/* * 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 "camera_video_test.h" using namespace testing::ext; void CameraVideoTest::SetUpTestCase(void) {} void CameraVideoTest::TearDownTestCase(void) {} void CameraVideoTest::SetUp(void) { if (display_ == nullptr) display_ = std::make_shared(); display_->Init(); } void CameraVideoTest::TearDown(void) { display_->Close(); } void CameraVideoTest::SetStreamInfo(StreamInfo &streamInfo, const std::shared_ptr &streamCustomer, const int streamId, const StreamIntent intent) { sptr producer; constexpr uint32_t DATA_SPACE = 8; constexpr uint32_t TUNNEL_MODE = 5; constexpr uint32_t BUFFER_QUEUE_SIZE = 8; constexpr uint32_t WIDTH = 1280; constexpr uint32_t HEIGHT = 960; if (intent == PREVIEW) { streamInfo.width_ = PREVIEW_WIDTH; streamInfo.height_ = PREVIEW_HEIGHT; } else if (intent == STILL_CAPTURE) { streamInfo.width_ = WIDTH; streamInfo.height_ = HEIGHT; streamInfo.encodeType_ = ENCODE_TYPE_JPEG; } else if (intent == VIDEO) { streamInfo.width_ = WIDTH; streamInfo.height_ = HEIGHT; streamInfo.encodeType_ = ENCODE_TYPE_H264; } streamInfo.format_ = PIXEL_FMT_RGBA_8888; streamInfo.streamId_ = streamId; streamInfo.dataspace_ = DATA_SPACE; streamInfo.intent_ = intent; streamInfo.tunneledMode_ = TUNNEL_MODE; producer = streamCustomer->CreateProducer(); streamInfo.bufferQueue_ = new BufferProducerSequenceable(producer); streamInfo.bufferQueue_->producer_->SetQueueSize(BUFFER_QUEUE_SIZE); } void CameraVideoTest::CreateStream(int streamId, StreamIntent intent) { StreamInfo streamInfo = {}; if (intent == PREVIEW) { if (streamId == display_->STREAM_ID_PREVIEW) { if (streamCustomerPreview_ == nullptr) { streamCustomerPreview_ = std::make_shared(); SetStreamInfo(streamInfo, streamCustomerPreview_, streamId, intent); } } } else if (intent == STILL_CAPTURE) { if (streamCustomerSnapshot_ == nullptr) { streamCustomerSnapshot_ = std::make_shared(); SetStreamInfo(streamInfo, streamCustomerSnapshot_, streamId, intent); } } else if (intent == VIDEO) { if (streamCustomerVideo_ == nullptr) { streamCustomerVideo_ = std::make_shared(); SetStreamInfo(streamInfo, streamCustomerVideo_, streamId, intent); } } std::vector().swap(streamInfos_); streamInfos_.push_back(streamInfo); CamRetCode result = (CamRetCode)display_->streamOperator->CreateStreams(streamInfos_); EXPECT_EQ(false, result != HDI::Camera::V1_0::NO_ERROR); if (result == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log]CreateStreams success." << std::endl; } else { std::cout << "==========[test log]CreateStreams fail, result = " << result << std::endl; } } void CameraVideoTest::CommitStream() { CamRetCode result = (CamRetCode)display_->streamOperator->CommitStreams(NORMAL, display_->ability_); EXPECT_EQ(false, result != HDI::Camera::V1_0::NO_ERROR); if (result == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log]CommitStreams success." << std::endl; } else { std::cout << "==========[test log]CommitStreams fail, result = " << result << std::endl; } } void CameraVideoTest::StartCapture( int streamId, int captureId, bool shutterCallback, bool isStreaming, const CaptureInfo captureInfo) { captureInfo_.streamIds_ = {streamId}; captureInfo_.captureSetting_ = display_->ability_; captureInfo_.enableShutterCallback_ = shutterCallback; CamRetCode result; if (captureInfo.captureSetting_.size() != 0) { result = (CamRetCode)display_->streamOperator->Capture(captureId, captureInfo, isStreaming); } else { result = (CamRetCode)display_->streamOperator->Capture(captureId, captureInfo_, isStreaming); } EXPECT_EQ(true, result == HDI::Camera::V1_0::NO_ERROR); if (result == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log]check Capture: Capture success, " << captureId << std::endl; } else { std::cout << "==========[test log]check Capture: Capture fail, result = " << result << captureId << std::endl; } if (captureId == display_->CAPTURE_ID_PREVIEW) { streamCustomerPreview_->ReceiveFrameOn([this](const unsigned char *addr, const uint32_t size) { std::cout << "==========[test log]preview size= " << size << std::endl; }); } else if (captureId == display_->CAPTURE_ID_CAPTURE) { streamCustomerSnapshot_->ReceiveFrameOn([this](const unsigned char *addr, const uint32_t size) { std::cout << "==========[test log]snapshot size= " << size << std::endl; }); } else if (captureId == display_->CAPTURE_ID_VIDEO) { streamCustomerVideo_->ReceiveFrameOn([this](const unsigned char *addr, const uint32_t size) { std::cout << "==========[test log]videosize= " << size << std::endl; }); } else { std::cout << "==========[test log]StartCapture ignore command " << std::endl; } } void CameraVideoTest::StopStream(std::vector &captureIds, std::vector &streamIds) { constexpr uint32_t TIME_FOR_RECEIVE_FRAME_OFF = 1; constexpr uint32_t TIME_FOR_WAIT_IMAGE_PREVIEW = 2; sleep(TIME_FOR_WAIT_IMAGE_PREVIEW); if (sizeof(captureIds) > 0) { for (const auto &captureId : captureIds) { if (captureId == display_->CAPTURE_ID_PREVIEW) { streamCustomerPreview_->ReceiveFrameOff(); } else if (captureId == display_->CAPTURE_ID_CAPTURE) { streamCustomerSnapshot_->ReceiveFrameOff(); } else if (captureId == display_->CAPTURE_ID_VIDEO) { streamCustomerVideo_->ReceiveFrameOff(); sleep(TIME_FOR_RECEIVE_FRAME_OFF); } else { std::cout << "==========[test log]StopStream ignore command. " << std::endl; } } for (auto &captureId : captureIds) { CamRetCode result = (CamRetCode)display_->streamOperator->CancelCapture(captureId); sleep(TIME_FOR_WAIT_IMAGE_PREVIEW); EXPECT_EQ(true, result == HDI::Camera::V1_0::NO_ERROR); if (result == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log]check Capture: CancelCapture success," << captureId << std::endl; } else { std::cout << "==========[test log]check Capture: CancelCapture fail, result = " << result; std::cout << "captureId = " << captureId << std::endl; } } } sleep(TIME_FOR_RECEIVE_FRAME_OFF); } /** * @tc.name: Video * @tc.desc: Preview + video, commit together, success. * @tc.level: Level1 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_001, TestSize.Level1) { std::cout << "==========[test log] 1 Preview + video, commit together, success." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); } /** * @tc.name: Video * @tc.desc: Preview + video, commit together, set 3A, success. * @tc.level: Level1 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_002, TestSize.Level1) { std::cout << "==========[test log] Preview + video, commit together, set 3A, success." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // Issue 3A parameters to increase exposure std::shared_ptr meta = std::make_shared(100, 2000); int32_t expo = 0xa0; meta->addEntry(OHOS_CONTROL_AE_EXPOSURE_COMPENSATION, &expo, 1); std::vector setting; MetadataUtils::ConvertMetadataToVec(meta, setting); display_->rc = (CamRetCode)display_->cameraDevice->UpdateSettings(setting); if (display_->rc == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log] UpdateSettings success, for 5s." << std::endl; } else { std::cout << "==========[test log] UpdateSettings fail, rc = " << display_->rc << std::endl; } sleep(3); // release stream display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); } /** * @tc.name: Video * @tc.desc: Preview + video, commit together, then close device, and preview + video again. * @tc.level: Level1 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_003, TestSize.Level1) { std::cout << "==========[test log] Preview + video, commit together, then close device,"; std::cout << "and preview + video again." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // release stream display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); // Turn off the device display_->Close(); // Turn on the device display_->Init(); std::cout << "==========[test log] The 2nd time." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // release stream display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); } /** * @tc.name: Video * @tc.desc: Preview + video, commit together, then close device, and preview + capture. * @tc.level: Level1 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_004, TestSize.Level1) { std::cout << "==========[test log] Preview + video, commit together, then close device,"; std::cout << "and preview + capture." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // release stream display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); // Turn off the device display_->Close(); std::cout << "==========[test log] cameraDevice->Close" << std::endl; // Turn on the device display_->Init(); // Create and get streamOperator information display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, STILL_CAPTURE}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_CAPTURE, display_->CAPTURE_ID_CAPTURE, false, true); // release stream display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_CAPTURE}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_CAPTURE}; display_->StopStream(display_->captureIds, display_->streamIds); } /** * @tc.name: Video * @tc.desc: Preview + video, commit together, success. * @tc.level: Level1 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_005, TestSize.Level1) { std::cout << "==========[test log] 1 Preview + video, commit together, success." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // release stream display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); } /** * @tc.name: Video * @tc.desc: Video start&stop, for 5 times, success. * @tc.level: Level2 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_010, TestSize.Level2) { std::cout << "==========[test log] Video start&stop, for 5 times, success." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); for (int i = 0; i < 5; i++) { // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Get preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // release stream display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); } } /** * @tc.name: Video * @tc.desc: Video start&stop, for 5 times, success. * @tc.level: Level2 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_011, TestSize.Level2) { std::cout << "==========[test log] Video start&stop, for 5 times, success." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); for (int i = 0; i < 5; i++) { // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // Start capture preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); // Start capture recording display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // post-processing display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); } } /** * @tc.name: Video * @tc.desc: Dynamic Video mode, preview, success. * @tc.level: Level2 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_020, TestSize.Level2) { std::cout << "==========[test log] Video mode, preview, success." << std::endl; // Create and get streamOperator information display_->AchieveStreamOperator(); // Create data stream display_->intents = {PREVIEW}; display_->StartStream(display_->intents); // capture display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); // Create video stream display_->intents = {VIDEO}; display_->StartStream(display_->intents); // Start capture preview display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); // Start capture recording display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // post-processing display_->streamCustomerPreview_->ReceiveFrameOff(); display_->streamCustomerVideo_->ReceiveFrameOff(); display_->rc = (CamRetCode)display_->streamOperator->CancelCapture(display_->CAPTURE_ID_VIDEO); EXPECT_EQ(true, display_->rc == HDI::Camera::V1_0::NO_ERROR); if (display_->rc == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log] CancelCapture success, captureId = "; std::cout << display_->CAPTURE_ID_VIDEO << std::endl; } else { std::cout << "==========[test log] CancelCapture fail, rc = " << display_->rc << std::endl; } display_->rc = (CamRetCode)display_->streamOperator->CancelCapture(display_->CAPTURE_ID_PREVIEW); EXPECT_EQ(true, display_->rc == HDI::Camera::V1_0::NO_ERROR); if (display_->rc == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log] CancelCapture success, captureId = "; std::cout << display_->CAPTURE_ID_PREVIEW << std::endl; } else { std::cout << "==========[test log] CancelCapture fail, rc = " << display_->rc << std::endl; } display_->rc = (CamRetCode)display_->streamOperator->ReleaseStreams( {display_->STREAM_ID_VIDEO}); EXPECT_EQ(true, display_->rc == HDI::Camera::V1_0::NO_ERROR); if (display_->rc == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log] ReleaseStreams success." << std::endl; } else { std::cout << "==========[test log] ReleaseStreams fail, rc = " << display_->rc << std::endl; } display_->rc = (CamRetCode)display_->streamOperator->ReleaseStreams( {display_->STREAM_ID_PREVIEW}); EXPECT_EQ(true, display_->rc == HDI::Camera::V1_0::NO_ERROR); if (display_->rc == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log] ReleaseStreams success." << std::endl; } else { std::cout << "==========[test log] ReleaseStreams fail, rc = " << display_->rc << std::endl; } } /** * @tc.name: Video * @tc.desc: Video mode, preview, set 3A, success. * @tc.level: Level1 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_021, TestSize.Level1) { std::cout << "==========[test log] Video mode, preview, set 3A, success." << std::endl; EXPECT_EQ(true, display_->cameraDevice != nullptr); display_->AchieveStreamOperator(); // start stream display_->intents = {PREVIEW, VIDEO}; display_->StartStream(display_->intents); // capture display_->StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true); display_->StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true); // Issue 3A parameters to increase exposure std::shared_ptr meta = std::make_shared(100, 2000); int32_t expo = 0xa0; meta->addEntry(OHOS_CONTROL_AE_EXPOSURE_COMPENSATION, &expo, 1); std::vector setting; MetadataUtils::ConvertMetadataToVec(meta, setting); display_->rc = (CamRetCode)display_->cameraDevice->UpdateSettings(setting); if (display_->rc == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log] UpdateSettings success, for 5s." << std::endl; } else { std::cout << "==========[test log] UpdateSettings fail, rc = " << display_->rc << std::endl; } sleep(3); // post-processing display_->captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO}; display_->streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO}; display_->StopStream(display_->captureIds, display_->streamIds); } /** * @tc.name: Video * @tc.desc: Video mode without preview, system not support, expected return fail. * @tc.level: Level2 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_030, TestSize.Level2) { std::cout << "==========[test log] Video mode without preview, system not support,"; std::cout << "expected return fail." << std::endl; EXPECT_EQ(true, display_->cameraDevice != nullptr); display_->AchieveStreamOperator(); // Create video stream std::shared_ptr streamCustomer = std::make_shared(); OHOS::sptr producer = streamCustomer->CreateProducer(); producer->SetQueueSize(8); // 8:set bufferQueue size if (producer->GetQueueSize() != 8) { // 8:get bufferQueue size std::cout << "~~~~~~~" << std::endl; } std::vector streamInfos; display_->streamInfo.streamId_ = display_->STREAM_ID_VIDEO; display_->streamInfo.width_ = 1280; // 1280:picture width display_->streamInfo.height_ = 960; // 960:picture height display_->streamInfo.format_ = PIXEL_FMT_RGBA_8888; display_->streamInfo.dataspace_ = 10; display_->streamInfo.intent_ = VIDEO; display_->streamInfo.tunneledMode_ = 5; // 5:tunnel mode display_->streamInfo.bufferQueue_ = new BufferProducerSequenceable(producer); streamInfos.push_back(display_->streamInfo); display_->rc = (CamRetCode)display_->streamOperator->CreateStreams(streamInfos); EXPECT_EQ(false, display_->rc == OHOS::Camera::METHOD_NOT_SUPPORTED); if (display_->rc == OHOS::Camera::METHOD_NOT_SUPPORTED) { std::cout << "==========[test log] CreateStreams METHOD_NOT_SUPPORTED, streamId = "; std::cout << display_->STREAM_ID_VIDEO <<", intent = VIDEO" << std::endl; } else { std::cout << "==========[test log] CreateStreams fail, rc = " << display_->rc << std::endl; } std::vector modeSetting = {}; display_->rc = (CamRetCode)display_->streamOperator->CommitStreams(NORMAL, modeSetting); EXPECT_EQ(false, display_->rc == HDI::Camera::V1_0::NO_ERROR); if (display_->rc == HDI::Camera::V1_0::NO_ERROR) { std::cout << "==========[test log] CommitStreams success." << std::endl; } else { std::cout << "==========[test log] CommitStreams fail, rc = ." << display_->rc << std::endl; } } /** * @tc.name: preview, still_capture and video * @tc.desc: Commit 3 streams in order, Preview, still_capture and video streams. * @tc.level: Level1 * @tc.size: MediumTest * @tc.type: Function */ HWTEST_F(CameraVideoTest, camera_video_031, TestSize.Level1) { display_->AchieveStreamOperator(); CreateStream(display_->STREAM_ID_PREVIEW, PREVIEW); CreateStream(display_->STREAM_ID_CAPTURE, STILL_CAPTURE); CreateStream(display_->STREAM_ID_VIDEO, VIDEO); CommitStream(); CaptureInfo captureInfo = {}; StartCapture(display_->STREAM_ID_PREVIEW, display_->CAPTURE_ID_PREVIEW, false, true, captureInfo); StartCapture(display_->STREAM_ID_VIDEO, display_->CAPTURE_ID_VIDEO, false, true, captureInfo); constexpr double latitude = 27.987500; // dummy data: Qomolangma latitde constexpr double longitude = 86.927500; // dummy data: Qomolangma longituude constexpr double altitude = 8848.86; // dummy data: Qomolangma altitude constexpr size_t entryCapacity = 100; constexpr size_t dataCapacity = 2000; std::shared_ptr captureSetting = std::make_shared(entryCapacity, dataCapacity); std::vector gps; gps.push_back(latitude); gps.push_back(longitude); gps.push_back(altitude); captureSetting->addEntry(OHOS_JPEG_GPS_COORDINATES, gps.data(), gps.size()); captureInfo.streamIds_ = {display_->STREAM_ID_CAPTURE}; std::vector setting; MetadataUtils::ConvertMetadataToVec(captureSetting, setting); captureInfo.captureSetting_ = setting; captureInfo.enableShutterCallback_ = false; StartCapture(display_->STREAM_ID_CAPTURE, display_->CAPTURE_ID_CAPTURE, false, true, captureInfo); constexpr uint32_t TIME_FOR_WAIT_INIT_CAPTUREIDS = 5; sleep(TIME_FOR_WAIT_INIT_CAPTUREIDS); std::vector captureIds = {display_->CAPTURE_ID_PREVIEW, display_->CAPTURE_ID_VIDEO, display_->CAPTURE_ID_CAPTURE}; std::vector streamIds = {display_->STREAM_ID_PREVIEW, display_->STREAM_ID_VIDEO, display_->STREAM_ID_CAPTURE}; StopStream(captureIds, streamIds); }