* 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 <iostream>
#include <cstdio>
#include <atomic>
#include <fstream>
#include <thread>
#include <mutex>
#include <queue>
#include <string>
#include "gtest/gtest.h"
#include "videoenc_api11_sample.h"
#include "videoenc_inner_sample.h"
#include "native_avcodec_videoencoder.h"
#include "native_avcodec_base.h"
#include "native_avcapability.h"
using namespace std;
using namespace OHOS;
using namespace OHOS::Media;
using namespace testing::ext;
namespace OHOS {
namespace Media {
class HwEncReliNdkTest : 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 *inpDir720 = "/data/test/media/1280_720_nv.yuv";
const char *inpDir720Array[16] = {"/data/test/media/1280_720_nv.yuv", "/data/test/media/1280_720_nv_1.yuv",
"/data/test/media/1280_720_nv_2.yuv", "/data/test/media/1280_720_nv_3.yuv",
"/data/test/media/1280_720_nv_7.yuv", "/data/test/media/1280_720_nv_10.yuv",
"/data/test/media/1280_720_nv_13.yuv", "/data/test/media/1280_720_nv_4.yuv",
"/data/test/media/1280_720_nv_8.yuv", "/data/test/media/1280_720_nv_11.yuv",
"/data/test/media/1280_720_nv_14.yuv", "/data/test/media/1280_720_nv_5.yuv",
"/data/test/media/1280_720_nv_9.yuv", "/data/test/media/1280_720_nv_12.yuv",
"/data/test/media/1280_720_nv_15.yuv", "/data/test/media/1280_720_nv_6.yuv"};
bool createCodecSuccess_ = false;
};
}
}
namespace {
OH_AVCapability *cap = nullptr;
OH_AVCapability *cap_hevc = nullptr;
string g_codecNameAvc;
string g_codecNameHEVC;
fileInfo file_640_480_rgba{"/data/test/media/640_480.rgba", GRAPHIC_PIXEL_FMT_RGBA_8888, 640, 480 };
fileInfo file_1280_536_nv21{"/data/test/media/1280_536_nv21.yuv", GRAPHIC_PIXEL_FMT_YCRCB_420_SP, 1280, 536 };
fileInfo file_1280_720_nv12{"/data/test/media/1280_720_nv12.yuv", GRAPHIC_PIXEL_FMT_YCBCR_420_SP, 1280, 720 };
fileInfo file_1920_816_rgba{"/data/test/media/1920_816.rgba", GRAPHIC_PIXEL_FMT_RGBA_8888, 1920, 816 };
fileInfo file_1920_1080_nv21{"/data/test/media/1920_1080_nv21.yuv", GRAPHIC_PIXEL_FMT_YCRCB_420_SP, 1920, 1080 };
fileInfo file_3840_2160_nv12{"/data/test/media/3840_2160_nv12.yuv", GRAPHIC_PIXEL_FMT_YCBCR_420_SP, 3840, 2160 };
fileInfo file_1280_720_nv12_10bit{"/data/test/media/1280_720_nv12_10bit.yuv", GRAPHIC_PIXEL_FMT_YCBCR_P010, 1280, 720 };
fileInfo file_1080_1920_nv12{"/data/test/media/1080_1920_nv12.yuv", GRAPHIC_PIXEL_FMT_YCBCR_420_SP, 1080, 1920 };
fileInfo file_1280_1280_nv12{"/data/test/media/1280_1280_nv12.yuv", GRAPHIC_PIXEL_FMT_YCBCR_420_SP, 1280, 1280 };
}
void HwEncReliNdkTest::SetUpTestCase()
{
cap = OH_AVCodec_GetCapabilityByCategory(OH_AVCODEC_MIMETYPE_VIDEO_AVC, true, HARDWARE);
g_codecNameAvc = OH_AVCapability_GetName(cap);
cap_hevc = OH_AVCodec_GetCapabilityByCategory(OH_AVCODEC_MIMETYPE_VIDEO_HEVC, true, HARDWARE);
g_codecNameHEVC = OH_AVCapability_GetName(cap_hevc);
}
void HwEncReliNdkTest::TearDownTestCase() {}
void HwEncReliNdkTest::SetUp() {}
void HwEncReliNdkTest::TearDown() {}
namespace {
* @tc.number : VIDEO_HWENC_RELI_WHILE_0100
* @tc.name : 720P
* @tc.desc : reliable test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0100, TestSize.Level3)
{
while (true) {
shared_ptr<VEncAPI11Sample> vEncSample = make_shared<VEncAPI11Sample>();
vEncSample->INP_DIR = inpDir720;
vEncSample->DEFAULT_WIDTH = 1280;
vEncSample->DEFAULT_HEIGHT = 720;
vEncSample->DEFAULT_FRAME_RATE = 30;
vEncSample->OUT_DIR = "/data/test/media/1280_720_buffer.h264";
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameAvc.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
}
}
* @tc.number : VIDEO_HWENC_RELI_WHILE_0200
* @tc.name : 16 instances
* @tc.desc : reliable test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0200, TestSize.Level3)
{
for (int i = 0; i < 16; i++) {
VEncAPI11Sample *vEncSample = new VEncAPI11Sample();
vEncSample->INP_DIR = inpDir720Array[i];
vEncSample->DEFAULT_WIDTH = 1280;
vEncSample->DEFAULT_HEIGHT = 720;
vEncSample->DEFAULT_FRAME_RATE = 30;
vEncSample->repeatRun = true;
vEncSample->OUT_DIR = "/data/test/media/1280_720_buffer.h264";
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameAvc.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
if (i == 15) {
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
}
}
}
* @tc.number : VIDEO_HWENC_RELI_WHILE_0300
* @tc.name : long encode
* @tc.desc : reliable test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0300, TestSize.Level3)
{
shared_ptr<VEncAPI11Sample> vEncSample = make_shared<VEncAPI11Sample>();
vEncSample->INP_DIR = inpDir720;
vEncSample->DEFAULT_WIDTH = 1280;
vEncSample->DEFAULT_HEIGHT = 720;
vEncSample->DEFAULT_FRAME_RATE = 30;
vEncSample->repeatRun = true;
vEncSample->OUT_DIR = "/data/test/media/1280_720_buffer.h264";
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameAvc.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
}
* @tc.number : VIDEO_HWENC_RELI_WHILE_0400
* @tc.name : 16 instances
* @tc.desc : reliable test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0400, TestSize.Level3)
{
while (true) {
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
auto vEncSample = make_shared<VEncAPI11Sample>();
encVec.push_back(vEncSample);
vEncSample->INP_DIR = inpDir720Array[i];
vEncSample->DEFAULT_WIDTH = 1280;
vEncSample->DEFAULT_HEIGHT = 720;
vEncSample->DEFAULT_FRAME_RATE = 30;
vEncSample->OUT_DIR = "/data/test/media/1280_720_buffer.h264";
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameAvc.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
}
}
* @tc.number : VIDEO_HWENC_RELI_WHILE_0010
* @tc.name : 16个线程 分层编码-reset-分层编码
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0010, TestSize.Level3)
{
int len = 256;
int loop = 0;
while (loop < 1) {
loop++;
cout << "loop: "<<loop<<endl;
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
char file[256] = {};
sprintf_s(file, len, "/data/test/media/VIDEO_HWENC_RELI_WHILE_0010_%d.h265", i);
auto vEncSample = make_shared<VEncAPI11Sample>();
vEncSample->OUT_DIR = file;
encVec.push_back(vEncSample);
vEncSample->INP_DIR = inpDir720Array[i];
vEncSample->TEMPORAL_ENABLE = true;
vEncSample->TEMPORAL_CONFIG = true;
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameHEVC.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder_Temporal(i+2));
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
ASSERT_EQ(AV_ERR_OK, vEncSample->Reset());
vEncSample->TEMPORAL_ENABLE = false;
vEncSample->TEMPORAL_CONFIG = false;
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder_Temporal(i+2));
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : VIDEO_HWENC_RELI_WHILE_0020
* @tc.name : 16个线程 分层编码-reset-普通编码
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0020, TestSize.Level3)
{
int len = 256;
int loop = 0;
while (loop < 1) {
loop++;
cout << "loop: "<<loop<<endl;
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
char file[256] = {};
sprintf_s(file, len, "/data/test/media/VIDEO_HWENC_RELI_WHILE_0020_%d.h265", i);
auto vEncSample = make_shared<VEncAPI11Sample>();
vEncSample->OUT_DIR = file;
encVec.push_back(vEncSample);
vEncSample->INP_DIR = inpDir720Array[i];
vEncSample->TEMPORAL_ENABLE = true;
vEncSample->TEMPORAL_CONFIG = true;
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameHEVC.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder_Temporal(i+2));
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
ASSERT_EQ(AV_ERR_OK, vEncSample->Reset());
vEncSample->TEMPORAL_ENABLE = false;
vEncSample->TEMPORAL_CONFIG = false;
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : VIDEO_HWENC_RELI_WHILE_0030
* @tc.name : h265 buffer 16个线程,8个相邻分层,8个跨帧分层1
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0030, TestSize.Level3)
{
int len =256;
int loop = 0;
while (loop < 1) {
loop++;
cout << "loop: "<<loop<<endl;
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
char file[256] = {};
sprintf_s(file, len, "/data/test/media/VIDEO_HWENC_RELI_WHILE_0030_%d.h265", i);
auto vEncSample = make_shared<VEncAPI11Sample>();
vEncSample->OUT_DIR = file;
encVec.push_back(vEncSample);
vEncSample->INP_DIR = inpDir720Array[i];
vEncSample->TEMPORAL_ENABLE = true;
vEncSample->TEMPORAL_CONFIG = true;
if (i % 2 == 0) {
vEncSample->TEMPORAL_JUMP_MODE = true;
}
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameHEVC.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder_Temporal(i));
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : VIDEO_HWENC_RELI_WHILE_0040
* @tc.name : h265 surface 16个线程,8个相邻分层,8个跨帧分层
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, VIDEO_HWENC_RELI_WHILE_0040, TestSize.Level3)
{
int len =256;
int loop = 0;
while (loop < 10) {
loop++;
cout << "loop: "<<loop<<endl;
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
char file[256] = {};
sprintf_s(file, len, "/data/test/media/VIDEO_HWENC_RELI_WHILE_0040_%d.h265", i);
auto vEncSample = make_shared<VEncAPI11Sample>();
vEncSample->OUT_DIR = file;
encVec.push_back(vEncSample);
vEncSample->INP_DIR = inpDir720Array[i];
vEncSample->SURF_INPUT = true;
vEncSample->TEMPORAL_ENABLE = true;
vEncSample->TEMPORAL_CONFIG = true;
if (i % 2 == 0) {
vEncSample->TEMPORAL_JUMP_MODE = true;
}
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameHEVC.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder_Temporal(i));
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : RESET_BITRATE_RELI_001
* @tc.name : reset bitrate
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, RESET_BITRATE_RELI_001, TestSize.Level3)
{
while (true) {
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
auto vEncSample = make_shared<VEncAPI11Sample>();
encVec.push_back(vEncSample);
vEncSample->INP_DIR = inpDir720Array[i];
vEncSample->DEFAULT_WIDTH = 1280;
vEncSample->DEFAULT_HEIGHT = 720;
vEncSample->DEFAULT_FRAME_RATE = 30;
vEncSample->enableAutoSwitchParam = true;
vEncSample->needResetBitrate = true;
vEncSample->OUT_DIR = "/data/test/media/1280_720_buffer.h264";
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecNameAvc.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : LTR_FUNC_017
* @tc.name : 16个线程,8个为h265 surf普通编码,8个为h265 surf LTR编码
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, LTR_FUNC_017, TestSize.Level3)
{
while (true) {
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
auto vEncApi11Sample = make_shared<VEncAPI11Sample>();
encVec.push_back(vEncApi11Sample);
vEncApi11Sample->INP_DIR = inpDir720Array[i];
vEncApi11Sample->DEFAULT_WIDTH = 1280;
vEncApi11Sample->DEFAULT_HEIGHT = 720;
vEncApi11Sample->DEFAULT_FRAME_RATE = 30;
vEncApi11Sample->DEFAULT_BITRATE_MODE = CBR;
vEncApi11Sample->SURF_INPUT = true;
vEncApi11Sample->DEFAULT_KEY_FRAME_INTERVAL = -1;
vEncApi11Sample->OUT_DIR = "/data/test/media/out/LTR_FUNC_017.h265";
if (i % 2 == 0) {
vEncApi11Sample->ltrParam.enableUseLtr = true;
vEncApi11Sample->ltrParam.ltrCount = 5;
vEncApi11Sample->ltrParam.ltrInterval = 5;
}
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->CreateVideoEncoder(g_codecNameHEVC.c_str()));
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->StartVideoEncoder());
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : LTR_FUNC_018
* @tc.name : 16个线程,8个为h264 buffer普通编码,8个为h265 surf LTR编码
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, LTR_FUNC_018, TestSize.Level3)
{
while (true) {
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
auto vEncApi11Sample = make_shared<VEncAPI11Sample>();
encVec.push_back(vEncApi11Sample);
vEncApi11Sample->INP_DIR = inpDir720Array[i];
vEncApi11Sample->DEFAULT_WIDTH = 1280;
vEncApi11Sample->DEFAULT_HEIGHT = 720;
vEncApi11Sample->DEFAULT_FRAME_RATE = 30;
vEncApi11Sample->DEFAULT_BITRATE_MODE = CBR;
vEncApi11Sample->DEFAULT_KEY_FRAME_INTERVAL = -1;
vEncApi11Sample->OUT_DIR = "/data/test/media/out/LTR_FUNC_018.h265";
if (i % 2 == 0) {
vEncApi11Sample->SURF_INPUT = true;
vEncApi11Sample->ltrParam.enableUseLtr = true;
vEncApi11Sample->ltrParam.ltrCount = 5;
vEncApi11Sample->ltrParam.ltrInterval = 5;
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->CreateVideoEncoder(g_codecNameHEVC.c_str()));
} else {
vEncApi11Sample->SURF_INPUT = false;
vEncApi11Sample->ltrParam.enableUseLtr = false;
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->CreateVideoEncoder(g_codecNameAvc.c_str()));
}
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->StartVideoEncoder());
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : LTR_FUNC_019
* @tc.name : 16个线程,8个为h264 surf普通编码,8个为h265 buffer LTR编码
* @tc.desc : function test
*/
HWTEST_F(HwEncReliNdkTest, LTR_FUNC_019, TestSize.Level3)
{
while (true) {
vector<shared_ptr<VEncAPI11Sample>> encVec;
for (int i = 0; i < 16; i++) {
auto vEncApi11Sample = make_shared<VEncAPI11Sample>();
encVec.push_back(vEncApi11Sample);
vEncApi11Sample->INP_DIR = inpDir720Array[i];
vEncApi11Sample->DEFAULT_WIDTH = 1280;
vEncApi11Sample->DEFAULT_HEIGHT = 720;
vEncApi11Sample->DEFAULT_FRAME_RATE = 30;
vEncApi11Sample->DEFAULT_BITRATE_MODE = CBR;
vEncApi11Sample->DEFAULT_KEY_FRAME_INTERVAL = -1;
vEncApi11Sample->OUT_DIR = "/data/test/media/out/LTR_FUNC_019.h265";
if (i % 2 == 0) {
vEncApi11Sample->SURF_INPUT = false;
vEncApi11Sample->ltrParam.enableUseLtr = true;
vEncApi11Sample->ltrParam.ltrCount = 5;
vEncApi11Sample->ltrParam.ltrInterval = 5;
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->CreateVideoEncoder(g_codecNameHEVC.c_str()));
} else {
vEncApi11Sample->SURF_INPUT = true;
vEncApi11Sample->ltrParam.enableUseLtr = false;
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->CreateVideoEncoder(g_codecNameAvc.c_str()));
}
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncApi11Sample->StartVideoEncoder());
}
for (int i = 0; i < 16; i++) {
encVec[i]->WaitForEOS();
}
encVec.clear();
}
}
* @tc.number : VIDEO_ENCODE_INNER_MULTIFILE_RELI_0010
* @tc.name : repeatedly surface change encode to call for 12 hours
* @tc.desc : function test
*/
HWTEST_F(HwEncInnerFuncNdkTest, VIDEO_ENCODE_INNER_MULTIFILE_RELI_0010, TestSize.Level3)
{
auto vEncInnerSample = make_unique<VEncNdkInnerSample>();
while (true) {
vEncInnerSample->DEFAULT_WIDTH = 3840;
vEncInnerSample->DEFAULT_HEIGHT = 2160;
vEncInnerSample->OUT_DIR = "/data/test/media/VIDEO_ENCODE_INNER_MULTIFILE_RELI_0010.h265";
vEncInnerSample->surfaceInput = true;
vEncInnerSample->readMultiFiles = true;
vEncInnerSample->fileInfos.push_back(file_640_480_rgba);
vEncInnerSample->fileInfos.push_back(file_1280_536_nv21);
vEncInnerSample->fileInfos.push_back(file_1280_720_nv12);
vEncInnerSample->fileInfos.push_back(file_1920_816_rgba);
vEncInnerSample->fileInfos.push_back(file_1920_1080_nv21);
vEncInnerSample->fileInfos.push_back(file_3840_2160_nv12);
ASSERT_EQ(AV_ERR_OK, vEncInnerSample->CreateByName(g_codecNameHevc));
ASSERT_EQ(AV_ERR_OK, vEncInnerSample->SetCallback());
ASSERT_EQ(AV_ERR_OK, vEncInnerSample->Configure());
ASSERT_EQ(AV_ERR_OK, vEncInnerSample->StartVideoEncoder());
vEncInnerSample->WaitForEOS();
}
}
}