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/*
* Copyright (c) 2020, Ali Mohammad Pur <mpfard@serenityos.org>
* Copyright (c) 2022, Michiel Visser <opensource@webmichiel.nl>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/Endian.h>
#include <AK/Random.h>
#include <LibCore/Timer.h>
#include <LibCrypto/ASN1/DER.h>
#include <LibCrypto/PK/Code/EMSA_PSS.h>
#include <LibTLS/TLSv12.h>
namespace TLS {
ByteBuffer TLSv12::build_hello()
{
fill_with_random(&m_context.local_random, 32);
auto packet_version = (u16)m_context.options.version;
auto version = (u16)m_context.options.version;
PacketBuilder builder { MessageType::Handshake, packet_version };
builder.append((u8)ClientHello);
// hello length (for later)
u8 dummy[3] = {};
builder.append(dummy, 3);
auto start_length = builder.length();
builder.append(version);
builder.append(m_context.local_random, sizeof(m_context.local_random));
builder.append(m_context.session_id_size);
if (m_context.session_id_size)
builder.append(m_context.session_id, m_context.session_id_size);
size_t extension_length = 0;
size_t alpn_length = 0;
size_t alpn_negotiated_length = 0;
// ALPN
if (!m_context.negotiated_alpn.is_null()) {
alpn_negotiated_length = m_context.negotiated_alpn.length();
alpn_length = alpn_negotiated_length + 1;
extension_length += alpn_length + 6;
} else if (m_context.alpn.size()) {
for (auto& alpn : m_context.alpn) {
size_t length = alpn.length();
alpn_length += length + 1;
}
if (alpn_length)
extension_length += alpn_length + 6;
}
// Ciphers
builder.append((u16)(m_context.options.usable_cipher_suites.size() * sizeof(u16)));
for (auto suite : m_context.options.usable_cipher_suites)
builder.append((u16)suite);
// we don't like compression
VERIFY(!m_context.options.use_compression);
builder.append((u8)1);
builder.append((u8)m_context.options.use_compression);
// set SNI if we have one, and the user hasn't explicitly asked us to omit it.
auto sni_length = 0;
if (!m_context.extensions.SNI.is_null() && m_context.options.use_sni)
sni_length = m_context.extensions.SNI.length();
auto elliptic_curves_length = 2 * m_context.options.elliptic_curves.size();
auto supported_ec_point_formats_length = m_context.options.supported_ec_point_formats.size();
bool supports_elliptic_curves = elliptic_curves_length && supported_ec_point_formats_length;
// signature_algorithms: 2b extension ID, 2b extension length, 2b vector length, 2xN signatures and hashes
extension_length += 2 + 2 + 2 + 2 * m_context.options.supported_signature_algorithms.size();
if (sni_length)
extension_length += sni_length + 9;
// Only send elliptic_curves and ec_point_formats extensions if both are supported
if (supports_elliptic_curves)
extension_length += 6 + elliptic_curves_length + 5 + supported_ec_point_formats_length;
builder.append((u16)extension_length);
if (sni_length) {
// SNI extension
builder.append((u16)HandshakeExtension::ServerName);
// extension length
builder.append((u16)(sni_length + 5));
// SNI length
builder.append((u16)(sni_length + 3));
// SNI type
builder.append((u8)0);
// SNI host length + value
builder.append((u16)sni_length);
builder.append((u8 const*)m_context.extensions.SNI.characters(), sni_length);
}
// signature_algorithms extension
builder.append((u16)HandshakeExtension::SignatureAlgorithms);
// Extension length
builder.append((u16)(2 + 2 * m_context.options.supported_signature_algorithms.size()));
// Vector count
builder.append((u16)(m_context.options.supported_signature_algorithms.size() * 2));
// Entries
for (auto& entry : m_context.options.supported_signature_algorithms) {
builder.append((u8)entry.hash);
builder.append((u8)entry.signature);
}
if (supports_elliptic_curves) {
// elliptic_curves extension
builder.append((u16)HandshakeExtension::EllipticCurves);
builder.append((u16)(2 + elliptic_curves_length));
builder.append((u16)elliptic_curves_length);
for (auto& curve : m_context.options.elliptic_curves)
builder.append((u16)curve);
// ec_point_formats extension
builder.append((u16)HandshakeExtension::ECPointFormats);
builder.append((u16)(1 + supported_ec_point_formats_length));
builder.append((u8)supported_ec_point_formats_length);
for (auto& format : m_context.options.supported_ec_point_formats)
builder.append((u8)format);
}
if (alpn_length) {
// TODO
VERIFY_NOT_REACHED();
}
// set the "length" field of the packet
size_t remaining = builder.length() - start_length;
size_t payload_position = 6;
builder.set(payload_position, remaining / 0x10000);
remaining %= 0x10000;
builder.set(payload_position + 1, remaining / 0x100);
remaining %= 0x100;
builder.set(payload_position + 2, remaining);
auto packet = builder.build();
update_packet(packet);
return packet;
}
ByteBuffer TLSv12::build_change_cipher_spec()
{
PacketBuilder builder { MessageType::ChangeCipher, m_context.options.version, 64 };
builder.append((u8)1);
auto packet = builder.build();
update_packet(packet);
m_context.local_sequence_number = 0;
return packet;
}
ByteBuffer TLSv12::build_handshake_finished()
{
PacketBuilder builder { MessageType::Handshake, m_context.options.version, 12 + 64 };
builder.append((u8)HandshakeType::Finished);
// RFC 5246 section 7.4.9: "In previous versions of TLS, the verify_data was always 12 octets
// long. In the current version of TLS, it depends on the cipher
// suite. Any cipher suite which does not explicitly specify
// verify_data_length has a verify_data_length equal to 12."
// Simplification: Assume that verify_data_length is always 12.
constexpr u32 verify_data_length = 12;
builder.append_u24(verify_data_length);
u8 out[verify_data_length];
auto outbuffer = Bytes { out, verify_data_length };
ByteBuffer dummy;
auto digest = m_context.handshake_hash.digest();
auto hashbuf = ReadonlyBytes { digest.immutable_data(), m_context.handshake_hash.digest_size() };
pseudorandom_function(outbuffer, m_context.master_key, (u8 const*)"client finished", 15, hashbuf, dummy);
builder.append(outbuffer);
auto packet = builder.build();
update_packet(packet);
return packet;
}
ssize_t TLSv12::handle_handshake_finished(ReadonlyBytes buffer, WritePacketStage& write_packets)
{
if (m_context.connection_status < ConnectionStatus::KeyExchange || m_context.connection_status == ConnectionStatus::Established) {
dbgln("unexpected finished message");
return (i8)Error::UnexpectedMessage;
}
write_packets = WritePacketStage::Initial;
if (buffer.size() < 3) {
return (i8)Error::NeedMoreData;
}
size_t index = 3;
u32 size = buffer[0] * 0x10000 + buffer[1] * 0x100 + buffer[2];
if (size < 12) {
dbgln_if(TLS_DEBUG, "finished packet smaller than minimum size: {}", size);
return (i8)Error::BrokenPacket;
}
if (size < buffer.size() - index) {
dbgln_if(TLS_DEBUG, "not enough data after length: {} > {}", size, buffer.size() - index);
return (i8)Error::NeedMoreData;
}
// TODO: Compare Hashes
dbgln_if(TLS_DEBUG, "FIXME: handle_handshake_finished :: Check message validity");
m_context.connection_status = ConnectionStatus::Established;
if (m_handshake_timeout_timer) {
// Disable the handshake timeout timer as handshake has been established.
m_handshake_timeout_timer->stop();
m_handshake_timeout_timer->remove_from_parent();
m_handshake_timeout_timer = nullptr;
}
if (on_connected)
on_connected();
return index + size;
}
ssize_t TLSv12::handle_handshake_payload(ReadonlyBytes vbuffer)
{
if (m_context.connection_status == ConnectionStatus::Established) {
dbgln_if(TLS_DEBUG, "Renegotiation attempt ignored");
// FIXME: We should properly say "NoRenegotiation", but that causes a handshake failure
// so we just roll with it and pretend that we _did_ renegotiate
// This will cause issues when we decide to have long-lasting connections, but
// we do not have those at the moment :^)
return 1;
}
auto buffer = vbuffer;
auto buffer_length = buffer.size();
auto original_length = buffer_length;
while (buffer_length >= 4 && !m_context.critical_error) {
ssize_t payload_res = 0;
if (buffer_length < 1)
return (i8)Error::NeedMoreData;
auto type = buffer[0];
auto write_packets { WritePacketStage::Initial };
size_t payload_size = buffer[1] * 0x10000 + buffer[2] * 0x100 + buffer[3] + 3;
dbgln_if(TLS_DEBUG, "payload size: {} buffer length: {}", payload_size, buffer_length);
if (payload_size + 1 > buffer_length)
return (i8)Error::NeedMoreData;
switch (type) {
case HelloRequest:
if (m_context.handshake_messages[0] >= 1) {
dbgln("unexpected hello request message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[0];
dbgln("hello request (renegotiation?)");
if (m_context.connection_status == ConnectionStatus::Established) {
// renegotiation
payload_res = (i8)Error::NoRenegotiation;
} else {
// :shrug:
payload_res = (i8)Error::UnexpectedMessage;
}
break;
case ClientHello:
// FIXME: We only support client mode right now
if (m_context.is_server) {
VERIFY_NOT_REACHED();
}
payload_res = (i8)Error::UnexpectedMessage;
break;
case ServerHello:
if (m_context.handshake_messages[2] >= 1) {
dbgln("unexpected server hello message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[2];
dbgln_if(TLS_DEBUG, "server hello");
if (m_context.is_server) {
dbgln("unsupported: server mode");
VERIFY_NOT_REACHED();
}
payload_res = handle_server_hello(buffer.slice(1, payload_size), write_packets);
break;
case HelloVerifyRequest:
dbgln("unsupported: DTLS");
payload_res = (i8)Error::UnexpectedMessage;
break;
case CertificateMessage:
if (m_context.handshake_messages[4] >= 1) {
dbgln("unexpected certificate message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[4];
dbgln_if(TLS_DEBUG, "certificate");
if (m_context.connection_status == ConnectionStatus::Negotiating) {
if (m_context.is_server) {
dbgln("unsupported: server mode");
VERIFY_NOT_REACHED();
}
payload_res = handle_certificate(buffer.slice(1, payload_size));
} else {
payload_res = (i8)Error::UnexpectedMessage;
}
break;
case ServerKeyExchange:
if (m_context.handshake_messages[5] >= 1) {
dbgln("unexpected server key exchange message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[5];
dbgln_if(TLS_DEBUG, "server key exchange");
if (m_context.is_server) {
dbgln("unsupported: server mode");
VERIFY_NOT_REACHED();
} else {
payload_res = handle_server_key_exchange(buffer.slice(1, payload_size));
}
break;
case CertificateRequest:
if (m_context.handshake_messages[6] >= 1) {
dbgln("unexpected certificate request message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[6];
if (m_context.is_server) {
dbgln("invalid request");
dbgln("unsupported: server mode");
VERIFY_NOT_REACHED();
} else {
// we do not support "certificate request"
dbgln("certificate request");
if (on_tls_certificate_request)
on_tls_certificate_request(*this);
m_context.client_verified = VerificationNeeded;
}
break;
case ServerHelloDone:
if (m_context.handshake_messages[7] >= 1) {
dbgln("unexpected server hello done message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[7];
dbgln_if(TLS_DEBUG, "server hello done");
if (m_context.is_server) {
dbgln("unsupported: server mode");
VERIFY_NOT_REACHED();
} else {
payload_res = handle_server_hello_done(buffer.slice(1, payload_size));
if (payload_res > 0)
write_packets = WritePacketStage::ClientHandshake;
}
break;
case CertificateVerify:
if (m_context.handshake_messages[8] >= 1) {
dbgln("unexpected certificate verify message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[8];
dbgln_if(TLS_DEBUG, "certificate verify");
if (m_context.connection_status == ConnectionStatus::KeyExchange) {
payload_res = handle_certificate_verify(buffer.slice(1, payload_size));
} else {
payload_res = (i8)Error::UnexpectedMessage;
}
break;
case ClientKeyExchange:
if (m_context.handshake_messages[9] >= 1) {
dbgln("unexpected client key exchange message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[9];
dbgln_if(TLS_DEBUG, "client key exchange");
if (m_context.is_server) {
dbgln("unsupported: server mode");
VERIFY_NOT_REACHED();
} else {
payload_res = (i8)Error::UnexpectedMessage;
}
break;
case Finished:
m_context.cached_handshake.clear();
if (m_context.handshake_messages[10] >= 1) {
dbgln("unexpected finished message");
payload_res = (i8)Error::UnexpectedMessage;
break;
}
++m_context.handshake_messages[10];
dbgln_if(TLS_DEBUG, "finished");
payload_res = handle_handshake_finished(buffer.slice(1, payload_size), write_packets);
if (payload_res > 0) {
memset(m_context.handshake_messages, 0, sizeof(m_context.handshake_messages));
}
break;
default:
dbgln("message type not understood: {}", type);
return (i8)Error::NotUnderstood;
}
if (type != HelloRequest) {
update_hash(buffer.slice(0, payload_size + 1), 0);
}
// if something went wrong, send an alert about it
if (payload_res < 0) {
switch ((Error)payload_res) {
case Error::UnexpectedMessage: {
auto packet = build_alert(true, (u8)AlertDescription::UnexpectedMessage);
write_packet(packet);
break;
}
case Error::CompressionNotSupported: {
auto packet = build_alert(true, (u8)AlertDescription::DecompressionFailure);
write_packet(packet);
break;
}
case Error::BrokenPacket: {
auto packet = build_alert(true, (u8)AlertDescription::DecodeError);
write_packet(packet);
break;
}
case Error::NotVerified: {
auto packet = build_alert(true, (u8)AlertDescription::BadRecordMAC);
write_packet(packet);
break;
}
case Error::BadCertificate: {
auto packet = build_alert(true, (u8)AlertDescription::BadCertificate);
write_packet(packet);
break;
}
case Error::UnsupportedCertificate: {
auto packet = build_alert(true, (u8)AlertDescription::UnsupportedCertificate);
write_packet(packet);
break;
}
case Error::NoCommonCipher: {
auto packet = build_alert(true, (u8)AlertDescription::InsufficientSecurity);
write_packet(packet);
break;
}
case Error::NotUnderstood:
case Error::OutOfMemory: {
auto packet = build_alert(true, (u8)AlertDescription::InternalError);
write_packet(packet);
break;
}
case Error::NoRenegotiation: {
auto packet = build_alert(true, (u8)AlertDescription::NoRenegotiation);
write_packet(packet);
break;
}
case Error::DecryptionFailed: {
auto packet = build_alert(true, (u8)AlertDescription::DecryptionFailed);
write_packet(packet);
break;
}
case Error::NotSafe: {
auto packet = build_alert(true, (u8)AlertDescription::DecryptError);
write_packet(packet);
break;
}
case Error::NeedMoreData:
// Ignore this, as it's not an "error"
dbgln_if(TLS_DEBUG, "More data needed");
break;
default:
dbgln("Unknown TLS::Error with value {}", payload_res);
VERIFY_NOT_REACHED();
break;
}
if (payload_res < 0)
return payload_res;
}
switch (write_packets) {
case WritePacketStage::Initial:
// nothing to write
break;
case WritePacketStage::ClientHandshake:
if (m_context.client_verified == VerificationNeeded) {
dbgln_if(TLS_DEBUG, "> Client Certificate");
auto packet = build_certificate();
write_packet(packet);
m_context.client_verified = Verified;
}
{
dbgln_if(TLS_DEBUG, "> Key exchange");
auto packet = build_client_key_exchange();
write_packet(packet);
}
{
dbgln_if(TLS_DEBUG, "> change cipher spec");
auto packet = build_change_cipher_spec();
write_packet(packet);
}
m_context.cipher_spec_set = 1;
m_context.local_sequence_number = 0;
{
dbgln_if(TLS_DEBUG, "> client finished");
auto packet = build_handshake_finished();
write_packet(packet);
}
m_context.cipher_spec_set = 0;
break;
case WritePacketStage::ServerHandshake:
// server handshake
dbgln("UNSUPPORTED: Server mode");
VERIFY_NOT_REACHED();
break;
case WritePacketStage::Finished:
// finished
{
dbgln_if(TLS_DEBUG, "> change cipher spec");
auto packet = build_change_cipher_spec();
write_packet(packet);
}
{
dbgln_if(TLS_DEBUG, "> client finished");
auto packet = build_handshake_finished();
write_packet(packet);
}
m_context.connection_status = ConnectionStatus::Established;
break;
}
payload_size++;
buffer_length -= payload_size;
buffer = buffer.slice(payload_size, buffer_length);
}
return original_length;
}
}
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