graphics/composer/2.2/IComposerClient.hal - LeafOS-Project/android_hardware_interfaces - Gitiles

 /*
  * Copyright (C) 2018 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.graphics.composer@2.2;

 import android.hardware.graphics.common@1.1::ColorMode;
 import android.hardware.graphics.common@1.1::Dataspace;
 import android.hardware.graphics.common@1.1::PixelFormat;
 import android.hardware.graphics.common@1.1::RenderIntent;
 import @2.1::IComposerClient;
 import @2.1::Display;
 import @2.1::Error;
 import @2.1::IComposerClient;

 interface IComposerClient extends @2.1::IComposerClient {

     enum PowerMode : @2.1::IComposerClient.PowerMode {
         /**
          * The display is configured as in ON but may stop applying display
          * updates from the client. This is effectively a hint to the device
          * that drawing to the display has been suspended and that the the
          * device must remain on and continue displaying its current contents
          * indefinitely until the power mode changes.
          *
          * This mode may also be used as a signal to enable hardware-based
          * functionality to take over the display and manage it autonomously
          * to implement a low power always-on display.
          */
         ON_SUSPEND = 4
     };

     /**
      * Following enums define keys for metadata defined by SMPTE ST 2086:2014
      * and CTA 861.3.
      */
     enum PerFrameMetadataKey : int32_t {
         /** SMPTE ST 2084:2014.
          * Coordinates defined in CIE 1931 xy chromaticity space
          */
         /** SMPTE ST 2084:2014 */
         DISPLAY_RED_PRIMARY_X,
         /** SMPTE ST 2084:2014 */
         DISPLAY_RED_PRIMARY_Y,
         /** SMPTE ST 2084:2014 */
         DISPLAY_GREEN_PRIMARY_X,
         /** SMPTE ST 2084:2014 */
         DISPLAY_GREEN_PRIMARY_Y,
         /** SMPTE ST 2084:2014 */
         DISPLAY_BLUE_PRIMARY_X,
         /** SMPTE ST 2084:2014 */
         DISPLAY_BLUE_PRIMARY_Y,
         /** SMPTE ST 2084:2014 */
         WHITE_POINT_X,
         /** SMPTE ST 2084:2014 */
         WHITE_POINT_Y,
         /** SMPTE ST 2084:2014.
          * Units: nits
          * max as defined by ST 2048: 10,000 nits
          */
         MAX_LUMINANCE,
         /** SMPTE ST 2084:2014 */
         MIN_LUMINANCE,
         /** CTA 861.3 */
         MAX_CONTENT_LIGHT_LEVEL,
         /** CTA 861.3 */
         MAX_FRAME_AVERAGE_LIGHT_LEVEL,
     };

     struct PerFrameMetadata {
         PerFrameMetadataKey key;
         float value;
     };

     struct FloatColor {
         float r;
         float g;
         float b;
         float a;
     };

     enum Command : @2.1::IComposerClient.Command {
         /**
          * SET_LAYER_PER_FRAME_METADATA has this pseudo prototype
          *
          *   setLayerPerFrameMetadata(Display display, Layer layer,
          *                            vec<PerFrameMetadata> data);
          *
          * Sets the PerFrameMetadata for the display. This metadata must be used
          * by the implementation to better tone map content to that display.
          *
          * This is a method that may be called every frame. Thus it's
          * implemented using buffered transport.
          * SET_LAYER_PER_FRAME_METADATA is the command used by the buffered transport
          * mechanism.
          */
         SET_LAYER_PER_FRAME_METADATA = 0x303 << @2.1::IComposerClient.Command:OPCODE_SHIFT,

         /**
          * SET_LAYER_COLOR has this pseudo prototype
          *
          *   setLayerColor(FloatColor color);
          *
          * Sets the color of the given layer. If the composition type of the layer
          * is not Composition::SOLID_COLOR, this call must succeed and have no
          * other effect.
          *
          * @param color is the new color using float type.
          */
         SET_LAYER_FLOAT_COLOR = 0x40c << @2.1::IComposerClient.Command:OPCODE_SHIFT,
     };

     /**
      * Returns the PerFrameMetadataKeys that are supported by this device.
      *
      * @param display is the display on which to create the layer.
      * @return keys is the vector of PerFrameMetadataKey keys that are
      *        supported by this device.
      * @return error is NONE upon success. Otherwise,
      *         UNSUPPORTED if not supported on underlying HAL
      */
     getPerFrameMetadataKeys(Display display)
         generates (Error error,
                    vec<PerFrameMetadataKey> keys);

     /**
      * getReadbackBufferAttributes
      * Returns the format which should be used when allocating a buffer for use by
      * device readback as well as the dataspace in which its contents should be
      * interpreted.
      *
      * The width and height of this buffer must be those of the currently-active
      * display configuration, and the usage flags must consist of the following:
      *   BufferUsage::CPU_READ | BufferUsage::GPU_TEXTURE |
      *   BufferUsage::COMPOSER_OUTPUT
      *
      * The format and dataspace provided must be sufficient such that if a
      * correctly-configured buffer is passed into setReadbackBuffer, filled by
      * the device, and then displayed by the client as a full-screen buffer, the
      * output of the display remains the same (subject to the note about protected
      * content in the description of setReadbackBuffer).
      *
      * If the active configuration or color mode of this display has changed
      * since a previous call to this function, it must be called again prior to
      * setting a readback buffer such that the returned format and dataspace can
      * be updated accordingly.
      *
      * Parameters:
      * @param display - the display on which to create the layer.
      *
      * @return format - the format the client should use when allocating a device
      *       readback buffer
      * @return dataspace - the dataspace to use when interpreting the
      *       contents of a device readback buffer
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         UNSUPPORTED if not supported on underlying HAL
      *
      * See also:
      *   setReadbackBuffer
      *   getReadbackBufferFence
      */
     getReadbackBufferAttributes(Display display)
         generates (Error error,
                    PixelFormat format,
                    Dataspace dataspace);

     /**
      * getReadbackBufferFence
      * Returns an acquire sync fence file descriptor which must signal when the
      * buffer provided to setReadbackBuffer has been filled by the device and is
      * safe for the client to read.
      *
      * If it is already safe to read from this buffer, -1 may be returned instead.
      * The client takes ownership of this file descriptor and is responsible for
      * closing it when it is no longer needed.
      *
      * This function must be called immediately after the composition cycle being
      * captured into the readback buffer. The complete ordering of a readback buffer
      * capture is as follows:
      *
      *   getReadbackBufferAttributes
      *   // Readback buffer is allocated
      *   // Many frames may pass
      *
      *   setReadbackBuffer
      *   validateDisplay
      *   presentDisplay
      *   getReadbackBufferFence
      *   // Implicitly wait on the acquire fence before accessing the buffer
      *
      * Parameters:
      * @param display - the display on which to create the layer.
      *
      * @return acquireFence - a sync fence file descriptor as described above; pointer
      *       must be non-NULL
      * @return error - is HWC2_ERROR_NONE or one of the following errors:
      *         BAD_DISPLAY - an invalid display handle was passed in
      *         NO_RESOURCES - the readback operation was successful, but
      *                        resulted in a different validate result than would
      *                        have occurred without readback
      *         UNSUPPORTED - the readback operation was unsuccessful because of
      *                       resource constraints, the presence of protected
      *                       content, or other reasons; -1 must be returned for
      *                       acquireFence
      *
      * See also:
      *   getReadbackBufferAttributes
      *   setReadbackBuffer
      */
     getReadbackBufferFence(Display display)
                 generates (Error error,
                            handle acquireFence);

     /**
      * setReadbackBuffer
      * Sets the readback buffer to be filled with the contents of the next
      * composition performed for this display (i.e., the contents present at the
      * time of the next validateDisplay/presentDisplay cycle).
      *
      * This buffer must have been allocated as described in
      * getReadbackBufferAttributes and is in the dataspace provided by the same.
      *
      * If there is hardware protected content on the display at the time of the next
      * composition, the area of the readback buffer covered by such content must be
      * completely black. Any areas of the buffer not covered by such content may
      * optionally be black as well.
      *
      * The release fence file descriptor provided works identically to the one
      * described for setOutputBuffer.
      *
      * This function must not be called between any call to validateDisplay and a
      * subsequent call to presentDisplay.
      *
      * Parameters:
      * @param display - the display on which to create the layer.
      * @param buffer - the new readback buffer
      * @param releaseFence - a sync fence file descriptor as described in setOutputBuffer
      *
      * @return error - is HWC2_ERROR_NONE or one of the following errors:
      *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
      *   HWC2_ERROR_BAD_PARAMETER - the new readback buffer handle was invalid
      *
      * See also:
      *   getReadbackBufferAttributes
      *   getReadbackBufferFence
      */
     setReadbackBuffer(Display display, handle buffer, handle releaseFence) generates (Error error);

     /**
      * createVirtualDisplay_2_2
      * Creates a new virtual display with the given width and height. The
      * format passed into this function is the default format requested by the
      * consumer of the virtual display output buffers.
      *
      * The display must be assumed to be on from the time the first frame is
      * presented until the display is destroyed.
      *
      * @param width is the width in pixels.
      * @param height is the height in pixels.
      * @param formatHint is the default output buffer format selected by
      *        the consumer.
      * @param outputBufferSlotCount is the number of output buffer slots to be
      *        reserved.
      * @return error is NONE upon success. Otherwise,
      *         UNSUPPORTED when the width or height is too large for the
      *                     device to be able to create a virtual display.
      *         NO_RESOURCES when the device is unable to create a new virtual
      *                      display at this time.
      * @return display is the newly-created virtual display.
      * @return format is the format of the buffer the device will produce.
      */
     @callflow(next="*")
     createVirtualDisplay_2_2(uint32_t width,
                              uint32_t height,
                              PixelFormat formatHint,
                              uint32_t outputBufferSlotCount)
                   generates (Error error,
                              Display display,
                              PixelFormat format);

     /**
      * getClientTargetSupport_2_2
      * Returns whether a client target with the given properties can be
      * handled by the device.
      *
      * This function must return true for a client target with width and
      * height equal to the active display configuration dimensions,
      * PixelFormat::RGBA_8888, and Dataspace::UNKNOWN. It is not required to
      * return true for any other configuration.
      *
      * @param display is the display to query.
      * @param width is the client target width in pixels.
      * @param height is the client target height in pixels.
      * @param format is the client target format.
      * @param dataspace is the client target dataspace, as described in
      *        setLayerDataspace.
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         UNSUPPORTED when the given configuration is not supported.
      */
     @callflow(next="*")
     getClientTargetSupport_2_2(Display display,
                                uint32_t width,
                                uint32_t height,
                                PixelFormat format,
                                Dataspace dataspace)
                     generates (Error error);
     /**
      * setPowerMode_2_2
      * Sets the power mode of the given display. The transition must be
      * complete when this function returns. It is valid to call this function
      * multiple times with the same power mode.
      *
      * All displays must support PowerMode::ON and PowerMode::OFF.  Whether a
      * display supports PowerMode::DOZE or PowerMode::DOZE_SUSPEND may be
      * queried using getDozeSupport.
      *
      * @param display is the display to which the power mode is set.
      * @param mode is the new power mode.
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         BAD_PARAMETER when mode was not a valid power mode.
      *         UNSUPPORTED when mode is not supported on this display.
      */
     setPowerMode_2_2(Display display, PowerMode mode) generates (Error error);

     /**
      * Returns the color modes supported on this display.
      *
      * All devices must support at least ColorMode::NATIVE.
      *
      * @param display is the display to query.
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      * @return modes is an array of color modes.
      */
     getColorModes_2_2(Display display)
            generates (Error error,
                       vec<ColorMode> modes);

     /**
      * Returns the render intents supported by the specified display and color
      * mode.
      *
      * For SDR color modes, RenderIntent::COLORIMETRIC must be supported. For
      * HDR color modes, RenderIntent::TONE_MAP_COLORIMETRIC must be supported.
      *
      * @param display is the display to query.
      * @param mode is the color mode to query.
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         BAD_PARAMETER when an invalid color mode was passed in.
      * @return intents is an array of render intents.
      */
     getRenderIntents(Display display, ColorMode mode)
           generates (Error error,
                      vec<RenderIntent> intents);

     /**
      * Sets the color mode and render intent of the given display.
      *
      * The color mode and render intent change must take effect on next
      * presentDisplay.
      *
      * All devices must support at least ColorMode::NATIVE and
      * RenderIntent::COLORIMETRIC, and displays are assumed to be in this mode
      * upon hotplug.
      *
      * @param display is the display to which the color mode is set.
      * @param mode is the color mode to set to.
      * @param intent is the render intent to set to.
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         BAD_PARAMETER when mode or intent is invalid
      *         UNSUPPORTED when mode or intent is not supported on this
      *                     display.
      */
     setColorMode_2_2(Display display, ColorMode mode, RenderIntent intent)
           generates (Error error);

     /*
      * By default, layer dataspaces are mapped to the current color mode
      * colorimetrically with a few exceptions.
      *
      * When the layer dataspace is a legacy dataspace (see
      * common@1.1::Dataspace) and the display render intent is
      * RenderIntent::ENHANCE, the pixel values can go through an
      * implementation-defined saturation transform before being mapped to the
      * current color mode colorimetrically.
      *
      * Colors that are out of the gamut of the current color mode are
      * hard-clipped.
      */

     /**
      * Returns the saturation matrix of the specified legacy dataspace.
      *
      * The saturation matrix can be used to approximate the legacy dataspace
      * saturation transform. It is to be applied on linear pixel values like
      * this:
      *
      *   (in GLSL)
      *   linearSrgb = saturationMatrix * linearSrgb;
      *
      * @param dataspace must be Dataspace::SRGB_LINEAR.
      * @return error is NONE upon success. Otherwise,
      *         BAD_PARAMETER when an invalid dataspace was passed in.
      * @return matrix is the 4x4 column-major matrix used to approximate the
      *         legacy dataspace saturation operation. The last row must be
      *         [0.0, 0.0, 0.0, 1.0].
      */
     getDataspaceSaturationMatrix(Dataspace dataspace)
                       generates (Error error,
                                  float[4][4] matrix);

     /**
      * Executes commands from the input command message queue. Return values
      * generated by the input commands are written to the output command
      * message queue in the form of value commands.
      *
      * @param inLength is the length of input commands.
      * @param inHandles is an array of handles referenced by the input
      *        commands.
      * @return error is NONE upon success. Otherwise,
      *         BAD_PARAMETER when inLength is not equal to the length of
      *                       commands in the input command message queue.
      *         NO_RESOURCES when the output command message queue was not
      *                      properly drained.
      * @param outQueueChanged indicates whether the output command message
      *        queue has changed.
      * @param outLength is the length of output commands.
      * @param outHandles is an array of handles referenced by the output
      *        commands.
      */
     executeCommands_2_2(uint32_t inLength,
                         vec<handle> inHandles)
              generates (Error error,
                         bool outQueueChanged,
                         uint32_t outLength,
                         vec<handle> outHandles);
 };
	/*
	* Copyright (C) 2018 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.graphics.composer@2.2;

	import android.hardware.graphics.common@1.1::ColorMode;
	import android.hardware.graphics.common@1.1::Dataspace;
	import android.hardware.graphics.common@1.1::PixelFormat;
	import android.hardware.graphics.common@1.1::RenderIntent;
	import @2.1::IComposerClient;
	import @2.1::Display;
	import @2.1::Error;
	import @2.1::IComposerClient;

	interface IComposerClient extends @2.1::IComposerClient {

	enum PowerMode : @2.1::IComposerClient.PowerMode {
	/**
	* The display is configured as in ON but may stop applying display
	* updates from the client. This is effectively a hint to the device
	* that drawing to the display has been suspended and that the the
	* device must remain on and continue displaying its current contents
	* indefinitely until the power mode changes.
	*
	* This mode may also be used as a signal to enable hardware-based
	* functionality to take over the display and manage it autonomously
	* to implement a low power always-on display.
	*/
	ON_SUSPEND = 4
	};

	/**
	* Following enums define keys for metadata defined by SMPTE ST 2086:2014
	* and CTA 861.3.
	*/
	enum PerFrameMetadataKey : int32_t {
	/** SMPTE ST 2084:2014.
	* Coordinates defined in CIE 1931 xy chromaticity space
	*/
	/** SMPTE ST 2084:2014 */
	DISPLAY_RED_PRIMARY_X,
	/** SMPTE ST 2084:2014 */
	DISPLAY_RED_PRIMARY_Y,
	/** SMPTE ST 2084:2014 */
	DISPLAY_GREEN_PRIMARY_X,
	/** SMPTE ST 2084:2014 */
	DISPLAY_GREEN_PRIMARY_Y,
	/** SMPTE ST 2084:2014 */
	DISPLAY_BLUE_PRIMARY_X,
	/** SMPTE ST 2084:2014 */
	DISPLAY_BLUE_PRIMARY_Y,
	/** SMPTE ST 2084:2014 */
	WHITE_POINT_X,
	/** SMPTE ST 2084:2014 */
	WHITE_POINT_Y,
	/** SMPTE ST 2084:2014.
	* Units: nits
	* max as defined by ST 2048: 10,000 nits
	*/
	MAX_LUMINANCE,
	/** SMPTE ST 2084:2014 */
	MIN_LUMINANCE,
	/** CTA 861.3 */
	MAX_CONTENT_LIGHT_LEVEL,
	/** CTA 861.3 */
	MAX_FRAME_AVERAGE_LIGHT_LEVEL,
	};

	struct PerFrameMetadata {
	PerFrameMetadataKey key;
	float value;
	};

	struct FloatColor {
	float r;
	float g;
	float b;
	float a;
	};

	enum Command : @2.1::IComposerClient.Command {
	/**
	* SET_LAYER_PER_FRAME_METADATA has this pseudo prototype
	*
	* setLayerPerFrameMetadata(Display display, Layer layer,
	* vec<PerFrameMetadata> data);
	*
	* Sets the PerFrameMetadata for the display. This metadata must be used
	* by the implementation to better tone map content to that display.
	*
	* This is a method that may be called every frame. Thus it's
	* implemented using buffered transport.
	* SET_LAYER_PER_FRAME_METADATA is the command used by the buffered transport
	* mechanism.
	*/
	SET_LAYER_PER_FRAME_METADATA = 0x303 << @2.1::IComposerClient.Command:OPCODE_SHIFT,

	/**
	* SET_LAYER_COLOR has this pseudo prototype
	*
	* setLayerColor(FloatColor color);
	*
	* Sets the color of the given layer. If the composition type of the layer
	* is not Composition::SOLID_COLOR, this call must succeed and have no
	* other effect.
	*
	* @param color is the new color using float type.
	*/
	SET_LAYER_FLOAT_COLOR = 0x40c << @2.1::IComposerClient.Command:OPCODE_SHIFT,
	};

	/**
	* Returns the PerFrameMetadataKeys that are supported by this device.
	*
	* @param display is the display on which to create the layer.
	* @return keys is the vector of PerFrameMetadataKey keys that are
	* supported by this device.
	* @return error is NONE upon success. Otherwise,
	* UNSUPPORTED if not supported on underlying HAL
	*/
	getPerFrameMetadataKeys(Display display)
	generates (Error error,
	vec<PerFrameMetadataKey> keys);

	/**
	* getReadbackBufferAttributes
	* Returns the format which should be used when allocating a buffer for use by
	* device readback as well as the dataspace in which its contents should be
	* interpreted.
	*
	* The width and height of this buffer must be those of the currently-active
	* display configuration, and the usage flags must consist of the following:
	* BufferUsage::CPU_READ \| BufferUsage::GPU_TEXTURE \|
	* BufferUsage::COMPOSER_OUTPUT
	*
	* The format and dataspace provided must be sufficient such that if a
	* correctly-configured buffer is passed into setReadbackBuffer, filled by
	* the device, and then displayed by the client as a full-screen buffer, the
	* output of the display remains the same (subject to the note about protected
	* content in the description of setReadbackBuffer).
	*
	* If the active configuration or color mode of this display has changed
	* since a previous call to this function, it must be called again prior to
	* setting a readback buffer such that the returned format and dataspace can
	* be updated accordingly.
	*
	* Parameters:
	* @param display - the display on which to create the layer.
	*
	* @return format - the format the client should use when allocating a device
	* readback buffer
	* @return dataspace - the dataspace to use when interpreting the
	* contents of a device readback buffer
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* UNSUPPORTED if not supported on underlying HAL
	*
	* See also:
	* setReadbackBuffer
	* getReadbackBufferFence
	*/
	getReadbackBufferAttributes(Display display)
	generates (Error error,
	PixelFormat format,
	Dataspace dataspace);

	/**
	* getReadbackBufferFence
	* Returns an acquire sync fence file descriptor which must signal when the
	* buffer provided to setReadbackBuffer has been filled by the device and is
	* safe for the client to read.
	*
	* If it is already safe to read from this buffer, -1 may be returned instead.
	* The client takes ownership of this file descriptor and is responsible for
	* closing it when it is no longer needed.
	*
	* This function must be called immediately after the composition cycle being
	* captured into the readback buffer. The complete ordering of a readback buffer
	* capture is as follows:
	*
	* getReadbackBufferAttributes
	* // Readback buffer is allocated
	* // Many frames may pass
	*
	* setReadbackBuffer
	* validateDisplay
	* presentDisplay
	* getReadbackBufferFence
	* // Implicitly wait on the acquire fence before accessing the buffer
	*
	* Parameters:
	* @param display - the display on which to create the layer.
	*
	* @return acquireFence - a sync fence file descriptor as described above; pointer
	* must be non-NULL
	* @return error - is HWC2_ERROR_NONE or one of the following errors:
	* BAD_DISPLAY - an invalid display handle was passed in
	* NO_RESOURCES - the readback operation was successful, but
	* resulted in a different validate result than would
	* have occurred without readback
	* UNSUPPORTED - the readback operation was unsuccessful because of
	* resource constraints, the presence of protected
	* content, or other reasons; -1 must be returned for
	* acquireFence
	*
	* See also:
	* getReadbackBufferAttributes
	* setReadbackBuffer
	*/
	getReadbackBufferFence(Display display)
	generates (Error error,
	handle acquireFence);

	/**
	* setReadbackBuffer
	* Sets the readback buffer to be filled with the contents of the next
	* composition performed for this display (i.e., the contents present at the
	* time of the next validateDisplay/presentDisplay cycle).
	*
	* This buffer must have been allocated as described in
	* getReadbackBufferAttributes and is in the dataspace provided by the same.
	*
	* If there is hardware protected content on the display at the time of the next
	* composition, the area of the readback buffer covered by such content must be
	* completely black. Any areas of the buffer not covered by such content may
	* optionally be black as well.
	*
	* The release fence file descriptor provided works identically to the one
	* described for setOutputBuffer.
	*
	* This function must not be called between any call to validateDisplay and a
	* subsequent call to presentDisplay.
	*
	* Parameters:
	* @param display - the display on which to create the layer.
	* @param buffer - the new readback buffer
	* @param releaseFence - a sync fence file descriptor as described in setOutputBuffer
	*
	* @return error - is HWC2_ERROR_NONE or one of the following errors:
	* HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
	* HWC2_ERROR_BAD_PARAMETER - the new readback buffer handle was invalid
	*
	* See also:
	* getReadbackBufferAttributes
	* getReadbackBufferFence
	*/
	setReadbackBuffer(Display display, handle buffer, handle releaseFence) generates (Error error);

	/**
	* createVirtualDisplay_2_2
	* Creates a new virtual display with the given width and height. The
	* format passed into this function is the default format requested by the
	* consumer of the virtual display output buffers.
	*
	* The display must be assumed to be on from the time the first frame is
	* presented until the display is destroyed.
	*
	* @param width is the width in pixels.
	* @param height is the height in pixels.
	* @param formatHint is the default output buffer format selected by
	* the consumer.
	* @param outputBufferSlotCount is the number of output buffer slots to be
	* reserved.
	* @return error is NONE upon success. Otherwise,
	* UNSUPPORTED when the width or height is too large for the
	* device to be able to create a virtual display.
	* NO_RESOURCES when the device is unable to create a new virtual
	* display at this time.
	* @return display is the newly-created virtual display.
	* @return format is the format of the buffer the device will produce.
	*/
	@callflow(next="*")
	createVirtualDisplay_2_2(uint32_t width,
	uint32_t height,
	PixelFormat formatHint,
	uint32_t outputBufferSlotCount)
	generates (Error error,
	Display display,
	PixelFormat format);

	/**
	* getClientTargetSupport_2_2
	* Returns whether a client target with the given properties can be
	* handled by the device.
	*
	* This function must return true for a client target with width and
	* height equal to the active display configuration dimensions,
	* PixelFormat::RGBA_8888, and Dataspace::UNKNOWN. It is not required to
	* return true for any other configuration.
	*
	* @param display is the display to query.
	* @param width is the client target width in pixels.
	* @param height is the client target height in pixels.
	* @param format is the client target format.
	* @param dataspace is the client target dataspace, as described in
	* setLayerDataspace.
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* UNSUPPORTED when the given configuration is not supported.
	*/
	@callflow(next="*")
	getClientTargetSupport_2_2(Display display,
	uint32_t width,
	uint32_t height,
	PixelFormat format,
	Dataspace dataspace)
	generates (Error error);
	/**
	* setPowerMode_2_2
	* Sets the power mode of the given display. The transition must be
	* complete when this function returns. It is valid to call this function
	* multiple times with the same power mode.
	*
	* All displays must support PowerMode::ON and PowerMode::OFF. Whether a
	* display supports PowerMode::DOZE or PowerMode::DOZE_SUSPEND may be
	* queried using getDozeSupport.
	*
	* @param display is the display to which the power mode is set.
	* @param mode is the new power mode.
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* BAD_PARAMETER when mode was not a valid power mode.
	* UNSUPPORTED when mode is not supported on this display.
	*/
	setPowerMode_2_2(Display display, PowerMode mode) generates (Error error);

	/**
	* Returns the color modes supported on this display.
	*
	* All devices must support at least ColorMode::NATIVE.
	*
	* @param display is the display to query.
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* @return modes is an array of color modes.
	*/
	getColorModes_2_2(Display display)
	generates (Error error,
	vec<ColorMode> modes);

	/**
	* Returns the render intents supported by the specified display and color
	* mode.
	*
	* For SDR color modes, RenderIntent::COLORIMETRIC must be supported. For
	* HDR color modes, RenderIntent::TONE_MAP_COLORIMETRIC must be supported.
	*
	* @param display is the display to query.
	* @param mode is the color mode to query.
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* BAD_PARAMETER when an invalid color mode was passed in.
	* @return intents is an array of render intents.
	*/
	getRenderIntents(Display display, ColorMode mode)
	generates (Error error,
	vec<RenderIntent> intents);

	/**
	* Sets the color mode and render intent of the given display.
	*
	* The color mode and render intent change must take effect on next
	* presentDisplay.
	*
	* All devices must support at least ColorMode::NATIVE and
	* RenderIntent::COLORIMETRIC, and displays are assumed to be in this mode
	* upon hotplug.
	*
	* @param display is the display to which the color mode is set.
	* @param mode is the color mode to set to.
	* @param intent is the render intent to set to.
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* BAD_PARAMETER when mode or intent is invalid
	* UNSUPPORTED when mode or intent is not supported on this
	* display.
	*/
	setColorMode_2_2(Display display, ColorMode mode, RenderIntent intent)
	generates (Error error);

	/*
	* By default, layer dataspaces are mapped to the current color mode
	* colorimetrically with a few exceptions.
	*
	* When the layer dataspace is a legacy dataspace (see
	* common@1.1::Dataspace) and the display render intent is
	* RenderIntent::ENHANCE, the pixel values can go through an
	* implementation-defined saturation transform before being mapped to the
	* current color mode colorimetrically.
	*
	* Colors that are out of the gamut of the current color mode are
	* hard-clipped.
	*/

	/**
	* Returns the saturation matrix of the specified legacy dataspace.
	*
	* The saturation matrix can be used to approximate the legacy dataspace
	* saturation transform. It is to be applied on linear pixel values like
	* this:
	*
	* (in GLSL)
	* linearSrgb = saturationMatrix * linearSrgb;
	*
	* @param dataspace must be Dataspace::SRGB_LINEAR.
	* @return error is NONE upon success. Otherwise,
	* BAD_PARAMETER when an invalid dataspace was passed in.
	* @return matrix is the 4x4 column-major matrix used to approximate the
	* legacy dataspace saturation operation. The last row must be
	* [0.0, 0.0, 0.0, 1.0].
	*/
	getDataspaceSaturationMatrix(Dataspace dataspace)
	generates (Error error,
	float[4][4] matrix);

	/**
	* Executes commands from the input command message queue. Return values
	* generated by the input commands are written to the output command
	* message queue in the form of value commands.
	*
	* @param inLength is the length of input commands.
	* @param inHandles is an array of handles referenced by the input
	* commands.
	* @return error is NONE upon success. Otherwise,
	* BAD_PARAMETER when inLength is not equal to the length of
	* commands in the input command message queue.
	* NO_RESOURCES when the output command message queue was not
	* properly drained.
	* @param outQueueChanged indicates whether the output command message
	* queue has changed.
	* @param outLength is the length of output commands.
	* @param outHandles is an array of handles referenced by the output
	* commands.
	*/
	executeCommands_2_2(uint32_t inLength,
	vec<handle> inHandles)
	generates (Error error,
	bool outQueueChanged,
	uint32_t outLength,
	vec<handle> outHandles);
	};