-/* $Cambridge: exim/src/src/retry.c,v 1.9 2006/03/09 15:10:16 ph10 Exp $ */
-
/*************************************************
* Exim - an Internet mail transport agent *
*************************************************/
-/* Copyright (c) University of Cambridge 1995 - 2006 */
+/* Copyright (c) University of Cambridge 1995 - 2015 */
/* See the file NOTICE for conditions of use and distribution. */
/* Functions concerned with retrying unsuccessful deliveries. */
*************************************************/
/* This function tests whether a message has been on the queue longer than
-the maximum retry time for a particular host.
+the maximum retry time for a particular host or address.
Arguments:
- host_key the key to look up a host retry rule
+ retry_key the key to look up a retry rule
domain the domain to look up a domain retry rule
- basic_errno a specific error number, or zero if none
- more_errno additional data for the error
+ retry_record contains error information for finding rule
now the time
Returns: TRUE if the ultimate timeout has been reached
*/
-static BOOL
-ultimate_address_timeout(uschar *host_key, uschar *domain, int basic_errno,
- int more_errno, time_t now)
+BOOL
+retry_ultimate_address_timeout(uschar *retry_key, const uschar *domain,
+ dbdata_retry *retry_record, time_t now)
{
-BOOL address_timeout = TRUE; /* no rule => timed out */
+BOOL address_timeout;
+
+DEBUG(D_retry)
+ {
+ debug_printf("retry time not reached: checking ultimate address timeout\n");
+ debug_printf(" now=%d first_failed=%d next_try=%d expired=%d\n",
+ (int)now, (int)retry_record->first_failed,
+ (int)retry_record->next_try, retry_record->expired);
+ }
retry_config *retry =
- retry_find_config(host_key+2, domain, basic_errno, more_errno);
+ retry_find_config(retry_key+2, domain,
+ retry_record->basic_errno, retry_record->more_errno);
if (retry != NULL && retry->rules != NULL)
{
for (last_rule = retry->rules;
last_rule->next != NULL;
last_rule = last_rule->next);
- DEBUG(D_transport|D_retry)
- debug_printf("now=%d received_time=%d diff=%d timeout=%d\n",
- (int)now, received_time, (int)(now - received_time),
- last_rule->timeout);
+ DEBUG(D_retry)
+ debug_printf(" received_time=%d diff=%d timeout=%d\n",
+ received_time, (int)(now - received_time), last_rule->timeout);
address_timeout = (now - received_time > last_rule->timeout);
}
else
{
- DEBUG(D_transport|D_retry)
+ DEBUG(D_retry)
debug_printf("no retry rule found: assume timed out\n");
+ address_timeout = TRUE;
}
+DEBUG(D_retry)
+ if (address_timeout)
+ debug_printf("on queue longer than maximum retry for address - "
+ "allowing delivery\n");
+
return address_timeout;
}
*/
BOOL
-retry_check_address(uschar *domain, host_item *host, uschar *portstring,
+retry_check_address(const uschar *domain, host_item *host, uschar *portstring,
BOOL include_ip_address, uschar **retry_host_key, uschar **retry_message_key)
{
BOOL yield = FALSE;
if (now < host_retry_record->next_try && !deliver_force)
{
- DEBUG(D_transport|D_retry)
- debug_printf("host retry time not reached: checking ultimate address "
- "timeout\n");
-
if (!host_retry_record->expired &&
- ultimate_address_timeout(host_key, domain,
- host_retry_record->basic_errno, host_retry_record->more_errno, now))
- {
- DEBUG(D_transport|D_retry)
- debug_printf("on queue longer than maximum retry for "
- "address - allowing delivery\n");
+ retry_ultimate_address_timeout(host_key, domain,
+ host_retry_record, now))
return FALSE;
- }
/* We have not hit the ultimate address timeout; host is unusable. */
*retry_message_key = message_key;
if (now < message_retry_record->next_try && !deliver_force)
{
- DEBUG(D_transport|D_retry)
- debug_printf("host+message retry time not reached: checking ultimate "
- "address timeout\n");
- if (!ultimate_address_timeout(host_key, domain, 0, 0, now))
+ if (!retry_ultimate_address_timeout(host_key, domain,
+ message_retry_record, now))
{
host->status = hstatus_unusable;
host->why = hwhy_retry;
}
- else
- {
- DEBUG(D_transport|D_retry)
- debug_printf("on queue longer than maximum retry for "
- "address - allowing delivery\n");
- }
return FALSE;
}
}
retry_add_item(address_item *addr, uschar *key, int flags)
{
retry_item *rti = store_get(sizeof(retry_item));
+host_item * host = addr->host_used;
rti->next = addr->retries;
addr->retries = rti;
rti->key = key;
rti->basic_errno = addr->basic_errno;
rti->more_errno = addr->more_errno;
-rti->message = addr->message;
+rti->message = host
+ ? string_sprintf("H=%s [%s]: %s", host->name, host->address, addr->message)
+ : addr->message;
rti->flags = flags;
DEBUG(D_transport|D_retry)
*/
retry_config *
-retry_find_config(uschar *key, uschar *alternate, int basic_errno,
+retry_find_config(const uschar *key, const uschar *alternate, int basic_errno,
int more_errno)
{
-int replace = 0;
-uschar *use_key, *use_alternate;
-uschar *colon = Ustrchr(key, ':');
+const uschar *colon = Ustrchr(key, ':');
retry_config *yield;
/* If there's a colon in the key, there are two possibilities:
hostname:ip+port
- In this case, we temporarily replace the colon with a zero, to terminate
- the string after the host name.
+ In this case, we copy the host name.
(2) This is a key for a pipe, file, or autoreply delivery, in the format
with a letter or a digit. In this case we want to use the original address
to search for a retry rule. */
-if (colon != NULL)
- {
- if (isalnum(*key))
- replace = ':';
- else
- key = Ustrrchr(key, ':') + 1; /* Take from the last colon */
- }
-
-if (replace == 0) colon = key + Ustrlen(key);
-*colon = 0;
+if (colon)
+ key = isalnum(*key)
+ ? string_copyn(key, colon-key) /* the hostname */
+ : Ustrrchr(key, ':') + 1; /* Take from the last colon */
/* Sort out the keys */
-use_key = (Ustrchr(key, '@') != NULL)? key : string_sprintf("*@%s", key);
-use_alternate = (alternate == NULL)? NULL : string_sprintf("*@%s", alternate);
+if (!Ustrchr(key, '@')) key = string_sprintf("*@%s", key);
+if (alternate) alternate = string_sprintf("*@%s", alternate);
/* Scan the configured retry items. */
for (yield = retries; yield != NULL; yield = yield->next)
{
- uschar *plist = yield->pattern;
- uschar *slist = yield->senders;
+ const uschar *plist = yield->pattern;
+ const uschar *slist = yield->senders;
/* If a specific error is set for this item, check that we are handling that
specific error, and if so, check any additional error information if
/* Check for a match between the address list item at the start of this retry
rule and either the main or alternate keys. */
- if (match_address_list(use_key, TRUE, TRUE, &plist, NULL, -1, UCHAR_MAX+1,
+ if (match_address_list(key, TRUE, TRUE, &plist, NULL, -1, UCHAR_MAX+1,
NULL) == OK ||
- (use_alternate != NULL &&
- match_address_list(use_alternate, TRUE, TRUE, &plist, NULL, -1,
+ (alternate != NULL &&
+ match_address_list(alternate, TRUE, TRUE, &plist, NULL, -1,
UCHAR_MAX+1, NULL) == OK))
break;
}
-*colon = replace;
return yield;
}
message = (rti->basic_errno > 0)? US strerror(rti->basic_errno) :
(rti->message == NULL)?
- US"unknown error" : string_printing(rti->message);
+ US"unknown error" : US string_printing(rti->message);
message_length = Ustrlen(message);
if (message_length > 150) message_length = 150;
DEBUG(D_retry) debug_printf("failing_interval=%d message_age=%d\n",
failing_interval, message_age);
- /* If the message has been on the queue longer than the recorded time
- of failure, use the message's age instead. This can happen when some
- messages can be delivered and others cannot; a successful delivery will
- reset the first_failed time, and this can lead to a failing message
- being retried too often. */
+ /* For a non-host error, if the message has been on the queue longer
+ than the recorded time of failure, use the message's age instead. This
+ can happen when some messages can be delivered and others cannot; a
+ successful delivery will reset the first_failed time, and this can lead
+ to a failing message being retried too often. */
- if (message_age > failing_interval) failing_interval = message_age;
+ if ((rti->flags & rf_host) == 0 && message_age > failing_interval)
+ failing_interval = message_age;
/* Search for the current retry rule. The cutoff time of the
last rule is handled differently to the others. The rule continues