Expansions: new ${lheader:<name>}. Bug 2272
[exim.git] / src / src / expand.c
1 /*************************************************
2 * Exim - an Internet mail transport agent *
3 *************************************************/
4
5 /* Copyright (c) University of Cambridge 1995 - 2018 */
6 /* See the file NOTICE for conditions of use and distribution. */
7
8
9 /* Functions for handling string expansion. */
10
11
12 #include "exim.h"
13
14 /* Recursively called function */
15
16 static uschar *expand_string_internal(const uschar *, BOOL, const uschar **, BOOL, BOOL, BOOL *);
17 static int_eximarith_t expanded_string_integer(const uschar *, BOOL);
18
19 #ifdef STAND_ALONE
20 # ifndef SUPPORT_CRYPTEQ
21 # define SUPPORT_CRYPTEQ
22 # endif
23 #endif
24
25 #ifdef LOOKUP_LDAP
26 # include "lookups/ldap.h"
27 #endif
28
29 #ifdef SUPPORT_CRYPTEQ
30 # ifdef CRYPT_H
31 # include <crypt.h>
32 # endif
33 # ifndef HAVE_CRYPT16
34 extern char* crypt16(char*, char*);
35 # endif
36 #endif
37
38 /* The handling of crypt16() is a mess. I will record below the analysis of the
39 mess that was sent to me. We decided, however, to make changing this very low
40 priority, because in practice people are moving away from the crypt()
41 algorithms nowadays, so it doesn't seem worth it.
42
43 <quote>
44 There is an algorithm named "crypt16" in Ultrix and Tru64. It crypts
45 the first 8 characters of the password using a 20-round version of crypt
46 (standard crypt does 25 rounds). It then crypts the next 8 characters,
47 or an empty block if the password is less than 9 characters, using a
48 20-round version of crypt and the same salt as was used for the first
49 block. Characters after the first 16 are ignored. It always generates
50 a 16-byte hash, which is expressed together with the salt as a string
51 of 24 base 64 digits. Here are some links to peruse:
52
53 http://cvs.pld.org.pl/pam/pamcrypt/crypt16.c?rev=1.2
54 http://seclists.org/bugtraq/1999/Mar/0076.html
55
56 There's a different algorithm named "bigcrypt" in HP-UX, Digital Unix,
57 and OSF/1. This is the same as the standard crypt if given a password
58 of 8 characters or less. If given more, it first does the same as crypt
59 using the first 8 characters, then crypts the next 8 (the 9th to 16th)
60 using as salt the first two base 64 digits from the first hash block.
61 If the password is more than 16 characters then it crypts the 17th to 24th
62 characters using as salt the first two base 64 digits from the second hash
63 block. And so on: I've seen references to it cutting off the password at
64 40 characters (5 blocks), 80 (10 blocks), or 128 (16 blocks). Some links:
65
66 http://cvs.pld.org.pl/pam/pamcrypt/bigcrypt.c?rev=1.2
67 http://seclists.org/bugtraq/1999/Mar/0109.html
68 http://h30097.www3.hp.com/docs/base_doc/DOCUMENTATION/HTML/AA-Q0R2D-
69 TET1_html/sec.c222.html#no_id_208
70
71 Exim has something it calls "crypt16". It will either use a native
72 crypt16 or its own implementation. A native crypt16 will presumably
73 be the one that I called "crypt16" above. The internal "crypt16"
74 function, however, is a two-block-maximum implementation of what I called
75 "bigcrypt". The documentation matches the internal code.
76
77 I suspect that whoever did the "crypt16" stuff for Exim didn't realise
78 that crypt16 and bigcrypt were different things.
79
80 Exim uses the LDAP-style scheme identifier "{crypt16}" to refer
81 to whatever it is using under that name. This unfortunately sets a
82 precedent for using "{crypt16}" to identify two incompatible algorithms
83 whose output can't be distinguished. With "{crypt16}" thus rendered
84 ambiguous, I suggest you deprecate it and invent two new identifiers
85 for the two algorithms.
86
87 Both crypt16 and bigcrypt are very poor algorithms, btw. Hashing parts
88 of the password separately means they can be cracked separately, so
89 the double-length hash only doubles the cracking effort instead of
90 squaring it. I recommend salted SHA-1 ({SSHA}), or the Blowfish-based
91 bcrypt ({CRYPT}$2a$).
92 </quote>
93 */
94
95
96
97 /*************************************************
98 * Local statics and tables *
99 *************************************************/
100
101 /* Table of item names, and corresponding switch numbers. The names must be in
102 alphabetical order. */
103
104 static uschar *item_table[] = {
105 US"acl",
106 US"authresults",
107 US"certextract",
108 US"dlfunc",
109 US"env",
110 US"extract",
111 US"filter",
112 US"hash",
113 US"hmac",
114 US"if",
115 #ifdef SUPPORT_I18N
116 US"imapfolder",
117 #endif
118 US"length",
119 US"listextract",
120 US"lookup",
121 US"map",
122 US"nhash",
123 US"perl",
124 US"prvs",
125 US"prvscheck",
126 US"readfile",
127 US"readsocket",
128 US"reduce",
129 US"run",
130 US"sg",
131 US"sort",
132 US"substr",
133 US"tr" };
134
135 enum {
136 EITEM_ACL,
137 EITEM_AUTHRESULTS,
138 EITEM_CERTEXTRACT,
139 EITEM_DLFUNC,
140 EITEM_ENV,
141 EITEM_EXTRACT,
142 EITEM_FILTER,
143 EITEM_HASH,
144 EITEM_HMAC,
145 EITEM_IF,
146 #ifdef SUPPORT_I18N
147 EITEM_IMAPFOLDER,
148 #endif
149 EITEM_LENGTH,
150 EITEM_LISTEXTRACT,
151 EITEM_LOOKUP,
152 EITEM_MAP,
153 EITEM_NHASH,
154 EITEM_PERL,
155 EITEM_PRVS,
156 EITEM_PRVSCHECK,
157 EITEM_READFILE,
158 EITEM_READSOCK,
159 EITEM_REDUCE,
160 EITEM_RUN,
161 EITEM_SG,
162 EITEM_SORT,
163 EITEM_SUBSTR,
164 EITEM_TR };
165
166 /* Tables of operator names, and corresponding switch numbers. The names must be
167 in alphabetical order. There are two tables, because underscore is used in some
168 cases to introduce arguments, whereas for other it is part of the name. This is
169 an historical mis-design. */
170
171 static uschar *op_table_underscore[] = {
172 US"from_utf8",
173 US"local_part",
174 US"quote_local_part",
175 US"reverse_ip",
176 US"time_eval",
177 US"time_interval"
178 #ifdef SUPPORT_I18N
179 ,US"utf8_domain_from_alabel",
180 US"utf8_domain_to_alabel",
181 US"utf8_localpart_from_alabel",
182 US"utf8_localpart_to_alabel"
183 #endif
184 };
185
186 enum {
187 EOP_FROM_UTF8,
188 EOP_LOCAL_PART,
189 EOP_QUOTE_LOCAL_PART,
190 EOP_REVERSE_IP,
191 EOP_TIME_EVAL,
192 EOP_TIME_INTERVAL
193 #ifdef SUPPORT_I18N
194 ,EOP_UTF8_DOMAIN_FROM_ALABEL,
195 EOP_UTF8_DOMAIN_TO_ALABEL,
196 EOP_UTF8_LOCALPART_FROM_ALABEL,
197 EOP_UTF8_LOCALPART_TO_ALABEL
198 #endif
199 };
200
201 static uschar *op_table_main[] = {
202 US"address",
203 US"addresses",
204 US"base32",
205 US"base32d",
206 US"base62",
207 US"base62d",
208 US"base64",
209 US"base64d",
210 US"domain",
211 US"escape",
212 US"escape8bit",
213 US"eval",
214 US"eval10",
215 US"expand",
216 US"h",
217 US"hash",
218 US"hex2b64",
219 US"hexquote",
220 US"ipv6denorm",
221 US"ipv6norm",
222 US"l",
223 US"lc",
224 US"length",
225 US"listcount",
226 US"listnamed",
227 US"mask",
228 US"md5",
229 US"nh",
230 US"nhash",
231 US"quote",
232 US"randint",
233 US"rfc2047",
234 US"rfc2047d",
235 US"rxquote",
236 US"s",
237 US"sha1",
238 US"sha256",
239 US"sha3",
240 US"stat",
241 US"str2b64",
242 US"strlen",
243 US"substr",
244 US"uc",
245 US"utf8clean" };
246
247 enum {
248 EOP_ADDRESS = nelem(op_table_underscore),
249 EOP_ADDRESSES,
250 EOP_BASE32,
251 EOP_BASE32D,
252 EOP_BASE62,
253 EOP_BASE62D,
254 EOP_BASE64,
255 EOP_BASE64D,
256 EOP_DOMAIN,
257 EOP_ESCAPE,
258 EOP_ESCAPE8BIT,
259 EOP_EVAL,
260 EOP_EVAL10,
261 EOP_EXPAND,
262 EOP_H,
263 EOP_HASH,
264 EOP_HEX2B64,
265 EOP_HEXQUOTE,
266 EOP_IPV6DENORM,
267 EOP_IPV6NORM,
268 EOP_L,
269 EOP_LC,
270 EOP_LENGTH,
271 EOP_LISTCOUNT,
272 EOP_LISTNAMED,
273 EOP_MASK,
274 EOP_MD5,
275 EOP_NH,
276 EOP_NHASH,
277 EOP_QUOTE,
278 EOP_RANDINT,
279 EOP_RFC2047,
280 EOP_RFC2047D,
281 EOP_RXQUOTE,
282 EOP_S,
283 EOP_SHA1,
284 EOP_SHA256,
285 EOP_SHA3,
286 EOP_STAT,
287 EOP_STR2B64,
288 EOP_STRLEN,
289 EOP_SUBSTR,
290 EOP_UC,
291 EOP_UTF8CLEAN };
292
293
294 /* Table of condition names, and corresponding switch numbers. The names must
295 be in alphabetical order. */
296
297 static uschar *cond_table[] = {
298 US"<",
299 US"<=",
300 US"=",
301 US"==", /* Backward compatibility */
302 US">",
303 US">=",
304 US"acl",
305 US"and",
306 US"bool",
307 US"bool_lax",
308 US"crypteq",
309 US"def",
310 US"eq",
311 US"eqi",
312 US"exists",
313 US"first_delivery",
314 US"forall",
315 US"forany",
316 US"ge",
317 US"gei",
318 US"gt",
319 US"gti",
320 US"inlist",
321 US"inlisti",
322 US"isip",
323 US"isip4",
324 US"isip6",
325 US"ldapauth",
326 US"le",
327 US"lei",
328 US"lt",
329 US"lti",
330 US"match",
331 US"match_address",
332 US"match_domain",
333 US"match_ip",
334 US"match_local_part",
335 US"or",
336 US"pam",
337 US"pwcheck",
338 US"queue_running",
339 US"radius",
340 US"saslauthd"
341 };
342
343 enum {
344 ECOND_NUM_L,
345 ECOND_NUM_LE,
346 ECOND_NUM_E,
347 ECOND_NUM_EE,
348 ECOND_NUM_G,
349 ECOND_NUM_GE,
350 ECOND_ACL,
351 ECOND_AND,
352 ECOND_BOOL,
353 ECOND_BOOL_LAX,
354 ECOND_CRYPTEQ,
355 ECOND_DEF,
356 ECOND_STR_EQ,
357 ECOND_STR_EQI,
358 ECOND_EXISTS,
359 ECOND_FIRST_DELIVERY,
360 ECOND_FORALL,
361 ECOND_FORANY,
362 ECOND_STR_GE,
363 ECOND_STR_GEI,
364 ECOND_STR_GT,
365 ECOND_STR_GTI,
366 ECOND_INLIST,
367 ECOND_INLISTI,
368 ECOND_ISIP,
369 ECOND_ISIP4,
370 ECOND_ISIP6,
371 ECOND_LDAPAUTH,
372 ECOND_STR_LE,
373 ECOND_STR_LEI,
374 ECOND_STR_LT,
375 ECOND_STR_LTI,
376 ECOND_MATCH,
377 ECOND_MATCH_ADDRESS,
378 ECOND_MATCH_DOMAIN,
379 ECOND_MATCH_IP,
380 ECOND_MATCH_LOCAL_PART,
381 ECOND_OR,
382 ECOND_PAM,
383 ECOND_PWCHECK,
384 ECOND_QUEUE_RUNNING,
385 ECOND_RADIUS,
386 ECOND_SASLAUTHD
387 };
388
389
390 /* Types of table entry */
391
392 enum vtypes {
393 vtype_int, /* value is address of int */
394 vtype_filter_int, /* ditto, but recognized only when filtering */
395 vtype_ino, /* value is address of ino_t (not always an int) */
396 vtype_uid, /* value is address of uid_t (not always an int) */
397 vtype_gid, /* value is address of gid_t (not always an int) */
398 vtype_bool, /* value is address of bool */
399 vtype_stringptr, /* value is address of pointer to string */
400 vtype_msgbody, /* as stringptr, but read when first required */
401 vtype_msgbody_end, /* ditto, the end of the message */
402 vtype_msgheaders, /* the message's headers, processed */
403 vtype_msgheaders_raw, /* the message's headers, unprocessed */
404 vtype_localpart, /* extract local part from string */
405 vtype_domain, /* extract domain from string */
406 vtype_string_func, /* value is string returned by given function */
407 vtype_todbsdin, /* value not used; generate BSD inbox tod */
408 vtype_tode, /* value not used; generate tod in epoch format */
409 vtype_todel, /* value not used; generate tod in epoch/usec format */
410 vtype_todf, /* value not used; generate full tod */
411 vtype_todl, /* value not used; generate log tod */
412 vtype_todlf, /* value not used; generate log file datestamp tod */
413 vtype_todzone, /* value not used; generate time zone only */
414 vtype_todzulu, /* value not used; generate zulu tod */
415 vtype_reply, /* value not used; get reply from headers */
416 vtype_pid, /* value not used; result is pid */
417 vtype_host_lookup, /* value not used; get host name */
418 vtype_load_avg, /* value not used; result is int from os_getloadavg */
419 vtype_pspace, /* partition space; value is T/F for spool/log */
420 vtype_pinodes, /* partition inodes; value is T/F for spool/log */
421 vtype_cert /* SSL certificate */
422 #ifndef DISABLE_DKIM
423 ,vtype_dkim /* Lookup of value in DKIM signature */
424 #endif
425 };
426
427 /* Type for main variable table */
428
429 typedef struct {
430 const char *name;
431 enum vtypes type;
432 void *value;
433 } var_entry;
434
435 /* Type for entries pointing to address/length pairs. Not currently
436 in use. */
437
438 typedef struct {
439 uschar **address;
440 int *length;
441 } alblock;
442
443 static uschar * fn_recipients(void);
444
445 /* This table must be kept in alphabetical order. */
446
447 static var_entry var_table[] = {
448 /* WARNING: Do not invent variables whose names start acl_c or acl_m because
449 they will be confused with user-creatable ACL variables. */
450 { "acl_arg1", vtype_stringptr, &acl_arg[0] },
451 { "acl_arg2", vtype_stringptr, &acl_arg[1] },
452 { "acl_arg3", vtype_stringptr, &acl_arg[2] },
453 { "acl_arg4", vtype_stringptr, &acl_arg[3] },
454 { "acl_arg5", vtype_stringptr, &acl_arg[4] },
455 { "acl_arg6", vtype_stringptr, &acl_arg[5] },
456 { "acl_arg7", vtype_stringptr, &acl_arg[6] },
457 { "acl_arg8", vtype_stringptr, &acl_arg[7] },
458 { "acl_arg9", vtype_stringptr, &acl_arg[8] },
459 { "acl_narg", vtype_int, &acl_narg },
460 { "acl_verify_message", vtype_stringptr, &acl_verify_message },
461 { "address_data", vtype_stringptr, &deliver_address_data },
462 { "address_file", vtype_stringptr, &address_file },
463 { "address_pipe", vtype_stringptr, &address_pipe },
464 #ifdef EXPERIMENTAL_ARC
465 { "arc_domains", vtype_string_func, &fn_arc_domains },
466 { "arc_oldest_pass", vtype_int, &arc_oldest_pass },
467 { "arc_state", vtype_stringptr, &arc_state },
468 { "arc_state_reason", vtype_stringptr, &arc_state_reason },
469 #endif
470 { "authenticated_fail_id",vtype_stringptr, &authenticated_fail_id },
471 { "authenticated_id", vtype_stringptr, &authenticated_id },
472 { "authenticated_sender",vtype_stringptr, &authenticated_sender },
473 { "authentication_failed",vtype_int, &authentication_failed },
474 #ifdef WITH_CONTENT_SCAN
475 { "av_failed", vtype_int, &av_failed },
476 #endif
477 #ifdef EXPERIMENTAL_BRIGHTMAIL
478 { "bmi_alt_location", vtype_stringptr, &bmi_alt_location },
479 { "bmi_base64_tracker_verdict", vtype_stringptr, &bmi_base64_tracker_verdict },
480 { "bmi_base64_verdict", vtype_stringptr, &bmi_base64_verdict },
481 { "bmi_deliver", vtype_int, &bmi_deliver },
482 #endif
483 { "body_linecount", vtype_int, &body_linecount },
484 { "body_zerocount", vtype_int, &body_zerocount },
485 { "bounce_recipient", vtype_stringptr, &bounce_recipient },
486 { "bounce_return_size_limit", vtype_int, &bounce_return_size_limit },
487 { "caller_gid", vtype_gid, &real_gid },
488 { "caller_uid", vtype_uid, &real_uid },
489 { "callout_address", vtype_stringptr, &callout_address },
490 { "compile_date", vtype_stringptr, &version_date },
491 { "compile_number", vtype_stringptr, &version_cnumber },
492 { "config_dir", vtype_stringptr, &config_main_directory },
493 { "config_file", vtype_stringptr, &config_main_filename },
494 { "csa_status", vtype_stringptr, &csa_status },
495 #ifdef EXPERIMENTAL_DCC
496 { "dcc_header", vtype_stringptr, &dcc_header },
497 { "dcc_result", vtype_stringptr, &dcc_result },
498 #endif
499 #ifndef DISABLE_DKIM
500 { "dkim_algo", vtype_dkim, (void *)DKIM_ALGO },
501 { "dkim_bodylength", vtype_dkim, (void *)DKIM_BODYLENGTH },
502 { "dkim_canon_body", vtype_dkim, (void *)DKIM_CANON_BODY },
503 { "dkim_canon_headers", vtype_dkim, (void *)DKIM_CANON_HEADERS },
504 { "dkim_copiedheaders", vtype_dkim, (void *)DKIM_COPIEDHEADERS },
505 { "dkim_created", vtype_dkim, (void *)DKIM_CREATED },
506 { "dkim_cur_signer", vtype_stringptr, &dkim_cur_signer },
507 { "dkim_domain", vtype_stringptr, &dkim_signing_domain },
508 { "dkim_expires", vtype_dkim, (void *)DKIM_EXPIRES },
509 { "dkim_headernames", vtype_dkim, (void *)DKIM_HEADERNAMES },
510 { "dkim_identity", vtype_dkim, (void *)DKIM_IDENTITY },
511 { "dkim_key_granularity",vtype_dkim, (void *)DKIM_KEY_GRANULARITY },
512 { "dkim_key_length", vtype_int, &dkim_key_length },
513 { "dkim_key_nosubdomains",vtype_dkim, (void *)DKIM_NOSUBDOMAINS },
514 { "dkim_key_notes", vtype_dkim, (void *)DKIM_KEY_NOTES },
515 { "dkim_key_srvtype", vtype_dkim, (void *)DKIM_KEY_SRVTYPE },
516 { "dkim_key_testing", vtype_dkim, (void *)DKIM_KEY_TESTING },
517 { "dkim_selector", vtype_stringptr, &dkim_signing_selector },
518 { "dkim_signers", vtype_stringptr, &dkim_signers },
519 { "dkim_verify_reason", vtype_stringptr, &dkim_verify_reason },
520 { "dkim_verify_status", vtype_stringptr, &dkim_verify_status },
521 #endif
522 #ifdef EXPERIMENTAL_DMARC
523 { "dmarc_domain_policy", vtype_stringptr, &dmarc_domain_policy },
524 { "dmarc_status", vtype_stringptr, &dmarc_status },
525 { "dmarc_status_text", vtype_stringptr, &dmarc_status_text },
526 { "dmarc_used_domain", vtype_stringptr, &dmarc_used_domain },
527 #endif
528 { "dnslist_domain", vtype_stringptr, &dnslist_domain },
529 { "dnslist_matched", vtype_stringptr, &dnslist_matched },
530 { "dnslist_text", vtype_stringptr, &dnslist_text },
531 { "dnslist_value", vtype_stringptr, &dnslist_value },
532 { "domain", vtype_stringptr, &deliver_domain },
533 { "domain_data", vtype_stringptr, &deliver_domain_data },
534 #ifndef DISABLE_EVENT
535 { "event_data", vtype_stringptr, &event_data },
536
537 /*XXX want to use generic vars for as many of these as possible*/
538 { "event_defer_errno", vtype_int, &event_defer_errno },
539
540 { "event_name", vtype_stringptr, &event_name },
541 #endif
542 { "exim_gid", vtype_gid, &exim_gid },
543 { "exim_path", vtype_stringptr, &exim_path },
544 { "exim_uid", vtype_uid, &exim_uid },
545 { "exim_version", vtype_stringptr, &version_string },
546 { "headers_added", vtype_string_func, &fn_hdrs_added },
547 { "home", vtype_stringptr, &deliver_home },
548 { "host", vtype_stringptr, &deliver_host },
549 { "host_address", vtype_stringptr, &deliver_host_address },
550 { "host_data", vtype_stringptr, &host_data },
551 { "host_lookup_deferred",vtype_int, &host_lookup_deferred },
552 { "host_lookup_failed", vtype_int, &host_lookup_failed },
553 { "host_port", vtype_int, &deliver_host_port },
554 { "initial_cwd", vtype_stringptr, &initial_cwd },
555 { "inode", vtype_ino, &deliver_inode },
556 { "interface_address", vtype_stringptr, &interface_address },
557 { "interface_port", vtype_int, &interface_port },
558 { "item", vtype_stringptr, &iterate_item },
559 #ifdef LOOKUP_LDAP
560 { "ldap_dn", vtype_stringptr, &eldap_dn },
561 #endif
562 { "load_average", vtype_load_avg, NULL },
563 { "local_part", vtype_stringptr, &deliver_localpart },
564 { "local_part_data", vtype_stringptr, &deliver_localpart_data },
565 { "local_part_prefix", vtype_stringptr, &deliver_localpart_prefix },
566 { "local_part_suffix", vtype_stringptr, &deliver_localpart_suffix },
567 #ifdef HAVE_LOCAL_SCAN
568 { "local_scan_data", vtype_stringptr, &local_scan_data },
569 #endif
570 { "local_user_gid", vtype_gid, &local_user_gid },
571 { "local_user_uid", vtype_uid, &local_user_uid },
572 { "localhost_number", vtype_int, &host_number },
573 { "log_inodes", vtype_pinodes, (void *)FALSE },
574 { "log_space", vtype_pspace, (void *)FALSE },
575 { "lookup_dnssec_authenticated",vtype_stringptr,&lookup_dnssec_authenticated},
576 { "mailstore_basename", vtype_stringptr, &mailstore_basename },
577 #ifdef WITH_CONTENT_SCAN
578 { "malware_name", vtype_stringptr, &malware_name },
579 #endif
580 { "max_received_linelength", vtype_int, &max_received_linelength },
581 { "message_age", vtype_int, &message_age },
582 { "message_body", vtype_msgbody, &message_body },
583 { "message_body_end", vtype_msgbody_end, &message_body_end },
584 { "message_body_size", vtype_int, &message_body_size },
585 { "message_exim_id", vtype_stringptr, &message_id },
586 { "message_headers", vtype_msgheaders, NULL },
587 { "message_headers_raw", vtype_msgheaders_raw, NULL },
588 { "message_id", vtype_stringptr, &message_id },
589 { "message_linecount", vtype_int, &message_linecount },
590 { "message_size", vtype_int, &message_size },
591 #ifdef SUPPORT_I18N
592 { "message_smtputf8", vtype_bool, &message_smtputf8 },
593 #endif
594 #ifdef WITH_CONTENT_SCAN
595 { "mime_anomaly_level", vtype_int, &mime_anomaly_level },
596 { "mime_anomaly_text", vtype_stringptr, &mime_anomaly_text },
597 { "mime_boundary", vtype_stringptr, &mime_boundary },
598 { "mime_charset", vtype_stringptr, &mime_charset },
599 { "mime_content_description", vtype_stringptr, &mime_content_description },
600 { "mime_content_disposition", vtype_stringptr, &mime_content_disposition },
601 { "mime_content_id", vtype_stringptr, &mime_content_id },
602 { "mime_content_size", vtype_int, &mime_content_size },
603 { "mime_content_transfer_encoding",vtype_stringptr, &mime_content_transfer_encoding },
604 { "mime_content_type", vtype_stringptr, &mime_content_type },
605 { "mime_decoded_filename", vtype_stringptr, &mime_decoded_filename },
606 { "mime_filename", vtype_stringptr, &mime_filename },
607 { "mime_is_coverletter", vtype_int, &mime_is_coverletter },
608 { "mime_is_multipart", vtype_int, &mime_is_multipart },
609 { "mime_is_rfc822", vtype_int, &mime_is_rfc822 },
610 { "mime_part_count", vtype_int, &mime_part_count },
611 #endif
612 { "n0", vtype_filter_int, &filter_n[0] },
613 { "n1", vtype_filter_int, &filter_n[1] },
614 { "n2", vtype_filter_int, &filter_n[2] },
615 { "n3", vtype_filter_int, &filter_n[3] },
616 { "n4", vtype_filter_int, &filter_n[4] },
617 { "n5", vtype_filter_int, &filter_n[5] },
618 { "n6", vtype_filter_int, &filter_n[6] },
619 { "n7", vtype_filter_int, &filter_n[7] },
620 { "n8", vtype_filter_int, &filter_n[8] },
621 { "n9", vtype_filter_int, &filter_n[9] },
622 { "original_domain", vtype_stringptr, &deliver_domain_orig },
623 { "original_local_part", vtype_stringptr, &deliver_localpart_orig },
624 { "originator_gid", vtype_gid, &originator_gid },
625 { "originator_uid", vtype_uid, &originator_uid },
626 { "parent_domain", vtype_stringptr, &deliver_domain_parent },
627 { "parent_local_part", vtype_stringptr, &deliver_localpart_parent },
628 { "pid", vtype_pid, NULL },
629 #ifndef DISABLE_PRDR
630 { "prdr_requested", vtype_bool, &prdr_requested },
631 #endif
632 { "primary_hostname", vtype_stringptr, &primary_hostname },
633 #if defined(SUPPORT_PROXY) || defined(SUPPORT_SOCKS)
634 { "proxy_external_address",vtype_stringptr, &proxy_external_address },
635 { "proxy_external_port", vtype_int, &proxy_external_port },
636 { "proxy_local_address", vtype_stringptr, &proxy_local_address },
637 { "proxy_local_port", vtype_int, &proxy_local_port },
638 { "proxy_session", vtype_bool, &proxy_session },
639 #endif
640 { "prvscheck_address", vtype_stringptr, &prvscheck_address },
641 { "prvscheck_keynum", vtype_stringptr, &prvscheck_keynum },
642 { "prvscheck_result", vtype_stringptr, &prvscheck_result },
643 { "qualify_domain", vtype_stringptr, &qualify_domain_sender },
644 { "qualify_recipient", vtype_stringptr, &qualify_domain_recipient },
645 { "queue_name", vtype_stringptr, &queue_name },
646 { "rcpt_count", vtype_int, &rcpt_count },
647 { "rcpt_defer_count", vtype_int, &rcpt_defer_count },
648 { "rcpt_fail_count", vtype_int, &rcpt_fail_count },
649 { "received_count", vtype_int, &received_count },
650 { "received_for", vtype_stringptr, &received_for },
651 { "received_ip_address", vtype_stringptr, &interface_address },
652 { "received_port", vtype_int, &interface_port },
653 { "received_protocol", vtype_stringptr, &received_protocol },
654 { "received_time", vtype_int, &received_time.tv_sec },
655 { "recipient_data", vtype_stringptr, &recipient_data },
656 { "recipient_verify_failure",vtype_stringptr,&recipient_verify_failure },
657 { "recipients", vtype_string_func, &fn_recipients },
658 { "recipients_count", vtype_int, &recipients_count },
659 #ifdef WITH_CONTENT_SCAN
660 { "regex_match_string", vtype_stringptr, &regex_match_string },
661 #endif
662 { "reply_address", vtype_reply, NULL },
663 { "return_path", vtype_stringptr, &return_path },
664 { "return_size_limit", vtype_int, &bounce_return_size_limit },
665 { "router_name", vtype_stringptr, &router_name },
666 { "runrc", vtype_int, &runrc },
667 { "self_hostname", vtype_stringptr, &self_hostname },
668 { "sender_address", vtype_stringptr, &sender_address },
669 { "sender_address_data", vtype_stringptr, &sender_address_data },
670 { "sender_address_domain", vtype_domain, &sender_address },
671 { "sender_address_local_part", vtype_localpart, &sender_address },
672 { "sender_data", vtype_stringptr, &sender_data },
673 { "sender_fullhost", vtype_stringptr, &sender_fullhost },
674 { "sender_helo_dnssec", vtype_bool, &sender_helo_dnssec },
675 { "sender_helo_name", vtype_stringptr, &sender_helo_name },
676 { "sender_host_address", vtype_stringptr, &sender_host_address },
677 { "sender_host_authenticated",vtype_stringptr, &sender_host_authenticated },
678 { "sender_host_dnssec", vtype_bool, &sender_host_dnssec },
679 { "sender_host_name", vtype_host_lookup, NULL },
680 { "sender_host_port", vtype_int, &sender_host_port },
681 { "sender_ident", vtype_stringptr, &sender_ident },
682 { "sender_rate", vtype_stringptr, &sender_rate },
683 { "sender_rate_limit", vtype_stringptr, &sender_rate_limit },
684 { "sender_rate_period", vtype_stringptr, &sender_rate_period },
685 { "sender_rcvhost", vtype_stringptr, &sender_rcvhost },
686 { "sender_verify_failure",vtype_stringptr, &sender_verify_failure },
687 { "sending_ip_address", vtype_stringptr, &sending_ip_address },
688 { "sending_port", vtype_int, &sending_port },
689 { "smtp_active_hostname", vtype_stringptr, &smtp_active_hostname },
690 { "smtp_command", vtype_stringptr, &smtp_cmd_buffer },
691 { "smtp_command_argument", vtype_stringptr, &smtp_cmd_argument },
692 { "smtp_command_history", vtype_string_func, &smtp_cmd_hist },
693 { "smtp_count_at_connection_start", vtype_int, &smtp_accept_count },
694 { "smtp_notquit_reason", vtype_stringptr, &smtp_notquit_reason },
695 { "sn0", vtype_filter_int, &filter_sn[0] },
696 { "sn1", vtype_filter_int, &filter_sn[1] },
697 { "sn2", vtype_filter_int, &filter_sn[2] },
698 { "sn3", vtype_filter_int, &filter_sn[3] },
699 { "sn4", vtype_filter_int, &filter_sn[4] },
700 { "sn5", vtype_filter_int, &filter_sn[5] },
701 { "sn6", vtype_filter_int, &filter_sn[6] },
702 { "sn7", vtype_filter_int, &filter_sn[7] },
703 { "sn8", vtype_filter_int, &filter_sn[8] },
704 { "sn9", vtype_filter_int, &filter_sn[9] },
705 #ifdef WITH_CONTENT_SCAN
706 { "spam_action", vtype_stringptr, &spam_action },
707 { "spam_bar", vtype_stringptr, &spam_bar },
708 { "spam_report", vtype_stringptr, &spam_report },
709 { "spam_score", vtype_stringptr, &spam_score },
710 { "spam_score_int", vtype_stringptr, &spam_score_int },
711 #endif
712 #ifdef SUPPORT_SPF
713 { "spf_guess", vtype_stringptr, &spf_guess },
714 { "spf_header_comment", vtype_stringptr, &spf_header_comment },
715 { "spf_received", vtype_stringptr, &spf_received },
716 { "spf_result", vtype_stringptr, &spf_result },
717 { "spf_result_guessed", vtype_bool, &spf_result_guessed },
718 { "spf_smtp_comment", vtype_stringptr, &spf_smtp_comment },
719 #endif
720 { "spool_directory", vtype_stringptr, &spool_directory },
721 { "spool_inodes", vtype_pinodes, (void *)TRUE },
722 { "spool_space", vtype_pspace, (void *)TRUE },
723 #ifdef EXPERIMENTAL_SRS
724 { "srs_db_address", vtype_stringptr, &srs_db_address },
725 { "srs_db_key", vtype_stringptr, &srs_db_key },
726 { "srs_orig_recipient", vtype_stringptr, &srs_orig_recipient },
727 { "srs_orig_sender", vtype_stringptr, &srs_orig_sender },
728 { "srs_recipient", vtype_stringptr, &srs_recipient },
729 { "srs_status", vtype_stringptr, &srs_status },
730 #endif
731 { "thisaddress", vtype_stringptr, &filter_thisaddress },
732
733 /* The non-(in,out) variables are now deprecated */
734 { "tls_bits", vtype_int, &tls_in.bits },
735 { "tls_certificate_verified", vtype_int, &tls_in.certificate_verified },
736 { "tls_cipher", vtype_stringptr, &tls_in.cipher },
737
738 { "tls_in_bits", vtype_int, &tls_in.bits },
739 { "tls_in_certificate_verified", vtype_int, &tls_in.certificate_verified },
740 { "tls_in_cipher", vtype_stringptr, &tls_in.cipher },
741 { "tls_in_ocsp", vtype_int, &tls_in.ocsp },
742 { "tls_in_ourcert", vtype_cert, &tls_in.ourcert },
743 { "tls_in_peercert", vtype_cert, &tls_in.peercert },
744 { "tls_in_peerdn", vtype_stringptr, &tls_in.peerdn },
745 #if defined(SUPPORT_TLS)
746 { "tls_in_sni", vtype_stringptr, &tls_in.sni },
747 #endif
748 { "tls_out_bits", vtype_int, &tls_out.bits },
749 { "tls_out_certificate_verified", vtype_int,&tls_out.certificate_verified },
750 { "tls_out_cipher", vtype_stringptr, &tls_out.cipher },
751 #ifdef SUPPORT_DANE
752 { "tls_out_dane", vtype_bool, &tls_out.dane_verified },
753 #endif
754 { "tls_out_ocsp", vtype_int, &tls_out.ocsp },
755 { "tls_out_ourcert", vtype_cert, &tls_out.ourcert },
756 { "tls_out_peercert", vtype_cert, &tls_out.peercert },
757 { "tls_out_peerdn", vtype_stringptr, &tls_out.peerdn },
758 #if defined(SUPPORT_TLS)
759 { "tls_out_sni", vtype_stringptr, &tls_out.sni },
760 #endif
761 #ifdef SUPPORT_DANE
762 { "tls_out_tlsa_usage", vtype_int, &tls_out.tlsa_usage },
763 #endif
764
765 { "tls_peerdn", vtype_stringptr, &tls_in.peerdn }, /* mind the alphabetical order! */
766 #if defined(SUPPORT_TLS)
767 { "tls_sni", vtype_stringptr, &tls_in.sni }, /* mind the alphabetical order! */
768 #endif
769
770 { "tod_bsdinbox", vtype_todbsdin, NULL },
771 { "tod_epoch", vtype_tode, NULL },
772 { "tod_epoch_l", vtype_todel, NULL },
773 { "tod_full", vtype_todf, NULL },
774 { "tod_log", vtype_todl, NULL },
775 { "tod_logfile", vtype_todlf, NULL },
776 { "tod_zone", vtype_todzone, NULL },
777 { "tod_zulu", vtype_todzulu, NULL },
778 { "transport_name", vtype_stringptr, &transport_name },
779 { "value", vtype_stringptr, &lookup_value },
780 { "verify_mode", vtype_stringptr, &verify_mode },
781 { "version_number", vtype_stringptr, &version_string },
782 { "warn_message_delay", vtype_stringptr, &warnmsg_delay },
783 { "warn_message_recipient",vtype_stringptr, &warnmsg_recipients },
784 { "warn_message_recipients",vtype_stringptr,&warnmsg_recipients },
785 { "warnmsg_delay", vtype_stringptr, &warnmsg_delay },
786 { "warnmsg_recipient", vtype_stringptr, &warnmsg_recipients },
787 { "warnmsg_recipients", vtype_stringptr, &warnmsg_recipients }
788 };
789
790 static int var_table_size = nelem(var_table);
791 static uschar var_buffer[256];
792 static BOOL malformed_header;
793
794 /* For textual hashes */
795
796 static const char *hashcodes = "abcdefghijklmnopqrtsuvwxyz"
797 "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
798 "0123456789";
799
800 enum { HMAC_MD5, HMAC_SHA1 };
801
802 /* For numeric hashes */
803
804 static unsigned int prime[] = {
805 2, 3, 5, 7, 11, 13, 17, 19, 23, 29,
806 31, 37, 41, 43, 47, 53, 59, 61, 67, 71,
807 73, 79, 83, 89, 97, 101, 103, 107, 109, 113};
808
809 /* For printing modes in symbolic form */
810
811 static uschar *mtable_normal[] =
812 { US"---", US"--x", US"-w-", US"-wx", US"r--", US"r-x", US"rw-", US"rwx" };
813
814 static uschar *mtable_setid[] =
815 { US"--S", US"--s", US"-wS", US"-ws", US"r-S", US"r-s", US"rwS", US"rws" };
816
817 static uschar *mtable_sticky[] =
818 { US"--T", US"--t", US"-wT", US"-wt", US"r-T", US"r-t", US"rwT", US"rwt" };
819
820 /* flags for find_header() */
821 #define FH_EXISTS_ONLY BIT(0)
822 #define FH_WANT_RAW BIT(1)
823 #define FH_WANT_LIST BIT(2)
824
825
826 /*************************************************
827 * Tables for UTF-8 support *
828 *************************************************/
829
830 /* Table of the number of extra characters, indexed by the first character
831 masked with 0x3f. The highest number for a valid UTF-8 character is in fact
832 0x3d. */
833
834 static uschar utf8_table1[] = {
835 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
836 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
837 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,
838 3,3,3,3,3,3,3,3,4,4,4,4,5,5,5,5 };
839
840 /* These are the masks for the data bits in the first byte of a character,
841 indexed by the number of additional bytes. */
842
843 static int utf8_table2[] = { 0xff, 0x1f, 0x0f, 0x07, 0x03, 0x01};
844
845 /* Get the next UTF-8 character, advancing the pointer. */
846
847 #define GETUTF8INC(c, ptr) \
848 c = *ptr++; \
849 if ((c & 0xc0) == 0xc0) \
850 { \
851 int a = utf8_table1[c & 0x3f]; /* Number of additional bytes */ \
852 int s = 6*a; \
853 c = (c & utf8_table2[a]) << s; \
854 while (a-- > 0) \
855 { \
856 s -= 6; \
857 c |= (*ptr++ & 0x3f) << s; \
858 } \
859 }
860
861
862
863 static uschar * base32_chars = US"abcdefghijklmnopqrstuvwxyz234567";
864
865 /*************************************************
866 * Binary chop search on a table *
867 *************************************************/
868
869 /* This is used for matching expansion items and operators.
870
871 Arguments:
872 name the name that is being sought
873 table the table to search
874 table_size the number of items in the table
875
876 Returns: the offset in the table, or -1
877 */
878
879 static int
880 chop_match(uschar *name, uschar **table, int table_size)
881 {
882 uschar **bot = table;
883 uschar **top = table + table_size;
884
885 while (top > bot)
886 {
887 uschar **mid = bot + (top - bot)/2;
888 int c = Ustrcmp(name, *mid);
889 if (c == 0) return mid - table;
890 if (c > 0) bot = mid + 1; else top = mid;
891 }
892
893 return -1;
894 }
895
896
897
898 /*************************************************
899 * Check a condition string *
900 *************************************************/
901
902 /* This function is called to expand a string, and test the result for a "true"
903 or "false" value. Failure of the expansion yields FALSE; logged unless it was a
904 forced fail or lookup defer.
905
906 We used to release all store used, but this is not not safe due
907 to ${dlfunc } and ${acl }. In any case expand_string_internal()
908 is reasonably careful to release what it can.
909
910 The actual false-value tests should be replicated for ECOND_BOOL_LAX.
911
912 Arguments:
913 condition the condition string
914 m1 text to be incorporated in panic error
915 m2 ditto
916
917 Returns: TRUE if condition is met, FALSE if not
918 */
919
920 BOOL
921 expand_check_condition(uschar *condition, uschar *m1, uschar *m2)
922 {
923 int rc;
924 uschar *ss = expand_string(condition);
925 if (ss == NULL)
926 {
927 if (!expand_string_forcedfail && !search_find_defer)
928 log_write(0, LOG_MAIN|LOG_PANIC, "failed to expand condition \"%s\" "
929 "for %s %s: %s", condition, m1, m2, expand_string_message);
930 return FALSE;
931 }
932 rc = ss[0] != 0 && Ustrcmp(ss, "0") != 0 && strcmpic(ss, US"no") != 0 &&
933 strcmpic(ss, US"false") != 0;
934 return rc;
935 }
936
937
938
939
940 /*************************************************
941 * Pseudo-random number generation *
942 *************************************************/
943
944 /* Pseudo-random number generation. The result is not "expected" to be
945 cryptographically strong but not so weak that someone will shoot themselves
946 in the foot using it as a nonce in some email header scheme or whatever
947 weirdness they'll twist this into. The result should ideally handle fork().
948
949 However, if we're stuck unable to provide this, then we'll fall back to
950 appallingly bad randomness.
951
952 If SUPPORT_TLS is defined then this will not be used except as an emergency
953 fallback.
954
955 Arguments:
956 max range maximum
957 Returns a random number in range [0, max-1]
958 */
959
960 #ifdef SUPPORT_TLS
961 # define vaguely_random_number vaguely_random_number_fallback
962 #endif
963 int
964 vaguely_random_number(int max)
965 {
966 #ifdef SUPPORT_TLS
967 # undef vaguely_random_number
968 #endif
969 static pid_t pid = 0;
970 pid_t p2;
971 #if defined(HAVE_SRANDOM) && !defined(HAVE_SRANDOMDEV)
972 struct timeval tv;
973 #endif
974
975 p2 = getpid();
976 if (p2 != pid)
977 {
978 if (pid != 0)
979 {
980
981 #ifdef HAVE_ARC4RANDOM
982 /* cryptographically strong randomness, common on *BSD platforms, not
983 so much elsewhere. Alas. */
984 #ifndef NOT_HAVE_ARC4RANDOM_STIR
985 arc4random_stir();
986 #endif
987 #elif defined(HAVE_SRANDOM) || defined(HAVE_SRANDOMDEV)
988 #ifdef HAVE_SRANDOMDEV
989 /* uses random(4) for seeding */
990 srandomdev();
991 #else
992 gettimeofday(&tv, NULL);
993 srandom(tv.tv_sec | tv.tv_usec | getpid());
994 #endif
995 #else
996 /* Poor randomness and no seeding here */
997 #endif
998
999 }
1000 pid = p2;
1001 }
1002
1003 #ifdef HAVE_ARC4RANDOM
1004 return arc4random() % max;
1005 #elif defined(HAVE_SRANDOM) || defined(HAVE_SRANDOMDEV)
1006 return random() % max;
1007 #else
1008 /* This one returns a 16-bit number, definitely not crypto-strong */
1009 return random_number(max);
1010 #endif
1011 }
1012
1013
1014
1015
1016 /*************************************************
1017 * Pick out a name from a string *
1018 *************************************************/
1019
1020 /* If the name is too long, it is silently truncated.
1021
1022 Arguments:
1023 name points to a buffer into which to put the name
1024 max is the length of the buffer
1025 s points to the first alphabetic character of the name
1026 extras chars other than alphanumerics to permit
1027
1028 Returns: pointer to the first character after the name
1029
1030 Note: The test for *s != 0 in the while loop is necessary because
1031 Ustrchr() yields non-NULL if the character is zero (which is not something
1032 I expected). */
1033
1034 static const uschar *
1035 read_name(uschar *name, int max, const uschar *s, uschar *extras)
1036 {
1037 int ptr = 0;
1038 while (*s != 0 && (isalnum(*s) || Ustrchr(extras, *s) != NULL))
1039 {
1040 if (ptr < max-1) name[ptr++] = *s;
1041 s++;
1042 }
1043 name[ptr] = 0;
1044 return s;
1045 }
1046
1047
1048
1049 /*************************************************
1050 * Pick out the rest of a header name *
1051 *************************************************/
1052
1053 /* A variable name starting $header_ (or just $h_ for those who like
1054 abbreviations) might not be the complete header name because headers can
1055 contain any printing characters in their names, except ':'. This function is
1056 called to read the rest of the name, chop h[eader]_ off the front, and put ':'
1057 on the end, if the name was terminated by white space.
1058
1059 Arguments:
1060 name points to a buffer in which the name read so far exists
1061 max is the length of the buffer
1062 s points to the first character after the name so far, i.e. the
1063 first non-alphameric character after $header_xxxxx
1064
1065 Returns: a pointer to the first character after the header name
1066 */
1067
1068 static const uschar *
1069 read_header_name(uschar *name, int max, const uschar *s)
1070 {
1071 int prelen = Ustrchr(name, '_') - name + 1;
1072 int ptr = Ustrlen(name) - prelen;
1073 if (ptr > 0) memmove(name, name+prelen, ptr);
1074 while (mac_isgraph(*s) && *s != ':')
1075 {
1076 if (ptr < max-1) name[ptr++] = *s;
1077 s++;
1078 }
1079 if (*s == ':') s++;
1080 name[ptr++] = ':';
1081 name[ptr] = 0;
1082 return s;
1083 }
1084
1085
1086
1087 /*************************************************
1088 * Pick out a number from a string *
1089 *************************************************/
1090
1091 /* Arguments:
1092 n points to an integer into which to put the number
1093 s points to the first digit of the number
1094
1095 Returns: a pointer to the character after the last digit
1096 */
1097 /*XXX consider expanding to int_eximarith_t. But the test for
1098 "overbig numbers" in 0002 still needs to overflow it. */
1099
1100 static uschar *
1101 read_number(int *n, uschar *s)
1102 {
1103 *n = 0;
1104 while (isdigit(*s)) *n = *n * 10 + (*s++ - '0');
1105 return s;
1106 }
1107
1108 static const uschar *
1109 read_cnumber(int *n, const uschar *s)
1110 {
1111 *n = 0;
1112 while (isdigit(*s)) *n = *n * 10 + (*s++ - '0');
1113 return s;
1114 }
1115
1116
1117
1118 /*************************************************
1119 * Extract keyed subfield from a string *
1120 *************************************************/
1121
1122 /* The yield is in dynamic store; NULL means that the key was not found.
1123
1124 Arguments:
1125 key points to the name of the key
1126 s points to the string from which to extract the subfield
1127
1128 Returns: NULL if the subfield was not found, or
1129 a pointer to the subfield's data
1130 */
1131
1132 static uschar *
1133 expand_getkeyed(uschar *key, const uschar *s)
1134 {
1135 int length = Ustrlen(key);
1136 while (isspace(*s)) s++;
1137
1138 /* Loop to search for the key */
1139
1140 while (*s != 0)
1141 {
1142 int dkeylength;
1143 uschar *data;
1144 const uschar *dkey = s;
1145
1146 while (*s != 0 && *s != '=' && !isspace(*s)) s++;
1147 dkeylength = s - dkey;
1148 while (isspace(*s)) s++;
1149 if (*s == '=') while (isspace((*(++s))));
1150
1151 data = string_dequote(&s);
1152 if (length == dkeylength && strncmpic(key, dkey, length) == 0)
1153 return data;
1154
1155 while (isspace(*s)) s++;
1156 }
1157
1158 return NULL;
1159 }
1160
1161
1162
1163 static var_entry *
1164 find_var_ent(uschar * name)
1165 {
1166 int first = 0;
1167 int last = var_table_size;
1168
1169 while (last > first)
1170 {
1171 int middle = (first + last)/2;
1172 int c = Ustrcmp(name, var_table[middle].name);
1173
1174 if (c > 0) { first = middle + 1; continue; }
1175 if (c < 0) { last = middle; continue; }
1176 return &var_table[middle];
1177 }
1178 return NULL;
1179 }
1180
1181 /*************************************************
1182 * Extract numbered subfield from string *
1183 *************************************************/
1184
1185 /* Extracts a numbered field from a string that is divided by tokens - for
1186 example a line from /etc/passwd is divided by colon characters. First field is
1187 numbered one. Negative arguments count from the right. Zero returns the whole
1188 string. Returns NULL if there are insufficient tokens in the string
1189
1190 ***WARNING***
1191 Modifies final argument - this is a dynamically generated string, so that's OK.
1192
1193 Arguments:
1194 field number of field to be extracted,
1195 first field = 1, whole string = 0, last field = -1
1196 separators characters that are used to break string into tokens
1197 s points to the string from which to extract the subfield
1198
1199 Returns: NULL if the field was not found,
1200 a pointer to the field's data inside s (modified to add 0)
1201 */
1202
1203 static uschar *
1204 expand_gettokened (int field, uschar *separators, uschar *s)
1205 {
1206 int sep = 1;
1207 int count;
1208 uschar *ss = s;
1209 uschar *fieldtext = NULL;
1210
1211 if (field == 0) return s;
1212
1213 /* Break the line up into fields in place; for field > 0 we stop when we have
1214 done the number of fields we want. For field < 0 we continue till the end of
1215 the string, counting the number of fields. */
1216
1217 count = (field > 0)? field : INT_MAX;
1218
1219 while (count-- > 0)
1220 {
1221 size_t len;
1222
1223 /* Previous field was the last one in the string. For a positive field
1224 number, this means there are not enough fields. For a negative field number,
1225 check that there are enough, and scan back to find the one that is wanted. */
1226
1227 if (sep == 0)
1228 {
1229 if (field > 0 || (-field) > (INT_MAX - count - 1)) return NULL;
1230 if ((-field) == (INT_MAX - count - 1)) return s;
1231 while (field++ < 0)
1232 {
1233 ss--;
1234 while (ss[-1] != 0) ss--;
1235 }
1236 fieldtext = ss;
1237 break;
1238 }
1239
1240 /* Previous field was not last in the string; save its start and put a
1241 zero at its end. */
1242
1243 fieldtext = ss;
1244 len = Ustrcspn(ss, separators);
1245 sep = ss[len];
1246 ss[len] = 0;
1247 ss += len + 1;
1248 }
1249
1250 return fieldtext;
1251 }
1252
1253
1254 static uschar *
1255 expand_getlistele(int field, const uschar * list)
1256 {
1257 const uschar * tlist= list;
1258 int sep= 0;
1259 uschar dummy;
1260
1261 if(field<0)
1262 {
1263 for(field++; string_nextinlist(&tlist, &sep, &dummy, 1); ) field++;
1264 sep= 0;
1265 }
1266 if(field==0) return NULL;
1267 while(--field>0 && (string_nextinlist(&list, &sep, &dummy, 1))) ;
1268 return string_nextinlist(&list, &sep, NULL, 0);
1269 }
1270
1271
1272 /* Certificate fields, by name. Worry about by-OID later */
1273 /* Names are chosen to not have common prefixes */
1274
1275 #ifdef SUPPORT_TLS
1276 typedef struct
1277 {
1278 uschar * name;
1279 int namelen;
1280 uschar * (*getfn)(void * cert, uschar * mod);
1281 } certfield;
1282 static certfield certfields[] =
1283 { /* linear search; no special order */
1284 { US"version", 7, &tls_cert_version },
1285 { US"serial_number", 13, &tls_cert_serial_number },
1286 { US"subject", 7, &tls_cert_subject },
1287 { US"notbefore", 9, &tls_cert_not_before },
1288 { US"notafter", 8, &tls_cert_not_after },
1289 { US"issuer", 6, &tls_cert_issuer },
1290 { US"signature", 9, &tls_cert_signature },
1291 { US"sig_algorithm", 13, &tls_cert_signature_algorithm },
1292 { US"subj_altname", 12, &tls_cert_subject_altname },
1293 { US"ocsp_uri", 8, &tls_cert_ocsp_uri },
1294 { US"crl_uri", 7, &tls_cert_crl_uri },
1295 };
1296
1297 static uschar *
1298 expand_getcertele(uschar * field, uschar * certvar)
1299 {
1300 var_entry * vp;
1301 certfield * cp;
1302
1303 if (!(vp = find_var_ent(certvar)))
1304 {
1305 expand_string_message =
1306 string_sprintf("no variable named \"%s\"", certvar);
1307 return NULL; /* Unknown variable name */
1308 }
1309 /* NB this stops us passing certs around in variable. Might
1310 want to do that in future */
1311 if (vp->type != vtype_cert)
1312 {
1313 expand_string_message =
1314 string_sprintf("\"%s\" is not a certificate", certvar);
1315 return NULL; /* Unknown variable name */
1316 }
1317 if (!*(void **)vp->value)
1318 return NULL;
1319
1320 if (*field >= '0' && *field <= '9')
1321 return tls_cert_ext_by_oid(*(void **)vp->value, field, 0);
1322
1323 for(cp = certfields;
1324 cp < certfields + nelem(certfields);
1325 cp++)
1326 if (Ustrncmp(cp->name, field, cp->namelen) == 0)
1327 {
1328 uschar * modifier = *(field += cp->namelen) == ','
1329 ? ++field : NULL;
1330 return (*cp->getfn)( *(void **)vp->value, modifier );
1331 }
1332
1333 expand_string_message =
1334 string_sprintf("bad field selector \"%s\" for certextract", field);
1335 return NULL;
1336 }
1337 #endif /*SUPPORT_TLS*/
1338
1339 /*************************************************
1340 * Extract a substring from a string *
1341 *************************************************/
1342
1343 /* Perform the ${substr or ${length expansion operations.
1344
1345 Arguments:
1346 subject the input string
1347 value1 the offset from the start of the input string to the start of
1348 the output string; if negative, count from the right.
1349 value2 the length of the output string, or negative (-1) for unset
1350 if value1 is positive, unset means "all after"
1351 if value1 is negative, unset means "all before"
1352 len set to the length of the returned string
1353
1354 Returns: pointer to the output string, or NULL if there is an error
1355 */
1356
1357 static uschar *
1358 extract_substr(uschar *subject, int value1, int value2, int *len)
1359 {
1360 int sublen = Ustrlen(subject);
1361
1362 if (value1 < 0) /* count from right */
1363 {
1364 value1 += sublen;
1365
1366 /* If the position is before the start, skip to the start, and adjust the
1367 length. If the length ends up negative, the substring is null because nothing
1368 can precede. This falls out naturally when the length is unset, meaning "all
1369 to the left". */
1370
1371 if (value1 < 0)
1372 {
1373 value2 += value1;
1374 if (value2 < 0) value2 = 0;
1375 value1 = 0;
1376 }
1377
1378 /* Otherwise an unset length => characters before value1 */
1379
1380 else if (value2 < 0)
1381 {
1382 value2 = value1;
1383 value1 = 0;
1384 }
1385 }
1386
1387 /* For a non-negative offset, if the starting position is past the end of the
1388 string, the result will be the null string. Otherwise, an unset length means
1389 "rest"; just set it to the maximum - it will be cut down below if necessary. */
1390
1391 else
1392 {
1393 if (value1 > sublen)
1394 {
1395 value1 = sublen;
1396 value2 = 0;
1397 }
1398 else if (value2 < 0) value2 = sublen;
1399 }
1400
1401 /* Cut the length down to the maximum possible for the offset value, and get
1402 the required characters. */
1403
1404 if (value1 + value2 > sublen) value2 = sublen - value1;
1405 *len = value2;
1406 return subject + value1;
1407 }
1408
1409
1410
1411
1412 /*************************************************
1413 * Old-style hash of a string *
1414 *************************************************/
1415
1416 /* Perform the ${hash expansion operation.
1417
1418 Arguments:
1419 subject the input string (an expanded substring)
1420 value1 the length of the output string; if greater or equal to the
1421 length of the input string, the input string is returned
1422 value2 the number of hash characters to use, or 26 if negative
1423 len set to the length of the returned string
1424
1425 Returns: pointer to the output string, or NULL if there is an error
1426 */
1427
1428 static uschar *
1429 compute_hash(uschar *subject, int value1, int value2, int *len)
1430 {
1431 int sublen = Ustrlen(subject);
1432
1433 if (value2 < 0) value2 = 26;
1434 else if (value2 > Ustrlen(hashcodes))
1435 {
1436 expand_string_message =
1437 string_sprintf("hash count \"%d\" too big", value2);
1438 return NULL;
1439 }
1440
1441 /* Calculate the hash text. We know it is shorter than the original string, so
1442 can safely place it in subject[] (we know that subject is always itself an
1443 expanded substring). */
1444
1445 if (value1 < sublen)
1446 {
1447 int c;
1448 int i = 0;
1449 int j = value1;
1450 while ((c = (subject[j])) != 0)
1451 {
1452 int shift = (c + j++) & 7;
1453 subject[i] ^= (c << shift) | (c >> (8-shift));
1454 if (++i >= value1) i = 0;
1455 }
1456 for (i = 0; i < value1; i++)
1457 subject[i] = hashcodes[(subject[i]) % value2];
1458 }
1459 else value1 = sublen;
1460
1461 *len = value1;
1462 return subject;
1463 }
1464
1465
1466
1467
1468 /*************************************************
1469 * Numeric hash of a string *
1470 *************************************************/
1471
1472 /* Perform the ${nhash expansion operation. The first characters of the
1473 string are treated as most important, and get the highest prime numbers.
1474
1475 Arguments:
1476 subject the input string
1477 value1 the maximum value of the first part of the result
1478 value2 the maximum value of the second part of the result,
1479 or negative to produce only a one-part result
1480 len set to the length of the returned string
1481
1482 Returns: pointer to the output string, or NULL if there is an error.
1483 */
1484
1485 static uschar *
1486 compute_nhash (uschar *subject, int value1, int value2, int *len)
1487 {
1488 uschar *s = subject;
1489 int i = 0;
1490 unsigned long int total = 0; /* no overflow */
1491
1492 while (*s != 0)
1493 {
1494 if (i == 0) i = nelem(prime) - 1;
1495 total += prime[i--] * (unsigned int)(*s++);
1496 }
1497
1498 /* If value2 is unset, just compute one number */
1499
1500 if (value2 < 0)
1501 s = string_sprintf("%lu", total % value1);
1502
1503 /* Otherwise do a div/mod hash */
1504
1505 else
1506 {
1507 total = total % (value1 * value2);
1508 s = string_sprintf("%lu/%lu", total/value2, total % value2);
1509 }
1510
1511 *len = Ustrlen(s);
1512 return s;
1513 }
1514
1515
1516
1517
1518
1519 /*************************************************
1520 * Find the value of a header or headers *
1521 *************************************************/
1522
1523 /* Multiple instances of the same header get concatenated, and this function
1524 can also return a concatenation of all the header lines. When concatenating
1525 specific headers that contain lists of addresses, a comma is inserted between
1526 them. Otherwise we use a straight concatenation. Because some messages can have
1527 pathologically large number of lines, there is a limit on the length that is
1528 returned. Also, to avoid massive store use which would result from using
1529 string_cat() as it copies and extends strings, we do a preliminary pass to find
1530 out exactly how much store will be needed. On "normal" messages this will be
1531 pretty trivial.
1532
1533 Arguments:
1534 name the name of the header, without the leading $header_ or $h_,
1535 or NULL if a concatenation of all headers is required
1536 newsize return the size of memory block that was obtained; may be NULL
1537 if exists_only is TRUE
1538 flags FH_EXISTS_ONLY
1539 set if called from a def: test; don't need to build a string;
1540 just return a string that is not "" and not "0" if the header
1541 exists
1542 FH_WANT_RAW
1543 set if called for $rh_ or $rheader_ variables; no processing,
1544 other than concatenating, will be done on the header. Also used
1545 for $message_headers_raw.
1546 FH_WANT_LIST
1547 Double colon chars in the content, and replace newline with
1548 colon between each element when concatenating; returning a
1549 colon-sep list (elements might contain newlines)
1550 charset name of charset to translate MIME words to; used only if
1551 want_raw is false; if NULL, no translation is done (this is
1552 used for $bh_ and $bheader_)
1553
1554 Returns: NULL if the header does not exist, else a pointer to a new
1555 store block
1556 */
1557
1558 static uschar *
1559 find_header(uschar *name, int *newsize, unsigned flags, uschar *charset)
1560 {
1561 BOOL found = !name;
1562 int len = name ? Ustrlen(name) : 0;
1563 BOOL comma = FALSE;
1564 header_line * h;
1565 gstring * g = NULL;
1566
1567 for (h = header_list; h; h = h->next)
1568 if (h->type != htype_old && h->text) /* NULL => Received: placeholder */
1569 if (!name || (len <= h->slen && strncmpic(name, h->text, len) == 0))
1570 {
1571 uschar * s, * t;
1572 size_t inc;
1573
1574 if (flags & FH_EXISTS_ONLY)
1575 return US"1"; /* don't need actual string */
1576
1577 found = TRUE;
1578 s = h->text + len; /* text to insert */
1579 if (!(flags & FH_WANT_RAW)) /* unless wanted raw, */
1580 while (isspace(*s)) s++; /* remove leading white space */
1581 t = h->text + h->slen; /* end-point */
1582
1583 /* Unless wanted raw, remove trailing whitespace, including the
1584 newline. */
1585
1586 if (flags & FH_WANT_LIST)
1587 while (t > s && t[-1] == '\n') t--;
1588 else if (!(flags & FH_WANT_RAW))
1589 {
1590 while (t > s && isspace(t[-1])) t--;
1591
1592 /* Set comma if handling a single header and it's one of those
1593 that contains an address list, except when asked for raw headers. Only
1594 need to do this once. */
1595
1596 if (name && !comma && Ustrchr("BCFRST", h->type)) comma = TRUE;
1597 }
1598
1599 /* Trim the header roughly if we're approaching limits */
1600 inc = t - s;
1601 if ((g ? g->ptr : 0) + inc > header_insert_maxlen)
1602 inc = header_insert_maxlen - (g ? g->ptr : 0);
1603
1604 /* For raw just copy the data; for a list, add the data as a colon-sep
1605 list-element; for comma-list add as an unchecked comma,newline sep
1606 list-elemment; for other nonraw add as an unchecked newline-sep list (we
1607 stripped trailing WS above including the newline). We ignore the potential
1608 expansion due to colon-doubling, just leaving the loop if the limit is met
1609 or exceeded. */
1610
1611 if (flags & FH_WANT_LIST)
1612 g = string_append_listele_n(g, ':', s, (unsigned)inc);
1613 else if (flags & FH_WANT_RAW)
1614 {
1615 g = string_catn(g, s, (unsigned)inc);
1616 (void) string_from_gstring(g);
1617 }
1618 else if (inc > 0)
1619 if (comma)
1620 g = string_append2_listele_n(g, US",\n", s, (unsigned)inc);
1621 else
1622 g = string_append2_listele_n(g, US"\n", s, (unsigned)inc);
1623
1624 if (g && g->ptr >= header_insert_maxlen) break;
1625 }
1626
1627 if (!found) return NULL; /* No header found */
1628 if (!g) return US"";
1629
1630 /* That's all we do for raw header expansion. */
1631
1632 *newsize = g->size;
1633 if (flags & FH_WANT_RAW)
1634 return g->s;
1635
1636 /* Otherwise do RFC 2047 decoding, translating the charset if requested.
1637 The rfc2047_decode2() function can return an error with decoded data if the
1638 charset translation fails. If decoding fails, it returns NULL. */
1639
1640 else
1641 {
1642 uschar *decoded, *error;
1643
1644 decoded = rfc2047_decode2(g->s, check_rfc2047_length, charset, '?', NULL,
1645 newsize, &error);
1646 if (error)
1647 {
1648 DEBUG(D_any) debug_printf("*** error in RFC 2047 decoding: %s\n"
1649 " input was: %s\n", error, g->s);
1650 }
1651 return decoded ? decoded : g->s;
1652 }
1653 }
1654
1655
1656
1657
1658 /* Append a "local" element to an Authentication-Results: header
1659 if this was a non-smtp message.
1660 */
1661
1662 static gstring *
1663 authres_local(gstring * g, const uschar * sysname)
1664 {
1665 if (!authentication_local)
1666 return g;
1667 g = string_append(g, 3, US";\n\tlocal=pass (non-smtp, ", sysname, US")");
1668 if (authenticated_id) g = string_append(g, 2, " u=", authenticated_id);
1669 return g;
1670 }
1671
1672
1673 /* Append an "iprev" element to an Authentication-Results: header
1674 if we have attempted to get the calling host's name.
1675 */
1676
1677 static gstring *
1678 authres_iprev(gstring * g)
1679 {
1680 if (sender_host_name)
1681 return string_append(g, sender_host_address ? 5 : 3,
1682 US";\n\tiprev=pass (", sender_host_name, US")",
1683 US" smtp.client-ip=", sender_host_address);
1684 if (host_lookup_deferred)
1685 return string_catn(g, US";\n\tiprev=temperror", 19);
1686 if (host_lookup_failed)
1687 return string_catn(g, US";\n\tiprev=fail", 13);
1688 return g;
1689 }
1690
1691
1692
1693 /*************************************************
1694 * Return list of recipients *
1695 *************************************************/
1696 /* A recipients list is available only during system message filtering,
1697 during ACL processing after DATA, and while expanding pipe commands
1698 generated from a system filter, but not elsewhere. */
1699
1700 static uschar *
1701 fn_recipients(void)
1702 {
1703 uschar * s;
1704 gstring * g = NULL;
1705 int i;
1706
1707 if (!enable_dollar_recipients) return NULL;
1708
1709 for (i = 0; i < recipients_count; i++)
1710 {
1711 s = recipients_list[i].address;
1712 g = string_append2_listele_n(g, US", ", s, Ustrlen(s));
1713 }
1714 return g ? g->s : NULL;
1715 }
1716
1717
1718 /*************************************************
1719 * Find value of a variable *
1720 *************************************************/
1721
1722 /* The table of variables is kept in alphabetic order, so we can search it
1723 using a binary chop. The "choplen" variable is nothing to do with the binary
1724 chop.
1725
1726 Arguments:
1727 name the name of the variable being sought
1728 exists_only TRUE if this is a def: test; passed on to find_header()
1729 skipping TRUE => skip any processing evaluation; this is not the same as
1730 exists_only because def: may test for values that are first
1731 evaluated here
1732 newsize pointer to an int which is initially zero; if the answer is in
1733 a new memory buffer, *newsize is set to its size
1734
1735 Returns: NULL if the variable does not exist, or
1736 a pointer to the variable's contents, or
1737 something non-NULL if exists_only is TRUE
1738 */
1739
1740 static uschar *
1741 find_variable(uschar *name, BOOL exists_only, BOOL skipping, int *newsize)
1742 {
1743 var_entry * vp;
1744 uschar *s, *domain;
1745 uschar **ss;
1746 void * val;
1747
1748 /* Handle ACL variables, whose names are of the form acl_cxxx or acl_mxxx.
1749 Originally, xxx had to be a number in the range 0-9 (later 0-19), but from
1750 release 4.64 onwards arbitrary names are permitted, as long as the first 5
1751 characters are acl_c or acl_m and the sixth is either a digit or an underscore
1752 (this gave backwards compatibility at the changeover). There may be built-in
1753 variables whose names start acl_ but they should never start in this way. This
1754 slightly messy specification is a consequence of the history, needless to say.
1755
1756 If an ACL variable does not exist, treat it as empty, unless strict_acl_vars is
1757 set, in which case give an error. */
1758
1759 if ((Ustrncmp(name, "acl_c", 5) == 0 || Ustrncmp(name, "acl_m", 5) == 0) &&
1760 !isalpha(name[5]))
1761 {
1762 tree_node *node =
1763 tree_search((name[4] == 'c')? acl_var_c : acl_var_m, name + 4);
1764 return node ? node->data.ptr : strict_acl_vars ? NULL : US"";
1765 }
1766
1767 /* Handle $auth<n> variables. */
1768
1769 if (Ustrncmp(name, "auth", 4) == 0)
1770 {
1771 uschar *endptr;
1772 int n = Ustrtoul(name + 4, &endptr, 10);
1773 if (*endptr == 0 && n != 0 && n <= AUTH_VARS)
1774 return !auth_vars[n-1] ? US"" : auth_vars[n-1];
1775 }
1776 else if (Ustrncmp(name, "regex", 5) == 0)
1777 {
1778 uschar *endptr;
1779 int n = Ustrtoul(name + 5, &endptr, 10);
1780 if (*endptr == 0 && n != 0 && n <= REGEX_VARS)
1781 return !regex_vars[n-1] ? US"" : regex_vars[n-1];
1782 }
1783
1784 /* For all other variables, search the table */
1785
1786 if (!(vp = find_var_ent(name)))
1787 return NULL; /* Unknown variable name */
1788
1789 /* Found an existing variable. If in skipping state, the value isn't needed,
1790 and we want to avoid processing (such as looking up the host name). */
1791
1792 if (skipping)
1793 return US"";
1794
1795 val = vp->value;
1796 switch (vp->type)
1797 {
1798 case vtype_filter_int:
1799 if (!filter_running) return NULL;
1800 /* Fall through */
1801 /* VVVVVVVVVVVV */
1802 case vtype_int:
1803 sprintf(CS var_buffer, "%d", *(int *)(val)); /* Integer */
1804 return var_buffer;
1805
1806 case vtype_ino:
1807 sprintf(CS var_buffer, "%ld", (long int)(*(ino_t *)(val))); /* Inode */
1808 return var_buffer;
1809
1810 case vtype_gid:
1811 sprintf(CS var_buffer, "%ld", (long int)(*(gid_t *)(val))); /* gid */
1812 return var_buffer;
1813
1814 case vtype_uid:
1815 sprintf(CS var_buffer, "%ld", (long int)(*(uid_t *)(val))); /* uid */
1816 return var_buffer;
1817
1818 case vtype_bool:
1819 sprintf(CS var_buffer, "%s", *(BOOL *)(val) ? "yes" : "no"); /* bool */
1820 return var_buffer;
1821
1822 case vtype_stringptr: /* Pointer to string */
1823 return (s = *((uschar **)(val))) ? s : US"";
1824
1825 case vtype_pid:
1826 sprintf(CS var_buffer, "%d", (int)getpid()); /* pid */
1827 return var_buffer;
1828
1829 case vtype_load_avg:
1830 sprintf(CS var_buffer, "%d", OS_GETLOADAVG()); /* load_average */
1831 return var_buffer;
1832
1833 case vtype_host_lookup: /* Lookup if not done so */
1834 if ( !sender_host_name && sender_host_address
1835 && !host_lookup_failed && host_name_lookup() == OK)
1836 host_build_sender_fullhost();
1837 return sender_host_name ? sender_host_name : US"";
1838
1839 case vtype_localpart: /* Get local part from address */
1840 s = *((uschar **)(val));
1841 if (s == NULL) return US"";
1842 domain = Ustrrchr(s, '@');
1843 if (domain == NULL) return s;
1844 if (domain - s > sizeof(var_buffer) - 1)
1845 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "local part longer than " SIZE_T_FMT
1846 " in string expansion", sizeof(var_buffer));
1847 Ustrncpy(var_buffer, s, domain - s);
1848 var_buffer[domain - s] = 0;
1849 return var_buffer;
1850
1851 case vtype_domain: /* Get domain from address */
1852 s = *((uschar **)(val));
1853 if (s == NULL) return US"";
1854 domain = Ustrrchr(s, '@');
1855 return (domain == NULL)? US"" : domain + 1;
1856
1857 case vtype_msgheaders:
1858 return find_header(NULL, newsize, exists_only ? FH_EXISTS_ONLY : 0, NULL);
1859
1860 case vtype_msgheaders_raw:
1861 return find_header(NULL, newsize,
1862 exists_only ? FH_EXISTS_ONLY|FH_WANT_RAW : FH_WANT_RAW, NULL);
1863
1864 case vtype_msgbody: /* Pointer to msgbody string */
1865 case vtype_msgbody_end: /* Ditto, the end of the msg */
1866 ss = (uschar **)(val);
1867 if (!*ss && deliver_datafile >= 0) /* Read body when needed */
1868 {
1869 uschar *body;
1870 off_t start_offset = SPOOL_DATA_START_OFFSET;
1871 int len = message_body_visible;
1872 if (len > message_size) len = message_size;
1873 *ss = body = store_malloc(len+1);
1874 body[0] = 0;
1875 if (vp->type == vtype_msgbody_end)
1876 {
1877 struct stat statbuf;
1878 if (fstat(deliver_datafile, &statbuf) == 0)
1879 {
1880 start_offset = statbuf.st_size - len;
1881 if (start_offset < SPOOL_DATA_START_OFFSET)
1882 start_offset = SPOOL_DATA_START_OFFSET;
1883 }
1884 }
1885 if (lseek(deliver_datafile, start_offset, SEEK_SET) < 0)
1886 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "deliver_datafile lseek: %s",
1887 strerror(errno));
1888 len = read(deliver_datafile, body, len);
1889 if (len > 0)
1890 {
1891 body[len] = 0;
1892 if (message_body_newlines) /* Separate loops for efficiency */
1893 while (len > 0)
1894 { if (body[--len] == 0) body[len] = ' '; }
1895 else
1896 while (len > 0)
1897 { if (body[--len] == '\n' || body[len] == 0) body[len] = ' '; }
1898 }
1899 }
1900 return *ss ? *ss : US"";
1901
1902 case vtype_todbsdin: /* BSD inbox time of day */
1903 return tod_stamp(tod_bsdin);
1904
1905 case vtype_tode: /* Unix epoch time of day */
1906 return tod_stamp(tod_epoch);
1907
1908 case vtype_todel: /* Unix epoch/usec time of day */
1909 return tod_stamp(tod_epoch_l);
1910
1911 case vtype_todf: /* Full time of day */
1912 return tod_stamp(tod_full);
1913
1914 case vtype_todl: /* Log format time of day */
1915 return tod_stamp(tod_log_bare); /* (without timezone) */
1916
1917 case vtype_todzone: /* Time zone offset only */
1918 return tod_stamp(tod_zone);
1919
1920 case vtype_todzulu: /* Zulu time */
1921 return tod_stamp(tod_zulu);
1922
1923 case vtype_todlf: /* Log file datestamp tod */
1924 return tod_stamp(tod_log_datestamp_daily);
1925
1926 case vtype_reply: /* Get reply address */
1927 s = find_header(US"reply-to:", newsize,
1928 exists_only ? FH_EXISTS_ONLY|FH_WANT_RAW : FH_WANT_RAW,
1929 headers_charset);
1930 if (s) while (isspace(*s)) s++;
1931 if (!s || !*s)
1932 {
1933 *newsize = 0; /* For the *s==0 case */
1934 s = find_header(US"from:", newsize,
1935 exists_only ? FH_EXISTS_ONLY|FH_WANT_RAW : FH_WANT_RAW,
1936 headers_charset);
1937 }
1938 if (s)
1939 {
1940 uschar *t;
1941 while (isspace(*s)) s++;
1942 for (t = s; *t != 0; t++) if (*t == '\n') *t = ' ';
1943 while (t > s && isspace(t[-1])) t--;
1944 *t = 0;
1945 }
1946 return s ? s : US"";
1947
1948 case vtype_string_func:
1949 {
1950 uschar * (*fn)() = val;
1951 return fn();
1952 }
1953
1954 case vtype_pspace:
1955 {
1956 int inodes;
1957 sprintf(CS var_buffer, "%d",
1958 receive_statvfs(val == (void *)TRUE, &inodes));
1959 }
1960 return var_buffer;
1961
1962 case vtype_pinodes:
1963 {
1964 int inodes;
1965 (void) receive_statvfs(val == (void *)TRUE, &inodes);
1966 sprintf(CS var_buffer, "%d", inodes);
1967 }
1968 return var_buffer;
1969
1970 case vtype_cert:
1971 return *(void **)val ? US"<cert>" : US"";
1972
1973 #ifndef DISABLE_DKIM
1974 case vtype_dkim:
1975 return dkim_exim_expand_query((int)(long)val);
1976 #endif
1977
1978 }
1979
1980 return NULL; /* Unknown variable. Silences static checkers. */
1981 }
1982
1983
1984
1985
1986 void
1987 modify_variable(uschar *name, void * value)
1988 {
1989 var_entry * vp;
1990 if ((vp = find_var_ent(name))) vp->value = value;
1991 return; /* Unknown variable name, fail silently */
1992 }
1993
1994
1995
1996
1997
1998
1999 /*************************************************
2000 * Read and expand substrings *
2001 *************************************************/
2002
2003 /* This function is called to read and expand argument substrings for various
2004 expansion items. Some have a minimum requirement that is less than the maximum;
2005 in these cases, the first non-present one is set to NULL.
2006
2007 Arguments:
2008 sub points to vector of pointers to set
2009 n maximum number of substrings
2010 m minimum required
2011 sptr points to current string pointer
2012 skipping the skipping flag
2013 check_end if TRUE, check for final '}'
2014 name name of item, for error message
2015 resetok if not NULL, pointer to flag - write FALSE if unsafe to reset
2016 the store.
2017
2018 Returns: 0 OK; string pointer updated
2019 1 curly bracketing error (too few arguments)
2020 2 too many arguments (only if check_end is set); message set
2021 3 other error (expansion failure)
2022 */
2023
2024 static int
2025 read_subs(uschar **sub, int n, int m, const uschar **sptr, BOOL skipping,
2026 BOOL check_end, uschar *name, BOOL *resetok)
2027 {
2028 int i;
2029 const uschar *s = *sptr;
2030
2031 while (isspace(*s)) s++;
2032 for (i = 0; i < n; i++)
2033 {
2034 if (*s != '{')
2035 {
2036 if (i < m)
2037 {
2038 expand_string_message = string_sprintf("Not enough arguments for '%s' "
2039 "(min is %d)", name, m);
2040 return 1;
2041 }
2042 sub[i] = NULL;
2043 break;
2044 }
2045 if (!(sub[i] = expand_string_internal(s+1, TRUE, &s, skipping, TRUE, resetok)))
2046 return 3;
2047 if (*s++ != '}') return 1;
2048 while (isspace(*s)) s++;
2049 }
2050 if (check_end && *s++ != '}')
2051 {
2052 if (s[-1] == '{')
2053 {
2054 expand_string_message = string_sprintf("Too many arguments for '%s' "
2055 "(max is %d)", name, n);
2056 return 2;
2057 }
2058 expand_string_message = string_sprintf("missing '}' after '%s'", name);
2059 return 1;
2060 }
2061
2062 *sptr = s;
2063 return 0;
2064 }
2065
2066
2067
2068
2069 /*************************************************
2070 * Elaborate message for bad variable *
2071 *************************************************/
2072
2073 /* For the "unknown variable" message, take a look at the variable's name, and
2074 give additional information about possible ACL variables. The extra information
2075 is added on to expand_string_message.
2076
2077 Argument: the name of the variable
2078 Returns: nothing
2079 */
2080
2081 static void
2082 check_variable_error_message(uschar *name)
2083 {
2084 if (Ustrncmp(name, "acl_", 4) == 0)
2085 expand_string_message = string_sprintf("%s (%s)", expand_string_message,
2086 (name[4] == 'c' || name[4] == 'm')?
2087 (isalpha(name[5])?
2088 US"6th character of a user-defined ACL variable must be a digit or underscore" :
2089 US"strict_acl_vars is set" /* Syntax is OK, it has to be this */
2090 ) :
2091 US"user-defined ACL variables must start acl_c or acl_m");
2092 }
2093
2094
2095
2096 /*
2097 Load args from sub array to globals, and call acl_check().
2098 Sub array will be corrupted on return.
2099
2100 Returns: OK access is granted by an ACCEPT verb
2101 DISCARD access is (apparently) granted by a DISCARD verb
2102 FAIL access is denied
2103 FAIL_DROP access is denied; drop the connection
2104 DEFER can't tell at the moment
2105 ERROR disaster
2106 */
2107 static int
2108 eval_acl(uschar ** sub, int nsub, uschar ** user_msgp)
2109 {
2110 int i;
2111 int sav_narg = acl_narg;
2112 int ret;
2113 uschar * dummy_logmsg;
2114 extern int acl_where;
2115
2116 if(--nsub > nelem(acl_arg)) nsub = nelem(acl_arg);
2117 for (i = 0; i < nsub && sub[i+1]; i++)
2118 {
2119 uschar * tmp = acl_arg[i];
2120 acl_arg[i] = sub[i+1]; /* place callers args in the globals */
2121 sub[i+1] = tmp; /* stash the old args using our caller's storage */
2122 }
2123 acl_narg = i;
2124 while (i < nsub)
2125 {
2126 sub[i+1] = acl_arg[i];
2127 acl_arg[i++] = NULL;
2128 }
2129
2130 DEBUG(D_expand)
2131 debug_printf_indent("expanding: acl: %s arg: %s%s\n",
2132 sub[0],
2133 acl_narg>0 ? acl_arg[0] : US"<none>",
2134 acl_narg>1 ? " +more" : "");
2135
2136 ret = acl_eval(acl_where, sub[0], user_msgp, &dummy_logmsg);
2137
2138 for (i = 0; i < nsub; i++)
2139 acl_arg[i] = sub[i+1]; /* restore old args */
2140 acl_narg = sav_narg;
2141
2142 return ret;
2143 }
2144
2145
2146
2147
2148 /*************************************************
2149 * Read and evaluate a condition *
2150 *************************************************/
2151
2152 /*
2153 Arguments:
2154 s points to the start of the condition text
2155 resetok points to a BOOL which is written false if it is unsafe to
2156 free memory. Certain condition types (acl) may have side-effect
2157 allocation which must be preserved.
2158 yield points to a BOOL to hold the result of the condition test;
2159 if NULL, we are just reading through a condition that is
2160 part of an "or" combination to check syntax, or in a state
2161 where the answer isn't required
2162
2163 Returns: a pointer to the first character after the condition, or
2164 NULL after an error
2165 */
2166
2167 static const uschar *
2168 eval_condition(const uschar *s, BOOL *resetok, BOOL *yield)
2169 {
2170 BOOL testfor = TRUE;
2171 BOOL tempcond, combined_cond;
2172 BOOL *subcondptr;
2173 BOOL sub2_honour_dollar = TRUE;
2174 int i, rc, cond_type, roffset;
2175 int_eximarith_t num[2];
2176 struct stat statbuf;
2177 uschar name[256];
2178 const uschar *sub[10];
2179
2180 const pcre *re;
2181 const uschar *rerror;
2182
2183 for (;;)
2184 {
2185 while (isspace(*s)) s++;
2186 if (*s == '!') { testfor = !testfor; s++; } else break;
2187 }
2188
2189 /* Numeric comparisons are symbolic */
2190
2191 if (*s == '=' || *s == '>' || *s == '<')
2192 {
2193 int p = 0;
2194 name[p++] = *s++;
2195 if (*s == '=')
2196 {
2197 name[p++] = '=';
2198 s++;
2199 }
2200 name[p] = 0;
2201 }
2202
2203 /* All other conditions are named */
2204
2205 else s = read_name(name, 256, s, US"_");
2206
2207 /* If we haven't read a name, it means some non-alpha character is first. */
2208
2209 if (name[0] == 0)
2210 {
2211 expand_string_message = string_sprintf("condition name expected, "
2212 "but found \"%.16s\"", s);
2213 return NULL;
2214 }
2215
2216 /* Find which condition we are dealing with, and switch on it */
2217
2218 cond_type = chop_match(name, cond_table, nelem(cond_table));
2219 switch(cond_type)
2220 {
2221 /* def: tests for a non-empty variable, or for the existence of a header. If
2222 yield == NULL we are in a skipping state, and don't care about the answer. */
2223
2224 case ECOND_DEF:
2225 {
2226 uschar * t;
2227
2228 if (*s != ':')
2229 {
2230 expand_string_message = US"\":\" expected after \"def\"";
2231 return NULL;
2232 }
2233
2234 s = read_name(name, 256, s+1, US"_");
2235
2236 /* Test for a header's existence. If the name contains a closing brace
2237 character, this may be a user error where the terminating colon has been
2238 omitted. Set a flag to adjust a subsequent error message in this case. */
2239
2240 if ( ( *(t = name) == 'h'
2241 || (*t == 'r' || *t == 'l' || *t == 'b') && *++t == 'h'
2242 )
2243 && (*++t == '_' || Ustrncmp(t, "eader_", 6) == 0)
2244 )
2245 {
2246 s = read_header_name(name, 256, s);
2247 /* {-for-text-editors */
2248 if (Ustrchr(name, '}') != NULL) malformed_header = TRUE;
2249 if (yield) *yield =
2250 (find_header(name, NULL, FH_EXISTS_ONLY, NULL) != NULL) == testfor;
2251 }
2252
2253 /* Test for a variable's having a non-empty value. A non-existent variable
2254 causes an expansion failure. */
2255
2256 else
2257 {
2258 if (!(t = find_variable(name, TRUE, yield == NULL, NULL)))
2259 {
2260 expand_string_message = (name[0] == 0)?
2261 string_sprintf("variable name omitted after \"def:\"") :
2262 string_sprintf("unknown variable \"%s\" after \"def:\"", name);
2263 check_variable_error_message(name);
2264 return NULL;
2265 }
2266 if (yield) *yield = (t[0] != 0) == testfor;
2267 }
2268
2269 return s;
2270 }
2271
2272
2273 /* first_delivery tests for first delivery attempt */
2274
2275 case ECOND_FIRST_DELIVERY:
2276 if (yield != NULL) *yield = deliver_firsttime == testfor;
2277 return s;
2278
2279
2280 /* queue_running tests for any process started by a queue runner */
2281
2282 case ECOND_QUEUE_RUNNING:
2283 if (yield != NULL) *yield = (queue_run_pid != (pid_t)0) == testfor;
2284 return s;
2285
2286
2287 /* exists: tests for file existence
2288 isip: tests for any IP address
2289 isip4: tests for an IPv4 address
2290 isip6: tests for an IPv6 address
2291 pam: does PAM authentication
2292 radius: does RADIUS authentication
2293 ldapauth: does LDAP authentication
2294 pwcheck: does Cyrus SASL pwcheck authentication
2295 */
2296
2297 case ECOND_EXISTS:
2298 case ECOND_ISIP:
2299 case ECOND_ISIP4:
2300 case ECOND_ISIP6:
2301 case ECOND_PAM:
2302 case ECOND_RADIUS:
2303 case ECOND_LDAPAUTH:
2304 case ECOND_PWCHECK:
2305
2306 while (isspace(*s)) s++;
2307 if (*s != '{') goto COND_FAILED_CURLY_START; /* }-for-text-editors */
2308
2309 sub[0] = expand_string_internal(s+1, TRUE, &s, yield == NULL, TRUE, resetok);
2310 if (sub[0] == NULL) return NULL;
2311 /* {-for-text-editors */
2312 if (*s++ != '}') goto COND_FAILED_CURLY_END;
2313
2314 if (yield == NULL) return s; /* No need to run the test if skipping */
2315
2316 switch(cond_type)
2317 {
2318 case ECOND_EXISTS:
2319 if ((expand_forbid & RDO_EXISTS) != 0)
2320 {
2321 expand_string_message = US"File existence tests are not permitted";
2322 return NULL;
2323 }
2324 *yield = (Ustat(sub[0], &statbuf) == 0) == testfor;
2325 break;
2326
2327 case ECOND_ISIP:
2328 case ECOND_ISIP4:
2329 case ECOND_ISIP6:
2330 rc = string_is_ip_address(sub[0], NULL);
2331 *yield = ((cond_type == ECOND_ISIP)? (rc != 0) :
2332 (cond_type == ECOND_ISIP4)? (rc == 4) : (rc == 6)) == testfor;
2333 break;
2334
2335 /* Various authentication tests - all optionally compiled */
2336
2337 case ECOND_PAM:
2338 #ifdef SUPPORT_PAM
2339 rc = auth_call_pam(sub[0], &expand_string_message);
2340 goto END_AUTH;
2341 #else
2342 goto COND_FAILED_NOT_COMPILED;
2343 #endif /* SUPPORT_PAM */
2344
2345 case ECOND_RADIUS:
2346 #ifdef RADIUS_CONFIG_FILE
2347 rc = auth_call_radius(sub[0], &expand_string_message);
2348 goto END_AUTH;
2349 #else
2350 goto COND_FAILED_NOT_COMPILED;
2351 #endif /* RADIUS_CONFIG_FILE */
2352
2353 case ECOND_LDAPAUTH:
2354 #ifdef LOOKUP_LDAP
2355 {
2356 /* Just to keep the interface the same */
2357 BOOL do_cache;
2358 int old_pool = store_pool;
2359 store_pool = POOL_SEARCH;
2360 rc = eldapauth_find((void *)(-1), NULL, sub[0], Ustrlen(sub[0]), NULL,
2361 &expand_string_message, &do_cache);
2362 store_pool = old_pool;
2363 }
2364 goto END_AUTH;
2365 #else
2366 goto COND_FAILED_NOT_COMPILED;
2367 #endif /* LOOKUP_LDAP */
2368
2369 case ECOND_PWCHECK:
2370 #ifdef CYRUS_PWCHECK_SOCKET
2371 rc = auth_call_pwcheck(sub[0], &expand_string_message);
2372 goto END_AUTH;
2373 #else
2374 goto COND_FAILED_NOT_COMPILED;
2375 #endif /* CYRUS_PWCHECK_SOCKET */
2376
2377 #if defined(SUPPORT_PAM) || defined(RADIUS_CONFIG_FILE) || \
2378 defined(LOOKUP_LDAP) || defined(CYRUS_PWCHECK_SOCKET)
2379 END_AUTH:
2380 if (rc == ERROR || rc == DEFER) return NULL;
2381 *yield = (rc == OK) == testfor;
2382 #endif
2383 }
2384 return s;
2385
2386
2387 /* call ACL (in a conditional context). Accept true, deny false.
2388 Defer is a forced-fail. Anything set by message= goes to $value.
2389 Up to ten parameters are used; we use the braces round the name+args
2390 like the saslauthd condition does, to permit a variable number of args.
2391 See also the expansion-item version EITEM_ACL and the traditional
2392 acl modifier ACLC_ACL.
2393 Since the ACL may allocate new global variables, tell our caller to not
2394 reclaim memory.
2395 */
2396
2397 case ECOND_ACL:
2398 /* ${if acl {{name}{arg1}{arg2}...} {yes}{no}} */
2399 {
2400 uschar *sub[10];
2401 uschar *user_msg;
2402 BOOL cond = FALSE;
2403
2404 while (isspace(*s)) s++;
2405 if (*s++ != '{') goto COND_FAILED_CURLY_START; /*}*/
2406
2407 switch(read_subs(sub, nelem(sub), 1,
2408 &s, yield == NULL, TRUE, US"acl", resetok))
2409 {
2410 case 1: expand_string_message = US"too few arguments or bracketing "
2411 "error for acl";
2412 case 2:
2413 case 3: return NULL;
2414 }
2415
2416 if (yield != NULL)
2417 {
2418 *resetok = FALSE; /* eval_acl() might allocate; do not reclaim */
2419 switch(eval_acl(sub, nelem(sub), &user_msg))
2420 {
2421 case OK:
2422 cond = TRUE;
2423 case FAIL:
2424 lookup_value = NULL;
2425 if (user_msg)
2426 lookup_value = string_copy(user_msg);
2427 *yield = cond == testfor;
2428 break;
2429
2430 case DEFER:
2431 expand_string_forcedfail = TRUE;
2432 /*FALLTHROUGH*/
2433 default:
2434 expand_string_message = string_sprintf("error from acl \"%s\"", sub[0]);
2435 return NULL;
2436 }
2437 }
2438 return s;
2439 }
2440
2441
2442 /* saslauthd: does Cyrus saslauthd authentication. Four parameters are used:
2443
2444 ${if saslauthd {{username}{password}{service}{realm}} {yes}{no}}
2445
2446 However, the last two are optional. That is why the whole set is enclosed
2447 in their own set of braces. */
2448
2449 case ECOND_SASLAUTHD:
2450 #ifndef CYRUS_SASLAUTHD_SOCKET
2451 goto COND_FAILED_NOT_COMPILED;
2452 #else
2453 {
2454 uschar *sub[4];
2455 while (isspace(*s)) s++;
2456 if (*s++ != '{') goto COND_FAILED_CURLY_START; /* }-for-text-editors */
2457 switch(read_subs(sub, nelem(sub), 2, &s, yield == NULL, TRUE, US"saslauthd",
2458 resetok))
2459 {
2460 case 1: expand_string_message = US"too few arguments or bracketing "
2461 "error for saslauthd";
2462 case 2:
2463 case 3: return NULL;
2464 }
2465 if (sub[2] == NULL) sub[3] = NULL; /* realm if no service */
2466 if (yield != NULL)
2467 {
2468 int rc = auth_call_saslauthd(sub[0], sub[1], sub[2], sub[3],
2469 &expand_string_message);
2470 if (rc == ERROR || rc == DEFER) return NULL;
2471 *yield = (rc == OK) == testfor;
2472 }
2473 return s;
2474 }
2475 #endif /* CYRUS_SASLAUTHD_SOCKET */
2476
2477
2478 /* symbolic operators for numeric and string comparison, and a number of
2479 other operators, all requiring two arguments.
2480
2481 crypteq: encrypts plaintext and compares against an encrypted text,
2482 using crypt(), crypt16(), MD5 or SHA-1
2483 inlist/inlisti: checks if first argument is in the list of the second
2484 match: does a regular expression match and sets up the numerical
2485 variables if it succeeds
2486 match_address: matches in an address list
2487 match_domain: matches in a domain list
2488 match_ip: matches a host list that is restricted to IP addresses
2489 match_local_part: matches in a local part list
2490 */
2491
2492 case ECOND_MATCH_ADDRESS:
2493 case ECOND_MATCH_DOMAIN:
2494 case ECOND_MATCH_IP:
2495 case ECOND_MATCH_LOCAL_PART:
2496 #ifndef EXPAND_LISTMATCH_RHS
2497 sub2_honour_dollar = FALSE;
2498 #endif
2499 /* FALLTHROUGH */
2500
2501 case ECOND_CRYPTEQ:
2502 case ECOND_INLIST:
2503 case ECOND_INLISTI:
2504 case ECOND_MATCH:
2505
2506 case ECOND_NUM_L: /* Numerical comparisons */
2507 case ECOND_NUM_LE:
2508 case ECOND_NUM_E:
2509 case ECOND_NUM_EE:
2510 case ECOND_NUM_G:
2511 case ECOND_NUM_GE:
2512
2513 case ECOND_STR_LT: /* String comparisons */
2514 case ECOND_STR_LTI:
2515 case ECOND_STR_LE:
2516 case ECOND_STR_LEI:
2517 case ECOND_STR_EQ:
2518 case ECOND_STR_EQI:
2519 case ECOND_STR_GT:
2520 case ECOND_STR_GTI:
2521 case ECOND_STR_GE:
2522 case ECOND_STR_GEI:
2523
2524 for (i = 0; i < 2; i++)
2525 {
2526 /* Sometimes, we don't expand substrings; too many insecure configurations
2527 created using match_address{}{} and friends, where the second param
2528 includes information from untrustworthy sources. */
2529 BOOL honour_dollar = TRUE;
2530 if ((i > 0) && !sub2_honour_dollar)
2531 honour_dollar = FALSE;
2532
2533 while (isspace(*s)) s++;
2534 if (*s != '{')
2535 {
2536 if (i == 0) goto COND_FAILED_CURLY_START;
2537 expand_string_message = string_sprintf("missing 2nd string in {} "
2538 "after \"%s\"", name);
2539 return NULL;
2540 }
2541 if (!(sub[i] = expand_string_internal(s+1, TRUE, &s, yield == NULL,
2542 honour_dollar, resetok)))
2543 return NULL;
2544 DEBUG(D_expand) if (i == 1 && !sub2_honour_dollar && Ustrchr(sub[1], '$'))
2545 debug_printf_indent("WARNING: the second arg is NOT expanded,"
2546 " for security reasons\n");
2547 if (*s++ != '}') goto COND_FAILED_CURLY_END;
2548
2549 /* Convert to numerical if required; we know that the names of all the
2550 conditions that compare numbers do not start with a letter. This just saves
2551 checking for them individually. */
2552
2553 if (!isalpha(name[0]) && yield != NULL)
2554 if (sub[i][0] == 0)
2555 {
2556 num[i] = 0;
2557 DEBUG(D_expand)
2558 debug_printf_indent("empty string cast to zero for numerical comparison\n");
2559 }
2560 else
2561 {
2562 num[i] = expanded_string_integer(sub[i], FALSE);
2563 if (expand_string_message != NULL) return NULL;
2564 }
2565 }
2566
2567 /* Result not required */
2568
2569 if (yield == NULL) return s;
2570
2571 /* Do an appropriate comparison */
2572
2573 switch(cond_type)
2574 {
2575 case ECOND_NUM_E:
2576 case ECOND_NUM_EE:
2577 tempcond = (num[0] == num[1]);
2578 break;
2579
2580 case ECOND_NUM_G:
2581 tempcond = (num[0] > num[1]);
2582 break;
2583
2584 case ECOND_NUM_GE:
2585 tempcond = (num[0] >= num[1]);
2586 break;
2587
2588 case ECOND_NUM_L:
2589 tempcond = (num[0] < num[1]);
2590 break;
2591
2592 case ECOND_NUM_LE:
2593 tempcond = (num[0] <= num[1]);
2594 break;
2595
2596 case ECOND_STR_LT:
2597 tempcond = (Ustrcmp(sub[0], sub[1]) < 0);
2598 break;
2599
2600 case ECOND_STR_LTI:
2601 tempcond = (strcmpic(sub[0], sub[1]) < 0);
2602 break;
2603
2604 case ECOND_STR_LE:
2605 tempcond = (Ustrcmp(sub[0], sub[1]) <= 0);
2606 break;
2607
2608 case ECOND_STR_LEI:
2609 tempcond = (strcmpic(sub[0], sub[1]) <= 0);
2610 break;
2611
2612 case ECOND_STR_EQ:
2613 tempcond = (Ustrcmp(sub[0], sub[1]) == 0);
2614 break;
2615
2616 case ECOND_STR_EQI:
2617 tempcond = (strcmpic(sub[0], sub[1]) == 0);
2618 break;
2619
2620 case ECOND_STR_GT:
2621 tempcond = (Ustrcmp(sub[0], sub[1]) > 0);
2622 break;
2623
2624 case ECOND_STR_GTI:
2625 tempcond = (strcmpic(sub[0], sub[1]) > 0);
2626 break;
2627
2628 case ECOND_STR_GE:
2629 tempcond = (Ustrcmp(sub[0], sub[1]) >= 0);
2630 break;
2631
2632 case ECOND_STR_GEI:
2633 tempcond = (strcmpic(sub[0], sub[1]) >= 0);
2634 break;
2635
2636 case ECOND_MATCH: /* Regular expression match */
2637 re = pcre_compile(CS sub[1], PCRE_COPT, (const char **)&rerror, &roffset,
2638 NULL);
2639 if (re == NULL)
2640 {
2641 expand_string_message = string_sprintf("regular expression error in "
2642 "\"%s\": %s at offset %d", sub[1], rerror, roffset);
2643 return NULL;
2644 }
2645 tempcond = regex_match_and_setup(re, sub[0], 0, -1);
2646 break;
2647
2648 case ECOND_MATCH_ADDRESS: /* Match in an address list */
2649 rc = match_address_list(sub[0], TRUE, FALSE, &(sub[1]), NULL, -1, 0, NULL);
2650 goto MATCHED_SOMETHING;
2651
2652 case ECOND_MATCH_DOMAIN: /* Match in a domain list */
2653 rc = match_isinlist(sub[0], &(sub[1]), 0, &domainlist_anchor, NULL,
2654 MCL_DOMAIN + MCL_NOEXPAND, TRUE, NULL);
2655 goto MATCHED_SOMETHING;
2656
2657 case ECOND_MATCH_IP: /* Match IP address in a host list */
2658 if (sub[0][0] != 0 && string_is_ip_address(sub[0], NULL) == 0)
2659 {
2660 expand_string_message = string_sprintf("\"%s\" is not an IP address",
2661 sub[0]);
2662 return NULL;
2663 }
2664 else
2665 {
2666 unsigned int *nullcache = NULL;
2667 check_host_block cb;
2668
2669 cb.host_name = US"";
2670 cb.host_address = sub[0];
2671
2672 /* If the host address starts off ::ffff: it is an IPv6 address in
2673 IPv4-compatible mode. Find the IPv4 part for checking against IPv4
2674 addresses. */
2675
2676 cb.host_ipv4 = (Ustrncmp(cb.host_address, "::ffff:", 7) == 0)?
2677 cb.host_address + 7 : cb.host_address;
2678
2679 rc = match_check_list(
2680 &sub[1], /* the list */
2681 0, /* separator character */
2682 &hostlist_anchor, /* anchor pointer */
2683 &nullcache, /* cache pointer */
2684 check_host, /* function for testing */
2685 &cb, /* argument for function */
2686 MCL_HOST, /* type of check */
2687 sub[0], /* text for debugging */
2688 NULL); /* where to pass back data */
2689 }
2690 goto MATCHED_SOMETHING;
2691
2692 case ECOND_MATCH_LOCAL_PART:
2693 rc = match_isinlist(sub[0], &(sub[1]), 0, &localpartlist_anchor, NULL,
2694 MCL_LOCALPART + MCL_NOEXPAND, TRUE, NULL);
2695 /* Fall through */
2696 /* VVVVVVVVVVVV */
2697 MATCHED_SOMETHING:
2698 switch(rc)
2699 {
2700 case OK:
2701 tempcond = TRUE;
2702 break;
2703
2704 case FAIL:
2705 tempcond = FALSE;
2706 break;
2707
2708 case DEFER:
2709 expand_string_message = string_sprintf("unable to complete match "
2710 "against \"%s\": %s", sub[1], search_error_message);
2711 return NULL;
2712 }
2713
2714 break;
2715
2716 /* Various "encrypted" comparisons. If the second string starts with
2717 "{" then an encryption type is given. Default to crypt() or crypt16()
2718 (build-time choice). */
2719 /* }-for-text-editors */
2720
2721 case ECOND_CRYPTEQ:
2722 #ifndef SUPPORT_CRYPTEQ
2723 goto COND_FAILED_NOT_COMPILED;
2724 #else
2725 if (strncmpic(sub[1], US"{md5}", 5) == 0)
2726 {
2727 int sublen = Ustrlen(sub[1]+5);
2728 md5 base;
2729 uschar digest[16];
2730
2731 md5_start(&base);
2732 md5_end(&base, sub[0], Ustrlen(sub[0]), digest);
2733
2734 /* If the length that we are comparing against is 24, the MD5 digest
2735 is expressed as a base64 string. This is the way LDAP does it. However,
2736 some other software uses a straightforward hex representation. We assume
2737 this if the length is 32. Other lengths fail. */
2738
2739 if (sublen == 24)
2740 {
2741 uschar *coded = b64encode(digest, 16);
2742 DEBUG(D_auth) debug_printf("crypteq: using MD5+B64 hashing\n"
2743 " subject=%s\n crypted=%s\n", coded, sub[1]+5);
2744 tempcond = (Ustrcmp(coded, sub[1]+5) == 0);
2745 }
2746 else if (sublen == 32)
2747 {
2748 int i;
2749 uschar coded[36];
2750 for (i = 0; i < 16; i++) sprintf(CS (coded+2*i), "%02X", digest[i]);
2751 coded[32] = 0;
2752 DEBUG(D_auth) debug_printf("crypteq: using MD5+hex hashing\n"
2753 " subject=%s\n crypted=%s\n", coded, sub[1]+5);
2754 tempcond = (strcmpic(coded, sub[1]+5) == 0);
2755 }
2756 else
2757 {
2758 DEBUG(D_auth) debug_printf("crypteq: length for MD5 not 24 or 32: "
2759 "fail\n crypted=%s\n", sub[1]+5);
2760 tempcond = FALSE;
2761 }
2762 }
2763
2764 else if (strncmpic(sub[1], US"{sha1}", 6) == 0)
2765 {
2766 int sublen = Ustrlen(sub[1]+6);
2767 hctx h;
2768 uschar digest[20];
2769
2770 sha1_start(&h);
2771 sha1_end(&h, sub[0], Ustrlen(sub[0]), digest);
2772
2773 /* If the length that we are comparing against is 28, assume the SHA1
2774 digest is expressed as a base64 string. If the length is 40, assume a
2775 straightforward hex representation. Other lengths fail. */
2776
2777 if (sublen == 28)
2778 {
2779 uschar *coded = b64encode(digest, 20);
2780 DEBUG(D_auth) debug_printf("crypteq: using SHA1+B64 hashing\n"
2781 " subject=%s\n crypted=%s\n", coded, sub[1]+6);
2782 tempcond = (Ustrcmp(coded, sub[1]+6) == 0);
2783 }
2784 else if (sublen == 40)
2785 {
2786 int i;
2787 uschar coded[44];
2788 for (i = 0; i < 20; i++) sprintf(CS (coded+2*i), "%02X", digest[i]);
2789 coded[40] = 0;
2790 DEBUG(D_auth) debug_printf("crypteq: using SHA1+hex hashing\n"
2791 " subject=%s\n crypted=%s\n", coded, sub[1]+6);
2792 tempcond = (strcmpic(coded, sub[1]+6) == 0);
2793 }
2794 else
2795 {
2796 DEBUG(D_auth) debug_printf("crypteq: length for SHA-1 not 28 or 40: "
2797 "fail\n crypted=%s\n", sub[1]+6);
2798 tempcond = FALSE;
2799 }
2800 }
2801
2802 else /* {crypt} or {crypt16} and non-{ at start */
2803 /* }-for-text-editors */
2804 {
2805 int which = 0;
2806 uschar *coded;
2807
2808 if (strncmpic(sub[1], US"{crypt}", 7) == 0)
2809 {
2810 sub[1] += 7;
2811 which = 1;
2812 }
2813 else if (strncmpic(sub[1], US"{crypt16}", 9) == 0)
2814 {
2815 sub[1] += 9;
2816 which = 2;
2817 }
2818 else if (sub[1][0] == '{') /* }-for-text-editors */
2819 {
2820 expand_string_message = string_sprintf("unknown encryption mechanism "
2821 "in \"%s\"", sub[1]);
2822 return NULL;
2823 }
2824
2825 switch(which)
2826 {
2827 case 0: coded = US DEFAULT_CRYPT(CS sub[0], CS sub[1]); break;
2828 case 1: coded = US crypt(CS sub[0], CS sub[1]); break;
2829 default: coded = US crypt16(CS sub[0], CS sub[1]); break;
2830 }
2831
2832 #define STR(s) # s
2833 #define XSTR(s) STR(s)
2834 DEBUG(D_auth) debug_printf("crypteq: using %s()\n"
2835 " subject=%s\n crypted=%s\n",
2836 which == 0 ? XSTR(DEFAULT_CRYPT) : which == 1 ? "crypt" : "crypt16",
2837 coded, sub[1]);
2838 #undef STR
2839 #undef XSTR
2840
2841 /* If the encrypted string contains fewer than two characters (for the
2842 salt), force failure. Otherwise we get false positives: with an empty
2843 string the yield of crypt() is an empty string! */
2844
2845 if (coded)
2846 tempcond = Ustrlen(sub[1]) < 2 ? FALSE : Ustrcmp(coded, sub[1]) == 0;
2847 else if (errno == EINVAL)
2848 tempcond = FALSE;
2849 else
2850 {
2851 expand_string_message = string_sprintf("crypt error: %s\n",
2852 US strerror(errno));
2853 return NULL;
2854 }
2855 }
2856 break;
2857 #endif /* SUPPORT_CRYPTEQ */
2858
2859 case ECOND_INLIST:
2860 case ECOND_INLISTI:
2861 {
2862 const uschar * list = sub[1];
2863 int sep = 0;
2864 uschar *save_iterate_item = iterate_item;
2865 int (*compare)(const uschar *, const uschar *);
2866
2867 DEBUG(D_expand) debug_printf_indent("condition: %s item: %s\n", name, sub[0]);
2868
2869 tempcond = FALSE;
2870 compare = cond_type == ECOND_INLISTI
2871 ? strcmpic : (int (*)(const uschar *, const uschar *)) strcmp;
2872
2873 while ((iterate_item = string_nextinlist(&list, &sep, NULL, 0)))
2874 {
2875 DEBUG(D_expand) debug_printf_indent(" compare %s\n", iterate_item);
2876 if (compare(sub[0], iterate_item) == 0)
2877 {
2878 tempcond = TRUE;
2879 break;
2880 }
2881 }
2882 iterate_item = save_iterate_item;
2883 }
2884
2885 } /* Switch for comparison conditions */
2886
2887 *yield = tempcond == testfor;
2888 return s; /* End of comparison conditions */
2889
2890
2891 /* and/or: computes logical and/or of several conditions */
2892
2893 case ECOND_AND:
2894 case ECOND_OR:
2895 subcondptr = (yield == NULL)? NULL : &tempcond;
2896 combined_cond = (cond_type == ECOND_AND);
2897
2898 while (isspace(*s)) s++;
2899 if (*s++ != '{') goto COND_FAILED_CURLY_START; /* }-for-text-editors */
2900
2901 for (;;)
2902 {
2903 while (isspace(*s)) s++;
2904 /* {-for-text-editors */
2905 if (*s == '}') break;
2906 if (*s != '{') /* }-for-text-editors */
2907 {
2908 expand_string_message = string_sprintf("each subcondition "
2909 "inside an \"%s{...}\" condition must be in its own {}", name);
2910 return NULL;
2911 }
2912
2913 if (!(s = eval_condition(s+1, resetok, subcondptr)))
2914 {
2915 expand_string_message = string_sprintf("%s inside \"%s{...}\" condition",
2916 expand_string_message, name);
2917 return NULL;
2918 }
2919 while (isspace(*s)) s++;
2920
2921 /* {-for-text-editors */
2922 if (*s++ != '}')
2923 {
2924 /* {-for-text-editors */
2925 expand_string_message = string_sprintf("missing } at end of condition "
2926 "inside \"%s\" group", name);
2927 return NULL;
2928 }
2929
2930 if (yield != NULL)
2931 {
2932 if (cond_type == ECOND_AND)
2933 {
2934 combined_cond &= tempcond;
2935 if (!combined_cond) subcondptr = NULL; /* once false, don't */
2936 } /* evaluate any more */
2937 else
2938 {
2939 combined_cond |= tempcond;
2940 if (combined_cond) subcondptr = NULL; /* once true, don't */
2941 } /* evaluate any more */
2942 }
2943 }
2944
2945 if (yield != NULL) *yield = (combined_cond == testfor);
2946 return ++s;
2947
2948
2949 /* forall/forany: iterates a condition with different values */
2950
2951 case ECOND_FORALL:
2952 case ECOND_FORANY:
2953 {
2954 const uschar * list;
2955 int sep = 0;
2956 uschar *save_iterate_item = iterate_item;
2957
2958 DEBUG(D_expand) debug_printf_indent("condition: %s\n", name);
2959
2960 while (isspace(*s)) s++;
2961 if (*s++ != '{') goto COND_FAILED_CURLY_START; /* }-for-text-editors */
2962 sub[0] = expand_string_internal(s, TRUE, &s, (yield == NULL), TRUE, resetok);
2963 if (sub[0] == NULL) return NULL;
2964 /* {-for-text-editors */
2965 if (*s++ != '}') goto COND_FAILED_CURLY_END;
2966
2967 while (isspace(*s)) s++;
2968 if (*s++ != '{') goto COND_FAILED_CURLY_START; /* }-for-text-editors */
2969
2970 sub[1] = s;
2971
2972 /* Call eval_condition once, with result discarded (as if scanning a
2973 "false" part). This allows us to find the end of the condition, because if
2974 the list it empty, we won't actually evaluate the condition for real. */
2975
2976 if (!(s = eval_condition(sub[1], resetok, NULL)))
2977 {
2978 expand_string_message = string_sprintf("%s inside \"%s\" condition",
2979 expand_string_message, name);
2980 return NULL;
2981 }
2982 while (isspace(*s)) s++;
2983
2984 /* {-for-text-editors */
2985 if (*s++ != '}')
2986 {
2987 /* {-for-text-editors */
2988 expand_string_message = string_sprintf("missing } at end of condition "
2989 "inside \"%s\"", name);
2990 return NULL;
2991 }
2992
2993 if (yield != NULL) *yield = !testfor;
2994 list = sub[0];
2995 while ((iterate_item = string_nextinlist(&list, &sep, NULL, 0)) != NULL)
2996 {
2997 DEBUG(D_expand) debug_printf_indent("%s: $item = \"%s\"\n", name, iterate_item);
2998 if (!eval_condition(sub[1], resetok, &tempcond))
2999 {
3000 expand_string_message = string_sprintf("%s inside \"%s\" condition",
3001 expand_string_message, name);
3002 iterate_item = save_iterate_item;
3003 return NULL;
3004 }
3005 DEBUG(D_expand) debug_printf_indent("%s: condition evaluated to %s\n", name,
3006 tempcond? "true":"false");
3007
3008 if (yield != NULL) *yield = (tempcond == testfor);
3009 if (tempcond == (cond_type == ECOND_FORANY)) break;
3010 }
3011
3012 iterate_item = save_iterate_item;
3013 return s;
3014 }
3015
3016
3017 /* The bool{} expansion condition maps a string to boolean.
3018 The values supported should match those supported by the ACL condition
3019 (acl.c, ACLC_CONDITION) so that we keep to a minimum the different ideas
3020 of true/false. Note that Router "condition" rules have a different
3021 interpretation, where general data can be used and only a few values
3022 map to FALSE.
3023 Note that readconf.c boolean matching, for boolean configuration options,
3024 only matches true/yes/false/no.
3025 The bool_lax{} condition matches the Router logic, which is much more
3026 liberal. */
3027 case ECOND_BOOL:
3028 case ECOND_BOOL_LAX:
3029 {
3030 uschar *sub_arg[1];
3031 uschar *t, *t2;
3032 uschar *ourname;
3033 size_t len;
3034 BOOL boolvalue = FALSE;
3035 while (isspace(*s)) s++;
3036 if (*s != '{') goto COND_FAILED_CURLY_START; /* }-for-text-editors */
3037 ourname = cond_type == ECOND_BOOL_LAX ? US"bool_lax" : US"bool";
3038 switch(read_subs(sub_arg, 1, 1, &s, yield == NULL, FALSE, ourname, resetok))
3039 {
3040 case 1: expand_string_message = string_sprintf(
3041 "too few arguments or bracketing error for %s",
3042 ourname);
3043 /*FALLTHROUGH*/
3044 case 2:
3045 case 3: return NULL;
3046 }
3047 t = sub_arg[0];
3048 while (isspace(*t)) t++;
3049 len = Ustrlen(t);
3050 if (len)
3051 {
3052 /* trailing whitespace: seems like a good idea to ignore it too */
3053 t2 = t + len - 1;
3054 while (isspace(*t2)) t2--;
3055 if (t2 != (t + len))
3056 {
3057 *++t2 = '\0';
3058 len = t2 - t;
3059 }
3060 }
3061 DEBUG(D_expand)
3062 debug_printf_indent("considering %s: %s\n", ourname, len ? t : US"<empty>");
3063 /* logic for the lax case from expand_check_condition(), which also does
3064 expands, and the logic is both short and stable enough that there should
3065 be no maintenance burden from replicating it. */
3066 if (len == 0)
3067 boolvalue = FALSE;
3068 else if (*t == '-'
3069 ? Ustrspn(t+1, "0123456789") == len-1
3070 : Ustrspn(t, "0123456789") == len)
3071 {
3072 boolvalue = (Uatoi(t) == 0) ? FALSE : TRUE;
3073 /* expand_check_condition only does a literal string "0" check */
3074 if ((cond_type == ECOND_BOOL_LAX) && (len > 1))
3075 boolvalue = TRUE;
3076 }
3077 else if (strcmpic(t, US"true") == 0 || strcmpic(t, US"yes") == 0)
3078 boolvalue = TRUE;
3079 else if (strcmpic(t, US"false") == 0 || strcmpic(t, US"no") == 0)
3080 boolvalue = FALSE;
3081 else if (cond_type == ECOND_BOOL_LAX)
3082 boolvalue = TRUE;
3083 else
3084 {
3085 expand_string_message = string_sprintf("unrecognised boolean "
3086 "value \"%s\"", t);
3087 return NULL;
3088 }
3089 DEBUG(D_expand) debug_printf_indent("%s: condition evaluated to %s\n", ourname,
3090 boolvalue? "true":"false");
3091 if (yield != NULL) *yield = (boolvalue == testfor);
3092 return s;
3093 }
3094
3095 /* Unknown condition */
3096
3097 default:
3098 expand_string_message = string_sprintf("unknown condition \"%s\"", name);
3099 return NULL;
3100 } /* End switch on condition type */
3101
3102 /* Missing braces at start and end of data */
3103
3104 COND_FAILED_CURLY_START:
3105 expand_string_message = string_sprintf("missing { after \"%s\"", name);
3106 return NULL;
3107
3108 COND_FAILED_CURLY_END:
3109 expand_string_message = string_sprintf("missing } at end of \"%s\" condition",
3110 name);
3111 return NULL;
3112
3113 /* A condition requires code that is not compiled */
3114
3115 #if !defined(SUPPORT_PAM) || !defined(RADIUS_CONFIG_FILE) || \
3116 !defined(LOOKUP_LDAP) || !defined(CYRUS_PWCHECK_SOCKET) || \
3117 !defined(SUPPORT_CRYPTEQ) || !defined(CYRUS_SASLAUTHD_SOCKET)
3118 COND_FAILED_NOT_COMPILED:
3119 expand_string_message = string_sprintf("support for \"%s\" not compiled",
3120 name);
3121 return NULL;
3122 #endif
3123 }
3124
3125
3126
3127
3128 /*************************************************
3129 * Save numerical variables *
3130 *************************************************/
3131
3132 /* This function is called from items such as "if" that want to preserve and
3133 restore the numbered variables.
3134
3135 Arguments:
3136 save_expand_string points to an array of pointers to set
3137 save_expand_nlength points to an array of ints for the lengths
3138
3139 Returns: the value of expand max to save
3140 */
3141
3142 static int
3143 save_expand_strings(uschar **save_expand_nstring, int *save_expand_nlength)
3144 {
3145 int i;
3146 for (i = 0; i <= expand_nmax; i++)
3147 {
3148 save_expand_nstring[i] = expand_nstring[i];
3149 save_expand_nlength[i] = expand_nlength[i];
3150 }
3151 return expand_nmax;
3152 }
3153
3154
3155
3156 /*************************************************
3157 * Restore numerical variables *
3158 *************************************************/
3159
3160 /* This function restored saved values of numerical strings.
3161
3162 Arguments:
3163 save_expand_nmax the number of strings to restore
3164 save_expand_string points to an array of pointers
3165 save_expand_nlength points to an array of ints
3166
3167 Returns: nothing
3168 */
3169
3170 static void
3171 restore_expand_strings(int save_expand_nmax, uschar **save_expand_nstring,
3172 int *save_expand_nlength)
3173 {
3174 int i;
3175 expand_nmax = save_expand_nmax;
3176 for (i = 0; i <= expand_nmax; i++)
3177 {
3178 expand_nstring[i] = save_expand_nstring[i];
3179 expand_nlength[i] = save_expand_nlength[i];
3180 }
3181 }
3182
3183
3184
3185
3186
3187 /*************************************************
3188 * Handle yes/no substrings *
3189 *************************************************/
3190
3191 /* This function is used by ${if}, ${lookup} and ${extract} to handle the
3192 alternative substrings that depend on whether or not the condition was true,
3193 or the lookup or extraction succeeded. The substrings always have to be
3194 expanded, to check their syntax, but "skipping" is set when the result is not
3195 needed - this avoids unnecessary nested lookups.
3196
3197 Arguments:
3198 skipping TRUE if we were skipping when this item was reached
3199 yes TRUE if the first string is to be used, else use the second
3200 save_lookup a value to put back into lookup_value before the 2nd expansion
3201 sptr points to the input string pointer
3202 yieldptr points to the output growable-string pointer
3203 type "lookup", "if", "extract", "run", "env", "listextract" or
3204 "certextract" for error message
3205 resetok if not NULL, pointer to flag - write FALSE if unsafe to reset
3206 the store.
3207
3208 Returns: 0 OK; lookup_value has been reset to save_lookup
3209 1 expansion failed
3210 2 expansion failed because of bracketing error
3211 */
3212
3213 static int
3214 process_yesno(BOOL skipping, BOOL yes, uschar *save_lookup, const uschar **sptr,
3215 gstring ** yieldptr, uschar *type, BOOL *resetok)
3216 {
3217 int rc = 0;
3218 const uschar *s = *sptr; /* Local value */
3219 uschar *sub1, *sub2;
3220 const uschar * errwhere;
3221
3222 /* If there are no following strings, we substitute the contents of $value for
3223 lookups and for extractions in the success case. For the ${if item, the string
3224 "true" is substituted. In the fail case, nothing is substituted for all three
3225 items. */
3226
3227 while (isspace(*s)) s++;
3228 if (*s == '}')
3229 {
3230 if (type[0] == 'i')
3231 {
3232 if (yes && !skipping)
3233 *yieldptr = string_catn(*yieldptr, US"true", 4);
3234 }
3235 else
3236 {
3237 if (yes && lookup_value && !skipping)
3238 *yieldptr = string_cat(*yieldptr, lookup_value);
3239 lookup_value = save_lookup;
3240 }
3241 s++;
3242 goto RETURN;
3243 }
3244
3245 /* The first following string must be braced. */
3246
3247 if (*s++ != '{')
3248 {
3249 errwhere = US"'yes' part did not start with '{'";
3250 goto FAILED_CURLY;
3251 }
3252
3253 /* Expand the first substring. Forced failures are noticed only if we actually
3254 want this string. Set skipping in the call in the fail case (this will always
3255 be the case if we were already skipping). */
3256
3257 sub1 = expand_string_internal(s, TRUE, &s, !yes, TRUE, resetok);
3258 if (sub1 == NULL && (yes || !expand_string_forcedfail)) goto FAILED;
3259 expand_string_forcedfail = FALSE;
3260 if (*s++ != '}')
3261 {
3262 errwhere = US"'yes' part did not end with '}'";
3263 goto FAILED_CURLY;
3264 }
3265
3266 /* If we want the first string, add it to the output */
3267
3268 if (yes)
3269 *yieldptr = string_cat(*yieldptr, sub1);
3270
3271 /* If this is called from a lookup/env or a (cert)extract, we want to restore
3272 $value to what it was at the start of the item, so that it has this value
3273 during the second string expansion. For the call from "if" or "run" to this
3274 function, save_lookup is set to lookup_value, so that this statement does
3275 nothing. */
3276
3277 lookup_value = save_lookup;
3278
3279 /* There now follows either another substring, or "fail", or nothing. This
3280 time, forced failures are noticed only if we want the second string. We must
3281 set skipping in the nested call if we don't want this string, or if we were
3282 already skipping. */
3283
3284 while (isspace(*s)) s++;
3285 if (*s == '{')
3286 {
3287 sub2 = expand_string_internal(s+1, TRUE, &s, yes || skipping, TRUE, resetok);
3288 if (sub2 == NULL && (!yes || !expand_string_forcedfail)) goto FAILED;
3289 expand_string_forcedfail = FALSE;
3290 if (*s++ != '}')
3291 {
3292 errwhere = US"'no' part did not start with '{'";
3293 goto FAILED_CURLY;
3294 }
3295
3296 /* If we want the second string, add it to the output */
3297
3298 if (!yes)
3299 *yieldptr = string_cat(*yieldptr, sub2);
3300 }
3301
3302 /* If there is no second string, but the word "fail" is present when the use of
3303 the second string is wanted, set a flag indicating it was a forced failure
3304 rather than a syntactic error. Swallow the terminating } in case this is nested
3305 inside another lookup or if or extract. */
3306
3307 else if (*s != '}')
3308 {
3309 uschar name[256];
3310 /* deconst cast ok here as source is s anyway */
3311 s = US read_name(name, sizeof(name), s, US"_");
3312 if (Ustrcmp(name, "fail") == 0)
3313 {
3314 if (!yes && !skipping)
3315 {
3316 while (isspace(*s)) s++;
3317 if (*s++ != '}')
3318 {
3319 errwhere = US"did not close with '}' after forcedfail";
3320 goto FAILED_CURLY;
3321 }
3322 expand_string_message =
3323 string_sprintf("\"%s\" failed and \"fail\" requested", type);
3324 expand_string_forcedfail = TRUE;
3325 goto FAILED;
3326 }
3327 }
3328 else
3329 {
3330 expand_string_message =
3331 string_sprintf("syntax error in \"%s\" item - \"fail\" expected", type);
3332 goto FAILED;
3333 }
3334 }
3335
3336 /* All we have to do now is to check on the final closing brace. */
3337
3338 while (isspace(*s)) s++;
3339 if (*s++ != '}')
3340 {
3341 errwhere = US"did not close with '}'";
3342 goto FAILED_CURLY;
3343 }
3344
3345
3346 RETURN:
3347 /* Update the input pointer value before returning */
3348 *sptr = s;
3349 return rc;
3350
3351 FAILED_CURLY:
3352 /* Get here if there is a bracketing failure */
3353 expand_string_message = string_sprintf(
3354 "curly-bracket problem in conditional yes/no parsing: %s\n"
3355 " remaining string is '%s'", errwhere, --s);
3356 rc = 2;
3357 goto RETURN;
3358
3359 FAILED:
3360 /* Get here for other failures */
3361 rc = 1;
3362 goto RETURN;
3363 }