src/libmp/port/crt.c - plan9 - Git at Google

 #include "os.h"
 #include <mp.h>

 /* chinese remainder theorem */
 /* */
 /* handbook of applied cryptography, menezes et al, 1997, pp 610 - 613 */

 struct CRTpre
 {
 	int	n;		/* number of moduli */
 	mpint	**m;		/* pointer to moduli */
 	mpint	**c;		/* precomputed coefficients */
 	mpint	**p;		/* precomputed products */
 	mpint	*a[1];		/* local storage */
 };

 /* setup crt info, returns a newly created structure */
 CRTpre*
 crtpre(int n, mpint **m)
 {
 	CRTpre *crt;
 	int i, j;
 	mpint *u;

 	crt = malloc(sizeof(CRTpre)+sizeof(mpint)*3*n);
 	if(crt == nil)
 		sysfatal("crtpre: %r");
 	crt->m = crt->a;
 	crt->c = crt->a+n;
 	crt->p = crt->c+n;
 	crt->n = n;

 	/* make a copy of the moduli */
 	for(i = 0; i < n; i++)
 		crt->m[i] = mpcopy(m[i]);

 	/* precompute the products */
 	u = mpcopy(mpone);
 	for(i = 0; i < n; i++){
 		mpmul(u, m[i], u);
 		crt->p[i] = mpcopy(u);
 	}

 	/* precompute the coefficients */
 	for(i = 1; i < n; i++){
 		crt->c[i] = mpcopy(mpone);
 		for(j = 0; j < i; j++){
 			mpinvert(m[j], m[i], u);
 			mpmul(u, crt->c[i], u);
 			mpmod(u, m[i], crt->c[i]);
 		}
 	}

 	mpfree(u);

 	return crt;
 }

 void
 crtprefree(CRTpre *crt)
 {
 	int i;

 	for(i = 0; i < crt->n; i++){
 		if(i != 0)
 			mpfree(crt->c[i]);
 		mpfree(crt->p[i]);
 		mpfree(crt->m[i]);
 	}
 	free(crt);
 }

 /* convert to residues, returns a newly created structure */
 CRTres*
 crtin(CRTpre *crt, mpint *x)
 {
 	int i;
 	CRTres *res;

 	res = malloc(sizeof(CRTres)+sizeof(mpint)*crt->n);
 	if(res == nil)
 		sysfatal("crtin: %r");
 	res->n = crt->n;
 	for(i = 0; i < res->n; i++){
 		res->r[i] = mpnew(0);
 		mpmod(x, crt->m[i], res->r[i]);
 	}
 	return res;
 }

 /* garners algorithm for converting residue form to linear */
 void
 crtout(CRTpre *crt, CRTres *res, mpint *x)
 {
 	mpint *u;
 	int i;

 	u = mpnew(0);
 	mpassign(res->r[0], x);

 	for(i = 1; i < crt->n; i++){
 		mpsub(res->r[i], x, u);
 		mpmul(u, crt->c[i], u);
 		mpmod(u, crt->m[i], u);
 		mpmul(u, crt->p[i-1], u);
 		mpadd(x, u, x);
 	}

 	mpfree(u);
 }

 /* free the residue */
 void
 crtresfree(CRTres *res)
 {
 	int i;

 	for(i = 0; i < res->n; i++)
 		mpfree(res->r[i]);
 	free(res);
 }
	#include "os.h"
	#include <mp.h>

	/* chinese remainder theorem */
	/* */
	/* handbook of applied cryptography, menezes et al, 1997, pp 610 - 613 */

	struct CRTpre
	{
	int n; /* number of moduli */
	mpint *m; / pointer to moduli */
	mpint *c; / precomputed coefficients */
	mpint *p; / precomputed products */
	mpint a[1]; / local storage */
	};

	/* setup crt info, returns a newly created structure */
	CRTpre*
	crtpre(int n, mpint **m)
	{
	CRTpre *crt;
	int i, j;
	mpint *u;

	crt = malloc(sizeof(CRTpre)+sizeof(mpint)3n);
	if(crt == nil)
	sysfatal("crtpre: %r");
	crt->m = crt->a;
	crt->c = crt->a+n;
	crt->p = crt->c+n;
	crt->n = n;

	/* make a copy of the moduli */
	for(i = 0; i < n; i++)
	crt->m[i] = mpcopy(m[i]);

	/* precompute the products */
	u = mpcopy(mpone);
	for(i = 0; i < n; i++){
	mpmul(u, m[i], u);
	crt->p[i] = mpcopy(u);
	}

	/* precompute the coefficients */
	for(i = 1; i < n; i++){
	crt->c[i] = mpcopy(mpone);
	for(j = 0; j < i; j++){
	mpinvert(m[j], m[i], u);
	mpmul(u, crt->c[i], u);
	mpmod(u, m[i], crt->c[i]);
	}
	}

	mpfree(u);

	return crt;
	}

	void
	crtprefree(CRTpre *crt)
	{
	int i;

	for(i = 0; i < crt->n; i++){
	if(i != 0)
	mpfree(crt->c[i]);
	mpfree(crt->p[i]);
	mpfree(crt->m[i]);
	}
	free(crt);
	}

	/* convert to residues, returns a newly created structure */
	CRTres*
	crtin(CRTpre crt, mpint x)
	{
	int i;
	CRTres *res;

	res = malloc(sizeof(CRTres)+sizeof(mpint)*crt->n);
	if(res == nil)
	sysfatal("crtin: %r");
	res->n = crt->n;
	for(i = 0; i < res->n; i++){
	res->r[i] = mpnew(0);
	mpmod(x, crt->m[i], res->r[i]);
	}
	return res;
	}

	/* garners algorithm for converting residue form to linear */
	void
	crtout(CRTpre crt, CRTres res, mpint *x)
	{
	mpint *u;
	int i;

	u = mpnew(0);
	mpassign(res->r[0], x);

	for(i = 1; i < crt->n; i++){
	mpsub(res->r[i], x, u);
	mpmul(u, crt->c[i], u);
	mpmod(u, crt->m[i], u);
	mpmul(u, crt->p[i-1], u);
	mpadd(x, u, x);
	}

	mpfree(u);
	}

	/* free the residue */
	void
	crtresfree(CRTres *res)
	{
	int i;

	for(i = 0; i < res->n; i++)
	mpfree(res->r[i]);
	free(res);
	}