gpxe/src/crypto/axtls/bigint_impl.h - platform/external/syslinux - Git at Google

 /*
  *  Copyright(C) 2006 Cameron Rich
  *
  *  This library is free software; you can redistribute it and/or modify
  *  it under the terms of the GNU Lesser General Public License as published by
  *  the Free Software Foundation; either version 2.1 of the License, or
  *  (at your option) any later version.
  *
  *  This library is distributed in the hope that it will be useful,
  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  *  GNU Lesser General Public License for more details.
  *
  *  You should have received a copy of the GNU Lesser General Public License
  *  along with this library; if not, write to the Free Software
  *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  */

 #ifndef BIGINT_IMPL_HEADER
 #define BIGINT_IMPL_HEADER

 /* Maintain a number of precomputed variables when doing reduction */
 #define BIGINT_M_OFFSET     0    /**< Normal modulo offset. */
 #ifdef CONFIG_BIGINT_CRT
 #define BIGINT_P_OFFSET     1    /**< p modulo offset. */
 #define BIGINT_Q_OFFSET     2    /**< q module offset. */
 #define BIGINT_NUM_MODS     3    /**< The number of modulus constants used. */
 #else
 #define BIGINT_NUM_MODS     1
 #endif

 /* Architecture specific functions for big ints */
 #ifdef WIN32
 #define COMP_RADIX          4294967296i64
 #define COMP_BIG_MSB        0x8000000000000000i64
 #else
 #define COMP_RADIX          4294967296ULL         /**< Max component + 1 */
 #define COMP_BIG_MSB        0x8000000000000000ULL /**< (Max dbl comp + 1)/ 2 */
 #endif
 #define COMP_BIT_SIZE       32  /**< Number of bits in a component. */
 #define COMP_BYTE_SIZE      4   /**< Number of bytes in a component. */
 #define COMP_NUM_NIBBLES    8   /**< Used For diagnostics only. */

 typedef uint32_t comp;	        /**< A single precision component. */
 typedef uint64_t long_comp;     /**< A double precision component. */
 typedef int64_t slong_comp;     /**< A signed double precision component. */

 /**
  * @struct  _bigint
  * @brief A big integer basic object
  */
 struct _bigint
 {
     struct _bigint* next;       /**< The next bigint in the cache. */
     short size;                 /**< The number of components in this bigint. */
     short max_comps;            /**< The heapsize allocated for this bigint */
     int refs;                   /**< An internal reference count. */
     comp* comps;                /**< A ptr to the actual component data */
 };

 typedef struct _bigint bigint;  /**< An alias for _bigint */

 /**
  * Maintains the state of the cache, and a number of variables used in
  * reduction.
  */
 typedef struct /**< A big integer "session" context. */
 {
     bigint *active_list;                    /**< Bigints currently used. */
     bigint *free_list;                      /**< Bigints not used. */
     bigint *bi_radix;                       /**< The radix used. */
     bigint *bi_mod[BIGINT_NUM_MODS];        /**< modulus */

 #if defined(CONFIG_BIGINT_MONTGOMERY)
     bigint *bi_RR_mod_m[BIGINT_NUM_MODS];   /**< R^2 mod m */
     bigint *bi_R_mod_m[BIGINT_NUM_MODS];    /**< R mod m */
     comp N0_dash[BIGINT_NUM_MODS];
 #elif defined(CONFIG_BIGINT_BARRETT)
     bigint *bi_mu[BIGINT_NUM_MODS];         /**< Storage for mu */
 #endif
     bigint *bi_normalised_mod[BIGINT_NUM_MODS]; /**< Normalised mod storage. */
     bigint **g;                 /**< Used by sliding-window. */
     int window;                 /**< The size of the sliding window */
     int active_count;           /**< Number of active bigints. */
     int free_count;             /**< Number of free bigints. */

 #ifdef CONFIG_BIGINT_MONTGOMERY
     uint8_t use_classical;      /**< Use classical reduction. */
 #endif
     uint8_t mod_offset;         /**< The mod offset we are using */
 } BI_CTX;

 #ifndef WIN32
 #define max(a,b) ((a)>(b)?(a):(b))  /**< Find the maximum of 2 numbers. */
 #define min(a,b) ((a)<(b)?(a):(b))  /**< Find the minimum of 2 numbers. */
 #endif

 #define PERMANENT           0x7FFF55AA  /**< A magic number for permanents. */

 #define V1      v->comps[v->size-1]                 /**< v1 for division */
 #define V2      v->comps[v->size-2]                 /**< v2 for division */
 #define U(j)    tmp_u->comps[tmp_u->size-j-1]       /**< uj for division */
 #define Q(j)    quotient->comps[quotient->size-j-1] /**< qj for division */

 #endif
	/*
	* Copyright(C) 2006 Cameron Rich
	*
	* This library is free software; you can redistribute it and/or modify
	* it under the terms of the GNU Lesser General Public License as published by
	* the Free Software Foundation; either version 2.1 of the License, or
	* (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public License
	* along with this library; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*/

	#ifndef BIGINT_IMPL_HEADER
	#define BIGINT_IMPL_HEADER

	/* Maintain a number of precomputed variables when doing reduction */
	#define BIGINT_M_OFFSET 0 /*< Normal modulo offset. /
	#ifdef CONFIG_BIGINT_CRT
	#define BIGINT_P_OFFSET 1 /*< p modulo offset. /
	#define BIGINT_Q_OFFSET 2 /*< q module offset. /
	#define BIGINT_NUM_MODS 3 /*< The number of modulus constants used. /
	#else
	#define BIGINT_NUM_MODS 1
	#endif

	/* Architecture specific functions for big ints */
	#ifdef WIN32
	#define COMP_RADIX 4294967296i64
	#define COMP_BIG_MSB 0x8000000000000000i64
	#else
	#define COMP_RADIX 4294967296ULL /*< Max component + 1 /
	#define COMP_BIG_MSB 0x8000000000000000ULL /*< (Max dbl comp + 1)/ 2 /
	#endif
	#define COMP_BIT_SIZE 32 /*< Number of bits in a component. /
	#define COMP_BYTE_SIZE 4 /*< Number of bytes in a component. /
	#define COMP_NUM_NIBBLES 8 /*< Used For diagnostics only. /

	typedef uint32_t comp; /*< A single precision component. /
	typedef uint64_t long_comp; /*< A double precision component. /
	typedef int64_t slong_comp; /*< A signed double precision component. /

	/**
	* @struct _bigint
	* @brief A big integer basic object
	*/
	struct _bigint
	{
	struct _bigint* next; /*< The next bigint in the cache. /
	short size; /*< The number of components in this bigint. /
	short max_comps; /*< The heapsize allocated for this bigint /
	int refs; /*< An internal reference count. /
	comp* comps; /*< A ptr to the actual component data /
	};

	typedef struct _bigint bigint; /*< An alias for _bigint /

	/**
	* Maintains the state of the cache, and a number of variables used in
	* reduction.
	*/
	typedef struct /*< A big integer "session" context. /
	{
	bigint active_list; /< Bigints currently used. /
	bigint free_list; /< Bigints not used. /
	bigint bi_radix; /< The radix used. /
	bigint bi_mod[BIGINT_NUM_MODS]; /< modulus /

	#if defined(CONFIG_BIGINT_MONTGOMERY)
	bigint bi_RR_mod_m[BIGINT_NUM_MODS]; /< R^2 mod m /
	bigint bi_R_mod_m[BIGINT_NUM_MODS]; /< R mod m /
	comp N0_dash[BIGINT_NUM_MODS];
	#elif defined(CONFIG_BIGINT_BARRETT)
	bigint bi_mu[BIGINT_NUM_MODS]; /< Storage for mu /
	#endif
	bigint bi_normalised_mod[BIGINT_NUM_MODS]; /< Normalised mod storage. /
	bigint g; /< Used by sliding-window. */
	int window; /*< The size of the sliding window /
	int active_count; /*< Number of active bigints. /
	int free_count; /*< Number of free bigints. /

	#ifdef CONFIG_BIGINT_MONTGOMERY
	uint8_t use_classical; /*< Use classical reduction. /
	#endif
	uint8_t mod_offset; /*< The mod offset we are using /
	} BI_CTX;

	#ifndef WIN32
	#define max(a,b) ((a)>(b)?(a):(b)) /*< Find the maximum of 2 numbers. /
	#define min(a,b) ((a)<(b)?(a):(b)) /*< Find the minimum of 2 numbers. /
	#endif

	#define PERMANENT 0x7FFF55AA /*< A magic number for permanents. /

	#define V1 v->comps[v->size-1] /*< v1 for division /
	#define V2 v->comps[v->size-2] /*< v2 for division /
	#define U(j) tmp_u->comps[tmp_u->size-j-1] /*< uj for division /
	#define Q(j) quotient->comps[quotient->size-j-1] /*< qj for division /

	#endif