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.
This commit is contained in:
Tomasz Drwięga 2018-07-04 17:37:55 +02:00 committed by André Silva
parent 9438afde32
commit 08332f1945
10 changed files with 232 additions and 118 deletions

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@ -15,7 +15,7 @@
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::time::{Instant, Duration};
use std::collections::{BTreeMap, HashSet, HashMap};
use std::collections::{BTreeMap, BTreeSet, HashSet, HashMap};
use std::sync::Arc;
use ansi_term::Colour;
@ -838,7 +838,40 @@ impl miner::MinerService for Miner {
self.transaction_queue.all_transactions()
}
fn ready_transactions<C>(&self, chain: &C) -> Vec<Arc<VerifiedTransaction>> where
fn pending_transaction_hashes<C>(&self, chain: &C) -> BTreeSet<H256> where
C: ChainInfo + Sync,
{
let chain_info = chain.chain_info();
let from_queue = || self.transaction_queue.pending_hashes(
|sender| self.nonce_cache.read().get(sender).cloned(),
);
let from_pending = || {
self.map_existing_pending_block(|sealing| {
sealing.transactions()
.iter()
.map(|signed| signed.hash())
.collect()
}, chain_info.best_block_number)
};
match self.options.pending_set {
PendingSet::AlwaysQueue => {
from_queue()
},
PendingSet::AlwaysSealing => {
from_pending().unwrap_or_default()
},
PendingSet::SealingOrElseQueue => {
from_pending().unwrap_or_else(from_queue)
},
}
}
fn ready_transactions<C>(&self, chain: &C)
-> Vec<Arc<VerifiedTransaction>>
where
C: ChainInfo + Nonce + Sync,
{
let chain_info = chain.chain_info();
@ -1043,8 +1076,12 @@ impl miner::MinerService for Miner {
// 2. We ignore blocks that are `invalid` because it doesn't have any meaning in terms of the transactions that
// are in those blocks
// Clear nonce cache
self.nonce_cache.write().clear();
let has_new_best_block = enacted.len() > 0;
if has_new_best_block {
// Clear nonce cache
self.nonce_cache.write().clear();
}
// First update gas limit in transaction queue and minimal gas price.
let gas_limit = *chain.best_block_header().gas_limit();
@ -1069,10 +1106,12 @@ impl miner::MinerService for Miner {
});
}
// ...and at the end remove the old ones
self.transaction_queue.cull(client);
if has_new_best_block {
// ...and at the end remove the old ones
self.transaction_queue.cull(client);
}
if enacted.len() > 0 || (imported.len() > 0 && self.options.reseal_on_uncle) {
if has_new_best_block || (imported.len() > 0 && self.options.reseal_on_uncle) {
// Reset `next_allowed_reseal` in case a block is imported.
// Even if min_period is high, we will always attempt to create
// new pending block.

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@ -28,7 +28,7 @@ pub mod stratum;
pub use self::miner::{Miner, MinerOptions, Penalization, PendingSet, AuthoringParams};
use std::sync::Arc;
use std::collections::BTreeMap;
use std::collections::{BTreeSet, BTreeMap};
use bytes::Bytes;
use ethereum_types::{H256, U256, Address};
@ -164,7 +164,13 @@ pub trait MinerService : Send + Sync {
fn next_nonce<C>(&self, chain: &C, address: &Address) -> U256
where C: Nonce + Sync;
/// Get a list of all ready transactions.
/// Get a set of all pending transaction hashes.
///
/// Depending on the settings may look in transaction pool or only in pending block.
fn pending_transaction_hashes<C>(&self, chain: &C) -> BTreeSet<H256> where
C: ChainInfo + Sync;
/// Get a list of all ready transactions either ordered by priority or unordered (cheaper).
///
/// Depending on the settings may look in transaction pool or only in pending block.
fn ready_transactions<C>(&self, chain: &C) -> Vec<Arc<VerifiedTransaction>>

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@ -19,7 +19,7 @@
use std::{cmp, fmt};
use std::sync::Arc;
use std::sync::atomic::{self, AtomicUsize};
use std::collections::{BTreeMap, HashMap};
use std::collections::{BTreeMap, BTreeSet, HashMap};
use ethereum_types::{H256, U256, Address};
use parking_lot::RwLock;
@ -285,7 +285,20 @@ impl TransactionQueue {
self.pool.read().pending(ready).collect()
}
/// Returns current pneding transactions.
/// Computes unordered set of pending hashes.
///
/// Since strict nonce-checking is not required, you may get some false positive future transactions as well.
pub fn pending_hashes<N>(
&self,
nonce: N,
) -> BTreeSet<H256> where
N: Fn(&Address) -> Option<U256>,
{
let ready = ready::OptionalState::new(nonce);
self.pool.read().pending(ready).map(|tx| tx.hash).collect()
}
/// Returns current pending transactions ordered by priority.
///
/// NOTE: This may return a cached version of pending transaction set.
/// Re-computing the pending set is possible with `#collect_pending` method,

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@ -130,6 +130,43 @@ impl txpool::Ready<VerifiedTransaction> for Condition {
}
}
/// Readiness checker that only relies on nonce cache (does actually go to state).
///
/// Checks readiness of transactions by comparing the nonce to state nonce. If nonce
/// isn't found in provided state nonce store, defaults to the tx nonce and updates
/// the nonce store. Useful for using with a state nonce cache when false positives are allowed.
pub struct OptionalState<C> {
nonces: HashMap<Address, U256>,
state: C,
}
impl<C> OptionalState<C> {
pub fn new(state: C) -> Self {
OptionalState {
nonces: Default::default(),
state,
}
}
}
impl<C: Fn(&Address) -> Option<U256>> txpool::Ready<VerifiedTransaction> for OptionalState<C> {
fn is_ready(&mut self, tx: &VerifiedTransaction) -> txpool::Readiness {
let sender = tx.sender();
let state = &self.state;
let nonce = self.nonces.entry(*sender).or_insert_with(|| {
state(sender).unwrap_or_else(|| tx.transaction.nonce)
});
match tx.transaction.nonce.cmp(nonce) {
cmp::Ordering::Greater => txpool::Readiness::Future,
cmp::Ordering::Less => txpool::Readiness::Stale,
cmp::Ordering::Equal => {
*nonce = *nonce + 1.into();
txpool::Readiness::Ready
},
}
}
}
#[cfg(test)]
mod tests {
use super::*;

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@ -40,7 +40,7 @@ mod subscription_manager;
pub use self::dispatch::{Dispatcher, FullDispatcher};
pub use self::network_settings::NetworkSettings;
pub use self::poll_manager::PollManager;
pub use self::poll_filter::{PollFilter, limit_logs};
pub use self::poll_filter::{PollFilter, SyncPollFilter, limit_logs};
pub use self::requests::{
TransactionRequest, FilledTransactionRequest, ConfirmationRequest, ConfirmationPayload, CallRequest,
};

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@ -1,18 +1,40 @@
//! Helper type with all filter state data.
use std::collections::HashSet;
use std::{
collections::{BTreeSet, HashSet},
sync::Arc,
};
use ethereum_types::H256;
use parking_lot::Mutex;
use v1::types::{Filter, Log};
pub type BlockNumber = u64;
/// Thread-safe filter state.
#[derive(Clone)]
pub struct SyncPollFilter(Arc<Mutex<PollFilter>>);
impl SyncPollFilter {
/// New `SyncPollFilter`
pub fn new(f: PollFilter) -> Self {
SyncPollFilter(Arc::new(Mutex::new(f)))
}
/// Modify underlying filter
pub fn modify<F, R>(&self, f: F) -> R where
F: FnOnce(&mut PollFilter) -> R,
{
f(&mut self.0.lock())
}
}
/// Filter state.
#[derive(Clone)]
pub enum PollFilter {
/// Number of last block which client was notified about.
Block(BlockNumber),
/// Hashes of all transactions which client was notified about.
PendingTransaction(Vec<H256>),
/// Hashes of all pending transactions the client knows about.
PendingTransaction(BTreeSet<H256>),
/// Number of From block number, last seen block hash, pending logs and log filter itself.
Logs(BlockNumber, Option<H256>, HashSet<Log>, Filter)
}

View File

@ -608,11 +608,9 @@ impl<C, SN: ?Sized, S: ?Sized, M, EM, T: StateInfo + 'static> Eth for EthClient<
}
fn block_transaction_count_by_number(&self, num: BlockNumber) -> BoxFuture<Option<RpcU256>> {
let block_number = self.client.chain_info().best_block_number;
Box::new(future::ok(match num {
BlockNumber::Pending =>
self.miner.pending_transactions(block_number).map(|x| x.len().into()),
Some(self.miner.pending_transaction_hashes(&*self.client).len().into()),
_ =>
self.client.block(block_number_to_id(num)).map(|block| block.transactions_count().into())
}))

View File

@ -17,7 +17,7 @@
//! Eth Filter RPC implementation
use std::sync::Arc;
use std::collections::HashSet;
use std::collections::BTreeSet;
use ethcore::miner::{self, MinerService};
use ethcore::filter::Filter as EthcoreFilter;
@ -30,7 +30,7 @@ use jsonrpc_core::futures::{future, Future};
use jsonrpc_core::futures::future::Either;
use v1::traits::EthFilter;
use v1::types::{BlockNumber, Index, Filter, FilterChanges, Log, H256 as RpcH256, U256 as RpcU256};
use v1::helpers::{errors, PollFilter, PollManager, limit_logs};
use v1::helpers::{errors, SyncPollFilter, PollFilter, PollManager, limit_logs};
use v1::impls::eth::pending_logs;
/// Something which provides data that can be filtered over.
@ -41,8 +41,8 @@ pub trait Filterable {
/// Get a block hash by block id.
fn block_hash(&self, id: BlockId) -> Option<H256>;
/// pending transaction hashes at the given block.
fn pending_transactions_hashes(&self) -> Vec<H256>;
/// pending transaction hashes at the given block (unordered).
fn pending_transaction_hashes(&self) -> BTreeSet<H256>;
/// Get logs that match the given filter.
fn logs(&self, filter: EthcoreFilter) -> BoxFuture<Vec<Log>>;
@ -51,7 +51,7 @@ pub trait Filterable {
fn pending_logs(&self, block_number: u64, filter: &EthcoreFilter) -> Vec<Log>;
/// Get a reference to the poll manager.
fn polls(&self) -> &Mutex<PollManager<PollFilter>>;
fn polls(&self) -> &Mutex<PollManager<SyncPollFilter>>;
/// Get removed logs within route from the given block to the nearest canon block, not including the canon block. Also returns how many logs have been traversed.
fn removed_logs(&self, block_hash: H256, filter: &EthcoreFilter) -> (Vec<Log>, u64);
@ -61,7 +61,7 @@ pub trait Filterable {
pub struct EthFilterClient<C, M> {
client: Arc<C>,
miner: Arc<M>,
polls: Mutex<PollManager<PollFilter>>,
polls: Mutex<PollManager<SyncPollFilter>>,
}
impl<C, M> EthFilterClient<C, M> {
@ -87,11 +87,8 @@ impl<C, M> Filterable for EthFilterClient<C, M> where
self.client.block_hash(id)
}
fn pending_transactions_hashes(&self) -> Vec<H256> {
self.miner.ready_transactions(&*self.client)
.into_iter()
.map(|tx| tx.signed().hash())
.collect()
fn pending_transaction_hashes(&self) -> BTreeSet<H256> {
self.miner.pending_transaction_hashes(&*self.client)
}
fn logs(&self, filter: EthcoreFilter) -> BoxFuture<Vec<Log>> {
@ -102,7 +99,7 @@ impl<C, M> Filterable for EthFilterClient<C, M> where
pending_logs(&*self.miner, block_number, filter)
}
fn polls(&self) -> &Mutex<PollManager<PollFilter>> { &self.polls }
fn polls(&self) -> &Mutex<PollManager<SyncPollFilter>> { &self.polls }
fn removed_logs(&self, block_hash: H256, filter: &EthcoreFilter) -> (Vec<Log>, u64) {
let inner = || -> Option<Vec<H256>> {
@ -145,127 +142,124 @@ impl<T: Filterable + Send + Sync + 'static> EthFilter for T {
fn new_filter(&self, filter: Filter) -> Result<RpcU256> {
let mut polls = self.polls().lock();
let block_number = self.best_block_number();
let id = polls.create_poll(PollFilter::Logs(block_number, None, Default::default(), filter));
let id = polls.create_poll(SyncPollFilter::new(PollFilter::Logs(block_number, None, Default::default(), filter)));
Ok(id.into())
}
fn new_block_filter(&self) -> Result<RpcU256> {
let mut polls = self.polls().lock();
// +1, since we don't want to include the current block
let id = polls.create_poll(PollFilter::Block(self.best_block_number() + 1));
let id = polls.create_poll(SyncPollFilter::new(PollFilter::Block(self.best_block_number() + 1)));
Ok(id.into())
}
fn new_pending_transaction_filter(&self) -> Result<RpcU256> {
let mut polls = self.polls().lock();
let pending_transactions = self.pending_transactions_hashes();
let id = polls.create_poll(PollFilter::PendingTransaction(pending_transactions));
let pending_transactions = self.pending_transaction_hashes();
let id = polls.create_poll(SyncPollFilter::new(PollFilter::PendingTransaction(pending_transactions)));
Ok(id.into())
}
fn filter_changes(&self, index: Index) -> BoxFuture<FilterChanges> {
let mut polls = self.polls().lock();
Box::new(match polls.poll_mut(&index.value()) {
None => Either::A(future::err(errors::filter_not_found())),
Some(filter) => match *filter {
PollFilter::Block(ref mut block_number) => {
// +1, cause we want to return hashes including current block hash.
let current_number = self.best_block_number() + 1;
let hashes = (*block_number..current_number).into_iter()
.map(BlockId::Number)
.filter_map(|id| self.block_hash(id).map(Into::into))
.collect::<Vec<RpcH256>>();
let filter = match self.polls().lock().poll_mut(&index.value()) {
Some(filter) => filter.clone(),
None => return Box::new(future::err(errors::filter_not_found())),
};
*block_number = current_number;
Box::new(filter.modify(|filter| match *filter {
PollFilter::Block(ref mut block_number) => {
// +1, cause we want to return hashes including current block hash.
let current_number = self.best_block_number() + 1;
let hashes = (*block_number..current_number).into_iter()
.map(BlockId::Number)
.filter_map(|id| self.block_hash(id).map(Into::into))
.collect::<Vec<RpcH256>>();
Either::A(future::ok(FilterChanges::Hashes(hashes)))
},
PollFilter::PendingTransaction(ref mut previous_hashes) => {
// get hashes of pending transactions
let current_hashes = self.pending_transactions_hashes();
*block_number = current_number;
let new_hashes =
{
let previous_hashes_set = previous_hashes.iter().collect::<HashSet<_>>();
Either::A(future::ok(FilterChanges::Hashes(hashes)))
},
PollFilter::PendingTransaction(ref mut previous_hashes) => {
// get hashes of pending transactions
let current_hashes = self.pending_transaction_hashes();
// find all new hashes
current_hashes
.iter()
.filter(|hash| !previous_hashes_set.contains(hash))
.cloned()
.map(Into::into)
.collect::<Vec<RpcH256>>()
};
let new_hashes = {
// find all new hashes
current_hashes.difference(previous_hashes)
.cloned()
.map(Into::into)
.collect()
};
// save all hashes of pending transactions
*previous_hashes = current_hashes;
// save all hashes of pending transactions
*previous_hashes = current_hashes;
// return new hashes
Either::A(future::ok(FilterChanges::Hashes(new_hashes)))
},
PollFilter::Logs(ref mut block_number, ref mut last_block_hash, ref mut previous_logs, ref filter) => {
// retrive the current block number
let current_number = self.best_block_number();
// return new hashes
Either::A(future::ok(FilterChanges::Hashes(new_hashes)))
},
PollFilter::Logs(ref mut block_number, ref mut last_block_hash, ref mut previous_logs, ref filter) => {
// retrive the current block number
let current_number = self.best_block_number();
// check if we need to check pending hashes
let include_pending = filter.to_block == Some(BlockNumber::Pending);
// check if we need to check pending hashes
let include_pending = filter.to_block == Some(BlockNumber::Pending);
// build appropriate filter
let mut filter: EthcoreFilter = filter.clone().into();
// build appropriate filter
let mut filter: EthcoreFilter = filter.clone().into();
// retrieve reorg logs
let (mut reorg, reorg_len) = last_block_hash.map_or_else(|| (Vec::new(), 0), |h| self.removed_logs(h, &filter));
*block_number -= reorg_len as u64;
// retrieve reorg logs
let (mut reorg, reorg_len) = last_block_hash.map_or_else(|| (Vec::new(), 0), |h| self.removed_logs(h, &filter));
*block_number -= reorg_len as u64;
filter.from_block = BlockId::Number(*block_number);
filter.to_block = BlockId::Latest;
filter.from_block = BlockId::Number(*block_number);
filter.to_block = BlockId::Latest;
// retrieve pending logs
let pending = if include_pending {
let pending_logs = self.pending_logs(current_number, &filter);
// retrieve pending logs
let pending = if include_pending {
let pending_logs = self.pending_logs(current_number, &filter);
// remove logs about which client was already notified about
let new_pending_logs: Vec<_> = pending_logs.iter()
.filter(|p| !previous_logs.contains(p))
.cloned()
.collect();
// remove logs about which client was already notified about
let new_pending_logs: Vec<_> = pending_logs.iter()
.filter(|p| !previous_logs.contains(p))
.cloned()
.collect();
// save all logs retrieved by client
*previous_logs = pending_logs.into_iter().collect();
// save all logs retrieved by client
*previous_logs = pending_logs.into_iter().collect();
new_pending_logs
} else {
Vec::new()
};
new_pending_logs
} else {
Vec::new()
};
// save the number of the next block as a first block from which
// we want to get logs
*block_number = current_number + 1;
// save the number of the next block as a first block from which
// we want to get logs
*block_number = current_number + 1;
// save the current block hash, which we used to get back to the
// canon chain in case of reorg.
*last_block_hash = self.block_hash(BlockId::Number(current_number));
// save the current block hash, which we used to get back to the
// canon chain in case of reorg.
*last_block_hash = self.block_hash(BlockId::Number(current_number));
// retrieve logs in range from_block..min(BlockId::Latest..to_block)
let limit = filter.limit;
Either::B(self.logs(filter)
.map(move |logs| { reorg.extend(logs); reorg }) // append reorg logs in the front
.map(move |mut logs| { logs.extend(pending); logs }) // append fetched pending logs
.map(move |logs| limit_logs(logs, limit)) // limit the logs
.map(FilterChanges::Logs))
}
// retrieve logs in range from_block..min(BlockId::Latest..to_block)
let limit = filter.limit;
Either::B(self.logs(filter)
.map(move |logs| { reorg.extend(logs); reorg }) // append reorg logs in the front
.map(move |mut logs| { logs.extend(pending); logs }) // append fetched pending logs
.map(move |logs| limit_logs(logs, limit)) // limit the logs
.map(FilterChanges::Logs))
}
})
}))
}
fn filter_logs(&self, index: Index) -> BoxFuture<Vec<Log>> {
let filter = {
let mut polls = self.polls().lock();
match polls.poll(&index.value()) {
Some(&PollFilter::Logs(ref _block_number, ref _last_block_hash, ref _previous_log, ref filter)) => filter.clone(),
// just empty array
Some(_) => return Box::new(future::ok(Vec::new())),
match polls.poll(&index.value()).and_then(|f| f.modify(|filter| match *filter {
PollFilter::Logs(.., ref filter) => Some(filter.clone()),
_ => None,
})) {
Some(filter) => filter,
None => return Box::new(future::err(errors::filter_not_found())),
}
};

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@ -16,6 +16,7 @@
//! Eth RPC interface for the light client.
use std::collections::BTreeSet;
use std::sync::Arc;
use jsonrpc_core::{Result, BoxFuture};
@ -41,7 +42,7 @@ use transaction::SignedTransaction;
use v1::impls::eth_filter::Filterable;
use v1::helpers::{errors, limit_logs};
use v1::helpers::{PollFilter, PollManager};
use v1::helpers::{SyncPollFilter, PollManager};
use v1::helpers::light_fetch::{self, LightFetch};
use v1::traits::Eth;
use v1::types::{
@ -61,7 +62,7 @@ pub struct EthClient<T> {
transaction_queue: Arc<RwLock<TransactionQueue>>,
accounts: Arc<AccountProvider>,
cache: Arc<Mutex<LightDataCache>>,
polls: Mutex<PollManager<PollFilter>>,
polls: Mutex<PollManager<SyncPollFilter>>,
gas_price_percentile: usize,
}
@ -533,8 +534,8 @@ impl<T: LightChainClient + 'static> Filterable for EthClient<T> {
self.client.block_hash(id)
}
fn pending_transactions_hashes(&self) -> Vec<::ethereum_types::H256> {
Vec::new()
fn pending_transaction_hashes(&self) -> BTreeSet<::ethereum_types::H256> {
BTreeSet::new()
}
fn logs(&self, filter: EthcoreFilter) -> BoxFuture<Vec<Log>> {
@ -545,7 +546,7 @@ impl<T: LightChainClient + 'static> Filterable for EthClient<T> {
Vec::new() // light clients don't mine.
}
fn polls(&self) -> &Mutex<PollManager<PollFilter>> {
fn polls(&self) -> &Mutex<PollManager<SyncPollFilter>> {
&self.polls
}

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@ -17,7 +17,7 @@
//! Test implementation of miner service.
use std::sync::Arc;
use std::collections::{BTreeMap, HashMap};
use std::collections::{BTreeMap, BTreeSet, HashMap};
use bytes::Bytes;
use ethcore::account_provider::SignError as AccountError;
@ -219,6 +219,10 @@ impl MinerService for TestMinerService {
self.queued_transactions()
}
fn pending_transaction_hashes<C>(&self, _chain: &C) -> BTreeSet<H256> {
self.queued_transactions().into_iter().map(|tx| tx.signed().hash()).collect()
}
fn queued_transactions(&self) -> Vec<Arc<VerifiedTransaction>> {
self.pending_transactions.lock().values().cloned().map(|tx| {
Arc::new(VerifiedTransaction::from_pending_block_transaction(tx))