
3886 string_cat(yield,&size,&ptr,p,6);
3887 string_cat(yield,&size,&ptr,US"=",1);
3888 string_cat(yield,&size,&ptr,sub_arg[0],Ustrlen(sub_arg[0]));
3889 string_cat(yield,&size,&ptr,US"@",1);
3890 string_cat(yield,&size,&ptr,domain,Ustrlen(domain));
3895 /* Check a prvs-encoded address for validity */
3897 case EITEM_PRVSCHECK:
3900 int mysize = 0, myptr = 0;
3904 /* TF: Ugliness: We want to expand parameter 1 first, then set
3905 up expansion variables that are used in the expansion of
3906 parameter 2. So we clone the string for the first
3907 expansion, where we only expand parameter 1.
3909 PH: Actually, that isn't necessary. The read_subs() function is
3910 designed to work this way for the ${if and ${lookup expansions. I've
3914 /* Reset expansion variables */
3915 prvscheck_result = NULL;
3916 prvscheck_address = NULL;
3917 prvscheck_keynum = NULL;
3919 switch(read_subs(sub_arg, 1, 1, &s, skipping, FALSE, US"prvs"))
3921 case 1: goto EXPAND_FAILED_CURLY;
3923 case 3: goto EXPAND_FAILED;
3926 re = regex_must_compile(US"^prvs\\=([0-9])([0-9]{3})([A-F0-9]{6})\\=(.+)\\@(.+)$",
3929 if (regex_match_and_setup(re,sub_arg[0],0,-1))
3931 uschar *local_part = string_copyn(expand_nstring[4],expand_nlength[4]);
3932 uschar *key_num = string_copyn(expand_nstring[1],expand_nlength[1]);
3933 uschar *daystamp = string_copyn(expand_nstring[2],expand_nlength[2]);
3934 uschar *hash = string_copyn(expand_nstring[3],expand_nlength[3]);
3935 uschar *domain = string_copyn(expand_nstring[5],expand_nlength[5]);
3937 DEBUG(D_expand) debug_printf("prvscheck localpart: %s\n", local_part);
3938 DEBUG(D_expand) debug_printf("prvscheck key number: %s\n", key_num);
3939 DEBUG(D_expand) debug_printf("prvscheck daystamp: %s\n", daystamp);
3940 DEBUG(D_expand) debug_printf("prvscheck hash: %s\n", hash);
3941 DEBUG(D_expand) debug_printf("prvscheck domain: %s\n", domain);
3943 /* Set up expansion variables */
3944 prvscheck_address = string_cat(NULL, &mysize, &myptr, local_part, Ustrlen(local_part));
3945 string_cat(prvscheck_address,&mysize,&myptr,US"@",1);
3946 string_cat(prvscheck_address,&mysize,&myptr,domain,Ustrlen(domain));
3947 prvscheck_address[myptr] = '\0';
3948 prvscheck_keynum = string_copy(key_num);
3950 /* Now expand the second argument */
3951 switch(read_subs(sub_arg, 1, 1, &s, skipping, FALSE, US"prvs"))
3953 case 1: goto EXPAND_FAILED_CURLY;
3955 case 3: goto EXPAND_FAILED;
3958 /* Now we have the key and can check the address. */
3960 p = prvs_hmac_sha1(prvscheck_address, sub_arg[0], prvscheck_keynum,
3965 expand_string_message = US"hmac-sha1 conversion failed";
3969 DEBUG(D_expand) debug_printf("prvscheck: received hash is %s\n", hash);
3970 DEBUG(D_expand) debug_printf("prvscheck: own hash is %s\n", p);
3972 if (Ustrcmp(p,hash) == 0)
3974 /* Success, valid BATV address. Now check the expiry date. */
3975 uschar *now = prvs_daystamp(0);
3976 unsigned int inow = 0,iexpire = 1;
3978 (void)sscanf(CS now,"%u",&inow);
3979 (void)sscanf(CS daystamp,"%u",&iexpire);
3981 /* When "iexpire" is < 7, a "flip" has occured.
3982 Adjust "inow" accordingly. */
3983 if ( (iexpire < 7) && (inow >= 993) ) inow = 0;
3985 if (iexpire >= inow)
3987 prvscheck_result = US"1";
3988 DEBUG(D_expand) debug_printf("prvscheck: success, $pvrs_result set to 1\n");
3992 prvscheck_result = NULL;
3993 DEBUG(D_expand) debug_printf("prvscheck: signature expired, $pvrs_result unset\n");
3998 prvscheck_result = NULL;
3999 DEBUG(D_expand) debug_printf("prvscheck: hash failure, $pvrs_result unset\n");
4002 /* Now expand the final argument. We leave this till now so that
4003 it can include $prvscheck_result. */
4005 switch(read_subs(sub_arg, 1, 0, &s, skipping, TRUE, US"prvs"))
4007 case 1: goto EXPAND_FAILED_CURLY;
4009 case 3: goto EXPAND_FAILED;
4012 if (sub_arg[0] == NULL || *sub_arg[0] == '\0')
4013 yield = string_cat(yield,&size,&ptr,prvscheck_address,Ustrlen(prvscheck_address));
4015 yield = string_cat(yield,&size,&ptr,sub_arg[0],Ustrlen(sub_arg[0]));
4017 /* Reset the "internal" variables afterwards, because they are in
4018 dynamic store that will be reclaimed if the expansion succeeded. */
4020 prvscheck_address = NULL;
4021 prvscheck_keynum = NULL;
4025 /* Does not look like a prvs encoded address, return the empty string.
4026 We need to make sure all subs are expanded first, so as to skip over
4029 switch(read_subs(sub_arg, 2, 1, &s, skipping, TRUE, US"prvs"))
4031 case 1: goto EXPAND_FAILED_CURLY;
4033 case 3: goto EXPAND_FAILED;
4040 /* Handle "readfile" to insert an entire file */
4042 case EITEM_READFILE:
4047 if ((expand_forbid & RDO_READFILE) != 0)
4049 expand_string_message = US"file insertions are not permitted";
4053 switch(read_subs(sub_arg, 2, 1, &s, skipping, TRUE, US"readfile"))
4055 case 1: goto EXPAND_FAILED_CURLY;
4057 case 3: goto EXPAND_FAILED;
4060 /* If skipping, we don't actually do anything */
4062 if (skipping) continue;
4064 /* Open the file and read it */
4066 f = Ufopen(sub_arg[0], "rb");
4069 expand_string_message = string_open_failed(errno, "%s", sub_arg[0]);
4073 yield = cat_file(f, yield, &size, &ptr, sub_arg[1]);
4078 /* Handle "readsocket" to insert data from a Unix domain socket */
4080 case EITEM_READSOCK:
4086 struct sockaddr_un sockun; /* don't call this "sun" ! */
4090 if ((expand_forbid & RDO_READSOCK) != 0)
4092 expand_string_message = US"socket insertions are not permitted";
4096 /* Read up to 4 arguments, but don't do the end of item check afterwards,
4097 because there may be a string for expansion on failure. */
4099 switch(read_subs(sub_arg, 4, 2, &s, skipping, FALSE, US"readsocket"))
4101 case 1: goto EXPAND_FAILED_CURLY;
4102 case 2: /* Won't occur: no end check */
4103 case 3: goto EXPAND_FAILED;
4106 /* Sort out timeout, if given */
4108 if (sub_arg[2] != NULL)
4110 timeout = readconf_readtime(sub_arg[2], 0, FALSE);
4113 expand_string_message = string_sprintf("bad time value %s",
4118 else sub_arg[3] = NULL; /* No eol if no timeout */
4120 /* If skipping, we don't actually do anything. Otherwise, arrange to
4121 connect to either an IP or a Unix socket. */
4125 /* Handle an IP (internet) domain */
4127 if (Ustrncmp(sub_arg[0], "inet:", 5) == 0)
4129 BOOL connected = FALSE;
4133 uschar *server_name = sub_arg[0] + 5;
4134 uschar *port_name = Ustrrchr(server_name, ':');
4136 /* Sort out the port */
4138 if (port_name == NULL)
4140 expand_string_message =
4141 string_sprintf("missing port for readsocket %s", sub_arg[0]);
4144 *port_name++ = 0; /* Terminate server name */
4146 if (isdigit(*port_name))
4149 port = Ustrtol(port_name, &end, 0);
4150 if (end != port_name + Ustrlen(port_name))
4152 expand_string_message =
4153 string_sprintf("invalid port number %s", port_name);
4159 struct servent *service_info = getservbyname(CS port_name, "tcp");
4160 if (service_info == NULL)
4162 expand_string_message = string_sprintf("unknown port \"%s\"",
4166 port = ntohs(service_info->s_port);
4169 /* Sort out the server. */
4172 shost.address = NULL;
4176 namelen = Ustrlen(server_name);
4178 /* Anything enclosed in [] must be an IP address. */
4180 if (server_name[0] == '[' &&
4181 server_name[namelen - 1] == ']')
4183 server_name[namelen - 1] = 0;
4185 if (string_is_ip_address(server_name, NULL) == 0)
4187 expand_string_message =
4188 string_sprintf("malformed IP address \"%s\"", server_name);
4191 shost.name = shost.address = server_name;
4194 /* Otherwise check for an unadorned IP address */
4196 else if (string_is_ip_address(server_name, NULL) != 0)
4197 shost.name = shost.address = server_name;
4199 /* Otherwise lookup IP address(es) from the name */
4203 shost.name = server_name;
4204 if (host_find_byname(&shost, NULL, HOST_FIND_QUALIFY_SINGLE, NULL,
4205 FALSE) != HOST_FOUND)
4207 expand_string_message =
4208 string_sprintf("no IP address found for host %s", shost.name);
4213 /* Try to connect to the server - test each IP till one works */
4215 for (h = &shost; h != NULL; h = h->next)
4217 int af = (Ustrchr(h->address, ':') != 0)? AF_INET6 : AF_INET;
4218 if ((fd = ip_socket(SOCK_STREAM, af)) == -1)
4220 expand_string_message = string_sprintf("failed to create socket: "
4221 "%s", strerror(errno));
4225 if (ip_connect(fd, af, h->address, port, timeout) == 0)
4234 expand_string_message = string_sprintf("failed to connect to "
4235 "socket %s: couldn't connect to any host", sub_arg[0],
4241 /* Handle a Unix domain socket */
4246 if ((fd = socket(PF_UNIX, SOCK_STREAM, 0)) == -1)
4248 expand_string_message = string_sprintf("failed to create socket: %s",
4253 sockun.sun_family = AF_UNIX;
4254 sprintf(sockun.sun_path, "%.*s", (int)(sizeof(sockun.sun_path)-1),
4257 sigalrm_seen = FALSE;
4259 rc = connect(fd, (struct sockaddr *)(&sockun), sizeof(sockun));
4263 expand_string_message = US "socket connect timed out";
4268 expand_string_message = string_sprintf("failed to connect to socket "
4269 "%s: %s", sub_arg[0], strerror(errno));
4274 DEBUG(D_expand) debug_printf("connected to socket %s\n", sub_arg[0]);
4276 /* Write the request string, if not empty */
4278 if (sub_arg[1][0] != 0)
4280 int len = Ustrlen(sub_arg[1]);
4281 DEBUG(D_expand) debug_printf("writing \"%s\" to socket\n",
4283 if (write(fd, sub_arg[1], len) != len)
4285 expand_string_message = string_sprintf("request write to socket "
4286 "failed: %s", strerror(errno));
4291 /* Shut down the sending side of the socket. This helps some servers to
4292 recognise that it is their turn to do some work. Just in case some
4293 system doesn't have this function, make it conditional. */
4296 shutdown(fd, SHUT_WR);
4299 /* Now we need to read from the socket, under a timeout. The function
4300 that reads a file can be used. */
4302 f = fdopen(fd, "rb");
4303 sigalrm_seen = FALSE;
4305 yield = cat_file(f, yield, &size, &ptr, sub_arg[3]);
4309 /* After a timeout, we restore the pointer in the result, that is,
4310 make sure we add nothing from the socket. */
4315 expand_string_message = US "socket read timed out";
4320 /* The whole thing has worked (or we were skipping). If there is a
4321 failure string following, we need to skip it. */
4325 if (expand_string_internal(s+1, TRUE, &s, TRUE) == NULL)
4327 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4328 while (isspace(*s)) s++;
4330 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4333 /* Come here on failure to create socket, connect socket, write to the
4334 socket, or timeout on reading. If another substring follows, expand and
4335 use it. Otherwise, those conditions give expand errors. */
4338 if (*s != '{') goto EXPAND_FAILED;
4339 DEBUG(D_any) debug_printf("%s\n", expand_string_message);
4340 arg = expand_string_internal(s+1, TRUE, &s, FALSE);
4341 if (arg == NULL) goto EXPAND_FAILED;
4342 yield = string_cat(yield, &size, &ptr, arg, Ustrlen(arg));
4343 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4344 while (isspace(*s)) s++;
4345 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4349 /* Handle "run" to execute a program. */
4361 if ((expand_forbid & RDO_RUN) != 0)
4363 expand_string_message = US"running a command is not permitted";
4367 while (isspace(*s)) s++;
4368 if (*s != '{') goto EXPAND_FAILED_CURLY;
4369 arg = expand_string_internal(s+1, TRUE, &s, skipping);
4370 if (arg == NULL) goto EXPAND_FAILED;
4371 while (isspace(*s)) s++;
4372 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4374 if (skipping) /* Just pretend it worked when we're skipping */
4380 if (!transport_set_up_command(&argv, /* anchor for arg list */
4381 arg, /* raw command */
4382 FALSE, /* don't expand the arguments */
4383 0, /* not relevant when... */
4384 NULL, /* no transporting address */
4385 US"${run} expansion", /* for error messages */
4386 &expand_string_message)) /* where to put error message */
4391 /* Create the child process, making it a group leader. */
4393 pid = child_open(argv, NULL, 0077, &fd_in, &fd_out, TRUE);
4397 expand_string_message =
4398 string_sprintf("couldn't create child process: %s", strerror(errno));
4402 /* Nothing is written to the standard input. */
4406 /* Wait for the process to finish, applying the timeout, and inspect its
4407 return code for serious disasters. Simple non-zero returns are passed on.
4410 if ((runrc = child_close(pid, 60)) < 0)
4414 expand_string_message = string_sprintf("command timed out");
4415 killpg(pid, SIGKILL); /* Kill the whole process group */
4418 else if (runrc == -257)
4419 expand_string_message = string_sprintf("wait() failed: %s",
4423 expand_string_message = string_sprintf("command killed by signal %d",
4429 /* Read the pipe to get the command's output into $value (which is kept
4430 in lookup_value). */
4432 f = fdopen(fd_out, "rb");
4433 lookup_value = NULL;
4434 lookup_value = cat_file(f, lookup_value, &lsize, &lptr, NULL);
4438 /* Process the yes/no strings; $value may be useful in both cases */
4440 switch(process_yesno(
4441 skipping, /* were previously skipping */
4442 runrc == 0, /* success/failure indicator */
4443 lookup_value, /* value to reset for string2 */
4444 &s, /* input pointer */
4445 &yield, /* output pointer */
4446 &size, /* output size */
4447 &ptr, /* output current point */
4448 US"run")) /* condition type */
4450 case 1: goto EXPAND_FAILED; /* when all is well, the */
4451 case 2: goto EXPAND_FAILED_CURLY; /* returned value is 0 */
4457 /* Handle character translation for "tr" */
4465 switch(read_subs(sub, 3, 3, &s, skipping, TRUE, US"tr"))
4467 case 1: goto EXPAND_FAILED_CURLY;
4469 case 3: goto EXPAND_FAILED;
4472 yield = string_cat(yield, &size, &ptr, sub[0], Ustrlen(sub[0]));
4473 o2m = Ustrlen(sub[2]) - 1;
4475 if (o2m >= 0) for (; oldptr < ptr; oldptr++)
4477 uschar *m = Ustrrchr(sub[1], yield[oldptr]);
4481 yield[oldptr] = sub[2][(o < o2m)? o : o2m];
4488 /* Handle "hash", "length", "nhash", and "substr" when they are given with
4489 expanded arguments. */
4499 int val[2] = { 0, -1 };
4502 /* "length" takes only 2 arguments whereas the others take 2 or 3.
4503 Ensure that sub[2] is set in the ${length case. */
4506 switch(read_subs(sub, (item_type == EITEM_LENGTH)? 2:3, 2, &s, skipping,
4509 case 1: goto EXPAND_FAILED_CURLY;
4511 case 3: goto EXPAND_FAILED;
4514 /* Juggle the arguments if there are only two of them: always move the
4515 string to the last position and make ${length{n}{str}} equivalent to
4516 ${substr{0}{n}{str}}. See the defaults for val[] above. */
4522 if (item_type == EITEM_LENGTH)
4529 for (i = 0; i < 2; i++)
4531 if (sub[i] == NULL) continue;
4532 val[i] = (int)Ustrtol(sub[i], &ret, 10);
4533 if (*ret != 0 || (i != 0 && val[i] < 0))
4535 expand_string_message = string_sprintf("\"%s\" is not a%s number "
4536 "(in \"%s\" expansion)", sub[i], (i != 0)? " positive" : "", name);
4542 (item_type == EITEM_HASH)?
4543 compute_hash(sub[2], val[0], val[1], &len) :
4544 (item_type == EITEM_NHASH)?
4545 compute_nhash(sub[2], val[0], val[1], &len) :
4546 extract_substr(sub[2], val[0], val[1], &len);
4548 if (ret == NULL) goto EXPAND_FAILED;
4549 yield = string_cat(yield, &size, &ptr, ret, len);
4553 /* Handle HMAC computation: ${hmac{<algorithm>}{<secret>}{<text>}}
4554 This code originally contributed by Steve Haslam. It currently supports
4555 the use of MD5 and SHA-1 hashes.
4557 We need some workspace that is large enough to handle all the supported
4558 hash types. Use macros to set the sizes rather than be too elaborate. */
4560 #define MAX_HASHLEN 20
4561 #define MAX_HASHBLOCKLEN 64
4570 int hashlen; /* Number of octets for the hash algorithm's output */
4571 int hashblocklen; /* Number of octets the hash algorithm processes */
4573 unsigned int keylen;
4575 uschar keyhash[MAX_HASHLEN];
4576 uschar innerhash[MAX_HASHLEN];
4577 uschar finalhash[MAX_HASHLEN];
4578 uschar finalhash_hex[2*MAX_HASHLEN];
4579 uschar innerkey[MAX_HASHBLOCKLEN];
4580 uschar outerkey[MAX_HASHBLOCKLEN];
4582 switch (read_subs(sub, 3, 3, &s, skipping, TRUE, name))
4584 case 1: goto EXPAND_FAILED_CURLY;
4586 case 3: goto EXPAND_FAILED;
4589 if (Ustrcmp(sub[0], "md5") == 0)
4592 use_base = &md5_base;
4596 else if (Ustrcmp(sub[0], "sha1") == 0)
4599 use_base = &sha1_base;
4605 expand_string_message =
4606 string_sprintf("hmac algorithm \"%s\" is not recognised", sub[0]);
4611 keylen = Ustrlen(keyptr);
4613 /* If the key is longer than the hash block length, then hash the key
4616 if (keylen > hashblocklen)
4618 chash_start(type, use_base);
4619 chash_end(type, use_base, keyptr, keylen, keyhash);
4624 /* Now make the inner and outer key values */
4626 memset(innerkey, 0x36, hashblocklen);
4627 memset(outerkey, 0x5c, hashblocklen);
4629 for (i = 0; i < keylen; i++)
4631 innerkey[i] ^= keyptr[i];
4632 outerkey[i] ^= keyptr[i];
4635 /* Now do the hashes */
4637 chash_start(type, use_base);
4638 chash_mid(type, use_base, innerkey);
4639 chash_end(type, use_base, sub[2], Ustrlen(sub[2]), innerhash);
4641 chash_start(type, use_base);
4642 chash_mid(type, use_base, outerkey);
4643 chash_end(type, use_base, innerhash, hashlen, finalhash);
4645 /* Encode the final hash as a hex string */
4648 for (i = 0; i < hashlen; i++)
4650 *p++ = hex_digits[(finalhash[i] & 0xf0) >> 4];
4651 *p++ = hex_digits[finalhash[i] & 0x0f];
4654 DEBUG(D_any) debug_printf("HMAC[%s](%.*s,%.*s)=%.*s\n", sub[0],
4655 (int)keylen, keyptr, Ustrlen(sub[2]), sub[2], hashlen*2, finalhash_hex);
4657 yield = string_cat(yield, &size, &ptr, finalhash_hex, hashlen*2);
4662 /* Handle global substitution for "sg" - like Perl's s/xxx/yyy/g operator.
4663 We have to save the numerical variables and restore them afterwards. */
4668 int moffset, moffsetextra, slen;
4671 const uschar *rerror;
4674 int save_expand_nmax =
4675 save_expand_strings(save_expand_nstring, save_expand_nlength);
4677 switch(read_subs(sub, 3, 3, &s, skipping, TRUE, US"sg"))
4679 case 1: goto EXPAND_FAILED_CURLY;
4681 case 3: goto EXPAND_FAILED;
4684 /* Compile the regular expression */
4686 re = pcre_compile(CS sub[1], PCRE_COPT, (const char **)&rerror, &roffset,
4691 expand_string_message = string_sprintf("regular expression error in "
4692 "\"%s\": %s at offset %d", sub[1], rerror, roffset);
4696 /* Now run a loop to do the substitutions as often as necessary. It ends
4697 when there are no more matches. Take care over matches of the null string;
4698 do the same thing as Perl does. */
4701 slen = Ustrlen(sub[0]);
4702 moffset = moffsetextra = 0;
4707 int ovector[3*(EXPAND_MAXN+1)];
4708 int n = pcre_exec(re, NULL, CS subject, slen, moffset + moffsetextra,
4709 PCRE_EOPT | emptyopt, ovector, sizeof(ovector)/sizeof(int));
4713 /* No match - if we previously set PCRE_NOTEMPTY after a null match, this
4714 is not necessarily the end. We want to repeat the match from one
4715 character further along, but leaving the basic offset the same (for
4716 copying below). We can't be at the end of the string - that was checked
4717 before setting PCRE_NOTEMPTY. If PCRE_NOTEMPTY is not set, we are
4718 finished; copy the remaining string and end the loop. */
4728 yield = string_cat(yield, &size, &ptr, subject+moffset, slen-moffset);
4732 /* Match - set up for expanding the replacement. */
4734 if (n == 0) n = EXPAND_MAXN + 1;
4736 for (nn = 0; nn < n*2; nn += 2)
4738 expand_nstring[expand_nmax] = subject + ovector[nn];
4739 expand_nlength[expand_nmax++] = ovector[nn+1] - ovector[nn];
4743 /* Copy the characters before the match, plus the expanded insertion. */
4745 yield = string_cat(yield, &size, &ptr, subject + moffset,
4746 ovector[0] - moffset);
4747 insert = expand_string(sub[2]);
4748 if (insert == NULL) goto EXPAND_FAILED;
4749 yield = string_cat(yield, &size, &ptr, insert, Ustrlen(insert));
4751 moffset = ovector[1];
4755 /* If we have matched an empty string, first check to see if we are at
4756 the end of the subject. If so, the loop is over. Otherwise, mimic
4757 what Perl's /g options does. This turns out to be rather cunning. First
4758 we set PCRE_NOTEMPTY and PCRE_ANCHORED and try the match a non-empty
4759 string at the same point. If this fails (picked up above) we advance to
4760 the next character. */
4762 if (ovector[0] == ovector[1])
4764 if (ovector[0] == slen) break;
4765 emptyopt = PCRE_NOTEMPTY | PCRE_ANCHORED;
4769 /* All done - restore numerical variables. */
4771 restore_expand_strings(save_expand_nmax, save_expand_nstring,
4772 save_expand_nlength);
4776 /* Handle keyed and numbered substring extraction. If the first argument
4777 consists entirely of digits, then a numerical extraction is assumed. */
4783 int field_number = 1;
4784 BOOL field_number_set = FALSE;
4785 uschar *save_lookup_value = lookup_value;
4787 int save_expand_nmax =
4788 save_expand_strings(save_expand_nstring, save_expand_nlength);
4790 /* Read the arguments */
4792 for (i = 0; i < j; i++)
4794 while (isspace(*s)) s++;
4797 sub[i] = expand_string_internal(s+1, TRUE, &s, skipping);
4798 if (sub[i] == NULL) goto EXPAND_FAILED;
4799 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4801 /* After removal of leading and trailing white space, the first
4802 argument must not be empty; if it consists entirely of digits
4803 (optionally preceded by a minus sign), this is a numerical
4804 extraction, and we expect 3 arguments. */
4812 while (isspace(*p)) p++;
4816 while (len > 0 && isspace(p[len-1])) len--;
4819 if (*p == 0 && !skipping)
4821 expand_string_message = US"first argument of \"extract\" must "
4831 while (*p != 0 && isdigit(*p)) x = x * 10 + *p++ - '0';
4835 j = 3; /* Need 3 args */
4836 field_number_set = TRUE;
4840 else goto EXPAND_FAILED_CURLY;
4843 /* Extract either the numbered or the keyed substring into $value. If
4844 skipping, just pretend the extraction failed. */
4846 lookup_value = skipping? NULL : field_number_set?
4847 expand_gettokened(field_number, sub[1], sub[2]) :
4848 expand_getkeyed(sub[0], sub[1]);
4850 /* If no string follows, $value gets substituted; otherwise there can
4851 be yes/no strings, as for lookup or if. */
4853 switch(process_yesno(
4854 skipping, /* were previously skipping */
4855 lookup_value != NULL, /* success/failure indicator */
4856 save_lookup_value, /* value to reset for string2 */
4857 &s, /* input pointer */
4858 &yield, /* output pointer */
4859 &size, /* output size */
4860 &ptr, /* output current point */
4861 US"extract")) /* condition type */
4863 case 1: goto EXPAND_FAILED; /* when all is well, the */
4864 case 2: goto EXPAND_FAILED_CURLY; /* returned value is 0 */
4867 /* All done - restore numerical variables. */
4869 restore_expand_strings(save_expand_nmax, save_expand_nstring,
4870 save_expand_nlength);
4876 /* Handle list operations */
4884 uschar outsep[2] = { '\0', '\0' };
4885 uschar *list, *expr, *temp;
4886 uschar *save_iterate_item = iterate_item;
4887 uschar *save_lookup_value = lookup_value;
4889 while (isspace(*s)) s++;
4890 if (*s++ != '{') goto EXPAND_FAILED_CURLY;
4892 list = expand_string_internal(s, TRUE, &s, skipping);
4893 if (list == NULL) goto EXPAND_FAILED;
4894 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4896 if (item_type == EITEM_REDUCE)
4898 while (isspace(*s)) s++;
4899 if (*s++ != '{') goto EXPAND_FAILED_CURLY;
4900 temp = expand_string_internal(s, TRUE, &s, skipping);
4901 if (temp == NULL) goto EXPAND_FAILED;
4902 lookup_value = temp;
4903 if (*s++ != '}') goto EXPAND_FAILED_CURLY;
4906 while (isspace(*s)) s++;
4907 if (*s++ != '{') goto EXPAND_FAILED_CURLY;
4911 /* For EITEM_FILTER, call eval_condition once, with result discarded (as
4912 if scanning a "false" part). This allows us to find the end of the
4913 condition, because if the list is empty, we won't actually evaluate the
4914 condition for real. For EITEM_MAP and EITEM_REDUCE, do the same, using
4915 the normal internal expansion function. */
4917 if (item_type == EITEM_FILTER)
4919 temp = eval_condition(expr, NULL);
4920 if (temp != NULL) s = temp;
4924 temp = expand_string_internal(s, TRUE, &s, TRUE);
4929 expand_string_message = string_sprintf("%s inside \"%s\" item",
4930 expand_string_message, name);
4934 while (isspace(*s)) s++;
4937 expand_string_message = string_sprintf("missing } at end of condition "
4938 "or expression inside \"%s\"", name);
4942 while (isspace(*s)) s++;
4945 expand_string_message = string_sprintf("missing } at end of \"%s\"",
4950 /* If we are skipping, we can now just move on to the next item. When
4951 processing for real, we perform the iteration. */
4953 if (skipping) continue;
4954 while ((iterate_item = string_nextinlist(&list, &sep, NULL, 0)) != NULL)
4956 *outsep = (uschar)sep; /* Separator as a string */
4958 DEBUG(D_expand) debug_printf("%s: $item = \"%s\"\n", name, iterate_item);
4960 if (item_type == EITEM_FILTER)
4963 if (eval_condition(expr, &condresult) == NULL)
4965 iterate_item = save_iterate_item;
4966 lookup_value = save_lookup_value;
4967 expand_string_message = string_sprintf("%s inside \"%s\" condition",
4968 expand_string_message, name);
4971 DEBUG(D_expand) debug_printf("%s: condition is %s\n", name,
4972 condresult? "true":"false");
4974 temp = iterate_item; /* TRUE => include this item */
4976 continue; /* FALSE => skip this item */
4979 /* EITEM_MAP and EITEM_REDUCE */
4983 temp = expand_string_internal(expr, TRUE, NULL, skipping);
4986 iterate_item = save_iterate_item;
4987 expand_string_message = string_sprintf("%s inside \"%s\" item",
4988 expand_string_message, name);
4991 if (item_type == EITEM_REDUCE)
4993 lookup_value = temp; /* Update the value of $value */
4994 continue; /* and continue the iteration */
4998 /* We reach here for FILTER if the condition is true, always for MAP,
4999 and never for REDUCE. The value in "temp" is to be added to the output
5000 list that is being created, ensuring that any occurrences of the
5001 separator character are doubled. Unless we are dealing with the first
5002 item of the output list, add in a space if the new item begins with the
5003 separator character, or is an empty string. */
5005 if (ptr != save_ptr && (temp[0] == *outsep || temp[0] == 0))
5006 yield = string_cat(yield, &size, &ptr, US" ", 1);
5008 /* Add the string in "temp" to the output list that we are building,
5009 This is done in chunks by searching for the separator character. */
5013 size_t seglen = Ustrcspn(temp, outsep);
5014 yield = string_cat(yield, &size, &ptr, temp, seglen + 1);
5016 /* If we got to the end of the string we output one character
5017 too many; backup and end the loop. Otherwise arrange to double the
5020 if (temp[seglen] == '\0') { ptr--; break; }
5021 yield = string_cat(yield, &size, &ptr, outsep, 1);
5025 /* Output a separator after the string: we will remove the redundant
5026 final one at the end. */
5028 yield = string_cat(yield, &size, &ptr, outsep, 1);
5029 } /* End of iteration over the list loop */
5031 /* REDUCE has generated no output above: output the final value of
5034 if (item_type == EITEM_REDUCE)
5036 yield = string_cat(yield, &size, &ptr, lookup_value,
5037 Ustrlen(lookup_value));
5038 lookup_value = save_lookup_value; /* Restore $value */
5041 /* FILTER and MAP generate lists: if they have generated anything, remove
5042 the redundant final separator. Even though an empty item at the end of a
5043 list does not count, this is tidier. */
5045 else if (ptr != save_ptr) ptr--;
5047 /* Restore preserved $item */
5049 iterate_item = save_iterate_item;
5054 /* If ${dlfunc support is configured, handle calling dynamically-loaded
5055 functions, unless locked out at this time. Syntax is ${dlfunc{file}{func}}
5056 or ${dlfunc{file}{func}{arg}} or ${dlfunc{file}{func}{arg1}{arg2}} or up to
5057 a maximum of EXPAND_DLFUNC_MAX_ARGS arguments (defined below). */
5059 #define EXPAND_DLFUNC_MAX_ARGS 8
5062 #ifndef EXPAND_DLFUNC
5063 expand_string_message = US"\"${dlfunc\" encountered, but this facility "
5064 "is not included in this binary";
5067 #else /* EXPAND_DLFUNC */
5070 exim_dlfunc_t *func;
5073 uschar *argv[EXPAND_DLFUNC_MAX_ARGS + 3];
5075 if ((expand_forbid & RDO_DLFUNC) != 0)
5077 expand_string_message =
5078 US"dynamically-loaded functions are not permitted";
5082 switch(read_subs(argv, EXPAND_DLFUNC_MAX_ARGS + 2, 2, &s, skipping,
5085 case 1: goto EXPAND_FAILED_CURLY;
5087 case 3: goto EXPAND_FAILED;
5090 /* If skipping, we don't actually do anything */
5092 if (skipping) continue;
5094 /* Look up the dynamically loaded object handle in the tree. If it isn't
5095 found, dlopen() the file and put the handle in the tree for next time. */
5097 t = tree_search(dlobj_anchor, argv[0]);
5100 void *handle = dlopen(CS argv[0], RTLD_LAZY);
5103 expand_string_message = string_sprintf("dlopen \"%s\" failed: %s",
5104 argv[0], dlerror());
5105 log_write(0, LOG_MAIN|LOG_PANIC, "%s", expand_string_message);
5108 t = store_get_perm(sizeof(tree_node) + Ustrlen(argv[0]));
5109 Ustrcpy(t->name, argv[0]);
5110 t->data.ptr = handle;
5111 (void)tree_insertnode(&dlobj_anchor, t);
5114 /* Having obtained the dynamically loaded object handle, look up the
5115 function pointer. */
5117 func = (exim_dlfunc_t *)dlsym(t->data.ptr, CS argv[1]);
5120 expand_string_message = string_sprintf("dlsym \"%s\" in \"%s\" failed: "
5121 "%s", argv[1], argv[0], dlerror());
5122 log_write(0, LOG_MAIN|LOG_PANIC, "%s", expand_string_message);
5126 /* Call the function and work out what to do with the result. If it
5127 returns OK, we have a replacement string; if it returns DEFER then
5128 expansion has failed in a non-forced manner; if it returns FAIL then
5129 failure was forced; if it returns ERROR or any other value there's a
5130 problem, so panic slightly. In any case, assume that the function has
5131 side-effects on the store that must be preserved. */
5135 for (argc = 0; argv[argc] != NULL; argc++);
5136 status = func(&result, argc - 2, &argv[2]);
5139 if (result == NULL) result = US"";
5140 yield = string_cat(yield, &size, &ptr, result, Ustrlen(result));
5145 expand_string_message = result == NULL ? US"(no message)" : result;
5146 if(status == FAIL_FORCED) expand_string_forcedfail = TRUE;
5147 else if(status != FAIL)
5148 log_write(0, LOG_MAIN|LOG_PANIC, "dlfunc{%s}{%s} failed (%d): %s",
5149 argv[0], argv[1], status, expand_string_message);
5153 #endif /* EXPAND_DLFUNC */
5156 /* Control reaches here if the name is not recognized as one of the more
5157 complicated expansion items. Check for the "operator" syntax (name terminated
5158 by a colon). Some of the operators have arguments, separated by _ from the
5165 uschar *sub = expand_string_internal(s+1, TRUE, &s, skipping);
5166 if (sub == NULL) goto EXPAND_FAILED;
5169 /* Owing to an historical mis-design, an underscore may be part of the
5170 operator name, or it may introduce arguments. We therefore first scan the
5171 table of names that contain underscores. If there is no match, we cut off
5172 the arguments and then scan the main table. */
5174 c = chop_match(name, op_table_underscore,
5175 sizeof(op_table_underscore)/sizeof(uschar *));
5179 arg = Ustrchr(name, '_');
5180 if (arg != NULL) *arg = 0;
5181 c = chop_match(name, op_table_main,
5182 sizeof(op_table_main)/sizeof(uschar *));
5183 if (c >= 0) c += sizeof(op_table_underscore)/sizeof(uschar *);
5184 if (arg != NULL) *arg++ = '_'; /* Put back for error messages */
5187 /* If we are skipping, we don't need to perform the operation at all.
5188 This matters for operations like "mask", because the data may not be
5189 in the correct format when skipping. For example, the expression may test
5190 for the existence of $sender_host_address before trying to mask it. For
5191 other operations, doing them may not fail, but it is a waste of time. */
5193 if (skipping && c >= 0) continue;
5195 /* Otherwise, switch on the operator type */
5202 unsigned long int n = Ustrtoul(sub, &t, 10);
5205 expand_string_message = string_sprintf("argument for base62 "
5206 "operator is \"%s\", which is not a decimal number", sub);
5209 t = string_base62(n);
5210 yield = string_cat(yield, &size, &ptr, t, Ustrlen(t));
5214 /* Note that for Darwin and Cygwin, BASE_62 actually has the value 36 */
5220 unsigned long int n = 0;
5223 uschar *t = Ustrchr(base62_chars, *tt++);
5226 expand_string_message = string_sprintf("argument for base62d "
5227 "operator is \"%s\", which is not a base %d number", sub,
5231 n = n * BASE_62 + (t - base62_chars);
5233 (void)sprintf(CS buf, "%ld", n);
5234 yield = string_cat(yield, &size, &ptr, buf, Ustrlen(buf));
5240 uschar *expanded = expand_string_internal(sub, FALSE, NULL, skipping);
5241 if (expanded == NULL)
5243 expand_string_message =
5244 string_sprintf("internal expansion of \"%s\" failed: %s", sub,
5245 expand_string_message);
5248 yield = string_cat(yield, &size, &ptr, expanded, Ustrlen(expanded));
5255 uschar *t = sub - 1;
5256 while (*(++t) != 0) { *t = tolower(*t); count++; }
5257 yield = string_cat(yield, &size, &ptr, sub, count);
5264 uschar *t = sub - 1;
5265 while (*(++t) != 0) { *t = toupper(*t); count++; }
5266 yield = string_cat(yield, &size, &ptr, sub, count);
5277 md5_end(&base, sub, Ustrlen(sub), digest);
5278 for(j = 0; j < 16; j++) sprintf(st+2*j, "%02x", digest[j]);
5279 yield = string_cat(yield, &size, &ptr, US st, (int)strlen(st));
5290 sha1_end(&base, sub, Ustrlen(sub), digest);
5291 for(j = 0; j < 20; j++) sprintf(st+2*j, "%02X", digest[j]);
5292 yield = string_cat(yield, &size, &ptr, US st, (int)strlen(st));
5296 /* Convert hex encoding to base64 encoding */
5306 for (enc = sub; *enc != 0; enc++)
5308 if (!isxdigit(*enc))
5310 expand_string_message = string_sprintf("\"%s\" is not a hex "
5319 expand_string_message = string_sprintf("\"%s\" contains an odd "
5320 "number of characters", sub);
5324 while ((c = *in++) != 0)
5326 if (isdigit(c)) c -= '0';
5327 else c = toupper(c) - 'A' + 10;
5339 enc = auth_b64encode(sub, out - sub);
5340 yield = string_cat(yield, &size, &ptr, enc, Ustrlen(enc));
5344 /* mask applies a mask to an IP address; for example the result of
5345 ${mask:131.111.10.206/28} is 131.111.10.192/28. */
5352 int mask, maskoffset;
5353 int type = string_is_ip_address(sub, &maskoffset);
5358 expand_string_message = string_sprintf("\"%s\" is not an IP address",
5363 if (maskoffset == 0)
5365 expand_string_message = string_sprintf("missing mask value in \"%s\"",
5370 mask = Ustrtol(sub + maskoffset + 1, &endptr, 10);
5372 if (*endptr != 0 || mask < 0 || mask > ((type == 4)? 32 : 128))
5374 expand_string_message = string_sprintf("mask value too big in \"%s\"",
5379 /* Convert the address to binary integer(s) and apply the mask */
5381 sub[maskoffset] = 0;
5382 count = host_aton(sub, binary);
5383 host_mask(count, binary, mask);
5385 /* Convert to masked textual format and add to output. */
5387 yield = string_cat(yield, &size, &ptr, buffer,
5388 host_nmtoa(count, binary, mask, buffer, '.'));
5393 case EOP_LOCAL_PART:
5397 int start, end, domain;
5398 uschar *t = parse_extract_address(sub, &error, &start, &end, &domain,
5402 if (c != EOP_DOMAIN)
5404 if (c == EOP_LOCAL_PART && domain != 0) end = start + domain - 1;
5405 yield = string_cat(yield, &size, &ptr, sub+start, end-start);
5407 else if (domain != 0)
5410 yield = string_cat(yield, &size, &ptr, sub+domain, end-domain);
5418 uschar outsep[2] = { ':', '\0' };
5419 uschar *address, *error;
5421 int start, end, domain; /* Not really used */
5423 while (isspace(*sub)) sub++;
5424 if (*sub == '>') { *outsep = *++sub; ++sub; }
5425 parse_allow_group = TRUE;
5429 uschar *p = parse_find_address_end(sub, FALSE);
5430 uschar saveend = *p;
5432 address = parse_extract_address(sub, &error, &start, &end, &domain,
5436 /* Add the address to the output list that we are building. This is
5437 done in chunks by searching for the separator character. At the
5438 start, unless we are dealing with the first address of the output
5439 list, add in a space if the new address begins with the separator
5440 character, or is an empty string. */
5442 if (address != NULL)
5444 if (ptr != save_ptr && address[0] == *outsep)
5445 yield = string_cat(yield, &size, &ptr, US" ", 1);
5449 size_t seglen = Ustrcspn(address, outsep);
5450 yield = string_cat(yield, &size, &ptr, address, seglen + 1);
5452 /* If we got to the end of the string we output one character
5455 if (address[seglen] == '\0') { ptr--; break; }
5456 yield = string_cat(yield, &size, &ptr, outsep, 1);
5457 address += seglen + 1;
5460 /* Output a separator after the string: we will remove the
5461 redundant final one at the end. */
5463 yield = string_cat(yield, &size, &ptr, outsep, 1);
5466 if (saveend == '\0') break;
5470 /* If we have generated anything, remove the redundant final
5473 if (ptr != save_ptr) ptr--;
5474 parse_allow_group = FALSE;
5479 /* quote puts a string in quotes if it is empty or contains anything
5480 other than alphamerics, underscore, dot, or hyphen.
5482 quote_local_part puts a string in quotes if RFC 2821/2822 requires it to
5483 be quoted in order to be a valid local part.
5485 In both cases, newlines and carriage returns are converted into \n and \r
5489 case EOP_QUOTE_LOCAL_PART:
5492 BOOL needs_quote = (*sub == 0); /* TRUE for empty string */
5493 uschar *t = sub - 1;
5497 while (!needs_quote && *(++t) != 0)
5498 needs_quote = !isalnum(*t) && !strchr("_-.", *t);
5500 else /* EOP_QUOTE_LOCAL_PART */
5502 while (!needs_quote && *(++t) != 0)
5503 needs_quote = !isalnum(*t) &&
5504 strchr("!#$%&'*+-/=?^_`{|}~", *t) == NULL &&
5505 (*t != '.' || t == sub || t[1] == 0);
5510 yield = string_cat(yield, &size, &ptr, US"\"", 1);
5515 yield = string_cat(yield, &size, &ptr, US"\\n", 2);
5516 else if (*t == '\r')
5517 yield = string_cat(yield, &size, &ptr, US"\\r", 2);
5520 if (*t == '\\' || *t == '"')
5521 yield = string_cat(yield, &size, &ptr, US"\\", 1);
5522 yield = string_cat(yield, &size, &ptr, t, 1);
5525 yield = string_cat(yield, &size, &ptr, US"\"", 1);
5527 else yield = string_cat(yield, &size, &ptr, sub, Ustrlen(sub));
5531 /* quote_lookuptype does lookup-specific quoting */
5536 uschar *opt = Ustrchr(arg, '_');
5538 if (opt != NULL) *opt++ = 0;
5540 n = search_findtype(arg, Ustrlen(arg));
5543 expand_string_message = search_error_message;
5547 if (lookup_list[n]->quote != NULL)
5548 sub = (lookup_list[n]->quote)(sub, opt);
5549 else if (opt != NULL) sub = NULL;
5553 expand_string_message = string_sprintf(
5554 "\"%s\" unrecognized after \"${quote_%s\"",
5559 yield = string_cat(yield, &size, &ptr, sub, Ustrlen(sub));
5563 /* rx quote sticks in \ before any non-alphameric character so that
5564 the insertion works in a regular expression. */
5568 uschar *t = sub - 1;
5572 yield = string_cat(yield, &size, &ptr, US"\\", 1);
5573 yield = string_cat(yield, &size, &ptr, t, 1);
5578 /* RFC 2047 encodes, assuming headers_charset (default ISO 8859-1) as
5579 prescribed by the RFC, if there are characters that need to be encoded */
5583 uschar buffer[2048];
5584 uschar *string = parse_quote_2047(sub, Ustrlen(sub), headers_charset,
5585 buffer, sizeof(buffer), FALSE);
5586 yield = string_cat(yield, &size, &ptr, string, Ustrlen(string));
5590 /* RFC 2047 decode */
5596 uschar *decoded = rfc2047_decode(sub, check_rfc2047_length,
5597 headers_charset, '?', &len, &error);
5600 expand_string_message = error;
5603 yield = string_cat(yield, &size, &ptr, decoded, len);
5607 /* from_utf8 converts UTF-8 to 8859-1, turning non-existent chars into
5617 if (c > 255) c = '_';
5619 yield = string_cat(yield, &size, &ptr, buff, 1);
5624 /* escape turns all non-printing characters into escape sequences. */
5628 uschar *t = string_printing(sub);
5629 yield = string_cat(yield, &size, &ptr, t, Ustrlen(t));
5633 /* Handle numeric expression evaluation */
5638 uschar *save_sub = sub;
5639 uschar *error = NULL;
5640 int n = eval_expr(&sub, (c == EOP_EVAL10), &error, FALSE);
5643 expand_string_message = string_sprintf("error in expression "
5644 "evaluation: %s (after processing \"%.*s\")", error, sub-save_sub,
5648 sprintf(CS var_buffer, "%d", n);
5649 yield = string_cat(yield, &size, &ptr, var_buffer, Ustrlen(var_buffer));
5653 /* Handle time period formating */
5657 int n = readconf_readtime(sub, 0, FALSE);
5660 expand_string_message = string_sprintf("string \"%s\" is not an "
5661 "Exim time interval in \"%s\" operator", sub, name);
5664 sprintf(CS var_buffer, "%d", n);
5665 yield = string_cat(yield, &size, &ptr, var_buffer, Ustrlen(var_buffer));
5669 case EOP_TIME_INTERVAL:
5672 uschar *t = read_number(&n, sub);
5673 if (*t != 0) /* Not A Number*/
5675 expand_string_message = string_sprintf("string \"%s\" is not a "
5676 "positive number in \"%s\" operator", sub, name);
5679 t = readconf_printtime(n);
5680 yield = string_cat(yield, &size, &ptr, t, Ustrlen(t));
5684 /* Convert string to base64 encoding */
5688 uschar *encstr = auth_b64encode(sub, Ustrlen(sub));
5689 yield = string_cat(yield, &size, &ptr, encstr, Ustrlen(encstr));
5693 /* strlen returns the length of the string */
5698 (void)sprintf(CS buff, "%d", Ustrlen(sub));
5699 yield = string_cat(yield, &size, &ptr, buff, Ustrlen(buff));
5703 /* length_n or l_n takes just the first n characters or the whole string,
5704 whichever is the shorter;
5706 substr_m_n, and s_m_n take n characters from offset m; negative m take
5707 from the end; l_n is synonymous with s_0_n. If n is omitted in substr it
5708 takes the rest, either to the right or to the left.
5710 hash_n or h_n makes a hash of length n from the string, yielding n
5711 characters from the set a-z; hash_n_m makes a hash of length n, but
5712 uses m characters from the set a-zA-Z0-9.
5714 nhash_n returns a single number between 0 and n-1 (in text form), while
5715 nhash_n_m returns a div/mod hash as two numbers "a/b". The first lies
5716 between 0 and n-1 and the second between 0 and m-1. */
5736 expand_string_message = string_sprintf("missing values after %s",
5741 /* "length" has only one argument, effectively being synonymous with
5744 if (c == EOP_LENGTH || c == EOP_L)
5750 /* The others have one or two arguments; for "substr" the first may be
5751 negative. The second being negative means "not supplied". */
5756 if (name[0] == 's' && *arg == '-') { sign = -1; arg++; }
5759 /* Read up to two numbers, separated by underscores */
5764 if (arg != ret && *arg == '_' && pn == &value1)
5768 if (arg[1] != 0) arg++;
5770 else if (!isdigit(*arg))
5772 expand_string_message =
5773 string_sprintf("non-digit after underscore in \"%s\"", name);
5776 else *pn = (*pn)*10 + *arg++ - '0';
5780 /* Perform the required operation */
5783 (c == EOP_HASH || c == EOP_H)?
5784 compute_hash(sub, value1, value2, &len) :
5785 (c == EOP_NHASH || c == EOP_NH)?
5786 compute_nhash(sub, value1, value2, &len) :
5787 extract_substr(sub, value1, value2, &len);
5789 if (ret == NULL) goto EXPAND_FAILED;
5790 yield = string_cat(yield, &size, &ptr, ret, len);
5800 uschar **modetable[3];
5805 if ((expand_forbid & RDO_EXISTS) != 0)
5807 expand_string_message = US"Use of the stat() expansion is not permitted";
5811 if (stat(CS sub, &st) < 0)
5813 expand_string_message = string_sprintf("stat(%s) failed: %s",
5814 sub, strerror(errno));
5818 switch (mode & S_IFMT)
5820 case S_IFIFO: smode[0] = 'p'; break;
5821 case S_IFCHR: smode[0] = 'c'; break;
5822 case S_IFDIR: smode[0] = 'd'; break;
5823 case S_IFBLK: smode[0] = 'b'; break;
5824 case S_IFREG: smode[0] = '-'; break;
5825 default: smode[0] = '?'; break;
5828 modetable[0] = ((mode & 01000) == 0)? mtable_normal : mtable_sticky;
5829 modetable[1] = ((mode & 02000) == 0)? mtable_normal : mtable_setid;
5830 modetable[2] = ((mode & 04000) == 0)? mtable_normal : mtable_setid;
5832 for (i = 0; i < 3; i++)
5834 memcpy(CS(smode + 7 - i*3), CS(modetable[i][mode & 7]), 3);
5839 s = string_sprintf("mode=%04lo smode=%s inode=%ld device=%ld links=%ld "
5840 "uid=%ld gid=%ld size=" OFF_T_FMT " atime=%ld mtime=%ld ctime=%ld",
5841 (long)(st.st_mode & 077777), smode, (long)st.st_ino,
5842 (long)st.st_dev, (long)st.st_nlink, (long)st.st_uid,
5843 (long)st.st_gid, st.st_size, (long)st.st_atime,
5844 (long)st.st_mtime, (long)st.st_ctime);
5845 yield = string_cat(yield, &size, &ptr, s, Ustrlen(s));
5849 /* pseudo-random number less than N */
5856 max = expand_string_integer(sub, TRUE);
5857 if (expand_string_message != NULL)
5859 s = string_sprintf("%d", pseudo_random_number(max));
5860 yield = string_cat(yield, &size, &ptr, s, Ustrlen(s));
5864 /* Reverse IP, including IPv6 to dotted-nibble */
5866 case EOP_REVERSE_IP:
5868 int family, maskptr;
5869 uschar reversed[128];
5871 family = string_is_ip_address(sub, &maskptr);
5874 expand_string_message = string_sprintf(
5875 "reverse_ip() not given an IP address [%s]", sub);
5878 invert_address(reversed, sub);
5879 yield = string_cat(yield, &size, &ptr, reversed, Ustrlen(reversed));
5883 /* Unknown operator */
5886 expand_string_message =
5887 string_sprintf("unknown expansion operator \"%s\"", name);
5892 /* Handle a plain name. If this is the first thing in the expansion, release
5893 the pre-allocated buffer. If the result data is known to be in a new buffer,
5894 newsize will be set to the size of that buffer, and we can just point at that
5895 store instead of copying. Many expansion strings contain just one reference,
5896 so this is a useful optimization, especially for humungous headers
5897 ($message_headers). */
5905 if (resetok) store_reset(yield);
5909 value = find_variable(name, FALSE, skipping, &newsize);
5912 expand_string_message =
5913 string_sprintf("unknown variable in \"${%s}\"", name);
5914 check_variable_error_message(name);
5917 len = Ustrlen(value);
5918 if (yield == NULL && newsize != 0)
5924 else yield = string_cat(yield, &size, &ptr, value, len);
5928 /* Else there's something wrong */
5930 expand_string_message =
5931 string_sprintf("\"${%s\" is not a known operator (or a } is missing "
5932 "in a variable reference)", name);
5936 /* If we hit the end of the string when ket_ends is set, there is a missing
5937 terminating brace. */
5939 if (ket_ends && *s == 0)
5941 expand_string_message = malformed_header?
5942 US"missing } at end of string - could be header name not terminated by colon"
5944 US"missing } at end of string";
5948 /* Expansion succeeded; yield may still be NULL here if nothing was actually
5949 added to the string. If so, set up an empty string. Add a terminating zero. If
5950 left != NULL, return a pointer to the terminator. */
5952 if (yield == NULL) yield = store_get(1);
5954 if (left != NULL) *left = s;
5956 /* Any stacking store that was used above the final string is no longer needed.
5957 In many cases the final string will be the first one that was got and so there
5958 will be optimal store usage. */
5960 if (resetok) store_reset(yield + ptr + 1);
5963 debug_printf("expanding: %.*s\n result: %s\n", (int)(s - string), string,
5965 if (skipping) debug_printf("skipping: result is not used\n");
5969 /* This is the failure exit: easiest to program with a goto. We still need
5970 to update the pointer to the terminator, for cases of nested calls with "fail".
5973 EXPAND_FAILED_CURLY:
5974 expand_string_message = malformed_header?
5975 US"missing or misplaced { or } - could be header name not terminated by colon"
5977 US"missing or misplaced { or }";
5979 /* At one point, Exim reset the store to yield (if yield was not NULL), but
5980 that is a bad idea, because expand_string_message is in dynamic store. */
5983 if (left != NULL) *left = s;
5986 debug_printf("failed to expand: %s\n", string);
5987 debug_printf(" error message: %s\n", expand_string_message);
5988 if (expand_string_forcedfail) debug_printf("failure was forced\n");
5994 /* This is the external function call. Do a quick check for any expansion
5995 metacharacters, and if there are none, just return the input string.
5997 Argument: the string to be expanded
5998 Returns: the expanded string, or NULL if expansion failed; if failure was
5999 due to a lookup deferring, search_find_defer will be TRUE
6003 expand_string(uschar *string)
6005 search_find_defer = FALSE;
6006 malformed_header = FALSE;
6007 return (Ustrpbrk(string, "$\\") == NULL)? string :
6008 expand_string_internal(string, FALSE, NULL, FALSE);
6013 /*************************************************
6015 *************************************************/
6017 /* Now and again we want to expand a string and be sure that the result is in a
6018 new bit of store. This function does that.
6020 Argument: the string to be expanded
6021 Returns: the expanded string, always in a new bit of store, or NULL
6025 expand_string_copy(uschar *string)
6027 uschar *yield = expand_string(string);
6028 if (yield == string) yield = string_copy(string);
6034 /*************************************************
6035 * Expand and interpret as an integer *
6036 *************************************************/
6038 /* Expand a string, and convert the result into an integer.
6041 string the string to be expanded
6042 isplus TRUE if a non-negative number is expected
6044 Returns: the integer value, or
6045 -1 for an expansion error ) in both cases, message in
6046 -2 for an integer interpretation error ) expand_string_message
6047 expand_string_message is set NULL for an OK integer
6051 expand_string_integer(uschar *string, BOOL isplus)
6054 uschar *s = expand_string(string);
6055 uschar *msg = US"invalid integer \"%s\"";
6058 /* If expansion failed, expand_string_message will be set. */
6060 if (s == NULL) return -1;
6062 /* On an overflow, strtol() returns LONG_MAX or LONG_MIN, and sets errno
6063 to ERANGE. When there isn't an overflow, errno is not changed, at least on some
6064 systems, so we set it zero ourselves. */
6067 expand_string_message = NULL; /* Indicates no error */
6069 /* Before Exim 4.64, strings consisting entirely of whitespace compared
6070 equal to 0. Unfortunately, people actually relied upon that, so preserve
6071 the behaviour explicitly. Stripping leading whitespace is a harmless
6072 noop change since strtol skips it anyway (provided that there is a number
6076 while (isspace(*s)) ++s;
6080 debug_printf("treating blank string as number 0\n");
6085 value = strtol(CS s, CSS &endptr, 10);
6089 msg = US"integer expected but \"%s\" found";
6091 else if (value < 0 && isplus)
6093 msg = US"non-negative integer expected but \"%s\" found";
6097 /* Ensure we can cast this down to an int */
6098 if (value > INT_MAX || value < INT_MIN) errno = ERANGE;
6100 if (errno != ERANGE)
6102 if (tolower(*endptr) == 'k')
6104 if (value > INT_MAX/1024 || value < INT_MIN/1024) errno = ERANGE;
6108 else if (tolower(*endptr) == 'm')
6110 if (value > INT_MAX/(1024*1024) || value < INT_MIN/(1024*1024))
6112 else value *= 1024*1024;
6116 if (errno == ERANGE)
6117 msg = US"absolute value of integer \"%s\" is too large (overflow)";
6120 while (isspace(*endptr)) endptr++;
6121 if (*endptr == 0) return (int)value;
6125 expand_string_message = string_sprintf(CS msg, s);
6130 /*************************************************
6131 **************************************************
6132 * Stand-alone test program *
6133 **************************************************
6134 *************************************************/
6140 regex_match_and_setup(const pcre *re, uschar *subject, int options, int setup)
6142 int ovector[3*(EXPAND_MAXN+1)];
6143 int n = pcre_exec(re, NULL, subject, Ustrlen(subject), 0, PCRE_EOPT|options,
6144 ovector, sizeof(ovector)/sizeof(int));
6145 BOOL yield = n >= 0;
6146 if (n == 0) n = EXPAND_MAXN + 1;
6150 expand_nmax = (setup < 0)? 0 : setup + 1;
6151 for (nn = (setup < 0)? 0 : 2; nn < n*2; nn += 2)
6153 expand_nstring[expand_nmax] = subject + ovector[nn];
6154 expand_nlength[expand_nmax++] = ovector[nn+1] - ovector[nn];
6162 int main(int argc, uschar **argv)
6165 uschar buffer[1024];
6167 debug_selector = D_v;
6168 debug_file = stderr;
6169 debug_fd = fileno(debug_file);
6170 big_buffer = malloc(big_buffer_size);
6172 for (i = 1; i < argc; i++)
6174 if (argv[i][0] == '+')
6176 debug_trace_memory = 2;
6179 if (isdigit(argv[i][0]))
6180 debug_selector = Ustrtol(argv[i], NULL, 0);
6182 if (Ustrspn(argv[i], "abcdefghijklmnopqrtsuvwxyz0123456789-.:/") ==
6186 eldap_default_servers = argv[i];
6189 mysql_servers = argv[i];
6192 pgsql_servers = argv[i];
6196 else opt_perl_startup = argv[i];
6200 printf("Testing string expansion: debug_level = %d\n\n", debug_level);
6202 expand_nstring[1] = US"string 1....";
6203 expand_nlength[1] = 8;
6207 if (opt_perl_startup != NULL)
6210 printf("Starting Perl interpreter\n");
6211 errstr = init_perl(opt_perl_startup);
6214 printf("** error in perl_startup code: %s\n", errstr);
6215 return EXIT_FAILURE;
6218 #endif /* EXIM_PERL */
6220 while (fgets(buffer, sizeof(buffer), stdin) != NULL)
6222 void *reset_point = store_get(0);
6223 uschar *yield = expand_string(buffer);
6226 printf("%s\n", yield);
6227 store_reset(reset_point);
6231 if (search_find_defer) printf("search_find deferred\n");
6232 printf("Failed: %s\n", expand_string_message);
6233 if (expand_string_forcedfail) printf("Forced failure\n");
6245 /* End of expand.c */