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|
/*++
/* NAME
/* posttls-finger 1
/* SUMMARY
/* Probe the TLS properties of an ESMTP or LMTP server.
/* SYNOPSIS
/* \fBposttls-finger\fR [\fIoptions\fR] [\fBinet:\fR]\fIdomain\fR[:\fIport\fR] [\fImatch ...\fR]
/* .br
/* \fBposttls-finger\fR -S [\fIoptions\fR] \fBunix:\fIpathname\fR [\fImatch ...\fR]
/* DESCRIPTION
/* \fBposttls-finger\fR(1) connects to the specified destination
/* and reports TLS-related information about the server. With SMTP, the
/* destination is a domainname; with LMTP it is either a domainname
/* prefixed with \fBinet:\fR or a pathname prefixed with \fBunix:\fR. If
/* Postfix is built without TLS support, the resulting posttls-finger
/* program has very limited functionality, and only the \fB-a\fR, \fB-c\fR,
/* \fB-h\fR, \fB-o\fR, \fB-S\fR, \fB-t\fR, \fB-T\fR and \fB-v\fR options
/* are available.
/*
/* Note: this is an unsupported test program. No attempt is made
/* to maintain compatibility between successive versions.
/*
/* For SMTP servers that don't support ESMTP, only the greeting banner
/* and the negative EHLO response are reported. Otherwise, the reported
/* EHLO response details further server capabilities.
/*
/* If TLS support is enabled when \fBposttls-finger\fR(1) is compiled, and
/* the server supports \fBSTARTTLS\fR, a TLS handshake is attempted.
/*
/* If DNSSEC support is available, the connection TLS security level
/* (\fB-l\fR option) defaults to \fBdane\fR; see TLS_README for
/* details. Otherwise, it defaults to \fBsecure\fR. This setting
/* determines the certificate matching policy.
/*
/* If TLS negotiation succeeds, the TLS protocol and cipher details are
/* reported. The server certificate is then verified in accordance with
/* the policy at the chosen (or default) security level. With public
/* CA-based trust, when the \fB-L\fR option includes \fBcertmatch\fR,
/* (true by default) name matching is performed even if the certificate
/* chain is not trusted. This logs the names found in the remote SMTP
/* server certificate and which if any would match, were the certificate
/* chain trusted.
/*
/* Note: \fBposttls-finger\fR(1) does not perform any table lookups, so
/* the TLS policy table and obsolete per-site tables are not consulted.
/* It does not communicate with the \fBtlsmgr\fR(8) daemon (or any other
/* Postfix daemons); its TLS session cache is held in private memory, and
/* disappears when the process exits.
/*
/* With the \fB-r \fIdelay\fR option, if the server assigns a TLS
/* session id, the TLS session is cached. The connection is then closed
/* and re-opened after the specified delay, and \fBposttls-finger\fR(1)
/* then reports whether the cached TLS session was re-used.
/*
/* When the destination is a load balancer, it may be distributing
/* load between multiple server caches. Typically, each server returns
/* its unique name in its EHLO response. If, upon reconnecting with
/* \fB-r\fR, a new server name is detected, another session is cached
/* for the new server, and the reconnect is repeated up to a maximum
/* number of times (default 5) that can be specified via the \fB-m\fR
/* option.
/*
/* The choice of SMTP or LMTP (\fB-S\fR option) determines the syntax of
/* the destination argument. With SMTP, one can specify a service on a
/* non-default port as \fIhost\fR:\fIservice\fR, and disable MX (mail
/* exchanger) DNS lookups with [\fIhost\fR] or [\fIhost\fR]:\fIport\fR.
/* The [] form is required when you specify an IP address instead of a
/* hostname. An IPv6 address takes the form [\fBipv6:\fIaddress\fR].
/* The default port for SMTP is taken from the \fBsmtp/tcp\fR entry in
/* /etc/services, defaulting to 25 if the entry is not found.
/*
/* With LMTP, specify \fBunix:\fIpathname\fR to connect to a local server
/* listening on a unix-domain socket bound to the specified pathname;
/* otherwise, specify an optional \fBinet:\fR prefix followed by a
/* \fIdomain\fR and an optional port, with the same syntax as for
/* SMTP. The default TCP port for LMTP is 24.
/*
/* Arguments:
/* .IP "\fB-a\fR \fIfamily\fR (default: \fBany\fR)"
/* Address family preference: \fBipv4\fR, \fBipv6\fR or \fBany\fR. When
/* using \fBany\fR, posttls-finger will randomly select one of the two as
/* the more preferred, and exhaust all MX preferences for the first
/* address family before trying any addresses for the other.
/* .IP "\fB-A\fR \fItrust-anchor.pem\fR (default: none)"
/* A list of PEM trust-anchor files that overrides CAfile and CApath
/* trust chain verification. Specify the option multiple times to
/* specify multiple files. See the main.cf documentation for
/* smtp_tls_trust_anchor_file for details.
/* .IP "\fB-c\fR"
/* Disable SMTP chat logging; only TLS-related information is logged.
/* .IP "\fB-C\fR"
/* Print the remote SMTP server certificate trust chain in PEM format.
/* The issuer DN, subject DN, certificate and public key fingerprints
/* (see \fB-d \fImdalg\fR option below) are printed above each PEM
/* certificate block. If you specify \fB-F \fICAfile\fR or
/* \fB-P \fICApath\fR, the OpenSSL library may augment the chain with
/* missing issuer certificates. To see the actual chain sent by the
/* remote SMTP server leave \fICAfile\fR and \fICApath\fR unset.
/* .IP "\fB-d \fImdalg\fR (default: \fBsha1\fR)"
/* The message digest algorithm to use for reporting remote SMTP server
/* fingerprints and matching against user provided certificate
/* fingerprints (with DANE TLSA records the algorithm is specified
/* in the DNS).
/* .IP "\fB-f\fR"
/* Lookup the associated DANE TLSA RRset even when a hostname is not an
/* alias and its address records lie in an unsigned zone. See
/* smtp_tls_force_insecure_host_tlsa_lookup for details.
/* .IP "\fB-F \fICAfile.pem\fR (default: none)"
/* The PEM formatted CAfile for remote SMTP server certificate
/* verification. By default no CAfile is used and no public CAs
/* are trusted.
/* .IP "\fB-g \fIgrade\fR (default: medium)"
/* The minimum TLS cipher grade used by posttls-finger. See
/* smtp_tls_mandatory_ciphers for details.
/* .IP "\fB-h \fIhost_lookup\fR (default: \fBdns\fR)"
/* The hostname lookup methods used for the connection. See the
/* documentation of smtp_host_lookup for syntax and semantics.
/* .IP "\fB-H \fIchainfiles\fR (default: \fInone\fR)\fR"
/* List of files with a sequence PEM-encoded TLS client certificate
/* chains. The list can be built-up incrementally, by specifying
/* the option multiple times, or all at once via a comma or
/* whitespace separated list of filenames. Each chain starts with
/* a private key, which is followed immediately by the
/* corresponding certificate, and optionally by additional issuer
/* certificates. Each new key begins a new chain for the
/* corresponding algorithm. This option is mutually exclusive with
/* the below \fB-k\fR and \fB-K\fR options.
/* .IP "\fB-k \fIcertfile\fR (default: \fIkeyfile\fR)\fR"
/* File with PEM-encoded TLS client certificate chain. This
/* defaults to \fIkeyfile\fR if one is specified.
/* .IP "\fB-K \fIkeyfile\fR (default: \fIcertfile\fR)"
/* File with PEM-encoded TLS client private key.
/* This defaults to \fIcertfile\fR if one is specified.
/* .IP "\fB-l \fIlevel\fR (default: \fBdane\fR or \fBsecure\fR)"
/* The security level for the connection, default \fBdane\fR or
/* \fBsecure\fR depending on whether DNSSEC is available. For syntax
/* and semantics, see the documentation of smtp_tls_security_level.
/* When \fBdane\fR or \fBdane-only\fR is supported and selected, if no
/* TLSA records are found, or all the records found are unusable, the
/* \fIsecure\fR level will be used instead. The \fBfingerprint\fR
/* security level allows you to test certificate or public-key
/* fingerprint matches before you deploy them in the policy table.
/* .IP
/* Note, since \fBposttls-finger\fR does not actually deliver any email,
/* the \fBnone\fR, \fBmay\fR and \fBencrypt\fR security levels are not
/* very useful. Since \fBmay\fR and \fBencrypt\fR don't require peer
/* certificates, they will often negotiate anonymous TLS ciphersuites,
/* so you won't learn much about the remote SMTP server's certificates
/* at these levels if it also supports anonymous TLS (though you may
/* learn that the server supports anonymous TLS).
/* .IP "\fB-L \fIlogopts\fR (default: \fBroutine,certmatch\fR)"
/* Fine-grained TLS logging options. To tune the TLS features logged
/* during the TLS handshake, specify one or more of:
/* .RS
/* .IP "\fB0, none\fR"
/* These yield no TLS logging; you'll generally want more, but this
/* is handy if you just want the trust chain:
/* .RS
/* .ad
/* .nf
/* $ posttls-finger -cC -L none destination
/* .fi
/* .RE
/* .IP "\fB1, routine, summary\fR"
/* These synonymous values yield a normal one-line summary of the TLS
/* connection.
/* .IP "\fB2, debug\fR"
/* These synonymous values combine routine, ssl-debug, cache and verbose.
/* .IP "\fB3, ssl-expert\fR"
/* These synonymous values combine debug with ssl-handshake-packet-dump.
/* For experts only.
/* .IP "\fB4, ssl-developer\fR"
/* These synonymous values combine ssl-expert with ssl-session-packet-dump.
/* For experts only, and in most cases, use wireshark instead.
/* .IP "\fBssl-debug\fR"
/* Turn on OpenSSL logging of the progress of the SSL handshake.
/* .IP "\fBssl-handshake-packet-dump\fR"
/* Log hexadecimal packet dumps of the SSL handshake; for experts only.
/* .IP "\fBssl-session-packet-dump\fR"
/* Log hexadecimal packet dumps of the entire SSL session; only useful
/* to those who can debug SSL protocol problems from hex dumps.
/* .IP "\fBuntrusted\fR"
/* Logs trust chain verification problems. This is turned on
/* automatically at security levels that use peer names signed
/* by Certification Authorities to validate certificates. So while
/* this setting is recognized, you should never need to set it
/* explicitly.
/* .IP "\fBpeercert\fR"
/* This logs a one line summary of the remote SMTP server certificate
/* subject, issuer, and fingerprints.
/* .IP "\fBcertmatch\fR"
/* This logs remote SMTP server certificate matching, showing the CN
/* and each subjectAltName and which name matched. With DANE, logs
/* matching of TLSA record trust-anchor and end-entity certificates.
/* .IP "\fBcache\fR"
/* This logs session cache operations, showing whether session caching
/* is effective with the remote SMTP server. Automatically used when
/* reconnecting with the \fB-r\fR option; rarely needs to be set
/* explicitly.
/* .IP "\fBverbose\fR"
/* Enables verbose logging in the Postfix TLS driver; includes all of
/* peercert..cache and more.
/* .RE
/* .IP
/* The default is \fBroutine,certmatch\fR. After a reconnect,
/* \fBpeercert\fR, \fBcertmatch\fR and \fBverbose\fR are automatically
/* disabled while \fBcache\fR and \fBsummary\fR are enabled.
/* .IP "\fB-m \fIcount\fR (default: \fB5\fR)"
/* When the \fB-r \fIdelay\fR option is specified, the \fB-m\fR option
/* determines the maximum number of reconnect attempts to use with
/* a server behind a load balancer, to see whether connection caching
/* is likely to be effective for this destination. Some MTAs
/* don't expose the underlying server identity in their EHLO
/* response; with these servers there will never be more than
/* 1 reconnection attempt.
/* .IP "\fB-M \fIinsecure_mx_policy\fR (default: \fBdane\fR)"
/* The TLS policy for MX hosts with "secure" TLSA records when the
/* nexthop destination security level is \fBdane\fR, but the MX
/* record was found via an "insecure" MX lookup. See the main.cf
/* documentation for smtp_tls_insecure_mx_policy for details.
/* .IP "\fB-o \fIname=value\fR"
/* Specify zero or more times to override the value of the main.cf
/* parameter \fIname\fR with \fIvalue\fR. Possible use-cases include
/* overriding the values of TLS library parameters, or "myhostname" to
/* configure the SMTP EHLO name sent to the remote server.
/* .IP "\fB-p \fIprotocols\fR (default: !SSLv2)"
/* List of TLS protocols that posttls-finger will exclude or include. See
/* smtp_tls_mandatory_protocols for details.
/* .IP "\fB-P \fICApath/\fR (default: none)"
/* The OpenSSL CApath/ directory (indexed via c_rehash(1)) for remote
/* SMTP server certificate verification. By default no CApath is used
/* and no public CAs are trusted.
/* .IP "\fB-r \fIdelay\fR"
/* With a cacheable TLS session, disconnect and reconnect after \fIdelay\fR
/* seconds. Report whether the session is re-used. Retry if a new server
/* is encountered, up to 5 times or as specified with the \fB-m\fR option.
/* By default reconnection is disabled, specify a positive delay to
/* enable this behavior.
/* .IP "\fB-s \fIservername\fR"
/* The server name to send with the TLS Server Name Indication (SNI)
/* extension. When the server has DANE TLSA records, this parameter
/* is ignored and the TLSA base domain is used instead. Otherwise, SNI is
/* not used by default, but can be enabled by specifying the desired value
/* with this option.
/* .IP "\fB-S\fR"
/* Disable SMTP; that is, connect to an LMTP server. The default port for
/* LMTP over TCP is 24. Alternative ports can specified by appending
/* "\fI:servicename\fR" or ":\fIportnumber\fR" to the destination
/* argument.
/* .IP "\fB-t \fItimeout\fR (default: \fB30\fR)"
/* The TCP connection timeout to use. This is also the timeout for
/* reading the remote server's 220 banner.
/* .IP "\fB-T \fItimeout\fR (default: \fB30\fR)"
/* The SMTP/LMTP command timeout for EHLO/LHLO, STARTTLS and QUIT.
/* .IP "\fB-v\fR"
/* Enable verbose Postfix logging. Specify more than once to increase
/* the level of verbose logging.
/* .IP "\fB-w\fR"
/* Enable outgoing TLS wrapper mode, or SMTPS support. This is typically
/* provided on port 465 by servers that are compatible with the ad-hoc
/* SMTP in SSL protocol, rather than the standard STARTTLS protocol.
/* The destination \fIdomain\fR:\fIport\fR should of course provide such
/* a service.
/* .IP "\fB-X\fR"
/* Enable \fBtlsproxy\fR(8) mode. This is an unsupported mode,
/* for program development only.
/* .IP "[\fBinet:\fR]\fIdomain\fR[:\fIport\fR]"
/* Connect via TCP to domain \fIdomain\fR, port \fIport\fR. The default
/* port is \fBsmtp\fR (or 24 with LMTP). With SMTP an MX lookup is
/* performed to resolve the domain to a host, unless the domain is
/* enclosed in \fB[]\fR. If you want to connect to a specific MX host,
/* for instance \fImx1.example.com\fR, specify [\fImx1.example.com\fR]
/* as the destination and \fIexample.com\fR as a \fBmatch\fR argument.
/* When using DNS, the destination domain is assumed fully qualified
/* and no default domain or search suffixes are applied; you must use
/* fully-qualified names or also enable \fBnative\fR host lookups
/* (these don't support \fBdane\fR or \fBdane-only\fR as no DNSSEC
/* validation information is available via \fBnative\fR lookups).
/* .IP "\fBunix:\fIpathname\fR"
/* Connect to the UNIX-domain socket at \fIpathname\fR. LMTP only.
/* .IP "\fBmatch ...\fR"
/* With no match arguments specified, certificate peername matching uses
/* the compiled-in default strategies for each security level. If you
/* specify one or more arguments, these will be used as the list of
/* certificate or public-key digests to match for the \fBfingerprint\fR
/* level, or as the list of DNS names to match in the certificate at the
/* \fBverify\fR and \fBsecure\fR levels. If the security level is
/* \fBdane\fR, or \fBdane-only\fR the match names are ignored, and
/* \fBhostname, nexthop\fR strategies are used.
/* .ad
/* .fi
/* ENVIRONMENT
/* .ad
/* .fi
/* .IP \fBMAIL_CONFIG\fR
/* Read configuration parameters from a non-default location.
/* .IP \fBMAIL_VERBOSE\fR
/* Same as \fB-v\fR option.
/* SEE ALSO
/* smtp-source(1), SMTP/LMTP message source
/* smtp-sink(1), SMTP/LMTP message dump
/*
/* README FILES
/* .ad
/* .fi
/* Use "\fBpostconf readme_directory\fR" or "\fBpostconf
/* html_directory\fR" to locate this information.
/* .na
/* .nf
/* TLS_README, Postfix STARTTLS howto
/* 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
/*
/* Viktor Dukhovni
/*--*/
/*
* System library.
*/
#include <sys_defs.h>
#include <stdarg.h>
#include <string.h>
#include <ctype.h>
#include <stdlib.h>
#include <unistd.h>
#include <signal.h>
#include <fcntl.h>
#include <errno.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#ifdef STRCASECMP_IN_STRINGS_H
#include <strings.h>
#endif
/*
* Utility library.
*/
#include <msg.h>
#include <msg_vstream.h>
#include <vstring.h>
#include <vstream.h>
#include <vstring_vstream.h>
#include <mymalloc.h>
#include <stringops.h>
#include <argv.h>
#include <name_mask.h>
#include <name_code.h>
#include <chroot_uid.h>
#include <host_port.h>
#include <inet_proto.h>
#include <iostuff.h>
#include <timed_connect.h>
#include <sane_connect.h>
#include <myaddrinfo.h>
#include <sock_addr.h>
#include <midna_domain.h>
#include <clean_env.h>
#define STR(x) vstring_str(x)
/*
* Global library.
*/
#include <mail_params.h>
#include <mail_conf.h>
#include <smtp_stream.h>
#include <dsn_buf.h>
#include <mail_parm_split.h>
#include <mail_proto.h>
/* DNS library. */
#include <dns.h>
/*
* master library
*/
#include <mail_server.h>
/*
* TLS Library
*/
#define TLS_INTERNAL
#include <tls.h>
#ifdef USE_TLS
#include <tls_proxy.h>
#include <openssl/engine.h>
#endif
/*
* Application specific
*/
#include "tlsmgrmem.h"
static int conn_tmout = 30;
static int smtp_tmout = 30;
#define HOST_FLAG_DNS (1<<0)
#define HOST_FLAG_NATIVE (1<<1)
#define MISC_FLAG_PREF_IPV6 (1<<0)
#define MISC_FLAG_PREF_IPV4 (1<<1)
static const NAME_MASK lookup_masks[] = {
"dns", HOST_FLAG_DNS,
"native", HOST_FLAG_NATIVE,
0,
};
static const NAME_CODE addr_pref_map[] = {
INET_PROTO_NAME_IPV6, MISC_FLAG_PREF_IPV6,
INET_PROTO_NAME_IPV4, MISC_FLAG_PREF_IPV4,
INET_PROTO_NAME_ANY, 0,
0, -1,
};
typedef struct OPTIONS {
char *logopts;
char *level;
ARGV *tas;
char *host_lookup;
char *addr_pref;
} OPTIONS;
/*
* Per-session data structure with state.
*
* This software can maintain multiple parallel connections to the same SMTP
* server. However, it makes no more than one connection request at a time
* to avoid overwhelming the server with SYN packets and having to back off.
* Back-off would screw up the benchmark. Pending connection requests are
* kept in a linear list.
*/
typedef struct STATE {
int smtp; /* SMTP or LMTP? */
int host_lookup; /* dns|native|dns,native */
int addr_pref; /* v4, v6, both */
int log_mask; /* via tls_log_mask() */
int reconnect; /* -r option */
int max_reconnect; /* -m option */
int force_tlsa; /* -f option */
unsigned port; /* TCP port */
char *dest; /* Full destination spec */
char *paddr; /* XXX printable addr for proxy */
char *addrport; /* [addr]:port */
char *namaddrport; /* name[addr]:port */
char *nexthop; /* Nexthop domain for verification */
char *hostname; /* Hostname for verification */
DNS_RR *addr; /* IPv[46] Address to (re)connect to */
DNS_RR *mx; /* MX RRset qname, rname, valid */
int pass; /* Pass number, 2 for reconnect */
int nochat; /* disable chat logging */
char *helo; /* Server name from EHLO reply */
DSN_BUF *why; /* SMTP-style error message */
VSTRING *buffer; /* Response buffer */
VSTREAM *stream; /* Open connection */
int level; /* TLS security level */
int wrapper_mode; /* SMTPS support */
#ifdef USE_TLS
char *mdalg; /* fingerprint digest algorithm */
char *CAfile; /* Trusted public CAs */
char *CApath; /* Trusted public CAs */
char *chains; /* TLS client certificate chain files */
char *certfile; /* TLS client certificate file */
char *keyfile; /* TLS client key file */
char *sni; /* Server SNI name */
ARGV *match; /* match arguments */
int print_trust; /* -C option */
BIO *tls_bio; /* BIO wrapper for stdout */
TLS_APPL_STATE *tls_ctx; /* Application TLS context */
TLS_SESS_STATE *tls_context; /* Session TLS context */
TLS_DANE *dane; /* DANE TLSA validation structure */
TLS_DANE *ddane; /* DANE TLSA from DNS */
char *grade; /* Minimum cipher grade */
char *protocols; /* Protocol inclusion/exclusion */
int mxinsec_level; /* DANE for insecure MX RRs? */
int tlsproxy_mode;
#endif
OPTIONS options; /* JCL */
} STATE;
static DNS_RR *host_addr(STATE *, const char *);
#define HNAME(addr) (addr->qname)
/*
* Structure with broken-up SMTP server response.
*/
typedef struct { /* server response */
int code; /* status */
char *str; /* text */
VSTRING *buf; /* origin of text */
} RESPONSE;
/* command - send an SMTP command */
static void PRINTFLIKE(3, 4) command(STATE *state, int verbose, char *fmt,...)
{
VSTREAM *stream = state->stream;
VSTRING *buf;
va_list ap;
char *line;
buf = vstring_alloc(100);
va_start(ap, fmt);
vstring_vsprintf(buf, fmt, ap);
va_end(ap);
line = vstring_str(buf);
while (line && *line) {
char *nextline = strchr(line, '\n');
if (nextline)
*nextline++ = '\0';
if (verbose && !state->nochat)
msg_info("> %s", line);
smtp_printf(stream, "%s", line);
line = nextline;
}
vstring_free(buf);
}
/* response - read and process SMTP server response */
static RESPONSE *response(STATE *state, int verbose)
{
VSTREAM *stream = state->stream;
VSTRING *buf = state->buffer;
static RESPONSE rdata;
int more;
char *cp;
/*
* Initialize the response data buffer. smtp_get() defends against a
* denial of service attack by limiting the amount of single-line text,
* and the loop below limits the amount of multi-line text that we are
* willing to store.
*/
if (rdata.buf == 0)
rdata.buf = vstring_alloc(100);
/*
* Censor out non-printable characters in server responses. Concatenate
* multi-line server responses. Separate the status code from the text.
* Leave further parsing up to the application.
*/
#define BUF ((char *) vstring_str(buf))
VSTRING_RESET(rdata.buf);
for (;;) {
smtp_get(buf, stream, var_line_limit, SMTP_GET_FLAG_SKIP);
for (cp = BUF; *cp != 0; cp++)
if (!ISPRINT(*cp) && !ISSPACE(*cp))
*cp = '?';
cp = BUF;
if (verbose && !state->nochat)
msg_info("< %s", cp);
while (ISDIGIT(*cp))
cp++;
rdata.code = (cp - BUF == 3 ? atoi(BUF) : 0);
if ((more = (*cp == '-')) != 0)
cp++;
while (ISSPACE(*cp))
cp++;
if (VSTRING_LEN(rdata.buf) < var_line_limit)
vstring_strcat(rdata.buf, cp);
if (more == 0)
break;
if (VSTRING_LEN(rdata.buf) < var_line_limit)
VSTRING_ADDCH(rdata.buf, '\n');
}
VSTRING_TERMINATE(rdata.buf);
rdata.str = vstring_str(rdata.buf);
return (&rdata);
}
/* exception_text - translate exceptions from the smtp_stream module */
static char *exception_text(int except)
{
switch (except) {
case SMTP_ERR_EOF:
return ("lost connection");
case SMTP_ERR_TIME:
return ("timeout");
default:
msg_panic("exception_text: unknown exception %d", except);
}
}
/* greeting - read server's 220 greeting */
static int greeting(STATE *state)
{
VSTREAM *stream = state->stream;
int except;
RESPONSE *resp;
/*
* Prepare for disaster.
*/
smtp_stream_setup(stream, conn_tmout, 1);
if ((except = vstream_setjmp(stream)) != 0) {
msg_info("%s while reading server greeting", exception_text(except));
return (1);
}
/*
* Read and parse the server's SMTP greeting banner.
*/
if (((resp = response(state, 1))->code / 100) != 2) {
msg_info("SMTP service not available: %d %s", resp->code, resp->str);
return (1);
}
return (0);
}
/* ehlo - send EHLO/LHLO */
static RESPONSE *ehlo(STATE *state)
{
int except;
int verbose;
volatile char *ehlo = state->smtp ? "EHLO" : "LHLO";
VSTREAM *stream = state->stream;
RESPONSE *resp;
#ifdef USE_TLS
verbose = (state->pass == 1 && state->nochat == 0);
#else
verbose = 1;
#endif
/*
* Send the standard greeting with our hostname
*/
if ((except = vstream_setjmp(stream)) != 0) {
msg_info("%s while sending %s", exception_text(except), ehlo);
return (0);
}
command(state, verbose, "%s %s", ehlo, var_myhostname);
resp = response(state, verbose);
if (resp->code / 100 != 2) {
msg_info("%s rejected: %d %s", ehlo, resp->code, resp->str);
return (0);
}
return resp;
}
#ifdef USE_TLS
static void print_stack(STATE *state, x509_stack_t *sk, int trustout)
{
int i;
for (i = 0; i < sk_X509_num(sk); i++) {
X509 *cert = sk_X509_value(sk, i);
char buf[CCERT_BUFSIZ];
X509_NAME *xn;
char *digest;
if ((xn = X509_get_subject_name(cert)) != 0) {
X509_NAME_oneline(xn, buf, sizeof buf);
BIO_printf(state->tls_bio, "%2d subject: %s\n", i, buf);
}
if ((xn = X509_get_issuer_name(cert)) != 0) {
X509_NAME_oneline(xn, buf, sizeof buf);
BIO_printf(state->tls_bio, " issuer: %s\n", buf);
}
digest = tls_cert_fprint(cert, state->mdalg);
BIO_printf(state->tls_bio, " cert digest=%s\n", digest);
myfree(digest);
digest = tls_pkey_fprint(cert, state->mdalg);
BIO_printf(state->tls_bio, " pkey digest=%s\n", digest);
myfree(digest);
if (trustout)
PEM_write_bio_X509_AUX(state->tls_bio, cert);
else
PEM_write_bio_X509(state->tls_bio, cert);
}
}
static void print_trust_info(STATE *state)
{
x509_stack_t *sk = SSL_get_peer_cert_chain(state->tls_context->con);
if (sk != 0) {
BIO_printf(state->tls_bio, "\n---\nCertificate chain\n");
print_stack(state, sk, 0);
}
#ifdef dane_verify_debug
/* print internally constructed untrusted chain */
if ((sk = state->tls_context->untrusted) != 0) {
BIO_printf(state->tls_bio, "\n---\nUntrusted chain\n");
print_stack(state, sk, 0);
}
/* print associated root CA */
if ((sk = state->tls_context->trusted) != 0) {
BIO_printf(state->tls_bio, "\n---\nTrusted chain\n");
print_stack(state, sk, 1);
}
#endif
}
/* starttls - SMTP STARTTLS handshake */
static int starttls(STATE *state)
{
VSTRING *cipher_exclusions;
int except;
RESPONSE *resp;
VSTREAM *stream = state->stream;
TLS_CLIENT_START_PROPS start_props;
TLS_CLIENT_INIT_PROPS init_props;
VSTREAM *tlsproxy;
VSTRING *port_buf;
int cwd_fd;
if (state->wrapper_mode == 0) {
/* SMTP stream with deadline timeouts */
smtp_stream_setup(stream, smtp_tmout, 1);
if ((except = vstream_setjmp(stream)) != 0) {
msg_fatal("%s while sending STARTTLS", exception_text(except));
return (1);
}
command(state, state->pass == 1, "STARTTLS");
resp = response(state, state->pass == 1);
if (resp->code / 100 != 2) {
msg_info("STARTTLS rejected: %d %s", resp->code, resp->str);
return (1);
}
/*
* Discard any plain-text data that may be piggybacked after the
* server's 220 STARTTLS reply. Should we abort the session instead?
*/
vstream_fpurge(stream, VSTREAM_PURGE_READ);
}
#define ADD_EXCLUDE(vstr, str) \
do { \
if (*(str)) \
vstring_sprintf_append((vstr), "%s%s", \
VSTRING_LEN(vstr) ? " " : "", (str)); \
} while (0)
cipher_exclusions = vstring_alloc(10);
ADD_EXCLUDE(cipher_exclusions, DEF_SMTP_TLS_EXCL_CIPH);
if (TLS_REQUIRED(state->level))
ADD_EXCLUDE(cipher_exclusions, DEF_SMTP_TLS_MAND_EXCL);
/*
* If we're authenticating suppress anonymous ciphersuites, otherwise at
* least encrypt, not much point in doing neither.
*/
if (TLS_MUST_MATCH(state->level))
ADD_EXCLUDE(cipher_exclusions, "aNULL");
else
ADD_EXCLUDE(cipher_exclusions, "eNULL");
if (state->tlsproxy_mode) {
TLS_CLIENT_PARAMS tls_params;
/*
* Send all our wishes in one big request.
*/
TLS_PROXY_CLIENT_INIT_PROPS(&init_props,
log_param = "-L option",
log_level = state->options.logopts,
verifydepth = DEF_SMTP_TLS_SCERT_VD,
cache_type = TLS_MGR_SCACHE_SMTP,
chain_files = state->chains,
cert_file = state->certfile,
key_file = state->keyfile,
dcert_file = "",
dkey_file = "",
eccert_file = "",
eckey_file = "",
CAfile = state->CAfile,
CApath = state->CApath,
mdalg = state->mdalg);
TLS_PROXY_CLIENT_START_PROPS(&start_props,
timeout = smtp_tmout,
tls_level = state->level,
nexthop = state->nexthop,
host = state->hostname,
namaddr = state->namaddrport,
sni = state->sni,
serverid = state->addrport,
helo = state->helo ? state->helo : "",
protocols = state->protocols,
cipher_grade = state->grade,
cipher_exclusions
= vstring_str(cipher_exclusions),
matchargv = state->match,
mdalg = state->mdalg,
dane = state->ddane ?
state->ddane : state->dane);
#define PROXY_OPEN_FLAGS \
(TLS_PROXY_FLAG_ROLE_CLIENT | TLS_PROXY_FLAG_SEND_CONTEXT)
#define var_tlsproxy_service
if ((cwd_fd = open(".", O_RDONLY)) < 0)
msg_fatal("open(\".\", O_RDONLY): %m");
if (chdir(var_queue_dir) < 0)
msg_fatal("chdir(%s): %m", var_queue_dir);
port_buf = vstring_alloc(100);
vstring_sprintf(port_buf, "%d", ntohs(state->port));
tlsproxy =
tls_proxy_open(DEF_TLSPROXY_SERVICE /* TODO */ , PROXY_OPEN_FLAGS,
state->stream, state->paddr, STR(port_buf),
smtp_tmout, smtp_tmout, state->addrport,
tls_proxy_client_param_from_config(&tls_params),
&init_props, &start_props);
vstring_free(port_buf);
if (fchdir(cwd_fd) < 0)
msg_fatal("fchdir: %m");
(void) close(cwd_fd);
/*
* 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.
*/
if (tlsproxy == 0) {
state->tls_context = 0;
} else {
vstream_control(tlsproxy,
CA_VSTREAM_CTL_DOUBLE,
CA_VSTREAM_CTL_END);
vstream_control(state->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(state->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.
*/
state->tls_context = tls_proxy_context_receive(state->stream);
if (state->log_mask &
(TLS_LOG_CERTMATCH | TLS_LOG_VERBOSE | TLS_LOG_PEERCERT))
msg_info("%s: subject_CN=%s, issuer_CN=%s, "
"fingerprint=%s, pkey_fingerprint=%s",
state->namaddrport, state->tls_context->peer_CN,
state->tls_context->issuer_CN,
state->tls_context->peer_cert_fprint,
state->tls_context->peer_pkey_fprint);
tls_log_summary(TLS_ROLE_CLIENT, TLS_USAGE_NEW,
state->tls_context);
}
} else { /* tls_proxy_mode */
state->tls_context =
TLS_CLIENT_START(&start_props,
ctx = state->tls_ctx,
stream = stream,
fd = -1,
timeout = smtp_tmout,
tls_level = state->level,
nexthop = state->nexthop,
host = state->hostname,
namaddr = state->namaddrport,
sni = state->sni,
serverid = state->addrport,
helo = state->helo ? state->helo : "",
protocols = state->protocols,
cipher_grade = state->grade,
cipher_exclusions
= vstring_str(cipher_exclusions),
matchargv = state->match,
mdalg = state->mdalg,
dane = state->ddane ? state->ddane : state->dane);
} /* tlsproxy_mode */
vstring_free(cipher_exclusions);
if (state->helo) {
myfree(state->helo);
state->helo = 0;
}
if (state->tls_context == 0) {
/* We must avoid further I/O, the peer is in an undefined state. */
(void) vstream_fpurge(stream, VSTREAM_PURGE_BOTH);
(void) vstream_fclose(stream);
state->stream = 0;
return (1);
}
if (state->wrapper_mode && greeting(state) != 0)
return (1);
if (state->pass == 1) {
ehlo(state);
if (!TLS_CERT_IS_PRESENT(state->tls_context))
msg_info("Server is anonymous");
else if (state->tlsproxy_mode == 0) {
if (state->print_trust)
print_trust_info(state);
state->log_mask &= ~(TLS_LOG_CERTMATCH | TLS_LOG_PEERCERT |
TLS_LOG_VERBOSE | TLS_LOG_UNTRUSTED);
}
state->log_mask |= TLS_LOG_CACHE | TLS_LOG_SUMMARY;
tls_update_app_logmask(state->tls_ctx, state->log_mask);
}
return (0);
}
#endif
/* doproto - do SMTP handshake */
static int doproto(STATE *state)
{
VSTREAM *stream = state->stream;
RESPONSE *resp;
int except;
int n;
char *lines;
char *words = 0;
char *word;
if (!state->wrapper_mode) {
if (greeting(state) != 0)
return (1);
if ((resp = ehlo(state)) == 0)
return (1);
lines = resp->str;
for (n = 0; (words = mystrtok(&lines, "\n")) != 0; ++n) {
if ((word = mystrtok(&words, " \t=")) != 0) {
if (n == 0)
state->helo = mystrdup(word);
if (strcasecmp(word, "STARTTLS") == 0)
break;
}
}
}
#ifdef USE_TLS
if ((state->wrapper_mode || words) && state->tls_ctx)
if (starttls(state))
return (1);
#endif
/*
* Prepare for disaster.
*/
smtp_stream_setup(stream, smtp_tmout, 1);
if ((except = vstream_setjmp(stream)) != 0) {
msg_warn("%s while sending QUIT command", exception_text(except));
return (0);
}
command(state, 1, "QUIT");
(void) response(state, 1);
return (0);
}
/* connect_sock - connect a socket over some transport */
static VSTREAM *connect_sock(int sock, struct sockaddr *sa, int salen,
const char *name, const char *addr, STATE *state)
{
DSN_BUF *why = state->why;
int conn_stat;
int saved_errno;
VSTREAM *stream;
if (conn_tmout > 0) {
non_blocking(sock, NON_BLOCKING);
conn_stat = timed_connect(sock, sa, salen, conn_tmout);
saved_errno = errno;
non_blocking(sock, BLOCKING);
errno = saved_errno;
} else {
conn_stat = sane_connect(sock, sa, salen);
}
if (conn_stat < 0) {
if (state->port)
dsb_simple(why, "4.4.1", "connect to %s[%s]:%d: %m",
name, addr, ntohs(state->port));
else
dsb_simple(why, "4.4.1", "connect to %s[%s]: %m", name, addr);
close(sock);
return (0);
}
stream = vstream_fdopen(sock, O_RDWR);
state->namaddrport =
vstring_export(state->port == 0 ?
vstring_sprintf(vstring_alloc(10), "%s[%s]", name, addr) :
vstring_sprintf(vstring_alloc(10), "%s[%s]:%u",
name, addr, ntohs(state->port)));
state->addrport =
vstring_export(state->port == 0 ?
vstring_sprintf(vstring_alloc(10), "%s", addr) :
vstring_sprintf(vstring_alloc(10), "[%s]:%u",
addr, ntohs(state->port)));
state->paddr = mystrdup(addr); /* XXX for tlsproxy */
/*
* Avoid poor performance when TCP MSS > VSTREAM_BUFSIZE.
*/
if (sa->sa_family == AF_INET
#ifdef AF_INET6
|| sa->sa_family == AF_INET6
#endif
)
vstream_tweak_tcp(stream);
return (stream);
}
/* connect_unix - connect to a unix-domain socket */
static VSTREAM *connect_unix(STATE *state, const char *path)
{
static const char *myname = "connect_unix";
DSN_BUF *why = state->why;
struct sockaddr_un sock_un;
int len = strlen(path);
int sock;
if (!state->nexthop)
state->nexthop = mystrdup(var_myhostname);
state->hostname = mystrdup(var_myhostname);
dsb_reset(why); /* Paranoia */
/*
* Sanity checks.
*/
if (len >= (int) sizeof(sock_un.sun_path)) {
dsb_simple(why, "4.3.5", "unix-domain name too long: %s", path);
return (0);
}
/*
* Initialize.
*/
memset((void *) &sock_un, 0, sizeof(sock_un));
sock_un.sun_family = AF_UNIX;
#ifdef HAS_SUN_LEN
sock_un.sun_len = len + 1;
#endif
memcpy(sock_un.sun_path, path, len + 1);
/*
* Create a client socket.
*/
if ((sock = socket(AF_UNIX, SOCK_STREAM, 0)) < 0)
msg_fatal("%s: socket: %m", myname);
/*
* Connect to the server.
*/
if (msg_verbose)
msg_info("%s: trying: %s...", myname, path);
return (connect_sock(sock, (struct sockaddr *) &sock_un, sizeof(sock_un),
var_myhostname, path, state));
}
/* connect_addr - connect to explicit address */
static VSTREAM *connect_addr(STATE *state, DNS_RR *addr)
{
static const char *myname = "connect_addr";
DSN_BUF *why = state->why;
struct sockaddr_storage ss; /* remote */
struct sockaddr *sa = (struct sockaddr *) &ss;
SOCKADDR_SIZE salen = sizeof(ss);
MAI_HOSTADDR_STR hostaddr;
int sock;
dsb_reset(why); /* Paranoia */
/*
* Sanity checks.
*/
if (dns_rr_to_sa(addr, state->port, sa, &salen) != 0) {
msg_warn("%s: skip address type %s: %m",
myname, dns_strtype(addr->type));
dsb_simple(why, "4.4.0", "network address conversion failed: %m");
return (0);
}
/*
* Initialize.
*/
if ((sock = socket(sa->sa_family, SOCK_STREAM, 0)) < 0)
msg_fatal("%s: socket: %m", myname);
if (inet_windowsize > 0)
set_inet_windowsize(sock, inet_windowsize);
/*
* Connect to the server.
*/
SOCKADDR_TO_HOSTADDR(sa, salen, &hostaddr, (MAI_SERVPORT_STR *) 0, 0);
if (msg_verbose)
msg_info("%s: trying: %s[%s] port %d...",
myname, HNAME(addr), hostaddr.buf, ntohs(state->port));
return (connect_sock(sock, sa, salen, HNAME(addr), hostaddr.buf, state));
}
#define HAS_DSN(why) (STR((why)->status)[0] != 0)
#define HAS_SOFT_DSN(why) (STR((why)->status)[0] == '4')
#define HAS_HARD_DSN(why) (STR((why)->status)[0] == '5')
#define HAS_LOOP_DSN(why) \
(HAS_DSN(why) && strcmp(STR((why)->status) + 1, ".4.6") == 0)
#define SET_SOFT_DSN(why) (STR((why)->status)[0] = '4')
#define SET_HARD_DSN(why) (STR((why)->status)[0] = '5')
/* addr_one - address lookup for one host name */
static DNS_RR *addr_one(STATE *state, DNS_RR *addr_list, const char *host,
int res_opt, unsigned pref)
{
static const char *myname = "addr_one";
DSN_BUF *why = state->why;
DNS_RR *addr = 0;
DNS_RR *rr;
int aierr;
struct addrinfo *res0;
struct addrinfo *res;
INET_PROTO_INFO *proto_info = inet_proto_info();
int found;
if (msg_verbose)
msg_info("%s: host %s", myname, host);
/*
* Interpret a numerical name as an address.
*/
if (hostaddr_to_sockaddr(host, (char *) 0, 0, &res0) == 0
&& strchr((char *) proto_info->sa_family_list, res0->ai_family) != 0) {
if ((addr = dns_sa_to_rr(host, pref, res0->ai_addr)) == 0)
msg_fatal("host %s: conversion error for address family %d: %m",
host, ((struct sockaddr *) (res0->ai_addr))->sa_family);
addr_list = dns_rr_append(addr_list, addr);
freeaddrinfo(res0);
return (addr_list);
}
/*
* Use DNS lookup, but keep the option open to use native name service.
*
* XXX A soft error dominates past and future hard errors. Therefore we
* should not clobber a soft error text and status code.
*/
if (state->host_lookup & HOST_FLAG_DNS) {
switch (dns_lookup_v(host, res_opt, &addr, (VSTRING *) 0,
why->reason, DNS_REQ_FLAG_NONE,
proto_info->dns_atype_list)) {
case DNS_OK:
for (rr = addr; rr; rr = rr->next)
rr->pref = pref;
addr_list = dns_rr_append(addr_list, addr);
return (addr_list);
default:
dsb_status(why, "4.4.3");
return (addr_list);
case DNS_FAIL:
dsb_status(why, HAS_SOFT_DSN(why) ? "4.4.3" : "5.4.3");
return (addr_list);
case DNS_INVAL:
dsb_status(why, HAS_SOFT_DSN(why) ? "4.4.4" : "5.4.4");
return (addr_list);
case DNS_NOTFOUND:
dsb_status(why, HAS_SOFT_DSN(why) ? "4.4.4" : "5.4.4");
/* maybe native naming service will succeed */
break;
}
}
/*
* Use the native name service which also looks in /etc/hosts.
*
* XXX A soft error dominates past and future hard errors. Therefore we
* should not clobber a soft error text and status code.
*/
#define RETRY_AI_ERROR(e) \
((e) == EAI_AGAIN || (e) == EAI_MEMORY || (e) == EAI_SYSTEM)
#ifdef EAI_NODATA
#define DSN_NOHOST(e) \
((e) == EAI_AGAIN || (e) == EAI_NODATA || (e) == EAI_NONAME)
#else
#define DSN_NOHOST(e) \
((e) == EAI_AGAIN || (e) == EAI_NONAME)
#endif
if (state->host_lookup & HOST_FLAG_NATIVE) {
if ((aierr = hostname_to_sockaddr(host, (char *) 0, 0, &res0)) != 0) {
dsb_simple(why, (HAS_SOFT_DSN(why) || RETRY_AI_ERROR(aierr)) ?
(DSN_NOHOST(aierr) ? "4.4.4" : "4.3.0") :
(DSN_NOHOST(aierr) ? "5.4.4" : "5.3.0"),
"unable to look up host %s: %s",
host, MAI_STRERROR(aierr));
} else {
for (found = 0, res = res0; res != 0; res = res->ai_next) {
if (strchr((char *) proto_info->sa_family_list, res->ai_family) == 0) {
msg_info("skipping address family %d for host %s",
res->ai_family, host);
continue;
}
found++;
if ((addr = dns_sa_to_rr(host, pref, res->ai_addr)) == 0)
msg_fatal("host %s: conversion error for address family %d: %m",
host, ((struct sockaddr *) (res0->ai_addr))->sa_family);
addr_list = dns_rr_append(addr_list, addr);
}
freeaddrinfo(res0);
if (found == 0) {
dsb_simple(why, HAS_SOFT_DSN(why) ? "4.4.4" : "5.4.4",
"%s: host not found", host);
}
return (addr_list);
}
}
/*
* No further alternatives for host lookup.
*/
return (addr_list);
}
/* mx_addr_list - address lookup for a list of mail exchangers */
static DNS_RR *mx_addr_list(STATE *state, DNS_RR *mx_names)
{
static const char *myname = "mx_addr_list";
DNS_RR *addr_list = 0;
DNS_RR *rr;
int res_opt = 0;
if (mx_names->dnssec_valid)
res_opt = RES_USE_DNSSEC;
#ifdef USE_TLS
else if (state->mxinsec_level > TLS_LEV_MAY)
res_opt = RES_USE_DNSSEC;
#endif
for (rr = mx_names; rr; rr = rr->next) {
if (rr->type != T_MX)
msg_panic("%s: bad resource type: %d", myname, rr->type);
addr_list = addr_one(state, addr_list, (char *) rr->data, res_opt,
rr->pref);
}
return (addr_list);
}
/* smtp_domain_addr - mail exchanger address lookup */
static DNS_RR *domain_addr(STATE *state, char *domain)
{
DNS_RR *mx_names;
DNS_RR *addr_list = 0;
int r = 0; /* Resolver flags */
const char *aname;
dsb_reset(state->why);
#if (RES_USE_DNSSEC != 0) && (RES_USE_EDNS0 != 0)
r |= RES_USE_DNSSEC;
#endif
/*
* IDNA support.
*/
#ifndef NO_EAI
if (!allascii(domain) && (aname = midna_domain_to_ascii(domain)) != 0) {
msg_info("%s asciified to %s", domain, aname);
} else
#endif
aname = domain;
switch (dns_lookup(aname, T_MX, r, &mx_names, (VSTRING *) 0,
state->why->reason)) {
default:
dsb_status(state->why, "4.4.3");
break;
case DNS_INVAL:
dsb_status(state->why, "5.4.4");
break;
case DNS_NULLMX:
dsb_status(state->why, "5.1.0");
break;
case DNS_FAIL:
dsb_status(state->why, "5.4.3");
break;
case DNS_OK:
mx_names = dns_rr_sort(mx_names, dns_rr_compare_pref_any);
addr_list = mx_addr_list(state, mx_names);
state->mx = dns_rr_copy(mx_names);
dns_rr_free(mx_names);
if (addr_list == 0) {
msg_warn("no MX host for %s has a valid address record", domain);
break;
}
#define COMPARE_ADDR(flags) \
((flags & MISC_FLAG_PREF_IPV6) ? dns_rr_compare_pref_ipv6 : \
(flags & MISC_FLAG_PREF_IPV4) ? dns_rr_compare_pref_ipv4 : \
dns_rr_compare_pref_any)
if (addr_list && addr_list->next) {
addr_list = dns_rr_shuffle(addr_list);
addr_list = dns_rr_sort(addr_list, COMPARE_ADDR(state->addr_pref));
}
break;
case DNS_NOTFOUND:
addr_list = host_addr(state, domain);
break;
}
return (addr_list);
}
/* host_addr - direct host lookup */
static DNS_RR *host_addr(STATE *state, const char *host)
{
DSN_BUF *why = state->why;
DNS_RR *addr_list;
int res_opt = 0;
const char *ahost;
dsb_reset(why); /* Paranoia */
#if (RES_USE_DNSSEC != 0) && (RES_USE_EDNS0 != 0)
res_opt |= RES_USE_DNSSEC;
#endif
/*
* IDNA support.
*/
#ifndef NO_EAI
if (!allascii(host) && (ahost = midna_domain_to_ascii(host)) != 0) {
msg_info("%s asciified to %s", host, ahost);
} else
#endif
ahost = host;
#define PREF0 0
addr_list = addr_one(state, (DNS_RR *) 0, ahost, res_opt, PREF0);
if (addr_list && addr_list->next) {
addr_list = dns_rr_shuffle(addr_list);
if (inet_proto_info()->ai_family_list[1] != 0)
addr_list = dns_rr_sort(addr_list, COMPARE_ADDR(state->addr_pref));
}
return (addr_list);
}
/* dane_host_level - canidate host "dane" or degraded security level */
static int dane_host_level(STATE *state, DNS_RR *addr)
{
int level = state->level;
#ifdef USE_TLS
if (TLS_DANE_BASED(level)) {
if (state->mx == 0 || state->mx->dnssec_valid ||
state->mxinsec_level > TLS_LEV_MAY) {
if (state->log_mask & (TLS_LOG_CERTMATCH | TLS_LOG_VERBOSE))
tls_dane_verbose(1);
else
tls_dane_verbose(0);
/* See addr loop in connect_remote() */
if (state->ddane)
tls_dane_free(state->ddane);
/*
* When TLSA lookups fail, next host. If unusable or not found,
* fallback to "secure"
*/
state->ddane = tls_dane_resolve(state->port, "tcp", addr,
state->force_tlsa);
if (!state->ddane) {
dsb_simple(state->why, "4.7.5",
"TLSA lookup error for %s:%u",
HNAME(addr), ntohs(state->port));
level = TLS_LEV_INVALID;
} else if (tls_dane_notfound(state->ddane)
|| tls_dane_unusable(state->ddane)) {
if (msg_verbose || level == TLS_LEV_DANE_ONLY)
msg_info("no %sTLSA records found, "
"resorting to \"secure\"",
tls_dane_unusable(state->ddane) ?
"usable " : "");
level = TLS_LEV_SECURE;
} else if (!TLS_DANE_HASTA(state->ddane)
&& !TLS_DANE_HASEE(state->ddane)) {
msg_panic("DANE activated with no TLSA records to match");
} else if (state->mx && !state->mx->dnssec_valid &&
state->mxinsec_level == TLS_LEV_ENCRYPT) {
msg_info("TLSA RRs found, MX RRset insecure: just encrypt");
tls_dane_free(state->ddane);
state->ddane = 0;
level = TLS_LEV_ENCRYPT;
} else {
if (state->match)
argv_free(state->match);
argv_add(state->match = argv_alloc(2),
state->ddane->base_domain, ARGV_END);
if (state->mx) {
if (!state->mx->dnssec_valid) {
msg_info("MX RRset insecure: log verified as trusted");
level = TLS_LEV_HALF_DANE;
}
if (strcmp(state->mx->qname, state->mx->rname) == 0)
argv_add(state->match, state->mx->qname, ARGV_END);
else
argv_add(state->match, state->mx->rname,
state->mx->qname, ARGV_END);
}
}
} else if (state->mx && !state->mx->dnssec_valid &&
state->mxinsec_level == TLS_LEV_MAY) {
msg_info("MX RRset is insecure: try to encrypt");
level = TLS_LEV_MAY;
} else {
level = TLS_LEV_SECURE;
}
}
#endif
return (level);
}
/* parse_destination - parse host/port destination */
static char *parse_destination(char *destination, char *def_service,
char **hostp, unsigned *portp)
{
char *buf = mystrdup(destination);
char *service;
struct servent *sp;
char *protocol = "tcp";
unsigned port;
const char *err;
if (msg_verbose)
msg_info("parse_destination: %s %s", destination, def_service);
/*
* Parse the host/port information. We're working with a copy of the
* destination argument so the parsing can be destructive.
*/
if ((err = host_port(buf, hostp, (char *) 0, &service, def_service)) != 0)
msg_fatal("%s in server description: %s", err, destination);
/*
* Convert service to port number, network byte order.
*/
if (alldig(service)) {
if ((port = atoi(service)) >= 65536 || port == 0)
msg_fatal("bad network port in destination: %s", destination);
*portp = htons(port);
} else {
if ((sp = getservbyname(service, protocol)) != 0)
*portp = sp->s_port;
else if (strcmp(service, "smtp") == 0)
*portp = htons(25);
else
msg_fatal("unknown service: %s/%s", service, protocol);
}
return (buf);
}
/* connect_remote - connect to TCP destination or log an error */
static void connect_remote(STATE *state, char *dest)
{
DNS_RR *addr;
char *buf;
char *domain;
/* When reconnecting use IP address of previous session */
if (state->addr == 0) {
buf = parse_destination(dest, state->smtp ? "smtp" : "24",
&domain, &state->port);
if (!state->nexthop)
state->nexthop = mystrdup(domain);
if (state->smtp == 0 || *dest == '[')
state->addr = host_addr(state, domain);
else
state->addr = domain_addr(state, domain);
myfree(buf);
if (state->addr == 0) {
msg_info("Destination address lookup failed: %s",
vstring_str(state->why->reason));
return;
}
}
for (addr = state->addr; addr; addr = addr->next) {
int level = dane_host_level(state, addr);
if (level == TLS_LEV_INVALID
|| (state->stream = connect_addr(state, addr)) == 0) {
msg_info("Failed to establish session to %s via %s: %s",
dest, HNAME(addr), vstring_str(state->why->reason));
continue;
}
/* We have a connection */
state->level = level;
state->hostname = mystrdup(HNAME(addr));
/* We use the same address when reconnecting, so flush the rest. */
addr = dns_rr_copy(addr);
dns_rr_free(state->addr);
state->addr = addr;
break;
}
}
/* connect_dest - connect to given inet: or unix: destination */
static int connect_dest(STATE *state)
{
char *dest = state->dest;
/*
* With LMTP we have direct-to-host delivery only. The destination may
* have multiple IP addresses.
*/
if (state->smtp == 0) {
if (strncmp(dest, "unix:", 5) == 0) {
state->stream = connect_unix(state, dest + 5);
if (!state->stream)
msg_info("Failed to establish session to %s: %s",
dest, vstring_str(state->why->reason));
return (1);
}
if (strncmp(dest, "inet:", 5) == 0)
dest += 5;
}
connect_remote(state, dest);
return (state->stream == 0);
}
static void disconnect_dest(STATE *state)
{
#ifdef USE_TLS
if (state->tls_context) {
if (state->tlsproxy_mode) {
tls_proxy_context_free(state->tls_context);
} else {
tls_client_stop(state->tls_ctx, state->stream,
smtp_tmout, 0, state->tls_context);
}
}
state->tls_context = 0;
if (state->ddane)
tls_dane_free(state->ddane);
state->ddane = 0;
#endif
if (state->stream)
vstream_fclose(state->stream);
state->stream = 0;
if (state->namaddrport)
myfree(state->namaddrport);
state->namaddrport = 0;
if (state->addrport)
myfree(state->addrport);
state->addrport = 0;
if (state->paddr)
myfree(state->paddr);
state->paddr = 0;
/* Reused on reconnect */
if (state->reconnect <= 0) {
if (state->addr)
dns_rr_free(state->addr);
state->addr = 0;
if (state->mx)
dns_rr_free(state->mx);
state->mx = 0;
if (state->nexthop)
myfree(state->nexthop);
state->nexthop = 0;
}
if (state->hostname)
myfree(state->hostname);
state->hostname = 0;
dsb_free(state->why);
vstring_free(state->buffer);
}
static int finger(STATE *state)
{
int err;
/*
* smtp_get() makes sure the SMTP server cannot run us out of memory by
* sending never-ending lines of text.
*/
state->buffer = vstring_alloc(100);
state->why = dsb_create();
if (!(err = connect_dest(state))) {
if (state->pass == 1 && !state->nochat)
msg_info("Connected to %s", state->namaddrport);
err = doproto(state);
}
disconnect_dest(state);
if (err != 0)
return (1);
#ifdef USE_TLS
if (state->tlsproxy_mode == 0 && state->reconnect > 0) {
int cache_enabled;
int cache_count;
int cache_hits;
tlsmgrmem_status(&cache_enabled, &cache_count, &cache_hits);
if (cache_enabled && cache_count == 0) {
msg_info("Server declined session caching. Done reconnecting.");
state->reconnect = 0;
} else if (cache_hits > 0 && (state->log_mask & TLS_LOG_CACHE) != 0) {
msg_info("Found a previously used server. Done reconnecting.");
state->reconnect = 0;
} else if (state->max_reconnect-- <= 0) {
msg_info("Maximum reconnect count reached.");
state->reconnect = 0;
}
}
#endif
return (0);
}
#if defined(USE_TLS) && OPENSSL_VERSION_NUMBER < 0x10100000L
/* ssl_cleanup - free memory allocated in the OpenSSL library */
static void ssl_cleanup(void)
{
ERR_remove_thread_state(0); /* Thread-id is now a pointer */
ENGINE_cleanup();
CONF_modules_unload(1);
ERR_free_strings();
EVP_cleanup();
CRYPTO_cleanup_all_ex_data();
}
#endif /* USE_TLS && OPENSSL_VERSION_NUMBER
* < 0x10100000L */
/* run - do what we were asked to do. */
static int run(STATE *state)
{
while (1) {
if (finger(state) != 0)
break;
if (state->reconnect <= 0)
break;
msg_info("Reconnecting after %d seconds", state->reconnect);
++state->pass;
sleep(state->reconnect);
}
return (0);
}
/* cleanup - free memory allocated in main */
static void cleanup(STATE *state)
{
#ifdef USE_TLS
if (state->tls_ctx != 0)
tls_free_app_context(state->tls_ctx);
if (state->tls_bio)
(void) BIO_free(state->tls_bio);
state->tls_bio = 0;
myfree(state->mdalg);
myfree(state->CApath);
myfree(state->CAfile);
myfree(state->certfile);
myfree(state->keyfile);
myfree(state->sni);
if (state->options.level)
myfree(state->options.level);
myfree(state->options.logopts);
if (state->match)
argv_free(state->match);
if (state->options.tas)
argv_free(state->options.tas);
if (state->dane)
tls_dane_free(state->dane);
/* Flush and free DANE TLSA cache */
tls_dane_flush();
/* Flush and free memory tlsmgr cache */
tlsmgrmem_flush();
myfree(state->grade);
myfree(state->protocols);
#endif
myfree(state->options.host_lookup);
myfree(state->dest);
mail_conf_flush();
}
/* usage - explain */
static void usage(void)
{
#ifdef USE_TLS
fprintf(stderr, "usage: %s %s \\\n\t%s \\\n\t%s \\\n\t%s \\\n\t%s"
" destination [match ...]\n", var_procname,
"[-acCfSvw] [-t conn_tmout] [-T cmd_tmout] [-L logopts]",
"[-h host_lookup] [-l level] [-d mdalg] [-g grade] [-p protocols]",
"[-A tafile] [-F CAfile.pem] [-P CApath/] [-s servername]",
"[ [-H chainfiles] | [-k certfile [-K keyfile]] ]",
"[-m count] [-r delay] [-o name=value]");
#else
fprintf(stderr, "usage: %s [-acStTv] [-h host_lookup] [-o name=value] destination\n",
var_procname);
#endif
exit(1);
}
/* tls_init - initialize application TLS library context */
static void tls_init(STATE *state)
{
#ifdef USE_TLS
TLS_CLIENT_INIT_PROPS props;
if (state->level <= TLS_LEV_NONE)
return;
/* Needed for tls_dane_avail() and other DANE-related processing. */
state->tls_ctx =
TLS_CLIENT_INIT(&props,
log_param = "-L option",
log_level = state->options.logopts,
verifydepth = DEF_SMTP_TLS_SCERT_VD,
cache_type = "memory",
chain_files = state->chains,
cert_file = state->certfile,
key_file = state->keyfile,
dcert_file = "",
dkey_file = "",
eccert_file = "",
eckey_file = "",
CAfile = state->CAfile,
CApath = state->CApath,
mdalg = state->mdalg);
#endif
}
/* override - update main.cf parameter */
static void override(const char *nameval)
{
char *param_name;
char *param_value;
char *save = mystrdup(nameval);
if (split_nameval(save, ¶m_name, ¶m_value) != 0)
usage();
mail_conf_update(param_name, param_value);
myfree(save);
}
/* parse_options - (argc, argv) -> state */
static void parse_options(STATE *state, int argc, char *argv[])
{
int c;
state->smtp = 1;
state->pass = 1;
state->reconnect = -1;
state->max_reconnect = 5;
state->wrapper_mode = 0;
#ifdef USE_TLS
state->protocols = mystrdup("!SSLv2");
state->grade = mystrdup("medium");
#endif
memset((void *) &state->options, 0, sizeof(state->options));
state->options.host_lookup = mystrdup("dns");
#define OPTS "a:ch:o:St:T:v"
#ifdef USE_TLS
#define TLSOPTS "A:Cd:fF:g:H:k:K:l:L:m:M:p:P:r:s:wX"
state->mdalg = mystrdup("sha1");
state->CApath = mystrdup("");
state->CAfile = mystrdup("");
state->chains = mystrdup("");
state->certfile = mystrdup("");
state->keyfile = mystrdup("");
state->sni = mystrdup("");
state->options.tas = argv_alloc(1);
state->options.logopts = 0;
state->level = TLS_LEV_DANE;
state->mxinsec_level = TLS_LEV_DANE;
state->tlsproxy_mode = 0;
#else
#define TLSOPTS ""
state->level = TLS_LEV_NONE;
#endif
while ((c = GETOPT(argc, argv, OPTS TLSOPTS)) > 0) {
switch (c) {
default:
usage();
break;
case 'a':
state->options.addr_pref = mystrdup(optarg);
break;
case 'c':
state->nochat = 1;
break;
case 'h':
myfree(state->options.host_lookup);
state->options.host_lookup = mystrdup(optarg);
break;
case 'o':
override(optarg);
break;
case 'S':
state->smtp = 0;
break;
case 't':
conn_tmout = atoi(optarg);
break;
case 'T':
smtp_tmout = atoi(optarg);
break;
case 'v':
msg_verbose++;
break;
#ifdef USE_TLS
case 'A':
argv_add(state->options.tas, optarg, ARGV_END);
break;
case 'C':
state->print_trust = 1;
break;
case 'd':
myfree(state->mdalg);
state->mdalg = mystrdup(optarg);
break;
case 'f':
state->force_tlsa = 1;
break;
case 'F':
myfree(state->CAfile);
state->CAfile = mystrdup(optarg);
break;
case 'g':
myfree(state->grade);
state->grade = mystrdup(optarg);
break;
case 'H':
{
char *tmp;
if (*state->chains)
tmp = concatenate(state->chains, ", ", optarg, (char *) 0);
else
tmp = mystrdup(optarg);
myfree(state->chains);
state->chains = tmp;
}
break;
case 'k':
myfree(state->certfile);
state->certfile = mystrdup(optarg);
if (!*state->keyfile) {
myfree(state->keyfile);
state->keyfile = mystrdup(optarg);
}
break;
case 'K':
myfree(state->keyfile);
state->keyfile = mystrdup(optarg);
if (!*state->certfile) {
myfree(state->certfile);
state->certfile = mystrdup(optarg);
}
break;
case 'l':
if (state->options.level)
myfree(state->options.level);
state->options.level = mystrdup(optarg);
break;
case 'L':
if (state->options.logopts)
myfree(state->options.logopts);
state->options.logopts = mystrdup(optarg);
break;
case 'm':
state->max_reconnect = atoi(optarg);
break;
case 'M':
switch (state->mxinsec_level = tls_level_lookup(optarg)) {
case TLS_LEV_MAY:
case TLS_LEV_ENCRYPT:
case TLS_LEV_DANE:
break;
default:
msg_fatal("bad '-M' option value: %s", optarg);
}
break;
case 'p':
myfree(state->protocols);
state->protocols = mystrdup(optarg);
break;
case 'P':
myfree(state->CApath);
state->CApath = mystrdup(optarg);
break;
case 'r':
state->reconnect = atoi(optarg);
break;
case 's':
myfree(state->sni);
state->sni = mystrdup(optarg);
break;
case 'w':
state->wrapper_mode = 1;
break;
case 'X':
state->tlsproxy_mode = 1;
break;
#endif
}
}
/*
* Address family preference.
*/
state->addr_pref =
name_code(addr_pref_map, NAME_CODE_FLAG_NONE, state->options.addr_pref ?
state->options.addr_pref : "any");
if (state->addr_pref < 0)
msg_fatal("bad '-a' option value: %s", state->options.addr_pref);
#ifdef USE_TLS
if (state->tlsproxy_mode && state->reconnect >= 0)
msg_fatal("The -X and -r options are mutually exclusive");
#endif
/*
* Select hostname lookup mechanisms.
*/
state->host_lookup =
name_mask("-h option", lookup_masks, state->options.host_lookup ?
state->options.host_lookup : "dns");
#ifdef USE_TLS
if (*state->chains && *state->certfile)
msg_fatal("When the '-H' option is used, neither the '-k',"
" nor the '-K' options may be used");
if (state->reconnect < 0)
tlsmgrmem_disable();
if (state->options.logopts == 0)
state->options.logopts = mystrdup("routine,certmatch");
state->log_mask = tls_log_mask("-L option", state->options.logopts);
if (state->options.level) {
state->level = tls_level_lookup(state->options.level);
switch (state->level) {
case TLS_LEV_NONE:
if (state->wrapper_mode)
msg_fatal("SSL wrapper mode requires that TLS not be disabled");
return;
case TLS_LEV_INVALID:
msg_fatal("Invalid TLS level \"%s\"", state->options.level);
}
}
/*
* We first call tls_init(), which ultimately calls SSL_library_init(),
* since otherwise we can't tell whether we have the message digests
* required for DANE support.
*/
tls_init(state);
if (TLS_DANE_BASED(state->level) && !tls_dane_avail()) {
msg_warn("DANE TLS support is not available, resorting to \"secure\"");
state->level = TLS_LEV_SECURE;
}
state->tls_bio = 0;
if (state->print_trust)
state->tls_bio = BIO_new_fp(stdout, BIO_NOCLOSE);
#endif
}
/* parse_match - process match arguments */
static void parse_match(STATE *state, int argc, char *argv[])
{
#ifdef USE_TLS
switch (state->level) {
case TLS_LEV_SECURE:
state->match = argv_alloc(2);
while (*argv)
argv_split_append(state->match, *argv++, "");
if (state->match->argc == 0)
argv_add(state->match, "nexthop", "dot-nexthop", ARGV_END);
break;
case TLS_LEV_VERIFY:
state->match = argv_alloc(1);
while (*argv)
argv_split_append(state->match, *argv++, "");
if (state->match->argc == 0)
argv_add(state->match, "hostname", ARGV_END);
break;
case TLS_LEV_FPRINT:
state->dane = tls_dane_alloc();
while (*argv)
tls_dane_add_ee_digests((TLS_DANE *) state->dane,
state->mdalg, *argv++, "");
break;
case TLS_LEV_DANE:
case TLS_LEV_DANE_ONLY:
state->match = argv_alloc(2);
argv_add(state->match, "nexthop", "hostname", ARGV_END);
break;
}
#endif
}
/* parse_tas - process '-A' trust anchor file option */
static void parse_tas(STATE *state)
{
#ifdef USE_TLS
char **file;
if (!state->options.tas->argc)
return;
switch (state->level) {
default:
return;
case TLS_LEV_SECURE:
case TLS_LEV_VERIFY:
state->dane = tls_dane_alloc();
for (file = state->options.tas->argv; *file; ++file) {
if (!tls_dane_load_trustfile((TLS_DANE *) state->dane, *file))
break;
}
if (*file)
msg_fatal("Failed to load trust anchor file: %s", *file);
break;
}
#endif
}
int main(int argc, char *argv[])
{
static STATE state;
char *loopenv = getenv("VALGRINDLOOP");
int loop = loopenv ? atoi(loopenv) : 1;
ARGV *import_env;
/* Don't die when a peer goes away unexpectedly. */
signal(SIGPIPE, SIG_IGN);
/* We're a diagnostic utility, so diagnostic messages go to stdout. */
var_procname = mystrdup(basename(argv[0]));
set_mail_conf_str(VAR_PROCNAME, var_procname);
msg_vstream_init(var_procname, VSTREAM_OUT);
/*
* Load main.cf, parse command-line options, then process main.cf
* settings plus any command-line "-o" overrides.
*/
mail_conf_suck();
parse_options(&state, argc, argv);
mail_params_init();
parse_tas(&state);
/* Enforce consistent operation of different Postfix parts. */
import_env = mail_parm_split(VAR_IMPORT_ENVIRON, var_import_environ);
update_env(import_env->argv);
argv_free(import_env);
argc -= optind;
argv += optind;
/* The first non-option argument is the destination. */
if (!argc)
usage();
state.dest = mystrdup(argv[0]);
parse_match(&state, --argc, ++argv);
/* Don't talk to remote systems as root */
if (!geteuid())
chroot_uid(0, var_mail_owner);
while (loop-- > 0)
run(&state);
/* Be valgrind friendly and clean-up */
cleanup(&state);
/* OpenSSL 1.1.0 and later (de)initialization is implicit */
#if defined(USE_TLS) && OPENSSL_VERSION_NUMBER < 0x10100000L
ssl_cleanup();
#endif
return (0);
}
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