Update VtsHalCameraProviderV2_4TargetTest
* Use VtsHalHidlTargetTestEnvBase to run test against different service name
Bug:62946472
Test: make vts
vts-tradefed run vts -m VtsHalCameraProviderV2_4Target
Change-Id: I12edce57c237cb6674e0aff437c3389e5ad9e028
diff --git a/camera/provider/2.4/vts/functional/VtsHalCameraProviderV2_4TargetTest.cpp b/camera/provider/2.4/vts/functional/VtsHalCameraProviderV2_4TargetTest.cpp
index 2ae4853..1eea640 100644
--- a/camera/provider/2.4/vts/functional/VtsHalCameraProviderV2_4TargetTest.cpp
+++ b/camera/provider/2.4/vts/functional/VtsHalCameraProviderV2_4TargetTest.cpp
@@ -43,6 +43,7 @@
#include <ui/GraphicBuffer.h>
#include <VtsHalHidlTargetTestBase.h>
+#include <VtsHalHidlTargetTestEnvBase.h>
using ::android::hardware::Return;
using ::android::hardware::Void;
@@ -100,7 +101,6 @@
using ResultMetadataQueue = MessageQueue<uint8_t, kSynchronizedReadWrite>;
using ::android::hidl::manager::V1_0::IServiceManager;
-const char kCameraPassthroughServiceName[] = "legacy/0";
const char *kProviderFQName = "android.hardware.camera.provider@2.4::ICameraProvider";
const uint32_t kMaxPreviewWidth = 1920;
const uint32_t kMaxPreviewHeight = 1080;
@@ -219,66 +219,28 @@
}
// Test environment for camera
-class CameraHidlEnvironment : public ::testing::Environment {
-public:
+class CameraHidlEnvironment : public ::testing::VtsHalHidlTargetTestEnvBase {
+ public:
// get the test environment singleton
static CameraHidlEnvironment* Instance() {
static CameraHidlEnvironment* instance = new CameraHidlEnvironment;
return instance;
}
- virtual void SetUp() override;
- virtual void TearDown() override;
+ virtual void HidlSetUp() override { ALOGI("SetUp CameraHidlEnvironment"); }
- std::unordered_map<std::string, sp<ICameraProvider> > mProviders;
+ virtual void HidlTearDown() override { ALOGI("TearDown CameraHidlEnvironment"); }
-private:
+ virtual void registerTestServices() override {
+ registerTestService("android.hardware.camera.provider", "2.4", "ICameraProvider");
+ }
+
+ private:
CameraHidlEnvironment() {}
GTEST_DISALLOW_COPY_AND_ASSIGN_(CameraHidlEnvironment);
};
-void CameraHidlEnvironment::SetUp() {
- sp<IServiceManager> manager = IServiceManager::getService();
- ASSERT_NE(manager, nullptr);
-
- manager->listByInterface(kProviderFQName,
- [this](const hidl_vec<hidl_string> ®istered) {
- std::string name;
- uint32_t id;
- sp<ICameraProvider> provider = nullptr;
- for (size_t i = 0; i < registered.size(); i++) {
- ASSERT_TRUE(parseProviderName(registered[i],
- &name /*out*/, &id /*out*/));
- provider = ICameraProvider::tryGetService(registered[i]);
- ALOGI_IF(provider, "provider is not nullptr, %p", provider.get());
- if (nullptr != provider.get()) {
- mProviders.emplace(name, provider);
- }
- }
- });
-
- std::string legacyName;
- uint32_t legacyId;
- ASSERT_TRUE(parseProviderName(kCameraPassthroughServiceName,
- &legacyName /*out*/, &legacyId /*out*/));
- auto legacyIt = mProviders.find(legacyName);
- //Add any legacy passthrough implementations
- if (legacyIt == mProviders.end()) {
- sp<ICameraProvider> provider = ICameraProvider::tryGetService(
- kCameraPassthroughServiceName);
- if (nullptr != provider.get()) {
- mProviders.emplace(legacyName, provider);
- }
- }
-
- ASSERT_FALSE(mProviders.empty());
-}
-
-void CameraHidlEnvironment::TearDown() {
- ALOGI("TearDown CameraHidlEnvironment");
-}
-
struct BufferItemHander: public BufferItemConsumer::FrameAvailableListener {
BufferItemHander(wp<BufferItemConsumer> consumer) : mConsumer(consumer) {}
@@ -521,23 +483,32 @@
// The main test class for camera HIDL HAL.
class CameraHidlTest : public ::testing::VtsHalHidlTargetTestBase {
public:
- virtual void SetUp() override {}
- virtual void TearDown() override {}
+ virtual void SetUp() override {
+ string service_name = CameraHidlEnvironment::Instance()->getServiceName(kProviderFQName);
+ ALOGI("get service with name: %s", service_name.c_str());
+ mProvider = ::testing::VtsHalHidlTargetTestBase::getService<ICameraProvider>(service_name);
+ ASSERT_NE(mProvider, nullptr);
- hidl_vec<hidl_string> getCameraDeviceNames(sp<ICameraProvider> provider);
+ uint32_t id;
+ ASSERT_TRUE(parseProviderName(service_name, &mProviderType, &id));
+ }
+ virtual void TearDown() override {}
- struct EmptyDeviceCb : public ICameraDeviceCallback {
- virtual Return<void> processCaptureResult(const hidl_vec<CaptureResult>& /*results*/) override {
- ALOGI("processCaptureResult callback");
- ADD_FAILURE(); // Empty callback should not reach here
- return Void();
- }
+ hidl_vec<hidl_string> getCameraDeviceNames(sp<ICameraProvider> provider);
- virtual Return<void> notify(const hidl_vec<NotifyMsg>& /*msgs*/) override {
- ALOGI("notify callback");
- ADD_FAILURE(); // Empty callback should not reach here
- return Void();
- }
+ struct EmptyDeviceCb : public ICameraDeviceCallback {
+ virtual Return<void> processCaptureResult(
+ const hidl_vec<CaptureResult>& /*results*/) override {
+ ALOGI("processCaptureResult callback");
+ ADD_FAILURE(); // Empty callback should not reach here
+ return Void();
+ }
+
+ virtual Return<void> notify(const hidl_vec<NotifyMsg>& /*msgs*/) override {
+ ALOGI("notify callback");
+ ADD_FAILURE(); // Empty callback should not reach here
+ return Void();
+ }
};
struct DeviceCb : public ICameraDeviceCallback {
@@ -731,6 +702,11 @@
// Holds camera registered buffers
std::unordered_map<uint32_t, sp<::android::MemoryHeapBase> > mMemoryPool;
+
+ // Camera provider service
+ sp<ICameraProvider> mProvider;
+ // Camera provider type.
+ std::string mProviderType;
};
Return<void> CameraHidlTest::Camera1DeviceCb::notifyCallback(
@@ -1032,59 +1008,45 @@
// Test if ICameraProvider::isTorchModeSupported returns Status::OK
TEST_F(CameraHidlTest, isTorchModeSupported) {
Return<void> ret;
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- ret = provider.second->isSetTorchModeSupported(
- [&](auto status, bool support) {
- ALOGI("isSetTorchModeSupported returns status:%d supported:%d",
- (int)status, support);
- ASSERT_EQ(Status::OK, status);
- });
- ASSERT_TRUE(ret.isOk());
- }
+ ret = mProvider->isSetTorchModeSupported([&](auto status, bool support) {
+ ALOGI("isSetTorchModeSupported returns status:%d supported:%d", (int)status, support);
+ ASSERT_EQ(Status::OK, status);
+ });
+ ASSERT_TRUE(ret.isOk());
}
// TODO: consider removing this test if getCameraDeviceNames() has the same coverage
TEST_F(CameraHidlTest, getCameraIdList) {
Return<void> ret;
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- ret = provider.second->getCameraIdList(
- [&](auto status, const auto& idList) {
- ALOGI("getCameraIdList returns status:%d", (int)status);
- for (size_t i = 0; i < idList.size(); i++) {
- ALOGI("Camera Id[%zu] is %s", i, idList[i].c_str());
- }
- ASSERT_EQ(Status::OK, status);
- // This is true for internal camera provider.
- // Not necessary hold for external cameras providers
- ASSERT_GT(idList.size(), 0u);
- });
- ASSERT_TRUE(ret.isOk());
- }
+ ret = mProvider->getCameraIdList([&](auto status, const auto& idList) {
+ ALOGI("getCameraIdList returns status:%d", (int)status);
+ for (size_t i = 0; i < idList.size(); i++) {
+ ALOGI("Camera Id[%zu] is %s", i, idList[i].c_str());
+ }
+ ASSERT_EQ(Status::OK, status);
+ // This is true for internal camera provider.
+ // Not necessary hold for external cameras providers
+ ASSERT_GT(idList.size(), 0u);
+ });
+ ASSERT_TRUE(ret.isOk());
}
// Test if ICameraProvider::getVendorTags returns Status::OK
TEST_F(CameraHidlTest, getVendorTags) {
Return<void> ret;
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- ret = provider.second->getVendorTags(
- [&](auto status, const auto& vendorTagSecs) {
- ALOGI("getVendorTags returns status:%d numSections %zu",
- (int)status, vendorTagSecs.size());
- for (size_t i = 0; i < vendorTagSecs.size(); i++) {
- ALOGI("Vendor tag section %zu name %s",
- i, vendorTagSecs[i].sectionName.c_str());
- for (size_t j = 0; j < vendorTagSecs[i].tags.size(); j++) {
- const auto& tag = vendorTagSecs[i].tags[j];
- ALOGI("Vendor tag id %u name %s type %d",
- tag.tagId,
- tag.tagName.c_str(),
- (int) tag.tagType);
- }
- }
- ASSERT_EQ(Status::OK, status);
- });
- ASSERT_TRUE(ret.isOk());
- }
+ ret = mProvider->getVendorTags([&](auto status, const auto& vendorTagSecs) {
+ ALOGI("getVendorTags returns status:%d numSections %zu", (int)status, vendorTagSecs.size());
+ for (size_t i = 0; i < vendorTagSecs.size(); i++) {
+ ALOGI("Vendor tag section %zu name %s", i, vendorTagSecs[i].sectionName.c_str());
+ for (size_t j = 0; j < vendorTagSecs[i].tags.size(); j++) {
+ const auto& tag = vendorTagSecs[i].tags[j];
+ ALOGI("Vendor tag id %u name %s type %d", tag.tagId, tag.tagName.c_str(),
+ (int)tag.tagType);
+ }
+ }
+ ASSERT_EQ(Status::OK, status);
+ });
+ ASSERT_TRUE(ret.isOk());
}
// Test if ICameraProvider::setCallback returns Status::OK
@@ -1107,45 +1069,34 @@
}
};
sp<ProviderCb> cb = new ProviderCb;
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- auto status = provider.second->setCallback(cb);
- ASSERT_TRUE(status.isOk());
- ASSERT_EQ(Status::OK, status);
- }
+ auto status = mProvider->setCallback(cb);
+ ASSERT_TRUE(status.isOk());
+ ASSERT_EQ(Status::OK, status);
}
// Test if ICameraProvider::getCameraDeviceInterface returns Status::OK and non-null device
TEST_F(CameraHidlTest, getCameraDeviceInterface) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- Return<void> ret;
- ret = provider.second->getCameraDeviceInterface_V3_x(
- name,
- [&](auto status, const auto& device3_2) {
- ALOGI("getCameraDeviceInterface_V3_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device3_2, nullptr);
- });
- ASSERT_TRUE(ret.isOk());
- } else if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- Return<void> ret;
- ret = provider.second->getCameraDeviceInterface_V1_x(
- name,
- [&](auto status, const auto& device1) {
- ALOGI("getCameraDeviceInterface_V1_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device1, nullptr);
- });
- ASSERT_TRUE(ret.isOk());
- }
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ Return<void> ret;
+ ret = mProvider->getCameraDeviceInterface_V3_x(
+ name, [&](auto status, const auto& device3_2) {
+ ALOGI("getCameraDeviceInterface_V3_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device3_2, nullptr);
+ });
+ ASSERT_TRUE(ret.isOk());
+ } else if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ Return<void> ret;
+ ret = mProvider->getCameraDeviceInterface_V1_x(
+ name, [&](auto status, const auto& device1) {
+ ALOGI("getCameraDeviceInterface_V1_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device1, nullptr);
+ });
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -1153,66 +1104,55 @@
// Verify that the device resource cost can be retrieved and the values are
// sane.
TEST_F(CameraHidlTest, getResourceCost) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
- ALOGI("getResourceCost: Testing camera device %s", name.c_str());
- Return<void> ret;
- ret = provider.second->getCameraDeviceInterface_V3_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V3_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device3_2 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
+ ALOGI("getResourceCost: Testing camera device %s", name.c_str());
+ Return<void> ret;
+ ret = mProvider->getCameraDeviceInterface_V3_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V3_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device3_2 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- ret = device3_2->getResourceCost(
- [&](auto status, const auto& resourceCost) {
- ALOGI("getResourceCost returns status:%d", (int)status);
- ASSERT_EQ(Status::OK, status);
- ALOGI(" Resource cost is %d", resourceCost.resourceCost);
- ASSERT_LE(resourceCost.resourceCost, 100u);
- for (const auto& name : resourceCost.conflictingDevices) {
- ALOGI(" Conflicting device: %s", name.c_str());
- }
- });
- ASSERT_TRUE(ret.isOk());
- } else {
- ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- ALOGI("getResourceCost: Testing camera device %s", name.c_str());
- Return<void> ret;
- ret = provider.second->getCameraDeviceInterface_V1_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V1_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device1 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ ret = device3_2->getResourceCost([&](auto status, const auto& resourceCost) {
+ ALOGI("getResourceCost returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ALOGI(" Resource cost is %d", resourceCost.resourceCost);
+ ASSERT_LE(resourceCost.resourceCost, 100u);
+ for (const auto& name : resourceCost.conflictingDevices) {
+ ALOGI(" Conflicting device: %s", name.c_str());
+ }
+ });
+ ASSERT_TRUE(ret.isOk());
+ } else {
+ ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ ALOGI("getResourceCost: Testing camera device %s", name.c_str());
+ Return<void> ret;
+ ret = mProvider->getCameraDeviceInterface_V1_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V1_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device1 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- ret = device1->getResourceCost(
- [&](auto status, const auto& resourceCost) {
- ALOGI("getResourceCost returns status:%d", (int)status);
- ASSERT_EQ(Status::OK, status);
- ALOGI(" Resource cost is %d",
- resourceCost.resourceCost);
- ASSERT_LE(resourceCost.resourceCost, 100u);
- for (const auto& name : resourceCost.conflictingDevices) {
- ALOGI(" Conflicting device: %s", name.c_str());
- }
- });
- ASSERT_TRUE(ret.isOk());
- }
+ ret = device1->getResourceCost([&](auto status, const auto& resourceCost) {
+ ALOGI("getResourceCost returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ALOGI(" Resource cost is %d", resourceCost.resourceCost);
+ ASSERT_LE(resourceCost.resourceCost, 100u);
+ for (const auto& name : resourceCost.conflictingDevices) {
+ ALOGI(" Conflicting device: %s", name.c_str());
+ }
+ });
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -1220,143 +1160,117 @@
// Verify that the static camera info can be retrieved
// successfully.
TEST_F(CameraHidlTest, getCameraInfo) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- ALOGI("getCameraCharacteristics: Testing camera device %s",
- name.c_str());
- Return<void> ret;
- ret = provider.second->getCameraDeviceInterface_V1_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V1_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device1 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ ALOGI("getCameraCharacteristics: Testing camera device %s", name.c_str());
+ Return<void> ret;
+ ret = mProvider->getCameraDeviceInterface_V1_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V1_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device1 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- ret = device1->getCameraInfo(
- [&](auto status, const auto& info) {
- ALOGI("getCameraInfo returns status:%d", (int)status);
- ASSERT_EQ(Status::OK, status);
- switch(info.orientation) {
- case 0:
- case 90:
- case 180:
- case 270:
- //Expected cases
- ALOGI("camera orientation: %d", info.orientation);
- break;
- default:
- FAIL() << "Unexpected camera orientation:" << info.orientation;
- }
- switch(info.facing) {
- case CameraFacing::BACK:
- case CameraFacing::FRONT:
- case CameraFacing::EXTERNAL:
- //Expected cases
- ALOGI("camera facing: %d", info.facing);
- break;
- default:
- FAIL() << "Unexpected camera facing:" << static_cast<uint32_t> (
- info.facing);
- }
- });
- ASSERT_TRUE(ret.isOk());
- }
+ ret = device1->getCameraInfo([&](auto status, const auto& info) {
+ ALOGI("getCameraInfo returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ switch (info.orientation) {
+ case 0:
+ case 90:
+ case 180:
+ case 270:
+ // Expected cases
+ ALOGI("camera orientation: %d", info.orientation);
+ break;
+ default:
+ FAIL() << "Unexpected camera orientation:" << info.orientation;
+ }
+ switch (info.facing) {
+ case CameraFacing::BACK:
+ case CameraFacing::FRONT:
+ case CameraFacing::EXTERNAL:
+ // Expected cases
+ ALOGI("camera facing: %d", info.facing);
+ break;
+ default:
+ FAIL() << "Unexpected camera facing:" << static_cast<uint32_t>(info.facing);
+ }
+ });
+ ASSERT_TRUE(ret.isOk());
}
}
}
// Check whether preview window can be configured
TEST_F(CameraHidlTest, setPreviewWindow) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1,
- &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
- Return<void> ret;
- ret = device1->close();
- ASSERT_TRUE(ret.isOk());
- }
+ Return<void> ret;
+ ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
// Verify that setting preview window fails in case device is not open
TEST_F(CameraHidlTest, setPreviewWindowInvalid) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- ALOGI("getCameraCharacteristics: Testing camera device %s",
- name.c_str());
- Return<void> ret;
- ret = provider.second->getCameraDeviceInterface_V1_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V1_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device1 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ ALOGI("getCameraCharacteristics: Testing camera device %s", name.c_str());
+ Return<void> ret;
+ ret = mProvider->getCameraDeviceInterface_V1_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V1_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device1 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- Return<Status> returnStatus = device1->setPreviewWindow(nullptr);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OPERATION_NOT_SUPPORTED, returnStatus);
- }
+ Return<Status> returnStatus = device1->setPreviewWindow(nullptr);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OPERATION_NOT_SUPPORTED, returnStatus);
}
}
}
// Start and stop preview checking whether it gets enabled in between.
TEST_F(CameraHidlTest, startStopPreview) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1,
- &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
- startPreview(device1);
+ startPreview(device1);
- Return<bool> returnBoolStatus = device1->previewEnabled();
- ASSERT_TRUE(returnBoolStatus.isOk());
- ASSERT_TRUE(returnBoolStatus);
+ Return<bool> returnBoolStatus = device1->previewEnabled();
+ ASSERT_TRUE(returnBoolStatus.isOk());
+ ASSERT_TRUE(returnBoolStatus);
- stopPreviewAndClose(device1);
- }
+ stopPreviewAndClose(device1);
}
}
}
@@ -1364,646 +1278,552 @@
// Start preview without active preview window. Preview should start as soon
// as a valid active window gets configured.
TEST_F(CameraHidlTest, startStopPreviewDelayed) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- Return<Status> returnStatus = device1->setPreviewWindow(nullptr);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
+ Return<Status> returnStatus = device1->setPreviewWindow(nullptr);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
- startPreview(device1);
+ startPreview(device1);
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
- //Preview should get enabled now
- Return<bool> returnBoolStatus = device1->previewEnabled();
- ASSERT_TRUE(returnBoolStatus.isOk());
- ASSERT_TRUE(returnBoolStatus);
+ // Preview should get enabled now
+ Return<bool> returnBoolStatus = device1->previewEnabled();
+ ASSERT_TRUE(returnBoolStatus.isOk());
+ ASSERT_TRUE(returnBoolStatus);
- stopPreviewAndClose(device1);
- }
+ stopPreviewAndClose(device1);
}
}
}
// Verify that image capture behaves as expected along with preview callbacks.
TEST_F(CameraHidlTest, takePicture) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
- {
- std::unique_lock<std::mutex> l(mLock);
- mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
- }
-
- enableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME,
- device1);
- startPreview(device1);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- waitForFrameLocked(DataCallbackMsg::PREVIEW_FRAME, l);
- }
-
- disableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME,
- device1);
- enableMsgType((unsigned int)DataCallbackMsg::COMPRESSED_IMAGE,
- device1);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
- }
-
- Return<Status> returnStatus = device1->takePicture();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- waitForFrameLocked(DataCallbackMsg::COMPRESSED_IMAGE, l);
- }
-
- disableMsgType((unsigned int)DataCallbackMsg::COMPRESSED_IMAGE,
- device1);
- stopPreviewAndClose(device1);
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
}
+
+ enableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME, device1);
+ startPreview(device1);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ waitForFrameLocked(DataCallbackMsg::PREVIEW_FRAME, l);
+ }
+
+ disableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME, device1);
+ enableMsgType((unsigned int)DataCallbackMsg::COMPRESSED_IMAGE, device1);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
+ }
+
+ Return<Status> returnStatus = device1->takePicture();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ waitForFrameLocked(DataCallbackMsg::COMPRESSED_IMAGE, l);
+ }
+
+ disableMsgType((unsigned int)DataCallbackMsg::COMPRESSED_IMAGE, device1);
+ stopPreviewAndClose(device1);
}
}
}
// Image capture should fail in case preview didn't get enabled first.
TEST_F(CameraHidlTest, takePictureFail) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- Return<Status> returnStatus = device1->takePicture();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_NE(Status::OK, returnStatus);
+ Return<Status> returnStatus = device1->takePicture();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_NE(Status::OK, returnStatus);
- Return<void> ret = device1->close();
- ASSERT_TRUE(ret.isOk());
- }
+ Return<void> ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
// Verify that image capture can be cancelled.
TEST_F(CameraHidlTest, cancelPicture) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
- startPreview(device1);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ startPreview(device1);
- Return<Status> returnStatus = device1->takePicture();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
+ Return<Status> returnStatus = device1->takePicture();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
- returnStatus = device1->cancelPicture();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
+ returnStatus = device1->cancelPicture();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
- stopPreviewAndClose(device1);
- }
+ stopPreviewAndClose(device1);
}
}
}
// Image capture cancel should fail when image capture is not running.
TEST_F(CameraHidlTest, cancelPictureFail) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
- startPreview(device1);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ startPreview(device1);
- Return<Status> returnStatus = device1->cancelPicture();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_NE(Status::OK, returnStatus);
+ Return<Status> returnStatus = device1->cancelPicture();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_NE(Status::OK, returnStatus);
- stopPreviewAndClose(device1);
- }
+ stopPreviewAndClose(device1);
}
}
}
// Test basic video recording.
TEST_F(CameraHidlTest, startStopRecording) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
- {
- std::unique_lock<std::mutex> l(mLock);
- mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
- }
-
- enableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME,
- device1);
- startPreview(device1);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- waitForFrameLocked(DataCallbackMsg::PREVIEW_FRAME, l);
- mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
- mVideoBufferIndex = UINT32_MAX;
- }
-
- disableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME,
- device1);
-
- bool videoMetaEnabled = false;
- Return<Status> returnStatus = device1->storeMetaDataInBuffers(
- true);
- ASSERT_TRUE(returnStatus.isOk());
- // It is allowed for devices to not support this feature
- ASSERT_TRUE((Status::OK == returnStatus) ||
- (Status::OPERATION_NOT_SUPPORTED == returnStatus));
- if (Status::OK == returnStatus) {
- videoMetaEnabled = true;
- }
-
- enableMsgType((unsigned int)DataCallbackMsg::VIDEO_FRAME,
- device1);
- Return<bool> returnBoolStatus = device1->recordingEnabled();
- ASSERT_TRUE(returnBoolStatus.isOk());
- ASSERT_FALSE(returnBoolStatus);
-
- returnStatus = device1->startRecording();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- waitForFrameLocked(DataCallbackMsg::VIDEO_FRAME, l);
- ASSERT_NE(UINT32_MAX, mVideoBufferIndex);
- disableMsgType((unsigned int)DataCallbackMsg::VIDEO_FRAME,
- device1);
- }
-
- returnBoolStatus = device1->recordingEnabled();
- ASSERT_TRUE(returnBoolStatus.isOk());
- ASSERT_TRUE(returnBoolStatus);
-
- Return<void> ret;
- if (videoMetaEnabled) {
- ret = device1->releaseRecordingFrameHandle(mVideoData,
- mVideoBufferIndex, mVideoNativeHandle);
- ASSERT_TRUE(ret.isOk());
- } else {
- ret = device1->releaseRecordingFrame(mVideoData,
- mVideoBufferIndex);
- ASSERT_TRUE(ret.isOk());
- }
-
- ret = device1->stopRecording();
- ASSERT_TRUE(ret.isOk());
-
- stopPreviewAndClose(device1);
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
}
+
+ enableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME, device1);
+ startPreview(device1);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ waitForFrameLocked(DataCallbackMsg::PREVIEW_FRAME, l);
+ mDataMessageTypeReceived = DataCallbackMsg::RAW_IMAGE_NOTIFY;
+ mVideoBufferIndex = UINT32_MAX;
+ }
+
+ disableMsgType((unsigned int)DataCallbackMsg::PREVIEW_FRAME, device1);
+
+ bool videoMetaEnabled = false;
+ Return<Status> returnStatus = device1->storeMetaDataInBuffers(true);
+ ASSERT_TRUE(returnStatus.isOk());
+ // It is allowed for devices to not support this feature
+ ASSERT_TRUE((Status::OK == returnStatus) ||
+ (Status::OPERATION_NOT_SUPPORTED == returnStatus));
+ if (Status::OK == returnStatus) {
+ videoMetaEnabled = true;
+ }
+
+ enableMsgType((unsigned int)DataCallbackMsg::VIDEO_FRAME, device1);
+ Return<bool> returnBoolStatus = device1->recordingEnabled();
+ ASSERT_TRUE(returnBoolStatus.isOk());
+ ASSERT_FALSE(returnBoolStatus);
+
+ returnStatus = device1->startRecording();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ waitForFrameLocked(DataCallbackMsg::VIDEO_FRAME, l);
+ ASSERT_NE(UINT32_MAX, mVideoBufferIndex);
+ disableMsgType((unsigned int)DataCallbackMsg::VIDEO_FRAME, device1);
+ }
+
+ returnBoolStatus = device1->recordingEnabled();
+ ASSERT_TRUE(returnBoolStatus.isOk());
+ ASSERT_TRUE(returnBoolStatus);
+
+ Return<void> ret;
+ if (videoMetaEnabled) {
+ ret = device1->releaseRecordingFrameHandle(mVideoData, mVideoBufferIndex,
+ mVideoNativeHandle);
+ ASSERT_TRUE(ret.isOk());
+ } else {
+ ret = device1->releaseRecordingFrame(mVideoData, mVideoBufferIndex);
+ ASSERT_TRUE(ret.isOk());
+ }
+
+ ret = device1->stopRecording();
+ ASSERT_TRUE(ret.isOk());
+
+ stopPreviewAndClose(device1);
}
}
}
// It shouldn't be possible to start recording without enabling preview first.
TEST_F(CameraHidlTest, startRecordingFail) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- Return<bool> returnBoolStatus = device1->recordingEnabled();
- ASSERT_TRUE(returnBoolStatus.isOk());
- ASSERT_FALSE(returnBoolStatus);
+ Return<bool> returnBoolStatus = device1->recordingEnabled();
+ ASSERT_TRUE(returnBoolStatus.isOk());
+ ASSERT_FALSE(returnBoolStatus);
- Return<Status> returnStatus = device1->startRecording();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_NE(Status::OK, returnStatus);
+ Return<Status> returnStatus = device1->startRecording();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_NE(Status::OK, returnStatus);
- Return<void> ret = device1->close();
- ASSERT_TRUE(ret.isOk());
- }
+ Return<void> ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
// Check autofocus support if available.
TEST_F(CameraHidlTest, autoFocus) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<const char *> focusModes = {CameraParameters::FOCUS_MODE_AUTO,
- CameraParameters::FOCUS_MODE_CONTINUOUS_PICTURE,
- CameraParameters::FOCUS_MODE_CONTINUOUS_VIDEO};
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<const char*> focusModes = {CameraParameters::FOCUS_MODE_AUTO,
+ CameraParameters::FOCUS_MODE_CONTINUOUS_PICTURE,
+ CameraParameters::FOCUS_MODE_CONTINUOUS_VIDEO};
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- CameraParameters cameraParams;
- getParameters(device1, &cameraParams /*out*/);
+ CameraParameters cameraParams;
+ getParameters(device1, &cameraParams /*out*/);
- if (Status::OK != isAutoFocusModeAvailable(cameraParams,
- CameraParameters::FOCUS_MODE_AUTO)) {
- Return<void> ret = device1->close();
- ASSERT_TRUE(ret.isOk());
+ if (Status::OK !=
+ isAutoFocusModeAvailable(cameraParams, CameraParameters::FOCUS_MODE_AUTO)) {
+ Return<void> ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
+ continue;
+ }
+
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ startPreview(device1);
+ enableMsgType((unsigned int)NotifyCallbackMsg::FOCUS, device1);
+
+ for (auto& iter : focusModes) {
+ if (Status::OK != isAutoFocusModeAvailable(cameraParams, iter)) {
continue;
}
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
- startPreview(device1);
- enableMsgType((unsigned int)NotifyCallbackMsg::FOCUS, device1);
-
- for (auto &iter : focusModes) {
- if (Status::OK != isAutoFocusModeAvailable(cameraParams,
- iter)) {
- continue;
- }
-
- cameraParams.set(CameraParameters::KEY_FOCUS_MODE, iter);
- setParameters(device1, cameraParams);
- {
- std::unique_lock<std::mutex> l(mLock);
- mNotifyMessage = NotifyCallbackMsg::ERROR;
- }
-
- Return<Status> returnStatus = device1->autoFocus();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- while (NotifyCallbackMsg::FOCUS != mNotifyMessage) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kAutoFocusTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mResultCondition.wait_until(l, timeout));
- }
- }
+ cameraParams.set(CameraParameters::KEY_FOCUS_MODE, iter);
+ setParameters(device1, cameraParams);
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ mNotifyMessage = NotifyCallbackMsg::ERROR;
}
- disableMsgType((unsigned int)NotifyCallbackMsg::FOCUS, device1);
- stopPreviewAndClose(device1);
+ Return<Status> returnStatus = device1->autoFocus();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ while (NotifyCallbackMsg::FOCUS != mNotifyMessage) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kAutoFocusTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mResultCondition.wait_until(l, timeout));
+ }
+ }
}
+
+ disableMsgType((unsigned int)NotifyCallbackMsg::FOCUS, device1);
+ stopPreviewAndClose(device1);
}
}
}
// In case autofocus is supported verify that it can be cancelled.
TEST_F(CameraHidlTest, cancelAutoFocus) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- CameraParameters cameraParams;
- getParameters(device1, &cameraParams /*out*/);
+ CameraParameters cameraParams;
+ getParameters(device1, &cameraParams /*out*/);
- if (Status::OK != isAutoFocusModeAvailable(cameraParams,
- CameraParameters::FOCUS_MODE_AUTO)) {
- Return<void> ret = device1->close();
- ASSERT_TRUE(ret.isOk());
- continue;
- }
-
- // It should be fine to call before preview starts.
- ASSERT_EQ(Status::OK, device1->cancelAutoFocus());
-
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
- startPreview(device1);
-
- // It should be fine to call after preview starts too.
- Return<Status> returnStatus = device1->cancelAutoFocus();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- returnStatus = device1->autoFocus();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- returnStatus = device1->cancelAutoFocus();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- stopPreviewAndClose(device1);
+ if (Status::OK !=
+ isAutoFocusModeAvailable(cameraParams, CameraParameters::FOCUS_MODE_AUTO)) {
+ Return<void> ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
+ continue;
}
+
+ // It should be fine to call before preview starts.
+ ASSERT_EQ(Status::OK, device1->cancelAutoFocus());
+
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ startPreview(device1);
+
+ // It should be fine to call after preview starts too.
+ Return<Status> returnStatus = device1->cancelAutoFocus();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ returnStatus = device1->autoFocus();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ returnStatus = device1->cancelAutoFocus();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ stopPreviewAndClose(device1);
}
}
}
// Check whether face detection is available and try to enable&disable.
TEST_F(CameraHidlTest, sendCommandFaceDetection) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- CameraParameters cameraParams;
- getParameters(device1, &cameraParams /*out*/);
+ CameraParameters cameraParams;
+ getParameters(device1, &cameraParams /*out*/);
- int32_t hwFaces = cameraParams.getInt(
- CameraParameters::KEY_MAX_NUM_DETECTED_FACES_HW);
- int32_t swFaces = cameraParams.getInt(
- CameraParameters::KEY_MAX_NUM_DETECTED_FACES_SW);
- if ((0 >= hwFaces) && (0 >= swFaces)) {
- Return<void> ret = device1->close();
- ASSERT_TRUE(ret.isOk());
- continue;
- }
-
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
- startPreview(device1);
-
- if (0 < hwFaces) {
- Return<Status> returnStatus = device1->sendCommand(
- CommandType::START_FACE_DETECTION,
- CAMERA_FACE_DETECTION_HW, 0);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
- // TODO(epeev) : Enable and check for face notifications
- returnStatus = device1->sendCommand(
- CommandType::STOP_FACE_DETECTION,
- CAMERA_FACE_DETECTION_HW, 0);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
- }
-
- if (0 < swFaces) {
- Return<Status> returnStatus = device1->sendCommand(
- CommandType::START_FACE_DETECTION,
- CAMERA_FACE_DETECTION_SW, 0);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
- // TODO(epeev) : Enable and check for face notifications
- returnStatus = device1->sendCommand(
- CommandType::STOP_FACE_DETECTION,
- CAMERA_FACE_DETECTION_SW, 0);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
- }
-
- stopPreviewAndClose(device1);
+ int32_t hwFaces = cameraParams.getInt(CameraParameters::KEY_MAX_NUM_DETECTED_FACES_HW);
+ int32_t swFaces = cameraParams.getInt(CameraParameters::KEY_MAX_NUM_DETECTED_FACES_SW);
+ if ((0 >= hwFaces) && (0 >= swFaces)) {
+ Return<void> ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
+ continue;
}
+
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ startPreview(device1);
+
+ if (0 < hwFaces) {
+ Return<Status> returnStatus = device1->sendCommand(
+ CommandType::START_FACE_DETECTION, CAMERA_FACE_DETECTION_HW, 0);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+ // TODO(epeev) : Enable and check for face notifications
+ returnStatus = device1->sendCommand(CommandType::STOP_FACE_DETECTION,
+ CAMERA_FACE_DETECTION_HW, 0);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+ }
+
+ if (0 < swFaces) {
+ Return<Status> returnStatus = device1->sendCommand(
+ CommandType::START_FACE_DETECTION, CAMERA_FACE_DETECTION_SW, 0);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+ // TODO(epeev) : Enable and check for face notifications
+ returnStatus = device1->sendCommand(CommandType::STOP_FACE_DETECTION,
+ CAMERA_FACE_DETECTION_SW, 0);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+ }
+
+ stopPreviewAndClose(device1);
}
}
}
// Check whether smooth zoom is available and try to enable&disable.
TEST_F(CameraHidlTest, sendCommandSmoothZoom) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- CameraParameters cameraParams;
- getParameters(device1, &cameraParams /*out*/);
+ CameraParameters cameraParams;
+ getParameters(device1, &cameraParams /*out*/);
- const char *smoothZoomStr = cameraParams.get(
- CameraParameters::KEY_SMOOTH_ZOOM_SUPPORTED);
- bool smoothZoomSupported = ((nullptr != smoothZoomStr) &&
- (strcmp(smoothZoomStr, CameraParameters::TRUE) == 0)) ?
- true : false;
- if (!smoothZoomSupported) {
- Return<void> ret = device1->close();
- ASSERT_TRUE(ret.isOk());
- continue;
- }
-
- int32_t maxZoom = cameraParams.getInt(
- CameraParameters::KEY_MAX_ZOOM);
- ASSERT_TRUE(0 < maxZoom);
-
- sp<BufferItemConsumer> bufferItemConsumer;
- sp<BufferItemHander> bufferHandler;
- setupPreviewWindow(device1, &bufferItemConsumer /*out*/,
- &bufferHandler /*out*/);
- startPreview(device1);
- setParameters(device1, cameraParams);
-
- Return<Status> returnStatus = device1->sendCommand(
- CommandType::START_SMOOTH_ZOOM, maxZoom, 0);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
- // TODO(epeev) : Enable and check for face notifications
- returnStatus = device1->sendCommand(
- CommandType::STOP_SMOOTH_ZOOM, 0, 0);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- stopPreviewAndClose(device1);
+ const char* smoothZoomStr =
+ cameraParams.get(CameraParameters::KEY_SMOOTH_ZOOM_SUPPORTED);
+ bool smoothZoomSupported =
+ ((nullptr != smoothZoomStr) && (strcmp(smoothZoomStr, CameraParameters::TRUE) == 0))
+ ? true
+ : false;
+ if (!smoothZoomSupported) {
+ Return<void> ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
+ continue;
}
+
+ int32_t maxZoom = cameraParams.getInt(CameraParameters::KEY_MAX_ZOOM);
+ ASSERT_TRUE(0 < maxZoom);
+
+ sp<BufferItemConsumer> bufferItemConsumer;
+ sp<BufferItemHander> bufferHandler;
+ setupPreviewWindow(device1, &bufferItemConsumer /*out*/, &bufferHandler /*out*/);
+ startPreview(device1);
+ setParameters(device1, cameraParams);
+
+ Return<Status> returnStatus =
+ device1->sendCommand(CommandType::START_SMOOTH_ZOOM, maxZoom, 0);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+ // TODO(epeev) : Enable and check for face notifications
+ returnStatus = device1->sendCommand(CommandType::STOP_SMOOTH_ZOOM, 0, 0);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ stopPreviewAndClose(device1);
}
}
}
// Basic sanity tests related to camera parameters.
TEST_F(CameraHidlTest, getSetParameters) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- CameraParameters cameraParams;
- getParameters(device1, &cameraParams /*out*/);
+ CameraParameters cameraParams;
+ getParameters(device1, &cameraParams /*out*/);
- int32_t width, height;
- cameraParams.getPictureSize(&width, &height);
- ASSERT_TRUE((0 < width) && (0 < height));
- cameraParams.getPreviewSize(&width, &height);
- ASSERT_TRUE((0 < width) && (0 < height));
- int32_t minFps, maxFps;
- cameraParams.getPreviewFpsRange(&minFps, &maxFps);
- ASSERT_TRUE((0 < minFps) && (0 < maxFps));
- ASSERT_NE(nullptr, cameraParams.getPreviewFormat());
- ASSERT_NE(nullptr, cameraParams.getPictureFormat());
- ASSERT_TRUE(strcmp(CameraParameters::PIXEL_FORMAT_JPEG,
- cameraParams.getPictureFormat()) == 0);
+ int32_t width, height;
+ cameraParams.getPictureSize(&width, &height);
+ ASSERT_TRUE((0 < width) && (0 < height));
+ cameraParams.getPreviewSize(&width, &height);
+ ASSERT_TRUE((0 < width) && (0 < height));
+ int32_t minFps, maxFps;
+ cameraParams.getPreviewFpsRange(&minFps, &maxFps);
+ ASSERT_TRUE((0 < minFps) && (0 < maxFps));
+ ASSERT_NE(nullptr, cameraParams.getPreviewFormat());
+ ASSERT_NE(nullptr, cameraParams.getPictureFormat());
+ ASSERT_TRUE(
+ strcmp(CameraParameters::PIXEL_FORMAT_JPEG, cameraParams.getPictureFormat()) == 0);
- const char *flashMode = cameraParams.get(
- CameraParameters::KEY_FLASH_MODE);
- ASSERT_TRUE((nullptr == flashMode) || (strcmp(
- CameraParameters::FLASH_MODE_OFF, flashMode) == 0));
+ const char* flashMode = cameraParams.get(CameraParameters::KEY_FLASH_MODE);
+ ASSERT_TRUE((nullptr == flashMode) ||
+ (strcmp(CameraParameters::FLASH_MODE_OFF, flashMode) == 0));
- const char *wbMode = cameraParams.get(
- CameraParameters::KEY_WHITE_BALANCE);
- ASSERT_TRUE((nullptr == wbMode) || (strcmp(
- CameraParameters::WHITE_BALANCE_AUTO, wbMode) == 0));
+ const char* wbMode = cameraParams.get(CameraParameters::KEY_WHITE_BALANCE);
+ ASSERT_TRUE((nullptr == wbMode) ||
+ (strcmp(CameraParameters::WHITE_BALANCE_AUTO, wbMode) == 0));
- const char *effect = cameraParams.get(
- CameraParameters::KEY_EFFECT);
- ASSERT_TRUE((nullptr == effect) || (strcmp(
- CameraParameters::EFFECT_NONE, effect) == 0));
+ const char* effect = cameraParams.get(CameraParameters::KEY_EFFECT);
+ ASSERT_TRUE((nullptr == effect) ||
+ (strcmp(CameraParameters::EFFECT_NONE, effect) == 0));
- ::android::Vector<Size> previewSizes;
- cameraParams.getSupportedPreviewSizes(previewSizes);
- ASSERT_FALSE(previewSizes.empty());
- ::android::Vector<Size> pictureSizes;
- cameraParams.getSupportedPictureSizes(pictureSizes);
- ASSERT_FALSE(pictureSizes.empty());
- const char *previewFormats = cameraParams.get(
- CameraParameters::KEY_SUPPORTED_PREVIEW_FORMATS);
- ASSERT_NE(nullptr, previewFormats);
- ::android::String8 previewFormatsString(previewFormats);
- ASSERT_TRUE(previewFormatsString.contains(
- CameraParameters::PIXEL_FORMAT_YUV420SP));
- ASSERT_NE(nullptr, cameraParams.get(
- CameraParameters::KEY_SUPPORTED_PICTURE_FORMATS));
- ASSERT_NE(nullptr, cameraParams.get(
- CameraParameters::KEY_SUPPORTED_PREVIEW_FRAME_RATES));
- const char *focusModes = cameraParams.get(
- CameraParameters::KEY_SUPPORTED_FOCUS_MODES);
- ASSERT_NE(nullptr, focusModes);
- ::android::String8 focusModesString(focusModes);
- const char *focusMode = cameraParams.get(
- CameraParameters::KEY_FOCUS_MODE);
- ASSERT_NE(nullptr, focusMode);
- // Auto focus mode should be default
- if (focusModesString.contains(
- CameraParameters::FOCUS_MODE_AUTO)) {
- ASSERT_TRUE(strcmp(
- CameraParameters::FOCUS_MODE_AUTO, focusMode) == 0);
- }
- ASSERT_TRUE(0 < cameraParams.getInt(
- CameraParameters::KEY_FOCAL_LENGTH));
- int32_t horizontalViewAngle = cameraParams.getInt(
- CameraParameters::KEY_HORIZONTAL_VIEW_ANGLE);
- ASSERT_TRUE((0 < horizontalViewAngle) &&
- (360 >= horizontalViewAngle));
- int32_t verticalViewAngle = cameraParams.getInt(
- CameraParameters::KEY_VERTICAL_VIEW_ANGLE);
- ASSERT_TRUE((0 < verticalViewAngle) &&
- (360 >= verticalViewAngle));
- int32_t jpegQuality = cameraParams.getInt(
- CameraParameters::KEY_JPEG_QUALITY);
- ASSERT_TRUE((1 <= jpegQuality) && (100 >= jpegQuality));
- int32_t jpegThumbQuality = cameraParams.getInt(
- CameraParameters::KEY_JPEG_THUMBNAIL_QUALITY);
- ASSERT_TRUE((1 <= jpegThumbQuality) &&
- (100 >= jpegThumbQuality));
-
- cameraParams.setPictureSize(pictureSizes[0].width,
- pictureSizes[0].height);
- cameraParams.setPreviewSize(previewSizes[0].width,
- previewSizes[0].height);
-
- setParameters(device1, cameraParams);
- getParameters(device1, &cameraParams /*out*/);
-
- cameraParams.getPictureSize(&width, &height);
- ASSERT_TRUE((pictureSizes[0].width == width) &&
- (pictureSizes[0].height == height));
- cameraParams.getPreviewSize(&width, &height);
- ASSERT_TRUE((previewSizes[0].width == width) &&
- (previewSizes[0].height == height));
-
- Return<void> ret = device1->close();
- ASSERT_TRUE(ret.isOk());
+ ::android::Vector<Size> previewSizes;
+ cameraParams.getSupportedPreviewSizes(previewSizes);
+ ASSERT_FALSE(previewSizes.empty());
+ ::android::Vector<Size> pictureSizes;
+ cameraParams.getSupportedPictureSizes(pictureSizes);
+ ASSERT_FALSE(pictureSizes.empty());
+ const char* previewFormats =
+ cameraParams.get(CameraParameters::KEY_SUPPORTED_PREVIEW_FORMATS);
+ ASSERT_NE(nullptr, previewFormats);
+ ::android::String8 previewFormatsString(previewFormats);
+ ASSERT_TRUE(previewFormatsString.contains(CameraParameters::PIXEL_FORMAT_YUV420SP));
+ ASSERT_NE(nullptr, cameraParams.get(CameraParameters::KEY_SUPPORTED_PICTURE_FORMATS));
+ ASSERT_NE(nullptr,
+ cameraParams.get(CameraParameters::KEY_SUPPORTED_PREVIEW_FRAME_RATES));
+ const char* focusModes = cameraParams.get(CameraParameters::KEY_SUPPORTED_FOCUS_MODES);
+ ASSERT_NE(nullptr, focusModes);
+ ::android::String8 focusModesString(focusModes);
+ const char* focusMode = cameraParams.get(CameraParameters::KEY_FOCUS_MODE);
+ ASSERT_NE(nullptr, focusMode);
+ // Auto focus mode should be default
+ if (focusModesString.contains(CameraParameters::FOCUS_MODE_AUTO)) {
+ ASSERT_TRUE(strcmp(CameraParameters::FOCUS_MODE_AUTO, focusMode) == 0);
}
+ ASSERT_TRUE(0 < cameraParams.getInt(CameraParameters::KEY_FOCAL_LENGTH));
+ int32_t horizontalViewAngle =
+ cameraParams.getInt(CameraParameters::KEY_HORIZONTAL_VIEW_ANGLE);
+ ASSERT_TRUE((0 < horizontalViewAngle) && (360 >= horizontalViewAngle));
+ int32_t verticalViewAngle =
+ cameraParams.getInt(CameraParameters::KEY_VERTICAL_VIEW_ANGLE);
+ ASSERT_TRUE((0 < verticalViewAngle) && (360 >= verticalViewAngle));
+ int32_t jpegQuality = cameraParams.getInt(CameraParameters::KEY_JPEG_QUALITY);
+ ASSERT_TRUE((1 <= jpegQuality) && (100 >= jpegQuality));
+ int32_t jpegThumbQuality =
+ cameraParams.getInt(CameraParameters::KEY_JPEG_THUMBNAIL_QUALITY);
+ ASSERT_TRUE((1 <= jpegThumbQuality) && (100 >= jpegThumbQuality));
+
+ cameraParams.setPictureSize(pictureSizes[0].width, pictureSizes[0].height);
+ cameraParams.setPreviewSize(previewSizes[0].width, previewSizes[0].height);
+
+ setParameters(device1, cameraParams);
+ getParameters(device1, &cameraParams /*out*/);
+
+ cameraParams.getPictureSize(&width, &height);
+ ASSERT_TRUE((pictureSizes[0].width == width) && (pictureSizes[0].height == height));
+ cameraParams.getPreviewSize(&width, &height);
+ ASSERT_TRUE((previewSizes[0].width == width) && (previewSizes[0].height == height));
+
+ Return<void> ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2011,50 +1831,36 @@
// Verify that the static camera characteristics can be retrieved
// successfully.
TEST_F(CameraHidlTest, getCameraCharacteristics) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
- ALOGI("getCameraCharacteristics: Testing camera device %s",
- name.c_str());
- Return<void> ret;
- ret = provider.second->getCameraDeviceInterface_V3_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V3_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device3_2 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
+ ALOGI("getCameraCharacteristics: Testing camera device %s", name.c_str());
+ Return<void> ret;
+ ret = mProvider->getCameraDeviceInterface_V3_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V3_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device3_2 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- ret = device3_2->getCameraCharacteristics(
- [&](auto status, const auto& chars) {
- ALOGI("getCameraCharacteristics returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- const camera_metadata_t* metadata =
- (camera_metadata_t*) chars.data();
- size_t expectedSize = chars.size();
- int result = validate_camera_metadata_structure(
- metadata, &expectedSize);
- ASSERT_TRUE((result == 0) ||
- (result == CAMERA_METADATA_VALIDATION_SHIFTED));
- size_t entryCount = get_camera_metadata_entry_count(
- metadata);
- // TODO: we can do better than 0 here. Need to check how many required
- // characteristics keys we've defined.
- ASSERT_GT(entryCount, 0u);
- ALOGI("getCameraCharacteristics metadata entry count is %zu",
- entryCount);
- });
- ASSERT_TRUE(ret.isOk());
- }
+ ret = device3_2->getCameraCharacteristics([&](auto status, const auto& chars) {
+ ALOGI("getCameraCharacteristics returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ const camera_metadata_t* metadata = (camera_metadata_t*)chars.data();
+ size_t expectedSize = chars.size();
+ int result = validate_camera_metadata_structure(metadata, &expectedSize);
+ ASSERT_TRUE((result == 0) || (result == CAMERA_METADATA_VALIDATION_SHIFTED));
+ size_t entryCount = get_camera_metadata_entry_count(metadata);
+ // TODO: we can do better than 0 here. Need to check how many required
+ // characteristics keys we've defined.
+ ASSERT_GT(entryCount, 0u);
+ ALOGI("getCameraCharacteristics metadata entry count is %zu", entryCount);
+ });
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2062,273 +1868,235 @@
//In case it is supported verify that torch can be enabled.
//Check for corresponding toch callbacks as well.
TEST_F(CameraHidlTest, setTorchMode) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- bool torchControlSupported = false;
- Return<void> ret;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ bool torchControlSupported = false;
+ Return<void> ret;
- ret = provider.second->isSetTorchModeSupported(
- [&](auto status, bool support) {
- ALOGI("isSetTorchModeSupported returns status:%d supported:%d",
- (int)status, support);
- ASSERT_EQ(Status::OK, status);
- torchControlSupported = support;
- });
+ ret = mProvider->isSetTorchModeSupported([&](auto status, bool support) {
+ ALOGI("isSetTorchModeSupported returns status:%d supported:%d", (int)status, support);
+ ASSERT_EQ(Status::OK, status);
+ torchControlSupported = support;
+ });
+ sp<TorchProviderCb> cb = new TorchProviderCb(this);
+ Return<Status> returnStatus = mProvider->setCallback(cb);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
- sp<TorchProviderCb> cb = new TorchProviderCb(this);
- Return<Status> returnStatus = provider.second->setCallback(cb);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
+ ALOGI("setTorchMode: Testing camera device %s", name.c_str());
+ ret = mProvider->getCameraDeviceInterface_V3_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V3_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device3_2 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
- ALOGI("setTorchMode: Testing camera device %s", name.c_str());
- ret = provider.second->getCameraDeviceInterface_V3_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V3_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device3_2 = device;
- });
- ASSERT_TRUE(ret.isOk());
-
- mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
- returnStatus = device3_2->setTorchMode(TorchMode::ON);
- ASSERT_TRUE(returnStatus.isOk());
- if (!torchControlSupported) {
- ASSERT_EQ(Status::METHOD_NOT_SUPPORTED, returnStatus);
- } else {
- ASSERT_TRUE(returnStatus == Status::OK ||
- returnStatus == Status::OPERATION_NOT_SUPPORTED);
- if (returnStatus == Status::OK) {
- {
- std::unique_lock<std::mutex> l(mTorchLock);
- while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kTorchTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mTorchCond.wait_until(l, timeout));
- }
- ASSERT_EQ(TorchModeStatus::AVAILABLE_ON,
- mTorchStatus);
- mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
+ mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
+ returnStatus = device3_2->setTorchMode(TorchMode::ON);
+ ASSERT_TRUE(returnStatus.isOk());
+ if (!torchControlSupported) {
+ ASSERT_EQ(Status::METHOD_NOT_SUPPORTED, returnStatus);
+ } else {
+ ASSERT_TRUE(returnStatus == Status::OK ||
+ returnStatus == Status::OPERATION_NOT_SUPPORTED);
+ if (returnStatus == Status::OK) {
+ {
+ std::unique_lock<std::mutex> l(mTorchLock);
+ while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kTorchTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mTorchCond.wait_until(l, timeout));
}
+ ASSERT_EQ(TorchModeStatus::AVAILABLE_ON, mTorchStatus);
+ mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
+ }
- returnStatus = device3_2->setTorchMode(TorchMode::OFF);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
+ returnStatus = device3_2->setTorchMode(TorchMode::OFF);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
- {
- std::unique_lock<std::mutex> l(mTorchLock);
- while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kTorchTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mTorchCond.wait_until(l, timeout));
- }
- ASSERT_EQ(TorchModeStatus::AVAILABLE_OFF,
- mTorchStatus);
+ {
+ std::unique_lock<std::mutex> l(mTorchLock);
+ while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kTorchTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mTorchCond.wait_until(l, timeout));
}
+ ASSERT_EQ(TorchModeStatus::AVAILABLE_OFF, mTorchStatus);
}
}
- } else if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- ALOGI("dumpState: Testing camera device %s", name.c_str());
- ret = provider.second->getCameraDeviceInterface_V1_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V1_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device1 = device;
- });
- ASSERT_TRUE(ret.isOk());
-
- mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
- returnStatus = device1->setTorchMode(TorchMode::ON);
- ASSERT_TRUE(returnStatus.isOk());
- if (!torchControlSupported) {
- ASSERT_EQ(Status::METHOD_NOT_SUPPORTED, returnStatus);
- } else {
- ASSERT_TRUE(returnStatus == Status::OK ||
- returnStatus == Status::OPERATION_NOT_SUPPORTED);
- if (returnStatus == Status::OK) {
- {
- std::unique_lock<std::mutex> l(mTorchLock);
- while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kTorchTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mTorchCond.wait_until(l, timeout));
- }
- ASSERT_EQ(TorchModeStatus::AVAILABLE_ON,
- mTorchStatus);
- mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
- }
-
- returnStatus = device1->setTorchMode(TorchMode::OFF);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- {
- std::unique_lock<std::mutex> l(mTorchLock);
- while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kTorchTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mTorchCond.wait_until(l, timeout));
- }
- ASSERT_EQ(TorchModeStatus::AVAILABLE_OFF,
- mTorchStatus);
- }
- }
- }
- ret = device1->close();
- ASSERT_TRUE(ret.isOk());
}
- }
+ } else if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ ALOGI("dumpState: Testing camera device %s", name.c_str());
+ ret = mProvider->getCameraDeviceInterface_V1_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V1_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device1 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- returnStatus = provider.second->setCallback(nullptr);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
+ mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
+ returnStatus = device1->setTorchMode(TorchMode::ON);
+ ASSERT_TRUE(returnStatus.isOk());
+ if (!torchControlSupported) {
+ ASSERT_EQ(Status::METHOD_NOT_SUPPORTED, returnStatus);
+ } else {
+ ASSERT_TRUE(returnStatus == Status::OK ||
+ returnStatus == Status::OPERATION_NOT_SUPPORTED);
+ if (returnStatus == Status::OK) {
+ {
+ std::unique_lock<std::mutex> l(mTorchLock);
+ while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kTorchTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mTorchCond.wait_until(l, timeout));
+ }
+ ASSERT_EQ(TorchModeStatus::AVAILABLE_ON, mTorchStatus);
+ mTorchStatus = TorchModeStatus::NOT_AVAILABLE;
+ }
+
+ returnStatus = device1->setTorchMode(TorchMode::OFF);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ {
+ std::unique_lock<std::mutex> l(mTorchLock);
+ while (TorchModeStatus::NOT_AVAILABLE == mTorchStatus) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kTorchTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mTorchCond.wait_until(l, timeout));
+ }
+ ASSERT_EQ(TorchModeStatus::AVAILABLE_OFF, mTorchStatus);
+ }
+ }
+ }
+ ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
+ }
}
+
+ returnStatus = mProvider->setCallback(nullptr);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
}
// Check dump functionality.
TEST_F(CameraHidlTest, dumpState) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- Return<void> ret;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ Return<void> ret;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- ::android::sp<ICameraDevice> device3_2;
- ALOGI("dumpState: Testing camera device %s", name.c_str());
- ret = provider.second->getCameraDeviceInterface_V3_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V3_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device3_2 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ ::android::sp<ICameraDevice> device3_2;
+ ALOGI("dumpState: Testing camera device %s", name.c_str());
+ ret = mProvider->getCameraDeviceInterface_V3_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V3_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device3_2 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- native_handle_t* raw_handle = native_handle_create(1, 0);
- raw_handle->data[0] = open(kDumpOutput, O_RDWR);
- ASSERT_GE(raw_handle->data[0], 0);
- hidl_handle handle = raw_handle;
- ret= device3_2->dumpState(handle);
- ASSERT_TRUE(ret.isOk());
- close(raw_handle->data[0]);
- native_handle_delete(raw_handle);
- } else if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- ALOGI("dumpState: Testing camera device %s", name.c_str());
- ret = provider.second->getCameraDeviceInterface_V1_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V1_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device1 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ native_handle_t* raw_handle = native_handle_create(1, 0);
+ raw_handle->data[0] = open(kDumpOutput, O_RDWR);
+ ASSERT_GE(raw_handle->data[0], 0);
+ hidl_handle handle = raw_handle;
+ ret = device3_2->dumpState(handle);
+ ASSERT_TRUE(ret.isOk());
+ close(raw_handle->data[0]);
+ native_handle_delete(raw_handle);
+ } else if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ ::android::sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ ALOGI("dumpState: Testing camera device %s", name.c_str());
+ ret = mProvider->getCameraDeviceInterface_V1_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V1_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device1 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- native_handle_t* raw_handle = native_handle_create(1, 0);
- raw_handle->data[0] = open(kDumpOutput, O_RDWR);
- ASSERT_GE(raw_handle->data[0], 0);
- hidl_handle handle = raw_handle;
- Return<Status> returnStatus = device1->dumpState(handle);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
- close(raw_handle->data[0]);
- native_handle_delete(raw_handle);
- }
+ native_handle_t* raw_handle = native_handle_create(1, 0);
+ raw_handle->data[0] = open(kDumpOutput, O_RDWR);
+ ASSERT_GE(raw_handle->data[0], 0);
+ hidl_handle handle = raw_handle;
+ Return<Status> returnStatus = device1->dumpState(handle);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+ close(raw_handle->data[0]);
+ native_handle_delete(raw_handle);
}
}
}
// Open, dumpStates, then close
TEST_F(CameraHidlTest, openClose) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- Return<void> ret;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ Return<void> ret;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
- ALOGI("openClose: Testing camera device %s", name.c_str());
- ret = provider.second->getCameraDeviceInterface_V3_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V3_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device3_2 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
+ ALOGI("openClose: Testing camera device %s", name.c_str());
+ ret = mProvider->getCameraDeviceInterface_V3_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V3_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device3_2 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- sp<EmptyDeviceCb> cb = new EmptyDeviceCb;
- sp<ICameraDeviceSession> session;
- ret = device3_2->open(
- cb,
- [&](auto status, const auto& newSession) {
- ALOGI("device::open returns status:%d", (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(newSession, nullptr);
- session = newSession;
- });
- ASSERT_TRUE(ret.isOk());
+ sp<EmptyDeviceCb> cb = new EmptyDeviceCb;
+ sp<ICameraDeviceSession> session;
+ ret = device3_2->open(cb, [&](auto status, const auto& newSession) {
+ ALOGI("device::open returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(newSession, nullptr);
+ session = newSession;
+ });
+ ASSERT_TRUE(ret.isOk());
- native_handle_t* raw_handle = native_handle_create(1, 0);
- raw_handle->data[0] = open(kDumpOutput, O_RDWR);
- ASSERT_GE(raw_handle->data[0], 0);
- hidl_handle handle = raw_handle;
- ret = device3_2->dumpState(handle);
- ASSERT_TRUE(ret.isOk());
- close(raw_handle->data[0]);
- native_handle_delete(raw_handle);
+ native_handle_t* raw_handle = native_handle_create(1, 0);
+ raw_handle->data[0] = open(kDumpOutput, O_RDWR);
+ ASSERT_GE(raw_handle->data[0], 0);
+ hidl_handle handle = raw_handle;
+ ret = device3_2->dumpState(handle);
+ ASSERT_TRUE(ret.isOk());
+ close(raw_handle->data[0]);
+ native_handle_delete(raw_handle);
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
- // TODO: test all session API calls return INTERNAL_ERROR after close
- // TODO: keep a wp copy here and verify session cannot be promoted out of this scope
- } else if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_1_0) {
- sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
- openCameraDevice(name, provider.second, &device1 /*out*/);
- ASSERT_NE(nullptr, device1.get());
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
+ // TODO: test all session API calls return INTERNAL_ERROR after close
+ // TODO: keep a wp copy here and verify session cannot be promoted out of this scope
+ } else if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_1_0) {
+ sp<::android::hardware::camera::device::V1_0::ICameraDevice> device1;
+ openCameraDevice(name, mProvider, &device1 /*out*/);
+ ASSERT_NE(nullptr, device1.get());
- native_handle_t* raw_handle = native_handle_create(1, 0);
- raw_handle->data[0] = open(kDumpOutput, O_RDWR);
- ASSERT_GE(raw_handle->data[0], 0);
- hidl_handle handle = raw_handle;
- Return<Status> returnStatus = device1->dumpState(handle);
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
- close(raw_handle->data[0]);
- native_handle_delete(raw_handle);
+ native_handle_t* raw_handle = native_handle_create(1, 0);
+ raw_handle->data[0] = open(kDumpOutput, O_RDWR);
+ ASSERT_GE(raw_handle->data[0], 0);
+ hidl_handle handle = raw_handle;
+ Return<Status> returnStatus = device1->dumpState(handle);
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+ close(raw_handle->data[0]);
+ native_handle_delete(raw_handle);
- ret = device1->close();
- ASSERT_TRUE(ret.isOk());
- }
+ ret = device1->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2336,46 +2104,38 @@
// Check whether all common default request settings can be sucessfully
// constructed.
TEST_F(CameraHidlTest, constructDefaultRequestSettings) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
- Return<void> ret;
- ALOGI("constructDefaultRequestSettings: Testing camera device %s",
- name.c_str());
- ret = provider.second->getCameraDeviceInterface_V3_x(
- name,
- [&](auto status, const auto& device) {
- ALOGI("getCameraDeviceInterface_V3_x returns status:%d",
- (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(device, nullptr);
- device3_2 = device;
- });
- ASSERT_TRUE(ret.isOk());
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ ::android::sp<::android::hardware::camera::device::V3_2::ICameraDevice> device3_2;
+ Return<void> ret;
+ ALOGI("constructDefaultRequestSettings: Testing camera device %s", name.c_str());
+ ret = mProvider->getCameraDeviceInterface_V3_x(
+ name, [&](auto status, const auto& device) {
+ ALOGI("getCameraDeviceInterface_V3_x returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(device, nullptr);
+ device3_2 = device;
+ });
+ ASSERT_TRUE(ret.isOk());
- sp<EmptyDeviceCb> cb = new EmptyDeviceCb;
- sp<ICameraDeviceSession> session;
- ret = device3_2->open(
- cb,
- [&](auto status, const auto& newSession) {
- ALOGI("device::open returns status:%d", (int)status);
- ASSERT_EQ(Status::OK, status);
- ASSERT_NE(newSession, nullptr);
- session = newSession;
- });
- ASSERT_TRUE(ret.isOk());
+ sp<EmptyDeviceCb> cb = new EmptyDeviceCb;
+ sp<ICameraDeviceSession> session;
+ ret = device3_2->open(cb, [&](auto status, const auto& newSession) {
+ ALOGI("device::open returns status:%d", (int)status);
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_NE(newSession, nullptr);
+ session = newSession;
+ });
+ ASSERT_TRUE(ret.isOk());
- for (uint32_t t = (uint32_t) RequestTemplate::PREVIEW;
- t <= (uint32_t) RequestTemplate::MANUAL; t++) {
- RequestTemplate reqTemplate = (RequestTemplate) t;
- ret = session->constructDefaultRequestSettings(
- reqTemplate,
- [&](auto status, const auto& req) {
+ for (uint32_t t = (uint32_t)RequestTemplate::PREVIEW;
+ t <= (uint32_t)RequestTemplate::MANUAL; t++) {
+ RequestTemplate reqTemplate = (RequestTemplate)t;
+ ret =
+ session->constructDefaultRequestSettings(
+ reqTemplate, [&](auto status, const auto& req) {
ALOGI("constructDefaultRequestSettings returns status:%d",
(int)status);
if (reqTemplate == RequestTemplate::ZERO_SHUTTER_LAG ||
@@ -2406,11 +2166,10 @@
ASSERT_EQ(0u, req.size());
}
});
- ASSERT_TRUE(ret.isOk());
- }
- ret = session->close();
ASSERT_TRUE(ret.isOk());
}
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2418,138 +2177,131 @@
// Verify that all supported stream formats and sizes can be configured
// successfully.
TEST_F(CameraHidlTest, configureStreamsAvailableOutputs) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputStreams;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputStreams;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- camera_metadata_t *staticMeta;
- Return<void> ret;
- sp<ICameraDeviceSession> session;
- openEmptyDeviceSession(name, provider.second, &session /*out*/,
- &staticMeta /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ camera_metadata_t* staticMeta;
+ Return<void> ret;
+ sp<ICameraDeviceSession> session;
+ openEmptyDeviceSession(name, mProvider, &session /*out*/, &staticMeta /*out*/);
- outputStreams.clear();
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- outputStreams));
- ASSERT_NE(0u, outputStreams.size());
+ outputStreams.clear();
+ ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta, outputStreams));
+ ASSERT_NE(0u, outputStreams.size());
- int32_t streamId = 0;
- for (auto &it : outputStreams) {
- Stream stream = {streamId, StreamType::OUTPUT,
- static_cast<uint32_t> (it.width),
- static_cast<uint32_t> (it.height),
- static_cast<PixelFormat> (it.format), 0, 0,
- StreamRotation::ROTATION_0};
- ::android::hardware::hidl_vec<Stream> streams = {stream};
- StreamConfiguration config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config, [streamId] (Status s,
- HalStreamConfiguration halConfig) {
+ int32_t streamId = 0;
+ for (auto& it : outputStreams) {
+ Stream stream = {streamId,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(it.width),
+ static_cast<uint32_t>(it.height),
+ static_cast<PixelFormat>(it.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ ::android::hardware::hidl_vec<Stream> streams = {stream};
+ StreamConfiguration config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(
+ config, [streamId](Status s, HalStreamConfiguration halConfig) {
ASSERT_EQ(Status::OK, s);
ASSERT_EQ(1u, halConfig.streams.size());
ASSERT_EQ(halConfig.streams[0].id, streamId);
});
- ASSERT_TRUE(ret.isOk());
- streamId++;
- }
-
- free_camera_metadata(staticMeta);
- ret = session->close();
ASSERT_TRUE(ret.isOk());
+ streamId++;
}
+
+ free_camera_metadata(staticMeta);
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
// Check for correct handling of invalid/incorrect configuration parameters.
TEST_F(CameraHidlTest, configureStreamsInvalidOutputs) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputStreams;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputStreams;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- camera_metadata_t *staticMeta;
- Return<void> ret;
- sp<ICameraDeviceSession> session;
- openEmptyDeviceSession(name, provider.second, &session /*out*/,
- &staticMeta /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ camera_metadata_t* staticMeta;
+ Return<void> ret;
+ sp<ICameraDeviceSession> session;
+ openEmptyDeviceSession(name, mProvider, &session /*out*/, &staticMeta /*out*/);
- outputStreams.clear();
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- outputStreams));
- ASSERT_NE(0u, outputStreams.size());
+ outputStreams.clear();
+ ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta, outputStreams));
+ ASSERT_NE(0u, outputStreams.size());
- int32_t streamId = 0;
- Stream stream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (0),
- static_cast<uint32_t> (0),
- static_cast<PixelFormat> (outputStreams[0].format),
- 0, 0, StreamRotation::ROTATION_0};
- ::android::hardware::hidl_vec<Stream> streams = {stream};
- StreamConfiguration config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config, [] (Status s,
- HalStreamConfiguration) {
- ASSERT_TRUE((Status::ILLEGAL_ARGUMENT == s) ||
- (Status::INTERNAL_ERROR == s));
- });
- ASSERT_TRUE(ret.isOk());
+ int32_t streamId = 0;
+ Stream stream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(0),
+ static_cast<uint32_t>(0),
+ static_cast<PixelFormat>(outputStreams[0].format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ ::android::hardware::hidl_vec<Stream> streams = {stream};
+ StreamConfiguration config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(config, [](Status s, HalStreamConfiguration) {
+ ASSERT_TRUE((Status::ILLEGAL_ARGUMENT == s) || (Status::INTERNAL_ERROR == s));
+ });
+ ASSERT_TRUE(ret.isOk());
- stream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (UINT32_MAX),
- static_cast<uint32_t> (UINT32_MAX),
- static_cast<PixelFormat> (outputStreams[0].format),
- 0, 0, StreamRotation::ROTATION_0};
+ stream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(UINT32_MAX),
+ static_cast<uint32_t>(UINT32_MAX),
+ static_cast<PixelFormat>(outputStreams[0].format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ streams[0] = stream;
+ config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(config, [](Status s, HalStreamConfiguration) {
+ ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
+ });
+ ASSERT_TRUE(ret.isOk());
+
+ for (auto& it : outputStreams) {
+ stream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(it.width),
+ static_cast<uint32_t>(it.height),
+ static_cast<PixelFormat>(UINT32_MAX),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
streams[0] = stream;
- config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config, [] (Status s,
- HalStreamConfiguration) {
+ config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(config, [](Status s, HalStreamConfiguration) {
ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
});
ASSERT_TRUE(ret.isOk());
- for (auto &it : outputStreams) {
- stream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (it.width),
- static_cast<uint32_t> (it.height),
- static_cast<PixelFormat> (UINT32_MAX),
- 0, 0, StreamRotation::ROTATION_0};
- streams[0] = stream;
- config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config, [] (Status s,
- HalStreamConfiguration) {
- ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
- });
- ASSERT_TRUE(ret.isOk());
-
- stream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (it.width),
- static_cast<uint32_t> (it.height),
- static_cast<PixelFormat> (it.format),
- 0, 0, static_cast<StreamRotation> (UINT32_MAX)};
- streams[0] = stream;
- config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config, [] (Status s,
- HalStreamConfiguration) {
- ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
- });
- ASSERT_TRUE(ret.isOk());
- }
-
- free_camera_metadata(staticMeta);
- ret = session->close();
+ stream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(it.width),
+ static_cast<uint32_t>(it.height),
+ static_cast<PixelFormat>(it.format),
+ 0,
+ 0,
+ static_cast<StreamRotation>(UINT32_MAX)};
+ streams[0] = stream;
+ config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(config, [](Status s, HalStreamConfiguration) {
+ ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
+ });
ASSERT_TRUE(ret.isOk());
}
+
+ free_camera_metadata(staticMeta);
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2557,86 +2309,84 @@
// Check whether all supported ZSL output stream combinations can be
// configured successfully.
TEST_F(CameraHidlTest, configureStreamsZSLInputOutputs) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> inputStreams;
- std::vector<AvailableZSLInputOutput> inputOutputMap;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> inputStreams;
+ std::vector<AvailableZSLInputOutput> inputOutputMap;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- camera_metadata_t *staticMeta;
- Return<void> ret;
- sp<ICameraDeviceSession> session;
- openEmptyDeviceSession(name, provider.second, &session /*out*/,
- &staticMeta /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ camera_metadata_t* staticMeta;
+ Return<void> ret;
+ sp<ICameraDeviceSession> session;
+ openEmptyDeviceSession(name, mProvider, &session /*out*/, &staticMeta /*out*/);
- Status rc = isZSLModeAvailable(staticMeta);
- if (Status::METHOD_NOT_SUPPORTED == rc) {
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
- continue;
- }
- ASSERT_EQ(Status::OK, rc);
+ Status rc = isZSLModeAvailable(staticMeta);
+ if (Status::METHOD_NOT_SUPPORTED == rc) {
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
+ continue;
+ }
+ ASSERT_EQ(Status::OK, rc);
- inputStreams.clear();
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- inputStreams));
+ inputStreams.clear();
+ ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta, inputStreams));
+ ASSERT_NE(0u, inputStreams.size());
+
+ inputOutputMap.clear();
+ ASSERT_EQ(Status::OK, getZSLInputOutputMap(staticMeta, inputOutputMap));
+ ASSERT_NE(0u, inputOutputMap.size());
+
+ int32_t streamId = 0;
+ for (auto& inputIter : inputOutputMap) {
+ AvailableStream input;
+ ASSERT_EQ(Status::OK, findLargestSize(inputStreams, inputIter.inputFormat, input));
ASSERT_NE(0u, inputStreams.size());
- inputOutputMap.clear();
- ASSERT_EQ(Status::OK, getZSLInputOutputMap(staticMeta,
- inputOutputMap));
- ASSERT_NE(0u, inputOutputMap.size());
+ AvailableStream outputThreshold = {INT32_MAX, INT32_MAX, inputIter.outputFormat};
+ std::vector<AvailableStream> outputStreams;
+ ASSERT_EQ(Status::OK,
+ getAvailableOutputStreams(staticMeta, outputStreams, &outputThreshold));
+ for (auto& outputIter : outputStreams) {
+ Stream zslStream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(input.width),
+ static_cast<uint32_t>(input.height),
+ static_cast<PixelFormat>(input.format),
+ GRALLOC_USAGE_HW_CAMERA_ZSL,
+ 0,
+ StreamRotation::ROTATION_0};
+ Stream inputStream = {streamId++,
+ StreamType::INPUT,
+ static_cast<uint32_t>(input.width),
+ static_cast<uint32_t>(input.height),
+ static_cast<PixelFormat>(input.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ Stream outputStream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(outputIter.width),
+ static_cast<uint32_t>(outputIter.height),
+ static_cast<PixelFormat>(outputIter.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
- int32_t streamId = 0;
- for (auto &inputIter : inputOutputMap) {
- AvailableStream input;
- ASSERT_EQ(Status::OK,
- findLargestSize(inputStreams, inputIter.inputFormat, input));
- ASSERT_NE(0u, inputStreams.size());
-
- AvailableStream outputThreshold = {INT32_MAX, INT32_MAX,
- inputIter.outputFormat};
- std::vector<AvailableStream> outputStreams;
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- outputStreams, &outputThreshold));
- for (auto &outputIter : outputStreams) {
- Stream zslStream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (input.width),
- static_cast<uint32_t> (input.height),
- static_cast<PixelFormat> (input.format),
- GRALLOC_USAGE_HW_CAMERA_ZSL, 0,
- StreamRotation::ROTATION_0};
- Stream inputStream = {streamId++, StreamType::INPUT,
- static_cast<uint32_t> (input.width),
- static_cast<uint32_t> (input.height),
- static_cast<PixelFormat> (input.format), 0, 0,
- StreamRotation::ROTATION_0};
- Stream outputStream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (outputIter.width),
- static_cast<uint32_t> (outputIter.height),
- static_cast<PixelFormat> (outputIter.format), 0, 0,
- StreamRotation::ROTATION_0};
-
- ::android::hardware::hidl_vec<Stream> streams = {
- inputStream, zslStream, outputStream};
- StreamConfiguration config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config,
+ ::android::hardware::hidl_vec<Stream> streams = {inputStream, zslStream,
+ outputStream};
+ StreamConfiguration config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(config,
[](Status s, HalStreamConfiguration halConfig) {
ASSERT_EQ(Status::OK, s);
ASSERT_EQ(3u, halConfig.streams.size());
});
- ASSERT_TRUE(ret.isOk());
- }
+ ASSERT_TRUE(ret.isOk());
}
-
- free_camera_metadata(staticMeta);
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
}
+
+ free_camera_metadata(staticMeta);
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2644,65 +2394,63 @@
// Verify that all supported preview + still capture stream combinations
// can be configured successfully.
TEST_F(CameraHidlTest, configureStreamsPreviewStillOutputs) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputBlobStreams;
- std::vector<AvailableStream> outputPreviewStreams;
- AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
- static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
- AvailableStream blobThreshold = {INT32_MAX, INT32_MAX,
- static_cast<int32_t>(PixelFormat::BLOB)};
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputBlobStreams;
+ std::vector<AvailableStream> outputPreviewStreams;
+ AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
+ static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
+ AvailableStream blobThreshold = {INT32_MAX, INT32_MAX, static_cast<int32_t>(PixelFormat::BLOB)};
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- camera_metadata_t *staticMeta;
- Return<void> ret;
- sp<ICameraDeviceSession> session;
- openEmptyDeviceSession(name, provider.second, &session /*out*/,
- &staticMeta /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ camera_metadata_t* staticMeta;
+ Return<void> ret;
+ sp<ICameraDeviceSession> session;
+ openEmptyDeviceSession(name, mProvider, &session /*out*/, &staticMeta /*out*/);
- outputBlobStreams.clear();
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- outputBlobStreams, &blobThreshold));
- ASSERT_NE(0u, outputBlobStreams.size());
+ outputBlobStreams.clear();
+ ASSERT_EQ(Status::OK,
+ getAvailableOutputStreams(staticMeta, outputBlobStreams, &blobThreshold));
+ ASSERT_NE(0u, outputBlobStreams.size());
- outputPreviewStreams.clear();
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- outputPreviewStreams, &previewThreshold));
- ASSERT_NE(0u, outputPreviewStreams.size());
+ outputPreviewStreams.clear();
+ ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta, outputPreviewStreams,
+ &previewThreshold));
+ ASSERT_NE(0u, outputPreviewStreams.size());
- int32_t streamId = 0;
- for (auto &blobIter : outputBlobStreams) {
- for (auto &previewIter : outputPreviewStreams) {
- Stream previewStream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (previewIter.width),
- static_cast<uint32_t> (previewIter.height),
- static_cast<PixelFormat> (previewIter.format), 0, 0,
- StreamRotation::ROTATION_0};
- Stream blobStream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (blobIter.width),
- static_cast<uint32_t> (blobIter.height),
- static_cast<PixelFormat> (blobIter.format), 0, 0,
- StreamRotation::ROTATION_0};
- ::android::hardware::hidl_vec<Stream> streams = {
- previewStream, blobStream};
- StreamConfiguration config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config,
+ int32_t streamId = 0;
+ for (auto& blobIter : outputBlobStreams) {
+ for (auto& previewIter : outputPreviewStreams) {
+ Stream previewStream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(previewIter.width),
+ static_cast<uint32_t>(previewIter.height),
+ static_cast<PixelFormat>(previewIter.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ Stream blobStream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(blobIter.width),
+ static_cast<uint32_t>(blobIter.height),
+ static_cast<PixelFormat>(blobIter.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ ::android::hardware::hidl_vec<Stream> streams = {previewStream, blobStream};
+ StreamConfiguration config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(config,
[](Status s, HalStreamConfiguration halConfig) {
ASSERT_EQ(Status::OK, s);
ASSERT_EQ(2u, halConfig.streams.size());
});
- ASSERT_TRUE(ret.isOk());
- }
+ ASSERT_TRUE(ret.isOk());
}
-
- free_camera_metadata(staticMeta);
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
}
+
+ free_camera_metadata(staticMeta);
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2711,95 +2459,95 @@
// configured. Additionally check for common invalid inputs when
// using this mode.
TEST_F(CameraHidlTest, configureStreamsConstrainedOutputs) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- camera_metadata_t *staticMeta;
- Return<void> ret;
- sp<ICameraDeviceSession> session;
- openEmptyDeviceSession(name, provider.second, &session /*out*/,
- &staticMeta /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ camera_metadata_t* staticMeta;
+ Return<void> ret;
+ sp<ICameraDeviceSession> session;
+ openEmptyDeviceSession(name, mProvider, &session /*out*/, &staticMeta /*out*/);
- Status rc = isConstrainedModeAvailable(staticMeta);
- if (Status::METHOD_NOT_SUPPORTED == rc) {
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
- continue;
- }
- ASSERT_EQ(Status::OK, rc);
-
- AvailableStream hfrStream;
- rc = pickConstrainedModeSize(staticMeta, hfrStream);
- ASSERT_EQ(Status::OK, rc);
-
- int32_t streamId = 0;
- Stream stream = {streamId, StreamType::OUTPUT,
- static_cast<uint32_t> (hfrStream.width),
- static_cast<uint32_t> (hfrStream.height),
- static_cast<PixelFormat> (hfrStream.format), 0, 0,
- StreamRotation::ROTATION_0};
- ::android::hardware::hidl_vec<Stream> streams = {stream};
- StreamConfiguration config = {streams,
- StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
- ret = session->configureStreams(config, [streamId] (Status s,
- HalStreamConfiguration halConfig) {
- ASSERT_EQ(Status::OK, s);
- ASSERT_EQ(1u, halConfig.streams.size());
- ASSERT_EQ(halConfig.streams[0].id, streamId);
- });
- ASSERT_TRUE(ret.isOk());
-
- stream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (0),
- static_cast<uint32_t> (0),
- static_cast<PixelFormat> (hfrStream.format), 0, 0,
- StreamRotation::ROTATION_0};
- streams[0] = stream;
- config = {streams,
- StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
- ret = session->configureStreams(config, [] (Status s,
- HalStreamConfiguration) {
- ASSERT_TRUE((Status::ILLEGAL_ARGUMENT == s) ||
- (Status::INTERNAL_ERROR == s));
- });
- ASSERT_TRUE(ret.isOk());
-
- stream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (UINT32_MAX),
- static_cast<uint32_t> (UINT32_MAX),
- static_cast<PixelFormat> (hfrStream.format), 0, 0,
- StreamRotation::ROTATION_0};
- streams[0] = stream;
- config = {streams,
- StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
- ret = session->configureStreams(config, [] (Status s,
- HalStreamConfiguration) {
- ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
- });
- ASSERT_TRUE(ret.isOk());
-
- stream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (hfrStream.width),
- static_cast<uint32_t> (hfrStream.height),
- static_cast<PixelFormat> (UINT32_MAX), 0, 0,
- StreamRotation::ROTATION_0};
- streams[0] = stream;
- config = {streams,
- StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
- ret = session->configureStreams(config, [] (Status s,
- HalStreamConfiguration) {
- ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
- });
- ASSERT_TRUE(ret.isOk());
-
- free_camera_metadata(staticMeta);
+ Status rc = isConstrainedModeAvailable(staticMeta);
+ if (Status::METHOD_NOT_SUPPORTED == rc) {
ret = session->close();
ASSERT_TRUE(ret.isOk());
+ continue;
}
+ ASSERT_EQ(Status::OK, rc);
+
+ AvailableStream hfrStream;
+ rc = pickConstrainedModeSize(staticMeta, hfrStream);
+ ASSERT_EQ(Status::OK, rc);
+
+ int32_t streamId = 0;
+ Stream stream = {streamId,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(hfrStream.width),
+ static_cast<uint32_t>(hfrStream.height),
+ static_cast<PixelFormat>(hfrStream.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ ::android::hardware::hidl_vec<Stream> streams = {stream};
+ StreamConfiguration config = {streams,
+ StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
+ ret = session->configureStreams(config,
+ [streamId](Status s, HalStreamConfiguration halConfig) {
+ ASSERT_EQ(Status::OK, s);
+ ASSERT_EQ(1u, halConfig.streams.size());
+ ASSERT_EQ(halConfig.streams[0].id, streamId);
+ });
+ ASSERT_TRUE(ret.isOk());
+
+ stream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(0),
+ static_cast<uint32_t>(0),
+ static_cast<PixelFormat>(hfrStream.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ streams[0] = stream;
+ config = {streams, StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
+ ret = session->configureStreams(config, [](Status s, HalStreamConfiguration) {
+ ASSERT_TRUE((Status::ILLEGAL_ARGUMENT == s) || (Status::INTERNAL_ERROR == s));
+ });
+ ASSERT_TRUE(ret.isOk());
+
+ stream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(UINT32_MAX),
+ static_cast<uint32_t>(UINT32_MAX),
+ static_cast<PixelFormat>(hfrStream.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ streams[0] = stream;
+ config = {streams, StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
+ ret = session->configureStreams(config, [](Status s, HalStreamConfiguration) {
+ ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
+ });
+ ASSERT_TRUE(ret.isOk());
+
+ stream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(hfrStream.width),
+ static_cast<uint32_t>(hfrStream.height),
+ static_cast<PixelFormat>(UINT32_MAX),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ streams[0] = stream;
+ config = {streams, StreamConfigurationMode::CONSTRAINED_HIGH_SPEED_MODE};
+ ret = session->configureStreams(config, [](Status s, HalStreamConfiguration) {
+ ASSERT_EQ(Status::ILLEGAL_ARGUMENT, s);
+ });
+ ASSERT_TRUE(ret.isOk());
+
+ free_camera_metadata(staticMeta);
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -2807,96 +2555,91 @@
// Verify that all supported video + snapshot stream combinations can
// be configured successfully.
TEST_F(CameraHidlTest, configureStreamsVideoStillOutputs) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputBlobStreams;
- std::vector<AvailableStream> outputVideoStreams;
- AvailableStream videoThreshold = {kMaxVideoWidth, kMaxVideoHeight,
- static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
- AvailableStream blobThreshold = {kMaxVideoWidth, kMaxVideoHeight,
- static_cast<int32_t>(PixelFormat::BLOB)};
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputBlobStreams;
+ std::vector<AvailableStream> outputVideoStreams;
+ AvailableStream videoThreshold = {kMaxVideoWidth, kMaxVideoHeight,
+ static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
+ AvailableStream blobThreshold = {kMaxVideoWidth, kMaxVideoHeight,
+ static_cast<int32_t>(PixelFormat::BLOB)};
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- camera_metadata_t *staticMeta;
- Return<void> ret;
- sp<ICameraDeviceSession> session;
- openEmptyDeviceSession(name, provider.second, &session /*out*/,
- &staticMeta /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ camera_metadata_t* staticMeta;
+ Return<void> ret;
+ sp<ICameraDeviceSession> session;
+ openEmptyDeviceSession(name, mProvider, &session /*out*/, &staticMeta /*out*/);
- outputBlobStreams.clear();
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- outputBlobStreams, &blobThreshold));
- ASSERT_NE(0u, outputBlobStreams.size());
+ outputBlobStreams.clear();
+ ASSERT_EQ(Status::OK,
+ getAvailableOutputStreams(staticMeta, outputBlobStreams, &blobThreshold));
+ ASSERT_NE(0u, outputBlobStreams.size());
- outputVideoStreams.clear();
- ASSERT_EQ(Status::OK, getAvailableOutputStreams(staticMeta,
- outputVideoStreams, &videoThreshold));
- ASSERT_NE(0u, outputVideoStreams.size());
+ outputVideoStreams.clear();
+ ASSERT_EQ(Status::OK,
+ getAvailableOutputStreams(staticMeta, outputVideoStreams, &videoThreshold));
+ ASSERT_NE(0u, outputVideoStreams.size());
- int32_t streamId = 0;
- for (auto &blobIter : outputBlobStreams) {
- for (auto &videoIter : outputVideoStreams) {
- Stream videoStream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (videoIter.width),
- static_cast<uint32_t> (videoIter.height),
- static_cast<PixelFormat> (videoIter.format),
- 0, 0, StreamRotation::ROTATION_0};
- Stream blobStream = {streamId++, StreamType::OUTPUT,
- static_cast<uint32_t> (blobIter.width),
- static_cast<uint32_t> (blobIter.height),
- static_cast<PixelFormat> (blobIter.format),
- GRALLOC_USAGE_HW_VIDEO_ENCODER, 0,
- StreamRotation::ROTATION_0};
- ::android::hardware::hidl_vec<Stream> streams = {
- videoStream, blobStream};
- StreamConfiguration config = {streams,
- StreamConfigurationMode::NORMAL_MODE};
- ret = session->configureStreams(config,
+ int32_t streamId = 0;
+ for (auto& blobIter : outputBlobStreams) {
+ for (auto& videoIter : outputVideoStreams) {
+ Stream videoStream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(videoIter.width),
+ static_cast<uint32_t>(videoIter.height),
+ static_cast<PixelFormat>(videoIter.format),
+ 0,
+ 0,
+ StreamRotation::ROTATION_0};
+ Stream blobStream = {streamId++,
+ StreamType::OUTPUT,
+ static_cast<uint32_t>(blobIter.width),
+ static_cast<uint32_t>(blobIter.height),
+ static_cast<PixelFormat>(blobIter.format),
+ GRALLOC_USAGE_HW_VIDEO_ENCODER,
+ 0,
+ StreamRotation::ROTATION_0};
+ ::android::hardware::hidl_vec<Stream> streams = {videoStream, blobStream};
+ StreamConfiguration config = {streams, StreamConfigurationMode::NORMAL_MODE};
+ ret = session->configureStreams(config,
[](Status s, HalStreamConfiguration halConfig) {
ASSERT_EQ(Status::OK, s);
ASSERT_EQ(2u, halConfig.streams.size());
});
- ASSERT_TRUE(ret.isOk());
- }
+ ASSERT_TRUE(ret.isOk());
}
-
- free_camera_metadata(staticMeta);
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
}
+
+ free_camera_metadata(staticMeta);
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
// Generate and verify a camera capture request
TEST_F(CameraHidlTest, processCaptureRequestPreview) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
- static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
- uint64_t bufferId = 1;
- uint32_t frameNumber = 1;
- ::android::hardware::hidl_vec<uint8_t> settings;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
+ static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
+ uint64_t bufferId = 1;
+ uint32_t frameNumber = 1;
+ ::android::hardware::hidl_vec<uint8_t> settings;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- Stream previewStream;
- HalStreamConfiguration halStreamConfig;
- sp<ICameraDeviceSession> session;
- bool supportsPartialResults = false;
- uint32_t partialResultCount = 0;
- configurePreviewStream(name, provider.second, &previewThreshold,
- &session /*out*/, &previewStream /*out*/,
- &halStreamConfig /*out*/, &supportsPartialResults /*out*/,
- &partialResultCount/*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ Stream previewStream;
+ HalStreamConfiguration halStreamConfig;
+ sp<ICameraDeviceSession> session;
+ bool supportsPartialResults = false;
+ uint32_t partialResultCount = 0;
+ configurePreviewStream(name, mProvider, &previewThreshold, &session /*out*/,
+ &previewStream /*out*/, &halStreamConfig /*out*/,
+ &supportsPartialResults /*out*/, &partialResultCount /*out*/);
- std::shared_ptr<ResultMetadataQueue> resultQueue;
- auto resultQueueRet = session->getCaptureResultMetadataQueue(
+ std::shared_ptr<ResultMetadataQueue> resultQueue;
+ auto resultQueueRet =
+ session->getCaptureResultMetadataQueue(
[&resultQueue](const auto& descriptor) {
resultQueue = std::make_shared<ResultMetadataQueue>(
descriptor);
@@ -2908,114 +2651,103 @@
// Don't use the queue onwards.
}
});
- ASSERT_TRUE(resultQueueRet.isOk());
- ASSERT_NE(nullptr, resultQueue);
+ ASSERT_TRUE(resultQueueRet.isOk());
+ ASSERT_NE(nullptr, resultQueue);
- InFlightRequest inflightReq = {1, false, supportsPartialResults,
- partialResultCount, resultQueue};
+ InFlightRequest inflightReq = {1, false, supportsPartialResults, partialResultCount,
+ resultQueue};
- RequestTemplate reqTemplate = RequestTemplate::PREVIEW;
- Return<void> ret;
- ret = session->constructDefaultRequestSettings(reqTemplate,
- [&](auto status, const auto& req) {
- ASSERT_EQ(Status::OK, status);
- settings = req; });
- ASSERT_TRUE(ret.isOk());
+ RequestTemplate reqTemplate = RequestTemplate::PREVIEW;
+ Return<void> ret;
+ ret = session->constructDefaultRequestSettings(reqTemplate,
+ [&](auto status, const auto& req) {
+ ASSERT_EQ(Status::OK, status);
+ settings = req;
+ });
+ ASSERT_TRUE(ret.isOk());
- sp<GraphicBuffer> gb = new GraphicBuffer(
- previewStream.width, previewStream.height,
- static_cast<int32_t>(halStreamConfig.streams[0].overrideFormat),
- 1, android_convertGralloc1To0Usage(
- halStreamConfig.streams[0].producerUsage,
- halStreamConfig.streams[0].consumerUsage));
- ASSERT_NE(nullptr, gb.get());
- StreamBuffer outputBuffer = {halStreamConfig.streams[0].id,
- bufferId, hidl_handle(gb->getNativeBuffer()->handle),
- BufferStatus::OK, nullptr, nullptr};
- ::android::hardware::hidl_vec<StreamBuffer> outputBuffers = {
- outputBuffer};
- StreamBuffer emptyInputBuffer = {-1, 0, nullptr,
- BufferStatus::ERROR, nullptr, nullptr};
- CaptureRequest request = {frameNumber, 0 /* fmqSettingsSize */,
- settings, emptyInputBuffer, outputBuffers};
+ sp<GraphicBuffer> gb = new GraphicBuffer(
+ previewStream.width, previewStream.height,
+ static_cast<int32_t>(halStreamConfig.streams[0].overrideFormat), 1,
+ android_convertGralloc1To0Usage(halStreamConfig.streams[0].producerUsage,
+ halStreamConfig.streams[0].consumerUsage));
+ ASSERT_NE(nullptr, gb.get());
+ StreamBuffer outputBuffer = {halStreamConfig.streams[0].id,
+ bufferId,
+ hidl_handle(gb->getNativeBuffer()->handle),
+ BufferStatus::OK,
+ nullptr,
+ nullptr};
+ ::android::hardware::hidl_vec<StreamBuffer> outputBuffers = {outputBuffer};
+ StreamBuffer emptyInputBuffer = {-1, 0, nullptr, BufferStatus::ERROR, nullptr, nullptr};
+ CaptureRequest request = {frameNumber, 0 /* fmqSettingsSize */, settings,
+ emptyInputBuffer, outputBuffers};
- {
- std::unique_lock<std::mutex> l(mLock);
- mInflightMap.clear();
- mInflightMap.add(frameNumber, &inflightReq);
- }
-
- Status status = Status::INTERNAL_ERROR;
- uint32_t numRequestProcessed = 0;
- hidl_vec<BufferCache> cachesToRemove;
- Return<void> returnStatus = session->processCaptureRequest(
- {request},
- cachesToRemove,
- [&status, &numRequestProcessed] (auto s, uint32_t n) {
- status = s;
- numRequestProcessed = n;
- });
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, status);
- ASSERT_EQ(numRequestProcessed, 1u);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- while (!inflightReq.errorCodeValid &&
- ((0 < inflightReq.numBuffersLeft) ||
- (!inflightReq.haveResultMetadata))) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kStreamBufferTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mResultCondition.wait_until(l, timeout));
- }
-
- ASSERT_FALSE(inflightReq.errorCodeValid);
- ASSERT_NE(inflightReq.resultOutputBuffers.size(), 0u);
- ASSERT_EQ(previewStream.id,
- inflightReq.resultOutputBuffers[0].streamId);
-
- request.frameNumber++;
- //Empty settings should be supported after the first call
- //for repeating requests.
- request.settings.setToExternal(nullptr, 0, true);
- mInflightMap.clear();
- inflightReq = {1, false, supportsPartialResults,
- partialResultCount, resultQueue};
- mInflightMap.add(request.frameNumber, &inflightReq);
- }
-
- returnStatus = session->processCaptureRequest(
- {request},
- cachesToRemove,
- [&status, &numRequestProcessed] (auto s, uint32_t n) {
- status = s;
- numRequestProcessed = n;
- });
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, status);
- ASSERT_EQ(numRequestProcessed, 1u);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- while (!inflightReq.errorCodeValid &&
- ((0 < inflightReq.numBuffersLeft) ||
- (!inflightReq.haveResultMetadata))) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kStreamBufferTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mResultCondition.wait_until(l, timeout));
- }
-
- ASSERT_FALSE(inflightReq.errorCodeValid);
- ASSERT_NE(inflightReq.resultOutputBuffers.size(), 0u);
- ASSERT_EQ(previewStream.id,
- inflightReq.resultOutputBuffers[0].streamId);
- }
-
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ mInflightMap.clear();
+ mInflightMap.add(frameNumber, &inflightReq);
}
+
+ Status status = Status::INTERNAL_ERROR;
+ uint32_t numRequestProcessed = 0;
+ hidl_vec<BufferCache> cachesToRemove;
+ Return<void> returnStatus = session->processCaptureRequest(
+ {request}, cachesToRemove, [&status, &numRequestProcessed](auto s, uint32_t n) {
+ status = s;
+ numRequestProcessed = n;
+ });
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_EQ(numRequestProcessed, 1u);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ while (!inflightReq.errorCodeValid &&
+ ((0 < inflightReq.numBuffersLeft) || (!inflightReq.haveResultMetadata))) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kStreamBufferTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mResultCondition.wait_until(l, timeout));
+ }
+
+ ASSERT_FALSE(inflightReq.errorCodeValid);
+ ASSERT_NE(inflightReq.resultOutputBuffers.size(), 0u);
+ ASSERT_EQ(previewStream.id, inflightReq.resultOutputBuffers[0].streamId);
+
+ request.frameNumber++;
+ // Empty settings should be supported after the first call
+ // for repeating requests.
+ request.settings.setToExternal(nullptr, 0, true);
+ mInflightMap.clear();
+ inflightReq = {1, false, supportsPartialResults, partialResultCount, resultQueue};
+ mInflightMap.add(request.frameNumber, &inflightReq);
+ }
+
+ returnStatus = session->processCaptureRequest(
+ {request}, cachesToRemove, [&status, &numRequestProcessed](auto s, uint32_t n) {
+ status = s;
+ numRequestProcessed = n;
+ });
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_EQ(numRequestProcessed, 1u);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ while (!inflightReq.errorCodeValid &&
+ ((0 < inflightReq.numBuffersLeft) || (!inflightReq.haveResultMetadata))) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kStreamBufferTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mResultCondition.wait_until(l, timeout));
+ }
+
+ ASSERT_FALSE(inflightReq.errorCodeValid);
+ ASSERT_NE(inflightReq.resultOutputBuffers.size(), 0u);
+ ASSERT_EQ(previewStream.id, inflightReq.resultOutputBuffers[0].streamId);
+ }
+
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -3023,64 +2755,57 @@
// Test whether an incorrect capture request with missing settings will
// be reported correctly.
TEST_F(CameraHidlTest, processCaptureRequestInvalidSinglePreview) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputPreviewStreams;
- AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
- static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
- uint64_t bufferId = 1;
- uint32_t frameNumber = 1;
- ::android::hardware::hidl_vec<uint8_t> settings;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputPreviewStreams;
+ AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
+ static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
+ uint64_t bufferId = 1;
+ uint32_t frameNumber = 1;
+ ::android::hardware::hidl_vec<uint8_t> settings;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- Stream previewStream;
- HalStreamConfiguration halStreamConfig;
- sp<ICameraDeviceSession> session;
- bool supportsPartialResults = false;
- uint32_t partialResultCount = 0;
- configurePreviewStream(name, provider.second, &previewThreshold,
- &session /*out*/, &previewStream /*out*/,
- &halStreamConfig /*out*/, &supportsPartialResults /*out*/,
- &partialResultCount /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ Stream previewStream;
+ HalStreamConfiguration halStreamConfig;
+ sp<ICameraDeviceSession> session;
+ bool supportsPartialResults = false;
+ uint32_t partialResultCount = 0;
+ configurePreviewStream(name, mProvider, &previewThreshold, &session /*out*/,
+ &previewStream /*out*/, &halStreamConfig /*out*/,
+ &supportsPartialResults /*out*/, &partialResultCount /*out*/);
- sp<GraphicBuffer> gb = new GraphicBuffer(
- previewStream.width, previewStream.height,
- static_cast<int32_t>(halStreamConfig.streams[0].overrideFormat),
- 1, android_convertGralloc1To0Usage(
- halStreamConfig.streams[0].producerUsage,
- halStreamConfig.streams[0].consumerUsage));
+ sp<GraphicBuffer> gb = new GraphicBuffer(
+ previewStream.width, previewStream.height,
+ static_cast<int32_t>(halStreamConfig.streams[0].overrideFormat), 1,
+ android_convertGralloc1To0Usage(halStreamConfig.streams[0].producerUsage,
+ halStreamConfig.streams[0].consumerUsage));
- StreamBuffer outputBuffer = {halStreamConfig.streams[0].id,
- bufferId, hidl_handle(gb->getNativeBuffer()->handle),
- BufferStatus::OK, nullptr, nullptr};
- ::android::hardware::hidl_vec<StreamBuffer> outputBuffers = {
- outputBuffer};
- StreamBuffer emptyInputBuffer = {-1, 0, nullptr,
- BufferStatus::ERROR, nullptr, nullptr};
- CaptureRequest request = {frameNumber, 0 /* fmqSettingsSize */, settings,
- emptyInputBuffer, outputBuffers};
+ StreamBuffer outputBuffer = {halStreamConfig.streams[0].id,
+ bufferId,
+ hidl_handle(gb->getNativeBuffer()->handle),
+ BufferStatus::OK,
+ nullptr,
+ nullptr};
+ ::android::hardware::hidl_vec<StreamBuffer> outputBuffers = {outputBuffer};
+ StreamBuffer emptyInputBuffer = {-1, 0, nullptr, BufferStatus::ERROR, nullptr, nullptr};
+ CaptureRequest request = {frameNumber, 0 /* fmqSettingsSize */, settings,
+ emptyInputBuffer, outputBuffers};
- //Settings were not correctly initialized, we should fail here
- Status status = Status::OK;
- uint32_t numRequestProcessed = 0;
- hidl_vec<BufferCache> cachesToRemove;
- Return<void> ret = session->processCaptureRequest(
- {request},
- cachesToRemove,
- [&status, &numRequestProcessed] (auto s, uint32_t n) {
- status = s;
- numRequestProcessed = n;
- });
- ASSERT_TRUE(ret.isOk());
- ASSERT_EQ(Status::INTERNAL_ERROR, status);
- ASSERT_EQ(numRequestProcessed, 0u);
+ // Settings were not correctly initialized, we should fail here
+ Status status = Status::OK;
+ uint32_t numRequestProcessed = 0;
+ hidl_vec<BufferCache> cachesToRemove;
+ Return<void> ret = session->processCaptureRequest(
+ {request}, cachesToRemove, [&status, &numRequestProcessed](auto s, uint32_t n) {
+ status = s;
+ numRequestProcessed = n;
+ });
+ ASSERT_TRUE(ret.isOk());
+ ASSERT_EQ(Status::INTERNAL_ERROR, status);
+ ASSERT_EQ(numRequestProcessed, 0u);
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
- }
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -3088,91 +2813,81 @@
// Check whether an invalid capture request with missing output buffers
// will be reported correctly.
TEST_F(CameraHidlTest, processCaptureRequestInvalidBuffer) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputBlobStreams;
- AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
- static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
- uint32_t frameNumber = 1;
- ::android::hardware::hidl_vec<uint8_t> settings;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputBlobStreams;
+ AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
+ static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
+ uint32_t frameNumber = 1;
+ ::android::hardware::hidl_vec<uint8_t> settings;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- Stream previewStream;
- HalStreamConfiguration halStreamConfig;
- sp<ICameraDeviceSession> session;
- bool supportsPartialResults = false;
- uint32_t partialResultCount = 0;
- configurePreviewStream(name, provider.second, &previewThreshold,
- &session /*out*/, &previewStream /*out*/,
- &halStreamConfig /*out*/, &supportsPartialResults/*out*/,
- &partialResultCount /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ Stream previewStream;
+ HalStreamConfiguration halStreamConfig;
+ sp<ICameraDeviceSession> session;
+ bool supportsPartialResults = false;
+ uint32_t partialResultCount = 0;
+ configurePreviewStream(name, mProvider, &previewThreshold, &session /*out*/,
+ &previewStream /*out*/, &halStreamConfig /*out*/,
+ &supportsPartialResults /*out*/, &partialResultCount /*out*/);
- RequestTemplate reqTemplate = RequestTemplate::PREVIEW;
- Return<void> ret;
- ret = session->constructDefaultRequestSettings(reqTemplate,
- [&](auto status, const auto& req) {
- ASSERT_EQ(Status::OK, status);
- settings = req; });
- ASSERT_TRUE(ret.isOk());
+ RequestTemplate reqTemplate = RequestTemplate::PREVIEW;
+ Return<void> ret;
+ ret = session->constructDefaultRequestSettings(reqTemplate,
+ [&](auto status, const auto& req) {
+ ASSERT_EQ(Status::OK, status);
+ settings = req;
+ });
+ ASSERT_TRUE(ret.isOk());
- ::android::hardware::hidl_vec<StreamBuffer> emptyOutputBuffers;
- StreamBuffer emptyInputBuffer = {-1, 0, nullptr,
- BufferStatus::ERROR, nullptr, nullptr};
- CaptureRequest request = {frameNumber, 0/* fmqSettingsSize */,
- settings, emptyInputBuffer, emptyOutputBuffers};
+ ::android::hardware::hidl_vec<StreamBuffer> emptyOutputBuffers;
+ StreamBuffer emptyInputBuffer = {-1, 0, nullptr, BufferStatus::ERROR, nullptr, nullptr};
+ CaptureRequest request = {frameNumber, 0 /* fmqSettingsSize */, settings,
+ emptyInputBuffer, emptyOutputBuffers};
- //Output buffers are missing, we should fail here
- Status status = Status::OK;
- uint32_t numRequestProcessed = 0;
- hidl_vec<BufferCache> cachesToRemove;
- ret = session->processCaptureRequest(
- {request},
- cachesToRemove,
- [&status, &numRequestProcessed] (auto s, uint32_t n) {
- status = s;
- numRequestProcessed = n;
- });
- ASSERT_TRUE(ret.isOk());
- ASSERT_EQ(Status::INTERNAL_ERROR, status);
- ASSERT_EQ(numRequestProcessed, 0u);
+ // Output buffers are missing, we should fail here
+ Status status = Status::OK;
+ uint32_t numRequestProcessed = 0;
+ hidl_vec<BufferCache> cachesToRemove;
+ ret = session->processCaptureRequest(
+ {request}, cachesToRemove, [&status, &numRequestProcessed](auto s, uint32_t n) {
+ status = s;
+ numRequestProcessed = n;
+ });
+ ASSERT_TRUE(ret.isOk());
+ ASSERT_EQ(Status::INTERNAL_ERROR, status);
+ ASSERT_EQ(numRequestProcessed, 0u);
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
- }
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
// Generate, trigger and flush a preview request
TEST_F(CameraHidlTest, flushPreviewRequest) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputPreviewStreams;
- AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
- static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
- uint64_t bufferId = 1;
- uint32_t frameNumber = 1;
- ::android::hardware::hidl_vec<uint8_t> settings;
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputPreviewStreams;
+ AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
+ static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
+ uint64_t bufferId = 1;
+ uint32_t frameNumber = 1;
+ ::android::hardware::hidl_vec<uint8_t> settings;
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- Stream previewStream;
- HalStreamConfiguration halStreamConfig;
- sp<ICameraDeviceSession> session;
- bool supportsPartialResults = false;
- uint32_t partialResultCount = 0;
- configurePreviewStream(name, provider.second, &previewThreshold,
- &session /*out*/, &previewStream /*out*/,
- &halStreamConfig /*out*/, &supportsPartialResults /*out*/,
- &partialResultCount /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ Stream previewStream;
+ HalStreamConfiguration halStreamConfig;
+ sp<ICameraDeviceSession> session;
+ bool supportsPartialResults = false;
+ uint32_t partialResultCount = 0;
+ configurePreviewStream(name, mProvider, &previewThreshold, &session /*out*/,
+ &previewStream /*out*/, &halStreamConfig /*out*/,
+ &supportsPartialResults /*out*/, &partialResultCount /*out*/);
- std::shared_ptr<ResultMetadataQueue> resultQueue;
- auto resultQueueRet = session->getCaptureResultMetadataQueue(
+ std::shared_ptr<ResultMetadataQueue> resultQueue;
+ auto resultQueueRet =
+ session->getCaptureResultMetadataQueue(
[&resultQueue](const auto& descriptor) {
resultQueue = std::make_shared<ResultMetadataQueue>(
descriptor);
@@ -3184,93 +2899,89 @@
// Don't use the queue onwards.
}
});
- ASSERT_TRUE(resultQueueRet.isOk());
- ASSERT_NE(nullptr, resultQueue);
+ ASSERT_TRUE(resultQueueRet.isOk());
+ ASSERT_NE(nullptr, resultQueue);
- InFlightRequest inflightReq = {1, false, supportsPartialResults,
- partialResultCount, resultQueue};
- RequestTemplate reqTemplate = RequestTemplate::PREVIEW;
- Return<void> ret;
- ret = session->constructDefaultRequestSettings(reqTemplate,
- [&](auto status, const auto& req) {
- ASSERT_EQ(Status::OK, status);
- settings = req; });
- ASSERT_TRUE(ret.isOk());
+ InFlightRequest inflightReq = {1, false, supportsPartialResults, partialResultCount,
+ resultQueue};
+ RequestTemplate reqTemplate = RequestTemplate::PREVIEW;
+ Return<void> ret;
+ ret = session->constructDefaultRequestSettings(reqTemplate,
+ [&](auto status, const auto& req) {
+ ASSERT_EQ(Status::OK, status);
+ settings = req;
+ });
+ ASSERT_TRUE(ret.isOk());
- sp<GraphicBuffer> gb = new GraphicBuffer(
- previewStream.width, previewStream.height,
- static_cast<int32_t>(halStreamConfig.streams[0].overrideFormat),
- 1, android_convertGralloc1To0Usage(
- halStreamConfig.streams[0].producerUsage,
- halStreamConfig.streams[0].consumerUsage));
- ASSERT_NE(nullptr, gb.get());
- StreamBuffer outputBuffer = {halStreamConfig.streams[0].id,
- bufferId, hidl_handle(gb->getNativeBuffer()->handle),
- BufferStatus::OK, nullptr, nullptr};
- ::android::hardware::hidl_vec<StreamBuffer> outputBuffers = {
- outputBuffer};
- const StreamBuffer emptyInputBuffer = {-1, 0, nullptr,
- BufferStatus::ERROR, nullptr, nullptr};
- CaptureRequest request = {frameNumber, 0 /* fmqSettingsSize */,
- settings, emptyInputBuffer, outputBuffers};
+ sp<GraphicBuffer> gb = new GraphicBuffer(
+ previewStream.width, previewStream.height,
+ static_cast<int32_t>(halStreamConfig.streams[0].overrideFormat), 1,
+ android_convertGralloc1To0Usage(halStreamConfig.streams[0].producerUsage,
+ halStreamConfig.streams[0].consumerUsage));
+ ASSERT_NE(nullptr, gb.get());
+ StreamBuffer outputBuffer = {halStreamConfig.streams[0].id,
+ bufferId,
+ hidl_handle(gb->getNativeBuffer()->handle),
+ BufferStatus::OK,
+ nullptr,
+ nullptr};
+ ::android::hardware::hidl_vec<StreamBuffer> outputBuffers = {outputBuffer};
+ const StreamBuffer emptyInputBuffer = {-1, 0, nullptr, BufferStatus::ERROR,
+ nullptr, nullptr};
+ CaptureRequest request = {frameNumber, 0 /* fmqSettingsSize */, settings,
+ emptyInputBuffer, outputBuffers};
- {
- std::unique_lock<std::mutex> l(mLock);
- mInflightMap.clear();
- mInflightMap.add(frameNumber, &inflightReq);
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ mInflightMap.clear();
+ mInflightMap.add(frameNumber, &inflightReq);
+ }
+
+ Status status = Status::INTERNAL_ERROR;
+ uint32_t numRequestProcessed = 0;
+ hidl_vec<BufferCache> cachesToRemove;
+ ret = session->processCaptureRequest(
+ {request}, cachesToRemove, [&status, &numRequestProcessed](auto s, uint32_t n) {
+ status = s;
+ numRequestProcessed = n;
+ });
+
+ ASSERT_TRUE(ret.isOk());
+ ASSERT_EQ(Status::OK, status);
+ ASSERT_EQ(numRequestProcessed, 1u);
+ // Flush before waiting for request to complete.
+ Return<Status> returnStatus = session->flush();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
+
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ while (!inflightReq.errorCodeValid &&
+ ((0 < inflightReq.numBuffersLeft) || (!inflightReq.haveResultMetadata))) {
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::seconds(kStreamBufferTimeoutSec);
+ ASSERT_NE(std::cv_status::timeout, mResultCondition.wait_until(l, timeout));
}
- Status status = Status::INTERNAL_ERROR;
- uint32_t numRequestProcessed = 0;
- hidl_vec<BufferCache> cachesToRemove;
- ret = session->processCaptureRequest(
- {request},
- cachesToRemove,
- [&status, &numRequestProcessed] (auto s, uint32_t n) {
- status = s;
- numRequestProcessed = n;
- });
-
- ASSERT_TRUE(ret.isOk());
- ASSERT_EQ(Status::OK, status);
- ASSERT_EQ(numRequestProcessed, 1u);
- //Flush before waiting for request to complete.
- Return<Status> returnStatus = session->flush();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
-
- {
- std::unique_lock<std::mutex> l(mLock);
- while (!inflightReq.errorCodeValid &&
- ((0 < inflightReq.numBuffersLeft) ||
- (!inflightReq.haveResultMetadata))) {
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::seconds(kStreamBufferTimeoutSec);
- ASSERT_NE(std::cv_status::timeout,
- mResultCondition.wait_until(l, timeout));
+ if (!inflightReq.errorCodeValid) {
+ ASSERT_NE(inflightReq.resultOutputBuffers.size(), 0u);
+ ASSERT_EQ(previewStream.id, inflightReq.resultOutputBuffers[0].streamId);
+ } else {
+ switch (inflightReq.errorCode) {
+ case ErrorCode::ERROR_REQUEST:
+ case ErrorCode::ERROR_RESULT:
+ case ErrorCode::ERROR_BUFFER:
+ // Expected
+ break;
+ case ErrorCode::ERROR_DEVICE:
+ default:
+ FAIL() << "Unexpected error:"
+ << static_cast<uint32_t>(inflightReq.errorCode);
}
-
- if (!inflightReq.errorCodeValid) {
- ASSERT_NE(inflightReq.resultOutputBuffers.size(), 0u);
- ASSERT_EQ(previewStream.id,
- inflightReq.resultOutputBuffers[0].streamId);
- } else {
- switch (inflightReq.errorCode) {
- case ErrorCode::ERROR_REQUEST:
- case ErrorCode::ERROR_RESULT:
- case ErrorCode::ERROR_BUFFER:
- //Expected
- break;
- case ErrorCode::ERROR_DEVICE:
- default:
- FAIL() << "Unexpected error:" << static_cast<uint32_t> (
- inflightReq.errorCode);
- }
- }
-
- ret = session->close();
- ASSERT_TRUE(ret.isOk());
}
+
+ ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -3278,41 +2989,35 @@
// Verify that camera flushes correctly without any pending requests.
TEST_F(CameraHidlTest, flushEmpty) {
- for (auto provider : CameraHidlEnvironment::Instance()->mProviders) {
- hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(
- provider.second);
- std::vector<AvailableStream> outputPreviewStreams;
- AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
- static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
+ hidl_vec<hidl_string> cameraDeviceNames = getCameraDeviceNames(mProvider);
+ std::vector<AvailableStream> outputPreviewStreams;
+ AvailableStream previewThreshold = {kMaxPreviewWidth, kMaxPreviewHeight,
+ static_cast<int32_t>(PixelFormat::IMPLEMENTATION_DEFINED)};
- for (const auto& name : cameraDeviceNames) {
- if (getCameraDeviceVersion(name, provider.first) ==
- CAMERA_DEVICE_API_VERSION_3_2) {
- Stream previewStream;
- HalStreamConfiguration halStreamConfig;
- sp<ICameraDeviceSession> session;
- bool supportsPartialResults = false;
- uint32_t partialResultCount = 0;
- configurePreviewStream(name, provider.second, &previewThreshold,
- &session /*out*/, &previewStream /*out*/,
- &halStreamConfig /*out*/, &supportsPartialResults /*out*/,
- &partialResultCount /*out*/);
+ for (const auto& name : cameraDeviceNames) {
+ if (getCameraDeviceVersion(name, mProviderType) == CAMERA_DEVICE_API_VERSION_3_2) {
+ Stream previewStream;
+ HalStreamConfiguration halStreamConfig;
+ sp<ICameraDeviceSession> session;
+ bool supportsPartialResults = false;
+ uint32_t partialResultCount = 0;
+ configurePreviewStream(name, mProvider, &previewThreshold, &session /*out*/,
+ &previewStream /*out*/, &halStreamConfig /*out*/,
+ &supportsPartialResults /*out*/, &partialResultCount /*out*/);
- Return<Status> returnStatus = session->flush();
- ASSERT_TRUE(returnStatus.isOk());
- ASSERT_EQ(Status::OK, returnStatus);
+ Return<Status> returnStatus = session->flush();
+ ASSERT_TRUE(returnStatus.isOk());
+ ASSERT_EQ(Status::OK, returnStatus);
- {
- std::unique_lock<std::mutex> l(mLock);
- auto timeout = std::chrono::system_clock::now() +
- std::chrono::milliseconds(kEmptyFlushTimeoutMSec);
- ASSERT_EQ(std::cv_status::timeout,
- mResultCondition.wait_until(l, timeout));
- }
-
- Return<void> ret = session->close();
- ASSERT_TRUE(ret.isOk());
+ {
+ std::unique_lock<std::mutex> l(mLock);
+ auto timeout = std::chrono::system_clock::now() +
+ std::chrono::milliseconds(kEmptyFlushTimeoutMSec);
+ ASSERT_EQ(std::cv_status::timeout, mResultCondition.wait_until(l, timeout));
}
+
+ Return<void> ret = session->close();
+ ASSERT_TRUE(ret.isOk());
}
}
}
@@ -3753,6 +3458,7 @@
int main(int argc, char **argv) {
::testing::AddGlobalTestEnvironment(CameraHidlEnvironment::Instance());
::testing::InitGoogleTest(&argc, argv);
+ CameraHidlEnvironment::Instance()->init(&argc, argv);
int status = RUN_ALL_TESTS();
ALOGI("Test result = %d", status);
return status;