openethereum/ethcore/private-tx/src/lib.rs
Afri Schoedon 4ba600fcc4
Beta: 1.11.6 backports (#9015)
* parity-version: bump beta to 1.11.6

* scripts: remove md5 checksums (#8884)

* Add support for --chain tobalaba

* Convert indents to tabs :)

* Fixes for misbehavior reporting in AuthorityRound (#8998)

* aura: only report after checking for repeated skipped primaries

* aura: refactor duplicate code for getting epoch validator set

* aura: verify_external: report on validator set contract instance

* aura: use correct validator set epoch number when reporting

* aura: use epoch set when verifying blocks

* aura: report skipped primaries when generating seal

* aura: handle immediate transitions

* aura: don't report skipped steps from genesis to first block

* aura: fix reporting test

* aura: refactor duplicate code to handle immediate_transitions

* aura: let reporting fail on verify_block_basic

* aura: add comment about possible failure of reporting

* Only return error log for rustls (#9025)

* Transaction Pool improvements (#8470)

* Don't use ethereum_types in transaction pool.

* Hide internal insertion_id.

* Fix tests.

* Review grumbles.

* Improve should_replace on NonceAndGasPrice (#8980)

* Additional tests for NonceAndGasPrice::should_replace.

* Fix should_replace in the distinct sender case.

* Use natural priority ordering to simplify should_replace.

* Minimal effective gas price in the queue (#8934)

* Minimal effective gas price.

* Fix naming, add test

* Fix minimal entry score and add test.

* Fix worst_transaction.

* Remove effective gas price threshold.

* Don't leak gas_price decisions out of Scoring.

* Never drop local transactions from different senders. (#9002)

* Recently rejected cache for transaction queue (#9005)

* Store recently rejected transactions.

* Don't cache AlreadyImported rejections.

* Make the size of transaction verification queue dependent on pool size.

* Add a test for recently rejected.

* Fix logging for recently rejected.

* Make rejection cache smaller.

* obsolete test removed

* obsolete test removed

* Construct cache with_capacity.

* Optimize pending transactions filter (#9026)

* rpc: return unordered transactions in pending transactions filter

* ethcore: use LruCache for nonce cache

Only clear the nonce cache when a block is retracted

* Revert "ethcore: use LruCache for nonce cache"

This reverts commit b382c19abdb9985be1724c3b8cde83906da07d68.

* Use only cached nonces when computing pending hashes.

* Give filters their own locks, so that they don't block one another.

* Fix pending transaction count if not sealing.

* Clear cache only when block is enacted.

* Fix RPC tests.

* Address review comments.

* A last bunch of txqueue performance optimizations (#9024)

* Clear cache only when block is enacted.

* Add tracing for cull.

* Cull split.

* Cull after creating pending block.

* Add constant, remove sync::read tracing.

* Reset debug.

* Remove excessive tracing.

* Use struct for NonceCache.

* Fix build

* Remove warnings.

* Fix build again.

* miner: add missing macro use for trace_time

* ci: remove md5 merge leftovers
2018-07-09 08:39:46 +02:00

695 lines
26 KiB
Rust

// Copyright 2015-2017 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 <http://www.gnu.org/licenses/>.
//! Private transactions module.
// Recursion limit required because of
// error_chain foreign_links.
#![recursion_limit="256"]
mod encryptor;
mod private_transactions;
mod messages;
mod error;
extern crate ethcore;
extern crate ethcore_bytes as bytes;
extern crate ethcore_crypto as crypto;
extern crate ethcore_io as io;
extern crate ethcore_miner;
extern crate ethcore_transaction as transaction;
extern crate ethabi;
extern crate ethereum_types;
extern crate ethkey;
extern crate ethjson;
extern crate fetch;
extern crate futures;
extern crate keccak_hash as hash;
extern crate parking_lot;
extern crate patricia_trie as trie;
extern crate rlp;
extern crate url;
extern crate rustc_hex;
#[macro_use]
extern crate log;
#[macro_use]
extern crate ethabi_derive;
#[macro_use]
extern crate ethabi_contract;
#[macro_use]
extern crate error_chain;
#[macro_use]
extern crate rlp_derive;
#[cfg(test)]
extern crate rand;
#[cfg(test)]
extern crate ethcore_logger;
pub use encryptor::{Encryptor, SecretStoreEncryptor, EncryptorConfig, NoopEncryptor};
pub use private_transactions::{PrivateTransactionDesc, VerificationStore, PrivateTransactionSigningDesc, SigningStore};
pub use messages::{PrivateTransaction, SignedPrivateTransaction};
pub use error::{Error, ErrorKind};
use std::sync::{Arc, Weak};
use std::collections::{HashMap, HashSet};
use std::time::Duration;
use ethereum_types::{H128, H256, U256, Address};
use hash::keccak;
use rlp::*;
use parking_lot::{Mutex, RwLock};
use bytes::Bytes;
use ethkey::{Signature, recover, public_to_address};
use io::IoChannel;
use ethcore::executive::{Executive, TransactOptions};
use ethcore::executed::{Executed};
use transaction::{SignedTransaction, Transaction, Action, UnverifiedTransaction};
use ethcore::{contract_address as ethcore_contract_address};
use ethcore::client::{
Client, ChainNotify, ChainRoute, ChainMessageType, ClientIoMessage, BlockId, CallContract
};
use ethcore::account_provider::AccountProvider;
use ethcore::miner::{self, Miner, MinerService, pool_client::NonceCache};
use ethcore::trace::{Tracer, VMTracer};
use rustc_hex::FromHex;
// Source avaiable at https://github.com/parity-contracts/private-tx/blob/master/contracts/PrivateContract.sol
const DEFAULT_STUB_CONTRACT: &'static str = include_str!("../res/private.evm");
use_contract!(private, "PrivateContract", "res/private.json");
/// Initialization vector length.
const INIT_VEC_LEN: usize = 16;
/// Size of nonce cache
const NONCE_CACHE_SIZE: usize = 128;
/// Configurtion for private transaction provider
#[derive(Default, PartialEq, Debug, Clone)]
pub struct ProviderConfig {
/// Accounts that can be used for validation
pub validator_accounts: Vec<Address>,
/// Account used for signing public transactions created from private transactions
pub signer_account: Option<Address>,
/// Passwords used to unlock accounts
pub passwords: Vec<String>,
}
#[derive(Debug)]
/// Private transaction execution receipt.
pub struct Receipt {
/// Private transaction hash.
pub hash: H256,
/// Created contract address if any.
pub contract_address: Option<Address>,
/// Execution status.
pub status_code: u8,
}
/// Manager of private transactions
pub struct Provider {
encryptor: Box<Encryptor>,
validator_accounts: HashSet<Address>,
signer_account: Option<Address>,
passwords: Vec<String>,
notify: RwLock<Vec<Weak<ChainNotify>>>,
transactions_for_signing: Mutex<SigningStore>,
// TODO [ToDr] Move the Mutex/RwLock inside `VerificationStore` after refactored to `drain`.
transactions_for_verification: Mutex<VerificationStore>,
client: Arc<Client>,
miner: Arc<Miner>,
accounts: Arc<AccountProvider>,
channel: IoChannel<ClientIoMessage>,
}
#[derive(Debug)]
pub struct PrivateExecutionResult<T, V> where T: Tracer, V: VMTracer {
code: Option<Bytes>,
state: Bytes,
contract_address: Option<Address>,
result: Executed<T::Output, V::Output>,
}
impl Provider where {
/// Create a new provider.
pub fn new(
client: Arc<Client>,
miner: Arc<Miner>,
accounts: Arc<AccountProvider>,
encryptor: Box<Encryptor>,
config: ProviderConfig,
channel: IoChannel<ClientIoMessage>,
) -> Self {
Provider {
encryptor,
validator_accounts: config.validator_accounts.into_iter().collect(),
signer_account: config.signer_account,
passwords: config.passwords,
notify: RwLock::default(),
transactions_for_signing: Mutex::default(),
transactions_for_verification: Mutex::default(),
client,
miner,
accounts,
channel,
}
}
// TODO [ToDr] Don't use `ChainNotify` here!
// Better to create a separate notification type for this.
/// Adds an actor to be notified on certain events
pub fn add_notify(&self, target: Arc<ChainNotify>) {
self.notify.write().push(Arc::downgrade(&target));
}
fn notify<F>(&self, f: F) where F: Fn(&ChainNotify) {
for np in self.notify.read().iter() {
if let Some(n) = np.upgrade() {
f(&*n);
}
}
}
/// 1. Create private transaction from the signed transaction
/// 2. Executes private transaction
/// 3. Save it with state returned on prev step to the queue for signing
/// 4. Broadcast corresponding message to the chain
pub fn create_private_transaction(&self, signed_transaction: SignedTransaction) -> Result<Receipt, Error> {
trace!("Creating private transaction from regular transaction: {:?}", signed_transaction);
if self.signer_account.is_none() {
trace!("Signing account not set");
bail!(ErrorKind::SignerAccountNotSet);
}
let tx_hash = signed_transaction.hash();
match signed_transaction.action {
Action::Create => {
bail!(ErrorKind::BadTransactonType);
}
Action::Call(contract) => {
let data = signed_transaction.rlp_bytes();
let encrypted_transaction = self.encrypt(&contract, &Self::iv_from_transaction(&signed_transaction), &data)?;
let private = PrivateTransaction {
encrypted: encrypted_transaction,
contract,
};
// TODO [ToDr] Using BlockId::Latest is bad here,
// the block may change in the middle of execution
// causing really weird stuff to happen.
// We should retrieve hash and stick to that. IMHO
// best would be to change the API and only allow H256 instead of BlockID
// in private-tx to avoid such mistakes.
let contract_nonce = self.get_contract_nonce(&contract, BlockId::Latest)?;
let private_state = self.execute_private_transaction(BlockId::Latest, &signed_transaction)?;
trace!("Private transaction created, encrypted transaction: {:?}, private state: {:?}", private, private_state);
let contract_validators = self.get_validators(BlockId::Latest, &contract)?;
trace!("Required validators: {:?}", contract_validators);
let private_state_hash = self.calculate_state_hash(&private_state, contract_nonce);
trace!("Hashed effective private state for sender: {:?}", private_state_hash);
self.transactions_for_signing.lock().add_transaction(private.hash(), signed_transaction, contract_validators, private_state, contract_nonce)?;
self.broadcast_private_transaction(private.rlp_bytes().into_vec());
Ok(Receipt {
hash: tx_hash,
contract_address: None,
status_code: 0,
})
}
}
}
/// Calculate hash from united private state and contract nonce
pub fn calculate_state_hash(&self, state: &Bytes, nonce: U256) -> H256 {
let state_hash = keccak(state);
let mut state_buf = [0u8; 64];
state_buf[..32].clone_from_slice(&state_hash);
state_buf[32..].clone_from_slice(&H256::from(nonce));
keccak(&state_buf.as_ref())
}
/// Extract signed transaction from private transaction
fn extract_original_transaction(&self, private: PrivateTransaction, contract: &Address) -> Result<UnverifiedTransaction, Error> {
let encrypted_transaction = private.encrypted;
let transaction_bytes = self.decrypt(contract, &encrypted_transaction)?;
let original_transaction: UnverifiedTransaction = Rlp::new(&transaction_bytes).as_val()?;
Ok(original_transaction)
}
fn pool_client<'a>(&'a self, nonce_cache: &'a NonceCache) -> miner::pool_client::PoolClient<'a, Client> {
let engine = self.client.engine();
let refuse_service_transactions = true;
miner::pool_client::PoolClient::new(
&*self.client,
nonce_cache,
engine,
Some(&*self.accounts),
refuse_service_transactions,
)
}
/// Retrieve and verify the first available private transaction for every sender
///
/// TODO [ToDr] It seems that:
/// The 3 methods `ready_transaction,get_descriptor,remove` are always used in conjuction so most likely
/// can be replaced with a single `drain()` method instead.
/// Thanks to this we also don't really need to lock the entire verification for the time of execution.
fn process_queue(&self) -> Result<(), Error> {
let nonce_cache = NonceCache::new(NONCE_CACHE_SIZE);
let mut verification_queue = self.transactions_for_verification.lock();
let ready_transactions = verification_queue.ready_transactions(self.pool_client(&nonce_cache));
for transaction in ready_transactions {
let transaction_hash = transaction.signed().hash();
match verification_queue.private_transaction_descriptor(&transaction_hash) {
Ok(desc) => {
if !self.validator_accounts.contains(&desc.validator_account) {
trace!("Cannot find validator account in config");
bail!(ErrorKind::ValidatorAccountNotSet);
}
let account = desc.validator_account;
if let Action::Call(contract) = transaction.signed().action {
// TODO [ToDr] Usage of BlockId::Latest
let contract_nonce = self.get_contract_nonce(&contract, BlockId::Latest)?;
let private_state = self.execute_private_transaction(BlockId::Latest, transaction.signed())?;
let private_state_hash = self.calculate_state_hash(&private_state, contract_nonce);
trace!("Hashed effective private state for validator: {:?}", private_state_hash);
let password = find_account_password(&self.passwords, &*self.accounts, &account);
let signed_state = self.accounts.sign(account, password, private_state_hash)?;
let signed_private_transaction = SignedPrivateTransaction::new(desc.private_hash, signed_state, None);
trace!("Sending signature for private transaction: {:?}", signed_private_transaction);
self.broadcast_signed_private_transaction(signed_private_transaction.rlp_bytes().into_vec());
} else {
warn!("Incorrect type of action for the transaction");
}
},
Err(e) => {
warn!("Cannot retrieve descriptor for transaction with error {:?}", e);
}
}
verification_queue.remove_private_transaction(&transaction_hash);
}
Ok(())
}
fn last_required_signature(&self, desc: &PrivateTransactionSigningDesc, sign: Signature) -> Result<bool, Error> {
if desc.received_signatures.contains(&sign) {
return Ok(false);
}
let state_hash = self.calculate_state_hash(&desc.state, desc.contract_nonce);
match recover(&sign, &state_hash) {
Ok(public) => {
let sender = public_to_address(&public);
match desc.validators.contains(&sender) {
true => {
Ok(desc.received_signatures.len() + 1 == desc.validators.len())
}
false => {
trace!("Sender's state doesn't correspond to validator's");
bail!(ErrorKind::StateIncorrect);
}
}
}
Err(err) => {
trace!("Sender's state doesn't correspond to validator's, error {:?}", err);
bail!(err);
}
}
}
/// Broadcast the private transaction message to the chain
fn broadcast_private_transaction(&self, message: Bytes) {
self.notify(|notify| notify.broadcast(ChainMessageType::PrivateTransaction(message.clone())));
}
/// Broadcast signed private transaction message to the chain
fn broadcast_signed_private_transaction(&self, message: Bytes) {
self.notify(|notify| notify.broadcast(ChainMessageType::SignedPrivateTransaction(message.clone())));
}
fn iv_from_transaction(transaction: &SignedTransaction) -> H128 {
let nonce = keccak(&transaction.nonce.rlp_bytes());
let (iv, _) = nonce.split_at(INIT_VEC_LEN);
H128::from_slice(iv)
}
fn iv_from_address(contract_address: &Address) -> H128 {
let address = keccak(&contract_address.rlp_bytes());
let (iv, _) = address.split_at(INIT_VEC_LEN);
H128::from_slice(iv)
}
fn encrypt(&self, contract_address: &Address, initialisation_vector: &H128, data: &[u8]) -> Result<Bytes, Error> {
trace!("Encrypt data using key(address): {:?}", contract_address);
Ok(self.encryptor.encrypt(contract_address, &*self.accounts, initialisation_vector, data)?)
}
fn decrypt(&self, contract_address: &Address, data: &[u8]) -> Result<Bytes, Error> {
trace!("Decrypt data using key(address): {:?}", contract_address);
Ok(self.encryptor.decrypt(contract_address, &*self.accounts, data)?)
}
fn get_decrypted_state(&self, address: &Address, block: BlockId) -> Result<Bytes, Error> {
let contract = private::PrivateContract::default();
let state = contract.functions()
.state()
.call(&|data| self.client.call_contract(block, *address, data))
.map_err(|e| ErrorKind::Call(format!("Contract call failed {:?}", e)))?;
self.decrypt(address, &state)
}
fn get_decrypted_code(&self, address: &Address, block: BlockId) -> Result<Bytes, Error> {
let contract = private::PrivateContract::default();
let code = contract.functions()
.code()
.call(&|data| self.client.call_contract(block, *address, data))
.map_err(|e| ErrorKind::Call(format!("Contract call failed {:?}", e)))?;
self.decrypt(address, &code)
}
pub fn get_contract_nonce(&self, address: &Address, block: BlockId) -> Result<U256, Error> {
let contract = private::PrivateContract::default();
Ok(contract.functions()
.nonce()
.call(&|data| self.client.call_contract(block, *address, data))
.map_err(|e| ErrorKind::Call(format!("Contract call failed {:?}", e)))?)
}
fn snapshot_to_storage(raw: Bytes) -> HashMap<H256, H256> {
let items = raw.len() / 64;
(0..items).map(|i| {
let offset = i * 64;
let key = H256::from_slice(&raw[offset..(offset + 32)]);
let value = H256::from_slice(&raw[(offset + 32)..(offset + 64)]);
(key, value)
}).collect()
}
fn snapshot_from_storage(storage: &HashMap<H256, H256>) -> Bytes {
let mut raw = Vec::with_capacity(storage.len() * 64);
for (key, value) in storage {
raw.extend_from_slice(key);
raw.extend_from_slice(value);
};
raw
}
pub fn execute_private<T, V>(&self, transaction: &SignedTransaction, options: TransactOptions<T, V>, block: BlockId) -> Result<PrivateExecutionResult<T, V>, Error>
where
T: Tracer,
V: VMTracer,
{
let mut env_info = self.client.env_info(block).ok_or(ErrorKind::StatePruned)?;
env_info.gas_limit = transaction.gas;
let mut state = self.client.state_at(block).ok_or(ErrorKind::StatePruned)?;
// TODO: in case of BlockId::Latest these need to operate on the same state
let contract_address = match transaction.action {
Action::Call(ref contract_address) => {
let contract_code = Arc::new(self.get_decrypted_code(contract_address, block)?);
let contract_state = self.get_decrypted_state(contract_address, block)?;
trace!("Patching contract at {:?}, code: {:?}, state: {:?}", contract_address, contract_code, contract_state);
state.patch_account(contract_address, contract_code, Self::snapshot_to_storage(contract_state))?;
Some(*contract_address)
},
Action::Create => None,
};
let engine = self.client.engine();
let contract_address = contract_address.or({
let sender = transaction.sender();
let nonce = state.nonce(&sender)?;
let (new_address, _) = ethcore_contract_address(engine.create_address_scheme(env_info.number), &sender, &nonce, &transaction.data);
Some(new_address)
});
let result = Executive::new(&mut state, &env_info, engine.machine()).transact_virtual(transaction, options)?;
let (encrypted_code, encrypted_storage) = match contract_address {
None => bail!(ErrorKind::ContractDoesNotExist),
Some(address) => {
let (code, storage) = state.into_account(&address)?;
let enc_code = match code {
Some(c) => Some(self.encrypt(&address, &Self::iv_from_address(&address), &c)?),
None => None,
};
(enc_code, self.encrypt(&address, &Self::iv_from_transaction(transaction), &Self::snapshot_from_storage(&storage))?)
},
};
trace!("Private contract executed. code: {:?}, state: {:?}, result: {:?}", encrypted_code, encrypted_storage, result.output);
Ok(PrivateExecutionResult {
code: encrypted_code,
state: encrypted_storage,
contract_address,
result,
})
}
fn generate_constructor(validators: &[Address], code: Bytes, storage: Bytes) -> Bytes {
let constructor_code = DEFAULT_STUB_CONTRACT.from_hex().expect("Default contract code is valid");
let private = private::PrivateContract::default();
private.constructor(constructor_code, validators.iter().map(|a| *a).collect::<Vec<Address>>(), code, storage)
}
fn generate_set_state_call(signatures: &[Signature], storage: Bytes) -> Bytes {
let private = private::PrivateContract::default();
private.functions().set_state().input(
storage,
signatures.iter().map(|s| {
let mut v: [u8; 32] = [0; 32];
v[31] = s.v();
v
}).collect::<Vec<[u8; 32]>>(),
signatures.iter().map(|s| s.r()).collect::<Vec<&[u8]>>(),
signatures.iter().map(|s| s.s()).collect::<Vec<&[u8]>>()
)
}
/// Returns the key from the key server associated with the contract
pub fn contract_key_id(&self, contract_address: &Address) -> Result<H256, Error> {
//current solution uses contract address extended with 0 as id
let contract_address_extended: H256 = contract_address.into();
Ok(H256::from_slice(&contract_address_extended))
}
/// Create encrypted public contract deployment transaction.
pub fn public_creation_transaction(&self, block: BlockId, source: &SignedTransaction, validators: &[Address], gas_price: U256) -> Result<(Transaction, Option<Address>), Error> {
if let Action::Call(_) = source.action {
bail!(ErrorKind::BadTransactonType);
}
let sender = source.sender();
let state = self.client.state_at(block).ok_or(ErrorKind::StatePruned)?;
let nonce = state.nonce(&sender)?;
let executed = self.execute_private(source, TransactOptions::with_no_tracing(), block)?;
let gas: u64 = 650000 +
validators.len() as u64 * 30000 +
executed.code.as_ref().map_or(0, |c| c.len() as u64) * 8000 +
executed.state.len() as u64 * 8000;
Ok((Transaction {
nonce: nonce,
action: Action::Create,
gas: gas.into(),
gas_price: gas_price,
value: source.value,
data: Self::generate_constructor(validators, executed.code.unwrap_or_default(), executed.state)
},
executed.contract_address))
}
/// Create encrypted public contract deployment transaction. Returns updated encrypted state.
pub fn execute_private_transaction(&self, block: BlockId, source: &SignedTransaction) -> Result<Bytes, Error> {
if let Action::Create = source.action {
bail!(ErrorKind::BadTransactonType);
}
let result = self.execute_private(source, TransactOptions::with_no_tracing(), block)?;
Ok(result.state)
}
/// Create encrypted public transaction from private transaction.
pub fn public_transaction(&self, state: Bytes, source: &SignedTransaction, signatures: &[Signature], nonce: U256, gas_price: U256) -> Result<Transaction, Error> {
let gas: u64 = 650000 + state.len() as u64 * 8000 + signatures.len() as u64 * 50000;
Ok(Transaction {
nonce: nonce,
action: source.action.clone(),
gas: gas.into(),
gas_price: gas_price,
value: 0.into(),
data: Self::generate_set_state_call(signatures, state)
})
}
/// Call into private contract.
pub fn private_call(&self, block: BlockId, transaction: &SignedTransaction) -> Result<Executed, Error> {
let result = self.execute_private(transaction, TransactOptions::with_no_tracing(), block)?;
Ok(result.result)
}
/// Returns private validators for a contract.
pub fn get_validators(&self, block: BlockId, address: &Address) -> Result<Vec<Address>, Error> {
let contract = private::PrivateContract::default();
Ok(contract.functions()
.get_validators()
.call(&|data| self.client.call_contract(block, *address, data))
.map_err(|e| ErrorKind::Call(format!("Contract call failed {:?}", e)))?)
}
}
pub trait Importer {
/// Process received private transaction
fn import_private_transaction(&self, _rlp: &[u8]) -> Result<(), Error>;
/// Add signed private transaction into the store
///
/// Creates corresponding public transaction if last required signature collected and sends it to the chain
fn import_signed_private_transaction(&self, _rlp: &[u8]) -> Result<(), Error>;
}
// TODO [ToDr] Offload more heavy stuff to the IoService thread.
// It seems that a lot of heavy work (verification) is done in this thread anyway
// it might actually make sense to decouple it from clientService and just use dedicated thread
// for both verification and execution.
impl Importer for Arc<Provider> {
fn import_private_transaction(&self, rlp: &[u8]) -> Result<(), Error> {
trace!("Private transaction received");
let private_tx: PrivateTransaction = Rlp::new(rlp).as_val()?;
let contract = private_tx.contract;
let contract_validators = self.get_validators(BlockId::Latest, &contract)?;
let validation_account = contract_validators
.iter()
.find(|address| self.validator_accounts.contains(address));
match validation_account {
None => {
// TODO [ToDr] This still seems a bit invalid, imho we should still import the transaction to the pool.
// Importing to pool verifies correctness and nonce; here we are just blindly forwarding.
//
// Not for verification, broadcast further to peers
self.broadcast_private_transaction(rlp.into());
return Ok(());
},
Some(&validation_account) => {
let hash = private_tx.hash();
trace!("Private transaction taken for verification");
let original_tx = self.extract_original_transaction(private_tx, &contract)?;
trace!("Validating transaction: {:?}", original_tx);
// Verify with the first account available
trace!("The following account will be used for verification: {:?}", validation_account);
let nonce_cache = NonceCache::new(NONCE_CACHE_SIZE);
self.transactions_for_verification.lock().add_transaction(
original_tx,
contract,
validation_account,
hash,
self.pool_client(&nonce_cache),
)?;
let provider = Arc::downgrade(self);
self.channel.send(ClientIoMessage::execute(move |_| {
if let Some(provider) = provider.upgrade() {
if let Err(e) = provider.process_queue() {
debug!("Unable to process the queue: {}", e);
}
}
})).map_err(|_| ErrorKind::ClientIsMalformed.into())
}
}
}
fn import_signed_private_transaction(&self, rlp: &[u8]) -> Result<(), Error> {
let tx: SignedPrivateTransaction = Rlp::new(rlp).as_val()?;
trace!("Signature for private transaction received: {:?}", tx);
let private_hash = tx.private_transaction_hash();
let desc = match self.transactions_for_signing.lock().get(&private_hash) {
None => {
// TODO [ToDr] Verification (we can't just blindly forward every transaction)
// Not our transaction, broadcast further to peers
self.broadcast_signed_private_transaction(rlp.into());
return Ok(());
},
Some(desc) => desc,
};
let last = self.last_required_signature(&desc, tx.signature())?;
if last {
let mut signatures = desc.received_signatures.clone();
signatures.push(tx.signature());
let rsv: Vec<Signature> = signatures.into_iter().map(|sign| sign.into_electrum().into()).collect();
//Create public transaction
let public_tx = self.public_transaction(
desc.state.clone(),
&desc.original_transaction,
&rsv,
desc.original_transaction.nonce,
desc.original_transaction.gas_price
)?;
trace!("Last required signature received, public transaction created: {:?}", public_tx);
//Sign and add it to the queue
let chain_id = desc.original_transaction.chain_id();
let hash = public_tx.hash(chain_id);
let signer_account = self.signer_account.ok_or_else(|| ErrorKind::SignerAccountNotSet)?;
let password = find_account_password(&self.passwords, &*self.accounts, &signer_account);
let signature = self.accounts.sign(signer_account, password, hash)?;
let signed = SignedTransaction::new(public_tx.with_signature(signature, chain_id))?;
match self.miner.import_own_transaction(&*self.client, signed.into()) {
Ok(_) => trace!("Public transaction added to queue"),
Err(err) => {
trace!("Failed to add transaction to queue, error: {:?}", err);
bail!(err);
}
}
//Remove from store for signing
match self.transactions_for_signing.lock().remove(&private_hash) {
Ok(_) => {}
Err(err) => {
trace!("Failed to remove transaction from signing store, error: {:?}", err);
bail!(err);
}
}
} else {
//Add signature to the store
match self.transactions_for_signing.lock().add_signature(&private_hash, tx.signature()) {
Ok(_) => trace!("Signature stored for private transaction"),
Err(err) => {
trace!("Failed to add signature to signing store, error: {:?}", err);
bail!(err);
}
}
}
Ok(())
}
}
/// Try to unlock account using stored password, return found password if any
fn find_account_password(passwords: &Vec<String>, account_provider: &AccountProvider, account: &Address) -> Option<String> {
for password in passwords {
if let Ok(true) = account_provider.test_password(account, password) {
return Some(password.clone());
}
}
None
}
impl ChainNotify for Provider {
fn new_blocks(&self, imported: Vec<H256>, _invalid: Vec<H256>, _route: ChainRoute, _sealed: Vec<H256>, _proposed: Vec<Bytes>, _duration: Duration) {
if !imported.is_empty() {
trace!("New blocks imported, try to prune the queue");
if let Err(err) = self.process_queue() {
trace!("Cannot prune private transactions queue. error: {:?}", err);
}
}
}
}