/* $OpenBSD: smtp_session.c,v 1.285 2016/07/29 08:53:07 giovanni Exp $ */ /* * Copyright (c) 2008 Gilles Chehade * Copyright (c) 2008 Pierre-Yves Ritschard * Copyright (c) 2008-2009 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 #include "smtpd.h" #include "log.h" #include "ssl.h" #define DATA_HIWAT 65535 #define APPEND_DOMAIN_BUFFER_SIZE 4096 enum smtp_phase { PHASE_INIT = 0, PHASE_SETUP, PHASE_TRANSACTION }; enum smtp_state { STATE_NEW = 0, STATE_CONNECTED, STATE_TLS, STATE_HELO, STATE_AUTH_INIT, STATE_AUTH_USERNAME, STATE_AUTH_PASSWORD, STATE_AUTH_FINALIZE, STATE_BODY, STATE_QUIT, }; enum session_flags { SF_EHLO = 0x0001, SF_8BITMIME = 0x0002, SF_SECURE = 0x0004, SF_AUTHENTICATED = 0x0008, SF_BOUNCE = 0x0010, SF_VERIFIED = 0x0020, SF_BADINPUT = 0x0080, SF_FILTERCONN = 0x0100, SF_FILTERDATA = 0x0200, SF_FILTERTX = 0x0400, }; enum message_flags { MF_QUEUE_ENVELOPE_FAIL = 0x00001, MF_ERROR_SIZE = 0x01000, MF_ERROR_IO = 0x02000, MF_ERROR_LOOP = 0x04000, MF_ERROR_MALFORMED = 0x08000, MF_ERROR_RESOURCES = 0x10000, }; #define MF_ERROR (MF_ERROR_SIZE | MF_ERROR_IO | MF_ERROR_LOOP | MF_ERROR_MALFORMED | MF_ERROR_RESOURCES) enum smtp_command { CMD_HELO = 0, CMD_EHLO, CMD_STARTTLS, CMD_AUTH, CMD_MAIL_FROM, CMD_RCPT_TO, CMD_DATA, CMD_RSET, CMD_QUIT, CMD_HELP, CMD_WIZ, CMD_NOOP, }; struct smtp_rcpt { TAILQ_ENTRY(smtp_rcpt) entry; struct mailaddr maddr; size_t destcount; }; struct smtp_tx { struct smtp_session *session; uint32_t msgid; struct envelope evp; size_t rcptcount; size_t destcount; TAILQ_HEAD(, smtp_rcpt) rcpts; size_t datain; size_t odatalen; struct iobuf obuf; struct io oev; int hdrdone; int rcvcount; int dataeom; int msgflags; int msgcode; int skiphdr; struct rfc2822_parser rfc2822_parser; }; struct smtp_session { uint64_t id; struct iobuf iobuf; struct io io; struct listener *listener; void *ssl_ctx; struct sockaddr_storage ss; char hostname[HOST_NAME_MAX+1]; char smtpname[HOST_NAME_MAX+1]; int flags; int phase; enum smtp_state state; char helo[LINE_MAX]; char cmd[LINE_MAX]; char username[SMTPD_MAXMAILADDRSIZE]; size_t mailcount; struct event pause; struct smtp_tx *tx; }; #define ADVERTISE_TLS(s) \ ((s)->listener->flags & F_STARTTLS && !((s)->flags & SF_SECURE)) #define ADVERTISE_AUTH(s) \ ((s)->listener->flags & F_AUTH && (s)->flags & SF_SECURE && \ !((s)->flags & SF_AUTHENTICATED)) #define ADVERTISE_EXT_DSN(s) \ ((s)->listener->flags & F_EXT_DSN) static int smtp_mailaddr(struct mailaddr *, char *, int, char **, const char *); static void smtp_session_init(void); static int smtp_lookup_servername(struct smtp_session *); static void smtp_connected(struct smtp_session *); static void smtp_send_banner(struct smtp_session *); static void smtp_io(struct io *, int); static void smtp_data_io(struct io *, int); static void smtp_data_io_done(struct smtp_session *); static void smtp_enter_state(struct smtp_session *, int); static void smtp_reply(struct smtp_session *, char *, ...); static void smtp_command(struct smtp_session *, char *); static int smtp_parse_mail_args(struct smtp_session *, char *); static int smtp_parse_rcpt_args(struct smtp_session *, char *); static void smtp_rfc4954_auth_plain(struct smtp_session *, char *); static void smtp_rfc4954_auth_login(struct smtp_session *, char *); static void smtp_message_end(struct smtp_session *); static int smtp_message_printf(struct smtp_session *, const char *, ...); static void smtp_free(struct smtp_session *, const char *); static const char *smtp_strstate(int); static int smtp_verify_certificate(struct smtp_session *); static uint8_t dsn_notify_str_to_uint8(const char *); static void smtp_auth_failure_pause(struct smtp_session *); static void smtp_auth_failure_resume(int, short, void *); static int smtp_tx(struct smtp_session *); static void smtp_tx_free(struct smtp_tx *); static void smtp_queue_create_message(struct smtp_session *); static void smtp_queue_open_message(struct smtp_session *); static void smtp_queue_commit(struct smtp_session *); static void smtp_queue_rollback(struct smtp_session *); static void smtp_filter_connect(struct smtp_session *, struct sockaddr *); static void smtp_filter_rset(struct smtp_session *); static void smtp_filter_disconnect(struct smtp_session *); static void smtp_filter_tx_begin(struct smtp_session *); static void smtp_filter_tx_commit(struct smtp_session *); static void smtp_filter_tx_rollback(struct smtp_session *); static void smtp_filter_eom(struct smtp_session *); static void smtp_filter_helo(struct smtp_session *); static void smtp_filter_mail(struct smtp_session *); static void smtp_filter_rcpt(struct smtp_session *); static void smtp_filter_data(struct smtp_session *); static void smtp_filter_dataline(struct smtp_session *, const char *); static struct { int code; const char *cmd; } commands[] = { { CMD_HELO, "HELO" }, { CMD_EHLO, "EHLO" }, { CMD_STARTTLS, "STARTTLS" }, { CMD_AUTH, "AUTH" }, { CMD_MAIL_FROM, "MAIL FROM" }, { CMD_RCPT_TO, "RCPT TO" }, { CMD_DATA, "DATA" }, { CMD_RSET, "RSET" }, { CMD_QUIT, "QUIT" }, { CMD_HELP, "HELP" }, { CMD_WIZ, "WIZ" }, { CMD_NOOP, "NOOP" }, { -1, NULL }, }; static struct tree wait_lka_ptr; static struct tree wait_lka_helo; static struct tree wait_lka_mail; static struct tree wait_lka_rcpt; static struct tree wait_filter; static struct tree wait_filter_data; static struct tree wait_parent_auth; static struct tree wait_queue_msg; static struct tree wait_queue_fd; static struct tree wait_queue_commit; static struct tree wait_ssl_init; static struct tree wait_ssl_verify; static void header_default_callback(const struct rfc2822_header *hdr, void *arg) { struct smtp_session *s = arg; struct rfc2822_line *l; if (smtp_message_printf(s, "%s:", hdr->name) == -1) return; TAILQ_FOREACH(l, &hdr->lines, next) if (smtp_message_printf(s, "%s\n", l->buffer) == -1) return; } static void dataline_callback(const char *line, void *arg) { struct smtp_session *s = arg; smtp_message_printf(s, "%s\n", line); } static void header_bcc_callback(const struct rfc2822_header *hdr, void *arg) { } static void header_append_domain_buffer(char *buffer, char *domain, size_t len) { size_t i; int escape, quote, comment, bracket; int has_domain, has_bracket, has_group; int pos_bracket, pos_component, pos_insert; char copy[APPEND_DOMAIN_BUFFER_SIZE]; i = 0; escape = quote = comment = bracket = 0; has_domain = has_bracket = has_group = 0; pos_bracket = pos_insert = pos_component = 0; for (i = 0; buffer[i]; ++i) { if (buffer[i] == '(' && !escape && !quote) comment++; if (buffer[i] == '"' && !escape && !comment) quote = !quote; if (buffer[i] == ')' && !escape && !quote && comment) comment--; if (buffer[i] == '\\' && !escape && !comment && !quote) escape = 1; else escape = 0; if (buffer[i] == '<' && !escape && !comment && !quote && !bracket) { bracket++; has_bracket = 1; } if (buffer[i] == '>' && !escape && !comment && !quote && bracket) { bracket--; pos_bracket = i; } if (buffer[i] == '@' && !escape && !comment && !quote) has_domain = 1; if (buffer[i] == ':' && !escape && !comment && !quote) has_group = 1; /* update insert point if not in comment and not on a whitespace */ if (!comment && buffer[i] != ')' && !isspace((unsigned char)buffer[i])) pos_component = i; } /* parse error, do not attempt to modify */ if (escape || quote || comment || bracket) return; /* domain already present, no need to modify */ if (has_domain) return; /* address is group, skip */ if (has_group) return; /* there's an address between brackets, just append domain */ if (has_bracket) { pos_bracket--; while (isspace((unsigned char)buffer[pos_bracket])) pos_bracket--; if (buffer[pos_bracket] == '<') return; pos_insert = pos_bracket + 1; } else { /* otherwise append address to last component */ pos_insert = pos_component + 1; /* empty address */ if (buffer[pos_component] == '\0' || isspace((unsigned char)buffer[pos_component])) return; } if (snprintf(copy, sizeof copy, "%.*s@%s%s", (int)pos_insert, buffer, domain, buffer+pos_insert) >= (int)sizeof copy) return; memcpy(buffer, copy, len); } static void header_domain_append_callback(const struct rfc2822_header *hdr, void *arg) { struct smtp_session *s = arg; struct rfc2822_line *l; size_t i, j; int escape, quote, comment, skip; char buffer[APPEND_DOMAIN_BUFFER_SIZE]; if (smtp_message_printf(s, "%s:", hdr->name) == -1) return; i = j = 0; escape = quote = comment = skip = 0; memset(buffer, 0, sizeof buffer); TAILQ_FOREACH(l, &hdr->lines, next) { for (i = 0; i < strlen(l->buffer); ++i) { if (l->buffer[i] == '(' && !escape && !quote) comment++; if (l->buffer[i] == '"' && !escape && !comment) quote = !quote; if (l->buffer[i] == ')' && !escape && !quote && comment) comment--; if (l->buffer[i] == '\\' && !escape && !comment && !quote) escape = 1; else escape = 0; /* found a separator, buffer contains a full address */ if (l->buffer[i] == ',' && !escape && !quote && !comment) { if (!skip && j + strlen(s->listener->hostname) + 1 < sizeof buffer) header_append_domain_buffer(buffer, s->listener->hostname, sizeof buffer); if (smtp_message_printf(s, "%s,", buffer) == -1) return; j = 0; skip = 0; memset(buffer, 0, sizeof buffer); } else { if (skip) { if (smtp_message_printf(s, "%c", l->buffer[i]) == -1) return; } else { buffer[j++] = l->buffer[i]; if (j == sizeof (buffer) - 1) { if (smtp_message_printf(s, "%s", buffer) != -1) return; skip = 1; j = 0; memset(buffer, 0, sizeof buffer); } } } } if (skip) { if (smtp_message_printf(s, "\n") == -1) return; } else { buffer[j++] = '\n'; if (j == sizeof (buffer) - 1) { if (smtp_message_printf(s, "%s", buffer) == -1) return; skip = 1; j = 0; memset(buffer, 0, sizeof buffer); } } } /* end of header, if buffer is not empty we'll process it */ if (buffer[0]) { if (j + strlen(s->listener->hostname) + 1 < sizeof buffer) header_append_domain_buffer(buffer, s->listener->hostname, sizeof buffer); smtp_message_printf(s, "%s", buffer); } } static void header_address_rewrite_buffer(char *buffer, const char *address, size_t len) { size_t i; int address_len; int escape, quote, comment, bracket; int has_bracket, has_group; int pos_bracket_beg, pos_bracket_end, pos_component_beg, pos_component_end; int insert_beg, insert_end; char copy[APPEND_DOMAIN_BUFFER_SIZE]; escape = quote = comment = bracket = 0; has_bracket = has_group = 0; pos_bracket_beg = pos_bracket_end = pos_component_beg = pos_component_end = 0; for (i = 0; buffer[i]; ++i) { if (buffer[i] == '(' && !escape && !quote) comment++; if (buffer[i] == '"' && !escape && !comment) quote = !quote; if (buffer[i] == ')' && !escape && !quote && comment) comment--; if (buffer[i] == '\\' && !escape && !comment && !quote) escape = 1; else escape = 0; if (buffer[i] == '<' && !escape && !comment && !quote && !bracket) { bracket++; has_bracket = 1; pos_bracket_beg = i+1; } if (buffer[i] == '>' && !escape && !comment && !quote && bracket) { bracket--; pos_bracket_end = i; } if (buffer[i] == ':' && !escape && !comment && !quote) has_group = 1; /* update insert point if not in comment and not on a whitespace */ if (!comment && buffer[i] != ')' && !isspace((unsigned char)buffer[i])) pos_component_end = i; } /* parse error, do not attempt to modify */ if (escape || quote || comment || bracket) return; /* address is group, skip */ if (has_group) return; /* there's an address between brackets, just replace everything brackets */ if (has_bracket) { insert_beg = pos_bracket_beg; insert_end = pos_bracket_end; } else { if (pos_component_end == 0) pos_component_beg = 0; else { for (pos_component_beg = pos_component_end; pos_component_beg >= 0; --pos_component_beg) if (buffer[pos_component_beg] == ')' || isspace(buffer[pos_component_beg])) break; pos_component_beg += 1; pos_component_end += 1; } insert_beg = pos_component_beg; insert_end = pos_component_end; } /* check that masquerade won' t overflow */ address_len = strlen(address); if (strlen(buffer) - (insert_end - insert_beg) + address_len >= len) return; (void)strlcpy(copy, buffer, sizeof copy); (void)strlcpy(copy+insert_beg, address, sizeof (copy) - insert_beg); (void)strlcat(copy, buffer+insert_end, sizeof (copy)); memcpy(buffer, copy, len); } static void header_masquerade_callback(const struct rfc2822_header *hdr, void *arg) { struct smtp_session *s = arg; struct rfc2822_line *l; size_t i, j; int escape, quote, comment, skip; char buffer[APPEND_DOMAIN_BUFFER_SIZE]; if (smtp_message_printf(s, "%s:", hdr->name) == -1) return; j = 0; escape = quote = comment = skip = 0; memset(buffer, 0, sizeof buffer); TAILQ_FOREACH(l, &hdr->lines, next) { for (i = 0; i < strlen(l->buffer); ++i) { if (l->buffer[i] == '(' && !escape && !quote) comment++; if (l->buffer[i] == '"' && !escape && !comment) quote = !quote; if (l->buffer[i] == ')' && !escape && !quote && comment) comment--; if (l->buffer[i] == '\\' && !escape && !comment && !quote) escape = 1; else escape = 0; /* found a separator, buffer contains a full address */ if (l->buffer[i] == ',' && !escape && !quote && !comment) { if (!skip && j + strlen(s->listener->hostname) + 1 < sizeof buffer) { header_append_domain_buffer(buffer, s->listener->hostname, sizeof buffer); header_address_rewrite_buffer(buffer, mailaddr_to_text(&s->tx->evp.sender), sizeof buffer); } if (smtp_message_printf(s, "%s,", buffer) == -1) return; j = 0; skip = 0; memset(buffer, 0, sizeof buffer); } else { if (skip) { if (smtp_message_printf(s, "%c", l->buffer[i]) == -1) return; } else { buffer[j++] = l->buffer[i]; if (j == sizeof (buffer) - 1) { if (smtp_message_printf(s, "%s", buffer) == -1) return; skip = 1; j = 0; memset(buffer, 0, sizeof buffer); } } } } if (skip) { if (smtp_message_printf(s, "\n") == -1) return; } else { buffer[j++] = '\n'; if (j == sizeof (buffer) - 1) { if (smtp_message_printf(s, "%s", buffer) == -1) return; skip = 1; j = 0; memset(buffer, 0, sizeof buffer); } } } /* end of header, if buffer is not empty we'll process it */ if (buffer[0]) { if (j + strlen(s->listener->hostname) + 1 < sizeof buffer) { header_append_domain_buffer(buffer, s->listener->hostname, sizeof buffer); header_address_rewrite_buffer(buffer, mailaddr_to_text(&s->tx->evp.sender), sizeof buffer); } smtp_message_printf(s, "%s", buffer); } } static void header_missing_callback(const char *header, void *arg) { struct smtp_session *s = arg; if (strcasecmp(header, "message-id") == 0) smtp_message_printf(s, "Message-Id: <%016"PRIx64"@%s>\n", generate_uid(), s->listener->hostname); if (strcasecmp(header, "date") == 0) smtp_message_printf(s, "Date: %s\n", time_to_text(time(NULL))); } static void smtp_session_init(void) { static int init = 0; if (!init) { tree_init(&wait_lka_ptr); tree_init(&wait_lka_helo); tree_init(&wait_lka_mail); tree_init(&wait_lka_rcpt); tree_init(&wait_filter); tree_init(&wait_filter_data); tree_init(&wait_parent_auth); tree_init(&wait_queue_msg); tree_init(&wait_queue_fd); tree_init(&wait_queue_commit); tree_init(&wait_ssl_init); tree_init(&wait_ssl_verify); init = 1; } } int smtp_session(struct listener *listener, int sock, const struct sockaddr_storage *ss, const char *hostname) { struct smtp_session *s; log_debug("debug: smtp: new client on listener: %p", listener); smtp_session_init(); if ((s = calloc(1, sizeof(*s))) == NULL) return (-1); if (iobuf_init(&s->iobuf, LINE_MAX, LINE_MAX) == -1) { free(s); return (-1); } s->id = generate_uid(); s->listener = listener; memmove(&s->ss, ss, sizeof(*ss)); io_init(&s->io, sock, s, smtp_io, &s->iobuf); io_set_timeout(&s->io, SMTPD_SESSION_TIMEOUT * 1000); io_set_write(&s->io); s->state = STATE_NEW; s->phase = PHASE_INIT; (void)strlcpy(s->smtpname, listener->hostname, sizeof(s->smtpname)); log_trace(TRACE_SMTP, "smtp: %p: connected to listener %p " "[hostname=%s, port=%d, tag=%s]", s, listener, listener->hostname, ntohs(listener->port), listener->tag); /* For local enqueueing, the hostname is already set */ if (hostname) { s->flags |= SF_AUTHENTICATED; /* A bit of a hack */ if (!strcmp(hostname, "localhost")) s->flags |= SF_BOUNCE; (void)strlcpy(s->hostname, hostname, sizeof(s->hostname)); if (smtp_lookup_servername(s)) smtp_connected(s); } else { m_create(p_lka, IMSG_SMTP_DNS_PTR, 0, 0, -1); m_add_id(p_lka, s->id); m_add_sockaddr(p_lka, (struct sockaddr *)&s->ss); m_close(p_lka); tree_xset(&wait_lka_ptr, s->id, s); } /* session may have been freed by now */ return (0); } void smtp_session_imsg(struct mproc *p, struct imsg *imsg) { struct ca_cert_resp_msg *resp_ca_cert; struct ca_vrfy_resp_msg *resp_ca_vrfy; struct smtp_session *s; struct smtp_rcpt *rcpt; void *ssl; char user[LOGIN_NAME_MAX]; struct msg m; const char *line, *helo; uint64_t reqid, evpid; uint32_t msgid; int status, success, dnserror; void *ssl_ctx; switch (imsg->hdr.type) { case IMSG_SMTP_DNS_PTR: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &dnserror); if (dnserror) line = ""; else m_get_string(&m, &line); m_end(&m); s = tree_xpop(&wait_lka_ptr, reqid); (void)strlcpy(s->hostname, line, sizeof s->hostname); if (smtp_lookup_servername(s)) smtp_connected(s); return; case IMSG_SMTP_CHECK_SENDER: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &status); m_end(&m); s = tree_xpop(&wait_lka_mail, reqid); switch (status) { case LKA_OK: smtp_queue_create_message(s); /* sender check passed, override From callback if masquerading */ if (s->listener->flags & F_MASQUERADE) rfc2822_header_callback(&s->tx->rfc2822_parser, "from", header_masquerade_callback, s); break; case LKA_PERMFAIL: smtp_filter_tx_rollback(s); smtp_tx_free(s->tx); smtp_reply(s, "%d %s", 530, "Sender rejected"); io_reload(&s->io); break; case LKA_TEMPFAIL: smtp_filter_tx_rollback(s); smtp_tx_free(s->tx); smtp_reply(s, "421 %s: Temporary Error", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); io_reload(&s->io); break; } return; case IMSG_SMTP_EXPAND_RCPT: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &status); m_get_string(&m, &line); m_end(&m); s = tree_xpop(&wait_lka_rcpt, reqid); switch (status) { case LKA_OK: fatalx("unexpected ok"); case LKA_PERMFAIL: smtp_reply(s, "%s", line); break; case LKA_TEMPFAIL: smtp_reply(s, "%s", line); } io_reload(&s->io); return; case IMSG_SMTP_LOOKUP_HELO: m_msg(&m, imsg); m_get_id(&m, &reqid); s = tree_xpop(&wait_lka_helo, reqid); m_get_int(&m, &status); if (status == LKA_OK) { m_get_string(&m, &helo); (void)strlcpy(s->smtpname, helo, sizeof(s->smtpname)); } m_end(&m); smtp_connected(s); return; case IMSG_SMTP_MESSAGE_CREATE: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &success); s = tree_xpop(&wait_queue_msg, reqid); if (success) { m_get_msgid(&m, &msgid); s->tx->msgid = msgid; s->tx->evp.id = msgid_to_evpid(msgid); s->tx->rcptcount = 0; s->phase = PHASE_TRANSACTION; smtp_reply(s, "250 %s: Ok", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS)); } else { smtp_filter_tx_rollback(s); smtp_tx_free(s->tx); smtp_reply(s, "421 %s: Temporary Error", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); smtp_enter_state(s, STATE_QUIT); } m_end(&m); io_reload(&s->io); return; case IMSG_SMTP_MESSAGE_OPEN: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &success); m_end(&m); s = tree_xpop(&wait_queue_fd, reqid); if (!success || imsg->fd == -1) { if (imsg->fd != -1) close(imsg->fd); smtp_reply(s, "421 %s: Temporary Error", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); smtp_enter_state(s, STATE_QUIT); io_reload(&s->io); return; } log_debug("smtp: %p: fd %d from queue", s, imsg->fd); tree_xset(&wait_filter, s->id, s); filter_build_fd_chain(s->id, imsg->fd); return; case IMSG_QUEUE_ENVELOPE_SUBMIT: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &success); s = tree_xget(&wait_lka_rcpt, reqid); if (success) { m_get_evpid(&m, &evpid); s->tx->destcount++; } else s->tx->msgflags |= MF_QUEUE_ENVELOPE_FAIL; m_end(&m); return; case IMSG_QUEUE_ENVELOPE_COMMIT: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &success); m_end(&m); if (!success) fatalx("commit evp failed: not supposed to happen"); s = tree_xpop(&wait_lka_rcpt, reqid); if (s->tx->msgflags & MF_QUEUE_ENVELOPE_FAIL) { /* * If an envelope failed, we can't cancel the last * RCPT only so we must cancel the whole transaction * and close the connection. */ smtp_reply(s, "421 %s: Temporary failure", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); smtp_enter_state(s, STATE_QUIT); } else { rcpt = xcalloc(1, sizeof(*rcpt), "smtp_rcpt"); rcpt->destcount = s->tx->destcount; rcpt->maddr = s->tx->evp.rcpt; TAILQ_INSERT_TAIL(&s->tx->rcpts, rcpt, entry); s->tx->destcount = 0; s->tx->rcptcount++; smtp_reply(s, "250 %s %s: Recipient ok", esc_code(ESC_STATUS_OK, ESC_DESTINATION_ADDRESS_VALID), esc_description(ESC_DESTINATION_ADDRESS_VALID)); } io_reload(&s->io); return; case IMSG_SMTP_MESSAGE_COMMIT: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &success); m_end(&m); s = tree_xpop(&wait_queue_commit, reqid); if (!success) { smtp_filter_tx_rollback(s); smtp_tx_free(s->tx); smtp_reply(s, "421 %s: Temporary failure", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); smtp_enter_state(s, STATE_QUIT); io_reload(&s->io); return; } smtp_filter_tx_commit(s); smtp_reply(s, "250 %s: %08x Message accepted for delivery", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS), s->tx->msgid); TAILQ_FOREACH(rcpt, &s->tx->rcpts, entry) { log_info("%016"PRIx64" smtp event=message msgid=%08x " "from=<%s%s%s> to=<%s%s%s> size=%zu ndest=%zu proto=%s", s->id, s->tx->msgid, s->tx->evp.sender.user, s->tx->evp.sender.user[0] == '\0' ? "" : "@", s->tx->evp.sender.domain, rcpt->maddr.user, rcpt->maddr.user[0] == '\0' ? "" : "@", rcpt->maddr.domain, s->tx->odatalen, rcpt->destcount, s->flags & SF_EHLO ? "ESMTP" : "SMTP"); } smtp_tx_free(s->tx); s->mailcount++; s->phase = PHASE_SETUP; smtp_enter_state(s, STATE_HELO); io_reload(&s->io); return; case IMSG_SMTP_AUTHENTICATE: m_msg(&m, imsg); m_get_id(&m, &reqid); m_get_int(&m, &success); m_end(&m); s = tree_xpop(&wait_parent_auth, reqid); strnvis(user, s->username, sizeof user, VIS_WHITE | VIS_SAFE); if (success == LKA_OK) { log_info("%016"PRIx64" smtp " "event=authentication user=%s address=%s " "host=%s result=ok", s->id, user, ss_to_text(&s->ss), s->hostname); s->flags |= SF_AUTHENTICATED; smtp_reply(s, "235 %s: Authentication succeeded", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS)); } else if (success == LKA_PERMFAIL) { log_info("%016"PRIx64" smtp " "event=authentication user=%s address=%s " "host=%s result=permfail", s->id, user, ss_to_text(&s->ss), s->hostname); smtp_auth_failure_pause(s); return; } else if (success == LKA_TEMPFAIL) { log_info("%016"PRIx64" smtp " "event=authentication user=%s address=%s " "host=%s result=tempfail", s->id, user, ss_to_text(&s->ss), s->hostname); smtp_reply(s, "421 %s: Temporary failure", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); } else fatalx("bad lka response"); smtp_enter_state(s, STATE_HELO); io_reload(&s->io); return; case IMSG_SMTP_TLS_INIT: resp_ca_cert = imsg->data; s = tree_xpop(&wait_ssl_init, resp_ca_cert->reqid); if (resp_ca_cert->status == CA_FAIL) { log_info("%016"PRIx64" smtp event=closed reason=ca-failure", s->id); smtp_free(s, "CA failure"); return; } resp_ca_cert = xmemdup(imsg->data, sizeof *resp_ca_cert, "smtp:ca_cert"); resp_ca_cert->cert = xstrdup((char *)imsg->data + sizeof *resp_ca_cert, "smtp:ca_cert"); ssl_ctx = dict_get(env->sc_ssl_dict, resp_ca_cert->name); ssl = ssl_smtp_init(ssl_ctx, s->listener->flags & F_TLS_VERIFY); io_set_read(&s->io); io_start_tls(&s->io, ssl); explicit_bzero(resp_ca_cert->cert, resp_ca_cert->cert_len); free(resp_ca_cert->cert); free(resp_ca_cert); return; case IMSG_SMTP_TLS_VERIFY: resp_ca_vrfy = imsg->data; s = tree_xpop(&wait_ssl_verify, resp_ca_vrfy->reqid); if (resp_ca_vrfy->status == CA_OK) s->flags |= SF_VERIFIED; else if (s->listener->flags & F_TLS_VERIFY) { log_info("%016"PRIx64" smtp " "event=closed reason=cert-check-failed", s->id); smtp_free(s, "SSL certificate check failed"); return; } smtp_io(&s->io, IO_TLSVERIFIED); io_resume(&s->io, IO_PAUSE_IN); return; } log_warnx("smtp_session_imsg: unexpected %s imsg", imsg_to_str(imsg->hdr.type)); fatalx(NULL); } void smtp_filter_response(uint64_t id, int query, int status, uint32_t code, const char *line) { struct smtp_session *s; struct ca_cert_req_msg req_ca_cert; s = tree_xpop(&wait_filter, id); if (status == FILTER_CLOSE) { code = code ? code : 421; line = line ? line : "Temporary failure"; smtp_reply(s, "%d %s", code, line); smtp_enter_state(s, STATE_QUIT); io_reload(&s->io); return; } switch (query) { case QUERY_CONNECT: if (status != FILTER_OK) { log_info("%016"PRIx64" smtp " "event=closed reason=filter-reject", s->id); smtp_free(s, "rejected by filter"); return; } if (s->listener->flags & F_SMTPS) { req_ca_cert.reqid = s->id; if (s->listener->pki_name[0]) { (void)strlcpy(req_ca_cert.name, s->listener->pki_name, sizeof req_ca_cert.name); req_ca_cert.fallback = 0; } else { (void)strlcpy(req_ca_cert.name, s->smtpname, sizeof req_ca_cert.name); req_ca_cert.fallback = 1; } m_compose(p_lka, IMSG_SMTP_TLS_INIT, 0, 0, -1, &req_ca_cert, sizeof(req_ca_cert)); tree_xset(&wait_ssl_init, s->id, s); return; } smtp_send_banner(s); return; case QUERY_HELO: if (status != FILTER_OK) { code = code ? code : 530; line = line ? line : "Hello rejected"; smtp_reply(s, "%d %s", code, line); io_reload(&s->io); return; } smtp_enter_state(s, STATE_HELO); smtp_reply(s, "250%c%s Hello %s [%s], pleased to meet you", (s->flags & SF_EHLO) ? '-' : ' ', s->smtpname, s->helo, ss_to_text(&s->ss)); if (s->flags & SF_EHLO) { smtp_reply(s, "250-8BITMIME"); smtp_reply(s, "250-ENHANCEDSTATUSCODES"); smtp_reply(s, "250-SIZE %zu", env->sc_maxsize); if (ADVERTISE_EXT_DSN(s)) smtp_reply(s, "250-DSN"); if (ADVERTISE_TLS(s)) smtp_reply(s, "250-STARTTLS"); if (ADVERTISE_AUTH(s)) smtp_reply(s, "250-AUTH PLAIN LOGIN"); smtp_reply(s, "250 HELP"); } s->phase = PHASE_SETUP; io_reload(&s->io); return; case QUERY_MAIL: if (status != FILTER_OK) { smtp_filter_tx_rollback(s); smtp_tx_free(s->tx); code = code ? code : 530; line = line ? line : "Sender rejected"; smtp_reply(s, "%d %s", code, line); io_reload(&s->io); return; } /* only check sendertable if defined and user has authenticated */ if (s->flags & SF_AUTHENTICATED && s->listener->sendertable[0]) { m_create(p_lka, IMSG_SMTP_CHECK_SENDER, 0, 0, -1); m_add_id(p_lka, s->id); m_add_string(p_lka, s->listener->sendertable); m_add_string(p_lka, s->username); m_add_mailaddr(p_lka, &s->tx->evp.sender); m_close(p_lka); tree_xset(&wait_lka_mail, s->id, s); } else smtp_queue_create_message(s); return; case QUERY_RCPT: if (status != FILTER_OK) { code = code ? code : 530; line = line ? line : "Recipient rejected"; smtp_reply(s, "%d %s", code, line); io_reload(&s->io); return; } m_create(p_lka, IMSG_SMTP_EXPAND_RCPT, 0, 0, -1); m_add_id(p_lka, s->id); m_add_envelope(p_lka, &s->tx->evp); m_close(p_lka); tree_xset(&wait_lka_rcpt, s->id, s); return; case QUERY_DATA: if (status != FILTER_OK) { code = code ? code : 530; line = line ? line : "Message rejected"; smtp_reply(s, "%d %s", code, line); io_reload(&s->io); return; } smtp_queue_open_message(s); return; case QUERY_EOM: if (status != FILTER_OK) { tree_pop(&wait_filter_data, s->id); smtp_filter_tx_rollback(s); smtp_queue_rollback(s); smtp_tx_free(s->tx); code = code ? code : 530; line = line ? line : "Message rejected"; smtp_reply(s, "%d %s", code, line); smtp_enter_state(s, STATE_HELO); io_reload(&s->io); return; } smtp_message_end(s); return; default: log_warn("smtp: bad mfa query type %d", query); } } void smtp_filter_fd(uint64_t id, int fd) { struct smtp_session *s; X509 *x; s = tree_xpop(&wait_filter, id); log_debug("smtp: %p: fd %d from filter", s, fd); if (fd == -1) { smtp_reply(s, "421 %s: Temporary Error", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); smtp_enter_state(s, STATE_QUIT); io_reload(&s->io); return; } iobuf_init(&s->tx->obuf, 0, 0); io_set_nonblocking(fd); io_init(&s->tx->oev, fd, s, smtp_data_io, &s->tx->obuf); iobuf_fqueue(&s->tx->obuf, "Received: "); if (!(s->listener->flags & F_MASK_SOURCE)) { iobuf_fqueue(&s->tx->obuf, "from %s (%s [%s])", s->helo, s->hostname, ss_to_text(&s->ss)); } iobuf_fqueue(&s->tx->obuf, "\n\tby %s (%s) with %sSMTP%s%s id %08x", s->smtpname, SMTPD_NAME, s->flags & SF_EHLO ? "E" : "", s->flags & SF_SECURE ? "S" : "", s->flags & SF_AUTHENTICATED ? "A" : "", s->tx->msgid); if (s->flags & SF_SECURE) { x = SSL_get_peer_certificate(s->io.ssl); iobuf_fqueue(&s->tx->obuf, " (%s:%s:%d:%s)", SSL_get_version(s->io.ssl), SSL_get_cipher_name(s->io.ssl), SSL_get_cipher_bits(s->io.ssl, NULL), (s->flags & SF_VERIFIED) ? "YES" : (x ? "FAIL" : "NO")); if (x) X509_free(x); if (s->listener->flags & F_RECEIVEDAUTH) { iobuf_fqueue(&s->tx->obuf, " auth=%s", s->username[0] ? "yes" : "no"); if (s->username[0]) iobuf_fqueue(&s->tx->obuf, " user=%s", s->username); } } if (s->tx->rcptcount == 1) { iobuf_fqueue(&s->tx->obuf, "\n\tfor <%s@%s>", s->tx->evp.rcpt.user, s->tx->evp.rcpt.domain); } iobuf_fqueue(&s->tx->obuf, ";\n\t%s\n", time_to_text(time(NULL))); s->tx->odatalen = iobuf_queued(&s->tx->obuf); io_set_write(&s->tx->oev); smtp_enter_state(s, STATE_BODY); smtp_reply(s, "354 Enter mail, end with \".\"" " on a line by itself"); tree_xset(&wait_filter_data, s->id, s); io_reload(&s->io); } static void smtp_io(struct io *io, int evt) { struct ca_cert_req_msg req_ca_cert; struct smtp_session *s = io->arg; char *line; size_t len; X509 *x; log_trace(TRACE_IO, "smtp: %p: %s %s", s, io_strevent(evt), io_strio(io)); switch (evt) { case IO_TLSREADY: log_info("%016"PRIx64" smtp event=starttls ciphers=\"%s\"", s->id, ssl_to_text(s->io.ssl)); s->flags |= SF_SECURE; s->phase = PHASE_INIT; if (smtp_verify_certificate(s)) { io_pause(&s->io, IO_PAUSE_IN); break; } if (s->listener->flags & F_TLS_VERIFY) { log_info("%016"PRIx64" smtp " "event=closed reason=no-client-cert", s->id); smtp_free(s, "client did not present certificate"); return; } /* No verification required, cascade */ case IO_TLSVERIFIED: x = SSL_get_peer_certificate(s->io.ssl); if (x) { log_info("%016"PRIx64" smtp " "event=client-cert-check result=\"%s\"", s->id, (s->flags & SF_VERIFIED) ? "success" : "failure"); X509_free(x); } if (s->listener->flags & F_SMTPS) { stat_increment("smtp.smtps", 1); io_set_write(&s->io); smtp_send_banner(s); } else { stat_increment("smtp.tls", 1); smtp_enter_state(s, STATE_HELO); } break; case IO_DATAIN: nextline: line = iobuf_getline(&s->iobuf, &len); if ((line == NULL && iobuf_len(&s->iobuf) >= LINE_MAX) || (line && len >= LINE_MAX)) { s->flags |= SF_BADINPUT; smtp_reply(s, "500 %s: Line too long", esc_code(ESC_STATUS_PERMFAIL, ESC_OTHER_STATUS)); smtp_enter_state(s, STATE_QUIT); io_set_write(io); return; } /* No complete line received */ if (line == NULL) { iobuf_normalize(&s->iobuf); return; } /* Message body */ if (s->state == STATE_BODY && strcmp(line, ".")) { smtp_filter_dataline(s, line); goto nextline; } /* Pipelining not supported */ if (iobuf_len(&s->iobuf)) { s->flags |= SF_BADINPUT; smtp_reply(s, "500 %s %s: Pipelining not supported", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); smtp_enter_state(s, STATE_QUIT); io_set_write(io); return; } /* End of body */ if (s->state == STATE_BODY) { log_trace(TRACE_SMTP, "<<< [EOM]"); rfc2822_parser_flush(&s->tx->rfc2822_parser); iobuf_normalize(&s->iobuf); io_set_write(io); s->tx->dataeom = 1; if (iobuf_queued(&s->tx->obuf) == 0) smtp_data_io_done(s); return; } /* Must be a command */ (void)strlcpy(s->cmd, line, sizeof s->cmd); io_set_write(io); smtp_command(s, line); iobuf_normalize(&s->iobuf); break; case IO_LOWAT: if (s->state == STATE_QUIT) { log_info("%016"PRIx64" smtp event=closed reason=quit", s->id); smtp_free(s, "done"); break; } /* Wait for the client to start tls */ if (s->state == STATE_TLS) { req_ca_cert.reqid = s->id; if (s->listener->pki_name[0]) { (void)strlcpy(req_ca_cert.name, s->listener->pki_name, sizeof req_ca_cert.name); req_ca_cert.fallback = 0; } else { (void)strlcpy(req_ca_cert.name, s->smtpname, sizeof req_ca_cert.name); req_ca_cert.fallback = 1; } m_compose(p_lka, IMSG_SMTP_TLS_INIT, 0, 0, -1, &req_ca_cert, sizeof(req_ca_cert)); tree_xset(&wait_ssl_init, s->id, s); break; } io_set_read(io); break; case IO_TIMEOUT: log_info("%016"PRIx64" smtp event=closed reason=timeout", s->id); smtp_free(s, "timeout"); break; case IO_DISCONNECTED: log_info("%016"PRIx64" smtp event=closed reason=disconnect", s->id); smtp_free(s, "disconnected"); break; case IO_ERROR: log_info("%016"PRIx64" smtp event=closed reason=\"io-error: %s\"", s->id, io->error); smtp_free(s, "IO error"); break; default: fatalx("smtp_io()"); } } static int smtp_tx(struct smtp_session *s) { struct smtp_tx *tx; tx = calloc(1, sizeof(*tx)); if (tx == NULL) return 0; TAILQ_INIT(&tx->rcpts); io_init(&tx->oev, -1, s, NULL, NULL); /* initialise 'sock', but not to 0 */ s->tx = tx; tx->session = s; /* setup the envelope */ s->tx->evp.ss = s->ss; (void)strlcpy(s->tx->evp.tag, s->listener->tag, sizeof(s->tx->evp.tag)); (void)strlcpy(s->tx->evp.smtpname, s->smtpname, sizeof(s->tx->evp.smtpname)); (void)strlcpy(s->tx->evp.hostname, s->hostname, sizeof s->tx->evp.hostname); (void)strlcpy(s->tx->evp.helo, s->helo, sizeof s->tx->evp.helo); if (s->flags & SF_BOUNCE) s->tx->evp.flags |= EF_BOUNCE; if (s->flags & SF_AUTHENTICATED) s->tx->evp.flags |= EF_AUTHENTICATED; /* Setup parser and callbacks */ rfc2822_parser_init(&tx->rfc2822_parser); rfc2822_header_default_callback(&tx->rfc2822_parser, header_default_callback, s); rfc2822_header_callback(&tx->rfc2822_parser, "bcc", header_bcc_callback, s); rfc2822_header_callback(&tx->rfc2822_parser, "from", header_domain_append_callback, s); rfc2822_header_callback(&tx->rfc2822_parser, "to", header_domain_append_callback, s); rfc2822_header_callback(&tx->rfc2822_parser, "cc", header_domain_append_callback, s); rfc2822_body_callback(&tx->rfc2822_parser, dataline_callback, s); if (s->listener->local || s->listener->port == 587) { rfc2822_missing_header_callback(&tx->rfc2822_parser, "date", header_missing_callback, s); rfc2822_missing_header_callback(&tx->rfc2822_parser, "message-id", header_missing_callback, s); } return 1; } static void smtp_tx_free(struct smtp_tx *tx) { struct smtp_rcpt *rcpt; rfc2822_parser_release(&tx->rfc2822_parser); while ((rcpt = TAILQ_FIRST(&tx->rcpts))) { TAILQ_REMOVE(&tx->rcpts, rcpt, entry); free(rcpt); } tx->session->tx = NULL; free(tx); } static void smtp_data_io(struct io *io, int evt) { struct smtp_session *s = io->arg; log_trace(TRACE_IO, "smtp: %p (data): %s %s", s, io_strevent(evt), io_strio(io)); switch (evt) { case IO_TIMEOUT: case IO_DISCONNECTED: case IO_ERROR: log_debug("debug: smtp: %p: io error on mfa", s); io_clear(&s->tx->oev); iobuf_clear(&s->tx->obuf); s->tx->msgflags |= MF_ERROR_IO; if (s->io.flags & IO_PAUSE_IN) { log_debug("debug: smtp: %p: resuming session after mfa error", s); io_resume(&s->io, IO_PAUSE_IN); } break; case IO_LOWAT: if (s->tx->dataeom && iobuf_queued(&s->tx->obuf) == 0) { smtp_data_io_done(s); } else if (s->io.flags & IO_PAUSE_IN) { log_debug("debug: smtp: %p: filter congestion over: resuming session", s); io_resume(&s->io, IO_PAUSE_IN); } break; default: fatalx("smtp_data_io()"); } } static void smtp_data_io_done(struct smtp_session *s) { log_debug("debug: smtp: %p: data io done (%zu bytes)", s, s->tx->odatalen); io_clear(&s->tx->oev); iobuf_clear(&s->tx->obuf); if (s->tx->msgflags & MF_ERROR) { tree_pop(&wait_filter_data, s->id); smtp_filter_tx_rollback(s); smtp_queue_rollback(s); if (s->tx->msgflags & MF_ERROR_SIZE) smtp_reply(s, "554 Message too big"); else if (s->tx->msgflags & MF_ERROR_LOOP) smtp_reply(s, "500 %s %s: Loop detected", esc_code(ESC_STATUS_PERMFAIL, ESC_ROUTING_LOOP_DETECTED), esc_description(ESC_ROUTING_LOOP_DETECTED)); else if (s->tx->msgflags & MF_ERROR_RESOURCES) smtp_reply(s, "421 %s: Temporary Error", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); else if (s->tx->msgflags & MF_ERROR_MALFORMED) smtp_reply(s, "550 %s %s: Message is not RFC 2822 compliant", esc_code(ESC_STATUS_PERMFAIL, ESC_DELIVERY_NOT_AUTHORIZED_MESSAGE_REFUSED), esc_description(ESC_DELIVERY_NOT_AUTHORIZED_MESSAGE_REFUSED)); else if (s->tx->msgflags) smtp_reply(s, "421 Internal server error"); smtp_tx_free(s->tx); smtp_enter_state(s, STATE_HELO); io_reload(&s->io); } else { smtp_filter_eom(s); } } static void smtp_command(struct smtp_session *s, char *line) { char *args, *eom, *method; int cmd, i; log_trace(TRACE_SMTP, "smtp: %p: <<< %s", s, line); /* * These states are special. */ if (s->state == STATE_AUTH_INIT) { smtp_rfc4954_auth_plain(s, line); return; } if (s->state == STATE_AUTH_USERNAME || s->state == STATE_AUTH_PASSWORD) { smtp_rfc4954_auth_login(s, line); return; } /* * Unlike other commands, "mail from" and "rcpt to" contain a * space in the command name. */ if (strncasecmp("mail from:", line, 10) == 0 || strncasecmp("rcpt to:", line, 8) == 0) args = strchr(line, ':'); else args = strchr(line, ' '); if (args) { *args++ = '\0'; while (isspace((unsigned char)*args)) args++; } cmd = -1; for (i = 0; commands[i].code != -1; i++) if (!strcasecmp(line, commands[i].cmd)) { cmd = commands[i].code; break; } switch (cmd) { /* * INIT */ case CMD_HELO: case CMD_EHLO: if (s->phase != PHASE_INIT) { smtp_reply(s, "503 %s %s: Already identified", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (args == NULL) { smtp_reply(s, "501 %s %s: %s requires domain name", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND), (cmd == CMD_HELO) ? "HELO" : "EHLO"); break; } if (!valid_domainpart(args)) { smtp_reply(s, "501 %s %s: Invalid domain name", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND_ARGUMENTS), esc_description(ESC_INVALID_COMMAND_ARGUMENTS)); break; } (void)strlcpy(s->helo, args, sizeof(s->helo)); s->flags &= SF_SECURE | SF_AUTHENTICATED | SF_VERIFIED | SF_FILTERCONN; if (cmd == CMD_EHLO) { s->flags |= SF_EHLO; s->flags |= SF_8BITMIME; } smtp_filter_helo(s); break; /* * SETUP */ case CMD_STARTTLS: if (s->phase != PHASE_SETUP) { smtp_reply(s, "503 %s %s: Command not allowed at this point.", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (!(s->listener->flags & F_STARTTLS)) { smtp_reply(s, "503 %s %s: Command not supported", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->flags & SF_SECURE) { smtp_reply(s, "503 %s %s: Channel already secured", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (args != NULL) { smtp_reply(s, "501 %s %s: No parameters allowed", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND_ARGUMENTS), esc_description(ESC_INVALID_COMMAND_ARGUMENTS)); break; } smtp_reply(s, "220 %s: Ready to start TLS", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS)); smtp_enter_state(s, STATE_TLS); break; case CMD_AUTH: if (s->phase != PHASE_SETUP) { smtp_reply(s, "503 %s %s: Command not allowed at this point.", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->flags & SF_AUTHENTICATED) { smtp_reply(s, "503 %s %s: Already authenticated", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (!ADVERTISE_AUTH(s)) { smtp_reply(s, "503 %s %s: Command not supported", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (args == NULL) { smtp_reply(s, "501 %s %s: No parameters given", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND_ARGUMENTS), esc_description(ESC_INVALID_COMMAND_ARGUMENTS)); break; } method = args; eom = strchr(args, ' '); if (eom == NULL) eom = strchr(args, '\t'); if (eom != NULL) *eom++ = '\0'; if (strcasecmp(method, "PLAIN") == 0) smtp_rfc4954_auth_plain(s, eom); else if (strcasecmp(method, "LOGIN") == 0) smtp_rfc4954_auth_login(s, eom); else smtp_reply(s, "504 %s %s: AUTH method \"%s\" not supported", esc_code(ESC_STATUS_PERMFAIL, ESC_SECURITY_FEATURES_NOT_SUPPORTED), esc_description(ESC_SECURITY_FEATURES_NOT_SUPPORTED), method); break; case CMD_MAIL_FROM: if (s->phase != PHASE_SETUP) { smtp_reply(s, "503 %s %s: Command not allowed at this point.", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->listener->flags & F_STARTTLS_REQUIRE && !(s->flags & SF_SECURE)) { smtp_reply(s, "530 %s %s: Must issue a STARTTLS command first", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->listener->flags & F_AUTH_REQUIRE && !(s->flags & SF_AUTHENTICATED)) { smtp_reply(s, "530 %s %s: Must issue an AUTH command first", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->mailcount >= env->sc_session_max_mails) { /* we can pretend we had too many recipients */ smtp_reply(s, "452 %s %s: Too many messages sent", esc_code(ESC_STATUS_TEMPFAIL, ESC_TOO_MANY_RECIPIENTS), esc_description(ESC_TOO_MANY_RECIPIENTS)); break; } if (!smtp_tx(s)) { smtp_reply(s, "421 %s: Temporary Error", esc_code(ESC_STATUS_TEMPFAIL, ESC_OTHER_MAIL_SYSTEM_STATUS)); smtp_enter_state(s, STATE_QUIT); break; } if (smtp_mailaddr(&s->tx->evp.sender, args, 1, &args, s->smtpname) == 0) { smtp_tx_free(s->tx); smtp_reply(s, "553 %s: Sender address syntax error", esc_code(ESC_STATUS_PERMFAIL, ESC_OTHER_ADDRESS_STATUS)); break; } if (args && smtp_parse_mail_args(s, args) == -1) { smtp_tx_free(s->tx); break; } smtp_filter_tx_begin(s); smtp_filter_mail(s); break; /* * TRANSACTION */ case CMD_RCPT_TO: if (s->phase != PHASE_TRANSACTION) { smtp_reply(s, "503 %s %s: Command not allowed at this point.", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->tx->rcptcount >= env->sc_session_max_rcpt) { smtp_reply(s, "451 %s %s: Too many recipients", esc_code(ESC_STATUS_TEMPFAIL, ESC_TOO_MANY_RECIPIENTS), esc_description(ESC_TOO_MANY_RECIPIENTS)); break; } if (smtp_mailaddr(&s->tx->evp.rcpt, args, 0, &args, s->smtpname) == 0) { smtp_reply(s, "501 %s: Recipient address syntax error", esc_code(ESC_STATUS_PERMFAIL, ESC_BAD_DESTINATION_MAILBOX_ADDRESS_SYNTAX)); break; } if (args && smtp_parse_rcpt_args(s, args) == -1) break; smtp_filter_rcpt(s); break; case CMD_RSET: if (s->phase != PHASE_TRANSACTION && s->phase != PHASE_SETUP) { smtp_reply(s, "503 %s %s: Command not allowed at this point.", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->tx) { smtp_filter_tx_rollback(s); if (s->tx->msgid) smtp_queue_rollback(s); smtp_tx_free(s->tx); } smtp_filter_rset(s); s->phase = PHASE_SETUP; smtp_reply(s, "250 %s: Reset state", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS)); break; case CMD_DATA: if (s->phase != PHASE_TRANSACTION) { smtp_reply(s, "503 %s %s: Command not allowed at this point.", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } if (s->tx->rcptcount == 0) { smtp_reply(s, "503 %s %s: No recipient specified", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND_ARGUMENTS), esc_description(ESC_INVALID_COMMAND_ARGUMENTS)); break; } smtp_filter_data(s); break; /* * ANY */ case CMD_QUIT: smtp_reply(s, "221 %s: Bye", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS)); smtp_enter_state(s, STATE_QUIT); break; case CMD_NOOP: smtp_reply(s, "250 %s: Ok", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS)); break; case CMD_HELP: smtp_reply(s, "214- This is " SMTPD_NAME); smtp_reply(s, "214- To report bugs in the implementation, " "please contact bugs@openbsd.org"); smtp_reply(s, "214- with full details"); smtp_reply(s, "214 %s: End of HELP info", esc_code(ESC_STATUS_OK, ESC_OTHER_STATUS)); break; case CMD_WIZ: smtp_reply(s, "500 %s %s: this feature is not supported yet ;-)", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; default: smtp_reply(s, "500 %s %s: Command unrecognized", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND), esc_description(ESC_INVALID_COMMAND)); break; } } static void smtp_rfc4954_auth_plain(struct smtp_session *s, char *arg) { char buf[1024], *user, *pass; int len; switch (s->state) { case STATE_HELO: if (arg == NULL) { smtp_enter_state(s, STATE_AUTH_INIT); smtp_reply(s, "334 "); return; } smtp_enter_state(s, STATE_AUTH_INIT); /* FALLTHROUGH */ case STATE_AUTH_INIT: /* String is not NUL terminated, leave room. */ if ((len = base64_decode(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(s->username, user, sizeof(s->username)) >= sizeof(s->username)) goto abort; pass = memchr(user, '\0', len - (user - buf)); if (pass == NULL || pass >= buf + len - 2) goto abort; pass++; /* skip NUL */ m_create(p_lka, IMSG_SMTP_AUTHENTICATE, 0, 0, -1); m_add_id(p_lka, s->id); m_add_string(p_lka, s->listener->authtable); m_add_string(p_lka, user); m_add_string(p_lka, pass); m_close(p_lka); tree_xset(&wait_parent_auth, s->id, s); return; default: fatal("smtp_rfc4954_auth_plain: unknown state"); } abort: smtp_reply(s, "501 %s %s: Syntax error", esc_code(ESC_STATUS_PERMFAIL, ESC_SYNTAX_ERROR), esc_description(ESC_SYNTAX_ERROR)); smtp_enter_state(s, STATE_HELO); } static void smtp_rfc4954_auth_login(struct smtp_session *s, char *arg) { char buf[LINE_MAX]; switch (s->state) { case STATE_HELO: smtp_enter_state(s, STATE_AUTH_USERNAME); smtp_reply(s, "334 VXNlcm5hbWU6"); return; case STATE_AUTH_USERNAME: memset(s->username, 0, sizeof(s->username)); if (base64_decode(arg, (unsigned char *)s->username, sizeof(s->username) - 1) == -1) goto abort; smtp_enter_state(s, STATE_AUTH_PASSWORD); smtp_reply(s, "334 UGFzc3dvcmQ6"); return; case STATE_AUTH_PASSWORD: memset(buf, 0, sizeof(buf)); if (base64_decode(arg, (unsigned char *)buf, sizeof(buf)-1) == -1) goto abort; m_create(p_lka, IMSG_SMTP_AUTHENTICATE, 0, 0, -1); m_add_id(p_lka, s->id); m_add_string(p_lka, s->listener->authtable); m_add_string(p_lka, s->username); m_add_string(p_lka, buf); m_close(p_lka); tree_xset(&wait_parent_auth, s->id, s); return; default: fatal("smtp_rfc4954_auth_login: unknown state"); } abort: smtp_reply(s, "501 %s %s: Syntax error", esc_code(ESC_STATUS_PERMFAIL, ESC_SYNTAX_ERROR), esc_description(ESC_SYNTAX_ERROR)); smtp_enter_state(s, STATE_HELO); } static uint8_t dsn_notify_str_to_uint8(const char *arg) { if (strcasecmp(arg, "SUCCESS") == 0) return DSN_SUCCESS; else if (strcasecmp(arg, "FAILURE") == 0) return DSN_FAILURE; else if (strcasecmp(arg, "DELAY") == 0) return DSN_DELAY; else if (strcasecmp(arg, "NEVER") == 0) return DSN_NEVER; return (0); } static int smtp_parse_rcpt_args(struct smtp_session *s, char *args) { char *b, *p; uint8_t flag; while ((b = strsep(&args, " "))) { if (*b == '\0') continue; if (ADVERTISE_EXT_DSN(s) && strncasecmp(b, "NOTIFY=", 7) == 0) { b += 7; while ((p = strsep(&b, ","))) { if (*p == '\0') continue; if ((flag = dsn_notify_str_to_uint8(p)) == 0) continue; s->tx->evp.dsn_notify |= flag; } if (s->tx->evp.dsn_notify & DSN_NEVER && s->tx->evp.dsn_notify & (DSN_SUCCESS | DSN_FAILURE | DSN_DELAY)) { smtp_reply(s, "553 NOTIFY option NEVER cannot be \ combined with other options"); return (-1); } } else if (ADVERTISE_EXT_DSN(s) && strncasecmp(b, "ORCPT=", 6) == 0) { b += 6; if (!text_to_mailaddr(&s->tx->evp.dsn_orcpt, b)) { smtp_reply(s, "553 ORCPT address syntax error"); return (-1); } } else { smtp_reply(s, "503 Unsupported option %s", b); return (-1); } } return (0); } static int smtp_parse_mail_args(struct smtp_session *s, char *args) { char *b; while ((b = strsep(&args, " "))) { if (*b == '\0') continue; if (strncasecmp(b, "AUTH=", 5) == 0) log_debug("debug: smtp: AUTH in MAIL FROM command"); else if (strncasecmp(b, "SIZE=", 5) == 0) log_debug("debug: smtp: SIZE in MAIL FROM command"); else if (strcasecmp(b, "BODY=7BIT") == 0) /* XXX only for this transaction */ s->flags &= ~SF_8BITMIME; else if (strcasecmp(b, "BODY=8BITMIME") == 0) ; else if (ADVERTISE_EXT_DSN(s) && strncasecmp(b, "RET=", 4) == 0) { b += 4; if (strcasecmp(b, "HDRS") == 0) s->tx->evp.dsn_ret = DSN_RETHDRS; else if (strcasecmp(b, "FULL") == 0) s->tx->evp.dsn_ret = DSN_RETFULL; } else if (ADVERTISE_EXT_DSN(s) && strncasecmp(b, "ENVID=", 6) == 0) { b += 6; if (strlcpy(s->tx->evp.dsn_envid, b, sizeof(s->tx->evp.dsn_envid)) >= sizeof(s->tx->evp.dsn_envid)) { smtp_reply(s, "503 %s %s: option too large, truncated: %s", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND_ARGUMENTS), esc_description(ESC_INVALID_COMMAND_ARGUMENTS), b); return (-1); } } else { smtp_reply(s, "503 %s %s: Unsupported option %s", esc_code(ESC_STATUS_PERMFAIL, ESC_INVALID_COMMAND_ARGUMENTS), esc_description(ESC_INVALID_COMMAND_ARGUMENTS), b); return (-1); } } return (0); } static int smtp_lookup_servername(struct smtp_session *s) { struct sockaddr *sa; socklen_t sa_len; struct sockaddr_storage ss; if (s->listener->hostnametable[0]) { sa_len = sizeof(ss); sa = (struct sockaddr *)&ss; if (getsockname(s->io.sock, sa, &sa_len) == -1) { log_warn("warn: getsockname()"); } else { m_create(p_lka, IMSG_SMTP_LOOKUP_HELO, 0, 0, -1); m_add_id(p_lka, s->id); m_add_string(p_lka, s->listener->hostnametable); m_add_sockaddr(p_lka, sa); m_close(p_lka); tree_xset(&wait_lka_helo, s->id, s); return 0; } } return 1; } static void smtp_connected(struct smtp_session *s) { struct sockaddr_storage ss; socklen_t sl; smtp_enter_state(s, STATE_CONNECTED); log_info("%016"PRIx64" smtp event=connected address=%s host=%s", s->id, ss_to_text(&s->ss), s->hostname); sl = sizeof(ss); if (getsockname(s->io.sock, (struct sockaddr*)&ss, &sl) == -1) { smtp_free(s, strerror(errno)); return; } s->flags |= SF_FILTERCONN; smtp_filter_connect(s, (struct sockaddr *)&ss); } static void smtp_send_banner(struct smtp_session *s) { smtp_reply(s, "220 %s ESMTP %s", s->smtpname, SMTPD_NAME); io_reload(&s->io); } void smtp_enter_state(struct smtp_session *s, int newstate) { log_trace(TRACE_SMTP, "smtp: %p: %s -> %s", s, smtp_strstate(s->state), smtp_strstate(newstate)); s->state = newstate; } static void smtp_message_end(struct smtp_session *s) { log_debug("debug: %p: end of message, msgflags=0x%04x", s, s->tx->msgflags); tree_xpop(&wait_filter_data, s->id); s->phase = PHASE_SETUP; if (s->tx->msgflags & MF_ERROR) { smtp_filter_tx_rollback(s); smtp_queue_rollback(s); if (s->tx->msgflags & MF_ERROR_SIZE) smtp_reply(s, "554 %s %s: Transaction failed, message too big", esc_code(ESC_STATUS_PERMFAIL, ESC_MESSAGE_TOO_BIG_FOR_SYSTEM), esc_description(ESC_MESSAGE_TOO_BIG_FOR_SYSTEM)); else smtp_reply(s, "%d Message rejected", s->tx->msgcode); smtp_tx_free(s->tx); smtp_enter_state(s, STATE_HELO); return; } smtp_queue_commit(s); } static int smtp_message_printf(struct smtp_session *s, const char *fmt, ...) { va_list ap; int len; if (s->tx->msgflags & MF_ERROR) return -1; va_start(ap, fmt); len = iobuf_vfqueue(&s->tx->obuf, fmt, ap); va_end(ap); if (len < 0) { log_warn("smtp-in: session %016"PRIx64": vfprintf", s->id); s->tx->msgflags |= MF_ERROR_IO; } else s->tx->odatalen += len; return len; } static void smtp_reply(struct smtp_session *s, char *fmt, ...) { va_list ap; int n; char buf[LINE_MAX], tmp[LINE_MAX]; va_start(ap, fmt); n = vsnprintf(buf, sizeof buf, fmt, ap); va_end(ap); if (n == -1 || n >= LINE_MAX) fatalx("smtp_reply: line too long"); if (n < 4) fatalx("smtp_reply: response too short"); log_trace(TRACE_SMTP, "smtp: %p: >>> %s", s, buf); iobuf_xfqueue(&s->iobuf, "smtp_reply", "%s\r\n", buf); switch (buf[0]) { case '5': case '4': if (s->flags & SF_BADINPUT) { log_info("%016"PRIx64" smtp " "event=bad-input result=\"%.*s\"", s->id, n, buf); } else if (s->state == STATE_AUTH_INIT) { log_info("smtp-in: Failed command on session %016"PRIx64 ": \"AUTH PLAIN (...)\" => %.*s", s->id, n, buf); } else if (s->state == STATE_AUTH_USERNAME) { log_info("smtp-in: Failed command on session %016"PRIx64 ": \"AUTH LOGIN (username)\" => %.*s", s->id, n, buf); } else if (s->state == STATE_AUTH_PASSWORD) { log_info("smtp-in: Failed command on session %016"PRIx64 ": \"AUTH LOGIN (password)\" => %.*s", s->id, n, buf); } else { strnvis(tmp, s->cmd, sizeof tmp, VIS_SAFE | VIS_CSTYLE); log_info("%016"PRIx64" smtp " "event=failed-command command=\"%s\" result=\"%.*s\"", s->id, tmp, n, buf); } break; } } static void smtp_free(struct smtp_session *s, const char * reason) { log_debug("debug: smtp: %p: deleting session: %s", s, reason); tree_pop(&wait_filter_data, s->id); if (s->tx) { if (s->tx->msgid) { smtp_queue_rollback(s); io_clear(&s->tx->oev); iobuf_clear(&s->tx->obuf); } smtp_filter_tx_rollback(s); smtp_tx_free(s->tx); } if (s->flags & SF_FILTERCONN) smtp_filter_disconnect(s); if (s->flags & SF_SECURE && s->listener->flags & F_SMTPS) stat_decrement("smtp.smtps", 1); if (s->flags & SF_SECURE && s->listener->flags & F_STARTTLS) stat_decrement("smtp.tls", 1); io_clear(&s->io); iobuf_clear(&s->iobuf); free(s); smtp_collect(); } static int smtp_mailaddr(struct mailaddr *maddr, char *line, int mailfrom, char **args, const char *domain) { char *p, *e; if (line == NULL) return (0); if (*line != '<') return (0); e = strchr(line, '>'); if (e == NULL) return (0); *e++ = '\0'; while (*e == ' ') e++; *args = e; if (!text_to_mailaddr(maddr, line + 1)) return (0); p = strchr(maddr->user, ':'); if (p != NULL) { p++; memmove(maddr->user, p, strlen(p) + 1); } if (!valid_localpart(maddr->user) || !valid_domainpart(maddr->domain)) { /* accept empty return-path in MAIL FROM, required for bounces */ if (mailfrom && maddr->user[0] == '\0' && maddr->domain[0] == '\0') return (1); /* no user-part, reject */ if (maddr->user[0] == '\0') return (0); /* no domain, local user */ if (maddr->domain[0] == '\0') { (void)strlcpy(maddr->domain, domain, sizeof(maddr->domain)); return (1); } return (0); } return (1); } static int smtp_verify_certificate(struct smtp_session *s) { #define MAX_CERTS 16 #define MAX_CERT_LEN (MAX_IMSGSIZE - (IMSG_HEADER_SIZE + sizeof(req_ca_vrfy))) struct ca_vrfy_req_msg req_ca_vrfy; struct iovec iov[2]; X509 *x; STACK_OF(X509) *xchain; const char *name; unsigned char *cert_der[MAX_CERTS]; int cert_len[MAX_CERTS]; int i, cert_count, res; res = 0; memset(cert_der, 0, sizeof(cert_der)); memset(&req_ca_vrfy, 0, sizeof req_ca_vrfy); /* Send the client certificate */ if (s->listener->ca_name[0]) { name = s->listener->ca_name; req_ca_vrfy.fallback = 0; } else { name = s->smtpname; req_ca_vrfy.fallback = 1; } if (strlcpy(req_ca_vrfy.name, name, sizeof req_ca_vrfy.name) >= sizeof req_ca_vrfy.name) return 0; x = SSL_get_peer_certificate(s->io.ssl); if (x == NULL) return 0; xchain = SSL_get_peer_cert_chain(s->io.ssl); /* * Client provided a certificate and possibly a certificate chain. * SMTP can't verify because it does not have the information that * it needs, instead it will pass the certificate and chain to the * lookup process and wait for a reply. * */ cert_len[0] = i2d_X509(x, &cert_der[0]); X509_free(x); if (cert_len[0] < 0) { log_warnx("warn: failed to encode certificate"); goto end; } log_debug("debug: certificate 0: len=%d", cert_len[0]); if (cert_len[0] > (int)MAX_CERT_LEN) { log_warnx("warn: certificate too long"); goto end; } if (xchain) { cert_count = sk_X509_num(xchain); log_debug("debug: certificate chain len: %d", cert_count); if (cert_count >= MAX_CERTS) { log_warnx("warn: certificate chain too long"); goto end; } } else cert_count = 0; for (i = 0; i < cert_count; ++i) { x = sk_X509_value(xchain, i); cert_len[i+1] = i2d_X509(x, &cert_der[i+1]); if (cert_len[i+1] < 0) { log_warnx("warn: failed to encode certificate"); goto end; } log_debug("debug: certificate %i: len=%d", i+1, cert_len[i+1]); if (cert_len[i+1] > (int)MAX_CERT_LEN) { log_warnx("warn: certificate too long"); goto end; } } tree_xset(&wait_ssl_verify, s->id, s); /* Send the client certificate */ req_ca_vrfy.reqid = s->id; req_ca_vrfy.cert_len = cert_len[0]; req_ca_vrfy.n_chain = cert_count; iov[0].iov_base = &req_ca_vrfy; iov[0].iov_len = sizeof(req_ca_vrfy); iov[1].iov_base = cert_der[0]; iov[1].iov_len = cert_len[0]; m_composev(p_lka, IMSG_SMTP_TLS_VERIFY_CERT, 0, 0, -1, iov, nitems(iov)); memset(&req_ca_vrfy, 0, sizeof req_ca_vrfy); req_ca_vrfy.reqid = s->id; /* Send the chain, one cert at a time */ for (i = 0; i < cert_count; ++i) { req_ca_vrfy.cert_len = cert_len[i+1]; iov[1].iov_base = cert_der[i+1]; iov[1].iov_len = cert_len[i+1]; m_composev(p_lka, IMSG_SMTP_TLS_VERIFY_CHAIN, 0, 0, -1, iov, nitems(iov)); } /* Tell lookup process that it can start verifying, we're done */ memset(&req_ca_vrfy, 0, sizeof req_ca_vrfy); req_ca_vrfy.reqid = s->id; m_compose(p_lka, IMSG_SMTP_TLS_VERIFY, 0, 0, -1, &req_ca_vrfy, sizeof req_ca_vrfy); res = 1; end: for (i = 0; i < MAX_CERTS; ++i) free(cert_der[i]); return res; } static void smtp_auth_failure_resume(int fd, short event, void *p) { struct smtp_session *s = p; smtp_reply(s, "535 Authentication failed"); smtp_enter_state(s, STATE_HELO); io_reload(&s->io); } static void smtp_auth_failure_pause(struct smtp_session *s) { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = arc4random_uniform(1000000); log_trace(TRACE_SMTP, "smtp: timing-attack protection triggered, " "will defer answer for %lu microseconds", tv.tv_usec); evtimer_set(&s->pause, smtp_auth_failure_resume, s); evtimer_add(&s->pause, &tv); } static void smtp_queue_create_message(struct smtp_session *s) { m_create(p_queue, IMSG_SMTP_MESSAGE_CREATE, 0, 0, -1); m_add_id(p_queue, s->id); m_close(p_queue); tree_xset(&wait_queue_msg, s->id, s); } static void smtp_queue_open_message(struct smtp_session *s) { m_create(p_queue, IMSG_SMTP_MESSAGE_OPEN, 0, 0, -1); m_add_id(p_queue, s->id); m_add_msgid(p_queue, s->tx->msgid); m_close(p_queue); tree_xset(&wait_queue_fd, s->id, s); } static void smtp_queue_commit(struct smtp_session *s) { m_create(p_queue, IMSG_SMTP_MESSAGE_COMMIT, 0, 0, -1); m_add_id(p_queue, s->id); m_add_msgid(p_queue, s->tx->msgid); m_close(p_queue); tree_xset(&wait_queue_commit, s->id, s); } static void smtp_queue_rollback(struct smtp_session *s) { m_create(p_queue, IMSG_SMTP_MESSAGE_ROLLBACK, 0, 0, -1); m_add_msgid(p_queue, s->tx->msgid); m_close(p_queue); } static void smtp_filter_rset(struct smtp_session *s) { filter_event(s->id, EVENT_RESET); } static void smtp_filter_tx_begin(struct smtp_session *s) { s->flags |= SF_FILTERTX; filter_event(s->id, EVENT_TX_BEGIN); } static void smtp_filter_tx_commit(struct smtp_session *s) { s->flags &= ~SF_FILTERTX; filter_event(s->id, EVENT_TX_COMMIT); } static void smtp_filter_tx_rollback(struct smtp_session *s) { s->flags &= ~SF_FILTERTX; filter_event(s->id, EVENT_TX_ROLLBACK); } static void smtp_filter_disconnect(struct smtp_session *s) { filter_event(s->id, EVENT_DISCONNECT); } static void smtp_filter_connect(struct smtp_session *s, struct sockaddr *sa) { char *filter; tree_xset(&wait_filter, s->id, s); filter = s->listener->filter[0] ? s->listener->filter : NULL; filter_connect(s->id, sa, (struct sockaddr *)&s->ss, s->hostname, filter); } static void smtp_filter_eom(struct smtp_session *s) { tree_xset(&wait_filter, s->id, s); filter_eom(s->id, QUERY_EOM, s->tx->odatalen); } static void smtp_filter_helo(struct smtp_session *s) { tree_xset(&wait_filter, s->id, s); filter_line(s->id, QUERY_HELO, s->helo); } static void smtp_filter_mail(struct smtp_session *s) { tree_xset(&wait_filter, s->id, s); filter_mailaddr(s->id, QUERY_MAIL, &s->tx->evp.sender); } static void smtp_filter_rcpt(struct smtp_session *s) { tree_xset(&wait_filter, s->id, s); filter_mailaddr(s->id, QUERY_RCPT, &s->tx->evp.rcpt); } static void smtp_filter_data(struct smtp_session *s) { tree_xset(&wait_filter, s->id, s); filter_line(s->id, QUERY_DATA, NULL); } static void smtp_filter_dataline(struct smtp_session *s, const char *line) { int ret; log_trace(TRACE_SMTP, "<<< [MSG] %s", line); /* ignore data line if an error flag is set */ if (s->tx->msgflags & MF_ERROR) return; /* escape lines starting with a '.' */ if (line[0] == '.') line += 1; /* account for newline */ s->tx->datain += strlen(line) + 1; if (s->tx->datain > env->sc_maxsize) { s->tx->msgflags |= MF_ERROR_SIZE; return; } if (!s->tx->hdrdone) { /* folded header that must be skipped */ if (isspace((unsigned char)line[0]) && s->tx->skiphdr) return; s->tx->skiphdr = 0; /* BCC should be stripped from headers */ if (strncasecmp("bcc:", line, 4) == 0) { s->tx->skiphdr = 1; return; } /* check for loop */ if (strncasecmp("Received: ", line, 10) == 0) s->tx->rcvcount++; if (s->tx->rcvcount == MAX_HOPS_COUNT) { s->tx->msgflags |= MF_ERROR_LOOP; log_warnx("warn: loop detected"); return; } if (line[0] == '\0') s->tx->hdrdone = 1; } ret = rfc2822_parser_feed(&s->tx->rfc2822_parser, line); if (ret == -1) { s->tx->msgflags |= MF_ERROR_RESOURCES; return; } if (ret == 0) { s->tx->msgflags |= MF_ERROR_MALFORMED; return; } if (iobuf_queued(&s->tx->obuf) > DATA_HIWAT && !(s->io.flags & IO_PAUSE_IN)) { log_debug("debug: smtp: %p: filter congestion over: pausing session", s); io_pause(&s->io, IO_PAUSE_IN); } io_reload(&s->tx->oev); } #define CASE(x) case x : return #x const char * smtp_strstate(int state) { static char buf[32]; switch (state) { CASE(STATE_NEW); CASE(STATE_CONNECTED); CASE(STATE_TLS); CASE(STATE_HELO); CASE(STATE_AUTH_INIT); CASE(STATE_AUTH_USERNAME); CASE(STATE_AUTH_PASSWORD); CASE(STATE_AUTH_FINALIZE); CASE(STATE_BODY); CASE(STATE_QUIT); default: (void)snprintf(buf, sizeof(buf), "STATE_??? (%d)", state); return (buf); } }