camera/device/1.0/ICameraDevice.hal - platform/hardware/interfaces - Git at Google

 /*
  * Copyright (C) 2016 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.
  */

 package android.hardware.camera.device@1.0;

 import android.hardware.camera.common@1.0::types;
 import ICameraDeviceCallback;
 import ICameraDevicePreviewCallback;

 /**
  * Camera device HAL, legacy version
  *
  * DEPRECATED. New devices are strongly recommended to use Camera HAL v3.2 or
  * newer.
  *
  * Supports the android.hardware.Camera API, and the android.hardware.camera2
  * API in LEGACY mode only.
  *
  * Will be removed in the Android P release.
  */
 interface ICameraDevice {

     /**
      * Get camera device resource cost information.
      *
      * This method may be called at any time, including before open()
      *
      * @return status Status code for the operation, one of:
      *     OK:
      *         On success.
      *     INTERNAL_ERROR:
      *         An unexpected internal camera HAL error occurred, and the
      *         resource cost is not available.
      *     CAMERA_DISCONNECTED:
      *         An external camera device has been disconnected, and is no longer
      *         available. This camera device interface is now stale, and a new
      *         instance must be acquired if the device is reconnected. All
      *         subsequent calls on this interface must return
      *         CAMERA_DISCONNECTED.
      * @return resourceCost
      *     The resources required to open this camera device, or unspecified
      *     values if status is not OK.
      */
     getResourceCost() generates (Status status, CameraResourceCost resourceCost);

     /**
      * Get basic camera information.
      *
      * This method may be called at any time, including before open()
      *
      * @return status Status code for the operation, one of:
      *     OK:
      *         On success.
      *     INTERNAL_ERROR:
      *         An unexpected internal camera HAL error occurred, and the
      *         camera information is not available.
      *     CAMERA_DISCONNECTED:
      *         An external camera device has been disconnected, and is no longer
      *         available. This camera device interface is now stale, and a new
      *         instance must be acquired if the device is reconnected. All
      *         subsequent calls on this interface must return
      *         CAMERA_DISCONNECTED.
      * @return info Basic information about this camera device, or unspecified
      *     values if status is not OK.
      */
     getCameraInfo() generates (Status status, CameraInfo info);

     /**
      * setTorchMode:
      *
      * Turn on or off the torch mode of the flash unit associated with a given
      * camera ID. If the operation is successful, HAL must notify the framework
      * torch state by invoking
      * ICameraProviderCallback::torchModeStatusChange() with the new state.
      *
      * The camera device has a higher priority accessing the flash unit. When
      * there are any resource conflicts, such as when open() is called to fully
      * activate a camera device, the provider must notify the framework through
      * ICameraProviderCallback::torchModeStatusChange() that the torch mode has
      * been turned off and the torch mode state has become
      * TORCH_MODE_STATUS_NOT_AVAILABLE. When resources to turn on torch mode
      * become available again, the provider must notify the framework through
      * ICameraProviderCallback::torchModeStatusChange() that the torch mode
      * state has become TORCH_MODE_STATUS_AVAILABLE_OFF for set_torch_mode() to
      * be called.
      *
      * When the framework calls setTorchMode() to turn on the torch mode of a
      * flash unit, if HAL cannot keep multiple torch modes on simultaneously,
      * HAL must turn off the torch mode that was turned on by
      * a previous setTorchMode() call and notify the framework that the torch
      * mode state of that flash unit has become TORCH_MODE_STATUS_AVAILABLE_OFF.
      *
      * @param torchMode The new mode to set the device flash unit to.
      *
      * @return status Status code for the operation, one of:
      *     OK:
      *         On a successful change to the torch state.
      *     INTERNAL_ERROR:
      *         The flash unit cannot be operated due to an unexpected internal
      *         error.
      *     ILLEGAL_ARGUMENT:
      *         The camera ID is unknown.
      *     CAMERA_IN_USE:
      *         This camera device has been opened, so the torch cannot be
      *         controlled until it is closed.
      *     MAX_CAMERAS_IN_USE:
      *         Due to other camera devices being open, or due to other
      *         resource constraints, the torch cannot be controlled currently.
      *     METHOD_NOT_SUPPORTED:
      *         This provider does not support direct operation of flashlight
      *         torch mode. The framework must open the camera device and turn
      *         the torch on through the device interface.
      *     OPERATION_NOT_SUPPORTED:
      *         This camera device does not have a flash unit. This must
      *         be returned if and only if parameter key flash-mode-values is not present.
      *     CAMERA_DISCONNECTED:
      *         An external camera device has been disconnected, and is no longer
      *         available. This camera device interface is now stale, and a new
      *         instance must be acquired if the device is reconnected. All
      *         subsequent calls on this interface must return
      *         CAMERA_DISCONNECTED.
      *
      */
     setTorchMode(TorchMode mode) generates (Status status);

     /**
      * Dump state of the camera hardware.
      *
      * This must be callable at any time, whether the device is open or not.
      *
      * @param fd A native handle with one valid file descriptor. The descriptor
      *     must be able to be used with dprintf() or equivalent to dump the
      *     state of this camera device into the camera service dumpsys output.
      *
      * @return status The status code for this operation.
      */
     dumpState(handle fd) generates (Status status);

     /**
      * Open the camera device for active use.
      *
      * All methods besides getResourceCost(), getCameraInfo(), setTorchMode(),
      * and dump() must not be called unless open() has been called successfully,
      * and close() has not yet been called.
      *
      * @param callback Interface to invoke by the HAL for device callbacks.
      * @return status Status code for the operation, one of:
      *     OK:
      *         On a successful open of the camera device.
      *     INTERNAL_ERROR:
      *         The camera device cannot be opened due to an internal
      *         error.
      *     ILLEGAL_ARGUMENT:
      *         The callback handle is invalid (for example, it is null).
      *     CAMERA_IN_USE:
      *         This camera device is already open.
      *     MAX_CAMERAS_IN_USE:
      *         The maximal number of camera devices that can be
      *         opened concurrently were opened already.
      *     CAMERA_DISCONNECTED:
      *         This external camera device has been disconnected, and is no
      *         longer available. This interface is now stale, and a new instance
      *         must be acquired if the device is reconnected. All subsequent
      *         calls on this interface must return CAMERA_DISCONNECTED.
      */
     open(ICameraDeviceCallback callback) generates (Status status);


     /*****
      * All methods below this point must only be called between a successful
      * open() call and a close() call.
      */

     /** Set the callback interface through which preview frames are sent */
     setPreviewWindow(ICameraDevicePreviewCallback window)
             generates (Status status);

     /**
      * Enable a message, or set of messages.
      *
      * @param msgType The bitfield of messages to enable.
      */
     enableMsgType(FrameCallbackFlags msgType);

     /**
      * Disable a message, or a set of messages.
      *
      * Once received a call to disableMsgType(CAMERA_MSG_VIDEO_FRAME), camera
      * HAL must not rely on its client to call releaseRecordingFrame() to
      * release video recording frames sent out by the cameral HAL before and
      * after the disableMsgType(CAMERA_MSG_VIDEO_FRAME) call. Camera HAL
      * clients must not modify/access any video recording frame after calling
      * disableMsgType(CAMERA_MSG_VIDEO_FRAME).
      *
      * @param msgType The bitfield of messages to disable.
      */
     disableMsgType(FrameCallbackFlags msgType);

     /**
      * Query whether a message, or a set of messages, is enabled. Note that
      * this is operates as an AND, if any of the messages queried are off, this
      * must return false.
      *
      * @param msgType The bitfield of messages to query.
      * @return enabled Whether all the specified flags are enabled.
      */
     msgTypeEnabled(FrameCallbackFlags msgType) generates (bool enabled);

     /**
      * Start preview mode.
      *
      * @return status The status code for this operation.
      */
     startPreview() generates (Status status);

     /**
      * Stop a previously started preview.
      */
     stopPreview();

     /**
      * Returns true if preview is enabled.
      *
      * @return enabled Whether preview is currently enabled.
      */
     previewEnabled() generates (bool enabled);

     /**
      * Request the camera HAL to store meta data or real YUV data in the video
      * buffers sent out via CAMERA_MSG_VIDEO_FRAME for a recording session. If
      * it is not called, the default camera HAL behavior is to store real YUV
      * data in the video buffers.
      *
      * This method must be called before startRecording() in order to be
      * effective.
      *
      * If meta data is stored in the video buffers, it is up to the receiver of
      * the video buffers to interpret the contents and to find the actual frame
      * data with the help of the meta data in the buffer. How this is done is
      * outside of the scope of this method.
      *
      * Some camera HALs may not support storing meta data in the video buffers,
      * but all camera HALs must support storing real YUV data in the video
      * buffers. If the camera HAL does not support storing the meta data in the
      * video buffers when it is requested to do do, INVALID_OPERATION must be
      * returned. It is very useful for the camera HAL to pass meta data rather
      * than the actual frame data directly to the video encoder, since the
      * amount of the uncompressed frame data can be very large if video size is
      * large.
      *
      * @param enable Set to true to instruct the camera HAL to store meta data
      *     in the video buffers; false to instruct the camera HAL to store real
      *     YUV data in the video buffers.
      *
      * @return status OK on success.
      */
     storeMetaDataInBuffers(bool enable) generates (Status status);

     /**
      * Start record mode.
      *
      * When a record image is available, a CAMERA_MSG_VIDEO_FRAME message is
      * sent with the corresponding frame. Every record frame must be released by
      * a camera HAL client via releaseRecordingFrame() before the client calls
      * disableMsgType(CAMERA_MSG_VIDEO_FRAME). After the client calls
      * disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
      * responsibility to manage the life-cycle of the video recording frames,
      * and the client must not modify/access any video recording frames.
      *
      * @return status The status code for the operation.
      */
     startRecording() generates (Status status);

     /**
      * Stop a previously started recording.
      */
     stopRecording();

     /**
      * Returns true if recording is enabled.
      *
      * @return enabled True if recording is currently active.
      */
     recordingEnabled() generates (bool enabled);

     /**
      * Release a record frame previously returned by CAMERA_MSG_VIDEO_FRAME in
      * dataCallbackTimestamp.
      *
      * It is camera HAL client's responsibility to release video recording
      * frames sent out by the camera HAL before the camera HAL receives a call
      * to disableMsgType(CAMERA_MSG_VIDEO_FRAME). After it receives the call to
      * disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
      * responsibility to manage the life-cycle of the video recording frames.
      *
      * @param memId The memory buffer to release a recording frame from.
      * @param bufferIndex The specific buffer index to return to the HAL.
      */
     releaseRecordingFrame(MemoryId memId, uint32_t bufferIndex);

     /**
      * Release a record frame previously returned by CAMERA_MSG_VIDEO_FRAME in
      * handleCallbackTimestamp.
      *
      * It is camera HAL client's responsibility to release video recording
      * frames sent out by the camera HAL before the camera HAL receives a call
      * to disableMsgType(CAMERA_MSG_VIDEO_FRAME). After it receives the call to
      * disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
      * responsibility to manage the life-cycle of the video recording frames.
      *
      * @param memId The memory buffer to release a recording frame from.
      * @param bufferIndex The specific buffer index to return to the HAL.
      * @param frame The handle for a released video frame
      */
     releaseRecordingFrameHandle(MemoryId memId, uint32_t bufferIndex, handle frame);

     /**
      * Release a batch of record frames previously returned by CAMERA_MSG_VIDEO_FRAME
      * in handleCallbackTimestampBatch.
      *
      * It is camera HAL client's responsibility to release video recording
      * frames sent out by the camera HAL before the camera HAL receives a call
      * to disableMsgType(CAMERA_MSG_VIDEO_FRAME). After it receives the call to
      * disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
      * responsibility to manage the life-cycle of the video recording frames.
      *
      * @param batch A batch of recording frames to be released by camera HAL.
      */
     releaseRecordingFrameHandleBatch(vec<VideoFrameMessage> batch);

     /**
      * Start auto focus.
      *
      * The notification callback routine is called with
      * CAMERA_MSG_FOCUS once when focusing is complete. autoFocus() can be
      * called again after that if another auto focus is needed.
      *
      * @return status The status code for this operation.
      */
     autoFocus() generates (Status status);

     /**
      * Cancels auto-focus function.
      *
      * If the auto-focus is still in progress, this function must cancel
      * it. Whether the auto-focus is in progress or not, this function must
      * return the focus position to the default. If the camera does not support
      * auto-focus, this is a no-op.
      *
      * @return status The status code for this operation.
      */
     cancelAutoFocus() generates (Status status);

     /**
      * Take a picture.
      *
      * @return status The status code for this operation.
      */
     takePicture() generates (Status status);

     /**
      * Cancel a picture that was started with takePicture. Calling this method
      * when no picture is being taken is a no-op.
      *
      * @return status The status code for this operation.
      */
     cancelPicture() generates (Status status);

     /**
      * Set the camera parameters.
      *
      * @param params The parameter string, consisting of
      *    '<key1>=<value1>; ...;<keyN>=<valueN>'.
      * @return status The status code for this operation:
      *     OK: Parameter update was successful
      *     ILLEGAL_ARGUMENT: At least one parameter was invalid or not supported
      *
      */
     setParameters(string params) generates (Status status);

     /**
      * Retrieve the camera parameters.
      */
     getParameters() generates (string parms);

     /**
      * Send command to camera driver.
      * The meaning of the arguments is defined by the value of cmd, documented
      * in the CommandType definition.
      *
      * @param cmd The command to invoke.
      * @param arg1 The first argument for the command, if needed.
      * @param arg2 The second argument for the command, if needed.
      *
      * @return status The status code for this operation.
      */
     sendCommand(CommandType cmd, int32_t arg1, int32_t arg2)
             generates (Status status);

     /**
      * Release the hardware resources owned by this object, shutting down the
      * camera device.
      */
     close();

 };
	/*
	* Copyright (C) 2016 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.
	*/

	package android.hardware.camera.device@1.0;

	import android.hardware.camera.common@1.0::types;
	import ICameraDeviceCallback;
	import ICameraDevicePreviewCallback;

	/**
	* Camera device HAL, legacy version
	*
	* DEPRECATED. New devices are strongly recommended to use Camera HAL v3.2 or
	* newer.
	*
	* Supports the android.hardware.Camera API, and the android.hardware.camera2
	* API in LEGACY mode only.
	*
	* Will be removed in the Android P release.
	*/
	interface ICameraDevice {

	/**
	* Get camera device resource cost information.
	*
	* This method may be called at any time, including before open()
	*
	* @return status Status code for the operation, one of:
	* OK:
	* On success.
	* INTERNAL_ERROR:
	* An unexpected internal camera HAL error occurred, and the
	* resource cost is not available.
	* CAMERA_DISCONNECTED:
	* An external camera device has been disconnected, and is no longer
	* available. This camera device interface is now stale, and a new
	* instance must be acquired if the device is reconnected. All
	* subsequent calls on this interface must return
	* CAMERA_DISCONNECTED.
	* @return resourceCost
	* The resources required to open this camera device, or unspecified
	* values if status is not OK.
	*/
	getResourceCost() generates (Status status, CameraResourceCost resourceCost);

	/**
	* Get basic camera information.
	*
	* This method may be called at any time, including before open()
	*
	* @return status Status code for the operation, one of:
	* OK:
	* On success.
	* INTERNAL_ERROR:
	* An unexpected internal camera HAL error occurred, and the
	* camera information is not available.
	* CAMERA_DISCONNECTED:
	* An external camera device has been disconnected, and is no longer
	* available. This camera device interface is now stale, and a new
	* instance must be acquired if the device is reconnected. All
	* subsequent calls on this interface must return
	* CAMERA_DISCONNECTED.
	* @return info Basic information about this camera device, or unspecified
	* values if status is not OK.
	*/
	getCameraInfo() generates (Status status, CameraInfo info);

	/**
	* setTorchMode:
	*
	* Turn on or off the torch mode of the flash unit associated with a given
	* camera ID. If the operation is successful, HAL must notify the framework
	* torch state by invoking
	* ICameraProviderCallback::torchModeStatusChange() with the new state.
	*
	* The camera device has a higher priority accessing the flash unit. When
	* there are any resource conflicts, such as when open() is called to fully
	* activate a camera device, the provider must notify the framework through
	* ICameraProviderCallback::torchModeStatusChange() that the torch mode has
	* been turned off and the torch mode state has become
	* TORCH_MODE_STATUS_NOT_AVAILABLE. When resources to turn on torch mode
	* become available again, the provider must notify the framework through
	* ICameraProviderCallback::torchModeStatusChange() that the torch mode
	* state has become TORCH_MODE_STATUS_AVAILABLE_OFF for set_torch_mode() to
	* be called.
	*
	* When the framework calls setTorchMode() to turn on the torch mode of a
	* flash unit, if HAL cannot keep multiple torch modes on simultaneously,
	* HAL must turn off the torch mode that was turned on by
	* a previous setTorchMode() call and notify the framework that the torch
	* mode state of that flash unit has become TORCH_MODE_STATUS_AVAILABLE_OFF.
	*
	* @param torchMode The new mode to set the device flash unit to.
	*
	* @return status Status code for the operation, one of:
	* OK:
	* On a successful change to the torch state.
	* INTERNAL_ERROR:
	* The flash unit cannot be operated due to an unexpected internal
	* error.
	* ILLEGAL_ARGUMENT:
	* The camera ID is unknown.
	* CAMERA_IN_USE:
	* This camera device has been opened, so the torch cannot be
	* controlled until it is closed.
	* MAX_CAMERAS_IN_USE:
	* Due to other camera devices being open, or due to other
	* resource constraints, the torch cannot be controlled currently.
	* METHOD_NOT_SUPPORTED:
	* This provider does not support direct operation of flashlight
	* torch mode. The framework must open the camera device and turn
	* the torch on through the device interface.
	* OPERATION_NOT_SUPPORTED:
	* This camera device does not have a flash unit. This must
	* be returned if and only if parameter key flash-mode-values is not present.
	* CAMERA_DISCONNECTED:
	* An external camera device has been disconnected, and is no longer
	* available. This camera device interface is now stale, and a new
	* instance must be acquired if the device is reconnected. All
	* subsequent calls on this interface must return
	* CAMERA_DISCONNECTED.
	*
	*/
	setTorchMode(TorchMode mode) generates (Status status);

	/**
	* Dump state of the camera hardware.
	*
	* This must be callable at any time, whether the device is open or not.
	*
	* @param fd A native handle with one valid file descriptor. The descriptor
	* must be able to be used with dprintf() or equivalent to dump the
	* state of this camera device into the camera service dumpsys output.
	*
	* @return status The status code for this operation.
	*/
	dumpState(handle fd) generates (Status status);

	/**
	* Open the camera device for active use.
	*
	* All methods besides getResourceCost(), getCameraInfo(), setTorchMode(),
	* and dump() must not be called unless open() has been called successfully,
	* and close() has not yet been called.
	*
	* @param callback Interface to invoke by the HAL for device callbacks.
	* @return status Status code for the operation, one of:
	* OK:
	* On a successful open of the camera device.
	* INTERNAL_ERROR:
	* The camera device cannot be opened due to an internal
	* error.
	* ILLEGAL_ARGUMENT:
	* The callback handle is invalid (for example, it is null).
	* CAMERA_IN_USE:
	* This camera device is already open.
	* MAX_CAMERAS_IN_USE:
	* The maximal number of camera devices that can be
	* opened concurrently were opened already.
	* CAMERA_DISCONNECTED:
	* This external camera device has been disconnected, and is no
	* longer available. This interface is now stale, and a new instance
	* must be acquired if the device is reconnected. All subsequent
	* calls on this interface must return CAMERA_DISCONNECTED.
	*/
	open(ICameraDeviceCallback callback) generates (Status status);


	/*****
	* All methods below this point must only be called between a successful
	* open() call and a close() call.
	*/

	/** Set the callback interface through which preview frames are sent */
	setPreviewWindow(ICameraDevicePreviewCallback window)
	generates (Status status);

	/**
	* Enable a message, or set of messages.
	*
	* @param msgType The bitfield of messages to enable.
	*/
	enableMsgType(FrameCallbackFlags msgType);

	/**
	* Disable a message, or a set of messages.
	*
	* Once received a call to disableMsgType(CAMERA_MSG_VIDEO_FRAME), camera
	* HAL must not rely on its client to call releaseRecordingFrame() to
	* release video recording frames sent out by the cameral HAL before and
	* after the disableMsgType(CAMERA_MSG_VIDEO_FRAME) call. Camera HAL
	* clients must not modify/access any video recording frame after calling
	* disableMsgType(CAMERA_MSG_VIDEO_FRAME).
	*
	* @param msgType The bitfield of messages to disable.
	*/
	disableMsgType(FrameCallbackFlags msgType);

	/**
	* Query whether a message, or a set of messages, is enabled. Note that
	* this is operates as an AND, if any of the messages queried are off, this
	* must return false.
	*
	* @param msgType The bitfield of messages to query.
	* @return enabled Whether all the specified flags are enabled.
	*/
	msgTypeEnabled(FrameCallbackFlags msgType) generates (bool enabled);

	/**
	* Start preview mode.
	*
	* @return status The status code for this operation.
	*/
	startPreview() generates (Status status);

	/**
	* Stop a previously started preview.
	*/
	stopPreview();

	/**
	* Returns true if preview is enabled.
	*
	* @return enabled Whether preview is currently enabled.
	*/
	previewEnabled() generates (bool enabled);

	/**
	* Request the camera HAL to store meta data or real YUV data in the video
	* buffers sent out via CAMERA_MSG_VIDEO_FRAME for a recording session. If
	* it is not called, the default camera HAL behavior is to store real YUV
	* data in the video buffers.
	*
	* This method must be called before startRecording() in order to be
	* effective.
	*
	* If meta data is stored in the video buffers, it is up to the receiver of
	* the video buffers to interpret the contents and to find the actual frame
	* data with the help of the meta data in the buffer. How this is done is
	* outside of the scope of this method.
	*
	* Some camera HALs may not support storing meta data in the video buffers,
	* but all camera HALs must support storing real YUV data in the video
	* buffers. If the camera HAL does not support storing the meta data in the
	* video buffers when it is requested to do do, INVALID_OPERATION must be
	* returned. It is very useful for the camera HAL to pass meta data rather
	* than the actual frame data directly to the video encoder, since the
	* amount of the uncompressed frame data can be very large if video size is
	* large.
	*
	* @param enable Set to true to instruct the camera HAL to store meta data
	* in the video buffers; false to instruct the camera HAL to store real
	* YUV data in the video buffers.
	*
	* @return status OK on success.
	*/
	storeMetaDataInBuffers(bool enable) generates (Status status);

	/**
	* Start record mode.
	*
	* When a record image is available, a CAMERA_MSG_VIDEO_FRAME message is
	* sent with the corresponding frame. Every record frame must be released by
	* a camera HAL client via releaseRecordingFrame() before the client calls
	* disableMsgType(CAMERA_MSG_VIDEO_FRAME). After the client calls
	* disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
	* responsibility to manage the life-cycle of the video recording frames,
	* and the client must not modify/access any video recording frames.
	*
	* @return status The status code for the operation.
	*/
	startRecording() generates (Status status);

	/**
	* Stop a previously started recording.
	*/
	stopRecording();

	/**
	* Returns true if recording is enabled.
	*
	* @return enabled True if recording is currently active.
	*/
	recordingEnabled() generates (bool enabled);

	/**
	* Release a record frame previously returned by CAMERA_MSG_VIDEO_FRAME in
	* dataCallbackTimestamp.
	*
	* It is camera HAL client's responsibility to release video recording
	* frames sent out by the camera HAL before the camera HAL receives a call
	* to disableMsgType(CAMERA_MSG_VIDEO_FRAME). After it receives the call to
	* disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
	* responsibility to manage the life-cycle of the video recording frames.
	*
	* @param memId The memory buffer to release a recording frame from.
	* @param bufferIndex The specific buffer index to return to the HAL.
	*/
	releaseRecordingFrame(MemoryId memId, uint32_t bufferIndex);

	/**
	* Release a record frame previously returned by CAMERA_MSG_VIDEO_FRAME in
	* handleCallbackTimestamp.
	*
	* It is camera HAL client's responsibility to release video recording
	* frames sent out by the camera HAL before the camera HAL receives a call
	* to disableMsgType(CAMERA_MSG_VIDEO_FRAME). After it receives the call to
	* disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
	* responsibility to manage the life-cycle of the video recording frames.
	*
	* @param memId The memory buffer to release a recording frame from.
	* @param bufferIndex The specific buffer index to return to the HAL.
	* @param frame The handle for a released video frame
	*/
	releaseRecordingFrameHandle(MemoryId memId, uint32_t bufferIndex, handle frame);

	/**
	* Release a batch of record frames previously returned by CAMERA_MSG_VIDEO_FRAME
	* in handleCallbackTimestampBatch.
	*
	* It is camera HAL client's responsibility to release video recording
	* frames sent out by the camera HAL before the camera HAL receives a call
	* to disableMsgType(CAMERA_MSG_VIDEO_FRAME). After it receives the call to
	* disableMsgType(CAMERA_MSG_VIDEO_FRAME), it is the camera HAL's
	* responsibility to manage the life-cycle of the video recording frames.
	*
	* @param batch A batch of recording frames to be released by camera HAL.
	*/
	releaseRecordingFrameHandleBatch(vec<VideoFrameMessage> batch);

	/**
	* Start auto focus.
	*
	* The notification callback routine is called with
	* CAMERA_MSG_FOCUS once when focusing is complete. autoFocus() can be
	* called again after that if another auto focus is needed.
	*
	* @return status The status code for this operation.
	*/
	autoFocus() generates (Status status);

	/**
	* Cancels auto-focus function.
	*
	* If the auto-focus is still in progress, this function must cancel
	* it. Whether the auto-focus is in progress or not, this function must
	* return the focus position to the default. If the camera does not support
	* auto-focus, this is a no-op.
	*
	* @return status The status code for this operation.
	*/
	cancelAutoFocus() generates (Status status);

	/**
	* Take a picture.
	*
	* @return status The status code for this operation.
	*/
	takePicture() generates (Status status);

	/**
	* Cancel a picture that was started with takePicture. Calling this method
	* when no picture is being taken is a no-op.
	*
	* @return status The status code for this operation.
	*/
	cancelPicture() generates (Status status);

	/**
	* Set the camera parameters.
	*
	* @param params The parameter string, consisting of
	* '<key1>=<value1>; ...;<keyN>=<valueN>'.
	* @return status The status code for this operation:
	* OK: Parameter update was successful
	* ILLEGAL_ARGUMENT: At least one parameter was invalid or not supported
	*
	*/
	setParameters(string params) generates (Status status);

	/**
	* Retrieve the camera parameters.
	*/
	getParameters() generates (string parms);

	/**
	* Send command to camera driver.
	* The meaning of the arguments is defined by the value of cmd, documented
	* in the CommandType definition.
	*
	* @param cmd The command to invoke.
	* @param arg1 The first argument for the command, if needed.
	* @param arg2 The second argument for the command, if needed.
	*
	* @return status The status code for this operation.
	*/
	sendCommand(CommandType cmd, int32_t arg1, int32_t arg2)
	generates (Status status);

	/**
	* Release the hardware resources owned by this object, shutting down the
	* camera device.
	*/
	close();

	};