Documentation/crypto/crypto_engine.rst - linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0

 Crypto Engine
 =============

 Overview
 --------
 The crypto engine (CE) API is a crypto queue manager.

 Requirement
 -----------
 You must put, at the start of your transform context your_tfm_ctx, the structure
 crypto_engine:

 ::

 	struct your_tfm_ctx {
 		struct crypto_engine engine;
 		...
 	};

 The crypto engine only manages asynchronous requests in the form of
 crypto_async_request. It cannot know the underlying request type and thus only
 has access to the transform structure. It is not possible to access the context
 using container_of. In addition, the engine knows nothing about your
 structure "``struct your_tfm_ctx``". The engine assumes (requires) the placement
 of the known member ``struct crypto_engine`` at the beginning.

 Order of operations
 -------------------
 You are required to obtain a struct crypto_engine via ``crypto_engine_alloc_init()``.
 Start it via ``crypto_engine_start()``. When finished with your work, shut down the
 engine using ``crypto_engine_stop()`` and destroy the engine with
 ``crypto_engine_exit()``.

 Before transferring any request, you have to fill the context enginectx by
 providing functions for the following:

 * ``prepare_crypt_hardware``: Called once before any prepare functions are
   called.

 * ``unprepare_crypt_hardware``: Called once after all unprepare functions have
   been called.

 * ``prepare_cipher_request``/``prepare_hash_request``: Called before each
   corresponding request is performed. If some processing or other preparatory
   work is required, do it here.

 * ``unprepare_cipher_request``/``unprepare_hash_request``: Called after each
   request is handled. Clean up / undo what was done in the prepare function.

 * ``cipher_one_request``/``hash_one_request``: Handle the current request by
   performing the operation.

 Note that these functions access the crypto_async_request structure
 associated with the received request. You are able to retrieve the original
 request by using:

 ::

 	container_of(areq, struct yourrequesttype_request, base);

 When your driver receives a crypto_request, you must to transfer it to
 the crypto engine via one of:

 * crypto_transfer_aead_request_to_engine()

 * crypto_transfer_akcipher_request_to_engine()

 * crypto_transfer_hash_request_to_engine()

 * crypto_transfer_kpp_request_to_engine()

 * crypto_transfer_skcipher_request_to_engine()

 At the end of the request process, a call to one of the following functions is needed:

 * crypto_finalize_aead_request()

 * crypto_finalize_akcipher_request()

 * crypto_finalize_hash_request()

 * crypto_finalize_kpp_request()

 * crypto_finalize_skcipher_request()
	.. SPDX-License-Identifier: GPL-2.0

	Crypto Engine
	=============

	Overview
	--------
	The crypto engine (CE) API is a crypto queue manager.

	Requirement
	-----------
	You must put, at the start of your transform context your_tfm_ctx, the structure
	crypto_engine:

	::

	struct your_tfm_ctx {
	struct crypto_engine engine;
	...
	};

	The crypto engine only manages asynchronous requests in the form of
	crypto_async_request. It cannot know the underlying request type and thus only
	has access to the transform structure. It is not possible to access the context
	using container_of. In addition, the engine knows nothing about your
	structure "``struct your_tfm_ctx``". The engine assumes (requires) the placement
	of the known member ``struct crypto_engine`` at the beginning.

	Order of operations
	-------------------
	You are required to obtain a struct crypto_engine via ``crypto_engine_alloc_init()``.
	Start it via ``crypto_engine_start()``. When finished with your work, shut down the
	engine using ``crypto_engine_stop()`` and destroy the engine with
	``crypto_engine_exit()``.

	Before transferring any request, you have to fill the context enginectx by
	providing functions for the following:

	* ``prepare_crypt_hardware``: Called once before any prepare functions are
	called.

	* ``unprepare_crypt_hardware``: Called once after all unprepare functions have
	been called.

	* ``prepare_cipher_request``/``prepare_hash_request``: Called before each
	corresponding request is performed. If some processing or other preparatory
	work is required, do it here.

	* ``unprepare_cipher_request``/``unprepare_hash_request``: Called after each
	request is handled. Clean up / undo what was done in the prepare function.

	* ``cipher_one_request``/``hash_one_request``: Handle the current request by
	performing the operation.

	Note that these functions access the crypto_async_request structure
	associated with the received request. You are able to retrieve the original
	request by using:

	::

	container_of(areq, struct yourrequesttype_request, base);

	When your driver receives a crypto_request, you must to transfer it to
	the crypto engine via one of:

	* crypto_transfer_aead_request_to_engine()

	* crypto_transfer_akcipher_request_to_engine()

	* crypto_transfer_hash_request_to_engine()

	* crypto_transfer_kpp_request_to_engine()

	* crypto_transfer_skcipher_request_to_engine()

	At the end of the request process, a call to one of the following functions is needed:

	* crypto_finalize_aead_request()

	* crypto_finalize_akcipher_request()

	* crypto_finalize_hash_request()

	* crypto_finalize_kpp_request()

	* crypto_finalize_skcipher_request()