1 /*
2  *  Copyright (c) 2018 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 "modules/video_coding/decoder_database.h"
12 
13 #include "rtc_base/checks.h"
14 #include "rtc_base/logging.h"
15 
16 namespace webrtc {
17 
VCMDecoderMapItem(VideoCodec * settings,int number_of_cores,bool require_key_frame)18 VCMDecoderMapItem::VCMDecoderMapItem(VideoCodec* settings,
19                                      int number_of_cores,
20                                      bool require_key_frame)
21     : settings(settings),
22       number_of_cores(number_of_cores),
23       require_key_frame(require_key_frame) {
24   RTC_DCHECK_GE(number_of_cores, 0);
25 }
26 
VCMExtDecoderMapItem(VideoDecoder * external_decoder_instance,uint8_t payload_type)27 VCMExtDecoderMapItem::VCMExtDecoderMapItem(
28     VideoDecoder* external_decoder_instance,
29     uint8_t payload_type)
30     : payload_type(payload_type),
31       external_decoder_instance(external_decoder_instance) {}
32 
~VCMDecoderMapItem()33 VCMDecoderMapItem::~VCMDecoderMapItem() {}
34 
VCMDecoderDataBase()35 VCMDecoderDataBase::VCMDecoderDataBase()
36     : receive_codec_(), dec_map_(), dec_external_map_() {}
37 
~VCMDecoderDataBase()38 VCMDecoderDataBase::~VCMDecoderDataBase() {
39   ptr_decoder_.reset();
40   for (auto& kv : dec_map_)
41     delete kv.second;
42   for (auto& kv : dec_external_map_)
43     delete kv.second;
44 }
45 
DeregisterExternalDecoder(uint8_t payload_type)46 bool VCMDecoderDataBase::DeregisterExternalDecoder(uint8_t payload_type) {
47   ExternalDecoderMap::iterator it = dec_external_map_.find(payload_type);
48   if (it == dec_external_map_.end()) {
49     // Not found.
50     return false;
51   }
52   // We can't use payload_type to check if the decoder is currently in use,
53   // because payload type may be out of date (e.g. before we decode the first
54   // frame after RegisterReceiveCodec).
55   if (ptr_decoder_ &&
56       ptr_decoder_->IsSameDecoder((*it).second->external_decoder_instance)) {
57     // Release it if it was registered and in use.
58     ptr_decoder_.reset();
59   }
60   DeregisterReceiveCodec(payload_type);
61   delete it->second;
62   dec_external_map_.erase(it);
63   return true;
64 }
65 
66 // Add the external decoder object to the list of external decoders.
67 // Won't be registered as a receive codec until RegisterReceiveCodec is called.
RegisterExternalDecoder(VideoDecoder * external_decoder,uint8_t payload_type)68 void VCMDecoderDataBase::RegisterExternalDecoder(VideoDecoder* external_decoder,
69                                                  uint8_t payload_type) {
70   // If payload value already exists, erase old and insert new.
71   VCMExtDecoderMapItem* ext_decoder =
72       new VCMExtDecoderMapItem(external_decoder, payload_type);
73   DeregisterExternalDecoder(payload_type);
74   dec_external_map_[payload_type] = ext_decoder;
75 }
76 
RegisterReceiveCodec(const VideoCodec * receive_codec,int number_of_cores,bool require_key_frame)77 bool VCMDecoderDataBase::RegisterReceiveCodec(const VideoCodec* receive_codec,
78                                               int number_of_cores,
79                                               bool require_key_frame) {
80   if (number_of_cores < 0) {
81     return false;
82   }
83   // If payload value already exists, erase old and insert new.
84   DeregisterReceiveCodec(receive_codec->plType);
85   VideoCodec* new_receive_codec = new VideoCodec(*receive_codec);
86   dec_map_[receive_codec->plType] = new VCMDecoderMapItem(
87       new_receive_codec, number_of_cores, require_key_frame);
88   return true;
89 }
90 
DeregisterReceiveCodec(uint8_t payload_type)91 bool VCMDecoderDataBase::DeregisterReceiveCodec(uint8_t payload_type) {
92   DecoderMap::iterator it = dec_map_.find(payload_type);
93   if (it == dec_map_.end()) {
94     return false;
95   }
96   delete it->second;
97   dec_map_.erase(it);
98   if (receive_codec_.plType == payload_type) {
99     // This codec is currently in use.
100     memset(&receive_codec_, 0, sizeof(VideoCodec));
101   }
102   return true;
103 }
104 
GetDecoder(const VCMEncodedFrame & frame,VCMDecodedFrameCallback * decoded_frame_callback)105 VCMGenericDecoder* VCMDecoderDataBase::GetDecoder(
106     const VCMEncodedFrame& frame,
107     VCMDecodedFrameCallback* decoded_frame_callback) {
108   RTC_DCHECK(decoded_frame_callback->UserReceiveCallback());
109   uint8_t payload_type = frame.PayloadType();
110   if (payload_type == receive_codec_.plType || payload_type == 0) {
111     return ptr_decoder_.get();
112   }
113   // If decoder exists - delete.
114   if (ptr_decoder_) {
115     ptr_decoder_.reset();
116     memset(&receive_codec_, 0, sizeof(VideoCodec));
117   }
118   ptr_decoder_ = CreateAndInitDecoder(frame, &receive_codec_);
119   if (!ptr_decoder_) {
120     return nullptr;
121   }
122   VCMReceiveCallback* callback = decoded_frame_callback->UserReceiveCallback();
123   callback->OnIncomingPayloadType(receive_codec_.plType);
124   if (ptr_decoder_->RegisterDecodeCompleteCallback(decoded_frame_callback) <
125       0) {
126     ptr_decoder_.reset();
127     memset(&receive_codec_, 0, sizeof(VideoCodec));
128     return nullptr;
129   }
130   return ptr_decoder_.get();
131 }
132 
PrefersLateDecoding() const133 bool VCMDecoderDataBase::PrefersLateDecoding() const {
134   return ptr_decoder_ ? ptr_decoder_->PrefersLateDecoding() : true;
135 }
136 
CreateAndInitDecoder(const VCMEncodedFrame & frame,VideoCodec * new_codec) const137 std::unique_ptr<VCMGenericDecoder> VCMDecoderDataBase::CreateAndInitDecoder(
138     const VCMEncodedFrame& frame,
139     VideoCodec* new_codec) const {
140   uint8_t payload_type = frame.PayloadType();
141   RTC_LOG(LS_INFO) << "Initializing decoder with payload type '"
142                    << static_cast<int>(payload_type) << "'.";
143   RTC_DCHECK(new_codec);
144   const VCMDecoderMapItem* decoder_item = FindDecoderItem(payload_type);
145   if (!decoder_item) {
146     RTC_LOG(LS_ERROR) << "Can't find a decoder associated with payload type: "
147                       << static_cast<int>(payload_type);
148     return nullptr;
149   }
150   std::unique_ptr<VCMGenericDecoder> ptr_decoder;
151   const VCMExtDecoderMapItem* external_dec_item =
152       FindExternalDecoderItem(payload_type);
153   if (external_dec_item) {
154     // External codec.
155     ptr_decoder.reset(new VCMGenericDecoder(
156         external_dec_item->external_decoder_instance, true));
157   } else {
158     RTC_LOG(LS_ERROR) << "No decoder of this type exists.";
159   }
160   if (!ptr_decoder)
161     return nullptr;
162 
163   // Copy over input resolutions to prevent codec reinitialization due to
164   // the first frame being of a different resolution than the database values.
165   // This is best effort, since there's no guarantee that width/height have been
166   // parsed yet (and may be zero).
167   if (frame.EncodedImage()._encodedWidth > 0 &&
168       frame.EncodedImage()._encodedHeight > 0) {
169     decoder_item->settings->width = frame.EncodedImage()._encodedWidth;
170     decoder_item->settings->height = frame.EncodedImage()._encodedHeight;
171   }
172   int err = ptr_decoder->InitDecode(decoder_item->settings.get(),
173                                     decoder_item->number_of_cores);
174   if (err < 0) {
175     RTC_LOG(LS_ERROR) << "Failed to initialize decoder. Error code: " << err;
176     return nullptr;
177   }
178   memcpy(new_codec, decoder_item->settings.get(), sizeof(VideoCodec));
179   return ptr_decoder;
180 }
181 
FindDecoderItem(uint8_t payload_type) const182 const VCMDecoderMapItem* VCMDecoderDataBase::FindDecoderItem(
183     uint8_t payload_type) const {
184   DecoderMap::const_iterator it = dec_map_.find(payload_type);
185   if (it != dec_map_.end()) {
186     return (*it).second;
187   }
188   return nullptr;
189 }
190 
FindExternalDecoderItem(uint8_t payload_type) const191 const VCMExtDecoderMapItem* VCMDecoderDataBase::FindExternalDecoderItem(
192     uint8_t payload_type) const {
193   ExternalDecoderMap::const_iterator it = dec_external_map_.find(payload_type);
194   if (it != dec_external_map_.end()) {
195     return (*it).second;
196   }
197   return nullptr;
198 }
199 
200 }  // namespace webrtc
201