net/quic/quic_packet_generator.h - chromium/src - 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.
 //
 // Responsible for generating packets on behalf of a QuicConnection.
 // Packets are serialized just-in-time.  Control frames are queued.
 // Ack and Feedback frames will be requested from the Connection
 // just-in-time.  When a packet needs to be sent, the Generator
 // will serialize a packet and pass it to QuicConnection::SendOrQueuePacket()
 //
 // The Generator's mode of operation is controlled by two conditions:
 //
 // 1) Is the Delegate writable?
 //
 // If the Delegate is not writable, then no operations will cause
 // a packet to be serialized.  In particular:
 // * SetShouldSendAck will simply record that an ack is to be sent.
 // * AddControlFrame will enqueue the control frame.
 // * ConsumeData will do nothing.
 //
 // If the Delegate is writable, then the behavior depends on the second
 // condition:
 //
 // 2) Is the Generator in batch mode?
 //
 // If the Generator is NOT in batch mode, then each call to a write
 // operation will serialize one or more packets.  The contents will
 // include any previous queued frames.  If an ack should be sent
 // but has not been sent, then the Delegate will be asked to create
 // an Ack frame which will then be included in the packet.  When
 // the write call completes, the current packet will be serialized
 // and sent to the Delegate, even if it is not full.
 //
 // If the Generator is in batch mode, then each write operation will
 // add data to the "current" packet.  When the current packet becomes
 // full, it will be serialized and sent to the packet.  When batch
 // mode is ended via |FinishBatchOperations|, the current packet
 // will be serialzied, even if it is not full.
 //
 // FEC behavior also depends on batch mode.  In batch mode, FEC packets
 // will be sent after |max_packets_per_group| have been sent, as well
 // as after batch operations are complete.  When not in batch mode,
 // an FEC packet will be sent after each write call completes.
 //
 // TODO(rch): This behavior should probably be tuned.  When not in batch
 // mode, we should probably set a timer so that several independent
 // operations can be grouped into the same FEC group.
 //
 // When an FEC packet is generated, it will be send to the Delegate,
 // even if the Delegate has become unwritable after handling the
 // data packet immediately proceeding the FEC packet.

 #ifndef NET_QUIC_QUIC_PACKET_GENERATOR_H_
 #define NET_QUIC_QUIC_PACKET_GENERATOR_H_

 #include "net/quic/quic_packet_creator.h"
 #include "net/quic/quic_sent_packet_manager.h"
 #include "net/quic/quic_types.h"

 namespace net {

 namespace test {
 class QuicPacketGeneratorPeer;
 }  // namespace test

 class QuicAckNotifier;

 class NET_EXPORT_PRIVATE QuicPacketGenerator {
  public:
   class NET_EXPORT_PRIVATE DelegateInterface {
    public:
     virtual ~DelegateInterface() {}
     virtual bool ShouldGeneratePacket(TransmissionType transmission_type,
                                       HasRetransmittableData retransmittable,
                                       IsHandshake handshake) = 0;
     virtual QuicAckFrame* CreateAckFrame() = 0;
     virtual QuicCongestionFeedbackFrame* CreateFeedbackFrame() = 0;
     virtual QuicStopWaitingFrame* CreateStopWaitingFrame() = 0;
     // Takes ownership of |packet.packet| and |packet.retransmittable_frames|.
     virtual void OnSerializedPacket(const SerializedPacket& packet) = 0;
     virtual void CloseConnection(QuicErrorCode error, bool from_peer) = 0;
   };

   // Interface which gets callbacks from the QuicPacketGenerator at interesting
   // points.  Implementations must not mutate the state of the generator
   // as a result of these callbacks.
   class NET_EXPORT_PRIVATE DebugDelegate {
    public:
     virtual ~DebugDelegate() {}

     // Called when a frame has been added to the current packet.
     virtual void OnFrameAddedToPacket(const QuicFrame& frame) {}
   };

   QuicPacketGenerator(QuicConnectionId connection_id,
                       QuicFramer* framer,
                       QuicRandom* random_generator,
                       DelegateInterface* delegate);

   virtual ~QuicPacketGenerator();

   // Called by the connection in the event of the congestion window changing.
   void OnCongestionWindowChange(QuicByteCount congestion_window);

   // Indicates that an ACK frame should be sent.  If |also_send_feedback| is
   // true, then it also indicates a CONGESTION_FEEDBACK frame should be sent.
   // If |also_send_stop_waiting| is true, then it also indicates that a
   // STOP_WAITING frame should be sent as well.
   // The contents of the frame(s) will be generated via a call to the delegates
   // CreateAckFrame() and CreateFeedbackFrame() when the packet is serialized.
   void SetShouldSendAck(bool also_send_feedback,
                         bool also_send_stop_waiting);

   // Indicates that a STOP_WAITING frame should be sent.
   void SetShouldSendStopWaiting();

   void AddControlFrame(const QuicFrame& frame);

   // Given some data, may consume part or all of it and pass it to the
   // packet creator to be serialized into packets. If not in batch
   // mode, these packets will also be sent during this call. Also
   // attaches a QuicAckNotifier to any created stream frames, which
   // will be called once the frame is ACKed by the peer. The
   // QuicAckNotifier is owned by the QuicConnection. |notifier| may
   // be nullptr.
   QuicConsumedData ConsumeData(QuicStreamId id,
                                const IOVector& data,
                                QuicStreamOffset offset,
                                bool fin,
                                FecProtection fec_protection,
                                QuicAckNotifier* notifier);

   // Indicates whether batch mode is currently enabled.
   bool InBatchMode();
   // Disables flushing.
   void StartBatchOperations();
   // Enables flushing and flushes queued data which can be sent.
   void FinishBatchOperations();

   // Flushes all queued frames, even frames which are not sendable.
   void FlushAllQueuedFrames();

   bool HasQueuedFrames() const;

   // Makes the framer not serialize the protocol version in sent packets.
   void StopSendingVersion();

   // Creates a version negotiation packet which supports |supported_versions|.
   // Caller owns the created  packet. Also, sets the entropy hash of the
   // serialized packet to a random bool and returns that value as a member of
   // SerializedPacket.
   QuicEncryptedPacket* SerializeVersionNegotiationPacket(
       const QuicVersionVector& supported_versions);


   // Re-serializes frames with the original packet's sequence number length.
   // Used for retransmitting packets to ensure they aren't too long.
   // Caller must ensure that any open FEC group is closed before calling this
   // method.
   SerializedPacket ReserializeAllFrames(
       const QuicFrames& frames,
       QuicSequenceNumberLength original_length);

   // Update the sequence number length to use in future packets as soon as it
   // can be safely changed.
   void UpdateSequenceNumberLength(
       QuicPacketSequenceNumber least_packet_awaited_by_peer,
       QuicByteCount congestion_window);

   // Sets the encryption level that will be applied to new packets.
   void set_encryption_level(EncryptionLevel level);

   // Sequence number of the last created packet, or 0 if no packets have been
   // created.
   QuicPacketSequenceNumber sequence_number() const;

   size_t max_packet_length() const;

   void set_max_packet_length(size_t length);

   void set_debug_delegate(DebugDelegate* debug_delegate) {
     debug_delegate_ = debug_delegate;
   }

  private:
   friend class test::QuicPacketGeneratorPeer;

   // Turn on FEC protection for subsequent packets in the generator.
   // If no FEC group is currently open in the creator, this method flushes any
   // queued frames in the generator and in the creator, and it then turns FEC on
   // in the creator. This method may be called with an open FEC group in the
   // creator, in which case, only the generator's state is altered.
   void MaybeStartFecProtection();

   // Serializes and calls the delegate on an FEC packet if one was under
   // construction in the creator. When |force| is false, it relies on the
   // creator being ready to send an FEC packet, otherwise FEC packet is sent
   // as long as one is under construction in the creator. Also tries to turn
   // off FEC protection in the creator if it's off in the generator.
   void MaybeSendFecPacketAndCloseGroup(bool force);

   void SendQueuedFrames(bool flush);

   // Test to see if we have pending ack, feedback, or control frames.
   bool HasPendingFrames() const;
   // Test to see if the addition of a pending frame (which might be
   // retransmittable) would still allow the resulting packet to be sent now.
   bool CanSendWithNextPendingFrameAddition() const;
   // Add exactly one pending frame, preferring ack over feedback over control
   // frames.
   bool AddNextPendingFrame();

   bool AddFrame(const QuicFrame& frame);

   void SerializeAndSendPacket();

   DelegateInterface* delegate_;
   DebugDelegate* debug_delegate_;

   QuicPacketCreator packet_creator_;
   QuicFrames queued_control_frames_;

   // True if batch mode is currently enabled.
   bool batch_mode_;

   // True if FEC protection is on. The creator may have an open FEC group even
   // if this variable is false.
   bool should_fec_protect_;

   // Flags to indicate the need for just-in-time construction of a frame.
   bool should_send_ack_;
   bool should_send_feedback_;
   bool should_send_stop_waiting_;
   // If we put a non-retransmittable frame (namley ack or feedback frame) in
   // this packet, then we have to hold a reference to it until we flush (and
   // serialize it). Retransmittable frames are referenced elsewhere so that they
   // can later be (optionally) retransmitted.
   scoped_ptr<QuicAckFrame> pending_ack_frame_;
   scoped_ptr<QuicCongestionFeedbackFrame> pending_feedback_frame_;
   scoped_ptr<QuicStopWaitingFrame> pending_stop_waiting_frame_;

   DISALLOW_COPY_AND_ASSIGN(QuicPacketGenerator);
 };

 }  // namespace net

 #endif  // NET_QUIC_QUIC_PACKET_GENERATOR_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.
	//
	// Responsible for generating packets on behalf of a QuicConnection.
	// Packets are serialized just-in-time. Control frames are queued.
	// Ack and Feedback frames will be requested from the Connection
	// just-in-time. When a packet needs to be sent, the Generator
	// will serialize a packet and pass it to QuicConnection::SendOrQueuePacket()
	//
	// The Generator's mode of operation is controlled by two conditions:
	//
	// 1) Is the Delegate writable?
	//
	// If the Delegate is not writable, then no operations will cause
	// a packet to be serialized. In particular:
	// * SetShouldSendAck will simply record that an ack is to be sent.
	// * AddControlFrame will enqueue the control frame.
	// * ConsumeData will do nothing.
	//
	// If the Delegate is writable, then the behavior depends on the second
	// condition:
	//
	// 2) Is the Generator in batch mode?
	//
	// If the Generator is NOT in batch mode, then each call to a write
	// operation will serialize one or more packets. The contents will
	// include any previous queued frames. If an ack should be sent
	// but has not been sent, then the Delegate will be asked to create
	// an Ack frame which will then be included in the packet. When
	// the write call completes, the current packet will be serialized
	// and sent to the Delegate, even if it is not full.
	//
	// If the Generator is in batch mode, then each write operation will
	// add data to the "current" packet. When the current packet becomes
	// full, it will be serialized and sent to the packet. When batch
	// mode is ended via \|FinishBatchOperations\|, the current packet
	// will be serialzied, even if it is not full.
	//
	// FEC behavior also depends on batch mode. In batch mode, FEC packets
	// will be sent after \|max_packets_per_group\| have been sent, as well
	// as after batch operations are complete. When not in batch mode,
	// an FEC packet will be sent after each write call completes.
	//
	// TODO(rch): This behavior should probably be tuned. When not in batch
	// mode, we should probably set a timer so that several independent
	// operations can be grouped into the same FEC group.
	//
	// When an FEC packet is generated, it will be send to the Delegate,
	// even if the Delegate has become unwritable after handling the
	// data packet immediately proceeding the FEC packet.

	#ifndef NET_QUIC_QUIC_PACKET_GENERATOR_H_
	#define NET_QUIC_QUIC_PACKET_GENERATOR_H_

	#include "net/quic/quic_packet_creator.h"
	#include "net/quic/quic_sent_packet_manager.h"
	#include "net/quic/quic_types.h"

	namespace net {

	namespace test {
	class QuicPacketGeneratorPeer;
	} // namespace test

	class QuicAckNotifier;

	class NET_EXPORT_PRIVATE QuicPacketGenerator {
	public:
	class NET_EXPORT_PRIVATE DelegateInterface {
	public:
	virtual ~DelegateInterface() {}
	virtual bool ShouldGeneratePacket(TransmissionType transmission_type,
	HasRetransmittableData retransmittable,
	IsHandshake handshake) = 0;
	virtual QuicAckFrame* CreateAckFrame() = 0;
	virtual QuicCongestionFeedbackFrame* CreateFeedbackFrame() = 0;
	virtual QuicStopWaitingFrame* CreateStopWaitingFrame() = 0;
	// Takes ownership of \|packet.packet\| and \|packet.retransmittable_frames\|.
	virtual void OnSerializedPacket(const SerializedPacket& packet) = 0;
	virtual void CloseConnection(QuicErrorCode error, bool from_peer) = 0;
	};

	// Interface which gets callbacks from the QuicPacketGenerator at interesting
	// points. Implementations must not mutate the state of the generator
	// as a result of these callbacks.
	class NET_EXPORT_PRIVATE DebugDelegate {
	public:
	virtual ~DebugDelegate() {}

	// Called when a frame has been added to the current packet.
	virtual void OnFrameAddedToPacket(const QuicFrame& frame) {}
	};

	QuicPacketGenerator(QuicConnectionId connection_id,
	QuicFramer* framer,
	QuicRandom* random_generator,
	DelegateInterface* delegate);

	virtual ~QuicPacketGenerator();

	// Called by the connection in the event of the congestion window changing.
	void OnCongestionWindowChange(QuicByteCount congestion_window);

	// Indicates that an ACK frame should be sent. If \|also_send_feedback\| is
	// true, then it also indicates a CONGESTION_FEEDBACK frame should be sent.
	// If \|also_send_stop_waiting\| is true, then it also indicates that a
	// STOP_WAITING frame should be sent as well.
	// The contents of the frame(s) will be generated via a call to the delegates
	// CreateAckFrame() and CreateFeedbackFrame() when the packet is serialized.
	void SetShouldSendAck(bool also_send_feedback,
	bool also_send_stop_waiting);

	// Indicates that a STOP_WAITING frame should be sent.
	void SetShouldSendStopWaiting();

	void AddControlFrame(const QuicFrame& frame);

	// Given some data, may consume part or all of it and pass it to the
	// packet creator to be serialized into packets. If not in batch
	// mode, these packets will also be sent during this call. Also
	// attaches a QuicAckNotifier to any created stream frames, which
	// will be called once the frame is ACKed by the peer. The
	// QuicAckNotifier is owned by the QuicConnection. \|notifier\| may
	// be nullptr.
	QuicConsumedData ConsumeData(QuicStreamId id,
	const IOVector& data,
	QuicStreamOffset offset,
	bool fin,
	FecProtection fec_protection,
	QuicAckNotifier* notifier);

	// Indicates whether batch mode is currently enabled.
	bool InBatchMode();
	// Disables flushing.
	void StartBatchOperations();
	// Enables flushing and flushes queued data which can be sent.
	void FinishBatchOperations();

	// Flushes all queued frames, even frames which are not sendable.
	void FlushAllQueuedFrames();

	bool HasQueuedFrames() const;

	// Makes the framer not serialize the protocol version in sent packets.
	void StopSendingVersion();

	// Creates a version negotiation packet which supports \|supported_versions\|.
	// Caller owns the created packet. Also, sets the entropy hash of the
	// serialized packet to a random bool and returns that value as a member of
	// SerializedPacket.
	QuicEncryptedPacket* SerializeVersionNegotiationPacket(
	const QuicVersionVector& supported_versions);


	// Re-serializes frames with the original packet's sequence number length.
	// Used for retransmitting packets to ensure they aren't too long.
	// Caller must ensure that any open FEC group is closed before calling this
	// method.
	SerializedPacket ReserializeAllFrames(
	const QuicFrames& frames,
	QuicSequenceNumberLength original_length);

	// Update the sequence number length to use in future packets as soon as it
	// can be safely changed.
	void UpdateSequenceNumberLength(
	QuicPacketSequenceNumber least_packet_awaited_by_peer,
	QuicByteCount congestion_window);

	// Sets the encryption level that will be applied to new packets.
	void set_encryption_level(EncryptionLevel level);

	// Sequence number of the last created packet, or 0 if no packets have been
	// created.
	QuicPacketSequenceNumber sequence_number() const;

	size_t max_packet_length() const;

	void set_max_packet_length(size_t length);

	void set_debug_delegate(DebugDelegate* debug_delegate) {
	debug_delegate_ = debug_delegate;
	}

	private:
	friend class test::QuicPacketGeneratorPeer;

	// Turn on FEC protection for subsequent packets in the generator.
	// If no FEC group is currently open in the creator, this method flushes any
	// queued frames in the generator and in the creator, and it then turns FEC on
	// in the creator. This method may be called with an open FEC group in the
	// creator, in which case, only the generator's state is altered.
	void MaybeStartFecProtection();

	// Serializes and calls the delegate on an FEC packet if one was under
	// construction in the creator. When \|force\| is false, it relies on the
	// creator being ready to send an FEC packet, otherwise FEC packet is sent
	// as long as one is under construction in the creator. Also tries to turn
	// off FEC protection in the creator if it's off in the generator.
	void MaybeSendFecPacketAndCloseGroup(bool force);

	void SendQueuedFrames(bool flush);

	// Test to see if we have pending ack, feedback, or control frames.
	bool HasPendingFrames() const;
	// Test to see if the addition of a pending frame (which might be
	// retransmittable) would still allow the resulting packet to be sent now.
	bool CanSendWithNextPendingFrameAddition() const;
	// Add exactly one pending frame, preferring ack over feedback over control
	// frames.
	bool AddNextPendingFrame();

	bool AddFrame(const QuicFrame& frame);

	void SerializeAndSendPacket();

	DelegateInterface* delegate_;
	DebugDelegate* debug_delegate_;

	QuicPacketCreator packet_creator_;
	QuicFrames queued_control_frames_;

	// True if batch mode is currently enabled.
	bool batch_mode_;

	// True if FEC protection is on. The creator may have an open FEC group even
	// if this variable is false.
	bool should_fec_protect_;

	// Flags to indicate the need for just-in-time construction of a frame.
	bool should_send_ack_;
	bool should_send_feedback_;
	bool should_send_stop_waiting_;
	// If we put a non-retransmittable frame (namley ack or feedback frame) in
	// this packet, then we have to hold a reference to it until we flush (and
	// serialize it). Retransmittable frames are referenced elsewhere so that they
	// can later be (optionally) retransmitted.
	scoped_ptr<QuicAckFrame> pending_ack_frame_;
	scoped_ptr<QuicCongestionFeedbackFrame> pending_feedback_frame_;
	scoped_ptr<QuicStopWaitingFrame> pending_stop_waiting_frame_;

	DISALLOW_COPY_AND_ASSIGN(QuicPacketGenerator);
	};

	} // namespace net

	#endif // NET_QUIC_QUIC_PACKET_GENERATOR_H_