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quiche / quiche / 89eaa89920bce68d481a1edc459ed42108aed463 / . / quic / core / tls_server_handshaker.cc
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// Copyright (c) 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/third_party/quiche/src/quic/core/tls_server_handshaker.h"
#include <memory>
#include <string>
#include "third_party/boringssl/src/include/openssl/pool.h"
#include "third_party/boringssl/src/include/openssl/ssl.h"
#include "net/third_party/quiche/src/quic/core/crypto/quic_crypto_server_config.h"
#include "net/third_party/quiche/src/quic/core/crypto/transport_parameters.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
namespace quic {
TlsServerHandshaker::SignatureCallback::SignatureCallback(
TlsServerHandshaker* handshaker)
: handshaker_(handshaker) {}
void TlsServerHandshaker::SignatureCallback::Run(bool ok,
std::string signature) {
if (handshaker_ == nullptr) {
return;
}
if (ok) {
handshaker_->cert_verify_sig_ = std::move(signature);
}
State last_state = handshaker_->state_;
handshaker_->state_ = STATE_SIGNATURE_COMPLETE;
handshaker_->signature_callback_ = nullptr;
if (last_state == STATE_SIGNATURE_PENDING) {
handshaker_->AdvanceHandshake();
}
}
void TlsServerHandshaker::SignatureCallback::Cancel() {
handshaker_ = nullptr;
}
TlsServerHandshaker::TlsServerHandshaker(QuicCryptoStream* stream,
QuicSession* session,
SSL_CTX* ssl_ctx,
ProofSource* proof_source)
: TlsHandshaker(stream, session, ssl_ctx),
proof_source_(proof_source),
crypto_negotiated_params_(new QuicCryptoNegotiatedParameters),
tls_connection_(ssl_ctx, this) {
DCHECK_EQ(PROTOCOL_TLS1_3,
session->connection()->version().handshake_protocol);
// Configure the SSL to be a server.
SSL_set_accept_state(ssl());
if (!SetTransportParameters()) {
CloseConnection(QUIC_HANDSHAKE_FAILED,
"Server failed to set Transport Parameters");
}
}
TlsServerHandshaker::~TlsServerHandshaker() {
CancelOutstandingCallbacks();
}
void TlsServerHandshaker::CancelOutstandingCallbacks() {
if (signature_callback_) {
signature_callback_->Cancel();
signature_callback_ = nullptr;
}
}
bool TlsServerHandshaker::GetBase64SHA256ClientChannelID(
std::string* /*output*/) const {
// Channel ID is not supported when TLS is used in QUIC.
return false;
}
void TlsServerHandshaker::SendServerConfigUpdate(
const CachedNetworkParameters* /*cached_network_params*/) {
// SCUP messages aren't supported when using the TLS handshake.
}
uint8_t TlsServerHandshaker::NumHandshakeMessages() const {
// TODO(nharper): Return a sensible value here.
return 0;
}
uint8_t TlsServerHandshaker::NumHandshakeMessagesWithServerNonces() const {
// TODO(nharper): Return a sensible value here.
return 0;
}
int TlsServerHandshaker::NumServerConfigUpdateMessagesSent() const {
// SCUP messages aren't supported when using the TLS handshake.
return 0;
}
const CachedNetworkParameters*
TlsServerHandshaker::PreviousCachedNetworkParams() const {
return nullptr;
}
bool TlsServerHandshaker::ZeroRttAttempted() const {
// TODO(nharper): Support 0-RTT with TLS 1.3 in QUIC.
return false;
}
void TlsServerHandshaker::SetPreviousCachedNetworkParams(
CachedNetworkParameters /*cached_network_params*/) {}
bool TlsServerHandshaker::ShouldSendExpectCTHeader() const {
return false;
}
bool TlsServerHandshaker::encryption_established() const {
return encryption_established_;
}
bool TlsServerHandshaker::handshake_confirmed() const {
return handshake_confirmed_;
}
const QuicCryptoNegotiatedParameters&
TlsServerHandshaker::crypto_negotiated_params() const {
return *crypto_negotiated_params_;
}
CryptoMessageParser* TlsServerHandshaker::crypto_message_parser() {
return TlsHandshaker::crypto_message_parser();
}
size_t TlsServerHandshaker::BufferSizeLimitForLevel(
EncryptionLevel level) const {
return TlsHandshaker::BufferSizeLimitForLevel(level);
}
void TlsServerHandshaker::AdvanceHandshake() {
if (state_ == STATE_CONNECTION_CLOSED) {
QUIC_LOG(INFO) << "TlsServerHandshaker received handshake message after "
"connection was closed";
return;
}
if (state_ == STATE_HANDSHAKE_COMPLETE) {
// TODO(nharper): Handle post-handshake messages.
return;
}
int rv = SSL_do_handshake(ssl());
if (rv == 1) {
FinishHandshake();
return;
}
int ssl_error = SSL_get_error(ssl(), rv);
bool should_close = true;
switch (state_) {
case STATE_LISTENING:
case STATE_SIGNATURE_COMPLETE:
should_close = ssl_error != SSL_ERROR_WANT_READ;
break;
case STATE_SIGNATURE_PENDING:
should_close = ssl_error != SSL_ERROR_WANT_PRIVATE_KEY_OPERATION;
break;
default:
should_close = true;
}
if (should_close && state_ != STATE_CONNECTION_CLOSED) {
QUIC_LOG(WARNING) << "SSL_do_handshake failed; SSL_get_error returns "
<< ssl_error << ", state_ = " << state_;
ERR_print_errors_fp(stderr);
CloseConnection(QUIC_HANDSHAKE_FAILED,
"Server observed TLS handshake failure");
}
}
void TlsServerHandshaker::CloseConnection(QuicErrorCode error,
const std::string& reason_phrase) {
state_ = STATE_CONNECTION_CLOSED;
stream()->CloseConnectionWithDetails(error, reason_phrase);
}
bool TlsServerHandshaker::ProcessTransportParameters(
std::string* error_details) {
TransportParameters client_params;
const uint8_t* client_params_bytes;
size_t params_bytes_len;
SSL_get_peer_quic_transport_params(ssl(), &client_params_bytes,
&params_bytes_len);
if (params_bytes_len == 0 ||
!ParseTransportParameters(session()->connection()->version(),
Perspective::IS_CLIENT, client_params_bytes,
params_bytes_len, &client_params)) {
*error_details = "Unable to parse Transport Parameters";
return false;
}
// When interoperating with non-Google implementations that do not send
// the version extension, set it to what we expect.
if (client_params.version == 0) {
client_params.version =
CreateQuicVersionLabel(session()->connection()->version());
}
if (CryptoUtils::ValidateClientHelloVersion(
client_params.version, session()->connection()->version(),
session()->supported_versions(), error_details) != QUIC_NO_ERROR ||
session()->config()->ProcessTransportParameters(
client_params, CLIENT, error_details) != QUIC_NO_ERROR) {
return false;
}
session()->OnConfigNegotiated();
return true;
}
bool TlsServerHandshaker::SetTransportParameters() {
TransportParameters server_params;
server_params.perspective = Perspective::IS_SERVER;
server_params.supported_versions =
CreateQuicVersionLabelVector(session()->supported_versions());
server_params.version =
CreateQuicVersionLabel(session()->connection()->version());
if (!session()->config()->FillTransportParameters(&server_params)) {
return false;
}
// TODO(nharper): Provide an actual value for the stateless reset token.
server_params.stateless_reset_token.resize(16);
std::vector<uint8_t> server_params_bytes;
if (!SerializeTransportParameters(session()->connection()->version(),
server_params, &server_params_bytes) ||
SSL_set_quic_transport_params(ssl(), server_params_bytes.data(),
server_params_bytes.size()) != 1) {
return false;
}
return true;
}
void TlsServerHandshaker::FinishHandshake() {
if (!valid_alpn_received_) {
QUIC_DLOG(ERROR)
<< "Server: handshake finished without receiving a known ALPN";
// TODO(b/130164908) this should send no_application_protocol
// instead of QUIC_HANDSHAKE_FAILED.
CloseConnection(QUIC_HANDSHAKE_FAILED,
"Server did not receive a known ALPN");
return;
}
QUIC_LOG(INFO) << "Server: handshake finished";
state_ = STATE_HANDSHAKE_COMPLETE;
session()->connection()->SetDefaultEncryptionLevel(ENCRYPTION_FORWARD_SECURE);
encryption_established_ = true;
handshake_confirmed_ = true;
session()->OnCryptoHandshakeEvent(QuicSession::HANDSHAKE_CONFIRMED);
// Fill crypto_negotiated_params_:
const SSL_CIPHER* cipher = SSL_get_current_cipher(ssl());
if (cipher) {
crypto_negotiated_params_->cipher_suite = SSL_CIPHER_get_value(cipher);
}
crypto_negotiated_params_->key_exchange_group = SSL_get_curve_id(ssl());
session()->connection()->OnHandshakeComplete();
}
ssl_private_key_result_t TlsServerHandshaker::PrivateKeySign(
uint8_t* out,
size_t* out_len,
size_t max_out,
uint16_t sig_alg,
QuicStringPiece in) {
signature_callback_ = new SignatureCallback(this);
proof_source_->ComputeTlsSignature(
session()->connection()->self_address(), hostname_, sig_alg, in,
std::unique_ptr<SignatureCallback>(signature_callback_));
if (state_ == STATE_SIGNATURE_COMPLETE) {
return PrivateKeyComplete(out, out_len, max_out);
}
state_ = STATE_SIGNATURE_PENDING;
return ssl_private_key_retry;
}
ssl_private_key_result_t TlsServerHandshaker::PrivateKeyComplete(
uint8_t* out,
size_t* out_len,
size_t max_out) {
if (state_ == STATE_SIGNATURE_PENDING) {
return ssl_private_key_retry;
}
if (cert_verify_sig_.size() > max_out || cert_verify_sig_.empty()) {
return ssl_private_key_failure;
}
*out_len = cert_verify_sig_.size();
memcpy(out, cert_verify_sig_.data(), *out_len);
cert_verify_sig_.clear();
cert_verify_sig_.shrink_to_fit();
return ssl_private_key_success;
}
int TlsServerHandshaker::SelectCertificate(int* out_alert) {
const char* hostname = SSL_get_servername(ssl(), TLSEXT_NAMETYPE_host_name);
if (hostname) {
hostname_ = hostname;
} else {
QUIC_LOG(INFO) << "No hostname indicated in SNI";
}
QuicReferenceCountedPointer<ProofSource::Chain> chain =
proof_source_->GetCertChain(session()->connection()->self_address(),
hostname_);
if (chain->certs.empty()) {
QUIC_LOG(ERROR) << "No certs provided for host '" << hostname_ << "'";
return SSL_TLSEXT_ERR_ALERT_FATAL;
}
std::vector<CRYPTO_BUFFER*> certs;
certs.resize(chain->certs.size());
for (size_t i = 0; i < certs.size(); i++) {
certs[i] = CRYPTO_BUFFER_new(
reinterpret_cast<const uint8_t*>(chain->certs[i].data()),
chain->certs[i].length(), nullptr);
}
tls_connection_.SetCertChain(certs);
for (size_t i = 0; i < certs.size(); i++) {
CRYPTO_BUFFER_free(certs[i]);
}
std::string error_details;
if (!ProcessTransportParameters(&error_details)) {
CloseConnection(QUIC_HANDSHAKE_FAILED, error_details);
*out_alert = SSL_AD_INTERNAL_ERROR;
return SSL_TLSEXT_ERR_ALERT_FATAL;
}
QUIC_LOG(INFO) << "Set " << chain->certs.size() << " certs for server";
return SSL_TLSEXT_ERR_OK;
}
int TlsServerHandshaker::SelectAlpn(const uint8_t** out,
uint8_t* out_len,
const uint8_t* in,
unsigned in_len) {
// |in| contains a sequence of 1-byte-length-prefixed values.
*out_len = 0;
*out = nullptr;
if (in_len == 0) {
QUIC_DLOG(ERROR) << "No ALPN provided by client";
return SSL_TLSEXT_ERR_NOACK;
}
CBS all_alpns;
CBS_init(&all_alpns, in, in_len);
std::vector<QuicStringPiece> alpns;
while (CBS_len(&all_alpns) > 0) {
CBS alpn;
if (!CBS_get_u8_length_prefixed(&all_alpns, &alpn)) {
QUIC_DLOG(ERROR) << "Failed to parse ALPN length";
return SSL_TLSEXT_ERR_NOACK;
}
const size_t alpn_length = CBS_len(&alpn);
if (alpn_length == 0) {
QUIC_DLOG(ERROR) << "Received invalid zero-length ALPN";
return SSL_TLSEXT_ERR_NOACK;
}
alpns.emplace_back(reinterpret_cast<const char*>(CBS_data(&alpn)),
alpn_length);
}
auto selected_alpn = session()->SelectAlpn(alpns);
if (selected_alpn == alpns.end()) {
QUIC_DLOG(ERROR) << "No known ALPN provided by client";
return SSL_TLSEXT_ERR_NOACK;
}
session()->OnAlpnSelected(*selected_alpn);
valid_alpn_received_ = true;
*out_len = selected_alpn->size();
*out = reinterpret_cast<const uint8_t*>(selected_alpn->data());
return SSL_TLSEXT_ERR_OK;
}
} // namespace quic