/* $OpenBSD: smtp_session.c,v 1.122 2009/10/19 20:48:13 gilles Exp $ */ /* * Copyright (c) 2008 Gilles Chehade * Copyright (c) 2008 Pierre-Yves Ritschard * Copyright (c) 2008-2009 Jacek Masiulaniec * * 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" int session_rfc5321_helo_handler(struct session *, char *); int session_rfc5321_ehlo_handler(struct session *, char *); int session_rfc5321_rset_handler(struct session *, char *); int session_rfc5321_noop_handler(struct session *, char *); int session_rfc5321_data_handler(struct session *, char *); int session_rfc5321_mail_handler(struct session *, char *); int session_rfc5321_rcpt_handler(struct session *, char *); int session_rfc5321_vrfy_handler(struct session *, char *); int session_rfc5321_expn_handler(struct session *, char *); int session_rfc5321_turn_handler(struct session *, char *); int session_rfc5321_help_handler(struct session *, char *); int session_rfc5321_quit_handler(struct session *, char *); int session_rfc5321_none_handler(struct session *, char *); int session_rfc1652_mail_handler(struct session *, char *); int session_rfc3207_stls_handler(struct session *, char *); int session_rfc4954_auth_handler(struct session *, char *); void session_rfc4954_auth_plain(struct session *, char *); void session_rfc4954_auth_login(struct session *, char *); void session_read(struct bufferevent *, void *); void session_read_data(struct session *, char *); void session_write(struct bufferevent *, void *); void session_error(struct bufferevent *, short event, void *); void session_command(struct session *, char *); char *session_readline(struct session *); void session_respond_delayed(int, short, void *); int session_set_path(struct path *, char *); void session_imsg(struct session *, enum smtp_proc_type, enum imsg_type, u_int32_t, pid_t, int, void *, u_int16_t); struct session_cmd { char *name; int (*func)(struct session *, char *); }; struct session_cmd rfc5321_cmdtab[] = { { "helo", session_rfc5321_helo_handler }, { "ehlo", session_rfc5321_ehlo_handler }, { "rset", session_rfc5321_rset_handler }, { "noop", session_rfc5321_noop_handler }, { "data", session_rfc5321_data_handler }, { "mail from", session_rfc5321_mail_handler }, { "rcpt to", session_rfc5321_rcpt_handler }, { "vrfy", session_rfc5321_vrfy_handler }, { "expn", session_rfc5321_expn_handler }, { "turn", session_rfc5321_turn_handler }, { "help", session_rfc5321_help_handler }, { "quit", session_rfc5321_quit_handler } }; struct session_cmd rfc1652_cmdtab[] = { { "mail from", session_rfc1652_mail_handler }, }; struct session_cmd rfc3207_cmdtab[] = { { "starttls", session_rfc3207_stls_handler } }; struct session_cmd rfc4954_cmdtab[] = { { "auth", session_rfc4954_auth_handler } }; int session_rfc3207_stls_handler(struct session *s, char *args) { if (! ADVERTISE_TLS(s)) return 0; if (s->s_state == S_GREETED) { session_respond(s, "503 Polite people say HELO first"); return 1; } if (s->s_state != S_HELO) { session_respond(s, "503 TLS not allowed at this stage"); return 1; } if (args != NULL) { session_respond(s, "501 No parameters allowed"); return 1; } s->s_state = S_TLS; session_respond(s, "220 Ready to start TLS"); return 1; } int session_rfc4954_auth_handler(struct session *s, char *args) { char *method; char *eom; if (! ADVERTISE_AUTH(s)) { if (s->s_flags & F_AUTHENTICATED) { session_respond(s, "503 Already authenticated"); return 1; } else return 0; } if (s->s_state == S_GREETED) { session_respond(s, "503 Polite people say HELO first"); return 1; } if (s->s_state != S_HELO) { session_respond(s, "503 Session already in progress"); return 1; } if (args == NULL) { session_respond(s, "501 No parameters given"); return 1; } method = args; eom = strchr(args, ' '); if (eom == NULL) eom = strchr(args, '\t'); if (eom != NULL) *eom++ = '\0'; if (strcasecmp(method, "PLAIN") == 0) session_rfc4954_auth_plain(s, eom); else if (strcasecmp(method, "LOGIN") == 0) session_rfc4954_auth_login(s, eom); else session_respond(s, "504 AUTH method '%s' unsupported", method); return 1; } void session_rfc4954_auth_plain(struct session *s, char *arg) { struct auth *a = &s->s_auth; char buf[1024], *user, *pass; int len; switch (s->s_state) { case S_HELO: if (arg == NULL) { s->s_state = S_AUTH_INIT; session_respond(s, "334 "); return; } s->s_state = S_AUTH_INIT; /* FALLTHROUGH */ case S_AUTH_INIT: /* String is not NUL terminated, leave room. */ if ((len = __b64_pton(arg, (unsigned char *)buf, sizeof(buf) - 1)) == -1) goto abort; /* buf is a byte string, NUL terminate. */ buf[len] = '\0'; /* * Skip "foo" in "foo\0user\0pass", if present. */ user = memchr(buf, '\0', len); if (user == NULL || user >= buf + len - 2) goto abort; user++; /* skip NUL */ if (strlcpy(a->user, user, sizeof(a->user)) >= sizeof(a->user)) goto abort; pass = memchr(user, '\0', len - (user - buf)); if (pass == NULL || pass >= buf + len - 2) goto abort; pass++; /* skip NUL */ if (strlcpy(a->pass, pass, sizeof(a->pass)) >= sizeof(a->pass)) goto abort; s->s_state = S_AUTH_FINALIZE; a->id = s->s_id; session_imsg(s, PROC_PARENT, IMSG_PARENT_AUTHENTICATE, 0, 0, -1, a, sizeof(*a)); bzero(a->pass, sizeof(a->pass)); return; default: fatal("session_rfc4954_auth_plain: unknown state"); } abort: session_respond(s, "501 Syntax error"); s->s_state = S_HELO; } void session_rfc4954_auth_login(struct session *s, char *arg) { struct auth *a = &s->s_auth; switch (s->s_state) { case S_HELO: s->s_state = S_AUTH_USERNAME; session_respond(s, "334 VXNlcm5hbWU6"); return; case S_AUTH_USERNAME: bzero(a->user, sizeof(a->user)); if (__b64_pton(arg, (unsigned char *)a->user, sizeof(a->user) - 1) == -1) goto abort; s->s_state = S_AUTH_PASSWORD; session_respond(s, "334 UGFzc3dvcmQ6"); return; case S_AUTH_PASSWORD: bzero(a->pass, sizeof(a->pass)); if (__b64_pton(arg, (unsigned char *)a->pass, sizeof(a->pass) - 1) == -1) goto abort; s->s_state = S_AUTH_FINALIZE; a->id = s->s_id; session_imsg(s, PROC_PARENT, IMSG_PARENT_AUTHENTICATE, 0, 0, -1, a, sizeof(*a)); bzero(a->pass, sizeof(a->pass)); return; default: fatal("session_rfc4954_auth_login: unknown state"); } abort: session_respond(s, "501 Syntax error"); s->s_state = S_HELO; } int session_rfc1652_mail_handler(struct session *s, char *args) { char *body; if (s->s_state == S_GREETED) { session_respond(s, "503 Polite people say HELO first"); return 1; } for (body = strrchr(args, ' '); body != NULL; body = strrchr(args, ' ')) { *body++ = '\0'; if (strncasecmp(body, "AUTH=", 5) == 0) { log_debug("AUTH in MAIL FROM command, skipping"); continue; } if (strncasecmp(body, "BODY=", 5) == 0) { log_debug("BODY in MAIL FROM command"); if (strncasecmp("body=7bit", body, 9) == 0) { s->s_flags &= ~F_8BITMIME; continue; } else if (strncasecmp("body=8bitmime", body, 13) != 0) { session_respond(s, "503 Invalid BODY"); return 1; } } } return session_rfc5321_mail_handler(s, args); } int session_rfc5321_helo_handler(struct session *s, char *args) { if (args == NULL) { session_respond(s, "501 HELO requires domain address"); return 1; } if (strlcpy(s->s_msg.session_helo, args, sizeof(s->s_msg.session_helo)) >= sizeof(s->s_msg.session_helo)) { session_respond(s, "501 Invalid domain name"); return 1; } s->s_state = S_HELO; s->s_flags &= F_SECURE|F_AUTHENTICATED; session_respond(s, "250 %s Hello %s [%s], pleased to meet you", s->s_env->sc_hostname, args, ss_to_text(&s->s_ss)); return 1; } int session_rfc5321_ehlo_handler(struct session *s, char *args) { if (args == NULL) { session_respond(s, "501 EHLO requires domain address"); return 1; } if (strlcpy(s->s_msg.session_helo, args, sizeof(s->s_msg.session_helo)) >= sizeof(s->s_msg.session_helo)) { session_respond(s, "501 Invalid domain name"); return 1; } s->s_state = S_HELO; s->s_flags &= F_SECURE|F_AUTHENTICATED; s->s_flags |= F_EHLO; s->s_flags |= F_8BITMIME; session_respond(s, "250-%s Hello %s [%s], pleased to meet you", s->s_env->sc_hostname, args, ss_to_text(&s->s_ss)); session_respond(s, "250-8BITMIME"); if (ADVERTISE_TLS(s)) session_respond(s, "250-STARTTLS"); if (ADVERTISE_AUTH(s)) session_respond(s, "250-AUTH PLAIN LOGIN"); session_respond(s, "250 HELP"); return 1; } int session_rfc5321_rset_handler(struct session *s, char *args) { s->s_state = S_HELO; session_respond(s, "250 Reset state"); return 1; } int session_rfc5321_noop_handler(struct session *s, char *args) { session_respond(s, "250 OK"); return 1; } int session_rfc5321_mail_handler(struct session *s, char *args) { if (s->s_state == S_GREETED) { session_respond(s, "503 Polite people say HELO first"); return 1; } if (s->s_state != S_HELO) { session_respond(s, "503 Sender already specified"); return 1; } if (! session_set_path(&s->s_msg.sender, args)) { /* No need to even transmit to MFA, path is invalid */ session_respond(s, "553 Sender address syntax error"); return 1; } s->rcptcount = 0; s->s_state = S_MAIL_MFA; s->s_msg.id = s->s_id; s->s_msg.session_id = s->s_id; s->s_msg.session_ss = s->s_ss; (void)strlcpy(s->s_msg.tag, s->s_l->tag, sizeof(s->s_msg.tag)); log_debug("session_rfc5321_mail_handler: sending notification to mfa"); session_imsg(s, PROC_MFA, IMSG_MFA_MAIL, 0, 0, -1, &s->s_msg, sizeof(s->s_msg)); return 1; } int session_rfc5321_rcpt_handler(struct session *s, char *args) { if (s->s_state == S_GREETED) { session_respond(s, "503 Polite people say HELO first"); return 1; } if (s->s_state == S_HELO) { session_respond(s, "503 Need MAIL before RCPT"); return 1; } if (! session_set_path(&s->s_msg.session_rcpt, args)) { /* No need to even transmit to MFA, path is invalid */ session_respond(s, "553 Recipient address syntax error"); return 1; } s->s_state = S_RCPT_MFA; session_imsg(s, PROC_MFA, IMSG_MFA_RCPT, 0, 0, -1, &s->s_msg, sizeof(s->s_msg)); return 1; } int session_rfc5321_quit_handler(struct session *s, char *args) { session_respond(s, "221 %s Closing connection", s->s_env->sc_hostname); s->s_flags |= F_QUIT; return 1; } int session_rfc5321_data_handler(struct session *s, char *args) { if (s->s_state == S_GREETED) { session_respond(s, "503 Polite people say HELO first"); return 1; } if (s->s_state == S_HELO) { session_respond(s, "503 Need MAIL before DATA"); return 1; } if (s->s_state == S_MAIL) { session_respond(s, "503 Need RCPT before DATA"); return 1; } s->s_state = S_DATA_QUEUE; session_imsg(s, PROC_QUEUE, IMSG_QUEUE_MESSAGE_FILE, 0, 0, -1, &s->s_msg, sizeof(s->s_msg)); return 1; } int session_rfc5321_vrfy_handler(struct session *s, char *args) { session_respond(s, "252 Cannot VRFY; try RCPT to attempt delivery"); return 1; } int session_rfc5321_expn_handler(struct session *s, char *args) { session_respond(s, "502 Sorry, we do not allow this operation"); return 1; } int session_rfc5321_turn_handler(struct session *s, char *args) { session_respond(s, "502 Sorry, we do not allow this operation"); return 1; } int session_rfc5321_help_handler(struct session *s, char *args) { session_respond(s, "214- This is OpenSMTPD"); session_respond(s, "214- To report bugs in the implementation, please " "contact bugs@openbsd.org"); session_respond(s, "214- with full details"); session_respond(s, "214 End of HELP info"); return 1; } void session_command(struct session *s, char *cmd) { char *ep, *args; unsigned int i; if ((ep = strchr(cmd, ':')) == NULL) ep = strchr(cmd, ' '); if (ep != NULL) { *ep = '\0'; args = ++ep; while (isspace((int)*args)) args++; } else args = NULL; log_debug("command: %s\targs: %s", cmd, args); if (!(s->s_flags & F_EHLO)) goto rfc5321; /* RFC 1652 - 8BITMIME */ for (i = 0; i < nitems(rfc1652_cmdtab); ++i) if (strcasecmp(rfc1652_cmdtab[i].name, cmd) == 0) break; if (i < nitems(rfc1652_cmdtab)) { if (rfc1652_cmdtab[i].func(s, args)) return; } /* RFC 3207 - STARTTLS */ for (i = 0; i < nitems(rfc3207_cmdtab); ++i) if (strcasecmp(rfc3207_cmdtab[i].name, cmd) == 0) break; if (i < nitems(rfc3207_cmdtab)) { if (rfc3207_cmdtab[i].func(s, args)) return; } /* RFC 4954 - AUTH */ for (i = 0; i < nitems(rfc4954_cmdtab); ++i) if (strcasecmp(rfc4954_cmdtab[i].name, cmd) == 0) break; if (i < nitems(rfc4954_cmdtab)) { if (rfc4954_cmdtab[i].func(s, args)) return; } rfc5321: /* RFC 5321 - SMTP */ for (i = 0; i < nitems(rfc5321_cmdtab); ++i) if (strcasecmp(rfc5321_cmdtab[i].name, cmd) == 0) break; if (i < nitems(rfc5321_cmdtab)) { if (rfc5321_cmdtab[i].func(s, args)) return; } session_respond(s, "500 Command unrecognized"); } void session_pickup(struct session *s, struct submit_status *ss) { if (s == NULL) fatal("session_pickup: desynchronized"); if ((ss != NULL && ss->code == 421) || (s->s_msg.status & S_MESSAGE_TEMPFAILURE)) { session_respond(s, "421 Service temporarily unavailable"); s->s_env->stats->smtp.tempfail++; s->s_flags |= F_QUIT; return; } switch (s->s_state) { case S_INIT: s->s_state = S_GREETED; log_debug("session_pickup: greeting client"); session_respond(s, SMTPD_BANNER, s->s_env->sc_hostname); break; case S_TLS: if (s->s_flags & F_WRITEONLY) fatalx("session_pickup: corrupt session"); bufferevent_enable(s->s_bev, EV_READ); s->s_state = S_GREETED; break; case S_AUTH_FINALIZE: if (s->s_flags & F_AUTHENTICATED) session_respond(s, "235 Authentication succeeded"); else session_respond(s, "535 Authentication failed"); s->s_state = S_HELO; break; case S_MAIL_MFA: if (ss == NULL) fatalx("bad ss at S_MAIL_MFA"); if (ss->code != 250) { s->s_state = S_HELO; session_respond(s, "%d Sender rejected", ss->code); return; } s->s_state = S_MAIL_QUEUE; s->s_msg.sender = ss->u.path; session_imsg(s, PROC_QUEUE, IMSG_QUEUE_CREATE_MESSAGE, 0, 0, -1, &s->s_msg, sizeof(s->s_msg)); break; case S_MAIL_QUEUE: if (ss == NULL) fatalx("bad ss at S_MAIL_QUEUE"); s->s_state = S_MAIL; session_respond(s, "%d Sender ok", ss->code); break; case S_RCPT_MFA: if (ss == NULL) fatalx("bad ss at S_RCPT_MFA"); /* recipient was not accepted */ if (ss->code != 250) { /* We do not have a valid recipient, downgrade state */ if (s->rcptcount == 0) s->s_state = S_MAIL; else s->s_state = S_RCPT; session_respond(s, "%d Recipient rejected", ss->code); return; } s->s_state = S_RCPT; s->rcptcount++; s->s_msg.recipient = ss->u.path; session_respond(s, "%d Recipient ok", ss->code); break; case S_DATA_QUEUE: s->s_state = S_DATACONTENT; session_respond(s, "354 Enter mail, end with \".\" on a line by" " itself"); fprintf(s->datafp, "Received: from %s (%s [%s])\n", s->s_msg.session_helo, s->s_hostname, ss_to_text(&s->s_ss)); fprintf(s->datafp, "\tby %s (OpenSMTPD) with %sSMTP id %s", s->s_env->sc_hostname, s->s_flags & F_EHLO ? "E" : "", s->s_msg.message_id); if (s->s_flags & F_SECURE) { fprintf(s->datafp, "\n\t(version=%s cipher=%s bits=%d)", SSL_get_cipher_version(s->s_ssl), SSL_get_cipher_name(s->s_ssl), SSL_get_cipher_bits(s->s_ssl, NULL)); } if (s->rcptcount == 1) fprintf(s->datafp, "\n\tfor <%s@%s>; ", s->s_msg.session_rcpt.user, s->s_msg.session_rcpt.domain); else fprintf(s->datafp, ";\n\t"); fprintf(s->datafp, "%s\n", time_to_text(time(NULL))); break; case S_DONE: session_respond(s, "250 %s Message accepted for delivery", s->s_msg.message_id); log_info("%s: from=<%s%s%s>, size=%ld, nrcpts=%zd, proto=%s, " "relay=%s [%s]", s->s_msg.message_id, s->s_msg.sender.user, s->s_msg.sender.user[0] == '\0' ? "" : "@", s->s_msg.sender.domain, s->s_datalen, s->rcptcount, s->s_flags & F_EHLO ? "ESMTP" : "SMTP", s->s_hostname, ss_to_text(&s->s_ss)); s->s_state = S_HELO; s->s_msg.message_id[0] = '\0'; s->s_msg.message_uid[0] = '\0'; bzero(&s->s_nresp, sizeof(s->s_nresp)); break; default: fatal("session_pickup: unknown state"); } } void session_init(struct listener *l, struct session *s) { s->s_state = S_INIT; if (l->flags & F_SMTPS) { ssl_session_init(s); return; } session_bufferevent_new(s); session_pickup(s, NULL); } void session_bufferevent_new(struct session *s) { if (s->s_bev != NULL) fatalx("session_bufferevent_new: attempt to override existing " "bufferevent"); if (s->s_flags & F_WRITEONLY) fatalx("session_bufferevent_new: corrupt session"); s->s_bev = bufferevent_new(s->s_fd, session_read, session_write, session_error, s); if (s->s_bev == NULL) fatal("session_bufferevent_new"); bufferevent_settimeout(s->s_bev, SMTPD_SESSION_TIMEOUT, SMTPD_SESSION_TIMEOUT); } void session_read(struct bufferevent *bev, void *p) { struct session *s = p; char *line; for (;;) { line = session_readline(s); if (line == NULL) return; switch (s->s_state) { case S_AUTH_INIT: if (s->s_msg.status & S_MESSAGE_TEMPFAILURE) goto tempfail; session_rfc4954_auth_plain(s, line); break; case S_AUTH_USERNAME: case S_AUTH_PASSWORD: if (s->s_msg.status & S_MESSAGE_TEMPFAILURE) goto tempfail; session_rfc4954_auth_login(s, line); break; case S_GREETED: case S_HELO: case S_MAIL: case S_RCPT: if (s->s_msg.status & S_MESSAGE_TEMPFAILURE) goto tempfail; session_command(s, line); break; case S_DATACONTENT: session_read_data(s, line); break; default: fatalx("session_read: unexpected state"); } free(line); } return; tempfail: session_respond(s, "421 Service temporarily unavailable"); s->s_env->stats->smtp.tempfail++; s->s_flags |= F_QUIT; free(line); } void session_read_data(struct session *s, char *line) { size_t len; size_t i; if (strcmp(line, ".") == 0) { s->s_datalen = ftell(s->datafp); if (! safe_fclose(s->datafp)) s->s_msg.status |= S_MESSAGE_TEMPFAILURE; s->datafp = NULL; if (s->s_msg.status & S_MESSAGE_PERMFAILURE) { session_respond(s, "554 Transaction failed"); s->s_state = S_HELO; } else if (s->s_msg.status & S_MESSAGE_TEMPFAILURE) { session_respond(s, "421 Temporary failure"); s->s_flags |= F_QUIT; s->s_env->stats->smtp.tempfail++; } else { session_imsg(s, PROC_QUEUE, IMSG_QUEUE_COMMIT_MESSAGE, 0, 0, -1, &s->s_msg, sizeof(s->s_msg)); s->s_state = S_DONE; } return; } /* Don't waste resources on message if it's going to bin anyway. */ if (s->s_msg.status & (S_MESSAGE_PERMFAILURE|S_MESSAGE_TEMPFAILURE)) return; /* "If the first character is a period and there are other characters * on the line, the first character is deleted." [4.5.2] */ if (*line == '.') line++; len = strlen(line); if (fprintf(s->datafp, "%s\n", line) != (int)len + 1) { s->s_msg.status |= S_MESSAGE_TEMPFAILURE; return; } if (! (s->s_flags & F_8BITMIME)) { for (i = 0; i < len; ++i) if (line[i] & 0x80) line[i] = line[i] & 0x7f; } } void session_write(struct bufferevent *bev, void *p) { struct session *s = p; if (s->s_flags & F_WRITEONLY) { /* * Finished writing to a session that is waiting for an IMSG * response, therefore can't destroy session nor re-enable * reading from it. * * If session_respond caller used F_QUIT to request session * destroy after final write, then session will be destroyed * in session_lookup. * * Reading from session will be re-enabled in session_pickup * using another call to session_respond. */ return; } else if (s->s_flags & F_QUIT) { /* * session_respond caller requested the session to be dropped. */ session_destroy(s); } else if (s->s_state == S_TLS) { /* * Start the TLS conversation. * Destroy the bufferevent as the SSL module re-creates it. */ bufferevent_free(s->s_bev); s->s_bev = NULL; ssl_session_init(s); } else { /* * Common case of responding to client's request. * Re-enable reading from session so that more commands can * be processed. */ bufferevent_enable(s->s_bev, EV_READ); } } void session_error(struct bufferevent *bev, short event, void *p) { struct session *s = p; char *ip = ss_to_text(&s->s_ss); if (event & EVBUFFER_READ) { if (event & EVBUFFER_TIMEOUT) { log_warnx("client %s read timeout", ip); s->s_env->stats->smtp.read_timeout++; } else if (event & EVBUFFER_EOF) s->s_env->stats->smtp.read_eof++; else if (event & EVBUFFER_ERROR) { log_warn("client %s read error", ip); s->s_env->stats->smtp.read_error++; } session_destroy(s); return; } if (event & EVBUFFER_WRITE) { if (event & EVBUFFER_TIMEOUT) { log_warnx("client %s write timeout", ip); s->s_env->stats->smtp.write_timeout++; } else if (event & EVBUFFER_EOF) s->s_env->stats->smtp.write_eof++; else if (event & EVBUFFER_ERROR) { log_warn("client %s write error", ip); s->s_env->stats->smtp.write_error++; } if (s->s_flags & F_WRITEONLY) s->s_flags |= F_QUIT; else session_destroy(s); return; } fatalx("session_error: unexpected error"); } void session_destroy(struct session *s) { log_debug("session_destroy: killing client: %p", s); if (s->s_flags & F_WRITEONLY) fatalx("session_destroy: corrupt session"); if (s->datafp != NULL) fclose(s->datafp); if (s->s_msg.message_id[0] != '\0' && s->s_state != S_DONE) imsg_compose_event(s->s_env->sc_ievs[PROC_QUEUE], IMSG_QUEUE_REMOVE_MESSAGE, 0, 0, -1, &s->s_msg, sizeof(s->s_msg)); ssl_session_destroy(s); if (s->s_bev != NULL) bufferevent_free(s->s_bev); if (s->s_fd != -1 && close(s->s_fd) == -1) fatal("session_destroy: close"); switch (smtpd_process) { case PROC_MTA: s->s_env->stats->mta.sessions_active--; break; case PROC_SMTP: s->s_env->stats->smtp.sessions_active--; if (s->s_env->stats->smtp.sessions_active < s->s_env->sc_maxconn && !(s->s_msg.flags & F_MESSAGE_ENQUEUED)) { /* * if our session_destroy occurs because of a configuration * reload, our listener no longer exist and s->s_l is NULL. */ if (s->s_l != NULL) event_add(&s->s_l->ev, NULL); } break; default: fatalx("session_destroy: cannot be called from this process"); } SPLAY_REMOVE(sessiontree, &s->s_env->sc_sessions, s); bzero(s, sizeof(*s)); free(s); } char * session_readline(struct session *s) { char *line, *line2; size_t nr; nr = EVBUFFER_LENGTH(s->s_bev->input); line = evbuffer_readline(s->s_bev->input); if (line == NULL) { if (EVBUFFER_LENGTH(s->s_bev->input) > SMTP_LINE_MAX) { session_respond(s, "500 Line too long"); s->s_env->stats->smtp.linetoolong++; s->s_flags |= F_QUIT; } return NULL; } nr -= EVBUFFER_LENGTH(s->s_bev->input); if (s->s_flags & F_WRITEONLY) fatalx("session_readline: corrupt session"); if (nr > SMTP_LINE_MAX) { session_respond(s, "500 Line too long"); s->s_env->stats->smtp.linetoolong++; s->s_flags |= F_QUIT; return NULL; } if ((s->s_state != S_DATACONTENT || strcmp(line, ".") == 0) && (line2 = evbuffer_readline(s->s_bev->input)) != NULL) { session_respond(s, "500 Pipelining unsupported"); s->s_env->stats->smtp.toofast++; s->s_flags |= F_QUIT; free(line); free(line2); return NULL; } return line; } int session_cmp(struct session *s1, struct session *s2) { /* * do not return u_int64_t's */ if (s1->s_id < s2->s_id) return (-1); if (s1->s_id > s2->s_id) return (1); return (0); } int session_set_path(struct path *path, char *line) { size_t len; len = strlen(line); if (*line != '<' || line[len - 1] != '>') return 0; line[len - 1] = '\0'; return recipient_to_path(path, line + 1); } void session_respond(struct session *s, char *fmt, ...) { va_list ap; int n, delay; n = EVBUFFER_LENGTH(EVBUFFER_OUTPUT(s->s_bev)); va_start(ap, fmt); if (evbuffer_add_vprintf(EVBUFFER_OUTPUT(s->s_bev), fmt, ap) == -1 || evbuffer_add_printf(EVBUFFER_OUTPUT(s->s_bev), "\r\n") == -1) fatal("session_respond: evbuffer_add_vprintf failed"); va_end(ap); if (smtpd_process == PROC_MTA) { bufferevent_enable(s->s_bev, EV_WRITE); return; } bufferevent_disable(s->s_bev, EV_READ); /* * Log failures. Might be annoying in the long term, but it is a good * development aid for now. */ switch (EVBUFFER_DATA(EVBUFFER_OUTPUT(s->s_bev))[n]) { case '5': case '4': log_debug("session error: %s: \"%.*s\"", ss_to_text(&s->s_ss), (int)EVBUFFER_LENGTH(EVBUFFER_OUTPUT(s->s_bev)) - n - 2, EVBUFFER_DATA(EVBUFFER_OUTPUT(s->s_bev))); break; } /* Detect multi-line response. */ if (EVBUFFER_LENGTH(EVBUFFER_OUTPUT(s->s_bev)) - n < 4) fatalx("session_respond: invalid response length"); switch (EVBUFFER_DATA(EVBUFFER_OUTPUT(s->s_bev))[n + 3]) { case '-': return; case ' ': break; default: fatalx("session_respond: invalid response"); } /* * Deal with request flooding; avoid letting response rate keep up * with incoming request rate. */ s->s_nresp[s->s_state]++; if (s->s_state == S_RCPT) delay = 0; else if ((n = s->s_nresp[s->s_state] - FAST_RESPONSES) > 0) delay = MIN(1 << (n - 1), MAX_RESPONSE_DELAY); else delay = 0; if (delay > 0) { struct timeval tv = { delay, 0 }; s->s_env->stats->smtp.delays++; evtimer_set(&s->s_ev, session_respond_delayed, s); evtimer_add(&s->s_ev, &tv); } else bufferevent_enable(s->s_bev, EV_WRITE); } void session_respond_delayed(int fd, short event, void *p) { struct session *s = p; bufferevent_enable(s->s_bev, EV_WRITE); } /* * Send IMSG, waiting for reply safely. */ void session_imsg(struct session *s, enum smtp_proc_type proc, enum imsg_type type, u_int32_t peerid, pid_t pid, int fd, void *data, u_int16_t datalen) { if (s->s_flags & F_WRITEONLY) fatalx("session_imsg: corrupt session"); /* * Each outgoing IMSG has a response IMSG associated that must be * waited for before the session can be progressed further. * During the wait period: * 1) session must not be destroyed, * 2) session must not be read from, * 3) session may be written to. * Session flag F_WRITEONLY is needed to enforce this policy. * * F_WRITEONLY is cleared in session_lookup. * Reading is re-enabled in session_pickup. */ s->s_flags |= F_WRITEONLY; bufferevent_disable(s->s_bev, EV_READ); imsg_compose_event(s->s_env->sc_ievs[proc], type, peerid, pid, fd, data, datalen); } SPLAY_GENERATE(sessiontree, session, s_nodes, session_cmp);