package account import ( "encoding/json" "errors" "fmt" "io/ioutil" "os" "path/filepath" "sync" "github.com/ethereum/go-ethereum/accounts" "github.com/ethereum/go-ethereum/accounts/keystore" gethcommon "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/crypto" "github.com/status-im/status-go/extkeys" ) // errors var ( ErrAddressToAccountMappingFailure = errors.New("cannot retrieve a valid account for a given address") ErrAccountToKeyMappingFailure = errors.New("cannot retrieve a valid key for a given account") ErrNoAccountSelected = errors.New("no account has been selected, please login") ErrInvalidMasterKeyCreated = errors.New("can not create master extended key") ) // GethServiceProvider provides required geth services. type GethServiceProvider interface { AccountManager() (*accounts.Manager, error) AccountKeyStore() (*keystore.KeyStore, error) } // Manager represents account manager interface. type Manager struct { geth GethServiceProvider mu sync.RWMutex selectedAccount *SelectedExtKey // account that was processed during the last call to SelectAccount() } // NewManager returns new node account manager. func NewManager(geth GethServiceProvider) *Manager { return &Manager{ geth: geth, } } // CreateAccount creates an internal geth account // BIP44-compatible keys are generated: CKD#1 is stored as account key, CKD#2 stored as sub-account root // Public key of CKD#1 is returned, with CKD#2 securely encoded into account key file (to be used for // sub-account derivations) func (m *Manager) CreateAccount(password string) (address, pubKey, mnemonic string, err error) { // generate mnemonic phrase mn := extkeys.NewMnemonic(extkeys.Salt) mnemonic, err = mn.MnemonicPhrase(extkeys.EntropyStrength128, extkeys.EnglishLanguage) if err != nil { return "", "", "", fmt.Errorf("can not create mnemonic seed: %v", err) } // generate extended master key (see BIP32) extKey, err := extkeys.NewMaster(mn.MnemonicSeed(mnemonic, password), []byte(extkeys.Salt)) if err != nil { return "", "", "", fmt.Errorf("can not create master extended key: %v", err) } // import created key into account keystore address, pubKey, err = m.importExtendedKey(extKey, password) if err != nil { return "", "", "", err } return address, pubKey, mnemonic, nil } // CreateChildAccount creates sub-account for an account identified by parent address. // CKD#2 is used as root for master accounts (when parentAddress is ""). // Otherwise (when parentAddress != ""), child is derived directly from parent. func (m *Manager) CreateChildAccount(parentAddress, password string) (address, pubKey string, err error) { m.mu.Lock() defer m.mu.Unlock() keyStore, err := m.geth.AccountKeyStore() if err != nil { return "", "", err } if parentAddress == "" && m.selectedAccount != nil { // derive from selected account by default parentAddress = m.selectedAccount.Address.Hex() } if parentAddress == "" { return "", "", ErrNoAccountSelected } account, err := ParseAccountString(parentAddress) if err != nil { return "", "", ErrAddressToAccountMappingFailure } // make sure that given password can decrypt key associated with a given parent address account, accountKey, err := keyStore.AccountDecryptedKey(account, password) if err != nil { return "", "", fmt.Errorf("%s: %v", ErrAccountToKeyMappingFailure.Error(), err) } parentKey, err := extkeys.NewKeyFromString(accountKey.ExtendedKey.String()) if err != nil { return "", "", err } // derive child key childKey, err := parentKey.Child(accountKey.SubAccountIndex) if err != nil { return "", "", err } if err = keyStore.IncSubAccountIndex(account, password); err != nil { return "", "", err } accountKey.SubAccountIndex++ // import derived key into account keystore address, pubKey, err = m.importExtendedKey(childKey, password) if err != nil { return } // update in-memory selected account if m.selectedAccount != nil { m.selectedAccount.AccountKey = accountKey } return address, pubKey, nil } // RecoverAccount re-creates master key using given details. // Once master key is re-generated, it is inserted into keystore (if not already there). func (m *Manager) RecoverAccount(password, mnemonic string) (address, pubKey string, err error) { // re-create extended key (see BIP32) mn := extkeys.NewMnemonic(extkeys.Salt) extKey, err := extkeys.NewMaster(mn.MnemonicSeed(mnemonic, password), []byte(extkeys.Salt)) if err != nil { return "", "", ErrInvalidMasterKeyCreated } // import re-created key into account keystore address, pubKey, err = m.importExtendedKey(extKey, password) if err != nil { return } return address, pubKey, nil } // VerifyAccountPassword tries to decrypt a given account key file, with a provided password. // If no error is returned, then account is considered verified. func (m *Manager) VerifyAccountPassword(keyStoreDir, address, password string) (*keystore.Key, error) { var err error var foundKeyFile []byte addressObj := gethcommon.BytesToAddress(gethcommon.FromHex(address)) checkAccountKey := func(path string, fileInfo os.FileInfo) error { if len(foundKeyFile) > 0 || fileInfo.IsDir() { return nil } rawKeyFile, e := ioutil.ReadFile(path) if e != nil { return fmt.Errorf("invalid account key file: %v", e) } var accountKey struct { Address string `json:"address"` } if e := json.Unmarshal(rawKeyFile, &accountKey); e != nil { return fmt.Errorf("failed to read key file: %s", e) } if gethcommon.HexToAddress("0x"+accountKey.Address).Hex() == addressObj.Hex() { foundKeyFile = rawKeyFile } return nil } // locate key within key store directory (address should be within the file) err = filepath.Walk(keyStoreDir, func(path string, fileInfo os.FileInfo, err error) error { if err != nil { return err } return checkAccountKey(path, fileInfo) }) if err != nil { return nil, fmt.Errorf("cannot traverse key store folder: %v", err) } if len(foundKeyFile) == 0 { return nil, fmt.Errorf("cannot locate account for address: %s", addressObj.Hex()) } key, err := keystore.DecryptKey(foundKeyFile, password) if err != nil { return nil, err } // avoid swap attack if key.Address != addressObj { return nil, fmt.Errorf("account mismatch: have %s, want %s", key.Address.Hex(), addressObj.Hex()) } return key, nil } // SelectAccount selects current account, by verifying that address has corresponding account which can be decrypted // using provided password. Once verification is done, all previous identities are removed). func (m *Manager) SelectAccount(address, password string) error { m.mu.Lock() defer m.mu.Unlock() keyStore, err := m.geth.AccountKeyStore() if err != nil { return err } account, err := ParseAccountString(address) if err != nil { return ErrAddressToAccountMappingFailure } account, accountKey, err := keyStore.AccountDecryptedKey(account, password) if err != nil { return fmt.Errorf("%s: %v", ErrAccountToKeyMappingFailure.Error(), err) } // persist account key for easier recovery of currently selected key subAccounts, err := m.findSubAccounts(accountKey.ExtendedKey, accountKey.SubAccountIndex) if err != nil { return err } m.selectedAccount = &SelectedExtKey{ Address: account.Address, AccountKey: accountKey, SubAccounts: subAccounts, } return nil } // SelectedAccount returns currently selected account func (m *Manager) SelectedAccount() (*SelectedExtKey, error) { m.mu.RLock() defer m.mu.RUnlock() if m.selectedAccount == nil { return nil, ErrNoAccountSelected } return m.selectedAccount, nil } // Logout clears selectedAccount. func (m *Manager) Logout() { m.mu.Lock() defer m.mu.Unlock() m.selectedAccount = nil } // importExtendedKey processes incoming extended key, extracts required info and creates corresponding account key. // Once account key is formed, that key is put (if not already) into keystore i.e. key is *encoded* into key file. func (m *Manager) importExtendedKey(extKey *extkeys.ExtendedKey, password string) (address, pubKey string, err error) { keyStore, err := m.geth.AccountKeyStore() if err != nil { return "", "", err } // imports extended key, create key file (if necessary) account, err := keyStore.ImportExtendedKey(extKey, password) if err != nil { return "", "", err } address = account.Address.Hex() // obtain public key to return account, key, err := keyStore.AccountDecryptedKey(account, password) if err != nil { return address, "", err } pubKey = gethcommon.ToHex(crypto.FromECDSAPub(&key.PrivateKey.PublicKey)) return } // Accounts returns list of addresses for selected account, including // subaccounts. func (m *Manager) Accounts() ([]gethcommon.Address, error) { m.mu.RLock() defer m.mu.RUnlock() am, err := m.geth.AccountManager() if err != nil { return nil, err } var addresses []gethcommon.Address for _, wallet := range am.Wallets() { for _, account := range wallet.Accounts() { addresses = append(addresses, account.Address) } } if m.selectedAccount == nil { return []gethcommon.Address{}, nil } m.refreshSelectedAccount() filtered := make([]gethcommon.Address, 0) for _, account := range addresses { // main account if m.selectedAccount.Address.Hex() == account.Hex() { filtered = append(filtered, account) } else { // sub accounts for _, subAccount := range m.selectedAccount.SubAccounts { if subAccount.Address.Hex() == account.Hex() { filtered = append(filtered, account) } } } } return filtered, nil } // refreshSelectedAccount re-populates list of sub-accounts of the currently selected account (if any) func (m *Manager) refreshSelectedAccount() { if m.selectedAccount == nil { return } accountKey := m.selectedAccount.AccountKey if accountKey == nil { return } // re-populate list of sub-accounts subAccounts, err := m.findSubAccounts(accountKey.ExtendedKey, accountKey.SubAccountIndex) if err != nil { return } m.selectedAccount = &SelectedExtKey{ Address: m.selectedAccount.Address, AccountKey: m.selectedAccount.AccountKey, SubAccounts: subAccounts, } } // findSubAccounts traverses cached accounts and adds as a sub-accounts any // that belong to the currently selected account. // The extKey is CKD#2 := root of sub-accounts of the main account func (m *Manager) findSubAccounts(extKey *extkeys.ExtendedKey, subAccountIndex uint32) ([]accounts.Account, error) { keyStore, err := m.geth.AccountKeyStore() if err != nil { return []accounts.Account{}, err } subAccounts := make([]accounts.Account, 0) if extKey.Depth == 5 { // CKD#2 level // gather possible sub-account addresses subAccountAddresses := make([]gethcommon.Address, 0) for i := uint32(0); i < subAccountIndex; i++ { childKey, err := extKey.Child(i) if err != nil { return []accounts.Account{}, err } subAccountAddresses = append(subAccountAddresses, crypto.PubkeyToAddress(childKey.ToECDSA().PublicKey)) } // see if any of the gathered addresses actually exist in cached accounts list for _, cachedAccount := range keyStore.Accounts() { for _, possibleAddress := range subAccountAddresses { if possibleAddress.Hex() == cachedAccount.Address.Hex() { subAccounts = append(subAccounts, cachedAccount) } } } } return subAccounts, nil } // AddressToDecryptedAccount tries to load decrypted key for a given account. // The running node, has a keystore directory which is loaded on start. Key file // for a given address is expected to be in that directory prior to node start. func (m *Manager) AddressToDecryptedAccount(address, password string) (accounts.Account, *keystore.Key, error) { keyStore, err := m.geth.AccountKeyStore() if err != nil { return accounts.Account{}, nil, err } account, err := ParseAccountString(address) if err != nil { return accounts.Account{}, nil, ErrAddressToAccountMappingFailure } return keyStore.AccountDecryptedKey(account, password) }