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// Copyright (c) 2020 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_chlo_extractor.h"
#include <cstring>
#include <memory>
#include "absl/strings/str_cat.h"
#include "absl/strings/string_view.h"
#include "third_party/boringssl/src/include/openssl/ssl.h"
#include "net/third_party/quiche/src/quic/core/frames/quic_crypto_frame.h"
#include "net/third_party/quiche/src/quic/core/quic_data_reader.h"
#include "net/third_party/quiche/src/quic/core/quic_error_codes.h"
#include "net/third_party/quiche/src/quic/core/quic_framer.h"
#include "net/third_party/quiche/src/quic/core/quic_time.h"
#include "net/third_party/quiche/src/quic/core/quic_types.h"
#include "net/third_party/quiche/src/quic/core/quic_versions.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_bug_tracker.h"
#include "net/third_party/quiche/src/common/platform/api/quiche_text_utils.h"
namespace quic {
TlsChloExtractor::TlsChloExtractor()
: crypto_stream_sequencer_(this),
state_(State::kInitial),
parsed_crypto_frame_in_this_packet_(false) {}
TlsChloExtractor::TlsChloExtractor(TlsChloExtractor&& other)
: TlsChloExtractor() {
*this = std::move(other);
}
TlsChloExtractor& TlsChloExtractor::operator=(TlsChloExtractor&& other) {
framer_ = std::move(other.framer_);
if (framer_) {
framer_->set_visitor(this);
}
crypto_stream_sequencer_ = std::move(other.crypto_stream_sequencer_);
crypto_stream_sequencer_.set_stream(this);
ssl_ = std::move(other.ssl_);
if (ssl_) {
std::pair<SSL_CTX*, int> shared_handles = GetSharedSslHandles();
int ex_data_index = shared_handles.second;
const int rv = SSL_set_ex_data(ssl_.get(), ex_data_index, this);
CHECK_EQ(rv, 1) << "Internal allocation failure in SSL_set_ex_data";
}
state_ = other.state_;
error_details_ = std::move(other.error_details_);
parsed_crypto_frame_in_this_packet_ =
other.parsed_crypto_frame_in_this_packet_;
alpns_ = std::move(other.alpns_);
server_name_ = std::move(other.server_name_);
return *this;
}
void TlsChloExtractor::IngestPacket(const ParsedQuicVersion& version,
const QuicReceivedPacket& packet) {
if (state_ == State::kUnrecoverableFailure) {
QUIC_DLOG(ERROR) << "Not ingesting packet after unrecoverable error";
return;
}
if (version == UnsupportedQuicVersion()) {
QUIC_DLOG(ERROR) << "Not ingesting packet with unsupported version";
return;
}
if (version.handshake_protocol != PROTOCOL_TLS1_3) {
QUIC_DLOG(ERROR) << "Not ingesting packet with non-TLS version " << version;
return;
}
if (framer_) {
// This is not the first packet we have ingested, check if version matches.
if (!framer_->IsSupportedVersion(version)) {
QUIC_DLOG(ERROR)
<< "Not ingesting packet with version mismatch, expected "
<< framer_->version() << ", got " << version;
return;
}
} else {
// This is the first packet we have ingested, setup parser.
framer_ = std::make_unique<QuicFramer>(
ParsedQuicVersionVector{version}, QuicTime::Zero(),
Perspective::IS_SERVER, /*expected_server_connection_id_length=*/0);
// Note that expected_server_connection_id_length only matters for short
// headers and we explicitly drop those so we can pass any value here.
framer_->set_visitor(this);
}
// When the framer parses |packet|, if it sees a CRYPTO frame it will call
// OnCryptoFrame below and that will set parsed_crypto_frame_in_this_packet_
// to true.
parsed_crypto_frame_in_this_packet_ = false;
const bool parse_success = framer_->ProcessPacket(packet);
if (state_ == State::kInitial && parsed_crypto_frame_in_this_packet_) {
// If we parsed a CRYPTO frame but didn't advance the state from initial,
// then it means that we will need more packets to reassemble the full CHLO,
// so we advance the state here. This can happen when the first packet
// received is not the first one in the crypto stream. This allows us to
// differentiate our state between single-packet CHLO and multi-packet CHLO.
state_ = State::kParsedPartialChloFragment;
}
if (!parse_success) {
// This could be due to the packet being non-initial for example.
QUIC_DLOG(ERROR) << "Failed to process packet";
return;
}
}
// This is called when the framer parsed the unencrypted parts of the header.
bool TlsChloExtractor::OnUnauthenticatedPublicHeader(
const QuicPacketHeader& header) {
if (header.form != IETF_QUIC_LONG_HEADER_PACKET) {
QUIC_DLOG(ERROR) << "Not parsing non-long-header packet " << header;
return false;
}
if (header.long_packet_type != INITIAL) {
QUIC_DLOG(ERROR) << "Not parsing non-initial packet " << header;
return false;
}
// QuicFramer is constructed without knowledge of the server's connection ID
// so it needs to be set up here in order to decrypt the packet.
framer_->SetInitialObfuscators(header.destination_connection_id);
return true;
}
// This is called by the framer if it detects a change in version during
// parsing.
bool TlsChloExtractor::OnProtocolVersionMismatch(ParsedQuicVersion version) {
// This should never be called because we already check versions in
// IngestPacket.
QUIC_BUG << "Unexpected version mismatch, expected " << framer_->version()
<< ", got " << version;
return false;
}
// This is called by the QuicStreamSequencer if it encounters an unrecoverable
// error that will prevent it from reassembling the crypto stream data.
void TlsChloExtractor::OnUnrecoverableError(QuicErrorCode error,
const std::string& details) {
HandleUnrecoverableError(absl::StrCat(
"Crypto stream error ", QuicErrorCodeToString(error), ": ", details));
}
// This is called by the framer if it sees a CRYPTO frame during parsing.
bool TlsChloExtractor::OnCryptoFrame(const QuicCryptoFrame& frame) {
if (frame.level != ENCRYPTION_INITIAL) {
// Since we drop non-INITIAL packets in OnUnauthenticatedPublicHeader,
// we should never receive any CRYPTO frames at other encryption levels.
QUIC_BUG << "Parsed bad-level CRYPTO frame " << frame;
return false;
}
// parsed_crypto_frame_in_this_packet_ is checked in IngestPacket to allow
// advancing our state to track the difference between single-packet CHLO
// and multi-packet CHLO.
parsed_crypto_frame_in_this_packet_ = true;
crypto_stream_sequencer_.OnCryptoFrame(frame);
return true;
}
// Called by the QuicStreamSequencer when it receives a CRYPTO frame that
// advances the amount of contiguous data we now have starting from offset 0.
void TlsChloExtractor::OnDataAvailable() {
// Lazily set up BoringSSL handle.
SetupSslHandle();
// Get data from the stream sequencer and pass it to BoringSSL.
struct iovec iov;
while (crypto_stream_sequencer_.GetReadableRegion(&iov)) {
const int rv = SSL_provide_quic_data(
ssl_.get(), ssl_encryption_initial,
reinterpret_cast<const uint8_t*>(iov.iov_base), iov.iov_len);
if (rv != 1) {
HandleUnrecoverableError("SSL_provide_quic_data failed");
return;
}
crypto_stream_sequencer_.MarkConsumed(iov.iov_len);
}
// Instruct BoringSSL to attempt parsing a full CHLO from the provided data.
// We ignore the return value since we know the handshake is going to fail
// because we explicitly cancel processing once we've parsed the CHLO.
(void)SSL_do_handshake(ssl_.get());
}
// static
TlsChloExtractor* TlsChloExtractor::GetInstanceFromSSL(SSL* ssl) {
std::pair<SSL_CTX*, int> shared_handles = GetSharedSslHandles();
int ex_data_index = shared_handles.second;
return reinterpret_cast<TlsChloExtractor*>(
SSL_get_ex_data(ssl, ex_data_index));
}
// static
int TlsChloExtractor::SetReadSecretCallback(
SSL* ssl,
enum ssl_encryption_level_t /*level*/,
const SSL_CIPHER* /*cipher*/,
const uint8_t* /*secret*/,
size_t /*secret_length*/) {
GetInstanceFromSSL(ssl)->HandleUnexpectedCallback("SetReadSecretCallback");
return 0;
}
// static
int TlsChloExtractor::SetWriteSecretCallback(
SSL* ssl,
enum ssl_encryption_level_t /*level*/,
const SSL_CIPHER* /*cipher*/,
const uint8_t* /*secret*/,
size_t /*secret_length*/) {
GetInstanceFromSSL(ssl)->HandleUnexpectedCallback("SetWriteSecretCallback");
return 0;
}
// static
int TlsChloExtractor::WriteMessageCallback(
SSL* ssl,
enum ssl_encryption_level_t /*level*/,
const uint8_t* /*data*/,
size_t /*len*/) {
GetInstanceFromSSL(ssl)->HandleUnexpectedCallback("WriteMessageCallback");
return 0;
}
// static
int TlsChloExtractor::FlushFlightCallback(SSL* ssl) {
GetInstanceFromSSL(ssl)->HandleUnexpectedCallback("FlushFlightCallback");
return 0;
}
void TlsChloExtractor::HandleUnexpectedCallback(
const std::string& callback_name) {
std::string error_details =
absl::StrCat("Unexpected callback ", callback_name);
QUIC_BUG << error_details;
HandleUnrecoverableError(error_details);
}
// static
int TlsChloExtractor::SendAlertCallback(SSL* ssl,
enum ssl_encryption_level_t /*level*/,
uint8_t desc) {
GetInstanceFromSSL(ssl)->SendAlert(desc);
return 0;
}
void TlsChloExtractor::SendAlert(uint8_t tls_alert_value) {
if (tls_alert_value == SSL3_AD_HANDSHAKE_FAILURE && HasParsedFullChlo()) {
// This is the most common scenario. Since we return an error from
// SelectCertCallback in order to cancel further processing, BoringSSL will
// try to send this alert to tell the client that the handshake failed.
return;
}
HandleUnrecoverableError(absl::StrCat(
"BoringSSL attempted to send alert ", static_cast<int>(tls_alert_value),
" ", SSL_alert_desc_string_long(tls_alert_value)));
}
// static
enum ssl_select_cert_result_t TlsChloExtractor::SelectCertCallback(
const SSL_CLIENT_HELLO* client_hello) {
GetInstanceFromSSL(client_hello->ssl)->HandleParsedChlo(client_hello);
// Always return an error to cancel any further processing in BoringSSL.
return ssl_select_cert_error;
}
// Extracts the server name and ALPN from the parsed ClientHello.
void TlsChloExtractor::HandleParsedChlo(const SSL_CLIENT_HELLO* client_hello) {
const char* server_name =
SSL_get_servername(client_hello->ssl, TLSEXT_NAMETYPE_host_name);
if (server_name) {
server_name_ = std::string(server_name);
}
const uint8_t* alpn_data;
size_t alpn_len;
int rv = SSL_early_callback_ctx_extension_get(
client_hello, TLSEXT_TYPE_application_layer_protocol_negotiation,
&alpn_data, &alpn_len);
if (rv == 1) {
QuicDataReader alpns_reader(reinterpret_cast<const char*>(alpn_data),
alpn_len);
absl::string_view alpns_payload;
if (!alpns_reader.ReadStringPiece16(&alpns_payload)) {
HandleUnrecoverableError("Failed to read alpns_payload");
return;
}
QuicDataReader alpns_payload_reader(alpns_payload);
while (!alpns_payload_reader.IsDoneReading()) {
absl::string_view alpn_payload;
if (!alpns_payload_reader.ReadStringPiece8(&alpn_payload)) {
HandleUnrecoverableError("Failed to read alpn_payload");
return;
}
alpns_.emplace_back(std::string(alpn_payload));
}
}
// Update our state now that we've parsed a full CHLO.
if (state_ == State::kInitial) {
state_ = State::kParsedFullSinglePacketChlo;
} else if (state_ == State::kParsedPartialChloFragment) {
state_ = State::kParsedFullMultiPacketChlo;
} else {
QUIC_BUG << "Unexpected state on successful parse "
<< StateToString(state_);
}
}
// static
std::pair<SSL_CTX*, int> TlsChloExtractor::GetSharedSslHandles() {
// Use a lambda to benefit from C++11 guarantee that static variables are
// initialized lazily in a thread-safe manner. |shared_handles| is therefore
// guaranteed to be initialized exactly once and never destructed.
static std::pair<SSL_CTX*, int>* shared_handles = []() {
CRYPTO_library_init();
SSL_CTX* ssl_ctx = SSL_CTX_new(TLS_with_buffers_method());
SSL_CTX_set_min_proto_version(ssl_ctx, TLS1_3_VERSION);
SSL_CTX_set_max_proto_version(ssl_ctx, TLS1_3_VERSION);
static const SSL_QUIC_METHOD kQuicCallbacks{
TlsChloExtractor::SetReadSecretCallback,
TlsChloExtractor::SetWriteSecretCallback,
TlsChloExtractor::WriteMessageCallback,
TlsChloExtractor::FlushFlightCallback,
TlsChloExtractor::SendAlertCallback};
SSL_CTX_set_quic_method(ssl_ctx, &kQuicCallbacks);
SSL_CTX_set_select_certificate_cb(ssl_ctx,
TlsChloExtractor::SelectCertCallback);
int ex_data_index =
SSL_get_ex_new_index(0, nullptr, nullptr, nullptr, nullptr);
return new std::pair<SSL_CTX*, int>(ssl_ctx, ex_data_index);
}();
return *shared_handles;
}
// Sets up the per-instance SSL handle needed by BoringSSL.
void TlsChloExtractor::SetupSslHandle() {
if (ssl_) {
// Handles have already been set up.
return;
}
std::pair<SSL_CTX*, int> shared_handles = GetSharedSslHandles();
SSL_CTX* ssl_ctx = shared_handles.first;
int ex_data_index = shared_handles.second;
ssl_ = bssl::UniquePtr<SSL>(SSL_new(ssl_ctx));
const int rv = SSL_set_ex_data(ssl_.get(), ex_data_index, this);
CHECK_EQ(rv, 1) << "Internal allocation failure in SSL_set_ex_data";
SSL_set_accept_state(ssl_.get());
}
// Called by other methods to record any unrecoverable failures they experience.
void TlsChloExtractor::HandleUnrecoverableError(
const std::string& error_details) {
if (HasParsedFullChlo()) {
// Ignore errors if we've parsed everything successfully.
QUIC_DLOG(ERROR) << "Ignoring error: " << error_details;
return;
}
QUIC_DLOG(ERROR) << "Handling error: " << error_details;
state_ = State::kUnrecoverableFailure;
if (error_details_.empty()) {
error_details_ = error_details;
} else {
error_details_ = absl::StrCat(error_details_, "; ", error_details);
}
}
// static
std::string TlsChloExtractor::StateToString(State state) {
switch (state) {
case State::kInitial:
return "Initial";
case State::kParsedFullSinglePacketChlo:
return "ParsedFullSinglePacketChlo";
case State::kParsedFullMultiPacketChlo:
return "ParsedFullMultiPacketChlo";
case State::kParsedPartialChloFragment:
return "ParsedPartialChloFragment";
case State::kUnrecoverableFailure:
return "UnrecoverableFailure";
}
return absl::StrCat("Unknown(", static_cast<int>(state), ")");
}
std::ostream& operator<<(std::ostream& os,
const TlsChloExtractor::State& state) {
os << TlsChloExtractor::StateToString(state);
return os;
}
} // namespace quic