1 /*************************************************
2 * Exim - an Internet mail transport agent *
3 *************************************************/
5 /* Copyright (c) The Exim Maintainers 2020 - 2024 */
6 /* Copyright (c) University of Cambridge 1995 - 2015 */
7 /* See the file NOTICE for conditions of use and distribution. */
8 /* SPDX-License-Identifier: GPL-2.0-or-later */
10 /* A set of functions to search databases in various formats. An open
11 database is represented by a void * value which is returned from a lookup-
12 specific "open" function. These are now all held in individual modules in the
13 lookups subdirectory and the functions here form a generic interface.
15 Caching is used to improve performance. Open files are cached until a tidyup
16 function is called, and for each file the result of the last lookup is cached.
17 However, if too many files are opened, some of those that are not in use have
18 to be closed. Those open items that use real files are kept on a LRU chain to
21 All the data is held in permanent store so as to be independent of the stacking
22 pool that is reset from time to time. In fact, we use malloc'd store so that it
23 can be freed when the caches are tidied up. It isn't actually clear whether
24 this is a benefit or not, to be honest. */
29 /* Tree in which to cache open files until tidyup called. */
31 static tree_node *search_tree = NULL;
33 /* Two-way chain of open databases that use real files. This is maintained in
34 recently-used order for the purposes of closing the least recently used when
35 too many files are open. */
37 static tree_node *open_top = NULL;
38 static tree_node *open_bot = NULL;
40 /* Count of open databases that use real files */
42 static int open_filecount = 0;
44 /* Allow us to reset store used for lookups and lookup caching */
46 static rmark search_reset_point = NULL;
50 /*************************************************
51 * Validate a plain lookup type name *
52 *************************************************/
54 /* Only those names that are recognized and whose code is included in the
55 binary give an OK response. Use a binary chop search now that the list has got
59 name lookup type name - not necessarily zero terminated (e.g. dbm*)
60 len length of the name
62 Returns: +ve => valid lookup name; value is offset in lookup_list
63 -ve => invalid name; message in search_error_message.
67 search_findtype(const uschar * name, int len)
69 for (int bot = 0, top = lookup_list_count; top > bot; )
71 int mid = (top + bot)/2;
72 int c = Ustrncmp(name, lookup_list[mid]->name, len);
74 /* If c == 0 we have matched the incoming name with the start of the search
75 type name. However, some search types are substrings of others (e.g. nis and
76 nisplus) so we need to check that the lengths are the same. The length of the
77 type name cannot be shorter (else c would not be 0); if it is not equal it
78 must be longer, and in that case, the incoming name comes before the name we
79 are testing. By leaving c == 0 when the lengths are different, and doing a
80 > 0 test below, this all falls out correctly. */
82 if (c == 0 && Ustrlen(lookup_list[mid]->name) == len)
84 if (lookup_list[mid]->find != NULL) return mid;
85 search_error_message = string_sprintf("lookup type \"%.*s\" is not "
86 "available (not in the binary - check buildtime LOOKUP configuration)",
91 if (c > 0) bot = mid + 1; else top = mid;
94 search_error_message = string_sprintf("unknown lookup type \"%.*s\"", len, name);
100 /*************************************************
101 * Validate a full lookup type name *
102 *************************************************/
104 /* This function recognizes the "partial-" prefix and also terminating * and *@
108 name the full lookup type name
109 ptypeptr where to put the partial type
110 after subtraction of 1024 or 2048:
111 negative => no partial matching
112 non-negative => minimum number of non-wild components
113 ptypeaff where to put a pointer to the affix
114 the affix is within name if supplied therein
115 otherwise it's a literal string
116 afflen the length of the affix
117 starflags where to put the SEARCH_STAR and SEARCH_STARAT flags
118 opts where to put the options
120 Returns: +ve => valid lookup name; value is offset in lookup_list
121 -ve => invalid name; message in search_error_message.
125 search_findtype_partial(const uschar *name, int *ptypeptr, const uschar **ptypeaff,
126 int *afflen, int *starflags, const uschar ** opts)
130 const uschar *ss = name;
136 /* Check for a partial matching type. It must start with "partial", optionally
137 followed by a sequence of digits. If this is followed by "-", the affix is the
138 default "*." string. Otherwise we expect an affix in parentheses. Affixes are a
139 limited number of characters, not including parens. */
141 if (Ustrncmp(name, "partial", 7) == 0)
147 while (isdigit(*ss)) pv = pv*10 + *ss++ - '0';
149 else pv = 2; /* Default number of wild components */
154 while (ispunct(*ss) && *ss != ')') ss++;
155 if (*ss != ')') goto BAD_TYPE;
156 *afflen = ss++ - *ptypeaff;
158 else if (*ss++ == '-')
166 search_error_message = string_sprintf("format error in lookup type \"%s\"",
172 /* Now we are left with a lookup name, possibly followed by * or *@,
173 and then by options starting with a "," */
176 if ((t = Ustrchr(ss, '*')))
179 *starflags |= (t[1] == '@' ? SEARCH_STARAT : SEARCH_STAR);
184 if ((t = Ustrchr(t, ',')))
187 if (l < len) len = l;
188 *opts = string_copy(t+1);
193 /* Check for the individual search type. Only those that are actually in the
194 binary are valid. For query-style types, "partial" and default types are
197 stype = search_findtype(ss, len);
198 if (stype >= 0 && mac_islookup(stype, lookup_querystyle))
202 search_error_message = string_sprintf("\"partial\" is not permitted "
203 "for lookup type \"%s\"", ss);
206 if ((*starflags & (SEARCH_STAR|SEARCH_STARAT)) != 0)
208 search_error_message = string_sprintf("defaults using \"*\" or \"*@\" are "
209 "not permitted for lookup type \"%s\"", ss);
219 /* Set the parameters for the three different kinds of lookup.
221 search_type the search-type code
222 search the search-type string
223 query argument for the search; filename or query
224 fnamep pointer to return filename
227 Return: keyquery the search-type (for single-key) or query (for query-type)
230 search_args(int search_type, uschar * search, uschar * query, uschar ** fnamep,
233 Uskip_whitespace(&query);
234 if (mac_islookup(search_type, lookup_absfilequery))
235 { /* query-style but with file (sqlite) */
238 /* Check options first for new-style file spec */
239 if (opts) for (uschar * s; s = string_nextinlist(&opts, &sep, NULL, 0); )
240 if (Ustrncmp(s, "file=", 5) == 0)
246 /* If no filename from options, use old-tyle space-sep prefix on query */
250 Uskip_nonwhite(&query);
251 *fnamep = string_copyn(s, query - s);
252 Uskip_whitespace(&query);
256 return query; /* remainder after file skipped */
258 if (!mac_islookup(search_type, lookup_querystyle))
261 return search; /* modifiers important so use "keyquery" for them */
263 *fnamep = NULL; /* else query-style */
269 /*************************************************
270 * Release cached resources *
271 *************************************************/
273 /* When search_open is called it caches the "file" that it opens in
274 search_tree. The name of the tree node is a concatenation of the search type
275 with the file name. For query-style lookups, the file name is empty. Real files
276 are normally closed only when this tidyup routine is called, typically at the
277 end of sections of code where a number of lookups might occur. However, if too
278 many files are open simultaneously, some get closed beforehand. They can't be
279 removed from the tree. There is also a general tidyup function which is called
280 for the lookup driver, if it exists.
282 First, there is an internal, recursive subroutine.
284 Argument: a pointer to a search_openfile tree node
289 tidyup_subtree(tree_node *t)
291 search_cache * c = (search_cache *)(t->data.ptr);
292 if (t->left) tidyup_subtree(t->left);
293 if (t->right) tidyup_subtree(t->right);
294 if (c && c->handle && lookup_list[c->search_type]->close)
295 lookup_list[c->search_type]->close(c->handle);
299 /* The external entry point
308 int old_pool = store_pool;
310 DEBUG(D_lookup) debug_printf_indent("search_tidyup called\n");
312 /* Close individually each cached open file. */
314 store_pool = POOL_SEARCH;
317 tidyup_subtree(search_tree);
320 open_top = open_bot = NULL;
323 /* Call the general tidyup entry for any drivers that have one. */
325 for (int i = 0; i < lookup_list_count; i++) if (lookup_list[i]->tidy)
326 (lookup_list[i]->tidy)();
328 if (search_reset_point) search_reset_point = store_reset(search_reset_point);
329 store_pool = old_pool;
335 /*************************************************
336 * Open search database *
337 *************************************************/
339 /* A mode, and lists of owners and groups, are passed over for checking in
340 the cases where the database is one or more files. Return NULL, with a message
341 pointed to by message, in cases of error.
343 For search types that use a file or files, check up on the mode after
344 opening. It is tempting to do a stat before opening the file, and use it as
345 an existence check. However, doing that opens a small security loophole in
346 that the status could be changed before the file is opened. Can't quite see
347 what problems this might lead to, but you can't be too careful where security
348 is concerned. Fstat() on an open file can normally be expected to succeed,
349 but there are some NFS states where it does not.
351 There are two styles of query: (1) in the "single-key+file" style, a single
352 key string and a file name are given, for example, for linear searches, DBM
353 files, or for NIS. (2) In the "query" style, no "filename" is given; instead
354 just a single query string is passed. This applies to multiple-key lookup
357 Before opening, scan the tree of cached files to see if this file is already
358 open for the correct search type. If so, return the saved handle. If not, put
359 the handle in the tree for possible subsequent use. See search_tidyup above for
360 closing all the cached files.
362 A count of open databases which use real files is maintained, and if this
363 gets too large, we have to close a cached file. Its entry remains in the tree,
364 but is marked closed.
367 filename the name of the file for single-key+file style lookups,
368 NULL for query-style lookups
369 search_type the type of search required
370 modemask if a real single file is used, this specifies mode bits that
371 must not be set; otherwise it is ignored
372 owners if a real single file is used, this specifies the possible
373 owners of the file; otherwise it is ignored
374 owngroups if a real single file is used, this specifies the possible
375 group owners of the file; otherwise it is ignored
377 Returns: an identifying handle for the open database;
378 this is the pointer to the tree block in the
379 cache of open files; return NULL on open failure, with
380 a message in search_error_message
384 search_open(const uschar * filename, int search_type, int modemask,
385 uid_t * owners, gid_t * owngroups)
390 lookup_info *lk = lookup_list[search_type];
391 uschar keybuffer[256];
392 int old_pool = store_pool;
394 if (filename && is_tainted(filename))
396 log_write(0, LOG_MAIN|LOG_PANIC,
397 "Tainted filename for search: '%s'", filename);
401 /* Change to the search store pool and remember our reset point */
403 store_pool = POOL_SEARCH;
404 if (!search_reset_point) search_reset_point = store_mark();
406 DEBUG(D_lookup) debug_printf_indent("search_open: %s \"%s\"\n", lk->name,
407 filename ? filename : US"NULL");
409 /* See if we already have this open for this type of search, and if so,
410 pass back the tree block as the handle. The key for the tree node is the search
411 type plus '0' concatenated with the file name. There may be entries in the tree
412 with closed files if a lot of files have been opened. */
414 sprintf(CS keybuffer, "%c%.254s", search_type + '0',
415 filename ? filename : US"");
417 if ((t = tree_search(search_tree, keybuffer)))
419 if ((c = (search_cache *)t->data.ptr)->handle)
421 DEBUG(D_lookup) debug_printf_indent(" cached open\n");
422 store_pool = old_pool;
425 DEBUG(D_lookup) debug_printf_indent(" cached closed\n");
428 /* Otherwise, we need to open the file or database - each search type has its
429 own code, which is now split off into separately compiled modules. Before doing
430 this, if the search type is one that uses real files, check on the number that
431 we are holding open in the cache. If the limit is reached, close the least
432 recently used one. */
434 if (lk->type == lookup_absfile && open_filecount >= lookup_open_max)
436 log_write(0, LOG_MAIN|LOG_PANIC, "too many lookups open, but can't find "
440 search_cache *c = (search_cache *)(open_bot->data.ptr);
441 DEBUG(D_lookup) debug_printf_indent("Too many lookup files open\n closing %s\n",
443 if ((open_bot = c->up))
444 ((search_cache *)(open_bot->data.ptr))->down = NULL;
447 ((lookup_list[c->search_type])->close)(c->handle);
452 /* If opening is successful, call the file-checking function if there is one,
453 and if all is still well, enter the open database into the tree. */
455 if (!(handle = (lk->open)(filename, &search_error_message)))
457 store_pool = old_pool;
462 && !lk->check(handle, filename, modemask, owners, owngroups,
463 &search_error_message))
466 store_pool = old_pool;
470 /* If this is a search type that uses real files, keep count. */
472 if (lk->type == lookup_absfile) open_filecount++;
474 /* If we found a previously opened entry in the tree, re-use it; otherwise
475 insert a new entry. On re-use, leave any cached lookup data and the lookup
480 t = store_get(sizeof(tree_node) + Ustrlen(keybuffer), GET_UNTAINTED);
481 t->data.ptr = c = store_get(sizeof(search_cache), GET_UNTAINTED);
482 c->item_cache = NULL;
483 Ustrcpy(t->name, keybuffer);
484 tree_insertnode(&search_tree, t);
486 else c = t->data.ptr;
489 c->search_type = search_type;
490 c->up = c->down = NULL;
492 store_pool = old_pool;
500 /*************************************************
501 * Internal function: Find one item in database *
502 *************************************************/
504 /* The answer is always put into dynamic store. The last lookup for each handle
508 handle the handle from search_open; points to tree node
509 filename the filename that was handed to search_open, or
510 NULL for query-style searches
511 keystring the keystring for single-key+file lookups, or
512 the querystring for query-style lookups
513 cache_rd FALSE to avoid lookup in cache layer
514 opts type-specific options
516 Returns: a pointer to a dynamic string containing the answer,
517 or NULL if the query failed or was deferred; in the
518 latter case, search_find_defer is set TRUE; after an unusual
519 failure, there may be a message in search_error_message.
523 internal_search_find(void * handle, const uschar * filename,
524 const uschar * keystring, BOOL cache_rd, const uschar * opts)
526 tree_node * t = (tree_node *)handle;
527 search_cache * c = (search_cache *)(t->data.ptr);
528 expiring_data * e = NULL; /* compiler quietening */
529 uschar * data = NULL;
530 int search_type = t->name[0] - '0';
531 int old_pool = store_pool;
533 /* Lookups that return DEFER may not always set an error message. So that
534 the callers don't have to test for NULL, set an empty string. */
536 search_error_message = US"";
537 f.search_find_defer = FALSE;
539 DEBUG(D_lookup) debug_printf_indent("internal_search_find: file=\"%s\"\n "
540 "type=%s key=\"%s\" opts=%s%s%s\n", filename,
541 lookup_list[search_type]->name, keystring,
542 opts ? "\"" : "", opts, opts ? "\"" : "");
544 /* Insurance. If the keystring is empty, just fail. */
546 if (keystring[0] == 0) return NULL;
548 /* Use the special store pool for search data */
550 store_pool = POOL_SEARCH;
552 /* Look up the data for the key, unless it is already in the cache for this
553 file. No need to check c->item_cache for NULL, tree_search will do so. Check
554 whether we want to use the cache entry last so that we can always replace it. */
556 if ( (t = tree_search(c->item_cache, keystring))
557 && (!(e = t->data.ptr)->expiry || e->expiry > time(NULL))
558 && (!opts && !e->opts || opts && e->opts && Ustrcmp(opts, e->opts) == 0)
561 { /* Data was in the cache already; set the pointer from the tree node */
563 DEBUG(D_lookup) debug_printf_indent("cached data used for lookup of %s%s%s\n",
565 filename ? US"\n in " : US"", filename ? filename : US"");
569 uint do_cache = UINT_MAX;
570 int keylength = Ustrlen(keystring);
575 debug_printf_indent("cached data found but %s; ",
576 e->expiry && e->expiry <= time(NULL) ? "out-of-date"
577 : cache_rd ? "wrong opts" : "no_rd option set");
578 debug_printf_indent("%s lookup required for %s%s%s\n",
579 filename ? US"file" : US"database",
581 filename ? US"\n in " : US"", filename ? filename : US"");
582 if (!filename && is_tainted(keystring))
584 debug_printf_indent(" ");
585 debug_print_taint(keystring);
589 /* Check that the query, for query-style lookups,
590 is either untainted or properly quoted for the lookup type.
592 XXX Should we this move into lf_sqlperform() ? The server-taint check is there.
593 Also it already knows about looking for a "servers" spec in the query string.
594 Passing search_type down that far is an issue.
597 if ( !filename && lookup_list[search_type]->quote
598 && is_tainted(keystring) && !is_quoted_like(keystring, search_type))
600 const uschar * ks = keystring;
601 uschar * loc = acl_current_verb();
602 if (!loc) loc = authenticator_current_name(); /* must be before transport */
603 if (!loc) loc = transport_current_name(); /* must be before router */
604 if (!loc) loc = router_current_name(); /* GCC ?: would be good, but not in clang */
605 if (!loc) loc = US"";
607 if (Ustrncmp(ks, "servers", 7) == 0) /* Avoid logging server/password */
608 if ((ks = Ustrchr(keystring, ';')))
609 while (isspace(*++ks))
614 #ifdef enforce_quote_protection_notyet
615 search_error_message = string_sprintf(
616 "tainted search query is not properly quoted%s: %s%s",
618 f.search_find_defer = TRUE;
621 /* If we're called from a transport, no privs to open the paniclog;
622 the logging punts to using stderr - and that seems to stop the debug
625 transport_name ? LOG_MAIN : LOG_MAIN|LOG_PANIC,
626 "tainted search query is not properly quoted%s: %s", loc, ks);
630 int q = quoter_for_address(ks);
631 debug_printf_indent("search_type %d (%s) quoting %d (%s)\n",
632 search_type, lookup_list[search_type]->name,
633 q, is_real_quoter(q) ? lookup_list[q]->name : US"none");
638 /* Call the code for the different kinds of search. DEFER is handled
639 like FAIL, except that search_find_defer is set so the caller can
640 distinguish if necessary. */
642 if (lookup_list[search_type]->find(c->handle, filename, keystring, keylength,
643 &data, &search_error_message, &do_cache, opts) == DEFER)
644 f.search_find_defer = TRUE;
646 /* A record that has been found is now in data, which is either NULL
647 or points to a bit of dynamic store. Cache the result of the lookup if
648 caching is permitted. Lookups can disable caching, when they did something
649 that changes their data. The mysql and pgsql lookups do this when an
650 UPDATE/INSERT query was executed. Lookups can also set a TTL for the
651 cache entry; the dnsdb lookup does.
652 Finally, the caller can request no caching by setting an option. */
656 DEBUG(D_lookup) debug_printf_indent("%s cache entry\n",
657 t ? "replacing old" : "creating new");
658 if (!t) /* No existing entry. Create new one. */
660 int len = keylength + 1;
661 /* The cache node value should never be expanded so use tainted mem */
662 e = store_get(sizeof(expiring_data) + sizeof(tree_node) + len, GET_TAINTED);
663 t = (tree_node *)(e+1);
664 memcpy(t->name, keystring, len);
666 tree_insertnode(&c->item_cache, t);
668 /* Else previous, out-of-date cache entry. Update with the */
669 /* new result and forget the old one */
670 e->expiry = do_cache == UINT_MAX ? 0 : time(NULL)+do_cache;
671 e->opts = opts ? string_copy(opts) : NULL;
675 /* If caching was disabled, empty the cache tree. We just set the cache
676 pointer to NULL here, because we cannot release the store at this stage. */
680 DEBUG(D_lookup) debug_printf_indent("lookup forced cache cleanup\n");
681 c->item_cache = NULL; /* forget all lookups on this connection */
689 debug_printf_indent("lookup yielded: %W\n", data);
690 else if (f.search_find_defer)
691 debug_printf_indent("lookup deferred: %s\n", search_error_message);
692 else debug_printf_indent("lookup failed\n");
695 /* Return it in new dynamic store in the regular pool */
697 store_pool = old_pool;
698 return data ? string_copy(data) : NULL;
704 /*************************************************
705 * Find one item in database, possibly wildcarded *
706 *************************************************/
708 /* This function calls the internal function above; once only if there
709 is no partial matching, but repeatedly when partial matching is requested.
712 handle the handle from search_open
713 filename the filename that was handed to search_open, or
714 NULL for query-style searches
715 keystring the keystring for single-key+file lookups, or
716 the querystring for query-style lookups
717 partial -1 means no partial matching;
718 otherwise it's the minimum number of components;
719 affix the affix string for partial matching
720 affixlen the length of the affix string
721 starflags SEARCH_STAR and SEARCH_STARAT flags
722 expand_setup pointer to offset for setting up expansion strings;
724 opts type-specific options
726 Returns: a pointer to a dynamic string containing the answer,
727 or NULL if the query failed or was deferred; in the
728 latter case, search_find_defer is set TRUE
732 search_find(void * handle, const uschar * filename, const uschar * keystring,
733 int partial, const uschar * affix, int affixlen, int starflags,
734 int * expand_setup, const uschar * opts)
736 tree_node * t = (tree_node *)handle;
737 BOOL set_null_wild = FALSE, cache_rd = TRUE, ret_key = FALSE;
742 if (partial < 0) affixlen = 99; /* So that "NULL" prints */
743 debug_printf_indent("search_find: file=\"%s\"\n key=\"%s\" "
744 "partial=%d affix=%.*s starflags=%x opts=%s%s%s\n",
745 filename ? filename : US"NULL",
746 keystring, partial, affixlen, affix, starflags,
747 opts ? "\"" : "", opts, opts ? "\"" : "");
751 /* Parse global lookup options. Also, create a new options list with
752 the global options dropped so that the cache-modifiers are not
753 used in the cache key. */
760 for (uschar * ele; ele = string_nextinlist(&opts, &sep, NULL, 0); )
761 if (Ustrcmp(ele, "ret=key") == 0) ret_key = TRUE;
762 else if (Ustrcmp(ele, "cache=no_rd") == 0) cache_rd = FALSE;
763 else g = string_append_listele(g, ',', ele);
765 opts = string_from_gstring(g);
768 /* Arrange to put this database at the top of the LRU chain if it is a type
769 that opens real files. */
771 if ( open_top != (tree_node *)handle
772 && lookup_list[t->name[0]-'0']->type == lookup_absfile)
774 search_cache *c = (search_cache *)(t->data.ptr);
775 tree_node *up = c->up;
776 tree_node *down = c->down;
778 /* Cut it out of the list. A newly opened file will a NULL up pointer.
779 Otherwise there will be a non-NULL up pointer, since we checked above that
780 this block isn't already at the top of the list. */
784 ((search_cache *)(up->data.ptr))->down = down;
786 ((search_cache *)(down->data.ptr))->up = up;
791 /* Now put it at the head of the list. */
795 if (!open_top) open_bot = t;
796 else ((search_cache *)(open_top->data.ptr))->up = t;
802 debug_printf_indent("LRU list:\n");
803 for (tree_node *t = open_top; t; )
805 search_cache *c = (search_cache *)(t->data.ptr);
806 debug_printf_indent(" %s\n", t->name);
807 if (t == open_bot) debug_printf_indent(" End\n");
812 /* First of all, try to match the key string verbatim. If matched a complete
813 entry but could have been partial, flag to set up variables. */
815 yield = internal_search_find(handle, filename, keystring, cache_rd, opts);
816 if (f.search_find_defer) return NULL;
818 if (yield) { if (partial >= 0) set_null_wild = TRUE; }
820 /* Not matched a complete entry; handle partial lookups, but only if the full
821 search didn't defer. Don't use string_sprintf() to construct the initial key,
822 just in case the original key is too long for the string_sprintf() buffer (it
823 *has* happened!). The case of a zero-length affix has to be treated specially.
826 else if (partial >= 0)
828 int len = Ustrlen(keystring);
831 /* Try with the affix on the front, except for a zero-length affix */
834 keystring2 = string_copy(keystring);
837 keystring2 = store_get(len + affixlen + 1,
838 is_tainted(keystring) || is_tainted(affix) ? GET_TAINTED : GET_UNTAINTED);
839 Ustrncpy(keystring2, affix, affixlen);
840 Ustrcpy(keystring2 + affixlen, keystring);
841 DEBUG(D_lookup) debug_printf_indent("trying partial match %s\n", keystring2);
842 yield = internal_search_find(handle, filename, CUS keystring2, cache_rd, opts);
843 if (f.search_find_defer) return NULL;
846 /* The key in its entirety did not match a wild entry; try chopping off
847 leading components. */
852 uschar * keystring3 = keystring2 + affixlen;
854 for(uschar * s = keystring3; *s; ) if (*s++ == '.') dotcount++;
856 while (dotcount-- >= partial)
858 while (*keystring3 && *keystring3 != '.') keystring3++;
860 /* If we get right to the end of the string (which will be the last time
861 through this loop), we've failed if the affix is null. Otherwise do one
862 last lookup for the affix itself, but if it is longer than 1 character,
863 remove the last character if it is ".". */
867 if (affixlen < 1) break;
868 if (affixlen > 1 && affix[affixlen-1] == '.') affixlen--;
869 Ustrncpy(keystring2, affix, affixlen);
870 keystring2[affixlen] = 0;
871 keystring3 = keystring2;
875 keystring3 -= affixlen - 1;
876 if (affixlen > 0) Ustrncpy(keystring3, affix, affixlen);
879 DEBUG(D_lookup) debug_printf_indent("trying partial match %s\n", keystring3);
880 yield = internal_search_find(handle, filename, CUS keystring3,
882 if (f.search_find_defer) return NULL;
885 /* First variable is the wild part; second is the fixed part. Take care
886 to get it right when keystring3 is just "*". Return a de-tainted version
887 of the fixed part, on the grounds it has been validated by the lookup. */
889 if (expand_setup && *expand_setup >= 0)
891 int fixedlength = Ustrlen(keystring3) - affixlen;
892 int wildlength = Ustrlen(keystring) - fixedlength - 1;
894 expand_nstring[*expand_setup] = keystring;
895 expand_nlength[*expand_setup] = wildlength;
897 if (fixedlength < 0) fixedlength = 0;
898 expand_nstring[*expand_setup] = string_copyn_taint(
899 keystring + wildlength + 1, fixedlength, GET_UNTAINTED);
900 expand_nlength[*expand_setup] = fixedlength;
904 keystring3 += affixlen;
908 else set_null_wild = TRUE; /* Matched a wild entry without any wild part */
911 /* If nothing has been matched, but the option to look for "*@" is set, try
912 replacing everything to the left of @ by *. After a match, the wild part
913 is set to the string to the left of the @. */
915 if (!yield && starflags & SEARCH_STARAT)
917 uschar *atat = Ustrrchr(keystring, '@');
918 if (atat && atat > keystring)
924 DEBUG(D_lookup) debug_printf_indent("trying default match %s\n", atat);
925 yield = internal_search_find(handle, filename, atat, cache_rd, opts);
927 if (f.search_find_defer) return NULL;
929 if (yield && expand_setup && *expand_setup >= 0)
932 expand_nstring[*expand_setup] = keystring;
933 expand_nlength[*expand_setup] = atat - keystring + 1;
935 expand_nstring[*expand_setup] = keystring;
936 expand_nlength[*expand_setup] = 0;
941 /* If we still haven't matched anything, and the option to look for "*" is set,
942 try that. If we do match, the first variable (the wild part) is the whole key,
943 and the second is empty. */
945 if (!yield && starflags & (SEARCH_STAR|SEARCH_STARAT))
947 DEBUG(D_lookup) debug_printf_indent("trying to match *\n");
948 yield = internal_search_find(handle, filename, US"*", cache_rd, opts);
949 if (yield && expand_setup && *expand_setup >= 0)
952 expand_nstring[*expand_setup] = keystring;
953 expand_nlength[*expand_setup] = Ustrlen(keystring);
955 expand_nstring[*expand_setup] = keystring;
956 expand_nlength[*expand_setup] = 0;
960 /* If this was a potentially partial lookup, and we matched either a
961 complete non-wild domain entry, or we matched a wild-carded entry without
962 chopping off any of the domain components, set up the expansion variables
963 (if required) so that the first one is empty, and the second one is the
964 fixed part of the domain. The set_null_wild flag is set only when yield is not
965 NULL. Return a de-tainted version of the fixed part, on the grounds it has been
966 validated by the lookup. */
968 if (set_null_wild && expand_setup && *expand_setup >= 0)
970 int fixedlength = Ustrlen(keystring);
972 expand_nstring[*expand_setup] = keystring;
973 expand_nlength[*expand_setup] = 0;
975 expand_nstring[*expand_setup] = string_copyn_taint(
976 keystring, fixedlength, GET_UNTAINTED);
977 expand_nlength[*expand_setup] = fixedlength;
980 /* If we have a result, check the options to see if the key was wanted rather
981 than the result. Return a de-tainted version of the key on the grounds that
982 it have been validated by the lookup. */
984 if (yield && ret_key)
986 yield = string_copy_taint(keystring, GET_UNTAINTED);
988 debug_printf_indent("lookup yield replace by key: %s\n", yield);
994 /* End of search.c */