libhardware/tests/camera2/camera2_utils.h - nest-cam/4320010/libhardware - Git at Google

 /*
  * Copyright (C) 2012 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef __ANDROID_HAL_CAMERA2_TESTS_UTILS__
 #define __ANDROID_HAL_CAMERA2_TESTS_UTILS__

 // Utility classes for camera2 HAL testing

 #include <system/camera_metadata.h>
 #include <hardware/camera2.h>

 #include <gui/Surface.h>
 #include <gui/CpuConsumer.h>

 #include <utils/List.h>
 #include <utils/Mutex.h>
 #include <utils/Condition.h>

 namespace android {
 namespace camera2 {
 namespace tests {

 /**
  * Queue class for both sending requests to a camera2 device, and for receiving
  * frames from a camera2 device.
  */
 class MetadataQueue: public camera2_request_queue_src_ops_t,
                     public camera2_frame_queue_dst_ops_t {
   public:
     MetadataQueue();
     ~MetadataQueue();

     // Interface to camera2 HAL device, either for requests (device is consumer)
     // or for frames (device is producer)
     const camera2_request_queue_src_ops_t*   getToConsumerInterface();
     void setFromConsumerInterface(camera2_device_t *d);

     const camera2_frame_queue_dst_ops_t* getToProducerInterface();

     // Real interfaces. On enqueue, queue takes ownership of buffer pointer
     // On dequeue, user takes ownership of buffer pointer.
     status_t enqueue(camera_metadata_t *buf);
     status_t dequeue(camera_metadata_t **buf, bool incrementCount = true);
     int      getBufferCount();
     status_t waitForBuffer(nsecs_t timeout);

     // Set repeating buffer(s); if the queue is empty on a dequeue call, the
     // queue copies the contents of the stream slot into the queue, and then
     // dequeues the first new entry.
     status_t setStreamSlot(camera_metadata_t *buf);
     status_t setStreamSlot(const List<camera_metadata_t*> &bufs);

   private:
     status_t freeBuffers(List<camera_metadata_t*>::iterator start,
                          const List<camera_metadata_t*>::iterator& end);

     camera2_device_t *mDevice;

     Mutex mMutex;
     Condition notEmpty;

     int mFrameCount;

     int mCount;
     List<camera_metadata_t*> mEntries;
     int mStreamSlotCount;
     List<camera_metadata_t*> mStreamSlot;

     bool mSignalConsumer;

     static MetadataQueue* getInstance(const camera2_frame_queue_dst_ops_t *q);
     static MetadataQueue* getInstance(const camera2_request_queue_src_ops_t *q);

     static int consumer_buffer_count(const camera2_request_queue_src_ops_t *q);

     static int consumer_dequeue(const camera2_request_queue_src_ops_t *q,
             camera_metadata_t **buffer);

     static int consumer_free(const camera2_request_queue_src_ops_t *q,
             camera_metadata_t *old_buffer);

     static int producer_dequeue(const camera2_frame_queue_dst_ops_t *q,
             size_t entries, size_t bytes,
             camera_metadata_t **buffer);

     static int producer_cancel(const camera2_frame_queue_dst_ops_t *q,
             camera_metadata_t *old_buffer);

     static int producer_enqueue(const camera2_frame_queue_dst_ops_t *q,
             camera_metadata_t *filled_buffer);

 };

 /**
  * Basic class to receive and queue up notifications from the camera device
  */

 class NotifierListener {
   public:

     NotifierListener();

     status_t getNotificationsFrom(camera2_device *dev);

     status_t getNextNotification(int32_t *msg_type, int32_t *ext1,
             int32_t *ext2, int32_t *ext3);

     status_t waitForNotification(int32_t *msg_type, int32_t *ext1,
             int32_t *ext2, int32_t *ext3);

     int numNotifications();

   private:

     status_t getNextNotificationLocked(int32_t *msg_type,
             int32_t *ext1, int32_t *ext2, int32_t *ext3);

     struct Notification {
         Notification(int32_t type, int32_t e1, int32_t e2, int32_t e3):
                 msg_type(type),
                 ext1(e1),
                 ext2(e2),
                 ext3(e3)
         {}

         int32_t msg_type;
         int32_t ext1;
         int32_t ext2;
         int32_t ext3;
     };

     List<Notification> mNotifications;

     Mutex mMutex;
     Condition mNewNotification;

     void onNotify(int32_t msg_type,
             int32_t ext1,
             int32_t ext2,
             int32_t ext3);

     static void notify_callback_dispatch(int32_t msg_type,
             int32_t ext1,
             int32_t ext2,
             int32_t ext3,
             void *user);

 };

 /**
  * Adapter from an IGraphicBufferProducer interface to camera2 device stream ops.
  * Also takes care of allocating/deallocating stream in device interface
  */
 class StreamAdapter: public camera2_stream_ops {
   public:
     explicit StreamAdapter(sp<IGraphicBufferProducer> consumer);

     ~StreamAdapter();

     status_t connectToDevice(camera2_device_t *d,
             uint32_t width, uint32_t height, int format);

     status_t disconnect();

     // Get stream ID. Only valid after a successful connectToDevice call.
     int      getId();

   private:
     enum {
         ERROR = -1,
         DISCONNECTED = 0,
         UNINITIALIZED,
         ALLOCATED,
         CONNECTED,
         ACTIVE
     } mState;

     sp<ANativeWindow> mConsumerInterface;
     camera2_device_t *mDevice;

     uint32_t mId;
     uint32_t mWidth;
     uint32_t mHeight;
     uint32_t mFormat;
     uint32_t mUsage;
     uint32_t mMaxProducerBuffers;
     uint32_t mMaxConsumerBuffers;

     const camera2_stream_ops *getStreamOps();

     static ANativeWindow* toANW(const camera2_stream_ops_t *w);

     static int dequeue_buffer(const camera2_stream_ops_t *w,
             buffer_handle_t** buffer);

     static int enqueue_buffer(const camera2_stream_ops_t* w,
             int64_t timestamp,
             buffer_handle_t* buffer);

     static int cancel_buffer(const camera2_stream_ops_t* w,
             buffer_handle_t* buffer);

     static int set_crop(const camera2_stream_ops_t* w,
             int left, int top, int right, int bottom);

 };

 /**
  * Simple class to wait on the CpuConsumer to have a frame available
  */
 class FrameWaiter : public CpuConsumer::FrameAvailableListener {
   public:
     FrameWaiter();

     /**
      * Wait for max timeout nanoseconds for a new frame. Returns
      * OK if a frame is available, TIMED_OUT if the timeout was reached.
      */
     status_t waitForFrame(nsecs_t timeout);

     virtual void onFrameAvailable(const BufferItem& item);

     int mPendingFrames;
     Mutex mMutex;
     Condition mCondition;
 };

 struct HWModuleHelpers {
     /* attempt to unload the library with dlclose */
     static int closeModule(void* dso);
 };

 }
 }
 }

 #endif
	/*
	* Copyright (C) 2012 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef __ANDROID_HAL_CAMERA2_TESTS_UTILS__
	#define __ANDROID_HAL_CAMERA2_TESTS_UTILS__

	// Utility classes for camera2 HAL testing

	#include <system/camera_metadata.h>
	#include <hardware/camera2.h>

	#include <gui/Surface.h>
	#include <gui/CpuConsumer.h>

	#include <utils/List.h>
	#include <utils/Mutex.h>
	#include <utils/Condition.h>

	namespace android {
	namespace camera2 {
	namespace tests {

	/**
	* Queue class for both sending requests to a camera2 device, and for receiving
	* frames from a camera2 device.
	*/
	class MetadataQueue: public camera2_request_queue_src_ops_t,
	public camera2_frame_queue_dst_ops_t {
	public:
	MetadataQueue();
	~MetadataQueue();

	// Interface to camera2 HAL device, either for requests (device is consumer)
	// or for frames (device is producer)
	const camera2_request_queue_src_ops_t* getToConsumerInterface();
	void setFromConsumerInterface(camera2_device_t *d);

	const camera2_frame_queue_dst_ops_t* getToProducerInterface();

	// Real interfaces. On enqueue, queue takes ownership of buffer pointer
	// On dequeue, user takes ownership of buffer pointer.
	status_t enqueue(camera_metadata_t *buf);
	status_t dequeue(camera_metadata_t **buf, bool incrementCount = true);
	int getBufferCount();
	status_t waitForBuffer(nsecs_t timeout);

	// Set repeating buffer(s); if the queue is empty on a dequeue call, the
	// queue copies the contents of the stream slot into the queue, and then
	// dequeues the first new entry.
	status_t setStreamSlot(camera_metadata_t *buf);
	status_t setStreamSlot(const List<camera_metadata_t*> &bufs);

	private:
	status_t freeBuffers(List<camera_metadata_t*>::iterator start,
	const List<camera_metadata_t*>::iterator& end);

	camera2_device_t *mDevice;

	Mutex mMutex;
	Condition notEmpty;

	int mFrameCount;

	int mCount;
	List<camera_metadata_t*> mEntries;
	int mStreamSlotCount;
	List<camera_metadata_t*> mStreamSlot;

	bool mSignalConsumer;

	static MetadataQueue* getInstance(const camera2_frame_queue_dst_ops_t *q);
	static MetadataQueue* getInstance(const camera2_request_queue_src_ops_t *q);

	static int consumer_buffer_count(const camera2_request_queue_src_ops_t *q);

	static int consumer_dequeue(const camera2_request_queue_src_ops_t *q,
	camera_metadata_t **buffer);

	static int consumer_free(const camera2_request_queue_src_ops_t *q,
	camera_metadata_t *old_buffer);

	static int producer_dequeue(const camera2_frame_queue_dst_ops_t *q,
	size_t entries, size_t bytes,
	camera_metadata_t **buffer);

	static int producer_cancel(const camera2_frame_queue_dst_ops_t *q,
	camera_metadata_t *old_buffer);

	static int producer_enqueue(const camera2_frame_queue_dst_ops_t *q,
	camera_metadata_t *filled_buffer);

	};

	/**
	* Basic class to receive and queue up notifications from the camera device
	*/

	class NotifierListener {
	public:

	NotifierListener();

	status_t getNotificationsFrom(camera2_device *dev);

	status_t getNextNotification(int32_t msg_type, int32_t ext1,
	int32_t ext2, int32_t ext3);

	status_t waitForNotification(int32_t msg_type, int32_t ext1,
	int32_t ext2, int32_t ext3);

	int numNotifications();

	private:

	status_t getNextNotificationLocked(int32_t *msg_type,
	int32_t ext1, int32_t ext2, int32_t *ext3);

	struct Notification {
	Notification(int32_t type, int32_t e1, int32_t e2, int32_t e3):
	msg_type(type),
	ext1(e1),
	ext2(e2),
	ext3(e3)
	{}

	int32_t msg_type;
	int32_t ext1;
	int32_t ext2;
	int32_t ext3;
	};

	List<Notification> mNotifications;

	Mutex mMutex;
	Condition mNewNotification;

	void onNotify(int32_t msg_type,
	int32_t ext1,
	int32_t ext2,
	int32_t ext3);

	static void notify_callback_dispatch(int32_t msg_type,
	int32_t ext1,
	int32_t ext2,
	int32_t ext3,
	void *user);

	};

	/**
	* Adapter from an IGraphicBufferProducer interface to camera2 device stream ops.
	* Also takes care of allocating/deallocating stream in device interface
	*/
	class StreamAdapter: public camera2_stream_ops {
	public:
	explicit StreamAdapter(sp<IGraphicBufferProducer> consumer);

	~StreamAdapter();

	status_t connectToDevice(camera2_device_t *d,
	uint32_t width, uint32_t height, int format);

	status_t disconnect();

	// Get stream ID. Only valid after a successful connectToDevice call.
	int getId();

	private:
	enum {
	ERROR = -1,
	DISCONNECTED = 0,
	UNINITIALIZED,
	ALLOCATED,
	CONNECTED,
	ACTIVE
	} mState;

	sp<ANativeWindow> mConsumerInterface;
	camera2_device_t *mDevice;

	uint32_t mId;
	uint32_t mWidth;
	uint32_t mHeight;
	uint32_t mFormat;
	uint32_t mUsage;
	uint32_t mMaxProducerBuffers;
	uint32_t mMaxConsumerBuffers;

	const camera2_stream_ops *getStreamOps();

	static ANativeWindow* toANW(const camera2_stream_ops_t *w);

	static int dequeue_buffer(const camera2_stream_ops_t *w,
	buffer_handle_t** buffer);

	static int enqueue_buffer(const camera2_stream_ops_t* w,
	int64_t timestamp,
	buffer_handle_t* buffer);

	static int cancel_buffer(const camera2_stream_ops_t* w,
	buffer_handle_t* buffer);

	static int set_crop(const camera2_stream_ops_t* w,
	int left, int top, int right, int bottom);

	};

	/**
	* Simple class to wait on the CpuConsumer to have a frame available
	*/
	class FrameWaiter : public CpuConsumer::FrameAvailableListener {
	public:
	FrameWaiter();

	/**
	* Wait for max timeout nanoseconds for a new frame. Returns
	* OK if a frame is available, TIMED_OUT if the timeout was reached.
	*/
	status_t waitForFrame(nsecs_t timeout);

	virtual void onFrameAvailable(const BufferItem& item);

	int mPendingFrames;
	Mutex mMutex;
	Condition mCondition;
	};

	struct HWModuleHelpers {
	/* attempt to unload the library with dlclose */
	static int closeModule(void* dso);
	};

	}
	}
	}

	#endif