/* * Copyright (C) 2022 Huawei Device Co., Ltd. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "gtest/gtest.h" #include "AudioDecoderDemoCommon.h" #include "avcodec_info.h" #include "avcodec_errors.h" #include "media_description.h" #include "av_common.h" #include "meta/format.h" using namespace std; using namespace testing::ext; using namespace OHOS; using namespace OHOS::MediaAVCodec; namespace { class InnerParamCheckTest : public testing::Test { public: static void SetUpTestCase(); static void TearDownTestCase(); void SetUp() override; void TearDown() override; }; void InnerParamCheckTest::SetUpTestCase() {} void InnerParamCheckTest::TearDownTestCase() {} void InnerParamCheckTest::SetUp() {} void InnerParamCheckTest::TearDown() {} } // namespace /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_001 * @tc.name : InnerCreateByMime * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_001, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByMime("audio/mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByMime("audio/mp4a-latm"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByMime("audio/vorbis"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByMime("audio/flac"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByMime("audio/amr-wb"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByMime("audio/3gpp"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByMime("audio/g711mu"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByMime("aaa"); ASSERT_EQ(AVCS_ERR_INVALID_OPERATION, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_002 * @tc.name : InnerCreateByName * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_002, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.AAC"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Flac"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Vorbis"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Amrwb"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Amrnb"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.G711mu"); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); ret = decoderDemo->InnerCreateByName("aaa"); ASSERT_EQ(AVCS_ERR_INVALID_OPERATION, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_003 * @tc.name : InnerConfigure - MD_KEY_BITRATE * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_003, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); Format audioParams; audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, 320000); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 1); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 48000); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerReset(); audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, -1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerReset(); audioParams.PutStringValue(MediaDescriptionKey::MD_KEY_BITRATE, "aaaaaa"); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerReset(); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_BITRATE, 0); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerReset(); audioParams.PutFloatValue(MediaDescriptionKey::MD_KEY_BITRATE, 0.1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerReset(); audioParams.PutDoubleValue(MediaDescriptionKey::MD_KEY_BITRATE, 0.1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); uint8_t b[100]; decoderDemo->InnerReset(); audioParams.PutBuffer(MediaDescriptionKey::MD_KEY_BITRATE, b, 100); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_004 * @tc.name : InnerConfigure - MD_KEY_CHANNEL_COUNT check * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_004, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); Format audioParams; audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, 320000); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 1); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 48000); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerReset(); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, -1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutStringValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, "aaaaaa"); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 0); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutFloatValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 0.1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutDoubleValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 0.1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); uint8_t b[100]; decoderDemo->InnerReset(); audioParams.PutBuffer(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, b, 100); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_005 * @tc.name : InnerConfigure - MD_KEY_SAMPLE_RATE check * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_005, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); Format audioParams; audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, 320000); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 1); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 48000); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerReset(); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, -1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutStringValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, "aaaaaa"); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 0); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutFloatValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 0.1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerReset(); audioParams.PutDoubleValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 0.1); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); uint8_t b[100]; decoderDemo->InnerReset(); audioParams.PutBuffer(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, b, 100); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_006 * @tc.name : InnerQueueInputBuffer - index check * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_006, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); Format audioParams; std::shared_ptr signal_ = decoderDemo->getSignal(); std::shared_ptr cb_ = make_unique(signal_); decoderDemo->InnerSetCallback(cb_); audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, 320000); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 1); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 48000); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerPrepare(); decoderDemo->InnerStart(); uint32_t index = decoderDemo->NativeGetInputIndex(); AVCodecBufferInfo info; AVCodecBufferFlag flag; info.presentationTimeUs = 0; info.size = 100; info.offset = 0; flag = AVCODEC_BUFFER_FLAG_NONE; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_OK, ret); index = -1; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_NO_MEMORY, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_007 * @tc.name : InnerQueueInputBuffer - info.presentationTimeUs check * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_007, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); Format audioParams; std::shared_ptr signal_ = decoderDemo->getSignal(); std::shared_ptr cb_ = make_unique(signal_); decoderDemo->InnerSetCallback(cb_); audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, 320000); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 1); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 48000); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerPrepare(); decoderDemo->InnerStart(); uint32_t index = decoderDemo->NativeGetInputIndex(); std::shared_ptr buffer = signal_->inInnerBufQueue_.front(); ASSERT_NE(nullptr, buffer); AVCodecBufferInfo info; AVCodecBufferFlag flag; info.presentationTimeUs = 0; info.size = 100; info.offset = 0; flag = AVCODEC_BUFFER_FLAG_NONE; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_OK, ret); index = decoderDemo->NativeGetInputIndex(); info.presentationTimeUs = -1; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_008 * @tc.name : InnerQueueInputBuffer - info.size check * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_008, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); Format audioParams; std::shared_ptr signal_ = decoderDemo->getSignal(); std::shared_ptr cb_ = make_unique(signal_); decoderDemo->InnerSetCallback(cb_); audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, 320000); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 1); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 48000); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerPrepare(); decoderDemo->InnerStart(); uint32_t index = decoderDemo->NativeGetInputIndex(); AVCodecBufferInfo info; AVCodecBufferFlag flag; info.presentationTimeUs = 0; info.size = 100; info.offset = 0; flag = AVCODEC_BUFFER_FLAG_NONE; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_OK, ret); index = decoderDemo->NativeGetInputIndex(); info.size = -1; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerDestroy(); delete decoderDemo; } /** * @tc.number : SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_009 * @tc.name : InnerQueueInputBuffer - offset * @tc.desc : param check test */ HWTEST_F(InnerParamCheckTest, SUB_MULTIMEDIA_AUDIO_DECODER_PARAM_CHECK_009, TestSize.Level2) { AudioDecoderDemo *decoderDemo = new AudioDecoderDemo(); int32_t ret = decoderDemo->InnerCreateByName("OH.Media.Codec.Decoder.Audio.Mpeg"); ASSERT_EQ(AVCS_ERR_OK, ret); Format audioParams; std::shared_ptr signal_ = decoderDemo->getSignal(); std::shared_ptr cb_ = make_unique(signal_); decoderDemo->InnerSetCallback(cb_); audioParams.PutLongValue(MediaDescriptionKey::MD_KEY_BITRATE, 320000); audioParams.PutIntValue("bits_per_coded_sample", 4); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_CHANNEL_COUNT, 1); audioParams.PutIntValue(MediaDescriptionKey::MD_KEY_SAMPLE_RATE, 48000); ret = decoderDemo->InnerConfigure(audioParams); ASSERT_EQ(AVCS_ERR_OK, ret); decoderDemo->InnerPrepare(); decoderDemo->InnerStart(); uint32_t index = decoderDemo->NativeGetInputIndex(); AVCodecBufferInfo info; AVCodecBufferFlag flag; info.presentationTimeUs = 0; info.size = 100; info.offset = 0; flag = AVCODEC_BUFFER_FLAG_NONE; index = 0; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_OK, ret); index = decoderDemo->NativeGetInputIndex(); info.offset = -1; ret = decoderDemo->InnerQueueInputBuffer(index, info, flag); ASSERT_EQ(AVCS_ERR_INVALID_VAL, ret); decoderDemo->InnerDestroy(); delete decoderDemo; }