/* * Copyright (C) 2023 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 "native_avcodec_videodecoder.h" #include "native_averrors.h" #include "videodec_ndk_sample.h" #include "native_avcodec_base.h" #include "avcodec_codec_name.h" #include "native_avcapability.h" #define MAX_THREAD 16 using namespace std; using namespace OHOS; using namespace OHOS::Media; using namespace testing::ext; namespace OHOS { namespace Media { class HwdecFuncNdkTest : public testing::Test { public: static void SetUpTestCase(); static void TearDownTestCase(); void SetUp() override; void TearDown() override; void InputFunc(); void OutputFunc(); void Release(); int32_t Stop(); protected: const char *INP_DIR_720_30 = "/data/test/media/1280_720_30_10Mb.h264"; const char *INP_DIR_1080_30 = "/data/test/media/1920_1080_10_30Mb.h264"; }; } // namespace Media } // namespace OHOS namespace { static OH_AVCapability *cap = nullptr; static OH_AVCapability *cap_hevc = nullptr; static OH_AVRange heightRange; static OH_AVRange widthRange; static OH_AVErrCode ret = AV_ERR_OK; static string g_codecName = ""; static string g_codecNameHEVC = ""; constexpr int32_t DEFAULT_WIDTH = 1920; constexpr int32_t DEFAULT_HEIGHT = 1080; constexpr int32_t UHD_RESOLUTION[2] = {3840, 2160}; constexpr int32_t HD_RESOLUTION[2] = {1104, 622}; } // namespace void HwdecFuncNdkTest::SetUpTestCase() { cap = OH_AVCodec_GetCapabilityByCategory(OH_AVCODEC_MIMETYPE_VIDEO_AVC, false, HARDWARE); g_codecName = OH_AVCapability_GetName(cap); cout << "codecname: " << g_codecName << endl; cap_hevc = OH_AVCodec_GetCapabilityByCategory(OH_AVCODEC_MIMETYPE_VIDEO_HEVC, false, HARDWARE); g_codecNameHEVC = OH_AVCapability_GetName(cap_hevc); cout << "g_codecNameHEVC: " << g_codecNameHEVC << endl; ret = OH_AVCapability_GetVideoHeightRange(cap, &heightRange); cout << "minval=" << heightRange.minVal << " maxval=" << heightRange.maxVal << endl; ret = OH_AVCapability_GetVideoWidthRangeForHeight(cap, heightRange.maxVal, &widthRange); cout << "minval=" << widthRange.minVal << " maxval=" << widthRange.maxVal << endl; } void HwdecFuncNdkTest::TearDownTestCase() {} void HwdecFuncNdkTest::SetUp() {} void HwdecFuncNdkTest::TearDown() {} namespace { /** * @tc.number : VIDEO_HWDEC_FUNCTION_0200 * @tc.name : create nonexist decoder * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_0200, TestSize.Level1) { OH_AVCodec *vdec_ = OH_VideoDecoder_CreateByName("OMX.h264.decode.111.222.333"); ASSERT_EQ(nullptr, vdec_); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_0300 * @tc.name : test h264 asyn decode buffer * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_0300, TestSize.Level0) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec(g_codecName)); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_0400 * @tc.name : test h264 asyn decode surface * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_0400, TestSize.Level0) { VDecNdkSample *vDecSample = new VDecNdkSample(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->SF_OUTPUT = true; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecName)); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); delete vDecSample; vDecSample = nullptr; } /** * @tc.number : VIDEO_HWDEC_FUNCTION_0700 * @tc.name : test set EOS when last frame * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_0700, TestSize.Level1) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_0800 * @tc.name : test set EOS before last frame then stop * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_0800, TestSize.Level1) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; vDecSample->BEFORE_EOS_INPUT = true; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_0900 * @tc.name : test set EOS before last frame then input frames * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_0900, TestSize.Level1) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; vDecSample->BEFORE_EOS_INPUT_INPUT = true; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_1000 * @tc.name : test reconfigure for new file with one decoder * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_1000, TestSize.Level1) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; vDecSample->AFTER_EOS_DESTORY_CODEC = false; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); ASSERT_EQ(AV_ERR_OK, vDecSample->Reset()); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_1100 * @tc.name : test reconfigure for new file with the recreated decoder * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_1100, TestSize.Level1) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; vDecSample->AFTER_EOS_DESTORY_CODEC = false; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_1200 * @tc.name : repeat start and stop 5 times before EOS * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_1200, TestSize.Level2) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; vDecSample->REPEAT_START_STOP_BEFORE_EOS = 5; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_1300 * @tc.name : repeat start and flush 5 times before EOS * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_1300, TestSize.Level2) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; vDecSample->REPEAT_START_FLUSH_BEFORE_EOS = 5; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_1400 * @tc.name : set larger width and height * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_1400, TestSize.Level2) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_720_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : VIDEO_HWDEC_FUNCTION_1600 * @tc.name : 265 decode * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_1600, TestSize.Level2) { if (cap_hevc) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/1920_1080_20M_30.h265"; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameHEVC)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } } /** * @tc.number : VIDEO_HWDEC_FUNCTION_1700 * @tc.name : resolution change * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, VIDEO_HWDEC_FUNCTION_1700, TestSize.Level2) { if (g_codecName.find("hisi") != string::npos) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/resolutionChange.h264"; vDecSample->DEFAULT_WIDTH = 1104; vDecSample->DEFAULT_HEIGHT = 622; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } else { cout << "hardware encoder is rk,skip." << endl; } } /** * @tc.number : SURF_CHANGE_FUNC_001 * @tc.name : surf change in normal state * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, SURF_CHANGE_FUNC_001, TestSize.Level0) { auto vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = DEFAULT_WIDTH; vDecSample->DEFAULT_HEIGHT = DEFAULT_HEIGHT; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = true; vDecSample->autoSwitchSurface = true; vDecSample->AFTER_EOS_DESTORY_CODEC = false; vDecSample->sleepOnFPS = true; ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecName)); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); ASSERT_EQ(AV_ERR_OK, vDecSample->Reset()); ASSERT_EQ(AV_ERR_INVALID_STATE, vDecSample->SwitchSurface()); ASSERT_EQ(AV_ERR_OK, vDecSample->Release()); } /** * @tc.number : SURF_CHANGE_FUNC_002 * @tc.name : surf change in flushed state * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, SURF_CHANGE_FUNC_002, TestSize.Level0) { auto vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = DEFAULT_WIDTH; vDecSample->DEFAULT_HEIGHT = DEFAULT_HEIGHT; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = true; vDecSample->autoSwitchSurface = true; vDecSample->sleepOnFPS = true; ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->Flush()); ASSERT_EQ(AV_ERR_OK, vDecSample->SwitchSurface()); ASSERT_EQ(AV_ERR_OK, vDecSample->Stop()); } /** * @tc.number : SURF_CHANGE_FUNC_003 * @tc.name : surf change in buffer mode * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, SURF_CHANGE_FUNC_003, TestSize.Level0) { shared_ptr vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = 1920; vDecSample->DEFAULT_HEIGHT = 1080; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = false; vDecSample->CreateSurface(); ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec(g_codecName)); ASSERT_EQ(AV_ERR_OPERATE_NOT_PERMIT, vDecSample->SwitchSurface()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : SURF_CHANGE_FUNC_004 * @tc.name : repeat call setSurface fastly * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, SURF_CHANGE_FUNC_004, TestSize.Level0) { auto vDecSample = make_shared(); vDecSample->INP_DIR = INP_DIR_1080_30; vDecSample->DEFAULT_WIDTH = DEFAULT_WIDTH; vDecSample->DEFAULT_HEIGHT = DEFAULT_HEIGHT; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->SF_OUTPUT = true; vDecSample->autoSwitchSurface = true; vDecSample->sleepOnFPS = true; ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->RepeatCallSetSurface()); vDecSample->WaitForEOS(); } /** * @tc.number : OUTPUT_DECS_FUNC_001 * @tc.name : get decode output descriptions h264 * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, OUTPUT_DECS_FUNC_001, TestSize.Level0) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/1920x1080.h264"; vDecSample->DEFAULT_WIDTH = DEFAULT_WIDTH; vDecSample->DEFAULT_HEIGHT = DEFAULT_HEIGHT; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->needCheckOutputDesc = true; vDecSample->expectCropTop = 0; vDecSample->expectCropBottom = DEFAULT_HEIGHT - 1; vDecSample->expectCropLeft = 0; vDecSample->expectCropRight = DEFAULT_WIDTH - 1; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : OUTPUT_DECS_FUNC_002 * @tc.name : get decode output descriptions h265 * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, OUTPUT_DECS_FUNC_002, TestSize.Level0) { if (cap_hevc) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/1920x1080.h265"; vDecSample->DEFAULT_WIDTH = DEFAULT_WIDTH; vDecSample->DEFAULT_HEIGHT = DEFAULT_HEIGHT; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->needCheckOutputDesc = true; vDecSample->expectCropTop = 0; vDecSample->expectCropBottom = DEFAULT_HEIGHT - 1; vDecSample->expectCropLeft = 0; vDecSample->expectCropRight = DEFAULT_WIDTH - 1; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameHEVC)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } } /** * @tc.number : OUTPUT_DECS_FUNC_003 * @tc.name : get decode output descriptions h264 ,4k * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, OUTPUT_DECS_FUNC_003, TestSize.Level0) { if (cap) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/3840x2160.h264"; if ((widthRange.maxVal>=UHD_RESOLUTION[0]) && (heightRange.maxVal>=UHD_RESOLUTION[1])) { vDecSample->DEFAULT_WIDTH = UHD_RESOLUTION[0]; vDecSample->DEFAULT_HEIGHT = UHD_RESOLUTION[1]; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->needCheckOutputDesc = true; vDecSample->expectCropTop = 0; vDecSample->expectCropBottom = UHD_RESOLUTION[1] - 1; vDecSample->expectCropLeft = 0; vDecSample->expectCropRight = UHD_RESOLUTION[0] - 1; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } else { return; } } } /** * @tc.number : OUTPUT_DECS_FUNC_004 * @tc.name : get decode output descriptions h265 ,4k * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, OUTPUT_DECS_FUNC_004, TestSize.Level0) { if (cap_hevc) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/3840x2160.h265"; vDecSample->DEFAULT_WIDTH = UHD_RESOLUTION[0]; vDecSample->DEFAULT_HEIGHT = UHD_RESOLUTION[1]; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->needCheckOutputDesc = true; vDecSample->expectCropTop = 0; vDecSample->expectCropBottom = UHD_RESOLUTION[1] - 1; vDecSample->expectCropLeft = 0; vDecSample->expectCropRight = UHD_RESOLUTION[0] - 1; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameHEVC)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } } /** * @tc.number : OUTPUT_DECS_FUNC_005 * @tc.name : get decode output descriptions h264 ,crop size * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, OUTPUT_DECS_FUNC_005, TestSize.Level0) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/1104x622.h265"; vDecSample->DEFAULT_WIDTH = HD_RESOLUTION[0]; vDecSample->DEFAULT_HEIGHT = HD_RESOLUTION[1]; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->needCheckOutputDesc = true; vDecSample->expectCropTop = 0; vDecSample->expectCropBottom = HD_RESOLUTION[1] - 1; vDecSample->expectCropLeft = 0; vDecSample->expectCropRight = HD_RESOLUTION[0] - 1; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } /** * @tc.number : OUTPUT_DECS_FUNC_006 * @tc.name : get decode output descriptions h265 ,crop size * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, OUTPUT_DECS_FUNC_006, TestSize.Level0) { if (cap_hevc) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/1104x622.h265"; vDecSample->DEFAULT_WIDTH = HD_RESOLUTION[0]; vDecSample->DEFAULT_HEIGHT = HD_RESOLUTION[1]; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->needCheckOutputDesc = true; vDecSample->expectCropTop = 0; vDecSample->expectCropBottom = HD_RESOLUTION[1] - 1; vDecSample->expectCropLeft = 0; vDecSample->expectCropRight = HD_RESOLUTION[0] - 1; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameHEVC)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); ASSERT_EQ(AV_ERR_OK, vDecSample->errCount); } } /** * @tc.number : OUTPUT_DECS_FUNC_007 * @tc.name : get decode output descriptions h265 ,resolution change * @tc.desc : function test */ HWTEST_F(HwdecFuncNdkTest, OUTPUT_DECS_FUNC_007, TestSize.Level0) { if ((g_codecName.find("hisi") != string::npos) && (cap)) { auto vDecSample = make_shared(); vDecSample->INP_DIR = "/data/test/media/resolutionChange.h264"; vDecSample->DEFAULT_WIDTH = HD_RESOLUTION[0]; vDecSample->DEFAULT_HEIGHT = HD_RESOLUTION[1]; vDecSample->DEFAULT_FRAME_RATE = 30; vDecSample->isResChangeStream = true; vDecSample->expectCropTop = 0; vDecSample->expectCropBottom = HD_RESOLUTION[1] - 1; vDecSample->expectCropLeft = 0; vDecSample->expectCropRight = HD_RESOLUTION[0] - 1; ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecName)); ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder()); ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback()); ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder()); vDecSample->WaitForEOS(); } else { cout << "hardware encoder is rk,skip." << endl; } } } // namespace