/* $OpenBSD: mda.c,v 1.107 2014/07/08 07:59:31 sobrado Exp $ */ /* * Copyright (c) 2008 Gilles Chehade * Copyright (c) 2008 Pierre-Yves Ritschard * Copyright (c) 2009 Jacek Masiulaniec * 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" #define MDA_HIWAT 65536 struct mda_envelope { TAILQ_ENTRY(mda_envelope) entry; uint64_t id; time_t creation; char *sender; char *dest; char *rcpt; enum action_type method; char *user; char *buffer; }; #define USER_WAITINFO 0x01 #define USER_RUNNABLE 0x02 #define USER_ONHOLD 0x04 #define USER_HOLDQ 0x08 struct mda_user { uint64_t id; TAILQ_ENTRY(mda_user) entry; TAILQ_ENTRY(mda_user) entry_runnable; char name[SMTPD_MAXLOGNAME]; char usertable[SMTPD_MAXPATHLEN]; size_t evpcount; TAILQ_HEAD(, mda_envelope) envelopes; int flags; size_t running; struct userinfo userinfo; }; struct mda_session { uint64_t id; struct mda_user *user; struct mda_envelope *evp; struct io io; struct iobuf iobuf; FILE *datafp; }; static void mda_io(struct io *, int); static int mda_check_loop(FILE *, struct mda_envelope *); static int mda_getlastline(int, char *, size_t); static void mda_done(struct mda_session *); static void mda_fail(struct mda_user *, int, const char *, enum enhanced_status_code); static void mda_drain(void); static void mda_log(const struct mda_envelope *, const char *, const char *); static void mda_queue_ok(uint64_t); static void mda_queue_tempfail(uint64_t, const char *, enum enhanced_status_code); static void mda_queue_permfail(uint64_t, const char *, enum enhanced_status_code); static void mda_queue_loop(uint64_t); static struct mda_user *mda_user(const struct envelope *); static void mda_user_free(struct mda_user *); static const char *mda_user_to_text(const struct mda_user *); static struct mda_envelope *mda_envelope(const struct envelope *); static void mda_envelope_free(struct mda_envelope *); static struct mda_session * mda_session(struct mda_user *); static struct tree sessions; static struct tree users; static TAILQ_HEAD(, mda_user) runnable; void mda_imsg(struct mproc *p, struct imsg *imsg) { struct mda_session *s; struct mda_user *u; struct mda_envelope *e; struct envelope evp; struct userinfo *userinfo; struct deliver deliver; struct msg m; const void *data; const char *error, *parent_error; uint64_t reqid; size_t sz; char out[256], buf[SMTPD_MAXLINESIZE]; int n; enum lka_resp_status status; if (p->proc == PROC_LKA) { switch (imsg->hdr.type) { case IMSG_MDA_LOOKUP_USERINFO: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, (int *)&status); if (status == LKA_OK) m_get_data(&m, &data, &sz); m_end(&m); u = tree_xget(&users, reqid); if (status == LKA_TEMPFAIL) mda_fail(u, 0, "Temporary failure in user lookup", ESC_OTHER_ADDRESS_STATUS); else if (status == LKA_PERMFAIL) mda_fail(u, 1, "Permanent failure in user lookup", ESC_DESTINATION_MAILBOX_HAS_MOVED); else { memmove(&u->userinfo, data, sz); u->flags &= ~USER_WAITINFO; u->flags |= USER_RUNNABLE; TAILQ_INSERT_TAIL(&runnable, u, entry_runnable); mda_drain(); } return; } } if (p->proc == PROC_QUEUE) { switch (imsg->hdr.type) { case IMSG_QUEUE_DELIVER: m_msg(&m, imsg); m_get_envelope(&m, &evp); m_end(&m); u = mda_user(&evp); if (u->evpcount >= env->sc_mda_task_hiwat) { if (!(u->flags & USER_ONHOLD)) { log_debug("debug: mda: hiwat reached for " "user \"%s\": holding envelopes", mda_user_to_text(u)); u->flags |= USER_ONHOLD; } } if (u->flags & USER_ONHOLD) { u->flags |= USER_HOLDQ; m_create(p_queue, IMSG_MDA_DELIVERY_HOLD, 0, 0, -1); m_add_evpid(p_queue, evp.id); m_add_id(p_queue, u->id); m_close(p_queue); return; } e = mda_envelope(&evp); TAILQ_INSERT_TAIL(&u->envelopes, e, entry); u->evpcount += 1; stat_increment("mda.pending", 1); if (!(u->flags & USER_RUNNABLE) && !(u->flags & USER_WAITINFO)) { u->flags |= USER_RUNNABLE; TAILQ_INSERT_TAIL(&runnable, u, entry_runnable); } mda_drain(); return; case IMSG_MDA_OPEN_MESSAGE: m_msg(&m, imsg); m_get_id(&m, &reqid); m_end(&m); s = tree_xget(&sessions, reqid); e = s->evp; if (imsg->fd == -1) { log_debug("debug: mda: cannot get message fd"); mda_queue_tempfail(e->id, "Cannot get message fd", ESC_OTHER_MAIL_SYSTEM_STATUS); mda_log(e, "TempFail", "Cannot get message fd"); mda_done(s); return; } log_debug("debug: mda: got message fd %d " "for session %016"PRIx64 " evpid %016"PRIx64, imsg->fd, s->id, e->id); if ((s->datafp = fdopen(imsg->fd, "r")) == NULL) { log_warn("warn: mda: fdopen"); close(imsg->fd); mda_queue_tempfail(e->id, "fdopen failed", ESC_OTHER_MAIL_SYSTEM_STATUS); mda_log(e, "TempFail", "fdopen failed"); mda_done(s); return; } /* check delivery loop */ if (mda_check_loop(s->datafp, e)) { log_debug("debug: mda: loop detected"); mda_queue_loop(e->id); mda_log(e, "PermFail", "Loop detected"); mda_done(s); return; } /* start queueing delivery headers */ if (e->sender[0]) /* XXX: remove existing Return-Path, if any */ n = iobuf_fqueue(&s->iobuf, "Return-Path: %s\nDelivered-To: %s\n", e->sender, e->rcpt ? e->rcpt : e->dest); else n = iobuf_fqueue(&s->iobuf, "Delivered-To: %s\n", e->rcpt ? e->rcpt : e->dest); if (n == -1) { log_warn("warn: mda: " "fail to write delivery info"); mda_queue_tempfail(e->id, "Out of memory", ESC_OTHER_MAIL_SYSTEM_STATUS); mda_log(e, "TempFail", "Out of memory"); mda_done(s); return; } /* request parent to fork a helper process */ userinfo = &s->user->userinfo; memset(&deliver, 0, sizeof deliver); switch (e->method) { case A_MDA: deliver.mode = A_MDA; deliver.userinfo = *userinfo; (void)strlcpy(deliver.user, userinfo->username, sizeof(deliver.user)); (void)strlcpy(deliver.to, e->buffer, sizeof(deliver.to)); break; case A_MBOX: /* MBOX is a special case as we MUST deliver as root, * just override the uid. */ deliver.mode = A_MBOX; deliver.userinfo = *userinfo; deliver.userinfo.uid = 0; (void)strlcpy(deliver.user, "root", sizeof(deliver.user)); (void)strlcpy(deliver.from, e->sender, sizeof(deliver.from)); (void)strlcpy(deliver.to, userinfo->username, sizeof(deliver.to)); break; case A_MAILDIR: deliver.mode = A_MAILDIR; deliver.userinfo = *userinfo; (void)strlcpy(deliver.user, userinfo->username, sizeof(deliver.user)); (void)strlcpy(deliver.dest, e->dest, sizeof(deliver.dest)); if (strlcpy(deliver.to, e->buffer, sizeof(deliver.to)) >= sizeof(deliver.to)) { log_warn("warn: mda: " "deliver buffer too large"); mda_queue_tempfail(e->id, "Maildir path too long", ESC_OTHER_MAIL_SYSTEM_STATUS); mda_log(e, "TempFail", "Maildir path too long"); mda_done(s); return; } break; case A_FILENAME: deliver.mode = A_FILENAME; deliver.userinfo = *userinfo; (void)strlcpy(deliver.user, userinfo->username, sizeof deliver.user); if (strlcpy(deliver.to, e->buffer, sizeof(deliver.to)) >= sizeof(deliver.to)) { log_warn("warn: mda: " "deliver buffer too large"); mda_queue_tempfail(e->id, "filename path too long", ESC_OTHER_MAIL_SYSTEM_STATUS); mda_log(e, "TempFail", "filename path too long"); mda_done(s); return; } break; case A_LMTP: deliver.mode = A_LMTP; deliver.userinfo = *userinfo; (void)strlcpy(deliver.user, userinfo->username, sizeof(deliver.user)); (void)strlcpy(deliver.from, e->sender, sizeof(deliver.from)); if (strlcpy(deliver.to, e->buffer, sizeof(deliver.to)) >= sizeof(deliver.to)) { log_warn("warn: mda: " "deliver buffer too large"); mda_queue_tempfail(e->id, "socket path too long", ESC_OTHER_MAIL_SYSTEM_STATUS); mda_log(e, "TempFail", "socket path too long"); mda_done(s); return; } break; default: errx(1, "mda: unknown delivery method: %d", e->method); } log_debug("debug: mda: querying mda fd " "for session %016"PRIx64 " evpid %016"PRIx64, s->id, s->evp->id); m_create(p_parent, IMSG_MDA_FORK, 0, 0, -1); m_add_id(p_parent, reqid); m_add_data(p_parent, &deliver, sizeof(deliver)); m_close(p_parent); return; } } if (p->proc == PROC_PARENT) { switch (imsg->hdr.type) { case IMSG_MDA_FORK: m_msg(&m, imsg); m_get_id(&m, &reqid); m_end(&m); s = tree_xget(&sessions, reqid); e = s->evp; if (imsg->fd == -1) { log_warn("warn: mda: fail to retrieve mda fd"); mda_queue_tempfail(e->id, "Cannot get mda fd", ESC_OTHER_MAIL_SYSTEM_STATUS); mda_log(e, "TempFail", "Cannot get mda fd"); mda_done(s); return; } log_debug("debug: mda: got mda fd %d " "for session %016"PRIx64 " evpid %016"PRIx64, imsg->fd, s->id, s->evp->id); io_set_blocking(imsg->fd, 0); io_init(&s->io, imsg->fd, s, mda_io, &s->iobuf); io_set_write(&s->io); return; case IMSG_MDA_DONE: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_string(&m, &parent_error); m_end(&m); s = tree_xget(&sessions, reqid); e = s->evp; /* * Grab last line of mda stdout/stderr if available. */ out[0] = '\0'; if (imsg->fd != -1) mda_getlastline(imsg->fd, out, sizeof(out)); /* * Choose between parent's description of error and * child's output, the latter having preference over * the former. */ error = NULL; if (strcmp(parent_error, "exited okay") == 0) { if (s->datafp || iobuf_queued(&s->iobuf)) error = "mda exited prematurely"; } else error = out[0] ? out : parent_error; /* update queue entry */ if (error) { mda_queue_tempfail(e->id, error, ESC_OTHER_MAIL_SYSTEM_STATUS); (void)snprintf(buf, sizeof buf, "Error (%s)", error); mda_log(e, "TempFail", buf); } else { mda_queue_ok(e->id); mda_log(e, "Ok", "Delivered"); } mda_done(s); return; } } errx(1, "mda_imsg: unexpected %s imsg", imsg_to_str(imsg->hdr.type)); } void mda_postfork() { } void mda_postprivdrop() { tree_init(&sessions); tree_init(&users); TAILQ_INIT(&runnable); } static void mda_io(struct io *io, int evt) { struct mda_session *s = io->arg; char *ln; size_t len; log_trace(TRACE_IO, "mda: %p: %s %s", s, io_strevent(evt), io_strio(io)); switch (evt) { case IO_LOWAT: /* done */ done: if (s->datafp == NULL) { log_debug("debug: mda: all data sent for session" " %016"PRIx64 " evpid %016"PRIx64, s->id, s->evp->id); io_clear(io); return; } while (iobuf_queued(&s->iobuf) < MDA_HIWAT) { if ((ln = fgetln(s->datafp, &len)) == NULL) break; if (iobuf_queue(&s->iobuf, ln, len) == -1) { m_create(p_parent, IMSG_MDA_KILL, 0, 0, -1); m_add_id(p_parent, s->id); m_add_string(p_parent, "Out of memory"); m_close(p_parent); io_pause(io, IO_PAUSE_OUT); return; } #if 0 log_debug("debug: mda: %zu bytes queued " "for session %016"PRIx64 " evpid %016"PRIx64, iobuf_queued(&s->iobuf), s->id, s->evp->id); #endif } if (ferror(s->datafp)) { log_debug("debug: mda: ferror on session %016"PRIx64, s->id); m_create(p_parent, IMSG_MDA_KILL, 0, 0, -1); m_add_id(p_parent, s->id); m_add_string(p_parent, "Error reading body"); m_close(p_parent); io_pause(io, IO_PAUSE_OUT); return; } if (feof(s->datafp)) { log_debug("debug: mda: end-of-file for session" " %016"PRIx64 " evpid %016"PRIx64, s->id, s->evp->id); fclose(s->datafp); s->datafp = NULL; if (iobuf_queued(&s->iobuf) == 0) goto done; } return; case IO_TIMEOUT: log_debug("debug: mda: timeout on session %016"PRIx64, s->id); io_pause(io, IO_PAUSE_OUT); return; case IO_ERROR: log_debug("debug: mda: io error on session %016"PRIx64": %s", s->id, io->error); io_pause(io, IO_PAUSE_OUT); return; case IO_DISCONNECTED: log_debug("debug: mda: io disconnected on session %016"PRIx64, s->id); io_pause(io, IO_PAUSE_OUT); return; default: log_debug("debug: mda: unexpected event on session %016"PRIx64, s->id); io_pause(io, IO_PAUSE_OUT); return; } } static int mda_check_loop(FILE *fp, struct mda_envelope *e) { char *buf, *lbuf; size_t len; int ret = 0; lbuf = NULL; while ((buf = fgetln(fp, &len))) { if (buf[len - 1] == '\n') buf[len - 1] = '\0'; else { /* EOF without EOL, copy and add the NUL */ lbuf = xmalloc(len + 1, "mda_check_loop"); memcpy(lbuf, buf, len); lbuf[len] = '\0'; buf = lbuf; } if (strchr(buf, ':') == NULL && !isspace((unsigned char)*buf)) break; if (strncasecmp("Delivered-To: ", buf, 14) == 0) { if (strcasecmp(buf + 14, e->dest) == 0) { ret = 1; break; } } if (lbuf) { free(lbuf); lbuf = NULL; } } if (lbuf) free(lbuf); fseek(fp, SEEK_SET, 0); return (ret); } static int mda_getlastline(int fd, char *dst, size_t dstsz) { FILE *fp; char *ln, buf[SMTPD_MAXLINESIZE]; size_t len; memset(buf, 0, sizeof buf); if (lseek(fd, 0, SEEK_SET) < 0) { log_warn("warn: mda: lseek"); close(fd); return (-1); } fp = fdopen(fd, "r"); if (fp == NULL) { log_warn("warn: mda: fdopen"); close(fd); return (-1); } while ((ln = fgetln(fp, &len))) { if (ln[len - 1] == '\n') len--; if (len == 0) continue; if (len >= sizeof buf) len = (sizeof buf) - 1; memmove(buf, ln, len); buf[len] = '\0'; } fclose(fp); if (buf[0]) { (void)strlcpy(dst, "\"", dstsz); (void)strnvis(dst + 1, buf, dstsz - 2, VIS_SAFE | VIS_CSTYLE); (void)strlcat(dst, "\"", dstsz); } return (0); } static void mda_fail(struct mda_user *user, int permfail, const char *error, enum enhanced_status_code code) { struct mda_envelope *e; while ((e = TAILQ_FIRST(&user->envelopes))) { TAILQ_REMOVE(&user->envelopes, e, entry); if (permfail) { mda_log(e, "PermFail", error); mda_queue_permfail(e->id, error, code); } else { mda_log(e, "TempFail", error); mda_queue_tempfail(e->id, error, code); } mda_envelope_free(e); } mda_user_free(user); } static void mda_drain(void) { struct mda_user *u; while ((u = (TAILQ_FIRST(&runnable)))) { TAILQ_REMOVE(&runnable, u, entry_runnable); if (u->evpcount == 0 && u->running == 0) { log_debug("debug: mda: all done for user \"%s\"", mda_user_to_text(u)); mda_user_free(u); continue; } if (u->evpcount == 0) { log_debug("debug: mda: no more envelope for \"%s\"", mda_user_to_text(u)); u->flags &= ~USER_RUNNABLE; continue; } if (u->running >= env->sc_mda_max_user_session) { log_debug("debug: mda: " "maximum number of session reached for user \"%s\"", mda_user_to_text(u)); u->flags &= ~USER_RUNNABLE; continue; } if (tree_count(&sessions) >= env->sc_mda_max_session) { log_debug("debug: mda: " "maximum number of session reached"); TAILQ_INSERT_HEAD(&runnable, u, entry_runnable); return; } mda_session(u); if (u->evpcount == env->sc_mda_task_lowat) { if (u->flags & USER_ONHOLD) { log_debug("debug: mda: down to lowat for user \"%s\": releasing", mda_user_to_text(u)); u->flags &= ~USER_ONHOLD; } if (u->flags & USER_HOLDQ) { m_create(p_queue, IMSG_MDA_HOLDQ_RELEASE, 0, 0, -1); m_add_id(p_queue, u->id); m_add_int(p_queue, env->sc_mda_task_release); m_close(p_queue); } } /* re-add the user at the tail of the queue */ TAILQ_INSERT_TAIL(&runnable, u, entry_runnable); } } static void mda_done(struct mda_session *s) { log_debug("debug: mda: session %016" PRIx64 " done", s->id); tree_xpop(&sessions, s->id); mda_envelope_free(s->evp); s->user->running--; if (!(s->user->flags & USER_RUNNABLE)) { log_debug("debug: mda: user \"%s\" becomes runnable", s->user->name); TAILQ_INSERT_TAIL(&runnable, s->user, entry_runnable); s->user->flags |= USER_RUNNABLE; } if (s->datafp) fclose(s->datafp); io_clear(&s->io); iobuf_clear(&s->iobuf); free(s); stat_decrement("mda.running", 1); mda_drain(); } static void mda_log(const struct mda_envelope *evp, const char *prefix, const char *status) { char rcpt[SMTPD_MAXLINESIZE]; const char *method; rcpt[0] = '\0'; if (evp->rcpt) (void)snprintf(rcpt, sizeof rcpt, "rcpt=<%s>, ", evp->rcpt); if (evp->method == A_MAILDIR) method = "maildir"; else if (evp->method == A_MBOX) method = "mbox"; else if (evp->method == A_FILENAME) method = "file"; else if (evp->method == A_MDA) method = "mda"; else if (evp->method == A_LMTP) method = "lmtp"; else method = "???"; log_info("delivery: %s for %016" PRIx64 ": from=<%s>, to=<%s>, " "%suser=%s, method=%s, delay=%s, stat=%s", prefix, evp->id, evp->sender ? evp->sender : "", evp->dest, rcpt, evp->user, method, duration_to_text(time(NULL) - evp->creation), status); } static void mda_queue_ok(uint64_t evpid) { m_create(p_queue, IMSG_MDA_DELIVERY_OK, 0, 0, -1); m_add_evpid(p_queue, evpid); m_close(p_queue); } static void mda_queue_tempfail(uint64_t evpid, const char *reason, enum enhanced_status_code code) { m_create(p_queue, IMSG_MDA_DELIVERY_TEMPFAIL, 0, 0, -1); m_add_evpid(p_queue, evpid); m_add_string(p_queue, reason); m_add_int(p_queue, (int)code); m_close(p_queue); } static void mda_queue_permfail(uint64_t evpid, const char *reason, enum enhanced_status_code code) { m_create(p_queue, IMSG_MDA_DELIVERY_PERMFAIL, 0, 0, -1); m_add_evpid(p_queue, evpid); m_add_string(p_queue, reason); m_add_int(p_queue, (int)code); m_close(p_queue); } static void mda_queue_loop(uint64_t evpid) { m_create(p_queue, IMSG_MDA_DELIVERY_LOOP, 0, 0, -1); m_add_evpid(p_queue, evpid); m_close(p_queue); } static struct mda_user * mda_user(const struct envelope *evp) { struct mda_user *u; void *i; i = NULL; while (tree_iter(&users, &i, NULL, (void**)(&u))) { if (!strcmp(evp->agent.mda.username, u->name) && !strcmp(evp->agent.mda.usertable, u->usertable)) return (u); } u = xcalloc(1, sizeof *u, "mda_user"); u->id = generate_uid(); TAILQ_INIT(&u->envelopes); (void)strlcpy(u->name, evp->agent.mda.username, sizeof(u->name)); (void)strlcpy(u->usertable, evp->agent.mda.usertable, sizeof(u->usertable)); tree_xset(&users, u->id, u); m_create(p_lka, IMSG_MDA_LOOKUP_USERINFO, 0, 0, -1); m_add_id(p_lka, u->id); m_add_string(p_lka, evp->agent.mda.usertable); m_add_string(p_lka, evp->agent.mda.username); m_close(p_lka); u->flags |= USER_WAITINFO; stat_increment("mda.user", 1); log_debug("mda: new user %llx for \"%s\"", u->id, mda_user_to_text(u)); return (u); } static void mda_user_free(struct mda_user *u) { tree_xpop(&users, u->id); if (u->flags & USER_HOLDQ) { m_create(p_queue, IMSG_MDA_HOLDQ_RELEASE, 0, 0, -1); m_add_id(p_queue, u->id); m_add_int(p_queue, 0); m_close(p_queue); } free(u); stat_decrement("mda.user", 1); } static const char * mda_user_to_text(const struct mda_user *u) { static char buf[1024]; (void)snprintf(buf, sizeof(buf), "%s:%s", u->usertable, u->name); return (buf); } static struct mda_envelope * mda_envelope(const struct envelope *evp) { struct mda_envelope *e; char buf[SMTPD_MAXLINESIZE]; e = xcalloc(1, sizeof *e, "mda_envelope"); e->id = evp->id; e->creation = evp->creation; buf[0] = '\0'; if (evp->sender.user[0] && evp->sender.domain[0]) (void)snprintf(buf, sizeof buf, "%s@%s", evp->sender.user, evp->sender.domain); e->sender = xstrdup(buf, "mda_envelope:sender"); (void)snprintf(buf, sizeof buf, "%s@%s", evp->dest.user, evp->dest.domain); e->dest = xstrdup(buf, "mda_envelope:dest"); (void)snprintf(buf, sizeof buf, "%s@%s", evp->rcpt.user, evp->rcpt.domain); if (strcmp(buf, e->dest)) e->rcpt = xstrdup(buf, "mda_envelope:rcpt"); e->method = evp->agent.mda.method; e->buffer = xstrdup(evp->agent.mda.buffer, "mda_envelope:buffer"); e->user = xstrdup(evp->agent.mda.username, "mda_envelope:user"); stat_increment("mda.envelope", 1); return (e); } static void mda_envelope_free(struct mda_envelope *e) { free(e->sender); free(e->dest); free(e->rcpt); free(e->user); free(e->buffer); free(e); stat_decrement("mda.envelope", 1); } static struct mda_session * mda_session(struct mda_user * u) { struct mda_session *s; s = xcalloc(1, sizeof *s, "mda_session"); s->id = generate_uid(); s->user = u; s->io.sock = -1; if (iobuf_init(&s->iobuf, 0, 0) == -1) fatal("mda_session"); tree_xset(&sessions, s->id, s); s->evp = TAILQ_FIRST(&u->envelopes); TAILQ_REMOVE(&u->envelopes, s->evp, entry); u->evpcount--; u->running++; stat_decrement("mda.pending", 1); stat_increment("mda.running", 1); log_debug("debug: mda: new session %016" PRIx64 " for user \"%s\" evpid %016" PRIx64, s->id, mda_user_to_text(u), s->evp->id); m_create(p_queue, IMSG_MDA_OPEN_MESSAGE, 0, 0, -1); m_add_id(p_queue, s->id); m_add_msgid(p_queue, evpid_to_msgid(s->evp->id)); m_close(p_queue); return (s); }