2016-12-11 19:30:54 +01:00
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// Copyright 2015, 2016 Parity Technologies (UK) Ltd.
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2016-08-24 18:35:21 +02:00
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// This file is part of Parity.
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// Parity is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Parity is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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//! Crypto utils used ethstore and network.
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2016-09-13 15:26:31 +02:00
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extern crate ethcore_bigint as bigint;
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2016-08-24 18:35:21 +02:00
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extern crate tiny_keccak;
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extern crate crypto as rcrypto;
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extern crate secp256k1;
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extern crate ethkey;
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2016-09-22 14:48:22 +02:00
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use std::fmt;
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2016-08-24 18:35:21 +02:00
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use tiny_keccak::Keccak;
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use rcrypto::pbkdf2::pbkdf2;
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use rcrypto::scrypt::{scrypt, ScryptParams};
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use rcrypto::sha2::Sha256;
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use rcrypto::hmac::Hmac;
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use secp256k1::Error as SecpError;
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pub const KEY_LENGTH: usize = 32;
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pub const KEY_ITERATIONS: usize = 10240;
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pub const KEY_LENGTH_AES: usize = KEY_LENGTH / 2;
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2016-11-17 13:03:12 +01:00
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#[derive(PartialEq, Debug)]
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pub enum ScryptError {
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// log(N) < r / 16
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InvalidN,
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// p <= (2^31-1 * 32)/(128 * r)
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InvalidP,
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}
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impl fmt::Display for ScryptError {
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fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
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let s = match *self {
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ScryptError::InvalidN => "Invalid N argument of the scrypt encryption" ,
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ScryptError::InvalidP => "Invalid p argument of the scrypt encryption",
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};
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write!(f, "{}", s)
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}
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}
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2016-08-25 12:11:06 +02:00
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#[derive(PartialEq, Debug)]
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2016-08-24 18:35:21 +02:00
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pub enum Error {
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Secp(SecpError),
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2016-11-17 13:03:12 +01:00
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Scrypt(ScryptError),
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2016-08-24 18:35:21 +02:00
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InvalidMessage,
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}
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2016-11-17 13:03:12 +01:00
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impl From<ScryptError> for Error {
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fn from(err: ScryptError) -> Self {
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Error::Scrypt(err)
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}
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}
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2016-09-22 14:48:22 +02:00
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impl fmt::Display for Error {
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fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
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let s = match *self {
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Error::Secp(ref err) => err.to_string(),
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2016-11-17 13:03:12 +01:00
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Error::Scrypt(ref err) => err.to_string(),
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2016-09-22 14:48:22 +02:00
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Error::InvalidMessage => "Invalid message".into(),
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};
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write!(f, "{}", s)
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}
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}
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2016-08-24 18:35:21 +02:00
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impl From<SecpError> for Error {
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fn from(e: SecpError) -> Self {
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Error::Secp(e)
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}
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}
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pub trait Keccak256<T> {
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fn keccak256(&self) -> T where T: Sized;
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}
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impl Keccak256<[u8; 32]> for [u8] {
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fn keccak256(&self) -> [u8; 32] {
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let mut keccak = Keccak::new_keccak256();
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let mut result = [0u8; 32];
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keccak.update(self);
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keccak.finalize(&mut result);
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result
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}
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}
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pub fn derive_key_iterations(password: &str, salt: &[u8; 32], c: u32) -> (Vec<u8>, Vec<u8>) {
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let mut h_mac = Hmac::new(Sha256::new(), password.as_bytes());
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let mut derived_key = vec![0u8; KEY_LENGTH];
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pbkdf2(&mut h_mac, salt, c, &mut derived_key);
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let derived_right_bits = &derived_key[0..KEY_LENGTH_AES];
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let derived_left_bits = &derived_key[KEY_LENGTH_AES..KEY_LENGTH];
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(derived_right_bits.to_vec(), derived_left_bits.to_vec())
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}
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2016-11-17 13:03:12 +01:00
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pub fn derive_key_scrypt(password: &str, salt: &[u8; 32], n: u32, p: u32, r: u32) -> Result<(Vec<u8>, Vec<u8>), Error> {
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// sanity checks
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let log_n = (32 - n.leading_zeros() - 1) as u8;
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if log_n as u32 >= r * 16 {
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return Err(Error::Scrypt(ScryptError::InvalidN));
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}
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if p as u64 > ((u32::max_value() as u64 - 1) * 32)/(128 * (r as u64)) {
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return Err(Error::Scrypt(ScryptError::InvalidP));
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}
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2016-08-24 18:35:21 +02:00
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let mut derived_key = vec![0u8; KEY_LENGTH];
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2016-11-17 13:03:12 +01:00
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let scrypt_params = ScryptParams::new(log_n, r, p);
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2016-08-24 18:35:21 +02:00
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scrypt(password.as_bytes(), salt, &scrypt_params, &mut derived_key);
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let derived_right_bits = &derived_key[0..KEY_LENGTH_AES];
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let derived_left_bits = &derived_key[KEY_LENGTH_AES..KEY_LENGTH];
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2016-11-17 13:03:12 +01:00
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Ok((derived_right_bits.to_vec(), derived_left_bits.to_vec()))
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2016-08-24 18:35:21 +02:00
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}
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pub fn derive_mac(derived_left_bits: &[u8], cipher_text: &[u8]) -> Vec<u8> {
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let mut mac = vec![0u8; KEY_LENGTH_AES + cipher_text.len()];
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mac[0..KEY_LENGTH_AES].copy_from_slice(derived_left_bits);
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mac[KEY_LENGTH_AES..cipher_text.len() + KEY_LENGTH_AES].copy_from_slice(cipher_text);
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mac
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}
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/// AES encryption
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pub mod aes {
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use rcrypto::blockmodes::{CtrMode, CbcDecryptor, PkcsPadding};
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use rcrypto::aessafe::{AesSafe128Encryptor, AesSafe128Decryptor};
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use rcrypto::symmetriccipher::{Encryptor, Decryptor, SymmetricCipherError};
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use rcrypto::buffer::{RefReadBuffer, RefWriteBuffer, WriteBuffer};
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/// Encrypt a message
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pub fn encrypt(k: &[u8], iv: &[u8], plain: &[u8], dest: &mut [u8]) {
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let mut encryptor = CtrMode::new(AesSafe128Encryptor::new(k), iv.to_vec());
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encryptor.encrypt(&mut RefReadBuffer::new(plain), &mut RefWriteBuffer::new(dest), true).expect("Invalid length or padding");
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}
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/// Decrypt a message
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pub fn decrypt(k: &[u8], iv: &[u8], encrypted: &[u8], dest: &mut [u8]) {
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let mut encryptor = CtrMode::new(AesSafe128Encryptor::new(k), iv.to_vec());
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encryptor.decrypt(&mut RefReadBuffer::new(encrypted), &mut RefWriteBuffer::new(dest), true).expect("Invalid length or padding");
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}
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/// Decrypt a message using cbc mode
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pub fn decrypt_cbc(k: &[u8], iv: &[u8], encrypted: &[u8], dest: &mut [u8]) -> Result<usize, SymmetricCipherError> {
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let mut encryptor = CbcDecryptor::new(AesSafe128Decryptor::new(k), PkcsPadding, iv.to_vec());
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let len = dest.len();
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let mut buffer = RefWriteBuffer::new(dest);
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2016-12-27 12:53:56 +01:00
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encryptor.decrypt(&mut RefReadBuffer::new(encrypted), &mut buffer, true)?;
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Ok(len - buffer.remaining())
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}
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}
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/// ECDH functions
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#[cfg_attr(feature="dev", allow(similar_names))]
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pub mod ecdh {
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2017-01-11 12:16:47 +01:00
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use secp256k1::{ecdh, key, Error as SecpError};
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2016-08-24 18:35:21 +02:00
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use ethkey::{Secret, Public, SECP256K1};
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use Error;
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/// Agree on a shared secret
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pub fn agree(secret: &Secret, public: &Public) -> Result<Secret, Error> {
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let context = &SECP256K1;
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let pdata = {
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let mut temp = [4u8; 65];
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(&mut temp[1..65]).copy_from_slice(&public[0..64]);
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temp
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};
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2016-12-27 12:53:56 +01:00
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let publ = key::PublicKey::from_slice(context, &pdata)?;
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2017-01-11 12:16:47 +01:00
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let sec = key::SecretKey::from_slice(context, &secret)?;
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let shared = ecdh::SharedSecret::new_raw(context, &publ, &sec);
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2017-01-11 12:16:47 +01:00
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Secret::from_slice(&shared[0..32])
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.map_err(|_| Error::Secp(SecpError::InvalidSecretKey))
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2016-08-24 18:35:21 +02:00
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}
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}
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/// ECIES function
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#[cfg_attr(feature="dev", allow(similar_names))]
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pub mod ecies {
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use rcrypto::digest::Digest;
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use rcrypto::sha2::Sha256;
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use rcrypto::hmac::Hmac;
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use rcrypto::mac::Mac;
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2016-08-25 12:11:06 +02:00
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use bigint::hash::{FixedHash, H128};
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2016-08-24 18:35:21 +02:00
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use ethkey::{Random, Generator, Public, Secret};
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2016-08-25 12:11:06 +02:00
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use {Error, ecdh, aes, Keccak256};
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2016-08-24 18:35:21 +02:00
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/// Encrypt a message with a public key
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pub fn encrypt(public: &Public, shared_mac: &[u8], plain: &[u8]) -> Result<Vec<u8>, Error> {
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2016-10-25 22:34:52 +02:00
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let r = Random.generate()
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.expect("context known to have key-generation capabilities; qed");
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2016-12-27 12:53:56 +01:00
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let z = ecdh::agree(r.secret(), public)?;
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2016-08-24 18:35:21 +02:00
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let mut key = [0u8; 32];
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let mut mkey = [0u8; 32];
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kdf(&z, &[0u8; 0], &mut key);
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let mut hasher = Sha256::new();
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let mkey_material = &key[16..32];
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hasher.input(mkey_material);
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hasher.result(&mut mkey);
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let ekey = &key[0..16];
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let mut msg = vec![0u8; (1 + 64 + 16 + plain.len() + 32)];
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msg[0] = 0x04u8;
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{
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let msgd = &mut msg[1..];
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msgd[0..64].copy_from_slice(r.public());
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2016-08-25 12:11:06 +02:00
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let iv = H128::random();
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msgd[64..80].copy_from_slice(&iv);
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2016-08-24 18:35:21 +02:00
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{
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let cipher = &mut msgd[(64 + 16)..(64 + 16 + plain.len())];
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2016-08-25 12:11:06 +02:00
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aes::encrypt(ekey, &iv, plain, cipher);
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2016-08-24 18:35:21 +02:00
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}
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let mut hmac = Hmac::new(Sha256::new(), &mkey);
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{
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let cipher_iv = &msgd[64..(64 + 16 + plain.len())];
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hmac.input(cipher_iv);
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}
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hmac.input(shared_mac);
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hmac.raw_result(&mut msgd[(64 + 16 + plain.len())..]);
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}
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Ok(msg)
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}
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2016-08-25 12:11:06 +02:00
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/// Encrypt a message with a public key
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pub fn encrypt_single_message(public: &Public, plain: &[u8]) -> Result<Vec<u8>, Error> {
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2016-10-25 22:34:52 +02:00
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let r = Random.generate()
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.expect("context known to have key-generation capabilities");
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2016-12-27 12:53:56 +01:00
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let z = ecdh::agree(r.secret(), public)?;
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2016-08-25 12:11:06 +02:00
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let mut key = [0u8; 32];
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let mut mkey = [0u8; 32];
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kdf(&z, &[0u8; 0], &mut key);
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let mut hasher = Sha256::new();
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let mkey_material = &key[16..32];
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hasher.input(mkey_material);
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hasher.result(&mut mkey);
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let ekey = &key[0..16];
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let mut msgd = vec![0u8; (64 + plain.len())];
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{
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r.public().copy_to(&mut msgd[0..64]);
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let iv = H128::from_slice(&z.keccak256()[0..16]);
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{
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let cipher = &mut msgd[64..(64 + plain.len())];
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aes::encrypt(ekey, &iv, plain, cipher);
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}
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}
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Ok(msgd)
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}
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2016-08-24 18:35:21 +02:00
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/// Decrypt a message with a secret key
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pub fn decrypt(secret: &Secret, shared_mac: &[u8], encrypted: &[u8]) -> Result<Vec<u8>, Error> {
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let meta_len = 1 + 64 + 16 + 32;
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if encrypted.len() < meta_len || encrypted[0] < 2 || encrypted[0] > 4 {
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return Err(Error::InvalidMessage); //invalid message: publickey
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}
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let e = &encrypted[1..];
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let p = Public::from_slice(&e[0..64]);
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2016-12-27 12:53:56 +01:00
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let z = ecdh::agree(secret, &p)?;
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2016-08-24 18:35:21 +02:00
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let mut key = [0u8; 32];
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kdf(&z, &[0u8; 0], &mut key);
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let ekey = &key[0..16];
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let mkey_material = &key[16..32];
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let mut hasher = Sha256::new();
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let mut mkey = [0u8; 32];
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hasher.input(mkey_material);
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hasher.result(&mut mkey);
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let clen = encrypted.len() - meta_len;
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let cipher_with_iv = &e[64..(64+16+clen)];
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let cipher_iv = &cipher_with_iv[0..16];
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let cipher_no_iv = &cipher_with_iv[16..];
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let msg_mac = &e[(64+16+clen)..];
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// Verify tag
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let mut hmac = Hmac::new(Sha256::new(), &mkey);
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hmac.input(cipher_with_iv);
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hmac.input(shared_mac);
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let mut mac = [0u8; 32];
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hmac.raw_result(&mut mac);
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if &mac[..] != msg_mac {
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return Err(Error::InvalidMessage);
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}
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let mut msg = vec![0u8; clen];
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aes::decrypt(ekey, cipher_iv, cipher_no_iv, &mut msg[..]);
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Ok(msg)
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}
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2016-08-25 12:11:06 +02:00
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/// Decrypt single message with a secret key
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pub fn decrypt_single_message(secret: &Secret, encrypted: &[u8]) -> Result<Vec<u8>, Error> {
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let meta_len = 64;
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if encrypted.len() < meta_len {
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return Err(Error::InvalidMessage); //invalid message: publickey
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}
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let e = encrypted;
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let p = Public::from_slice(&e[0..64]);
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2016-12-27 12:53:56 +01:00
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let z = ecdh::agree(secret, &p)?;
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2016-08-25 12:11:06 +02:00
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let mut key = [0u8; 32];
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kdf(&z, &[0u8; 0], &mut key);
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let ekey = &key[0..16];
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let mkey_material = &key[16..32];
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let mut hasher = Sha256::new();
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let mut mkey = [0u8; 32];
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hasher.input(mkey_material);
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hasher.result(&mut mkey);
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let clen = encrypted.len() - meta_len;
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let cipher = &e[64..(64+clen)];
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let mut msg = vec![0u8; clen];
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let iv = H128::from_slice(&z.keccak256()[0..16]);
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aes::decrypt(ekey, &iv, cipher, &mut msg[..]);
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Ok(msg)
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}
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2016-08-24 18:35:21 +02:00
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fn kdf(secret: &Secret, s1: &[u8], dest: &mut [u8]) {
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let mut hasher = Sha256::new();
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// SEC/ISO/Shoup specify counter size SHOULD be equivalent
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// to size of hash output, however, it also notes that
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// the 4 bytes is okay. NIST specifies 4 bytes.
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let mut ctr = 1u32;
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let mut written = 0usize;
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while written < dest.len() {
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let ctrs = [(ctr >> 24) as u8, (ctr >> 16) as u8, (ctr >> 8) as u8, ctr as u8];
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hasher.input(&ctrs);
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hasher.input(secret);
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hasher.input(s1);
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hasher.result(&mut dest[written..(written + 32)]);
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hasher.reset();
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written += 32;
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ctr += 1;
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}
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}
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}
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2016-08-25 12:11:06 +02:00
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#[cfg(test)]
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mod tests {
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use ethkey::{Random, Generator};
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use ecies;
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#[test]
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fn ecies_shared() {
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let kp = Random.generate().unwrap();
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let message = b"So many books, so little time";
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let shared = b"shared";
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let wrong_shared = b"incorrect";
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let encrypted = ecies::encrypt(kp.public(), shared, message).unwrap();
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assert!(encrypted[..] != message[..]);
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assert_eq!(encrypted[0], 0x04);
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assert!(ecies::decrypt(kp.secret(), wrong_shared, &encrypted).is_err());
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let decrypted = ecies::decrypt(kp.secret(), shared, &encrypted).unwrap();
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assert_eq!(decrypted[..message.len()], message[..]);
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}
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#[test]
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fn ecies_shared_single() {
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let kp = Random.generate().unwrap();
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let message = b"So many books, so little time";
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let encrypted = ecies::encrypt_single_message(kp.public(), message).unwrap();
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assert!(encrypted[..] != message[..]);
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let decrypted = ecies::decrypt_single_message(kp.secret(), &encrypted).unwrap();
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assert_eq!(decrypted[..message.len()], message[..]);
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}
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}
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