openssl/test/recipes/70-test_sslrecords.t
Kurt Roeckx aba03ae571 Reduce the security bits for MD5 and SHA1 based signatures in TLS
This has as effect that SHA1 and MD5+SHA1 are no longer supported at
security level 1, and that TLS < 1.2 is no longer supported at the
default security level of 1, and that you need to set the security
level to 0 to use TLS < 1.2.

Reviewed-by: Tim Hudson <tjh@openssl.org>
GH: #10787
2020-06-27 08:41:40 +02:00

711 lines
21 KiB
Perl

#! /usr/bin/env perl
# Copyright 2016-2018 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the Apache License 2.0 (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 feature 'state';
use OpenSSL::Test qw/:DEFAULT cmdstr srctop_file bldtop_dir/;
use OpenSSL::Test::Utils;
use TLSProxy::Proxy;
my $test_name = "test_sslrecords";
setup($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 TLSv1.2 enabled"
if disabled("tls1_2");
$ENV{OPENSSL_ia32cap} = '~0x200000200000000';
my $proxy = TLSProxy::Proxy->new(
\&add_empty_recs_filter,
cmdstr(app(["openssl"]), display => 1),
srctop_file("apps", "server.pem"),
(!$ENV{HARNESS_ACTIVE} || $ENV{HARNESS_VERBOSE})
);
my $boundary_test_type;
my $fatal_alert = 0; # set by filters at expected fatal alerts
#Test 1: Injecting out of context empty records should fail
my $content_type = TLSProxy::Record::RT_APPLICATION_DATA;
my $inject_recs_num = 1;
$proxy->serverflags("-tls1_2");
$proxy->start() or plan skip_all => "Unable to start up Proxy for tests";
plan tests => 20;
ok($fatal_alert, "Out of context empty records test");
#Test 2: Injecting in context empty records should succeed
$proxy->clear();
$content_type = TLSProxy::Record::RT_HANDSHAKE;
$proxy->serverflags("-tls1_2");
$proxy->start();
ok(TLSProxy::Message->success(), "In context empty records test");
#Test 3: Injecting too many in context empty records should fail
$fatal_alert = 0;
$proxy->clear();
#We allow 32 consecutive in context empty records
$inject_recs_num = 33;
$proxy->serverflags("-tls1_2");
$proxy->start();
ok($fatal_alert, "Too many in context empty records test");
#Test 4: Injecting a fragmented fatal alert should fail. We expect the server to
# send back an alert of its own because it cannot handle fragmented
# alerts
$fatal_alert = 0;
$proxy->clear();
$proxy->filter(\&add_frag_alert_filter);
$proxy->serverflags("-tls1_2");
$proxy->start();
ok($fatal_alert, "Fragmented alert records test");
#Run some SSLv2 ClientHello tests
use constant {
TLSV1_2_IN_SSLV2 => 0,
SSLV2_IN_SSLV2 => 1,
FRAGMENTED_IN_TLSV1_2 => 2,
FRAGMENTED_IN_SSLV2 => 3,
ALERT_BEFORE_SSLV2 => 4
};
# The TLSv1.2 in SSLv2 ClientHello need to run at security level 0
# because in a SSLv2 ClientHello we can't send extentions to indicate
# which signature algorithm we want to use, and the default is SHA1.
#Test 5: Inject an SSLv2 style record format for a TLSv1.2 ClientHello
my $sslv2testtype = TLSV1_2_IN_SSLV2;
$proxy->clear();
$proxy->filter(\&add_sslv2_filter);
$proxy->serverflags("-tls1_2");
$proxy->ciphers("AES128-SHA:\@SECLEVEL=0");
$proxy->start();
ok(TLSProxy::Message->success(), "TLSv1.2 in SSLv2 ClientHello test");
#Test 6: Inject an SSLv2 style record format for an SSLv2 ClientHello. We don't
# support this so it should fail. We actually treat it as an unknown
# protocol so we don't even send an alert in this case.
$sslv2testtype = SSLV2_IN_SSLV2;
$proxy->clear();
$proxy->serverflags("-tls1_2");
$proxy->ciphers("AES128-SHA:\@SECLEVEL=0");
$proxy->start();
ok(TLSProxy::Message->fail(), "SSLv2 in SSLv2 ClientHello test");
#Test 7: Sanity check ClientHello fragmentation. This isn't really an SSLv2 test
# at all, but it gives us confidence that Test 8 fails for the right
# reasons
$sslv2testtype = FRAGMENTED_IN_TLSV1_2;
$proxy->clear();
$proxy->serverflags("-tls1_2");
$proxy->ciphers("AES128-SHA:\@SECLEVEL=0");
$proxy->start();
ok(TLSProxy::Message->success(), "Fragmented ClientHello in TLSv1.2 test");
#Test 8: Fragment a TLSv1.2 ClientHello across a TLS1.2 record; an SSLv2
# record; and another TLS1.2 record. This isn't allowed so should fail
$sslv2testtype = FRAGMENTED_IN_SSLV2;
$proxy->clear();
$proxy->serverflags("-tls1_2");
$proxy->ciphers("AES128-SHA:\@SECLEVEL=0");
$proxy->start();
ok(TLSProxy::Message->fail(), "Fragmented ClientHello in TLSv1.2/SSLv2 test");
#Test 9: Send a TLS warning alert before an SSLv2 ClientHello. This should
# fail because an SSLv2 ClientHello must be the first record.
$sslv2testtype = ALERT_BEFORE_SSLV2;
$proxy->clear();
$proxy->serverflags("-tls1_2");
$proxy->ciphers("AES128-SHA:\@SECLEVEL=0");
$proxy->start();
ok(TLSProxy::Message->fail(), "Alert before SSLv2 ClientHello test");
#Unrecognised record type tests
#Test 10: Sending an unrecognised record type in TLS1.2 should fail
$fatal_alert = 0;
$proxy->clear();
$proxy->serverflags("-tls1_2");
$proxy->filter(\&add_unknown_record_type);
$proxy->start();
ok($fatal_alert, "Unrecognised record type in TLS1.2");
SKIP: {
skip "TLSv1.1 disabled", 1 if disabled("tls1_1");
#Test 11: Sending an unrecognised record type in TLS1.1 should fail
$fatal_alert = 0;
$proxy->clear();
$proxy->clientflags("-tls1_1 -cipher DEFAULT:\@SECLEVEL=0");
$proxy->ciphers("AES128-SHA:\@SECLEVEL=0");
$proxy->start();
ok($fatal_alert, "Unrecognised record type in TLS1.1");
}
#Test 12: Sending a different record version in TLS1.2 should fail
$fatal_alert = 0;
$proxy->clear();
$proxy->clientflags("-tls1_2");
$proxy->filter(\&change_version);
$proxy->start();
ok($fatal_alert, "Changed record version in TLS1.2");
#TLS1.3 specific tests
SKIP: {
skip "TLSv1.3 disabled", 8 if disabled("tls1_3");
#Test 13: Sending a different record version in TLS1.3 should fail
$proxy->clear();
$proxy->filter(\&change_version);
$proxy->start();
ok(TLSProxy::Message->fail(), "Changed record version in TLS1.3");
#Test 14: Sending an unrecognised record type in TLS1.3 should fail
$fatal_alert = 0;
$proxy->clear();
$proxy->filter(\&add_unknown_record_type);
$proxy->start();
ok($fatal_alert, "Unrecognised record type in TLS1.3");
#Test 15: Sending an outer record type other than app data once encrypted
#should fail
$fatal_alert = 0;
$proxy->clear();
$proxy->filter(\&change_outer_record_type);
$proxy->start();
ok($fatal_alert, "Wrong outer record type in TLS1.3");
use constant {
DATA_AFTER_SERVER_HELLO => 0,
DATA_AFTER_FINISHED => 1,
DATA_AFTER_KEY_UPDATE => 2,
DATA_BETWEEN_KEY_UPDATE => 3,
NO_DATA_BETWEEN_KEY_UPDATE => 4,
};
#Test 16: Sending a ServerHello which doesn't end on a record boundary
# should fail
$fatal_alert = 0;
$proxy->clear();
$boundary_test_type = DATA_AFTER_SERVER_HELLO;
$proxy->filter(\&not_on_record_boundary);
$proxy->start();
ok($fatal_alert, "Record not on boundary in TLS1.3 (ServerHello)");
#Test 17: Sending a Finished which doesn't end on a record boundary
# should fail
$fatal_alert = 0;
$proxy->clear();
$boundary_test_type = DATA_AFTER_FINISHED;
$proxy->start();
ok($fatal_alert, "Record not on boundary in TLS1.3 (Finished)");
#Test 18: Sending a KeyUpdate which doesn't end on a record boundary
# should fail
$fatal_alert = 0;
$proxy->clear();
$boundary_test_type = DATA_AFTER_KEY_UPDATE;
$proxy->start();
ok($fatal_alert, "Record not on boundary in TLS1.3 (KeyUpdate)");
#Test 19: Sending application data in the middle of a fragmented KeyUpdate
# should fail. Strictly speaking this is not a record boundary test
# but we use the same filter.
$fatal_alert = 0;
$proxy->clear();
$boundary_test_type = DATA_BETWEEN_KEY_UPDATE;
$proxy->start();
ok($fatal_alert, "Data between KeyUpdate");
#Test 20: Fragmented KeyUpdate. This should succeed. Strictly speaking this
# is not a record boundary test but we use the same filter.
$proxy->clear();
$boundary_test_type = NO_DATA_BETWEEN_KEY_UPDATE;
$proxy->start();
ok(TLSProxy::Message->success(), "No data between KeyUpdate");
}
sub add_empty_recs_filter
{
my $proxy = shift;
my $records = $proxy->record_list;
# We're only interested in the initial ClientHello
if ($proxy->flight != 0) {
$fatal_alert = 1 if @{$records}[-1]->is_fatal_alert(1) == 10;
return;
}
for (my $i = 0; $i < $inject_recs_num; $i++) {
my $record = TLSProxy::Record->new(
0,
$content_type,
TLSProxy::Record::VERS_TLS_1_2,
0,
0,
0,
0,
"",
""
);
push @{$records}, $record;
}
}
sub add_frag_alert_filter
{
my $proxy = shift;
my $records = $proxy->record_list;
my $byte;
# We're only interested in the initial ClientHello
if ($proxy->flight != 0) {
$fatal_alert = 1 if @{$records}[-1]->is_fatal_alert(1) == 10;
return;
}
# Add a zero length fragment first
#my $record = TLSProxy::Record->new(
# 0,
# TLSProxy::Record::RT_ALERT,
# TLSProxy::Record::VERS_TLS_1_2,
# 0,
# 0,
# 0,
# "",
# ""
#);
#push @{$proxy->record_list}, $record;
# Now add the alert level (Fatal) as a separate record
$byte = pack('C', TLSProxy::Message::AL_LEVEL_FATAL);
my $record = TLSProxy::Record->new(
0,
TLSProxy::Record::RT_ALERT,
TLSProxy::Record::VERS_TLS_1_2,
1,
0,
1,
1,
$byte,
$byte
);
push @{$records}, $record;
# And finally the description (Unexpected message) in a third record
$byte = pack('C', TLSProxy::Message::AL_DESC_UNEXPECTED_MESSAGE);
$record = TLSProxy::Record->new(
0,
TLSProxy::Record::RT_ALERT,
TLSProxy::Record::VERS_TLS_1_2,
1,
0,
1,
1,
$byte,
$byte
);
push @{$records}, $record;
}
sub add_sslv2_filter
{
my $proxy = shift;
my $clienthello;
my $record;
# We're only interested in the initial ClientHello
if ($proxy->flight != 0) {
return;
}
# Ditch the real ClientHello - we're going to replace it with our own
shift @{$proxy->record_list};
if ($sslv2testtype == ALERT_BEFORE_SSLV2) {
my $alert = pack('CC', TLSProxy::Message::AL_LEVEL_FATAL,
TLSProxy::Message::AL_DESC_NO_RENEGOTIATION);
my $alertlen = length $alert;
$record = TLSProxy::Record->new(
0,
TLSProxy::Record::RT_ALERT,
TLSProxy::Record::VERS_TLS_1_2,
$alertlen,
0,
$alertlen,
$alertlen,
$alert,
$alert
);
push @{$proxy->record_list}, $record;
}
if ($sslv2testtype == ALERT_BEFORE_SSLV2
|| $sslv2testtype == TLSV1_2_IN_SSLV2
|| $sslv2testtype == SSLV2_IN_SSLV2) {
# This is an SSLv2 format ClientHello
$clienthello =
pack "C44",
0x01, # ClientHello
0x03, 0x03, #TLSv1.2
0x00, 0x03, # Ciphersuites len
0x00, 0x00, # Session id len
0x00, 0x20, # Challenge len
0x00, 0x00, 0x2f, #AES128-SHA
0x01, 0x18, 0x9F, 0x76, 0xEC, 0x57, 0xCE, 0xE5, 0xB3, 0xAB, 0x79, 0x90,
0xAD, 0xAC, 0x6E, 0xD1, 0x58, 0x35, 0x03, 0x97, 0x16, 0x10, 0x82, 0x56,
0xD8, 0x55, 0xFF, 0xE1, 0x8A, 0xA3, 0x2E, 0xF6; # Challenge
if ($sslv2testtype == SSLV2_IN_SSLV2) {
# Set the version to "real" SSLv2
vec($clienthello, 1, 8) = 0x00;
vec($clienthello, 2, 8) = 0x02;
}
my $chlen = length $clienthello;
$record = TLSProxy::Record->new(
0,
TLSProxy::Record::RT_HANDSHAKE,
TLSProxy::Record::VERS_TLS_1_2,
$chlen,
1, #SSLv2
$chlen,
$chlen,
$clienthello,
$clienthello
);
push @{$proxy->record_list}, $record;
} else {
# For this test we're using a real TLS ClientHello
$clienthello =
pack "C49",
0x01, # ClientHello
0x00, 0x00, 0x2D, # Message length
0x03, 0x03, # TLSv1.2
0x01, 0x18, 0x9F, 0x76, 0xEC, 0x57, 0xCE, 0xE5, 0xB3, 0xAB, 0x79, 0x90,
0xAD, 0xAC, 0x6E, 0xD1, 0x58, 0x35, 0x03, 0x97, 0x16, 0x10, 0x82, 0x56,
0xD8, 0x55, 0xFF, 0xE1, 0x8A, 0xA3, 0x2E, 0xF6, # Random
0x00, # Session id len
0x00, 0x04, # Ciphersuites len
0x00, 0x2f, # AES128-SHA
0x00, 0xff, # Empty reneg info SCSV
0x01, # Compression methods len
0x00, # Null compression
0x00, 0x00; # Extensions len
# Split this into 3: A TLS record; a SSLv2 record and a TLS record.
# We deliberately split the second record prior to the Challenge/Random
# and set the first byte of the random to 1. This makes the second SSLv2
# record look like an SSLv2 ClientHello
my $frag1 = substr $clienthello, 0, 6;
my $frag2 = substr $clienthello, 6, 32;
my $frag3 = substr $clienthello, 38;
my $fraglen = length $frag1;
$record = TLSProxy::Record->new(
0,
TLSProxy::Record::RT_HANDSHAKE,
TLSProxy::Record::VERS_TLS_1_2,
$fraglen,
0,
$fraglen,
$fraglen,
$frag1,
$frag1
);
push @{$proxy->record_list}, $record;
$fraglen = length $frag2;
my $recvers;
if ($sslv2testtype == FRAGMENTED_IN_SSLV2) {
$recvers = 1;
} else {
$recvers = 0;
}
$record = TLSProxy::Record->new(
0,
TLSProxy::Record::RT_HANDSHAKE,
TLSProxy::Record::VERS_TLS_1_2,
$fraglen,
$recvers,
$fraglen,
$fraglen,
$frag2,
$frag2
);
push @{$proxy->record_list}, $record;
$fraglen = length $frag3;
$record = TLSProxy::Record->new(
0,
TLSProxy::Record::RT_HANDSHAKE,
TLSProxy::Record::VERS_TLS_1_2,
$fraglen,
0,
$fraglen,
$fraglen,
$frag3,
$frag3
);
push @{$proxy->record_list}, $record;
}
}
sub add_unknown_record_type
{
my $proxy = shift;
my $records = $proxy->record_list;
state $added_record;
# We'll change a record after the initial version neg has taken place
if ($proxy->flight == 0) {
$added_record = 0;
return;
} elsif ($proxy->flight != 1 || $added_record) {
$fatal_alert = 1 if @{$records}[-1]->is_fatal_alert(0) == 10;
return;
}
my $record = TLSProxy::Record->new(
1,
TLSProxy::Record::RT_UNKNOWN,
@{$records}[-1]->version(),
1,
0,
1,
1,
"X",
"X"
);
#Find ServerHello record and insert after that
my $i;
for ($i = 0; ${$proxy->record_list}[$i]->flight() < 1; $i++) {
next;
}
$i++;
splice @{$proxy->record_list}, $i, 0, $record;
$added_record = 1;
}
sub change_version
{
my $proxy = shift;
my $records = $proxy->record_list;
# We'll change a version after the initial version neg has taken place
if ($proxy->flight != 1) {
$fatal_alert = 1 if @{$records}[-1]->is_fatal_alert(0) == 70;
return;
}
if ($#{$records} > 1) {
# ... typically in ServerHelloDone
@{$records}[-1]->version(TLSProxy::Record::VERS_TLS_1_1);
}
}
sub change_outer_record_type
{
my $proxy = shift;
my $records = $proxy->record_list;
# We'll change a record after the initial version neg has taken place
if ($proxy->flight != 1) {
$fatal_alert = 1 if @{$records}[-1]->is_fatal_alert(0) == 10;
return;
}
# Find CCS record and change record after that
my $i = 0;
foreach my $record (@{$records}) {
last if $record->content_type == TLSProxy::Record::RT_CCS;
$i++;
}
if (defined(${$records}[++$i])) {
${$records}[$i]->outer_content_type(TLSProxy::Record::RT_HANDSHAKE);
}
}
sub not_on_record_boundary
{
my $proxy = shift;
my $records = $proxy->record_list;
my $data;
#Find server's first flight
if ($proxy->flight != 1) {
$fatal_alert = 1 if @{$records}[-1]->is_fatal_alert(0) == 10;
return;
}
if ($boundary_test_type == DATA_AFTER_SERVER_HELLO) {
#Merge the ServerHello and EncryptedExtensions records into one
my $i = 0;
foreach my $record (@{$records}) {
if ($record->content_type == TLSProxy::Record::RT_HANDSHAKE) {
$record->{sent} = 1; # pretend it's sent already
last;
}
$i++;
}
if (defined(${$records}[$i+1])) {
$data = ${$records}[$i]->data();
$data .= ${$records}[$i+1]->decrypt_data();
${$records}[$i+1]->data($data);
${$records}[$i+1]->len(length $data);
#Delete the old ServerHello record
splice @{$records}, $i, 1;
}
} elsif ($boundary_test_type == DATA_AFTER_FINISHED) {
return if @{$proxy->{message_list}}[-1]->{mt}
!= TLSProxy::Message::MT_FINISHED;
my $last_record = @{$records}[-1];
$data = $last_record->decrypt_data;
#Add a KeyUpdate message onto the end of the Finished record
my $keyupdate = pack "C5",
0x18, # KeyUpdate
0x00, 0x00, 0x01, # Message length
0x00; # Update not requested
$data .= $keyupdate;
#Add content type and tag
$data .= pack("C", TLSProxy::Record::RT_HANDSHAKE).("\0"x16);
#Update the record
$last_record->data($data);
$last_record->len(length $data);
} elsif ($boundary_test_type == DATA_AFTER_KEY_UPDATE) {
return if @{$proxy->{message_list}}[-1]->{mt}
!= TLSProxy::Message::MT_FINISHED;
#KeyUpdates must end on a record boundary
my $record = TLSProxy::Record->new(
1,
TLSProxy::Record::RT_APPLICATION_DATA,
TLSProxy::Record::VERS_TLS_1_2,
0,
0,
0,
0,
"",
""
);
#Add two KeyUpdate messages into a single record
my $keyupdate = pack "C5",
0x18, # KeyUpdate
0x00, 0x00, 0x01, # Message length
0x00; # Update not requested
$data = $keyupdate.$keyupdate;
#Add content type and tag
$data .= pack("C", TLSProxy::Record::RT_HANDSHAKE).("\0"x16);
$record->data($data);
$record->len(length $data);
push @{$records}, $record;
} else {
return if @{$proxy->{message_list}}[-1]->{mt}
!= TLSProxy::Message::MT_FINISHED;
my $record = TLSProxy::Record->new(
1,
TLSProxy::Record::RT_APPLICATION_DATA,
TLSProxy::Record::VERS_TLS_1_2,
0,
0,
0,
0,
"",
""
);
#Add a partial KeyUpdate message into the record
$data = pack "C1",
0x18; # KeyUpdate message type. Omit the rest of the message header
#Add content type and tag
$data .= pack("C", TLSProxy::Record::RT_HANDSHAKE).("\0"x16);
$record->data($data);
$record->len(length $data);
push @{$records}, $record;
if ($boundary_test_type == DATA_BETWEEN_KEY_UPDATE) {
#Now add an app data record
$record = TLSProxy::Record->new(
1,
TLSProxy::Record::RT_APPLICATION_DATA,
TLSProxy::Record::VERS_TLS_1_2,
0,
0,
0,
0,
"",
""
);
#Add an empty app data record (just content type and tag)
$data = pack("C", TLSProxy::Record::RT_APPLICATION_DATA).("\0"x16);
$record->data($data);
$record->len(length $data);
push @{$records}, $record;
}
#Now add the rest of the KeyUpdate message
$record = TLSProxy::Record->new(
1,
TLSProxy::Record::RT_APPLICATION_DATA,
TLSProxy::Record::VERS_TLS_1_2,
0,
0,
0,
0,
"",
""
);
#Add the last 4 bytes of the KeyUpdate record
$data = pack "C4",
0x00, 0x00, 0x01, # Message length
0x00; # Update not requested
#Add content type and tag
$data .= pack("C", TLSProxy::Record::RT_HANDSHAKE).("\0"x16);
$record->data($data);
$record->len(length $data);
push @{$records}, $record;
}
}