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keygen.c
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keygen.c
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/*
develop by Luis Alberto
Twitter: @albertobsd
email: [email protected]
Install dependencies:
apt install libssl-dev
apt install libgcrypt20-dev
apt install libgmp-dev
Compilation:
gcc -o keygen keygen.c gmpecc.o util.o sha256.o base58.o rmd160.o -lgmp -lcrypto `libgcrypt-config --cflags --libs`
Usage Examples:
./keygen -s openssl -b 250
./keygen -s urandom -b 256
./keygen -s random -b 64
./keygen -s getrandom
./keygen -s gcrypt -b 128
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
#include <gmp.h>
#include <string.h>
#include <unistd.h>
#include <math.h>
#include <time.h>
#include <openssl/rand.h>
#include <sys/random.h>
#include <gcrypt.h>
#include "util.h"
#include "gmpecc.h"
#include "base58/libbase58.h"
#include "rmd160/rmd160.h"
#include "sha256/sha256.h"
struct Elliptic_Curve EC;
struct Point G;
struct Point DoublingG[256];
const char *EC_constant_N = "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141";
const char *EC_constant_P = "fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f";
const char *EC_constant_Gx = "79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798";
const char *EC_constant_Gy = "483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8";
void generate_publickey_address_rmd160(struct Point *publickey,bool compress,char *dst_publickey,char *dst_address,char *dst_rmd160);
void generate_publickey_and_address(struct Point *publickey,bool compress,char *dst_publickey,char *dst_address);
const char *sources[5] = {"urandom","random","openssl","getrandom","gcrypt"};
gmp_randstate_t state;
/*
for some reason the GMP function mp_set_memory_functions needs a extra parameter in the function call of realloc and free warppers
*/
void *wrapper_gcry_alloc(size_t size);
void *wrapper_gcry_realloc(void *ptr, size_t old_size, size_t new_size);
void wrapper_gcry_free(void *ptr, size_t cur_size);
int main(int argc, char **argv) {
unsigned long err;
int FLAG_SOURCE = 0,INDEX_SOURCE = 0,FLAG_BITS = 0;
int bits = 256,maxbits;
int bytes = 32,index,i,rc;
char c,*buffer_key;
FILE *fd;
mpz_t key;
struct Point publickey;
char str_publickey[131];
char str_address[50];
char str_rmd[50];
char *hextemp,*aux,*public_address;
mp_set_memory_functions(wrapper_gcry_alloc,wrapper_gcry_realloc,wrapper_gcry_free); //Using secure memory storage from lib gcrypt
buffer_key = (char*)gcry_malloc_secure(32); //Secure buffer for the KEY
/* Init Constant Values in mpz numbers */
mpz_init_set_str(EC.p, EC_constant_P, 16);
mpz_init_set_str(EC.n, EC_constant_N, 16);
mpz_init_set_str(G.x , EC_constant_Gx, 16);
mpz_init_set_str(G.y , EC_constant_Gy, 16);
init_doublingG(&G);
/* Init empty values */
mpz_init(publickey.x);
mpz_init(publickey.y);
mpz_init(key);
gmp_randinit_mt(state);
gmp_randseed_ui(state, ((int)clock()) + ((int)time(NULL)) );
while ((c = getopt(argc, argv, "b:s:")) != -1) {
switch(c) {
case 's':
index = indexOf(optarg,sources,5);
FLAG_SOURCE = 1;
INDEX_SOURCE = index;
break;
case 'b':
bits = strtol(optarg,NULL,10);
if(bits >256 || bits < 1) {
bits = 256;
}
else {
bytes = bits / 8;
if(bits % 8 != 0) {
bytes++;
}
FLAG_BITS = 1;
}
break;
}
}
switch(INDEX_SOURCE) {
case -1:
fprintf(stderr,"Invalid option: -s %s\n",optarg);
exit(0);
break;
case 0:
fd = fopen("/dev/urandom","rb");
if(fd == NULL) {
fprintf(stderr,"Can't open /dev/urandom\n");
exit(0);
}
fread(buffer_key,1,bytes,fd);
fclose(fd);
mpz_import(key,bytes,1,1,0,0,buffer_key);
break;
case 1:
fd = fopen("/dev/random","rb");
if(fd == NULL) {
fprintf(stderr,"Can't open /dev/random\n");
exit(0);
}
fread(buffer_key,1,bytes,fd);
fclose(fd);
mpz_import(key,bytes,1,1,0,0,buffer_key);
break;
case 2:
rc = RAND_bytes(buffer_key, bytes);
if(rc != 1) {
fprintf(stderr,"OpenSSL error: %l\n",err);
exit(0);
}
mpz_import(key,bytes,1,1,0,0,buffer_key);
break;
case 3:
getrandom(buffer_key,bytes,GRND_NONBLOCK);
mpz_import(key,bytes,1,1,0,0,buffer_key);
break;
case 4:
gcry_randomize(buffer_key,bytes,GCRY_VERY_STRONG_RANDOM);
mpz_import(key,bytes,1,1,0,0,buffer_key);
break;
}
if(FLAG_BITS) {
maxbits = mpz_sizeinbase(key,2);
if(maxbits > bits) { // If the number of maxbis is great that the bit size requested we need to clear those upper bits
for(i = maxbits ; i > bits; i--) {
mpz_clrbit(key,i-1);
}
}
mpz_setbit(key,bits-1); // In any case we need to set the requested bit in 1 to fit the Key to the specific subrange.
}
Scalar_Multiplication(G,&publickey,key);
gmp_printf("KEY (Secret: DON'T SHARE THIS VALUE): %Zx\n",key);
//void generate_publickey_and_address(struct Point *publickey,bool compress,char *dst_publickey,char *dst_address)
generate_publickey_and_address(&publickey,false,str_publickey,str_address);
printf("publickey uncompressed: %s\n",str_publickey);
printf("address uncompressed %s\n",str_address);
generate_publickey_and_address(&publickey,true,str_publickey,str_address);
printf("publickey compressed: %s\n",str_publickey);
printf("address compressed %s\n",str_address);
//We overwrite the random buffer and the key mpz
for(i = 0; i <256;i++){
mpz_urandomb(key,state,256);
memset(buffer_key,i,32);
}
mpz_clear(key);
gcry_free(buffer_key);
return 0;
}
void generate_publickey_address_rmd160(struct Point *publickey,bool compress,char *dst_publickey,char *dst_address,char *dst_rmd160) {
char bin_publickey[65];
char bin_sha256[32];
char bin_digest[60];
size_t pubaddress_size = 50;
memset(dst_address,0,50);
memset(dst_publickey,0,131);
if(compress) {
if(mpz_tstbit(publickey->y, 0) == 0) { // Even
gmp_snprintf (dst_publickey,67,"02%0.64Zx",publickey->x);
}
else {
gmp_snprintf(dst_publickey,67,"03%0.64Zx",publickey->x);
}
hexs2bin(dst_publickey,bin_publickey);
sha256(bin_publickey, 33, bin_sha256);
}
else {
gmp_snprintf(dst_publickey,131,"04%0.64Zx%0.64Zx",publickey->x,publickey->y);
hexs2bin(dst_publickey,bin_publickey);
sha256(bin_publickey, 65, bin_sha256);
}
RMD160Data((const unsigned char*)bin_sha256,32, bin_digest+1);
tohex_dst(bin_digest+1,20,dst_rmd160);
/* Firts byte 0, this is for the Address begining with 1.... */
bin_digest[0] = 0;
/* Double sha256 checksum */
sha256(bin_digest, 21, bin_digest+21);
sha256(bin_digest+21, 32, bin_digest+21);
/* Get the address */
if(!b58enc(dst_address,&pubaddress_size,bin_digest,25)){
fprintf(stderr,"error b58enc\n");
}
}
void generate_publickey_and_address(struct Point *publickey,bool compress,char *dst_publickey,char *dst_address) {
char bin_publickey[65];
char bin_sha256[32];
char bin_digest[60];
size_t pubaddress_size = 50;
memset(dst_address,0,50);
memset(dst_publickey,0,131);
if(compress) {
if(mpz_tstbit(publickey->y, 0) == 0) { // Even
gmp_snprintf (dst_publickey,67,"02%0.64Zx",publickey->x);
}
else {
gmp_snprintf(dst_publickey,67,"03%0.64Zx",publickey->x);
}
hexs2bin(dst_publickey,bin_publickey);
sha256(bin_publickey, 33, bin_sha256);
}
else {
gmp_snprintf(dst_publickey,131,"04%0.64Zx%0.64Zx",publickey->x,publickey->y);
hexs2bin(dst_publickey,bin_publickey);
sha256(bin_publickey, 65, bin_sha256);
}
RMD160Data((const unsigned char*)bin_sha256,32, bin_digest+1);
/* Firts byte 0, this is for the Address begining with 1.... */
bin_digest[0] = 0;
/* Double sha256 checksum */
sha256(bin_digest, 21, bin_digest+21);
sha256(bin_digest+21, 32, bin_digest+21);
/* Get the address */
if(!b58enc(dst_address,&pubaddress_size,bin_digest,25)){
fprintf(stderr,"error b58enc\n");
}
}
void *wrapper_gcry_alloc(size_t size) { //To use calloc instead of malloc
return gcry_calloc(size,1);
}
void *wrapper_gcry_realloc(void *ptr, size_t old_size, size_t new_size) {
return gcry_realloc(ptr,new_size);
}
void wrapper_gcry_free(void *ptr, size_t cur_size) {
gcry_free(ptr);
}