openssl/test/recipes/70-test_sslsigalgs.t
Kurt Roeckx cc7c6eb813 Check that the default signature type is allowed
TLS < 1.2 has fixed signature algorithms: MD5+SHA1 for RSA and SHA1 for the
others. TLS 1.2 sends a list of supported ciphers, but allows not sending
it in which case SHA1 is used. TLS 1.3 makes sending the list mandatory.

When we didn't receive a list from the client, we always used the
defaults without checking that they are allowed by the configuration.

Reviewed-by: Paul Dale <paul.dale@oracle.com>
GH: #10784
(cherry picked from commit b0031e5dc2c8c99a6c04bc7625aa00d3d20a59a5)
2020-01-25 14:12:10 +01:00

429 lines
16 KiB
Perl

#! /usr/bin/env perl
# Copyright 2016-2018 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the OpenSSL license (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
use strict;
use OpenSSL::Test qw/:DEFAULT cmdstr srctop_file bldtop_dir/;
use OpenSSL::Test::Utils;
use TLSProxy::Proxy;
my $test_name = "test_sslsigalgs";
setup($test_name);
plan skip_all => "TLSProxy isn't usable on $^O"
if $^O =~ /^(VMS)$/;
plan skip_all => "$test_name needs the dynamic engine feature enabled"
if disabled("engine") || disabled("dynamic-engine");
plan skip_all => "$test_name needs the sock feature enabled"
if disabled("sock");
plan skip_all => "$test_name needs TLS1.2 or TLS1.3 enabled"
if disabled("tls1_2") && disabled("tls1_3");
$ENV{OPENSSL_ia32cap} = '~0x200000200000000';
my $proxy = TLSProxy::Proxy->new(
undef,
cmdstr(app(["openssl"]), display => 1),
srctop_file("apps", "server.pem"),
(!$ENV{HARNESS_ACTIVE} || $ENV{HARNESS_VERBOSE})
);
use constant {
NO_SIG_ALGS_EXT => 0,
EMPTY_SIG_ALGS_EXT => 1,
NO_KNOWN_SIG_ALGS => 2,
NO_PSS_SIG_ALGS => 3,
PSS_ONLY_SIG_ALGS => 4,
PURE_SIGALGS => 5,
COMPAT_SIGALGS => 6,
SIGALGS_CERT_ALL => 7,
SIGALGS_CERT_PKCS => 8,
SIGALGS_CERT_INVALID => 9
};
#Note: Throughout this test we override the default ciphersuites where TLSv1.2
# is expected to ensure that a ServerKeyExchange message is sent that uses
# the sigalgs
#Test 1: Default sig algs should succeed
$proxy->start() or plan skip_all => "Unable to start up Proxy for tests";
plan tests => 24;
ok(TLSProxy::Message->success, "Default sigalgs");
my $testtype;
SKIP: {
skip "TLSv1.3 disabled", 6 if disabled("tls1_3");
$proxy->filter(\&sigalgs_filter);
#Test 2: Sending no sig algs extension in TLSv1.3 should fail
$proxy->clear();
$testtype = NO_SIG_ALGS_EXT;
$proxy->start();
ok(TLSProxy::Message->fail, "No TLSv1.3 sigalgs");
#Test 3: Sending an empty sig algs extension in TLSv1.3 should fail
$proxy->clear();
$testtype = EMPTY_SIG_ALGS_EXT;
$proxy->start();
ok(TLSProxy::Message->fail, "Empty TLSv1.3 sigalgs");
#Test 4: Sending a list with no recognised sig algs in TLSv1.3 should fail
$proxy->clear();
$testtype = NO_KNOWN_SIG_ALGS;
$proxy->start();
ok(TLSProxy::Message->fail, "No known TLSv1.3 sigalgs");
#Test 5: Sending a sig algs list without pss for an RSA cert in TLSv1.3
# should fail
$proxy->clear();
$testtype = NO_PSS_SIG_ALGS;
$proxy->start();
ok(TLSProxy::Message->fail, "No PSS TLSv1.3 sigalgs");
#Test 6: Sending only TLSv1.3 PSS sig algs in TLSv1.3 should succeed
#TODO(TLS1.3): Do we need to verify the cert to make sure its a PSS only
#cert in this case?
$proxy->clear();
$testtype = PSS_ONLY_SIG_ALGS;
$proxy->start();
ok(TLSProxy::Message->success, "PSS only sigalgs in TLSv1.3");
#Test 7: Modify the CertificateVerify sigalg from rsa_pss_rsae_sha256 to
# rsa_pss_pss_sha256. This should fail because the public key OID
# in the certificate is rsaEncryption and not rsassaPss
$proxy->filter(\&modify_cert_verify_sigalg);
$proxy->clear();
$proxy->start();
ok(TLSProxy::Message->fail,
"Mismatch between CertVerify sigalg and public key OID");
}
SKIP: {
skip "EC or TLSv1.3 disabled", 1
if disabled("tls1_3") || disabled("ec");
#Test 8: Sending a valid sig algs list but not including a sig type that
# matches the certificate should fail in TLSv1.3.
$proxy->clear();
$proxy->clientflags("-sigalgs ECDSA+SHA256");
$proxy->filter(undef);
$proxy->start();
ok(TLSProxy::Message->fail, "No matching TLSv1.3 sigalgs");
}
SKIP: {
skip "EC, TLSv1.3 or TLSv1.2 disabled", 1
if disabled("tls1_2") || disabled("tls1_3") || disabled("ec");
#Test 9: Sending a full list of TLSv1.3 sig algs but negotiating TLSv1.2
# should succeed
$proxy->clear();
$proxy->serverflags("-no_tls1_3");
$proxy->ciphers("ECDHE-RSA-AES128-SHA");
$proxy->filter(undef);
$proxy->start();
ok(TLSProxy::Message->success, "TLSv1.3 client TLSv1.2 server");
}
SKIP: {
skip "EC or TLSv1.2 disabled", 10 if disabled("tls1_2") || disabled("ec");
$proxy->filter(\&sigalgs_filter);
#Test 10: Sending no sig algs extension in TLSv1.2 should succeed at
# security level 1
$proxy->clear();
$testtype = NO_SIG_ALGS_EXT;
$proxy->clientflags("-no_tls1_3 -cipher DEFAULT\@SECLEVEL=1");
$proxy->ciphers("ECDHE-RSA-AES128-SHA\@SECLEVEL=1");
$proxy->start();
ok(TLSProxy::Message->success, "No TLSv1.2 sigalgs seclevel 1");
#Test 11: Sending no sig algs extension in TLSv1.2 should fail at security
# level 2 since it will try to use SHA1. Testing client at level 1,
# server level 2.
$proxy->clear();
$testtype = NO_SIG_ALGS_EXT;
$proxy->clientflags("-tls1_2 -cipher DEFAULT\@SECLEVEL=1");
$proxy->ciphers("DEFAULT\@SECLEVEL=2");
$proxy->start();
ok(TLSProxy::Message->fail, "No TLSv1.2 sigalgs server seclevel 2");
#Test 12: Sending no sig algs extension in TLSv1.2 should fail at security
# level 2 since it will try to use SHA1. Testing client at level 2,
# server level 1.
$proxy->clear();
$testtype = NO_SIG_ALGS_EXT;
$proxy->clientflags("-tls1_2 -cipher DEFAULT\@SECLEVEL=2");
$proxy->ciphers("DEFAULT\@SECLEVEL=1");
$proxy->start();
ok(TLSProxy::Message->fail, "No TLSv1.2 sigalgs client seclevel 2");
#Test 13: Sending an empty sig algs extension in TLSv1.2 should fail
$proxy->clear();
$testtype = EMPTY_SIG_ALGS_EXT;
$proxy->clientflags("-no_tls1_3");
$proxy->ciphers("ECDHE-RSA-AES128-SHA");
$proxy->start();
ok(TLSProxy::Message->fail, "Empty TLSv1.2 sigalgs");
#Test 14: Sending a list with no recognised sig algs in TLSv1.2 should fail
$proxy->clear();
$testtype = NO_KNOWN_SIG_ALGS;
$proxy->clientflags("-no_tls1_3");
$proxy->ciphers("ECDHE-RSA-AES128-SHA");
$proxy->start();
ok(TLSProxy::Message->fail, "No known TLSv1.3 sigalgs");
#Test 15: Sending a sig algs list without pss for an RSA cert in TLSv1.2
# should succeed
$proxy->clear();
$testtype = NO_PSS_SIG_ALGS;
$proxy->clientflags("-no_tls1_3");
$proxy->ciphers("ECDHE-RSA-AES128-SHA");
$proxy->start();
ok(TLSProxy::Message->success, "No PSS TLSv1.2 sigalgs");
#Test 16: Sending only TLSv1.3 PSS sig algs in TLSv1.2 should succeed
$proxy->clear();
$testtype = PSS_ONLY_SIG_ALGS;
$proxy->serverflags("-no_tls1_3");
$proxy->ciphers("ECDHE-RSA-AES128-SHA");
$proxy->start();
ok(TLSProxy::Message->success, "PSS only sigalgs in TLSv1.2");
#Test 17: Responding with a sig alg we did not send in TLSv1.2 should fail
# We send rsa_pkcs1_sha256 and respond with rsa_pss_rsae_sha256
# TODO(TLS1.3): Add a similar test to the TLSv1.3 section above
# when we have an API capable of configuring the TLSv1.3 sig algs
$proxy->clear();
$testtype = PSS_ONLY_SIG_ALGS;
$proxy->clientflags("-no_tls1_3 -sigalgs RSA+SHA256");
$proxy->ciphers("ECDHE-RSA-AES128-SHA");
$proxy->start();
ok(TLSProxy::Message->fail, "Sigalg we did not send in TLSv1.2");
#Test 18: Sending a valid sig algs list but not including a sig type that
# matches the certificate should fail in TLSv1.2
$proxy->clear();
$proxy->clientflags("-no_tls1_3 -sigalgs ECDSA+SHA256");
$proxy->ciphers("ECDHE-RSA-AES128-SHA");
$proxy->filter(undef);
$proxy->start();
ok(TLSProxy::Message->fail, "No matching TLSv1.2 sigalgs");
$proxy->filter(\&sigalgs_filter);
#Test 19: No sig algs extension, ECDSA cert, TLSv1.2 should succeed
$proxy->clear();
$testtype = NO_SIG_ALGS_EXT;
$proxy->clientflags("-no_tls1_3");
$proxy->serverflags("-cert " . srctop_file("test", "certs",
"server-ecdsa-cert.pem") .
" -key " . srctop_file("test", "certs",
"server-ecdsa-key.pem")),
$proxy->ciphers("ECDHE-ECDSA-AES128-SHA");
$proxy->start();
ok(TLSProxy::Message->success, "No TLSv1.2 sigalgs, ECDSA");
}
my ($dsa_status, $sha1_status, $sha224_status);
SKIP: {
skip "TLSv1.3 disabled", 2 if disabled("tls1_3") || disabled("dsa");
#Test 20: signature_algorithms with 1.3-only ClientHello
$testtype = PURE_SIGALGS;
$dsa_status = $sha1_status = $sha224_status = 0;
$proxy->clear();
$proxy->clientflags("-tls1_3");
$proxy->filter(\&modify_sigalgs_filter);
$proxy->start();
ok($dsa_status && $sha1_status && $sha224_status,
"DSA/SHA2 sigalg sent for 1.3-only ClientHello");
#Test 21: signature_algorithms with backwards compatible ClientHello
SKIP: {
skip "TLSv1.2 disabled", 1 if disabled("tls1_2");
$testtype = COMPAT_SIGALGS;
$dsa_status = $sha1_status = $sha224_status = 0;
$proxy->clear();
$proxy->filter(\&modify_sigalgs_filter);
$proxy->start();
ok($dsa_status && $sha1_status && $sha224_status,
"DSA sigalg not sent for compat ClientHello");
}
}
SKIP: {
skip "TLSv1.3 disabled", 3 if disabled("tls1_3");
#Test 22: Insert signature_algorithms_cert that match normal sigalgs
$testtype = SIGALGS_CERT_ALL;
$proxy->clear();
$proxy->filter(\&modify_sigalgs_cert_filter);
$proxy->start();
ok(TLSProxy::Message->success, "sigalgs_cert in TLSv1.3");
#Test 23: Insert signature_algorithms_cert that forces PKCS#1 cert
$testtype = SIGALGS_CERT_PKCS;
$proxy->clear();
$proxy->filter(\&modify_sigalgs_cert_filter);
$proxy->start();
ok(TLSProxy::Message->success, "sigalgs_cert in TLSv1.3 with PKCS#1 cert");
#Test 24: Insert signature_algorithms_cert that fails
$testtype = SIGALGS_CERT_INVALID;
$proxy->clear();
$proxy->filter(\&modify_sigalgs_cert_filter);
$proxy->start();
ok(TLSProxy::Message->fail, "No matching certificate for sigalgs_cert");
}
sub sigalgs_filter
{
my $proxy = shift;
# We're only interested in the initial ClientHello
if ($proxy->flight != 0) {
return;
}
foreach my $message (@{$proxy->message_list}) {
if ($message->mt == TLSProxy::Message::MT_CLIENT_HELLO) {
if ($testtype == NO_SIG_ALGS_EXT) {
$message->delete_extension(TLSProxy::Message::EXT_SIG_ALGS);
} else {
my $sigalg;
if ($testtype == EMPTY_SIG_ALGS_EXT) {
$sigalg = pack "C2", 0x00, 0x00;
} elsif ($testtype == NO_KNOWN_SIG_ALGS) {
$sigalg = pack "C4", 0x00, 0x02, 0xff, 0xff;
} elsif ($testtype == NO_PSS_SIG_ALGS) {
#No PSS sig algs - just send rsa_pkcs1_sha256
$sigalg = pack "C4", 0x00, 0x02, 0x04, 0x01;
} else {
#PSS sig algs only - just send rsa_pss_rsae_sha256
$sigalg = pack "C4", 0x00, 0x02, 0x08, 0x04;
}
$message->set_extension(TLSProxy::Message::EXT_SIG_ALGS, $sigalg);
}
$message->repack();
}
}
}
sub modify_sigalgs_filter
{
my $proxy = shift;
# We're only interested in the initial ClientHello
return if ($proxy->flight != 0);
foreach my $message (@{$proxy->message_list}) {
my $ext;
my @algs;
if ($message->mt == TLSProxy::Message::MT_CLIENT_HELLO) {
if ($testtype == PURE_SIGALGS) {
my $ok = 1;
$ext = $message->extension_data->{TLSProxy::Message::EXT_SIG_ALGS};
@algs = unpack('S>*', $ext);
# unpack will unpack the length as well
shift @algs;
foreach (@algs) {
if ($_ == TLSProxy::Message::SIG_ALG_DSA_SHA256
|| $_ == TLSProxy::Message::SIG_ALG_DSA_SHA384
|| $_ == TLSProxy::Message::SIG_ALG_DSA_SHA512
|| $_ == TLSProxy::Message::OSSL_SIG_ALG_DSA_SHA224
|| $_ == TLSProxy::Message::SIG_ALG_RSA_PKCS1_SHA1
|| $_ == TLSProxy::Message::SIG_ALG_DSA_SHA1
|| $_ == TLSProxy::Message::SIG_ALG_ECDSA_SHA1) {
$ok = 0;
}
}
$sha1_status = $dsa_status = $sha224_status = 1 if ($ok);
} elsif ($testtype == COMPAT_SIGALGS) {
$ext = $message->extension_data->{TLSProxy::Message::EXT_SIG_ALGS};
@algs = unpack('S>*', $ext);
# unpack will unpack the length as well
shift @algs;
foreach (@algs) {
if ($_ == TLSProxy::Message::SIG_ALG_DSA_SHA256
|| $_ == TLSProxy::Message::SIG_ALG_DSA_SHA384
|| $_ == TLSProxy::Message::SIG_ALG_DSA_SHA512) {
$dsa_status = 1;
}
if ($_ == TLSProxy::Message::SIG_ALG_RSA_PKCS1_SHA1
|| $_ == TLSProxy::Message::SIG_ALG_DSA_SHA1
|| $_ == TLSProxy::Message::SIG_ALG_ECDSA_SHA1) {
$sha1_status = 1;
}
if ($_ == TLSProxy::Message::OSSL_SIG_ALG_RSA_PKCS1_SHA224
|| $_ == TLSProxy::Message::OSSL_SIG_ALG_DSA_SHA224
|| $_ == TLSProxy::Message::OSSL_SIG_ALG_ECDSA_SHA224) {
$sha224_status = 1;
}
}
}
}
}
}
sub modify_sigalgs_cert_filter
{
my $proxy = shift;
# We're only interested in the initial ClientHello
if ($proxy->flight != 0) {
return;
}
foreach my $message (@{$proxy->message_list}) {
if ($message->mt == TLSProxy::Message::MT_CLIENT_HELLO) {
my $sigs;
# two byte length at front of sigs, then two-byte sigschemes
if ($testtype == SIGALGS_CERT_ALL) {
$sigs = pack "C26", 0x00, 0x18,
# rsa_pkcs_sha{256,512} rsa_pss_rsae_sha{256,512}
0x04, 0x01, 0x06, 0x01, 0x08, 0x04, 0x08, 0x06,
# ed25518 ed448 rsa_pss_pss_sha{256,512}
0x08, 0x07, 0x08, 0x08, 0x08, 0x09, 0x08, 0x0b,
# ecdsa_secp{256,512} rsa+sha1 ecdsa+sha1
0x04, 0x03, 0x06, 0x03, 0x02, 0x01, 0x02, 0x03;
} elsif ($testtype == SIGALGS_CERT_PKCS) {
$sigs = pack "C10", 0x00, 0x08,
# rsa_pkcs_sha{256,384,512,1}
0x04, 0x01, 0x05, 0x01, 0x06, 0x01, 0x02, 0x01;
} elsif ($testtype == SIGALGS_CERT_INVALID) {
$sigs = pack "C4", 0x00, 0x02,
# unregistered codepoint
0xb2, 0x6f;
}
$message->set_extension(TLSProxy::Message::EXT_SIG_ALGS_CERT, $sigs);
$message->repack();
}
}
}
sub modify_cert_verify_sigalg
{
my $proxy = shift;
# We're only interested in the CertificateVerify
if ($proxy->flight != 1) {
return;
}
foreach my $message (@{$proxy->message_list}) {
if ($message->mt == TLSProxy::Message::MT_CERTIFICATE_VERIFY) {
$message->sigalg(TLSProxy::Message::SIG_ALG_RSA_PSS_PSS_SHA256);
$message->repack();
}
}
}