Ejemplo n.º 1
0
 /*
  * This is the actual startup routine for the connection. We expect that the
  * buffers are flushed and the "220 Ready to start TLS" was received by us,
  * so that we can immediately start the TLS handshake process.
  */
TLS_SESS_STATE *tls_client_start(const TLS_CLIENT_START_PROPS *props)
{
    int     sts;
    int     protomask;
    const char *cipher_list;
    SSL_SESSION *session = 0;
    SSL_CIPHER_const SSL_CIPHER *cipher;
    X509   *peercert;
    TLS_SESS_STATE *TLScontext;
    TLS_APPL_STATE *app_ctx = props->ctx;
    char   *myserverid;
    int     log_mask = app_ctx->log_mask;

    /*
     * When certificate verification is required, log trust chain validation
     * errors even when disabled by default for opportunistic sessions. For
     * DANE this only applies when using trust-anchor associations.
     */
    if (TLS_MUST_TRUST(props->tls_level)
      && (!TLS_DANE_BASED(props->tls_level) || TLS_DANE_HASTA(props->dane)))
	log_mask |= TLS_LOG_UNTRUSTED;

    if (log_mask & TLS_LOG_VERBOSE)
	msg_info("setting up TLS connection to %s", props->namaddr);

    /*
     * First make sure we have valid protocol and cipher parameters
     * 
     * Per-session protocol restrictions must be applied to the SSL connection,
     * as restrictions in the global context cannot be cleared.
     */
    protomask = tls_protocol_mask(props->protocols);
    if (protomask == TLS_PROTOCOL_INVALID) {
	/* tls_protocol_mask() logs no warning. */
	msg_warn("%s: Invalid TLS protocol list \"%s\": aborting TLS session",
		 props->namaddr, props->protocols);
	return (0);
    }
    /* DANE requires SSLv3 or later, not SSLv2. */
    if (TLS_DANE_BASED(props->tls_level))
	protomask |= TLS_PROTOCOL_SSLv2;

    /*
     * Per session cipher selection for sessions with mandatory encryption
     * 
     * The cipherlist is applied to the global SSL context, since it is likely
     * to stay the same between connections, so we make use of a 1-element
     * cache to return the same result for identical inputs.
     */
    cipher_list = tls_set_ciphers(app_ctx, "TLS", props->cipher_grade,
				  props->cipher_exclusions);
    if (cipher_list == 0) {
	msg_warn("%s: %s: aborting TLS session",
		 props->namaddr, vstring_str(app_ctx->why));
	return (0);
    }
    if (log_mask & TLS_LOG_VERBOSE)
	msg_info("%s: TLS cipher list \"%s\"", props->namaddr, cipher_list);

    /*
     * OpenSSL will ignore cached sessions that use the wrong protocol. So we
     * do not need to filter out cached sessions with the "wrong" protocol,
     * rather OpenSSL will simply negotiate a new session.
     * 
     * We salt the session lookup key with the protocol list, so that sessions
     * found in the cache are plausibly acceptable.
     * 
     * By the time a TLS client is negotiating ciphers it has already offered to
     * re-use a session, it is too late to renege on the offer. So we must
     * not attempt to re-use sessions whose ciphers are too weak. We salt the
     * session lookup key with the cipher list, so that sessions found in the
     * cache are always acceptable.
     * 
     * With DANE, (more generally any TLScontext where we specified explicit
     * trust-anchor or end-entity certificates) the verification status of
     * the SSL session depends on the specified list.  Since we verify the
     * certificate only during the initial handshake, we must segregate
     * sessions with different TA lists.  Note, that TA re-verification is
     * not possible with cached sessions, since these don't hold the complete
     * peer trust chain.  Therefore, we compute a digest of the sorted TA
     * parameters and append it to the serverid.
     */
    myserverid = tls_serverid_digest(props, protomask, cipher_list);

    /*
     * Allocate a new TLScontext for the new connection and get an SSL
     * structure. Add the location of TLScontext to the SSL to later retrieve
     * the information inside the tls_verify_certificate_callback().
     * 
     * If session caching was enabled when TLS was initialized, the cache type
     * is stored in the client SSL context.
     */
    TLScontext = tls_alloc_sess_context(log_mask, props->namaddr);
    TLScontext->cache_type = app_ctx->cache_type;

    TLScontext->serverid = myserverid;
    TLScontext->stream = props->stream;
    TLScontext->mdalg = props->mdalg;

    /* Alias DANE digest info from props */
    TLScontext->dane = props->dane;

    if ((TLScontext->con = SSL_new(app_ctx->ssl_ctx)) == NULL) {
	msg_warn("Could not allocate 'TLScontext->con' with SSL_new()");
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }
    if (!SSL_set_ex_data(TLScontext->con, TLScontext_index, TLScontext)) {
	msg_warn("Could not set application data for 'TLScontext->con'");
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * Apply session protocol restrictions.
     */
    if (protomask != 0)
	SSL_set_options(TLScontext->con, TLS_SSL_OP_PROTOMASK(protomask));

    /*
     * XXX To avoid memory leaks we must always call SSL_SESSION_free() after
     * calling SSL_set_session(), regardless of whether or not the session
     * will be reused.
     */
    if (TLScontext->cache_type) {
	session = load_clnt_session(TLScontext);
	if (session) {
	    SSL_set_session(TLScontext->con, session);
	    SSL_SESSION_free(session);		/* 200411 */
	}
    }
#ifdef TLSEXT_MAXLEN_host_name
    if (TLS_DANE_BASED(props->tls_level)
	&& strlen(props->host) <= TLSEXT_MAXLEN_host_name) {

	/*
	 * With DANE sessions, send an SNI hint.  We don't care whether the
	 * server reports finding a matching certificate or not, so no
	 * callback is required to process the server response.  Our use of
	 * SNI is limited to giving servers that are (mis)configured to use
	 * SNI the best opportunity to find the certificate they promised via
	 * the associated TLSA RRs.  (Generally, server administrators should
	 * avoid SNI, and there are no plans to support SNI in the Postfix
	 * SMTP server).
	 * 
	 * Since the hostname is DNSSEC-validated, it must be a DNS FQDN and
	 * thererefore valid for use with SNI.  Failure to set a valid SNI
	 * hostname is a memory allocation error, and thus transient.  Since
	 * we must not cache the session if we failed to send the SNI name,
	 * we have little choice but to abort.
	 */
	if (!SSL_set_tlsext_host_name(TLScontext->con, props->host)) {
	    msg_warn("%s: error setting SNI hostname to: %s", props->namaddr,
		     props->host);
	    tls_free_context(TLScontext);
	    return (0);
	}
	if (log_mask & TLS_LOG_DEBUG)
	    msg_info("%s: SNI hostname: %s", props->namaddr, props->host);
    }
#endif

    /*
     * Before really starting anything, try to seed the PRNG a little bit
     * more.
     */
    tls_int_seed();
    (void) tls_ext_seed(var_tls_daemon_rand_bytes);

    /*
     * Initialize the SSL connection to connect state. This should not be
     * necessary anymore since 0.9.3, but the call is still in the library
     * and maintaining compatibility never hurts.
     */
    SSL_set_connect_state(TLScontext->con);

    /*
     * Connect the SSL connection with the network socket.
     */
    if (SSL_set_fd(TLScontext->con, vstream_fileno(props->stream)) != 1) {
	msg_info("SSL_set_fd error to %s", props->namaddr);
	tls_print_errors();
	uncache_session(app_ctx->ssl_ctx, TLScontext);
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * Turn on non-blocking I/O so that we can enforce timeouts on network
     * I/O.
     */
    non_blocking(vstream_fileno(props->stream), NON_BLOCKING);

    /*
     * If the debug level selected is high enough, all of the data is dumped:
     * TLS_LOG_TLSPKTS will dump the SSL negotiation, TLS_LOG_ALLPKTS will
     * dump everything.
     * 
     * We do have an SSL_set_fd() and now suddenly a BIO_ routine is called?
     * Well there is a BIO below the SSL routines that is automatically
     * created for us, so we can use it for debugging purposes.
     */
    if (log_mask & TLS_LOG_TLSPKTS)
	BIO_set_callback(SSL_get_rbio(TLScontext->con), tls_bio_dump_cb);

    tls_dane_set_callback(app_ctx->ssl_ctx, TLScontext);

    /*
     * Start TLS negotiations. This process is a black box that invokes our
     * call-backs for certificate verification.
     * 
     * Error handling: If the SSL handhake fails, we print out an error message
     * and remove all TLS state concerning this session.
     */
    sts = tls_bio_connect(vstream_fileno(props->stream), props->timeout,
			  TLScontext);
    if (sts <= 0) {
	if (ERR_peek_error() != 0) {
	    msg_info("SSL_connect error to %s: %d", props->namaddr, sts);
	    tls_print_errors();
	} else if (errno != 0) {
	    msg_info("SSL_connect error to %s: %m", props->namaddr);
	} else {
	    msg_info("SSL_connect error to %s: lost connection",
		     props->namaddr);
	}
	uncache_session(app_ctx->ssl_ctx, TLScontext);
	tls_free_context(TLScontext);
	return (0);
    }
    /* Turn off packet dump if only dumping the handshake */
    if ((log_mask & TLS_LOG_ALLPKTS) == 0)
	BIO_set_callback(SSL_get_rbio(TLScontext->con), 0);

    /*
     * The caller may want to know if this session was reused or if a new
     * session was negotiated.
     */
    TLScontext->session_reused = SSL_session_reused(TLScontext->con);
    if ((log_mask & TLS_LOG_CACHE) && TLScontext->session_reused)
	msg_info("%s: Reusing old session", TLScontext->namaddr);

    /*
     * Do peername verification if requested and extract useful information
     * from the certificate for later use.
     */
    if ((peercert = SSL_get_peer_certificate(TLScontext->con)) != 0) {
	TLScontext->peer_status |= TLS_CERT_FLAG_PRESENT;

	/*
	 * Peer name or fingerprint verification as requested.
	 * Unconditionally set peer_CN, issuer_CN and peer_cert_fprint. Check
	 * fingerprint first, and avoid logging verified as untrusted in the
	 * call to verify_extract_name().
	 */
	verify_extract_print(TLScontext, peercert, props);
	verify_extract_name(TLScontext, peercert, props);

	if (TLScontext->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", props->namaddr,
		     TLScontext->peer_CN, TLScontext->issuer_CN,
		     TLScontext->peer_cert_fprint,
		     TLScontext->peer_pkey_fprint);
	X509_free(peercert);
    } else {
	TLScontext->issuer_CN = mystrdup("");
	TLScontext->peer_CN = mystrdup("");
	TLScontext->peer_cert_fprint = mystrdup("");
	TLScontext->peer_pkey_fprint = mystrdup("");
    }

    /*
     * Finally, collect information about protocol and cipher for logging
     */
    TLScontext->protocol = SSL_get_version(TLScontext->con);
    cipher = SSL_get_current_cipher(TLScontext->con);
    TLScontext->cipher_name = SSL_CIPHER_get_name(cipher);
    TLScontext->cipher_usebits = SSL_CIPHER_get_bits(cipher,
					     &(TLScontext->cipher_algbits));

    /*
     * The TLS engine is active. Switch to the tls_timed_read/write()
     * functions and make the TLScontext available to those functions.
     */
    tls_stream_start(props->stream, TLScontext);

    /*
     * All the key facts in a single log entry.
     */
    if (log_mask & TLS_LOG_SUMMARY)
	msg_info("%s TLS connection established to %s: %s with cipher %s "
		 "(%d/%d bits)",
		 !TLS_CERT_IS_PRESENT(TLScontext) ? "Anonymous" :
		 TLS_CERT_IS_MATCHED(TLScontext) ? "Verified" :
		 TLS_CERT_IS_TRUSTED(TLScontext) ? "Trusted" : "Untrusted",
	      props->namaddr, TLScontext->protocol, TLScontext->cipher_name,
		 TLScontext->cipher_usebits, TLScontext->cipher_algbits);

    tls_int_seed();

    return (TLScontext);
}
Ejemplo n.º 2
0
/*
 * This is the actual startup routine for the connection. We expect that the
 * buffers are flushed and the "220 Ready to start TLS" was received by us,
 * so that we can immediately start the TLS handshake process.
 */
TLS_SESS_STATE *tls_client_start(const TLS_CLIENT_START_PROPS *props)
{
    const   char *myname = "tls_client_start";
    int     sts;
    int     protomask;
    const char *cipher_list;
    SSL_SESSION *session;
    SSL_CIPHER *cipher;
    X509   *peercert;
    TLS_SESS_STATE *TLScontext;
    TLS_APPL_STATE *app_ctx = props->ctx;
    ACL_VSTRING *myserverid;

    if (props->log_level >= 1)
	acl_msg_info("%s(%d): setting up TLS connection to %s",
		myname, __LINE__, props->namaddr);

    /*
     * First make sure we have valid protocol and cipher parameters
     * 
     * The cipherlist will be applied to the global SSL context, where it can be
     * repeatedly reset if necessary, but the protocol restrictions will be
     * is applied to the SSL connection, because protocol restrictions in the
     * global context cannot be cleared.
     */

    /*
     * OpenSSL will ignore cached sessions that use the wrong protocol. So we
     * do not need to filter out cached sessions with the "wrong" protocol,
     * rather OpenSSL will simply negotiate a new session.
     * 
     * Still, we salt the session lookup key with the protocol list, so that
     * sessions found in the cache are always acceptable.
     */
    protomask = tls_protocol_mask(props->protocols);
    if (protomask == TLS_PROTOCOL_INVALID) {
	/* tls_protocol_mask() logs no warning. */
	acl_msg_warn("%s(%d): nameaddr: %s: Invalid TLS protocol list \"%s\": aborting TLS session",
		myname, __LINE__, props->namaddr, props->protocols);
	return (0);
    }
    myserverid = acl_vstring_alloc(100);
    acl_vstring_sprintf_append(myserverid, "%s&p=%d", props->serverid, protomask);

    /*
     * Per session cipher selection for sessions with mandatory encryption
     * 
     * By the time a TLS client is negotiating ciphers it has already offered to
     * re-use a session, it is too late to renege on the offer. So we must
     * not attempt to re-use sessions whose ciphers are too weak. We salt the
     * session lookup key with the cipher list, so that sessions found in the
     * cache are always acceptable.
     */
    cipher_list = tls_set_ciphers(app_ctx, "TLS", props->cipher_grade,
	    props->cipher_exclusions);
    if (cipher_list == 0) {
	acl_msg_warn("%s(%d): %s: %s: aborting TLS session",
		myname, __LINE__, props->namaddr, acl_vstring_str(app_ctx->why));
	acl_vstring_free(myserverid);
	return (0);
    }
    if (props->log_level >= 2)
	acl_msg_info("%s(%d): %s: TLS cipher list \"%s\"",
		myname, __LINE__, props->namaddr, cipher_list);
    acl_vstring_sprintf_append(myserverid, "&c=%s", cipher_list);

    /*
     * Allocate a new TLScontext for the new connection and get an SSL
     * structure. Add the location of TLScontext to the SSL to later retrieve
     * the information inside the tls_verify_certificate_callback().
     * 
     * If session caching was enabled when TLS was initialized, the cache type
     * is stored in the client SSL context.
     */
    TLScontext = tls_alloc_sess_context(props->log_level, props->namaddr);
    TLScontext->cache_type = app_ctx->cache_type;

    TLScontext->serverid = acl_vstring_export(myserverid);

    if ((TLScontext->con = SSL_new(app_ctx->ssl_ctx)) == NULL) {
	acl_msg_warn("%s(%d): Could not allocate 'TLScontext->con' with SSL_new()",
		myname, __LINE__);
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }
    if (!SSL_set_ex_data(TLScontext->con, TLScontext_index, TLScontext)) {
	acl_msg_warn("%s(%d): Could not set application data for 'TLScontext->con'",
		myname, __LINE__);
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * Apply session protocol restrictions.
     */
    if (protomask != 0)
	SSL_set_options(TLScontext->con,
		((protomask & TLS_PROTOCOL_TLSv1) ? SSL_OP_NO_TLSv1 : 0L)
		| ((protomask & TLS_PROTOCOL_SSLv3) ? SSL_OP_NO_SSLv3 : 0L)
		| ((protomask & TLS_PROTOCOL_SSLv2) ? SSL_OP_NO_SSLv2 : 0L));

    /*
     * The TLS connection is realized by a BIO_pair, so obtain the pair.
     * 
     * XXX There is no need to make internal_bio a member of the TLScontext
     * structure. It will be attached to TLScontext->con, and destroyed along
     * with it. The network_bio, however, needs to be freed explicitly.
     */
    if (!BIO_new_bio_pair(&TLScontext->internal_bio, TLS_BIO_BUFSIZE,
		&TLScontext->network_bio, TLS_BIO_BUFSIZE)) {
	acl_msg_warn("%s(%d): Could not obtain BIO_pair", myname, __LINE__);
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * XXX To avoid memory leaks we must always call SSL_SESSION_free() after
     * calling SSL_set_session(), regardless of whether or not the session
     * will be reused.
     */
    if (TLScontext->cache_type) {
	session = load_clnt_session(TLScontext);
	if (session) {
	    SSL_set_session(TLScontext->con, session);
	    SSL_SESSION_free(session);		/* 200411 */
#if (OPENSSL_VERSION_NUMBER < 0x00906011L) || (OPENSSL_VERSION_NUMBER == 0x00907000L)

	    /*
	     * Ugly Hack: OpenSSL before 0.9.6a does not store the verify
	     * result in sessions for the client side. We modify the session
	     * directly which is version specific, but this bug is version
	     * specific, too.
	     * 
	     * READ: 0-09-06-01-1 = 0-9-6-a-beta1: all versions before beta1
	     * have this bug, it has been fixed during development of 0.9.6a.
	     * The development version of 0.9.7 can have this bug, too. It
	     * has been fixed on 2000/11/29.
	     */
	    SSL_set_verify_result(TLScontext->con, session->verify_result);
#endif
	}
    }

    /*
     * Before really starting anything, try to seed the PRNG a little bit
     * more.
     */
    tls_int_seed();
    if (var_tls_daemon_rand_bytes > 0)
	(void) tls_ext_seed(var_tls_daemon_rand_bytes);

    /*
     * Initialize the SSL connection to connect state. This should not be
     * necessary anymore since 0.9.3, but the call is still in the library
     * and maintaining compatibility never hurts.
     */
    SSL_set_connect_state(TLScontext->con);

    /*
     * Connect the SSL connection with the Postfix side of the BIO-pair for
     * reading and writing.
     */
    SSL_set_bio(TLScontext->con, TLScontext->internal_bio, TLScontext->internal_bio);

    /*
     * If the debug level selected is high enough, all of the data is dumped:
     * 3 will dump the SSL negotiation, 4 will dump everything.
     * 
     * We do have an SSL_set_fd() and now suddenly a BIO_ routine is called?
     * Well there is a BIO below the SSL routines that is automatically
     * created for us, so we can use it for debugging purposes.
     */
    if (props->log_level >= 3)
	BIO_set_callback(SSL_get_rbio(TLScontext->con), tls_bio_dump_cb);

    /*
     * Start TLS negotiations. This process is a black box that invokes our
     * call-backs for certificate verification.
     * 
     * Error handling: If the SSL handhake fails, we print out an error message
     * and remove all TLS state concerning this session.
     */
    sts = tls_bio_connect(ACL_VSTREAM_SOCK(props->stream), props->timeout,
	    TLScontext);
    if (sts <= 0) {
	acl_msg_info("%s(%d): SSL_connect error to %s: %d",
		myname, __LINE__, props->namaddr, sts);
	tls_print_errors();
	uncache_session(app_ctx->ssl_ctx, TLScontext);
	tls_free_context(TLScontext);
	return (0);
    }
    /* Only log_level==4 dumps everything */
    if (props->log_level < 4)
	BIO_set_callback(SSL_get_rbio(TLScontext->con), 0);

    /*
     * The caller may want to know if this session was reused or if a new
     * session was negotiated.
     */
    TLScontext->session_reused = SSL_session_reused(TLScontext->con);
    if (props->log_level >= 2 && TLScontext->session_reused)
	acl_msg_info("%s(%d): %s: Reusing old session",
		myname, __LINE__, TLScontext->namaddr);

    /*
     * Do peername verification if requested and extract useful information
     * from the certificate for later use.
     */
    if ((peercert = SSL_get_peer_certificate(TLScontext->con)) != 0) {
	TLScontext->peer_status |= TLS_CERT_FLAG_PRESENT;

	/*
	 * Peer name or fingerprint verification as requested.
	 * Unconditionally set peer_CN, issuer_CN and peer_fingerprint.
	 */
	verify_extract_name(TLScontext, peercert, props);
	verify_extract_print(TLScontext, peercert, props);
	X509_free(peercert);
    } else {
	TLScontext->issuer_CN = acl_mystrdup("");
	TLScontext->peer_CN = acl_mystrdup("");
	TLScontext->peer_fingerprint = acl_mystrdup("");
    }

    /*
     * Finally, collect information about protocol and cipher for logging
     */
    TLScontext->protocol = SSL_get_version(TLScontext->con);
    cipher = SSL_get_current_cipher(TLScontext->con);
    TLScontext->cipher_name = SSL_CIPHER_get_name(cipher);
    TLScontext->cipher_usebits = SSL_CIPHER_get_bits(cipher,
	    &(TLScontext->cipher_algbits));

    /*
     * The TLS engine is active. Switch to the tls_timed_read/write()
     * functions and make the TLScontext available to those functions.
     */
    tls_stream_start(props->stream, TLScontext);

    /*
     * All the key facts in a single log entry.
     */
    if (props->log_level >= 1)
	acl_msg_info("%s(%d): %s TLS connection established to %s: %s with cipher %s "
		"(%d/%d bits)", myname, __LINE__,
		TLS_CERT_IS_MATCHED(TLScontext) ? "Verified" :
		TLS_CERT_IS_TRUSTED(TLScontext) ? "Trusted" : "Untrusted",
		props->namaddr, TLScontext->protocol, TLScontext->cipher_name,
		TLScontext->cipher_usebits, TLScontext->cipher_algbits);

    tls_int_seed();

    return (TLScontext);
}
Ejemplo n.º 3
0
 /*
  * This is the actual startup routine for the connection. We expect that the
  * buffers are flushed and the "220 Ready to start TLS" was received by us,
  * so that we can immediately start the TLS handshake process.
  */
TLS_SESS_STATE *tls_client_start(const TLS_CLIENT_START_PROPS *props)
{
    int     sts;
    int     protomask;
    const char *cipher_list;
    SSL_SESSION *session;
    const SSL_CIPHER *cipher;
    X509   *peercert;
    TLS_SESS_STATE *TLScontext;
    TLS_APPL_STATE *app_ctx = props->ctx;
    VSTRING *myserverid;
    int     log_mask = app_ctx->log_mask;

    /*
     * When certificate verification is required, log trust chain validation
     * errors even when disabled by default for opportunistic sessions.
     */
    if (props->tls_level >= TLS_LEV_VERIFY)
	log_mask |= TLS_LOG_UNTRUSTED;

    if (log_mask & TLS_LOG_VERBOSE)
	msg_info("setting up TLS connection to %s", props->namaddr);

    /*
     * First make sure we have valid protocol and cipher parameters
     * 
     * The cipherlist will be applied to the global SSL context, where it can be
     * repeatedly reset if necessary, but the protocol restrictions will be
     * is applied to the SSL connection, because protocol restrictions in the
     * global context cannot be cleared.
     */

    /*
     * OpenSSL will ignore cached sessions that use the wrong protocol. So we
     * do not need to filter out cached sessions with the "wrong" protocol,
     * rather OpenSSL will simply negotiate a new session.
     * 
     * Still, we salt the session lookup key with the protocol list, so that
     * sessions found in the cache are always acceptable.
     */
    protomask = tls_protocol_mask(props->protocols);
    if (protomask == TLS_PROTOCOL_INVALID) {
	/* tls_protocol_mask() logs no warning. */
	msg_warn("%s: Invalid TLS protocol list \"%s\": aborting TLS session",
		 props->namaddr, props->protocols);
	return (0);
    }
    myserverid = vstring_alloc(100);
    vstring_sprintf_append(myserverid, "%s&p=%d", props->serverid, protomask);

    /*
     * Per session cipher selection for sessions with mandatory encryption
     * 
     * By the time a TLS client is negotiating ciphers it has already offered to
     * re-use a session, it is too late to renege on the offer. So we must
     * not attempt to re-use sessions whose ciphers are too weak. We salt the
     * session lookup key with the cipher list, so that sessions found in the
     * cache are always acceptable.
     */
    cipher_list = tls_set_ciphers(app_ctx, "TLS", props->cipher_grade,
				  props->cipher_exclusions);
    if (cipher_list == 0) {
	msg_warn("%s: %s: aborting TLS session",
		 props->namaddr, vstring_str(app_ctx->why));
	vstring_free(myserverid);
	return (0);
    }
    if (log_mask & TLS_LOG_VERBOSE)
	msg_info("%s: TLS cipher list \"%s\"", props->namaddr, cipher_list);
    vstring_sprintf_append(myserverid, "&c=%s", cipher_list);

    /*
     * Finally, salt the session key with the OpenSSL library version,
     * (run-time, rather than compile-time, just in case that matters).
     */
    vstring_sprintf_append(myserverid, "&l=%ld", (long) SSLeay());

    /*
     * Allocate a new TLScontext for the new connection and get an SSL
     * structure. Add the location of TLScontext to the SSL to later retrieve
     * the information inside the tls_verify_certificate_callback().
     * 
     * If session caching was enabled when TLS was initialized, the cache type
     * is stored in the client SSL context.
     */
    TLScontext = tls_alloc_sess_context(log_mask, props->namaddr);
    TLScontext->cache_type = app_ctx->cache_type;

    TLScontext->serverid = vstring_export(myserverid);
    TLScontext->stream = props->stream;

    if ((TLScontext->con = SSL_new(app_ctx->ssl_ctx)) == NULL) {
	msg_warn("Could not allocate 'TLScontext->con' with SSL_new()");
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }
    if (!SSL_set_ex_data(TLScontext->con, TLScontext_index, TLScontext)) {
	msg_warn("Could not set application data for 'TLScontext->con'");
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * Apply session protocol restrictions.
     */
    if (protomask != 0)
	SSL_set_options(TLScontext->con,
		   ((protomask & TLS_PROTOCOL_TLSv1) ? SSL_OP_NO_TLSv1 : 0L)
	     | ((protomask & TLS_PROTOCOL_TLSv1_1) ? SSL_OP_NO_TLSv1_1 : 0L)
	     | ((protomask & TLS_PROTOCOL_TLSv1_2) ? SSL_OP_NO_TLSv1_2 : 0L)
		 | ((protomask & TLS_PROTOCOL_SSLv3) ? SSL_OP_NO_SSLv3 : 0L)
	       | ((protomask & TLS_PROTOCOL_SSLv2) ? SSL_OP_NO_SSLv2 : 0L));

    /*
     * XXX To avoid memory leaks we must always call SSL_SESSION_free() after
     * calling SSL_set_session(), regardless of whether or not the session
     * will be reused.
     */
    if (TLScontext->cache_type) {
	session = load_clnt_session(TLScontext);
	if (session) {
	    SSL_set_session(TLScontext->con, session);
	    SSL_SESSION_free(session);		/* 200411 */
#if (OPENSSL_VERSION_NUMBER < 0x00906011L) || (OPENSSL_VERSION_NUMBER == 0x00907000L)

	    /*
	     * Ugly Hack: OpenSSL before 0.9.6a does not store the verify
	     * result in sessions for the client side. We modify the session
	     * directly which is version specific, but this bug is version
	     * specific, too.
	     * 
	     * READ: 0-09-06-01-1 = 0-9-6-a-beta1: all versions before beta1
	     * have this bug, it has been fixed during development of 0.9.6a.
	     * The development version of 0.9.7 can have this bug, too. It
	     * has been fixed on 2000/11/29.
	     */
	    SSL_set_verify_result(TLScontext->con, session->verify_result);
#endif

	}
    }

    /*
     * Before really starting anything, try to seed the PRNG a little bit
     * more.
     */
    tls_int_seed();
    (void) tls_ext_seed(var_tls_daemon_rand_bytes);

    /*
     * Initialize the SSL connection to connect state. This should not be
     * necessary anymore since 0.9.3, but the call is still in the library
     * and maintaining compatibility never hurts.
     */
    SSL_set_connect_state(TLScontext->con);

    /*
     * Connect the SSL connection with the network socket.
     */
    if (SSL_set_fd(TLScontext->con, vstream_fileno(props->stream)) != 1) {
	msg_info("SSL_set_fd error to %s", props->namaddr);
	tls_print_errors();
	uncache_session(app_ctx->ssl_ctx, TLScontext);
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * Turn on non-blocking I/O so that we can enforce timeouts on network
     * I/O.
     */
    non_blocking(vstream_fileno(props->stream), NON_BLOCKING);

    /*
     * If the debug level selected is high enough, all of the data is dumped:
     * TLS_LOG_TLSPKTS will dump the SSL negotiation, TLS_LOG_ALLPKTS will
     * dump everything.
     * 
     * We do have an SSL_set_fd() and now suddenly a BIO_ routine is called?
     * Well there is a BIO below the SSL routines that is automatically
     * created for us, so we can use it for debugging purposes.
     */
    if (log_mask & TLS_LOG_TLSPKTS)
	BIO_set_callback(SSL_get_rbio(TLScontext->con), tls_bio_dump_cb);

    /*
     * Start TLS negotiations. This process is a black box that invokes our
     * call-backs for certificate verification.
     * 
     * Error handling: If the SSL handhake fails, we print out an error message
     * and remove all TLS state concerning this session.
     */
    sts = tls_bio_connect(vstream_fileno(props->stream), props->timeout,
			  TLScontext);
    if (sts <= 0) {
	if (ERR_peek_error() != 0) {
	    msg_info("SSL_connect error to %s: %d", props->namaddr, sts);
	    tls_print_errors();
	} else if (errno != 0) {
	    msg_info("SSL_connect error to %s: %m", props->namaddr);
	} else {
	    msg_info("SSL_connect error to %s: lost connection",
		     props->namaddr);
	}
	uncache_session(app_ctx->ssl_ctx, TLScontext);
	tls_free_context(TLScontext);
	return (0);
    }
    /* Turn off packet dump if only dumping the handshake */
    if ((log_mask & TLS_LOG_ALLPKTS) == 0)
	BIO_set_callback(SSL_get_rbio(TLScontext->con), 0);

    /*
     * The caller may want to know if this session was reused or if a new
     * session was negotiated.
     */
    TLScontext->session_reused = SSL_session_reused(TLScontext->con);
    if ((log_mask & TLS_LOG_CACHE) && TLScontext->session_reused)
	msg_info("%s: Reusing old session", TLScontext->namaddr);

    /*
     * Do peername verification if requested and extract useful information
     * from the certificate for later use.
     */
    if ((peercert = SSL_get_peer_certificate(TLScontext->con)) != 0) {
	TLScontext->peer_status |= TLS_CERT_FLAG_PRESENT;

	/*
	 * Peer name or fingerprint verification as requested.
	 * Unconditionally set peer_CN, issuer_CN and peer_fingerprint.
	 */
	verify_extract_name(TLScontext, peercert, props);
	verify_extract_print(TLScontext, peercert, props);

	if (TLScontext->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", props->namaddr,
		     TLScontext->peer_CN, TLScontext->issuer_CN,
		     TLScontext->peer_fingerprint,
		     TLScontext->peer_pkey_fprint);
	X509_free(peercert);
    } else {
	TLScontext->issuer_CN = mystrdup("");
	TLScontext->peer_CN = mystrdup("");
	TLScontext->peer_fingerprint = mystrdup("");
	TLScontext->peer_pkey_fprint = mystrdup("");
    }

    /*
     * Finally, collect information about protocol and cipher for logging
     */
    TLScontext->protocol = SSL_get_version(TLScontext->con);
    cipher = SSL_get_current_cipher(TLScontext->con);
    TLScontext->cipher_name = SSL_CIPHER_get_name(cipher);
    TLScontext->cipher_usebits = SSL_CIPHER_get_bits(cipher,
					     &(TLScontext->cipher_algbits));

    /*
     * The TLS engine is active. Switch to the tls_timed_read/write()
     * functions and make the TLScontext available to those functions.
     */
    tls_stream_start(props->stream, TLScontext);

    /*
     * All the key facts in a single log entry.
     */
    if (log_mask & TLS_LOG_SUMMARY)
	msg_info("%s TLS connection established to %s: %s with cipher %s "
	      "(%d/%d bits)", TLS_CERT_IS_MATCHED(TLScontext) ? "Verified" :
		 TLS_CERT_IS_TRUSTED(TLScontext) ? "Trusted" : "Untrusted",
	      props->namaddr, TLScontext->protocol, TLScontext->cipher_name,
		 TLScontext->cipher_usebits, TLScontext->cipher_algbits);

    tls_int_seed();

    return (TLScontext);
}
Ejemplo n.º 4
0
 /*
  * This is the actual startup routine for a new connection. We expect that
  * the SMTP buffers are flushed and the "220 Ready to start TLS" was sent to
  * the client, so that we can immediately start the TLS handshake process.
  */
TLS_SESS_STATE *tls_server_start(const TLS_SERVER_START_PROPS *props)
{
    int     sts;
    TLS_SESS_STATE *TLScontext;
    const char *cipher_list;
    TLS_APPL_STATE *app_ctx = props->ctx;

    if (props->log_level >= 1)
	msg_info("setting up TLS connection from %s", props->namaddr);

    cipher_list = tls_set_ciphers(app_ctx, "TLS", props->cipher_grade,
				  props->cipher_exclusions);
    if (cipher_list == 0) {
	msg_warn("%s: %s: aborting TLS session", props->namaddr,
		 vstring_str(app_ctx->why));
	return (0);
    }
    if (props->log_level >= 2)
	msg_info("%s: TLS cipher list \"%s\"", props->namaddr, cipher_list);

    /*
     * Allocate a new TLScontext for the new connection and get an SSL
     * structure. Add the location of TLScontext to the SSL to later retrieve
     * the information inside the tls_verify_certificate_callback().
     */
    TLScontext = tls_alloc_sess_context(props->log_level, props->namaddr);
    TLScontext->cache_type = app_ctx->cache_type;

    TLScontext->serverid = mystrdup(props->serverid);
    TLScontext->am_server = 1;

    TLScontext->fpt_dgst = mystrdup(props->fpt_dgst);
    TLScontext->stream = props->stream;

    ERR_clear_error();
    if ((TLScontext->con = (SSL *) SSL_new(app_ctx->ssl_ctx)) == 0) {
	msg_warn("Could not allocate 'TLScontext->con' with SSL_new()");
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }
    if (!SSL_set_ex_data(TLScontext->con, TLScontext_index, TLScontext)) {
	msg_warn("Could not set application data for 'TLScontext->con'");
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * Before really starting anything, try to seed the PRNG a little bit
     * more.
     */
    tls_int_seed();
    (void) tls_ext_seed(var_tls_daemon_rand_bytes);

    /*
     * Initialize the SSL connection to accept state. This should not be
     * necessary anymore since 0.9.3, but the call is still in the library
     * and maintaining compatibility never hurts.
     */
    SSL_set_accept_state(TLScontext->con);

    /*
     * Connect the SSL connection with the network socket.
     */
    if (SSL_set_fd(TLScontext->con, props->stream == 0 ? props->fd :
		   vstream_fileno(props->stream)) != 1) {
	msg_info("SSL_set_fd error to %s", props->namaddr);
	tls_print_errors();
	uncache_session(app_ctx->ssl_ctx, TLScontext);
	tls_free_context(TLScontext);
	return (0);
    }

    /*
     * If the debug level selected is high enough, all of the data is dumped:
     * 3 will dump the SSL negotiation, 4 will dump everything.
     * 
     * We do have an SSL_set_fd() and now suddenly a BIO_ routine is called?
     * Well there is a BIO below the SSL routines that is automatically
     * created for us, so we can use it for debugging purposes.
     */
    if (props->log_level >= 3)
	BIO_set_callback(SSL_get_rbio(TLScontext->con), tls_bio_dump_cb);

    /*
     * If we don't trigger the handshake in the library, leave control over
     * SSL_accept/read/write/etc with the application.
     */
    if (props->stream == 0)
	return (TLScontext);

    /*
     * Turn on non-blocking I/O so that we can enforce timeouts on network
     * I/O.
     */
    non_blocking(vstream_fileno(props->stream), NON_BLOCKING);

    /*
     * Start TLS negotiations. This process is a black box that invokes our
     * call-backs for session caching and certificate verification.
     * 
     * Error handling: If the SSL handhake fails, we print out an error message
     * and remove all TLS state concerning this session.
     */
    sts = tls_bio_accept(vstream_fileno(props->stream), props->timeout,
			 TLScontext);
    if (sts <= 0) {
	msg_info("SSL_accept error from %s: %d", props->namaddr, sts);
	tls_print_errors();
	tls_free_context(TLScontext);
	return (0);
    }
    return (tls_server_post_accept(TLScontext));
}