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1 /*
2  *  Copyright (c) 2015 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 #include "webrtc/modules/rtp_rtcp/source/packet_loss_stats.h"
12 
13 #include <vector>
14 
15 #include "webrtc/base/checks.h"
16 
17 // After this many packets are added, adding additional packets will cause the
18 // oldest packets to be pruned from the buffer.
19 static const int kBufferSize = 100;
20 
21 namespace webrtc {
22 
PacketLossStats()23 PacketLossStats::PacketLossStats()
24     : single_loss_historic_count_(0),
25       multiple_loss_historic_event_count_(0),
26       multiple_loss_historic_packet_count_(0) {
27 }
28 
AddLostPacket(uint16_t sequence_number)29 void PacketLossStats::AddLostPacket(uint16_t sequence_number) {
30   // Detect sequence number wrap around.
31   if (!lost_packets_buffer_.empty() &&
32       static_cast<int>(*(lost_packets_buffer_.rbegin())) - sequence_number
33       > 0x8000) {
34     // The buffer contains large numbers and this is a small number.
35     lost_packets_wrapped_buffer_.insert(sequence_number);
36   } else {
37     lost_packets_buffer_.insert(sequence_number);
38   }
39   if (lost_packets_wrapped_buffer_.size() + lost_packets_buffer_.size()
40       > kBufferSize || (!lost_packets_wrapped_buffer_.empty() &&
41                         *(lost_packets_wrapped_buffer_.rbegin()) > 0x4000)) {
42     PruneBuffer();
43   }
44 }
45 
GetSingleLossCount() const46 int PacketLossStats::GetSingleLossCount() const {
47   int single_loss_count, unused1, unused2;
48   ComputeLossCounts(&single_loss_count, &unused1, &unused2);
49   return single_loss_count;
50 }
51 
GetMultipleLossEventCount() const52 int PacketLossStats::GetMultipleLossEventCount() const {
53   int event_count, unused1, unused2;
54   ComputeLossCounts(&unused1, &event_count, &unused2);
55   return event_count;
56 }
57 
GetMultipleLossPacketCount() const58 int PacketLossStats::GetMultipleLossPacketCount() const {
59   int packet_count, unused1, unused2;
60   ComputeLossCounts(&unused1, &unused2, &packet_count);
61   return packet_count;
62 }
63 
ComputeLossCounts(int * out_single_loss_count,int * out_multiple_loss_event_count,int * out_multiple_loss_packet_count) const64 void PacketLossStats::ComputeLossCounts(
65     int* out_single_loss_count,
66     int* out_multiple_loss_event_count,
67     int* out_multiple_loss_packet_count) const {
68   *out_single_loss_count = single_loss_historic_count_;
69   *out_multiple_loss_event_count = multiple_loss_historic_event_count_;
70   *out_multiple_loss_packet_count = multiple_loss_historic_packet_count_;
71   if (lost_packets_buffer_.empty()) {
72     RTC_DCHECK(lost_packets_wrapped_buffer_.empty());
73     return;
74   }
75   uint16_t last_num = 0;
76   int sequential_count = 0;
77   std::vector<const std::set<uint16_t>*> buffers;
78   buffers.push_back(&lost_packets_buffer_);
79   buffers.push_back(&lost_packets_wrapped_buffer_);
80   for (auto buffer : buffers) {
81     for (auto it = buffer->begin(); it != buffer->end(); ++it) {
82       uint16_t current_num = *it;
83       if (sequential_count > 0 && current_num != ((last_num + 1) & 0xFFFF)) {
84         if (sequential_count == 1) {
85           (*out_single_loss_count)++;
86         } else {
87           (*out_multiple_loss_event_count)++;
88           *out_multiple_loss_packet_count += sequential_count;
89         }
90         sequential_count = 0;
91       }
92       sequential_count++;
93       last_num = current_num;
94     }
95   }
96   if (sequential_count == 1) {
97     (*out_single_loss_count)++;
98   } else if (sequential_count > 1) {
99     (*out_multiple_loss_event_count)++;
100     *out_multiple_loss_packet_count += sequential_count;
101   }
102 }
103 
PruneBuffer()104 void PacketLossStats::PruneBuffer() {
105   // Remove the oldest lost packet and any contiguous packets and move them
106   // into the historic counts.
107   auto it = lost_packets_buffer_.begin();
108   uint16_t last_removed = 0;
109   int remove_count = 0;
110   // Count adjacent packets and continue counting if it is wrap around by
111   // swapping in the wrapped buffer and letting our value wrap as well.
112   while (remove_count == 0 || (!lost_packets_buffer_.empty() &&
113                                *it == ((last_removed + 1) & 0xFFFF))) {
114     last_removed = *it;
115     remove_count++;
116     auto to_erase = it++;
117     lost_packets_buffer_.erase(to_erase);
118     if (lost_packets_buffer_.empty()) {
119       lost_packets_buffer_.swap(lost_packets_wrapped_buffer_);
120       it = lost_packets_buffer_.begin();
121     }
122   }
123   if (remove_count > 1) {
124     multiple_loss_historic_event_count_++;
125     multiple_loss_historic_packet_count_ += remove_count;
126   } else {
127     single_loss_historic_count_++;
128   }
129   // Continue pruning if the wrapped buffer is beyond a threshold and there are
130   // things left in the pre-wrapped buffer.
131   if (!lost_packets_wrapped_buffer_.empty() &&
132       *(lost_packets_wrapped_buffer_.rbegin()) > 0x4000) {
133     PruneBuffer();
134   }
135 }
136 
137 }  // namespace webrtc
138