/* $OpenBSD: queue.c,v 1.175 2015/12/28 22:08:30 jung Exp $ */ /* * Copyright (c) 2008 Gilles Chehade * Copyright (c) 2008 Pierre-Yves Ritschard * Copyright (c) 2012 Eric Faurot * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "smtpd.h" #include "log.h" static void queue_imsg(struct mproc *, struct imsg *); static void queue_timeout(int, short, void *); static void queue_bounce(struct envelope *, struct delivery_bounce *); static void queue_shutdown(void); static void queue_sig_handler(int, short, void *); static void queue_log(const struct envelope *, const char *, const char *); static void queue_msgid_walk(int, short, void *); static size_t flow_agent_hiwat = 10 * 1024 * 1024; static size_t flow_agent_lowat = 1 * 1024 * 1024; static size_t flow_scheduler_hiwat = 10 * 1024 * 1024; static size_t flow_scheduler_lowat = 1 * 1024 * 1024; #define LIMIT_AGENT 0x01 #define LIMIT_SCHEDULER 0x02 static int limit = 0; static void queue_imsg(struct mproc *p, struct imsg *imsg) { struct delivery_bounce bounce; struct msg_walkinfo *wi; struct timeval tv; struct bounce_req_msg *req_bounce; struct envelope evp; struct msg m; const char *reason; uint64_t reqid, evpid, holdq; uint32_t msgid; time_t nexttry; size_t buflen, id_sz, n_evp; int fd, mta_ext, ret, v, flags, code; char buf[sizeof(evp)]; memset(&bounce, 0, sizeof(struct delivery_bounce)); if (p->proc == PROC_PONY) { switch (imsg->hdr.type) { case IMSG_SMTP_MESSAGE_CREATE: m_msg(&m, imsg); m_get_id(&m, &reqid); m_end(&m); ret = queue_message_create(&msgid); m_create(p, IMSG_SMTP_MESSAGE_CREATE, 0, 0, -1); m_add_id(p, reqid); if (ret == 0) m_add_int(p, 0); else { m_add_int(p, 1); m_add_msgid(p, msgid); } m_close(p); return; case IMSG_SMTP_MESSAGE_ROLLBACK: m_msg(&m, imsg); m_get_msgid(&m, &msgid); m_end(&m); queue_message_delete(msgid); m_create(p_scheduler, IMSG_QUEUE_MESSAGE_ROLLBACK, 0, 0, -1); m_add_msgid(p_scheduler, msgid); m_close(p_scheduler); return; case IMSG_SMTP_MESSAGE_COMMIT: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_msgid(&m, &msgid); m_end(&m); ret = queue_message_commit(msgid); m_create(p, IMSG_SMTP_MESSAGE_COMMIT, 0, 0, -1); m_add_id(p, reqid); m_add_int(p, (ret == 0) ? 0 : 1); m_close(p); if (ret) { m_create(p_scheduler, IMSG_QUEUE_MESSAGE_COMMIT, 0, 0, -1); m_add_msgid(p_scheduler, msgid); m_close(p_scheduler); } return; case IMSG_SMTP_MESSAGE_OPEN: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_msgid(&m, &msgid); m_end(&m); fd = queue_message_fd_rw(msgid); m_create(p, IMSG_SMTP_MESSAGE_OPEN, 0, 0, fd); m_add_id(p, reqid); m_add_int(p, (fd == -1) ? 0 : 1); m_close(p); return; case IMSG_QUEUE_SMTP_SESSION: bounce_fd(imsg->fd); return; } } if (p->proc == PROC_LKA) { switch (imsg->hdr.type) { case IMSG_LKA_ENVELOPE_SUBMIT: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_envelope(&m, &evp); m_end(&m); if (evp.id == 0) log_warnx("warn: imsg_queue_submit_envelope: evpid=0"); if (evpid_to_msgid(evp.id) == 0) log_warnx("warn: imsg_queue_submit_envelope: msgid=0, " "evpid=%016"PRIx64, evp.id); ret = queue_envelope_create(&evp); m_create(p_pony, IMSG_QUEUE_ENVELOPE_SUBMIT, 0, 0, -1); m_add_id(p_pony, reqid); if (ret == 0) m_add_int(p_pony, 0); else { m_add_int(p_pony, 1); m_add_evpid(p_pony, evp.id); } m_close(p_pony); if (ret) { m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_SUBMIT, 0, 0, -1); m_add_envelope(p_scheduler, &evp); m_close(p_scheduler); } return; case IMSG_LKA_ENVELOPE_COMMIT: m_msg(&m, imsg); m_get_id(&m, &reqid); m_end(&m); m_create(p_pony, IMSG_QUEUE_ENVELOPE_COMMIT, 0, 0, -1); m_add_id(p_pony, reqid); m_add_int(p_pony, 1); m_close(p_pony); return; } } if (p->proc == PROC_SCHEDULER) { switch (imsg->hdr.type) { case IMSG_SCHED_ENVELOPE_REMOVE: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_end(&m); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_ACK, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_close(p_scheduler); /* already removed by scheduler */ if (queue_envelope_load(evpid, &evp) == 0) return; queue_log(&evp, "Remove", "Removed by administrator"); queue_envelope_delete(evpid); return; case IMSG_SCHED_ENVELOPE_EXPIRE: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_end(&m); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_ACK, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_close(p_scheduler); /* already removed by scheduler*/ if (queue_envelope_load(evpid, &evp) == 0) return; bounce.type = B_ERROR; envelope_set_errormsg(&evp, "Envelope expired"); envelope_set_esc_class(&evp, ESC_STATUS_TEMPFAIL); envelope_set_esc_code(&evp, ESC_DELIVERY_TIME_EXPIRED); queue_bounce(&evp, &bounce); queue_log(&evp, "Expire", "Envelope expired"); queue_envelope_delete(evpid); return; case IMSG_SCHED_ENVELOPE_BOUNCE: req_bounce = imsg->data; evpid = req_bounce->evpid; if (queue_envelope_load(evpid, &evp) == 0) { log_warnx("queue: bounce: failed to load envelope"); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_REMOVE, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_add_u32(p_scheduler, 0); /* not in-flight */ m_close(p_scheduler); return; } queue_bounce(&evp, &req_bounce->bounce); evp.lastbounce = req_bounce->timestamp; if (!queue_envelope_update(&evp)) log_warnx("warn: could not update envelope %016"PRIx64, evpid); return; case IMSG_SCHED_ENVELOPE_DELIVER: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) { log_warnx("queue: deliver: failed to load envelope"); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_REMOVE, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_add_u32(p_scheduler, 1); /* in-flight */ m_close(p_scheduler); return; } evp.lasttry = time(NULL); m_create(p_pony, IMSG_QUEUE_DELIVER, 0, 0, -1); m_add_envelope(p_pony, &evp); m_close(p_pony); return; case IMSG_SCHED_ENVELOPE_INJECT: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_end(&m); bounce_add(evpid); return; case IMSG_SCHED_ENVELOPE_TRANSFER: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) { log_warnx("queue: failed to load envelope"); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_REMOVE, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_add_u32(p_scheduler, 1); /* in-flight */ m_close(p_scheduler); return; } evp.lasttry = time(NULL); m_create(p_pony, IMSG_QUEUE_TRANSFER, 0, 0, -1); m_add_envelope(p_pony, &evp); m_close(p_pony); return; case IMSG_CTL_LIST_ENVELOPES: if (imsg->hdr.len == sizeof imsg->hdr) { m_forward(p_control, imsg); return; } m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_get_int(&m, &flags); m_get_time(&m, &nexttry); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) return; /* Envelope is gone, drop it */ /* * XXX consistency: The envelope might already be on * its way back to the scheduler. We need to detect * this properly and report that state. */ evp.flags |= flags; /* In the past if running or runnable */ evp.nexttry = nexttry; if (flags & EF_INFLIGHT) { /* * Not exactly correct but pretty close: The * value is not recorded on the envelope unless * a tempfail occurs. */ evp.lasttry = nexttry; } id_sz = sizeof evp.id; (void)memcpy(buf, &evp.id, id_sz); buflen = envelope_dump_buffer(&evp, buf + id_sz, sizeof(buf) - id_sz); m_compose(p_control, IMSG_CTL_LIST_ENVELOPES, imsg->hdr.peerid, 0, -1, buf, id_sz + buflen + 1); return; } } if (p->proc == PROC_PONY) { switch (imsg->hdr.type) { case IMSG_MDA_OPEN_MESSAGE: case IMSG_MTA_OPEN_MESSAGE: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_msgid(&m, &msgid); m_end(&m); fd = queue_message_fd_r(msgid); m_create(p, imsg->hdr.type, 0, 0, fd); m_add_id(p, reqid); m_close(p); return; case IMSG_MDA_DELIVERY_OK: case IMSG_MTA_DELIVERY_OK: m_msg(&m, imsg); m_get_evpid(&m, &evpid); if (imsg->hdr.type == IMSG_MTA_DELIVERY_OK) m_get_int(&m, &mta_ext); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) { log_warn("queue: dsn: failed to load envelope"); return; } if (evp.dsn_notify & DSN_SUCCESS) { bounce.type = B_DSN; bounce.dsn_ret = evp.dsn_ret; envelope_set_esc_class(&evp, ESC_STATUS_OK); if (imsg->hdr.type == IMSG_MDA_DELIVERY_OK) queue_bounce(&evp, &bounce); else if (imsg->hdr.type == IMSG_MTA_DELIVERY_OK && (mta_ext & MTA_EXT_DSN) == 0) { bounce.mta_without_dsn = 1; queue_bounce(&evp, &bounce); } } queue_envelope_delete(evpid); m_create(p_scheduler, IMSG_QUEUE_DELIVERY_OK, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_close(p_scheduler); return; case IMSG_MDA_DELIVERY_TEMPFAIL: case IMSG_MTA_DELIVERY_TEMPFAIL: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_get_string(&m, &reason); m_get_int(&m, &code); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) { log_warnx("queue: tempfail: failed to load envelope"); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_REMOVE, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_add_u32(p_scheduler, 1); /* in-flight */ m_close(p_scheduler); return; } envelope_set_errormsg(&evp, "%s", reason); envelope_set_esc_class(&evp, ESC_STATUS_TEMPFAIL); envelope_set_esc_code(&evp, code); evp.retry++; if (!queue_envelope_update(&evp)) log_warnx("warn: could not update envelope %016"PRIx64, evpid); m_create(p_scheduler, IMSG_QUEUE_DELIVERY_TEMPFAIL, 0, 0, -1); m_add_envelope(p_scheduler, &evp); m_close(p_scheduler); return; case IMSG_MDA_DELIVERY_PERMFAIL: case IMSG_MTA_DELIVERY_PERMFAIL: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_get_string(&m, &reason); m_get_int(&m, &code); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) { log_warnx("queue: permfail: failed to load envelope"); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_REMOVE, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_add_u32(p_scheduler, 1); /* in-flight */ m_close(p_scheduler); return; } bounce.type = B_ERROR; envelope_set_errormsg(&evp, "%s", reason); envelope_set_esc_class(&evp, ESC_STATUS_PERMFAIL); envelope_set_esc_code(&evp, code); queue_bounce(&evp, &bounce); queue_envelope_delete(evpid); m_create(p_scheduler, IMSG_QUEUE_DELIVERY_PERMFAIL, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_close(p_scheduler); return; case IMSG_MDA_DELIVERY_LOOP: case IMSG_MTA_DELIVERY_LOOP: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) { log_warnx("queue: loop: failed to load envelope"); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_REMOVE, 0, 0, -1); m_add_evpid(p_scheduler, evpid); m_add_u32(p_scheduler, 1); /* in-flight */ m_close(p_scheduler); return; } envelope_set_errormsg(&evp, "%s", "Loop detected"); envelope_set_esc_class(&evp, ESC_STATUS_TEMPFAIL); envelope_set_esc_code(&evp, ESC_ROUTING_LOOP_DETECTED); bounce.type = B_ERROR; queue_bounce(&evp, &bounce); queue_envelope_delete(evp.id); m_create(p_scheduler, IMSG_QUEUE_DELIVERY_LOOP, 0, 0, -1); m_add_evpid(p_scheduler, evp.id); m_close(p_scheduler); return; case IMSG_MTA_DELIVERY_HOLD: case IMSG_MDA_DELIVERY_HOLD: imsg->hdr.type = IMSG_QUEUE_HOLDQ_HOLD; m_forward(p_scheduler, imsg); return; case IMSG_MTA_SCHEDULE: imsg->hdr.type = IMSG_QUEUE_ENVELOPE_SCHEDULE; m_forward(p_scheduler, imsg); return; case IMSG_MTA_HOLDQ_RELEASE: case IMSG_MDA_HOLDQ_RELEASE: m_msg(&m, imsg); m_get_id(&m, &holdq); m_get_int(&m, &v); m_end(&m); m_create(p_scheduler, IMSG_QUEUE_HOLDQ_RELEASE, 0, 0, -1); if (imsg->hdr.type == IMSG_MTA_HOLDQ_RELEASE) m_add_int(p_scheduler, D_MTA); else m_add_int(p_scheduler, D_MDA); m_add_id(p_scheduler, holdq); m_add_int(p_scheduler, v); m_close(p_scheduler); return; } } if (p->proc == PROC_CONTROL) { switch (imsg->hdr.type) { case IMSG_CTL_PAUSE_MDA: case IMSG_CTL_PAUSE_MTA: case IMSG_CTL_RESUME_MDA: case IMSG_CTL_RESUME_MTA: m_forward(p_scheduler, imsg); return; case IMSG_CTL_VERBOSE: m_msg(&m, imsg); m_get_int(&m, &v); m_end(&m); log_verbose(v); return; case IMSG_CTL_PROFILE: m_msg(&m, imsg); m_get_int(&m, &v); m_end(&m); profiling = v; return; case IMSG_CTL_DISCOVER_EVPID: m_msg(&m, imsg); m_get_evpid(&m, &evpid); m_end(&m); if (queue_envelope_load(evpid, &evp) == 0) { log_warnx("queue: discover: failed to load " "envelope %016" PRIx64, evpid); n_evp = 0; m_compose(p_control, imsg->hdr.type, imsg->hdr.peerid, 0, -1, &n_evp, sizeof n_evp); return; } m_create(p_scheduler, IMSG_QUEUE_DISCOVER_EVPID, 0, 0, -1); m_add_envelope(p_scheduler, &evp); m_close(p_scheduler); m_create(p_scheduler, IMSG_QUEUE_DISCOVER_MSGID, 0, 0, -1); m_add_msgid(p_scheduler, evpid_to_msgid(evpid)); m_close(p_scheduler); n_evp = 1; m_compose(p_control, imsg->hdr.type, imsg->hdr.peerid, 0, -1, &n_evp, sizeof n_evp); return; case IMSG_CTL_DISCOVER_MSGID: m_msg(&m, imsg); m_get_msgid(&m, &msgid); m_end(&m); /* handle concurrent walk requests */ wi = xcalloc(1, sizeof *wi, "queu_imsg"); wi->msgid = msgid; wi->peerid = imsg->hdr.peerid; evtimer_set(&wi->ev, queue_msgid_walk, wi); tv.tv_sec = 0; tv.tv_usec = 10; evtimer_add(&wi->ev, &tv); return; case IMSG_CTL_UNCORRUPT_MSGID: m_msg(&m, imsg); m_get_msgid(&m, &msgid); m_end(&m); ret = queue_message_uncorrupt(msgid); m_compose(p_control, imsg->hdr.type, imsg->hdr.peerid, 0, -1, &ret, sizeof ret); return; } } errx(1, "queue_imsg: unexpected %s imsg", imsg_to_str(imsg->hdr.type)); } static void queue_msgid_walk(int fd, short event, void *arg) { struct envelope evp; struct timeval tv; struct msg_walkinfo *wi = arg; int r; r = queue_message_walk(&evp, wi->msgid, &wi->done, &wi->data); if (r == -1) { if (wi->n_evp) { m_create(p_scheduler, IMSG_QUEUE_DISCOVER_MSGID, 0, 0, -1); m_add_msgid(p_scheduler, wi->msgid); m_close(p_scheduler); } m_compose(p_control, IMSG_CTL_DISCOVER_MSGID, wi->peerid, 0, -1, &wi->n_evp, sizeof wi->n_evp); evtimer_del(&wi->ev); free(wi); return; } if (r) { m_create(p_scheduler, IMSG_QUEUE_DISCOVER_EVPID, 0, 0, -1); m_add_envelope(p_scheduler, &evp); m_close(p_scheduler); wi->n_evp += 1; } tv.tv_sec = 0; tv.tv_usec = 10; evtimer_set(&wi->ev, queue_msgid_walk, wi); evtimer_add(&wi->ev, &tv); } static void queue_bounce(struct envelope *e, struct delivery_bounce *d) { struct envelope b; b = *e; b.type = D_BOUNCE; b.agent.bounce = *d; b.retry = 0; b.lasttry = 0; b.creation = time(NULL); b.expire = 3600 * 24 * 7; if (e->dsn_notify & DSN_NEVER) return; if (b.id == 0) log_warnx("warn: queue_bounce: evpid=0"); if (evpid_to_msgid(b.id) == 0) log_warnx("warn: queue_bounce: msgid=0, evpid=%016"PRIx64, b.id); if (e->type == D_BOUNCE) { log_warnx("warn: queue: double bounce!"); } else if (e->sender.user[0] == '\0') { log_warnx("warn: queue: no return path!"); } else if (!queue_envelope_create(&b)) { log_warnx("warn: queue: cannot bounce!"); } else { log_debug("debug: queue: bouncing evp:%016" PRIx64 " as evp:%016" PRIx64, e->id, b.id); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_SUBMIT, 0, 0, -1); m_add_envelope(p_scheduler, &b); m_close(p_scheduler); m_create(p_scheduler, IMSG_QUEUE_MESSAGE_COMMIT, 0, 0, -1); m_add_msgid(p_scheduler, evpid_to_msgid(b.id)); m_close(p_scheduler); stat_increment("queue.bounce", 1); } } static void queue_sig_handler(int sig, short event, void *p) { switch (sig) { case SIGINT: case SIGTERM: queue_shutdown(); break; default: fatalx("queue_sig_handler: unexpected signal"); } } static void queue_shutdown(void) { log_info("info: queue handler exiting"); queue_close(); _exit(0); } pid_t queue(void) { pid_t pid; struct passwd *pw; struct timeval tv; struct event ev_qload; struct event ev_sigint; struct event ev_sigterm; switch (pid = fork()) { case -1: fatal("queue: cannot fork"); case 0: post_fork(PROC_QUEUE); break; default: return (pid); } purge_config(PURGE_EVERYTHING); if ((pw = getpwnam(SMTPD_QUEUE_USER)) == NULL) if ((pw = getpwnam(SMTPD_USER)) == NULL) fatalx("unknown user " SMTPD_USER); env->sc_queue_flags |= QUEUE_EVPCACHE; env->sc_queue_evpcache_size = 1024; if (chroot(PATH_SPOOL) == -1) fatal("queue: chroot"); if (chdir("/") == -1) fatal("queue: chdir(\"/\")"); config_process(PROC_QUEUE); if (env->sc_queue_flags & QUEUE_COMPRESSION) log_info("queue: queue compression enabled"); if (env->sc_queue_key) { if (!crypto_setup(env->sc_queue_key, strlen(env->sc_queue_key))) fatalx("crypto_setup: invalid key for queue encryption"); log_info("queue: queue encryption enabled"); } if (setgroups(1, &pw->pw_gid) || setresgid(pw->pw_gid, pw->pw_gid, pw->pw_gid) || setresuid(pw->pw_uid, pw->pw_uid, pw->pw_uid)) fatal("queue: cannot drop privileges"); imsg_callback = queue_imsg; event_init(); signal_set(&ev_sigint, SIGINT, queue_sig_handler, NULL); signal_set(&ev_sigterm, SIGTERM, queue_sig_handler, NULL); signal_add(&ev_sigint, NULL); signal_add(&ev_sigterm, NULL); signal(SIGPIPE, SIG_IGN); signal(SIGHUP, SIG_IGN); config_peer(PROC_PARENT); config_peer(PROC_CONTROL); config_peer(PROC_LKA); config_peer(PROC_SCHEDULER); config_peer(PROC_PONY); config_done(); /* setup queue loading task */ evtimer_set(&ev_qload, queue_timeout, &ev_qload); tv.tv_sec = 0; tv.tv_usec = 10; evtimer_add(&ev_qload, &tv); if (pledge("stdio rpath wpath cpath flock recvfd sendfd", NULL) == -1) err(1, "pledge"); if (event_dispatch() < 0) fatal("event_dispatch"); queue_shutdown(); return (0); } static void queue_timeout(int fd, short event, void *p) { static uint32_t msgid = 0; struct envelope evp; struct event *ev = p; struct timeval tv; int r; r = queue_envelope_walk(&evp); if (r == -1) { if (msgid) { m_create(p_scheduler, IMSG_QUEUE_MESSAGE_COMMIT, 0, 0, -1); m_add_msgid(p_scheduler, msgid); m_close(p_scheduler); } log_debug("debug: queue: done loading queue into scheduler"); return; } if (r) { if (msgid && evpid_to_msgid(evp.id) != msgid) { m_create(p_scheduler, IMSG_QUEUE_MESSAGE_COMMIT, 0, 0, -1); m_add_msgid(p_scheduler, msgid); m_close(p_scheduler); } msgid = evpid_to_msgid(evp.id); m_create(p_scheduler, IMSG_QUEUE_ENVELOPE_SUBMIT, 0, 0, -1); m_add_envelope(p_scheduler, &evp); m_close(p_scheduler); } tv.tv_sec = 0; tv.tv_usec = 10; evtimer_add(ev, &tv); } static void queue_log(const struct envelope *e, const char *prefix, const char *status) { char rcpt[LINE_MAX]; (void)strlcpy(rcpt, "-", sizeof rcpt); if (strcmp(e->rcpt.user, e->dest.user) || strcmp(e->rcpt.domain, e->dest.domain)) (void)snprintf(rcpt, sizeof rcpt, "%s@%s", e->rcpt.user, e->rcpt.domain); log_info("%s: %s for %016" PRIx64 ": from=<%s@%s>, to=<%s@%s>, " "rcpt=<%s>, delay=%s, stat=%s", e->type == D_MDA ? "delivery" : "relay", prefix, e->id, e->sender.user, e->sender.domain, e->dest.user, e->dest.domain, rcpt, duration_to_text(time(NULL) - e->creation), status); } void queue_flow_control(void) { size_t bufsz; int oldlimit = limit; int set, unset; bufsz = p_pony->bytes_queued; if (bufsz <= flow_agent_lowat) limit &= ~LIMIT_AGENT; else if (bufsz > flow_agent_hiwat) limit |= LIMIT_AGENT; if (p_scheduler->bytes_queued <= flow_scheduler_lowat) limit &= ~LIMIT_SCHEDULER; else if (p_scheduler->bytes_queued > flow_scheduler_hiwat) limit |= LIMIT_SCHEDULER; set = limit & (limit ^ oldlimit); unset = oldlimit & (limit ^ oldlimit); if (set & LIMIT_SCHEDULER) { log_warnx("warn: queue: Hiwat reached on scheduler buffer: " "suspending transfer, delivery and lookup input"); mproc_disable(p_pony); mproc_disable(p_lka); } else if (unset & LIMIT_SCHEDULER) { log_warnx("warn: queue: Down to lowat on scheduler buffer: " "resuming transfer, delivery and lookup input"); mproc_enable(p_pony); mproc_enable(p_lka); } if (set & LIMIT_AGENT) { log_warnx("warn: queue: Hiwat reached on transfer and delivery " "buffers: suspending scheduler input"); mproc_disable(p_scheduler); } else if (unset & LIMIT_AGENT) { log_warnx("warn: queue: Down to lowat on transfer and delivery " "buffers: resuming scheduler input"); mproc_enable(p_scheduler); } }