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worker_batch_pass.inc.h
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worker_batch_pass.inc.h
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#ifdef PASSPHRASE
void *CRYPTO_NAMESPACE(worker_batch_pass)(void *task)
{
union pubonionunion pubonion;
u8 * const pk = &pubonion.raw[PKPREFIX_SIZE];
u8 secret[SKPREFIX_SIZE + SECRET_LEN];
u8 * const sk = &secret[SKPREFIX_SIZE];
u8 seed[SEED_LEN];
u8 hashsrc[checksumstrlen + PUBLIC_LEN + 1];
u8 wpk[PUBLIC_LEN + 1];
ge_p3 ALIGN(16) ge_public;
char *sname;
// state to keep batch data
ge_p3 ALIGN(16) ge_batch [BATCHNUM];
fe ALIGN(16) tmp_batch[BATCHNUM];
bytes32 ALIGN(16) pk_batch [BATCHNUM];
size_t counter,oldcounter;
size_t i;
#ifdef STATISTICS
struct statstruct *st = (struct statstruct *)task;
#else
(void) task;
#endif
PREFILTER
memcpy(secret,skprefix,SKPREFIX_SIZE);
wpk[PUBLIC_LEN] = 0;
memset(&pubonion,0,sizeof(pubonion));
memcpy(pubonion.raw,pkprefix,PKPREFIX_SIZE);
// write version later as it will be overwritten by hash
memcpy(hashsrc,checksumstr,checksumstrlen);
hashsrc[checksumstrlen + PUBLIC_LEN] = 0x03; // version
sname = makesname();
int seednear;
initseed:
#ifdef STATISTICS
++st->numrestart.v;
#endif
seednear = 0;
pthread_mutex_lock(&determseed_mutex);
for (int i = 0; i < SEED_LEN; i++)
if (++determseed[i])
break;
memcpy(seed,determseed,SEED_LEN);
pthread_mutex_unlock(&determseed_mutex);
ed25519_seckey_expand(sk,seed);
ge_scalarmult_base(&ge_public,sk);
for (counter = oldcounter = 0;counter < DETERMINISTIC_LOOP_COUNT - (BATCHNUM - 1) * 8;counter += BATCHNUM * 8) {
ge_p1p1 ALIGN(16) sum;
if (unlikely(endwork))
goto end;
for (size_t b = 0;b < BATCHNUM;++b) {
ge_batch[b] = ge_public;
ge_add(&sum,&ge_public,&ge_eightpoint);
ge_p1p1_to_p3(&ge_public,&sum);
}
// NOTE: leaves unfinished one bit at the very end
ge_p3_batchtobytes_destructive_1(pk_batch,ge_batch,tmp_batch,BATCHNUM);
#ifdef STATISTICS
st->numcalc.v += BATCHNUM;
#endif
for (size_t b = 0;b < BATCHNUM;++b) {
DOFILTER(i,pk_batch[b],{
if (numwords > 1) {
shiftpk(wpk,pk_batch[b],filter_len(i));
size_t j;
for (int w = 1;;) {
DOFILTER(j,wpk,goto secondfind);
goto next;
secondfind:
if (++w >= numwords)
break;
shiftpk(wpk,wpk,filter_len(j));
}
}
// found!
// finish it up
ge_p3_batchtobytes_destructive_finish(pk_batch[b],&ge_batch[b]);
// copy public key
memcpy(pk,pk_batch[b],PUBLIC_LEN);
// update secret key with counter
addsztoscalar32(sk,counter + (b * 8) - oldcounter);
oldcounter = counter + (b * 8);
// sanity check
if ((sk[0] & 248) != sk[0] || ((sk[31] & 63) | 64) != sk[31])
goto initseed;
// reseed right half of key to avoid reuse, it won't change public key anyway
reseedright(sk);
ADDNUMSUCCESS;
// calc checksum
memcpy(&hashsrc[checksumstrlen],pk,PUBLIC_LEN);
FIPS202_SHA3_256(hashsrc,sizeof(hashsrc),&pk[PUBLIC_LEN]);
// version byte
pk[PUBLIC_LEN + 2] = 0x03;
// full name
strcpy(base32_to(&sname[direndpos],pk,PUBONION_LEN),".onion");
onionready(sname,secret,pubonion.raw,seednear && pw_warnnear);
pk[PUBLIC_LEN] = 0; // what is this for?
if (pw_skipnear)
goto initseed;
seednear = 1;
});
next:
;
}
}
// continue if have leftovers, DETERMINISTIC_LOOP_COUNT - counter < BATCHNUM * 8
// can't have leftovers in theory if BATCHNUM was power of 2 and smaller than DETERMINISTIC_LOOP_COUNT bound
#if (BATCHNUM & (BATCHNUM - 1)) || (BATCHNUM * 8) > DETERMINISTIC_LOOP_COUNT
if (counter < DETERMINISTIC_LOOP_COUNT) {
ge_p1p1 ALIGN(16) sum;
if (unlikely(endwork))
goto end;
const size_t remaining = (DETERMINISTIC_LOOP_COUNT - counter) / 8;
for (size_t b = 0;b < remaining;++b) {
ge_batch[b] = ge_public;
ge_add(&sum,&ge_public,&ge_eightpoint);
ge_p1p1_to_p3(&ge_public,&sum);
}
// NOTE: leaves unfinished one bit at the very end
ge_p3_batchtobytes_destructive_1(pk_batch,ge_batch,tmp_batch,remaining);
#ifdef STATISTICS
st->numcalc.v += remaining;
#endif
for (size_t b = 0;b < remaining;++b) {
DOFILTER(i,pk_batch[b],{
if (numwords > 1) {
shiftpk(wpk,pk_batch[b],filter_len(i));
size_t j;
for (int w = 1;;) {
DOFILTER(j,wpk,goto secondfind2);
goto next2;
secondfind2:
if (++w >= numwords)
break;
shiftpk(wpk,wpk,filter_len(j));
}
}
// found!
// finish it up
ge_p3_batchtobytes_destructive_finish(pk_batch[b],&ge_batch[b]);
// copy public key
memcpy(pk,pk_batch[b],PUBLIC_LEN);
// update secret key with counter
addsztoscalar32(sk,counter + (b * 8) - oldcounter);
oldcounter = counter + (b * 8);
// sanity check
if ((sk[0] & 248) != sk[0] || ((sk[31] & 63) | 64) != sk[31])
goto initseed;
// reseed right half of key to avoid reuse, it won't change public key anyway
reseedright(sk);
ADDNUMSUCCESS;
// calc checksum
memcpy(&hashsrc[checksumstrlen],pk,PUBLIC_LEN);
FIPS202_SHA3_256(hashsrc,sizeof(hashsrc),&pk[PUBLIC_LEN]);
// version byte
pk[PUBLIC_LEN + 2] = 0x03;
// full name
strcpy(base32_to(&sname[direndpos],pk,PUBONION_LEN),".onion");
onionready(sname,secret,pubonion.raw,seednear && pw_warnnear);
pk[PUBLIC_LEN] = 0; // what is this for?
if (pw_skipnear)
goto initseed;
seednear = 1;
});
next2:
;
}
}
#endif // (BATCHNUM & (BATCHNUM - 1)) || (BATCHNUM * 8) > DETERMINISTIC_LOOP_COUNT
goto initseed;
end:
free(sname);
POSTFILTER
sodium_memzero(secret,sizeof(secret));
sodium_memzero(seed,sizeof(seed));
return 0;
}
#endif // PASSPHRASE