net/socket/udp_socket_posix.h - cobalt - Git at Google

 // 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.

 #ifndef NET_SOCKET_UDP_SOCKET_POSIX_H_
 #define NET_SOCKET_UDP_SOCKET_POSIX_H_

 #include <sys/socket.h>
 #include <sys/types.h>

 #include <memory>

 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/message_loop/message_pump_for_io.h"
 #include "base/threading/thread_checker.h"
 #include "base/timer/timer.h"
 #include "build/build_config.h"
 #include "net/base/address_family.h"
 #include "net/base/completion_once_callback.h"
 #include "net/base/datagram_buffer.h"
 #include "net/base/io_buffer.h"
 #include "net/base/ip_endpoint.h"
 #include "net/base/net_export.h"
 #include "net/base/network_change_notifier.h"
 #include "net/log/net_log_with_source.h"
 #include "net/socket/datagram_socket.h"
 #include "net/socket/diff_serv_code_point.h"
 #include "net/socket/socket_descriptor.h"
 #include "net/socket/socket_tag.h"
 #include "net/traffic_annotation/network_traffic_annotation.h"
 #include "starboard/types.h"

 #if defined(__ANDROID__) && defined(__aarch64__)
 #define HAVE_SENDMMSG 1
 #elif defined(OS_LINUX)
 #define HAVE_SENDMMSG 1
 #else
 #define HAVE_SENDMMSG 0
 #endif

 namespace net {

 class IPAddress;
 class NetLog;
 struct NetLogSource;
 class SocketTag;

 // Sendresult is inspired by sendmmsg, but unlike sendmmsg it is not
 // convenient to require that a positive |write_count| and a negative
 // error code are mutually exclusive.
 struct NET_EXPORT SendResult {
   explicit SendResult();
   ~SendResult();
   SendResult(int rv, int write_count, DatagramBuffers buffers);
   SendResult(SendResult& other) = delete;
   SendResult& operator=(SendResult& other) = delete;
   SendResult(SendResult&& other);
   SendResult& operator=(SendResult&& other) = default;
   int rv;
   // number of successful writes.
   int write_count;
   DatagramBuffers buffers;
 };

 // Don't delay writes more than this.
 const base::TimeDelta kWriteAsyncMsThreshold =
     base::TimeDelta::FromMilliseconds(1);
 // Prefer local if number of writes is not more than this.
 const int kWriteAsyncMinBuffersThreshold = 2;
 // Don't allow more than this many outstanding async writes.
 const int kWriteAsyncMaxBuffersThreshold = 16;
 // PostTask immediately when unwritten buffers reaches this.
 const int kWriteAsyncPostBuffersThreshold = kWriteAsyncMaxBuffersThreshold / 2;
 // Don't unblock writer unless pending async writes are less than this.
 const int kWriteAsyncCallbackBuffersThreshold = kWriteAsyncMaxBuffersThreshold;

 // To allow mock |Send|/|Sendmsg| in testing.  This has to be
 // reference counted thread safe because |SendBuffers| and
 // |SendmmsgBuffers| may be invoked in another thread via PostTask*.
 class NET_EXPORT UDPSocketPosixSender
     : public base::RefCountedThreadSafe<UDPSocketPosixSender> {
  public:
   explicit UDPSocketPosixSender();

   SendResult SendBuffers(int fd, DatagramBuffers buffers);

   void SetSendmmsgEnabled(bool enabled) {
 #if HAVE_SENDMMSG
     sendmmsg_enabled_ = enabled;
 #endif
   }

  protected:
   friend class base::RefCountedThreadSafe<UDPSocketPosixSender>;

   virtual ~UDPSocketPosixSender();
   virtual ssize_t Send(int sockfd,
                        const void* buf,
                        size_t len,
                        int flags) const;
 #if HAVE_SENDMMSG
   virtual int Sendmmsg(int sockfd,
                        struct mmsghdr* msgvec,
                        unsigned int vlen,
                        unsigned int flags) const;
 #endif

   SendResult InternalSendBuffers(int fd, DatagramBuffers buffers) const;
 #if HAVE_SENDMMSG
   SendResult InternalSendmmsgBuffers(int fd, DatagramBuffers buffers) const;
 #endif

  private:
   UDPSocketPosixSender(const UDPSocketPosixSender&) = delete;
   UDPSocketPosixSender& operator=(const UDPSocketPosixSender&) = delete;
   bool sendmmsg_enabled_;
 };

 class NET_EXPORT UDPSocketPosix {
  public:
   // Performance helper for NetworkActivityMonitor, it batches
   // throughput samples, subject to a byte limit threshold (64 KB) or
   // timer (100 ms), whichever comes first.  The batching is subject
   // to a minimum number of samples (2) required by NQE to update its
   // throughput estimate.
   class ActivityMonitor {
    public:
     ActivityMonitor() : bytes_(0), increments_(0) {}
     virtual ~ActivityMonitor() {}
     // Provided by sent/received subclass.
     // Update throughput, but batch to limit overhead of NetworkActivityMonitor.
     void Increment(uint32_t bytes);
     // For flushing cached values.
     void OnClose();

    private:
     virtual void NetworkActivityMonitorIncrement(uint32_t bytes) = 0;
     void Update();
     void OnTimerFired();

     uint32_t bytes_;
     uint32_t increments_;
     base::RepeatingTimer timer_;
     DISALLOW_COPY_AND_ASSIGN(ActivityMonitor);
   };

   class SentActivityMonitor : public ActivityMonitor {
    public:
     ~SentActivityMonitor() override {}

    private:
     void NetworkActivityMonitorIncrement(uint32_t bytes) override;
   };

   class ReceivedActivityMonitor : public ActivityMonitor {
    public:
     ~ReceivedActivityMonitor() override {}

    private:
     void NetworkActivityMonitorIncrement(uint32_t bytes) override;
   };

   UDPSocketPosix(DatagramSocket::BindType bind_type,
                  net::NetLog* net_log,
                  const net::NetLogSource& source);
   virtual ~UDPSocketPosix();

   // Opens the socket.
   // Returns a net error code.
   int Open(AddressFamily address_family);

   // Binds this socket to |network|. All data traffic on the socket will be sent
   // and received via |network|. Must be called before Connect(). This call will
   // fail if |network| has disconnected. Communication using this socket will
   // fail if |network| disconnects.
   // Returns a net error code.
   int BindToNetwork(NetworkChangeNotifier::NetworkHandle network);

   // Connects the socket to connect with a certain |address|.
   // Should be called after Open().
   // Returns a net error code.
   int Connect(const IPEndPoint& address);

   // Binds the address/port for this socket to |address|.  This is generally
   // only used on a server. Should be called after Open().
   // Returns a net error code.
   int Bind(const IPEndPoint& address);

   // Closes the socket.
   // TODO(rvargas, hidehiko): Disallow re-Open() after Close().
   void Close();

   // Copies the remote udp address into |address| and returns a net error code.
   int GetPeerAddress(IPEndPoint* address) const;

   // Copies the local udp address into |address| and returns a net error code.
   // (similar to getsockname)
   int GetLocalAddress(IPEndPoint* address) const;

   // IO:
   // Multiple outstanding read requests are not supported.
   // Full duplex mode (reading and writing at the same time) is supported

   // Reads from the socket.
   // Only usable from the client-side of a UDP socket, after the socket
   // has been connected.
   int Read(IOBuffer* buf, int buf_len, CompletionOnceCallback callback);

   // Writes to the socket.
   // Only usable from the client-side of a UDP socket, after the socket
   // has been connected.
   int Write(IOBuffer* buf,
             int buf_len,
             CompletionOnceCallback callback,
             const NetworkTrafficAnnotationTag& traffic_annotation);

   // Refer to datagram_client_socket.h
   int WriteAsync(DatagramBuffers buffers,
                  CompletionOnceCallback callback,
                  const NetworkTrafficAnnotationTag& traffic_annotation);
   int WriteAsync(const char* buffer,
                  size_t buf_len,
                  CompletionOnceCallback callback,
                  const NetworkTrafficAnnotationTag& traffic_annotation);

   DatagramBuffers GetUnwrittenBuffers();

   // Reads from a socket and receive sender address information.
   // |buf| is the buffer to read data into.
   // |buf_len| is the maximum amount of data to read.
   // |address| is a buffer provided by the caller for receiving the sender
   //   address information about the received data.  This buffer must be kept
   //   alive by the caller until the callback is placed.
   // |callback| is the callback on completion of the RecvFrom.
   // Returns a net error code, or ERR_IO_PENDING if the IO is in progress.
   // If ERR_IO_PENDING is returned, the caller must keep |buf| and |address|
   // alive until the callback is called.
   int RecvFrom(IOBuffer* buf,
                int buf_len,
                IPEndPoint* address,
                CompletionOnceCallback callback);

   // Sends to a socket with a particular destination.
   // |buf| is the buffer to send.
   // |buf_len| is the number of bytes to send.
   // |address| is the recipient address.
   // |callback| is the user callback function to call on complete.
   // Returns a net error code, or ERR_IO_PENDING if the IO is in progress.
   // If ERR_IO_PENDING is returned, the caller must keep |buf| and |address|
   // alive until the callback is called.
   int SendTo(IOBuffer* buf,
              int buf_len,
              const IPEndPoint& address,
              CompletionOnceCallback callback);

   // Sets the receive buffer size (in bytes) for the socket.
   // Returns a net error code.
   int SetReceiveBufferSize(int32_t size);

   // Sets the send buffer size (in bytes) for the socket.
   // Returns a net error code.
   int SetSendBufferSize(int32_t size);

   // Requests that packets sent by this socket not be fragment, either locally
   // by the host, or by routers (via the DF bit in the IPv4 packet header).
   // May not be supported by all platforms. Returns a return a network error
   // code if there was a problem, but the socket will still be usable. Can not
   // return ERR_IO_PENDING.
   int SetDoNotFragment();

   // If |confirm| is true, then the MSG_CONFIRM flag will be passed to
   // subsequent writes if it's supported by the platform.
   void SetMsgConfirm(bool confirm);

   // Returns true if the socket is already connected or bound.
   bool is_connected() const { return is_connected_; }

   const NetLogWithSource& NetLog() const { return net_log_; }

   // Call this to enable SO_REUSEADDR on the underlying socket.
   // Should be called between Open() and Bind().
   // Returns a net error code.
   int AllowAddressReuse();

   // Call this to allow or disallow sending and receiving packets to and from
   // broadcast addresses.
   // Returns a net error code.
   int SetBroadcast(bool broadcast);

   // Joins the multicast group.
   // |group_address| is the group address to join, could be either
   // an IPv4 or IPv6 address.
   // Returns a net error code.
   int JoinGroup(const IPAddress& group_address) const;

   // Leaves the multicast group.
   // |group_address| is the group address to leave, could be either
   // an IPv4 or IPv6 address. If the socket hasn't joined the group,
   // it will be ignored.
   // It's optional to leave the multicast group before destroying
   // the socket. It will be done by the OS.
   // Returns a net error code.
   int LeaveGroup(const IPAddress& group_address) const;

   // Sets interface to use for multicast. If |interface_index| set to 0,
   // default interface is used.
   // Should be called before Bind().
   // Returns a net error code.
   int SetMulticastInterface(uint32_t interface_index);

   // Sets the time-to-live option for UDP packets sent to the multicast
   // group address. The default value of this option is 1.
   // Cannot be negative or more than 255.
   // Should be called before Bind().
   // Returns a net error code.
   int SetMulticastTimeToLive(int time_to_live);

   // Sets the loopback flag for UDP socket. If this flag is true, the host
   // will receive packets sent to the joined group from itself.
   // The default value of this option is true.
   // Should be called before Bind().
   // Returns a net error code.
   //
   // Note: the behavior of |SetMulticastLoopbackMode| is slightly
   // different between Windows and Unix-like systems. The inconsistency only
   // happens when there are more than one applications on the same host
   // joined to the same multicast group while having different settings on
   // multicast loopback mode. On Windows, the applications with loopback off
   // will not RECEIVE the loopback packets; while on Unix-like systems, the
   // applications with loopback off will not SEND the loopback packets to
   // other applications on the same host. See MSDN: http://goo.gl/6vqbj
   int SetMulticastLoopbackMode(bool loopback);

   // Sets the differentiated services flags on outgoing packets. May not
   // do anything on some platforms.
   // Returns a net error code.
   int SetDiffServCodePoint(DiffServCodePoint dscp);

   // Resets the thread to be used for thread-safety checks.
   DETACH_FROM_THREAD(void);

   // Apply |tag| to this socket.
   void ApplySocketTag(const SocketTag& tag);

   void SetWriteAsyncEnabled(bool enabled) { write_async_enabled_ = enabled; }
   bool WriteAsyncEnabled() { return write_async_enabled_; }

   void SetMaxPacketSize(size_t max_packet_size);

   void SetWriteMultiCoreEnabled(bool enabled) {
     write_multi_core_enabled_ = enabled;
   }

   void SetSendmmsgEnabled(bool enabled) {
     DCHECK(sender_ != nullptr);
     sender_->SetSendmmsgEnabled(enabled);
   }

   void SetWriteBatchingActive(bool active) { write_batching_active_ = active; }

   void SetWriteAsyncMaxBuffers(int value) {
     LOG(INFO) << "SetWriteAsyncMaxBuffers: " << value;
     write_async_max_buffers_ = value;
   }

   // Enables experimental optimization. This method should be called
   // before the socket is used to read data for the first time.
   void enable_experimental_recv_optimization() {
     DCHECK_EQ(kInvalidSocket, socket_);
     experimental_recv_optimization_enabled_ = true;
   };

  protected:
   // WriteAsync batching etc. are to improve throughput of large high
   // bandwidth uploads.

   // Watcher for WriteAsync paths.
   class WriteAsyncWatcher : public base::MessagePumpForIO::FdWatcher {
    public:
     explicit WriteAsyncWatcher(UDPSocketPosix* socket)
         : socket_(socket), watching_(false) {}

     // MessagePumpForIO::FdWatcher methods

     void OnFileCanReadWithoutBlocking(int /* fd */) override {}

     void OnFileCanWriteWithoutBlocking(int /* fd */) override;

     void set_watching(bool watching) { watching_ = watching; }

     bool watching() { return watching_; }

    private:
     UDPSocketPosix* const socket_;
     bool watching_;

     DISALLOW_COPY_AND_ASSIGN(WriteAsyncWatcher);
   };

   void IncreaseWriteAsyncOutstanding(int increment) {
     write_async_outstanding_ += increment;
   }

   virtual bool InternalWatchFileDescriptor();
   virtual void InternalStopWatchingFileDescriptor();

   void SetWriteCallback(CompletionOnceCallback callback) {
     write_callback_ = std::move(callback);
   }

   void DidSendBuffers(SendResult buffers);
   void FlushPending();

   std::unique_ptr<WriteAsyncWatcher> write_async_watcher_;
   scoped_refptr<UDPSocketPosixSender> sender_;
   std::unique_ptr<DatagramBufferPool> datagram_buffer_pool_;
   // |WriteAsync| pending writes, does not include buffers that have
   // been |PostTask*|'d.
   DatagramBuffers pending_writes_;

  private:
   enum SocketOptions {
     SOCKET_OPTION_MULTICAST_LOOP = 1 << 0
   };

   class ReadWatcher : public base::MessagePumpForIO::FdWatcher {
    public:
     explicit ReadWatcher(UDPSocketPosix* socket) : socket_(socket) {}

     // MessagePumpForIO::FdWatcher methods

     void OnFileCanReadWithoutBlocking(int /* fd */) override;

     void OnFileCanWriteWithoutBlocking(int /* fd */) override {}

    private:
     UDPSocketPosix* const socket_;

     DISALLOW_COPY_AND_ASSIGN(ReadWatcher);
   };

   class WriteWatcher : public base::MessagePumpForIO::FdWatcher {
    public:
     explicit WriteWatcher(UDPSocketPosix* socket) : socket_(socket) {}

     // MessagePumpForIO::FdWatcher methods

     void OnFileCanReadWithoutBlocking(int /* fd */) override {}

     void OnFileCanWriteWithoutBlocking(int /* fd */) override;

    private:
     UDPSocketPosix* const socket_;

     DISALLOW_COPY_AND_ASSIGN(WriteWatcher);
   };

   int InternalWriteAsync(CompletionOnceCallback callback,
                          const NetworkTrafficAnnotationTag& traffic_annotation);
   bool WatchFileDescriptor();
   void StopWatchingFileDescriptor();

   void DoReadCallback(int rv);
   void DoWriteCallback(int rv);
   void DidCompleteRead();
   void DidCompleteWrite();

   // Handles stats and logging. |result| is the number of bytes transferred, on
   // success, or the net error code on failure. On success, LogRead takes in a
   // sockaddr and its length, which are mandatory, while LogWrite takes in an
   // optional IPEndPoint.
   void LogRead(int result,
                const char* bytes,
                socklen_t addr_len,
                const sockaddr* addr);
   void LogWrite(int result, const char* bytes, const IPEndPoint* address);

   // Same as SendTo(), except that address is passed by pointer
   // instead of by reference. It is called from Write() with |address|
   // set to NULL.
   int SendToOrWrite(IOBuffer* buf,
                     int buf_len,
                     const IPEndPoint* address,
                     CompletionOnceCallback callback);

   int InternalConnect(const IPEndPoint& address);

   // Reads data from a UDP socket. Depending whether the socket is connected or
   // not, the method delegates the call to InternalRecvFromConnectedSocket()
   // or InternalRecvFromNonConnectedSocket() respectively.
   // For proper detection of truncated reads, the |buf_len| should always be
   // one byte longer than the expected maximum packet length.
   int InternalRecvFrom(IOBuffer* buf, int buf_len, IPEndPoint* address);

   // A more efficient implementation of the InternalRecvFrom() method for
   // reading data from connected sockets. Internally the method uses the read()
   // system call.
   int InternalRecvFromConnectedSocket(IOBuffer* buf,
                                       int buf_len,
                                       IPEndPoint* address);

   // An implementation of the InternalRecvFrom() method for reading data
   // from non-connected sockets. Internally the method uses the recvmsg()
   // system call.
   int InternalRecvFromNonConnectedSocket(IOBuffer* buf,
                                          int buf_len,
                                          IPEndPoint* address);
   int InternalSendTo(IOBuffer* buf, int buf_len, const IPEndPoint* address);

   // Applies |socket_options_| to |socket_|. Should be called before
   // Bind().
   int SetMulticastOptions();
   int DoBind(const IPEndPoint& address);
   // Binds to a random port on |address|.
   int RandomBind(const IPAddress& address);

   // Helpers for |WriteAsync|
   base::SequencedTaskRunner* GetTaskRunner();
   void OnWriteAsyncTimerFired();
   void LocalSendBuffers();
   void PostSendBuffers();
   int ResetLastAsyncResult();
   int ResetWrittenBytes();

   int socket_;

   int addr_family_;
   bool is_connected_;

   // Bitwise-or'd combination of SocketOptions. Specifies the set of
   // options that should be applied to |socket_| before Bind().
   int socket_options_;

   // Flags passed to sendto().
   int sendto_flags_;

   // Multicast interface.
   uint32_t multicast_interface_;

   // Multicast socket options cached for SetMulticastOption.
   // Cannot be used after Bind().
   int multicast_time_to_live_;

   // How to do source port binding, used only when UDPSocket is part of
   // UDPClientSocket, since UDPServerSocket provides Bind.
   DatagramSocket::BindType bind_type_;

   // These are mutable since they're just cached copies to make
   // GetPeerAddress/GetLocalAddress smarter.
   mutable std::unique_ptr<IPEndPoint> local_address_;
   mutable std::unique_ptr<IPEndPoint> remote_address_;

   // The socket's posix wrappers
   base::MessagePumpForIO::FdWatchController read_socket_watcher_;
   base::MessagePumpForIO::FdWatchController write_socket_watcher_;

   // The corresponding watchers for reads and writes.
   ReadWatcher read_watcher_;
   WriteWatcher write_watcher_;

   // Various bits to support |WriteAsync()|.
   bool write_async_enabled_ = false;
   bool write_batching_active_ = false;
   bool write_multi_core_enabled_ = false;
   int write_async_max_buffers_ = 16;
   int written_bytes_ = 0;

   int last_async_result_;
   base::RepeatingTimer write_async_timer_;
   bool write_async_timer_running_;
   // Total writes in flight, including those |PostTask*|'d.
   int write_async_outstanding_;

   scoped_refptr<base::SequencedTaskRunner> task_runner_;

   // The buffer used by InternalRead() to retry Read requests
   scoped_refptr<IOBuffer> read_buf_;
   int read_buf_len_;
   IPEndPoint* recv_from_address_;

   // The buffer used by InternalWrite() to retry Write requests
   scoped_refptr<IOBuffer> write_buf_;
   int write_buf_len_;
   std::unique_ptr<IPEndPoint> send_to_address_;

   // External callback; called when read is complete.
   CompletionOnceCallback read_callback_;

   // External callback; called when write is complete.
   CompletionOnceCallback write_callback_;

   NetLogWithSource net_log_;

   // Network that this socket is bound to via BindToNetwork().
   NetworkChangeNotifier::NetworkHandle bound_network_;

   // These are used to lower the overhead updating activity monitor.
   SentActivityMonitor sent_activity_monitor_;
   ReceivedActivityMonitor received_activity_monitor_;

   // Current socket tag if |socket_| is valid, otherwise the tag to apply when
   // |socket_| is opened.
   SocketTag tag_;

   // If set to true, the socket will use an optimized experimental code path.
   // By default, the value is set to false. To use the optimization, the
   // client of the socket has to opt-in by calling the
   // enable_experimental_recv_optimization() method.
   bool experimental_recv_optimization_enabled_;

   THREAD_CHECKER(thread_checker_);

   // Used for alternate writes that are posted for concurrent execution.
   base::WeakPtrFactory<UDPSocketPosix> weak_factory_;

   DISALLOW_COPY_AND_ASSIGN(UDPSocketPosix);
 };

 }  // namespace net

 #endif  // NET_SOCKET_UDP_SOCKET_POSIX_H_
	// 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.

	#ifndef NET_SOCKET_UDP_SOCKET_POSIX_H_
	#define NET_SOCKET_UDP_SOCKET_POSIX_H_

	#include <sys/socket.h>
	#include <sys/types.h>

	#include <memory>

	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/message_loop/message_pump_for_io.h"
	#include "base/threading/thread_checker.h"
	#include "base/timer/timer.h"
	#include "build/build_config.h"
	#include "net/base/address_family.h"
	#include "net/base/completion_once_callback.h"
	#include "net/base/datagram_buffer.h"
	#include "net/base/io_buffer.h"
	#include "net/base/ip_endpoint.h"
	#include "net/base/net_export.h"
	#include "net/base/network_change_notifier.h"
	#include "net/log/net_log_with_source.h"
	#include "net/socket/datagram_socket.h"
	#include "net/socket/diff_serv_code_point.h"
	#include "net/socket/socket_descriptor.h"
	#include "net/socket/socket_tag.h"
	#include "net/traffic_annotation/network_traffic_annotation.h"
	#include "starboard/types.h"

	#if defined(__ANDROID__) && defined(__aarch64__)
	#define HAVE_SENDMMSG 1
	#elif defined(OS_LINUX)
	#define HAVE_SENDMMSG 1
	#else
	#define HAVE_SENDMMSG 0
	#endif

	namespace net {

	class IPAddress;
	class NetLog;
	struct NetLogSource;
	class SocketTag;

	// Sendresult is inspired by sendmmsg, but unlike sendmmsg it is not
	// convenient to require that a positive \|write_count\| and a negative
	// error code are mutually exclusive.
	struct NET_EXPORT SendResult {
	explicit SendResult();
	~SendResult();
	SendResult(int rv, int write_count, DatagramBuffers buffers);
	SendResult(SendResult& other) = delete;
	SendResult& operator=(SendResult& other) = delete;
	SendResult(SendResult&& other);
	SendResult& operator=(SendResult&& other) = default;
	int rv;
	// number of successful writes.
	int write_count;
	DatagramBuffers buffers;
	};

	// Don't delay writes more than this.
	const base::TimeDelta kWriteAsyncMsThreshold =
	base::TimeDelta::FromMilliseconds(1);
	// Prefer local if number of writes is not more than this.
	const int kWriteAsyncMinBuffersThreshold = 2;
	// Don't allow more than this many outstanding async writes.
	const int kWriteAsyncMaxBuffersThreshold = 16;
	// PostTask immediately when unwritten buffers reaches this.
	const int kWriteAsyncPostBuffersThreshold = kWriteAsyncMaxBuffersThreshold / 2;
	// Don't unblock writer unless pending async writes are less than this.
	const int kWriteAsyncCallbackBuffersThreshold = kWriteAsyncMaxBuffersThreshold;

	// To allow mock \|Send\|/\|Sendmsg\| in testing. This has to be
	// reference counted thread safe because \|SendBuffers\| and
	// \|SendmmsgBuffers\| may be invoked in another thread via PostTask*.
	class NET_EXPORT UDPSocketPosixSender
	: public base::RefCountedThreadSafe<UDPSocketPosixSender> {
	public:
	explicit UDPSocketPosixSender();

	SendResult SendBuffers(int fd, DatagramBuffers buffers);

	void SetSendmmsgEnabled(bool enabled) {
	#if HAVE_SENDMMSG
	sendmmsg_enabled_ = enabled;
	#endif
	}

	protected:
	friend class base::RefCountedThreadSafe<UDPSocketPosixSender>;

	virtual ~UDPSocketPosixSender();
	virtual ssize_t Send(int sockfd,
	const void* buf,
	size_t len,
	int flags) const;
	#if HAVE_SENDMMSG
	virtual int Sendmmsg(int sockfd,
	struct mmsghdr* msgvec,
	unsigned int vlen,
	unsigned int flags) const;
	#endif

	SendResult InternalSendBuffers(int fd, DatagramBuffers buffers) const;
	#if HAVE_SENDMMSG
	SendResult InternalSendmmsgBuffers(int fd, DatagramBuffers buffers) const;
	#endif

	private:
	UDPSocketPosixSender(const UDPSocketPosixSender&) = delete;
	UDPSocketPosixSender& operator=(const UDPSocketPosixSender&) = delete;
	bool sendmmsg_enabled_;
	};

	class NET_EXPORT UDPSocketPosix {
	public:
	// Performance helper for NetworkActivityMonitor, it batches
	// throughput samples, subject to a byte limit threshold (64 KB) or
	// timer (100 ms), whichever comes first. The batching is subject
	// to a minimum number of samples (2) required by NQE to update its
	// throughput estimate.
	class ActivityMonitor {
	public:
	ActivityMonitor() : bytes_(0), increments_(0) {}
	virtual ~ActivityMonitor() {}
	// Provided by sent/received subclass.
	// Update throughput, but batch to limit overhead of NetworkActivityMonitor.
	void Increment(uint32_t bytes);
	// For flushing cached values.
	void OnClose();

	private:
	virtual void NetworkActivityMonitorIncrement(uint32_t bytes) = 0;
	void Update();
	void OnTimerFired();

	uint32_t bytes_;
	uint32_t increments_;
	base::RepeatingTimer timer_;
	DISALLOW_COPY_AND_ASSIGN(ActivityMonitor);
	};

	class SentActivityMonitor : public ActivityMonitor {
	public:
	~SentActivityMonitor() override {}

	private:
	void NetworkActivityMonitorIncrement(uint32_t bytes) override;
	};

	class ReceivedActivityMonitor : public ActivityMonitor {
	public:
	~ReceivedActivityMonitor() override {}

	private:
	void NetworkActivityMonitorIncrement(uint32_t bytes) override;
	};

	UDPSocketPosix(DatagramSocket::BindType bind_type,
	net::NetLog* net_log,
	const net::NetLogSource& source);
	virtual ~UDPSocketPosix();

	// Opens the socket.
	// Returns a net error code.
	int Open(AddressFamily address_family);

	// Binds this socket to \|network\|. All data traffic on the socket will be sent
	// and received via \|network\|. Must be called before Connect(). This call will
	// fail if \|network\| has disconnected. Communication using this socket will
	// fail if \|network\| disconnects.
	// Returns a net error code.
	int BindToNetwork(NetworkChangeNotifier::NetworkHandle network);

	// Connects the socket to connect with a certain \|address\|.
	// Should be called after Open().
	// Returns a net error code.
	int Connect(const IPEndPoint& address);

	// Binds the address/port for this socket to \|address\|. This is generally
	// only used on a server. Should be called after Open().
	// Returns a net error code.
	int Bind(const IPEndPoint& address);

	// Closes the socket.
	// TODO(rvargas, hidehiko): Disallow re-Open() after Close().
	void Close();

	// Copies the remote udp address into \|address\| and returns a net error code.
	int GetPeerAddress(IPEndPoint* address) const;

	// Copies the local udp address into \|address\| and returns a net error code.
	// (similar to getsockname)
	int GetLocalAddress(IPEndPoint* address) const;

	// IO:
	// Multiple outstanding read requests are not supported.
	// Full duplex mode (reading and writing at the same time) is supported

	// Reads from the socket.
	// Only usable from the client-side of a UDP socket, after the socket
	// has been connected.
	int Read(IOBuffer* buf, int buf_len, CompletionOnceCallback callback);

	// Writes to the socket.
	// Only usable from the client-side of a UDP socket, after the socket
	// has been connected.
	int Write(IOBuffer* buf,
	int buf_len,
	CompletionOnceCallback callback,
	const NetworkTrafficAnnotationTag& traffic_annotation);

	// Refer to datagram_client_socket.h
	int WriteAsync(DatagramBuffers buffers,
	CompletionOnceCallback callback,
	const NetworkTrafficAnnotationTag& traffic_annotation);
	int WriteAsync(const char* buffer,
	size_t buf_len,
	CompletionOnceCallback callback,
	const NetworkTrafficAnnotationTag& traffic_annotation);

	DatagramBuffers GetUnwrittenBuffers();

	// Reads from a socket and receive sender address information.
	// \|buf\| is the buffer to read data into.
	// \|buf_len\| is the maximum amount of data to read.
	// \|address\| is a buffer provided by the caller for receiving the sender
	// address information about the received data. This buffer must be kept
	// alive by the caller until the callback is placed.
	// \|callback\| is the callback on completion of the RecvFrom.
	// Returns a net error code, or ERR_IO_PENDING if the IO is in progress.
	// If ERR_IO_PENDING is returned, the caller must keep \|buf\| and \|address\|
	// alive until the callback is called.
	int RecvFrom(IOBuffer* buf,
	int buf_len,
	IPEndPoint* address,
	CompletionOnceCallback callback);

	// Sends to a socket with a particular destination.
	// \|buf\| is the buffer to send.
	// \|buf_len\| is the number of bytes to send.
	// \|address\| is the recipient address.
	// \|callback\| is the user callback function to call on complete.
	// Returns a net error code, or ERR_IO_PENDING if the IO is in progress.
	// If ERR_IO_PENDING is returned, the caller must keep \|buf\| and \|address\|
	// alive until the callback is called.
	int SendTo(IOBuffer* buf,
	int buf_len,
	const IPEndPoint& address,
	CompletionOnceCallback callback);

	// Sets the receive buffer size (in bytes) for the socket.
	// Returns a net error code.
	int SetReceiveBufferSize(int32_t size);

	// Sets the send buffer size (in bytes) for the socket.
	// Returns a net error code.
	int SetSendBufferSize(int32_t size);

	// Requests that packets sent by this socket not be fragment, either locally
	// by the host, or by routers (via the DF bit in the IPv4 packet header).
	// May not be supported by all platforms. Returns a return a network error
	// code if there was a problem, but the socket will still be usable. Can not
	// return ERR_IO_PENDING.
	int SetDoNotFragment();

	// If \|confirm\| is true, then the MSG_CONFIRM flag will be passed to
	// subsequent writes if it's supported by the platform.
	void SetMsgConfirm(bool confirm);

	// Returns true if the socket is already connected or bound.
	bool is_connected() const { return is_connected_; }

	const NetLogWithSource& NetLog() const { return net_log_; }

	// Call this to enable SO_REUSEADDR on the underlying socket.
	// Should be called between Open() and Bind().
	// Returns a net error code.
	int AllowAddressReuse();

	// Call this to allow or disallow sending and receiving packets to and from
	// broadcast addresses.
	// Returns a net error code.
	int SetBroadcast(bool broadcast);

	// Joins the multicast group.
	// \|group_address\| is the group address to join, could be either
	// an IPv4 or IPv6 address.
	// Returns a net error code.
	int JoinGroup(const IPAddress& group_address) const;

	// Leaves the multicast group.
	// \|group_address\| is the group address to leave, could be either
	// an IPv4 or IPv6 address. If the socket hasn't joined the group,
	// it will be ignored.
	// It's optional to leave the multicast group before destroying
	// the socket. It will be done by the OS.
	// Returns a net error code.
	int LeaveGroup(const IPAddress& group_address) const;

	// Sets interface to use for multicast. If \|interface_index\| set to 0,
	// default interface is used.
	// Should be called before Bind().
	// Returns a net error code.
	int SetMulticastInterface(uint32_t interface_index);

	// Sets the time-to-live option for UDP packets sent to the multicast
	// group address. The default value of this option is 1.
	// Cannot be negative or more than 255.
	// Should be called before Bind().
	// Returns a net error code.
	int SetMulticastTimeToLive(int time_to_live);

	// Sets the loopback flag for UDP socket. If this flag is true, the host
	// will receive packets sent to the joined group from itself.
	// The default value of this option is true.
	// Should be called before Bind().
	// Returns a net error code.
	//
	// Note: the behavior of \|SetMulticastLoopbackMode\| is slightly
	// different between Windows and Unix-like systems. The inconsistency only
	// happens when there are more than one applications on the same host
	// joined to the same multicast group while having different settings on
	// multicast loopback mode. On Windows, the applications with loopback off
	// will not RECEIVE the loopback packets; while on Unix-like systems, the
	// applications with loopback off will not SEND the loopback packets to
	// other applications on the same host. See MSDN: http://goo.gl/6vqbj
	int SetMulticastLoopbackMode(bool loopback);

	// Sets the differentiated services flags on outgoing packets. May not
	// do anything on some platforms.
	// Returns a net error code.
	int SetDiffServCodePoint(DiffServCodePoint dscp);

	// Resets the thread to be used for thread-safety checks.
	DETACH_FROM_THREAD(void);

	// Apply \|tag\| to this socket.
	void ApplySocketTag(const SocketTag& tag);

	void SetWriteAsyncEnabled(bool enabled) { write_async_enabled_ = enabled; }
	bool WriteAsyncEnabled() { return write_async_enabled_; }

	void SetMaxPacketSize(size_t max_packet_size);

	void SetWriteMultiCoreEnabled(bool enabled) {
	write_multi_core_enabled_ = enabled;
	}

	void SetSendmmsgEnabled(bool enabled) {
	DCHECK(sender_ != nullptr);
	sender_->SetSendmmsgEnabled(enabled);
	}

	void SetWriteBatchingActive(bool active) { write_batching_active_ = active; }

	void SetWriteAsyncMaxBuffers(int value) {
	LOG(INFO) << "SetWriteAsyncMaxBuffers: " << value;
	write_async_max_buffers_ = value;
	}

	// Enables experimental optimization. This method should be called
	// before the socket is used to read data for the first time.
	void enable_experimental_recv_optimization() {
	DCHECK_EQ(kInvalidSocket, socket_);
	experimental_recv_optimization_enabled_ = true;
	};

	protected:
	// WriteAsync batching etc. are to improve throughput of large high
	// bandwidth uploads.

	// Watcher for WriteAsync paths.
	class WriteAsyncWatcher : public base::MessagePumpForIO::FdWatcher {
	public:
	explicit WriteAsyncWatcher(UDPSocketPosix* socket)
	: socket_(socket), watching_(false) {}

	// MessagePumpForIO::FdWatcher methods

	void OnFileCanReadWithoutBlocking(int /* fd */) override {}

	void OnFileCanWriteWithoutBlocking(int /* fd */) override;

	void set_watching(bool watching) { watching_ = watching; }

	bool watching() { return watching_; }

	private:
	UDPSocketPosix* const socket_;
	bool watching_;

	DISALLOW_COPY_AND_ASSIGN(WriteAsyncWatcher);
	};

	void IncreaseWriteAsyncOutstanding(int increment) {
	write_async_outstanding_ += increment;
	}

	virtual bool InternalWatchFileDescriptor();
	virtual void InternalStopWatchingFileDescriptor();

	void SetWriteCallback(CompletionOnceCallback callback) {
	write_callback_ = std::move(callback);
	}

	void DidSendBuffers(SendResult buffers);
	void FlushPending();

	std::unique_ptr<WriteAsyncWatcher> write_async_watcher_;
	scoped_refptr<UDPSocketPosixSender> sender_;
	std::unique_ptr<DatagramBufferPool> datagram_buffer_pool_;
	// \|WriteAsync\| pending writes, does not include buffers that have
	// been \|PostTask*\|'d.
	DatagramBuffers pending_writes_;

	private:
	enum SocketOptions {
	SOCKET_OPTION_MULTICAST_LOOP = 1 << 0
	};

	class ReadWatcher : public base::MessagePumpForIO::FdWatcher {
	public:
	explicit ReadWatcher(UDPSocketPosix* socket) : socket_(socket) {}

	// MessagePumpForIO::FdWatcher methods

	void OnFileCanReadWithoutBlocking(int /* fd */) override;

	void OnFileCanWriteWithoutBlocking(int /* fd */) override {}

	private:
	UDPSocketPosix* const socket_;

	DISALLOW_COPY_AND_ASSIGN(ReadWatcher);
	};

	class WriteWatcher : public base::MessagePumpForIO::FdWatcher {
	public:
	explicit WriteWatcher(UDPSocketPosix* socket) : socket_(socket) {}

	// MessagePumpForIO::FdWatcher methods

	void OnFileCanReadWithoutBlocking(int /* fd */) override {}

	void OnFileCanWriteWithoutBlocking(int /* fd */) override;

	private:
	UDPSocketPosix* const socket_;

	DISALLOW_COPY_AND_ASSIGN(WriteWatcher);
	};

	int InternalWriteAsync(CompletionOnceCallback callback,
	const NetworkTrafficAnnotationTag& traffic_annotation);
	bool WatchFileDescriptor();
	void StopWatchingFileDescriptor();

	void DoReadCallback(int rv);
	void DoWriteCallback(int rv);
	void DidCompleteRead();
	void DidCompleteWrite();

	// Handles stats and logging. \|result\| is the number of bytes transferred, on
	// success, or the net error code on failure. On success, LogRead takes in a
	// sockaddr and its length, which are mandatory, while LogWrite takes in an
	// optional IPEndPoint.
	void LogRead(int result,
	const char* bytes,
	socklen_t addr_len,
	const sockaddr* addr);
	void LogWrite(int result, const char* bytes, const IPEndPoint* address);

	// Same as SendTo(), except that address is passed by pointer
	// instead of by reference. It is called from Write() with \|address\|
	// set to NULL.
	int SendToOrWrite(IOBuffer* buf,
	int buf_len,
	const IPEndPoint* address,
	CompletionOnceCallback callback);

	int InternalConnect(const IPEndPoint& address);

	// Reads data from a UDP socket. Depending whether the socket is connected or
	// not, the method delegates the call to InternalRecvFromConnectedSocket()
	// or InternalRecvFromNonConnectedSocket() respectively.
	// For proper detection of truncated reads, the \|buf_len\| should always be
	// one byte longer than the expected maximum packet length.
	int InternalRecvFrom(IOBuffer* buf, int buf_len, IPEndPoint* address);

	// A more efficient implementation of the InternalRecvFrom() method for
	// reading data from connected sockets. Internally the method uses the read()
	// system call.
	int InternalRecvFromConnectedSocket(IOBuffer* buf,
	int buf_len,
	IPEndPoint* address);

	// An implementation of the InternalRecvFrom() method for reading data
	// from non-connected sockets. Internally the method uses the recvmsg()
	// system call.
	int InternalRecvFromNonConnectedSocket(IOBuffer* buf,
	int buf_len,
	IPEndPoint* address);
	int InternalSendTo(IOBuffer* buf, int buf_len, const IPEndPoint* address);

	// Applies \|socket_options_\| to \|socket_\|. Should be called before
	// Bind().
	int SetMulticastOptions();
	int DoBind(const IPEndPoint& address);
	// Binds to a random port on \|address\|.
	int RandomBind(const IPAddress& address);

	// Helpers for \|WriteAsync\|
	base::SequencedTaskRunner* GetTaskRunner();
	void OnWriteAsyncTimerFired();
	void LocalSendBuffers();
	void PostSendBuffers();
	int ResetLastAsyncResult();
	int ResetWrittenBytes();

	int socket_;

	int addr_family_;
	bool is_connected_;

	// Bitwise-or'd combination of SocketOptions. Specifies the set of
	// options that should be applied to \|socket_\| before Bind().
	int socket_options_;

	// Flags passed to sendto().
	int sendto_flags_;

	// Multicast interface.
	uint32_t multicast_interface_;

	// Multicast socket options cached for SetMulticastOption.
	// Cannot be used after Bind().
	int multicast_time_to_live_;

	// How to do source port binding, used only when UDPSocket is part of
	// UDPClientSocket, since UDPServerSocket provides Bind.
	DatagramSocket::BindType bind_type_;

	// These are mutable since they're just cached copies to make
	// GetPeerAddress/GetLocalAddress smarter.
	mutable std::unique_ptr<IPEndPoint> local_address_;
	mutable std::unique_ptr<IPEndPoint> remote_address_;

	// The socket's posix wrappers
	base::MessagePumpForIO::FdWatchController read_socket_watcher_;
	base::MessagePumpForIO::FdWatchController write_socket_watcher_;

	// The corresponding watchers for reads and writes.
	ReadWatcher read_watcher_;
	WriteWatcher write_watcher_;

	// Various bits to support \|WriteAsync()\|.
	bool write_async_enabled_ = false;
	bool write_batching_active_ = false;
	bool write_multi_core_enabled_ = false;
	int write_async_max_buffers_ = 16;
	int written_bytes_ = 0;

	int last_async_result_;
	base::RepeatingTimer write_async_timer_;
	bool write_async_timer_running_;
	// Total writes in flight, including those \|PostTask*\|'d.
	int write_async_outstanding_;

	scoped_refptr<base::SequencedTaskRunner> task_runner_;

	// The buffer used by InternalRead() to retry Read requests
	scoped_refptr<IOBuffer> read_buf_;
	int read_buf_len_;
	IPEndPoint* recv_from_address_;

	// The buffer used by InternalWrite() to retry Write requests
	scoped_refptr<IOBuffer> write_buf_;
	int write_buf_len_;
	std::unique_ptr<IPEndPoint> send_to_address_;

	// External callback; called when read is complete.
	CompletionOnceCallback read_callback_;

	// External callback; called when write is complete.
	CompletionOnceCallback write_callback_;

	NetLogWithSource net_log_;

	// Network that this socket is bound to via BindToNetwork().
	NetworkChangeNotifier::NetworkHandle bound_network_;

	// These are used to lower the overhead updating activity monitor.
	SentActivityMonitor sent_activity_monitor_;
	ReceivedActivityMonitor received_activity_monitor_;

	// Current socket tag if \|socket_\| is valid, otherwise the tag to apply when
	// \|socket_\| is opened.
	SocketTag tag_;

	// If set to true, the socket will use an optimized experimental code path.
	// By default, the value is set to false. To use the optimization, the
	// client of the socket has to opt-in by calling the
	// enable_experimental_recv_optimization() method.
	bool experimental_recv_optimization_enabled_;

	THREAD_CHECKER(thread_checker_);

	// Used for alternate writes that are posted for concurrent execution.
	base::WeakPtrFactory<UDPSocketPosix> weak_factory_;

	DISALLOW_COPY_AND_ASSIGN(UDPSocketPosix);
	};

	} // namespace net

	#endif // NET_SOCKET_UDP_SOCKET_POSIX_H_