neuralnetworks/1.2/IDevice.hal - platform/hardware/interfaces - Git at Google

 /*
  * 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.neuralnetworks@1.2;

 import @1.0::ErrorStatus;
 import @1.1::ExecutionPreference;
 import @1.1::IDevice;
 import IPreparedModelCallback;

 /**
  * This interface represents a device driver.
  */
 interface IDevice extends @1.1::IDevice {
     /**
      * Get the version string of the driver implementation.
      *
      * The version string must be a unique token among the set of version strings of
      * drivers of a specific device. The token identifies the device driver's
      * implementation. The token must not be confused with the feature level which is solely
      * defined by the interface version. This API is opaque to the Android framework, but the
      * Android framework may use the information for debugging or to pass on to NNAPI applications.
      *
      * Application developers sometimes have specific requirements to ensure good user experiences,
      * and they need more information to make intelligent decisions when the Android framework cannot.
      * For example, combined with the device name and other information, the token can help
      * NNAPI applications filter devices based on their needs:
      *     - An application demands a certain level of performance, but a specific version of
      *       the driver cannot meet that requirement because of a performance regression.
      *       The application can disallow the driver based on the version provided.
      *     - An application has a minimum precision requirement, but certain versions of
      *       the driver cannot meet that requirement because of bugs or certain optimizations.
      *       The application can filter out versions of these drivers.
      *
      * @return status Error status returned from querying the version string. Must be:
      *     - NONE if the query was successful
      *     - DEVICE_UNAVAILABLE if driver is offline or busy
      *     - GENERAL_FAILURE if the query resulted in an
      *       unspecified error
      * @return version The version string of the device implementation.
      *     Must have nonzero length
      */
     getVersionString() generates (ErrorStatus status, string version);

     /**
      * Get the type of a given device.
      *
      * The device type can be used to help application developers to distribute
      * Machine Learning workloads and other workloads such as graphical rendering.
      * E.g., for an app which renders AR scenes based on real time object detection
      * results, the developer could choose an ACCELERATOR type device for ML
      * workloads, and reserve GPU for graphical rendering.
      *
      * @return status Error status returned from querying the device type. Must be:
      *                - NONE if the query was successful
      *                - DEVICE_UNAVAILABLE if driver is offline or busy
      *                - GENERAL_FAILURE if the query resulted in an
      *                  unspecified error
      * @return type The DeviceType of the device. Please note, this is not a
      *              bitfield of DeviceTypes. Each device must only be of a
      *              single DeviceType.
      */
     getType() generates (ErrorStatus status, DeviceType type);

     /**
      * Gets the capabilities of a driver.
      *
      * @return status Error status of the call, must be:
      *                - NONE if successful
      *                - DEVICE_UNAVAILABLE if driver is offline or busy
      *                - GENERAL_FAILURE if there is an unspecified error
      * @return capabilities Capabilities of the driver.
      */
     getCapabilities_1_2() generates (ErrorStatus status, Capabilities capabilities);

     /**
      * Gets information about extensions supported by the driver implementation.
      *
      * All extension operations and operands must be fully supported for the
      * extension to appear in the list of supported extensions.
      *
      * @return status Error status of the call, must be:
      *     - NONE if successful
      *     - DEVICE_UNAVAILABLE if driver is offline or busy
      *     - GENERAL_FAILURE if there is an unspecified error
      * @return extensions A list of supported extensions.
      */
     getSupportedExtensions()
         generates (ErrorStatus status, vec<Extension> extensions);

     /**
      * Gets the supported operations in a model.
      *
      * getSupportedOperations indicates which operations of a model are fully
      * supported by the vendor driver. If an operation may not be supported for
      * any reason, getSupportedOperations must return false for that operation.
      *
      * @param model A model whose operations--and their corresponding operands--
      *     are to be verified by the driver.
      * @return status Error status of the call, must be:
      *     - NONE if successful
      *     - DEVICE_UNAVAILABLE if driver is offline or busy
      *     - GENERAL_FAILURE if there is an unspecified error
      *     - INVALID_ARGUMENT if provided model is invalid
      * @return supportedOperations A list of supported operations, where true
      *     indicates the operation is supported and false indicates the
      *     operation is not supported. The index of "supported" corresponds with
      *     the index of the operation it is describing.
      */
     getSupportedOperations_1_2(Model model)
             generates (ErrorStatus status, vec<bool> supportedOperations);

     /**
      * Gets the caching requirements of the driver implementation.
      *
      * There are two types of cache file descriptors provided to the driver: model cache
      * and data cache.
      *
      * The data cache is for caching constant data, possibly including preprocessed
      * and transformed tensor buffers. Any modification to the data cache should
      * have no worse effect than generating bad output values at execution time.
      *
      * The model cache is for caching security-sensitive data such as compiled
      * executable machine code in the device's native binary format. A modification
      * to the model cache may affect the driver's execution behavior, and a malicious
      * client could make use of this to execute beyond the granted permission. Thus,
      * the driver must always check whether the model cache is corrupted before
      * preparing the model from cache.
      *
      * getNumberOfCacheFilesNeeded returns how many of each type of cache files the driver
      * implementation needs to cache a single prepared model. Returning 0 for both types
      * indicates compilation caching is not supported by this driver. The driver may
      * still choose not to cache certain compiled models even if it reports that caching
      * is supported.
      *
      * If the device reports that caching is not supported, the user may avoid calling
      * IDevice::prepareModelFromCache or providing cache file descriptors to
      * IDevice::prepareModel_1_2.
      *
      * @return status Error status of the call, must be:
      *     - NONE if successful
      *     - DEVICE_UNAVAILABLE if driver is offline or busy
      *     - GENERAL_FAILURE if there is an unspecified error
      * @return numModelCache An unsigned integer indicating how many files for model cache
      *                       the driver needs to cache a single prepared model. It must
      *                       be less than or equal to Constant::MAX_NUMBER_OF_CACHE_FILES.
      * @return numDataCache An unsigned integer indicating how many files for data cache
      *                      the driver needs to cache a single prepared model. It must
      *                      be less than or equal to Constant::MAX_NUMBER_OF_CACHE_FILES.
      */
     getNumberOfCacheFilesNeeded()
             generates (ErrorStatus status, uint32_t numModelCache, uint32_t numDataCache);

     /**
      * Asynchronously creates a prepared model for execution and optionally saves it
      * into cache files.
      *
      * prepareModel is used to make any necessary transformations to or alternative
      * representations to a model for execution, possibly including
      * transformations on the constant data, optimization on the model's graph,
      * or compilation into the device's native binary format. The model itself
      * is not changed.
      *
      * Optionally, caching information may be provided for the driver to save
      * the prepared model to cache files for faster model compilation time
      * when the same model preparation is requested in the future. There are
      * two types of cache file handles provided to the driver: model cache
      * and data cache. For more information on the two types of cache handles,
      * refer to getNumberOfCacheFilesNeeded.
      *
      * The file descriptors must be opened with read and write permission. A file may
      * have any size, and the corresponding file descriptor may have any offset. The
      * driver must truncate a file to zero size before writing to that file. The file
      * descriptors may be closed by the client once the asynchronous preparation has
      * finished. The driver must dup a file descriptor if it wants to get access to
      * the cache file later.
      *
      * The model is prepared asynchronously with respect to the caller. The
      * prepareModel function must verify the inputs to the preparedModel function
      * related to preparing the model (as opposed to saving the prepared model to
      * cache) are correct. If there is an error, prepareModel must immediately invoke
      * the callback with the appropriate ErrorStatus value and nullptr for the
      * IPreparedModel, then return with the same ErrorStatus. If the inputs to the
      * prepareModel function that are related to preparing the model are valid and
      * there is no error, prepareModel must launch an asynchronous task
      * to prepare the model in the background, and immediately return from
      * prepareModel with ErrorStatus::NONE. If the asynchronous task fails to launch,
      * prepareModel must immediately invoke the callback with
      * ErrorStatus::GENERAL_FAILURE and nullptr for the IPreparedModel, then return
      * with ErrorStatus::GENERAL_FAILURE.
      *
      * When the asynchronous task has finished preparing the model, it must
      * immediately invoke the callback function provided as an input to
      * prepareModel. If the model was prepared successfully, the callback object
      * must be invoked with an error status of ErrorStatus::NONE and the
      * produced IPreparedModel object. If an error occurred preparing the model,
      * the callback object must be invoked with the appropriate ErrorStatus
      * value and nullptr for the IPreparedModel.
      *
      * Optionally, the driver may save the prepared model to cache during the
      * asynchronous preparation. Any error that occurs when saving to cache must
      * not affect the status of preparing the model. Even if the input arguments
      * related to the cache may be invalid, or the driver may fail to save to cache,
      * the prepareModel function must finish preparing the model. The driver
      * may choose not to save to cache even if the caching information is
      * provided and valid.
      *
      * The only information that may be unknown to the model at this stage is
      * the shape of the tensors, which may only be known at execution time. As
      * such, some driver services may return partially prepared models, where
      * the prepared model may only be finished when it is paired with a set of
      * inputs to the model. Note that the same prepared model object may be
      * used with different shapes of inputs on different (possibly concurrent)
      * executions.
      *
      * Multiple threads may call prepareModel on the same model concurrently.
      *
      * @param model The model to be prepared for execution.
      * @param preference Indicates the intended execution behavior of a prepared
      *     model.
      * @param modelCache A vector of handles with each entry holding exactly one
      *     cache file descriptor for the security-sensitive cache. The length of
      *     the vector must either be 0 indicating that caching information is not provided,
      *     or match the numModelCache returned from getNumberOfCacheFilesNeeded. The cache
      *     handles will be provided in the same order when retrieving the
      *     preparedModel from cache files with prepareModelFromCache.
      * @param dataCache A vector of handles with each entry holding exactly one
      *     cache file descriptor for the constants' cache. The length of
      *     the vector must either be 0 indicating that caching information is not provided,
      *     or match the numDataCache returned from getNumberOfCacheFilesNeeded. The cache
      *     handles will be provided in the same order when retrieving the
      *     preparedModel from cache files with prepareModelFromCache.
      * @param token A caching token of length Constant::BYTE_SIZE_OF_CACHE_TOKEN
      *     identifying the prepared model. The same token will be provided when retrieving
      *     the prepared model from the cache files with prepareModelFromCache.
      *     Tokens should be chosen to have a low rate of collision for a particular
      *     application. The driver cannot detect a collision; a collision will result
      *     in a failed execution or in a successful execution that produces incorrect
      *     output values. If both modelCache and dataCache are empty indicating that
      *     caching information is not provided, this token must be ignored.
      * @param callback A callback object used to return the error status of
      *     preparing the model for execution and the prepared model if
      *     successful, nullptr otherwise. The callback object's notify function
      *     must be called exactly once, even if the model could not be prepared.
      * @return status Error status of launching a task which prepares the model
      *     in the background; must be:
      *     - NONE if preparation task is successfully launched
      *     - DEVICE_UNAVAILABLE if driver is offline or busy
      *     - GENERAL_FAILURE if there is an unspecified error
      *     - INVALID_ARGUMENT if one of the input arguments related to preparing the
      *       model is invalid
      */
     prepareModel_1_2(Model model, ExecutionPreference preference,
                      vec<handle> modelCache, vec<handle> dataCache,
                      uint8_t[Constant:BYTE_SIZE_OF_CACHE_TOKEN] token,
                      IPreparedModelCallback callback)
           generates (ErrorStatus status);

     /**
      * Creates a prepared model from cache files for execution.
      *
      * prepareModelFromCache is used to retrieve a prepared model directly from
      * cache files to avoid slow model compilation time. There are
      * two types of cache file handles provided to the driver: model cache
      * and data cache. For more information on the two types of cache handles,
      * refer to getNumberOfCacheFilesNeeded.
      *
      * The file descriptors must be opened with read and write permission. A file may
      * have any size, and the corresponding file descriptor may have any offset. The
      * driver must truncate a file to zero size before writing to that file. The file
      * descriptors may be closed by the client once the asynchronous preparation has
      * finished. The driver must dup a file descriptor if it wants to get access to
      * the cache file later.
      *
      * The model is prepared asynchronously with respect to the caller. The
      * prepareModelFromCache function must verify the inputs to the
      * prepareModelFromCache function are correct, and that the security-sensitive
      * cache has not been modified since it was last written by the driver.
      * If there is an error, or if compilation caching is not supported, or if the
      * security-sensitive cache has been modified, prepareModelFromCache must
      * immediately invoke the callback with the appropriate ErrorStatus value and
      * nullptr for the IPreparedModel, then return with the same ErrorStatus. If
      * the inputs to the prepareModelFromCache function are valid, the security-sensitive
      * cache is not modified, and there is no error, prepareModelFromCache must launch an
      * asynchronous task to prepare the model in the background, and immediately return
      * from prepareModelFromCache with ErrorStatus::NONE. If the asynchronous task
      * fails to launch, prepareModelFromCache must immediately invoke the callback
      * with ErrorStatus::GENERAL_FAILURE and nullptr for the IPreparedModel, then
      * return with ErrorStatus::GENERAL_FAILURE.
      *
      * When the asynchronous task has finished preparing the model, it must
      * immediately invoke the callback function provided as an input to
      * prepareModelFromCache. If the model was prepared successfully, the
      * callback object must be invoked with an error status of ErrorStatus::NONE
      * and the produced IPreparedModel object. If an error occurred preparing
      * the model, the callback object must be invoked with the appropriate
      * ErrorStatus value and nullptr for the IPreparedModel.
      *
      * The only information that may be unknown to the model at this stage is
      * the shape of the tensors, which may only be known at execution time. As
      * such, some driver services may return partially prepared models, where
      * the prepared model may only be finished when it is paired with a set of
      * inputs to the model. Note that the same prepared model object may be
      * used with different shapes of inputs on different (possibly concurrent)
      * executions.
      *
      * @param modelCache A vector of handles with each entry holding exactly one
      *     cache file descriptor for the security-sensitive cache. The length of
      *     the vector must match the numModelCache returned from getNumberOfCacheFilesNeeded.
      *     The cache handles will be provided in the same order as with prepareModel_1_2.
      * @param dataCache A vector of handles with each entry holding exactly one
      *     cache file descriptor for the constants' cache. The length of the vector
      *     must match the numDataCache returned from getNumberOfCacheFilesNeeded.
      *     The cache handles will be provided in the same order as with prepareModel_1_2.
      * @param token A caching token of length Constant::BYTE_SIZE_OF_CACHE_TOKEN
      *     identifying the prepared model. It is the same token provided when saving
      *     the cache files with prepareModel_1_2. Tokens should be chosen
      *     to have a low rate of collision for a particular application. The driver
      *     cannot detect a collision; a collision will result in a failed execution
      *     or in a successful execution that produces incorrect output values.
      * @param callback A callback object used to return the error status of
      *     preparing the model for execution and the prepared model if
      *     successful, nullptr otherwise. The callback object's notify function
      *     must be called exactly once, even if the model could not be prepared.
      * @return status Error status of launching a task which prepares the model
      *     in the background; must be:
      *     - NONE if preparation task is successfully launched
      *     - DEVICE_UNAVAILABLE if driver is offline or busy
      *     - GENERAL_FAILURE if caching is not supported or if there is an
      *       unspecified error
      *     - INVALID_ARGUMENT if one of the input arguments is invalid
      */
     prepareModelFromCache(vec<handle> modelCache, vec<handle> dataCache,
                           uint8_t[Constant:BYTE_SIZE_OF_CACHE_TOKEN] token,
                           IPreparedModelCallback callback)
             generates (ErrorStatus status);
 };
	/*
	* 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.neuralnetworks@1.2;

	import @1.0::ErrorStatus;
	import @1.1::ExecutionPreference;
	import @1.1::IDevice;
	import IPreparedModelCallback;

	/**
	* This interface represents a device driver.
	*/
	interface IDevice extends @1.1::IDevice {
	/**
	* Get the version string of the driver implementation.
	*
	* The version string must be a unique token among the set of version strings of
	* drivers of a specific device. The token identifies the device driver's
	* implementation. The token must not be confused with the feature level which is solely
	* defined by the interface version. This API is opaque to the Android framework, but the
	* Android framework may use the information for debugging or to pass on to NNAPI applications.
	*
	* Application developers sometimes have specific requirements to ensure good user experiences,
	* and they need more information to make intelligent decisions when the Android framework cannot.
	* For example, combined with the device name and other information, the token can help
	* NNAPI applications filter devices based on their needs:
	* - An application demands a certain level of performance, but a specific version of
	* the driver cannot meet that requirement because of a performance regression.
	* The application can disallow the driver based on the version provided.
	* - An application has a minimum precision requirement, but certain versions of
	* the driver cannot meet that requirement because of bugs or certain optimizations.
	* The application can filter out versions of these drivers.
	*
	* @return status Error status returned from querying the version string. Must be:
	* - NONE if the query was successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if the query resulted in an
	* unspecified error
	* @return version The version string of the device implementation.
	* Must have nonzero length
	*/
	getVersionString() generates (ErrorStatus status, string version);

	/**
	* Get the type of a given device.
	*
	* The device type can be used to help application developers to distribute
	* Machine Learning workloads and other workloads such as graphical rendering.
	* E.g., for an app which renders AR scenes based on real time object detection
	* results, the developer could choose an ACCELERATOR type device for ML
	* workloads, and reserve GPU for graphical rendering.
	*
	* @return status Error status returned from querying the device type. Must be:
	* - NONE if the query was successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if the query resulted in an
	* unspecified error
	* @return type The DeviceType of the device. Please note, this is not a
	* bitfield of DeviceTypes. Each device must only be of a
	* single DeviceType.
	*/
	getType() generates (ErrorStatus status, DeviceType type);

	/**
	* Gets the capabilities of a driver.
	*
	* @return status Error status of the call, must be:
	* - NONE if successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* @return capabilities Capabilities of the driver.
	*/
	getCapabilities_1_2() generates (ErrorStatus status, Capabilities capabilities);

	/**
	* Gets information about extensions supported by the driver implementation.
	*
	* All extension operations and operands must be fully supported for the
	* extension to appear in the list of supported extensions.
	*
	* @return status Error status of the call, must be:
	* - NONE if successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* @return extensions A list of supported extensions.
	*/
	getSupportedExtensions()
	generates (ErrorStatus status, vec<Extension> extensions);

	/**
	* Gets the supported operations in a model.
	*
	* getSupportedOperations indicates which operations of a model are fully
	* supported by the vendor driver. If an operation may not be supported for
	* any reason, getSupportedOperations must return false for that operation.
	*
	* @param model A model whose operations--and their corresponding operands--
	* are to be verified by the driver.
	* @return status Error status of the call, must be:
	* - NONE if successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* - INVALID_ARGUMENT if provided model is invalid
	* @return supportedOperations A list of supported operations, where true
	* indicates the operation is supported and false indicates the
	* operation is not supported. The index of "supported" corresponds with
	* the index of the operation it is describing.
	*/
	getSupportedOperations_1_2(Model model)
	generates (ErrorStatus status, vec<bool> supportedOperations);

	/**
	* Gets the caching requirements of the driver implementation.
	*
	* There are two types of cache file descriptors provided to the driver: model cache
	* and data cache.
	*
	* The data cache is for caching constant data, possibly including preprocessed
	* and transformed tensor buffers. Any modification to the data cache should
	* have no worse effect than generating bad output values at execution time.
	*
	* The model cache is for caching security-sensitive data such as compiled
	* executable machine code in the device's native binary format. A modification
	* to the model cache may affect the driver's execution behavior, and a malicious
	* client could make use of this to execute beyond the granted permission. Thus,
	* the driver must always check whether the model cache is corrupted before
	* preparing the model from cache.
	*
	* getNumberOfCacheFilesNeeded returns how many of each type of cache files the driver
	* implementation needs to cache a single prepared model. Returning 0 for both types
	* indicates compilation caching is not supported by this driver. The driver may
	* still choose not to cache certain compiled models even if it reports that caching
	* is supported.
	*
	* If the device reports that caching is not supported, the user may avoid calling
	* IDevice::prepareModelFromCache or providing cache file descriptors to
	* IDevice::prepareModel_1_2.
	*
	* @return status Error status of the call, must be:
	* - NONE if successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* @return numModelCache An unsigned integer indicating how many files for model cache
	* the driver needs to cache a single prepared model. It must
	* be less than or equal to Constant::MAX_NUMBER_OF_CACHE_FILES.
	* @return numDataCache An unsigned integer indicating how many files for data cache
	* the driver needs to cache a single prepared model. It must
	* be less than or equal to Constant::MAX_NUMBER_OF_CACHE_FILES.
	*/
	getNumberOfCacheFilesNeeded()
	generates (ErrorStatus status, uint32_t numModelCache, uint32_t numDataCache);

	/**
	* Asynchronously creates a prepared model for execution and optionally saves it
	* into cache files.
	*
	* prepareModel is used to make any necessary transformations to or alternative
	* representations to a model for execution, possibly including
	* transformations on the constant data, optimization on the model's graph,
	* or compilation into the device's native binary format. The model itself
	* is not changed.
	*
	* Optionally, caching information may be provided for the driver to save
	* the prepared model to cache files for faster model compilation time
	* when the same model preparation is requested in the future. There are
	* two types of cache file handles provided to the driver: model cache
	* and data cache. For more information on the two types of cache handles,
	* refer to getNumberOfCacheFilesNeeded.
	*
	* The file descriptors must be opened with read and write permission. A file may
	* have any size, and the corresponding file descriptor may have any offset. The
	* driver must truncate a file to zero size before writing to that file. The file
	* descriptors may be closed by the client once the asynchronous preparation has
	* finished. The driver must dup a file descriptor if it wants to get access to
	* the cache file later.
	*
	* The model is prepared asynchronously with respect to the caller. The
	* prepareModel function must verify the inputs to the preparedModel function
	* related to preparing the model (as opposed to saving the prepared model to
	* cache) are correct. If there is an error, prepareModel must immediately invoke
	* the callback with the appropriate ErrorStatus value and nullptr for the
	* IPreparedModel, then return with the same ErrorStatus. If the inputs to the
	* prepareModel function that are related to preparing the model are valid and
	* there is no error, prepareModel must launch an asynchronous task
	* to prepare the model in the background, and immediately return from
	* prepareModel with ErrorStatus::NONE. If the asynchronous task fails to launch,
	* prepareModel must immediately invoke the callback with
	* ErrorStatus::GENERAL_FAILURE and nullptr for the IPreparedModel, then return
	* with ErrorStatus::GENERAL_FAILURE.
	*
	* When the asynchronous task has finished preparing the model, it must
	* immediately invoke the callback function provided as an input to
	* prepareModel. If the model was prepared successfully, the callback object
	* must be invoked with an error status of ErrorStatus::NONE and the
	* produced IPreparedModel object. If an error occurred preparing the model,
	* the callback object must be invoked with the appropriate ErrorStatus
	* value and nullptr for the IPreparedModel.
	*
	* Optionally, the driver may save the prepared model to cache during the
	* asynchronous preparation. Any error that occurs when saving to cache must
	* not affect the status of preparing the model. Even if the input arguments
	* related to the cache may be invalid, or the driver may fail to save to cache,
	* the prepareModel function must finish preparing the model. The driver
	* may choose not to save to cache even if the caching information is
	* provided and valid.
	*
	* The only information that may be unknown to the model at this stage is
	* the shape of the tensors, which may only be known at execution time. As
	* such, some driver services may return partially prepared models, where
	* the prepared model may only be finished when it is paired with a set of
	* inputs to the model. Note that the same prepared model object may be
	* used with different shapes of inputs on different (possibly concurrent)
	* executions.
	*
	* Multiple threads may call prepareModel on the same model concurrently.
	*
	* @param model The model to be prepared for execution.
	* @param preference Indicates the intended execution behavior of a prepared
	* model.
	* @param modelCache A vector of handles with each entry holding exactly one
	* cache file descriptor for the security-sensitive cache. The length of
	* the vector must either be 0 indicating that caching information is not provided,
	* or match the numModelCache returned from getNumberOfCacheFilesNeeded. The cache
	* handles will be provided in the same order when retrieving the
	* preparedModel from cache files with prepareModelFromCache.
	* @param dataCache A vector of handles with each entry holding exactly one
	* cache file descriptor for the constants' cache. The length of
	* the vector must either be 0 indicating that caching information is not provided,
	* or match the numDataCache returned from getNumberOfCacheFilesNeeded. The cache
	* handles will be provided in the same order when retrieving the
	* preparedModel from cache files with prepareModelFromCache.
	* @param token A caching token of length Constant::BYTE_SIZE_OF_CACHE_TOKEN
	* identifying the prepared model. The same token will be provided when retrieving
	* the prepared model from the cache files with prepareModelFromCache.
	* Tokens should be chosen to have a low rate of collision for a particular
	* application. The driver cannot detect a collision; a collision will result
	* in a failed execution or in a successful execution that produces incorrect
	* output values. If both modelCache and dataCache are empty indicating that
	* caching information is not provided, this token must be ignored.
	* @param callback A callback object used to return the error status of
	* preparing the model for execution and the prepared model if
	* successful, nullptr otherwise. The callback object's notify function
	* must be called exactly once, even if the model could not be prepared.
	* @return status Error status of launching a task which prepares the model
	* in the background; must be:
	* - NONE if preparation task is successfully launched
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* - INVALID_ARGUMENT if one of the input arguments related to preparing the
	* model is invalid
	*/
	prepareModel_1_2(Model model, ExecutionPreference preference,
	vec<handle> modelCache, vec<handle> dataCache,
	uint8_t[Constant:BYTE_SIZE_OF_CACHE_TOKEN] token,
	IPreparedModelCallback callback)
	generates (ErrorStatus status);

	/**
	* Creates a prepared model from cache files for execution.
	*
	* prepareModelFromCache is used to retrieve a prepared model directly from
	* cache files to avoid slow model compilation time. There are
	* two types of cache file handles provided to the driver: model cache
	* and data cache. For more information on the two types of cache handles,
	* refer to getNumberOfCacheFilesNeeded.
	*
	* The file descriptors must be opened with read and write permission. A file may
	* have any size, and the corresponding file descriptor may have any offset. The
	* driver must truncate a file to zero size before writing to that file. The file
	* descriptors may be closed by the client once the asynchronous preparation has
	* finished. The driver must dup a file descriptor if it wants to get access to
	* the cache file later.
	*
	* The model is prepared asynchronously with respect to the caller. The
	* prepareModelFromCache function must verify the inputs to the
	* prepareModelFromCache function are correct, and that the security-sensitive
	* cache has not been modified since it was last written by the driver.
	* If there is an error, or if compilation caching is not supported, or if the
	* security-sensitive cache has been modified, prepareModelFromCache must
	* immediately invoke the callback with the appropriate ErrorStatus value and
	* nullptr for the IPreparedModel, then return with the same ErrorStatus. If
	* the inputs to the prepareModelFromCache function are valid, the security-sensitive
	* cache is not modified, and there is no error, prepareModelFromCache must launch an
	* asynchronous task to prepare the model in the background, and immediately return
	* from prepareModelFromCache with ErrorStatus::NONE. If the asynchronous task
	* fails to launch, prepareModelFromCache must immediately invoke the callback
	* with ErrorStatus::GENERAL_FAILURE and nullptr for the IPreparedModel, then
	* return with ErrorStatus::GENERAL_FAILURE.
	*
	* When the asynchronous task has finished preparing the model, it must
	* immediately invoke the callback function provided as an input to
	* prepareModelFromCache. If the model was prepared successfully, the
	* callback object must be invoked with an error status of ErrorStatus::NONE
	* and the produced IPreparedModel object. If an error occurred preparing
	* the model, the callback object must be invoked with the appropriate
	* ErrorStatus value and nullptr for the IPreparedModel.
	*
	* The only information that may be unknown to the model at this stage is
	* the shape of the tensors, which may only be known at execution time. As
	* such, some driver services may return partially prepared models, where
	* the prepared model may only be finished when it is paired with a set of
	* inputs to the model. Note that the same prepared model object may be
	* used with different shapes of inputs on different (possibly concurrent)
	* executions.
	*
	* @param modelCache A vector of handles with each entry holding exactly one
	* cache file descriptor for the security-sensitive cache. The length of
	* the vector must match the numModelCache returned from getNumberOfCacheFilesNeeded.
	* The cache handles will be provided in the same order as with prepareModel_1_2.
	* @param dataCache A vector of handles with each entry holding exactly one
	* cache file descriptor for the constants' cache. The length of the vector
	* must match the numDataCache returned from getNumberOfCacheFilesNeeded.
	* The cache handles will be provided in the same order as with prepareModel_1_2.
	* @param token A caching token of length Constant::BYTE_SIZE_OF_CACHE_TOKEN
	* identifying the prepared model. It is the same token provided when saving
	* the cache files with prepareModel_1_2. Tokens should be chosen
	* to have a low rate of collision for a particular application. The driver
	* cannot detect a collision; a collision will result in a failed execution
	* or in a successful execution that produces incorrect output values.
	* @param callback A callback object used to return the error status of
	* preparing the model for execution and the prepared model if
	* successful, nullptr otherwise. The callback object's notify function
	* must be called exactly once, even if the model could not be prepared.
	* @return status Error status of launching a task which prepares the model
	* in the background; must be:
	* - NONE if preparation task is successfully launched
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if caching is not supported or if there is an
	* unspecified error
	* - INVALID_ARGUMENT if one of the input arguments is invalid
	*/
	prepareModelFromCache(vec<handle> modelCache, vec<handle> dataCache,
	uint8_t[Constant:BYTE_SIZE_OF_CACHE_TOKEN] token,
	IPreparedModelCallback callback)
	generates (ErrorStatus status);
	};