• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /*
2  * Copyright (C) 2023 Huawei Device Co., Ltd.
3  * Licensed under the Apache License, Version 2.0 (the "License");
4  * you may not use this file except in compliance with the License.
5  * You may obtain a copy of the License at
6  *
7  *     http://www.apache.org/licenses/LICENSE-2.0
8  *
9  * Unless required by applicable law or agreed to in writing, software
10  * distributed under the License is distributed on an "AS IS" BASIS,
11  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12  * See the License for the specific language governing permissions and
13  * limitations under the License.
14  */
15 
16 #include "avcodec_log.h"
17 #include "avcodec_errors.h"
18 #include "codeclist_builder.h"
19 #ifndef CLIENT_SUPPORT_CODEC
20 #include "hcodec_loader.h"
21 #endif
22 #include "codec_ability_singleton.h"
23 
24 namespace {
25 constexpr OHOS::HiviewDFX::HiLogLabel LABEL = {LOG_CORE, LOG_DOMAIN_FRAMEWORK, "CodecAbilitySingleton"};
26 }
27 
28 namespace OHOS {
29 namespace MediaAVCodec {
GetCodecLists()30 std::unordered_map<CodecType, std::shared_ptr<CodecListBase>> GetCodecLists()
31 {
32     std::unordered_map<CodecType, std::shared_ptr<CodecListBase>> codecLists;
33 #ifndef CLIENT_SUPPORT_CODEC
34     std::shared_ptr<CodecListBase> vcodecList = std::make_shared<VideoCodecList>();
35     codecLists.insert(std::make_pair(CodecType::AVCODEC_VIDEO_CODEC, vcodecList));
36     std::shared_ptr<CodecListBase> hevcDecoderList = std::make_shared<VideoHevcDecoderList>();
37     codecLists.insert(std::make_pair(CodecType::AVCODEC_VIDEO_HEVC_DECODER, hevcDecoderList));
38 #endif
39     std::shared_ptr<CodecListBase> acodecList = std::make_shared<AudioCodecList>();
40     codecLists.insert(std::make_pair(CodecType::AVCODEC_AUDIO_CODEC, acodecList));
41     return codecLists;
42 }
43 
GetInstance()44 CodecAbilitySingleton &CodecAbilitySingleton::GetInstance()
45 {
46     static CodecAbilitySingleton instance;
47     return instance;
48 }
49 
CodecAbilitySingleton()50 CodecAbilitySingleton::CodecAbilitySingleton()
51 {
52 #ifndef CLIENT_SUPPORT_CODEC
53     std::vector<CapabilityData> videoCapaArray;
54     if (HCodecLoader::GetCapabilityList(videoCapaArray) == AVCS_ERR_OK) {
55         RegisterCapabilityArray(videoCapaArray, CodecType::AVCODEC_HCODEC);
56     }
57 #endif
58     std::unordered_map<CodecType, std::shared_ptr<CodecListBase>> codecLists = GetCodecLists();
59     for (auto iter = codecLists.begin(); iter != codecLists.end(); iter++) {
60         CodecType codecType = iter->first;
61         std::vector<CapabilityData> capaArray;
62         int32_t ret = iter->second->GetCapabilityList(capaArray);
63         if (ret == AVCS_ERR_OK) {
64             RegisterCapabilityArray(capaArray, codecType);
65         }
66     }
67     AVCODEC_LOGI("Succeed");
68 }
69 
~CodecAbilitySingleton()70 CodecAbilitySingleton::~CodecAbilitySingleton()
71 {
72     AVCODEC_LOGI("Succeed");
73 }
74 
IsCapabilityValid(const CapabilityData & cap)75 bool CodecAbilitySingleton::IsCapabilityValid(const CapabilityData &cap)
76 {
77     CHECK_AND_RETURN_RET_LOG(!cap.codecName.empty(), false, "codecName is empty");
78     CHECK_AND_RETURN_RET_LOG(cap.codecType > AVCodecType::AVCODEC_TYPE_NONE && cap.codecType <=
79         AVCodecType::AVCODEC_TYPE_AUDIO_DECODER, false, "codecType is invalid, %{public}d", cap.codecType);
80     CHECK_AND_RETURN_RET_LOG(!cap.mimeType.empty(), false, "mimeType is empty");
81     CHECK_AND_RETURN_RET_LOG(cap.maxInstance > 0, false, "maxInstance is invalid, %{public}d", cap.maxInstance);
82     if (cap.codecType == AVCodecType::AVCODEC_TYPE_VIDEO_ENCODER ||
83         cap.codecType == AVCodecType::AVCODEC_TYPE_VIDEO_DECODER) {
84         CHECK_AND_RETURN_RET_LOG(cap.width.minVal > 0 && cap.width.minVal <= cap.width.maxVal, false,
85             "width is invalid, range is [%{public}d, %{public}d]", cap.width.minVal, cap.width.maxVal);
86         CHECK_AND_RETURN_RET_LOG(cap.height.minVal > 0 && cap.height.minVal <= cap.height.maxVal, false,
87             "height is invalid, range is [%{public}d, %{public}d]", cap.height.minVal, cap.height.maxVal);
88     }
89     return true;
90 }
91 
RegisterCapabilityArray(std::vector<CapabilityData> & capaArray,CodecType codecType)92 void CodecAbilitySingleton::RegisterCapabilityArray(std::vector<CapabilityData> &capaArray, CodecType codecType)
93 {
94     std::lock_guard<std::mutex> lock(mutex_);
95     size_t beginIdx = capabilityDataArray_.size();
96     for (auto iter = capaArray.begin(); iter != capaArray.end(); iter++) {
97         if (!IsCapabilityValid(*iter)) {
98             AVCODEC_LOGE("cap is invalid, codecName is %{public}s", (*iter).codecName.c_str());
99             continue;
100         }
101         std::string mimeType = (*iter).mimeType;
102         std::vector<size_t> idxVec;
103         if (mimeCapIdxMap_.find(mimeType) == mimeCapIdxMap_.end()) {
104             mimeCapIdxMap_.insert(std::make_pair(mimeType, idxVec));
105         }
106         if ((*iter).profileLevelsMap.size() > MAX_MAP_SIZE) {
107             while ((*iter).profileLevelsMap.size() > MAX_MAP_SIZE) {
108                 auto rIter = (*iter).profileLevelsMap.end();
109                 (*iter).profileLevelsMap.erase(--rIter);
110             }
111             std::vector<int32_t> newProfiles;
112             (*iter).profiles.swap(newProfiles);
113             auto nIter = (*iter).profileLevelsMap.begin();
114             while (nIter != (*iter).profileLevelsMap.end()) {
115                 (*iter).profiles.emplace_back(nIter->first);
116                 nIter++;
117             }
118         }
119         while ((*iter).measuredFrameRate.size() > MAX_MAP_SIZE) {
120             auto rIter = (*iter).measuredFrameRate.end();
121             (*iter).measuredFrameRate.erase(--rIter);
122         }
123         capabilityDataArray_.emplace_back(*iter);
124         mimeCapIdxMap_.at(mimeType).emplace_back(beginIdx);
125         nameCodecTypeMap_.insert(std::make_pair((*iter).codecName, codecType));
126         beginIdx++;
127     }
128     AVCODEC_LOGD("Register capability successful");
129 }
130 
GetCapabilityArray()131 std::vector<CapabilityData> CodecAbilitySingleton::GetCapabilityArray()
132 {
133     std::lock_guard<std::mutex> lock(mutex_);
134     return capabilityDataArray_;
135 }
136 
GetCapabilityByName(const std::string & name)137 std::optional<CapabilityData> CodecAbilitySingleton::GetCapabilityByName(const std::string &name)
138 {
139     auto it = std::find_if(capabilityDataArray_.begin(), capabilityDataArray_.end(), [&](const CapabilityData &cap) {
140         return cap.codecName == name;
141     });
142     return it == capabilityDataArray_.end() ? std::nullopt : std::make_optional<CapabilityData>(*it);
143 }
144 
GetMimeByCodecName(const std::string & name)145 std::string CodecAbilitySingleton::GetMimeByCodecName(const std::string & name)
146 {
147     std::lock_guard<std::mutex> lock(mutex_);
148     for (const auto &cap : capabilityDataArray_) {
149         if (cap.codecName == name) {
150             return cap.mimeType;
151         }
152     }
153     return "";
154 }
155 
GetNameCodecTypeMap()156 std::unordered_map<std::string, CodecType> CodecAbilitySingleton::GetNameCodecTypeMap()
157 {
158     std::lock_guard<std::mutex> lock(mutex_);
159     return nameCodecTypeMap_;
160 }
161 
GetMimeCapIdxMap()162 std::unordered_map<std::string, std::vector<size_t>> CodecAbilitySingleton::GetMimeCapIdxMap()
163 {
164     std::lock_guard<std::mutex> lock(mutex_);
165     return mimeCapIdxMap_;
166 }
167 } // namespace MediaAVCodec
168 } // namespace OHOS
169