/* $OpenBSD: smtpctl.c,v 1.153 2017/05/19 19:56:42 eric Exp $ */ /* * Copyright (c) 2013 Eric Faurot * Copyright (c) 2006 Gilles Chehade * Copyright (c) 2006 Pierre-Yves Ritschard * Copyright (c) 2005 Claudio Jeker * Copyright (c) 2004, 2005 Esben Norby * Copyright (c) 2003 Henning Brauer * * 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 #include #include "smtpd.h" #include "parser.h" #include "log.h" #define PATH_GZCAT "/usr/bin/gzcat" #define PATH_CAT "/bin/cat" #define PATH_QUEUE "/queue" #define PATH_ENCRYPT "/usr/bin/encrypt" int srv_connect(void); int srv_connected(void); void usage(void); static void show_queue_envelope(struct envelope *, int); static void getflag(uint *, int, char *, char *, size_t); static void display(const char *); static int str_to_trace(const char *); static int str_to_profile(const char *); static void show_offline_envelope(uint64_t); static int is_gzip_fp(FILE *); static int is_encrypted_fp(FILE *); static int is_encrypted_buffer(const char *); static int is_gzip_buffer(const char *); static FILE *offline_file(void); static void sendmail_compat(int, char **); extern char *__progname; int sendmail; struct smtpd *env; struct imsgbuf *ibuf; struct imsg imsg; char *rdata; size_t rlen; time_t now; struct queue_backend queue_backend_null; struct queue_backend queue_backend_proc; struct queue_backend queue_backend_ram; __dead void usage(void) { if (sendmail) fprintf(stderr, "usage: %s [-tv] [-f from] [-F name] to ...\n", __progname); else fprintf(stderr, "usage: %s command [argument ...]\n", __progname); exit(1); } void stat_increment(const char *k, size_t v) { } void stat_decrement(const char *k, size_t v) { } int srv_connect(void) { struct sockaddr_un s_un; int ctl_sock, saved_errno; /* connect to smtpd control socket */ if ((ctl_sock = socket(AF_UNIX, SOCK_STREAM, 0)) == -1) err(1, "socket"); memset(&s_un, 0, sizeof(s_un)); s_un.sun_family = AF_UNIX; (void)strlcpy(s_un.sun_path, SMTPD_SOCKET, sizeof(s_un.sun_path)); if (connect(ctl_sock, (struct sockaddr *)&s_un, sizeof(s_un)) == -1) { saved_errno = errno; close(ctl_sock); errno = saved_errno; return (0); } ibuf = xcalloc(1, sizeof(struct imsgbuf), "smtpctl:srv_connect"); imsg_init(ibuf, ctl_sock); return (1); } int srv_connected(void) { return ibuf != NULL ? 1 : 0; } FILE * offline_file(void) { char path[PATH_MAX]; int fd; FILE *fp; if (!bsnprintf(path, sizeof(path), "%s%s/%lld.XXXXXXXXXX", PATH_SPOOL, PATH_OFFLINE, (long long int) time(NULL))) err(EX_UNAVAILABLE, "snprintf"); if ((fd = mkstemp(path)) == -1 || (fp = fdopen(fd, "w+")) == NULL) { if (fd != -1) unlink(path); err(EX_UNAVAILABLE, "cannot create temporary file %s", path); } if (fchmod(fd, 0600) == -1) { unlink(path); err(EX_SOFTWARE, "fchmod"); } return fp; } static void srv_flush(void) { if (imsg_flush(ibuf) == -1) err(1, "write error"); } static void srv_send(int msg, const void *data, size_t len) { if (ibuf == NULL && !srv_connect()) errx(1, "smtpd doesn't seem to be running"); imsg_compose(ibuf, msg, IMSG_VERSION, 0, -1, data, len); } static void srv_recv(int type) { ssize_t n; srv_flush(); while (1) { if ((n = imsg_get(ibuf, &imsg)) == -1) errx(1, "imsg_get error"); if (n) { if (imsg.hdr.type == IMSG_CTL_FAIL && imsg.hdr.peerid != 0 && imsg.hdr.peerid != IMSG_VERSION) errx(1, "incompatible smtpctl and smtpd"); if (type != -1 && type != (int)imsg.hdr.type) errx(1, "bad message type"); rdata = imsg.data; rlen = imsg.hdr.len - sizeof(imsg.hdr); break; } if ((n = imsg_read(ibuf)) == -1 && errno != EAGAIN) errx(1, "imsg_read error"); if (n == 0) errx(1, "pipe closed"); } } static void srv_read(void *dst, size_t sz) { if (sz == 0) return; if (rlen < sz) errx(1, "message too short"); if (dst) memmove(dst, rdata, sz); rlen -= sz; rdata += sz; } static void srv_get_int(int *i) { srv_read(i, sizeof(*i)); } static void srv_get_time(time_t *t) { srv_read(t, sizeof(*t)); } static void srv_get_evpid(uint64_t *evpid) { srv_read(evpid, sizeof(*evpid)); } static void srv_get_string(const char **s) { const char *end; size_t len; if (rlen == 0) errx(1, "message too short"); end = memchr(rdata, 0, rlen); if (end == NULL) errx(1, "unterminated string"); len = end + 1 - rdata; *s = rdata; rlen -= len; rdata += len; } static void srv_get_envelope(struct envelope *evp) { uint64_t evpid; const char *str; srv_get_evpid(&evpid); srv_get_string(&str); envelope_load_buffer(evp, str, strlen(str)); evp->id = evpid; } static void srv_end(void) { if (rlen) errx(1, "bogus data"); imsg_free(&imsg); } static int srv_check_result(int verbose_) { srv_recv(-1); srv_end(); switch (imsg.hdr.type) { case IMSG_CTL_OK: if (verbose_) printf("command succeeded\n"); return (0); case IMSG_CTL_FAIL: if (verbose_) { if (rlen) printf("command failed: %s\n", rdata); else printf("command failed\n"); } return (1); default: errx(1, "wrong message in response: %u", imsg.hdr.type); } return (0); } static int srv_iter_messages(uint32_t *res) { static uint32_t *msgids = NULL, from = 0; static size_t n, curr; static int done = 0; if (done) return (0); if (msgids == NULL) { srv_send(IMSG_CTL_LIST_MESSAGES, &from, sizeof(from)); srv_recv(IMSG_CTL_LIST_MESSAGES); if (rlen == 0) { srv_end(); done = 1; return (0); } msgids = malloc(rlen); n = rlen / sizeof(*msgids); srv_read(msgids, rlen); srv_end(); curr = 0; from = msgids[n - 1] + 1; if (from == 0) done = 1; } *res = msgids[curr++]; if (curr == n) { free(msgids); msgids = NULL; } return (1); } static int srv_iter_envelopes(uint32_t msgid, struct envelope *evp) { static uint32_t currmsgid = 0; static uint64_t from = 0; static int done = 0, need_send = 1, found; int flags; time_t nexttry; if (currmsgid != msgid) { if (currmsgid != 0 && !done) errx(1, "must finish current iteration first"); currmsgid = msgid; from = msgid_to_evpid(msgid); done = 0; found = 0; need_send = 1; } if (done) return (0); again: if (need_send) { found = 0; srv_send(IMSG_CTL_LIST_ENVELOPES, &from, sizeof(from)); } need_send = 0; srv_recv(IMSG_CTL_LIST_ENVELOPES); if (rlen == 0) { srv_end(); if (!found || evpid_to_msgid(from) != msgid) { done = 1; return (0); } need_send = 1; goto again; } srv_get_int(&flags); srv_get_time(&nexttry); srv_get_envelope(evp); srv_end(); evp->flags |= flags; evp->nexttry = nexttry; from = evp->id + 1; found++; return (1); } static int srv_iter_evpids(uint32_t msgid, uint64_t *evpid, int *offset) { static uint64_t *evpids = NULL, *tmp; static int n, tmpalloc, alloc = 0; struct envelope evp; if (*offset == 0) { n = 0; while (srv_iter_envelopes(msgid, &evp)) { if (n == alloc) { tmpalloc = alloc ? (alloc * 2) : 128; tmp = recallocarray(evpids, alloc, tmpalloc, sizeof(*evpids)); if (tmp == NULL) err(1, "recallocarray"); evpids = tmp; alloc = tmpalloc; } evpids[n++] = evp.id; } } if (*offset >= n) return (0); *evpid = evpids[*offset]; *offset += 1; return (1); } static void srv_foreach_envelope(struct parameter *argv, int ctl, size_t *total, size_t *ok) { uint32_t msgid; uint64_t evpid; int i; *total = 0; *ok = 0; if (argv == NULL) { while (srv_iter_messages(&msgid)) { i = 0; while (srv_iter_evpids(msgid, &evpid, &i)) { *total += 1; srv_send(ctl, &evpid, sizeof(evpid)); if (srv_check_result(0) == 0) *ok += 1; } } } else if (argv->type == P_MSGID) { i = 0; while (srv_iter_evpids(argv->u.u_msgid, &evpid, &i)) { srv_send(ctl, &evpid, sizeof(evpid)); if (srv_check_result(0) == 0) *ok += 1; } } else { *total += 1; srv_send(ctl, &argv->u.u_evpid, sizeof(evpid)); if (srv_check_result(0) == 0) *ok += 1; } } static void srv_show_cmd(int cmd, const void *data, size_t len) { int done = 0; srv_send(cmd, data, len); do { srv_recv(cmd); if (rlen) { printf("%s\n", rdata); srv_read(NULL, rlen); } else done = 1; srv_end(); } while (!done); } static int do_log_brief(int argc, struct parameter *argv) { int v = 0; srv_send(IMSG_CTL_VERBOSE, &v, sizeof(v)); return srv_check_result(1); } static int do_log_verbose(int argc, struct parameter *argv) { int v = TRACE_DEBUG; srv_send(IMSG_CTL_VERBOSE, &v, sizeof(v)); return srv_check_result(1); } static int do_monitor(int argc, struct parameter *argv) { struct stat_digest last, digest; size_t count; memset(&last, 0, sizeof(last)); count = 0; while (1) { srv_send(IMSG_CTL_GET_DIGEST, NULL, 0); srv_recv(IMSG_CTL_GET_DIGEST); srv_read(&digest, sizeof(digest)); srv_end(); if (count % 25 == 0) { if (count != 0) printf("\n"); printf("--- client --- " "-- envelope -- " "---- relay/delivery --- " "------- misc -------\n" "curr conn disc " "curr enq deq " "ok tmpfail prmfail loop " "expire remove bounce\n"); } printf("%4zu %4zu %4zu " "%4zu %4zu %4zu " "%4zu %4zu %4zu %4zu " "%4zu %4zu %4zu\n", digest.clt_connect - digest.clt_disconnect, digest.clt_connect - last.clt_connect, digest.clt_disconnect - last.clt_disconnect, digest.evp_enqueued - digest.evp_dequeued, digest.evp_enqueued - last.evp_enqueued, digest.evp_dequeued - last.evp_dequeued, digest.dlv_ok - last.dlv_ok, digest.dlv_tempfail - last.dlv_tempfail, digest.dlv_permfail - last.dlv_permfail, digest.dlv_loop - last.dlv_loop, digest.evp_expired - last.evp_expired, digest.evp_removed - last.evp_removed, digest.evp_bounce - last.evp_bounce); last = digest; count++; sleep(1); } return (0); } static int do_pause_envelope(int argc, struct parameter *argv) { size_t total, ok; srv_foreach_envelope(argv, IMSG_CTL_PAUSE_EVP, &total, &ok); printf("%zu envelope%s paused\n", ok, (ok > 1) ? "s" : ""); return (0); } static int do_pause_mda(int argc, struct parameter *argv) { srv_send(IMSG_CTL_PAUSE_MDA, NULL, 0); return srv_check_result(1); } static int do_pause_mta(int argc, struct parameter *argv) { srv_send(IMSG_CTL_PAUSE_MTA, NULL, 0); return srv_check_result(1); } static int do_pause_smtp(int argc, struct parameter *argv) { srv_send(IMSG_CTL_PAUSE_SMTP, NULL, 0); return srv_check_result(1); } static int do_profile(int argc, struct parameter *argv) { int v; v = str_to_profile(argv[0].u.u_str); srv_send(IMSG_CTL_PROFILE_ENABLE, &v, sizeof(v)); return srv_check_result(1); } static int do_remove(int argc, struct parameter *argv) { size_t total, ok; srv_foreach_envelope(argv, IMSG_CTL_REMOVE, &total, &ok); printf("%zu envelope%s removed\n", ok, (ok > 1) ? "s" : ""); return (0); } static int do_resume_envelope(int argc, struct parameter *argv) { size_t total, ok; srv_foreach_envelope(argv, IMSG_CTL_RESUME_EVP, &total, &ok); printf("%zu envelope%s resumed\n", ok, (ok > 1) ? "s" : ""); return (0); } static int do_resume_mda(int argc, struct parameter *argv) { srv_send(IMSG_CTL_RESUME_MDA, NULL, 0); return srv_check_result(1); } static int do_resume_mta(int argc, struct parameter *argv) { srv_send(IMSG_CTL_RESUME_MTA, NULL, 0); return srv_check_result(1); } static int do_resume_route(int argc, struct parameter *argv) { uint64_t v; if (argc == 0) v = 0; else v = argv[0].u.u_routeid; srv_send(IMSG_CTL_RESUME_ROUTE, &v, sizeof(v)); return srv_check_result(1); } static int do_resume_smtp(int argc, struct parameter *argv) { srv_send(IMSG_CTL_RESUME_SMTP, NULL, 0); return srv_check_result(1); } static int do_schedule(int argc, struct parameter *argv) { size_t total, ok; srv_foreach_envelope(argv, IMSG_CTL_SCHEDULE, &total, &ok); printf("%zu envelope%s scheduled\n", ok, (ok > 1) ? "s" : ""); return (0); } static int do_show_envelope(int argc, struct parameter *argv) { char buf[PATH_MAX]; if (!bsnprintf(buf, sizeof(buf), "%s%s/%02x/%08x/%016" PRIx64, PATH_SPOOL, PATH_QUEUE, (evpid_to_msgid(argv[0].u.u_evpid) & 0xff000000) >> 24, evpid_to_msgid(argv[0].u.u_evpid), argv[0].u.u_evpid)) errx(1, "unable to retrieve envelope"); display(buf); return (0); } static int do_show_hoststats(int argc, struct parameter *argv) { srv_show_cmd(IMSG_CTL_MTA_SHOW_HOSTSTATS, NULL, 0); return (0); } static int do_show_message(int argc, struct parameter *argv) { char buf[PATH_MAX]; uint32_t msgid; if (argv[0].type == P_EVPID) msgid = evpid_to_msgid(argv[0].u.u_evpid); else msgid = argv[0].u.u_msgid; if (!bsnprintf(buf, sizeof(buf), "%s%s/%02x/%08x/message", PATH_SPOOL, PATH_QUEUE, (msgid & 0xff000000) >> 24, msgid)) errx(1, "unable to retrieve message"); display(buf); return (0); } static int do_show_queue(int argc, struct parameter *argv) { struct envelope evp; uint32_t msgid; FTS *fts; FTSENT *ftse; char *qpath[] = {"/queue", NULL}; char *tmp; uint64_t evpid; now = time(NULL); if (!srv_connect()) { log_init(1, LOG_MAIL); queue_init("fs", 0); if (chroot(PATH_SPOOL) == -1 || chdir("/") == -1) err(1, "%s", PATH_SPOOL); fts = fts_open(qpath, FTS_PHYSICAL|FTS_NOCHDIR, NULL); if (fts == NULL) err(1, "%s/queue", PATH_SPOOL); while ((ftse = fts_read(fts)) != NULL) { switch (ftse->fts_info) { case FTS_DP: case FTS_DNR: break; case FTS_F: tmp = NULL; evpid = strtoull(ftse->fts_name, &tmp, 16); if (tmp && *tmp != '\0') break; show_offline_envelope(evpid); } } fts_close(fts); return (0); } if (argc == 0) { msgid = 0; while (srv_iter_messages(&msgid)) while (srv_iter_envelopes(msgid, &evp)) show_queue_envelope(&evp, 1); } else if (argv[0].type == P_MSGID) { while (srv_iter_envelopes(argv[0].u.u_msgid, &evp)) show_queue_envelope(&evp, 1); } return (0); } static int do_show_hosts(int argc, struct parameter *argv) { srv_show_cmd(IMSG_CTL_MTA_SHOW_HOSTS, NULL, 0); return (0); } static int do_show_relays(int argc, struct parameter *argv) { srv_show_cmd(IMSG_CTL_MTA_SHOW_RELAYS, NULL, 0); return (0); } static int do_show_routes(int argc, struct parameter *argv) { srv_show_cmd(IMSG_CTL_MTA_SHOW_ROUTES, NULL, 0); return (0); } static int do_show_stats(int argc, struct parameter *argv) { struct stat_kv kv; time_t duration; memset(&kv, 0, sizeof kv); while (1) { srv_send(IMSG_CTL_GET_STATS, &kv, sizeof kv); srv_recv(IMSG_CTL_GET_STATS); srv_read(&kv, sizeof(kv)); srv_end(); if (kv.iter == NULL) break; if (strcmp(kv.key, "uptime") == 0) { duration = time(NULL) - kv.val.u.counter; printf("uptime=%lld\n", (long long)duration); printf("uptime.human=%s\n", duration_to_text(duration)); } else { switch (kv.val.type) { case STAT_COUNTER: printf("%s=%zd\n", kv.key, kv.val.u.counter); break; case STAT_TIMESTAMP: printf("%s=%" PRId64 "\n", kv.key, (int64_t)kv.val.u.timestamp); break; case STAT_TIMEVAL: printf("%s=%lld.%lld\n", kv.key, (long long)kv.val.u.tv.tv_sec, (long long)kv.val.u.tv.tv_usec); break; case STAT_TIMESPEC: printf("%s=%lld.%06ld\n", kv.key, (long long)kv.val.u.ts.tv_sec * 1000000 + kv.val.u.ts.tv_nsec / 1000000, kv.val.u.ts.tv_nsec % 1000000); break; } } } return (0); } static int do_show_status(int argc, struct parameter *argv) { uint32_t sc_flags; srv_send(IMSG_CTL_SHOW_STATUS, NULL, 0); srv_recv(IMSG_CTL_SHOW_STATUS); srv_read(&sc_flags, sizeof(sc_flags)); srv_end(); printf("MDA %s\n", (sc_flags & SMTPD_MDA_PAUSED) ? "paused" : "running"); printf("MTA %s\n", (sc_flags & SMTPD_MTA_PAUSED) ? "paused" : "running"); printf("SMTP %s\n", (sc_flags & SMTPD_SMTP_PAUSED) ? "paused" : "running"); return (0); } static int do_trace(int argc, struct parameter *argv) { int v; v = str_to_trace(argv[0].u.u_str); srv_send(IMSG_CTL_TRACE_ENABLE, &v, sizeof(v)); return srv_check_result(1); } static int do_unprofile(int argc, struct parameter *argv) { int v; v = str_to_profile(argv[0].u.u_str); srv_send(IMSG_CTL_PROFILE_DISABLE, &v, sizeof(v)); return srv_check_result(1); } static int do_untrace(int argc, struct parameter *argv) { int v; v = str_to_trace(argv[0].u.u_str); srv_send(IMSG_CTL_TRACE_DISABLE, &v, sizeof(v)); return srv_check_result(1); } static int do_update_table(int argc, struct parameter *argv) { const char *name = argv[0].u.u_str; srv_send(IMSG_CTL_UPDATE_TABLE, name, strlen(name) + 1); return srv_check_result(1); } static int do_encrypt(int argc, struct parameter *argv) { const char *p = NULL; if (argv) p = argv[0].u.u_str; execl(PATH_ENCRYPT, "encrypt", p, (char *)NULL); errx(1, "execl"); } static int do_block_mta(int argc, struct parameter *argv) { struct ibuf *m; if (ibuf == NULL && !srv_connect()) errx(1, "smtpd doesn't seem to be running"); m = imsg_create(ibuf, IMSG_CTL_MTA_BLOCK, IMSG_VERSION, 0, sizeof(argv[0].u.u_ss) + strlen(argv[1].u.u_str) + 1); if (imsg_add(m, &argv[0].u.u_ss, sizeof(argv[0].u.u_ss)) == -1) errx(1, "imsg_add"); if (imsg_add(m, argv[1].u.u_str, strlen(argv[1].u.u_str) + 1) == -1) errx(1, "imsg_add"); imsg_close(ibuf, m); return srv_check_result(1); } static int do_unblock_mta(int argc, struct parameter *argv) { struct ibuf *m; if (ibuf == NULL && !srv_connect()) errx(1, "smtpd doesn't seem to be running"); m = imsg_create(ibuf, IMSG_CTL_MTA_UNBLOCK, IMSG_VERSION, 0, sizeof(argv[0].u.u_ss) + strlen(argv[1].u.u_str) + 1); if (imsg_add(m, &argv[0].u.u_ss, sizeof(argv[0].u.u_ss)) == -1) errx(1, "imsg_add"); if (imsg_add(m, argv[1].u.u_str, strlen(argv[1].u.u_str) + 1) == -1) errx(1, "imsg_add"); imsg_close(ibuf, m); return srv_check_result(1); } static int do_show_mta_block(int argc, struct parameter *argv) { srv_show_cmd(IMSG_CTL_MTA_SHOW_BLOCK, NULL, 0); return (0); } static int do_discover(int argc, struct parameter *argv) { uint64_t evpid; uint32_t msgid; size_t n_evp; if (ibuf == NULL && !srv_connect()) errx(1, "smtpd doesn't seem to be running"); if (argv[0].type == P_EVPID) { evpid = argv[0].u.u_evpid; srv_send(IMSG_CTL_DISCOVER_EVPID, &evpid, sizeof evpid); srv_recv(IMSG_CTL_DISCOVER_EVPID); } else { msgid = argv[0].u.u_msgid; srv_send(IMSG_CTL_DISCOVER_MSGID, &msgid, sizeof msgid); srv_recv(IMSG_CTL_DISCOVER_MSGID); } if (rlen == 0) { srv_end(); return (0); } else { srv_read(&n_evp, sizeof n_evp); srv_end(); } printf("%zu envelope%s discovered\n", n_evp, (n_evp != 1) ? "s" : ""); return (0); } static int do_uncorrupt(int argc, struct parameter *argv) { uint32_t msgid; int ret; if (ibuf == NULL && !srv_connect()) errx(1, "smtpd doesn't seem to be running"); msgid = argv[0].u.u_msgid; srv_send(IMSG_CTL_UNCORRUPT_MSGID, &msgid, sizeof msgid); srv_recv(IMSG_CTL_UNCORRUPT_MSGID); if (rlen == 0) { srv_end(); return (0); } else { srv_read(&ret, sizeof ret); srv_end(); } printf("command %s\n", ret ? "succeeded" : "failed"); return (0); } int main(int argc, char **argv) { gid_t gid; char *argv_mailq[] = { "show", "queue", NULL }; sendmail_compat(argc, argv); if (geteuid()) errx(1, "need root privileges"); gid = getgid(); if (setresgid(gid, gid, gid) == -1) err(1, "setresgid"); cmd_install("discover ", do_discover); cmd_install("discover ", do_discover); cmd_install("encrypt", do_encrypt); cmd_install("encrypt ", do_encrypt); cmd_install("pause mta from for ", do_block_mta); cmd_install("resume mta from for ", do_unblock_mta); cmd_install("show mta paused", do_show_mta_block); cmd_install("log brief", do_log_brief); cmd_install("log verbose", do_log_verbose); cmd_install("monitor", do_monitor); cmd_install("pause envelope ", do_pause_envelope); cmd_install("pause envelope ", do_pause_envelope); cmd_install("pause envelope all", do_pause_envelope); cmd_install("pause mda", do_pause_mda); cmd_install("pause mta", do_pause_mta); cmd_install("pause smtp", do_pause_smtp); cmd_install("profile ", do_profile); cmd_install("remove ", do_remove); cmd_install("remove ", do_remove); cmd_install("remove all", do_remove); cmd_install("resume envelope ", do_resume_envelope); cmd_install("resume envelope ", do_resume_envelope); cmd_install("resume envelope all", do_resume_envelope); cmd_install("resume mda", do_resume_mda); cmd_install("resume mta", do_resume_mta); cmd_install("resume route ", do_resume_route); cmd_install("resume smtp", do_resume_smtp); cmd_install("schedule ", do_schedule); cmd_install("schedule ", do_schedule); cmd_install("schedule all", do_schedule); cmd_install("show envelope ", do_show_envelope); cmd_install("show hoststats", do_show_hoststats); cmd_install("show message ", do_show_message); cmd_install("show message ", do_show_message); cmd_install("show queue", do_show_queue); cmd_install("show queue ", do_show_queue); cmd_install("show hosts", do_show_hosts); cmd_install("show relays", do_show_relays); cmd_install("show routes", do_show_routes); cmd_install("show stats", do_show_stats); cmd_install("show status", do_show_status); cmd_install("trace ", do_trace); cmd_install("uncorrupt ", do_uncorrupt); cmd_install("unprofile ", do_unprofile); cmd_install("untrace ", do_untrace); cmd_install("update table ", do_update_table); if (strcmp(__progname, "mailq") == 0) return cmd_run(2, argv_mailq); if (strcmp(__progname, "smtpctl") == 0) return cmd_run(argc - 1, argv + 1); errx(1, "unsupported mode"); return (0); } void sendmail_compat(int argc, char **argv) { FILE *offlinefp = NULL; gid_t gid; int i; if (strcmp(__progname, "sendmail") == 0 || strcmp(__progname, "send-mail") == 0) { /* * determine whether we are called with flags * that should invoke makemap/newaliases. */ for (i = 1; i < argc; i++) if (strncmp(argv[i], "-bi", 3) == 0) { __progname = "newaliases"; exit(makemap(argc, argv)); } if (!srv_connect()) offlinefp = offline_file(); gid = getgid(); if (setresgid(gid, gid, gid) == -1) err(1, "setresgid"); /* we'll reduce further down the road */ if (pledge("stdio rpath wpath cpath tmppath flock " "dns getpw recvfd", NULL) == -1) err(1, "pledge"); sendmail = 1; exit(enqueue(argc, argv, offlinefp)); } else if (strcmp(__progname, "makemap") == 0 || strcmp(__progname, "newaliases") == 0) exit(makemap(argc, argv)); } static void show_queue_envelope(struct envelope *e, int online) { const char *src = "?", *agent = "?"; char status[128], runstate[128]; status[0] = '\0'; getflag(&e->flags, EF_BOUNCE, "bounce", status, sizeof(status)); getflag(&e->flags, EF_AUTHENTICATED, "auth", status, sizeof(status)); getflag(&e->flags, EF_INTERNAL, "internal", status, sizeof(status)); getflag(&e->flags, EF_SUSPEND, "suspend", status, sizeof(status)); getflag(&e->flags, EF_HOLD, "hold", status, sizeof(status)); if (online) { if (e->flags & EF_PENDING) (void)snprintf(runstate, sizeof runstate, "pending|%zd", (ssize_t)(e->nexttry - now)); else if (e->flags & EF_INFLIGHT) (void)snprintf(runstate, sizeof runstate, "inflight|%zd", (ssize_t)(now - e->lasttry)); else (void)snprintf(runstate, sizeof runstate, "invalid|"); e->flags &= ~(EF_PENDING|EF_INFLIGHT); } else (void)strlcpy(runstate, "offline|", sizeof runstate); if (e->flags) errx(1, "%016" PRIx64 ": unexpected flags 0x%04x", e->id, e->flags); if (status[0]) status[strlen(status) - 1] = '\0'; if (e->type == D_MDA) agent = "mda"; else if (e->type == D_MTA) agent = "mta"; else if (e->type == D_BOUNCE) agent = "bounce"; if (e->ss.ss_family == AF_LOCAL) src = "local"; else if (e->ss.ss_family == AF_INET) src = "inet4"; else if (e->ss.ss_family == AF_INET6) src = "inet6"; printf("%016"PRIx64 "|%s|%s|%s|%s@%s|%s@%s|%s@%s" "|%zu|%zu|%zu|%zu|%s|%s\n", e->id, src, agent, status, e->sender.user, e->sender.domain, e->rcpt.user, e->rcpt.domain, e->dest.user, e->dest.domain, (size_t) e->creation, (size_t) (e->creation + e->expire), (size_t) e->lasttry, (size_t) e->retry, runstate, e->errorline); } static void getflag(uint *bitmap, int bit, char *bitstr, char *buf, size_t len) { if (*bitmap & bit) { *bitmap &= ~bit; (void)strlcat(buf, bitstr, len); (void)strlcat(buf, ",", len); } } static void show_offline_envelope(uint64_t evpid) { FILE *fp = NULL; char pathname[PATH_MAX]; size_t plen; char *p; size_t buflen; char buffer[sizeof(struct envelope)]; struct envelope evp; if (!bsnprintf(pathname, sizeof pathname, "/queue/%02x/%08x/%016"PRIx64, (evpid_to_msgid(evpid) & 0xff000000) >> 24, evpid_to_msgid(evpid), evpid)) goto end; fp = fopen(pathname, "r"); if (fp == NULL) goto end; buflen = fread(buffer, 1, sizeof (buffer) - 1, fp); p = buffer; plen = buflen; buffer[buflen] = '\0'; if (is_encrypted_buffer(p)) { warnx("offline encrypted queue is not supported yet"); goto end; } if (is_gzip_buffer(p)) { warnx("offline compressed queue is not supported yet"); goto end; } if (!envelope_load_buffer(&evp, p, plen)) goto end; evp.id = evpid; show_queue_envelope(&evp, 0); end: if (fp) fclose(fp); } static void display(const char *s) { FILE *fp; char *key; int gzipped; char *gzcat_argv0 = strrchr(PATH_GZCAT, '/') + 1; if ((fp = fopen(s, "r")) == NULL) err(1, "fopen"); if (is_encrypted_fp(fp)) { int i; int fd; FILE *ofp = NULL; char sfn[] = "/tmp/smtpd.XXXXXXXXXX"; if ((fd = mkstemp(sfn)) == -1 || (ofp = fdopen(fd, "w+")) == NULL) { int saved_errno = errno; if (fd != -1) { unlink(sfn); close(fd); } errc(1, saved_errno, "mkstemp"); } unlink(sfn); for (i = 0; i < 3; i++) { key = getpass("key> "); if (crypto_setup(key, strlen(key))) break; } if (i == 3) errx(1, "crypto-setup: invalid key"); if (!crypto_decrypt_file(fp, ofp)) { printf("object is encrypted: %s\n", key); exit(1); } fclose(fp); fp = ofp; fseek(fp, 0, SEEK_SET); } gzipped = is_gzip_fp(fp); lseek(fileno(fp), 0, SEEK_SET); (void)dup2(fileno(fp), STDIN_FILENO); if (gzipped) execl(PATH_GZCAT, gzcat_argv0, (char *)NULL); else execl(PATH_CAT, "cat", (char *)NULL); err(1, "execl"); } static int str_to_trace(const char *str) { if (!strcmp(str, "imsg")) return TRACE_IMSG; if (!strcmp(str, "io")) return TRACE_IO; if (!strcmp(str, "smtp")) return TRACE_SMTP; if (!strcmp(str, "filters")) return TRACE_FILTERS; if (!strcmp(str, "mta")) return TRACE_MTA; if (!strcmp(str, "bounce")) return TRACE_BOUNCE; if (!strcmp(str, "scheduler")) return TRACE_SCHEDULER; if (!strcmp(str, "lookup")) return TRACE_LOOKUP; if (!strcmp(str, "stat")) return TRACE_STAT; if (!strcmp(str, "rules")) return TRACE_RULES; if (!strcmp(str, "mproc")) return TRACE_MPROC; if (!strcmp(str, "expand")) return TRACE_EXPAND; if (!strcmp(str, "all")) return ~TRACE_DEBUG; errx(1, "invalid trace keyword: %s", str); return (0); } static int str_to_profile(const char *str) { if (!strcmp(str, "imsg")) return PROFILE_IMSG; if (!strcmp(str, "queue")) return PROFILE_QUEUE; errx(1, "invalid profile keyword: %s", str); return (0); } static int is_gzip_buffer(const char *buffer) { uint16_t magic; memcpy(&magic, buffer, sizeof magic); #define GZIP_MAGIC 0x8b1f return (magic == GZIP_MAGIC); } static int is_gzip_fp(FILE *fp) { uint8_t magic[2]; int ret = 0; if (fread(&magic, 1, sizeof magic, fp) != sizeof magic) goto end; ret = is_gzip_buffer((const char *)&magic); end: fseek(fp, 0, SEEK_SET); return ret; } /* XXX */ /* * queue supports transparent encryption. * encrypted chunks are prefixed with an API version byte * which we ensure is unambiguous with gzipped / plain * objects. */ static int is_encrypted_buffer(const char *buffer) { uint8_t magic; magic = *buffer; #define ENCRYPTION_MAGIC 0x1 return (magic == ENCRYPTION_MAGIC); } static int is_encrypted_fp(FILE *fp) { uint8_t magic; int ret = 0; if (fread(&magic, 1, sizeof magic, fp) != sizeof magic) goto end; ret = is_encrypted_buffer((const char *)&magic); end: fseek(fp, 0, SEEK_SET); return ret; }