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|
/*++
/* NAME
/* smtp_proto 3
/* SUMMARY
/* client SMTP/LMTP protocol
/* SYNOPSIS
/* #include "smtp.h"
/*
/* int smtp_helo(state)
/* SMTP_STATE *state;
/*
/* int smtp_xfer(state)
/* SMTP_STATE *state;
/*
/* int smtp_rset(state)
/* SMTP_STATE *state;
/*
/* int smtp_quit(state)
/* SMTP_STATE *state;
/* DESCRIPTION
/* In the subsequent text, SMTP implies LMTP.
/* This module implements the client side of the SMTP protocol.
/*
/* smtp_helo() performs the initial handshake with the SMTP server.
/* When TLS is enabled, this includes STARTTLS negotiations.
/*
/* smtp_xfer() sends message envelope information followed by the
/* message data, and finishes the SMTP conversation. These operations
/* are combined in one function, in order to implement SMTP pipelining.
/* Recipients are marked as "done" in the mail queue file when
/* bounced or delivered. The message delivery status is updated
/* accordingly.
/*
/* smtp_rset() sends a single RSET command and waits for the
/* response. In case of a negative reply it sets the
/* CANT_RSET_THIS_SESSION flag.
/*
/* smtp_quit() sends a single QUIT command and waits for the
/* response if configured to do so. It always turns off connection
/* caching.
/* DIAGNOSTICS
/* smtp_helo(), smtp_xfer(), smtp_rset() and smtp_quit() return
/* 0 in case of success, -1 in case of failure. For smtp_xfer(),
/* smtp_rset() and smtp_quit(), success means the ability to
/* perform an SMTP conversation, not necessarily the ability
/* to deliver mail, or the achievement of server happiness.
/*
/* In case of a rejected or failed connection, a connection
/* is marked as "bad, do not cache". Otherwise, connection
/* caching may be turned off (without being marked "bad") at
/* the discretion of the code that implements the individual
/* protocol steps.
/*
/* Warnings: corrupt message file. A corrupt message is marked
/* as "corrupt" by changing its queue file permissions.
/* BUGS
/* Some SMTP servers will abort when the number of recipients
/* for one message exceeds their capacity. This behavior violates
/* the SMTP protocol.
/* The only way around this is to limit the number of recipients
/* per transaction to an artificially-low value.
/* SEE ALSO
/* smtp(3h) internal data structures
/* smtp_chat(3) query/reply SMTP support
/* smtp_trouble(3) error handlers
/* LICENSE
/* .ad
/* .fi
/* The Secure Mailer license must be distributed with this software.
/* AUTHOR(S)
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*
/* Wietse Venema
/* Google, Inc.
/* 111 8th Avenue
/* New York, NY 10011, USA
/*
/* Pipelining code in cooperation with:
/* Jon Ribbens
/* Oaktree Internet Solutions Ltd.,
/* Internet House,
/* Canal Basin,
/* Coventry,
/* CV1 4LY, United Kingdom.
/*
/* Connection caching in cooperation with:
/* Victor Duchovni
/* Morgan Stanley
/*
/* TLS support originally by:
/* Lutz Jaenicke
/* BTU Cottbus
/* Allgemeine Elektrotechnik
/* Universitaetsplatz 3-4
/* D-03044 Cottbus, Germany
/*--*/
/* System library. */
#include <sys_defs.h>
#include <sys/stat.h>
#include <sys/socket.h> /* shutdown(2) */
#include <netinet/in.h> /* ntohs() */
#include <string.h>
#include <unistd.h>
#include <stdlib.h> /* 44BSD stdarg.h uses abort() */
#include <stdarg.h>
#include <time.h>
#ifdef STRCASECMP_IN_STRINGS_H
#include <strings.h>
#endif
/* Utility library. */
#include <msg.h>
#include <vstring.h>
#include <vstream.h>
#include <vstring_vstream.h>
#include <stringops.h>
#include <mymalloc.h>
#include <iostuff.h>
#include <split_at.h>
#include <name_code.h>
#include <name_mask.h>
/* Global library. */
#include <mail_params.h>
#include <smtp_stream.h>
#include <mail_queue.h>
#include <recipient_list.h>
#include <deliver_request.h>
#include <defer.h>
#include <bounce.h>
#include <record.h>
#include <rec_type.h>
#include <off_cvt.h>
#include <mark_corrupt.h>
#include <quote_822_local.h>
#include <mail_proto.h>
#include <mime_state.h>
#include <ehlo_mask.h>
#include <maps.h>
#include <tok822.h>
#include <mail_addr_map.h>
#include <ext_prop.h>
#include <namadr_list.h>
#include <match_parent_style.h>
#include <lex_822.h>
#include <dsn_mask.h>
#include <xtext.h>
#include <uxtext.h>
#include <smtputf8.h>
/* Application-specific. */
#include "smtp.h"
#include "smtp_sasl.h"
/*
* Sender and receiver state. A session does not necessarily go through a
* linear progression, but states are guaranteed to not jump backwards.
* Normal sessions go from MAIL->RCPT->DATA->DOT->QUIT->LAST. The states
* MAIL, RCPT, and DATA may also be followed by ABORT->QUIT->LAST.
*
* When connection caching is enabled, the QUIT state is suppressed. Normal
* sessions proceed as MAIL->RCPT->DATA->DOT->LAST, while aborted sessions
* end with ABORT->LAST. The connection is left open for a limited time. An
* RSET probe should be sent before attempting to reuse an open connection
* for a new transaction.
*
* The code to send an RSET probe is a special case with its own initial state
* and with its own dedicated state transitions. The session proceeds as
* RSET->LAST. This code is kept inside the main protocol engine for
* consistent error handling and error reporting. It is not to be confused
* with the code that sends RSET to abort a mail transaction in progress.
*
* The code to send QUIT without message delivery transaction jumps into the
* main state machine. If this introduces complications, then we should
* introduce a second QUIT state with its own dedicated state transitions,
* just like we did for RSET probes.
*
* By default, the receiver skips the QUIT response. Some SMTP servers
* disconnect after responding to ".", and some SMTP servers wait before
* responding to QUIT.
*
* Client states that are associated with sending mail (up to and including
* SMTP_STATE_DOT) must have smaller numerical values than the non-sending
* states (SMTP_STATE_ABORT .. SMTP_STATE_LAST).
*/
#define SMTP_STATE_XFORWARD_NAME_ADDR 0
#define SMTP_STATE_XFORWARD_PROTO_HELO 1
#define SMTP_STATE_MAIL 2
#define SMTP_STATE_RCPT 3
#define SMTP_STATE_DATA 4
#define SMTP_STATE_DOT 5
#define SMTP_STATE_ABORT 6
#define SMTP_STATE_RSET 7
#define SMTP_STATE_QUIT 8
#define SMTP_STATE_LAST 9
int *xfer_timeouts[SMTP_STATE_LAST] = {
&var_smtp_xfwd_tmout, /* name/addr */
&var_smtp_xfwd_tmout, /* helo/proto */
&var_smtp_mail_tmout,
&var_smtp_rcpt_tmout,
&var_smtp_data0_tmout,
&var_smtp_data2_tmout,
&var_smtp_rset_tmout,
&var_smtp_rset_tmout,
&var_smtp_quit_tmout,
};
char *xfer_states[SMTP_STATE_LAST] = {
"sending XFORWARD name/address",
"sending XFORWARD protocol/helo_name",
"sending MAIL FROM",
"sending RCPT TO",
"sending DATA command",
"sending end of data -- message may be sent more than once",
"sending final RSET",
"sending RSET probe",
"sending QUIT",
};
char *xfer_request[SMTP_STATE_LAST] = {
"XFORWARD name/address command",
"XFORWARD helo/protocol command",
"MAIL FROM command",
"RCPT TO command",
"DATA command",
"end of DATA command",
"final RSET command",
"RSET probe",
"QUIT command",
};
/*
* Note: MIME downgrade never happens for mail that must be delivered with
* SMTPUTF8 (the sender requested SMTPUTF8, AND the delivery request
* involves at least one UTF-8 envelope address or header value.
*/
#define SMTP_MIME_DOWNGRADE(session, request) \
(var_disable_mime_oconv == 0 \
&& (session->features & SMTP_FEATURE_8BITMIME) == 0 \
&& strcmp(request->encoding, MAIL_ATTR_ENC_7BIT) != 0)
#ifdef USE_TLS
static int smtp_start_tls(SMTP_STATE *);
#endif
/*
* Call-back information for header/body checks. We don't provide call-backs
* for actions that change the message delivery time or destination.
*/
static void smtp_hbc_logger(void *, const char *, const char *, const char *, const char *);
static void smtp_text_out(void *, int, const char *, ssize_t, off_t);
HBC_CALL_BACKS smtp_hbc_callbacks[1] = {
smtp_hbc_logger,
smtp_text_out,
};
static int smtp_vrfy_tgt;
/* smtp_vrfy_init - initialize */
void smtp_vrfy_init(void)
{
static const NAME_CODE vrfy_init_table[] = {
SMTP_VRFY_TGT_RCPT, SMTP_STATE_RCPT,
SMTP_VRFY_TGT_DATA, SMTP_STATE_DATA,
0,
};
if ((smtp_vrfy_tgt = name_code(vrfy_init_table, NAME_CODE_FLAG_NONE,
var_smtp_vrfy_tgt)) == 0)
msg_fatal("bad protocol stage: \"%s = %s\"",
VAR_SMTP_VRFY_TGT, var_smtp_vrfy_tgt);
}
/* smtp_helo - perform initial handshake with SMTP server */
int smtp_helo(SMTP_STATE *state)
{
const char *myname = "smtp_helo";
SMTP_SESSION *session = state->session;
DELIVER_REQUEST *request = state->request;
SMTP_ITERATOR *iter = state->iterator;
SMTP_RESP *resp;
SMTP_RESP fake;
int except;
char *lines;
char *words;
char *word;
int n;
static const NAME_CODE xforward_features[] = {
XFORWARD_NAME, SMTP_FEATURE_XFORWARD_NAME,
XFORWARD_ADDR, SMTP_FEATURE_XFORWARD_ADDR,
XFORWARD_PORT, SMTP_FEATURE_XFORWARD_PORT,
XFORWARD_PROTO, SMTP_FEATURE_XFORWARD_PROTO,
XFORWARD_HELO, SMTP_FEATURE_XFORWARD_HELO,
XFORWARD_IDENT, SMTP_FEATURE_XFORWARD_IDENT,
XFORWARD_DOMAIN, SMTP_FEATURE_XFORWARD_DOMAIN,
0, 0,
};
const char *ehlo_words;
int discard_mask;
static const NAME_MASK pix_bug_table[] = {
PIX_BUG_DISABLE_ESMTP, SMTP_FEATURE_PIX_NO_ESMTP,
PIX_BUG_DELAY_DOTCRLF, SMTP_FEATURE_PIX_DELAY_DOTCRLF,
0,
};
const char *pix_bug_words;
const char *pix_bug_source;
int pix_bug_mask;
#ifdef USE_TLS
int saved_features = session->features;
int tls_helo_status;
#endif
const char *NOCLOBBER where;
/*
* Skip the plaintext SMTP handshake when connecting in SMTPS mode.
*/
#ifdef USE_TLS
if (var_smtp_tls_wrappermode
&& (state->misc_flags & SMTP_MISC_FLAG_IN_STARTTLS) == 0) {
/* XXX Mix-up of per-session and per-request flags. */
state->misc_flags |= SMTP_MISC_FLAG_IN_STARTTLS;
smtp_stream_setup(state->session->stream, var_smtp_starttls_tmout,
var_smtp_req_deadline, 0);
tls_helo_status = smtp_start_tls(state);
state->misc_flags &= ~SMTP_MISC_FLAG_IN_STARTTLS;
return (tls_helo_status);
}
#endif
/*
* Prepare for disaster.
*/
smtp_stream_setup(state->session->stream, var_smtp_helo_tmout,
var_smtp_req_deadline, 0);
if ((except = vstream_setjmp(state->session->stream)) != 0)
return (smtp_stream_except(state, except, where));
/*
* If not recursing after STARTTLS, examine the server greeting banner
* and decide if we are going to send EHLO as the next command.
*/
if (var_smtp_tls_wrappermode
|| (state->misc_flags & SMTP_MISC_FLAG_IN_STARTTLS) == 0) {
/*
* Read and parse the server's SMTP greeting banner.
*/
where = "receiving the initial server greeting";
switch ((resp = smtp_chat_resp(session))->code / 100) {
case 2:
break;
case 5:
if (var_smtp_skip_5xx_greeting)
STR(resp->dsn_buf)[0] = '4';
/* FALLTHROUGH */
default:
return (smtp_site_fail(state, STR(iter->host), resp,
"host %s refused to talk to me: %s",
session->namaddr,
translit(resp->str, "\n", " ")));
}
/*
* If the policy table specifies a bogus TLS security level, fail
* now.
*/
#ifdef USE_TLS
if (state->tls->level == TLS_LEV_INVALID)
/* Warning is already logged. */
return (smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.7.0"),
"client TLS configuration problem"));
#endif
/*
* XXX Some PIX firewall versions require flush before ".<CR><LF>" so
* it does not span a packet boundary. This hurts performance so it
* is not on by default.
*/
if (resp->str[strspn(resp->str, "20 *\t\n")] == 0) {
/* Best effort only. Ignore errors. */
if (smtp_pix_bug_maps != 0
&& (pix_bug_words =
maps_find(smtp_pix_bug_maps,
STR(iter->addr), 0)) != 0) {
pix_bug_source = VAR_LMTP_SMTP(PIX_BUG_MAPS);
} else {
pix_bug_words = var_smtp_pix_bug_words;
pix_bug_source = VAR_LMTP_SMTP(PIX_BUG_WORDS);
}
if (*pix_bug_words) {
pix_bug_mask = name_mask_opt(pix_bug_source, pix_bug_table,
pix_bug_words,
NAME_MASK_ANY_CASE | NAME_MASK_IGNORE);
if ((pix_bug_mask & SMTP_FEATURE_PIX_DELAY_DOTCRLF)
&& request->msg_stats.incoming_arrival.tv_sec
> vstream_ftime(state->session->stream) - var_smtp_pix_thresh)
pix_bug_mask &= ~SMTP_FEATURE_PIX_DELAY_DOTCRLF;
msg_info("%s: enabling PIX workarounds: %s for %s",
request->queue_id,
str_name_mask("pix workaround bitmask",
pix_bug_table, pix_bug_mask),
session->namaddrport);
session->features |= pix_bug_mask;
}
}
/*
* See if we are talking to ourself. This should not be possible with
* the way we implement DNS lookups. However, people are known to
* sometimes screw up the naming service. And, mailer loops are still
* possible when our own mailer routing tables are mis-configured.
*/
words = resp->str;
(void) mystrtok(&words, "- \t\n");
for (n = 0; (word = mystrtok(&words, " \t\n")) != 0; n++) {
if (n == 0 && strcasecmp(word, var_myhostname) == 0) {
if (state->misc_flags & SMTP_MISC_FLAG_LOOP_DETECT)
msg_warn("host %s greeted me with my own hostname %s",
session->namaddrport, var_myhostname);
} else if (strcasecmp(word, "ESMTP") == 0)
session->features |= SMTP_FEATURE_ESMTP;
}
if (smtp_mode) {
if (var_smtp_always_ehlo
&& (session->features & SMTP_FEATURE_PIX_NO_ESMTP) == 0)
session->features |= SMTP_FEATURE_ESMTP;
if (var_smtp_never_ehlo
|| (session->features & SMTP_FEATURE_PIX_NO_ESMTP) != 0)
session->features &= ~SMTP_FEATURE_ESMTP;
} else {
session->features |= SMTP_FEATURE_ESMTP;
}
}
/*
* If recursing after STARTTLS, there is no server greeting banner.
* Always send EHLO as the next command.
*/
else {
session->features |= SMTP_FEATURE_ESMTP;
}
/*
* Return the compliment. Fall back to SMTP if our ESMTP recognition
* heuristic failed.
*/
if (smtp_mode) {
where = "performing the EHLO handshake";
if (session->features & SMTP_FEATURE_ESMTP) {
smtp_chat_cmd(session, "EHLO %s", var_smtp_helo_name);
if ((resp = smtp_chat_resp(session))->code / 100 != 2) {
if (resp->code == 421)
return (smtp_site_fail(state, STR(iter->host), resp,
"host %s refused to talk to me: %s",
session->namaddr,
translit(resp->str, "\n", " ")));
else
session->features &= ~SMTP_FEATURE_ESMTP;
}
}
if ((session->features & SMTP_FEATURE_ESMTP) == 0) {
where = "performing the HELO handshake";
smtp_chat_cmd(session, "HELO %s", var_smtp_helo_name);
if ((resp = smtp_chat_resp(session))->code / 100 != 2)
return (smtp_site_fail(state, STR(iter->host), resp,
"host %s refused to talk to me: %s",
session->namaddr,
translit(resp->str, "\n", " ")));
}
} else {
where = "performing the LHLO handshake";
smtp_chat_cmd(session, "LHLO %s", var_smtp_helo_name);
if ((resp = smtp_chat_resp(session))->code / 100 != 2)
return (smtp_site_fail(state, STR(iter->host), resp,
"host %s refused to talk to me: %s",
session->namaddr,
translit(resp->str, "\n", " ")));
}
/*
* No early returns allowed, to ensure consistent handling of TLS and
* SASL policies.
*/
if (session->features & SMTP_FEATURE_ESMTP) {
/*
* Determine what server EHLO keywords to ignore, typically to avoid
* inter-operability problems.
*/
if (smtp_ehlo_dis_maps == 0
|| (ehlo_words = maps_find(smtp_ehlo_dis_maps,
STR(iter->addr), 0)) == 0)
ehlo_words = var_smtp_ehlo_dis_words;
if (smtp_ehlo_dis_maps && smtp_ehlo_dis_maps->error) {
msg_warn("%s: %s map lookup error for %s",
session->state->request->queue_id,
smtp_ehlo_dis_maps->title, STR(iter->addr));
vstream_longjmp(session->stream, SMTP_ERR_DATA);
}
discard_mask = ehlo_mask(ehlo_words);
if (discard_mask && !(discard_mask & EHLO_MASK_SILENT))
msg_info("discarding EHLO keywords: %s",
str_ehlo_mask(discard_mask));
/*
* Pick up some useful features offered by the SMTP server. XXX Until
* we have a portable routine to convert from string to off_t with
* proper overflow detection, ignore the message size limit
* advertised by the SMTP server. Otherwise, we might do the wrong
* thing when the server advertises a really huge message size limit.
*
* XXX Allow for "code (SP|-) ehlo-keyword (SP|=) ehlo-param...",
* because MicroSoft implemented AUTH based on an old draft.
*/
lines = resp->str;
for (n = 0; (words = mystrtok(&lines, "\n")) != 0; /* see below */ ) {
if (mystrtok(&words, "- ")
&& (word = mystrtok(&words, " \t=")) != 0) {
if (n == 0) {
if (session->helo != 0)
myfree(session->helo);
/*
* XXX: Keep the original case: we don't expect a single
* SMTP server to randomly change the case of its helo
* response. If different capitalization is detected, we
* should assume disjoint TLS caches.
*/
session->helo = mystrdup(word);
if (strcasecmp(word, var_myhostname) == 0
&& (state->misc_flags & SMTP_MISC_FLAG_LOOP_DETECT) != 0) {
msg_warn("host %s replied to HELO/EHLO"
" with my own hostname %s",
session->namaddrport, var_myhostname);
if (session->features & SMTP_FEATURE_BEST_MX)
return (smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "5.4.6"),
"mail for %s loops back to myself",
request->nexthop));
else
return (smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.4.6"),
"mail for %s loops back to myself",
request->nexthop));
}
} else if (strcasecmp(word, "8BITMIME") == 0) {
if ((discard_mask & EHLO_MASK_8BITMIME) == 0)
session->features |= SMTP_FEATURE_8BITMIME;
} else if (strcasecmp(word, "PIPELINING") == 0) {
if ((discard_mask & EHLO_MASK_PIPELINING) == 0)
session->features |= SMTP_FEATURE_PIPELINING;
} else if (strcasecmp(word, "XFORWARD") == 0) {
if ((discard_mask & EHLO_MASK_XFORWARD) == 0)
while ((word = mystrtok(&words, " \t")) != 0)
session->features |=
name_code(xforward_features,
NAME_CODE_FLAG_NONE, word);
} else if (strcasecmp(word, "SIZE") == 0) {
if ((discard_mask & EHLO_MASK_SIZE) == 0) {
session->features |= SMTP_FEATURE_SIZE;
if ((word = mystrtok(&words, " \t")) != 0) {
if (!alldig(word))
msg_warn("bad EHLO SIZE limit \"%s\" from %s",
word, session->namaddrport);
else
session->size_limit = off_cvt_string(word);
}
}
#ifdef USE_TLS
} else if (strcasecmp(word, "STARTTLS") == 0) {
/* Ignored later if we already sent STARTTLS. */
if ((discard_mask & EHLO_MASK_STARTTLS) == 0)
session->features |= SMTP_FEATURE_STARTTLS;
#endif
#ifdef USE_SASL_AUTH
} else if (var_smtp_sasl_enable
&& strcasecmp(word, "AUTH") == 0) {
if ((discard_mask & EHLO_MASK_AUTH) == 0)
smtp_sasl_helo_auth(session, words);
#endif
} else if (strcasecmp(word, "DSN") == 0) {
if ((discard_mask & EHLO_MASK_DSN) == 0)
session->features |= SMTP_FEATURE_DSN;
} else if (strcasecmp(word, "SMTPUTF8") == 0) {
if ((discard_mask & EHLO_MASK_SMTPUTF8) == 0)
session->features |= SMTP_FEATURE_SMTPUTF8;
}
n++;
}
}
}
if (msg_verbose)
msg_info("server features: 0x%x size %.0f",
session->features, (double) session->size_limit);
/*
* Decide if this delivery requires SMTPUTF8 server support.
*
* For now, we require that the remote SMTP server supports SMTPUTF8 when
* the sender requested SMTPUTF8 support.
*
* XXX EAI Refine this to: the sender requested SMTPUTF8 support AND the
* delivery request involves at least one UTF-8 envelope address or
* header value.
*
* If the sender requested SMTPUTF8 support but the delivery request
* involves no UTF-8 envelope address or header value, then we could
* still deliver such mail to a non-SMTPUTF8 server, except that we must
* either uxtext-encode ORCPT parameters or not send them. We cannot
* encode the ORCPT in xtext, because legacy SMTP requires that the
* unencoded address consist entirely of printable (graphic and white
* space) characters from the US-ASCII repertoire (RFC 3461 section 4). A
* correct uxtext encoder will produce a result that an xtext decoder
* will pass through unchanged.
*
* XXX Should we try to encode headers with RFC 2047 when delivering to a
* non-SMTPUTF8 server? That could make life easier for mailing lists.
*/
#define DELIVERY_REQUIRES_SMTPUTF8 \
((request->smtputf8 & SMTPUTF8_FLAG_REQUESTED) \
&& (request->smtputf8 & ~SMTPUTF8_FLAG_REQUESTED))
/*
* Require that the server supports SMTPUTF8 when delivery requires
* SMTPUTF8.
*
* Fix 20140706: moved this before negotiating TLS, AUTH, and so on.
*/
if ((session->features & SMTP_FEATURE_SMTPUTF8) == 0
&& DELIVERY_REQUIRES_SMTPUTF8)
return (smtp_mesg_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "5.6.7"),
"SMTPUTF8 is required, "
"but was not offered by host %s",
session->namaddr));
/*
* Fix 20140706: don't do silly things when the remote server announces
* SMTPUTF8 but not 8BITMIME support. Our primary mission is to deliver
* mail, not to force people into compliance.
*/
if ((session->features & SMTP_FEATURE_SMTPUTF8) != 0
&& (session->features & SMTP_FEATURE_8BITMIME) == 0) {
msg_info("host %s offers SMTPUTF8 support, but not 8BITMIME",
session->namaddr);
session->features |= SMTP_FEATURE_8BITMIME;
}
/*
* We use SMTP command pipelining if the server said it supported it.
* Since we use blocking I/O, RFC 2197 says that we should inspect the
* TCP window size and not send more than this amount of information.
* Unfortunately this information is unavailable using the sockets
* interface. However, we *can* get the TCP send buffer size on the local
* TCP/IP stack. We should be able to fill this buffer without being
* blocked, and then the kernel will effectively do non-blocking I/O for
* us by automatically writing out the contents of its send buffer while
* we are reading in the responses. In addition to TCP buffering we have
* to be aware of application-level buffering by the vstream module,
* which is limited to a couple kbytes.
*
* XXX No need to do this before and after STARTTLS, but it's not a big deal
* if we do.
*
* XXX When TLS is turned on, the SMTP-level writes will be encapsulated as
* TLS messages. Thus, the TCP-level payload will be larger than the
* SMTP-level payload. This has implications for the PIPELINING engine.
*
* To avoid deadlock, the PIPELINING engine needs to request a TCP send
* buffer size that can hold the unacknowledged commands plus the TLS
* encapsulation overhead.
*
* The PIPELINING engine keeps the unacknowledged command size <= the
* default VSTREAM buffer size (to avoid small-write performance issues
* when the VSTREAM buffer size is at its default size). With a default
* VSTREAM buffer size of 4096 there is no reason to increase the
* unacknowledged command size as the TCP MSS increases. It's safer to
* spread the remote SMTP server's recipient processing load over time,
* than dumping a very large recipient list all at once.
*
* For TLS encapsulation overhead we make a conservative guess: take the
* current protocol overhead of ~40 bytes, double the number for future
* proofing (~80 bytes), then round up the result to the nearest power of
* 2 (128 bytes). Plus, be prepared for worst-case compression that
* expands data by 1 kbyte, so that the worst-case SMTP payload per TLS
* message becomes 15 kbytes.
*/
#define PIPELINING_BUFSIZE VSTREAM_BUFSIZE
#ifdef USE_TLS
#define TLS_WORST_PAYLOAD 16384
#define TLS_WORST_COMP_OVERHD 1024
#define TLS_WORST_PROTO_OVERHD 128
#define TLS_WORST_SMTP_PAYLOAD (TLS_WORST_PAYLOAD - TLS_WORST_COMP_OVERHD)
#define TLS_WORST_TOTAL_OVERHD (TLS_WORST_COMP_OVERHD + TLS_WORST_PROTO_OVERHD)
#endif
if (session->features & SMTP_FEATURE_PIPELINING) {
SOCKOPT_SIZE optlen;
int tcp_bufsize;
int enc_overhead = 0;
optlen = sizeof(tcp_bufsize);
if (getsockopt(vstream_fileno(session->stream), SOL_SOCKET,
SO_SNDBUF, (char *) &tcp_bufsize, &optlen) < 0)
msg_fatal("%s: getsockopt: %m", myname);
#ifdef USE_TLS
if (state->misc_flags & SMTP_MISC_FLAG_IN_STARTTLS)
enc_overhead +=
(1 + (PIPELINING_BUFSIZE - 1)
/ TLS_WORST_SMTP_PAYLOAD) * TLS_WORST_TOTAL_OVERHD;
#endif
if (tcp_bufsize < PIPELINING_BUFSIZE + enc_overhead) {
tcp_bufsize = PIPELINING_BUFSIZE + enc_overhead;
if (setsockopt(vstream_fileno(session->stream), SOL_SOCKET,
SO_SNDBUF, (char *) &tcp_bufsize, optlen) < 0)
msg_fatal("%s: setsockopt: %m", myname);
}
if (msg_verbose)
msg_info("Using %s PIPELINING, TCP send buffer size is %d, "
"PIPELINING buffer size is %d",
smtp_mode ? "ESMTP" : "LMTP",
tcp_bufsize, PIPELINING_BUFSIZE);
}
#ifdef USE_TLS
/*
* Skip this part if we already sent STARTTLS.
*/
if ((state->misc_flags & SMTP_MISC_FLAG_IN_STARTTLS) == 0) {
/*
* Optionally log unused STARTTLS opportunities.
*/
if ((session->features & SMTP_FEATURE_STARTTLS) &&
var_smtp_tls_note_starttls_offer &&
state->tls->level <= TLS_LEV_NONE)
msg_info("Host offered STARTTLS: [%s]", STR(iter->host));
/*
* Decide whether or not to send STARTTLS.
*/
if ((session->features & SMTP_FEATURE_STARTTLS) != 0
&& smtp_tls_ctx != 0 && state->tls->level >= TLS_LEV_MAY) {
/*
* Prepare for disaster.
*/
smtp_stream_setup(state->session->stream, var_smtp_starttls_tmout,
var_smtp_req_deadline, 0);
if ((except = vstream_setjmp(state->session->stream)) != 0)
return (smtp_stream_except(state, except,
"receiving the STARTTLS response"));
/*
* Send STARTTLS. Recurse when the server accepts STARTTLS, after
* resetting the SASL and EHLO features lists.
*
* Reset the SASL mechanism list to avoid spurious warnings.
*
* Use the smtp_sasl_tls_security_options feature to allow SASL
* mechanisms that may not be allowed with plain-text
* connections.
*/
smtp_chat_cmd(session, "STARTTLS");
if ((resp = smtp_chat_resp(session))->code / 100 == 2) {
#ifdef USE_SASL_AUTH
if (session->features & SMTP_FEATURE_AUTH)
smtp_sasl_cleanup(session);
#endif
session->features = saved_features;
/* XXX Mix-up of per-session and per-request flags. */
state->misc_flags |= SMTP_MISC_FLAG_IN_STARTTLS;
tls_helo_status = smtp_start_tls(state);
state->misc_flags &= ~SMTP_MISC_FLAG_IN_STARTTLS;
return (tls_helo_status);
}
/*
* Give up if we must use TLS but the server rejects STARTTLS
* although support for it was announced in the EHLO response.
*/
session->features &= ~SMTP_FEATURE_STARTTLS;
if (TLS_REQUIRED(state->tls->level))
return (smtp_site_fail(state, STR(iter->host), resp,
"TLS is required, but host %s refused to start TLS: %s",
session->namaddr,
translit(resp->str, "\n", " ")));
/* Else try to continue in plain-text mode. */
}
/*
* Give up if we must use TLS but can't for various reasons.
*
* 200412 Be sure to provide the default clause at the bottom of this
* block. When TLS is required we must never, ever, end up in
* plain-text mode.
*/
if (TLS_REQUIRED(state->tls->level)) {
if (!(session->features & SMTP_FEATURE_STARTTLS)) {
return (smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.7.4"),
"TLS is required, but was not offered by host %s",
session->namaddr));
} else if (smtp_tls_ctx == 0) {
return (smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.7.5"),
"TLS is required, but our TLS engine is unavailable"));
} else {
msg_warn("%s: TLS is required but unavailable, don't know why",
myname);
return (smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.7.0"),
"TLS is required, but unavailable"));
}
}
}
#endif
#ifdef USE_SASL_AUTH
if (var_smtp_sasl_enable && (session->features & SMTP_FEATURE_AUTH))
return (smtp_sasl_helo_login(state));
#endif
return (0);
}
#ifdef USE_TLS
/* smtp_start_tls - turn on TLS and recurse into the HELO dialog */
static int smtp_start_tls(SMTP_STATE *state)
{
SMTP_SESSION *session = state->session;
SMTP_ITERATOR *iter = state->iterator;
TLS_CLIENT_START_PROPS start_props;
VSTRING *serverid;
SMTP_RESP fake;
TLS_CLIENT_INIT_PROPS init_props;
VSTREAM *tlsproxy;
VSTRING *port_buf;
/*
* When the TLS handshake succeeds, we can reuse a connection only if TLS
* remains turned on for the lifetime of that connection. This requires
* that the TLS library state is maintained in some proxy process, for
* example, in tlsproxy(8). We then store the proxy file handle in the
* connection cache, and reuse that file handle.
*
* Otherwise, we must turn off connection caching. We can't turn off TLS in
* one SMTP client process, save the open connection to a cache which is
* shared with all SMTP clients, migrate the connection to another SMTP
* client, and resume TLS there. When the TLS handshake fails, we can't
* reuse the SMTP connection either, because the conversation is in an
* unknown state.
*/
if (state->tls->conn_reuse == 0)
DONT_CACHE_THIS_SESSION;
/*
* The following assumes sites that use TLS in a perverse configuration:
* multiple hosts per hostname, or even multiple hosts per IP address.
* All this without a shared TLS session cache, and they still want to
* use TLS session caching???
*
* The TLS session cache records the trust chain verification status of
* cached sessions. Different transports may have different CAfile or
* CApath settings, perhaps to allow authenticated connections to sites
* with private CA certs without trusting said private certs for other
* sites. So we cannot assume that a trust chain valid for one transport
* is valid for another. Therefore the client session id must include
* either the transport name or the values of CAfile and CApath. We use
* the transport name.
*
* XXX: We store only one session per lookup key. Ideally the key maps
* 1-to-1 to a server TLS session cache. We use the IP address, port and
* ehlo response name to build a lookup key that works for split caches
* (that announce distinct names) behind a load balancer.
*
* XXX: The TLS library will salt the serverid with further details of the
* protocol and cipher requirements including the server ehlo response.
* Deferring the helo to the digested suffix results in more predictable
* SSL session lookup key lengths.
*/
serverid = vstring_alloc(10);
smtp_key_prefix(serverid, "&", state->iterator, SMTP_KEY_FLAG_SERVICE
| SMTP_KEY_FLAG_CUR_NEXTHOP /* With port */
| SMTP_KEY_FLAG_HOSTNAME
| SMTP_KEY_FLAG_ADDR);
if (state->tls->conn_reuse) {
TLS_CLIENT_PARAMS tls_params;
/*
* Send all our wishes in one big request.
*/
TLS_PROXY_CLIENT_INIT_PROPS(&init_props,
log_param = VAR_LMTP_SMTP(TLS_LOGLEVEL),
log_level = var_smtp_tls_loglevel,
verifydepth = var_smtp_tls_scert_vd,
cache_type
= LMTP_SMTP_SUFFIX(TLS_MGR_SCACHE),
chain_files = var_smtp_tls_chain_files,
cert_file = var_smtp_tls_cert_file,
key_file = var_smtp_tls_key_file,
dcert_file = var_smtp_tls_dcert_file,
dkey_file = var_smtp_tls_dkey_file,
eccert_file = var_smtp_tls_eccert_file,
eckey_file = var_smtp_tls_eckey_file,
CAfile = var_smtp_tls_CAfile,
CApath = var_smtp_tls_CApath,
mdalg = var_smtp_tls_fpt_dgst);
TLS_PROXY_CLIENT_START_PROPS(&start_props,
timeout = var_smtp_starttls_tmout,
tls_level = state->tls->level,
nexthop = session->tls_nexthop,
host = STR(iter->host),
namaddr = session->namaddrport,
sni = state->tls->sni,
serverid = vstring_str(serverid),
helo = session->helo,
protocols = state->tls->protocols,
cipher_grade = state->tls->grade,
cipher_exclusions
= vstring_str(state->tls->exclusions),
matchargv = state->tls->matchargv,
mdalg = var_smtp_tls_fpt_dgst,
dane = state->tls->dane);
/*
* The tlsproxy(8) server enforces timeouts that are larger than
* those specified by the tlsproxy(8) client. These timeouts are a
* safety net for the case that the tlsproxy(8) client fails to
* enforce time limits. Normally, the tlsproxy(8) client would time
* out and trigger a plaintext event in the tlsproxy(8) server, and
* cause it to tear down the session.
*
* However, the tlsproxy(8) server has no insight into the SMTP
* protocol, and therefore it cannot by itself support different
* timeouts at different SMTP protocol stages. Instead, we specify
* the largest timeout (end-of-data) and rely on the SMTP client to
* time out first, which normally results in a plaintext event in the
* tlsproxy(8) server. Unfortunately, we cannot permit plaintext
* events during the TLS handshake, so we specify a separate timeout
* for that stage (the end-of-data timeout would be unreasonably
* large anyway).
*/
#define PROXY_OPEN_FLAGS \
(TLS_PROXY_FLAG_ROLE_CLIENT | TLS_PROXY_FLAG_SEND_CONTEXT)
port_buf = vstring_alloc(100); /* minimize fragmentation */
vstring_sprintf(port_buf, "%d", ntohs(iter->port));
tlsproxy =
tls_proxy_open(var_tlsproxy_service, PROXY_OPEN_FLAGS,
session->stream, STR(iter->addr),
STR(port_buf), var_smtp_starttls_tmout,
var_smtp_data2_tmout, state->service,
tls_proxy_client_param_from_config(&tls_params),
&init_props, &start_props);
vstring_free(port_buf);
/*
* To insert tlsproxy(8) between this process and the remote SMTP
* server, we swap the file descriptors between the tlsproxy and
* session->stream VSTREAMS, so that we don't lose all the
* user-configurable session->stream attributes (such as longjump
* buffers or timeouts).
*
* TODO: the tlsproxy RPCs should return more error detail than a "NO"
* result. OTOH, the in-process TLS engine does not return such info
* either.
*
* If the tlsproxy request fails we do not fall back to the in-process
* TLS stack. Reason: the admin enabled connection reuse to respect
* receiver policy; silently violating such policy would not be
* useful.
*
* We also don't fall back to the in-process TLS stack under low-traffic
* conditions, to avoid frustrating attempts to debug a problem with
* using the tlsproxy(8) service.
*/
if (tlsproxy == 0) {
session->tls_context = 0;
} else {
vstream_control(tlsproxy,
CA_VSTREAM_CTL_DOUBLE,
CA_VSTREAM_CTL_END);
vstream_control(session->stream,
CA_VSTREAM_CTL_SWAP_FD(tlsproxy),
CA_VSTREAM_CTL_END);
(void) vstream_fclose(tlsproxy); /* direct-to-server stream! */
/*
* There must not be any pending data in the stream buffers
* before we read the TLS context attributes.
*/
vstream_fpurge(session->stream, VSTREAM_PURGE_BOTH);
/*
* After plumbing the plaintext stream, receive the TLS context
* object. For this we use the same VSTREAM buffer that we also
* use to receive subsequent SMTP commands, therefore we must be
* prepared for the possibility that the remote SMTP server
* starts talking immediately. The tlsproxy implementation sends
* the TLS context before remote content. The attribute protocol
* is robust enough that an adversary cannot insert their own TLS
* context attributes.
*/
session->tls_context = tls_proxy_context_receive(session->stream);
if (session->tls_context) {
session->features |= SMTP_FEATURE_FROM_PROXY;
tls_log_summary(TLS_ROLE_CLIENT, TLS_USAGE_NEW,
session->tls_context);
}
}
} else { /* state->tls->conn_reuse */
/*
* As of Postfix 2.5, tls_client_start() tries hard to always
* complete the TLS handshake. It records the verification and match
* status in the resulting TLScontext. It is now up to the
* application to abort the TLS connection if it chooses.
*
* XXX When tls_client_start() fails then we don't know what state the
* SMTP connection is in, so we give up on this connection even if we
* are not required to use TLS.
*
* Large parameter lists are error-prone, so we emulate a language
* feature that C does not have natively: named parameter lists.
*/
session->tls_context =
TLS_CLIENT_START(&start_props,
ctx = smtp_tls_ctx,
stream = session->stream,
fd = -1,
timeout = var_smtp_starttls_tmout,
tls_level = state->tls->level,
nexthop = session->tls_nexthop,
host = STR(iter->host),
namaddr = session->namaddrport,
sni = state->tls->sni,
serverid = vstring_str(serverid),
helo = session->helo,
protocols = state->tls->protocols,
cipher_grade = state->tls->grade,
cipher_exclusions
= vstring_str(state->tls->exclusions),
matchargv = state->tls->matchargv,
mdalg = var_smtp_tls_fpt_dgst,
dane = state->tls->dane);
/*
* At this point there must not be any pending data in the stream
* buffers.
*/
vstream_fpurge(session->stream, VSTREAM_PURGE_BOTH);
} /* state->tls->conn_reuse */
vstring_free(serverid);
if (session->tls_context == 0) {
/*
* We must avoid further I/O, the peer is in an undefined state.
*/
DONT_USE_FORBIDDEN_SESSION;
/*
* If TLS is optional, try delivery to the same server over a
* plaintext connection. Otherwise we would defer mail forever with
* destinations that have no alternate MX host.
*
* Don't fall back to plaintext if we were willing to use SASL-over-TLS
* authentication. If the server doesn't announce SASL support over
* plaintext connections, then we don't want delivery to fail with
* "relay access denied".
*
* If TLS is opportunistic, don't throttle the destination, otherwise if
* the mail is volume is high enough we may have difficulty ever
* draining even the deferred mail, as new mail provides a constant
* stream of negative feedback.
*/
if (PLAINTEXT_FALLBACK_OK_AFTER_STARTTLS_FAILURE)
RETRY_AS_PLAINTEXT;
return (smtp_misc_fail(state, state->tls->level == TLS_LEV_MAY ?
SMTP_NOTHROTTLE : SMTP_THROTTLE,
DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.7.5"),
"Cannot start TLS: handshake failure"));
}
/*
* If we are verifying the server certificate and are not happy with the
* result, abort the delivery here. We have a usable TLS session with the
* server, so no need to disable I/O, ... we can even be polite and send
* "QUIT".
*
* See src/tls/tls_level.c and src/tls/tls.h. Levels above "encrypt" require
* matching.
*
* NOTE: We use "IS_MATCHED" to satisfy policy, but "IS_SECURED" to log
* effective security. Thus "half-dane" is never "Verified" only
* "Trusted", but matching is enforced here.
*
* NOTE: When none of the TLSA records were usable, "dane" and "half-dane"
* fall back to "encrypt", updating the tls_context level accordingly, so
* we must check that here, and not state->tls->level.
*/
if (TLS_MUST_MATCH(session->tls_context->level))
if (!TLS_CERT_IS_MATCHED(session->tls_context))
return (smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.7.5"),
"Server certificate not verified"));
/*
* At this point we have to re-negotiate the "EHLO" to reget the
* feature-list.
*/
return (smtp_helo(state));
}
#endif
/* smtp_hbc_logger - logging call-back for header/body checks */
static void smtp_hbc_logger(void *context, const char *action,
const char *where, const char *content,
const char *text)
{
const SMTP_STATE *state = (SMTP_STATE *) context;
if (*text) {
msg_info("%s: %s: %s %.60s: %s",
state->request->queue_id, action, where, content, text);
} else {
msg_info("%s: %s: %s %.60s",
state->request->queue_id, action, where, content);
}
}
/* smtp_text_out - output one header/body record */
static void smtp_text_out(void *context, int rec_type,
const char *text, ssize_t len,
off_t unused_offset)
{
SMTP_STATE *state = (SMTP_STATE *) context;
SMTP_SESSION *session = state->session;
ssize_t data_left;
const char *data_start;
/*
* Deal with an impedance mismatch between Postfix queue files (record
* length <= $message_line_length_limit) and SMTP (DATA record length <=
* $smtp_line_length_limit). The code below does a little too much work
* when the SMTP line length limit is disabled, but it avoids code
* duplication, and thus, it avoids testing and maintenance problems.
*/
data_left = len;
data_start = text;
do {
if (state->space_left == var_smtp_line_limit
&& data_left > 0 && *data_start == '.')
smtp_fputc('.', session->stream);
if (ENFORCING_SIZE_LIMIT(var_smtp_line_limit)
&& data_left >= state->space_left) {
smtp_fputs(data_start, state->space_left, session->stream);
data_start += state->space_left;
data_left -= state->space_left;
state->space_left = var_smtp_line_limit;
if (data_left > 0 || rec_type == REC_TYPE_CONT) {
smtp_fputc(' ', session->stream);
state->space_left -= 1;
/*
* XXX This can insert a line break into the middle of a
* multi-byte character (not necessarily UTF-8). Note that
* multibyte characters can span queue file records, for
* example if line_length_limit == smtp_line_length_limit.
*/
if (state->logged_line_length_limit == 0) {
msg_info("%s: breaking line > %d bytes with <CR><LF>SPACE",
state->request->queue_id, var_smtp_line_limit);
state->logged_line_length_limit = 1;
}
}
} else {
if (rec_type == REC_TYPE_CONT) {
smtp_fwrite(data_start, data_left, session->stream);
state->space_left -= data_left;
} else {
smtp_fputs(data_start, data_left, session->stream);
state->space_left = var_smtp_line_limit;
}
break;
}
} while (data_left > 0);
}
/* smtp_format_out - output one header/body record */
static void PRINTFLIKE(3, 4) smtp_format_out(void *, int, const char *,...);
static void smtp_format_out(void *context, int rec_type, const char *fmt,...)
{
static VSTRING *vp;
va_list ap;
if (vp == 0)
vp = vstring_alloc(100);
va_start(ap, fmt);
vstring_vsprintf(vp, fmt, ap);
va_end(ap);
smtp_text_out(context, rec_type, vstring_str(vp), VSTRING_LEN(vp), 0);
}
/* smtp_header_out - output one message header */
static void smtp_header_out(void *context, int unused_header_class,
const HEADER_OPTS *unused_info,
VSTRING *buf, off_t offset)
{
char *start = vstring_str(buf);
char *line;
char *next_line;
/*
* This code destroys the header. We could try to avoid clobbering it,
* but we're not going to use the data any further.
*/
for (line = start; line; line = next_line) {
next_line = split_at(line, '\n');
smtp_text_out(context, REC_TYPE_NORM, line, next_line ?
next_line - line - 1 : strlen(line), offset);
}
}
/* smtp_header_rewrite - rewrite message header before output */
static void smtp_header_rewrite(void *context, int header_class,
const HEADER_OPTS *header_info,
VSTRING *buf, off_t offset)
{
SMTP_STATE *state = (SMTP_STATE *) context;
int did_rewrite = 0;
char *line;
char *start;
char *next_line;
char *end_line;
char *result;
/*
* Apply optional header filtering.
*/
if (smtp_header_checks) {
result = hbc_header_checks(context, smtp_header_checks, header_class,
header_info, buf, offset);
if (result == 0)
return;
if (result == HBC_CHECKS_STAT_ERROR) {
msg_warn("%s: smtp header checks lookup error",
state->request->queue_id);
vstream_longjmp(state->session->stream, SMTP_ERR_DATA);
}
if (result != STR(buf)) {
vstring_strcpy(buf, result);
myfree(result);
}
}
/*
* Rewrite primary header addresses that match the smtp_generic_maps. The
* cleanup server already enforces that all headers have proper lengths
* and that all addresses are in proper form, so we don't have to repeat
* that.
*/
if (smtp_generic_maps && header_info && header_class == MIME_HDR_PRIMARY
&& (header_info->flags & (HDR_OPT_SENDER | HDR_OPT_RECIP)) != 0) {
TOK822 *tree;
TOK822 **addr_list;
TOK822 **tpp;
tree = tok822_parse(vstring_str(buf)
+ strlen(header_info->name) + 1);
addr_list = tok822_grep(tree, TOK822_ADDR);
for (tpp = addr_list; *tpp; tpp++)
did_rewrite |= smtp_map11_tree(tpp[0], smtp_generic_maps,
smtp_ext_prop_mask & EXT_PROP_GENERIC);
if (did_rewrite) {
vstring_truncate(buf, strlen(header_info->name));
vstring_strcat(buf, ": ");
tok822_externalize(buf, tree, TOK822_STR_HEAD);
}
myfree((void *) addr_list);
tok822_free_tree(tree);
}
/*
* Pass through unmodified headers without reconstruction.
*/
if (did_rewrite == 0) {
smtp_header_out(context, header_class, header_info, buf, offset);
return;
}
/*
* A rewritten address list contains one address per line. The code below
* replaces newlines by spaces, to fit as many addresses on a line as
* possible (without rearranging the order of addresses). Prepending
* white space to the beginning of lines is delegated to the output
* routine.
*
* Code derived from cleanup_fold_header().
*/
for (line = start = vstring_str(buf); line != 0; line = next_line) {
end_line = line + strcspn(line, "\n");
if (line > start) {
if (end_line - start < 70) { /* TAB counts as one */
line[-1] = ' ';
} else {
start = line;
}
}
next_line = *end_line ? end_line + 1 : 0;
}
/*
* Prepend a tab to continued header lines that went through the address
* rewriting machinery. Just like smtp_header_out(), this code destroys
* the header. We could try to avoid clobbering it, but we're not going
* to use the data any further.
*
* Code derived from cleanup_out_header().
*/
for (line = start = vstring_str(buf); line != 0; line = next_line) {
next_line = split_at(line, '\n');
if (line == start || IS_SPACE_TAB(*line)) {
smtp_text_out(state, REC_TYPE_NORM, line, next_line ?
next_line - line - 1 : strlen(line), offset);
} else {
smtp_format_out(state, REC_TYPE_NORM, "\t%s", line);
}
}
}
/* smtp_body_rewrite - rewrite message body before output */
static void smtp_body_rewrite(void *context, int type,
const char *buf, ssize_t len,
off_t offset)
{
SMTP_STATE *state = (SMTP_STATE *) context;
char *result;
/*
* Apply optional body filtering.
*/
if (smtp_body_checks) {
result = hbc_body_checks(context, smtp_body_checks, buf, len, offset);
if (result == buf) {
smtp_text_out(state, type, buf, len, offset);
} else if (result == HBC_CHECKS_STAT_ERROR) {
msg_warn("%s: smtp body checks lookup error",
state->request->queue_id);
vstream_longjmp(state->session->stream, SMTP_ERR_DATA);
} else if (result != 0) {
smtp_text_out(state, type, result, strlen(result), offset);
myfree(result);
}
}
}
/* smtp_mime_fail - MIME problem */
static void smtp_mime_fail(SMTP_STATE *state, int mime_errs)
{
const MIME_STATE_DETAIL *detail;
SMTP_RESP fake;
detail = mime_state_detail(mime_errs);
smtp_mesg_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, detail->dsn),
"%s", detail->text);
}
/* smtp_out_raw_or_mime - output buffer, raw output or MIME-aware */
static int smtp_out_raw_or_mime(SMTP_STATE *state, int rec_type, VSTRING *buf)
{
SMTP_SESSION *session = state->session;
int mime_errs;
if (session->mime_state == 0) {
smtp_text_out((void *) state, rec_type, vstring_str(buf),
VSTRING_LEN(buf), (off_t) 0);
} else {
mime_errs =
mime_state_update(session->mime_state, rec_type,
vstring_str(buf), VSTRING_LEN(buf));
if (mime_errs) {
smtp_mime_fail(state, mime_errs);
return (-1);
}
}
return (0);
}
/* smtp_out_add_header - format address header, uses session->scratch* */
static int smtp_out_add_header(SMTP_STATE *state, const char *label,
const char *lt, const char *addr,
const char *gt)
{
SMTP_SESSION *session = state->session;
smtp_rewrite_generic_internal(session->scratch2, addr);
vstring_sprintf(session->scratch, "%s: %s", label, lt);
smtp_quote_822_address_flags(session->scratch,
vstring_str(session->scratch2),
QUOTE_FLAG_DEFAULT | QUOTE_FLAG_APPEND);
vstring_strcat(session->scratch, gt);
return (smtp_out_raw_or_mime(state, REC_TYPE_NORM, session->scratch));
}
/* smtp_out_add_headers - output additional headers, uses session->scratch* */
static int smtp_out_add_headers(SMTP_STATE *state)
{
/* Prepend headers in the same order as mail_copy.c. */
if (smtp_cli_attr.flags & SMTP_CLI_FLAG_RETURN_PATH)
if (smtp_out_add_header(state, "Return-Path", "<",
state->request->sender, ">") < 0)
return (-1);
if (smtp_cli_attr.flags & SMTP_CLI_FLAG_ORIG_RCPT)
if (smtp_out_add_header(state, "X-Original-To", "",
state->request->rcpt_list.info->orig_addr, "") < 0)
return (-1);
if (smtp_cli_attr.flags & SMTP_CLI_FLAG_DELIVERED_TO)
if (smtp_out_add_header(state, "Delivered-To", "",
state->request->rcpt_list.info->address, "") < 0)
return (-1);
return (0);
}
/* smtp_loop - exercise the SMTP protocol engine */
static int smtp_loop(SMTP_STATE *state, NOCLOBBER int send_state,
NOCLOBBER int recv_state)
{
const char *myname = "smtp_loop";
DELIVER_REQUEST *request = state->request;
SMTP_SESSION *session = state->session;
SMTP_ITERATOR *iter = state->iterator;
SMTP_RESP *resp;
RECIPIENT *rcpt;
VSTRING *next_command = vstring_alloc(100);
int *NOCLOBBER survivors = 0;
NOCLOBBER int next_state;
NOCLOBBER int next_rcpt;
NOCLOBBER int send_rcpt;
NOCLOBBER int recv_rcpt;
NOCLOBBER int nrcpt;
NOCLOBBER int recv_done;
int except;
int rec_type;
NOCLOBBER int prev_type = 0;
NOCLOBBER int mail_from_rejected;
NOCLOBBER int downgrading;
int mime_errs;
SMTP_RESP fake;
int fail_status;
/* Caution: changes to RETURN() also affect code outside the main loop. */
#define RETURN(x) do { \
if (recv_state != SMTP_STATE_LAST) \
DONT_CACHE_THIS_SESSION; \
vstring_free(next_command); \
if (survivors) \
myfree((void *) survivors); \
if (session->mime_state) \
session->mime_state = mime_state_free(session->mime_state); \
return (x); \
} while (0)
#define SENDER_IS_AHEAD \
(recv_state < send_state || recv_rcpt != send_rcpt)
#define SENDER_IN_WAIT_STATE \
(send_state == SMTP_STATE_DOT || send_state == SMTP_STATE_LAST)
#define SENDING_MAIL \
(recv_state <= SMTP_STATE_DOT)
#define CANT_RSET_THIS_SESSION \
(session->features |= SMTP_FEATURE_RSET_REJECTED)
/*
* Pipelining support requires two loops: one loop for sending and one
* for receiving. Each loop has its own independent state. Most of the
* time the sender can run ahead of the receiver by as much as the TCP
* send buffer permits. There are only two places where the sender must
* wait for status information from the receiver: once after sending DATA
* and once after sending QUIT.
*
* The sender state advances until the TCP send buffer would overflow, or
* until the sender needs status information from the receiver. At that
* point the receiver starts processing responses. Once the receiver has
* caught up with the sender, the sender resumes sending commands. If the
* receiver detects a serious problem (MAIL FROM rejected, all RCPT TO
* commands rejected, DATA rejected) it forces the sender to abort the
* SMTP dialog with RSET and QUIT.
*/
nrcpt = 0;
next_rcpt = send_rcpt = recv_rcpt = recv_done = 0;
mail_from_rejected = 0;
/*
* Prepare for disaster. This should not be needed because the design
* guarantees that no output is flushed before smtp_chat_resp() is
* called.
*
* 1) Every SMTP command fits entirely in a VSTREAM output buffer.
*
* 2) smtp_loop() never invokes smtp_chat_cmd() without making sure that
* there is sufficient space for the command in the output buffer.
*
* 3) smtp_loop() flushes the output buffer to avoid server timeouts.
*
* Changing any of these would violate the design, and would likely break
* SMTP pipelining.
*
* We set up the error handler anyway (only upon entry to avoid wasting
* resources) because 1) there is code below that expects that VSTREAM
* timeouts are enabled, and 2) this allows us to detect if someone broke
* Postfix by introducing spurious flush before read operations.
*/
if (send_state < SMTP_STATE_XFORWARD_NAME_ADDR
|| send_state > SMTP_STATE_QUIT)
msg_panic("%s: bad sender state %d (receiver state %d)",
myname, send_state, recv_state);
smtp_stream_setup(session->stream, *xfer_timeouts[send_state],
var_smtp_req_deadline, 0);
if ((except = vstream_setjmp(session->stream)) != 0) {
msg_warn("smtp_proto: spurious flush before read in send state %d",
send_state);
RETURN(SENDING_MAIL ? smtp_stream_except(state, except,
xfer_states[send_state]) : -1);
}
/*
* The main protocol loop.
*/
do {
/*
* Build the next command.
*/
switch (send_state) {
/*
* Sanity check.
*/
default:
msg_panic("%s: bad sender state %d", myname, send_state);
/*
* Build the XFORWARD command. With properly sanitized
* information, the command length stays within the 512 byte
* command line length limit.
*
* XXX smtpd_xforward_preset() initializes some fields as "unknown"
* and some as null; historically, pickup(8) does not send any of
* these, and the queue manager presets absent fields to "not
* available" except for the rewrite context which is preset to
* local by way of migration aid. These definitions need to be
* centralized for maintainability.
*/
#ifndef CAN_FORWARD_CLIENT_NAME
#define _ATTR_AVAIL_AND_KNOWN_(val) \
(DEL_REQ_ATTR_AVAIL(val) && strcasecmp((val), "unknown"))
#define CAN_FORWARD_CLIENT_NAME _ATTR_AVAIL_AND_KNOWN_
#define CAN_FORWARD_CLIENT_ADDR _ATTR_AVAIL_AND_KNOWN_
#define CAN_FORWARD_CLIENT_PORT _ATTR_AVAIL_AND_KNOWN_
#define CAN_FORWARD_PROTO_NAME _ATTR_AVAIL_AND_KNOWN_
#define CAN_FORWARD_HELO_NAME DEL_REQ_ATTR_AVAIL
#define CAN_FORWARD_IDENT_NAME DEL_REQ_ATTR_AVAIL
#define CAN_FORWARD_RWR_CONTEXT DEL_REQ_ATTR_AVAIL
#endif
case SMTP_STATE_XFORWARD_NAME_ADDR:
vstring_strcpy(next_command, XFORWARD_CMD);
if ((session->features & SMTP_FEATURE_XFORWARD_NAME)
&& CAN_FORWARD_CLIENT_NAME(request->client_name)) {
vstring_strcat(next_command, " " XFORWARD_NAME "=");
xtext_quote_append(next_command, request->client_name, "");
}
if ((session->features & SMTP_FEATURE_XFORWARD_ADDR)
&& CAN_FORWARD_CLIENT_ADDR(request->client_addr)) {
vstring_strcat(next_command, " " XFORWARD_ADDR "=");
xtext_quote_append(next_command, request->client_addr, "");
}
if ((session->features & SMTP_FEATURE_XFORWARD_PORT)
&& CAN_FORWARD_CLIENT_PORT(request->client_port)) {
vstring_strcat(next_command, " " XFORWARD_PORT "=");
xtext_quote_append(next_command, request->client_port, "");
}
if (session->send_proto_helo)
next_state = SMTP_STATE_XFORWARD_PROTO_HELO;
else
next_state = SMTP_STATE_MAIL;
break;
case SMTP_STATE_XFORWARD_PROTO_HELO:
vstring_strcpy(next_command, XFORWARD_CMD);
if ((session->features & SMTP_FEATURE_XFORWARD_PROTO)
&& CAN_FORWARD_PROTO_NAME(request->client_proto)) {
vstring_strcat(next_command, " " XFORWARD_PROTO "=");
xtext_quote_append(next_command, request->client_proto, "");
}
if ((session->features & SMTP_FEATURE_XFORWARD_HELO)
&& CAN_FORWARD_HELO_NAME(request->client_helo)) {
vstring_strcat(next_command, " " XFORWARD_HELO "=");
xtext_quote_append(next_command, request->client_helo, "");
}
if ((session->features & SMTP_FEATURE_XFORWARD_IDENT)
&& CAN_FORWARD_IDENT_NAME(request->log_ident)) {
vstring_strcat(next_command, " " XFORWARD_IDENT "=");
xtext_quote_append(next_command, request->log_ident, "");
}
if ((session->features & SMTP_FEATURE_XFORWARD_DOMAIN)
&& CAN_FORWARD_RWR_CONTEXT(request->rewrite_context)) {
vstring_strcat(next_command, " " XFORWARD_DOMAIN "=");
xtext_quote_append(next_command,
strcmp(request->rewrite_context, MAIL_ATTR_RWR_LOCAL) ?
XFORWARD_DOM_REMOTE : XFORWARD_DOM_LOCAL, "");
}
next_state = SMTP_STATE_MAIL;
break;
/*
* Build the MAIL FROM command.
*/
case SMTP_STATE_MAIL:
request->msg_stats.reuse_count = session->reuse_count;
GETTIMEOFDAY(&request->msg_stats.conn_setup_done);
smtp_rewrite_generic_internal(session->scratch2, request->sender);
smtp_quote_821_address(session->scratch,
vstring_str(session->scratch2));
vstring_sprintf(next_command, "MAIL FROM:<%s>",
vstring_str(session->scratch));
/* XXX Don't announce SIZE if we're going to MIME downgrade. */
if (session->features & SMTP_FEATURE_SIZE /* RFC 1870 */
&& !SMTP_MIME_DOWNGRADE(session, request))
vstring_sprintf_append(next_command, " SIZE=%lu",
request->data_size);
if (session->features & SMTP_FEATURE_8BITMIME) { /* RFC 1652 */
if (strcmp(request->encoding, MAIL_ATTR_ENC_8BIT) == 0)
vstring_strcat(next_command, " BODY=8BITMIME");
else if (strcmp(request->encoding, MAIL_ATTR_ENC_7BIT) == 0)
vstring_strcat(next_command, " BODY=7BIT");
else if (strcmp(request->encoding, MAIL_ATTR_ENC_NONE) != 0)
msg_warn("%s: unknown content encoding: %s",
request->queue_id, request->encoding);
}
if (session->features & SMTP_FEATURE_DSN) {
if (request->dsn_envid[0]) {
vstring_sprintf_append(next_command, " ENVID=");
xtext_quote_append(next_command, request->dsn_envid, "+=");
}
if (request->dsn_ret)
vstring_sprintf_append(next_command, " RET=%s",
dsn_ret_str(request->dsn_ret));
}
/*
* Request SMTPUTF8 when the remote SMTP server supports SMTPUTF8
* and the sender requested SMTPUTF8 support.
*
* If the sender requested SMTPUTF8 but the remote SMTP server does
* not support SMTPUTF8, then we have already determined earlier
* that delivering this message without SMTPUTF8 will not break
* the SMTPUTF8 promise that was made to the sender.
*/
if ((session->features & SMTP_FEATURE_SMTPUTF8) != 0
&& (request->smtputf8 & SMTPUTF8_FLAG_REQUESTED) != 0)
vstring_strcat(next_command, " SMTPUTF8");
/*
* We authenticate the local MTA only, but not the sender.
*/
#ifdef USE_SASL_AUTH
if (var_smtp_sasl_enable
&& var_smtp_dummy_mail_auth
&& (session->features & SMTP_FEATURE_AUTH))
vstring_strcat(next_command, " AUTH=<>");
#endif
/*
* CVE-2009-3555 (TLS renegotiation). Try to detect a mail
* hijacking attack that prepends malicious EHLO/MAIL/RCPT/DATA
* commands to our TLS session.
*
* For the attack to succeed, the remote SMTP server must reply to
* the malicious EHLO/MAIL/RCPT/DATA commands after completing
* TLS (re)negotiation, so that the replies arrive in our TLS
* session (otherwise the Postfix SMTP client would time out
* waiting for an answer). With some luck we can detect this
* specific attack as a server MAIL reply that arrives before we
* send our own MAIL command.
*
* We don't apply this test to the HELO command because the result
* would be very timing sensitive, and we don't apply this test
* to RCPT and DATA replies because these may be pipelined for
* legitimate reasons.
*/
#ifdef USE_TLS
if (var_smtp_tls_blk_early_mail_reply
&& (state->misc_flags & SMTP_MISC_FLAG_IN_STARTTLS) != 0
&& (vstream_peek(session->stream) > 0
|| peekfd(vstream_fileno(session->stream)) > 0))
session->features |= SMTP_FEATURE_EARLY_TLS_MAIL_REPLY;
#endif
/*
* We now return to our regular broadcast.
*/
next_state = SMTP_STATE_RCPT;
break;
/*
* Build one RCPT TO command before we have seen the MAIL FROM
* response.
*/
case SMTP_STATE_RCPT:
rcpt = request->rcpt_list.info + send_rcpt;
smtp_rewrite_generic_internal(session->scratch2, rcpt->address);
smtp_quote_821_address(session->scratch,
vstring_str(session->scratch2));
vstring_sprintf(next_command, "RCPT TO:<%s>",
vstring_str(session->scratch));
if (session->features & SMTP_FEATURE_DSN) {
/* XXX DSN xtext encode address value not type. */
const char *orcpt_type_addr = rcpt->dsn_orcpt;
/* Fix 20140706: don't use empty rcpt->orig_addr. */
if (orcpt_type_addr[0] == 0 && rcpt->orig_addr[0] != 0) {
quote_822_local(session->scratch, rcpt->orig_addr);
vstring_sprintf(session->scratch2, "%s;%s",
/* Fix 20140707: sender must request SMTPUTF8. */
(request->smtputf8 != 0
&& !allascii(vstring_str(session->scratch))) ?
"utf-8" : "rfc822",
vstring_str(session->scratch));
orcpt_type_addr = vstring_str(session->scratch2);
}
if (orcpt_type_addr[0] != 0) {
/* Fix 20140706: don't send unquoted ORCPT. */
/* Fix 20140707: quoting method must match orcpt type. */
/* Fix 20140707: handle uxtext encoder errors. */
if (strncasecmp(orcpt_type_addr, "utf-8;", 6) == 0) {
if (uxtext_quote(session->scratch,
orcpt_type_addr, "+=") != 0)
vstring_sprintf_append(next_command, " ORCPT=%s",
vstring_str(session->scratch));
} else {
xtext_quote(session->scratch, orcpt_type_addr, "=");
vstring_sprintf_append(next_command, " ORCPT=%s",
vstring_str(session->scratch));
}
}
if (rcpt->dsn_notify)
vstring_sprintf_append(next_command, " NOTIFY=%s",
dsn_notify_str(rcpt->dsn_notify));
}
if ((next_rcpt = send_rcpt + 1) == SMTP_RCPT_LEFT(state))
next_state = (DEL_REQ_TRACE_ONLY(request->flags)
&& smtp_vrfy_tgt == SMTP_STATE_RCPT) ?
SMTP_STATE_ABORT : SMTP_STATE_DATA;
break;
/*
* Build the DATA command before we have seen all the RCPT TO
* responses.
*/
case SMTP_STATE_DATA:
vstring_strcpy(next_command, "DATA");
next_state = SMTP_STATE_DOT;
break;
/*
* Build the "." command after we have seen the DATA response
* (DATA is a protocol synchronization point).
*
* Changing the connection caching state here is safe because it
* affects none of the not-yet processed replies to
* already-generated commands.
*/
case SMTP_STATE_DOT:
vstring_strcpy(next_command, ".");
if (THIS_SESSION_IS_EXPIRED)
DONT_CACHE_THIS_SESSION;
next_state = THIS_SESSION_IS_CACHED ?
SMTP_STATE_LAST : SMTP_STATE_QUIT;
break;
/*
* The SMTP_STATE_ABORT sender state is entered by the sender
* when it has verified all recipients; or it is entered by the
* receiver when all recipients are verified or rejected, and is
* then left before the bottom of the main loop.
*
* Changing the connection caching state here is safe because there
* are no not-yet processed replies to already-generated
* commands.
*/
case SMTP_STATE_ABORT:
vstring_strcpy(next_command, "RSET");
if (THIS_SESSION_IS_EXPIRED)
DONT_CACHE_THIS_SESSION;
next_state = THIS_SESSION_IS_CACHED ?
SMTP_STATE_LAST : SMTP_STATE_QUIT;
break;
/*
* Build the RSET command. This is entered as initial state from
* smtp_rset() and has its own dedicated state transitions. It is
* used to find out the status of a cached session before
* attempting mail delivery.
*/
case SMTP_STATE_RSET:
vstring_strcpy(next_command, "RSET");
next_state = SMTP_STATE_LAST;
break;
/*
* Build the QUIT command before we have seen the "." or RSET
* response. This is entered as initial state from smtp_quit(),
* or is reached near the end of any non-cached session.
*
* Changing the connection caching state here is safe. If this
* command is pipelined together with a preceding command, then
* connection caching was already turned off. Do not clobber the
* "bad connection" flag.
*/
case SMTP_STATE_QUIT:
vstring_strcpy(next_command, "QUIT");
next_state = SMTP_STATE_LAST;
if (THIS_SESSION_IS_CACHED)
DONT_CACHE_THIS_SESSION;
break;
/*
* The final sender state has no action associated with it.
*/
case SMTP_STATE_LAST:
VSTRING_RESET(next_command);
break;
}
VSTRING_TERMINATE(next_command);
/*
* Process responses until the receiver has caught up. Vstreams
* automatically flush buffered output when reading new data.
*
* Flush unsent output if command pipelining is off or if no I/O
* happened for a while. This limits the accumulation of client-side
* delays in pipelined sessions.
*
* The PIPELINING engine will flush the VSTREAM buffer if the sender
* could otherwise produce more output than fits the PIPELINING
* buffer. This generally works because we know exactly how much
* output we produced since the last time that the sender and
* receiver synchronized the SMTP state. However this logic is not
* applicable after the sender enters the DATA phase, where it does
* not synchronize with the receiver until the <CR><LF>.<CR><LF>.
* Thus, the PIPELINING engine no longer knows how much data is
* pending in the TCP send buffer. For this reason, if PIPELINING is
* enabled, we always pipeline QUIT after <CR><LF>.<CR><LF>. This is
* safe because once the receiver reads <CR><LF>.<CR><LF>, its TCP
* stack either has already received the QUIT<CR><LF>, or else it
* acknowledges all bytes up to and including <CR><LF>.<CR><LF>,
* making room in the sender's TCP stack for QUIT<CR><LF>.
*/
#define CHECK_PIPELINING_BUFSIZE \
(recv_state != SMTP_STATE_DOT || send_state != SMTP_STATE_QUIT)
if (SENDER_IN_WAIT_STATE
|| (SENDER_IS_AHEAD
&& ((session->features & SMTP_FEATURE_PIPELINING) == 0
|| (CHECK_PIPELINING_BUFSIZE
&& (VSTRING_LEN(next_command) + 2
+ vstream_bufstat(session->stream, VSTREAM_BST_OUT_PEND)
> PIPELINING_BUFSIZE))
|| time((time_t *) 0)
- vstream_ftime(session->stream) > 10))) {
while (SENDER_IS_AHEAD) {
/*
* Sanity check.
*/
if (recv_state < SMTP_STATE_XFORWARD_NAME_ADDR
|| recv_state > SMTP_STATE_QUIT)
msg_panic("%s: bad receiver state %d (sender state %d)",
myname, recv_state, send_state);
/*
* Receive the next server response. Use the proper timeout,
* and log the proper client state in case of trouble.
*
* XXX If we lose the connection before sending end-of-data,
* find out if the server sent a premature end-of-data reply.
* If this read attempt fails, report "lost connection while
* sending message body", not "lost connection while sending
* end-of-data".
*
* "except" becomes zero just above the protocol loop, and stays
* zero or triggers an early return from the loop. In just
* one case: loss of the connection when sending the message
* body, we record the exception, and keep processing in the
* hope of detecting a premature 5XX. We must be careful to
* not clobber this non-zero value once it is set. The
* variable need not survive longjmp() calls, since the only
* setjmp() which does not return early is the one sets this
* condition, subsequent failures always return early.
*/
#define LOST_CONNECTION_INSIDE_DATA (except == SMTP_ERR_EOF)
smtp_stream_setup(session->stream, *xfer_timeouts[recv_state],
var_smtp_req_deadline, 0);
if (LOST_CONNECTION_INSIDE_DATA) {
if (vstream_setjmp(session->stream) != 0)
RETURN(smtp_stream_except(state, SMTP_ERR_EOF,
"sending message body"));
} else {
if ((except = vstream_setjmp(session->stream)) != 0)
RETURN(SENDING_MAIL ? smtp_stream_except(state, except,
xfer_states[recv_state]) : -1);
}
resp = smtp_chat_resp(session);
/*
* Process the response.
*/
switch (recv_state) {
/*
* Process the XFORWARD response.
*/
case SMTP_STATE_XFORWARD_NAME_ADDR:
if (resp->code / 100 != 2)
msg_warn("host %s said: %s (in reply to %s)",
session->namaddrport,
translit(resp->str, "\n", " "),
xfer_request[SMTP_STATE_XFORWARD_NAME_ADDR]);
if (session->send_proto_helo)
recv_state = SMTP_STATE_XFORWARD_PROTO_HELO;
else
recv_state = SMTP_STATE_MAIL;
break;
case SMTP_STATE_XFORWARD_PROTO_HELO:
if (resp->code / 100 != 2)
msg_warn("host %s said: %s (in reply to %s)",
session->namaddrport,
translit(resp->str, "\n", " "),
xfer_request[SMTP_STATE_XFORWARD_PROTO_HELO]);
recv_state = SMTP_STATE_MAIL;
break;
/*
* Process the MAIL FROM response. When the server
* rejects the sender, set the mail_from_rejected flag so
* that the receiver may apply a course correction.
*/
case SMTP_STATE_MAIL:
if (resp->code / 100 != 2) {
smtp_mesg_fail(state, STR(iter->host), resp,
"host %s said: %s (in reply to %s)",
session->namaddr,
translit(resp->str, "\n", " "),
xfer_request[SMTP_STATE_MAIL]);
mail_from_rejected = 1;
}
/*
* CVE-2009-3555 (TLS renegotiation). Whatever it was
* that arrived before we sent our MAIL FROM command, it
* was not a fatal-level TLS alert message. It could be a
* warning-level TLS alert message, or a ChangeCipherSpec
* message, but such messages are not normally sent in
* the middle of a TLS session. We disconnect and try
* again later.
*/
#ifdef USE_TLS
if (var_smtp_tls_blk_early_mail_reply
&& (session->features & SMTP_FEATURE_EARLY_TLS_MAIL_REPLY)) {
smtp_site_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "4.7.0"),
"unexpected server message");
msg_warn("server %s violates %s policy",
session->namaddr,
VAR_LMTP_SMTP(TLS_BLK_EARLY_MAIL_REPLY));
mail_from_rejected = 1;
}
#endif
/*
* We now return to our regular broadcast.
*/
recv_state = SMTP_STATE_RCPT;
break;
/*
* Process one RCPT TO response. If MAIL FROM was
* rejected, ignore RCPT TO responses: all recipients are
* dead already. When all recipients are rejected the
* receiver may apply a course correction.
*
* XXX 2821: Section 4.5.3.1 says that a 552 RCPT TO reply
* must be treated as if the server replied with 452.
* However, this causes "too much mail data" to be
* treated as a recoverable error, which is wrong. I'll
* stick with RFC 821.
*/
case SMTP_STATE_RCPT:
if (!mail_from_rejected) {
#ifdef notdef
if (resp->code == 552) {
resp->code = 452;
resp->dsn[0] = '4';
}
#endif
rcpt = request->rcpt_list.info + recv_rcpt;
if (resp->code / 100 == 2) {
if (!smtp_mode) {
if (survivors == 0)
survivors = (int *)
mymalloc(request->rcpt_list.len
* sizeof(int));
survivors[nrcpt] = recv_rcpt;
}
++nrcpt;
/* If trace-only, mark the recipient done. */
if (DEL_REQ_TRACE_ONLY(request->flags)
&& smtp_vrfy_tgt == SMTP_STATE_RCPT) {
translit(resp->str, "\n", " ");
smtp_rcpt_done(state, resp, rcpt);
}
} else {
smtp_rcpt_fail(state, rcpt, STR(iter->host), resp,
"host %s said: %s (in reply to %s)",
session->namaddr,
translit(resp->str, "\n", " "),
xfer_request[SMTP_STATE_RCPT]);
}
}
/* If trace-only, send RSET instead of DATA. */
if (++recv_rcpt == SMTP_RCPT_LEFT(state))
recv_state = (DEL_REQ_TRACE_ONLY(request->flags)
&& smtp_vrfy_tgt == SMTP_STATE_RCPT) ?
SMTP_STATE_ABORT : SMTP_STATE_DATA;
/* XXX Also: record if non-delivering session. */
break;
/*
* Process the DATA response. When the server rejects
* DATA, set nrcpt to a negative value so that the
* receiver can apply a course correction.
*/
case SMTP_STATE_DATA:
recv_state = SMTP_STATE_DOT;
if (resp->code / 100 != 3) {
if (nrcpt > 0)
smtp_mesg_fail(state, STR(iter->host), resp,
"host %s said: %s (in reply to %s)",
session->namaddr,
translit(resp->str, "\n", " "),
xfer_request[SMTP_STATE_DATA]);
nrcpt = -1;
}
/*
* In the case of a successful address probe with target
* equal to DATA, the remote server is now in the DATA
* state, and therefore we must not make any further
* attempt to send or receive on this connection. This
* means that we cannot not reuse the general-purpose
* course-correction logic below which sends RSET (and
* perhaps QUIT). Instead we "jump" straight to the exit
* and force an unceremonious disconnect.
*/
else if (DEL_REQ_TRACE_ONLY(request->flags)
&& smtp_vrfy_tgt == SMTP_STATE_DATA) {
for (nrcpt = 0; nrcpt < recv_rcpt; nrcpt++) {
rcpt = request->rcpt_list.info + nrcpt;
if (!SMTP_RCPT_ISMARKED(rcpt)) {
translit(resp->str, "\n", " ");
SMTP_RESP_SET_DSN(resp, "2.0.0");
smtp_rcpt_done(state, resp, rcpt);
}
}
DONT_CACHE_THIS_SESSION;
send_state = recv_state = SMTP_STATE_LAST;
}
break;
/*
* Process the end of message response. Ignore the
* response when no recipient was accepted: all
* recipients are dead already, and the next receiver
* state is SMTP_STATE_LAST/QUIT regardless. Otherwise,
* if the message transfer fails, bounce all remaining
* recipients, else cross off the recipients that were
* delivered.
*/
case SMTP_STATE_DOT:
GETTIMEOFDAY(&request->msg_stats.deliver_done);
if (smtp_mode) {
if (nrcpt > 0) {
if (resp->code / 100 != 2) {
smtp_mesg_fail(state, STR(iter->host), resp,
"host %s said: %s (in reply to %s)",
session->namaddr,
translit(resp->str, "\n", " "),
xfer_request[SMTP_STATE_DOT]);
} else {
for (nrcpt = 0; nrcpt < recv_rcpt; nrcpt++) {
rcpt = request->rcpt_list.info + nrcpt;
if (!SMTP_RCPT_ISMARKED(rcpt)) {
translit(resp->str, "\n", " ");
smtp_rcpt_done(state, resp, rcpt);
}
}
}
}
}
/*
* With LMTP we have one response per accepted RCPT TO
* command. Stay in the SMTP_STATE_DOT state until we
* have collected all responses.
*/
else {
if (nrcpt > 0) {
rcpt = request->rcpt_list.info
+ survivors[recv_done++];
if (resp->code / 100 != 2) {
smtp_rcpt_fail(state, rcpt, STR(iter->host), resp,
"host %s said: %s (in reply to %s)",
session->namaddr,
translit(resp->str, "\n", " "),
xfer_request[SMTP_STATE_DOT]);
} else {
translit(resp->str, "\n", " ");
smtp_rcpt_done(state, resp, rcpt);
}
}
if (msg_verbose)
msg_info("%s: got %d of %d end-of-data replies",
myname, recv_done, nrcpt);
if (recv_done < nrcpt)
break;
}
/*
* XXX Do not change the connection caching state here,
* even if the connection caching timer expired between
* generating the command and processing the reply,
* otherwise the sender and receiver loops get out of
* sync. The caller will call smtp_quit() if appropriate.
*/
if (var_skip_quit_resp || THIS_SESSION_IS_CACHED
|| LOST_CONNECTION_INSIDE_DATA)
recv_state = SMTP_STATE_LAST;
else
recv_state = SMTP_STATE_QUIT;
break;
/*
* Receive the RSET response.
*
* The SMTP_STATE_ABORT sender state is entered by the
* sender when it has verified all recipients; or it is
* entered by the receiver when all recipients are
* verified or rejected, and is then left before the
* bottom of the main loop.
*
* XXX Do not change the connection caching state here, even
* if the server rejected RSET or if the connection
* caching timer expired between generating the command
* and processing the reply, otherwise the sender and
* receiver loops get out of sync. The caller will call
* smtp_quit() if appropriate.
*/
case SMTP_STATE_ABORT:
recv_state = (var_skip_quit_resp || THIS_SESSION_IS_CACHED ?
SMTP_STATE_LAST : SMTP_STATE_QUIT);
break;
/*
* This is the initial receiver state from smtp_rset().
* It is used to find out the status of a cached session
* before attempting mail delivery.
*/
case SMTP_STATE_RSET:
if (resp->code / 100 != 2)
CANT_RSET_THIS_SESSION;
recv_state = SMTP_STATE_LAST;
break;
/*
* Receive, but otherwise ignore, the QUIT response.
*/
case SMTP_STATE_QUIT:
recv_state = SMTP_STATE_LAST;
break;
}
}
/*
* At this point, the sender and receiver are fully synchronized.
*/
/*
* We know the server response to every command that was sent.
* Apply a course correction if necessary: the sender wants to
* send RCPT TO but MAIL FROM was rejected; the sender wants to
* send DATA but all recipients were rejected; the sender wants
* to deliver the message but DATA was rejected.
*/
if ((send_state == SMTP_STATE_RCPT && mail_from_rejected)
|| (send_state == SMTP_STATE_DATA && nrcpt == 0)
|| (send_state == SMTP_STATE_DOT && nrcpt < 0)) {
send_state = recv_state = SMTP_STATE_ABORT;
send_rcpt = recv_rcpt = 0;
vstring_strcpy(next_command, "RSET");
if (THIS_SESSION_IS_EXPIRED)
DONT_CACHE_THIS_SESSION;
next_state = THIS_SESSION_IS_CACHED ?
SMTP_STATE_LAST : SMTP_STATE_QUIT;
/* XXX Also: record if non-delivering session. */
next_rcpt = 0;
}
}
/*
* Make the next sender state the current sender state.
*/
if (send_state == SMTP_STATE_LAST)
continue;
/*
* Special case if the server accepted the DATA command. If the
* server accepted at least one recipient send the entire message.
* Otherwise, just send "." as per RFC 2197.
*
* XXX If there is a hard MIME error while downgrading to 7-bit mail,
* disconnect ungracefully, because there is no other way to cancel a
* transaction in progress.
*/
if (send_state == SMTP_STATE_DOT && nrcpt > 0) {
smtp_stream_setup(session->stream, var_smtp_data1_tmout,
var_smtp_req_deadline, var_smtp_min_data_rate);
if ((except = vstream_setjmp(session->stream)) == 0) {
if (vstream_fseek(state->src, request->data_offset, SEEK_SET) < 0)
msg_fatal("seek queue file: %m");
downgrading = SMTP_MIME_DOWNGRADE(session, request);
/*
* XXX Don't downgrade just because generic_maps is turned
* on.
*/
#define SMTP_ANY_CHECKS (smtp_header_checks || smtp_body_checks)
if (downgrading || smtp_generic_maps || SMTP_ANY_CHECKS)
session->mime_state = mime_state_alloc(downgrading ?
MIME_OPT_DOWNGRADE
| MIME_OPT_REPORT_NESTING :
SMTP_ANY_CHECKS == 0 ?
MIME_OPT_DISABLE_MIME :
0,
smtp_generic_maps
|| smtp_header_checks ?
smtp_header_rewrite :
smtp_header_out,
(MIME_STATE_ANY_END) 0,
smtp_body_checks ?
smtp_body_rewrite :
smtp_text_out,
(MIME_STATE_ANY_END) 0,
(MIME_STATE_ERR_PRINT) 0,
(void *) state);
state->space_left = var_smtp_line_limit;
if ((smtp_cli_attr.flags & SMTP_CLI_MASK_ADD_HEADERS) != 0
&& smtp_out_add_headers(state) < 0)
RETURN(0);
while ((rec_type = rec_get(state->src, session->scratch, 0)) > 0) {
if (rec_type != REC_TYPE_NORM && rec_type != REC_TYPE_CONT)
break;
if (smtp_out_raw_or_mime(state, rec_type,
session->scratch) < 0)
RETURN(0);
prev_type = rec_type;
}
if (session->mime_state) {
/*
* The cleanup server normally ends MIME content with a
* normal text record. The following code is needed to
* flush an internal buffer when someone submits 8-bit
* mail not ending in newline via /usr/sbin/sendmail
* while MIME input processing is turned off, and MIME
* 8bit->7bit conversion is requested upon delivery.
*
* Or some error while doing generic address mapping.
*/
mime_errs =
mime_state_update(session->mime_state, rec_type, "", 0);
if (mime_errs) {
smtp_mime_fail(state, mime_errs);
RETURN(0);
}
} else if (prev_type == REC_TYPE_CONT) /* missing newline */
smtp_fputs("", 0, session->stream);
if (session->features & SMTP_FEATURE_PIX_DELAY_DOTCRLF) {
smtp_flush(session->stream);/* hurts performance */
sleep(var_smtp_pix_delay); /* not to mention this */
}
if (vstream_ferror(state->src))
msg_fatal("queue file read error");
if (rec_type != REC_TYPE_XTRA) {
msg_warn("%s: bad record type: %d in message content",
request->queue_id, rec_type);
fail_status = smtp_mesg_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "5.3.0"),
"unreadable mail queue entry");
/* Bailing out, abort stream with prejudice */
(void) vstream_fpurge(session->stream, VSTREAM_PURGE_BOTH);
DONT_USE_FORBIDDEN_SESSION;
/* If bounce_append() succeeded, status is still 0 */
if (state->status == 0)
(void) mark_corrupt(state->src);
/* Don't override smtp_mesg_fail() here. */
RETURN(fail_status);
}
} else {
if (!LOST_CONNECTION_INSIDE_DATA)
RETURN(smtp_stream_except(state, except,
"sending message body"));
/*
* We will clear the stream error flag to try and read a
* premature 5XX response, so it is important to flush any
* unwritten data. Otherwise, we will try to flush it again
* before reading, which may incur an unnecessary delay and
* will prevent the reading of any response that is not
* already buffered (bundled with the DATA 354 response).
*
* Not much point in sending QUIT at this point, skip right to
* SMTP_STATE_LAST. The read engine above will likewise avoid
* looking for a QUIT response.
*/
(void) vstream_fpurge(session->stream, VSTREAM_PURGE_WRITE);
next_state = SMTP_STATE_LAST;
}
}
/*
* Copy the next command to the buffer and update the sender state.
*/
if (except == 0) {
smtp_chat_cmd(session, "%s", vstring_str(next_command));
} else {
DONT_CACHE_THIS_SESSION;
}
send_state = next_state;
send_rcpt = next_rcpt;
} while (recv_state != SMTP_STATE_LAST);
RETURN(0);
}
/* smtp_xfer - send a batch of envelope information and the message data */
int smtp_xfer(SMTP_STATE *state)
{
DELIVER_REQUEST *request = state->request;
SMTP_SESSION *session = state->session;
SMTP_RESP fake;
int send_state;
int recv_state;
int send_name_addr;
int result;
/*
* Sanity check. Recipients should be unmarked at this point.
*/
if (SMTP_RCPT_LEFT(state) <= 0)
msg_panic("smtp_xfer: bad recipient count: %d",
SMTP_RCPT_LEFT(state));
if (SMTP_RCPT_ISMARKED(request->rcpt_list.info))
msg_panic("smtp_xfer: bad recipient status: %d",
request->rcpt_list.info->u.status);
/*
* See if we should even try to send this message at all. This code sits
* here rather than in the EHLO processing code, because of SMTP
* connection caching.
*/
if (session->size_limit > 0 && session->size_limit < request->data_size) {
smtp_mesg_fail(state, DSN_BY_LOCAL_MTA,
SMTP_RESP_FAKE(&fake, "5.3.4"),
"message size %lu exceeds size limit %.0f of server %s",
request->data_size, (double) session->size_limit,
session->namaddr);
/* Redundant. We abort this delivery attempt. */
state->misc_flags |= SMTP_MISC_FLAG_COMPLETE_SESSION;
return (0);
}
/*
* Use XFORWARD to forward the origin of this email message across an
* SMTP-based content filter. Send client attribute information only if
* it exists (i.e. remote submission). Local submissions have no client
* attributes; the mail will appear to originate from the content filter
* which is acceptable.
*/
send_name_addr =
var_smtp_send_xforward
&& (((session->features & SMTP_FEATURE_XFORWARD_NAME)
&& CAN_FORWARD_CLIENT_NAME(request->client_name))
|| ((session->features & SMTP_FEATURE_XFORWARD_ADDR)
&& CAN_FORWARD_CLIENT_ADDR(request->client_addr))
|| ((session->features & SMTP_FEATURE_XFORWARD_PORT)
&& CAN_FORWARD_CLIENT_PORT(request->client_port)));
session->send_proto_helo =
var_smtp_send_xforward
&& (((session->features & SMTP_FEATURE_XFORWARD_PROTO)
&& CAN_FORWARD_PROTO_NAME(request->client_proto))
|| ((session->features & SMTP_FEATURE_XFORWARD_HELO)
&& CAN_FORWARD_HELO_NAME(request->client_helo))
|| ((session->features & SMTP_FEATURE_XFORWARD_IDENT)
&& CAN_FORWARD_IDENT_NAME(request->log_ident))
|| ((session->features & SMTP_FEATURE_XFORWARD_DOMAIN)
&& CAN_FORWARD_RWR_CONTEXT(request->rewrite_context)));
if (send_name_addr)
recv_state = send_state = SMTP_STATE_XFORWARD_NAME_ADDR;
else if (session->send_proto_helo)
recv_state = send_state = SMTP_STATE_XFORWARD_PROTO_HELO;
else
recv_state = send_state = SMTP_STATE_MAIL;
/*
* Remember this session's "normal completion", even if the server 4xx-ed
* some or all recipients. Connection or handshake errors with a later MX
* host should not cause this destination be marked as unreachable.
*/
result = smtp_loop(state, send_state, recv_state);
if (result == 0
/* Just in case */
&& vstream_ferror(session->stream) == 0
&& vstream_feof(session->stream) == 0)
state->misc_flags |= SMTP_MISC_FLAG_COMPLETE_SESSION;
return (result);
}
/* smtp_rset - send a lone RSET command */
int smtp_rset(SMTP_STATE *state)
{
/*
* This works because SMTP_STATE_RSET is a dedicated sender/recipient
* entry state, with SMTP_STATE_LAST as next sender/recipient state.
*/
return (smtp_loop(state, SMTP_STATE_RSET, SMTP_STATE_RSET));
}
/* smtp_quit - send a lone QUIT command */
int smtp_quit(SMTP_STATE *state)
{
/*
* This works because SMTP_STATE_QUIT is the last state with a sender
* action, with SMTP_STATE_LAST as the next sender/recipient state.
*/
return (smtp_loop(state, SMTP_STATE_QUIT, var_skip_quit_resp ?
SMTP_STATE_LAST : SMTP_STATE_QUIT));
}
|