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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-06 00:47:26 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-06 00:47:26 +0000
commit96b619cc129afed52411b9fad3407037a1cb7207 (patch)
treee453a74cc9ae39fbfcb3ac55a347e880413e4a06 /src/search.c
parentInitial commit. (diff)
downloadexim4-upstream.tar.xz
exim4-upstream.zip
Adding upstream version 4.92.upstream/4.92upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r--src/search.c828
1 files changed, 828 insertions, 0 deletions
diff --git a/src/search.c b/src/search.c
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+++ b/src/search.c
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+/*************************************************
+* Exim - an Internet mail transport agent *
+*************************************************/
+
+/* Copyright (c) University of Cambridge 1995 - 2015 */
+/* See the file NOTICE for conditions of use and distribution. */
+
+/* A set of functions to search databases in various formats. An open
+database is represented by a void * value which is returned from a lookup-
+specific "open" function. These are now all held in individual modules in the
+lookups subdirectory and the functions here form a generic interface.
+
+Caching is used to improve performance. Open files are cached until a tidyup
+function is called, and for each file the result of the last lookup is cached.
+However, if too many files are opened, some of those that are not in use have
+to be closed. Those open items that use real files are kept on a LRU chain to
+help with this.
+
+All the data is held in permanent store so as to be independent of the stacking
+pool that is reset from time to time. In fact, we use malloc'd store so that it
+can be freed when the caches are tidied up. It isn't actually clear whether
+this is a benefit or not, to be honest. */
+
+#include "exim.h"
+
+
+/* Tree in which to cache open files until tidyup called. */
+
+static tree_node *search_tree = NULL;
+
+/* Two-way chain of open databases that use real files. This is maintained in
+recently-used order for the purposes of closing the least recently used when
+too many files are open. */
+
+static tree_node *open_top = NULL;
+static tree_node *open_bot = NULL;
+
+/* Count of open databases that use real files */
+
+static int open_filecount = 0;
+
+/* Allow us to reset store used for lookups and lookup caching */
+
+static void *search_reset_point = NULL;
+
+
+
+/*************************************************
+* Validate a plain lookup type name *
+*************************************************/
+
+/* Only those names that are recognized and whose code is included in the
+binary give an OK response. Use a binary chop search now that the list has got
+so long.
+
+Arguments:
+ name lookup type name - not necessarily zero terminated (e.g. dbm*)
+ len length of the name
+
+Returns: +ve => valid lookup name; value is offset in lookup_list
+ -ve => invalid name; message in search_error_message.
+*/
+
+int
+search_findtype(const uschar *name, int len)
+{
+int bot = 0;
+int top = lookup_list_count;
+while (top > bot)
+ {
+ int mid = (top + bot)/2;
+ int c = Ustrncmp(name, lookup_list[mid]->name, len);
+
+ /* If c == 0 we have matched the incoming name with the start of the search
+ type name. However, some search types are substrings of others (e.g. nis and
+ nisplus) so we need to check that the lengths are the same. The length of the
+ type name cannot be shorter (else c would not be 0); if it is not equal it
+ must be longer, and in that case, the incoming name comes before the name we
+ are testing. By leaving c == 0 when the lengths are different, and doing a
+ > 0 test below, this all falls out correctly. */
+
+ if (c == 0 && Ustrlen(lookup_list[mid]->name) == len)
+ {
+ if (lookup_list[mid]->find != NULL) return mid;
+ search_error_message = string_sprintf("lookup type \"%.*s\" is not "
+ "available (not in the binary - check buildtime LOOKUP configuration)",
+ len, name);
+ return -1;
+ }
+
+ if (c > 0) bot = mid + 1; else top = mid;
+ }
+
+search_error_message = string_sprintf("unknown lookup type \"%.*s\"",len,name);
+return -1;
+}
+
+
+
+/*************************************************
+* Validate a full lookup type name *
+*************************************************/
+
+/* This function recognizes the "partial-" prefix and also terminating * and *@
+suffixes.
+
+Arguments:
+ name the full lookup type name
+ ptypeptr where to put the partial type
+ after subtraction of 1024 or 2048:
+ negative => no partial matching
+ non-negative => minimum number of non-wild components
+ ptypeaff where to put a pointer to the affix
+ the affix is within name if supplied therein
+ otherwise it's a literal string
+ afflen the length of the affix
+ starflags where to put the SEARCH_STAR and SEARCH_STARAT flags
+
+Returns: +ve => valid lookup name; value is offset in lookup_list
+ -ve => invalid name; message in search_error_message.
+*/
+
+int
+search_findtype_partial(const uschar *name, int *ptypeptr, const uschar **ptypeaff,
+ int *afflen, int *starflags)
+{
+int len, stype;
+int pv = -1;
+const uschar *ss = name;
+
+*starflags = 0;
+*ptypeaff = NULL;
+
+/* Check for a partial matching type. It must start with "partial", optionally
+followed by a sequence of digits. If this is followed by "-", the affix is the
+default "*." string. Otherwise we expect an affix in parentheses. Affixes are a
+limited number of characters, not including parens. */
+
+if (Ustrncmp(name, "partial", 7) == 0)
+ {
+ ss += 7;
+ if (isdigit (*ss))
+ {
+ pv = 0;
+ while (isdigit(*ss)) pv = pv*10 + *ss++ - '0';
+ }
+ else pv = 2; /* Default number of wild components */
+
+ if (*ss == '(')
+ {
+ *ptypeaff = ++ss;
+ while (ispunct(*ss) && *ss != ')') ss++;
+ if (*ss != ')') goto BAD_TYPE;
+ *afflen = ss++ - *ptypeaff;
+ }
+ else if (*ss++ == '-')
+ {
+ *ptypeaff = US "*.";
+ *afflen = 2;
+ }
+ else
+ {
+ BAD_TYPE:
+ search_error_message = string_sprintf("format error in lookup type \"%s\"",
+ name);
+ return -1;
+ }
+ }
+
+/* Now we are left with a lookup name, possibly followed by * or *@. */
+
+len = Ustrlen(ss);
+if (len >= 2 && Ustrncmp(ss + len - 2, "*@", 2) == 0)
+ {
+ *starflags |= SEARCH_STARAT;
+ len -= 2;
+ }
+else if (len >= 1 && ss[len-1] == '*')
+ {
+ *starflags |= SEARCH_STAR;
+ len--;
+ }
+
+/* Check for the individual search type. Only those that are actually in the
+binary are valid. For query-style types, "partial" and default types are
+erroneous. */
+
+stype = search_findtype(ss, len);
+if (stype >= 0 && mac_islookup(stype, lookup_querystyle))
+ {
+ if (pv >= 0)
+ {
+ search_error_message = string_sprintf("\"partial\" is not permitted "
+ "for lookup type \"%s\"", ss);
+ return -1;
+ }
+ if ((*starflags & (SEARCH_STAR|SEARCH_STARAT)) != 0)
+ {
+ search_error_message = string_sprintf("defaults using \"*\" or \"*@\" are "
+ "not permitted for lookup type \"%s\"", ss);
+ return -1;
+ }
+ }
+
+*ptypeptr = pv;
+return stype;
+}
+
+
+
+/*************************************************
+* Release cached resources *
+*************************************************/
+
+/* When search_open is called it caches the "file" that it opens in
+search_tree. The name of the tree node is a concatenation of the search type
+with the file name. For query-style lookups, the file name is empty. Real files
+are normally closed only when this tidyup routine is called, typically at the
+end of sections of code where a number of lookups might occur. However, if too
+many files are open simultaneously, some get closed beforehand. They can't be
+removed from the tree. There is also a general tidyup function which is called
+for the lookup driver, if it exists.
+
+First, there is an internal, recursive subroutine.
+
+Argument: a pointer to a search_openfile tree node
+Returns: nothing
+*/
+
+static void
+tidyup_subtree(tree_node *t)
+{
+search_cache *c = (search_cache *)(t->data.ptr);
+if (t->left != NULL) tidyup_subtree(t->left);
+if (t->right != NULL) tidyup_subtree(t->right);
+if (c != NULL &&
+ c->handle != NULL &&
+ lookup_list[c->search_type]->close != NULL)
+ lookup_list[c->search_type]->close(c->handle);
+}
+
+
+/* The external entry point
+
+Argument: none
+Returns: nothing
+*/
+
+void
+search_tidyup(void)
+{
+int i;
+int old_pool = store_pool;
+
+DEBUG(D_lookup) debug_printf("search_tidyup called\n");
+
+/* Close individually each cached open file. */
+
+store_pool = POOL_SEARCH;
+if (search_tree != NULL)
+ {
+ tidyup_subtree(search_tree);
+ search_tree = NULL;
+ }
+open_top = open_bot = NULL;
+open_filecount = 0;
+
+/* Call the general tidyup entry for any drivers that have one. */
+
+for (i = 0; i < lookup_list_count; i++)
+ if (lookup_list[i]->tidy != NULL) (lookup_list[i]->tidy)();
+
+if (search_reset_point != NULL) store_reset(search_reset_point);
+search_reset_point = NULL;
+store_pool = old_pool;
+}
+
+
+
+
+/*************************************************
+* Open search database *
+*************************************************/
+
+/* A mode, and lists of owners and groups, are passed over for checking in
+the cases where the database is one or more files. Return NULL, with a message
+pointed to by message, in cases of error.
+
+For search types that use a file or files, check up on the mode after
+opening. It is tempting to do a stat before opening the file, and use it as
+an existence check. However, doing that opens a small security loophole in
+that the status could be changed before the file is opened. Can't quite see
+what problems this might lead to, but you can't be too careful where security
+is concerned. Fstat() on an open file can normally be expected to succeed,
+but there are some NFS states where it does not.
+
+There are two styles of query: (1) in the "single-key+file" style, a single
+key string and a file name are given, for example, for linear searches, DBM
+files, or for NIS. (2) In the "query" style, no "filename" is given; instead
+just a single query string is passed. This applies to multiple-key lookup
+types such as NIS+.
+
+Before opening, scan the tree of cached files to see if this file is already
+open for the correct search type. If so, return the saved handle. If not, put
+the handle in the tree for possible subsequent use. See search_tidyup above for
+closing all the cached files.
+
+A count of open databases which use real files is maintained, and if this
+gets too large, we have to close a cached file. Its entry remains in the tree,
+but is marked closed.
+
+Arguments:
+ filename the name of the file for single-key+file style lookups,
+ NULL for query-style lookups
+ search_type the type of search required
+ modemask if a real single file is used, this specifies mode bits that
+ must not be set; otherwise it is ignored
+ owners if a real single file is used, this specifies the possible
+ owners of the file; otherwise it is ignored
+ owngroups if a real single file is used, this specifies the possible
+ group owners of the file; otherwise it is ignored
+
+Returns: an identifying handle for the open database;
+ this is the pointer to the tree block in the
+ cache of open files; return NULL on open failure, with
+ a message in search_error_message
+*/
+
+void *
+search_open(uschar *filename, int search_type, int modemask, uid_t *owners,
+ gid_t *owngroups)
+{
+void *handle;
+tree_node *t;
+search_cache *c;
+lookup_info *lk = lookup_list[search_type];
+uschar keybuffer[256];
+int old_pool = store_pool;
+
+/* Change to the search store pool and remember our reset point */
+
+store_pool = POOL_SEARCH;
+if (search_reset_point == NULL) search_reset_point = store_get(0);
+
+DEBUG(D_lookup) debug_printf("search_open: %s \"%s\"\n", lk->name,
+ (filename == NULL)? US"NULL" : filename);
+
+/* See if we already have this open for this type of search, and if so,
+pass back the tree block as the handle. The key for the tree node is the search
+type plus '0' concatenated with the file name. There may be entries in the tree
+with closed files if a lot of files have been opened. */
+
+sprintf(CS keybuffer, "%c%.254s", search_type + '0',
+ (filename == NULL)? US"" : filename);
+
+if ((t = tree_search(search_tree, keybuffer)) != NULL)
+ {
+ c = (search_cache *)(t->data.ptr);
+ if (c->handle != NULL)
+ {
+ DEBUG(D_lookup) debug_printf(" cached open\n");
+ store_pool = old_pool;
+ return t;
+ }
+ DEBUG(D_lookup) debug_printf(" cached closed\n");
+ }
+
+/* Otherwise, we need to open the file or database - each search type has its
+own code, which is now split off into separately compiled modules. Before doing
+this, if the search type is one that uses real files, check on the number that
+we are holding open in the cache. If the limit is reached, close the least
+recently used one. */
+
+if (lk->type == lookup_absfile && open_filecount >= lookup_open_max)
+ {
+ if (open_bot == NULL)
+ log_write(0, LOG_MAIN|LOG_PANIC, "too many lookups open, but can't find "
+ "one to close");
+ else
+ {
+ search_cache *c = (search_cache *)(open_bot->data.ptr);
+ DEBUG(D_lookup) debug_printf("Too many lookup files open\n closing %s\n",
+ open_bot->name);
+ open_bot = c->up;
+ if (open_bot != NULL)
+ ((search_cache *)(open_bot->data.ptr))->down = NULL;
+ else
+ open_top = NULL;
+ ((lookup_list[c->search_type])->close)(c->handle);
+ c->handle = NULL;
+ open_filecount--;
+ }
+ }
+
+/* If opening is successful, call the file-checking function if there is one,
+and if all is still well, enter the open database into the tree. */
+
+handle = (lk->open)(filename, &search_error_message);
+if (handle == NULL)
+ {
+ store_pool = old_pool;
+ return NULL;
+ }
+
+if (lk->check != NULL &&
+ !lk->check(handle, filename, modemask, owners, owngroups,
+ &search_error_message))
+ {
+ lk->close(handle);
+ store_pool = old_pool;
+ return NULL;
+ }
+
+/* If this is a search type that uses real files, keep count. */
+
+if (lk->type == lookup_absfile) open_filecount++;
+
+/* If we found a previously opened entry in the tree, re-use it; otherwise
+insert a new entry. On re-use, leave any cached lookup data and the lookup
+count alone. */
+
+if (t == NULL)
+ {
+ t = store_get(sizeof(tree_node) + Ustrlen(keybuffer));
+ t->data.ptr = c = store_get(sizeof(search_cache));
+ c->item_cache = NULL;
+ Ustrcpy(t->name, keybuffer);
+ tree_insertnode(&search_tree, t);
+ }
+else c = t->data.ptr;
+
+c->handle = handle;
+c->search_type = search_type;
+c->up = c->down = NULL;
+
+store_pool = old_pool;
+return t;
+}
+
+
+
+
+
+/*************************************************
+* Internal function: Find one item in database *
+*************************************************/
+
+/* The answer is always put into dynamic store. The last lookup for each handle
+is cached.
+
+Arguments:
+ handle the handle from search_open; points to tree node
+ filename the filename that was handed to search_open, or
+ NULL for query-style searches
+ keystring the keystring for single-key+file lookups, or
+ the querystring for query-style lookups
+
+Returns: a pointer to a dynamic string containing the answer,
+ or NULL if the query failed or was deferred; in the
+ latter case, search_find_defer is set TRUE; after an unusual
+ failure, there may be a message in search_error_message.
+*/
+
+static uschar *
+internal_search_find(void *handle, uschar *filename, uschar *keystring)
+{
+tree_node * t = (tree_node *)handle;
+search_cache * c = (search_cache *)(t->data.ptr);
+expiring_data * e = NULL; /* compiler quietening */
+uschar * data = NULL;
+int search_type = t->name[0] - '0';
+int old_pool = store_pool;
+
+/* Lookups that return DEFER may not always set an error message. So that
+the callers don't have to test for NULL, set an empty string. */
+
+search_error_message = US"";
+f.search_find_defer = FALSE;
+
+DEBUG(D_lookup) debug_printf("internal_search_find: file=\"%s\"\n "
+ "type=%s key=\"%s\"\n", filename,
+ lookup_list[search_type]->name, keystring);
+
+/* Insurance. If the keystring is empty, just fail. */
+
+if (keystring[0] == 0) return NULL;
+
+/* Use the special store pool for search data */
+
+store_pool = POOL_SEARCH;
+
+/* Look up the data for the key, unless it is already in the cache for this
+file. No need to check c->item_cache for NULL, tree_search will do so. */
+
+if ( (t = tree_search(c->item_cache, keystring))
+ && (!(e = t->data.ptr)->expiry || e->expiry > time(NULL))
+ )
+ { /* Data was in the cache already; set the pointer from the tree node */
+ data = e->ptr;
+ DEBUG(D_lookup) debug_printf("cached data used for lookup of %s%s%s\n",
+ keystring,
+ filename ? US"\n in " : US"", filename ? filename : US"");
+ }
+else
+ {
+ uint do_cache = UINT_MAX;
+ int keylength = Ustrlen(keystring);
+
+ DEBUG(D_lookup)
+ {
+ if (t) debug_printf("cached data found but past valid time; ");
+ debug_printf("%s lookup required for %s%s%s\n",
+ filename ? US"file" : US"database",
+ keystring,
+ filename ? US"\n in " : US"", filename ? filename : US"");
+ }
+
+ /* Call the code for the different kinds of search. DEFER is handled
+ like FAIL, except that search_find_defer is set so the caller can
+ distinguish if necessary. */
+
+ if (lookup_list[search_type]->find(c->handle, filename, keystring, keylength,
+ &data, &search_error_message, &do_cache) == DEFER)
+ f.search_find_defer = TRUE;
+
+ /* A record that has been found is now in data, which is either NULL
+ or points to a bit of dynamic store. Cache the result of the lookup if
+ caching is permitted. Lookups can disable caching, when they did something
+ that changes their data. The mysql and pgsql lookups do this when an
+ UPDATE/INSERT query was executed. */
+
+ else if (do_cache)
+ {
+ int len = keylength + 1;
+
+ if (t) /* Previous, out-of-date cache entry. Update with the */
+ { /* new result and forget the old one */
+ e->expiry = do_cache == UINT_MAX ? 0 : time(NULL)+do_cache;
+ e->ptr = data;
+ }
+ else
+ {
+ e = store_get(sizeof(expiring_data) + sizeof(tree_node) + len);
+ e->expiry = do_cache == UINT_MAX ? 0 : time(NULL)+do_cache;
+ e->ptr = data;
+ t = (tree_node *)(e+1);
+ memcpy(t->name, keystring, len);
+ t->data.ptr = e;
+ tree_insertnode(&c->item_cache, t);
+ }
+ }
+
+ /* If caching was disabled, empty the cache tree. We just set the cache
+ pointer to NULL here, because we cannot release the store at this stage. */
+
+ else
+ {
+ DEBUG(D_lookup) debug_printf("lookup forced cache cleanup\n");
+ c->item_cache = NULL;
+ }
+ }
+
+DEBUG(D_lookup)
+ {
+ if (data)
+ debug_printf("lookup yielded: %s\n", data);
+ else if (f.search_find_defer)
+ debug_printf("lookup deferred: %s\n", search_error_message);
+ else debug_printf("lookup failed\n");
+ }
+
+/* Return it in new dynamic store in the regular pool */
+
+store_pool = old_pool;
+return data ? string_copy(data) : NULL;
+}
+
+
+
+
+/*************************************************
+* Find one item in database, possibly wildcarded *
+*************************************************/
+
+/* This function calls the internal function above; once only if there
+is no partial matching, but repeatedly when partial matching is requested.
+
+Arguments:
+ handle the handle from search_open
+ filename the filename that was handed to search_open, or
+ NULL for query-style searches
+ keystring the keystring for single-key+file lookups, or
+ the querystring for query-style lookups
+ partial -1 means no partial matching;
+ otherwise it's the minimum number of components;
+ affix the affix string for partial matching
+ affixlen the length of the affix string
+ starflags SEARCH_STAR and SEARCH_STARAT flags
+ expand_setup pointer to offset for setting up expansion strings;
+ don't do any if < 0
+
+Returns: a pointer to a dynamic string containing the answer,
+ or NULL if the query failed or was deferred; in the
+ latter case, search_find_defer is set TRUE
+*/
+
+uschar *
+search_find(void *handle, uschar *filename, uschar *keystring, int partial,
+ const uschar *affix, int affixlen, int starflags, int *expand_setup)
+{
+tree_node *t = (tree_node *)handle;
+BOOL set_null_wild = FALSE;
+uschar *yield;
+
+DEBUG(D_lookup)
+ {
+ if (partial < 0) affixlen = 99; /* So that "NULL" prints */
+ debug_printf("search_find: file=\"%s\"\n key=\"%s\" "
+ "partial=%d affix=%.*s starflags=%x\n",
+ (filename == NULL)? US"NULL" : filename,
+ keystring, partial, affixlen, affix, starflags);
+ }
+
+/* Arrange to put this database at the top of the LRU chain if it is a type
+that opens real files. */
+
+if (open_top != (tree_node *)handle &&
+ lookup_list[t->name[0]-'0']->type == lookup_absfile)
+ {
+ search_cache *c = (search_cache *)(t->data.ptr);
+ tree_node *up = c->up;
+ tree_node *down = c->down;
+
+ /* Cut it out of the list. A newly opened file will a NULL up pointer.
+ Otherwise there will be a non-NULL up pointer, since we checked above that
+ this block isn't already at the top of the list. */
+
+ if (up != NULL)
+ {
+ ((search_cache *)(up->data.ptr))->down = down;
+ if (down != NULL)
+ ((search_cache *)(down->data.ptr))->up = up;
+ else open_bot = up;
+ }
+
+ /* Now put it at the head of the list. */
+
+ c->up = NULL;
+ c->down = open_top;
+ if (open_top == NULL) open_bot = t; else
+ ((search_cache *)(open_top->data.ptr))->up = t;
+ open_top = t;
+ }
+
+DEBUG(D_lookup)
+ {
+ tree_node *t = open_top;
+ debug_printf("LRU list:\n");
+ while (t != NULL)
+ {
+ search_cache *c = (search_cache *)(t->data.ptr);
+ debug_printf(" %s\n", t->name);
+ if (t == open_bot) debug_printf(" End\n");
+ t = c->down;
+ }
+ }
+
+/* First of all, try to match the key string verbatim. If matched a complete
+entry but could have been partial, flag to set up variables. */
+
+yield = internal_search_find(handle, filename, keystring);
+if (f.search_find_defer) return NULL;
+if (yield != NULL) { if (partial >= 0) set_null_wild = TRUE; }
+
+/* Not matched a complete entry; handle partial lookups, but only if the full
+search didn't defer. Don't use string_sprintf() to construct the initial key,
+just in case the original key is too long for the string_sprintf() buffer (it
+*has* happened!). The case of a zero-length affix has to be treated specially.
+*/
+
+else if (partial >= 0)
+ {
+ int len = Ustrlen(keystring);
+ uschar *keystring2;
+
+ /* Try with the affix on the front, except for a zero-length affix */
+
+ if (affixlen == 0) keystring2 = keystring; else
+ {
+ keystring2 = store_get(len + affixlen + 1);
+ Ustrncpy(keystring2, affix, affixlen);
+ Ustrcpy(keystring2 + affixlen, keystring);
+ DEBUG(D_lookup) debug_printf("trying partial match %s\n", keystring2);
+ yield = internal_search_find(handle, filename, keystring2);
+ if (f.search_find_defer) return NULL;
+ }
+
+ /* The key in its entirety did not match a wild entry; try chopping off
+ leading components. */
+
+ if (yield == NULL)
+ {
+ int dotcount = 0;
+ uschar *keystring3 = keystring2 + affixlen;
+ uschar *s = keystring3;
+ while (*s != 0) if (*s++ == '.') dotcount++;
+
+ while (dotcount-- >= partial)
+ {
+ while (*keystring3 != 0 && *keystring3 != '.') keystring3++;
+
+ /* If we get right to the end of the string (which will be the last time
+ through this loop), we've failed if the affix is null. Otherwise do one
+ last lookup for the affix itself, but if it is longer than 1 character,
+ remove the last character if it is ".". */
+
+ if (*keystring3 == 0)
+ {
+ if (affixlen < 1) break;
+ if (affixlen > 1 && affix[affixlen-1] == '.') affixlen--;
+ Ustrncpy(keystring2, affix, affixlen);
+ keystring2[affixlen] = 0;
+ keystring3 = keystring2;
+ }
+ else
+ {
+ keystring3 -= affixlen - 1;
+ if (affixlen > 0) Ustrncpy(keystring3, affix, affixlen);
+ }
+
+ DEBUG(D_lookup) debug_printf("trying partial match %s\n", keystring3);
+ yield = internal_search_find(handle, filename, keystring3);
+ if (f.search_find_defer) return NULL;
+ if (yield != NULL)
+ {
+ /* First variable is the wild part; second is the fixed part. Take care
+ to get it right when keystring3 is just "*". */
+
+ if (expand_setup != NULL && *expand_setup >= 0)
+ {
+ int fixedlength = Ustrlen(keystring3) - affixlen;
+ int wildlength = Ustrlen(keystring) - fixedlength - 1;
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring;
+ expand_nlength[*expand_setup] = wildlength;
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring + wildlength + 1;
+ expand_nlength[*expand_setup] = (fixedlength < 0)? 0 : fixedlength;
+ }
+ break;
+ }
+ keystring3 += affixlen;
+ }
+ }
+
+ else set_null_wild = TRUE; /* Matched a wild entry without any wild part */
+ }
+
+/* If nothing has been matched, but the option to look for "*@" is set, try
+replacing everything to the left of @ by *. After a match, the wild part
+is set to the string to the left of the @. */
+
+if (yield == NULL && (starflags & SEARCH_STARAT) != 0)
+ {
+ uschar *atat = Ustrrchr(keystring, '@');
+ if (atat != NULL && atat > keystring)
+ {
+ int savechar;
+ savechar = *(--atat);
+ *atat = '*';
+
+ DEBUG(D_lookup) debug_printf("trying default match %s\n", atat);
+ yield = internal_search_find(handle, filename, atat);
+ *atat = savechar;
+ if (f.search_find_defer) return NULL;
+
+ if (yield != NULL && expand_setup != NULL && *expand_setup >= 0)
+ {
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring;
+ expand_nlength[*expand_setup] = atat - keystring + 1;
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring;
+ expand_nlength[*expand_setup] = 0;
+ }
+ }
+ }
+
+/* If we still haven't matched anything, and the option to look for "*" is set,
+try that. If we do match, the first variable (the wild part) is the whole key,
+and the second is empty. */
+
+if (yield == NULL && (starflags & (SEARCH_STAR|SEARCH_STARAT)) != 0)
+ {
+ DEBUG(D_lookup) debug_printf("trying to match *\n");
+ yield = internal_search_find(handle, filename, US"*");
+ if (yield != NULL && expand_setup != NULL && *expand_setup >= 0)
+ {
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring;
+ expand_nlength[*expand_setup] = Ustrlen(keystring);
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring;
+ expand_nlength[*expand_setup] = 0;
+ }
+ }
+
+/* If this was a potentially partial lookup, and we matched either a
+complete non-wild domain entry, or we matched a wild-carded entry without
+chopping off any of the domain components, set up the expansion variables
+(if required) so that the first one is empty, and the second one is the
+fixed part of the domain. The set_null_wild flag is set only when yield is not
+NULL. */
+
+if (set_null_wild && expand_setup != NULL && *expand_setup >= 0)
+ {
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring;
+ expand_nlength[*expand_setup] = 0;
+ *expand_setup += 1;
+ expand_nstring[*expand_setup] = keystring;
+ expand_nlength[*expand_setup] = Ustrlen(keystring);
+ }
+
+return yield;
+}
+
+/* End of search.c */