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KGC_TEST/miracl/source/ecsver_s.c

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/*
* Elliptic Curve Digital Signature Algorithm (ECDSA)
*
* This program verifies the signature given to a <file> in
* <file>.ecs generated by program ecsign
*
* The curve is y^2=x^3+Ax+B mod p
*
* The file common.ecs is presumed to exist, and to contain the domain
* information {p,A,B,q,x,y}, where A and B are curve parameters, (x,y) are
* a point of order q, p is the prime modulus, and q is the order of the
* point (x,y). In fact normally q is the prime number of points counted
* on the curve.
*
* This program is written for static mode.
* For a 160-bit modulus p, MR_STATIC could be defined as 5 in mirdef.h
* for a 32-bit processor, or 10 for a 16-bit processor.
* The system parameters can be found in the file common.ecs
* Assumes MR_GENERIC_MT is defined in mirdef.h
*
*/
#include <stdio.h>
#include "miracl.h"
#include <stdlib.h>
#include <string.h>
void strip(char *name)
{ /* strip off filename extension */
int i;
for (i=0;name[i]!='\0';i++)
{
if (name[i]!='.') continue;
name[i]='\0';
break;
}
}
static void hashing(miracl *mip,FILE *fp,big hash)
{ /* compute hash function */
char h[20];
sha sh;
int len,ch;
shs_init(&sh);
while ((ch=fgetc(fp))!=EOF) shs_process(&sh,ch);
shs_hash(&sh,h);
len=(MIRACL*MR_STATIC)/8;
if (len>20) len=20;
bytes_to_big(mip,len,h,hash);
}
int main()
{
FILE *fp;
int bits,ep;
epoint *g,*public;
char ifname[50],ofname[50];
big a,b,p,q,x,y,v,u1,u2,r,s,hash;
miracl instance;
miracl *mip=&instance;
char mem[MR_BIG_RESERVE(12)]; /* reserve space on the stack for 12 bigs */
char mem1[MR_ECP_RESERVE(2)]; /* and two elliptic curve points */
memset(mem,0,MR_BIG_RESERVE(12));
memset(mem1,0,MR_ECP_RESERVE(2));
/* get public data */
#ifndef MR_EDWARDS
fp=fopen("common.ecs","rt");
if (fp==NULL)
{
printf("file common.ecs does not exist\n");
return 0;
}
fscanf(fp,"%d\n",&bits);
#else
fp=fopen("edwards.ecs","rt");
if (fp==NULL)
{
printf("file edwards.ecs does not exist\n");
return 0;
}
fscanf(fp,"%d\n",&bits);
#endif
mirsys(mip,bits/4,16); /* Use Hex Internally */
a=mirvar_mem(mip,mem,0);
b=mirvar_mem(mip,mem,1);
p=mirvar_mem(mip,mem,2);
q=mirvar_mem(mip,mem,3);
x=mirvar_mem(mip,mem,4);
y=mirvar_mem(mip,mem,5);
v=mirvar_mem(mip,mem,6);
u1=mirvar_mem(mip,mem,7);
u2=mirvar_mem(mip,mem,8);
s=mirvar_mem(mip,mem,9);
r=mirvar_mem(mip,mem,10);
hash=mirvar_mem(mip,mem,11);
innum(mip,p,fp);
innum(mip,a,fp);
innum(mip,b,fp);
innum(mip,q,fp);
innum(mip,x,fp);
innum(mip,y,fp);
fclose(fp);
ecurve_init(mip,a,b,p,MR_PROJECTIVE); /* initialise curve */
g=epoint_init_mem(mip,mem1,0);
epoint_set(mip,x,y,0,g); /* initialise point of order q */
/* get public key of signer */
fp=fopen("public.ecs","rt");
if (fp==NULL)
{
printf("file public.ecs does not exist\n");
return 0;
}
fscanf(fp,"%d",&ep);
innum(mip,x,fp);
fclose(fp);
public=epoint_init_mem(mip,mem1,1);
epoint_set(mip,x,x,ep,public); /* decompress */
/* get message */
printf("signed file = ");
gets(ifname);
strcpy(ofname,ifname);
strip(ofname);
strcat(ofname,".ecs");
if ((fp=fopen(ifname,"rb"))==NULL)
{ /* no message */
printf("Unable to open file %s\n",ifname);
return 0;
}
hashing(mip,fp,hash);
fclose(fp);
fp=fopen(ofname,"rt");
if (fp==NULL)
{ /* no signature */
printf("signature file %s does not exist\n",ofname);
return 0;
}
innum(mip,r,fp);
innum(mip,s,fp);
fclose(fp);
if (mr_compare(r,q)>=0 || mr_compare(s,q)>=0)
{
printf("Signature is NOT verified\n");
return 0;
}
xgcd(mip,s,q,s,s,s);
mad(mip,hash,s,s,q,q,u1);
mad(mip,r,s,s,q,q,u2);
ecurve_mult2(mip,u2,public,u1,g,g);
epoint_get(mip,g,v,v);
divide(mip,v,q,q);
if (mr_compare(v,r)==0) printf("Signature is verified\n");
else printf("Signature is NOT verified\n");
memset(mem,0,MR_BIG_RESERVE(12));
memset(mem1,0,MR_ECP_RESERVE(2));
return 0;
}
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