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cobalt / cobalt / b95ea55ccebda33f820d043e4b4dc85c10d7584d / . / net / quic / quic_chromium_packet_writer.cc
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// Copyright 2013 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/quic/quic_chromium_packet_writer.h"
#include <string>
#include <utility>
#include "base/bind.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/metrics/histogram_macros.h"
#include "base/metrics/sparse_histogram.h"
#include "net/base/io_buffer.h"
#include "net/base/net_errors.h"
#include "net/quic/quic_chromium_client_session.h"
#include "net/traffic_annotation/network_traffic_annotation.h"
#include "starboard/memory.h"
namespace net {
namespace {
enum NotReusableReason {
NOT_REUSABLE_NULLPTR = 0,
NOT_REUSABLE_TOO_SMALL = 1,
NOT_REUSABLE_REF_COUNT = 2,
NUM_NOT_REUSABLE_REASONS = 3,
};
const int kMaxRetries = 12; // 2^12 = 4 seconds, which should be a LOT.
void RecordNotReusableReason(NotReusableReason reason) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.WritePacketNotReusable", reason,
NUM_NOT_REUSABLE_REASONS);
}
void RecordRetryCount(int count) {
UMA_HISTOGRAM_EXACT_LINEAR("Net.QuicSession.RetryAfterWriteErrorCount2",
count, kMaxRetries + 1);
}
const net::NetworkTrafficAnnotationTag kTrafficAnnotation =
net::DefineNetworkTrafficAnnotation("quic_chromium_packet_writer", R"(
semantics {
sender: "QUIC Packet Writer"
description:
"A QUIC packet is written to the wire based on a request from "
"a QUIC stream."
trigger:
"A request from QUIC stream."
data: "Any data sent by the stream."
destination: OTHER
destination_other: "Any destination choosen by the stream."
}
policy {
cookies_allowed: NO
setting: "This feature cannot be disabled in settings."
policy_exception_justification:
"Essential for network access."
}
comments:
"All requests that are received by QUIC streams have network traffic "
"annotation, but the annotation is not passed to the writer function "
"due to technial overheads. Please see QuicChromiumClientSession and "
"QuicChromiumClientStream classes for references."
)");
} // namespace
QuicChromiumPacketWriter::ReusableIOBuffer::ReusableIOBuffer(size_t capacity)
: IOBuffer(capacity), capacity_(capacity), size_(0) {}
QuicChromiumPacketWriter::ReusableIOBuffer::~ReusableIOBuffer() {}
void QuicChromiumPacketWriter::ReusableIOBuffer::Set(const char* buffer,
size_t buf_len) {
CHECK_LE(buf_len, capacity_);
CHECK(HasOneRef());
size_ = buf_len;
memcpy(data(), buffer, buf_len);
}
QuicChromiumPacketWriter::QuicChromiumPacketWriter() : weak_factory_(this) {}
QuicChromiumPacketWriter::QuicChromiumPacketWriter(
DatagramClientSocket* socket,
base::SequencedTaskRunner* task_runner)
: socket_(socket),
delegate_(nullptr),
packet_(base::MakeRefCounted<ReusableIOBuffer>(quic::kMaxPacketSize)),
write_in_progress_(false),
force_write_blocked_(false),
retry_count_(0),
weak_factory_(this) {
retry_timer_.SetTaskRunner(task_runner);
write_callback_ = base::BindRepeating(
&QuicChromiumPacketWriter::OnWriteComplete, weak_factory_.GetWeakPtr());
}
QuicChromiumPacketWriter::~QuicChromiumPacketWriter() {}
void QuicChromiumPacketWriter::set_force_write_blocked(
bool force_write_blocked) {
force_write_blocked_ = force_write_blocked;
if (!IsWriteBlocked() && delegate_ != nullptr)
delegate_->OnWriteUnblocked();
}
void QuicChromiumPacketWriter::SetPacket(const char* buffer, size_t buf_len) {
if (UNLIKELY(!packet_)) {
packet_ = base::MakeRefCounted<ReusableIOBuffer>(
std::max(buf_len, static_cast<size_t>(quic::kMaxPacketSize)));
RecordNotReusableReason(NOT_REUSABLE_NULLPTR);
}
if (UNLIKELY(packet_->capacity() < buf_len)) {
packet_ = base::MakeRefCounted<ReusableIOBuffer>(buf_len);
RecordNotReusableReason(NOT_REUSABLE_TOO_SMALL);
}
if (UNLIKELY(!packet_->HasOneRef())) {
packet_ = base::MakeRefCounted<ReusableIOBuffer>(
std::max(buf_len, static_cast<size_t>(quic::kMaxPacketSize)));
RecordNotReusableReason(NOT_REUSABLE_REF_COUNT);
}
packet_->Set(buffer, buf_len);
}
quic::WriteResult QuicChromiumPacketWriter::WritePacket(
const char* buffer,
size_t buf_len,
const quic::QuicIpAddress& self_address,
const quic::QuicSocketAddress& peer_address,
quic::PerPacketOptions* /*options*/) {
DCHECK(!IsWriteBlocked());
SetPacket(buffer, buf_len);
return WritePacketToSocketImpl();
}
void QuicChromiumPacketWriter::WritePacketToSocket(
scoped_refptr<ReusableIOBuffer> packet) {
DCHECK(!force_write_blocked_);
packet_ = std::move(packet);
quic::WriteResult result = WritePacketToSocketImpl();
if (result.error_code != ERR_IO_PENDING)
OnWriteComplete(result.error_code);
}
quic::WriteResult QuicChromiumPacketWriter::WritePacketToSocketImpl() {
base::TimeTicks now = base::TimeTicks::Now();
int rv = socket_->Write(packet_.get(), packet_->size(), write_callback_,
kTrafficAnnotation);
if (MaybeRetryAfterWriteError(rv))
return quic::WriteResult(quic::WRITE_STATUS_BLOCKED_DATA_BUFFERED,
ERR_IO_PENDING);
if (rv < 0 && rv != ERR_IO_PENDING && delegate_ != nullptr) {
// If write error, then call delegate's HandleWriteError, which
// may be able to migrate and rewrite packet on a new socket.
// HandleWriteError returns the outcome of that rewrite attempt.
rv = delegate_->HandleWriteError(rv, std::move(packet_));
DCHECK(packet_ == nullptr);
}
quic::WriteStatus status = quic::WRITE_STATUS_OK;
if (rv < 0) {
if (rv != ERR_IO_PENDING) {
status = quic::WRITE_STATUS_ERROR;
} else {
status = quic::WRITE_STATUS_BLOCKED_DATA_BUFFERED;
write_in_progress_ = true;
}
}
base::TimeDelta delta = base::TimeTicks::Now() - now;
if (status == quic::WRITE_STATUS_OK) {
UMA_HISTOGRAM_TIMES("Net.QuicSession.PacketWriteTime.Synchronous", delta);
} else if (quic::IsWriteBlockedStatus(status)) {
UMA_HISTOGRAM_TIMES("Net.QuicSession.PacketWriteTime.Asynchronous", delta);
}
return quic::WriteResult(status, rv);
}
void QuicChromiumPacketWriter::RetryPacketAfterNoBuffers() {
DCHECK_GT(retry_count_, 0);
quic::WriteResult result = WritePacketToSocketImpl();
if (result.error_code != ERR_IO_PENDING)
OnWriteComplete(result.error_code);
}
bool QuicChromiumPacketWriter::IsWriteBlocked() const {
return (force_write_blocked_ || write_in_progress_);
}
void QuicChromiumPacketWriter::SetWritable() {
write_in_progress_ = false;
}
void QuicChromiumPacketWriter::OnWriteComplete(int rv) {
DCHECK_NE(rv, ERR_IO_PENDING);
write_in_progress_ = false;
if (delegate_ == nullptr)
return;
if (rv < 0) {
if (MaybeRetryAfterWriteError(rv))
return;
// If write error, then call delegate's HandleWriteError, which
// may be able to migrate and rewrite packet on a new socket.
// HandleWriteError returns the outcome of that rewrite attempt.
rv = delegate_->HandleWriteError(rv, std::move(packet_));
DCHECK(packet_ == nullptr);
if (rv == ERR_IO_PENDING) {
// Set write blocked back as write error is encountered in this writer,
// delegate may be able to handle write error but this writer will never
// be used to write any new data.
write_in_progress_ = true;
return;
}
}
if (retry_count_ != 0) {
RecordRetryCount(retry_count_);
retry_count_ = 0;
}
if (rv < 0)
delegate_->OnWriteError(rv);
else if (!force_write_blocked_)
delegate_->OnWriteUnblocked();
}
bool QuicChromiumPacketWriter::MaybeRetryAfterWriteError(int rv) {
if (rv != ERR_NO_BUFFER_SPACE)
return false;
if (retry_count_ >= kMaxRetries) {
RecordRetryCount(retry_count_);
return false;
}
retry_timer_.Start(
FROM_HERE, base::TimeDelta::FromMilliseconds(UINT64_C(1) << retry_count_),
base::Bind(&QuicChromiumPacketWriter::RetryPacketAfterNoBuffers,
weak_factory_.GetWeakPtr()));
retry_count_++;
write_in_progress_ = true;
return true;
}
quic::QuicByteCount QuicChromiumPacketWriter::GetMaxPacketSize(
const quic::QuicSocketAddress& peer_address) const {
return quic::kMaxPacketSize;
}
bool QuicChromiumPacketWriter::SupportsReleaseTime() const {
return false;
}
bool QuicChromiumPacketWriter::IsBatchMode() const {
return false;
}
char* QuicChromiumPacketWriter::GetNextWriteLocation(
const quic::QuicIpAddress& self_address,
const quic::QuicSocketAddress& peer_address) {
return nullptr;
}
quic::WriteResult QuicChromiumPacketWriter::Flush() {
return quic::WriteResult(quic::WRITE_STATUS_OK, 0);
}
} // namespace net