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|
// 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/udp/udp_socket_libevent.h"
#include <errno.h>
#include <fcntl.h>
#include <netdb.h>
#include <net/if.h>
#include <netinet/in.h>
#include <sys/ioctl.h>
#include <sys/socket.h>
#include "base/callback.h"
#include "base/logging.h"
#include "base/message_loop/message_loop.h"
#include "base/metrics/sparse_histogram.h"
#include "base/metrics/stats_counters.h"
#include "base/posix/eintr_wrapper.h"
#include "base/rand_util.h"
#include "net/base/io_buffer.h"
#include "net/base/ip_endpoint.h"
#include "net/base/net_errors.h"
#include "net/base/net_log.h"
#include "net/base/net_util.h"
#include "net/socket/socket_descriptor.h"
#include "net/udp/udp_net_log_parameters.h"
namespace net {
namespace {
const int kBindRetries = 10;
const int kPortStart = 1024;
const int kPortEnd = 65535;
#if defined(OS_MACOSX)
// Returns IPv4 address in network order.
int GetIPv4AddressFromIndex(int socket, uint32 index, uint32* address){
if (!index) {
*address = htonl(INADDR_ANY);
return OK;
}
ifreq ifr;
ifr.ifr_addr.sa_family = AF_INET;
if (!if_indextoname(index, ifr.ifr_name))
return MapSystemError(errno);
int rv = ioctl(socket, SIOCGIFADDR, &ifr);
if (rv == -1)
return MapSystemError(errno);
*address = reinterpret_cast<sockaddr_in*>(&ifr.ifr_addr)->sin_addr.s_addr;
return OK;
}
#endif // OS_MACOSX
} // namespace
UDPSocketLibevent::UDPSocketLibevent(
DatagramSocket::BindType bind_type,
const RandIntCallback& rand_int_cb,
net::NetLog* net_log,
const net::NetLog::Source& source)
: socket_(kInvalidSocket),
addr_family_(0),
socket_options_(SOCKET_OPTION_MULTICAST_LOOP),
multicast_interface_(0),
multicast_time_to_live_(1),
bind_type_(bind_type),
rand_int_cb_(rand_int_cb),
read_watcher_(this),
write_watcher_(this),
read_buf_len_(0),
recv_from_address_(NULL),
write_buf_len_(0),
net_log_(BoundNetLog::Make(net_log, NetLog::SOURCE_UDP_SOCKET)) {
net_log_.BeginEvent(NetLog::TYPE_SOCKET_ALIVE,
source.ToEventParametersCallback());
if (bind_type == DatagramSocket::RANDOM_BIND)
DCHECK(!rand_int_cb.is_null());
}
UDPSocketLibevent::~UDPSocketLibevent() {
Close();
net_log_.EndEvent(NetLog::TYPE_SOCKET_ALIVE);
}
void UDPSocketLibevent::Close() {
DCHECK(CalledOnValidThread());
if (!is_connected())
return;
// Zero out any pending read/write callback state.
read_buf_ = NULL;
read_buf_len_ = 0;
read_callback_.Reset();
recv_from_address_ = NULL;
write_buf_ = NULL;
write_buf_len_ = 0;
write_callback_.Reset();
send_to_address_.reset();
bool ok = read_socket_watcher_.StopWatchingFileDescriptor();
DCHECK(ok);
ok = write_socket_watcher_.StopWatchingFileDescriptor();
DCHECK(ok);
if (IGNORE_EINTR(close(socket_)) < 0)
PLOG(ERROR) << "close";
socket_ = kInvalidSocket;
addr_family_ = 0;
}
int UDPSocketLibevent::GetPeerAddress(IPEndPoint* address) const {
DCHECK(CalledOnValidThread());
DCHECK(address);
if (!is_connected())
return ERR_SOCKET_NOT_CONNECTED;
if (!remote_address_.get()) {
SockaddrStorage storage;
if (getpeername(socket_, storage.addr, &storage.addr_len))
return MapSystemError(errno);
scoped_ptr<IPEndPoint> address(new IPEndPoint());
if (!address->FromSockAddr(storage.addr, storage.addr_len))
return ERR_ADDRESS_INVALID;
remote_address_.reset(address.release());
}
*address = *remote_address_;
return OK;
}
int UDPSocketLibevent::GetLocalAddress(IPEndPoint* address) const {
DCHECK(CalledOnValidThread());
DCHECK(address);
if (!is_connected())
return ERR_SOCKET_NOT_CONNECTED;
if (!local_address_.get()) {
SockaddrStorage storage;
if (getsockname(socket_, storage.addr, &storage.addr_len))
return MapSystemError(errno);
scoped_ptr<IPEndPoint> address(new IPEndPoint());
if (!address->FromSockAddr(storage.addr, storage.addr_len))
return ERR_ADDRESS_INVALID;
local_address_.reset(address.release());
net_log_.AddEvent(NetLog::TYPE_UDP_LOCAL_ADDRESS,
CreateNetLogUDPConnectCallback(local_address_.get()));
}
*address = *local_address_;
return OK;
}
int UDPSocketLibevent::Read(IOBuffer* buf,
int buf_len,
const CompletionCallback& callback) {
return RecvFrom(buf, buf_len, NULL, callback);
}
int UDPSocketLibevent::RecvFrom(IOBuffer* buf,
int buf_len,
IPEndPoint* address,
const CompletionCallback& callback) {
DCHECK(CalledOnValidThread());
DCHECK_NE(kInvalidSocket, socket_);
DCHECK(read_callback_.is_null());
DCHECK(!recv_from_address_);
DCHECK(!callback.is_null()); // Synchronous operation not supported
DCHECK_GT(buf_len, 0);
int nread = InternalRecvFrom(buf, buf_len, address);
if (nread != ERR_IO_PENDING)
return nread;
if (!base::MessageLoopForIO::current()->WatchFileDescriptor(
socket_, true, base::MessageLoopForIO::WATCH_READ,
&read_socket_watcher_, &read_watcher_)) {
PLOG(ERROR) << "WatchFileDescriptor failed on read";
int result = MapSystemError(errno);
LogRead(result, NULL, 0, NULL);
return result;
}
read_buf_ = buf;
read_buf_len_ = buf_len;
recv_from_address_ = address;
read_callback_ = callback;
return ERR_IO_PENDING;
}
int UDPSocketLibevent::Write(IOBuffer* buf,
int buf_len,
const CompletionCallback& callback) {
return SendToOrWrite(buf, buf_len, NULL, callback);
}
int UDPSocketLibevent::SendTo(IOBuffer* buf,
int buf_len,
const IPEndPoint& address,
const CompletionCallback& callback) {
return SendToOrWrite(buf, buf_len, &address, callback);
}
int UDPSocketLibevent::SendToOrWrite(IOBuffer* buf,
int buf_len,
const IPEndPoint* address,
const CompletionCallback& callback) {
DCHECK(CalledOnValidThread());
DCHECK_NE(kInvalidSocket, socket_);
DCHECK(write_callback_.is_null());
DCHECK(!callback.is_null()); // Synchronous operation not supported
DCHECK_GT(buf_len, 0);
int result = InternalSendTo(buf, buf_len, address);
if (result != ERR_IO_PENDING)
return result;
if (!base::MessageLoopForIO::current()->WatchFileDescriptor(
socket_, true, base::MessageLoopForIO::WATCH_WRITE,
&write_socket_watcher_, &write_watcher_)) {
DVLOG(1) << "WatchFileDescriptor failed on write, errno " << errno;
int result = MapSystemError(errno);
LogWrite(result, NULL, NULL);
return result;
}
write_buf_ = buf;
write_buf_len_ = buf_len;
DCHECK(!send_to_address_.get());
if (address) {
send_to_address_.reset(new IPEndPoint(*address));
}
write_callback_ = callback;
return ERR_IO_PENDING;
}
int UDPSocketLibevent::Connect(const IPEndPoint& address) {
net_log_.BeginEvent(NetLog::TYPE_UDP_CONNECT,
CreateNetLogUDPConnectCallback(&address));
int rv = InternalConnect(address);
if (rv != OK)
Close();
net_log_.EndEventWithNetErrorCode(NetLog::TYPE_UDP_CONNECT, rv);
return rv;
}
int UDPSocketLibevent::InternalConnect(const IPEndPoint& address) {
DCHECK(CalledOnValidThread());
DCHECK(!is_connected());
DCHECK(!remote_address_.get());
int addr_family = address.GetSockAddrFamily();
int rv = CreateSocket(addr_family);
if (rv < 0)
return rv;
if (bind_type_ == DatagramSocket::RANDOM_BIND) {
// Construct IPAddressNumber of appropriate size (IPv4 or IPv6) of 0s,
// representing INADDR_ANY or in6addr_any.
size_t addr_size =
addr_family == AF_INET ? kIPv4AddressSize : kIPv6AddressSize;
IPAddressNumber addr_any(addr_size);
rv = RandomBind(addr_any);
}
// else connect() does the DatagramSocket::DEFAULT_BIND
if (rv < 0) {
UMA_HISTOGRAM_SPARSE_SLOWLY("Net.UdpSocketRandomBindErrorCode", -rv);
Close();
return rv;
}
SockaddrStorage storage;
if (!address.ToSockAddr(storage.addr, &storage.addr_len)) {
Close();
return ERR_ADDRESS_INVALID;
}
rv = HANDLE_EINTR(connect(socket_, storage.addr, storage.addr_len));
if (rv < 0) {
// Close() may change the current errno. Map errno beforehand.
int result = MapSystemError(errno);
Close();
return result;
}
remote_address_.reset(new IPEndPoint(address));
return rv;
}
int UDPSocketLibevent::Bind(const IPEndPoint& address) {
DCHECK(CalledOnValidThread());
DCHECK(!is_connected());
int rv = CreateSocket(address.GetSockAddrFamily());
if (rv < 0)
return rv;
rv = SetSocketOptions();
if (rv < 0) {
Close();
return rv;
}
rv = DoBind(address);
if (rv < 0) {
Close();
return rv;
}
local_address_.reset();
return rv;
}
int UDPSocketLibevent::SetReceiveBufferSize(int32 size) {
DCHECK(CalledOnValidThread());
int rv = setsockopt(socket_, SOL_SOCKET, SO_RCVBUF,
reinterpret_cast<const char*>(&size), sizeof(size));
int last_error = errno;
DCHECK(!rv) << "Could not set socket receive buffer size: " << last_error;
return rv == 0 ? OK : MapSystemError(last_error);
}
int UDPSocketLibevent::SetSendBufferSize(int32 size) {
DCHECK(CalledOnValidThread());
int rv = setsockopt(socket_, SOL_SOCKET, SO_SNDBUF,
reinterpret_cast<const char*>(&size), sizeof(size));
int last_error = errno;
DCHECK(!rv) << "Could not set socket send buffer size: " << last_error;
return rv == 0 ? OK : MapSystemError(last_error);
}
void UDPSocketLibevent::AllowAddressReuse() {
DCHECK(CalledOnValidThread());
DCHECK(!is_connected());
socket_options_ |= SOCKET_OPTION_REUSE_ADDRESS;
}
void UDPSocketLibevent::AllowBroadcast() {
DCHECK(CalledOnValidThread());
DCHECK(!is_connected());
socket_options_ |= SOCKET_OPTION_BROADCAST;
}
void UDPSocketLibevent::ReadWatcher::OnFileCanReadWithoutBlocking(int) {
if (!socket_->read_callback_.is_null())
socket_->DidCompleteRead();
}
void UDPSocketLibevent::WriteWatcher::OnFileCanWriteWithoutBlocking(int) {
if (!socket_->write_callback_.is_null())
socket_->DidCompleteWrite();
}
void UDPSocketLibevent::DoReadCallback(int rv) {
DCHECK_NE(rv, ERR_IO_PENDING);
DCHECK(!read_callback_.is_null());
// since Run may result in Read being called, clear read_callback_ up front.
CompletionCallback c = read_callback_;
read_callback_.Reset();
c.Run(rv);
}
void UDPSocketLibevent::DoWriteCallback(int rv) {
DCHECK_NE(rv, ERR_IO_PENDING);
DCHECK(!write_callback_.is_null());
// since Run may result in Write being called, clear write_callback_ up front.
CompletionCallback c = write_callback_;
write_callback_.Reset();
c.Run(rv);
}
void UDPSocketLibevent::DidCompleteRead() {
int result =
InternalRecvFrom(read_buf_.get(), read_buf_len_, recv_from_address_);
if (result != ERR_IO_PENDING) {
read_buf_ = NULL;
read_buf_len_ = 0;
recv_from_address_ = NULL;
bool ok = read_socket_watcher_.StopWatchingFileDescriptor();
DCHECK(ok);
DoReadCallback(result);
}
}
void UDPSocketLibevent::LogRead(int result,
const char* bytes,
socklen_t addr_len,
const sockaddr* addr) const {
if (result < 0) {
net_log_.AddEventWithNetErrorCode(NetLog::TYPE_UDP_RECEIVE_ERROR, result);
return;
}
if (net_log_.IsLogging()) {
DCHECK(addr_len > 0);
DCHECK(addr);
IPEndPoint address;
bool is_address_valid = address.FromSockAddr(addr, addr_len);
net_log_.AddEvent(
NetLog::TYPE_UDP_BYTES_RECEIVED,
CreateNetLogUDPDataTranferCallback(
result, bytes,
is_address_valid ? &address : NULL));
}
base::StatsCounter read_bytes("udp.read_bytes");
read_bytes.Add(result);
}
int UDPSocketLibevent::CreateSocket(int addr_family) {
addr_family_ = addr_family;
socket_ = CreatePlatformSocket(addr_family_, SOCK_DGRAM, 0);
if (socket_ == kInvalidSocket)
return MapSystemError(errno);
if (SetNonBlocking(socket_)) {
const int err = MapSystemError(errno);
Close();
return err;
}
return OK;
}
void UDPSocketLibevent::DidCompleteWrite() {
int result =
InternalSendTo(write_buf_.get(), write_buf_len_, send_to_address_.get());
if (result != ERR_IO_PENDING) {
write_buf_ = NULL;
write_buf_len_ = 0;
send_to_address_.reset();
write_socket_watcher_.StopWatchingFileDescriptor();
DoWriteCallback(result);
}
}
void UDPSocketLibevent::LogWrite(int result,
const char* bytes,
const IPEndPoint* address) const {
if (result < 0) {
net_log_.AddEventWithNetErrorCode(NetLog::TYPE_UDP_SEND_ERROR, result);
return;
}
if (net_log_.IsLogging()) {
net_log_.AddEvent(
NetLog::TYPE_UDP_BYTES_SENT,
CreateNetLogUDPDataTranferCallback(result, bytes, address));
}
base::StatsCounter write_bytes("udp.write_bytes");
write_bytes.Add(result);
}
int UDPSocketLibevent::InternalRecvFrom(IOBuffer* buf, int buf_len,
IPEndPoint* address) {
int bytes_transferred;
int flags = 0;
SockaddrStorage storage;
bytes_transferred =
HANDLE_EINTR(recvfrom(socket_,
buf->data(),
buf_len,
flags,
storage.addr,
&storage.addr_len));
int result;
if (bytes_transferred >= 0) {
result = bytes_transferred;
if (address && !address->FromSockAddr(storage.addr, storage.addr_len))
result = ERR_ADDRESS_INVALID;
} else {
result = MapSystemError(errno);
}
if (result != ERR_IO_PENDING)
LogRead(result, buf->data(), storage.addr_len, storage.addr);
return result;
}
int UDPSocketLibevent::InternalSendTo(IOBuffer* buf, int buf_len,
const IPEndPoint* address) {
SockaddrStorage storage;
struct sockaddr* addr = storage.addr;
if (!address) {
addr = NULL;
storage.addr_len = 0;
} else {
if (!address->ToSockAddr(storage.addr, &storage.addr_len)) {
int result = ERR_ADDRESS_INVALID;
LogWrite(result, NULL, NULL);
return result;
}
}
int result = HANDLE_EINTR(sendto(socket_,
buf->data(),
buf_len,
0,
addr,
storage.addr_len));
if (result < 0)
result = MapSystemError(errno);
if (result != ERR_IO_PENDING)
LogWrite(result, buf->data(), address);
return result;
}
int UDPSocketLibevent::SetSocketOptions() {
int true_value = 1;
if (socket_options_ & SOCKET_OPTION_REUSE_ADDRESS) {
int rv = setsockopt(socket_, SOL_SOCKET, SO_REUSEADDR, &true_value,
sizeof(true_value));
if (rv < 0)
return MapSystemError(errno);
}
if (socket_options_ & SOCKET_OPTION_BROADCAST) {
int rv;
#if defined(OS_MACOSX)
// SO_REUSEPORT on OSX permits multiple processes to each receive
// UDP multicast or broadcast datagrams destined for the bound
// port.
rv = setsockopt(socket_, SOL_SOCKET, SO_REUSEPORT, &true_value,
sizeof(true_value));
#else
rv = setsockopt(socket_, SOL_SOCKET, SO_BROADCAST, &true_value,
sizeof(true_value));
#endif // defined(OS_MACOSX)
if (rv < 0)
return MapSystemError(errno);
}
if (!(socket_options_ & SOCKET_OPTION_MULTICAST_LOOP)) {
int rv;
if (addr_family_ == AF_INET) {
u_char loop = 0;
rv = setsockopt(socket_, IPPROTO_IP, IP_MULTICAST_LOOP,
&loop, sizeof(loop));
} else {
u_int loop = 0;
rv = setsockopt(socket_, IPPROTO_IPV6, IPV6_MULTICAST_LOOP,
&loop, sizeof(loop));
}
if (rv < 0)
return MapSystemError(errno);
}
if (multicast_time_to_live_ != IP_DEFAULT_MULTICAST_TTL) {
int rv;
if (addr_family_ == AF_INET) {
u_char ttl = multicast_time_to_live_;
rv = setsockopt(socket_, IPPROTO_IP, IP_MULTICAST_TTL,
&ttl, sizeof(ttl));
} else {
// Signed integer. -1 to use route default.
int ttl = multicast_time_to_live_;
rv = setsockopt(socket_, IPPROTO_IPV6, IPV6_MULTICAST_HOPS,
&ttl, sizeof(ttl));
}
if (rv < 0)
return MapSystemError(errno);
}
if (multicast_interface_ != 0) {
switch (addr_family_) {
case AF_INET: {
#if !defined(OS_MACOSX)
ip_mreqn mreq;
mreq.imr_ifindex = multicast_interface_;
mreq.imr_address.s_addr = htonl(INADDR_ANY);
#else
ip_mreq mreq;
int error = GetIPv4AddressFromIndex(socket_, multicast_interface_,
&mreq.imr_interface.s_addr);
if (error != OK)
return error;
#endif
int rv = setsockopt(socket_, IPPROTO_IP, IP_MULTICAST_IF,
reinterpret_cast<const char*>(&mreq), sizeof(mreq));
if (rv)
return MapSystemError(errno);
break;
}
case AF_INET6: {
uint32 interface_index = multicast_interface_;
int rv = setsockopt(socket_, IPPROTO_IPV6, IPV6_MULTICAST_IF,
reinterpret_cast<const char*>(&interface_index),
sizeof(interface_index));
if (rv)
return MapSystemError(errno);
break;
}
default:
NOTREACHED() << "Invalid address family";
return ERR_ADDRESS_INVALID;
}
}
return OK;
}
int UDPSocketLibevent::DoBind(const IPEndPoint& address) {
SockaddrStorage storage;
if (!address.ToSockAddr(storage.addr, &storage.addr_len))
return ERR_ADDRESS_INVALID;
int rv = bind(socket_, storage.addr, storage.addr_len);
if (rv == 0)
return OK;
int last_error = errno;
UMA_HISTOGRAM_SPARSE_SLOWLY("Net.UdpSocketBindErrorFromPosix", last_error);
#if defined(OS_CHROMEOS)
if (last_error == EINVAL)
return ERR_ADDRESS_IN_USE;
#elif defined(OS_MACOSX)
if (last_error == EADDRNOTAVAIL)
return ERR_ADDRESS_IN_USE;
#endif
return MapSystemError(last_error);
}
int UDPSocketLibevent::RandomBind(const IPAddressNumber& address) {
DCHECK(bind_type_ == DatagramSocket::RANDOM_BIND && !rand_int_cb_.is_null());
for (int i = 0; i < kBindRetries; ++i) {
int rv = DoBind(IPEndPoint(address,
rand_int_cb_.Run(kPortStart, kPortEnd)));
if (rv == OK || rv != ERR_ADDRESS_IN_USE)
return rv;
}
return DoBind(IPEndPoint(address, 0));
}
int UDPSocketLibevent::JoinGroup(const IPAddressNumber& group_address) const {
DCHECK(CalledOnValidThread());
if (!is_connected())
return ERR_SOCKET_NOT_CONNECTED;
switch (group_address.size()) {
case kIPv4AddressSize: {
if (addr_family_ != AF_INET)
return ERR_ADDRESS_INVALID;
#if !defined(OS_MACOSX)
ip_mreqn mreq;
mreq.imr_ifindex = multicast_interface_;
mreq.imr_address.s_addr = htonl(INADDR_ANY);
#else
ip_mreq mreq;
int error = GetIPv4AddressFromIndex(socket_, multicast_interface_,
&mreq.imr_interface.s_addr);
if (error != OK)
return error;
#endif
memcpy(&mreq.imr_multiaddr, &group_address[0], kIPv4AddressSize);
int rv = setsockopt(socket_, IPPROTO_IP, IP_ADD_MEMBERSHIP,
&mreq, sizeof(mreq));
if (rv < 0)
return MapSystemError(errno);
return OK;
}
case kIPv6AddressSize: {
if (addr_family_ != AF_INET6)
return ERR_ADDRESS_INVALID;
ipv6_mreq mreq;
mreq.ipv6mr_interface = multicast_interface_;
memcpy(&mreq.ipv6mr_multiaddr, &group_address[0], kIPv6AddressSize);
int rv = setsockopt(socket_, IPPROTO_IPV6, IPV6_JOIN_GROUP,
&mreq, sizeof(mreq));
if (rv < 0)
return MapSystemError(errno);
return OK;
}
default:
NOTREACHED() << "Invalid address family";
return ERR_ADDRESS_INVALID;
}
}
int UDPSocketLibevent::LeaveGroup(const IPAddressNumber& group_address) const {
DCHECK(CalledOnValidThread());
if (!is_connected())
return ERR_SOCKET_NOT_CONNECTED;
switch (group_address.size()) {
case kIPv4AddressSize: {
if (addr_family_ != AF_INET)
return ERR_ADDRESS_INVALID;
ip_mreq mreq;
mreq.imr_interface.s_addr = INADDR_ANY;
memcpy(&mreq.imr_multiaddr, &group_address[0], kIPv4AddressSize);
int rv = setsockopt(socket_, IPPROTO_IP, IP_DROP_MEMBERSHIP,
&mreq, sizeof(mreq));
if (rv < 0)
return MapSystemError(errno);
return OK;
}
case kIPv6AddressSize: {
if (addr_family_ != AF_INET6)
return ERR_ADDRESS_INVALID;
ipv6_mreq mreq;
mreq.ipv6mr_interface = 0; // 0 indicates default multicast interface.
memcpy(&mreq.ipv6mr_multiaddr, &group_address[0], kIPv6AddressSize);
int rv = setsockopt(socket_, IPPROTO_IPV6, IPV6_LEAVE_GROUP,
&mreq, sizeof(mreq));
if (rv < 0)
return MapSystemError(errno);
return OK;
}
default:
NOTREACHED() << "Invalid address family";
return ERR_ADDRESS_INVALID;
}
}
int UDPSocketLibevent::SetMulticastInterface(uint32 interface_index) {
DCHECK(CalledOnValidThread());
if (is_connected())
return ERR_SOCKET_IS_CONNECTED;
multicast_interface_ = interface_index;
return OK;
}
int UDPSocketLibevent::SetMulticastTimeToLive(int time_to_live) {
DCHECK(CalledOnValidThread());
if (is_connected())
return ERR_SOCKET_IS_CONNECTED;
if (time_to_live < 0 || time_to_live > 255)
return ERR_INVALID_ARGUMENT;
multicast_time_to_live_ = time_to_live;
return OK;
}
int UDPSocketLibevent::SetMulticastLoopbackMode(bool loopback) {
DCHECK(CalledOnValidThread());
if (is_connected())
return ERR_SOCKET_IS_CONNECTED;
if (loopback)
socket_options_ |= SOCKET_OPTION_MULTICAST_LOOP;
else
socket_options_ &= ~SOCKET_OPTION_MULTICAST_LOOP;
return OK;
}
int UDPSocketLibevent::SetDiffServCodePoint(DiffServCodePoint dscp) {
if (dscp == DSCP_NO_CHANGE) {
return OK;
}
int rv;
int dscp_and_ecn = dscp << 2;
if (addr_family_ == AF_INET) {
rv = setsockopt(socket_, IPPROTO_IP, IP_TOS,
&dscp_and_ecn, sizeof(dscp_and_ecn));
} else {
rv = setsockopt(socket_, IPPROTO_IPV6, IPV6_TCLASS,
&dscp_and_ecn, sizeof(dscp_and_ecn));
}
if (rv < 0)
return MapSystemError(errno);
return OK;
}
void UDPSocketLibevent::DetachFromThread() {
base::NonThreadSafe::DetachFromThread();
}
} // namespace net
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