naiveproxy/net/quic/quartc/quartc_session.cc

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2018-01-28 21:32:06 +03:00
// 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/quic/quartc/quartc_session.h"
#include "net/quic/platform/api/quic_ptr_util.h"
using std::string;
namespace net {
namespace {
// Default priority for incoming QUIC streams.
// TODO(zhihuang): Determine if this value is correct.
static const SpdyPriority kDefaultPriority = 3;
// Arbitrary server port number for net::QuicCryptoClientConfig.
const int kQuicServerPort = 0;
// Length of HKDF input keying material, equal to its number of bytes.
// https://tools.ietf.org/html/rfc5869#section-2.2.
// TODO(zhihuang): Verify that input keying material length is correct.
const size_t kInputKeyingMaterialLength = 32;
// Used by QuicCryptoServerConfig to provide dummy proof credentials.
// TODO(zhihuang): Remove when secure P2P QUIC handshake is possible.
class DummyProofSource : public ProofSource {
public:
DummyProofSource() {}
~DummyProofSource() override {}
// ProofSource override.
void GetProof(const QuicSocketAddress& server_addr,
const string& hostname,
const string& server_config,
QuicTransportVersion transport_version,
QuicStringPiece chlo_hash,
std::unique_ptr<Callback> callback) override {
QuicReferenceCountedPointer<ProofSource::Chain> chain;
QuicCryptoProof proof;
std::vector<string> certs;
certs.push_back("Dummy cert");
chain = new ProofSource::Chain(certs);
proof.signature = "Dummy signature";
proof.leaf_cert_scts = "Dummy timestamp";
callback->Run(true, chain, proof, nullptr /* details */);
}
QuicReferenceCountedPointer<Chain> GetCertChain(
const QuicSocketAddress& server_address,
const string& hostname) override {
return QuicReferenceCountedPointer<Chain>();
}
void ComputeTlsSignature(
const QuicSocketAddress& server_address,
const string& hostname,
uint16_t signature_algorithm,
QuicStringPiece in,
std::unique_ptr<SignatureCallback> callback) override {
callback->Run(true, "Dummy signature");
}
};
// Used by QuicCryptoClientConfig to ignore the peer's credentials
// and establish an insecure QUIC connection.
// TODO(zhihuang): Remove when secure P2P QUIC handshake is possible.
class InsecureProofVerifier : public ProofVerifier {
public:
InsecureProofVerifier() {}
~InsecureProofVerifier() override {}
// ProofVerifier override.
QuicAsyncStatus VerifyProof(
const string& hostname,
const uint16_t port,
const string& server_config,
QuicTransportVersion transport_version,
QuicStringPiece chlo_hash,
const std::vector<string>& certs,
const string& cert_sct,
const string& signature,
const ProofVerifyContext* context,
string* error_details,
std::unique_ptr<ProofVerifyDetails>* verify_details,
std::unique_ptr<ProofVerifierCallback> callback) override {
return QUIC_SUCCESS;
}
QuicAsyncStatus VerifyCertChain(
const string& hostname,
const std::vector<string>& certs,
const ProofVerifyContext* context,
string* error_details,
std::unique_ptr<ProofVerifyDetails>* details,
std::unique_ptr<ProofVerifierCallback> callback) override {
return QUIC_SUCCESS;
}
};
} // namespace
QuicConnectionId QuartcCryptoServerStreamHelper::GenerateConnectionIdForReject(
QuicConnectionId connection_id) const {
return 0;
}
bool QuartcCryptoServerStreamHelper::CanAcceptClientHello(
const CryptoHandshakeMessage& message,
const QuicSocketAddress& self_address,
string* error_details) const {
return true;
}
QuartcSession::QuartcSession(std::unique_ptr<QuicConnection> connection,
const QuicConfig& config,
const string& unique_remote_server_id,
Perspective perspective,
QuicConnectionHelperInterface* helper,
QuicClock* clock)
: QuicSession(connection.get(), nullptr /*visitor*/, config),
unique_remote_server_id_(unique_remote_server_id),
perspective_(perspective),
connection_(std::move(connection)),
helper_(helper),
clock_(clock) {
// Initialization with default crypto configuration.
if (perspective_ == Perspective::IS_CLIENT) {
std::unique_ptr<ProofVerifier> proof_verifier(new InsecureProofVerifier);
quic_crypto_client_config_.reset(
new QuicCryptoClientConfig(std::move(proof_verifier)));
} else {
std::unique_ptr<ProofSource> proof_source(new DummyProofSource);
// Generate a random source address token secret. For long-running servers
// it's better to not regenerate it for each connection to enable zero-RTT
// handshakes, but for transient clients it does not matter.
char source_address_token_secret[kInputKeyingMaterialLength];
helper_->GetRandomGenerator()->RandBytes(source_address_token_secret,
kInputKeyingMaterialLength);
quic_crypto_server_config_.reset(new QuicCryptoServerConfig(
string(source_address_token_secret, kInputKeyingMaterialLength),
helper_->GetRandomGenerator(), std::move(proof_source)));
// Provide server with serialized config string to prove ownership.
QuicCryptoServerConfig::ConfigOptions options;
// The |message| is used to handle the return value of AddDefaultConfig
// which is raw pointer of the CryptoHandshakeMessage.
std::unique_ptr<CryptoHandshakeMessage> message(
quic_crypto_server_config_->AddDefaultConfig(
helper_->GetRandomGenerator(), helper_->GetClock(), options));
}
}
QuartcSession::~QuartcSession() {}
const QuicCryptoStream* QuartcSession::GetCryptoStream() const {
return crypto_stream_.get();
}
QuicCryptoStream* QuartcSession::GetMutableCryptoStream() {
return crypto_stream_.get();
}
QuartcStream* QuartcSession::CreateOutgoingDynamicStream() {
return ActivateDataStream(
CreateDataStream(GetNextOutgoingStreamId(), kDefaultPriority));
}
void QuartcSession::OnCryptoHandshakeEvent(CryptoHandshakeEvent event) {
QuicSession::OnCryptoHandshakeEvent(event);
if (event == HANDSHAKE_CONFIRMED) {
DCHECK(IsEncryptionEstablished());
DCHECK(IsCryptoHandshakeConfirmed());
DCHECK(session_delegate_);
session_delegate_->OnCryptoHandshakeComplete();
}
}
void QuartcSession::CloseStream(QuicStreamId stream_id) {
if (IsClosedStream(stream_id)) {
// When CloseStream has been called recursively (via
// QuicStream::OnClose), the stream is already closed so return.
return;
}
write_blocked_streams()->UnregisterStream(stream_id);
QuicSession::CloseStream(stream_id);
}
void QuartcSession::CancelStream(QuicStreamId stream_id) {
ResetStream(stream_id, QuicRstStreamErrorCode::QUIC_STREAM_CANCELLED);
}
void QuartcSession::ResetStream(QuicStreamId stream_id,
QuicRstStreamErrorCode error) {
if (!IsOpenStream(stream_id)) {
return;
}
QuicStream* stream = QuicSession::GetOrCreateStream(stream_id);
if (stream) {
stream->Reset(error);
}
}
bool QuartcSession::IsOpenStream(QuicStreamId stream_id) {
return QuicSession::IsOpenStream(stream_id);
}
QuartcSessionStats QuartcSession::GetStats() {
QuartcSessionStats stats;
const QuicConnectionStats& connection_stats = connection_->GetStats();
stats.bandwidth_estimate = connection_stats.estimated_bandwidth;
stats.smoothed_rtt =
QuicTime::Delta::FromMicroseconds(connection_stats.srtt_us);
return stats;
}
void QuartcSession::OnConnectionClosed(QuicErrorCode error,
const string& error_details,
ConnectionCloseSource source) {
QuicSession::OnConnectionClosed(error, error_details, source);
DCHECK(session_delegate_);
session_delegate_->OnConnectionClosed(
error, source == ConnectionCloseSource::FROM_PEER);
}
void QuartcSession::StartCryptoHandshake() {
if (perspective_ == Perspective::IS_CLIENT) {
QuicServerId server_id(unique_remote_server_id_, kQuicServerPort);
QuicCryptoClientStream* crypto_stream =
new QuicCryptoClientStream(server_id, this, new ProofVerifyContext(),
quic_crypto_client_config_.get(), this);
crypto_stream_.reset(crypto_stream);
QuicSession::Initialize();
crypto_stream->CryptoConnect();
} else {
quic_compressed_certs_cache_.reset(new QuicCompressedCertsCache(
QuicCompressedCertsCache::kQuicCompressedCertsCacheSize));
bool use_stateless_rejects_if_peer_supported = false;
QuicCryptoServerStream* crypto_stream = new QuicCryptoServerStream(
quic_crypto_server_config_.get(), quic_compressed_certs_cache_.get(),
use_stateless_rejects_if_peer_supported, this, &stream_helper_);
crypto_stream_.reset(crypto_stream);
QuicSession::Initialize();
}
}
bool QuartcSession::ExportKeyingMaterial(const string& label,
const uint8_t* context,
size_t context_len,
bool used_context,
uint8_t* result,
size_t result_len) {
string quic_context(reinterpret_cast<const char*>(context), context_len);
string quic_result;
bool success = crypto_stream_->ExportKeyingMaterial(label, quic_context,
result_len, &quic_result);
quic_result.copy(reinterpret_cast<char*>(result), result_len);
DCHECK(quic_result.length() == result_len);
return success;
}
void QuartcSession::CloseConnection(const string& details) {
connection_->CloseConnection(
QuicErrorCode::QUIC_CONNECTION_CANCELLED, details,
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET_WITH_NO_ACK);
}
QuartcStreamInterface* QuartcSession::CreateOutgoingStream(
const OutgoingStreamParameters& param) {
// The |param| is for forward-compatibility. Not used for now.
return CreateOutgoingDynamicStream();
}
void QuartcSession::SetDelegate(
QuartcSessionInterface::Delegate* session_delegate) {
if (session_delegate_) {
LOG(WARNING) << "The delegate for the session has already been set.";
}
session_delegate_ = session_delegate;
DCHECK(session_delegate_);
}
void QuartcSession::OnTransportCanWrite() {
if (HasDataToWrite()) {
connection()->OnCanWrite();
}
}
bool QuartcSession::OnTransportReceived(const char* data, size_t data_len) {
QuicReceivedPacket packet(data, data_len, clock_->Now());
ProcessUdpPacket(connection()->self_address(), connection()->peer_address(),
packet);
return true;
}
void QuartcSession::OnProofValid(
const QuicCryptoClientConfig::CachedState& cached) {
// TODO(zhihuang): Handle the proof verification.
}
void QuartcSession::OnProofVerifyDetailsAvailable(
const ProofVerifyDetails& verify_details) {
// TODO(zhihuang): Handle the proof verification.
}
void QuartcSession::SetClientCryptoConfig(
QuicCryptoClientConfig* client_config) {
quic_crypto_client_config_.reset(client_config);
}
void QuartcSession::SetServerCryptoConfig(
QuicCryptoServerConfig* server_config) {
quic_crypto_server_config_.reset(server_config);
}
QuicStream* QuartcSession::CreateIncomingDynamicStream(QuicStreamId id) {
return ActivateDataStream(CreateDataStream(id, kDefaultPriority));
}
std::unique_ptr<QuartcStream> QuartcSession::CreateDataStream(
QuicStreamId id,
SpdyPriority priority) {
if (crypto_stream_ == nullptr || !crypto_stream_->encryption_established()) {
// Encryption not active so no stream created
return nullptr;
}
auto stream = QuicMakeUnique<QuartcStream>(id, this);
if (stream) {
// Register the stream to the QuicWriteBlockedList. |priority| is clamped
// between 0 and 7, with 0 being the highest priority and 7 the lowest
// priority.
write_blocked_streams()->RegisterStream(stream->id(), priority);
if (IsIncomingStream(id)) {
DCHECK(session_delegate_);
// Incoming streams need to be registered with the session_delegate_.
session_delegate_->OnIncomingStream(stream.get());
}
}
return stream;
}
QuartcStream* QuartcSession::ActivateDataStream(
std::unique_ptr<QuartcStream> stream) {
// Transfer ownership of the data stream to the session via ActivateStream().
QuartcStream* raw = stream.release();
if (raw) {
// Make QuicSession take ownership of the stream.
ActivateStream(std::unique_ptr<QuicStream>(raw));
}
return raw;
}
} // namespace net