src/include/ipxe/crypto.h - ipxe - Git at Google

 #ifndef _IPXE_CRYPTO_H
 #define _IPXE_CRYPTO_H

 /** @file
  *
  * Cryptographic API
  *
  */

 FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

 #include <stdint.h>
 #include <stddef.h>

 /** A message digest algorithm */
 struct digest_algorithm {
 	/** Algorithm name */
 	const char *name;
 	/** Context size */
 	size_t ctxsize;
 	/** Block size */
 	size_t blocksize;
 	/** Digest size */
 	size_t digestsize;
 	/** Initialise digest
 	 *
 	 * @v ctx		Context
 	 */
 	void ( * init ) ( void *ctx );
 	/** Update digest with new data
 	 *
 	 * @v ctx		Context
 	 * @v src		Data to digest
 	 * @v len		Length of data
 	 *
 	 * @v len is not necessarily a multiple of @c blocksize.
 	 */
 	void ( * update ) ( void *ctx, const void *src, size_t len );
 	/** Finalise digest
 	 *
 	 * @v ctx		Context
 	 * @v out		Buffer for digest output
 	 */
 	void ( * final ) ( void *ctx, void *out );
 };

 /** A cipher algorithm */
 struct cipher_algorithm {
 	/** Algorithm name */
 	const char *name;
 	/** Context size */
 	size_t ctxsize;
 	/** Block size */
 	size_t blocksize;
 	/** Set key
 	 *
 	 * @v ctx		Context
 	 * @v key		Key
 	 * @v keylen		Key length
 	 * @ret rc		Return status code
 	 */
 	int ( * setkey ) ( void *ctx, const void *key, size_t keylen );
 	/** Set initialisation vector
 	 *
 	 * @v ctx		Context
 	 * @v iv		Initialisation vector
 	 */
 	void ( * setiv ) ( void *ctx, const void *iv );
 	/** Encrypt data
 	 *
 	 * @v ctx		Context
 	 * @v src		Data to encrypt
 	 * @v dst		Buffer for encrypted data
 	 * @v len		Length of data
 	 *
 	 * @v len is guaranteed to be a multiple of @c blocksize.
 	 */
 	void ( * encrypt ) ( void *ctx, const void *src, void *dst,
 			     size_t len );
 	/** Decrypt data
 	 *
 	 * @v ctx		Context
 	 * @v src		Data to decrypt
 	 * @v dst		Buffer for decrypted data
 	 * @v len		Length of data
 	 *
 	 * @v len is guaranteed to be a multiple of @c blocksize.
 	 */
 	void ( * decrypt ) ( void *ctx, const void *src, void *dst,
 			     size_t len );
 };

 /** A public key algorithm */
 struct pubkey_algorithm {
 	/** Algorithm name */
 	const char *name;
 	/** Context size */
 	size_t ctxsize;
 	/** Initialise algorithm
 	 *
 	 * @v ctx		Context
 	 * @v key		Key
 	 * @v key_len		Length of key
 	 * @ret rc		Return status code
 	 */
 	int ( * init ) ( void *ctx, const void *key, size_t key_len );
 	/** Calculate maximum output length
 	 *
 	 * @v ctx		Context
 	 * @ret max_len		Maximum output length
 	 */
 	size_t ( * max_len ) ( void *ctx );
 	/** Encrypt
 	 *
 	 * @v ctx		Context
 	 * @v plaintext		Plaintext
 	 * @v plaintext_len	Length of plaintext
 	 * @v ciphertext	Ciphertext
 	 * @ret ciphertext_len	Length of ciphertext, or negative error
 	 */
 	int ( * encrypt ) ( void *ctx, const void *data, size_t len,
 			    void *out );
 	/** Decrypt
 	 *
 	 * @v ctx		Context
 	 * @v ciphertext	Ciphertext
 	 * @v ciphertext_len	Ciphertext length
 	 * @v plaintext		Plaintext
 	 * @ret plaintext_len	Plaintext length, or negative error
 	 */
 	int ( * decrypt ) ( void *ctx, const void *data, size_t len,
 			    void *out );
 	/** Sign digest value
 	 *
 	 * @v ctx		Context
 	 * @v digest		Digest algorithm
 	 * @v value		Digest value
 	 * @v signature		Signature
 	 * @ret signature_len	Signature length, or negative error
 	 */
 	int ( * sign ) ( void *ctx, struct digest_algorithm *digest,
 			 const void *value, void *signature );
 	/** Verify signed digest value
 	 *
 	 * @v ctx		Context
 	 * @v digest		Digest algorithm
 	 * @v value		Digest value
 	 * @v signature		Signature
 	 * @v signature_len	Signature length
 	 * @ret rc		Return status code
 	 */
 	int ( * verify ) ( void *ctx, struct digest_algorithm *digest,
 			   const void *value, const void *signature,
 			   size_t signature_len );
 	/** Finalise algorithm
 	 *
 	 * @v ctx		Context
 	 */
 	void ( * final ) ( void *ctx );
 	/** Check that public key matches private key
 	 *
 	 * @v private_key	Private key
 	 * @v private_key_len	Private key length
 	 * @v public_key	Public key
 	 * @v public_key_len	Public key length
 	 * @ret rc		Return status code
 	 */
 	int ( * match ) ( const void *private_key, size_t private_key_len,
 			  const void *public_key, size_t public_key_len );
 };

 static inline void digest_init ( struct digest_algorithm *digest,
 				 void *ctx ) {
 	digest->init ( ctx );
 }

 static inline void digest_update ( struct digest_algorithm *digest,
 				   void *ctx, const void *data, size_t len ) {
 	digest->update ( ctx, data, len );
 }

 static inline void digest_final ( struct digest_algorithm *digest,
 				  void *ctx, void *out ) {
 	digest->final ( ctx, out );
 }

 static inline int cipher_setkey ( struct cipher_algorithm *cipher,
 				  void *ctx, const void *key, size_t keylen ) {
 	return cipher->setkey ( ctx, key, keylen );
 }

 static inline void cipher_setiv ( struct cipher_algorithm *cipher,
 				  void *ctx, const void *iv ) {
 	cipher->setiv ( ctx, iv );
 }

 static inline void cipher_encrypt ( struct cipher_algorithm *cipher,
 				    void *ctx, const void *src, void *dst,
 				    size_t len ) {
 	cipher->encrypt ( ctx, src, dst, len );
 }
 #define cipher_encrypt( cipher, ctx, src, dst, len ) do {		\
 	assert ( ( (len) & ( (cipher)->blocksize - 1 ) ) == 0 );	\
 	cipher_encrypt ( (cipher), (ctx), (src), (dst), (len) );	\
 	} while ( 0 )

 static inline void cipher_decrypt ( struct cipher_algorithm *cipher,
 				    void *ctx, const void *src, void *dst,
 				    size_t len ) {
 	cipher->decrypt ( ctx, src, dst, len );
 }
 #define cipher_decrypt( cipher, ctx, src, dst, len ) do {		\
 	assert ( ( (len) & ( (cipher)->blocksize - 1 ) ) == 0 );	\
 	cipher_decrypt ( (cipher), (ctx), (src), (dst), (len) );	\
 	} while ( 0 )

 static inline int is_stream_cipher ( struct cipher_algorithm *cipher ) {
 	return ( cipher->blocksize == 1 );
 }

 static inline int pubkey_init ( struct pubkey_algorithm *pubkey, void *ctx,
 				const void *key, size_t key_len ) {
 	return pubkey->init ( ctx, key, key_len );
 }

 static inline size_t pubkey_max_len ( struct pubkey_algorithm *pubkey,
 				      void *ctx ) {
 	return pubkey->max_len ( ctx );
 }

 static inline int pubkey_encrypt ( struct pubkey_algorithm *pubkey, void *ctx,
 				   const void *data, size_t len, void *out ) {
 	return pubkey->encrypt ( ctx, data, len, out );
 }

 static inline int pubkey_decrypt ( struct pubkey_algorithm *pubkey, void *ctx,
 				   const void *data, size_t len, void *out ) {
 	return pubkey->decrypt ( ctx, data, len, out );
 }

 static inline int pubkey_sign ( struct pubkey_algorithm *pubkey, void *ctx,
 				struct digest_algorithm *digest,
 				const void *value, void *signature ) {
 	return pubkey->sign ( ctx, digest, value, signature );
 }

 static inline int pubkey_verify ( struct pubkey_algorithm *pubkey, void *ctx,
 				  struct digest_algorithm *digest,
 				  const void *value, const void *signature,
 				  size_t signature_len ) {
 	return pubkey->verify ( ctx, digest, value, signature, signature_len );
 }

 static inline void pubkey_final ( struct pubkey_algorithm *pubkey, void *ctx ) {
 	pubkey->final ( ctx );
 }

 static inline int pubkey_match ( struct pubkey_algorithm *pubkey,
 				 const void *private_key,
 				 size_t private_key_len, const void *public_key,
 				 size_t public_key_len ) {
 	return pubkey->match ( private_key, private_key_len, public_key,
 			       public_key_len );
 }

 extern struct digest_algorithm digest_null;
 extern struct cipher_algorithm cipher_null;
 extern struct pubkey_algorithm pubkey_null;

 #endif /* _IPXE_CRYPTO_H */
	#ifndef _IPXE_CRYPTO_H
	#define _IPXE_CRYPTO_H

	/** @file
	*
	* Cryptographic API
	*
	*/

	FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

	#include <stdint.h>
	#include <stddef.h>

	/** A message digest algorithm */
	struct digest_algorithm {
	/** Algorithm name */
	const char *name;
	/** Context size */
	size_t ctxsize;
	/** Block size */
	size_t blocksize;
	/** Digest size */
	size_t digestsize;
	/** Initialise digest
	*
	* @v ctx Context
	*/
	void ( * init ) ( void *ctx );
	/** Update digest with new data
	*
	* @v ctx Context
	* @v src Data to digest
	* @v len Length of data
	*
	* @v len is not necessarily a multiple of @c blocksize.
	*/
	void ( * update ) ( void ctx, const void src, size_t len );
	/** Finalise digest
	*
	* @v ctx Context
	* @v out Buffer for digest output
	*/
	void ( * final ) ( void ctx, void out );
	};

	/** A cipher algorithm */
	struct cipher_algorithm {
	/** Algorithm name */
	const char *name;
	/** Context size */
	size_t ctxsize;
	/** Block size */
	size_t blocksize;
	/** Set key
	*
	* @v ctx Context
	* @v key Key
	* @v keylen Key length
	* @ret rc Return status code
	*/
	int ( * setkey ) ( void ctx, const void key, size_t keylen );
	/** Set initialisation vector
	*
	* @v ctx Context
	* @v iv Initialisation vector
	*/
	void ( * setiv ) ( void ctx, const void iv );
	/** Encrypt data
	*
	* @v ctx Context
	* @v src Data to encrypt
	* @v dst Buffer for encrypted data
	* @v len Length of data
	*
	* @v len is guaranteed to be a multiple of @c blocksize.
	*/
	void ( * encrypt ) ( void ctx, const void src, void *dst,
	size_t len );
	/** Decrypt data
	*
	* @v ctx Context
	* @v src Data to decrypt
	* @v dst Buffer for decrypted data
	* @v len Length of data
	*
	* @v len is guaranteed to be a multiple of @c blocksize.
	*/
	void ( * decrypt ) ( void ctx, const void src, void *dst,
	size_t len );
	};

	/** A public key algorithm */
	struct pubkey_algorithm {
	/** Algorithm name */
	const char *name;
	/** Context size */
	size_t ctxsize;
	/** Initialise algorithm
	*
	* @v ctx Context
	* @v key Key
	* @v key_len Length of key
	* @ret rc Return status code
	*/
	int ( * init ) ( void ctx, const void key, size_t key_len );
	/** Calculate maximum output length
	*
	* @v ctx Context
	* @ret max_len Maximum output length
	*/
	size_t ( * max_len ) ( void *ctx );
	/** Encrypt
	*
	* @v ctx Context
	* @v plaintext Plaintext
	* @v plaintext_len Length of plaintext
	* @v ciphertext Ciphertext
	* @ret ciphertext_len Length of ciphertext, or negative error
	*/
	int ( * encrypt ) ( void ctx, const void data, size_t len,
	void *out );
	/** Decrypt
	*
	* @v ctx Context
	* @v ciphertext Ciphertext
	* @v ciphertext_len Ciphertext length
	* @v plaintext Plaintext
	* @ret plaintext_len Plaintext length, or negative error
	*/
	int ( * decrypt ) ( void ctx, const void data, size_t len,
	void *out );
	/** Sign digest value
	*
	* @v ctx Context
	* @v digest Digest algorithm
	* @v value Digest value
	* @v signature Signature
	* @ret signature_len Signature length, or negative error
	*/
	int ( * sign ) ( void ctx, struct digest_algorithm digest,
	const void value, void signature );
	/** Verify signed digest value
	*
	* @v ctx Context
	* @v digest Digest algorithm
	* @v value Digest value
	* @v signature Signature
	* @v signature_len Signature length
	* @ret rc Return status code
	*/
	int ( * verify ) ( void ctx, struct digest_algorithm digest,
	const void value, const void signature,
	size_t signature_len );
	/** Finalise algorithm
	*
	* @v ctx Context
	*/
	void ( * final ) ( void *ctx );
	/** Check that public key matches private key
	*
	* @v private_key Private key
	* @v private_key_len Private key length
	* @v public_key Public key
	* @v public_key_len Public key length
	* @ret rc Return status code
	*/
	int ( * match ) ( const void *private_key, size_t private_key_len,
	const void *public_key, size_t public_key_len );
	};

	static inline void digest_init ( struct digest_algorithm *digest,
	void *ctx ) {
	digest->init ( ctx );
	}

	static inline void digest_update ( struct digest_algorithm *digest,
	void ctx, const void data, size_t len ) {
	digest->update ( ctx, data, len );
	}

	static inline void digest_final ( struct digest_algorithm *digest,
	void ctx, void out ) {
	digest->final ( ctx, out );
	}

	static inline int cipher_setkey ( struct cipher_algorithm *cipher,
	void ctx, const void key, size_t keylen ) {
	return cipher->setkey ( ctx, key, keylen );
	}

	static inline void cipher_setiv ( struct cipher_algorithm *cipher,
	void ctx, const void iv ) {
	cipher->setiv ( ctx, iv );
	}

	static inline void cipher_encrypt ( struct cipher_algorithm *cipher,
	void ctx, const void src, void *dst,
	size_t len ) {
	cipher->encrypt ( ctx, src, dst, len );
	}
	#define cipher_encrypt( cipher, ctx, src, dst, len ) do { \
	assert ( ( (len) & ( (cipher)->blocksize - 1 ) ) == 0 ); \
	cipher_encrypt ( (cipher), (ctx), (src), (dst), (len) ); \
	} while ( 0 )

	static inline void cipher_decrypt ( struct cipher_algorithm *cipher,
	void ctx, const void src, void *dst,
	size_t len ) {
	cipher->decrypt ( ctx, src, dst, len );
	}
	#define cipher_decrypt( cipher, ctx, src, dst, len ) do { \
	assert ( ( (len) & ( (cipher)->blocksize - 1 ) ) == 0 ); \
	cipher_decrypt ( (cipher), (ctx), (src), (dst), (len) ); \
	} while ( 0 )

	static inline int is_stream_cipher ( struct cipher_algorithm *cipher ) {
	return ( cipher->blocksize == 1 );
	}

	static inline int pubkey_init ( struct pubkey_algorithm pubkey, void ctx,
	const void *key, size_t key_len ) {
	return pubkey->init ( ctx, key, key_len );
	}

	static inline size_t pubkey_max_len ( struct pubkey_algorithm *pubkey,
	void *ctx ) {
	return pubkey->max_len ( ctx );
	}

	static inline int pubkey_encrypt ( struct pubkey_algorithm pubkey, void ctx,
	const void data, size_t len, void out ) {
	return pubkey->encrypt ( ctx, data, len, out );
	}

	static inline int pubkey_decrypt ( struct pubkey_algorithm pubkey, void ctx,
	const void data, size_t len, void out ) {
	return pubkey->decrypt ( ctx, data, len, out );
	}

	static inline int pubkey_sign ( struct pubkey_algorithm pubkey, void ctx,
	struct digest_algorithm *digest,
	const void value, void signature ) {
	return pubkey->sign ( ctx, digest, value, signature );
	}

	static inline int pubkey_verify ( struct pubkey_algorithm pubkey, void ctx,
	struct digest_algorithm *digest,
	const void value, const void signature,
	size_t signature_len ) {
	return pubkey->verify ( ctx, digest, value, signature, signature_len );
	}

	static inline void pubkey_final ( struct pubkey_algorithm pubkey, void ctx ) {
	pubkey->final ( ctx );
	}

	static inline int pubkey_match ( struct pubkey_algorithm *pubkey,
	const void *private_key,
	size_t private_key_len, const void *public_key,
	size_t public_key_len ) {
	return pubkey->match ( private_key, private_key_len, public_key,
	public_key_len );
	}

	extern struct digest_algorithm digest_null;
	extern struct cipher_algorithm cipher_null;
	extern struct pubkey_algorithm pubkey_null;

	#endif /* _IPXE_CRYPTO_H */