// Copyright 2015, 2016 Parity Technologies (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 ethkey::{KeyPair, sign, Address, Secret, Signature, Message, Public}; use {json, Error, crypto}; use crypto::Keccak256; use random::Random; use account::{Version, Cipher, Kdf, Aes128Ctr, Pbkdf2, Prf}; #[derive(Debug, PartialEq, Clone)] pub struct Crypto { pub cipher: Cipher, pub ciphertext: Vec, pub kdf: Kdf, pub mac: [u8; 32], } #[derive(Debug, PartialEq, Clone)] pub struct SafeAccount { pub id: [u8; 16], pub version: Version, pub address: Address, pub crypto: Crypto, pub filename: Option, pub name: String, pub meta: String, } impl From for Crypto { fn from(json: json::Crypto) -> Self { Crypto { cipher: json.cipher.into(), ciphertext: json.ciphertext.into(), kdf: json.kdf.into(), mac: json.mac.into(), } } } impl Into for Crypto { fn into(self) -> json::Crypto { json::Crypto { cipher: self.cipher.into(), ciphertext: self.ciphertext.into(), kdf: self.kdf.into(), mac: self.mac.into(), } } } impl Into for SafeAccount { fn into(self) -> json::KeyFile { json::KeyFile { id: From::from(self.id), version: self.version.into(), address: self.address.into(), crypto: self.crypto.into(), name: Some(self.name.into()), meta: Some(self.meta.into()), } } } impl Crypto { pub fn create(secret: &Secret, password: &str, iterations: u32) -> Self { let salt: [u8; 32] = Random::random(); let iv: [u8; 16] = Random::random(); // two parts of derived key // DK = [ DK[0..15] DK[16..31] ] = [derived_left_bits, derived_right_bits] let (derived_left_bits, derived_right_bits) = crypto::derive_key_iterations(password, &salt, iterations); let mut ciphertext = [0u8; 32]; // aes-128-ctr with initial vector of iv crypto::aes::encrypt(&derived_left_bits, &iv, &**secret, &mut ciphertext); // KECCAK(DK[16..31] ++ ), where DK[16..31] - derived_right_bits let mac = crypto::derive_mac(&derived_right_bits, &ciphertext).keccak256(); Crypto { cipher: Cipher::Aes128Ctr(Aes128Ctr { iv: iv, }), ciphertext: ciphertext.to_vec(), kdf: Kdf::Pbkdf2(Pbkdf2 { dklen: crypto::KEY_LENGTH as u32, salt: salt, c: iterations, prf: Prf::HmacSha256, }), mac: mac, } } pub fn secret(&self, password: &str) -> Result { if self.ciphertext.len() > 32 { return Err(Error::InvalidSecret); } let (derived_left_bits, derived_right_bits) = match self.kdf { Kdf::Pbkdf2(ref params) => crypto::derive_key_iterations(password, ¶ms.salt, params.c), Kdf::Scrypt(ref params) => try!(crypto::derive_key_scrypt(password, ¶ms.salt, params.n, params.p, params.r)), }; let mac = crypto::derive_mac(&derived_right_bits, &self.ciphertext).keccak256(); if mac != self.mac { return Err(Error::InvalidPassword); } let mut secret = Secret::default(); match self.cipher { Cipher::Aes128Ctr(ref params) => { let from = 32 - self.ciphertext.len(); crypto::aes::decrypt(&derived_left_bits, ¶ms.iv, &self.ciphertext, &mut (&mut *secret)[from..]) }, } Ok(secret) } } impl SafeAccount { pub fn create( keypair: &KeyPair, id: [u8; 16], password: &str, iterations: u32, name: String, meta: String ) -> Self { SafeAccount { id: id, version: Version::V3, crypto: Crypto::create(keypair.secret(), password, iterations), address: keypair.address(), filename: None, name: name, meta: meta, } } /// Create a new `SafeAccount` from the given `json`; if it was read from a /// file, the `filename` should be `Some` name. If it is as yet anonymous, then it /// can be left `None`. pub fn from_file(json: json::KeyFile, filename: Option) -> Self { SafeAccount { id: json.id.into(), version: json.version.into(), address: json.address.into(), crypto: json.crypto.into(), filename: filename, name: json.name.unwrap_or(String::new()), meta: json.meta.unwrap_or("{}".to_owned()), } } pub fn sign(&self, password: &str, message: &Message) -> Result { let secret = try!(self.crypto.secret(password)); sign(&secret, message).map_err(From::from) } pub fn decrypt(&self, password: &str, shared_mac: &[u8], message: &[u8]) -> Result, Error> { let secret = try!(self.crypto.secret(password)); crypto::ecies::decrypt(&secret, shared_mac, message).map_err(From::from) } pub fn public(&self, password: &str) -> Result { let secret = try!(self.crypto.secret(password)); Ok(try!(KeyPair::from_secret(secret)).public().clone()) } pub fn change_password(&self, old_password: &str, new_password: &str, iterations: u32) -> Result { let secret = try!(self.crypto.secret(old_password)); let result = SafeAccount { id: self.id.clone(), version: self.version.clone(), crypto: Crypto::create(&secret, new_password, iterations), address: self.address.clone(), filename: self.filename.clone(), name: self.name.clone(), meta: self.meta.clone(), }; Ok(result) } pub fn check_password(&self, password: &str) -> bool { self.crypto.secret(password).is_ok() } } #[cfg(test)] mod tests { use ethkey::{Generator, Random, verify_public, Message}; use super::{Crypto, SafeAccount}; #[test] fn crypto_create() { let keypair = Random.generate().unwrap(); let crypto = Crypto::create(keypair.secret(), "this is sparta", 10240); let secret = crypto.secret("this is sparta").unwrap(); assert_eq!(keypair.secret(), &secret); } #[test] #[should_panic] fn crypto_invalid_password() { let keypair = Random.generate().unwrap(); let crypto = Crypto::create(keypair.secret(), "this is sparta", 10240); let _ = crypto.secret("this is sparta!").unwrap(); } #[test] fn sign_and_verify_public() { let keypair = Random.generate().unwrap(); let password = "hello world"; let message = Message::default(); let account = SafeAccount::create(&keypair, [0u8; 16], password, 10240, "Test".to_owned(), "{}".to_owned()); let signature = account.sign(password, &message).unwrap(); assert!(verify_public(keypair.public(), &signature, &message).unwrap()); } #[test] fn change_password() { let keypair = Random.generate().unwrap(); let first_password = "hello world"; let sec_password = "this is sparta"; let i = 10240; let message = Message::default(); let account = SafeAccount::create(&keypair, [0u8; 16], first_password, i, "Test".to_owned(), "{}".to_owned()); let new_account = account.change_password(first_password, sec_password, i).unwrap(); assert!(account.sign(first_password, &message).is_ok()); assert!(account.sign(sec_password, &message).is_err()); assert!(new_account.sign(first_password, &message).is_err()); assert!(new_account.sign(sec_password, &message).is_ok()); } }