/* $NetBSD: qmgr_message.c,v 1.2 2017/02/14 01:16:47 christos Exp $ */
/*++
/* NAME
/* qmgr_message 3
/* SUMMARY
/* in-core message structures
/* SYNOPSIS
/* #include "qmgr.h"
/*
/* int qmgr_message_count;
/* int qmgr_recipient_count;
/* int qmgr_vrfy_pend_count;
/*
/* QMGR_MESSAGE *qmgr_message_alloc(class, name, qflags, mode)
/* const char *class;
/* const char *name;
/* int qflags;
/* mode_t mode;
/*
/* QMGR_MESSAGE *qmgr_message_realloc(message)
/* QMGR_MESSAGE *message;
/*
/* void qmgr_message_free(message)
/* QMGR_MESSAGE *message;
/*
/* void qmgr_message_update_warn(message)
/* QMGR_MESSAGE *message;
/*
/* void qmgr_message_kill_record(message, offset)
/* QMGR_MESSAGE *message;
/* long offset;
/* DESCRIPTION
/* This module performs en-gross operations on queue messages.
/*
/* qmgr_message_count is a global counter for the total number
/* of in-core message structures (i.e. the total size of the
/* `active' message queue).
/*
/* qmgr_recipient_count is a global counter for the total number
/* of in-core recipient structures (i.e. the sum of all recipients
/* in all in-core message structures).
/*
/* qmgr_vrfy_pend_count is a global counter for the total
/* number of in-core message structures that are associated
/* with an address verification request. Requests that exceed
/* the address_verify_pending_limit are deferred immediately.
/* This is a backup mechanism for a more refined enforcement
/* mechanism in the verify(8) daemon.
/*
/* qmgr_message_alloc() creates an in-core message structure
/* with sender and recipient information taken from the named queue
/* file. A null result means the queue file could not be read or
/* that the queue file contained incorrect information. A result
/* QMGR_MESSAGE_LOCKED means delivery must be deferred. The number
/* of recipients read from a queue file is limited by the global
/* var_qmgr_rcpt_limit configuration parameter. When the limit
/* is reached, the \fIrcpt_offset\fR structure member is set to
/* the position where the read was terminated. Recipients are
/* run through the resolver, and are assigned to destination
/* queues. Recipients that cannot be assigned are deferred or
/* bounced. Mail that has bounced twice is silently absorbed.
/* A non-zero mode means change the queue file permissions.
/*
/* qmgr_message_realloc() resumes reading recipients from the queue
/* file, and updates the recipient list and \fIrcpt_offset\fR message
/* structure members. A null result means that the file could not be
/* read or that the file contained incorrect information. Recipient
/* limit imposed this time is based on the position of the message
/* job(s) on corresponding transport job list(s). It's considered
/* an error to call this when the recipient slots can't be allocated.
/*
/* qmgr_message_free() destroys an in-core message structure and makes
/* the resources available for reuse. It is an error to destroy
/* a message structure that is still referenced by queue entry structures.
/*
/* qmgr_message_update_warn() takes a closed message, opens it, updates
/* the warning field, and closes it again.
/*
/* qmgr_message_kill_record() takes a closed message, opens it, updates
/* the record type at the given offset to "killed", and closes the file.
/* A killed envelope record is ignored. Killed records are not allowed
/* inside the message content.
/* DIAGNOSTICS
/* Warnings: malformed message file. Fatal errors: out of memory.
/* SEE ALSO
/* envelope(3) message envelope parser
/* LICENSE
/* .ad
/* .fi
/* The Secure Mailer license must be distributed with this software.
/* AUTHOR(S)
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*
/* Preemptive scheduler enhancements:
/* Patrik Rak
/* Modra 6
/* 155 00, Prague, Czech Republic
/*--*/
/* System library. */
#include <sys_defs.h>
#include <sys/stat.h>
#include <stdlib.h>
#include <stdio.h> /* sscanf() */
#include <fcntl.h>
#include <errno.h>
#include <unistd.h>
#include <string.h>
#include <ctype.h>
/* Utility library. */
#include <msg.h>
#include <mymalloc.h>
#include <vstring.h>
#include <vstream.h>
#include <split_at.h>
#include <valid_hostname.h>
#include <argv.h>
#include <stringops.h>
#include <myflock.h>
#include <sane_time.h>
/* Global library. */
#include <dict.h>
#include <mail_queue.h>
#include <mail_params.h>
#include <canon_addr.h>
#include <record.h>
#include <rec_type.h>
#include <sent.h>
#include <deliver_completed.h>
#include <opened.h>
#include <verp_sender.h>
#include <mail_proto.h>
#include <qmgr_user.h>
#include <split_addr.h>
#include <dsn_mask.h>
#include <rec_attr_map.h>
/* Client stubs. */
#include <rewrite_clnt.h>
#include <resolve_clnt.h>
/* Application-specific. */
#include "qmgr.h"
int qmgr_message_count;
int qmgr_recipient_count;
int qmgr_vrfy_pend_count;
/* qmgr_message_create - create in-core message structure */
static QMGR_MESSAGE *qmgr_message_create(const char *queue_name,
const char *queue_id, int qflags)
{
QMGR_MESSAGE *message;
message = (QMGR_MESSAGE *) mymalloc(sizeof(QMGR_MESSAGE));
qmgr_message_count++;
message->flags = 0;
message->qflags = qflags;
message->tflags = 0;
message->tflags_offset = 0;
message->rflags = QMGR_READ_FLAG_DEFAULT;
message->fp = 0;
message->refcount = 0;
message->single_rcpt = 0;
message->arrival_time.tv_sec = message->arrival_time.tv_usec = 0;
message->create_time = 0;
GETTIMEOFDAY(&message->active_time);
message->queued_time = sane_time();
message->refill_time = 0;
message->data_offset = 0;
message->queue_id = mystrdup(queue_id);
message->queue_name = mystrdup(queue_name);
message->encoding = 0;
message->sender = 0;
message->dsn_envid = 0;
message->dsn_ret = 0;
message->smtputf8 = 0;
message->filter_xport = 0;
message->inspect_xport = 0;
message->redirect_addr = 0;
message->data_size = 0;
message->cont_length = 0;
message->warn_offset = 0;
message->warn_time = 0;
message->rcpt_offset = 0;
message->verp_delims = 0;
message->client_name = 0;
message->client_addr = 0;
message->client_port = 0;
message->client_proto = 0;
message->client_helo = 0;
message->sasl_method = 0;
message->sasl_username = 0;
message->sasl_sender = 0;
message->log_ident = 0;
message->rewrite_context = 0;
recipient_list_init(&message->rcpt_list, RCPT_LIST_INIT_QUEUE);
message->rcpt_count = 0;
message->rcpt_limit = var_qmgr_msg_rcpt_limit;
message->rcpt_unread = 0;
QMGR_LIST_INIT(message->job_list);
return (message);
}
/* qmgr_message_close - close queue file */
static void qmgr_message_close(QMGR_MESSAGE *message)
{
vstream_fclose(message->fp);
message->fp = 0;
}
/* qmgr_message_open - open queue file */
static int qmgr_message_open(QMGR_MESSAGE *message)
{
/*
* Sanity check.
*/
if (message->fp)
msg_panic("%s: queue file is open", message->queue_id);
/*
* Open this queue file. Skip files that we cannot open. Back off when
* the system appears to be running out of resources.
*/
if ((message->fp = mail_queue_open(message->queue_name,
message->queue_id,
O_RDWR, 0)) == 0) {
if (errno != ENOENT)
msg_fatal("open %s %s: %m", message->queue_name, message->queue_id);
msg_warn("open %s %s: %m", message->queue_name, message->queue_id);
return (-1);
}
return (0);
}
/* qmgr_message_oldstyle_scan - support for Postfix < 1.0 queue files */
static void qmgr_message_oldstyle_scan(QMGR_MESSAGE *message)
{
VSTRING *buf;
long orig_offset, extra_offset;
int rec_type;
char *start;
/*
* Initialize. No early returns or we have a memory leak.
*/
buf = vstring_alloc(100);
if ((orig_offset = vstream_ftell(message->fp)) < 0)
msg_fatal("vstream_ftell %s: %m", VSTREAM_PATH(message->fp));
/*
* Rewind to the very beginning to make sure we see all records.
*/
if (vstream_fseek(message->fp, 0, SEEK_SET) < 0)
msg_fatal("seek file %s: %m", VSTREAM_PATH(message->fp));
/*
* Scan through the old style queue file. Count the total number of
* recipients and find the data/extra sections offsets. Note that the new
* queue files require that data_size equals extra_offset - data_offset,
* so we set data_size to this as well and ignore the size record itself
* completely.
*/
message->rcpt_unread = 0;
for (;;) {
rec_type = rec_get(message->fp, buf, 0);
if (rec_type <= 0)
/* Report missing end record later. */
break;
start = vstring_str(buf);
if (msg_verbose > 1)
msg_info("old-style scan record %c %s", rec_type, start);
if (rec_type == REC_TYPE_END)
break;
if (rec_type == REC_TYPE_DONE
|| rec_type == REC_TYPE_RCPT
|| rec_type == REC_TYPE_DRCP) {
message->rcpt_unread++;
continue;
}
if (rec_type == REC_TYPE_MESG) {
if (message->data_offset == 0) {
if ((message->data_offset = vstream_ftell(message->fp)) < 0)
msg_fatal("vstream_ftell %s: %m", VSTREAM_PATH(message->fp));
if ((extra_offset = atol(start)) <= message->data_offset)
msg_fatal("bad extra offset %s file %s",
start, VSTREAM_PATH(message->fp));
if (vstream_fseek(message->fp, extra_offset, SEEK_SET) < 0)
msg_fatal("seek file %s: %m", VSTREAM_PATH(message->fp));
message->data_size = extra_offset - message->data_offset;
}
continue;
}
}
/*
* Clean up.
*/
if (vstream_fseek(message->fp, orig_offset, SEEK_SET) < 0)
msg_fatal("seek file %s: %m", VSTREAM_PATH(message->fp));
vstring_free(buf);
/*
* Sanity checks. Verify that all required information was found,
* including the queue file end marker.
*/
if (message->data_offset == 0 || rec_type != REC_TYPE_END)
msg_fatal("%s: envelope records out of order", message->queue_id);
}
/* qmgr_message_read - read envelope records */
static int qmgr_message_read(QMGR_MESSAGE *message)
{
VSTRING *buf;
int rec_type;
long curr_offset;
long save_offset = message->rcpt_offset; /* save a flag */
int save_unread = message->rcpt_unread; /* save a count */
char *start;
int recipient_limit;
const char *error_text;
char *name;
char *value;
char *orig_rcpt = 0;
int count;
int dsn_notify = 0;
char *dsn_orcpt = 0;
int n;
int have_log_client_attr = 0;
/*
* Initialize. No early returns or we have a memory leak.
*/
buf = vstring_alloc(100);
/*
* If we re-open this file, skip over on-file recipient records that we
* already looked at, and refill the in-core recipient address list.
*
* For the first time, the message recipient limit is calculated from the
* global recipient limit. This is to avoid reading little recipients
* when the active queue is near empty. When the queue becomes full, only
* the necessary amount is read in core. Such priming is necessary
* because there are no message jobs yet.
*
* For the next time, the recipient limit is based solely on the message
* jobs' positions in the job lists and/or job stacks.
*/
if (message->rcpt_offset) {
if (message->rcpt_list.len)
msg_panic("%s: recipient list not empty on recipient reload",
message->queue_id);
if (vstream_fseek(message->fp, message->rcpt_offset, SEEK_SET) < 0)
msg_fatal("seek file %s: %m", VSTREAM_PATH(message->fp));
message->rcpt_offset = 0;
recipient_limit = message->rcpt_limit - message->rcpt_count;
} else {
recipient_limit = var_qmgr_rcpt_limit - qmgr_recipient_count;
if (recipient_limit < message->rcpt_limit)
recipient_limit = message->rcpt_limit;
}
/* Keep interrupt latency in check. */
if (recipient_limit > 5000)
recipient_limit = 5000;
if (recipient_limit <= 0)
msg_panic("%s: no recipient slots available", message->queue_id);
if (msg_verbose)
msg_info("%s: recipient limit %d", message->queue_id, recipient_limit);
/*
* Read envelope records. XXX Rely on the front-end programs to enforce
* record size limits. Read up to recipient_limit recipients from the
* queue file, to protect against memory exhaustion. Recipient records
* may appear before or after the message content, so we keep reading
* from the queue file until we have enough recipients (rcpt_offset != 0)
* and until we know all the non-recipient information.
*
* Note that the total recipient count record is accurate only for fresh
* queue files. After some of the recipients are marked as done and the
* queue file is deferred, it can be used as upper bound estimate only.
* Fortunately, this poses no major problem on the scheduling algorithm,
* as the only impact is that the already deferred messages are not
* chosen by qmgr_job_candidate() as often as they could.
*
* On the first open, we must examine all non-recipient records.
*
* Optimization: when we know that recipient records are not mixed with
* non-recipient records, as is typical with mailing list mail, then we
* can avoid having to examine all the queue file records before we can
* start deliveries. This avoids some file system thrashing with huge
* mailing lists.
*/
for (;;) {
if ((curr_offset = vstream_ftell(message->fp)) < 0)
msg_fatal("vstream_ftell %s: %m", VSTREAM_PATH(message->fp));
if (curr_offset == message->data_offset && curr_offset > 0) {
if (vstream_fseek(message->fp, message->data_size, SEEK_CUR) < 0)
msg_fatal("seek file %s: %m", VSTREAM_PATH(message->fp));
curr_offset += message->data_size;
}
rec_type = rec_get_raw(message->fp, buf, 0, REC_FLAG_NONE);
start = vstring_str(buf);
if (msg_verbose > 1)
msg_info("record %c %s", rec_type, start);
if (rec_type == REC_TYPE_PTR) {
if ((rec_type = rec_goto(message->fp, start)) == REC_TYPE_ERROR)
break;
/* Need to update curr_offset after pointer jump. */
continue;
}
if (rec_type <= 0) {
msg_warn("%s: message rejected: missing end record",
message->queue_id);
break;
}
if (rec_type == REC_TYPE_END) {
message->rflags |= QMGR_READ_FLAG_SEEN_ALL_NON_RCPT;
break;
}
/*
* Map named attributes to pseudo record types, so that we don't have
* to pollute the queue file with records that are incompatible with
* past Postfix versions. Preferably, people should be able to back
* out from an upgrade without losing mail.
*/
if (rec_type == REC_TYPE_ATTR) {
if ((error_text = split_nameval(start, &name, &value)) != 0) {
msg_warn("%s: ignoring bad attribute: %s: %.200s",
message->queue_id, error_text, start);
rec_type = REC_TYPE_ERROR;
break;
}
if ((n = rec_attr_map(name)) != 0) {
start = value;
rec_type = n;
}
}
/*
* Process recipient records.
*/
if (rec_type == REC_TYPE_RCPT) {
/* See also below for code setting orig_rcpt etc. */
if (message->rcpt_offset == 0) {
message->rcpt_unread--;
recipient_list_add(&message->rcpt_list, curr_offset,
dsn_orcpt ? dsn_orcpt : "",
dsn_notify ? dsn_notify : 0,
orig_rcpt ? orig_rcpt : "", start);
if (dsn_orcpt) {
myfree(dsn_orcpt);
dsn_orcpt = 0;
}
if (orig_rcpt) {
myfree(orig_rcpt);
orig_rcpt = 0;
}
if (dsn_notify)
dsn_notify = 0;
if (message->rcpt_list.len >= recipient_limit) {
if ((message->rcpt_offset = vstream_ftell(message->fp)) < 0)
msg_fatal("vstream_ftell %s: %m",
VSTREAM_PATH(message->fp));
if (message->rflags & QMGR_READ_FLAG_SEEN_ALL_NON_RCPT)
/* We already examined all non-recipient records. */
break;
if (message->rflags & QMGR_READ_FLAG_MIXED_RCPT_OTHER)
/* Examine all remaining non-recipient records. */
continue;
/* Optimizations for "pure recipient" record sections. */
if (curr_offset > message->data_offset) {
/* We already examined all non-recipient records. */
message->rflags |= QMGR_READ_FLAG_SEEN_ALL_NON_RCPT;
break;
}
/* Examine non-recipient records in extracted segment. */
if (vstream_fseek(message->fp, message->data_offset
+ message->data_size, SEEK_SET) < 0)
msg_fatal("seek file %s: %m", VSTREAM_PATH(message->fp));
continue;
}
}
continue;
}
if (rec_type == REC_TYPE_DONE || rec_type == REC_TYPE_DRCP) {
if (message->rcpt_offset == 0) {
message->rcpt_unread--;
if (dsn_orcpt) {
myfree(dsn_orcpt);
dsn_orcpt = 0;
}
if (orig_rcpt) {
myfree(orig_rcpt);
orig_rcpt = 0;
}
if (dsn_notify)
dsn_notify = 0;
}
continue;
}
if (rec_type == REC_TYPE_DSN_ORCPT) {
/* See also above for code clearing dsn_orcpt. */
if (dsn_orcpt != 0) {
msg_warn("%s: ignoring out-of-order DSN original recipient address <%.200s>",
message->queue_id, dsn_orcpt);
myfree(dsn_orcpt);
dsn_orcpt = 0;
}
if (message->rcpt_offset == 0)
dsn_orcpt = mystrdup(start);
continue;
}
if (rec_type == REC_TYPE_DSN_NOTIFY) {
/* See also above for code clearing dsn_notify. */
if (dsn_notify != 0) {
msg_warn("%s: ignoring out-of-order DSN notify flags <%d>",
message->queue_id, dsn_notify);
dsn_notify = 0;
}
if (message->rcpt_offset == 0) {
if (!alldig(start) || (n = atoi(start)) == 0 || !DSN_NOTIFY_OK(n))
msg_warn("%s: ignoring malformed DSN notify flags <%.200s>",
message->queue_id, start);
else
dsn_notify = n;
continue;
}
}
if (rec_type == REC_TYPE_ORCP) {
/* See also above for code clearing orig_rcpt. */
if (orig_rcpt != 0) {
msg_warn("%s: ignoring out-of-order original recipient <%.200s>",
message->queue_id, orig_rcpt);
myfree(orig_rcpt);
orig_rcpt = 0;
}
if (message->rcpt_offset == 0)
orig_rcpt = mystrdup(start);
continue;
}
/*
* Process non-recipient records.
*/
if (message->rflags & QMGR_READ_FLAG_SEEN_ALL_NON_RCPT)
/* We already examined all non-recipient records. */
continue;
if (rec_type == REC_TYPE_SIZE) {
if (message->data_offset == 0) {
if ((count = sscanf(start, "%ld %ld %d %d %ld %d",
&message->data_size, &message->data_offset,
&message->rcpt_unread, &message->rflags,
&message->cont_length,
&message->smtputf8)) >= 3) {
/* Postfix >= 1.0 (a.k.a. 20010228). */
if (message->data_offset <= 0 || message->data_size <= 0) {
msg_warn("%s: invalid size record: %.100s",
message->queue_id, start);
rec_type = REC_TYPE_ERROR;
break;
}
if (message->rflags & ~QMGR_READ_FLAG_USER) {
msg_warn("%s: invalid flags in size record: %.100s",
message->queue_id, start);
rec_type = REC_TYPE_ERROR;
break;
}
} else if (count == 1) {
/* Postfix < 1.0 (a.k.a. 20010228). */
qmgr_message_oldstyle_scan(message);
} else {
/* Can't happen. */
msg_warn("%s: message rejected: weird size record",
message->queue_id);
rec_type = REC_TYPE_ERROR;
break;
}
}
/* Postfix < 2.4 compatibility. */
if (message->cont_length == 0) {
message->cont_length = message->data_size;
} else if (message->cont_length < 0) {
msg_warn("%s: invalid size record: %.100s",
message->queue_id, start);
rec_type = REC_TYPE_ERROR;
break;
}
continue;
}
if (rec_type == REC_TYPE_TIME) {
if (message->arrival_time.tv_sec == 0)
REC_TYPE_TIME_SCAN(start, message->arrival_time);
continue;
}
if (rec_type == REC_TYPE_CTIME) {
if (message->create_time == 0)
message->create_time = atol(start);
continue;
}
if (rec_type == REC_TYPE_FILT) {
if (message->filter_xport != 0)
myfree(message->filter_xport);
message->filter_xport = mystrdup(start);
continue;
}
if (rec_type == REC_TYPE_INSP) {
if (message->inspect_xport != 0)
myfree(message->inspect_xport);
message->inspect_xport = mystrdup(start);
continue;
}
if (rec_type == REC_TYPE_RDR) {
if (message->redirect_addr != 0)
myfree(message->redirect_addr);
message->redirect_addr = mystrdup(start);
continue;
}
if (rec_type == REC_TYPE_FROM) {
if (message->sender == 0) {
message->sender = mystrdup(start);
opened(message->queue_id, message->sender,
message->cont_length, message->rcpt_unread,
"queue %s", message->queue_name);
}
continue;
}
if (rec_type == REC_TYPE_DSN_ENVID) {
if (message->dsn_envid == 0)
message->dsn_envid = mystrdup(start);
}
if (rec_type == REC_TYPE_DSN_RET) {
if (message->dsn_ret == 0) {
if (!alldig(start) || (n = atoi(start)) == 0 || !DSN_RET_OK(n))
msg_warn("%s: ignoring malformed DSN RET flags in queue file record:%.100s",
message->queue_id, start);
else
message->dsn_ret = n;
}
}
if (rec_type == REC_TYPE_ATTR) {
/* Allow extra segment to override envelope segment info. */
if (strcmp(name, MAIL_ATTR_ENCODING) == 0) {
if (message->encoding != 0)
myfree(message->encoding);
message->encoding = mystrdup(value);
}
/*
* Backwards compatibility. Before Postfix 2.3, the logging
* attributes were called client_name, etc. Now they are called
* log_client_name. etc., and client_name is used for the actual
* client information. To support old queue files we accept both
* names for the purpose of logging; the new name overrides the
* old one.
*
* XXX Do not use the "legacy" client_name etc. attribute values for
* initializing the logging attributes, when this file already
* contains the "modern" log_client_name etc. logging attributes.
* Otherwise, logging attributes that are not present in the
* queue file would be set with information from the real client.
*/
else if (strcmp(name, MAIL_ATTR_ACT_CLIENT_NAME) == 0) {
if (have_log_client_attr == 0 && message->client_name == 0)
message->client_name = mystrdup(value);
} else if (strcmp(name, MAIL_ATTR_ACT_CLIENT_ADDR) == 0) {
if (have_log_client_attr == 0 && message->client_addr == 0)
message->client_addr = mystrdup(value);
} else if (strcmp(name, MAIL_ATTR_ACT_CLIENT_PORT) == 0) {
if (have_log_client_attr == 0 && message->client_port == 0)
message->client_port = mystrdup(value);
} else if (strcmp(name, MAIL_ATTR_ACT_PROTO_NAME) == 0) {
if (have_log_client_attr == 0 && message->client_proto == 0)
message->client_proto = mystrdup(value);
} else if (strcmp(name, MAIL_ATTR_ACT_HELO_NAME) == 0) {
if (have_log_client_attr == 0 && message->client_helo == 0)
message->client_helo = mystrdup(value);
}
/* Original client attributes. */
else if (strcmp(name, MAIL_ATTR_LOG_CLIENT_NAME) == 0) {
if (message->client_name != 0)
myfree(message->client_name);
message->client_name = mystrdup(value);
have_log_client_attr = 1;
} else if (strcmp(name, MAIL_ATTR_LOG_CLIENT_ADDR) == 0) {
if (message->client_addr != 0)
myfree(message->client_addr);
message->client_addr = mystrdup(value);
have_log_client_attr = 1;
} else if (strcmp(name, MAIL_ATTR_LOG_CLIENT_PORT) == 0) {
if (message->client_port != 0)
myfree(message->client_port);
message->client_port = mystrdup(value);
have_log_client_attr = 1;
} else if (strcmp(name, MAIL_ATTR_LOG_PROTO_NAME) == 0) {
if (message->client_proto != 0)
myfree(message->client_proto);
message->client_proto = mystrdup(value);
have_log_client_attr = 1;
} else if (strcmp(name, MAIL_ATTR_LOG_HELO_NAME) == 0) {
if (message->client_helo != 0)
myfree(message->client_helo);
message->client_helo = mystrdup(value);
have_log_client_attr = 1;
} else if (strcmp(name, MAIL_ATTR_SASL_METHOD) == 0) {
if (message->sasl_method == 0)
message->sasl_method = mystrdup(value);
else
msg_warn("%s: ignoring multiple %s attribute: %s",
message->queue_id, MAIL_ATTR_SASL_METHOD, value);
} else if (strcmp(name, MAIL_ATTR_SASL_USERNAME) == 0) {
if (message->sasl_username == 0)
message->sasl_username = mystrdup(value);
else
msg_warn("%s: ignoring multiple %s attribute: %s",
message->queue_id, MAIL_ATTR_SASL_USERNAME, value);
} else if (strcmp(name, MAIL_ATTR_SASL_SENDER) == 0) {
if (message->sasl_sender == 0)
message->sasl_sender = mystrdup(value);
else
msg_warn("%s: ignoring multiple %s attribute: %s",
message->queue_id, MAIL_ATTR_SASL_SENDER, value);
} else if (strcmp(name, MAIL_ATTR_LOG_IDENT) == 0) {
if (message->log_ident == 0)
message->log_ident = mystrdup(value);
else
msg_warn("%s: ignoring multiple %s attribute: %s",
message->queue_id, MAIL_ATTR_LOG_IDENT, value);
} else if (strcmp(name, MAIL_ATTR_RWR_CONTEXT) == 0) {
if (message->rewrite_context == 0)
message->rewrite_context = mystrdup(value);
else
msg_warn("%s: ignoring multiple %s attribute: %s",
message->queue_id, MAIL_ATTR_RWR_CONTEXT, value);
}
/*
* Optional tracing flags (verify, sendmail -v, sendmail -bv).
* This record is killed after a trace logfile report is sent and
* after the logfile is deleted.
*/
else if (strcmp(name, MAIL_ATTR_TRACE_FLAGS) == 0) {
if (message->tflags == 0) {
message->tflags = DEL_REQ_TRACE_FLAGS(atoi(value));
if (message->tflags == DEL_REQ_FLAG_RECORD)
message->tflags_offset = curr_offset;
else
message->tflags_offset = 0;
if ((message->tflags & DEL_REQ_FLAG_MTA_VRFY) != 0)
qmgr_vrfy_pend_count++;
}
}
continue;
}
if (rec_type == REC_TYPE_WARN) {
if (message->warn_offset == 0) {
message->warn_offset = curr_offset;
REC_TYPE_WARN_SCAN(start, message->warn_time);
}
continue;
}
if (rec_type == REC_TYPE_VERP) {
if (message->verp_delims == 0) {
if (message->sender == 0 || message->sender[0] == 0) {
msg_warn("%s: ignoring VERP request for null sender",
message->queue_id);
} else if (verp_delims_verify(start) != 0) {
msg_warn("%s: ignoring bad VERP request: \"%.100s\"",
message->queue_id, start);
} else {
if (msg_verbose)
msg_info("%s: enabling VERP for sender \"%.100s\"",
message->queue_id, message->sender);
message->single_rcpt = 1;
message->verp_delims = mystrdup(start);
}
}
continue;
}
}
/*
* Grr.
*/
if (dsn_orcpt != 0) {
if (rec_type > 0)
msg_warn("%s: ignoring out-of-order DSN original recipient <%.200s>",
message->queue_id, dsn_orcpt);
myfree(dsn_orcpt);
}
if (orig_rcpt != 0) {
if (rec_type > 0)
msg_warn("%s: ignoring out-of-order original recipient <%.200s>",
message->queue_id, orig_rcpt);
myfree(orig_rcpt);
}
/*
* After sending a "delayed" warning, request sender notification when
* message delivery is completed. While "mail delayed" notifications are
* bad enough because they multiply the amount of email traffic, "delay
* cleared" notifications are even worse because they come in a sudden
* burst when the queue drains after a network outage.
*/
if (var_dsn_delay_cleared && message->warn_time < 0)
message->tflags |= DEL_REQ_FLAG_REC_DLY_SENT;
/*
* Remember when we have read the last recipient batch. Note that we do
* it here after reading as reading might have used considerable amount
* of time.
*/
message->refill_time = sane_time();
/*
* Avoid clumsiness elsewhere in the program. When sending data across an
* IPC channel, sending an empty string is more convenient than sending a
* null pointer.
*/
if (message->dsn_envid == 0)
message->dsn_envid = mystrdup("");
if (message->encoding == 0)
message->encoding = mystrdup(MAIL_ATTR_ENC_NONE);
if (message->client_name == 0)
message->client_name = mystrdup("");
if (message->client_addr == 0)
message->client_addr = mystrdup("");
if (message->client_port == 0)
message->client_port = mystrdup("");
if (message->client_proto == 0)
message->client_proto = mystrdup("");
if (message->client_helo == 0)
message->client_helo = mystrdup("");
if (message->sasl_method == 0)
message->sasl_method = mystrdup("");
if (message->sasl_username == 0)
message->sasl_username = mystrdup("");
if (message->sasl_sender == 0)
message->sasl_sender = mystrdup("");
if (message->log_ident == 0)
message->log_ident = mystrdup("");
if (message->rewrite_context == 0)
message->rewrite_context = mystrdup(MAIL_ATTR_RWR_LOCAL);
/* Postfix < 2.3 compatibility. */
if (message->create_time == 0)
message->create_time = message->arrival_time.tv_sec;
/*
* Clean up.
*/
vstring_free(buf);
/*
* Sanity checks. Verify that all required information was found,
* including the queue file end marker.
*/
if (message->rcpt_unread < 0
|| (message->rcpt_offset == 0 && message->rcpt_unread != 0)) {
msg_warn("%s: rcpt count mismatch (%d)",
message->queue_id, message->rcpt_unread);
message->rcpt_unread = 0;
}
if (rec_type <= 0) {
/* Already logged warning. */
} else if (message->arrival_time.tv_sec == 0) {
msg_warn("%s: message rejected: missing arrival time record",
message->queue_id);
} else if (message->sender == 0) {
msg_warn("%s: message rejected: missing sender record",
message->queue_id);
} else if (message->data_offset == 0) {
msg_warn("%s: message rejected: missing size record",
message->queue_id);
} else {
return (0);
}
message->rcpt_offset = save_offset; /* restore flag */
message->rcpt_unread = save_unread; /* restore count */
recipient_list_free(&message->rcpt_list);
recipient_list_init(&message->rcpt_list, RCPT_LIST_INIT_QUEUE);
return (-1);
}
/* qmgr_message_update_warn - update the time of next delay warning */
void qmgr_message_update_warn(QMGR_MESSAGE *message)
{
/*
* After the "mail delayed" warning, optionally send a "delay cleared"
* notification.
*/
if (qmgr_message_open(message)
|| vstream_fseek(message->fp, message->warn_offset, SEEK_SET) < 0
|| rec_fprintf(message->fp, REC_TYPE_WARN, REC_TYPE_WARN_FORMAT,
REC_TYPE_WARN_ARG(-1)) < 0
|| vstream_fflush(message->fp))
msg_fatal("update queue file %s: %m", VSTREAM_PATH(message->fp));
qmgr_message_close(message);
}
/* qmgr_message_kill_record - mark one message record as killed */
void qmgr_message_kill_record(QMGR_MESSAGE *message, long offset)
{
if (offset <= 0)
msg_panic("qmgr_message_kill_record: bad offset 0x%lx", offset);
if (qmgr_message_open(message)
|| rec_put_type(message->fp, REC_TYPE_KILL, offset) < 0
|| vstream_fflush(message->fp))
msg_fatal("update queue file %s: %m", VSTREAM_PATH(message->fp));
qmgr_message_close(message);
}
/* qmgr_message_sort_compare - compare recipient information */
static int qmgr_message_sort_compare(const void *p1, const void *p2)
{
RECIPIENT *rcpt1 = (RECIPIENT *) p1;
RECIPIENT *rcpt2 = (RECIPIENT *) p2;
QMGR_QUEUE *queue1;
QMGR_QUEUE *queue2;
char *at1;
char *at2;
int result;
/*
* Compare most significant to least significant recipient attributes.
* The comparison function must be transitive, so NULL values need to be
* assigned an ordinal (we set NULL last).
*/
queue1 = rcpt1->u.queue;
queue2 = rcpt2->u.queue;
if (queue1 != 0 && queue2 == 0)
return (-1);
if (queue1 == 0 && queue2 != 0)
return (1);
if (queue1 != 0 && queue2 != 0) {
/*
* Compare message transport.
*/
if ((result = strcmp(queue1->transport->name,
queue2->transport->name)) != 0)
return (result);
/*
* Compare queue name (nexthop or recipient@nexthop).
*/
if ((result = strcmp(queue1->name, queue2->name)) != 0)
return (result);
}
/*
* Compare recipient domain.
*/
at1 = strrchr(rcpt1->address, '@');
at2 = strrchr(rcpt2->address, '@');
if (at1 == 0 && at2 != 0)
return (1);
if (at1 != 0 && at2 == 0)
return (-1);
if (at1 != 0 && at2 != 0
&& (result = strcasecmp_utf8(at1, at2)) != 0)
return (result);
/*
* Compare recipient address.
*/
return (strcmp(rcpt1->address, rcpt2->address));
}
/* qmgr_message_sort - sort message recipient addresses by domain */
static void qmgr_message_sort(QMGR_MESSAGE *message)
{
qsort((void *) message->rcpt_list.info, message->rcpt_list.len,
sizeof(message->rcpt_list.info[0]), qmgr_message_sort_compare);
if (msg_verbose) {
RECIPIENT_LIST list = message->rcpt_list;
RECIPIENT *rcpt;
msg_info("start sorted recipient list");
for (rcpt = list.info; rcpt < list.info + list.len; rcpt++)
msg_info("qmgr_message_sort: %s", rcpt->address);
msg_info("end sorted recipient list");
}
}
/* qmgr_resolve_one - resolve or skip one recipient */
static int qmgr_resolve_one(QMGR_MESSAGE *message, RECIPIENT *recipient,
const char *addr, RESOLVE_REPLY *reply)
{
#define QMGR_REDIRECT(rp, tp, np) do { \
(rp)->flags = 0; \
vstring_strcpy((rp)->transport, (tp)); \
vstring_strcpy((rp)->nexthop, (np)); \
} while (0)
if ((message->tflags & DEL_REQ_FLAG_MTA_VRFY) == 0)
resolve_clnt_query_from(message->sender, addr, reply);
else
resolve_clnt_verify_from(message->sender, addr, reply);
if (reply->flags & RESOLVE_FLAG_FAIL) {
QMGR_REDIRECT(reply, MAIL_SERVICE_RETRY,
"4.3.0 address resolver failure");
return (0);
} else if (reply->flags & RESOLVE_FLAG_ERROR) {
QMGR_REDIRECT(reply, MAIL_SERVICE_ERROR,
"5.1.3 bad address syntax");
return (0);
} else {
return (0);
}
}
/* qmgr_message_resolve - resolve recipients */
static void qmgr_message_resolve(QMGR_MESSAGE *message)
{
static ARGV *defer_xport_argv;
RECIPIENT_LIST list = message->rcpt_list;
RECIPIENT *recipient;
QMGR_TRANSPORT *transport = 0;
QMGR_QUEUE *queue = 0;
RESOLVE_REPLY reply;
VSTRING *queue_name;
char *at;
char **cpp;
char *nexthop;
ssize_t len;
int status;
DSN dsn;
MSG_STATS stats;
DSN *saved_dsn;
#define STREQ(x,y) (strcmp(x,y) == 0)
#define STR vstring_str
#define LEN VSTRING_LEN
resolve_clnt_init(&reply);
queue_name = vstring_alloc(1);
for (recipient = list.info; recipient < list.info + list.len; recipient++) {
/*
* Redirect overrides all else. But only once (per entire message).
* For consistency with the remainder of Postfix, rewrite the address
* to canonical form before resolving it.
*/
if (message->redirect_addr) {
if (recipient > list.info) {
recipient->u.queue = 0;
continue;
}
message->rcpt_offset = 0;
message->rcpt_unread = 0;
rewrite_clnt_internal(REWRITE_CANON, message->redirect_addr,
reply.recipient);
RECIPIENT_UPDATE(recipient->address, STR(reply.recipient));
if (qmgr_resolve_one(message, recipient,
recipient->address, &reply) < 0)
continue;
if (!STREQ(recipient->address, STR(reply.recipient)))
RECIPIENT_UPDATE(recipient->address, STR(reply.recipient));
}
/*
* Content filtering overrides the address resolver.
*
* XXX Bypass content_filter inspection for user-generated probes
* (sendmail -bv). MTA-generated probes never have the "please filter
* me" bits turned on, but we handle them here anyway for the sake of
* future proofing.
*/
#define FILTER_WITHOUT_NEXTHOP(filter, next) \
(((next) = split_at((filter), ':')) == 0 || *(next) == 0)
#define RCPT_WITHOUT_DOMAIN(rcpt, next) \
((next = strrchr(rcpt, '@')) == 0 || *++(next) == 0)
else if (message->filter_xport
&& (message->tflags & DEL_REQ_TRACE_ONLY_MASK) == 0) {
reply.flags = 0;
vstring_strcpy(reply.transport, message->filter_xport);
if (FILTER_WITHOUT_NEXTHOP(STR(reply.transport), nexthop)
&& *(nexthop = var_def_filter_nexthop) == 0
&& RCPT_WITHOUT_DOMAIN(recipient->address, nexthop))
nexthop = var_myhostname;
vstring_strcpy(reply.nexthop, nexthop);
vstring_strcpy(reply.recipient, recipient->address);
}
/*
* Resolve the destination to (transport, nexthop, address). The
* result address may differ from the one specified by the sender.
*/
else {
if (qmgr_resolve_one(message, recipient,
recipient->address, &reply) < 0)
continue;
if (!STREQ(recipient->address, STR(reply.recipient)))
RECIPIENT_UPDATE(recipient->address, STR(reply.recipient));
}
/*
* Bounce null recipients. This should never happen, but is most
* likely the result of a fault in a different program, so aborting
* the queue manager process does not help.
*/
if (recipient->address[0] == 0) {
QMGR_REDIRECT(&reply, MAIL_SERVICE_ERROR,
"5.1.3 null recipient address");
}
/*
* Discard mail to the local double bounce address here, so this
* system can run without a local delivery agent. They'd still have
* to configure something for mail directed to the local postmaster,
* though, but that is an RFC requirement anyway.
*
* XXX This lookup should be done in the resolver, and the mail should
* be directed to a general-purpose null delivery agent.
*/
if (reply.flags & RESOLVE_CLASS_LOCAL) {
at = strrchr(STR(reply.recipient), '@');
len = (at ? (at - STR(reply.recipient))
: strlen(STR(reply.recipient)));
if (strncasecmp_utf8(STR(reply.recipient),
var_double_bounce_sender, len) == 0
&& !var_double_bounce_sender[len]) {
status = sent(message->tflags, message->queue_id,
QMGR_MSG_STATS(&stats, message), recipient,
"none", DSN_SIMPLE(&dsn, "2.0.0",
"undeliverable postmaster notification discarded"));
if (status == 0) {
deliver_completed(message->fp, recipient->offset);
#if 0
/* It's the default verification probe sender address. */
msg_warn("%s: undeliverable postmaster notification discarded",
message->queue_id);
#endif
} else
message->flags |= status;
continue;
}
}
/*
* Optionally defer deliveries over specific transports, unless the
* restriction is lifted temporarily.
*/
if (*var_defer_xports && (message->qflags & QMGR_FLUSH_DFXP) == 0) {
if (defer_xport_argv == 0)
defer_xport_argv = argv_split(var_defer_xports, CHARS_COMMA_SP);
for (cpp = defer_xport_argv->argv; *cpp; cpp++)
if (strcmp(*cpp, STR(reply.transport)) == 0)
break;
if (*cpp) {
QMGR_REDIRECT(&reply, MAIL_SERVICE_RETRY,
"4.3.2 deferred transport");
}
}
/*
* Safety: defer excess address verification requests.
*/
if ((message->tflags & DEL_REQ_FLAG_MTA_VRFY) != 0
&& qmgr_vrfy_pend_count > var_vrfy_pend_limit)
QMGR_REDIRECT(&reply, MAIL_SERVICE_RETRY,
"4.3.2 Too many address verification requests");
/*
* Look up or instantiate the proper transport.
*/
if (transport == 0 || !STREQ(transport->name, STR(reply.transport))) {
if ((transport = qmgr_transport_find(STR(reply.transport))) == 0)
transport = qmgr_transport_create(STR(reply.transport));
queue = 0;
}
/*
* This message is being flushed. If need-be unthrottle the
* transport.
*/
if ((message->qflags & QMGR_FLUSH_EACH) != 0
&& QMGR_TRANSPORT_THROTTLED(transport))
qmgr_transport_unthrottle(transport);
/*
* This transport is dead. Defer delivery to this recipient.
*/
if (QMGR_TRANSPORT_THROTTLED(transport)) {
saved_dsn = transport->dsn;
if ((transport = qmgr_error_transport(MAIL_SERVICE_RETRY)) != 0) {
nexthop = qmgr_error_nexthop(saved_dsn);
vstring_strcpy(reply.nexthop, nexthop);
myfree(nexthop);
queue = 0;
} else {
qmgr_defer_recipient(message, recipient, saved_dsn);
continue;
}
}
/*
* The nexthop destination provides the default name for the
* per-destination queue. When the delivery agent accepts only one
* recipient per delivery, give each recipient its own queue, so that
* deliveries to different recipients of the same message can happen
* in parallel, and so that we can enforce per-recipient concurrency
* limits and prevent one recipient from tying up all the delivery
* agent resources. We use recipient@nexthop as queue name rather
* than the actual recipient domain name, so that one recipient in
* multiple equivalent domains cannot evade the per-recipient
* concurrency limit. Split the address on the recipient delimiter if
* one is defined, so that extended addresses don't get extra
* delivery slots.
*
* Fold the result to lower case so that we don't have multiple queues
* for the same name.
*
* Important! All recipients in a queue must have the same nexthop
* value. It is OK to have multiple queues with the same nexthop
* value, but only when those queues are named after recipients.
*
* The single-recipient code below was written for local(8) like
* delivery agents, and assumes that all domains that deliver to the
* same (transport + nexthop) are aliases for $nexthop. Delivery
* concurrency is changed from per-domain into per-recipient, by
* changing the queue name from nexthop into localpart@nexthop.
*
* XXX This assumption is incorrect when different destinations share
* the same (transport + nexthop). In reality, such transports are
* rarely configured to use single-recipient deliveries. The fix is
* to decouple the per-destination recipient limit from the
* per-destination concurrency.
*/
vstring_strcpy(queue_name, STR(reply.nexthop));
if (strcmp(transport->name, MAIL_SERVICE_ERROR) != 0
&& strcmp(transport->name, MAIL_SERVICE_RETRY) != 0
&& transport->recipient_limit == 1) {
/* Copy the recipient localpart. */
at = strrchr(STR(reply.recipient), '@');
len = (at ? (at - STR(reply.recipient))
: strlen(STR(reply.recipient)));
vstring_strncpy(queue_name, STR(reply.recipient), len);
/* Remove the address extension from the recipient localpart. */
if (*var_rcpt_delim && split_addr(STR(queue_name), var_rcpt_delim))
vstring_truncate(queue_name, strlen(STR(queue_name)));
/* Assume the recipient domain is equivalent to nexthop. */
vstring_sprintf_append(queue_name, "@%s", STR(reply.nexthop));
}
lowercase(STR(queue_name));
/*
* This transport is alive. Find or instantiate a queue for this
* recipient.
*/
if (queue == 0 || !STREQ(queue->name, STR(queue_name))) {
if ((queue = qmgr_queue_find(transport, STR(queue_name))) == 0)
queue = qmgr_queue_create(transport, STR(queue_name),
STR(reply.nexthop));
}
/*
* This message is being flushed. If need-be unthrottle the queue.
*/
if ((message->qflags & QMGR_FLUSH_EACH) != 0
&& QMGR_QUEUE_THROTTLED(queue))
qmgr_queue_unthrottle(queue);
/*
* This queue is dead. Defer delivery to this recipient.
*/
if (QMGR_QUEUE_THROTTLED(queue)) {
saved_dsn = queue->dsn;
if ((queue = qmgr_error_queue(MAIL_SERVICE_RETRY, saved_dsn)) == 0) {
qmgr_defer_recipient(message, recipient, saved_dsn);
continue;
}
}
/*
* This queue is alive. Bind this recipient to this queue instance.
*/
recipient->u.queue = queue;
}
resolve_clnt_free(&reply);
vstring_free(queue_name);
}
/* qmgr_message_assign - assign recipients to specific delivery requests */
static void qmgr_message_assign(QMGR_MESSAGE *message)
{
RECIPIENT_LIST list = message->rcpt_list;
RECIPIENT *recipient;
QMGR_ENTRY *entry = 0;
QMGR_QUEUE *queue;
QMGR_JOB *job = 0;
QMGR_PEER *peer = 0;
/*
* Try to bundle as many recipients in a delivery request as we can. When
* the recipient resolves to the same site and transport as an existing
* recipient, do not create a new queue entry, just move that recipient
* to the recipient list of the existing queue entry. All this provided
* that we do not exceed the transport-specific limit on the number of
* recipients per transaction.
*/
#define LIMIT_OK(limit, count) ((limit) == 0 || ((count) < (limit)))
for (recipient = list.info; recipient < list.info + list.len; recipient++) {
/*
* Skip recipients with a dead transport or destination.
*/
if ((queue = recipient->u.queue) == 0)
continue;
/*
* Lookup or instantiate the message job if necessary.
*/
if (job == 0 || queue->transport != job->transport) {
job = qmgr_job_obtain(message, queue->transport);
peer = 0;
}
/*
* Lookup or instantiate job peer if necessary.
*/
if (peer == 0 || queue != peer->queue)
peer = qmgr_peer_obtain(job, queue);
/*
* Lookup old or instantiate new recipient entry. We try to reuse the
* last existing entry whenever the recipient limit permits.
*/
entry = peer->entry_list.prev;
if (message->single_rcpt || entry == 0
|| !LIMIT_OK(queue->transport->recipient_limit, entry->rcpt_list.len))
entry = qmgr_entry_create(peer, message);
/*
* Add the recipient to the current entry and increase all those
* recipient counters accordingly.
*/
recipient_list_add(&entry->rcpt_list, recipient->offset,
recipient->dsn_orcpt, recipient->dsn_notify,
recipient->orig_addr, recipient->address);
job->rcpt_count++;
message->rcpt_count++;
qmgr_recipient_count++;
}
/*
* Release the message recipient list and reinitialize it for the next
* time.
*/
recipient_list_free(&message->rcpt_list);
recipient_list_init(&message->rcpt_list, RCPT_LIST_INIT_QUEUE);
/*
* Note that even if qmgr_job_obtain() reset the job candidate cache of
* all transports to which we assigned new recipients, this message may
* have other jobs which we didn't touch at all this time. But the number
* of unread recipients affecting the candidate selection might have
* changed considerably, so we must invalidate the caches if it might be
* of some use.
*/
for (job = message->job_list.next; job; job = job->message_peers.next)
if (job->selected_entries < job->read_entries
&& job->blocker_tag != job->transport->blocker_tag)
job->transport->candidate_cache_current = 0;
}
/* qmgr_message_move_limits - recycle unused recipient slots */
static void qmgr_message_move_limits(QMGR_MESSAGE *message)
{
QMGR_JOB *job;
for (job = message->job_list.next; job; job = job->message_peers.next)
qmgr_job_move_limits(job);
}
/* qmgr_message_free - release memory for in-core message structure */
void qmgr_message_free(QMGR_MESSAGE *message)
{
QMGR_JOB *job;
if (message->refcount != 0)
msg_panic("qmgr_message_free: reference len: %d", message->refcount);
if (message->fp)
msg_panic("qmgr_message_free: queue file is open");
while ((job = message->job_list.next) != 0)
qmgr_job_free(job);
myfree(message->queue_id);
myfree(message->queue_name);
if (message->dsn_envid)
myfree(message->dsn_envid);
if (message->encoding)
myfree(message->encoding);
if (message->sender)
myfree(message->sender);
if (message->verp_delims)
myfree(message->verp_delims);
if (message->filter_xport)
myfree(message->filter_xport);
if (message->inspect_xport)
myfree(message->inspect_xport);
if (message->redirect_addr)
myfree(message->redirect_addr);
if (message->client_name)
myfree(message->client_name);
if (message->client_addr)
myfree(message->client_addr);
if (message->client_port)
myfree(message->client_port);
if (message->client_proto)
myfree(message->client_proto);
if (message->client_helo)
myfree(message->client_helo);
if (message->sasl_method)
myfree(message->sasl_method);
if (message->sasl_username)
myfree(message->sasl_username);
if (message->sasl_sender)
myfree(message->sasl_sender);
if (message->log_ident)
myfree(message->log_ident);
if (message->rewrite_context)
myfree(message->rewrite_context);
recipient_list_free(&message->rcpt_list);
qmgr_message_count--;
if ((message->tflags & DEL_REQ_FLAG_MTA_VRFY) != 0)
qmgr_vrfy_pend_count--;
myfree((void *) message);
}
/* qmgr_message_alloc - create in-core message structure */
QMGR_MESSAGE *qmgr_message_alloc(const char *queue_name, const char *queue_id,
int qflags, mode_t mode)
{
const char *myname = "qmgr_message_alloc";
QMGR_MESSAGE *message;
if (msg_verbose)
msg_info("%s: %s %s", myname, queue_name, queue_id);
/*
* Create an in-core message structure.
*/
message = qmgr_message_create(queue_name, queue_id, qflags);
/*
* Extract message envelope information: time of arrival, sender address,
* recipient addresses. Skip files with malformed envelope information.
*/
#define QMGR_LOCK_MODE (MYFLOCK_OP_EXCLUSIVE | MYFLOCK_OP_NOWAIT)
if (qmgr_message_open(message) < 0) {
qmgr_message_free(message);
return (0);
}
if (myflock(vstream_fileno(message->fp), INTERNAL_LOCK, QMGR_LOCK_MODE) < 0) {
msg_info("%s: skipped, still being delivered", queue_id);
qmgr_message_close(message);
qmgr_message_free(message);
return (QMGR_MESSAGE_LOCKED);
}
if (qmgr_message_read(message) < 0) {
qmgr_message_close(message);
qmgr_message_free(message);
return (0);
} else {
/*
* We have validated the queue file content, so it is safe to modify
* the file properties now.
*/
if (mode != 0 && fchmod(vstream_fileno(message->fp), mode) < 0)
msg_fatal("fchmod %s: %m", VSTREAM_PATH(message->fp));
/*
* Reset the defer log. This code should not be here, but we must
* reset the defer log *after* acquiring the exclusive lock on the
* queue file and *before* resolving new recipients. Since all those
* operations are encapsulated so nicely by this routine, the defer
* log reset has to be done here as well.
*
* Note: it is safe to remove the defer logfile from a previous queue
* run of this queue file, because the defer log contains information
* about recipients that still exist in this queue file.
*/
if (mail_queue_remove(MAIL_QUEUE_DEFER, queue_id) && errno != ENOENT)
msg_fatal("%s: %s: remove %s %s: %m", myname,
queue_id, MAIL_QUEUE_DEFER, queue_id);
qmgr_message_sort(message);
qmgr_message_resolve(message);
qmgr_message_sort(message);
qmgr_message_assign(message);
qmgr_message_close(message);
if (message->rcpt_offset == 0)
qmgr_message_move_limits(message);
return (message);
}
}
/* qmgr_message_realloc - refresh in-core message structure */
QMGR_MESSAGE *qmgr_message_realloc(QMGR_MESSAGE *message)
{
const char *myname = "qmgr_message_realloc";
/*
* Sanity checks.
*/
if (message->rcpt_offset <= 0)
msg_panic("%s: invalid offset: %ld", myname, message->rcpt_offset);
if (msg_verbose)
msg_info("%s: %s %s offset %ld", myname, message->queue_name,
message->queue_id, message->rcpt_offset);
/*
* Extract recipient addresses. Skip files with malformed envelope
* information.
*/
if (qmgr_message_open(message) < 0)
return (0);
if (qmgr_message_read(message) < 0) {
qmgr_message_close(message);
return (0);
} else {
qmgr_message_sort(message);
qmgr_message_resolve(message);
qmgr_message_sort(message);
qmgr_message_assign(message);
qmgr_message_close(message);
if (message->rcpt_offset == 0)
qmgr_message_move_limits(message);
return (message);
}
}