2018-06-04 10:19:50 +02:00
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// Copyright 2015-2018 Parity Technologies (UK) Ltd.
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2018-04-09 16:14:33 +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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//! Encryption providers.
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use std::io::Read;
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use std::str::FromStr;
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2018-04-09 16:14:33 +02:00
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use std::iter::repeat;
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use std::time::{Instant, Duration};
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use std::collections::HashMap;
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use std::collections::hash_map::Entry;
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use parking_lot::Mutex;
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use ethcore::account_provider::AccountProvider;
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use ethereum_types::{H128, H256, Address};
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use ethjson;
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use ethkey::{Signature, Password, Public};
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use crypto;
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use futures::Future;
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use fetch::{Fetch, Client as FetchClient, Method, BodyReader, Request};
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use bytes::{Bytes, ToPretty};
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use error::{Error, ErrorKind};
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use url::Url;
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use super::find_account_password;
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/// Initialization vector length.
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const INIT_VEC_LEN: usize = 16;
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/// Duration of storing retrieved keys (in ms)
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const ENCRYPTION_SESSION_DURATION: u64 = 30 * 1000;
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/// Trait for encryption/decryption operations.
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pub trait Encryptor: Send + Sync + 'static {
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/// Generate unique contract key && encrypt passed data. Encryption can only be performed once.
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fn encrypt(
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&self,
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contract_address: &Address,
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accounts: &AccountProvider,
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initialisation_vector: &H128,
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plain_data: &[u8],
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) -> Result<Bytes, Error>;
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/// Decrypt data using previously generated contract key.
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fn decrypt(
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&self,
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contract_address: &Address,
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accounts: &AccountProvider,
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cypher: &[u8],
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) -> Result<Bytes, Error>;
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}
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/// Configurtion for key server encryptor
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#[derive(Default, PartialEq, Debug, Clone)]
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pub struct EncryptorConfig {
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/// URL to key server
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pub base_url: Option<String>,
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/// Key server's threshold
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pub threshold: u32,
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/// Account used for signing requests to key server
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pub key_server_account: Option<Address>,
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/// Passwords used to unlock accounts
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pub passwords: Vec<Password>,
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}
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struct EncryptionSession {
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key: Bytes,
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end_time: Instant,
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}
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/// SecretStore-based encryption/decryption operations.
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pub struct SecretStoreEncryptor {
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config: EncryptorConfig,
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client: FetchClient,
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sessions: Mutex<HashMap<Address, EncryptionSession>>,
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}
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impl SecretStoreEncryptor {
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/// Create new encryptor
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pub fn new(config: EncryptorConfig, client: FetchClient) -> Result<Self, Error> {
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Ok(SecretStoreEncryptor {
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config,
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client,
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sessions: Mutex::default(),
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})
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}
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/// Ask secret store for key && decrypt the key.
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fn retrieve_key(
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&self,
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url_suffix: &str,
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use_post: bool,
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contract_address: &Address,
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accounts: &AccountProvider,
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) -> Result<Bytes, Error> {
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// check if the key was already cached
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if let Some(key) = self.obtained_key(contract_address) {
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return Ok(key);
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}
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let contract_address_signature = self.sign_contract_address(contract_address, accounts)?;
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let requester = self.config.key_server_account.ok_or_else(|| ErrorKind::KeyServerAccountNotSet)?;
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// key id in SS is H256 && we have H160 here => expand with assitional zeros
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let contract_address_extended: H256 = contract_address.into();
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let base_url = self.config.base_url.clone().ok_or_else(|| ErrorKind::KeyServerNotSet)?;
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// prepare request url
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let url = format!("{}/{}/{}{}",
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base_url,
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contract_address_extended.to_hex(),
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contract_address_signature,
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url_suffix,
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);
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// send HTTP request
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let method = if use_post {
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Method::Post
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} else {
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Method::Get
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};
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let url = Url::from_str(&url).map_err(|e| ErrorKind::Encrypt(e.to_string()))?;
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let response = self.client.fetch(Request::new(url, method), Default::default()).wait()
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.map_err(|e| ErrorKind::Encrypt(e.to_string()))?;
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if response.is_not_found() {
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bail!(ErrorKind::EncryptionKeyNotFound(*contract_address));
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}
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if !response.is_success() {
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bail!(ErrorKind::Encrypt(response.status().canonical_reason().unwrap_or("unknown").into()));
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}
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// read HTTP response
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let mut result = String::new();
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BodyReader::new(response).read_to_string(&mut result)?;
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// response is JSON string (which is, in turn, hex-encoded, encrypted Public)
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let encrypted_bytes: ethjson::bytes::Bytes = result.trim_matches('\"').parse().map_err(|e| ErrorKind::Encrypt(e))?;
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let password = find_account_password(&self.config.passwords, &*accounts, &requester);
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// decrypt Public
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let decrypted_bytes = accounts.decrypt(requester, password, &crypto::DEFAULT_MAC, &encrypted_bytes)?;
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let decrypted_key = Public::from_slice(&decrypted_bytes);
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// and now take x coordinate of Public as a key
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let key: Bytes = (*decrypted_key)[..INIT_VEC_LEN].into();
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// cache the key in the session and clear expired sessions
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self.sessions.lock().insert(*contract_address, EncryptionSession{
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key: key.clone(),
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end_time: Instant::now() + Duration::from_millis(ENCRYPTION_SESSION_DURATION),
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});
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self.clean_expired_sessions();
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Ok(key)
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}
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fn clean_expired_sessions(&self) {
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let mut sessions = self.sessions.lock();
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sessions.retain(|_, session| session.end_time < Instant::now());
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}
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fn obtained_key(&self, contract_address: &Address) -> Option<Bytes> {
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let mut sessions = self.sessions.lock();
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let stored_session = sessions.entry(*contract_address);
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match stored_session {
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Entry::Occupied(session) => {
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if Instant::now() > session.get().end_time {
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session.remove_entry();
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None
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} else {
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Some(session.get().key.clone())
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}
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}
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Entry::Vacant(_) => None,
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}
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}
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fn sign_contract_address(&self, contract_address: &Address, accounts: &AccountProvider) -> Result<Signature, Error> {
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// key id in SS is H256 && we have H160 here => expand with assitional zeros
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let contract_address_extended: H256 = contract_address.into();
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let key_server_account = self.config.key_server_account.ok_or_else(|| ErrorKind::KeyServerAccountNotSet)?;
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let password = find_account_password(&self.config.passwords, accounts, &key_server_account);
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Ok(accounts.sign(key_server_account, password, H256::from_slice(&contract_address_extended))?)
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}
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}
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impl Encryptor for SecretStoreEncryptor {
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fn encrypt(
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&self,
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contract_address: &Address,
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accounts: &AccountProvider,
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initialisation_vector: &H128,
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plain_data: &[u8],
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) -> Result<Bytes, Error> {
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// retrieve the key, try to generate it if it doesn't exist yet
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let key = match self.retrieve_key("", false, contract_address, &*accounts) {
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Ok(key) => Ok(key),
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Err(Error(ErrorKind::EncryptionKeyNotFound(_), _)) => {
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trace!("Key for account wasnt found in sstore. Creating. Address: {:?}", contract_address);
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self.retrieve_key(&format!("/{}", self.config.threshold), true, contract_address, &*accounts)
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}
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Err(err) => Err(err),
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}?;
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// encrypt data
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let mut cypher = Vec::with_capacity(plain_data.len() + initialisation_vector.len());
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cypher.extend(repeat(0).take(plain_data.len()));
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crypto::aes::encrypt_128_ctr(&key, initialisation_vector, plain_data, &mut cypher)
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.map_err(|e| ErrorKind::Encrypt(e.to_string()))?;
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cypher.extend_from_slice(&initialisation_vector);
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Ok(cypher)
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}
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/// Decrypt data using previously generated contract key.
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fn decrypt(
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&self,
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contract_address: &Address,
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accounts: &AccountProvider,
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cypher: &[u8],
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) -> Result<Bytes, Error> {
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// initialization vector takes INIT_VEC_LEN bytes
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let cypher_len = cypher.len();
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if cypher_len < INIT_VEC_LEN {
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bail!(ErrorKind::Decrypt("Invalid cypher".into()));
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}
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// retrieve existing key
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let key = self.retrieve_key("", false, contract_address, accounts)?;
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// use symmetric decryption to decrypt document
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let (cypher, iv) = cypher.split_at(cypher_len - INIT_VEC_LEN);
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let mut plain_data = Vec::with_capacity(cypher_len - INIT_VEC_LEN);
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plain_data.extend(repeat(0).take(cypher_len - INIT_VEC_LEN));
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crypto::aes::decrypt_128_ctr(&key, &iv, cypher, &mut plain_data)
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.map_err(|e| ErrorKind::Decrypt(e.to_string()))?;
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Ok(plain_data)
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}
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}
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/// Dummy encryptor.
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#[derive(Default)]
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pub struct NoopEncryptor;
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impl Encryptor for NoopEncryptor {
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fn encrypt(
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&self,
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_contract_address: &Address,
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_accounts: &AccountProvider,
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_initialisation_vector: &H128,
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data: &[u8],
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) -> Result<Bytes, Error> {
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Ok(data.to_vec())
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}
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fn decrypt(
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&self,
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_contract_address: &Address,
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_accounts: &AccountProvider,
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data: &[u8],
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) -> Result<Bytes, Error> {
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Ok(data.to_vec())
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}
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}
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