Merge pull request #559 from ethcore/tx_queue
TransactionsQueue implementation
This commit is contained in:
commit
a4f4764e2a
1
Cargo.lock
generated
1
Cargo.lock
generated
@ -285,6 +285,7 @@ dependencies = [
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"heapsize 0.3.3 (registry+https://github.com/rust-lang/crates.io-index)",
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"log 0.3.5 (registry+https://github.com/rust-lang/crates.io-index)",
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"rand 0.3.14 (registry+https://github.com/rust-lang/crates.io-index)",
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"rustc-serialize 0.3.18 (registry+https://github.com/rust-lang/crates.io-index)",
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"time 0.1.34 (registry+https://github.com/rust-lang/crates.io-index)",
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]
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@ -16,6 +16,7 @@ env_logger = "0.3"
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time = "0.1.34"
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rand = "0.3.13"
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heapsize = "0.3"
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rustc-serialize = "0.3"
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[features]
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default = []
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@ -70,6 +70,8 @@ use io::NetSyncIo;
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mod chain;
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mod io;
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mod range_collection;
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// TODO [todr] Made public to suppress dead code warnings
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pub mod transaction_queue;
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#[cfg(test)]
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mod tests;
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683
sync/src/transaction_queue.rs
Normal file
683
sync/src/transaction_queue.rs
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@ -0,0 +1,683 @@
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// Copyright 2015, 2016 Ethcore (UK) Ltd.
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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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// TODO [todr] - own transactions should have higher priority
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//! Transaction Queue
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use std::cmp::{Ordering};
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use std::collections::{HashMap, BTreeSet};
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use util::numbers::{Uint, U256};
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use util::hash::{Address, H256};
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use util::table::*;
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use ethcore::transaction::*;
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#[derive(Clone, Debug)]
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struct TransactionOrder {
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nonce_height: U256,
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gas_price: U256,
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hash: H256,
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}
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impl TransactionOrder {
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fn for_transaction(tx: &VerifiedTransaction, base_nonce: U256) -> Self {
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TransactionOrder {
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nonce_height: tx.nonce() - base_nonce,
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gas_price: tx.transaction.gas_price,
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hash: tx.hash(),
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}
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}
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fn update_height(mut self, nonce: U256, base_nonce: U256) -> Self {
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self.nonce_height = nonce - base_nonce;
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self
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}
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}
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impl Eq for TransactionOrder {}
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impl PartialEq for TransactionOrder {
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fn eq(&self, other: &TransactionOrder) -> bool {
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self.cmp(other) == Ordering::Equal
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}
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}
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impl PartialOrd for TransactionOrder {
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fn partial_cmp(&self, other: &TransactionOrder) -> Option<Ordering> {
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Some(self.cmp(other))
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}
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}
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impl Ord for TransactionOrder {
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fn cmp(&self, b: &TransactionOrder) -> Ordering {
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// First check nonce_height
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if self.nonce_height != b.nonce_height {
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return self.nonce_height.cmp(&b.nonce_height);
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}
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// Then compare gas_prices
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let a_gas = self.gas_price;
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let b_gas = b.gas_price;
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if a_gas != b_gas {
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return a_gas.cmp(&b_gas);
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}
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// Compare hashes
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self.hash.cmp(&b.hash)
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}
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}
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struct VerifiedTransaction {
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transaction: SignedTransaction
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}
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impl VerifiedTransaction {
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fn new(transaction: SignedTransaction) -> Self {
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VerifiedTransaction {
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transaction: transaction
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}
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}
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fn hash(&self) -> H256 {
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self.transaction.hash()
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}
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fn nonce(&self) -> U256 {
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self.transaction.nonce
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}
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fn sender(&self) -> Address {
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self.transaction.sender().unwrap()
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}
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}
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struct TransactionSet {
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by_priority: BTreeSet<TransactionOrder>,
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by_address: Table<Address, U256, TransactionOrder>,
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limit: usize,
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}
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impl TransactionSet {
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fn insert(&mut self, sender: Address, nonce: U256, order: TransactionOrder) {
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self.by_priority.insert(order.clone());
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self.by_address.insert(sender, nonce, order);
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}
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fn enforce_limit(&mut self, by_hash: &HashMap<H256, VerifiedTransaction>) {
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let len = self.by_priority.len();
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if len <= self.limit {
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return;
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}
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let to_drop : Vec<&VerifiedTransaction> = {
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self.by_priority
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.iter()
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.skip(self.limit)
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.map(|order| by_hash.get(&order.hash).expect("Inconsistency in queue detected."))
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.collect()
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};
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for tx in to_drop {
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self.drop(&tx.sender(), &tx.nonce());
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}
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}
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fn drop(&mut self, sender: &Address, nonce: &U256) -> Option<TransactionOrder> {
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if let Some(tx_order) = self.by_address.remove(sender, nonce) {
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self.by_priority.remove(&tx_order);
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return Some(tx_order);
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}
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None
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}
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fn clear(&mut self) {
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self.by_priority.clear();
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self.by_address.clear();
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}
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}
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#[derive(Debug)]
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/// Current status of the queue
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pub struct TransactionQueueStatus {
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/// Number of pending transactions (ready to go to block)
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pub pending: usize,
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/// Number of future transactions (waiting for transactions with lower nonces first)
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pub future: usize,
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}
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/// TransactionQueue implementation
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pub struct TransactionQueue {
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/// Priority queue for transactions that can go to block
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current: TransactionSet,
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/// Priority queue for transactions that has been received but are not yet valid to go to block
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future: TransactionSet,
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/// All transactions managed by queue indexed by hash
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by_hash: HashMap<H256, VerifiedTransaction>,
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/// Last nonce of transaction in current (to quickly check next expected transaction)
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last_nonces: HashMap<Address, U256>,
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}
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impl TransactionQueue {
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/// Creates new instance of this Queue
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pub fn new() -> Self {
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Self::with_limits(1024, 1024)
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}
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/// Create new instance of this Queue with specified limits
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pub fn with_limits(current_limit: usize, future_limit: usize) -> Self {
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let current = TransactionSet {
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by_priority: BTreeSet::new(),
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by_address: Table::new(),
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limit: current_limit,
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};
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let future = TransactionSet {
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by_priority: BTreeSet::new(),
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by_address: Table::new(),
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limit: future_limit,
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};
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TransactionQueue {
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current: current,
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future: future,
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by_hash: HashMap::new(),
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last_nonces: HashMap::new(),
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}
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}
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/// Returns current status for this queue
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pub fn status(&self) -> TransactionQueueStatus {
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TransactionQueueStatus {
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pending: self.current.by_priority.len(),
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future: self.future.by_priority.len(),
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}
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}
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/// Adds all signed transactions to queue to be verified and imported
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pub fn add_all<T>(&mut self, txs: Vec<SignedTransaction>, fetch_nonce: T)
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where T: Fn(&Address) -> U256 {
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for tx in txs.into_iter() {
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self.add(tx, &fetch_nonce);
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}
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}
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/// Add signed transaction to queue to be verified and imported
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pub fn add<T>(&mut self, tx: SignedTransaction, fetch_nonce: &T)
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where T: Fn(&Address) -> U256 {
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self.import_tx(VerifiedTransaction::new(tx), fetch_nonce);
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}
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/// Removes all transactions identified by hashes given in slice
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///
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/// If gap is introduced marks subsequent transactions as future
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pub fn remove_all<T>(&mut self, txs: &[H256], fetch_nonce: T)
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where T: Fn(&Address) -> U256 {
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for tx in txs {
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self.remove(&tx, &fetch_nonce);
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}
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}
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/// Removes transaction identified by hashes from queue.
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///
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/// If gap is introduced marks subsequent transactions as future
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pub fn remove<T>(&mut self, hash: &H256, fetch_nonce: &T)
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where T: Fn(&Address) -> U256 {
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let transaction = self.by_hash.remove(hash);
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if transaction.is_none() {
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// We don't know this transaction
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return;
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}
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let transaction = transaction.unwrap();
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let sender = transaction.sender();
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let nonce = transaction.nonce();
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println!("Removing tx: {:?}", transaction.transaction);
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// Remove from future
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self.future.drop(&sender, &nonce);
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// Remove from current
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let order = self.current.drop(&sender, &nonce);
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if order.is_none() {
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return;
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}
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// Let's remove transactions where tx.nonce < current_nonce
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// and if there are any future transactions matching current_nonce+1 - move to current
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let current_nonce = fetch_nonce(&sender);
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// We will either move transaction to future or remove it completely
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// so there will be no transactions from this sender in current
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self.last_nonces.remove(&sender);
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let all_nonces_from_sender = match self.current.by_address.row(&sender) {
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Some(row_map) => row_map.keys().cloned().collect::<Vec<U256>>(),
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None => vec![],
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};
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for k in all_nonces_from_sender {
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// Goes to future or is removed
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let order = self.current.drop(&sender, &k).unwrap();
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if k >= current_nonce {
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println!("Moving to future: {:?}", order);
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self.future.insert(sender.clone(), k, order.update_height(k, current_nonce));
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} else {
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self.by_hash.remove(&order.hash);
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}
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}
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self.future.enforce_limit(&self.by_hash);
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// And now lets check if there is some chain of transactions in future
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// that should be placed in current
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if let Some(new_current_top) = self.move_future_txs(sender.clone(), current_nonce - U256::one(), current_nonce) {
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self.last_nonces.insert(sender, new_current_top);
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}
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}
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/// Returns top transactions from the queue
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pub fn top_transactions(&self, size: usize) -> Vec<SignedTransaction> {
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self.current.by_priority
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.iter()
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.take(size)
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.map(|t| self.by_hash.get(&t.hash).expect("Transaction Queue Inconsistency"))
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.map(|t| t.transaction.clone())
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.collect()
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}
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/// Removes all elements (in any state) from the queue
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pub fn clear(&mut self) {
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self.current.clear();
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self.future.clear();
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self.by_hash.clear();
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self.last_nonces.clear();
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}
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fn move_future_txs(&mut self, address: Address, current_nonce: U256, first_nonce: U256) -> Option<U256> {
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println!("Moving from future for: {:?} base: {:?}", current_nonce, first_nonce);
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let mut current_nonce = current_nonce + U256::one();
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{
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let by_nonce = self.future.by_address.row_mut(&address);
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if let None = by_nonce {
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return None;
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}
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let mut by_nonce = by_nonce.unwrap();
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while let Some(order) = by_nonce.remove(¤t_nonce) {
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// remove also from priority and hash
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self.future.by_priority.remove(&order);
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// Put to current
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println!("Moved: {:?}", order);
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let order = order.update_height(current_nonce.clone(), first_nonce);
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self.current.insert(address.clone(), current_nonce, order);
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current_nonce = current_nonce + U256::one();
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}
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}
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self.future.by_address.clear_if_empty(&address);
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// Returns last inserted nonce
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Some(current_nonce - U256::one())
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}
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fn import_tx<T>(&mut self, tx: VerifiedTransaction, fetch_nonce: &T)
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where T: Fn(&Address) -> U256 {
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let nonce = tx.nonce();
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let address = tx.sender();
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let next_nonce = self.last_nonces
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.get(&address)
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.cloned()
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.map_or_else(|| fetch_nonce(&address), |n| n + U256::one());
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println!("Expected next: {:?}, got: {:?}", next_nonce, nonce);
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// Check height
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if nonce > next_nonce {
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let order = TransactionOrder::for_transaction(&tx, next_nonce);
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// Insert to by_hash
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self.by_hash.insert(tx.hash(), tx);
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// We have a gap - put to future
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self.future.insert(address, nonce, order);
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self.future.enforce_limit(&self.by_hash);
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return;
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} else if next_nonce > nonce {
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// Droping transaction
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return;
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}
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let base_nonce = fetch_nonce(&address);
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let order = TransactionOrder::for_transaction(&tx, base_nonce);
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// Insert to by_hash
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self.by_hash.insert(tx.hash(), tx);
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// Insert to current
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self.current.insert(address.clone(), nonce, order);
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// But maybe there are some more items waiting in future?
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let new_last_nonce = self.move_future_txs(address.clone(), nonce, base_nonce);
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self.last_nonces.insert(address.clone(), new_last_nonce.unwrap_or(nonce));
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// Enforce limit
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self.current.enforce_limit(&self.by_hash);
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}
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}
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#[cfg(test)]
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mod test {
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extern crate rustc_serialize;
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use self::rustc_serialize::hex::FromHex;
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use std::collections::{HashMap, BTreeSet};
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use util::crypto::KeyPair;
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use util::numbers::{U256, Uint};
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use util::hash::{Address};
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use util::table::*;
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use ethcore::transaction::*;
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use super::*;
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use super::{TransactionSet, TransactionOrder, VerifiedTransaction};
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fn new_unsigned_tx(nonce: U256) -> Transaction {
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Transaction {
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action: Action::Create,
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value: U256::from(100),
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data: "3331600055".from_hex().unwrap(),
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gas: U256::from(100_000),
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gas_price: U256::one(),
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nonce: nonce
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}
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}
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fn new_tx() -> SignedTransaction {
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let keypair = KeyPair::create().unwrap();
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new_unsigned_tx(U256::from(123)).sign(&keypair.secret())
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}
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fn default_nonce(_address: &Address) -> U256 {
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U256::from(123)
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}
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fn new_txs(second_nonce: U256) -> (SignedTransaction, SignedTransaction) {
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let keypair = KeyPair::create().unwrap();
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let secret = &keypair.secret();
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let nonce = U256::from(123);
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let tx = new_unsigned_tx(nonce);
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let tx2 = new_unsigned_tx(nonce + second_nonce);
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(tx.sign(secret), tx2.sign(secret))
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}
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#[test]
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fn should_create_transaction_set() {
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// given
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let mut set = TransactionSet {
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by_priority: BTreeSet::new(),
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by_address: Table::new(),
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limit: 1
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};
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let (tx1, tx2) = new_txs(U256::from(1));
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let tx1 = VerifiedTransaction::new(tx1);
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let tx2 = VerifiedTransaction::new(tx2);
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let by_hash = {
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let mut x = HashMap::new();
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let tx1 = VerifiedTransaction::new(tx1.transaction.clone());
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let tx2 = VerifiedTransaction::new(tx2.transaction.clone());
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x.insert(tx1.hash(), tx1);
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x.insert(tx2.hash(), tx2);
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x
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};
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// Insert both transactions
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let order1 = TransactionOrder::for_transaction(&tx1, U256::zero());
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set.insert(tx1.sender(), tx1.nonce(), order1.clone());
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let order2 = TransactionOrder::for_transaction(&tx2, U256::zero());
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set.insert(tx2.sender(), tx2.nonce(), order2.clone());
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assert_eq!(set.by_priority.len(), 2);
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assert_eq!(set.by_address.len(), 2);
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// when
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set.enforce_limit(&by_hash);
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// then
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assert_eq!(set.by_priority.len(), 1);
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assert_eq!(set.by_address.len(), 1);
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assert_eq!(set.by_priority.iter().next().unwrap().clone(), order1);
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set.clear();
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assert_eq!(set.by_priority.len(), 0);
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assert_eq!(set.by_address.len(), 0);
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}
|
||||
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||||
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#[test]
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fn should_import_tx() {
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// given
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let mut txq = TransactionQueue::new();
|
||||
let tx = new_tx();
|
||||
|
||||
// when
|
||||
txq.add(tx, &default_nonce);
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.pending, 1);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_import_txs_from_same_sender() {
|
||||
// given
|
||||
let mut txq = TransactionQueue::new();
|
||||
|
||||
let (tx, tx2) = new_txs(U256::from(1));
|
||||
|
||||
// when
|
||||
txq.add(tx.clone(), &default_nonce);
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
|
||||
// then
|
||||
let top = txq.top_transactions(5);
|
||||
assert_eq!(top[0], tx);
|
||||
assert_eq!(top[1], tx2);
|
||||
assert_eq!(top.len(), 2);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_put_transaction_to_futures_if_gap_detected() {
|
||||
// given
|
||||
let mut txq = TransactionQueue::new();
|
||||
|
||||
let (tx, tx2) = new_txs(U256::from(2));
|
||||
|
||||
// when
|
||||
txq.add(tx.clone(), &default_nonce);
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.pending, 1);
|
||||
assert_eq!(stats.future, 1);
|
||||
let top = txq.top_transactions(5);
|
||||
assert_eq!(top.len(), 1);
|
||||
assert_eq!(top[0], tx);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_move_transactions_if_gap_filled() {
|
||||
// given
|
||||
let mut txq = TransactionQueue::new();
|
||||
let kp = KeyPair::create().unwrap();
|
||||
let secret = kp.secret();
|
||||
let tx = new_unsigned_tx(U256::from(123)).sign(&secret);
|
||||
let tx1 = new_unsigned_tx(U256::from(124)).sign(&secret);
|
||||
let tx2 = new_unsigned_tx(U256::from(125)).sign(&secret);
|
||||
|
||||
txq.add(tx, &default_nonce);
|
||||
assert_eq!(txq.status().pending, 1);
|
||||
txq.add(tx2, &default_nonce);
|
||||
assert_eq!(txq.status().future, 1);
|
||||
|
||||
// when
|
||||
txq.add(tx1, &default_nonce);
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.pending, 3);
|
||||
assert_eq!(stats.future, 0);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_remove_transaction() {
|
||||
// given
|
||||
let mut txq2 = TransactionQueue::new();
|
||||
let (tx, tx2) = new_txs(U256::from(3));
|
||||
txq2.add(tx.clone(), &default_nonce);
|
||||
txq2.add(tx2.clone(), &default_nonce);
|
||||
assert_eq!(txq2.status().pending, 1);
|
||||
assert_eq!(txq2.status().future, 1);
|
||||
|
||||
// when
|
||||
txq2.remove(&tx.hash(), &default_nonce);
|
||||
txq2.remove(&tx2.hash(), &default_nonce);
|
||||
|
||||
|
||||
// then
|
||||
let stats = txq2.status();
|
||||
assert_eq!(stats.pending, 0);
|
||||
assert_eq!(stats.future, 0);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_move_transactions_to_future_if_gap_introduced() {
|
||||
// given
|
||||
let mut txq = TransactionQueue::new();
|
||||
let (tx, tx2) = new_txs(U256::from(1));
|
||||
let tx3 = new_tx();
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().future, 1);
|
||||
txq.add(tx3.clone(), &default_nonce);
|
||||
txq.add(tx.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().pending, 3);
|
||||
|
||||
// when
|
||||
txq.remove(&tx.hash(), &default_nonce);
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.future, 1);
|
||||
assert_eq!(stats.pending, 1);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_clear_queue() {
|
||||
// given
|
||||
let mut txq = TransactionQueue::new();
|
||||
let (tx, tx2) = new_txs(U256::one());
|
||||
|
||||
// add
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
txq.add(tx.clone(), &default_nonce);
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.pending, 2);
|
||||
|
||||
// when
|
||||
txq.clear();
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.pending, 0);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_drop_old_transactions_when_hitting_the_limit() {
|
||||
// given
|
||||
let mut txq = TransactionQueue::with_limits(1, 1);
|
||||
let (tx, tx2) = new_txs(U256::one());
|
||||
txq.add(tx.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().pending, 1);
|
||||
|
||||
// when
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
|
||||
// then
|
||||
let t = txq.top_transactions(2);
|
||||
assert_eq!(txq.status().pending, 1);
|
||||
assert_eq!(t.len(), 1);
|
||||
assert_eq!(t[0], tx);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_limit_future_transactions() {
|
||||
let mut txq = TransactionQueue::with_limits(10, 1);
|
||||
let (tx1, tx2) = new_txs(U256::from(4));
|
||||
let (tx3, tx4) = new_txs(U256::from(4));
|
||||
txq.add(tx1.clone(), &default_nonce);
|
||||
txq.add(tx3.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().pending, 2);
|
||||
|
||||
// when
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().future, 1);
|
||||
txq.add(tx4.clone(), &default_nonce);
|
||||
|
||||
// then
|
||||
assert_eq!(txq.status().future, 1);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_drop_transactions_with_old_nonces() {
|
||||
let mut txq = TransactionQueue::new();
|
||||
let tx = new_tx();
|
||||
let last_nonce = tx.nonce.clone() + U256::one();
|
||||
let fetch_last_nonce = |_a: &Address| last_nonce;
|
||||
|
||||
// when
|
||||
txq.add(tx, &fetch_last_nonce);
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.pending, 0);
|
||||
assert_eq!(stats.future, 0);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_accept_same_transaction_twice() {
|
||||
// given
|
||||
let mut txq = TransactionQueue::new();
|
||||
let (tx1, tx2) = new_txs(U256::from(1));
|
||||
txq.add(tx1.clone(), &default_nonce);
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().pending, 2);
|
||||
|
||||
// when
|
||||
txq.remove(&tx1.hash(), &default_nonce);
|
||||
assert_eq!(txq.status().pending, 0);
|
||||
assert_eq!(txq.status().future, 1);
|
||||
txq.add(tx1.clone(), &default_nonce);
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.future, 0);
|
||||
assert_eq!(stats.pending, 2);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn should_not_move_to_future_if_state_nonce_is_higher() {
|
||||
// given
|
||||
let next_nonce = |a: &Address| default_nonce(a) + U256::one();
|
||||
let mut txq = TransactionQueue::new();
|
||||
let (tx, tx2) = new_txs(U256::from(1));
|
||||
let tx3 = new_tx();
|
||||
txq.add(tx2.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().future, 1);
|
||||
txq.add(tx3.clone(), &default_nonce);
|
||||
txq.add(tx.clone(), &default_nonce);
|
||||
assert_eq!(txq.status().pending, 3);
|
||||
|
||||
// when
|
||||
txq.remove(&tx.hash(), &next_nonce);
|
||||
|
||||
// then
|
||||
let stats = txq.status();
|
||||
assert_eq!(stats.future, 0);
|
||||
assert_eq!(stats.pending, 2);
|
||||
}
|
||||
|
||||
}
|
Loading…
Reference in New Issue
Block a user