mirror of
https://github.com/klzgrad/naiveproxy.git
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672 lines
22 KiB
C++
672 lines
22 KiB
C++
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/quic/core/quic_stream.h"
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#include "net/quic/core/quic_flow_controller.h"
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#include "net/quic/core/quic_session.h"
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#include "net/quic/platform/api/quic_bug_tracker.h"
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#include "net/quic/platform/api/quic_flag_utils.h"
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#include "net/quic/platform/api/quic_flags.h"
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#include "net/quic/platform/api/quic_logging.h"
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using std::string;
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namespace net {
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#define ENDPOINT \
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(perspective_ == Perspective::IS_SERVER ? "Server: " : "Client: ")
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namespace {
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struct iovec MakeIovec(QuicStringPiece data) {
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struct iovec iov = {const_cast<char*>(data.data()),
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static_cast<size_t>(data.size())};
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return iov;
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}
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size_t GetInitialStreamFlowControlWindowToSend(QuicSession* session) {
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return session->config()->GetInitialStreamFlowControlWindowToSend();
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}
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size_t GetReceivedFlowControlWindow(QuicSession* session) {
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if (session->config()->HasReceivedInitialStreamFlowControlWindowBytes()) {
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return session->config()->ReceivedInitialStreamFlowControlWindowBytes();
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}
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return kMinimumFlowControlSendWindow;
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}
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} // namespace
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QuicStream::QuicStream(QuicStreamId id, QuicSession* session)
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: sequencer_(this, session->connection()->clock()),
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id_(id),
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session_(session),
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stream_bytes_read_(0),
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stream_error_(QUIC_STREAM_NO_ERROR),
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connection_error_(QUIC_NO_ERROR),
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read_side_closed_(false),
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write_side_closed_(false),
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fin_buffered_(false),
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fin_sent_(false),
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fin_outstanding_(false),
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fin_received_(false),
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rst_sent_(false),
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rst_received_(false),
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perspective_(session_->perspective()),
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flow_controller_(session_->connection(),
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id_,
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perspective_,
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GetReceivedFlowControlWindow(session),
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GetInitialStreamFlowControlWindowToSend(session),
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session_->flow_controller()->auto_tune_receive_window(),
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session_->flow_controller()),
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connection_flow_controller_(session_->flow_controller()),
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stream_contributes_to_connection_flow_control_(true),
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busy_counter_(0),
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add_random_padding_after_fin_(false),
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ack_listener_(nullptr),
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send_buffer_(
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session->connection()->helper()->GetStreamSendBufferAllocator(),
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session->allow_multiple_acks_for_data()),
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buffered_data_threshold_(GetQuicFlag(FLAGS_quic_buffered_data_threshold)),
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remove_on_stream_frame_discarded_(
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FLAGS_quic_reloadable_flag_quic_remove_on_stream_frame_discarded) {
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SetFromConfig();
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}
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QuicStream::~QuicStream() {
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if (session_ != nullptr && IsWaitingForAcks()) {
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QUIC_DVLOG(1)
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<< ENDPOINT << "Stream " << id_
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<< " gets destroyed while waiting for acks. stream_bytes_outstanding = "
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<< send_buffer_.stream_bytes_outstanding()
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<< ", fin_outstanding: " << fin_outstanding_;
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}
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}
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void QuicStream::SetFromConfig() {}
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void QuicStream::OnStreamFrame(const QuicStreamFrame& frame) {
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DCHECK_EQ(frame.stream_id, id_);
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DCHECK(!(read_side_closed_ && write_side_closed_));
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if (frame.fin) {
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fin_received_ = true;
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if (fin_sent_) {
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session_->StreamDraining(id_);
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}
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}
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if (read_side_closed_) {
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QUIC_DLOG(INFO)
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<< ENDPOINT << "Stream " << frame.stream_id
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<< " is closed for reading. Ignoring newly received stream data.";
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// The subclass does not want to read data: blackhole the data.
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return;
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}
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// This count includes duplicate data received.
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size_t frame_payload_size = frame.data_length;
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stream_bytes_read_ += frame_payload_size;
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// Flow control is interested in tracking highest received offset.
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// Only interested in received frames that carry data.
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if (frame_payload_size > 0 &&
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MaybeIncreaseHighestReceivedOffset(frame.offset + frame_payload_size)) {
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// As the highest received offset has changed, check to see if this is a
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// violation of flow control.
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if (flow_controller_.FlowControlViolation() ||
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connection_flow_controller_->FlowControlViolation()) {
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CloseConnectionWithDetails(
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QUIC_FLOW_CONTROL_RECEIVED_TOO_MUCH_DATA,
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"Flow control violation after increasing offset");
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return;
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}
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}
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sequencer_.OnStreamFrame(frame);
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}
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int QuicStream::num_frames_received() const {
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return sequencer_.num_frames_received();
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}
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int QuicStream::num_duplicate_frames_received() const {
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return sequencer_.num_duplicate_frames_received();
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}
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void QuicStream::OnStreamReset(const QuicRstStreamFrame& frame) {
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rst_received_ = true;
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MaybeIncreaseHighestReceivedOffset(frame.byte_offset);
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if (flow_controller_.FlowControlViolation() ||
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connection_flow_controller_->FlowControlViolation()) {
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CloseConnectionWithDetails(
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QUIC_FLOW_CONTROL_RECEIVED_TOO_MUCH_DATA,
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"Flow control violation after increasing offset");
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return;
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}
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stream_error_ = frame.error_code;
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CloseWriteSide();
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CloseReadSide();
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}
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void QuicStream::OnConnectionClosed(QuicErrorCode error,
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ConnectionCloseSource /*source*/) {
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if (read_side_closed_ && write_side_closed_) {
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return;
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}
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if (error != QUIC_NO_ERROR) {
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stream_error_ = QUIC_STREAM_CONNECTION_ERROR;
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connection_error_ = error;
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}
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CloseWriteSide();
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CloseReadSide();
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}
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void QuicStream::OnFinRead() {
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DCHECK(sequencer_.IsClosed());
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// OnFinRead can be called due to a FIN flag in a headers block, so there may
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// have been no OnStreamFrame call with a FIN in the frame.
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fin_received_ = true;
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// If fin_sent_ is true, then CloseWriteSide has already been called, and the
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// stream will be destroyed by CloseReadSide, so don't need to call
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// StreamDraining.
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CloseReadSide();
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}
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void QuicStream::Reset(QuicRstStreamErrorCode error) {
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stream_error_ = error;
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// Sending a RstStream results in calling CloseStream.
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session()->SendRstStream(id(), error, stream_bytes_written());
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rst_sent_ = true;
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}
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void QuicStream::CloseConnectionWithDetails(QuicErrorCode error,
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const string& details) {
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session()->connection()->CloseConnection(
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error, details, ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
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}
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void QuicStream::WriteOrBufferData(
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QuicStringPiece data,
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bool fin,
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QuicReferenceCountedPointer<QuicAckListenerInterface> ack_listener) {
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if (data.empty() && !fin) {
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QUIC_BUG << "data.empty() && !fin";
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return;
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}
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if (fin_buffered_) {
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QUIC_BUG << "Fin already buffered";
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return;
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}
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if (write_side_closed_) {
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QUIC_DLOG(ERROR) << ENDPOINT
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<< "Attempt to write when the write side is closed";
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return;
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}
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QuicConsumedData consumed_data(0, false);
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fin_buffered_ = fin;
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bool had_buffered_data = HasBufferedData();
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// Do not respect buffered data upper limit as WriteOrBufferData guarantees
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// all data to be consumed.
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if (data.length() > 0) {
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struct iovec iov(MakeIovec(data));
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QuicStreamOffset offset = send_buffer_.stream_offset();
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send_buffer_.SaveStreamData(&iov, 1, 0, data.length());
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OnDataBuffered(offset, data.length(), ack_listener);
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}
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if (!had_buffered_data && (HasBufferedData() || fin_buffered_)) {
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// Write data if there is no buffered data before.
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WriteBufferedData();
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}
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}
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void QuicStream::OnCanWrite() {
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if (write_side_closed_) {
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QUIC_DLOG(ERROR) << ENDPOINT << "Stream " << id()
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<< "attempting to write when the write side is closed";
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return;
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}
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if (HasBufferedData() || (fin_buffered_ && !fin_sent_)) {
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WriteBufferedData();
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}
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if (!fin_buffered_ && !fin_sent_ && CanWriteNewData()) {
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// Notify upper layer to write new data when buffered data size is below
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// low water mark.
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OnCanWriteNewData();
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}
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}
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void QuicStream::MaybeSendBlocked() {
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flow_controller_.MaybeSendBlocked();
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if (!stream_contributes_to_connection_flow_control_) {
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return;
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}
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connection_flow_controller_->MaybeSendBlocked();
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// If the stream is blocked by connection-level flow control but not by
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// stream-level flow control, add the stream to the write blocked list so that
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// the stream will be given a chance to write when a connection-level
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// WINDOW_UPDATE arrives.
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if (connection_flow_controller_->IsBlocked() &&
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!flow_controller_.IsBlocked()) {
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session_->MarkConnectionLevelWriteBlocked(id());
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}
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}
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QuicConsumedData QuicStream::WritevData(const struct iovec* iov,
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int iov_count,
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bool fin) {
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if (write_side_closed_) {
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QUIC_DLOG(ERROR) << ENDPOINT << "Stream " << id()
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<< "attempting to write when the write side is closed";
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return QuicConsumedData(0, false);
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}
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// How much data was provided.
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size_t write_length = 0;
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if (iov != nullptr) {
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for (int i = 0; i < iov_count; ++i) {
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write_length += iov[i].iov_len;
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}
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}
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QuicConsumedData consumed_data(0, false);
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if (fin_buffered_) {
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QUIC_BUG << "Fin already buffered";
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return consumed_data;
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}
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bool had_buffered_data = HasBufferedData();
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if (CanWriteNewData()) {
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// Save all data if buffered data size is below low water mark.
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consumed_data.bytes_consumed = write_length;
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if (consumed_data.bytes_consumed > 0) {
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QuicStreamOffset offset = send_buffer_.stream_offset();
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send_buffer_.SaveStreamData(iov, iov_count, 0, write_length);
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OnDataBuffered(offset, write_length, nullptr);
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}
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}
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consumed_data.fin_consumed =
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consumed_data.bytes_consumed == write_length && fin;
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fin_buffered_ = consumed_data.fin_consumed;
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if (!had_buffered_data && (HasBufferedData() || fin_buffered_)) {
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// Write data if there is no buffered data before.
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WriteBufferedData();
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}
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return consumed_data;
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}
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QuicConsumedData QuicStream::WriteMemSlices(QuicMemSliceSpan span, bool fin) {
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DCHECK(session_->can_use_slices());
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QuicConsumedData consumed_data(0, false);
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if (span.empty() && !fin) {
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QUIC_BUG << "span.empty() && !fin";
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return consumed_data;
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}
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if (fin_buffered_) {
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QUIC_BUG << "Fin already buffered";
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return consumed_data;
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}
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if (write_side_closed_) {
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QUIC_DLOG(ERROR) << ENDPOINT << "Stream " << id()
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<< "attempting to write when the write side is closed";
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return consumed_data;
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}
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bool had_buffered_data = HasBufferedData();
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if (CanWriteNewData() || span.empty()) {
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consumed_data.fin_consumed = fin;
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if (!span.empty()) {
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// Buffer all data if buffered data size is below limit.
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QuicStreamOffset offset = send_buffer_.stream_offset();
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consumed_data.bytes_consumed =
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span.SaveMemSlicesInSendBuffer(&send_buffer_);
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OnDataBuffered(offset, consumed_data.bytes_consumed, nullptr);
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}
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}
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fin_buffered_ = consumed_data.fin_consumed;
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if (!had_buffered_data && (HasBufferedData() || fin_buffered_)) {
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// Write data if there is no buffered data before.
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WriteBufferedData();
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}
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return consumed_data;
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}
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QuicConsumedData QuicStream::WritevDataInner(size_t write_length,
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QuicStreamOffset offset,
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bool fin) {
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StreamSendingState state = fin ? FIN : NO_FIN;
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if (fin && add_random_padding_after_fin_) {
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state = FIN_AND_PADDING;
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}
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return session()->WritevData(this, id(), write_length, offset, state);
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}
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void QuicStream::CloseReadSide() {
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if (read_side_closed_) {
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return;
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}
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QUIC_DLOG(INFO) << ENDPOINT << "Done reading from stream " << id();
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read_side_closed_ = true;
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sequencer_.ReleaseBuffer();
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if (write_side_closed_) {
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QUIC_DLOG(INFO) << ENDPOINT << "Closing stream " << id();
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session_->CloseStream(id());
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}
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}
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void QuicStream::CloseWriteSide() {
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if (write_side_closed_) {
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return;
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}
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QUIC_DLOG(INFO) << ENDPOINT << "Done writing to stream " << id();
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write_side_closed_ = true;
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if (read_side_closed_) {
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QUIC_DLOG(INFO) << ENDPOINT << "Closing stream " << id();
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session_->CloseStream(id());
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}
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}
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bool QuicStream::HasBufferedData() const {
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DCHECK_GE(send_buffer_.stream_offset(), stream_bytes_written());
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return send_buffer_.stream_offset() > stream_bytes_written();
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}
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QuicTransportVersion QuicStream::transport_version() const {
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return session_->connection()->transport_version();
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}
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void QuicStream::StopReading() {
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QUIC_DLOG(INFO) << ENDPOINT << "Stop reading from stream " << id();
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sequencer_.StopReading();
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}
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const QuicSocketAddress& QuicStream::PeerAddressOfLatestPacket() const {
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return session_->connection()->last_packet_source_address();
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}
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void QuicStream::OnClose() {
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CloseReadSide();
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CloseWriteSide();
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if (!fin_sent_ && !rst_sent_) {
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// For flow control accounting, tell the peer how many bytes have been
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// written on this stream before termination. Done here if needed, using a
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// RST_STREAM frame.
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QUIC_DLOG(INFO) << ENDPOINT << "Sending RST_STREAM in OnClose: " << id();
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session_->SendRstStream(id(), QUIC_RST_ACKNOWLEDGEMENT,
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stream_bytes_written());
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rst_sent_ = true;
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}
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if (flow_controller_.FlowControlViolation() ||
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connection_flow_controller_->FlowControlViolation()) {
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return;
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}
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// The stream is being closed and will not process any further incoming bytes.
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// As there may be more bytes in flight, to ensure that both endpoints have
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// the same connection level flow control state, mark all unreceived or
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// buffered bytes as consumed.
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QuicByteCount bytes_to_consume =
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flow_controller_.highest_received_byte_offset() -
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flow_controller_.bytes_consumed();
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AddBytesConsumed(bytes_to_consume);
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}
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void QuicStream::OnWindowUpdateFrame(const QuicWindowUpdateFrame& frame) {
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if (flow_controller_.UpdateSendWindowOffset(frame.byte_offset)) {
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// Writing can be done again!
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// TODO(rjshade): This does not respect priorities (e.g. multiple
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// outstanding POSTs are unblocked on arrival of
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// SHLO with initial window).
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// As long as the connection is not flow control blocked, write on!
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OnCanWrite();
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}
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}
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bool QuicStream::MaybeIncreaseHighestReceivedOffset(
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QuicStreamOffset new_offset) {
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uint64_t increment =
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new_offset - flow_controller_.highest_received_byte_offset();
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if (!flow_controller_.UpdateHighestReceivedOffset(new_offset)) {
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return false;
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}
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// If |new_offset| increased the stream flow controller's highest received
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// offset, increase the connection flow controller's value by the incremental
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// difference.
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if (stream_contributes_to_connection_flow_control_) {
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connection_flow_controller_->UpdateHighestReceivedOffset(
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connection_flow_controller_->highest_received_byte_offset() +
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increment);
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}
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return true;
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}
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void QuicStream::AddBytesSent(QuicByteCount bytes) {
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flow_controller_.AddBytesSent(bytes);
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if (stream_contributes_to_connection_flow_control_) {
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connection_flow_controller_->AddBytesSent(bytes);
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}
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}
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void QuicStream::AddBytesConsumed(QuicByteCount bytes) {
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// Only adjust stream level flow controller if still reading.
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if (!read_side_closed_) {
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flow_controller_.AddBytesConsumed(bytes);
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}
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if (stream_contributes_to_connection_flow_control_) {
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connection_flow_controller_->AddBytesConsumed(bytes);
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}
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}
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void QuicStream::UpdateSendWindowOffset(QuicStreamOffset new_window) {
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if (flow_controller_.UpdateSendWindowOffset(new_window)) {
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OnCanWrite();
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}
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}
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void QuicStream::AddRandomPaddingAfterFin() {
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add_random_padding_after_fin_ = true;
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}
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void QuicStream::OnStreamFrameAcked(QuicStreamOffset offset,
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QuicByteCount data_length,
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bool fin_acked,
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QuicTime::Delta ack_delay_time) {
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QuicByteCount newly_acked_length = 0;
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if (!send_buffer_.OnStreamDataAcked(offset, data_length,
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&newly_acked_length)) {
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CloseConnectionWithDetails(QUIC_INTERNAL_ERROR,
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"Trying to ack unsent data.");
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return;
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}
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if (!fin_sent_ && fin_acked) {
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CloseConnectionWithDetails(QUIC_INTERNAL_ERROR,
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"Trying to ack unsent fin.");
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return;
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}
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// Indicates whether ack listener's OnPacketAcked should be called.
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const bool new_data_acked = !session()->allow_multiple_acks_for_data() ||
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newly_acked_length > 0 ||
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(fin_acked && fin_outstanding_);
|
|
if (fin_acked) {
|
|
fin_outstanding_ = false;
|
|
}
|
|
if (!IsWaitingForAcks()) {
|
|
session_->OnStreamDoneWaitingForAcks(id_);
|
|
}
|
|
if (ack_listener_ != nullptr && new_data_acked) {
|
|
ack_listener_->OnPacketAcked(newly_acked_length, ack_delay_time);
|
|
}
|
|
}
|
|
|
|
void QuicStream::OnStreamFrameRetransmitted(QuicStreamOffset /*offset*/,
|
|
QuicByteCount data_length) {
|
|
if (ack_listener_ != nullptr) {
|
|
ack_listener_->OnPacketRetransmitted(data_length);
|
|
}
|
|
}
|
|
|
|
void QuicStream::OnStreamFrameDiscarded(QuicStreamOffset offset,
|
|
QuicByteCount data_length,
|
|
bool fin_discarded) {
|
|
if (remove_on_stream_frame_discarded_) {
|
|
// TODO(fayang): Remove OnStreamFrameDiscarded from StreamNotifierInterface
|
|
// when deprecating
|
|
// quic_reloadable_flag_quic_remove_on_stream_frame_discarded.
|
|
QUIC_FLAG_COUNT_N(
|
|
quic_reloadable_flag_quic_remove_on_stream_frame_discarded, 1, 2);
|
|
return;
|
|
}
|
|
|
|
QuicByteCount newly_acked_length = 0;
|
|
if (!send_buffer_.OnStreamDataAcked(offset, data_length,
|
|
&newly_acked_length)) {
|
|
CloseConnectionWithDetails(QUIC_INTERNAL_ERROR,
|
|
"Trying to discard unsent data.");
|
|
return;
|
|
}
|
|
if (!fin_sent_ && fin_discarded) {
|
|
CloseConnectionWithDetails(QUIC_INTERNAL_ERROR,
|
|
"Trying to discard unsent fin.");
|
|
return;
|
|
}
|
|
if (fin_discarded) {
|
|
fin_outstanding_ = false;
|
|
}
|
|
if (!IsWaitingForAcks()) {
|
|
session_->OnStreamDoneWaitingForAcks(id_);
|
|
}
|
|
}
|
|
|
|
bool QuicStream::IsWaitingForAcks() const {
|
|
return (!remove_on_stream_frame_discarded_ || !rst_sent_ ||
|
|
stream_error_ == QUIC_STREAM_NO_ERROR) &&
|
|
(send_buffer_.stream_bytes_outstanding() || fin_outstanding_);
|
|
}
|
|
|
|
bool QuicStream::WriteStreamData(QuicStreamOffset offset,
|
|
QuicByteCount data_length,
|
|
QuicDataWriter* writer) {
|
|
DCHECK_LT(0u, data_length);
|
|
return send_buffer_.WriteStreamData(offset, data_length, writer);
|
|
}
|
|
|
|
void QuicStream::WriteBufferedData() {
|
|
DCHECK(!write_side_closed_ && (HasBufferedData() || fin_buffered_));
|
|
|
|
if (session_->ShouldYield(id())) {
|
|
session_->MarkConnectionLevelWriteBlocked(id());
|
|
return;
|
|
}
|
|
|
|
// Size of buffered data.
|
|
size_t write_length = BufferedDataBytes();
|
|
|
|
// A FIN with zero data payload should not be flow control blocked.
|
|
bool fin_with_zero_data = (fin_buffered_ && write_length == 0);
|
|
|
|
bool fin = fin_buffered_;
|
|
|
|
// How much data flow control permits to be written.
|
|
QuicByteCount send_window = flow_controller_.SendWindowSize();
|
|
if (stream_contributes_to_connection_flow_control_) {
|
|
send_window =
|
|
std::min(send_window, connection_flow_controller_->SendWindowSize());
|
|
}
|
|
|
|
if (send_window == 0 && !fin_with_zero_data) {
|
|
// Quick return if nothing can be sent.
|
|
MaybeSendBlocked();
|
|
return;
|
|
}
|
|
|
|
if (write_length > send_window) {
|
|
// Don't send the FIN unless all the data will be sent.
|
|
fin = false;
|
|
|
|
// Writing more data would be a violation of flow control.
|
|
write_length = static_cast<size_t>(send_window);
|
|
QUIC_DVLOG(1) << "stream " << id() << " shortens write length to "
|
|
<< write_length << " due to flow control";
|
|
}
|
|
|
|
QuicConsumedData consumed_data =
|
|
WritevDataInner(write_length, stream_bytes_written(), fin);
|
|
|
|
send_buffer_.OnStreamDataConsumed(consumed_data.bytes_consumed);
|
|
|
|
AddBytesSent(consumed_data.bytes_consumed);
|
|
QUIC_DVLOG(1) << ENDPOINT << "stream " << id_ << " sends "
|
|
<< stream_bytes_written() << " bytes "
|
|
<< " and has buffered data " << BufferedDataBytes() << " bytes."
|
|
<< " fin is sent: " << consumed_data.fin_consumed
|
|
<< " fin is buffered: " << fin_buffered_;
|
|
|
|
// The write may have generated a write error causing this stream to be
|
|
// closed. If so, simply return without marking the stream write blocked.
|
|
if (write_side_closed_) {
|
|
return;
|
|
}
|
|
|
|
if (consumed_data.bytes_consumed == write_length) {
|
|
if (!fin_with_zero_data) {
|
|
MaybeSendBlocked();
|
|
}
|
|
if (fin && consumed_data.fin_consumed) {
|
|
fin_sent_ = true;
|
|
fin_outstanding_ = true;
|
|
if (fin_received_) {
|
|
session_->StreamDraining(id_);
|
|
}
|
|
CloseWriteSide();
|
|
} else if (fin && !consumed_data.fin_consumed) {
|
|
session_->MarkConnectionLevelWriteBlocked(id());
|
|
}
|
|
} else {
|
|
session_->MarkConnectionLevelWriteBlocked(id());
|
|
}
|
|
if (consumed_data.bytes_consumed > 0 || consumed_data.fin_consumed) {
|
|
busy_counter_ = 0;
|
|
}
|
|
}
|
|
|
|
uint64_t QuicStream::BufferedDataBytes() const {
|
|
DCHECK_GE(send_buffer_.stream_offset(), stream_bytes_written());
|
|
return send_buffer_.stream_offset() - stream_bytes_written();
|
|
}
|
|
|
|
bool QuicStream::CanWriteNewData() const {
|
|
return BufferedDataBytes() < buffered_data_threshold_;
|
|
}
|
|
|
|
uint64_t QuicStream::stream_bytes_written() const {
|
|
return send_buffer_.stream_bytes_written();
|
|
}
|
|
|
|
const QuicIntervalSet<QuicStreamOffset>& QuicStream::bytes_acked() const {
|
|
return send_buffer_.bytes_acked();
|
|
}
|
|
|
|
} // namespace net
|