src/cobalt/media/cast/receiver/frame_receiver.h - cobalt - Git at Google

 // 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.

 #ifndef COBALT_MEDIA_CAST_RECEIVER_FRAME_RECEIVER_H_
 #define COBALT_MEDIA_CAST_RECEIVER_FRAME_RECEIVER_H_

 #include <list>
 #include <memory>

 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/weak_ptr.h"
 #include "base/time/time.h"
 #include "media/cast/cast_receiver.h"
 #include "media/cast/common/clock_drift_smoother.h"
 #include "media/cast/common/rtp_time.h"
 #include "media/cast/common/transport_encryption_handler.h"
 #include "media/cast/logging/logging_defines.h"
 #include "media/cast/net/rtcp/receiver_rtcp_event_subscriber.h"
 #include "media/cast/net/rtcp/receiver_rtcp_session.h"
 #include "media/cast/net/rtp/framer.h"
 #include "media/cast/net/rtp/receiver_stats.h"
 #include "media/cast/net/rtp/rtp_defines.h"
 #include "media/cast/net/rtp/rtp_parser.h"
 #include "starboard/types.h"

 namespace cobalt {
 namespace media {
 namespace cast {

 class CastEnvironment;

 // FrameReceiver receives packets out-of-order while clients make requests for
 // complete frames in-order.  (A frame consists of one or more packets.)
 //
 // FrameReceiver also includes logic for computing the playout time for each
 // frame, accounting for a constant targeted playout delay.  The purpose of the
 // playout delay is to provide a fixed window of time between the capture event
 // on the sender and the playout on the receiver.  This is important because
 // each step of the pipeline (i.e., encode frame, then transmit/retransmit from
 // the sender, then receive and re-order packets on the receiver, then decode
 // frame) can vary in duration and is typically very hard to predict.
 //
 // Each request for a frame includes a callback which FrameReceiver guarantees
 // will be called at some point in the future unless the FrameReceiver is
 // destroyed.  Clients should generally limit the number of outstanding requests
 // (perhaps to just one or two).
 //
 // This class is not thread safe.  Should only be called from the Main cast
 // thread.
 class FrameReceiver : public RtpPayloadFeedback,
                       public base::SupportsWeakPtr<FrameReceiver> {
  public:
   FrameReceiver(const scoped_refptr<CastEnvironment>& cast_environment,
                 const FrameReceiverConfig& config,
                 EventMediaType event_media_type,
                 CastTransport* const transport);

   ~FrameReceiver() final;

   // Request an encoded frame.
   //
   // The given |callback| is guaranteed to be run at some point in the future,
   // except for those requests still enqueued at destruction time.
   void RequestEncodedFrame(const ReceiveEncodedFrameCallback& callback);

   // Called to deliver another packet, possibly a duplicate, and possibly
   // out-of-order.  Returns true if the parsing of the packet succeeded.
   bool ProcessPacket(std::unique_ptr<Packet> packet);

  protected:
   friend class FrameReceiverTest;  // Invokes ProcessParsedPacket().

   void ProcessParsedPacket(const RtpCastHeader& rtp_header,
                            const uint8_t* payload_data, size_t payload_size);

   // RtpPayloadFeedback implementation.
   void CastFeedback(const RtcpCastMessage& cast_message) final;

  private:
   // Processes ready-to-consume packets from |framer_|, decrypting each packet's
   // payload data, and then running the enqueued callbacks in order (one for
   // each packet).  This method may post a delayed task to re-invoke itself in
   // the future to wait for missing/incomplete frames.
   void EmitAvailableEncodedFrames();

   // Clears the |is_waiting_for_consecutive_frame_| flag and invokes
   // EmitAvailableEncodedFrames().
   void EmitAvailableEncodedFramesAfterWaiting();

   // Helper that runs |callback|, passing ownership of |encoded_frame| to it.
   // This method is used by EmitAvailableEncodedFrames() to return to the event
   // loop, but make sure that FrameReceiver is still alive before the callback
   // is run.
   void EmitOneFrame(const ReceiveEncodedFrameCallback& callback,
                     std::unique_ptr<EncodedFrame> encoded_frame) const;

   // Computes the playout time for a frame with the given |rtp_timestamp|.
   // Because lip-sync info is refreshed regularly, calling this method with the
   // same argument may return different results.
   base::TimeTicks GetPlayoutTime(const EncodedFrame& frame) const;

   // Schedule timing for the next cast message.
   void ScheduleNextCastMessage();

   // Schedule timing for the next RTCP report.
   void ScheduleNextRtcpReport();

   // Actually send the next cast message.
   void SendNextCastMessage();

   // Actually send the next RTCP report.
   void SendNextRtcpReport();

   // Interface to send RTCP reports.
   // |cast_message|, |rtcp_events| and |rtp_receiver_statistics| are optional;
   // if |cast_message| is provided the RTCP receiver report will contain a Cast
   // ACK/NACK feedback message; |target_delay| is sent together with
   // |cast_message|. If |rtcp_events| is provided the RTCP receiver report will
   // include event log messages
   void SendRtcpReport(
       uint32_t rtp_receiver_ssrc, uint32_t rtp_sender_ssrc,
       const RtcpTimeData& time_data, const RtcpCastMessage* cast_message,
       const RtcpPliMessage* pli_message, base::TimeDelta target_delay,
       const ReceiverRtcpEventSubscriber::RtcpEvents* rtcp_events,
       const RtpReceiverStatistics* rtp_receiver_statistics);

   const scoped_refptr<CastEnvironment> cast_environment_;

   // Transport used to send data back.
   CastTransport* const transport_;

   // Deserializes a packet into a RtpHeader + payload bytes.
   RtpParser packet_parser_;

   // Accumulates packet statistics, including packet loss, counts, and jitter.
   ReceiverStats stats_;

   // Partitions logged events by the type of media passing through.
   EventMediaType event_media_type_;

   // Subscribes to raw events.
   // Processes raw events to be sent over to the cast sender via RTCP.
   ReceiverRtcpEventSubscriber event_subscriber_;

   // RTP timebase: The number of RTP units advanced per one second.
   const int rtp_timebase_;

   // The total amount of time between a frame's capture/recording on the sender
   // and its playback on the receiver (i.e., shown to a user).  This is fixed as
   // a value large enough to give the system sufficient time to encode,
   // transmit/retransmit, receive, decode, and render; given its run-time
   // environment (sender/receiver hardware performance, network conditions,
   // etc.).
   base::TimeDelta target_playout_delay_;

   // Hack: This is used in logic that determines whether to skip frames.
   // TODO(miu): Revisit this.  Logic needs to also account for expected decode
   // time.
   const base::TimeDelta expected_frame_duration_;

   // Set to false initially, then set to true after scheduling the periodic
   // sending of reports back to the sender.  Reports are first scheduled just
   // after receiving a first packet (since the first packet identifies the
   // sender for the remainder of the session).
   bool reports_are_scheduled_;

   // Assembles packets into frames, providing this receiver with complete,
   // decodable EncodedFrames.
   Framer framer_;

   // Manages sending/receiving of RTCP packets, including sender/receiver
   // reports.
   ReceiverRtcpSession rtcp_;

   // Decrypts encrypted frames.
   TransportEncryptionHandler decryptor_;

   // Outstanding callbacks to run to deliver on client requests for frames.
   std::list<ReceiveEncodedFrameCallback> frame_request_queue_;

   // True while there's an outstanding task to re-invoke
   // EmitAvailableEncodedFrames().
   bool is_waiting_for_consecutive_frame_;

   // This mapping allows us to log FRAME_ACK_SENT as a frame event. In addition
   // it allows the event to be transmitted via RTCP.  The index into this ring
   // buffer is the lower 8 bits of the FrameId.
   RtpTimeTicks frame_id_to_rtp_timestamp_[256];

   // Lip-sync values used to compute the playout time of each frame from its RTP
   // timestamp.  These are updated each time the first packet of a frame is
   // received.
   RtpTimeTicks lip_sync_rtp_timestamp_;
   base::TimeTicks lip_sync_reference_time_;
   ClockDriftSmoother lip_sync_drift_;

   // NOTE: Weak pointers must be invalidated before all other member variables.
   base::WeakPtrFactory<FrameReceiver> weak_factory_;

   DISALLOW_COPY_AND_ASSIGN(FrameReceiver);
 };

 }  // namespace cast
 }  // namespace media
 }  // namespace cobalt

 #endif  // COBALT_MEDIA_CAST_RECEIVER_FRAME_RECEIVER_H_
	// 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.

	#ifndef COBALT_MEDIA_CAST_RECEIVER_FRAME_RECEIVER_H_
	#define COBALT_MEDIA_CAST_RECEIVER_FRAME_RECEIVER_H_

	#include <list>
	#include <memory>

	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/weak_ptr.h"
	#include "base/time/time.h"
	#include "media/cast/cast_receiver.h"
	#include "media/cast/common/clock_drift_smoother.h"
	#include "media/cast/common/rtp_time.h"
	#include "media/cast/common/transport_encryption_handler.h"
	#include "media/cast/logging/logging_defines.h"
	#include "media/cast/net/rtcp/receiver_rtcp_event_subscriber.h"
	#include "media/cast/net/rtcp/receiver_rtcp_session.h"
	#include "media/cast/net/rtp/framer.h"
	#include "media/cast/net/rtp/receiver_stats.h"
	#include "media/cast/net/rtp/rtp_defines.h"
	#include "media/cast/net/rtp/rtp_parser.h"
	#include "starboard/types.h"

	namespace cobalt {
	namespace media {
	namespace cast {

	class CastEnvironment;

	// FrameReceiver receives packets out-of-order while clients make requests for
	// complete frames in-order. (A frame consists of one or more packets.)
	//
	// FrameReceiver also includes logic for computing the playout time for each
	// frame, accounting for a constant targeted playout delay. The purpose of the
	// playout delay is to provide a fixed window of time between the capture event
	// on the sender and the playout on the receiver. This is important because
	// each step of the pipeline (i.e., encode frame, then transmit/retransmit from
	// the sender, then receive and re-order packets on the receiver, then decode
	// frame) can vary in duration and is typically very hard to predict.
	//
	// Each request for a frame includes a callback which FrameReceiver guarantees
	// will be called at some point in the future unless the FrameReceiver is
	// destroyed. Clients should generally limit the number of outstanding requests
	// (perhaps to just one or two).
	//
	// This class is not thread safe. Should only be called from the Main cast
	// thread.
	class FrameReceiver : public RtpPayloadFeedback,
	public base::SupportsWeakPtr<FrameReceiver> {
	public:
	FrameReceiver(const scoped_refptr<CastEnvironment>& cast_environment,
	const FrameReceiverConfig& config,
	EventMediaType event_media_type,
	CastTransport* const transport);

	~FrameReceiver() final;

	// Request an encoded frame.
	//
	// The given \|callback\| is guaranteed to be run at some point in the future,
	// except for those requests still enqueued at destruction time.
	void RequestEncodedFrame(const ReceiveEncodedFrameCallback& callback);

	// Called to deliver another packet, possibly a duplicate, and possibly
	// out-of-order. Returns true if the parsing of the packet succeeded.
	bool ProcessPacket(std::unique_ptr<Packet> packet);

	protected:
	friend class FrameReceiverTest; // Invokes ProcessParsedPacket().

	void ProcessParsedPacket(const RtpCastHeader& rtp_header,
	const uint8_t* payload_data, size_t payload_size);

	// RtpPayloadFeedback implementation.
	void CastFeedback(const RtcpCastMessage& cast_message) final;

	private:
	// Processes ready-to-consume packets from \|framer_\|, decrypting each packet's
	// payload data, and then running the enqueued callbacks in order (one for
	// each packet). This method may post a delayed task to re-invoke itself in
	// the future to wait for missing/incomplete frames.
	void EmitAvailableEncodedFrames();

	// Clears the \|is_waiting_for_consecutive_frame_\| flag and invokes
	// EmitAvailableEncodedFrames().
	void EmitAvailableEncodedFramesAfterWaiting();

	// Helper that runs \|callback\|, passing ownership of \|encoded_frame\| to it.
	// This method is used by EmitAvailableEncodedFrames() to return to the event
	// loop, but make sure that FrameReceiver is still alive before the callback
	// is run.
	void EmitOneFrame(const ReceiveEncodedFrameCallback& callback,
	std::unique_ptr<EncodedFrame> encoded_frame) const;

	// Computes the playout time for a frame with the given \|rtp_timestamp\|.
	// Because lip-sync info is refreshed regularly, calling this method with the
	// same argument may return different results.
	base::TimeTicks GetPlayoutTime(const EncodedFrame& frame) const;

	// Schedule timing for the next cast message.
	void ScheduleNextCastMessage();

	// Schedule timing for the next RTCP report.
	void ScheduleNextRtcpReport();

	// Actually send the next cast message.
	void SendNextCastMessage();

	// Actually send the next RTCP report.
	void SendNextRtcpReport();

	// Interface to send RTCP reports.
	// \|cast_message\|, \|rtcp_events\| and \|rtp_receiver_statistics\| are optional;
	// if \|cast_message\| is provided the RTCP receiver report will contain a Cast
	// ACK/NACK feedback message; \|target_delay\| is sent together with
	// \|cast_message\|. If \|rtcp_events\| is provided the RTCP receiver report will
	// include event log messages
	void SendRtcpReport(
	uint32_t rtp_receiver_ssrc, uint32_t rtp_sender_ssrc,
	const RtcpTimeData& time_data, const RtcpCastMessage* cast_message,
	const RtcpPliMessage* pli_message, base::TimeDelta target_delay,
	const ReceiverRtcpEventSubscriber::RtcpEvents* rtcp_events,
	const RtpReceiverStatistics* rtp_receiver_statistics);

	const scoped_refptr<CastEnvironment> cast_environment_;

	// Transport used to send data back.
	CastTransport* const transport_;

	// Deserializes a packet into a RtpHeader + payload bytes.
	RtpParser packet_parser_;

	// Accumulates packet statistics, including packet loss, counts, and jitter.
	ReceiverStats stats_;

	// Partitions logged events by the type of media passing through.
	EventMediaType event_media_type_;

	// Subscribes to raw events.
	// Processes raw events to be sent over to the cast sender via RTCP.
	ReceiverRtcpEventSubscriber event_subscriber_;

	// RTP timebase: The number of RTP units advanced per one second.
	const int rtp_timebase_;

	// The total amount of time between a frame's capture/recording on the sender
	// and its playback on the receiver (i.e., shown to a user). This is fixed as
	// a value large enough to give the system sufficient time to encode,
	// transmit/retransmit, receive, decode, and render; given its run-time
	// environment (sender/receiver hardware performance, network conditions,
	// etc.).
	base::TimeDelta target_playout_delay_;

	// Hack: This is used in logic that determines whether to skip frames.
	// TODO(miu): Revisit this. Logic needs to also account for expected decode
	// time.
	const base::TimeDelta expected_frame_duration_;

	// Set to false initially, then set to true after scheduling the periodic
	// sending of reports back to the sender. Reports are first scheduled just
	// after receiving a first packet (since the first packet identifies the
	// sender for the remainder of the session).
	bool reports_are_scheduled_;

	// Assembles packets into frames, providing this receiver with complete,
	// decodable EncodedFrames.
	Framer framer_;

	// Manages sending/receiving of RTCP packets, including sender/receiver
	// reports.
	ReceiverRtcpSession rtcp_;

	// Decrypts encrypted frames.
	TransportEncryptionHandler decryptor_;

	// Outstanding callbacks to run to deliver on client requests for frames.
	std::list<ReceiveEncodedFrameCallback> frame_request_queue_;

	// True while there's an outstanding task to re-invoke
	// EmitAvailableEncodedFrames().
	bool is_waiting_for_consecutive_frame_;

	// This mapping allows us to log FRAME_ACK_SENT as a frame event. In addition
	// it allows the event to be transmitted via RTCP. The index into this ring
	// buffer is the lower 8 bits of the FrameId.
	RtpTimeTicks frame_id_to_rtp_timestamp_[256];

	// Lip-sync values used to compute the playout time of each frame from its RTP
	// timestamp. These are updated each time the first packet of a frame is
	// received.
	RtpTimeTicks lip_sync_rtp_timestamp_;
	base::TimeTicks lip_sync_reference_time_;
	ClockDriftSmoother lip_sync_drift_;

	// NOTE: Weak pointers must be invalidated before all other member variables.
	base::WeakPtrFactory<FrameReceiver> weak_factory_;

	DISALLOW_COPY_AND_ASSIGN(FrameReceiver);
	};

	} // namespace cast
	} // namespace media
	} // namespace cobalt

	#endif // COBALT_MEDIA_CAST_RECEIVER_FRAME_RECEIVER_H_