/* * Copyright (C) 2015 The Android Open Source Project * * 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. */ #define LOG_NDEBUG 0 #define LOG_TAG "CameraBinderTests" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace android; #define ASSERT_NOT_NULL(x) \ ASSERT_TRUE((x) != nullptr) #define SETUP_TIMEOUT 2000000000 // ns #define IDLE_TIMEOUT 2000000000 // ns // Stub listener implementation class TestCameraServiceListener : public BnCameraServiceListener { std::map mCameraTorchStatuses; std::map mCameraStatuses; mutable Mutex mLock; mutable Condition mCondition; mutable Condition mTorchCondition; public: virtual ~TestCameraServiceListener() {}; virtual void onStatusChanged(Status status, int32_t cameraId) { Mutex::Autolock l(mLock); mCameraStatuses[cameraId] = status; mCondition.broadcast(); }; virtual void onTorchStatusChanged(TorchStatus status, const String16& cameraId) { Mutex::Autolock l(mLock); mCameraTorchStatuses[cameraId] = status; mTorchCondition.broadcast(); }; bool waitForNumCameras(size_t num) const { Mutex::Autolock l(mLock); if (mCameraStatuses.size() == num) { return true; } while (mCameraStatuses.size() < num) { if (mCondition.waitRelative(mLock, SETUP_TIMEOUT) != OK) { return false; } } return true; }; bool waitForTorchState(TorchStatus status, int32_t cameraId) const { Mutex::Autolock l(mLock); const auto& iter = mCameraTorchStatuses.find(String16(String8::format("%d", cameraId))); if (iter != mCameraTorchStatuses.end() && iter->second == status) { return true; } bool foundStatus = false; while (!foundStatus) { if (mTorchCondition.waitRelative(mLock, SETUP_TIMEOUT) != OK) { return false; } const auto& iter = mCameraTorchStatuses.find(String16(String8::format("%d", cameraId))); foundStatus = (iter != mCameraTorchStatuses.end() && iter->second == status); } return true; }; TorchStatus getTorchStatus(int32_t cameraId) const { Mutex::Autolock l(mLock); const auto& iter = mCameraTorchStatuses.find(String16(String8::format("%d", cameraId))); if (iter == mCameraTorchStatuses.end()) { return ICameraServiceListener::TORCH_STATUS_UNKNOWN; } return iter->second; }; Status getStatus(int32_t cameraId) const { Mutex::Autolock l(mLock); const auto& iter = mCameraStatuses.find(cameraId); if (iter == mCameraStatuses.end()) { return ICameraServiceListener::STATUS_UNKNOWN; } return iter->second; }; }; // Callback implementation class TestCameraDeviceCallbacks : public BnCameraDeviceCallbacks { public: enum Status { IDLE, ERROR, PREPARED, RUNNING, SENT_RESULT, UNINITIALIZED }; protected: bool mError; Status mLastStatus; mutable std::vector mStatusesHit; mutable Mutex mLock; mutable Condition mStatusCondition; public: TestCameraDeviceCallbacks() : mError(false), mLastStatus(UNINITIALIZED) {} virtual ~TestCameraDeviceCallbacks() {} virtual void onDeviceError(CameraErrorCode errorCode, const CaptureResultExtras& resultExtras) { ALOGE("%s: onDeviceError occurred with: %d", __FUNCTION__, static_cast(errorCode)); Mutex::Autolock l(mLock); mError = true; mLastStatus = ERROR; mStatusesHit.push_back(mLastStatus); mStatusCondition.broadcast(); } virtual void onDeviceIdle() { Mutex::Autolock l(mLock); mLastStatus = IDLE; mStatusesHit.push_back(mLastStatus); mStatusCondition.broadcast(); } virtual void onCaptureStarted(const CaptureResultExtras& resultExtras, int64_t timestamp) { Mutex::Autolock l(mLock); mLastStatus = RUNNING; mStatusesHit.push_back(mLastStatus); mStatusCondition.broadcast(); } virtual void onResultReceived(const CameraMetadata& metadata, const CaptureResultExtras& resultExtras) { Mutex::Autolock l(mLock); mLastStatus = SENT_RESULT; mStatusesHit.push_back(mLastStatus); mStatusCondition.broadcast(); } virtual void onPrepared(int streamId) { Mutex::Autolock l(mLock); mLastStatus = PREPARED; mStatusesHit.push_back(mLastStatus); mStatusCondition.broadcast(); } // Test helper functions: bool hadError() const { Mutex::Autolock l(mLock); return mError; } bool waitForStatus(Status status) const { Mutex::Autolock l(mLock); if (mLastStatus == status) { return true; } while (std::find(mStatusesHit.begin(), mStatusesHit.end(), status) == mStatusesHit.end()) { if (mStatusCondition.waitRelative(mLock, IDLE_TIMEOUT) != OK) { mStatusesHit.clear(); return false; } } mStatusesHit.clear(); return true; } void clearStatus() const { Mutex::Autolock l(mLock); mStatusesHit.clear(); } bool waitForIdle() const { return waitForStatus(IDLE); } }; // Exercise basic binder calls for the camera service TEST(CameraServiceBinderTest, CheckBinderCameraService) { ProcessState::self()->startThreadPool(); sp sm = defaultServiceManager(); sp binder = sm->getService(String16("media.camera")); ASSERT_NOT_NULL(binder); sp service = interface_cast(binder); int32_t numCameras = service->getNumberOfCameras(); EXPECT_LE(0, numCameras); // Check listener binder calls sp listener(new TestCameraServiceListener()); EXPECT_EQ(OK, service->addListener(listener)); EXPECT_TRUE(listener->waitForNumCameras(numCameras)); for (int32_t i = 0; i < numCameras; i++) { // We only care about binder calls for the Camera2 API. Camera1 is deprecated. status_t camera2Support = service->supportsCameraApi(i, ICameraService::API_VERSION_2); if (camera2Support != OK) { EXPECT_EQ(-EOPNOTSUPP, camera2Support); continue; } // Check metadata binder call CameraMetadata metadata; EXPECT_EQ(OK, service->getCameraCharacteristics(i, &metadata)); EXPECT_FALSE(metadata.isEmpty()); // Make sure we're available, or skip device tests otherwise ICameraServiceListener::Status s = listener->getStatus(i); EXPECT_EQ(ICameraServiceListener::STATUS_AVAILABLE, s); if (s != ICameraServiceListener::STATUS_AVAILABLE) { continue; } // Check connect binder calls sp callbacks(new TestCameraDeviceCallbacks()); sp device; EXPECT_EQ(OK, service->connectDevice(callbacks, i, String16("meeeeeeeee!"), ICameraService::USE_CALLING_UID, /*out*/device)); ASSERT_NE(nullptr, device.get()); device->disconnect(); EXPECT_FALSE(callbacks->hadError()); ICameraServiceListener::TorchStatus torchStatus = listener->getTorchStatus(i); if (torchStatus == ICameraServiceListener::TORCH_STATUS_AVAILABLE_OFF) { // Check torch calls EXPECT_EQ(OK, service->setTorchMode(String16(String8::format("%d", i)), /*enabled*/true, callbacks)); EXPECT_TRUE(listener->waitForTorchState( ICameraServiceListener::TORCH_STATUS_AVAILABLE_ON, i)); EXPECT_EQ(OK, service->setTorchMode(String16(String8::format("%d", i)), /*enabled*/false, callbacks)); EXPECT_TRUE(listener->waitForTorchState( ICameraServiceListener::TORCH_STATUS_AVAILABLE_OFF, i)); } } EXPECT_EQ(OK, service->removeListener(listener)); } // Test fixture for client focused binder tests class CameraClientBinderTest : public testing::Test { protected: sp service; int32_t numCameras; std::vector, sp>> openDeviceList; sp serviceListener; std::pair, sp> openNewDevice(int deviceId) { sp callbacks(new TestCameraDeviceCallbacks()); sp device; { SCOPED_TRACE("openNewDevice"); EXPECT_EQ(OK, service->connectDevice(callbacks, deviceId, String16("meeeeeeeee!"), ICameraService::USE_CALLING_UID, /*out*/device)); } auto p = std::make_pair(callbacks, device); openDeviceList.push_back(p); return p; } void closeDevice(std::pair, sp>& p) { if (p.second.get() != nullptr) { p.second->disconnect(); { SCOPED_TRACE("closeDevice"); EXPECT_FALSE(p.first->hadError()); } } auto iter = std::find(openDeviceList.begin(), openDeviceList.end(), p); if (iter != openDeviceList.end()) { openDeviceList.erase(iter); } } virtual void SetUp() { ProcessState::self()->startThreadPool(); sp sm = defaultServiceManager(); sp binder = sm->getService(String16("media.camera")); service = interface_cast(binder); serviceListener = new TestCameraServiceListener(); service->addListener(serviceListener); numCameras = service->getNumberOfCameras(); } virtual void TearDown() { service = nullptr; numCameras = 0; for (auto& p : openDeviceList) { closeDevice(p); } } }; TEST_F(CameraClientBinderTest, CheckBinderCameraDeviceUser) { ASSERT_NOT_NULL(service); EXPECT_TRUE(serviceListener->waitForNumCameras(numCameras)); for (int32_t i = 0; i < numCameras; i++) { // Make sure we're available, or skip device tests otherwise ICameraServiceListener::Status s = serviceListener->getStatus(i); EXPECT_EQ(ICameraServiceListener::STATUS_AVAILABLE, s); if (s != ICameraServiceListener::STATUS_AVAILABLE) { continue; } auto p = openNewDevice(i); sp callbacks = p.first; sp device = p.second; // Setup a buffer queue; I'm just using the vendor opaque format here as that is // guaranteed to be present sp gbProducer; sp gbConsumer; BufferQueue::createBufferQueue(&gbProducer, &gbConsumer); sp opaqueConsumer = new BufferItemConsumer(gbConsumer, GRALLOC_USAGE_SW_READ_NEVER, /*maxImages*/2, /*controlledByApp*/true); EXPECT_TRUE(opaqueConsumer.get() != nullptr); opaqueConsumer->setName(String8("nom nom nom")); // Set to VGA dimens for default, as that is guaranteed to be present EXPECT_EQ(OK, gbConsumer->setDefaultBufferSize(640, 480)); EXPECT_EQ(OK, gbConsumer->setDefaultBufferFormat(HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED)); sp surface(new Surface(gbProducer, /*controlledByApp*/false)); OutputConfiguration output(gbProducer, /*rotation*/0); // Can we configure? EXPECT_EQ(OK, device->beginConfigure()); status_t streamId = device->createStream(output); EXPECT_LE(0, streamId); EXPECT_EQ(OK, device->endConfigure()); EXPECT_FALSE(callbacks->hadError()); // Can we make requests? CameraMetadata requestTemplate; EXPECT_EQ(OK, device->createDefaultRequest(/*preview template*/1, /*out*/&requestTemplate)); sp request(new CaptureRequest()); request->mMetadata = requestTemplate; request->mSurfaceList.add(surface); request->mIsReprocess = false; int64_t lastFrameNumber = 0; int64_t lastFrameNumberPrev = 0; callbacks->clearStatus(); int requestId = device->submitRequest(request, /*streaming*/true, /*out*/&lastFrameNumber); EXPECT_TRUE(callbacks->waitForStatus(TestCameraDeviceCallbacks::SENT_RESULT)); EXPECT_LE(0, requestId); // Can we stop requests? EXPECT_EQ(OK, device->cancelRequest(requestId, /*out*/&lastFrameNumber)); EXPECT_TRUE(callbacks->waitForIdle()); EXPECT_FALSE(callbacks->hadError()); // Can we do it again? lastFrameNumberPrev = lastFrameNumber; lastFrameNumber = 0; requestTemplate.clear(); EXPECT_EQ(OK, device->createDefaultRequest(/*preview template*/1, /*out*/&requestTemplate)); sp request2(new CaptureRequest()); request2->mMetadata = requestTemplate; request2->mSurfaceList.add(surface); request2->mIsReprocess = false; callbacks->clearStatus(); int requestId2 = device->submitRequest(request2, /*streaming*/true, /*out*/&lastFrameNumber); EXPECT_EQ(-1, lastFrameNumber); lastFrameNumber = 0; EXPECT_TRUE(callbacks->waitForStatus(TestCameraDeviceCallbacks::SENT_RESULT)); EXPECT_LE(0, requestId2); EXPECT_EQ(OK, device->cancelRequest(requestId2, /*out*/&lastFrameNumber)); EXPECT_TRUE(callbacks->waitForIdle()); EXPECT_LE(lastFrameNumberPrev, lastFrameNumber); sleep(/*second*/1); // allow some time for errors to show up, if any EXPECT_FALSE(callbacks->hadError()); // Can we do it with a request list? lastFrameNumberPrev = lastFrameNumber; lastFrameNumber = 0; requestTemplate.clear(); CameraMetadata requestTemplate2; EXPECT_EQ(OK, device->createDefaultRequest(/*preview template*/1, /*out*/&requestTemplate)); EXPECT_EQ(OK, device->createDefaultRequest(/*preview template*/1, /*out*/&requestTemplate2)); sp request3(new CaptureRequest()); sp request4(new CaptureRequest()); request3->mMetadata = requestTemplate; request3->mSurfaceList.add(surface); request3->mIsReprocess = false; request4->mMetadata = requestTemplate2; request4->mSurfaceList.add(surface); request4->mIsReprocess = false; List> requestList; requestList.push_back(request3); requestList.push_back(request4); callbacks->clearStatus(); int requestId3 = device->submitRequestList(requestList, /*streaming*/false, /*out*/&lastFrameNumber); EXPECT_TRUE(callbacks->waitForStatus(TestCameraDeviceCallbacks::SENT_RESULT)); EXPECT_TRUE(callbacks->waitForIdle()); EXPECT_LE(lastFrameNumberPrev, lastFrameNumber); sleep(/*second*/1); // allow some time for errors to show up, if any EXPECT_FALSE(callbacks->hadError()); // Can we unconfigure? EXPECT_EQ(OK, device->beginConfigure()); EXPECT_EQ(OK, device->deleteStream(streamId)); EXPECT_EQ(OK, device->endConfigure()); sleep(/*second*/1); // allow some time for errors to show up, if any EXPECT_FALSE(callbacks->hadError()); closeDevice(p); } };