1 /*
2  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
3  *
4  *  Use of this source code is governed by a BSD-style license
5  *  that can be found in the LICENSE file in the root of the source
6  *  tree. An additional intellectual property rights grant can be found
7  *  in the file PATENTS.  All contributing project authors may
8  *  be found in the AUTHORS file in the root of the source tree.
9  */
10 
11 #ifndef WEBRTC_MODULES_VIDEO_CODING_JITTER_BUFFER_H_
12 #define WEBRTC_MODULES_VIDEO_CODING_JITTER_BUFFER_H_
13 
14 #include <list>
15 #include <map>
16 #include <set>
17 #include <vector>
18 
19 #include "webrtc/base/constructormagic.h"
20 #include "webrtc/base/thread_annotations.h"
21 #include "webrtc/modules/include/module_common_types.h"
22 #include "webrtc/modules/video_coding/include/video_coding.h"
23 #include "webrtc/modules/video_coding/include/video_coding_defines.h"
24 #include "webrtc/modules/video_coding/decoding_state.h"
25 #include "webrtc/modules/video_coding/inter_frame_delay.h"
26 #include "webrtc/modules/video_coding/jitter_buffer_common.h"
27 #include "webrtc/modules/video_coding/jitter_estimator.h"
28 #include "webrtc/system_wrappers/include/critical_section_wrapper.h"
29 #include "webrtc/typedefs.h"
30 
31 namespace webrtc {
32 
33 enum VCMNackMode { kNack, kNoNack };
34 
35 // forward declarations
36 class Clock;
37 class EventFactory;
38 class EventWrapper;
39 class VCMFrameBuffer;
40 class VCMPacket;
41 class VCMEncodedFrame;
42 
43 typedef std::list<VCMFrameBuffer*> UnorderedFrameList;
44 
45 struct VCMJitterSample {
VCMJitterSampleVCMJitterSample46   VCMJitterSample() : timestamp(0), frame_size(0), latest_packet_time(-1) {}
47   uint32_t timestamp;
48   uint32_t frame_size;
49   int64_t latest_packet_time;
50 };
51 
52 class TimestampLessThan {
53  public:
operator()54   bool operator()(uint32_t timestamp1, uint32_t timestamp2) const {
55     return IsNewerTimestamp(timestamp2, timestamp1);
56   }
57 };
58 
59 class FrameList
60     : public std::map<uint32_t, VCMFrameBuffer*, TimestampLessThan> {
61  public:
62   void InsertFrame(VCMFrameBuffer* frame);
63   VCMFrameBuffer* PopFrame(uint32_t timestamp);
64   VCMFrameBuffer* Front() const;
65   VCMFrameBuffer* Back() const;
66   int RecycleFramesUntilKeyFrame(FrameList::iterator* key_frame_it,
67                                  UnorderedFrameList* free_frames);
68   void CleanUpOldOrEmptyFrames(VCMDecodingState* decoding_state,
69                                UnorderedFrameList* free_frames);
70   void Reset(UnorderedFrameList* free_frames);
71 };
72 
73 class Vp9SsMap {
74  public:
75   typedef std::map<uint32_t, GofInfoVP9, TimestampLessThan> SsMap;
76   bool Insert(const VCMPacket& packet);
77   void Reset();
78 
79   // Removes SS data that are older than |timestamp|.
80   // The |timestamp| should be an old timestamp, i.e. packets with older
81   // timestamps should no longer be inserted.
82   void RemoveOld(uint32_t timestamp);
83 
84   bool UpdatePacket(VCMPacket* packet);
85   void UpdateFrames(FrameList* frames);
86 
87   // Public for testing.
88   // Returns an iterator to the corresponding SS data for the input |timestamp|.
89   bool Find(uint32_t timestamp, SsMap::iterator* it);
90 
91  private:
92   // These two functions are called by RemoveOld.
93   // Checks if it is time to do a clean up (done each kSsCleanupIntervalSec).
94   bool TimeForCleanup(uint32_t timestamp) const;
95 
96   // Advances the oldest SS data to handle timestamp wrap in cases where SS data
97   // are received very seldom (e.g. only once in beginning, second when
98   // IsNewerTimestamp is not true).
99   void AdvanceFront(uint32_t timestamp);
100 
101   SsMap ss_map_;
102 };
103 
104 class VCMJitterBuffer {
105  public:
106   VCMJitterBuffer(Clock* clock, rtc::scoped_ptr<EventWrapper> event);
107 
108   ~VCMJitterBuffer();
109 
110   // Initializes and starts jitter buffer.
111   void Start();
112 
113   // Signals all internal events and stops the jitter buffer.
114   void Stop();
115 
116   // Returns true if the jitter buffer is running.
117   bool Running() const;
118 
119   // Empty the jitter buffer of all its data.
120   void Flush();
121 
122   // Get the number of received frames, by type, since the jitter buffer
123   // was started.
124   FrameCounts FrameStatistics() const;
125 
126   // The number of packets discarded by the jitter buffer because the decoder
127   // won't be able to decode them.
128   int num_not_decodable_packets() const;
129 
130   // Gets number of packets received.
131   int num_packets() const;
132 
133   // Gets number of duplicated packets received.
134   int num_duplicated_packets() const;
135 
136   // Gets number of packets discarded by the jitter buffer.
137   int num_discarded_packets() const;
138 
139   // Statistics, Calculate frame and bit rates.
140   void IncomingRateStatistics(unsigned int* framerate, unsigned int* bitrate);
141 
142   // Checks if the packet sequence will be complete if the next frame would be
143   // grabbed for decoding. That is, if a frame has been lost between the
144   // last decoded frame and the next, or if the next frame is missing one
145   // or more packets.
146   bool CompleteSequenceWithNextFrame();
147 
148   // Wait |max_wait_time_ms| for a complete frame to arrive.
149   // The function returns true once such a frame is found, its corresponding
150   // timestamp is returned. Otherwise, returns false.
151   bool NextCompleteTimestamp(uint32_t max_wait_time_ms, uint32_t* timestamp);
152 
153   // Locates a frame for decoding (even an incomplete) without delay.
154   // The function returns true once such a frame is found, its corresponding
155   // timestamp is returned. Otherwise, returns false.
156   bool NextMaybeIncompleteTimestamp(uint32_t* timestamp);
157 
158   // Extract frame corresponding to input timestamp.
159   // Frame will be set to a decoding state.
160   VCMEncodedFrame* ExtractAndSetDecode(uint32_t timestamp);
161 
162   // Releases a frame returned from the jitter buffer, should be called when
163   // done with decoding.
164   void ReleaseFrame(VCMEncodedFrame* frame);
165 
166   // Returns the time in ms when the latest packet was inserted into the frame.
167   // Retransmitted is set to true if any of the packets belonging to the frame
168   // has been retransmitted.
169   int64_t LastPacketTime(const VCMEncodedFrame* frame,
170                          bool* retransmitted) const;
171 
172   // Inserts a packet into a frame returned from GetFrame().
173   // If the return value is <= 0, |frame| is invalidated and the pointer must
174   // be dropped after this function returns.
175   VCMFrameBufferEnum InsertPacket(const VCMPacket& packet, bool* retransmitted);
176 
177   // Returns the estimated jitter in milliseconds.
178   uint32_t EstimatedJitterMs();
179 
180   // Updates the round-trip time estimate.
181   void UpdateRtt(int64_t rtt_ms);
182 
183   // Set the NACK mode. |high_rtt_nack_threshold_ms| is an RTT threshold in ms
184   // above which NACK will be disabled if the NACK mode is |kNack|, -1 meaning
185   // that NACK is always enabled in the |kNack| mode.
186   // |low_rtt_nack_threshold_ms| is an RTT threshold in ms below which we expect
187   // to rely on NACK only, and therefore are using larger buffers to have time
188   // to wait for retransmissions.
189   void SetNackMode(VCMNackMode mode,
190                    int64_t low_rtt_nack_threshold_ms,
191                    int64_t high_rtt_nack_threshold_ms);
192 
193   void SetNackSettings(size_t max_nack_list_size,
194                        int max_packet_age_to_nack,
195                        int max_incomplete_time_ms);
196 
197   // Returns the current NACK mode.
198   VCMNackMode nack_mode() const;
199 
200   // Returns a list of the sequence numbers currently missing.
201   std::vector<uint16_t> GetNackList(bool* request_key_frame);
202 
203   // Set decode error mode - Should not be changed in the middle of the
204   // session. Changes will not influence frames already in the buffer.
205   void SetDecodeErrorMode(VCMDecodeErrorMode error_mode);
206   int64_t LastDecodedTimestamp() const;
decode_error_mode()207   VCMDecodeErrorMode decode_error_mode() const { return decode_error_mode_; }
208 
209   // Used to compute time of complete continuous frames. Returns the timestamps
210   // corresponding to the start and end of the continuous complete buffer.
211   void RenderBufferSize(uint32_t* timestamp_start, uint32_t* timestamp_end);
212 
213   void RegisterStatsCallback(VCMReceiveStatisticsCallback* callback);
214 
215  private:
216   class SequenceNumberLessThan {
217    public:
operator()218     bool operator()(const uint16_t& sequence_number1,
219                     const uint16_t& sequence_number2) const {
220       return IsNewerSequenceNumber(sequence_number2, sequence_number1);
221     }
222   };
223   typedef std::set<uint16_t, SequenceNumberLessThan> SequenceNumberSet;
224 
225   // Gets the frame assigned to the timestamp of the packet. May recycle
226   // existing frames if no free frames are available. Returns an error code if
227   // failing, or kNoError on success. |frame_list| contains which list the
228   // packet was in, or NULL if it was not in a FrameList (a new frame).
229   VCMFrameBufferEnum GetFrame(const VCMPacket& packet,
230                               VCMFrameBuffer** frame,
231                               FrameList** frame_list)
232       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
233 
234   // Returns true if |frame| is continuous in |decoding_state|, not taking
235   // decodable frames into account.
236   bool IsContinuousInState(const VCMFrameBuffer& frame,
237                            const VCMDecodingState& decoding_state) const
238       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
239   // Returns true if |frame| is continuous in the |last_decoded_state_|, taking
240   // all decodable frames into account.
241   bool IsContinuous(const VCMFrameBuffer& frame) const
242       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
243   // Looks for frames in |incomplete_frames_| which are continuous in the
244   // provided |decoded_state|. Starts the search from the timestamp of
245   // |decoded_state|.
246   void FindAndInsertContinuousFramesWithState(
247       const VCMDecodingState& decoded_state)
248       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
249   // Looks for frames in |incomplete_frames_| which are continuous in
250   // |last_decoded_state_| taking all decodable frames into account. Starts
251   // the search from |new_frame|.
252   void FindAndInsertContinuousFrames(const VCMFrameBuffer& new_frame)
253       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
254   VCMFrameBuffer* NextFrame() const EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
255   // Returns true if the NACK list was updated to cover sequence numbers up to
256   // |sequence_number|. If false a key frame is needed to get into a state where
257   // we can continue decoding.
258   bool UpdateNackList(uint16_t sequence_number)
259       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
260   bool TooLargeNackList() const;
261   // Returns true if the NACK list was reduced without problem. If false a key
262   // frame is needed to get into a state where we can continue decoding.
263   bool HandleTooLargeNackList() EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
264   bool MissingTooOldPacket(uint16_t latest_sequence_number) const
265       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
266   // Returns true if the too old packets was successfully removed from the NACK
267   // list. If false, a key frame is needed to get into a state where we can
268   // continue decoding.
269   bool HandleTooOldPackets(uint16_t latest_sequence_number)
270       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
271   // Drops all packets in the NACK list up until |last_decoded_sequence_number|.
272   void DropPacketsFromNackList(uint16_t last_decoded_sequence_number);
273 
274   void ReleaseFrameIfNotDecoding(VCMFrameBuffer* frame);
275 
276   // Gets an empty frame, creating a new frame if necessary (i.e. increases
277   // jitter buffer size).
278   VCMFrameBuffer* GetEmptyFrame() EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
279 
280   // Attempts to increase the size of the jitter buffer. Returns true on
281   // success, false otherwise.
282   bool TryToIncreaseJitterBufferSize() EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
283 
284   // Recycles oldest frames until a key frame is found. Used if jitter buffer is
285   // completely full. Returns true if a key frame was found.
286   bool RecycleFramesUntilKeyFrame() EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
287 
288   // Updates the frame statistics.
289   // Counts only complete frames, so decodable incomplete frames will not be
290   // counted.
291   void CountFrame(const VCMFrameBuffer& frame)
292       EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
293 
294   // Update rolling average of packets per frame.
295   void UpdateAveragePacketsPerFrame(int current_number_packets_);
296 
297   // Cleans the frame list in the JB from old/empty frames.
298   // Should only be called prior to actual use.
299   void CleanUpOldOrEmptyFrames() EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
300 
301   // Returns true if |packet| is likely to have been retransmitted.
302   bool IsPacketRetransmitted(const VCMPacket& packet) const;
303 
304   // The following three functions update the jitter estimate with the
305   // payload size, receive time and RTP timestamp of a frame.
306   void UpdateJitterEstimate(const VCMJitterSample& sample,
307                             bool incomplete_frame);
308   void UpdateJitterEstimate(const VCMFrameBuffer& frame, bool incomplete_frame);
309   void UpdateJitterEstimate(int64_t latest_packet_time_ms,
310                             uint32_t timestamp,
311                             unsigned int frame_size,
312                             bool incomplete_frame);
313 
314   // Returns true if we should wait for retransmissions, false otherwise.
315   bool WaitForRetransmissions();
316 
317   int NonContinuousOrIncompleteDuration() EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
318 
319   uint16_t EstimatedLowSequenceNumber(const VCMFrameBuffer& frame) const;
320 
321   void UpdateHistograms() EXCLUSIVE_LOCKS_REQUIRED(crit_sect_);
322 
323   Clock* clock_;
324   // If we are running (have started) or not.
325   bool running_;
326   CriticalSectionWrapper* crit_sect_;
327   // Event to signal when we have a frame ready for decoder.
328   rtc::scoped_ptr<EventWrapper> frame_event_;
329   // Number of allocated frames.
330   int max_number_of_frames_;
331   UnorderedFrameList free_frames_ GUARDED_BY(crit_sect_);
332   FrameList decodable_frames_ GUARDED_BY(crit_sect_);
333   FrameList incomplete_frames_ GUARDED_BY(crit_sect_);
334   VCMDecodingState last_decoded_state_ GUARDED_BY(crit_sect_);
335   bool first_packet_since_reset_;
336 
337   // Statistics.
338   VCMReceiveStatisticsCallback* stats_callback_ GUARDED_BY(crit_sect_);
339   // Frame counts for each type (key, delta, ...)
340   FrameCounts receive_statistics_;
341   // Latest calculated frame rates of incoming stream.
342   unsigned int incoming_frame_rate_;
343   unsigned int incoming_frame_count_;
344   int64_t time_last_incoming_frame_count_;
345   unsigned int incoming_bit_count_;
346   unsigned int incoming_bit_rate_;
347   // Number of frames in a row that have been too old.
348   int num_consecutive_old_frames_;
349   // Number of packets in a row that have been too old.
350   int num_consecutive_old_packets_;
351   // Number of packets received.
352   int num_packets_ GUARDED_BY(crit_sect_);
353   // Number of duplicated packets received.
354   int num_duplicated_packets_ GUARDED_BY(crit_sect_);
355   // Number of packets discarded by the jitter buffer.
356   int num_discarded_packets_ GUARDED_BY(crit_sect_);
357   // Time when first packet is received.
358   int64_t time_first_packet_ms_ GUARDED_BY(crit_sect_);
359 
360   // Jitter estimation.
361   // Filter for estimating jitter.
362   VCMJitterEstimator jitter_estimate_;
363   // Calculates network delays used for jitter calculations.
364   VCMInterFrameDelay inter_frame_delay_;
365   VCMJitterSample waiting_for_completion_;
366   int64_t rtt_ms_;
367 
368   // NACK and retransmissions.
369   VCMNackMode nack_mode_;
370   int64_t low_rtt_nack_threshold_ms_;
371   int64_t high_rtt_nack_threshold_ms_;
372   // Holds the internal NACK list (the missing sequence numbers).
373   SequenceNumberSet missing_sequence_numbers_;
374   uint16_t latest_received_sequence_number_;
375   size_t max_nack_list_size_;
376   int max_packet_age_to_nack_;  // Measured in sequence numbers.
377   int max_incomplete_time_ms_;
378 
379   VCMDecodeErrorMode decode_error_mode_;
380   // Estimated rolling average of packets per frame
381   float average_packets_per_frame_;
382   // average_packets_per_frame converges fast if we have fewer than this many
383   // frames.
384   int frame_counter_;
385   RTC_DISALLOW_COPY_AND_ASSIGN(VCMJitterBuffer);
386 };
387 }  // namespace webrtc
388 
389 #endif  // WEBRTC_MODULES_VIDEO_CODING_JITTER_BUFFER_H_
390