Update V8 to version 4.7.42.
[chromium-blink-merge.git] / net / quic / reliable_quic_stream.cc
blob7c7b21c423384ee81eb39d846cc648f5d71c6e36
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "net/quic/reliable_quic_stream.h"
7 #include "base/logging.h"
8 #include "net/quic/iovector.h"
9 #include "net/quic/quic_flags.h"
10 #include "net/quic/quic_flow_controller.h"
11 #include "net/quic/quic_session.h"
12 #include "net/quic/quic_write_blocked_list.h"
14 using base::StringPiece;
15 using std::min;
16 using std::string;
18 namespace net {
20 #define ENDPOINT \
21 (perspective_ == Perspective::IS_SERVER ? "Server: " : "Client: ")
23 namespace {
25 struct iovec MakeIovec(StringPiece data) {
26 struct iovec iov = {const_cast<char*>(data.data()),
27 static_cast<size_t>(data.size())};
28 return iov;
31 size_t GetInitialStreamFlowControlWindowToSend(QuicSession* session) {
32 return session->config()->GetInitialStreamFlowControlWindowToSend();
35 size_t GetReceivedFlowControlWindow(QuicSession* session) {
36 if (session->config()->HasReceivedInitialStreamFlowControlWindowBytes()) {
37 return session->config()->ReceivedInitialStreamFlowControlWindowBytes();
40 return kMinimumFlowControlSendWindow;
43 } // namespace
45 // Wrapper that aggregates OnAckNotifications for packets sent using
46 // WriteOrBufferData and delivers them to the original
47 // QuicAckNotifier::DelegateInterface after all bytes written using
48 // WriteOrBufferData are acked. This level of indirection is
49 // necessary because the delegate interface provides no mechanism that
50 // WriteOrBufferData can use to inform it that the write required
51 // multiple WritevData calls or that only part of the data has been
52 // sent out by the time ACKs start arriving.
53 class ReliableQuicStream::ProxyAckNotifierDelegate
54 : public QuicAckNotifier::DelegateInterface {
55 public:
56 explicit ProxyAckNotifierDelegate(DelegateInterface* delegate)
57 : delegate_(delegate),
58 pending_acks_(0),
59 wrote_last_data_(false),
60 num_retransmitted_packets_(0),
61 num_retransmitted_bytes_(0) {
64 void OnAckNotification(int num_retransmitted_packets,
65 int num_retransmitted_bytes,
66 QuicTime::Delta delta_largest_observed) override {
67 DCHECK_LT(0, pending_acks_);
68 --pending_acks_;
69 num_retransmitted_packets_ += num_retransmitted_packets;
70 num_retransmitted_bytes_ += num_retransmitted_bytes;
72 if (wrote_last_data_ && pending_acks_ == 0) {
73 delegate_->OnAckNotification(num_retransmitted_packets_,
74 num_retransmitted_bytes_,
75 delta_largest_observed);
79 void WroteData(bool last_data) {
80 DCHECK(!wrote_last_data_);
81 ++pending_acks_;
82 wrote_last_data_ = last_data;
85 protected:
86 // Delegates are ref counted.
87 ~ProxyAckNotifierDelegate() override {}
89 private:
90 // Original delegate. delegate_->OnAckNotification will be called when:
91 // wrote_last_data_ == true and pending_acks_ == 0
92 scoped_refptr<DelegateInterface> delegate_;
94 // Number of outstanding acks.
95 int pending_acks_;
97 // True if no pending writes remain.
98 bool wrote_last_data_;
100 int num_retransmitted_packets_;
101 int num_retransmitted_bytes_;
103 DISALLOW_COPY_AND_ASSIGN(ProxyAckNotifierDelegate);
106 ReliableQuicStream::PendingData::PendingData(
107 string data_in,
108 scoped_refptr<ProxyAckNotifierDelegate> delegate_in)
109 : data(data_in), offset(0), delegate(delegate_in) {
112 ReliableQuicStream::PendingData::~PendingData() {
115 ReliableQuicStream::ReliableQuicStream(QuicStreamId id, QuicSession* session)
116 : sequencer_(this),
117 id_(id),
118 session_(session),
119 stream_bytes_read_(0),
120 stream_bytes_written_(0),
121 stream_error_(QUIC_STREAM_NO_ERROR),
122 connection_error_(QUIC_NO_ERROR),
123 read_side_closed_(false),
124 write_side_closed_(false),
125 fin_buffered_(false),
126 fin_sent_(false),
127 fin_received_(false),
128 rst_sent_(false),
129 rst_received_(false),
130 fec_policy_(FEC_PROTECT_OPTIONAL),
131 perspective_(session_->perspective()),
132 flow_controller_(session_->connection(),
133 id_,
134 perspective_,
135 GetReceivedFlowControlWindow(session),
136 GetInitialStreamFlowControlWindowToSend(session),
137 session_->flow_controller()->auto_tune_receive_window()),
138 connection_flow_controller_(session_->flow_controller()),
139 stream_contributes_to_connection_flow_control_(true) {
140 SetFromConfig();
143 ReliableQuicStream::~ReliableQuicStream() {
146 void ReliableQuicStream::SetFromConfig() {
147 if (session_->config()->HasClientSentConnectionOption(kFSTR, perspective_)) {
148 fec_policy_ = FEC_PROTECT_ALWAYS;
152 void ReliableQuicStream::OnStreamFrame(const QuicStreamFrame& frame) {
153 if (read_side_closed_) {
154 DVLOG(1) << ENDPOINT << "Ignoring frame " << frame.stream_id;
155 // The subclass does not want read data: blackhole the data.
156 return;
159 if (frame.stream_id != id_) {
160 session_->connection()->SendConnectionClose(QUIC_INTERNAL_ERROR);
161 return;
164 if (frame.fin) {
165 fin_received_ = true;
166 if (fin_sent_) {
167 session_->StreamDraining(id_);
171 // This count includes duplicate data received.
172 size_t frame_payload_size = frame.data.size();
173 stream_bytes_read_ += frame_payload_size;
175 // Flow control is interested in tracking highest received offset.
176 if (MaybeIncreaseHighestReceivedOffset(frame.offset + frame_payload_size)) {
177 // As the highest received offset has changed, check to see if this is a
178 // violation of flow control.
179 if (flow_controller_.FlowControlViolation() ||
180 connection_flow_controller_->FlowControlViolation()) {
181 session_->connection()->SendConnectionClose(
182 QUIC_FLOW_CONTROL_RECEIVED_TOO_MUCH_DATA);
183 return;
187 sequencer_.OnStreamFrame(frame);
190 int ReliableQuicStream::num_frames_received() const {
191 return sequencer_.num_frames_received();
194 int ReliableQuicStream::num_early_frames_received() const {
195 return sequencer_.num_early_frames_received();
198 int ReliableQuicStream::num_duplicate_frames_received() const {
199 return sequencer_.num_duplicate_frames_received();
202 void ReliableQuicStream::OnStreamReset(const QuicRstStreamFrame& frame) {
203 rst_received_ = true;
204 MaybeIncreaseHighestReceivedOffset(frame.byte_offset);
206 stream_error_ = frame.error_code;
207 CloseWriteSide();
208 CloseReadSide();
211 void ReliableQuicStream::OnConnectionClosed(QuicErrorCode error,
212 bool from_peer) {
213 if (read_side_closed_ && write_side_closed_) {
214 return;
216 if (error != QUIC_NO_ERROR) {
217 stream_error_ = QUIC_STREAM_CONNECTION_ERROR;
218 connection_error_ = error;
221 CloseWriteSide();
222 CloseReadSide();
225 void ReliableQuicStream::OnFinRead() {
226 DCHECK(sequencer_.IsClosed());
227 // OnFinRead can be called due to a FIN flag in a headers block, so there may
228 // have been no OnStreamFrame call with a FIN in the frame.
229 fin_received_ = true;
230 // If fin_sent_ is true, then CloseWriteSide has already been called, and the
231 // stream will be destroyed by CloseReadSide, so don't need to call
232 // StreamDraining.
233 CloseReadSide();
236 void ReliableQuicStream::Reset(QuicRstStreamErrorCode error) {
237 DCHECK_NE(QUIC_STREAM_NO_ERROR, error);
238 stream_error_ = error;
239 // Sending a RstStream results in calling CloseStream.
240 session()->SendRstStream(id(), error, stream_bytes_written_);
241 rst_sent_ = true;
244 void ReliableQuicStream::CloseConnection(QuicErrorCode error) {
245 session()->connection()->SendConnectionClose(error);
248 void ReliableQuicStream::CloseConnectionWithDetails(QuicErrorCode error,
249 const string& details) {
250 session()->connection()->SendConnectionCloseWithDetails(error, details);
253 void ReliableQuicStream::WriteOrBufferData(
254 StringPiece data,
255 bool fin,
256 QuicAckNotifier::DelegateInterface* ack_notifier_delegate) {
257 if (data.empty() && !fin) {
258 LOG(DFATAL) << "data.empty() && !fin";
259 return;
262 if (fin_buffered_) {
263 LOG(DFATAL) << "Fin already buffered";
264 return;
266 if (write_side_closed_) {
267 DLOG(ERROR) << ENDPOINT << "Attempt to write when the write side is closed";
268 return;
271 scoped_refptr<ProxyAckNotifierDelegate> proxy_delegate;
272 if (ack_notifier_delegate != nullptr) {
273 proxy_delegate = new ProxyAckNotifierDelegate(ack_notifier_delegate);
276 QuicConsumedData consumed_data(0, false);
277 fin_buffered_ = fin;
279 if (queued_data_.empty()) {
280 struct iovec iov(MakeIovec(data));
281 consumed_data = WritevData(&iov, 1, fin, proxy_delegate.get());
282 DCHECK_LE(consumed_data.bytes_consumed, data.length());
285 bool write_completed;
286 // If there's unconsumed data or an unconsumed fin, queue it.
287 if (consumed_data.bytes_consumed < data.length() ||
288 (fin && !consumed_data.fin_consumed)) {
289 StringPiece remainder(data.substr(consumed_data.bytes_consumed));
290 queued_data_.push_back(PendingData(remainder.as_string(), proxy_delegate));
291 write_completed = false;
292 } else {
293 write_completed = true;
296 if ((proxy_delegate.get() != nullptr) &&
297 (consumed_data.bytes_consumed > 0 || consumed_data.fin_consumed)) {
298 proxy_delegate->WroteData(write_completed);
302 void ReliableQuicStream::OnCanWrite() {
303 bool fin = false;
304 while (!queued_data_.empty()) {
305 PendingData* pending_data = &queued_data_.front();
306 ProxyAckNotifierDelegate* delegate = pending_data->delegate.get();
307 if (queued_data_.size() == 1 && fin_buffered_) {
308 fin = true;
310 if (pending_data->offset > 0 &&
311 pending_data->offset >= pending_data->data.size()) {
312 // This should be impossible because offset tracks the amount of
313 // pending_data written thus far.
314 LOG(DFATAL) << "Pending offset is beyond available data. offset: "
315 << pending_data->offset
316 << " vs: " << pending_data->data.size();
317 return;
319 size_t remaining_len = pending_data->data.size() - pending_data->offset;
320 struct iovec iov = {
321 const_cast<char*>(pending_data->data.data()) + pending_data->offset,
322 remaining_len};
323 QuicConsumedData consumed_data = WritevData(&iov, 1, fin, delegate);
324 if (consumed_data.bytes_consumed == remaining_len &&
325 fin == consumed_data.fin_consumed) {
326 queued_data_.pop_front();
327 if (delegate != nullptr) {
328 delegate->WroteData(true);
330 } else {
331 if (consumed_data.bytes_consumed > 0) {
332 pending_data->offset += consumed_data.bytes_consumed;
333 if (delegate != nullptr) {
334 delegate->WroteData(false);
337 break;
342 void ReliableQuicStream::MaybeSendBlocked() {
343 flow_controller_.MaybeSendBlocked();
344 if (!stream_contributes_to_connection_flow_control_) {
345 return;
347 connection_flow_controller_->MaybeSendBlocked();
348 // If the stream is blocked by connection-level flow control but not by
349 // stream-level flow control, add the stream to the write blocked list so that
350 // the stream will be given a chance to write when a connection-level
351 // WINDOW_UPDATE arrives.
352 if (connection_flow_controller_->IsBlocked() &&
353 !flow_controller_.IsBlocked()) {
354 session_->MarkConnectionLevelWriteBlocked(id(), EffectivePriority());
358 QuicConsumedData ReliableQuicStream::WritevData(
359 const struct iovec* iov,
360 int iov_count,
361 bool fin,
362 QuicAckNotifier::DelegateInterface* ack_notifier_delegate) {
363 if (write_side_closed_) {
364 DLOG(ERROR) << ENDPOINT << "Attempt to write when the write side is closed";
365 return QuicConsumedData(0, false);
368 // How much data was provided.
369 size_t write_length = TotalIovecLength(iov, iov_count);
371 // A FIN with zero data payload should not be flow control blocked.
372 bool fin_with_zero_data = (fin && write_length == 0);
374 // How much data flow control permits to be written.
375 QuicByteCount send_window = flow_controller_.SendWindowSize();
376 if (stream_contributes_to_connection_flow_control_) {
377 send_window =
378 min(send_window, connection_flow_controller_->SendWindowSize());
381 if (send_window == 0 && !fin_with_zero_data) {
382 // Quick return if nothing can be sent.
383 MaybeSendBlocked();
384 return QuicConsumedData(0, false);
387 if (write_length > send_window) {
388 // Don't send the FIN unless all the data will be sent.
389 fin = false;
391 // Writing more data would be a violation of flow control.
392 write_length = static_cast<size_t>(send_window);
395 QuicConsumedData consumed_data = session()->WritevData(
396 id(), QuicIOVector(iov, iov_count, write_length), stream_bytes_written_,
397 fin, GetFecProtection(), ack_notifier_delegate);
398 stream_bytes_written_ += consumed_data.bytes_consumed;
400 AddBytesSent(consumed_data.bytes_consumed);
402 if (consumed_data.bytes_consumed == write_length) {
403 if (!fin_with_zero_data) {
404 MaybeSendBlocked();
406 if (fin && consumed_data.fin_consumed) {
407 fin_sent_ = true;
408 if (fin_received_) {
409 session_->StreamDraining(id_);
411 CloseWriteSide();
412 } else if (fin && !consumed_data.fin_consumed) {
413 session_->MarkConnectionLevelWriteBlocked(id(), EffectivePriority());
415 } else {
416 session_->MarkConnectionLevelWriteBlocked(id(), EffectivePriority());
418 return consumed_data;
421 FecProtection ReliableQuicStream::GetFecProtection() {
422 return fec_policy_ == FEC_PROTECT_ALWAYS ? MUST_FEC_PROTECT : MAY_FEC_PROTECT;
425 void ReliableQuicStream::CloseReadSide() {
426 if (read_side_closed_) {
427 return;
429 DVLOG(1) << ENDPOINT << "Done reading from stream " << id();
431 read_side_closed_ = true;
432 if (write_side_closed_) {
433 DVLOG(1) << ENDPOINT << "Closing stream: " << id();
434 session_->CloseStream(id());
438 void ReliableQuicStream::CloseWriteSide() {
439 if (write_side_closed_) {
440 return;
442 DVLOG(1) << ENDPOINT << "Done writing to stream " << id();
444 write_side_closed_ = true;
445 if (read_side_closed_) {
446 DVLOG(1) << ENDPOINT << "Closing stream: " << id();
447 session_->CloseStream(id());
451 bool ReliableQuicStream::HasBufferedData() const {
452 return !queued_data_.empty();
455 QuicVersion ReliableQuicStream::version() const {
456 return session_->connection()->version();
459 void ReliableQuicStream::OnClose() {
460 CloseReadSide();
461 CloseWriteSide();
463 if (!fin_sent_ && !rst_sent_) {
464 // For flow control accounting, tell the peer how many bytes have been
465 // written on this stream before termination. Done here if needed, using a
466 // RST_STREAM frame.
467 DVLOG(1) << ENDPOINT << "Sending RST_STREAM in OnClose: " << id();
468 session_->SendRstStream(id(), QUIC_RST_ACKNOWLEDGEMENT,
469 stream_bytes_written_);
470 rst_sent_ = true;
473 // The stream is being closed and will not process any further incoming bytes.
474 // As there may be more bytes in flight, to ensure that both endpoints have
475 // the same connection level flow control state, mark all unreceived or
476 // buffered bytes as consumed.
477 QuicByteCount bytes_to_consume =
478 flow_controller_.highest_received_byte_offset() -
479 flow_controller_.bytes_consumed();
480 AddBytesConsumed(bytes_to_consume);
483 void ReliableQuicStream::OnWindowUpdateFrame(
484 const QuicWindowUpdateFrame& frame) {
485 if (flow_controller_.UpdateSendWindowOffset(frame.byte_offset)) {
486 // Writing can be done again!
487 // TODO(rjshade): This does not respect priorities (e.g. multiple
488 // outstanding POSTs are unblocked on arrival of
489 // SHLO with initial window).
490 // As long as the connection is not flow control blocked, write on!
491 OnCanWrite();
495 bool ReliableQuicStream::MaybeIncreaseHighestReceivedOffset(
496 QuicStreamOffset new_offset) {
497 uint64 increment =
498 new_offset - flow_controller_.highest_received_byte_offset();
499 if (!flow_controller_.UpdateHighestReceivedOffset(new_offset)) {
500 return false;
503 // If |new_offset| increased the stream flow controller's highest received
504 // offset, increase the connection flow controller's value by the incremental
505 // difference.
506 if (stream_contributes_to_connection_flow_control_) {
507 connection_flow_controller_->UpdateHighestReceivedOffset(
508 connection_flow_controller_->highest_received_byte_offset() +
509 increment);
511 return true;
514 void ReliableQuicStream::AddBytesSent(QuicByteCount bytes) {
515 flow_controller_.AddBytesSent(bytes);
516 if (stream_contributes_to_connection_flow_control_) {
517 connection_flow_controller_->AddBytesSent(bytes);
521 void ReliableQuicStream::AddBytesConsumed(QuicByteCount bytes) {
522 // Only adjust stream level flow controller if still reading.
523 if (!read_side_closed_) {
524 flow_controller_.AddBytesConsumed(bytes);
527 if (stream_contributes_to_connection_flow_control_) {
528 connection_flow_controller_->AddBytesConsumed(bytes);
532 void ReliableQuicStream::UpdateSendWindowOffset(QuicStreamOffset new_window) {
533 if (flow_controller_.UpdateSendWindowOffset(new_window)) {
534 OnCanWrite();
538 } // namespace net