CPUMiner with gostd algo
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/* $Id: sph_simd.h 154 2010-04-26 17:00:24Z tp $ */
/**
* SIMD interface. SIMD is a family of functions which differ by
* their output size; this implementation defines SIMD for output
* sizes 224, 256, 384 and 512 bits.
*
* ==========================(LICENSE BEGIN)============================
*
* Copyright (c) 2007-2010 Projet RNRT SAPHIR
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* ===========================(LICENSE END)=============================
*
* @file sph_simd.h
* @author Thomas Pornin <thomas.pornin@cryptolog.com>
*/
#ifndef SPH_SIMD_H__
#define SPH_SIMD_H__
#ifdef __cplusplus
extern "C"{
#endif
#include <stddef.h>
#include "sph_types.h"
/**
* Output size (in bits) for SIMD-224.
*/
#define SPH_SIZE_simd224 224
/**
* Output size (in bits) for SIMD-256.
*/
#define SPH_SIZE_simd256 256
/**
* Output size (in bits) for SIMD-384.
*/
#define SPH_SIZE_simd384 384
/**
* Output size (in bits) for SIMD-512.
*/
#define SPH_SIZE_simd512 512
/**
* This structure is a context for SIMD computations: it contains the
* intermediate values and some data from the last entered block. Once
* an SIMD computation has been performed, the context can be reused for
* another computation. This specific structure is used for SIMD-224
* and SIMD-256.
*
* The contents of this structure are private. A running SIMD computation
* can be cloned by copying the context (e.g. with a simple
* <code>memcpy()</code>).
*/
typedef struct {
#ifndef DOXYGEN_IGNORE
unsigned char buf[64]; /* first field, for alignment */
size_t ptr;
sph_u32 state[16];
sph_u32 count_low, count_high;
#endif
} sph_simd_small_context;
/**
* This structure is a context for SIMD computations: it contains the
* intermediate values and some data from the last entered block. Once
* an SIMD computation has been performed, the context can be reused for
* another computation. This specific structure is used for SIMD-384
* and SIMD-512.
*
* The contents of this structure are private. A running SIMD computation
* can be cloned by copying the context (e.g. with a simple
* <code>memcpy()</code>).
*/
typedef struct {
#ifndef DOXYGEN_IGNORE
unsigned char buf[128]; /* first field, for alignment */
size_t ptr;
sph_u32 state[32];
sph_u32 count_low, count_high;
#endif
} sph_simd_big_context;
/**
* Type for a SIMD-224 context (identical to the common "small" context).
*/
typedef sph_simd_small_context sph_simd224_context;
/**
* Type for a SIMD-256 context (identical to the common "small" context).
*/
typedef sph_simd_small_context sph_simd256_context;
/**
* Type for a SIMD-384 context (identical to the common "big" context).
*/
typedef sph_simd_big_context sph_simd384_context;
/**
* Type for a SIMD-512 context (identical to the common "big" context).
*/
typedef sph_simd_big_context sph_simd512_context;
/**
* Initialize an SIMD-224 context. This process performs no memory allocation.
*
* @param cc the SIMD-224 context (pointer to a
* <code>sph_simd224_context</code>)
*/
void sph_simd224_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the SIMD-224 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_simd224(void *cc, const void *data, size_t len);
/**
* Terminate the current SIMD-224 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (28 bytes). The context is automatically
* reinitialized.
*
* @param cc the SIMD-224 context
* @param dst the destination buffer
*/
void sph_simd224_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (28 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the SIMD-224 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_simd224_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
/**
* Initialize an SIMD-256 context. This process performs no memory allocation.
*
* @param cc the SIMD-256 context (pointer to a
* <code>sph_simd256_context</code>)
*/
void sph_simd256_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the SIMD-256 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_simd256(void *cc, const void *data, size_t len);
/**
* Terminate the current SIMD-256 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (32 bytes). The context is automatically
* reinitialized.
*
* @param cc the SIMD-256 context
* @param dst the destination buffer
*/
void sph_simd256_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (32 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the SIMD-256 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_simd256_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
/**
* Initialize an SIMD-384 context. This process performs no memory allocation.
*
* @param cc the SIMD-384 context (pointer to a
* <code>sph_simd384_context</code>)
*/
void sph_simd384_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the SIMD-384 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_simd384(void *cc, const void *data, size_t len);
/**
* Terminate the current SIMD-384 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (48 bytes). The context is automatically
* reinitialized.
*
* @param cc the SIMD-384 context
* @param dst the destination buffer
*/
void sph_simd384_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (48 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the SIMD-384 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_simd384_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
/**
* Initialize an SIMD-512 context. This process performs no memory allocation.
*
* @param cc the SIMD-512 context (pointer to a
* <code>sph_simd512_context</code>)
*/
void sph_simd512_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the SIMD-512 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_simd512(void *cc, const void *data, size_t len);
/**
* Terminate the current SIMD-512 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (64 bytes). The context is automatically
* reinitialized.
*
* @param cc the SIMD-512 context
* @param dst the destination buffer
*/
void sph_simd512_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (64 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the SIMD-512 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_simd512_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
#ifdef __cplusplus
}
#endif
#endif