// Input: priv_key = buffer of 200 bytes
// pub_key = buffer of 200 bytes
// Output: priv_key = Your private key
// pub_key = Your public key
int DH1080_gen(char *priv_key, char *pub_key)
{
unsigned char raw_buf[256]; //, iniHash[33];
//unsigned long seed;
int iRet, i;
size_t len;
mpz_t b_privkey, b_pubkey, b_base;
unsigned char temp[DH1080_PRIME_BYTES];
//FILE *hRnd;
priv_key[0]='0';
priv_key[1]='\0';
pub_key[0]='0';
pub_key[1]='\0';
mpz_init(b_privkey);
mpz_init(b_pubkey);
mpz_init_set_ui(b_base, 2);
do
{
for(i=0; i < DH1080_PRIME_BYTES; i++)
temp[i] = (unsigned char)rand(&csprng);
mpz_import(b_privkey, DH1080_PRIME_BYTES, 1, 1, 0, 0, temp);
mpz_mod(b_privkey, b_privkey, b_prime1080); /* [2, prime1080-1] */
} while( mpz_cmp_ui(b_privkey, 1) != 1); /* while smaller than 2 */
mpz_powm(b_pubkey, b_base, b_privkey, b_prime1080);
if(DH_verifyPubKey(b_pubkey))
{
mpz_export(raw_buf, &len, 1, 1, 0, 0, b_privkey);
mpz_clear(b_privkey);
htob64((char *)raw_buf, priv_key, len);
mpz_export(raw_buf, &len, 1, 1, 0, 0, b_pubkey);
htob64((char *)raw_buf, pub_key, len);
iRet=1;
}
else iRet=0;
ZeroMemory(raw_buf, sizeof(raw_buf));
mpz_clear(b_pubkey);
mpz_clear(b_base);
return iRet;
}
// Input: MyPrivKey = Your private key
// HisPubKey = Someones public key
// Output: MyPrivKey has been destroyed for security reasons
// HisPubKey = the secret key
int DH1080_comp(char *MyPrivKey, char *HisPubKey)
{
//int i=0;
int iRet;
unsigned char SHA256digest[35], base64_tmp[160];
mpz_t b_myPrivkey, b_HisPubkey, b_theKey;
size_t len;
// Verify base64 strings
if((strspn(MyPrivKey, B64ABC) != strlen(MyPrivKey)) || (strspn(HisPubKey, B64ABC) != strlen(HisPubKey)))
{
memset(MyPrivKey, 0x20, strlen(MyPrivKey));
memset(HisPubKey, 0x20, strlen(HisPubKey));
return 0;
}
mpz_init(b_HisPubkey);
mpz_init(b_theKey);
len=b64toh(HisPubKey, (char *)base64_tmp);
mpz_import(b_HisPubkey, len, 1, 1, 0, 0, base64_tmp);
if(DH_verifyPubKey(b_HisPubkey))
{
mpz_init(b_myPrivkey);
len=b64toh(MyPrivKey, (char *)base64_tmp);
mpz_import(b_myPrivkey, len, 1, 1, 0, 0, base64_tmp);
memset(MyPrivKey, 0x20, strlen(MyPrivKey));
mpz_powm(b_theKey, b_HisPubkey, b_myPrivkey, b_prime1080);
mpz_clear(b_myPrivkey);
mpz_export(base64_tmp, &len, 1, 1, 0, 0, b_theKey);
SHA256_memory((char *)base64_tmp, len, (char *)SHA256digest);
htob64((char *)SHA256digest, HisPubKey, 32);
iRet=1;
}
else iRet=0;
ZeroMemory(base64_tmp, sizeof(base64_tmp));
ZeroMemory(SHA256digest, sizeof(SHA256digest));
mpz_clear(b_theKey);
mpz_clear(b_HisPubkey);
return iRet;
}
// Input: MyPrivKey = Your private key
// HisPubKey = Someones public key
// Output: MyPrivKey has been destroyed for security reasons
// HisPubKey = the secret key
int DH1080_comp(char *MyPrivKey, char *HisPubKey)
{
int i=0, len, iRet;
unsigned char SHA256digest[35], base64_tmp[160];
big b_myPrivkey, b_HisPubkey, b_theKey;
// Verify base64 strings
if((strspn(MyPrivKey, B64ABC) != strlen(MyPrivKey)) || (strspn(HisPubKey, B64ABC) != strlen(HisPubKey)))
{
memset(MyPrivKey, 0x20, strlen(MyPrivKey));
memset(HisPubKey, 0x20, strlen(HisPubKey));
return 0;
}
b_HisPubkey=mirvar(0);
b_theKey=mirvar(0);
len=b64toh(HisPubKey, base64_tmp);
bytes_to_big(len, base64_tmp, b_HisPubkey);
if(DH_verifyPubKey(b_HisPubkey))
{
b_myPrivkey=mirvar(0);
len=b64toh(MyPrivKey, base64_tmp);
bytes_to_big(len, base64_tmp, b_myPrivkey);
memset(MyPrivKey, 0x20, strlen(MyPrivKey));
powmod(b_HisPubkey, b_myPrivkey, b_prime1080, b_theKey);
mirkill(b_myPrivkey);
len=big_to_bytes(sizeof(base64_tmp), b_theKey, base64_tmp, FALSE);
SHA256_memory(base64_tmp, len, SHA256digest);
htob64(SHA256digest, HisPubKey, 32);
iRet=1;
}
else iRet=0;
ZeroMemory(base64_tmp, sizeof(base64_tmp));
ZeroMemory(SHA256digest, sizeof(SHA256digest));
mirkill(b_theKey);
mirkill(b_HisPubkey);
return iRet;
}
// Input: priv_key = buffer of 200 bytes
// pub_key = buffer of 200 bytes
// Output: priv_key = Your private key
// pub_key = Your public key
int DH1080_gen(char *priv_key, char *pub_key)
{
unsigned char raw_buf[160], iniHash[33];
unsigned long seed;
int len, iRet;
big b_privkey, b_pubkey;
csprng myRNG;
FILE *hRnd;
priv_key[0]='0';
priv_key[1]='\0';
pub_key[0]='0';
pub_key[1]='\0';
hRnd = fopen("/dev/urandom", "r"); // don't use /dev/random, it's a blocking device
if(!hRnd) return 0;
b_privkey=mirvar(0);
b_pubkey=mirvar(0);
// #*#*#*#*#* RNG START #*#*#*#*#*
time((time_t *)&seed);
seed ^= (long)hRnd << 16;
if(fread(raw_buf, 1, sizeof(raw_buf), hRnd) < 32)
{
ZeroMemory(raw_buf, sizeof(raw_buf));
fclose(hRnd);
mirkill(b_privkey);
mirkill(b_pubkey);
return 0;
}
fclose(hRnd);
sha_file(iniPath, iniHash);
memXOR(raw_buf+128, iniHash, 32);
sha_file((unsigned char *)get_irssi_config(), iniHash);
memXOR(raw_buf+128, iniHash, 32);
ZeroMemory(iniHash, sizeof(iniHash));
// first 128 byte in raw_buf: output from /dev/urandom
// last 32 byte in raw_buf: SHA-256 digest from blow.ini and irssi.conf
seed *= (unsigned long)mip;
strong_init(&myRNG, sizeof(raw_buf), raw_buf, (unsigned int)seed);
strong_rng(&myRNG);
strong_bigdig(&myRNG, 1080, 2, b_privkey);
strong_kill(&myRNG);
seed=0;
// #*#*#*#*#* RNG END #*#*#*#*#*
powltr(2, b_privkey, b_prime1080, b_pubkey);
if(DH_verifyPubKey(b_pubkey))
{
len=big_to_bytes(sizeof(raw_buf), b_privkey, raw_buf, FALSE);
htob64(raw_buf, priv_key, len);
len=big_to_bytes(sizeof(raw_buf), b_pubkey, raw_buf, FALSE);
htob64(raw_buf, pub_key, len);
iRet=1;
}
else iRet=0;
ZeroMemory(raw_buf, sizeof(raw_buf));
mirkill(b_privkey);
mirkill(b_pubkey);
return iRet;
}