libs/vr/libvrsensor/pose_client.cpp - third_party/android/platform/frameworks/native - Git at Google

 #define LOG_TAG "PoseClient"
 #include <dvr/dvr_shared_buffers.h>
 #include <dvr/pose_client.h>

 #include <stdint.h>

 #include <log/log.h>
 #include <pdx/client.h>
 #include <pdx/default_transport/client_channel_factory.h>
 #include <pdx/file_handle.h>
 #include <private/dvr/buffer_hub_client.h>
 #include <private/dvr/buffer_hub_queue_client.h>
 #include <private/dvr/display_client.h>
 #include <private/dvr/pose-ipc.h>
 #include <private/dvr/shared_buffer_helpers.h>

 using android::dvr::ConsumerQueue;
 using android::pdx::LocalHandle;
 using android::pdx::LocalChannelHandle;
 using android::pdx::Status;
 using android::pdx::Transaction;

 namespace android {
 namespace dvr {
 namespace {

 typedef CPUMappedBroadcastRing<DvrPoseRing> SensorPoseRing;

 constexpr static int32_t MAX_CONTROLLERS = 2;
 }  // namespace

 // PoseClient is a remote interface to the pose service in sensord.
 class PoseClient : public pdx::ClientBase<PoseClient> {
  public:
   ~PoseClient() override {}

   // Casts C handle into an instance of this class.
   static PoseClient* FromC(DvrPoseClient* client) {
     return reinterpret_cast<PoseClient*>(client);
   }

   // Polls the pose service for the current state and stores it in *state.
   // Returns zero on success, a negative error code otherwise.
   int Poll(DvrPose* state) {
     // Allocate the helper class to access the sensor pose buffer.
     if (sensor_pose_buffer_ == nullptr) {
       sensor_pose_buffer_ = std::make_unique<SensorPoseRing>(
           DvrGlobalBuffers::kSensorPoseBuffer, CPUUsageMode::READ_RARELY);
     }

     if (state) {
       if (sensor_pose_buffer_->GetNewest(state)) {
         return 0;
       } else {
         return -EAGAIN;
       }
     }

     return -EINVAL;
   }

   int GetPose(uint32_t vsync_count, DvrPoseAsync* out_pose) {
     const auto vsync_buffer = GetVsyncBuffer();
     if (vsync_buffer) {
       *out_pose =
           vsync_buffer
               ->vsync_poses[vsync_count & DvrVsyncPoseBuffer::kIndexMask];
       return 0;
     } else {
       return -EAGAIN;
     }
   }

   uint32_t GetVsyncCount() {
     const auto vsync_buffer = GetVsyncBuffer();
     if (vsync_buffer) {
       return vsync_buffer->vsync_count;
     }

     return 0;
   }

   int GetControllerPose(int32_t controller_id, uint32_t vsync_count,
                         DvrPoseAsync* out_pose) {
     if (controller_id < 0 || controller_id >= MAX_CONTROLLERS) {
       return -EINVAL;
     }
     if (!controllers_[controller_id].mapped_pose_buffer) {
       int ret = GetControllerRingBuffer(controller_id);
       if (ret < 0)
         return ret;
     }
     *out_pose =
         controllers_[controller_id]
             .mapped_pose_buffer[vsync_count & DvrVsyncPoseBuffer::kIndexMask];
     return 0;
   }

   int LogController(bool enable) {
     Transaction trans{*this};
     Status<int> status = trans.Send<int>(DVR_POSE_LOG_CONTROLLER, &enable,
                                          sizeof(enable), nullptr, 0);
     ALOGE_IF(!status, "Pose LogController() failed because: %s",
              status.GetErrorMessage().c_str());
     return ReturnStatusOrError(status);
   }

   // Freezes the pose to the provided state. Future poll operations will return
   // this state until a different state is frozen or SetMode() is called with a
   // different mode.
   // Returns zero on success, a negative error code otherwise.
   int Freeze(const DvrPose& frozen_state) {
     Transaction trans{*this};
     Status<int> status = trans.Send<int>(DVR_POSE_FREEZE, &frozen_state,
                                          sizeof(frozen_state), nullptr, 0);
     ALOGE_IF(!status, "Pose Freeze() failed because: %s\n",
              status.GetErrorMessage().c_str());
     return ReturnStatusOrError(status);
   }

   // Sets the data mode for the pose service.
   int SetMode(DvrPoseMode mode) {
     Transaction trans{*this};
     Status<int> status =
         trans.Send<int>(DVR_POSE_SET_MODE, &mode, sizeof(mode), nullptr, 0);
     ALOGE_IF(!status, "Pose SetPoseMode() failed because: %s",
              status.GetErrorMessage().c_str());
     return ReturnStatusOrError(status);
   }

   // Gets the data mode for the pose service.
   int GetMode(DvrPoseMode* out_mode) {
     int mode;
     Transaction trans{*this};
     Status<int> status =
         trans.Send<int>(DVR_POSE_GET_MODE, nullptr, 0, &mode, sizeof(mode));
     ALOGE_IF(!status, "Pose GetPoseMode() failed because: %s",
              status.GetErrorMessage().c_str());
     if (status)
       *out_mode = DvrPoseMode(mode);
     return ReturnStatusOrError(status);
   }

   int GetTangoReaderHandle(uint64_t data_type, ConsumerQueue** queue_out) {
     // Get buffer.
     Transaction trans{*this};
     Status<LocalChannelHandle> status = trans.Send<LocalChannelHandle>(
         DVR_POSE_GET_TANGO_READER, &data_type, sizeof(data_type), nullptr, 0);

     if (!status) {
       ALOGE("PoseClient GetTangoReaderHandle() failed because: %s",
             status.GetErrorMessage().c_str());
       *queue_out = nullptr;
       return -status.error();
     }

     std::unique_ptr<ConsumerQueue> consumer_queue =
         ConsumerQueue::Import(status.take());
     *queue_out = consumer_queue.release();
     return 0;
   }

   int DataCapture(const DvrPoseDataCaptureRequest* request) {
     Transaction trans{*this};
     Status<int> status = trans.Send<int>(DVR_POSE_DATA_CAPTURE, request,
                                          sizeof(*request), nullptr, 0);
     ALOGE_IF(!status, "PoseClient DataCapture() failed because: %s\n",
              status.GetErrorMessage().c_str());
     return ReturnStatusOrError(status);
   }

   int DataReaderDestroy(uint64_t data_type) {
     Transaction trans{*this};
     Status<int> status = trans.Send<int>(DVR_POSE_TANGO_READER_DESTROY,
                                          &data_type, sizeof(data_type), nullptr,
                                          0);
     ALOGE_IF(!status, "PoseClient DataReaderDestroy() failed because: %s\n",
              status.GetErrorMessage().c_str());
     return ReturnStatusOrError(status);
   }

   // Enables or disables all pose processing from sensors
   int EnableSensors(bool enabled) {
     Transaction trans{*this};
     Status<int> status = trans.Send<int>(DVR_POSE_SENSORS_ENABLE, &enabled,
                                          sizeof(enabled), nullptr, 0);
     ALOGE_IF(!status, "Pose EnableSensors() failed because: %s\n",
              status.GetErrorMessage().c_str());
     return ReturnStatusOrError(status);
   }

   int GetRingBuffer(DvrPoseRingBufferInfo* out_info) {
     // First time mapping the buffer?
     const auto vsync_buffer = GetVsyncBuffer();
     if (vsync_buffer) {
       if (out_info) {
         out_info->min_future_count = DvrVsyncPoseBuffer::kMinFutureCount;
         out_info->total_count = DvrVsyncPoseBuffer::kSize;
         out_info->buffer = vsync_buffer->vsync_poses;
       }
       return -EINVAL;
     }

     return -EAGAIN;
   }

   int GetControllerRingBuffer(int32_t controller_id) {
     if (controller_id < 0 || controller_id >= MAX_CONTROLLERS) {
       return -EINVAL;
     }
     ControllerClientState& client_state = controllers_[controller_id];
     if (client_state.pose_buffer.get()) {
       return 0;
     }

     Transaction trans{*this};
     Status<LocalChannelHandle> status = trans.Send<LocalChannelHandle>(
         DVR_POSE_GET_CONTROLLER_RING_BUFFER, &controller_id,
         sizeof(controller_id), nullptr, 0);
     if (!status) {
       return -status.error();
     }

     auto buffer = BufferConsumer::Import(status.take());
     if (!buffer) {
       ALOGE("Pose failed to import ring buffer");
       return -EIO;
     }
     constexpr size_t size = DvrVsyncPoseBuffer::kSize * sizeof(DvrPoseAsync);
     void* addr = nullptr;
     int ret = buffer->GetBlobReadOnlyPointer(size, &addr);
     if (ret < 0 || !addr) {
       ALOGE("Pose failed to map ring buffer: ret:%d, addr:%p", ret, addr);
       return -EIO;
     }
     client_state.pose_buffer.swap(buffer);
     client_state.mapped_pose_buffer = static_cast<const DvrPoseAsync*>(addr);
     ALOGI(
         "Mapped controller %d pose data translation %f,%f,%f quat %f,%f,%f,%f",
         controller_id, client_state.mapped_pose_buffer[0].position[0],
         client_state.mapped_pose_buffer[0].position[1],
         client_state.mapped_pose_buffer[0].position[2],
         client_state.mapped_pose_buffer[0].orientation[0],
         client_state.mapped_pose_buffer[0].orientation[1],
         client_state.mapped_pose_buffer[0].orientation[2],
         client_state.mapped_pose_buffer[0].orientation[3]);
     return 0;
   }

  private:
   friend BASE;

   // Set up a channel to the pose service.
   PoseClient()
       : BASE(pdx::default_transport::ClientChannelFactory::Create(
             DVR_POSE_SERVICE_CLIENT)) {
     // TODO(eieio): Cache the pose and make timeout 0 so that the API doesn't
     // block while waiting for the pose service to come back up.
     EnableAutoReconnect(kInfiniteTimeout);
   }

   PoseClient(const PoseClient&) = delete;
   PoseClient& operator=(const PoseClient&) = delete;

   const DvrVsyncPoseBuffer* GetVsyncBuffer() {
     if (mapped_vsync_pose_buffer_ == nullptr) {
       if (vsync_pose_buffer_ == nullptr) {
         // The constructor tries mapping it so we do not need TryMapping after.
         vsync_pose_buffer_ = std::make_unique<CPUMappedBuffer>(
             DvrGlobalBuffers::kVsyncPoseBuffer, CPUUsageMode::READ_OFTEN);
       } else if (vsync_pose_buffer_->IsMapped() == false) {
         vsync_pose_buffer_->TryMapping();
       }

       if (vsync_pose_buffer_->IsMapped()) {
         mapped_vsync_pose_buffer_ =
             static_cast<DvrVsyncPoseBuffer*>(vsync_pose_buffer_->Address());
       }
     }

     return mapped_vsync_pose_buffer_;
   }

   // The vsync pose buffer if already mapped.
   std::unique_ptr<CPUMappedBuffer> vsync_pose_buffer_;

   // The direct sensor pose buffer.
   std::unique_ptr<SensorPoseRing> sensor_pose_buffer_;

   const DvrVsyncPoseBuffer* mapped_vsync_pose_buffer_ = nullptr;

   struct ControllerClientState {
     std::unique_ptr<BufferConsumer> pose_buffer;
     const DvrPoseAsync* mapped_pose_buffer = nullptr;
   };
   ControllerClientState controllers_[MAX_CONTROLLERS];
 };

 int dvrPoseClientGetDataReaderHandle(DvrPoseClient* client, uint64_t type,
                                      ConsumerQueue** queue_out) {
   return PoseClient::FromC(client)->GetTangoReaderHandle(type, queue_out);
 }

 }  // namespace dvr
 }  // namespace android

 using android::dvr::PoseClient;

 extern "C" {

 DvrPoseClient* dvrPoseClientCreate() {
   auto* client = PoseClient::Create().release();
   return reinterpret_cast<DvrPoseClient*>(client);
 }

 void dvrPoseClientDestroy(DvrPoseClient* client) {
   delete PoseClient::FromC(client);
 }

 int dvrPoseClientGet(DvrPoseClient* client, uint32_t vsync_count,
                      DvrPoseAsync* out_pose) {
   return PoseClient::FromC(client)->GetPose(vsync_count, out_pose);
 }

 uint32_t dvrPoseClientGetVsyncCount(DvrPoseClient* client) {
   return PoseClient::FromC(client)->GetVsyncCount();
 }

 int dvrPoseClientGetController(DvrPoseClient* client, int32_t controller_id,
                                uint32_t vsync_count, DvrPoseAsync* out_pose) {
   return PoseClient::FromC(client)->GetControllerPose(controller_id,
                                                       vsync_count, out_pose);
 }

 int dvrPoseClientLogController(DvrPoseClient* client, bool enable) {
   return PoseClient::FromC(client)->LogController(enable);
 }

 int dvrPoseClientPoll(DvrPoseClient* client, DvrPose* state) {
   return PoseClient::FromC(client)->Poll(state);
 }

 int dvrPoseClientFreeze(DvrPoseClient* client, const DvrPose* frozen_state) {
   return PoseClient::FromC(client)->Freeze(*frozen_state);
 }

 int dvrPoseClientModeSet(DvrPoseClient* client, DvrPoseMode mode) {
   return PoseClient::FromC(client)->SetMode(mode);
 }

 int dvrPoseClientModeGet(DvrPoseClient* client, DvrPoseMode* mode) {
   return PoseClient::FromC(client)->GetMode(mode);
 }

 int dvrPoseClientSensorsEnable(DvrPoseClient* client, bool enabled) {
   return PoseClient::FromC(client)->EnableSensors(enabled);
 }

 int dvrPoseClientDataCapture(DvrPoseClient* client,
                              const DvrPoseDataCaptureRequest* request) {
   return PoseClient::FromC(client)->DataCapture(request);
 }

 int dvrPoseClientDataReaderDestroy(DvrPoseClient* client, uint64_t data_type) {
   return PoseClient::FromC(client)->DataReaderDestroy(data_type);
 }

 }  // extern "C"
	#define LOG_TAG "PoseClient"
	#include <dvr/dvr_shared_buffers.h>
	#include <dvr/pose_client.h>

	#include <stdint.h>

	#include <log/log.h>
	#include <pdx/client.h>
	#include <pdx/default_transport/client_channel_factory.h>
	#include <pdx/file_handle.h>
	#include <private/dvr/buffer_hub_client.h>
	#include <private/dvr/buffer_hub_queue_client.h>
	#include <private/dvr/display_client.h>
	#include <private/dvr/pose-ipc.h>
	#include <private/dvr/shared_buffer_helpers.h>

	using android::dvr::ConsumerQueue;
	using android::pdx::LocalHandle;
	using android::pdx::LocalChannelHandle;
	using android::pdx::Status;
	using android::pdx::Transaction;

	namespace android {
	namespace dvr {
	namespace {

	typedef CPUMappedBroadcastRing<DvrPoseRing> SensorPoseRing;

	constexpr static int32_t MAX_CONTROLLERS = 2;
	} // namespace

	// PoseClient is a remote interface to the pose service in sensord.
	class PoseClient : public pdx::ClientBase<PoseClient> {
	public:
	~PoseClient() override {}

	// Casts C handle into an instance of this class.
	static PoseClient* FromC(DvrPoseClient* client) {
	return reinterpret_cast<PoseClient*>(client);
	}

	// Polls the pose service for the current state and stores it in *state.
	// Returns zero on success, a negative error code otherwise.
	int Poll(DvrPose* state) {
	// Allocate the helper class to access the sensor pose buffer.
	if (sensor_pose_buffer_ == nullptr) {
	sensor_pose_buffer_ = std::make_unique<SensorPoseRing>(
	DvrGlobalBuffers::kSensorPoseBuffer, CPUUsageMode::READ_RARELY);
	}

	if (state) {
	if (sensor_pose_buffer_->GetNewest(state)) {
	return 0;
	} else {
	return -EAGAIN;
	}
	}

	return -EINVAL;
	}

	int GetPose(uint32_t vsync_count, DvrPoseAsync* out_pose) {
	const auto vsync_buffer = GetVsyncBuffer();
	if (vsync_buffer) {
	*out_pose =
	vsync_buffer
	->vsync_poses[vsync_count & DvrVsyncPoseBuffer::kIndexMask];
	return 0;
	} else {
	return -EAGAIN;
	}
	}

	uint32_t GetVsyncCount() {
	const auto vsync_buffer = GetVsyncBuffer();
	if (vsync_buffer) {
	return vsync_buffer->vsync_count;
	}

	return 0;
	}

	int GetControllerPose(int32_t controller_id, uint32_t vsync_count,
	DvrPoseAsync* out_pose) {
	if (controller_id < 0 \|\| controller_id >= MAX_CONTROLLERS) {
	return -EINVAL;
	}
	if (!controllers_[controller_id].mapped_pose_buffer) {
	int ret = GetControllerRingBuffer(controller_id);
	if (ret < 0)
	return ret;
	}
	*out_pose =
	controllers_[controller_id]
	.mapped_pose_buffer[vsync_count & DvrVsyncPoseBuffer::kIndexMask];
	return 0;
	}

	int LogController(bool enable) {
	Transaction trans{*this};
	Status<int> status = trans.Send<int>(DVR_POSE_LOG_CONTROLLER, &enable,
	sizeof(enable), nullptr, 0);
	ALOGE_IF(!status, "Pose LogController() failed because: %s",
	status.GetErrorMessage().c_str());
	return ReturnStatusOrError(status);
	}

	// Freezes the pose to the provided state. Future poll operations will return
	// this state until a different state is frozen or SetMode() is called with a
	// different mode.
	// Returns zero on success, a negative error code otherwise.
	int Freeze(const DvrPose& frozen_state) {
	Transaction trans{*this};
	Status<int> status = trans.Send<int>(DVR_POSE_FREEZE, &frozen_state,
	sizeof(frozen_state), nullptr, 0);
	ALOGE_IF(!status, "Pose Freeze() failed because: %s\n",
	status.GetErrorMessage().c_str());
	return ReturnStatusOrError(status);
	}

	// Sets the data mode for the pose service.
	int SetMode(DvrPoseMode mode) {
	Transaction trans{*this};
	Status<int> status =
	trans.Send<int>(DVR_POSE_SET_MODE, &mode, sizeof(mode), nullptr, 0);
	ALOGE_IF(!status, "Pose SetPoseMode() failed because: %s",
	status.GetErrorMessage().c_str());
	return ReturnStatusOrError(status);
	}

	// Gets the data mode for the pose service.
	int GetMode(DvrPoseMode* out_mode) {
	int mode;
	Transaction trans{*this};
	Status<int> status =
	trans.Send<int>(DVR_POSE_GET_MODE, nullptr, 0, &mode, sizeof(mode));
	ALOGE_IF(!status, "Pose GetPoseMode() failed because: %s",
	status.GetErrorMessage().c_str());
	if (status)
	*out_mode = DvrPoseMode(mode);
	return ReturnStatusOrError(status);
	}

	int GetTangoReaderHandle(uint64_t data_type, ConsumerQueue** queue_out) {
	// Get buffer.
	Transaction trans{*this};
	Status<LocalChannelHandle> status = trans.Send<LocalChannelHandle>(
	DVR_POSE_GET_TANGO_READER, &data_type, sizeof(data_type), nullptr, 0);

	if (!status) {
	ALOGE("PoseClient GetTangoReaderHandle() failed because: %s",
	status.GetErrorMessage().c_str());
	*queue_out = nullptr;
	return -status.error();
	}

	std::unique_ptr<ConsumerQueue> consumer_queue =
	ConsumerQueue::Import(status.take());
	*queue_out = consumer_queue.release();
	return 0;
	}

	int DataCapture(const DvrPoseDataCaptureRequest* request) {
	Transaction trans{*this};
	Status<int> status = trans.Send<int>(DVR_POSE_DATA_CAPTURE, request,
	sizeof(*request), nullptr, 0);
	ALOGE_IF(!status, "PoseClient DataCapture() failed because: %s\n",
	status.GetErrorMessage().c_str());
	return ReturnStatusOrError(status);
	}

	int DataReaderDestroy(uint64_t data_type) {
	Transaction trans{*this};
	Status<int> status = trans.Send<int>(DVR_POSE_TANGO_READER_DESTROY,
	&data_type, sizeof(data_type), nullptr,
	0);
	ALOGE_IF(!status, "PoseClient DataReaderDestroy() failed because: %s\n",
	status.GetErrorMessage().c_str());
	return ReturnStatusOrError(status);
	}

	// Enables or disables all pose processing from sensors
	int EnableSensors(bool enabled) {
	Transaction trans{*this};
	Status<int> status = trans.Send<int>(DVR_POSE_SENSORS_ENABLE, &enabled,
	sizeof(enabled), nullptr, 0);
	ALOGE_IF(!status, "Pose EnableSensors() failed because: %s\n",
	status.GetErrorMessage().c_str());
	return ReturnStatusOrError(status);
	}

	int GetRingBuffer(DvrPoseRingBufferInfo* out_info) {
	// First time mapping the buffer?
	const auto vsync_buffer = GetVsyncBuffer();
	if (vsync_buffer) {
	if (out_info) {
	out_info->min_future_count = DvrVsyncPoseBuffer::kMinFutureCount;
	out_info->total_count = DvrVsyncPoseBuffer::kSize;
	out_info->buffer = vsync_buffer->vsync_poses;
	}
	return -EINVAL;
	}

	return -EAGAIN;
	}

	int GetControllerRingBuffer(int32_t controller_id) {
	if (controller_id < 0 \|\| controller_id >= MAX_CONTROLLERS) {
	return -EINVAL;
	}
	ControllerClientState& client_state = controllers_[controller_id];
	if (client_state.pose_buffer.get()) {
	return 0;
	}

	Transaction trans{*this};
	Status<LocalChannelHandle> status = trans.Send<LocalChannelHandle>(
	DVR_POSE_GET_CONTROLLER_RING_BUFFER, &controller_id,
	sizeof(controller_id), nullptr, 0);
	if (!status) {
	return -status.error();
	}

	auto buffer = BufferConsumer::Import(status.take());
	if (!buffer) {
	ALOGE("Pose failed to import ring buffer");
	return -EIO;
	}
	constexpr size_t size = DvrVsyncPoseBuffer::kSize * sizeof(DvrPoseAsync);
	void* addr = nullptr;
	int ret = buffer->GetBlobReadOnlyPointer(size, &addr);
	if (ret < 0 \|\| !addr) {
	ALOGE("Pose failed to map ring buffer: ret:%d, addr:%p", ret, addr);
	return -EIO;
	}
	client_state.pose_buffer.swap(buffer);
	client_state.mapped_pose_buffer = static_cast<const DvrPoseAsync*>(addr);
	ALOGI(
	"Mapped controller %d pose data translation %f,%f,%f quat %f,%f,%f,%f",
	controller_id, client_state.mapped_pose_buffer[0].position[0],
	client_state.mapped_pose_buffer[0].position[1],
	client_state.mapped_pose_buffer[0].position[2],
	client_state.mapped_pose_buffer[0].orientation[0],
	client_state.mapped_pose_buffer[0].orientation[1],
	client_state.mapped_pose_buffer[0].orientation[2],
	client_state.mapped_pose_buffer[0].orientation[3]);
	return 0;
	}

	private:
	friend BASE;

	// Set up a channel to the pose service.
	PoseClient()
	: BASE(pdx::default_transport::ClientChannelFactory::Create(
	DVR_POSE_SERVICE_CLIENT)) {
	// TODO(eieio): Cache the pose and make timeout 0 so that the API doesn't
	// block while waiting for the pose service to come back up.
	EnableAutoReconnect(kInfiniteTimeout);
	}

	PoseClient(const PoseClient&) = delete;
	PoseClient& operator=(const PoseClient&) = delete;

	const DvrVsyncPoseBuffer* GetVsyncBuffer() {
	if (mapped_vsync_pose_buffer_ == nullptr) {
	if (vsync_pose_buffer_ == nullptr) {
	// The constructor tries mapping it so we do not need TryMapping after.
	vsync_pose_buffer_ = std::make_unique<CPUMappedBuffer>(
	DvrGlobalBuffers::kVsyncPoseBuffer, CPUUsageMode::READ_OFTEN);
	} else if (vsync_pose_buffer_->IsMapped() == false) {
	vsync_pose_buffer_->TryMapping();
	}

	if (vsync_pose_buffer_->IsMapped()) {
	mapped_vsync_pose_buffer_ =
	static_cast<DvrVsyncPoseBuffer*>(vsync_pose_buffer_->Address());
	}
	}

	return mapped_vsync_pose_buffer_;
	}

	// The vsync pose buffer if already mapped.
	std::unique_ptr<CPUMappedBuffer> vsync_pose_buffer_;

	// The direct sensor pose buffer.
	std::unique_ptr<SensorPoseRing> sensor_pose_buffer_;

	const DvrVsyncPoseBuffer* mapped_vsync_pose_buffer_ = nullptr;

	struct ControllerClientState {
	std::unique_ptr<BufferConsumer> pose_buffer;
	const DvrPoseAsync* mapped_pose_buffer = nullptr;
	};
	ControllerClientState controllers_[MAX_CONTROLLERS];
	};

	int dvrPoseClientGetDataReaderHandle(DvrPoseClient* client, uint64_t type,
	ConsumerQueue** queue_out) {
	return PoseClient::FromC(client)->GetTangoReaderHandle(type, queue_out);
	}

	} // namespace dvr
	} // namespace android

	using android::dvr::PoseClient;

	extern "C" {

	DvrPoseClient* dvrPoseClientCreate() {
	auto* client = PoseClient::Create().release();
	return reinterpret_cast<DvrPoseClient*>(client);
	}

	void dvrPoseClientDestroy(DvrPoseClient* client) {
	delete PoseClient::FromC(client);
	}

	int dvrPoseClientGet(DvrPoseClient* client, uint32_t vsync_count,
	DvrPoseAsync* out_pose) {
	return PoseClient::FromC(client)->GetPose(vsync_count, out_pose);
	}

	uint32_t dvrPoseClientGetVsyncCount(DvrPoseClient* client) {
	return PoseClient::FromC(client)->GetVsyncCount();
	}

	int dvrPoseClientGetController(DvrPoseClient* client, int32_t controller_id,
	uint32_t vsync_count, DvrPoseAsync* out_pose) {
	return PoseClient::FromC(client)->GetControllerPose(controller_id,
	vsync_count, out_pose);
	}

	int dvrPoseClientLogController(DvrPoseClient* client, bool enable) {
	return PoseClient::FromC(client)->LogController(enable);
	}

	int dvrPoseClientPoll(DvrPoseClient* client, DvrPose* state) {
	return PoseClient::FromC(client)->Poll(state);
	}

	int dvrPoseClientFreeze(DvrPoseClient* client, const DvrPose* frozen_state) {
	return PoseClient::FromC(client)->Freeze(*frozen_state);
	}

	int dvrPoseClientModeSet(DvrPoseClient* client, DvrPoseMode mode) {
	return PoseClient::FromC(client)->SetMode(mode);
	}

	int dvrPoseClientModeGet(DvrPoseClient* client, DvrPoseMode* mode) {
	return PoseClient::FromC(client)->GetMode(mode);
	}

	int dvrPoseClientSensorsEnable(DvrPoseClient* client, bool enabled) {
	return PoseClient::FromC(client)->EnableSensors(enabled);
	}

	int dvrPoseClientDataCapture(DvrPoseClient* client,
	const DvrPoseDataCaptureRequest* request) {
	return PoseClient::FromC(client)->DataCapture(request);
	}

	int dvrPoseClientDataReaderDestroy(DvrPoseClient* client, uint64_t data_type) {
	return PoseClient::FromC(client)->DataReaderDestroy(data_type);
	}

	} // extern "C"