// Copyright 2015, 2016 Ethcore (UK) Ltd. // This file is part of Parity. // Parity is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity. If not, see . use std::collections::BTreeMap; use std::mem; use ethkey::KeyPair; use crypto::KEY_ITERATIONS; use random::Random; use ethkey::{Signature, Address, Message, Secret, Public}; use dir::KeyDirectory; use account::SafeAccount; use {Error, SimpleSecretStore, SecretStore}; use json; use json::UUID; use parking_lot::RwLock; use presale::PresaleWallet; use import; pub struct EthStore { store: EthMultiStore, } impl EthStore { pub fn open(directory: Box) -> Result { Self::open_with_iterations(directory, KEY_ITERATIONS as u32) } pub fn open_with_iterations(directory: Box, iterations: u32) -> Result { Ok(EthStore { store: try!(EthMultiStore::open_with_iterations(directory, iterations)), }) } fn get(&self, address: &Address) -> Result { let mut accounts = try!(self.store.get(address)).into_iter(); accounts.next().ok_or(Error::InvalidAccount) } } impl SimpleSecretStore for EthStore { fn insert_account(&self, secret: Secret, password: &str) -> Result { self.store.insert_account(secret, password) } fn accounts(&self) -> Result, Error> { self.store.accounts() } fn change_password(&self, address: &Address, old_password: &str, new_password: &str) -> Result<(), Error> { self.store.change_password(address, old_password, new_password) } fn remove_account(&self, address: &Address, password: &str) -> Result<(), Error> { self.store.remove_account(address, password) } fn sign(&self, address: &Address, password: &str, message: &Message) -> Result { let account = try!(self.get(address)); account.sign(password, message) } fn decrypt(&self, account: &Address, password: &str, shared_mac: &[u8], message: &[u8]) -> Result, Error> { let account = try!(self.get(account)); account.decrypt(password, shared_mac, message) } } impl SecretStore for EthStore { fn import_presale(&self, json: &[u8], password: &str) -> Result { let json_wallet = try!(json::PresaleWallet::load(json).map_err(|_| Error::InvalidKeyFile("Invalid JSON format".to_owned()))); let wallet = PresaleWallet::from(json_wallet); let keypair = try!(wallet.decrypt(password).map_err(|_| Error::InvalidPassword)); self.insert_account(keypair.secret().clone(), password) } fn import_wallet(&self, json: &[u8], password: &str) -> Result { let json_keyfile = try!(json::KeyFile::load(json).map_err(|_| Error::InvalidKeyFile("Invalid JSON format".to_owned()))); let mut safe_account = SafeAccount::from_file(json_keyfile, None); let secret = try!(safe_account.crypto.secret(password).map_err(|_| Error::InvalidPassword)); safe_account.address = try!(KeyPair::from_secret(secret)).address(); let address = safe_account.address.clone(); try!(self.store.save(safe_account)); Ok(address) } fn test_password(&self, address: &Address, password: &str) -> Result { let account = try!(self.get(address)); Ok(account.check_password(password)) } fn copy_account(&self, new_store: &SimpleSecretStore, address: &Address, password: &str, new_password: &str) -> Result<(), Error> { let account = try!(self.get(address)); let secret = try!(account.crypto.secret(password)); try!(new_store.insert_account(secret, new_password)); Ok(()) } fn public(&self, account: &Address, password: &str) -> Result { let account = try!(self.get(account)); account.public(password) } fn uuid(&self, address: &Address) -> Result { let account = try!(self.get(address)); Ok(account.id.into()) } fn name(&self, address: &Address) -> Result { let account = try!(self.get(address)); Ok(account.name.clone()) } fn meta(&self, address: &Address) -> Result { let account = try!(self.get(address)); Ok(account.meta.clone()) } fn set_name(&self, address: &Address, name: String) -> Result<(), Error> { let mut account = try!(self.get(address)); account.name = name; // save to file self.store.save(account) } fn set_meta(&self, address: &Address, meta: String) -> Result<(), Error> { let mut account = try!(self.get(address)); account.meta = meta; // save to file self.store.save(account) } fn local_path(&self) -> String { self.store.dir.path().map(|p| p.to_string_lossy().into_owned()).unwrap_or_else(|| String::new()) } fn list_geth_accounts(&self, testnet: bool) -> Vec
{ import::read_geth_accounts(testnet) } fn import_geth_accounts(&self, desired: Vec
, testnet: bool) -> Result, Error> { import::import_geth_accounts(&*self.store.dir, desired.into_iter().collect(), testnet) } } /// Similar to `EthStore` but may store many accounts (with different passwords) for the same `Address` pub struct EthMultiStore { dir: Box, iterations: u32, cache: RwLock>>, } impl EthMultiStore { pub fn open(directory: Box) -> Result { Self::open_with_iterations(directory, KEY_ITERATIONS as u32) } pub fn open_with_iterations(directory: Box, iterations: u32) -> Result { let store = EthMultiStore { dir: directory, iterations: iterations, cache: Default::default(), }; try!(store.reload_accounts()); Ok(store) } fn reload_accounts(&self) -> Result<(), Error> { let mut cache = self.cache.write(); let accounts = try!(self.dir.load()); let mut new_accounts = BTreeMap::new(); for account in accounts { let mut entry = new_accounts.entry(account.address.clone()).or_insert_with(Vec::new); entry.push(account); } mem::replace(&mut *cache, new_accounts); Ok(()) } fn get(&self, address: &Address) -> Result, Error> { { let cache = self.cache.read(); if let Some(accounts) = cache.get(address) { if !accounts.is_empty() { return Ok(accounts.clone()) } } } try!(self.reload_accounts()); let cache = self.cache.read(); let accounts = try!(cache.get(address).cloned().ok_or(Error::InvalidAccount)); if accounts.is_empty() { Err(Error::InvalidAccount) } else { Ok(accounts) } } fn save(&self, account: SafeAccount) -> Result<(), Error> { //save to file let account = try!(self.dir.insert(account)); // update cache let mut cache = self.cache.write(); let mut accounts = cache.entry(account.address.clone()).or_insert_with(Vec::new); // TODO [ToDr] That is crappy way of overcoming set_name, set_meta, etc. // Avoid cloning instead! accounts.retain(|acc| acc.filename != account.filename); accounts.push(account); Ok(()) } } impl SimpleSecretStore for EthMultiStore { fn insert_account(&self, secret: Secret, password: &str) -> Result { let keypair = try!(KeyPair::from_secret(secret).map_err(|_| Error::CreationFailed)); let id: [u8; 16] = Random::random(); let account = SafeAccount::create(&keypair, id, password, self.iterations, "".to_owned(), "{}".to_owned()); let address = account.address.clone(); try!(self.save(account)); Ok(address) } fn accounts(&self) -> Result, Error> { try!(self.reload_accounts()); Ok(self.cache.read().keys().cloned().collect()) } fn remove_account(&self, address: &Address, password: &str) -> Result<(), Error> { let accounts = try!(self.get(address)); for account in accounts { // Skip if password is invalid if !account.check_password(password) { continue; } // Remove from dir try!(self.dir.remove(&account)); // Remove from cache let mut cache = self.cache.write(); let is_empty = { let mut accounts = cache.get_mut(address).expect("Entry exists, because it was returned by `get`; qed"); if let Some(position) = accounts.iter().position(|acc| acc == &account) { accounts.remove(position); } accounts.is_empty() }; if is_empty { cache.remove(address); } return Ok(()); } Err(Error::InvalidPassword) } fn change_password(&self, address: &Address, old_password: &str, new_password: &str) -> Result<(), Error> { let accounts = try!(self.get(address)); for account in accounts { // First remove try!(self.remove_account(&address, old_password)); // Then insert back with new password let new_account = try!(account.change_password(old_password, new_password, self.iterations)); try!(self.save(new_account)); } Ok(()) } fn sign(&self, address: &Address, password: &str, message: &Message) -> Result { let accounts = try!(self.get(address)); for account in accounts { if account.check_password(password) { return account.sign(password, message); } } Err(Error::InvalidPassword) } fn decrypt(&self, account: &Address, password: &str, shared_mac: &[u8], message: &[u8]) -> Result, Error> { let accounts = try!(self.get(account)); for account in accounts { if account.check_password(password) { return account.decrypt(password, shared_mac, message); } } Err(Error::InvalidPassword) } } #[cfg(test)] mod tests { #[test] fn should_have_some_tests() { assert_eq!(true, false) } }