cregit-Linux how code gets into the kernel

Release 4.7 include/crypto/hash.h

Directory: include/crypto
/*
 * Hash: Hash algorithms under the crypto API
 * 
 * Copyright (c) 2008 Herbert Xu <herbert@gondor.apana.org.au>
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License as published by the Free
 * Software Foundation; either version 2 of the License, or (at your option) 
 * any later version.
 *
 */

#ifndef _CRYPTO_HASH_H

#define _CRYPTO_HASH_H

#include <linux/crypto.h>
#include <linux/string.h>

struct crypto_ahash;

/**
 * DOC: Message Digest Algorithm Definitions
 *
 * These data structures define modular message digest algorithm
 * implementations, managed via crypto_register_ahash(),
 * crypto_register_shash(), crypto_unregister_ahash() and
 * crypto_unregister_shash().
 */

/**
 * struct hash_alg_common - define properties of message digest
 * @digestsize: Size of the result of the transformation. A buffer of this size
 *              must be available to the @final and @finup calls, so they can
 *              store the resulting hash into it. For various predefined sizes,
 *              search include/crypto/ using
 *              git grep _DIGEST_SIZE include/crypto.
 * @statesize: Size of the block for partial state of the transformation. A
 *             buffer of this size must be passed to the @export function as it
 *             will save the partial state of the transformation into it. On the
 *             other side, the @import function will load the state from a
 *             buffer of this size as well.
 * @base: Start of data structure of cipher algorithm. The common data
 *        structure of crypto_alg contains information common to all ciphers.
 *        The hash_alg_common data structure now adds the hash-specific
 *        information.
 */

struct hash_alg_common {
	
unsigned int digestsize;
	
unsigned int statesize;

	
struct crypto_alg base;
};


struct ahash_request {
	
struct crypto_async_request base;

	
unsigned int nbytes;
	
struct scatterlist *src;
	
u8 *result;

	/* This field may only be used by the ahash API code. */
	
void *priv;

	
void *__ctx[] CRYPTO_MINALIGN_ATTR;
};


#define AHASH_REQUEST_ON_STACK(name, ahash) \
	char __##name##_desc[sizeof(struct ahash_request) + \
                crypto_ahash_reqsize(ahash)] CRYPTO_MINALIGN_ATTR; \
        struct ahash_request *name = (void *)__##name##_desc

/**
 * struct ahash_alg - asynchronous message digest definition
 * @init: Initialize the transformation context. Intended only to initialize the
 *        state of the HASH transformation at the beginning. This shall fill in
 *        the internal structures used during the entire duration of the whole
 *        transformation. No data processing happens at this point.
 * @update: Push a chunk of data into the driver for transformation. This
 *         function actually pushes blocks of data from upper layers into the
 *         driver, which then passes those to the hardware as seen fit. This
 *         function must not finalize the HASH transformation by calculating the
 *         final message digest as this only adds more data into the
 *         transformation. This function shall not modify the transformation
 *         context, as this function may be called in parallel with the same
 *         transformation object. Data processing can happen synchronously
 *         [SHASH] or asynchronously [AHASH] at this point.
 * @final: Retrieve result from the driver. This function finalizes the
 *         transformation and retrieves the resulting hash from the driver and
 *         pushes it back to upper layers. No data processing happens at this
 *         point.
 * @finup: Combination of @update and @final. This function is effectively a
 *         combination of @update and @final calls issued in sequence. As some
 *         hardware cannot do @update and @final separately, this callback was
 *         added to allow such hardware to be used at least by IPsec. Data
 *         processing can happen synchronously [SHASH] or asynchronously [AHASH]
 *         at this point.
 * @digest: Combination of @init and @update and @final. This function
 *          effectively behaves as the entire chain of operations, @init,
 *          @update and @final issued in sequence. Just like @finup, this was
 *          added for hardware which cannot do even the @finup, but can only do
 *          the whole transformation in one run. Data processing can happen
 *          synchronously [SHASH] or asynchronously [AHASH] at this point.
 * @setkey: Set optional key used by the hashing algorithm. Intended to push
 *          optional key used by the hashing algorithm from upper layers into
 *          the driver. This function can store the key in the transformation
 *          context or can outright program it into the hardware. In the former
 *          case, one must be careful to program the key into the hardware at
 *          appropriate time and one must be careful that .setkey() can be
 *          called multiple times during the existence of the transformation
 *          object. Not  all hashing algorithms do implement this function as it
 *          is only needed for keyed message digests. SHAx/MDx/CRCx do NOT
 *          implement this function. HMAC(MDx)/HMAC(SHAx)/CMAC(AES) do implement
 *          this function. This function must be called before any other of the
 *          @init, @update, @final, @finup, @digest is called. No data
 *          processing happens at this point.
 * @export: Export partial state of the transformation. This function dumps the
 *          entire state of the ongoing transformation into a provided block of
 *          data so it can be @import 'ed back later on. This is useful in case
 *          you want to save partial result of the transformation after
 *          processing certain amount of data and reload this partial result
 *          multiple times later on for multiple re-use. No data processing
 *          happens at this point.
 * @import: Import partial state of the transformation. This function loads the
 *          entire state of the ongoing transformation from a provided block of
 *          data so the transformation can continue from this point onward. No
 *          data processing happens at this point.
 * @halg: see struct hash_alg_common
 */

struct ahash_alg {
	
int (*init)(struct ahash_request *req);
	
int (*update)(struct ahash_request *req);
	
int (*final)(struct ahash_request *req);
	
int (*finup)(struct ahash_request *req);
	
int (*digest)(struct ahash_request *req);
	
int (*export)(struct ahash_request *req, void *out);
	
int (*import)(struct ahash_request *req, const void *in);
	
int (*setkey)(struct crypto_ahash *tfm, const u8 *key,
		      unsigned int keylen);

	
struct hash_alg_common halg;
};


struct shash_desc {
	
struct crypto_shash *tfm;
	
u32 flags;

	
void *__ctx[] CRYPTO_MINALIGN_ATTR;
};


#define SHASH_DESC_ON_STACK(shash, ctx)				  \
	char __##shash##_desc[sizeof(struct shash_desc) +         \
                crypto_shash_descsize(ctx)] CRYPTO_MINALIGN_ATTR; \
        struct shash_desc *shash = (struct shash_desc *)__##shash##_desc

/**
 * struct shash_alg - synchronous message digest definition
 * @init: see struct ahash_alg
 * @update: see struct ahash_alg
 * @final: see struct ahash_alg
 * @finup: see struct ahash_alg
 * @digest: see struct ahash_alg
 * @export: see struct ahash_alg
 * @import: see struct ahash_alg
 * @setkey: see struct ahash_alg
 * @digestsize: see struct ahash_alg
 * @statesize: see struct ahash_alg
 * @descsize: Size of the operational state for the message digest. This state
 *            size is the memory size that needs to be allocated for
 *            shash_desc.__ctx
 * @base: internally used
 */

struct shash_alg {
	
int (*init)(struct shash_desc *desc);
	
int (*update)(struct shash_desc *desc, const u8 *data,
		      unsigned int len);
	
int (*final)(struct shash_desc *desc, u8 *out);
	
int (*finup)(struct shash_desc *desc, const u8 *data,
		     unsigned int len, u8 *out);
	
int (*digest)(struct shash_desc *desc, const u8 *data,
		      unsigned int len, u8 *out);
	
int (*export)(struct shash_desc *desc, void *out);
	
int (*import)(struct shash_desc *desc, const void *in);
	
int (*setkey)(struct crypto_shash *tfm, const u8 *key,
		      unsigned int keylen);

	
unsigned int descsize;

	/* These fields must match hash_alg_common. */
	
unsigned int digestsize
		__attribute__ ((aligned(__alignof__(struct hash_alg_common))));
	
unsigned int statesize;

	
struct crypto_alg base;
};


struct crypto_ahash {
	
int (*init)(struct ahash_request *req);
	
int (*update)(struct ahash_request *req);
	
int (*final)(struct ahash_request *req);
	
int (*finup)(struct ahash_request *req);
	
int (*digest)(struct ahash_request *req);
	
int (*export)(struct ahash_request *req, void *out);
	
int (*import)(struct ahash_request *req, const void *in);
	
int (*setkey)(struct crypto_ahash *tfm, const u8 *key,
		      unsigned int keylen);

	
unsigned int reqsize;
	
bool has_setkey;
	
struct crypto_tfm base;
};


struct crypto_shash {
	
unsigned int descsize;
	
struct crypto_tfm base;
};

/**
 * DOC: Asynchronous Message Digest API
 *
 * The asynchronous message digest API is used with the ciphers of type
 * CRYPTO_ALG_TYPE_AHASH (listed as type "ahash" in /proc/crypto)
 *
 * The asynchronous cipher operation discussion provided for the
 * CRYPTO_ALG_TYPE_ABLKCIPHER API applies here as well.
 */


static inline struct crypto_ahash *__crypto_ahash_cast(struct crypto_tfm *tfm) { return container_of(tfm, struct crypto_ahash, base); }

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/** * crypto_alloc_ahash() - allocate ahash cipher handle * @alg_name: is the cra_name / name or cra_driver_name / driver name of the * ahash cipher * @type: specifies the type of the cipher * @mask: specifies the mask for the cipher * * Allocate a cipher handle for an ahash. The returned struct * crypto_ahash is the cipher handle that is required for any subsequent * API invocation for that ahash. * * Return: allocated cipher handle in case of success; IS_ERR() is true in case * of an error, PTR_ERR() returns the error code. */ struct crypto_ahash *crypto_alloc_ahash(const char *alg_name, u32 type, u32 mask);
static inline struct crypto_tfm *crypto_ahash_tfm(struct crypto_ahash *tfm) { return &tfm->base; }

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/** * crypto_free_ahash() - zeroize and free the ahash handle * @tfm: cipher handle to be freed */
static inline void crypto_free_ahash(struct crypto_ahash *tfm) { crypto_destroy_tfm(tfm, crypto_ahash_tfm(tfm)); }

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/** * crypto_has_ahash() - Search for the availability of an ahash. * @alg_name: is the cra_name / name or cra_driver_name / driver name of the * ahash * @type: specifies the type of the ahash * @mask: specifies the mask for the ahash * * Return: true when the ahash is known to the kernel crypto API; false * otherwise */ int crypto_has_ahash(const char *alg_name, u32 type, u32 mask);
static inline const char *crypto_ahash_alg_name(struct crypto_ahash *tfm) { return crypto_tfm_alg_name(crypto_ahash_tfm(tfm)); }

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static inline const char *crypto_ahash_driver_name(struct crypto_ahash *tfm) { return crypto_tfm_alg_driver_name(crypto_ahash_tfm(tfm)); }

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static inline unsigned int crypto_ahash_alignmask( struct crypto_ahash *tfm) { return crypto_tfm_alg_alignmask(crypto_ahash_tfm(tfm)); }

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/** * crypto_ahash_blocksize() - obtain block size for cipher * @tfm: cipher handle * * The block size for the message digest cipher referenced with the cipher * handle is returned. * * Return: block size of cipher */
static inline unsigned int crypto_ahash_blocksize(struct crypto_ahash *tfm) { return crypto_tfm_alg_blocksize(crypto_ahash_tfm(tfm)); }

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static inline struct hash_alg_common *__crypto_hash_alg_common( struct crypto_alg *alg) { return container_of(alg, struct hash_alg_common, base); }

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static inline struct hash_alg_common *crypto_hash_alg_common( struct crypto_ahash *tfm) { return __crypto_hash_alg_common(crypto_ahash_tfm(tfm)->__crt_alg); }

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/** * crypto_ahash_digestsize() - obtain message digest size * @tfm: cipher handle * * The size for the message digest created by the message digest cipher * referenced with the cipher handle is returned. * * * Return: message digest size of cipher */
static inline unsigned int crypto_ahash_digestsize(struct crypto_ahash *tfm) { return crypto_hash_alg_common(tfm)->digestsize; }

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static inline unsigned int crypto_ahash_statesize(struct crypto_ahash *tfm) { return crypto_hash_alg_common(tfm)->statesize; }

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static inline u32 crypto_ahash_get_flags(struct crypto_ahash *tfm) { return crypto_tfm_get_flags(crypto_ahash_tfm(tfm)); }

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static inline void crypto_ahash_set_flags(struct crypto_ahash *tfm, u32 flags) { crypto_tfm_set_flags(crypto_ahash_tfm(tfm), flags); }

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static inline void crypto_ahash_clear_flags(struct crypto_ahash *tfm, u32 flags) { crypto_tfm_clear_flags(crypto_ahash_tfm(tfm), flags); }

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/** * crypto_ahash_reqtfm() - obtain cipher handle from request * @req: asynchronous request handle that contains the reference to the ahash * cipher handle * * Return the ahash cipher handle that is registered with the asynchronous * request handle ahash_request. * * Return: ahash cipher handle */
static inline struct crypto_ahash *crypto_ahash_reqtfm( struct ahash_request *req) { return __crypto_ahash_cast(req->base.tfm); }

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/** * crypto_ahash_reqsize() - obtain size of the request data structure * @tfm: cipher handle * * Return the size of the ahash state size. With the crypto_ahash_export * function, the caller can export the state into a buffer whose size is * defined with this function. * * Return: size of the ahash state */
static inline unsigned int crypto_ahash_reqsize(struct crypto_ahash *tfm) { return tfm->reqsize; }

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static inline void *ahash_request_ctx(struct ahash_request *req) { return req->__ctx; }

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/** * crypto_ahash_setkey - set key for cipher handle * @tfm: cipher handle * @key: buffer holding the key * @keylen: length of the key in bytes * * The caller provided key is set for the ahash cipher. The cipher * handle must point to a keyed hash in order for this function to succeed. * * Return: 0 if the setting of the key was successful; < 0 if an error occurred */ int crypto_ahash_setkey(struct crypto_ahash *tfm, const u8 *key, unsigned int keylen);
static inline bool crypto_ahash_has_setkey(struct crypto_ahash *tfm) { return tfm->has_setkey; }

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/** * crypto_ahash_finup() - update and finalize message digest * @req: reference to the ahash_request handle that holds all information * needed to perform the cipher operation * * This function is a "short-hand" for the function calls of * crypto_ahash_update and crypto_shash_final. The parameters have the same * meaning as discussed for those separate functions. * * Return: 0 if the message digest creation was successful; < 0 if an error * occurred */ int crypto_ahash_finup(struct ahash_request *req); /** * crypto_ahash_final() - calculate message digest * @req: reference to the ahash_request handle that holds all information * needed to perform the cipher operation * * Finalize the message digest operation and create the message digest * based on all data added to the cipher handle. The message digest is placed * into the output buffer registered with the ahash_request handle. * * Return: 0 if the message digest creation was successful; < 0 if an error * occurred */ int crypto_ahash_final(struct ahash_request *req); /** * crypto_ahash_digest() - calculate message digest for a buffer * @req: reference to the ahash_request handle that holds all information * needed to perform the cipher operation * * This function is a "short-hand" for the function calls of crypto_ahash_init, * crypto_ahash_update and crypto_ahash_final. The parameters have the same * meaning as discussed for those separate three functions. * * Return: 0 if the message digest creation was successful; < 0 if an error * occurred */ int crypto_ahash_digest(struct ahash_request *req); /** * crypto_ahash_export() - extract current message digest state * @req: reference to the ahash_request handle whose state is exported * @out: output buffer of sufficient size that can hold the hash state * * This function exports the hash state of the ahash_request handle into the * caller-allocated output buffer out which must have sufficient size (e.g. by * calling crypto_ahash_reqsize). * * Return: 0 if the export was successful; < 0 if an error occurred */
static inline int crypto_ahash_export(struct ahash_request *req, void *out) { return crypto_ahash_reqtfm(req)->export(req, out); }

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/** * crypto_ahash_import() - import message digest state * @req: reference to ahash_request handle the state is imported into * @in: buffer holding the state * * This function imports the hash state into the ahash_request handle from the * input buffer. That buffer should have been generated with the * crypto_ahash_export function. * * Return: 0 if the import was successful; < 0 if an error occurred */
static inline int crypto_ahash_import(struct ahash_request *req, const void *in) { return crypto_ahash_reqtfm(req)->import(req, in); }

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/** * crypto_ahash_init() - (re)initialize message digest handle * @req: ahash_request handle that already is initialized with all necessary * data using the ahash_request_* API functions * * The call (re-)initializes the message digest referenced by the ahash_request * handle. Any potentially existing state created by previous operations is * discarded. * * Return: 0 if the message digest initialization was successful; < 0 if an * error occurred */
static inline int crypto_ahash_init(struct ahash_request *req) { return crypto_ahash_reqtfm(req)->init(req); }

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/** * crypto_ahash_update() - add data to message digest for processing * @req: ahash_request handle that was previously initialized with the * crypto_ahash_init call. * * Updates the message digest state of the &ahash_request handle. The input data * is pointed to by the scatter/gather list registered in the &ahash_request * handle * * Return: 0 if the message digest update was successful; < 0 if an error * occurred */
static inline int crypto_ahash_update(struct ahash_request *req) { return crypto_ahash_reqtfm(req)->update(req); }

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/** * DOC: Asynchronous Hash Request Handle * * The &ahash_request data structure contains all pointers to data * required for the asynchronous cipher operation. This includes the cipher * handle (which can be used by multiple &ahash_request instances), pointer * to plaintext and the message digest output buffer, asynchronous callback * function, etc. It acts as a handle to the ahash_request_* API calls in a * similar way as ahash handle to the crypto_ahash_* API calls. */ /** * ahash_request_set_tfm() - update cipher handle reference in request * @req: request handle to be modified * @tfm: cipher handle that shall be added to the request handle * * Allow the caller to replace the existing ahash handle in the request * data structure with a different one. */
static inline void ahash_request_set_tfm(struct ahash_request *req, struct crypto_ahash *tfm) { req->base.tfm = crypto_ahash_tfm(tfm); }

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/** * ahash_request_alloc() - allocate request data structure * @tfm: cipher handle to be registered with the request * @gfp: memory allocation flag that is handed to kmalloc by the API call. * * Allocate the request data structure that must be used with the ahash * message digest API calls. During * the allocation, the provided ahash handle * is registered in the request data structure. * * Return: allocated request handle in case of success, or NULL if out of memory */
static inline struct ahash_request *ahash_request_alloc( struct crypto_ahash *tfm, gfp_t gfp) { struct ahash_request *req; req = kmalloc(sizeof(struct ahash_request) + crypto_ahash_reqsize(tfm), gfp); if (likely(req)) ahash_request_set_tfm(req, tfm); return req; }

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/** * ahash_request_free() - zeroize and free the request data structure * @req: request data structure cipher handle to be freed */
static inline void ahash_request_free(struct ahash_request *req) { kzfree(req); }

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static inline void ahash_request_zero(struct ahash_request *req) { memzero_explicit(req, sizeof(*req) + crypto_ahash_reqsize(crypto_ahash_reqtfm(req))); }

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static inline struct ahash_request *ahash_request_cast( struct crypto_async_request *req) { return container_of(req, struct ahash_request, base); }

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/** * ahash_request_set_callback() - set asynchronous callback function * @req: request handle * @flags: specify zero or an ORing of the flags * CRYPTO_TFM_REQ_MAY_BACKLOG the request queue may back log and * increase the wait queue beyond the initial maximum size; * CRYPTO_TFM_REQ_MAY_SLEEP the request processing may sleep * @compl: callback function pointer to be registered with the request handle * @data: The data pointer refers to memory that is not used by the kernel * crypto API, but provided to the callback function for it to use. Here, * the caller can provide a reference to memory the callback function can * operate on. As the callback function is invoked asynchronously to the * related functionality, it may need to access data structures of the * related functionality which can be referenced using this pointer. The * callback function can access the memory via the "data" field in the * &crypto_async_request data structure provided to the callback function. * * This function allows setting the callback function that is triggered once * the cipher operation completes. * * The callback function is registered with the &ahash_request handle and * must comply with the following template * * void callback_function(struct crypto_async_request *req, int error) */
static inline void ahash_request_set_callback(struct ahash_request *req, u32 flags, crypto_completion_t compl, void *data) { req->base.complete = compl; req->base.data = data; req->base.flags = flags; }

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/** * ahash_request_set_crypt() - set data buffers * @req: ahash_request handle to be updated * @src: source scatter/gather list * @result: buffer that is filled with the message digest -- the caller must * ensure that the buffer has sufficient space by, for example, calling * crypto_ahash_digestsize() * @nbytes: number of bytes to process from the source scatter/gather list * * By using this call, the caller references the source scatter/gather list. * The source scatter/gather list points to the data the message digest is to * be calculated for. */
static inline void ahash_request_set_crypt(struct ahash_request *req, struct scatterlist *src, u8 *result, unsigned int nbytes) { req->src = src; req->nbytes = nbytes; req->result = result; }

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/** * DOC: Synchronous Message Digest API * * The synchronous message digest API is used with the ciphers of type * CRYPTO_ALG_TYPE_SHASH (listed as type "shash" in /proc/crypto) * * The message digest API is able to maintain state information for the * caller. * * The synchronous message digest API can store user-related context in in its * shash_desc request data structure. */ /** * crypto_alloc_shash() - allocate message digest handle * @alg_name: is the cra_name / name or cra_driver_name / driver name of the * message digest cipher * @type: specifies the type of the cipher * @mask: specifies the mask for the cipher * * Allocate a cipher handle for a message digest. The returned &struct * crypto_shash is the cipher handle that is required for any subsequent * API invocation for that message digest. * * Return: allocated cipher handle in case of success; IS_ERR() is true in case * of an error, PTR_ERR() returns the error code. */ struct crypto_shash *crypto_alloc_shash(const char *alg_name, u32 type, u32 mask);
static inline struct crypto_tfm *crypto_shash_tfm(struct crypto_shash *tfm) { return &tfm->base; }

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/** * crypto_free_shash() - zeroize and free the message digest handle * @tfm: cipher handle to be freed */
static inline void crypto_free_shash(struct crypto_shash *tfm) { crypto_destroy_tfm(tfm, crypto_shash_tfm(tfm)); }

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static inline const char *crypto_shash_alg_name(struct crypto_shash *tfm) { return crypto_tfm_alg_name(crypto_shash_tfm(tfm)); }

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static inline const char *crypto_shash_driver_name(struct crypto_shash *tfm) { return crypto_tfm_alg_driver_name(crypto_shash_tfm(tfm)); }

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herbert xuherbert xu23100.00%1100.00%
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static inline unsigned int crypto_shash_alignmask( struct crypto_shash *tfm) { return crypto_tfm_alg_alignmask(crypto_shash_tfm(tfm)); }

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herbert xuherbert xu22100.00%1100.00%
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/** * crypto_shash_blocksize() - obtain block size for cipher * @tfm: cipher handle * * The block size for the message digest cipher referenced with the cipher * handle is returned. * * Return: block size of cipher */
static inline unsigned int crypto_shash_blocksize(struct crypto_shash *tfm) { return crypto_tfm_alg_blocksize(crypto_shash_tfm(tfm)); }

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herbert xuherbert xu22100.00%1100.00%
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static inline struct shash_alg *__crypto_shash_alg(struct crypto_alg *alg) { return container_of(alg, struct shash_alg, base); }

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static inline struct shash_alg *crypto_shash_alg(struct crypto_shash *tfm) { return __crypto_shash_alg(crypto_shash_tfm(tfm)->__crt_alg); }

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herbert xuherbert xu25100.00%1100.00%
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/** * crypto_shash_digestsize() - obtain message digest size * @tfm: cipher handle * * The size for the message digest created by the message digest cipher * referenced with the cipher handle is returned. * * Return: digest size of cipher */
static inline unsigned int crypto_shash_digestsize(struct crypto_shash *tfm) { return crypto_shash_alg(tfm)->digestsize; }

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herbert xuherbert xu21100.00%1100.00%
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static inline unsigned int crypto_shash_statesize(struct crypto_shash *tfm) { return crypto_shash_alg(tfm)->statesize; }

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herbert xuherbert xu21100.00%1100.00%
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static inline u32 crypto_shash_get_flags(struct crypto_shash *tfm) { return crypto_tfm_get_flags(crypto_shash_tfm(tfm)); }

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herbert xuherbert xu21100.00%1100.00%
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static inline void crypto_shash_set_flags(struct crypto_shash *tfm, u32 flags) { crypto_tfm_set_flags(crypto_shash_tfm(tfm), flags); }

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static inline void crypto_shash_clear_flags(struct crypto_shash *tfm, u32 flags) { crypto_tfm_clear_flags(crypto_shash_tfm(tfm), flags); }

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herbert xuherbert xu25100.00%1100.00%
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/** * crypto_shash_descsize() - obtain the operational state size * @tfm: cipher handle * * The size of the operational state the cipher needs during operation is * returned for the hash referenced with the cipher handle. This size is * required to calculate the memory requirements to allow the caller allocating * sufficient memory for operational state. * * The operational state is defined with struct shash_desc where the size of * that data structure is to be calculated as * sizeof(struct shash_desc) + crypto_shash_descsize(alg) * * Return: size of the operational state */
static inline unsigned int crypto_shash_descsize(struct crypto_shash *tfm) { return tfm->descsize; }

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herbert xuherbert xu18100.00%1100.00%
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static inline void *shash_desc_ctx(struct shash_desc *desc) { return desc->__ctx; }

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herbert xuherbert xu18100.00%1100.00%
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/** * crypto_shash_setkey() - set key for message digest * @tfm: cipher handle * @key: buffer holding the key * @keylen: length of the key in bytes * * The caller provided key is set for the keyed message digest cipher. The * cipher handle must point to a keyed message digest cipher in order for this * function to succeed. * * Return: 0 if the setting of the key was successful; < 0 if an error occurred */ int crypto_shash_setkey(struct crypto_shash *tfm, const u8 *key, unsigned int keylen); /** * crypto_shash_digest() - calculate message digest for buffer * @desc: see crypto_shash_final() * @data: see crypto_shash_update() * @len: see crypto_shash_update() * @out: see crypto_shash_final() * * This function is a "short-hand" for the function calls of crypto_shash_init, * crypto_shash_update and crypto_shash_final. The parameters have the same * meaning as discussed for those separate three functions. * * Return: 0 if the message digest creation was successful; < 0 if an error * occurred */ int crypto_shash_digest(struct shash_desc *desc, const u8 *data, unsigned int len, u8 *out); /** * crypto_shash_export() - extract operational state for message digest * @desc: reference to the operational state handle whose state is exported * @out: output buffer of sufficient size that can hold the hash state * * This function exports the hash state of the operational state handle into the * caller-allocated output buffer out which must have sufficient size (e.g. by * calling crypto_shash_descsize). * * Return: 0 if the export creation was successful; < 0 if an error occurred */
static inline int crypto_shash_export(struct shash_desc *desc, void *out) { return crypto_shash_alg(desc->tfm)->export(desc, out); }

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herbert xuherbert xu31100.00%2100.00%
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/** * crypto_shash_import() - import operational state * @desc: reference to the operational state handle the state imported into * @in: buffer holding the state * * This function imports the hash state into the operational state handle from * the input buffer. That buffer should have been generated with the * crypto_ahash_export function. * * Return: 0 if the import was successful; < 0 if an error occurred */
static inline int crypto_shash_import(struct shash_desc *desc, const void *in) { return crypto_shash_alg(desc->tfm)->import(desc, in); }

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herbert xuherbert xu32100.00%2100.00%
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/** * crypto_shash_init() - (re)initialize message digest * @desc: operational state handle that is already filled * * The call (re-)initializes the message digest referenced by the * operational state handle. Any potentially existing state created by * previous operations is discarded. * * Return: 0 if the message digest initialization was successful; < 0 if an * error occurred */
static inline int crypto_shash_init(struct shash_desc *desc) { return crypto_shash_alg(desc->tfm)->init(desc); }

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herbert xuherbert xu25100.00%1100.00%
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/** * crypto_shash_update() - add data to message digest for processing * @desc: operational state handle that is already initialized * @data: input data to be added to the message digest * @len: length of the input data * * Updates the message digest state of the operational state handle. * * Return: 0 if the message digest update was successful; < 0 if an error * occurred */ int crypto_shash_update(struct shash_desc *desc, const u8 *data, unsigned int len); /** * crypto_shash_final() - calculate message digest * @desc: operational state handle that is already filled with data * @out: output buffer filled with the message digest * * Finalize the message digest operation and create the message digest * based on all data added to the cipher handle. The message digest is placed * into the output buffer. The caller must ensure that the output buffer is * large enough by using crypto_shash_digestsize. * * Return: 0 if the message digest creation was successful; < 0 if an error * occurred */ int crypto_shash_final(struct shash_desc *desc, u8 *out); /** * crypto_shash_finup() - calculate message digest of buffer * @desc: see crypto_shash_final() * @data: see crypto_shash_update() * @len: see crypto_shash_update() * @out: see crypto_shash_final() * * This function is a "short-hand" for the function calls of * crypto_shash_update and crypto_shash_final. The parameters have the same * meaning as discussed for those separate functions. * * Return: 0 if the message digest creation was successful; < 0 if an error * occurred */ int crypto_shash_finup(struct shash_desc *desc, const u8 *data, unsigned int len, u8 *out);
static inline void shash_desc_zero(struct shash_desc *desc) { memzero_explicit(desc, sizeof(*desc) + crypto_shash_descsize(desc->tfm)); }

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#endif /* _CRYPTO_HASH_H */

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herbert xuherbert xu193797.48%1970.37%
stephan muellerstephan mueller361.81%414.81%
behan websterbehan webster100.50%13.70%
mark d. rustadmark d. rustad20.10%13.70%
masanari iidamasanari iida10.05%13.70%
eric biggerseric biggers10.05%13.70%
Total1987100.00%27100.00%
Directory: include/crypto
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