blob: 0dfc8f7c1031ca0493971969aa618f0f3b30d8b5 [file] [log] [blame]
// Copyright (c) 2012 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/quic_stream_sequencer.h"
#include <algorithm>
#include <cstddef>
#include <limits>
#include <string>
#include <utility>
#include "net/third_party/quiche/src/quic/core/quic_clock.h"
#include "net/third_party/quiche/src/quic/core/quic_error_codes.h"
#include "net/third_party/quiche/src/quic/core/quic_packets.h"
#include "net/third_party/quiche/src/quic/core/quic_stream.h"
#include "net/third_party/quiche/src/quic/core/quic_stream_sequencer_buffer.h"
#include "net/third_party/quiche/src/quic/core/quic_types.h"
#include "net/third_party/quiche/src/quic/core/quic_utils.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_bug_tracker.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_flag_utils.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_flags.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
#include "net/third_party/quiche/src/common/platform/api/quiche_str_cat.h"
#include "net/third_party/quiche/src/common/platform/api/quiche_string_piece.h"
namespace quic {
QuicStreamSequencer::QuicStreamSequencer(StreamInterface* quic_stream)
: stream_(quic_stream),
buffered_frames_(kStreamReceiveWindowLimit),
highest_offset_(0),
close_offset_(std::numeric_limits<QuicStreamOffset>::max()),
blocked_(false),
num_frames_received_(0),
num_duplicate_frames_received_(0),
ignore_read_data_(false),
level_triggered_(false) {}
QuicStreamSequencer::~QuicStreamSequencer() {}
void QuicStreamSequencer::OnStreamFrame(const QuicStreamFrame& frame) {
DCHECK_LE(frame.offset + frame.data_length, close_offset_);
++num_frames_received_;
const QuicStreamOffset byte_offset = frame.offset;
const size_t data_len = frame.data_length;
if (frame.fin &&
(!CloseStreamAtOffset(frame.offset + data_len) || data_len == 0)) {
return;
}
OnFrameData(byte_offset, data_len, frame.data_buffer);
}
void QuicStreamSequencer::OnCryptoFrame(const QuicCryptoFrame& frame) {
++num_frames_received_;
OnFrameData(frame.offset, frame.data_length, frame.data_buffer);
}
void QuicStreamSequencer::OnFrameData(QuicStreamOffset byte_offset,
size_t data_len,
const char* data_buffer) {
highest_offset_ = std::max(highest_offset_, byte_offset + data_len);
const size_t previous_readable_bytes = buffered_frames_.ReadableBytes();
size_t bytes_written;
std::string error_details;
QuicErrorCode result = buffered_frames_.OnStreamData(
byte_offset, quiche::QuicheStringPiece(data_buffer, data_len),
&bytes_written, &error_details);
if (result != QUIC_NO_ERROR) {
std::string details = quiche::QuicheStrCat("Stream ", stream_->id(), ": ",
QuicErrorCodeToString(result),
": ", error_details);
QUIC_LOG_FIRST_N(WARNING, 50) << QuicErrorCodeToString(result);
QUIC_LOG_FIRST_N(WARNING, 50) << details;
stream_->OnUnrecoverableError(result, details);
return;
}
if (bytes_written == 0) {
++num_duplicate_frames_received_;
// Silently ignore duplicates.
return;
}
if (blocked_) {
return;
}
if (level_triggered_) {
if (buffered_frames_.ReadableBytes() > previous_readable_bytes) {
// Readable bytes has changed, let stream decide if to inform application
// or not.
if (ignore_read_data_) {
FlushBufferedFrames();
} else {
stream_->OnDataAvailable();
}
}
return;
}
const bool stream_unblocked =
previous_readable_bytes == 0 && buffered_frames_.ReadableBytes() > 0;
if (stream_unblocked) {
if (ignore_read_data_) {
FlushBufferedFrames();
} else {
stream_->OnDataAvailable();
}
}
}
bool QuicStreamSequencer::CloseStreamAtOffset(QuicStreamOffset offset) {
const QuicStreamOffset kMaxOffset =
std::numeric_limits<QuicStreamOffset>::max();
// If there is a scheduled close, the new offset should match it.
if (close_offset_ != kMaxOffset && offset != close_offset_) {
stream_->OnUnrecoverableError(
QUIC_STREAM_SEQUENCER_INVALID_STATE,
quiche::QuicheStrCat(
"Stream ", stream_->id(), " received new final offset: ", offset,
", which is different from close offset: ", close_offset_));
return false;
}
// The final offset should be no less than the highest offset that is
// received.
if (offset < highest_offset_) {
stream_->OnUnrecoverableError(
QUIC_STREAM_SEQUENCER_INVALID_STATE,
quiche::QuicheStrCat(
"Stream ", stream_->id(), " received fin with offset: ", offset,
", which reduces current highest offset: ", highest_offset_));
return false;
}
close_offset_ = offset;
MaybeCloseStream();
return true;
}
void QuicStreamSequencer::MaybeCloseStream() {
if (blocked_ || !IsClosed()) {
return;
}
QUIC_DVLOG(1) << "Passing up termination, as we've processed "
<< buffered_frames_.BytesConsumed() << " of " << close_offset_
<< " bytes.";
// This will cause the stream to consume the FIN.
// Technically it's an error if |num_bytes_consumed| isn't exactly
// equal to |close_offset|, but error handling seems silly at this point.
if (ignore_read_data_) {
// The sequencer is discarding stream data and must notify the stream on
// receipt of a FIN because the consumer won't.
stream_->OnFinRead();
} else {
stream_->OnDataAvailable();
}
buffered_frames_.Clear();
}
int QuicStreamSequencer::GetReadableRegions(iovec* iov, size_t iov_len) const {
DCHECK(!blocked_);
return buffered_frames_.GetReadableRegions(iov, iov_len);
}
bool QuicStreamSequencer::GetReadableRegion(iovec* iov) const {
DCHECK(!blocked_);
return buffered_frames_.GetReadableRegion(iov);
}
bool QuicStreamSequencer::PeekRegion(QuicStreamOffset offset,
iovec* iov) const {
DCHECK(!blocked_);
return buffered_frames_.PeekRegion(offset, iov);
}
void QuicStreamSequencer::Read(std::string* buffer) {
DCHECK(!blocked_);
buffer->resize(buffer->size() + ReadableBytes());
iovec iov;
iov.iov_len = ReadableBytes();
iov.iov_base = &(*buffer)[buffer->size() - iov.iov_len];
Readv(&iov, 1);
}
size_t QuicStreamSequencer::Readv(const struct iovec* iov, size_t iov_len) {
DCHECK(!blocked_);
std::string error_details;
size_t bytes_read;
QuicErrorCode read_error =
buffered_frames_.Readv(iov, iov_len, &bytes_read, &error_details);
if (read_error != QUIC_NO_ERROR) {
std::string details =
quiche::QuicheStrCat("Stream ", stream_->id(), ": ", error_details);
stream_->OnUnrecoverableError(read_error, details);
return bytes_read;
}
stream_->AddBytesConsumed(bytes_read);
return bytes_read;
}
bool QuicStreamSequencer::HasBytesToRead() const {
return buffered_frames_.HasBytesToRead();
}
size_t QuicStreamSequencer::ReadableBytes() const {
return buffered_frames_.ReadableBytes();
}
bool QuicStreamSequencer::IsClosed() const {
return buffered_frames_.BytesConsumed() >= close_offset_;
}
void QuicStreamSequencer::MarkConsumed(size_t num_bytes_consumed) {
DCHECK(!blocked_);
bool result = buffered_frames_.MarkConsumed(num_bytes_consumed);
if (!result) {
QUIC_BUG << "Invalid argument to MarkConsumed."
<< " expect to consume: " << num_bytes_consumed
<< ", but not enough bytes available. " << DebugString();
stream_->Reset(QUIC_ERROR_PROCESSING_STREAM);
return;
}
stream_->AddBytesConsumed(num_bytes_consumed);
}
void QuicStreamSequencer::SetBlockedUntilFlush() {
blocked_ = true;
}
void QuicStreamSequencer::SetUnblocked() {
blocked_ = false;
if (IsClosed() || HasBytesToRead()) {
stream_->OnDataAvailable();
}
}
void QuicStreamSequencer::StopReading() {
if (ignore_read_data_) {
return;
}
ignore_read_data_ = true;
FlushBufferedFrames();
}
void QuicStreamSequencer::ReleaseBuffer() {
buffered_frames_.ReleaseWholeBuffer();
}
void QuicStreamSequencer::ReleaseBufferIfEmpty() {
if (buffered_frames_.Empty()) {
buffered_frames_.ReleaseWholeBuffer();
}
}
void QuicStreamSequencer::FlushBufferedFrames() {
DCHECK(ignore_read_data_);
size_t bytes_flushed = buffered_frames_.FlushBufferedFrames();
QUIC_DVLOG(1) << "Flushing buffered data at offset "
<< buffered_frames_.BytesConsumed() << " length "
<< bytes_flushed << " for stream " << stream_->id();
stream_->AddBytesConsumed(bytes_flushed);
MaybeCloseStream();
}
size_t QuicStreamSequencer::NumBytesBuffered() const {
return buffered_frames_.BytesBuffered();
}
QuicStreamOffset QuicStreamSequencer::NumBytesConsumed() const {
return buffered_frames_.BytesConsumed();
}
const std::string QuicStreamSequencer::DebugString() const {
// clang-format off
return quiche::QuicheStrCat("QuicStreamSequencer:",
"\n bytes buffered: ", NumBytesBuffered(),
"\n bytes consumed: ", NumBytesConsumed(),
"\n has bytes to read: ", HasBytesToRead() ? "true" : "false",
"\n frames received: ", num_frames_received(),
"\n close offset bytes: ", close_offset_,
"\n is closed: ", IsClosed() ? "true" : "false");
// clang-format on
}
} // namespace quic