blob: c6be41eb76cf9910e924fc302ee39b9bf39acdc5 [file] [log] [blame]
// Copyright (c) 2018 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 "quiche/quic/core/http/http_decoder.h"
#include <cstdint>
#include "absl/base/attributes.h"
#include "absl/strings/string_view.h"
#include "quiche/http2/http2_constants.h"
#include "quiche/quic/core/http/http_frames.h"
#include "quiche/quic/core/quic_data_reader.h"
#include "quiche/quic/core/quic_error_codes.h"
#include "quiche/quic/core/quic_types.h"
#include "quiche/quic/platform/api/quic_bug_tracker.h"
#include "quiche/quic/platform/api/quic_flag_utils.h"
#include "quiche/quic/platform/api/quic_flags.h"
#include "quiche/quic/platform/api/quic_logging.h"
namespace quic {
namespace {
// Limit on the payload length for frames that are buffered by HttpDecoder.
// If a frame header indicating a payload length exceeding this limit is
// received, HttpDecoder closes the connection. Does not apply to frames that
// are not buffered here but each payload fragment is immediately passed to
// Visitor, like HEADERS, DATA, and unknown frames.
constexpr QuicByteCount kPayloadLengthLimit = 1024 * 1024;
} // anonymous namespace
HttpDecoder::HttpDecoder(Visitor* visitor) : HttpDecoder(visitor, Options()) {}
HttpDecoder::HttpDecoder(Visitor* visitor, Options options)
: visitor_(visitor),
allow_web_transport_stream_(options.allow_web_transport_stream),
state_(STATE_READING_FRAME_TYPE),
current_frame_type_(0),
current_length_field_length_(0),
remaining_length_field_length_(0),
current_frame_length_(0),
remaining_frame_length_(0),
current_type_field_length_(0),
remaining_type_field_length_(0),
error_(QUIC_NO_ERROR),
error_detail_("") {
QUICHE_DCHECK(visitor_);
}
HttpDecoder::~HttpDecoder() {}
// static
bool HttpDecoder::DecodeSettings(const char* data, QuicByteCount len,
SettingsFrame* frame) {
QuicDataReader reader(data, len);
uint64_t frame_type;
if (!reader.ReadVarInt62(&frame_type)) {
QUIC_DLOG(ERROR) << "Unable to read frame type.";
return false;
}
if (frame_type != static_cast<uint64_t>(HttpFrameType::SETTINGS)) {
QUIC_DLOG(ERROR) << "Invalid frame type " << frame_type;
return false;
}
absl::string_view frame_contents;
if (!reader.ReadStringPieceVarInt62(&frame_contents)) {
QUIC_DLOG(ERROR) << "Failed to read SETTINGS frame contents";
return false;
}
QuicDataReader frame_reader(frame_contents);
while (!frame_reader.IsDoneReading()) {
uint64_t id;
if (!frame_reader.ReadVarInt62(&id)) {
QUIC_DLOG(ERROR) << "Unable to read setting identifier.";
return false;
}
uint64_t content;
if (!frame_reader.ReadVarInt62(&content)) {
QUIC_DLOG(ERROR) << "Unable to read setting value.";
return false;
}
auto result = frame->values.insert({id, content});
if (!result.second) {
QUIC_DLOG(ERROR) << "Duplicate setting identifier.";
return false;
}
}
return true;
}
QuicByteCount HttpDecoder::ProcessInput(const char* data, QuicByteCount len) {
QUICHE_DCHECK_EQ(QUIC_NO_ERROR, error_);
QUICHE_DCHECK_NE(STATE_ERROR, state_);
QuicDataReader reader(data, len);
bool continue_processing = true;
// BufferOrParsePayload() and FinishParsing() may need to be called even if
// there is no more data so that they can finish processing the current frame.
while (continue_processing && (reader.BytesRemaining() != 0 ||
state_ == STATE_BUFFER_OR_PARSE_PAYLOAD ||
state_ == STATE_FINISH_PARSING)) {
// |continue_processing| must have been set to false upon error.
QUICHE_DCHECK_EQ(QUIC_NO_ERROR, error_);
QUICHE_DCHECK_NE(STATE_ERROR, state_);
switch (state_) {
case STATE_READING_FRAME_TYPE:
continue_processing = ReadFrameType(&reader);
break;
case STATE_READING_FRAME_LENGTH:
continue_processing = ReadFrameLength(&reader);
break;
case STATE_BUFFER_OR_PARSE_PAYLOAD:
continue_processing = BufferOrParsePayload(&reader);
break;
case STATE_READING_FRAME_PAYLOAD:
continue_processing = ReadFramePayload(&reader);
break;
case STATE_FINISH_PARSING:
continue_processing = FinishParsing();
break;
case STATE_PARSING_NO_LONGER_POSSIBLE:
continue_processing = false;
QUIC_BUG(HttpDecoder PARSING_NO_LONGER_POSSIBLE)
<< "HttpDecoder called after an indefinite-length frame has been "
"received";
RaiseError(QUIC_INTERNAL_ERROR,
"HttpDecoder called after an indefinite-length frame has "
"been received");
break;
case STATE_ERROR:
break;
default:
QUIC_BUG(quic_bug_10411_1) << "Invalid state: " << state_;
}
}
return len - reader.BytesRemaining();
}
bool HttpDecoder::ReadFrameType(QuicDataReader* reader) {
QUICHE_DCHECK_NE(0u, reader->BytesRemaining());
if (current_type_field_length_ == 0) {
// A new frame is coming.
current_type_field_length_ = reader->PeekVarInt62Length();
QUICHE_DCHECK_NE(0u, current_type_field_length_);
if (current_type_field_length_ > reader->BytesRemaining()) {
// Buffer a new type field.
remaining_type_field_length_ = current_type_field_length_;
BufferFrameType(reader);
return true;
}
// The reader has all type data needed, so no need to buffer.
bool success = reader->ReadVarInt62(&current_frame_type_);
QUICHE_DCHECK(success);
} else {
// Buffer the existing type field.
BufferFrameType(reader);
// The frame is still not buffered completely.
if (remaining_type_field_length_ != 0) {
return true;
}
QuicDataReader type_reader(type_buffer_.data(), current_type_field_length_);
bool success = type_reader.ReadVarInt62(&current_frame_type_);
QUICHE_DCHECK(success);
}
// https://tools.ietf.org/html/draft-ietf-quic-http-31#section-7.2.8
// specifies that the following frames are treated as errors.
if (current_frame_type_ ==
static_cast<uint64_t>(http2::Http2FrameType::PRIORITY) ||
current_frame_type_ ==
static_cast<uint64_t>(http2::Http2FrameType::PING) ||
current_frame_type_ ==
static_cast<uint64_t>(http2::Http2FrameType::WINDOW_UPDATE) ||
current_frame_type_ ==
static_cast<uint64_t>(http2::Http2FrameType::CONTINUATION)) {
RaiseError(QUIC_HTTP_RECEIVE_SPDY_FRAME,
absl::StrCat("HTTP/2 frame received in a HTTP/3 connection: ",
current_frame_type_));
return false;
}
if (current_frame_type_ ==
static_cast<uint64_t>(HttpFrameType::CANCEL_PUSH)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "CANCEL_PUSH frame received.");
return false;
}
if (current_frame_type_ ==
static_cast<uint64_t>(HttpFrameType::PUSH_PROMISE)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "PUSH_PROMISE frame received.");
return false;
}
state_ = STATE_READING_FRAME_LENGTH;
return true;
}
bool HttpDecoder::ReadFrameLength(QuicDataReader* reader) {
QUICHE_DCHECK_NE(0u, reader->BytesRemaining());
if (current_length_field_length_ == 0) {
// A new frame is coming.
current_length_field_length_ = reader->PeekVarInt62Length();
QUICHE_DCHECK_NE(0u, current_length_field_length_);
if (current_length_field_length_ > reader->BytesRemaining()) {
// Buffer a new length field.
remaining_length_field_length_ = current_length_field_length_;
BufferFrameLength(reader);
return true;
}
// The reader has all length data needed, so no need to buffer.
bool success = reader->ReadVarInt62(&current_frame_length_);
QUICHE_DCHECK(success);
} else {
// Buffer the existing length field.
BufferFrameLength(reader);
// The frame is still not buffered completely.
if (remaining_length_field_length_ != 0) {
return true;
}
QuicDataReader length_reader(length_buffer_.data(),
current_length_field_length_);
bool success = length_reader.ReadVarInt62(&current_frame_length_);
QUICHE_DCHECK(success);
}
// WEBTRANSPORT_STREAM frames are indefinitely long, and thus require
// special handling; the number after the frame type is actually the
// WebTransport session ID, and not the length.
if (allow_web_transport_stream_ &&
current_frame_type_ ==
static_cast<uint64_t>(HttpFrameType::WEBTRANSPORT_STREAM)) {
visitor_->OnWebTransportStreamFrameType(
current_length_field_length_ + current_type_field_length_,
current_frame_length_);
state_ = STATE_PARSING_NO_LONGER_POSSIBLE;
return false;
}
if (IsFrameBuffered() &&
current_frame_length_ > MaxFrameLength(current_frame_type_)) {
RaiseError(QUIC_HTTP_FRAME_TOO_LARGE, "Frame is too large.");
return false;
}
// Calling the following visitor methods does not require parsing of any
// frame payload.
bool continue_processing = true;
const QuicByteCount header_length =
current_length_field_length_ + current_type_field_length_;
switch (current_frame_type_) {
case static_cast<uint64_t>(HttpFrameType::DATA):
continue_processing =
visitor_->OnDataFrameStart(header_length, current_frame_length_);
break;
case static_cast<uint64_t>(HttpFrameType::HEADERS):
continue_processing =
visitor_->OnHeadersFrameStart(header_length, current_frame_length_);
break;
case static_cast<uint64_t>(HttpFrameType::CANCEL_PUSH):
QUICHE_NOTREACHED();
break;
case static_cast<uint64_t>(HttpFrameType::SETTINGS):
continue_processing = visitor_->OnSettingsFrameStart(header_length);
break;
case static_cast<uint64_t>(HttpFrameType::PUSH_PROMISE):
QUICHE_NOTREACHED();
break;
case static_cast<uint64_t>(HttpFrameType::GOAWAY):
break;
case static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID):
break;
case static_cast<uint64_t>(HttpFrameType::PRIORITY_UPDATE_REQUEST_STREAM):
continue_processing = visitor_->OnPriorityUpdateFrameStart(header_length);
break;
case static_cast<uint64_t>(HttpFrameType::ACCEPT_CH):
continue_processing = visitor_->OnAcceptChFrameStart(header_length);
break;
default:
continue_processing = visitor_->OnUnknownFrameStart(
current_frame_type_, header_length, current_frame_length_);
break;
}
remaining_frame_length_ = current_frame_length_;
if (IsFrameBuffered()) {
state_ = STATE_BUFFER_OR_PARSE_PAYLOAD;
return continue_processing;
}
state_ = (remaining_frame_length_ == 0) ? STATE_FINISH_PARSING
: STATE_READING_FRAME_PAYLOAD;
return continue_processing;
}
bool HttpDecoder::IsFrameBuffered() {
switch (current_frame_type_) {
case static_cast<uint64_t>(HttpFrameType::SETTINGS):
return true;
case static_cast<uint64_t>(HttpFrameType::GOAWAY):
return true;
case static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID):
return true;
case static_cast<uint64_t>(HttpFrameType::PRIORITY_UPDATE_REQUEST_STREAM):
return true;
case static_cast<uint64_t>(HttpFrameType::ACCEPT_CH):
return true;
}
// Other defined frame types as well as unknown frames are not buffered.
return false;
}
bool HttpDecoder::ReadFramePayload(QuicDataReader* reader) {
QUICHE_DCHECK(!IsFrameBuffered());
QUICHE_DCHECK_NE(0u, reader->BytesRemaining());
QUICHE_DCHECK_NE(0u, remaining_frame_length_);
bool continue_processing = true;
switch (current_frame_type_) {
case static_cast<uint64_t>(HttpFrameType::DATA): {
QuicByteCount bytes_to_read = std::min<QuicByteCount>(
remaining_frame_length_, reader->BytesRemaining());
absl::string_view payload;
bool success = reader->ReadStringPiece(&payload, bytes_to_read);
QUICHE_DCHECK(success);
QUICHE_DCHECK(!payload.empty());
continue_processing = visitor_->OnDataFramePayload(payload);
remaining_frame_length_ -= payload.length();
break;
}
case static_cast<uint64_t>(HttpFrameType::HEADERS): {
QuicByteCount bytes_to_read = std::min<QuicByteCount>(
remaining_frame_length_, reader->BytesRemaining());
absl::string_view payload;
bool success = reader->ReadStringPiece(&payload, bytes_to_read);
QUICHE_DCHECK(success);
QUICHE_DCHECK(!payload.empty());
continue_processing = visitor_->OnHeadersFramePayload(payload);
remaining_frame_length_ -= payload.length();
break;
}
case static_cast<uint64_t>(HttpFrameType::CANCEL_PUSH): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::SETTINGS): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::PUSH_PROMISE): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::GOAWAY): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::PRIORITY_UPDATE_REQUEST_STREAM): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::ACCEPT_CH): {
QUICHE_NOTREACHED();
break;
}
default: {
continue_processing = HandleUnknownFramePayload(reader);
break;
}
}
if (remaining_frame_length_ == 0) {
state_ = STATE_FINISH_PARSING;
}
return continue_processing;
}
bool HttpDecoder::FinishParsing() {
QUICHE_DCHECK(!IsFrameBuffered());
QUICHE_DCHECK_EQ(0u, remaining_frame_length_);
bool continue_processing = true;
switch (current_frame_type_) {
case static_cast<uint64_t>(HttpFrameType::DATA): {
continue_processing = visitor_->OnDataFrameEnd();
break;
}
case static_cast<uint64_t>(HttpFrameType::HEADERS): {
continue_processing = visitor_->OnHeadersFrameEnd();
break;
}
case static_cast<uint64_t>(HttpFrameType::CANCEL_PUSH): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::SETTINGS): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::PUSH_PROMISE): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::GOAWAY): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::PRIORITY_UPDATE_REQUEST_STREAM): {
QUICHE_NOTREACHED();
break;
}
case static_cast<uint64_t>(HttpFrameType::ACCEPT_CH): {
QUICHE_NOTREACHED();
break;
}
default:
continue_processing = visitor_->OnUnknownFrameEnd();
}
ResetForNextFrame();
return continue_processing;
}
void HttpDecoder::ResetForNextFrame() {
current_length_field_length_ = 0;
current_type_field_length_ = 0;
state_ = STATE_READING_FRAME_TYPE;
}
bool HttpDecoder::HandleUnknownFramePayload(QuicDataReader* reader) {
QuicByteCount bytes_to_read = std::min<QuicByteCount>(
remaining_frame_length_, reader->BytesRemaining());
absl::string_view payload;
bool success = reader->ReadStringPiece(&payload, bytes_to_read);
QUICHE_DCHECK(success);
QUICHE_DCHECK(!payload.empty());
remaining_frame_length_ -= payload.length();
return visitor_->OnUnknownFramePayload(payload);
}
bool HttpDecoder::BufferOrParsePayload(QuicDataReader* reader) {
QUICHE_DCHECK(IsFrameBuffered());
QUICHE_DCHECK_EQ(current_frame_length_,
buffer_.size() + remaining_frame_length_);
if (buffer_.empty() && reader->BytesRemaining() >= current_frame_length_) {
// |*reader| contains entire payload, which might be empty.
remaining_frame_length_ = 0;
QuicDataReader current_payload_reader(reader->PeekRemainingPayload().data(),
current_frame_length_);
bool continue_processing = ParseEntirePayload(&current_payload_reader);
reader->Seek(current_frame_length_);
ResetForNextFrame();
return continue_processing;
}
// Buffer as much of the payload as |*reader| contains.
QuicByteCount bytes_to_read = std::min<QuicByteCount>(
remaining_frame_length_, reader->BytesRemaining());
absl::StrAppend(&buffer_, reader->PeekRemainingPayload().substr(
/* pos = */ 0, bytes_to_read));
reader->Seek(bytes_to_read);
remaining_frame_length_ -= bytes_to_read;
QUICHE_DCHECK_EQ(current_frame_length_,
buffer_.size() + remaining_frame_length_);
if (remaining_frame_length_ > 0) {
QUICHE_DCHECK(reader->IsDoneReading());
return false;
}
QuicDataReader buffer_reader(buffer_);
bool continue_processing = ParseEntirePayload(&buffer_reader);
buffer_.clear();
ResetForNextFrame();
return continue_processing;
}
bool HttpDecoder::ParseEntirePayload(QuicDataReader* reader) {
QUICHE_DCHECK(IsFrameBuffered());
QUICHE_DCHECK_EQ(current_frame_length_, reader->BytesRemaining());
QUICHE_DCHECK_EQ(0u, remaining_frame_length_);
switch (current_frame_type_) {
case static_cast<uint64_t>(HttpFrameType::CANCEL_PUSH): {
QUICHE_NOTREACHED();
return false;
}
case static_cast<uint64_t>(HttpFrameType::SETTINGS): {
SettingsFrame frame;
if (!ParseSettingsFrame(reader, &frame)) {
return false;
}
return visitor_->OnSettingsFrame(frame);
}
case static_cast<uint64_t>(HttpFrameType::GOAWAY): {
GoAwayFrame frame;
if (!reader->ReadVarInt62(&frame.id)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "Unable to read GOAWAY ID.");
return false;
}
if (!reader->IsDoneReading()) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "Superfluous data in GOAWAY frame.");
return false;
}
return visitor_->OnGoAwayFrame(frame);
}
case static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID): {
uint64_t unused;
if (!reader->ReadVarInt62(&unused)) {
RaiseError(QUIC_HTTP_FRAME_ERROR,
"Unable to read MAX_PUSH_ID push_id.");
return false;
}
if (!reader->IsDoneReading()) {
RaiseError(QUIC_HTTP_FRAME_ERROR,
"Superfluous data in MAX_PUSH_ID frame.");
return false;
}
return visitor_->OnMaxPushIdFrame();
}
case static_cast<uint64_t>(HttpFrameType::PRIORITY_UPDATE_REQUEST_STREAM): {
PriorityUpdateFrame frame;
if (!ParsePriorityUpdateFrame(reader, &frame)) {
return false;
}
return visitor_->OnPriorityUpdateFrame(frame);
}
case static_cast<uint64_t>(HttpFrameType::ACCEPT_CH): {
AcceptChFrame frame;
if (!ParseAcceptChFrame(reader, &frame)) {
return false;
}
return visitor_->OnAcceptChFrame(frame);
}
default:
// Only above frame types are parsed by ParseEntirePayload().
QUICHE_NOTREACHED();
return false;
}
}
void HttpDecoder::BufferFrameLength(QuicDataReader* reader) {
QuicByteCount bytes_to_read = std::min<QuicByteCount>(
remaining_length_field_length_, reader->BytesRemaining());
bool success =
reader->ReadBytes(length_buffer_.data() + current_length_field_length_ -
remaining_length_field_length_,
bytes_to_read);
QUICHE_DCHECK(success);
remaining_length_field_length_ -= bytes_to_read;
}
void HttpDecoder::BufferFrameType(QuicDataReader* reader) {
QuicByteCount bytes_to_read = std::min<QuicByteCount>(
remaining_type_field_length_, reader->BytesRemaining());
bool success =
reader->ReadBytes(type_buffer_.data() + current_type_field_length_ -
remaining_type_field_length_,
bytes_to_read);
QUICHE_DCHECK(success);
remaining_type_field_length_ -= bytes_to_read;
}
void HttpDecoder::RaiseError(QuicErrorCode error, std::string error_detail) {
state_ = STATE_ERROR;
error_ = error;
error_detail_ = std::move(error_detail);
visitor_->OnError(this);
}
bool HttpDecoder::ParseSettingsFrame(QuicDataReader* reader,
SettingsFrame* frame) {
while (!reader->IsDoneReading()) {
uint64_t id;
if (!reader->ReadVarInt62(&id)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "Unable to read setting identifier.");
return false;
}
uint64_t content;
if (!reader->ReadVarInt62(&content)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "Unable to read setting value.");
return false;
}
auto result = frame->values.insert({id, content});
if (!result.second) {
RaiseError(QUIC_HTTP_DUPLICATE_SETTING_IDENTIFIER,
"Duplicate setting identifier.");
return false;
}
}
return true;
}
bool HttpDecoder::ParsePriorityUpdateFrame(QuicDataReader* reader,
PriorityUpdateFrame* frame) {
frame->prioritized_element_type = REQUEST_STREAM;
if (!reader->ReadVarInt62(&frame->prioritized_element_id)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "Unable to read prioritized element id.");
return false;
}
absl::string_view priority_field_value = reader->ReadRemainingPayload();
frame->priority_field_value =
std::string(priority_field_value.data(), priority_field_value.size());
return true;
}
bool HttpDecoder::ParseAcceptChFrame(QuicDataReader* reader,
AcceptChFrame* frame) {
absl::string_view origin;
absl::string_view value;
while (!reader->IsDoneReading()) {
if (!reader->ReadStringPieceVarInt62(&origin)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "Unable to read ACCEPT_CH origin.");
return false;
}
if (!reader->ReadStringPieceVarInt62(&value)) {
RaiseError(QUIC_HTTP_FRAME_ERROR, "Unable to read ACCEPT_CH value.");
return false;
}
// Copy data.
frame->entries.push_back({std::string(origin.data(), origin.size()),
std::string(value.data(), value.size())});
}
return true;
}
QuicByteCount HttpDecoder::MaxFrameLength(uint64_t frame_type) {
QUICHE_DCHECK(IsFrameBuffered());
switch (frame_type) {
case static_cast<uint64_t>(HttpFrameType::SETTINGS):
return kPayloadLengthLimit;
case static_cast<uint64_t>(HttpFrameType::GOAWAY):
return quiche::VARIABLE_LENGTH_INTEGER_LENGTH_8;
case static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID):
return quiche::VARIABLE_LENGTH_INTEGER_LENGTH_8;
case static_cast<uint64_t>(HttpFrameType::PRIORITY_UPDATE_REQUEST_STREAM):
return kPayloadLengthLimit;
case static_cast<uint64_t>(HttpFrameType::ACCEPT_CH):
return kPayloadLengthLimit;
default:
QUICHE_NOTREACHED();
return 0;
}
}
std::string HttpDecoder::DebugString() const {
return absl::StrCat(
"HttpDecoder:", "\n state: ", state_, "\n error: ", error_,
"\n current_frame_type: ", current_frame_type_,
"\n current_length_field_length: ", current_length_field_length_,
"\n remaining_length_field_length: ", remaining_length_field_length_,
"\n current_frame_length: ", current_frame_length_,
"\n remaining_frame_length: ", remaining_frame_length_,
"\n current_type_field_length: ", current_type_field_length_,
"\n remaining_type_field_length: ", remaining_type_field_length_);
}
} // namespace quic