dash/src/hdchain.cpp
2023-09-24 09:50:50 -05:00

235 lines
7.2 KiB
C++

// Copyright (c) 2014-2022 The Dash Core developers
// Distributed under the MIT software license, see the accompanying
#include <bip39.h>
#include <chainparams.h>
#include <hdchain.h>
#include <key_io.h>
#include <tinyformat.h>
#include <util/system.h>
#include <util/strencodings.h>
bool CHDChain::SetNull()
{
LOCK(cs);
nVersion = CURRENT_VERSION;
id = uint256();
fCrypted = false;
vchSeed.clear();
vchMnemonic.clear();
vchMnemonicPassphrase.clear();
mapAccounts.clear();
return IsNull();
}
bool CHDChain::IsNull() const
{
LOCK(cs);
return vchSeed.empty() || id == uint256();
}
void CHDChain::SetCrypted(bool fCryptedIn)
{
LOCK(cs);
fCrypted = fCryptedIn;
}
bool CHDChain::IsCrypted() const
{
LOCK(cs);
return fCrypted;
}
void CHDChain::Debug(const std::string& strName) const
{
DBG(
LOCK(cs);
std::cout << __func__ << ": ---" << strName << "---" << std::endl;
if (fCrypted) {
std::cout << "mnemonic: ***CRYPTED***" << std::endl;
std::cout << "mnemonicpassphrase: ***CRYPTED***" << std::endl;
std::cout << "seed: ***CRYPTED***" << std::endl;
} else {
std::cout << "mnemonic: " << std::string(vchMnemonic.begin(), vchMnemonic.end()).c_str() << std::endl;
std::cout << "mnemonicpassphrase: " << std::string(vchMnemonicPassphrase.begin(), vchMnemonicPassphrase.end()).c_str() << std::endl;
std::cout << "seed: " << HexStr(vchSeed).c_str() << std::endl;
CExtKey extkey;
extkey.SetSeed(vchSeed);
std::cout << "extended private masterkey: " << EncodeExtKey(extkey).c_str() << std::endl;
CExtPubKey extpubkey;
extpubkey = extkey.Neuter();
std::cout << "extended public masterkey: " << EncodeExtPubKey(extpubkey).c_str() << std::endl;
}
);
}
bool CHDChain::SetMnemonic(const SecureVector& vchMnemonic, const SecureVector& vchMnemonicPassphrase, bool fUpdateID)
{
return SetMnemonic(SecureString(vchMnemonic.begin(), vchMnemonic.end()), SecureString(vchMnemonicPassphrase.begin(), vchMnemonicPassphrase.end()), fUpdateID);
}
bool CHDChain::SetMnemonic(const SecureString& ssMnemonic, const SecureString& ssMnemonicPassphrase, bool fUpdateID)
{
LOCK(cs);
SecureString ssMnemonicTmp = ssMnemonic;
if (fUpdateID) {
// can't (re)set mnemonic if seed was already set
if (!IsNull())
return false;
if (ssMnemonicPassphrase.size() > 256) {
throw std::runtime_error(std::string(__func__) + ": Mnemonic passphrase is too long, must be at most 256 characters");
}
// empty mnemonic i.e. "generate a new one"
if (ssMnemonic.empty()) {
ssMnemonicTmp = CMnemonic::Generate(gArgs.GetArg("-mnemonicbits", DEFAULT_MNEMONIC_BITS));
}
// NOTE: default mnemonic passphrase is an empty string
// printf("mnemonic: %s\n", ssMnemonicTmp.c_str());
if (!CMnemonic::Check(ssMnemonicTmp)) {
throw std::runtime_error(std::string(__func__) + ": invalid mnemonic: `" + std::string(ssMnemonicTmp.c_str()) + "`");
}
CMnemonic::ToSeed(ssMnemonicTmp, ssMnemonicPassphrase, vchSeed);
id = GetSeedHash();
}
vchMnemonic = SecureVector(ssMnemonicTmp.begin(), ssMnemonicTmp.end());
vchMnemonicPassphrase = SecureVector(ssMnemonicPassphrase.begin(), ssMnemonicPassphrase.end());
return !IsNull();
}
bool CHDChain::GetMnemonic(SecureVector& vchMnemonicRet, SecureVector& vchMnemonicPassphraseRet) const
{
LOCK(cs);
// mnemonic was not set, fail
if (vchMnemonic.empty())
return false;
vchMnemonicRet = vchMnemonic;
vchMnemonicPassphraseRet = vchMnemonicPassphrase;
return true;
}
bool CHDChain::GetMnemonic(SecureString& ssMnemonicRet, SecureString& ssMnemonicPassphraseRet) const
{
LOCK(cs);
// mnemonic was not set, fail
if (vchMnemonic.empty())
return false;
ssMnemonicRet = SecureString(vchMnemonic.begin(), vchMnemonic.end());
ssMnemonicPassphraseRet = SecureString(vchMnemonicPassphrase.begin(), vchMnemonicPassphrase.end());
return true;
}
bool CHDChain::SetSeed(const SecureVector& vchSeedIn, bool fUpdateID)
{
LOCK(cs);
vchSeed = vchSeedIn;
if (fUpdateID) {
id = GetSeedHash();
}
return !IsNull();
}
SecureVector CHDChain::GetSeed() const
{
LOCK(cs);
return vchSeed;
}
uint256 CHDChain::GetSeedHash()
{
LOCK(cs);
return Hash(vchSeed);
}
void CHDChain::DeriveChildExtKey(uint32_t nAccountIndex, bool fInternal, uint32_t nChildIndex, CExtKey& extKeyRet, KeyOriginInfo& key_origin)
{
LOCK(cs);
// Use BIP44 keypath scheme i.e. m / purpose' / coin_type' / account' / change / address_index
CExtKey masterKey; //hd master key
CExtKey purposeKey; //key at m/purpose'
CExtKey cointypeKey; //key at m/purpose'/coin_type'
CExtKey accountKey; //key at m/purpose'/coin_type'/account'
CExtKey changeKey; //key at m/purpose'/coin_type'/account'/change
CExtKey childKey; //key at m/purpose'/coin_type'/account'/change/address_index
masterKey.SetSeed(vchSeed);
// Use hardened derivation for purpose, coin_type and account
// (keys >= 0x80000000 are hardened after bip32)
// derive m/purpose'
masterKey.Derive(purposeKey, 44 | 0x80000000);
// derive m/purpose'/coin_type'
purposeKey.Derive(cointypeKey, Params().ExtCoinType() | 0x80000000);
// derive m/purpose'/coin_type'/account'
cointypeKey.Derive(accountKey, nAccountIndex | 0x80000000);
// derive m/purpose'/coin_type'/account'/change
accountKey.Derive(changeKey, fInternal ? 1 : 0);
// derive m/purpose'/coin_type'/account'/change/address_index
changeKey.Derive(extKeyRet, nChildIndex);
#ifdef ENABLE_WALLET
// We should never ever update an already existing key_origin here
assert(key_origin.path.empty());
key_origin.path.push_back(44 | 0x80000000);
key_origin.path.push_back(Params().ExtCoinType() | 0x80000000);
key_origin.path.push_back(nAccountIndex | 0x80000000);
key_origin.path.push_back(fInternal ? 1 : 0);
key_origin.path.push_back(nChildIndex);
CKeyID master_id = masterKey.key.GetPubKey().GetID();
std::copy(master_id.begin(), master_id.begin() + 4, key_origin.fingerprint);
#endif
}
void CHDChain::AddAccount()
{
LOCK(cs);
mapAccounts.insert(std::pair<uint32_t, CHDAccount>(mapAccounts.size(), CHDAccount()));
}
bool CHDChain::GetAccount(uint32_t nAccountIndex, CHDAccount& hdAccountRet)
{
LOCK(cs);
if (nAccountIndex > mapAccounts.size() - 1)
return false;
hdAccountRet = mapAccounts[nAccountIndex];
return true;
}
bool CHDChain::SetAccount(uint32_t nAccountIndex, const CHDAccount& hdAccount)
{
LOCK(cs);
// can only replace existing accounts
if (nAccountIndex > mapAccounts.size() - 1)
return false;
mapAccounts[nAccountIndex] = hdAccount;
return true;
}
size_t CHDChain::CountAccounts()
{
LOCK(cs);
return mapAccounts.size();
}
std::string CHDPubKey::GetKeyPath() const
{
return strprintf("m/44'/%d'/%d'/%d/%d", Params().ExtCoinType(), nAccountIndex, nChangeIndex, extPubKey.nChild);
}