blob: 0d7f21409818520ceac379254f91dac08fb187d3 [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/spdy/spdy_stream.h"
#include <algorithm>
#include <limits>
#include <utility>
#include "base/bind.h"
#include "base/check_op.h"
#include "base/compiler_specific.h"
#include "base/location.h"
#include "base/metrics/histogram_functions.h"
#include "base/metrics/histogram_macros.h"
#include "base/notreached.h"
#include "base/single_thread_task_runner.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringprintf.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/trace_event/memory_usage_estimator.h"
#include "base/values.h"
#include "net/base/load_timing_info.h"
#include "net/log/net_log.h"
#include "net/log/net_log_capture_mode.h"
#include "net/log/net_log_event_type.h"
#include "net/spdy/spdy_buffer_producer.h"
#include "net/spdy/spdy_http_utils.h"
#include "net/spdy/spdy_session.h"
namespace net {
namespace {
base::Value NetLogSpdyStreamErrorParams(spdy::SpdyStreamId stream_id,
int net_error,
base::StringPiece description) {
base::Value dict(base::Value::Type::DICTIONARY);
dict.SetIntKey("stream_id", static_cast<int>(stream_id));
dict.SetStringKey("net_error", ErrorToShortString(net_error));
dict.SetStringKey("description", description);
return dict;
}
base::Value NetLogSpdyStreamWindowUpdateParams(spdy::SpdyStreamId stream_id,
int32_t delta,
int32_t window_size) {
base::Value dict(base::Value::Type::DICTIONARY);
dict.SetIntKey("stream_id", stream_id);
dict.SetIntKey("delta", delta);
dict.SetIntKey("window_size", window_size);
return dict;
}
base::Value NetLogSpdyDataParams(spdy::SpdyStreamId stream_id,
int size,
bool fin) {
base::Value dict(base::Value::Type::DICTIONARY);
dict.SetIntKey("stream_id", static_cast<int>(stream_id));
dict.SetIntKey("size", size);
dict.SetBoolKey("fin", fin);
return dict;
}
} // namespace
// A wrapper around a stream that calls into ProduceHeadersFrame().
class SpdyStream::HeadersBufferProducer : public SpdyBufferProducer {
public:
explicit HeadersBufferProducer(const base::WeakPtr<SpdyStream>& stream)
: stream_(stream) {
DCHECK(stream_.get());
}
~HeadersBufferProducer() override = default;
std::unique_ptr<SpdyBuffer> ProduceBuffer() override {
if (!stream_.get()) {
NOTREACHED();
return std::unique_ptr<SpdyBuffer>();
}
DCHECK_GT(stream_->stream_id(), 0u);
return std::make_unique<SpdyBuffer>(stream_->ProduceHeadersFrame());
}
size_t EstimateMemoryUsage() const override { return 0; }
private:
const base::WeakPtr<SpdyStream> stream_;
};
SpdyStream::SpdyStream(SpdyStreamType type,
const base::WeakPtr<SpdySession>& session,
const GURL& url,
RequestPriority priority,
int32_t initial_send_window_size,
int32_t max_recv_window_size,
const NetLogWithSource& net_log,
const NetworkTrafficAnnotationTag& traffic_annotation)
: type_(type),
stream_id_(0),
url_(url),
priority_(priority),
send_stalled_by_flow_control_(false),
send_window_size_(initial_send_window_size),
max_recv_window_size_(max_recv_window_size),
recv_window_size_(max_recv_window_size),
unacked_recv_window_bytes_(0),
session_(session),
delegate_(nullptr),
request_headers_valid_(false),
pending_send_status_(MORE_DATA_TO_SEND),
request_time_(base::Time::Now()),
response_state_(READY_FOR_HEADERS),
io_state_(STATE_IDLE),
net_log_(net_log),
raw_received_bytes_(0),
raw_sent_bytes_(0),
recv_bytes_(0),
write_handler_guard_(false),
traffic_annotation_(traffic_annotation) {
CHECK(type_ == SPDY_BIDIRECTIONAL_STREAM ||
type_ == SPDY_REQUEST_RESPONSE_STREAM ||
type_ == SPDY_PUSH_STREAM);
CHECK_GE(priority_, MINIMUM_PRIORITY);
CHECK_LE(priority_, MAXIMUM_PRIORITY);
}
SpdyStream::~SpdyStream() {
CHECK(!write_handler_guard_);
}
void SpdyStream::SetDelegate(Delegate* delegate) {
CHECK(!delegate_);
CHECK(delegate);
delegate_ = delegate;
CHECK(io_state_ == STATE_IDLE ||
io_state_ == STATE_HALF_CLOSED_LOCAL_UNCLAIMED ||
io_state_ == STATE_RESERVED_REMOTE);
if (io_state_ == STATE_HALF_CLOSED_LOCAL_UNCLAIMED) {
DCHECK_EQ(type_, SPDY_PUSH_STREAM);
base::ThreadTaskRunnerHandle::Get()->PostTask(
FROM_HERE,
base::BindOnce(&SpdyStream::PushedStreamReplay, GetWeakPtr()));
}
}
void SpdyStream::PushedStreamReplay() {
DCHECK_EQ(type_, SPDY_PUSH_STREAM);
DCHECK_NE(stream_id_, 0u);
CHECK_EQ(stream_id_ % 2, 0u);
CHECK_EQ(io_state_, STATE_HALF_CLOSED_LOCAL_UNCLAIMED);
io_state_ = STATE_HALF_CLOSED_LOCAL;
// The delegate methods called below may delete |this|, so use
// |weak_this| to detect that.
base::WeakPtr<SpdyStream> weak_this = GetWeakPtr();
CHECK(delegate_);
delegate_->OnHeadersReceived(response_headers_, &request_headers_);
// OnHeadersReceived() may have closed |this|.
if (!weak_this)
return;
while (!pending_recv_data_.empty()) {
// Take ownership of the first element of |pending_recv_data_|.
std::unique_ptr<SpdyBuffer> buffer = std::move(pending_recv_data_.at(0));
pending_recv_data_.erase(pending_recv_data_.begin());
bool eof = (buffer == nullptr);
CHECK(delegate_);
delegate_->OnDataReceived(std::move(buffer));
// OnDataReceived() may have closed |this|.
if (!weak_this)
return;
if (eof) {
DCHECK(pending_recv_data_.empty());
session_->CloseActiveStream(stream_id_, OK);
DCHECK(!weak_this);
// |pending_recv_data_| is invalid at this point.
break;
}
}
}
std::unique_ptr<spdy::SpdySerializedFrame> SpdyStream::ProduceHeadersFrame() {
CHECK_EQ(io_state_, STATE_IDLE);
CHECK(request_headers_valid_);
CHECK_GT(stream_id_, 0u);
spdy::SpdyControlFlags flags = (pending_send_status_ == NO_MORE_DATA_TO_SEND)
? spdy::CONTROL_FLAG_FIN
: spdy::CONTROL_FLAG_NONE;
std::unique_ptr<spdy::SpdySerializedFrame> frame(session_->CreateHeaders(
stream_id_, priority_, flags, std::move(request_headers_),
delegate_->source_dependency()));
request_headers_valid_ = false;
send_time_ = base::TimeTicks::Now();
return frame;
}
void SpdyStream::DetachDelegate() {
DCHECK(!IsClosed());
delegate_ = nullptr;
Cancel(ERR_ABORTED);
}
void SpdyStream::SetPriority(RequestPriority priority) {
if (priority_ == priority) {
return;
}
session_->UpdateStreamPriority(this, /* old_priority = */ priority_,
/* new_priority = */ priority);
priority_ = priority;
}
bool SpdyStream::AdjustSendWindowSize(int32_t delta_window_size) {
if (IsClosed())
return true;
if (delta_window_size > 0) {
if (send_window_size_ >
std::numeric_limits<int32_t>::max() - delta_window_size) {
return false;
}
} else {
// Minimum allowed value for spdy::SETTINGS_INITIAL_WINDOW_SIZE is 0 and
// maximum is 2^31-1. Data are not sent when |send_window_size_ < 0|, that
// is, |send_window_size_ | can only decrease by a change in
// spdy::SETTINGS_INITIAL_WINDOW_SIZE. Therefore |send_window_size_| should
// never be able to become less than -(2^31-1).
DCHECK_LE(std::numeric_limits<int32_t>::min() - delta_window_size,
send_window_size_);
}
send_window_size_ += delta_window_size;
net_log_.AddEvent(NetLogEventType::HTTP2_STREAM_UPDATE_SEND_WINDOW, [&] {
return NetLogSpdyStreamWindowUpdateParams(stream_id_, delta_window_size,
send_window_size_);
});
PossiblyResumeIfSendStalled();
return true;
}
void SpdyStream::OnWriteBufferConsumed(
size_t frame_payload_size,
size_t consume_size,
SpdyBuffer::ConsumeSource consume_source) {
if (consume_source == SpdyBuffer::DISCARD) {
// If we're discarding a frame or part of it, increase the send
// window by the number of discarded bytes. (Although if we're
// discarding part of a frame, it's probably because of a write
// error and we'll be tearing down the stream soon.)
size_t remaining_payload_bytes = std::min(consume_size, frame_payload_size);
DCHECK_GT(remaining_payload_bytes, 0u);
IncreaseSendWindowSize(static_cast<int32_t>(remaining_payload_bytes));
}
// For consumed bytes, the send window is increased when we receive
// a WINDOW_UPDATE frame.
}
void SpdyStream::IncreaseSendWindowSize(int32_t delta_window_size) {
DCHECK_GE(delta_window_size, 1);
if (!AdjustSendWindowSize(delta_window_size)) {
std::string desc = base::StringPrintf(
"Received WINDOW_UPDATE [delta: %d] for stream %d overflows "
"send_window_size_ [current: %d]",
delta_window_size, stream_id_, send_window_size_);
session_->ResetStream(stream_id_, ERR_HTTP2_FLOW_CONTROL_ERROR, desc);
}
}
void SpdyStream::DecreaseSendWindowSize(int32_t delta_window_size) {
if (IsClosed())
return;
// We only call this method when sending a frame. Therefore,
// |delta_window_size| should be within the valid frame size range.
DCHECK_GE(delta_window_size, 1);
DCHECK_LE(delta_window_size, kMaxSpdyFrameChunkSize);
// |send_window_size_| should have been at least |delta_window_size| for
// this call to happen.
DCHECK_GE(send_window_size_, delta_window_size);
send_window_size_ -= delta_window_size;
net_log_.AddEvent(NetLogEventType::HTTP2_STREAM_UPDATE_SEND_WINDOW, [&] {
return NetLogSpdyStreamWindowUpdateParams(stream_id_, -delta_window_size,
send_window_size_);
});
}
void SpdyStream::OnReadBufferConsumed(
size_t consume_size,
SpdyBuffer::ConsumeSource consume_source) {
DCHECK_GE(consume_size, 1u);
DCHECK_LE(consume_size,
static_cast<size_t>(std::numeric_limits<int32_t>::max()));
IncreaseRecvWindowSize(static_cast<int32_t>(consume_size));
}
void SpdyStream::IncreaseRecvWindowSize(int32_t delta_window_size) {
// By the time a read is processed by the delegate, this stream may
// already be inactive.
if (!session_->IsStreamActive(stream_id_))
return;
DCHECK_GE(unacked_recv_window_bytes_, 0);
DCHECK_GE(recv_window_size_, unacked_recv_window_bytes_);
DCHECK_GE(delta_window_size, 1);
// Check for overflow.
DCHECK_LE(delta_window_size,
std::numeric_limits<int32_t>::max() - recv_window_size_);
recv_window_size_ += delta_window_size;
net_log_.AddEvent(NetLogEventType::HTTP2_STREAM_UPDATE_RECV_WINDOW, [&] {
return NetLogSpdyStreamWindowUpdateParams(stream_id_, delta_window_size,
recv_window_size_);
});
unacked_recv_window_bytes_ += delta_window_size;
if (unacked_recv_window_bytes_ > max_recv_window_size_ / 2) {
session_->SendStreamWindowUpdate(
stream_id_, static_cast<uint32_t>(unacked_recv_window_bytes_));
unacked_recv_window_bytes_ = 0;
}
}
void SpdyStream::DecreaseRecvWindowSize(int32_t delta_window_size) {
DCHECK(session_->IsStreamActive(stream_id_));
DCHECK_GE(delta_window_size, 1);
// The receiving window size as the peer knows it is
// |recv_window_size_ - unacked_recv_window_bytes_|, if more data are sent by
// the peer, that means that the receive window is not being respected.
if (delta_window_size > recv_window_size_ - unacked_recv_window_bytes_) {
session_->ResetStream(
stream_id_, ERR_HTTP2_FLOW_CONTROL_ERROR,
"delta_window_size is " + base::NumberToString(delta_window_size) +
" in DecreaseRecvWindowSize, which is larger than the receive " +
"window size of " + base::NumberToString(recv_window_size_));
return;
}
recv_window_size_ -= delta_window_size;
net_log_.AddEvent(NetLogEventType::HTTP2_STREAM_UPDATE_RECV_WINDOW, [&] {
return NetLogSpdyStreamWindowUpdateParams(stream_id_, -delta_window_size,
recv_window_size_);
});
}
int SpdyStream::GetPeerAddress(IPEndPoint* address) const {
return session_->GetPeerAddress(address);
}
int SpdyStream::GetLocalAddress(IPEndPoint* address) const {
return session_->GetLocalAddress(address);
}
bool SpdyStream::WasEverUsed() const {
return session_->WasEverUsed();
}
base::Time SpdyStream::GetRequestTime() const {
return request_time_;
}
void SpdyStream::SetRequestTime(base::Time t) {
request_time_ = t;
}
void SpdyStream::OnHeadersReceived(
const spdy::SpdyHeaderBlock& response_headers,
base::Time response_time,
base::TimeTicks recv_first_byte_time) {
switch (response_state_) {
case READY_FOR_HEADERS: {
// No header block has been received yet.
DCHECK(response_headers_.empty());
spdy::SpdyHeaderBlock::const_iterator it =
response_headers.find(spdy::kHttp2StatusHeader);
if (it == response_headers.end()) {
const std::string error("Response headers do not include :status.");
LogStreamError(ERR_HTTP2_PROTOCOL_ERROR, error);
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR, error);
return;
}
int status;
if (!StringToInt(it->second, &status)) {
const std::string error("Cannot parse :status.");
LogStreamError(ERR_HTTP2_PROTOCOL_ERROR, error);
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR, error);
return;
}
base::UmaHistogramSparse("Net.SpdyResponseCode", status);
// Include 1XX responses in the TTFB as per the resource timing spec
// for responseStart.
if (recv_first_byte_time_.is_null())
recv_first_byte_time_ = recv_first_byte_time;
// Ignore informational headers like 103 Early Hints.
// TODO(bnc): Add support for 103 Early Hints, https://crbug.com/671310.
// However, do not ignore 101 Switching Protocols, because broken
// servers might send this as a response to a WebSocket request,
// in which case it needs to pass through so that the WebSocket layer
// can signal an error.
if (status / 100 == 1 && status != 101) {
// Record the timing of the 103 Early Hints response for the experiment
// (https://crbug.com/1093693).
if (status == 103 && first_early_hints_time_.is_null())
first_early_hints_time_ = recv_first_byte_time;
return;
}
response_state_ = READY_FOR_DATA_OR_TRAILERS;
switch (type_) {
case SPDY_BIDIRECTIONAL_STREAM:
case SPDY_REQUEST_RESPONSE_STREAM:
// A bidirectional stream or a request/response stream is ready for
// the response headers only after request headers are sent.
if (io_state_ == STATE_IDLE) {
const std::string error("Response received before request sent.");
LogStreamError(ERR_HTTP2_PROTOCOL_ERROR, error);
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR, error);
return;
}
break;
case SPDY_PUSH_STREAM:
// Push streams transition to a locally half-closed state upon
// headers. We must continue to buffer data while waiting for a call
// to SetDelegate() (which may not ever happen).
DCHECK_EQ(io_state_, STATE_RESERVED_REMOTE);
if (!delegate_) {
io_state_ = STATE_HALF_CLOSED_LOCAL_UNCLAIMED;
} else {
io_state_ = STATE_HALF_CLOSED_LOCAL;
}
break;
}
DCHECK_NE(io_state_, STATE_IDLE);
response_time_ = response_time;
SaveResponseHeaders(response_headers, status);
break;
}
case READY_FOR_DATA_OR_TRAILERS:
// Second header block is trailers.
if (type_ == SPDY_PUSH_STREAM) {
const std::string error("Trailers not supported for push stream.");
LogStreamError(ERR_HTTP2_PROTOCOL_ERROR, error);
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR, error);
return;
}
response_state_ = TRAILERS_RECEIVED;
delegate_->OnTrailers(response_headers);
break;
case TRAILERS_RECEIVED:
// No further header blocks are allowed after trailers.
const std::string error("Header block received after trailers.");
LogStreamError(ERR_HTTP2_PROTOCOL_ERROR, error);
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR, error);
break;
}
}
bool SpdyStream::ShouldRetryRSTPushStream() const {
// Retry if the stream is a pushed stream, has been claimed, but did not yet
// receive response headers
return (response_headers_.empty() && type_ == SPDY_PUSH_STREAM && delegate_);
}
void SpdyStream::OnPushPromiseHeadersReceived(spdy::SpdyHeaderBlock headers,
GURL url) {
CHECK(!request_headers_valid_);
CHECK_EQ(io_state_, STATE_IDLE);
CHECK_EQ(type_, SPDY_PUSH_STREAM);
DCHECK(!delegate_);
io_state_ = STATE_RESERVED_REMOTE;
request_headers_ = std::move(headers);
request_headers_valid_ = true;
}
void SpdyStream::OnDataReceived(std::unique_ptr<SpdyBuffer> buffer) {
DCHECK(session_->IsStreamActive(stream_id_));
if (response_state_ == READY_FOR_HEADERS) {
const std::string error("DATA received before headers.");
LogStreamError(ERR_HTTP2_PROTOCOL_ERROR, error);
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR, error);
return;
}
if (response_state_ == TRAILERS_RECEIVED && buffer) {
const std::string error("DATA received after trailers.");
LogStreamError(ERR_HTTP2_PROTOCOL_ERROR, error);
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR, error);
return;
}
if (io_state_ == STATE_HALF_CLOSED_REMOTE) {
const std::string error("DATA received on half-closed (remove) stream.");
LogStreamError(ERR_HTTP2_STREAM_CLOSED, error);
session_->ResetStream(stream_id_, ERR_HTTP2_STREAM_CLOSED, error);
return;
}
// Track our bandwidth.
recv_bytes_ += buffer ? buffer->GetRemainingSize() : 0;
recv_last_byte_time_ = base::TimeTicks::Now();
// If we're still buffering data for a push stream, we will do the check for
// data received with incomplete headers in PushedStreamReplay().
if (io_state_ == STATE_HALF_CLOSED_LOCAL_UNCLAIMED) {
DCHECK_EQ(type_, SPDY_PUSH_STREAM);
// It should be valid for this to happen in the server push case.
// We'll return received data when delegate gets attached to the stream.
if (buffer) {
pending_recv_data_.push_back(std::move(buffer));
} else {
pending_recv_data_.push_back(nullptr);
// Note: we leave the stream open in the session until the stream
// is claimed.
}
return;
}
CHECK(!IsClosed());
if (!buffer) {
if (io_state_ == STATE_OPEN) {
io_state_ = STATE_HALF_CLOSED_REMOTE;
} else if (io_state_ == STATE_HALF_CLOSED_LOCAL) {
io_state_ = STATE_CLOSED;
// Deletes |this|.
session_->CloseActiveStream(stream_id_, OK);
} else {
NOTREACHED() << io_state_;
}
return;
}
size_t length = buffer->GetRemainingSize();
DCHECK_LE(length, spdy::kHttp2DefaultFramePayloadLimit);
base::WeakPtr<SpdyStream> weak_this = GetWeakPtr();
// May close the stream.
DecreaseRecvWindowSize(static_cast<int32_t>(length));
if (!weak_this)
return;
buffer->AddConsumeCallback(
base::BindRepeating(&SpdyStream::OnReadBufferConsumed, GetWeakPtr()));
// May close |this|.
delegate_->OnDataReceived(std::move(buffer));
}
void SpdyStream::OnPaddingConsumed(size_t len) {
// Decrease window size because padding bytes are received.
// Increase window size because padding bytes are consumed (by discarding).
// Net result: |unacked_recv_window_bytes_| increases by |len|,
// |recv_window_size_| does not change.
base::WeakPtr<SpdyStream> weak_this = GetWeakPtr();
// May close the stream.
DecreaseRecvWindowSize(static_cast<int32_t>(len));
if (!weak_this)
return;
IncreaseRecvWindowSize(static_cast<int32_t>(len));
}
void SpdyStream::OnFrameWriteComplete(spdy::SpdyFrameType frame_type,
size_t frame_size) {
// PRIORITY writes are allowed at any time and do not trigger a state update.
if (frame_type == spdy::SpdyFrameType::PRIORITY) {
return;
}
// Frame types reserved in
// https://tools.ietf.org/html/draft-bishop-httpbis-grease-00 ought to be
// ignored.
if (static_cast<uint8_t>(frame_type) % 0x1f == 0x0b)
return;
DCHECK_NE(type_, SPDY_PUSH_STREAM);
CHECK(frame_type == spdy::SpdyFrameType::HEADERS ||
frame_type == spdy::SpdyFrameType::DATA)
<< frame_type;
int result = (frame_type == spdy::SpdyFrameType::HEADERS)
? OnHeadersSent()
: OnDataSent(frame_size);
if (result == ERR_IO_PENDING) {
// The write operation hasn't completed yet.
return;
}
if (pending_send_status_ == NO_MORE_DATA_TO_SEND) {
if (io_state_ == STATE_OPEN) {
io_state_ = STATE_HALF_CLOSED_LOCAL;
} else if (io_state_ == STATE_HALF_CLOSED_REMOTE) {
io_state_ = STATE_CLOSED;
} else {
NOTREACHED() << io_state_;
}
}
// Notify delegate of write completion. Must not destroy |this|.
CHECK(delegate_);
{
base::WeakPtr<SpdyStream> weak_this = GetWeakPtr();
write_handler_guard_ = true;
if (frame_type == spdy::SpdyFrameType::HEADERS) {
delegate_->OnHeadersSent();
} else {
delegate_->OnDataSent();
}
CHECK(weak_this);
write_handler_guard_ = false;
}
if (io_state_ == STATE_CLOSED) {
// Deletes |this|.
session_->CloseActiveStream(stream_id_, OK);
}
}
int SpdyStream::OnHeadersSent() {
CHECK_EQ(io_state_, STATE_IDLE);
CHECK_NE(stream_id_, 0u);
io_state_ = STATE_OPEN;
return OK;
}
int SpdyStream::OnDataSent(size_t frame_size) {
CHECK(io_state_ == STATE_OPEN ||
io_state_ == STATE_HALF_CLOSED_REMOTE) << io_state_;
size_t frame_payload_size = frame_size - spdy::kDataFrameMinimumSize;
CHECK_GE(frame_size, spdy::kDataFrameMinimumSize);
CHECK_LE(frame_payload_size, spdy::kHttp2DefaultFramePayloadLimit);
// If more data is available to send, dispatch it and
// return that the write operation is still ongoing.
pending_send_data_->DidConsume(frame_payload_size);
if (pending_send_data_->BytesRemaining() > 0) {
QueueNextDataFrame();
return ERR_IO_PENDING;
} else {
pending_send_data_ = nullptr;
return OK;
}
}
void SpdyStream::LogStreamError(int error, base::StringPiece description) {
net_log_.AddEvent(NetLogEventType::HTTP2_STREAM_ERROR, [&] {
return NetLogSpdyStreamErrorParams(stream_id_, error, description);
});
}
void SpdyStream::OnClose(int status) {
// In most cases, the stream should already be CLOSED. The exception is when a
// SpdySession is shutting down while the stream is in an intermediate state.
io_state_ = STATE_CLOSED;
if (status == ERR_HTTP2_RST_STREAM_NO_ERROR_RECEIVED) {
if (response_state_ == READY_FOR_HEADERS) {
status = ERR_HTTP2_PROTOCOL_ERROR;
} else {
status = OK;
}
}
Delegate* delegate = delegate_;
delegate_ = nullptr;
if (delegate)
delegate->OnClose(status);
// Unset |stream_id_| last so that the delegate can look it up.
stream_id_ = 0;
}
void SpdyStream::Cancel(int error) {
// We may be called again from a delegate's OnClose().
if (io_state_ == STATE_CLOSED)
return;
if (stream_id_ != 0) {
session_->ResetStream(stream_id_, error, std::string());
} else {
session_->CloseCreatedStream(GetWeakPtr(), error);
}
// |this| is invalid at this point.
}
void SpdyStream::Close() {
// We may be called again from a delegate's OnClose().
if (io_state_ == STATE_CLOSED)
return;
if (stream_id_ != 0) {
session_->CloseActiveStream(stream_id_, OK);
} else {
session_->CloseCreatedStream(GetWeakPtr(), OK);
}
// |this| is invalid at this point.
}
base::WeakPtr<SpdyStream> SpdyStream::GetWeakPtr() {
return weak_ptr_factory_.GetWeakPtr();
}
int SpdyStream::SendRequestHeaders(spdy::SpdyHeaderBlock request_headers,
SpdySendStatus send_status) {
CHECK_NE(type_, SPDY_PUSH_STREAM);
CHECK_EQ(pending_send_status_, MORE_DATA_TO_SEND);
CHECK(!request_headers_valid_);
CHECK(!pending_send_data_.get());
CHECK_EQ(io_state_, STATE_IDLE);
request_headers_ = std::move(request_headers);
request_headers_valid_ = true;
pending_send_status_ = send_status;
session_->EnqueueStreamWrite(
GetWeakPtr(), spdy::SpdyFrameType::HEADERS,
std::make_unique<HeadersBufferProducer>(GetWeakPtr()));
return ERR_IO_PENDING;
}
void SpdyStream::SendData(IOBuffer* data,
int length,
SpdySendStatus send_status) {
CHECK_NE(type_, SPDY_PUSH_STREAM);
CHECK_EQ(pending_send_status_, MORE_DATA_TO_SEND);
CHECK(io_state_ == STATE_OPEN ||
io_state_ == STATE_HALF_CLOSED_REMOTE) << io_state_;
CHECK(!pending_send_data_.get());
pending_send_data_ = base::MakeRefCounted<DrainableIOBuffer>(data, length);
pending_send_status_ = send_status;
QueueNextDataFrame();
}
bool SpdyStream::GetSSLInfo(SSLInfo* ssl_info) const {
return session_->GetSSLInfo(ssl_info);
}
bool SpdyStream::WasAlpnNegotiated() const {
return session_->WasAlpnNegotiated();
}
NextProto SpdyStream::GetNegotiatedProtocol() const {
return session_->GetNegotiatedProtocol();
}
SpdyStream::ShouldRequeueStream SpdyStream::PossiblyResumeIfSendStalled() {
if (IsLocallyClosed() || !send_stalled_by_flow_control_)
return DoNotRequeue;
if (session_->IsSendStalled() || send_window_size_ <= 0) {
return Requeue;
}
net_log_.AddEventWithIntParams(
NetLogEventType::HTTP2_STREAM_FLOW_CONTROL_UNSTALLED, "stream_id",
stream_id_);
send_stalled_by_flow_control_ = false;
QueueNextDataFrame();
return DoNotRequeue;
}
bool SpdyStream::IsClosed() const {
return io_state_ == STATE_CLOSED;
}
bool SpdyStream::IsLocallyClosed() const {
return io_state_ == STATE_HALF_CLOSED_LOCAL_UNCLAIMED ||
io_state_ == STATE_HALF_CLOSED_LOCAL ||
io_state_ == STATE_CLOSED;
}
bool SpdyStream::IsIdle() const {
return io_state_ == STATE_IDLE;
}
bool SpdyStream::IsOpen() const {
return io_state_ == STATE_OPEN;
}
bool SpdyStream::IsReservedRemote() const {
return io_state_ == STATE_RESERVED_REMOTE;
}
void SpdyStream::AddRawReceivedBytes(size_t received_bytes) {
raw_received_bytes_ += received_bytes;
}
void SpdyStream::AddRawSentBytes(size_t sent_bytes) {
raw_sent_bytes_ += sent_bytes;
}
bool SpdyStream::GetLoadTimingInfo(LoadTimingInfo* load_timing_info) const {
if (stream_id_ == 0)
return false;
bool result = session_->GetLoadTimingInfo(stream_id_, load_timing_info);
if (type_ == SPDY_PUSH_STREAM) {
load_timing_info->push_start = recv_first_byte_time_;
bool done_receiving = IsClosed() || (!pending_recv_data_.empty() &&
!pending_recv_data_.back());
if (done_receiving)
load_timing_info->push_end = recv_last_byte_time_;
}
// TODO(acomminos): recv_first_byte_time_ is actually the time after all
// headers have been parsed. We should add support for reporting the time the
// first bytes of the HEADERS frame were received to BufferedSpdyFramer
// (https://crbug.com/568024).
load_timing_info->receive_headers_start = recv_first_byte_time_;
load_timing_info->first_early_hints_time = first_early_hints_time_;
return result;
}
size_t SpdyStream::EstimateMemoryUsage() const {
// TODO(xunjieli): https://crbug.com/669108. Estimate |pending_send_data_|
// once scoped_refptr support is in.
return base::trace_event::EstimateMemoryUsage(url_) +
base::trace_event::EstimateMemoryUsage(request_headers_) +
base::trace_event::EstimateMemoryUsage(pending_recv_data_) +
base::trace_event::EstimateMemoryUsage(response_headers_);
}
void SpdyStream::QueueNextDataFrame() {
// Until the request has been completely sent, we cannot be sure
// that our stream_id is correct.
CHECK(io_state_ == STATE_OPEN ||
io_state_ == STATE_HALF_CLOSED_REMOTE) << io_state_;
CHECK_GT(stream_id_, 0u);
CHECK(pending_send_data_.get());
// Only the final fame may have a length of 0.
if (pending_send_status_ == NO_MORE_DATA_TO_SEND) {
CHECK_GE(pending_send_data_->BytesRemaining(), 0);
} else {
CHECK_GT(pending_send_data_->BytesRemaining(), 0);
}
spdy::SpdyDataFlags flags = (pending_send_status_ == NO_MORE_DATA_TO_SEND)
? spdy::DATA_FLAG_FIN
: spdy::DATA_FLAG_NONE;
int effective_len;
bool end_stream;
std::unique_ptr<SpdyBuffer> data_buffer(
session_->CreateDataBuffer(stream_id_, pending_send_data_.get(),
pending_send_data_->BytesRemaining(), flags,
&effective_len, &end_stream));
// We'll get called again by PossiblyResumeIfSendStalled().
if (!data_buffer)
return;
DCHECK_GE(data_buffer->GetRemainingSize(), spdy::kDataFrameMinimumSize);
size_t payload_size =
data_buffer->GetRemainingSize() - spdy::kDataFrameMinimumSize;
DCHECK_LE(payload_size, spdy::kHttp2DefaultFramePayloadLimit);
// Send window size is based on payload size, so nothing to do if this is
// just a FIN with no payload.
if (payload_size != 0) {
DecreaseSendWindowSize(static_cast<int32_t>(payload_size));
// This currently isn't strictly needed, since write frames are
// discarded only if the stream is about to be closed. But have it
// here anyway just in case this changes.
data_buffer->AddConsumeCallback(base::BindRepeating(
&SpdyStream::OnWriteBufferConsumed, GetWeakPtr(), payload_size));
}
if (session_->GreasedFramesEnabled() && delegate_ &&
delegate_->CanGreaseFrameType()) {
session_->EnqueueGreasedFrame(GetWeakPtr());
}
session_->net_log().AddEvent(NetLogEventType::HTTP2_SESSION_SEND_DATA, [&] {
return NetLogSpdyDataParams(stream_id_, effective_len, end_stream);
});
session_->EnqueueStreamWrite(
GetWeakPtr(), spdy::SpdyFrameType::DATA,
std::make_unique<SimpleBufferProducer>(std::move(data_buffer)));
}
void SpdyStream::SaveResponseHeaders(
const spdy::SpdyHeaderBlock& response_headers,
int status) {
DCHECK(response_headers_.empty());
if (response_headers.find("transfer-encoding") != response_headers.end()) {
session_->ResetStream(stream_id_, ERR_HTTP2_PROTOCOL_ERROR,
"Received transfer-encoding header");
return;
}
for (spdy::SpdyHeaderBlock::const_iterator it = response_headers.begin();
it != response_headers.end(); ++it) {
response_headers_.insert(*it);
}
// Reject pushed stream with unsupported status code regardless of whether
// delegate is already attached or not.
if (type_ == SPDY_PUSH_STREAM &&
(status / 100 != 2 && status / 100 != 3 && status != 416)) {
SpdySession::RecordSpdyPushedStreamFateHistogram(
SpdyPushedStreamFate::kUnsupportedStatusCode);
session_->ResetStream(stream_id_, ERR_HTTP2_CLIENT_REFUSED_STREAM,
"Unsupported status code for pushed stream.");
return;
}
// If delegate is not yet attached, OnHeadersReceived() will be called after
// the delegate gets attached to the stream.
if (!delegate_)
return;
if (type_ == SPDY_PUSH_STREAM) {
// OnPushPromiseHeadersReceived() must have been called before
// OnHeadersReceived().
DCHECK(request_headers_valid_);
delegate_->OnHeadersReceived(response_headers_, &request_headers_);
} else {
delegate_->OnHeadersReceived(response_headers_, nullptr);
}
}
#define STATE_CASE(s) \
case s: \
description = base::StringPrintf("%s (0x%08X)", #s, s); \
break
std::string SpdyStream::DescribeState(State state) {
std::string description;
switch (state) {
STATE_CASE(STATE_IDLE);
STATE_CASE(STATE_OPEN);
STATE_CASE(STATE_HALF_CLOSED_LOCAL_UNCLAIMED);
STATE_CASE(STATE_HALF_CLOSED_LOCAL);
STATE_CASE(STATE_CLOSED);
default:
description =
base::StringPrintf("Unknown state 0x%08X (%u)", state, state);
break;
}
return description;
}
#undef STATE_CASE
} // namespace net