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// Copyright 2014 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 "remoting/protocol/chromium_socket_factory.h"
#include <stddef.h>
#include "base/bind.h"
#include "base/logging.h"
#include "base/macros.h"
#include "base/memory/scoped_ptr.h"
#include "base/time/time.h"
#include "jingle/glue/utils.h"
#include "net/base/io_buffer.h"
#include "net/base/ip_endpoint.h"
#include "net/base/net_errors.h"
#include "net/udp/udp_server_socket.h"
#include "remoting/protocol/socket_util.h"
#include "third_party/webrtc/base/asyncpacketsocket.h"
#include "third_party/webrtc/base/nethelpers.h"
#include "third_party/webrtc/media/base/rtputils.h"
namespace remoting {
namespace protocol {
namespace {
// Size of the buffer to allocate for RecvFrom().
const int kReceiveBufferSize = 65536;
// Maximum amount of data in the send buffers. This is necessary to
// prevent out-of-memory crashes if the caller sends data faster than
// Pepper's UDP API can handle it. This maximum should never be
// reached under normal conditions.
const int kMaxSendBufferSize = 256 * 1024;
class UdpPacketSocket : public rtc::AsyncPacketSocket {
public:
UdpPacketSocket();
~UdpPacketSocket() override;
bool Init(const rtc::SocketAddress& local_address,
uint16_t min_port,
uint16_t max_port);
// rtc::AsyncPacketSocket interface.
rtc::SocketAddress GetLocalAddress() const override;
rtc::SocketAddress GetRemoteAddress() const override;
int Send(const void* data,
size_t data_size,
const rtc::PacketOptions& options) override;
int SendTo(const void* data,
size_t data_size,
const rtc::SocketAddress& address,
const rtc::PacketOptions& options) override;
int Close() override;
State GetState() const override;
int GetOption(rtc::Socket::Option option, int* value) override;
int SetOption(rtc::Socket::Option option, int value) override;
int GetError() const override;
void SetError(int error) override;
private:
struct PendingPacket {
PendingPacket(const void* buffer,
int buffer_size,
const net::IPEndPoint& address);
scoped_refptr<net::IOBufferWithSize> data;
net::IPEndPoint address;
bool retried;
};
void OnBindCompleted(int error);
void DoSend();
void OnSendCompleted(int result);
void DoRead();
void OnReadCompleted(int result);
void HandleReadResult(int result);
scoped_ptr<net::UDPServerSocket> socket_;
State state_;
int error_;
rtc::SocketAddress local_address_;
// Receive buffer and address are populated by asynchronous reads.
scoped_refptr<net::IOBuffer> receive_buffer_;
net::IPEndPoint receive_address_;
bool send_pending_;
std::list<PendingPacket> send_queue_;
int send_queue_size_;
DISALLOW_COPY_AND_ASSIGN(UdpPacketSocket);
};
UdpPacketSocket::PendingPacket::PendingPacket(
const void* buffer,
int buffer_size,
const net::IPEndPoint& address)
: data(new net::IOBufferWithSize(buffer_size)),
address(address),
retried(false) {
memcpy(data->data(), buffer, buffer_size);
}
UdpPacketSocket::UdpPacketSocket()
: state_(STATE_CLOSED),
error_(0),
send_pending_(false),
send_queue_size_(0) {
}
UdpPacketSocket::~UdpPacketSocket() {
Close();
}
bool UdpPacketSocket::Init(const rtc::SocketAddress& local_address,
uint16_t min_port,
uint16_t max_port) {
net::IPEndPoint local_endpoint;
if (!jingle_glue::SocketAddressToIPEndPoint(
local_address, &local_endpoint)) {
return false;
}
for (uint32_t port = min_port; port <= max_port; ++port) {
socket_.reset(new net::UDPServerSocket(nullptr, net::NetLog::Source()));
int result = socket_->Listen(
net::IPEndPoint(local_endpoint.address(), static_cast<uint16_t>(port)));
if (result == net::OK) {
break;
} else {
socket_.reset();
}
}
if (!socket_.get()) {
// Failed to bind the socket.
return false;
}
if (socket_->GetLocalAddress(&local_endpoint) != net::OK ||
!jingle_glue::IPEndPointToSocketAddress(local_endpoint,
&local_address_)) {
return false;
}
state_ = STATE_BOUND;
DoRead();
return true;
}
rtc::SocketAddress UdpPacketSocket::GetLocalAddress() const {
DCHECK_EQ(state_, STATE_BOUND);
return local_address_;
}
rtc::SocketAddress UdpPacketSocket::GetRemoteAddress() const {
// UDP sockets are not connected - this method should never be called.
NOTREACHED();
return rtc::SocketAddress();
}
int UdpPacketSocket::Send(const void* data, size_t data_size,
const rtc::PacketOptions& options) {
// UDP sockets are not connected - this method should never be called.
NOTREACHED();
return EWOULDBLOCK;
}
int UdpPacketSocket::SendTo(const void* data, size_t data_size,
const rtc::SocketAddress& address,
const rtc::PacketOptions& options) {
if (state_ != STATE_BOUND) {
NOTREACHED();
return EINVAL;
}
if (error_ != 0) {
return error_;
}
net::IPEndPoint endpoint;
if (!jingle_glue::SocketAddressToIPEndPoint(address, &endpoint)) {
return EINVAL;
}
if (send_queue_size_ >= kMaxSendBufferSize) {
return EWOULDBLOCK;
}
PendingPacket packet(data, data_size, endpoint);
cricket::ApplyPacketOptions(
reinterpret_cast<uint8_t*>(packet.data->data()), data_size,
options.packet_time_params,
(base::TimeTicks::Now() - base::TimeTicks()).InMilliseconds());
send_queue_.push_back(packet);
send_queue_size_ += data_size;
DoSend();
return data_size;
}
int UdpPacketSocket::Close() {
state_ = STATE_CLOSED;
socket_.reset();
return 0;
}
rtc::AsyncPacketSocket::State UdpPacketSocket::GetState() const {
return state_;
}
int UdpPacketSocket::GetOption(rtc::Socket::Option option, int* value) {
// This method is never called by libjingle.
NOTIMPLEMENTED();
return -1;
}
int UdpPacketSocket::SetOption(rtc::Socket::Option option, int value) {
if (state_ != STATE_BOUND) {
NOTREACHED();
return EINVAL;
}
switch (option) {
case rtc::Socket::OPT_DONTFRAGMENT:
NOTIMPLEMENTED();
return -1;
case rtc::Socket::OPT_RCVBUF: {
int net_error = socket_->SetReceiveBufferSize(value);
return (net_error == net::OK) ? 0 : -1;
}
case rtc::Socket::OPT_SNDBUF: {
int net_error = socket_->SetSendBufferSize(value);
return (net_error == net::OK) ? 0 : -1;
}
case rtc::Socket::OPT_NODELAY:
// OPT_NODELAY is only for TCP sockets.
NOTREACHED();
return -1;
case rtc::Socket::OPT_IPV6_V6ONLY:
NOTIMPLEMENTED();
return -1;
case rtc::Socket::OPT_DSCP:
NOTIMPLEMENTED();
return -1;
case rtc::Socket::OPT_RTP_SENDTIME_EXTN_ID:
NOTIMPLEMENTED();
return -1;
}
NOTREACHED();
return -1;
}
int UdpPacketSocket::GetError() const {
return error_;
}
void UdpPacketSocket::SetError(int error) {
error_ = error;
}
void UdpPacketSocket::DoSend() {
if (send_pending_ || send_queue_.empty())
return;
PendingPacket& packet = send_queue_.front();
int result = socket_->SendTo(
packet.data.get(),
packet.data->size(),
packet.address,
base::Bind(&UdpPacketSocket::OnSendCompleted, base::Unretained(this)));
if (result == net::ERR_IO_PENDING) {
send_pending_ = true;
} else {
OnSendCompleted(result);
}
}
void UdpPacketSocket::OnSendCompleted(int result) {
send_pending_ = false;
if (result < 0) {
SocketErrorAction action = GetSocketErrorAction(result);
switch (action) {
case SOCKET_ERROR_ACTION_FAIL:
LOG(ERROR) << "Send failed on a UDP socket: " << result;
error_ = EINVAL;
return;
case SOCKET_ERROR_ACTION_RETRY:
// Retry resending only once.
if (!send_queue_.front().retried) {
send_queue_.front().retried = true;
DoSend();
return;
}
break;
case SOCKET_ERROR_ACTION_IGNORE:
break;
}
}
// Don't need to worry about partial sends because this is a datagram
// socket.
send_queue_size_ -= send_queue_.front().data->size();
send_queue_.pop_front();
DoSend();
}
void UdpPacketSocket::DoRead() {
int result = 0;
while (result >= 0) {
receive_buffer_ = new net::IOBuffer(kReceiveBufferSize);
result = socket_->RecvFrom(
receive_buffer_.get(),
kReceiveBufferSize,
&receive_address_,
base::Bind(&UdpPacketSocket::OnReadCompleted, base::Unretained(this)));
HandleReadResult(result);
}
}
void UdpPacketSocket::OnReadCompleted(int result) {
HandleReadResult(result);
if (result >= 0) {
DoRead();
}
}
void UdpPacketSocket::HandleReadResult(int result) {
if (result == net::ERR_IO_PENDING) {
return;
}
if (result > 0) {
rtc::SocketAddress address;
if (!jingle_glue::IPEndPointToSocketAddress(receive_address_, &address)) {
NOTREACHED();
LOG(ERROR) << "Failed to convert address received from RecvFrom().";
return;
}
SignalReadPacket(this, receive_buffer_->data(), result, address,
rtc::CreatePacketTime(0));
} else {
LOG(ERROR) << "Received error when reading from UDP socket: " << result;
}
}
} // namespace
ChromiumPacketSocketFactory::ChromiumPacketSocketFactory() {
}
ChromiumPacketSocketFactory::~ChromiumPacketSocketFactory() {
}
rtc::AsyncPacketSocket* ChromiumPacketSocketFactory::CreateUdpSocket(
const rtc::SocketAddress& local_address,
uint16_t min_port,
uint16_t max_port) {
scoped_ptr<UdpPacketSocket> result(new UdpPacketSocket());
if (!result->Init(local_address, min_port, max_port))
return nullptr;
return result.release();
}
rtc::AsyncPacketSocket* ChromiumPacketSocketFactory::CreateServerTcpSocket(
const rtc::SocketAddress& local_address,
uint16_t min_port,
uint16_t max_port,
int opts) {
// We don't use TCP sockets for remoting connections.
NOTIMPLEMENTED();
return nullptr;
}
rtc::AsyncPacketSocket*
ChromiumPacketSocketFactory::CreateClientTcpSocket(
const rtc::SocketAddress& local_address,
const rtc::SocketAddress& remote_address,
const rtc::ProxyInfo& proxy_info,
const std::string& user_agent,
int opts) {
// We don't use TCP sockets for remoting connections.
NOTREACHED();
return nullptr;
}
rtc::AsyncResolverInterface*
ChromiumPacketSocketFactory::CreateAsyncResolver() {
return new rtc::AsyncResolver();
}
} // namespace protocol
} // namespace remoting
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