modules/audio_coding/neteq/packet_buffer.h - src - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef MODULES_AUDIO_CODING_NETEQ_PACKET_BUFFER_H_
 #define MODULES_AUDIO_CODING_NETEQ_PACKET_BUFFER_H_

 #include "absl/types/optional.h"
 #include "modules/audio_coding/neteq/decoder_database.h"
 #include "modules/audio_coding/neteq/packet.h"
 #include "modules/include/module_common_types_public.h"  // IsNewerTimestamp
 #include "rtc_base/constructor_magic.h"

 namespace webrtc {

 class DecoderDatabase;
 class StatisticsCalculator;
 class TickTimer;
 struct SmartFlushingConfig {
   // When calculating the flushing threshold, the maximum between the target
   // level and this value is used.
   int target_level_threshold_ms = 500;
   // A smart flush is triggered when the packet buffer contains a multiple of
   // the target level.
   int target_level_multiplier = 3;
 };

 // This is the actual buffer holding the packets before decoding.
 class PacketBuffer {
  public:
   enum BufferReturnCodes {
     kOK = 0,
     kFlushed,
     kPartialFlush,
     kNotFound,
     kBufferEmpty,
     kInvalidPacket,
     kInvalidPointer
   };

   // Constructor creates a buffer which can hold a maximum of
   // |max_number_of_packets| packets.
   PacketBuffer(size_t max_number_of_packets, const TickTimer* tick_timer);

   // Deletes all packets in the buffer before destroying the buffer.
   virtual ~PacketBuffer();

   // Flushes the buffer and deletes all packets in it.
   virtual void Flush(StatisticsCalculator* stats);

   // Partial flush. Flush packets but leave some packets behind.
   virtual void PartialFlush(int target_level_ms,
                             size_t sample_rate,
                             size_t last_decoded_length,
                             StatisticsCalculator* stats);

   // Returns true for an empty buffer.
   virtual bool Empty() const;

   // Inserts |packet| into the buffer. The buffer will take over ownership of
   // the packet object.
   // Returns PacketBuffer::kOK on success, PacketBuffer::kFlushed if the buffer
   // was flushed due to overfilling.
   virtual int InsertPacket(Packet&& packet,
                            StatisticsCalculator* stats,
                            size_t last_decoded_length,
                            size_t sample_rate,
                            int target_level_ms,
                            const DecoderDatabase& decoder_database);

   // Inserts a list of packets into the buffer. The buffer will take over
   // ownership of the packet objects.
   // Returns PacketBuffer::kOK if all packets were inserted successfully.
   // If the buffer was flushed due to overfilling, only a subset of the list is
   // inserted, and PacketBuffer::kFlushed is returned.
   // The last three parameters are included for legacy compatibility.
   // TODO(hlundin): Redesign to not use current_*_payload_type and
   // decoder_database.
   virtual int InsertPacketList(
       PacketList* packet_list,
       const DecoderDatabase& decoder_database,
       absl::optional<uint8_t>* current_rtp_payload_type,
       absl::optional<uint8_t>* current_cng_rtp_payload_type,
       StatisticsCalculator* stats,
       size_t last_decoded_length,
       size_t sample_rate,
       int target_level_ms);

   // Gets the timestamp for the first packet in the buffer and writes it to the
   // output variable |next_timestamp|.
   // Returns PacketBuffer::kBufferEmpty if the buffer is empty,
   // PacketBuffer::kOK otherwise.
   virtual int NextTimestamp(uint32_t* next_timestamp) const;

   // Gets the timestamp for the first packet in the buffer with a timestamp no
   // lower than the input limit |timestamp|. The result is written to the output
   // variable |next_timestamp|.
   // Returns PacketBuffer::kBufferEmpty if the buffer is empty,
   // PacketBuffer::kOK otherwise.
   virtual int NextHigherTimestamp(uint32_t timestamp,
                                   uint32_t* next_timestamp) const;

   // Returns a (constant) pointer to the first packet in the buffer. Returns
   // NULL if the buffer is empty.
   virtual const Packet* PeekNextPacket() const;

   // Extracts the first packet in the buffer and returns it.
   // Returns an empty optional if the buffer is empty.
   virtual absl::optional<Packet> GetNextPacket();

   // Discards the first packet in the buffer. The packet is deleted.
   // Returns PacketBuffer::kBufferEmpty if the buffer is empty,
   // PacketBuffer::kOK otherwise.
   virtual int DiscardNextPacket(StatisticsCalculator* stats);

   // Discards all packets that are (strictly) older than timestamp_limit,
   // but newer than timestamp_limit - horizon_samples. Setting horizon_samples
   // to zero implies that the horizon is set to half the timestamp range. That
   // is, if a packet is more than 2^31 timestamps into the future compared with
   // timestamp_limit (including wrap-around), it is considered old.
   virtual void DiscardOldPackets(uint32_t timestamp_limit,
                                  uint32_t horizon_samples,
                                  StatisticsCalculator* stats);

   // Discards all packets that are (strictly) older than timestamp_limit.
   virtual void DiscardAllOldPackets(uint32_t timestamp_limit,
                                     StatisticsCalculator* stats);

   // Removes all packets with a specific payload type from the buffer.
   virtual void DiscardPacketsWithPayloadType(uint8_t payload_type,
                                              StatisticsCalculator* stats);

   // Returns the number of packets in the buffer, including duplicates and
   // redundant packets.
   virtual size_t NumPacketsInBuffer() const;

   // Returns the number of samples in the buffer, including samples carried in
   // duplicate and redundant packets.
   virtual size_t NumSamplesInBuffer(size_t last_decoded_length) const;

   // Returns the total duration in samples that the packets in the buffer spans
   // across.
   virtual size_t GetSpanSamples(size_t last_decoded_length,
                                 size_t sample_rate,
                                 bool count_dtx_waiting_time) const;

   // Returns true if the packet buffer contains any DTX or CNG packets.
   virtual bool ContainsDtxOrCngPacket(
       const DecoderDatabase* decoder_database) const;

   // Static method returning true if |timestamp| is older than |timestamp_limit|
   // but less than |horizon_samples| behind |timestamp_limit|. For instance,
   // with timestamp_limit = 100 and horizon_samples = 10, a timestamp in the
   // range (90, 100) is considered obsolete, and will yield true.
   // Setting |horizon_samples| to 0 is the same as setting it to 2^31, i.e.,
   // half the 32-bit timestamp range.
   static bool IsObsoleteTimestamp(uint32_t timestamp,
                                   uint32_t timestamp_limit,
                                   uint32_t horizon_samples) {
     return IsNewerTimestamp(timestamp_limit, timestamp) &&
            (horizon_samples == 0 ||
             IsNewerTimestamp(timestamp, timestamp_limit - horizon_samples));
   }

  private:
   absl::optional<SmartFlushingConfig> smart_flushing_config_;
   size_t max_number_of_packets_;
   PacketList buffer_;
   const TickTimer* tick_timer_;
   RTC_DISALLOW_COPY_AND_ASSIGN(PacketBuffer);
 };

 }  // namespace webrtc
 #endif  // MODULES_AUDIO_CODING_NETEQ_PACKET_BUFFER_H_
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef MODULES_AUDIO_CODING_NETEQ_PACKET_BUFFER_H_
	#define MODULES_AUDIO_CODING_NETEQ_PACKET_BUFFER_H_

	#include "absl/types/optional.h"
	#include "modules/audio_coding/neteq/decoder_database.h"
	#include "modules/audio_coding/neteq/packet.h"
	#include "modules/include/module_common_types_public.h" // IsNewerTimestamp
	#include "rtc_base/constructor_magic.h"

	namespace webrtc {

	class DecoderDatabase;
	class StatisticsCalculator;
	class TickTimer;
	struct SmartFlushingConfig {
	// When calculating the flushing threshold, the maximum between the target
	// level and this value is used.
	int target_level_threshold_ms = 500;
	// A smart flush is triggered when the packet buffer contains a multiple of
	// the target level.
	int target_level_multiplier = 3;
	};

	// This is the actual buffer holding the packets before decoding.
	class PacketBuffer {
	public:
	enum BufferReturnCodes {
	kOK = 0,
	kFlushed,
	kPartialFlush,
	kNotFound,
	kBufferEmpty,
	kInvalidPacket,
	kInvalidPointer
	};

	// Constructor creates a buffer which can hold a maximum of
	// \|max_number_of_packets\| packets.
	PacketBuffer(size_t max_number_of_packets, const TickTimer* tick_timer);

	// Deletes all packets in the buffer before destroying the buffer.
	virtual ~PacketBuffer();

	// Flushes the buffer and deletes all packets in it.
	virtual void Flush(StatisticsCalculator* stats);

	// Partial flush. Flush packets but leave some packets behind.
	virtual void PartialFlush(int target_level_ms,
	size_t sample_rate,
	size_t last_decoded_length,
	StatisticsCalculator* stats);

	// Returns true for an empty buffer.
	virtual bool Empty() const;

	// Inserts \|packet\| into the buffer. The buffer will take over ownership of
	// the packet object.
	// Returns PacketBuffer::kOK on success, PacketBuffer::kFlushed if the buffer
	// was flushed due to overfilling.
	virtual int InsertPacket(Packet&& packet,
	StatisticsCalculator* stats,
	size_t last_decoded_length,
	size_t sample_rate,
	int target_level_ms,
	const DecoderDatabase& decoder_database);

	// Inserts a list of packets into the buffer. The buffer will take over
	// ownership of the packet objects.
	// Returns PacketBuffer::kOK if all packets were inserted successfully.
	// If the buffer was flushed due to overfilling, only a subset of the list is
	// inserted, and PacketBuffer::kFlushed is returned.
	// The last three parameters are included for legacy compatibility.
	// TODO(hlundin): Redesign to not use current_*_payload_type and
	// decoder_database.
	virtual int InsertPacketList(
	PacketList* packet_list,
	const DecoderDatabase& decoder_database,
	absl::optional<uint8_t>* current_rtp_payload_type,
	absl::optional<uint8_t>* current_cng_rtp_payload_type,
	StatisticsCalculator* stats,
	size_t last_decoded_length,
	size_t sample_rate,
	int target_level_ms);

	// Gets the timestamp for the first packet in the buffer and writes it to the
	// output variable \|next_timestamp\|.
	// Returns PacketBuffer::kBufferEmpty if the buffer is empty,
	// PacketBuffer::kOK otherwise.
	virtual int NextTimestamp(uint32_t* next_timestamp) const;

	// Gets the timestamp for the first packet in the buffer with a timestamp no
	// lower than the input limit \|timestamp\|. The result is written to the output
	// variable \|next_timestamp\|.
	// Returns PacketBuffer::kBufferEmpty if the buffer is empty,
	// PacketBuffer::kOK otherwise.
	virtual int NextHigherTimestamp(uint32_t timestamp,
	uint32_t* next_timestamp) const;

	// Returns a (constant) pointer to the first packet in the buffer. Returns
	// NULL if the buffer is empty.
	virtual const Packet* PeekNextPacket() const;

	// Extracts the first packet in the buffer and returns it.
	// Returns an empty optional if the buffer is empty.
	virtual absl::optional<Packet> GetNextPacket();

	// Discards the first packet in the buffer. The packet is deleted.
	// Returns PacketBuffer::kBufferEmpty if the buffer is empty,
	// PacketBuffer::kOK otherwise.
	virtual int DiscardNextPacket(StatisticsCalculator* stats);

	// Discards all packets that are (strictly) older than timestamp_limit,
	// but newer than timestamp_limit - horizon_samples. Setting horizon_samples
	// to zero implies that the horizon is set to half the timestamp range. That
	// is, if a packet is more than 2^31 timestamps into the future compared with
	// timestamp_limit (including wrap-around), it is considered old.
	virtual void DiscardOldPackets(uint32_t timestamp_limit,
	uint32_t horizon_samples,
	StatisticsCalculator* stats);

	// Discards all packets that are (strictly) older than timestamp_limit.
	virtual void DiscardAllOldPackets(uint32_t timestamp_limit,
	StatisticsCalculator* stats);

	// Removes all packets with a specific payload type from the buffer.
	virtual void DiscardPacketsWithPayloadType(uint8_t payload_type,
	StatisticsCalculator* stats);

	// Returns the number of packets in the buffer, including duplicates and
	// redundant packets.
	virtual size_t NumPacketsInBuffer() const;

	// Returns the number of samples in the buffer, including samples carried in
	// duplicate and redundant packets.
	virtual size_t NumSamplesInBuffer(size_t last_decoded_length) const;

	// Returns the total duration in samples that the packets in the buffer spans
	// across.
	virtual size_t GetSpanSamples(size_t last_decoded_length,
	size_t sample_rate,
	bool count_dtx_waiting_time) const;

	// Returns true if the packet buffer contains any DTX or CNG packets.
	virtual bool ContainsDtxOrCngPacket(
	const DecoderDatabase* decoder_database) const;

	// Static method returning true if \|timestamp\| is older than \|timestamp_limit\|
	// but less than \|horizon_samples\| behind \|timestamp_limit\|. For instance,
	// with timestamp_limit = 100 and horizon_samples = 10, a timestamp in the
	// range (90, 100) is considered obsolete, and will yield true.
	// Setting \|horizon_samples\| to 0 is the same as setting it to 2^31, i.e.,
	// half the 32-bit timestamp range.
	static bool IsObsoleteTimestamp(uint32_t timestamp,
	uint32_t timestamp_limit,
	uint32_t horizon_samples) {
	return IsNewerTimestamp(timestamp_limit, timestamp) &&
	(horizon_samples == 0 \|\|
	IsNewerTimestamp(timestamp, timestamp_limit - horizon_samples));
	}

	private:
	absl::optional<SmartFlushingConfig> smart_flushing_config_;
	size_t max_number_of_packets_;
	PacketList buffer_;
	const TickTimer* tick_timer_;
	RTC_DISALLOW_COPY_AND_ASSIGN(PacketBuffer);
	};

	} // namespace webrtc
	#endif // MODULES_AUDIO_CODING_NETEQ_PACKET_BUFFER_H_