graphics/composer/2.4/IComposerClient.hal - platform/hardware/interfaces - Git at Google

 /*
  * Copyright 2019 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@2.4;

 import android.hardware.graphics.common@1.2::PixelFormat;
 import android.hardware.graphics.common@1.2::Dataspace;
 import android.hardware.graphics.composer@2.1::IComposerClient.Command;
 import IComposerCallback;
 import @2.1::Config;
 import @2.1::Display;
 import @2.1::Error;
 import @2.1::IComposerClient;
 import @2.3::IComposerClient;

 interface IComposerClient extends @2.3::IComposerClient {
     /**
      * Display attributes queryable through getDisplayAttribute_2_4.
      */
     enum Attribute : @2.1::IComposerClient.Attribute {
         /**
          * The configuration group ID (as int32_t) this config is associated to.
          * Switching between configurations within the same group may be done seamlessly
          * in some conditions via setActiveConfigWithConstraints.
          */
         CONFIG_GROUP = 7,
     };

     /**
      * Required capabilities which are supported by the display. The
      * particular set of supported capabilities for a given display may be
      * retrieved using getDisplayCapabilities.
      */
     enum DisplayCapability : @2.3::IComposerClient.DisplayCapability {
         /**
          * Indicates that the display supports protected contents.
          * When returned, hardware composer must be able to accept client target
          * with protected buffers.
          */
         PROTECTED_CONTENTS = 4,

         /**
          * Indicates that both the composer HAL implementation and the given display
          * support a low latency mode, such as HDMI 2.1 Auto Low Latency Mode.
          */
         AUTO_LOW_LATENCY_MODE = 5,
     };

     enum Command : @2.3::IComposerClient.Command {
         /**
          * SET_CLIENT_TARGET_PROPERTY has this pseudo prototype
          *
          * This command has the following binary layout in bytes:
          *
          *     0 - 3: clientTargetProperty.pixelFormat
          *     4 - 7: clientTargetProperty.dataspace
          *
          *   setClientTargetProperty(ClientTargetProperty clientTargetProperty);
          */
          SET_CLIENT_TARGET_PROPERTY = 0x105 << @2.1::IComposerClient.Command:OPCODE_SHIFT,

         /**
          * SET_LAYER_GENERIC_METADATA has this pseudo prototype
          *
          *   setLayerGenericMetadata(string key, bool mandatory, vec<uint8_t> value);
          *
          * Sets a piece of generic metadata for the given layer. If this
          * function is called twice with the same key but different values, the
          * newer value must override the older one. Calling this function with a
          * 0-length value must reset that key's metadata as if it had not been
          * set.
          *
          * A given piece of metadata may either be mandatory or a hint
          * (non-mandatory) as indicated by the second parameter. Mandatory
          * metadata may affect the composition result, which is to say that it
          * may cause a visible change in the final image. By contrast, hints may
          * only affect the composition strategy, such as which layers are
          * composited by the client, but must not cause a visible change in the
          * final image. The value of the mandatory flag shall match the value
          * returned from getLayerGenericMetadataKeys for the given key.
          *
          * Only keys which have been returned from getLayerGenericMetadataKeys()
          * shall be accepted. Any other keys must result in an UNSUPPORTED error.
          *
          * The value passed into this function shall be the binary
          * representation of a HIDL type corresponding to the given key. For
          * example, a key of 'com.example.V1_3.Foo' shall be paired with a
          * value of type com.example@1.3::Foo, which would be defined in a
          * vendor HAL extension.
          *
          * This function will be encoded in the command buffer in this order:
          *   1) The key length, stored as a uint32_t
          *   2) The key itself, padded to a uint32_t boundary if necessary
          *   3) The mandatory flag, stored as a uint32_t
          *   4) The value length in bytes, stored as a uint32_t
          *   5) The value itself, padded to a uint32_t boundary if necessary
          *
          * @param key indicates which metadata value should be set on this layer
          * @param mandatory indicates whether this particular key represents
          *        mandatory metadata or a hint (non-mandatory metadata), as
          *        described above
          * @param value is a binary representation of a HIDL struct
          *        corresponding to the key as described above
          */
         SET_LAYER_GENERIC_METADATA = 0x40e << @2.1::IComposerClient.Command:OPCODE_SHIFT,
     };

     /**
      * Supersedes {@link @2.1::IComposerClient.DisplayType}.
      */
     enum DisplayConnectionType : uint32_t {
         /**
          * Display is connected through internal port, e.g. DSI, eDP.
          */
         INTERNAL = 0,
         /**
          * Display is connected through external port, e.g. HDMI, DisplayPort.
          */
         EXTERNAL = 1,
     };

     enum ContentType : uint32_t {
         NONE = 0,

         /**
          * These modes correspond to those found in the HDMI 1.4 specification.
          */
         GRAPHICS = 1,
         PHOTO = 2,
         CINEMA = 3,
         GAME = 4,
     };

     /**
      * Constraints for changing vsync period.
      */
     struct VsyncPeriodChangeConstraints {
         /**
          * Time in CLOCK_MONOTONIC after which the vsync period may change
          * (i.e., the vsync period must not change before this time).
          */
         int64_t desiredTimeNanos;

         /**
          * If true, requires that the vsync period change must happen seamlessly without
          * a noticeable visual artifact.
          */
         bool seamlessRequired;
     };

     struct ClientTargetProperty {
         PixelFormat pixelFormat;
         Dataspace dataspace;
     };

     /**
      * Provides a IComposerCallback object for the device to call.
      *
      * This function must be called only once.
      *
      * @param callback is the IComposerCallback object.
      */
     registerCallback_2_4(IComposerCallback callback);

     /**
      * Provides a list of supported capabilities (as described in the
      * definition of DisplayCapability above). This list must not change after
      * initialization.
      *
      * @return error is NONE upon success. Otherwise,
      *     BAD_DISPLAY when an invalid display handle was passed in.
      * @return capabilities is a list of supported capabilities.
      */
     getDisplayCapabilities_2_4(Display display)
         generates (Error error, vec<DisplayCapability> capabilities);

     /**
      * Returns whether the given physical display is internal or external.
      *
      * @return error is NONE upon success. Otherwise,
      *     BAD_DISPLAY when the given display is invalid or virtual.
      * @return type is the connection type of the display.
      */
     getDisplayConnectionType(Display display) generates (Error error, DisplayConnectionType type);

     /**
      * Returns a display attribute value for a particular display
      * configuration.
      *
      * @param display is the display to query.
      * @param config is the display configuration for which to return
      *        attribute values.
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         BAD_CONFIG when config does not name a valid configuration for
      *                    this display.
      *         BAD_PARAMETER when attribute is unrecognized.
      *         UNSUPPORTED when attribute cannot be queried for the config.
      * @return value is the value of the attribute.
      */
     getDisplayAttribute_2_4(Display display, Config config, Attribute attribute)
         generates (Error error, int32_t value);

     /**
      * Retrieves which vsync period the display is currently using.
      *
      * If no display configuration is currently active, this function must
      * return BAD_CONFIG. If the vsync period is about to change due to a
      * setActiveConfigWithConstraints call, this function must return the current vsync period
      * until the change takes place.
      *
      * @param display is the display for which the vsync period is queried.
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         BAD_CONFIG when no configuration is currently active.
      * @return vsyncPeriodNanos is the current vsync period of the display.
      */
     getDisplayVsyncPeriod(Display display)
         generates (Error error, VsyncPeriodNanos vsyncPeriodNanos);

     /**
      * Sets the active configuration and the refresh rate for this display.
      * If the new config shares the same config group as the current config,
      * only the vsync period shall change.
      * Upon returning, the given display configuration, except vsync period, must be active and
      * remain so until either this function is called again or the display is disconnected.
      * When the display starts to refresh at the new vsync period, onVsync_2_4 callback must be
      * called with the new vsync period.
      *
      * @param display is the display for which the active config is set.
      * @param config is the new display configuration.
      * @param vsyncPeriodChangeConstraints are the constraints required for changing vsync period.
      *
      * @return error is NONE upon success. Otherwise,
      *         BAD_DISPLAY when an invalid display handle was passed in.
      *         BAD_CONFIG when the configuration handle passed in is not valid
      *                    for this display.
      *         SEAMLESS_NOT_ALLOWED when seamlessRequired was true but config provided doesn't
      *                              share the same config group as the current config.
      *         SEAMLESS_NOT_POSSIBLE when seamlessRequired was true but the display cannot achieve
      *                               the vsync period change without a noticeable visual artifact.
      *                               When the conditions change and it may be possible to change
      *                               the vsync period seamlessly, onSeamlessPossible callback
      *                               must be called to indicate that caller should retry.
      * @return timeline is the timeline for the vsync period change.
      */
     setActiveConfigWithConstraints(Display display, Config config,
         VsyncPeriodChangeConstraints vsyncPeriodChangeConstraints)
         generates (Error error, VsyncPeriodChangeTimeline timeline);

     /**
      * Requests the display to enable/disable its low latency mode.
      *
      * If the display is connected via HDMI 2.1, then Auto Low Latency Mode should be triggered. If
      * the display is internally connected and a custom low latency mode is available, that should
      * be triggered.
      *
      * This function should only be called if the display reports support for
      * DisplayCapability::AUTO_LOW_LATENCY_MODE from getDisplayCapabilities_2_4.
      *
      * @return error is NONE upon success. Otherwise,
      *     BAD_DISPLAY when an invalid display handle was passed in.
      *     UNSUPPORTED when AUTO_LOW_LATENCY_MODE is not supported by the composer
      *         implementation or the given display
      */
     setAutoLowLatencyMode(Display display, bool on)
         generates (Error error);

     /**
      * Provides a list of all the content types supported by this display (any of
      * ContentType::{GRAPHICS, PHOTO, CINEMA, GAME}). This list must not change after
      * initialization.
      *
      * Content types are introduced in HDMI 1.4 and supporting them is optional. The
      * ContentType::NONE is always supported and will not be returned by this method..
      *
      * @return error is NONE upon success. Otherwise,
      *     BAD_DISPLAY when an invalid display handle was passed in.
      * @return supportedContentTypes is a list of supported content types.
      */
     getSupportedContentTypes(Display display)
         generates(Error error, vec<ContentType> supportedContentTypes);

     /**
      * Instructs the connected display that the content being shown is of the given type - one of
      * GRAPHICS, PHOTO, CINEMA, GAME.
      *
      * Content types are introduced in HDMI 1.4 and supporting them is optional. If they are
      * supported, this signal should switch the display to a mode that is optimal for the given
      * type of content. See HDMI 1.4 specification for more information.
      *
      * If the display is internally connected (not through HDMI), and such modes are available,
      * this method should trigger them.
      *
      * This function can be called for a content type even if no support for it is
      * reported from getSupportedContentTypes.
      *
      * @return error is NONE upon success. Otherwise,
      *     BAD_DISPLAY when an invalid display handle was passed in.
      *     UNSUPPORTED when the given content type is not supported by the composer
      *         implementation or the given display
      */
     setContentType(Display display, ContentType type)
         generates (Error error);

     struct LayerGenericMetadataKey {
         /**
          * Key names must comply with the requirements specified for
          * getLayerGenericMetadataKeys below
          */
         string name;

         /**
          * The mandatory flag is defined in the description of
          * setLayerGenericMetadata above
          */
         bool mandatory;
     };

     /**
      * Retrieves the set of keys that may be passed into setLayerGenericMetadata
      *
      * Key names must meet the following requirements:
      * - Must be specified in reverse domain name notation
      * - Must not start with 'com.android' or 'android'
      * - Must be unique within the returned vector
      * - Must correspond to a matching HIDL struct type, which defines the
      *   structure of its values. For example, the key 'com.example.V1-3.Foo'
      *   should correspond to a value of type com.example@1.3::Foo, which is
      *   defined in a vendor HAL extension
      */
     getLayerGenericMetadataKeys()
         generates(Error error, vec<LayerGenericMetadataKey> keys);
 };
	/*
	* Copyright 2019 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@2.4;

	import android.hardware.graphics.common@1.2::PixelFormat;
	import android.hardware.graphics.common@1.2::Dataspace;
	import android.hardware.graphics.composer@2.1::IComposerClient.Command;
	import IComposerCallback;
	import @2.1::Config;
	import @2.1::Display;
	import @2.1::Error;
	import @2.1::IComposerClient;
	import @2.3::IComposerClient;

	interface IComposerClient extends @2.3::IComposerClient {
	/**
	* Display attributes queryable through getDisplayAttribute_2_4.
	*/
	enum Attribute : @2.1::IComposerClient.Attribute {
	/**
	* The configuration group ID (as int32_t) this config is associated to.
	* Switching between configurations within the same group may be done seamlessly
	* in some conditions via setActiveConfigWithConstraints.
	*/
	CONFIG_GROUP = 7,
	};

	/**
	* Required capabilities which are supported by the display. The
	* particular set of supported capabilities for a given display may be
	* retrieved using getDisplayCapabilities.
	*/
	enum DisplayCapability : @2.3::IComposerClient.DisplayCapability {
	/**
	* Indicates that the display supports protected contents.
	* When returned, hardware composer must be able to accept client target
	* with protected buffers.
	*/
	PROTECTED_CONTENTS = 4,

	/**
	* Indicates that both the composer HAL implementation and the given display
	* support a low latency mode, such as HDMI 2.1 Auto Low Latency Mode.
	*/
	AUTO_LOW_LATENCY_MODE = 5,
	};

	enum Command : @2.3::IComposerClient.Command {
	/**
	* SET_CLIENT_TARGET_PROPERTY has this pseudo prototype
	*
	* This command has the following binary layout in bytes:
	*
	* 0 - 3: clientTargetProperty.pixelFormat
	* 4 - 7: clientTargetProperty.dataspace
	*
	* setClientTargetProperty(ClientTargetProperty clientTargetProperty);
	*/
	SET_CLIENT_TARGET_PROPERTY = 0x105 << @2.1::IComposerClient.Command:OPCODE_SHIFT,

	/**
	* SET_LAYER_GENERIC_METADATA has this pseudo prototype
	*
	* setLayerGenericMetadata(string key, bool mandatory, vec<uint8_t> value);
	*
	* Sets a piece of generic metadata for the given layer. If this
	* function is called twice with the same key but different values, the
	* newer value must override the older one. Calling this function with a
	* 0-length value must reset that key's metadata as if it had not been
	* set.
	*
	* A given piece of metadata may either be mandatory or a hint
	* (non-mandatory) as indicated by the second parameter. Mandatory
	* metadata may affect the composition result, which is to say that it
	* may cause a visible change in the final image. By contrast, hints may
	* only affect the composition strategy, such as which layers are
	* composited by the client, but must not cause a visible change in the
	* final image. The value of the mandatory flag shall match the value
	* returned from getLayerGenericMetadataKeys for the given key.
	*
	* Only keys which have been returned from getLayerGenericMetadataKeys()
	* shall be accepted. Any other keys must result in an UNSUPPORTED error.
	*
	* The value passed into this function shall be the binary
	* representation of a HIDL type corresponding to the given key. For
	* example, a key of 'com.example.V1_3.Foo' shall be paired with a
	* value of type com.example@1.3::Foo, which would be defined in a
	* vendor HAL extension.
	*
	* This function will be encoded in the command buffer in this order:
	* 1) The key length, stored as a uint32_t
	* 2) The key itself, padded to a uint32_t boundary if necessary
	* 3) The mandatory flag, stored as a uint32_t
	* 4) The value length in bytes, stored as a uint32_t
	* 5) The value itself, padded to a uint32_t boundary if necessary
	*
	* @param key indicates which metadata value should be set on this layer
	* @param mandatory indicates whether this particular key represents
	* mandatory metadata or a hint (non-mandatory metadata), as
	* described above
	* @param value is a binary representation of a HIDL struct
	* corresponding to the key as described above
	*/
	SET_LAYER_GENERIC_METADATA = 0x40e << @2.1::IComposerClient.Command:OPCODE_SHIFT,
	};

	/**
	* Supersedes {@link @2.1::IComposerClient.DisplayType}.
	*/
	enum DisplayConnectionType : uint32_t {
	/**
	* Display is connected through internal port, e.g. DSI, eDP.
	*/
	INTERNAL = 0,
	/**
	* Display is connected through external port, e.g. HDMI, DisplayPort.
	*/
	EXTERNAL = 1,
	};

	enum ContentType : uint32_t {
	NONE = 0,

	/**
	* These modes correspond to those found in the HDMI 1.4 specification.
	*/
	GRAPHICS = 1,
	PHOTO = 2,
	CINEMA = 3,
	GAME = 4,
	};

	/**
	* Constraints for changing vsync period.
	*/
	struct VsyncPeriodChangeConstraints {
	/**
	* Time in CLOCK_MONOTONIC after which the vsync period may change
	* (i.e., the vsync period must not change before this time).
	*/
	int64_t desiredTimeNanos;

	/**
	* If true, requires that the vsync period change must happen seamlessly without
	* a noticeable visual artifact.
	*/
	bool seamlessRequired;
	};

	struct ClientTargetProperty {
	PixelFormat pixelFormat;
	Dataspace dataspace;
	};

	/**
	* Provides a IComposerCallback object for the device to call.
	*
	* This function must be called only once.
	*
	* @param callback is the IComposerCallback object.
	*/
	registerCallback_2_4(IComposerCallback callback);

	/**
	* Provides a list of supported capabilities (as described in the
	* definition of DisplayCapability above). This list must not change after
	* initialization.
	*
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* @return capabilities is a list of supported capabilities.
	*/
	getDisplayCapabilities_2_4(Display display)
	generates (Error error, vec<DisplayCapability> capabilities);

	/**
	* Returns whether the given physical display is internal or external.
	*
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when the given display is invalid or virtual.
	* @return type is the connection type of the display.
	*/
	getDisplayConnectionType(Display display) generates (Error error, DisplayConnectionType type);

	/**
	* Returns a display attribute value for a particular display
	* configuration.
	*
	* @param display is the display to query.
	* @param config is the display configuration for which to return
	* attribute values.
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* BAD_CONFIG when config does not name a valid configuration for
	* this display.
	* BAD_PARAMETER when attribute is unrecognized.
	* UNSUPPORTED when attribute cannot be queried for the config.
	* @return value is the value of the attribute.
	*/
	getDisplayAttribute_2_4(Display display, Config config, Attribute attribute)
	generates (Error error, int32_t value);

	/**
	* Retrieves which vsync period the display is currently using.
	*
	* If no display configuration is currently active, this function must
	* return BAD_CONFIG. If the vsync period is about to change due to a
	* setActiveConfigWithConstraints call, this function must return the current vsync period
	* until the change takes place.
	*
	* @param display is the display for which the vsync period is queried.
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* BAD_CONFIG when no configuration is currently active.
	* @return vsyncPeriodNanos is the current vsync period of the display.
	*/
	getDisplayVsyncPeriod(Display display)
	generates (Error error, VsyncPeriodNanos vsyncPeriodNanos);

	/**
	* Sets the active configuration and the refresh rate for this display.
	* If the new config shares the same config group as the current config,
	* only the vsync period shall change.
	* Upon returning, the given display configuration, except vsync period, must be active and
	* remain so until either this function is called again or the display is disconnected.
	* When the display starts to refresh at the new vsync period, onVsync_2_4 callback must be
	* called with the new vsync period.
	*
	* @param display is the display for which the active config is set.
	* @param config is the new display configuration.
	* @param vsyncPeriodChangeConstraints are the constraints required for changing vsync period.
	*
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* BAD_CONFIG when the configuration handle passed in is not valid
	* for this display.
	* SEAMLESS_NOT_ALLOWED when seamlessRequired was true but config provided doesn't
	* share the same config group as the current config.
	* SEAMLESS_NOT_POSSIBLE when seamlessRequired was true but the display cannot achieve
	* the vsync period change without a noticeable visual artifact.
	* When the conditions change and it may be possible to change
	* the vsync period seamlessly, onSeamlessPossible callback
	* must be called to indicate that caller should retry.
	* @return timeline is the timeline for the vsync period change.
	*/
	setActiveConfigWithConstraints(Display display, Config config,
	VsyncPeriodChangeConstraints vsyncPeriodChangeConstraints)
	generates (Error error, VsyncPeriodChangeTimeline timeline);

	/**
	* Requests the display to enable/disable its low latency mode.
	*
	* If the display is connected via HDMI 2.1, then Auto Low Latency Mode should be triggered. If
	* the display is internally connected and a custom low latency mode is available, that should
	* be triggered.
	*
	* This function should only be called if the display reports support for
	* DisplayCapability::AUTO_LOW_LATENCY_MODE from getDisplayCapabilities_2_4.
	*
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* UNSUPPORTED when AUTO_LOW_LATENCY_MODE is not supported by the composer
	* implementation or the given display
	*/
	setAutoLowLatencyMode(Display display, bool on)
	generates (Error error);

	/**
	* Provides a list of all the content types supported by this display (any of
	* ContentType::{GRAPHICS, PHOTO, CINEMA, GAME}). This list must not change after
	* initialization.
	*
	* Content types are introduced in HDMI 1.4 and supporting them is optional. The
	* ContentType::NONE is always supported and will not be returned by this method..
	*
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* @return supportedContentTypes is a list of supported content types.
	*/
	getSupportedContentTypes(Display display)
	generates(Error error, vec<ContentType> supportedContentTypes);

	/**
	* Instructs the connected display that the content being shown is of the given type - one of
	* GRAPHICS, PHOTO, CINEMA, GAME.
	*
	* Content types are introduced in HDMI 1.4 and supporting them is optional. If they are
	* supported, this signal should switch the display to a mode that is optimal for the given
	* type of content. See HDMI 1.4 specification for more information.
	*
	* If the display is internally connected (not through HDMI), and such modes are available,
	* this method should trigger them.
	*
	* This function can be called for a content type even if no support for it is
	* reported from getSupportedContentTypes.
	*
	* @return error is NONE upon success. Otherwise,
	* BAD_DISPLAY when an invalid display handle was passed in.
	* UNSUPPORTED when the given content type is not supported by the composer
	* implementation or the given display
	*/
	setContentType(Display display, ContentType type)
	generates (Error error);

	struct LayerGenericMetadataKey {
	/**
	* Key names must comply with the requirements specified for
	* getLayerGenericMetadataKeys below
	*/
	string name;

	/**
	* The mandatory flag is defined in the description of
	* setLayerGenericMetadata above
	*/
	bool mandatory;
	};

	/**
	* Retrieves the set of keys that may be passed into setLayerGenericMetadata
	*
	* Key names must meet the following requirements:
	* - Must be specified in reverse domain name notation
	* - Must not start with 'com.android' or 'android'
	* - Must be unique within the returned vector
	* - Must correspond to a matching HIDL struct type, which defines the
	* structure of its values. For example, the key 'com.example.V1-3.Foo'
	* should correspond to a value of type com.example@1.3::Foo, which is
	* defined in a vendor HAL extension
	*/
	getLayerGenericMetadataKeys()
	generates(Error error, vec<LayerGenericMetadataKey> keys);
	};