ZeroTierOne/node/Identity.cpp

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/*
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* Copyright (c)2019 ZeroTier, Inc.
*
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* Use of this software is governed by the Business Source License included
* in the LICENSE.TXT file in the project's root directory.
*
* Change Date: 2026-01-01
*
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* On the date above, in accordance with the Business Source License, use
* of this software will be governed by version 2.0 of the Apache License.
*/
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/****/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include "Constants.hpp"
#include "Identity.hpp"
#include "SHA512.hpp"
#include "Salsa20.hpp"
#include "Utils.hpp"
// These can't be changed without a new identity type. They define the
// parameters of the hashcash hashing/searching algorithm.
#define ZT_IDENTITY_GEN_HASHCASH_FIRST_BYTE_LESS_THAN 17
#define ZT_IDENTITY_GEN_MEMORY 2097152
namespace ZeroTier {
// A memory-hard composition of SHA-512 and Salsa20 for hashcash hashing
static inline void _computeMemoryHardHash(const void *publicKey,unsigned int publicKeyBytes,void *digest,void *genmem)
{
// Digest publicKey[] to obtain initial digest
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SHA512(digest,publicKey,publicKeyBytes);
// Initialize genmem[] using Salsa20 in a CBC-like configuration since
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// ordinary Salsa20 is randomly seek-able. This is good for a cipher
// but is not what we want for sequential memory-hardness.
memset(genmem,0,ZT_IDENTITY_GEN_MEMORY);
Salsa20 s20(digest,(char *)digest + 32);
s20.crypt20((char *)genmem,(char *)genmem,64);
for(unsigned long i=64;i<ZT_IDENTITY_GEN_MEMORY;i+=64) {
unsigned long k = i - 64;
*((uint64_t *)((char *)genmem + i)) = *((uint64_t *)((char *)genmem + k));
*((uint64_t *)((char *)genmem + i + 8)) = *((uint64_t *)((char *)genmem + k + 8));
*((uint64_t *)((char *)genmem + i + 16)) = *((uint64_t *)((char *)genmem + k + 16));
*((uint64_t *)((char *)genmem + i + 24)) = *((uint64_t *)((char *)genmem + k + 24));
*((uint64_t *)((char *)genmem + i + 32)) = *((uint64_t *)((char *)genmem + k + 32));
*((uint64_t *)((char *)genmem + i + 40)) = *((uint64_t *)((char *)genmem + k + 40));
*((uint64_t *)((char *)genmem + i + 48)) = *((uint64_t *)((char *)genmem + k + 48));
*((uint64_t *)((char *)genmem + i + 56)) = *((uint64_t *)((char *)genmem + k + 56));
s20.crypt20((char *)genmem + i,(char *)genmem + i,64);
}
// Render final digest using genmem as a lookup table
for(unsigned long i=0;i<(ZT_IDENTITY_GEN_MEMORY / sizeof(uint64_t));) {
unsigned long idx1 = (unsigned long)(Utils::ntoh(((uint64_t *)genmem)[i++]) % (64 / sizeof(uint64_t)));
unsigned long idx2 = (unsigned long)(Utils::ntoh(((uint64_t *)genmem)[i++]) % (ZT_IDENTITY_GEN_MEMORY / sizeof(uint64_t)));
uint64_t tmp = ((uint64_t *)genmem)[idx2];
((uint64_t *)genmem)[idx2] = ((uint64_t *)digest)[idx1];
((uint64_t *)digest)[idx1] = tmp;
s20.crypt20(digest,digest,64);
}
}
// Hashcash generation halting condition -- halt when first byte is less than
// threshold value.
struct _Identity_generate_cond
{
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_Identity_generate_cond() {}
_Identity_generate_cond(unsigned char *sb,char *gm) : digest(sb),genmem(gm) {}
inline bool operator()(const C25519::Pair &kp) const
{
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_computeMemoryHardHash(kp.pub.data,ZT_C25519_PUBLIC_KEY_LEN,digest,genmem);
return (digest[0] < ZT_IDENTITY_GEN_HASHCASH_FIRST_BYTE_LESS_THAN);
}
unsigned char *digest;
char *genmem;
};
void Identity::generate()
{
unsigned char digest[64];
char *genmem = new char[ZT_IDENTITY_GEN_MEMORY];
C25519::Pair kp;
do {
kp = C25519::generateSatisfying(_Identity_generate_cond(digest,genmem));
_address.setTo(digest + 59,ZT_ADDRESS_LENGTH); // last 5 bytes are address
} while (_address.isReserved());
_publicKey = kp.pub;
if (!_privateKey) {
_privateKey = new C25519::Private();
}
*_privateKey = kp.priv;
delete [] genmem;
}
bool Identity::locallyValidate() const
{
if (_address.isReserved()) {
return false;
}
unsigned char digest[64];
char *genmem = new char[ZT_IDENTITY_GEN_MEMORY];
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_computeMemoryHardHash(_publicKey.data,ZT_C25519_PUBLIC_KEY_LEN,digest,genmem);
delete [] genmem;
unsigned char addrb[5];
_address.copyTo(addrb,5);
return (
(digest[0] < ZT_IDENTITY_GEN_HASHCASH_FIRST_BYTE_LESS_THAN)&&
(digest[59] == addrb[0])&&
(digest[60] == addrb[1])&&
(digest[61] == addrb[2])&&
(digest[62] == addrb[3])&&
(digest[63] == addrb[4]));
}
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char *Identity::toString(bool includePrivate,char buf[ZT_IDENTITY_STRING_BUFFER_LENGTH]) const
{
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char *p = buf;
Utils::hex10(_address.toInt(),p);
p += 10;
*(p++) = ':';
*(p++) = '0';
*(p++) = ':';
Utils::hex(_publicKey.data,ZT_C25519_PUBLIC_KEY_LEN,p);
p += ZT_C25519_PUBLIC_KEY_LEN * 2;
if ((_privateKey)&&(includePrivate)) {
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*(p++) = ':';
Utils::hex(_privateKey->data,ZT_C25519_PRIVATE_KEY_LEN,p);
p += ZT_C25519_PRIVATE_KEY_LEN * 2;
}
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*p = (char)0;
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return buf;
}
bool Identity::fromString(const char *str)
{
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if (!str) {
_address.zero();
return false;
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}
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char tmp[ZT_IDENTITY_STRING_BUFFER_LENGTH];
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if (!Utils::scopy(tmp,sizeof(tmp),str)) {
_address.zero();
return false;
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}
delete _privateKey;
_privateKey = (C25519::Private *)0;
int fno = 0;
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char *saveptr = (char *)0;
for(char *f=Utils::stok(tmp,":",&saveptr);(f);f=Utils::stok((char *)0,":",&saveptr)) {
switch(fno++) {
case 0:
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_address = Address(Utils::hexStrToU64(f));
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if (_address.isReserved()) {
_address.zero();
return false;
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}
break;
case 1:
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if ((f[0] != '0')||(f[1])) {
_address.zero();
return false;
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}
break;
case 2:
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if (Utils::unhex(f,_publicKey.data,ZT_C25519_PUBLIC_KEY_LEN) != ZT_C25519_PUBLIC_KEY_LEN) {
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_address.zero();
return false;
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}
break;
case 3:
_privateKey = new C25519::Private();
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if (Utils::unhex(f,_privateKey->data,ZT_C25519_PRIVATE_KEY_LEN) != ZT_C25519_PRIVATE_KEY_LEN) {
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_address.zero();
return false;
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}
break;
default:
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_address.zero();
return false;
}
}
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if (fno < 3) {
_address.zero();
return false;
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}
return true;
}
} // namespace ZeroTier