# 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 TLSProxy::Proxy; package TLSProxy::Record; my $server_encrypting = 0; my $client_encrypting = 0; my $etm = 0; use constant TLS_RECORD_HEADER_LENGTH => 5; #Record types use constant { RT_APPLICATION_DATA => 23, RT_HANDSHAKE => 22, RT_ALERT => 21, RT_CCS => 20, RT_UNKNOWN => 100 }; my %record_type = ( RT_APPLICATION_DATA, "APPLICATION DATA", RT_HANDSHAKE, "HANDSHAKE", RT_ALERT, "ALERT", RT_CCS, "CCS", RT_UNKNOWN, "UNKNOWN" ); use constant { VERS_TLS_1_4 => 0x0305, VERS_TLS_1_3_DRAFT => 0x7f1a, VERS_TLS_1_3 => 0x0304, VERS_TLS_1_2 => 0x0303, VERS_TLS_1_1 => 0x0302, VERS_TLS_1_0 => 0x0301, VERS_SSL_3_0 => 0x0300, VERS_SSL_LT_3_0 => 0x02ff }; my %tls_version = ( VERS_TLS_1_3, "TLS1.3", VERS_TLS_1_2, "TLS1.2", VERS_TLS_1_1, "TLS1.1", VERS_TLS_1_0, "TLS1.0", VERS_SSL_3_0, "SSL3", VERS_SSL_LT_3_0, "SSL<3" ); #Class method to extract records from a packet of data sub get_records { my $class = shift; my $server = shift; my $flight = shift; my $packet = shift; my $partial = ""; my @record_list = (); my @message_list = (); my $recnum = 1; while (length ($packet) > 0) { print " Record $recnum"; if ($server) { print " (server -> client)\n"; } else { print " (client -> server)\n"; } #Get the record header (unpack can't fail if $packet is too short) my ($content_type, $version, $len) = unpack('Cnn', $packet); if (length($packet) < TLS_RECORD_HEADER_LENGTH + $len) { print "Partial data : ".length($packet)." bytes\n"; $partial = $packet; last; } my $data = substr($packet, TLS_RECORD_HEADER_LENGTH, $len); print " Content type: ".$record_type{$content_type}."\n"; print " Version: $tls_version{$version}\n"; print " Length: $len\n"; my $record = TLSProxy::Record->new( $flight, $content_type, $version, $len, 0, $len, # len_real $len, # decrypt_len $data, # data $data # decrypt_data ); if ($content_type != RT_CCS) { if (($server && $server_encrypting) || (!$server && $client_encrypting)) { if (!TLSProxy::Proxy->is_tls13() && $etm) { $record->decryptETM(); } else { $record->decrypt(); } $record->encrypted(1); if (TLSProxy::Proxy->is_tls13()) { print " Inner content type: " .$record_type{$record->content_type()}."\n"; } } } push @record_list, $record; #Now figure out what messages are contained within this record my @messages = TLSProxy::Message->get_messages($server, $record); push @message_list, @messages; $packet = substr($packet, TLS_RECORD_HEADER_LENGTH + $len); $recnum++; } return (\@record_list, \@message_list, $partial); } sub clear { $server_encrypting = 0; $client_encrypting = 0; } #Class level accessors sub server_encrypting { my $class = shift; if (@_) { $server_encrypting = shift; } return $server_encrypting; } sub client_encrypting { my $class = shift; if (@_) { $client_encrypting= shift; } return $client_encrypting; } #Enable/Disable Encrypt-then-MAC sub etm { my $class = shift; if (@_) { $etm = shift; } return $etm; } sub new { my $class = shift; my ($flight, $content_type, $version, $len, $sslv2, $len_real, $decrypt_len, $data, $decrypt_data) = @_; my $self = { flight => $flight, content_type => $content_type, version => $version, len => $len, sslv2 => $sslv2, len_real => $len_real, decrypt_len => $decrypt_len, data => $data, decrypt_data => $decrypt_data, orig_decrypt_data => $decrypt_data, sent => 0, encrypted => 0, outer_content_type => RT_APPLICATION_DATA }; return bless $self, $class; } #Decrypt using encrypt-then-MAC sub decryptETM { my ($self) = shift; my $data = $self->data; if($self->version >= VERS_TLS_1_1()) { #TLS1.1+ has an explicit IV. Throw it away $data = substr($data, 16); } #Throw away the MAC (assumes MAC is 20 bytes for now. FIXME) $data = substr($data, 0, length($data) - 20); #Find out what the padding byte is my $padval = unpack("C", substr($data, length($data) - 1)); #Throw away the padding $data = substr($data, 0, length($data) - ($padval + 1)); $self->decrypt_data($data); $self->decrypt_len(length($data)); return $data; } #Standard decrypt sub decrypt() { my ($self) = shift; my $mactaglen = 20; my $data = $self->data; #Throw away any IVs if (TLSProxy::Proxy->is_tls13()) { #A TLS1.3 client, when processing the server's initial flight, could #respond with either an encrypted or an unencrypted alert. if ($self->content_type() == RT_ALERT) { #TODO(TLS1.3): Eventually it is sufficient just to check the record #content type. If an alert is encrypted it will have a record #content type of application data. However we haven't done the #record layer changes yet, so it's a bit more complicated. For now #we will additionally check if the data length is 2 (1 byte for #alert level, 1 byte for alert description). If it is, then this is #an unencrypted alert, so don't try to decrypt return $data if (length($data) == 2); } $mactaglen = 16; } elsif ($self->version >= VERS_TLS_1_1()) { #16 bytes for a standard IV $data = substr($data, 16); #Find out what the padding byte is my $padval = unpack("C", substr($data, length($data) - 1)); #Throw away the padding $data = substr($data, 0, length($data) - ($padval + 1)); } #Throw away the MAC or TAG $data = substr($data, 0, length($data) - $mactaglen); if (TLSProxy::Proxy->is_tls13()) { #Get the content type my $content_type = unpack("C", substr($data, length($data) - 1)); $self->content_type($content_type); $data = substr($data, 0, length($data) - 1); } $self->decrypt_data($data); $self->decrypt_len(length($data)); return $data; } #Reconstruct the on-the-wire record representation sub reconstruct_record { my $self = shift; my $server = shift; my $data; if ($self->{sent}) { return ""; } $self->{sent} = 1; if ($self->sslv2) { $data = pack('n', $self->len | 0x8000); } else { if (TLSProxy::Proxy->is_tls13() && $self->encrypted) { $data = pack('Cnn', $self->outer_content_type, $self->version, $self->len); } else { $data = pack('Cnn', $self->content_type, $self->version, $self->len); } } $data .= $self->data; return $data; } #Read only accessors sub flight { my $self = shift; return $self->{flight}; } sub sslv2 { my $self = shift; return $self->{sslv2}; } sub len_real { my $self = shift; return $self->{len_real}; } sub orig_decrypt_data { my $self = shift; return $self->{orig_decrypt_data}; } #Read/write accessors sub decrypt_len { my $self = shift; if (@_) { $self->{decrypt_len} = shift; } return $self->{decrypt_len}; } sub data { my $self = shift; if (@_) { $self->{data} = shift; } return $self->{data}; } sub decrypt_data { my $self = shift; if (@_) { $self->{decrypt_data} = shift; } return $self->{decrypt_data}; } sub len { my $self = shift; if (@_) { $self->{len} = shift; } return $self->{len}; } sub version { my $self = shift; if (@_) { $self->{version} = shift; } return $self->{version}; } sub content_type { my $self = shift; if (@_) { $self->{content_type} = shift; } return $self->{content_type}; } sub encrypted { my $self = shift; if (@_) { $self->{encrypted} = shift; } return $self->{encrypted}; } sub outer_content_type { my $self = shift; if (@_) { $self->{outer_content_type} = shift; } return $self->{outer_content_type}; } 1;