openethereum/ethcore/src/verification/queue/mod.rs

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// Copyright 2015, 2016 Ethcore (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/>.
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//! A queue of blocks. Sits between network or other I/O and the `BlockChain`.
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//! Sorts them ready for blockchain insertion.
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use std::thread::{JoinHandle, self};
use std::sync::atomic::{AtomicBool, AtomicUsize, Ordering as AtomicOrdering};
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use std::sync::{Condvar as SCondvar, Mutex as SMutex};
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use util::*;
use io::*;
use error::*;
use engines::Engine;
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use service::*;
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use self::kind::{HasHash, Kind};
pub use types::verification_queue_info::VerificationQueueInfo as QueueInfo;
pub mod kind;
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const MIN_MEM_LIMIT: usize = 16384;
const MIN_QUEUE_LIMIT: usize = 512;
/// Type alias for block queue convenience.
pub type BlockQueue = VerificationQueue<self::kind::Blocks>;
/// Type alias for header queue convenience.
pub type HeaderQueue = VerificationQueue<self::kind::Headers>;
/// Verification queue configuration
#[derive(Debug, PartialEq, Clone)]
pub struct Config {
/// Maximum number of items to keep in unverified queue.
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/// When the limit is reached, is_full returns true.
pub max_queue_size: usize,
/// Maximum heap memory to use.
/// When the limit is reached, is_full returns true.
pub max_mem_use: usize,
}
impl Default for Config {
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fn default() -> Self {
Config {
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max_queue_size: 30000,
max_mem_use: 50 * 1024 * 1024,
}
}
}
/// An item which is in the process of being verified.
pub struct Verifying<K: Kind> {
hash: H256,
output: Option<K::Verified>,
}
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impl<K: Kind> HeapSizeOf for Verifying<K> {
fn heap_size_of_children(&self) -> usize {
self.output.heap_size_of_children()
}
}
/// Status of items in the queue.
pub enum Status {
/// Currently queued.
Queued,
/// Known to be bad.
Bad,
/// Unknown.
Unknown,
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}
// the internal queue sizes.
struct Sizes {
unverified: AtomicUsize,
verifying: AtomicUsize,
verified: AtomicUsize,
}
/// A queue of items to be verified. Sits between network or other I/O and the `BlockChain`.
/// Keeps them in the same order as inserted, minus invalid items.
pub struct VerificationQueue<K: Kind> {
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panic_handler: Arc<PanicHandler>,
Snapshot creation and restoration (#1679) * to_rlp takes self by-reference * clean up some derefs * out-of-order insertion for blockchain * implement block rebuilder without verification * group block chunk header into struct * block rebuilder does verification * integrate snapshot service with client service; flesh out implementation more * initial implementation of snapshot service * remove snapshottaker trait * snapshot writer trait with packed and loose implementations * write chunks using "snapshotwriter" in service * have snapshot taking use snapshotwriter * implement snapshot readers * back up client dbs when replacing * use snapshot reader in snapshot service * describe offset format * use new get_db_path in parity, allow some errors in service * blockchain formatting * implement parity snapshot * implement snapshot restore * force blocks to be submitted in order * fix bug loading block hashes in packed reader * fix seal field loading * fix uncle hash computation * fix a few bugs * store genesis state in db. reverse block chunk order in packed writer * allow out-of-order import for blocks * bring restoration types together * only snapshot the last 30000 blocks * restore into overlaydb instead of journaldb * commit version to database * use memorydbs and commit directly * fix trie test compilation * fix failing tests * sha3_null_rlp, not H256::zero * move overlaydb to ref_overlaydb, add new overlaydb without on-disk rc * port archivedb to new overlaydb * add deletion mode tests for overlaydb * use new overlaydb, check state root at end * share chain info between state and block snapshotting * create blocks snapshot using blockchain directly * allow snapshot from arbitrary block, remove panickers from snapshot creation * begin test framework * blockchain chunking test * implement stateproducer::tick * state snapshot test * create block and state chunks concurrently, better restoration informant * fix tests * add deletion mode tests for overlaydb * address comments * more tests * Fix up tests. * remove a few printlns * add a little more documentation to `commit` * fix tests * fix ref_overlaydb test names * snapshot command skeleton * revert ref_overlaydb renaming * reimplement snapshot commands * fix many errors * everything but inject * get ethcore compiling * get snapshot tests passing again * instrument snapshot commands again * fix fallout from other changes, mark snapshots as experimental * optimize injection patterns * do two injections * fix up tests * take snapshots from 1000 blocks efore * address minor comments * fix a few io crate related errors * clarify names about total difficulty [ci skip]
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engine: Arc<Engine>,
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more_to_verify: Arc<SCondvar>,
verification: Arc<Verification<K>>,
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verifiers: Vec<JoinHandle<()>>,
deleting: Arc<AtomicBool>,
ready_signal: Arc<QueueSignal>,
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empty: Arc<SCondvar>,
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processing: RwLock<HashSet<H256>>,
max_queue_size: usize,
max_mem_use: usize,
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}
struct QueueSignal {
deleting: Arc<AtomicBool>,
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signalled: AtomicBool,
message_channel: IoChannel<ClientIoMessage>,
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}
impl QueueSignal {
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#[cfg_attr(feature="dev", allow(bool_comparison))]
fn set_sync(&self) {
// Do not signal when we are about to close
if self.deleting.load(AtomicOrdering::Relaxed) {
return;
}
if self.signalled.compare_and_swap(false, true, AtomicOrdering::Relaxed) == false {
if let Err(e) = self.message_channel.send_sync(ClientIoMessage::BlockVerified) {
debug!("Error sending BlockVerified message: {:?}", e);
}
}
}
#[cfg_attr(feature="dev", allow(bool_comparison))]
fn set_async(&self) {
// Do not signal when we are about to close
if self.deleting.load(AtomicOrdering::Relaxed) {
return;
}
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if self.signalled.compare_and_swap(false, true, AtomicOrdering::Relaxed) == false {
if let Err(e) = self.message_channel.send(ClientIoMessage::BlockVerified) {
debug!("Error sending BlockVerified message: {:?}", e);
}
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}
}
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fn reset(&self) {
self.signalled.store(false, AtomicOrdering::Relaxed);
}
}
struct Verification<K: Kind> {
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// All locks must be captured in the order declared here.
unverified: Mutex<VecDeque<K::Unverified>>,
verifying: Mutex<VecDeque<Verifying<K>>>,
verified: Mutex<VecDeque<K::Verified>>,
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bad: Mutex<HashSet<H256>>,
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more_to_verify: SMutex<()>,
empty: SMutex<()>,
sizes: Sizes,
}
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impl<K: Kind> VerificationQueue<K> {
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/// Creates a new queue instance.
pub fn new(config: Config, engine: Arc<Engine>, message_channel: IoChannel<ClientIoMessage>, check_seal: bool) -> Self {
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let verification = Arc::new(Verification {
unverified: Mutex::new(VecDeque::new()),
verifying: Mutex::new(VecDeque::new()),
verified: Mutex::new(VecDeque::new()),
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bad: Mutex::new(HashSet::new()),
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more_to_verify: SMutex::new(()),
empty: SMutex::new(()),
sizes: Sizes {
unverified: AtomicUsize::new(0),
verifying: AtomicUsize::new(0),
verified: AtomicUsize::new(0),
}
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});
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let more_to_verify = Arc::new(SCondvar::new());
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let deleting = Arc::new(AtomicBool::new(false));
let ready_signal = Arc::new(QueueSignal {
deleting: deleting.clone(),
signalled: AtomicBool::new(false),
message_channel: message_channel
});
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let empty = Arc::new(SCondvar::new());
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let panic_handler = PanicHandler::new_in_arc();
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let mut verifiers: Vec<JoinHandle<()>> = Vec::new();
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let thread_count = max(::num_cpus::get(), 3) - 2;
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for i in 0..thread_count {
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let verification = verification.clone();
let engine = engine.clone();
let more_to_verify = more_to_verify.clone();
let ready_signal = ready_signal.clone();
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let empty = empty.clone();
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let deleting = deleting.clone();
let panic_handler = panic_handler.clone();
verifiers.push(
thread::Builder::new()
.name(format!("Verifier #{}", i))
.spawn(move || {
panic_handler.catch_panic(move || {
VerificationQueue::verify(verification, engine, more_to_verify, ready_signal, deleting, empty, check_seal)
}).unwrap()
})
.expect("Error starting block verification thread")
);
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}
VerificationQueue {
engine: engine,
panic_handler: panic_handler,
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ready_signal: ready_signal.clone(),
more_to_verify: more_to_verify.clone(),
verification: verification.clone(),
verifiers: verifiers,
deleting: deleting.clone(),
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processing: RwLock::new(HashSet::new()),
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empty: empty.clone(),
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max_queue_size: max(config.max_queue_size, MIN_QUEUE_LIMIT),
max_mem_use: max(config.max_mem_use, MIN_MEM_LIMIT),
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}
}
fn verify(verification: Arc<Verification<K>>, engine: Arc<Engine>, wait: Arc<SCondvar>, ready: Arc<QueueSignal>, deleting: Arc<AtomicBool>, empty: Arc<SCondvar>, check_seal: bool) {
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while !deleting.load(AtomicOrdering::Acquire) {
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{
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let mut more_to_verify = verification.more_to_verify.lock().unwrap();
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if verification.unverified.lock().is_empty() && verification.verifying.lock().is_empty() {
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empty.notify_all();
}
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while verification.unverified.lock().is_empty() && !deleting.load(AtomicOrdering::Acquire) {
more_to_verify = wait.wait(more_to_verify).unwrap();
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}
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if deleting.load(AtomicOrdering::Acquire) {
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return;
}
}
let item = {
// acquire these locks before getting the item to verify.
let mut unverified = verification.unverified.lock();
let mut verifying = verification.verifying.lock();
let item = match unverified.pop_front() {
Some(item) => item,
None => continue,
};
verification.sizes.unverified.fetch_sub(item.heap_size_of_children(), AtomicOrdering::SeqCst);
verifying.push_back(Verifying { hash: item.hash(), output: None });
item
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};
let hash = item.hash();
let is_ready = match K::verify(item, &*engine, check_seal) {
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Ok(verified) => {
let mut verifying = verification.verifying.lock();
let mut idx = None;
for (i, e) in verifying.iter_mut().enumerate() {
if e.hash == hash {
idx = Some(i);
verification.sizes.verifying.fetch_add(verified.heap_size_of_children(), AtomicOrdering::SeqCst);
e.output = Some(verified);
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break;
}
}
if idx == Some(0) {
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// we're next!
let mut verified = verification.verified.lock();
let mut bad = verification.bad.lock();
VerificationQueue::drain_verifying(&mut verifying, &mut verified, &mut bad, &verification.sizes);
true
} else {
false
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}
},
Err(_) => {
let mut verifying = verification.verifying.lock();
let mut verified = verification.verified.lock();
let mut bad = verification.bad.lock();
bad.insert(hash.clone());
verifying.retain(|e| e.hash != hash);
if verifying.front().map_or(false, |x| x.output.is_some()) {
VerificationQueue::drain_verifying(&mut verifying, &mut verified, &mut bad, &verification.sizes);
true
} else {
false
}
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}
};
if is_ready {
// Import the block immediately
ready.set_sync();
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}
}
}
fn drain_verifying(verifying: &mut VecDeque<Verifying<K>>, verified: &mut VecDeque<K::Verified>, bad: &mut HashSet<H256>, sizes: &Sizes) {
let mut removed_size = 0;
let mut inserted_size = 0;
while let Some(output) = verifying.front_mut().and_then(|x| x.output.take()) {
assert!(verifying.pop_front().is_some());
let size = output.heap_size_of_children();
removed_size += size;
if bad.contains(&output.parent_hash()) {
bad.insert(output.hash());
} else {
inserted_size += size;
verified.push_back(output);
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}
}
sizes.verifying.fetch_sub(removed_size, AtomicOrdering::SeqCst);
sizes.verified.fetch_add(inserted_size, AtomicOrdering::SeqCst);
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}
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/// Clear the queue and stop verification activity.
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pub fn clear(&self) {
let mut unverified = self.verification.unverified.lock();
let mut verifying = self.verification.verifying.lock();
let mut verified = self.verification.verified.lock();
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unverified.clear();
verifying.clear();
verified.clear();
let sizes = &self.verification.sizes;
sizes.unverified.store(0, AtomicOrdering::Release);
sizes.verifying.store(0, AtomicOrdering::Release);
sizes.verified.store(0, AtomicOrdering::Release);
self.processing.write().clear();
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}
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/// Wait for unverified queue to be empty
pub fn flush(&self) {
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let mut lock = self.verification.empty.lock().unwrap();
while !self.verification.unverified.lock().is_empty() || !self.verification.verifying.lock().is_empty() {
lock = self.empty.wait(lock).unwrap();
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}
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}
/// Check if the item is currently in the queue
pub fn status(&self, hash: &H256) -> Status {
if self.processing.read().contains(hash) {
return Status::Queued;
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}
if self.verification.bad.lock().contains(hash) {
return Status::Bad;
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}
Status::Unknown
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}
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/// Add a block to the queue.
pub fn import(&self, input: K::Input) -> ImportResult {
let h = input.hash();
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{
if self.processing.read().contains(&h) {
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return Err(ImportError::AlreadyQueued.into());
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}
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let mut bad = self.verification.bad.lock();
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if bad.contains(&h) {
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return Err(ImportError::KnownBad.into());
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}
if bad.contains(&input.parent_hash()) {
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bad.insert(h.clone());
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return Err(ImportError::KnownBad.into());
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}
}
match K::create(input, &*self.engine) {
Ok(item) => {
self.verification.sizes.unverified.fetch_add(item.heap_size_of_children(), AtomicOrdering::SeqCst);
self.processing.write().insert(h.clone());
self.verification.unverified.lock().push_back(item);
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self.more_to_verify.notify_all();
Ok(h)
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},
Err(err) => {
self.verification.bad.lock().insert(h.clone());
Err(err)
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}
}
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}
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/// Mark given item and all its children as bad. pauses verification
/// until complete.
pub fn mark_as_bad(&self, hashes: &[H256]) {
if hashes.is_empty() {
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return;
}
let mut verified_lock = self.verification.verified.lock();
Snapshot creation and restoration (#1679) * to_rlp takes self by-reference * clean up some derefs * out-of-order insertion for blockchain * implement block rebuilder without verification * group block chunk header into struct * block rebuilder does verification * integrate snapshot service with client service; flesh out implementation more * initial implementation of snapshot service * remove snapshottaker trait * snapshot writer trait with packed and loose implementations * write chunks using "snapshotwriter" in service * have snapshot taking use snapshotwriter * implement snapshot readers * back up client dbs when replacing * use snapshot reader in snapshot service * describe offset format * use new get_db_path in parity, allow some errors in service * blockchain formatting * implement parity snapshot * implement snapshot restore * force blocks to be submitted in order * fix bug loading block hashes in packed reader * fix seal field loading * fix uncle hash computation * fix a few bugs * store genesis state in db. reverse block chunk order in packed writer * allow out-of-order import for blocks * bring restoration types together * only snapshot the last 30000 blocks * restore into overlaydb instead of journaldb * commit version to database * use memorydbs and commit directly * fix trie test compilation * fix failing tests * sha3_null_rlp, not H256::zero * move overlaydb to ref_overlaydb, add new overlaydb without on-disk rc * port archivedb to new overlaydb * add deletion mode tests for overlaydb * use new overlaydb, check state root at end * share chain info between state and block snapshotting * create blocks snapshot using blockchain directly * allow snapshot from arbitrary block, remove panickers from snapshot creation * begin test framework * blockchain chunking test * implement stateproducer::tick * state snapshot test * create block and state chunks concurrently, better restoration informant * fix tests * add deletion mode tests for overlaydb * address comments * more tests * Fix up tests. * remove a few printlns * add a little more documentation to `commit` * fix tests * fix ref_overlaydb test names * snapshot command skeleton * revert ref_overlaydb renaming * reimplement snapshot commands * fix many errors * everything but inject * get ethcore compiling * get snapshot tests passing again * instrument snapshot commands again * fix fallout from other changes, mark snapshots as experimental * optimize injection patterns * do two injections * fix up tests * take snapshots from 1000 blocks efore * address minor comments * fix a few io crate related errors * clarify names about total difficulty [ci skip]
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let mut verified = &mut *verified_lock;
let mut bad = self.verification.bad.lock();
let mut processing = self.processing.write();
bad.reserve(hashes.len());
for hash in hashes {
bad.insert(hash.clone());
processing.remove(hash);
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}
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let mut new_verified = VecDeque::new();
let mut removed_size = 0;
for output in verified.drain(..) {
if bad.contains(&output.parent_hash()) {
removed_size += output.heap_size_of_children();
bad.insert(output.hash());
processing.remove(&output.hash());
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} else {
new_verified.push_back(output);
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}
}
self.verification.sizes.verified.fetch_sub(removed_size, AtomicOrdering::SeqCst);
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*verified = new_verified;
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}
/// Mark given item as processed.
/// Returns true if the queue becomes empty.
pub fn mark_as_good(&self, hashes: &[H256]) -> bool {
if hashes.is_empty() {
return self.processing.read().is_empty();
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}
let mut processing = self.processing.write();
for hash in hashes {
processing.remove(hash);
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}
processing.is_empty()
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}
/// Removes up to `max` verified items from the queue
pub fn drain(&self, max: usize) -> Vec<K::Verified> {
let mut verified = self.verification.verified.lock();
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let count = min(max, verified.len());
let result = verified.drain(..count).collect::<Vec<_>>();
let drained_size = result.iter().map(HeapSizeOf::heap_size_of_children).fold(0, |a, c| a + c);
self.verification.sizes.verified.fetch_sub(drained_size, AtomicOrdering::SeqCst);
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self.ready_signal.reset();
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if !verified.is_empty() {
self.ready_signal.set_async();
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}
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result
}
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/// Get queue status.
pub fn queue_info(&self) -> QueueInfo {
use std::mem::size_of;
let (unverified_len, unverified_bytes) = {
let len = self.verification.unverified.lock().len();
let size = self.verification.sizes.unverified.load(AtomicOrdering::Acquire);
(len, size + len * size_of::<K::Unverified>())
};
let (verifying_len, verifying_bytes) = {
let len = self.verification.verifying.lock().len();
let size = self.verification.sizes.verifying.load(AtomicOrdering::Acquire);
(len, size + len * size_of::<Verifying<K>>())
};
let (verified_len, verified_bytes) = {
let len = self.verification.verified.lock().len();
let size = self.verification.sizes.verified.load(AtomicOrdering::Acquire);
(len, size + len * size_of::<K::Verified>())
};
QueueInfo {
unverified_queue_size: unverified_len,
verifying_queue_size: verifying_len,
verified_queue_size: verified_len,
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max_queue_size: self.max_queue_size,
max_mem_use: self.max_mem_use,
mem_used: unverified_bytes
+ verifying_bytes
+ verified_bytes
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}
}
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/// Optimise memory footprint of the heap fields.
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pub fn collect_garbage(&self) {
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{
self.verification.unverified.lock().shrink_to_fit();
self.verification.verifying.lock().shrink_to_fit();
self.verification.verified.lock().shrink_to_fit();
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}
self.processing.write().shrink_to_fit();
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}
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}
impl<K: Kind> MayPanic for VerificationQueue<K> {
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fn on_panic<F>(&self, closure: F) where F: OnPanicListener {
self.panic_handler.on_panic(closure);
}
}
impl<K: Kind> Drop for VerificationQueue<K> {
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fn drop(&mut self) {
trace!(target: "shutdown", "[VerificationQueue] Closing...");
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self.clear();
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self.deleting.store(true, AtomicOrdering::Release);
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self.more_to_verify.notify_all();
for t in self.verifiers.drain(..) {
t.join().unwrap();
}
trace!(target: "shutdown", "[VerificationQueue] Closed.");
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}
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}
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#[cfg(test)]
mod tests {
use util::*;
use io::*;
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use spec::*;
use super::{BlockQueue, Config};
use super::kind::blocks::Unverified;
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use tests::helpers::*;
use error::*;
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use views::*;
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fn get_test_queue() -> BlockQueue {
let spec = get_test_spec();
let engine = spec.engine;
BlockQueue::new(Config::default(), engine, IoChannel::disconnected())
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}
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#[test]
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fn can_be_created() {
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// TODO better test
let spec = Spec::new_test();
let engine = spec.engine;
let _ = BlockQueue::new(Config::default(), engine, IoChannel::disconnected());
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}
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#[test]
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fn can_import_blocks() {
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let queue = get_test_queue();
if let Err(e) = queue.import(Unverified::new(get_good_dummy_block())) {
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panic!("error importing block that is valid by definition({:?})", e);
}
}
#[test]
fn returns_error_for_duplicates() {
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let queue = get_test_queue();
if let Err(e) = queue.import(Unverified::new(get_good_dummy_block())) {
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panic!("error importing block that is valid by definition({:?})", e);
}
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let duplicate_import = queue.import(Unverified::new(get_good_dummy_block()));
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match duplicate_import {
Err(e) => {
match e {
Error::Import(ImportError::AlreadyQueued) => {},
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_ => { panic!("must return AlreadyQueued error"); }
}
}
Ok(_) => { panic!("must produce error"); }
}
}
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#[test]
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fn returns_ok_for_drained_duplicates() {
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let queue = get_test_queue();
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let block = get_good_dummy_block();
let hash = BlockView::new(&block).header().hash().clone();
if let Err(e) = queue.import(Unverified::new(block)) {
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panic!("error importing block that is valid by definition({:?})", e);
}
queue.flush();
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queue.drain(10);
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queue.mark_as_good(&[ hash ]);
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if let Err(e) = queue.import(Unverified::new(get_good_dummy_block())) {
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panic!("error importing block that has already been drained ({:?})", e);
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}
}
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#[test]
fn returns_empty_once_finished() {
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let queue = get_test_queue();
queue.import(Unverified::new(get_good_dummy_block()))
.expect("error importing block that is valid by definition");
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queue.flush();
queue.drain(1);
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assert!(queue.queue_info().is_empty());
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}
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#[test]
fn test_mem_limit() {
let spec = get_test_spec();
let engine = spec.engine;
let mut config = Config::default();
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config.max_mem_use = super::MIN_MEM_LIMIT; // empty queue uses about 15000
Snapshot creation and restoration (#1679) * to_rlp takes self by-reference * clean up some derefs * out-of-order insertion for blockchain * implement block rebuilder without verification * group block chunk header into struct * block rebuilder does verification * integrate snapshot service with client service; flesh out implementation more * initial implementation of snapshot service * remove snapshottaker trait * snapshot writer trait with packed and loose implementations * write chunks using "snapshotwriter" in service * have snapshot taking use snapshotwriter * implement snapshot readers * back up client dbs when replacing * use snapshot reader in snapshot service * describe offset format * use new get_db_path in parity, allow some errors in service * blockchain formatting * implement parity snapshot * implement snapshot restore * force blocks to be submitted in order * fix bug loading block hashes in packed reader * fix seal field loading * fix uncle hash computation * fix a few bugs * store genesis state in db. reverse block chunk order in packed writer * allow out-of-order import for blocks * bring restoration types together * only snapshot the last 30000 blocks * restore into overlaydb instead of journaldb * commit version to database * use memorydbs and commit directly * fix trie test compilation * fix failing tests * sha3_null_rlp, not H256::zero * move overlaydb to ref_overlaydb, add new overlaydb without on-disk rc * port archivedb to new overlaydb * add deletion mode tests for overlaydb * use new overlaydb, check state root at end * share chain info between state and block snapshotting * create blocks snapshot using blockchain directly * allow snapshot from arbitrary block, remove panickers from snapshot creation * begin test framework * blockchain chunking test * implement stateproducer::tick * state snapshot test * create block and state chunks concurrently, better restoration informant * fix tests * add deletion mode tests for overlaydb * address comments * more tests * Fix up tests. * remove a few printlns * add a little more documentation to `commit` * fix tests * fix ref_overlaydb test names * snapshot command skeleton * revert ref_overlaydb renaming * reimplement snapshot commands * fix many errors * everything but inject * get ethcore compiling * get snapshot tests passing again * instrument snapshot commands again * fix fallout from other changes, mark snapshots as experimental * optimize injection patterns * do two injections * fix up tests * take snapshots from 1000 blocks efore * address minor comments * fix a few io crate related errors * clarify names about total difficulty [ci skip]
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let queue = BlockQueue::new(config, engine, IoChannel::disconnected());
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assert!(!queue.queue_info().is_full());
let mut blocks = get_good_dummy_block_seq(50);
for b in blocks.drain(..) {
queue.import(Unverified::new(b)).unwrap();
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}
assert!(queue.queue_info().is_full());
}
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}