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// 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/>.
use std::collections::{HashSet, HashMap, BTreeMap, VecDeque};
use std::sync::{Arc, Weak};
use std::sync::atomic::{AtomicUsize, AtomicBool, Ordering as AtomicOrdering};
use itertools::Itertools;
use bytes::Bytes;
use trie::{TrieSpec, TrieFactory, Trie};
use block::{IsBlock, LockedBlock, Drain, ClosedBlock, OpenBlock, enact_verified, SealedBlock};
use blockchain::{BlockChain, BlockProvider, TreeRoute, ImportRoute, TransactionAddress};
use client::ancient_import::AncientVerifier;
use client::Error as ClientError;
Nonce, Balance, ChainInfo, BlockInfo, CallContract, TransactionInfo,
RegistryInfo, ReopenBlock, PrepareOpenBlock, ScheduleInfo, ImportSealedBlock,
BroadcastProposalBlock, ImportBlock, StateOrBlock, StateInfo, StateClient, Call,
AccountData, BlockChain as BlockChainTrait, BlockProducer, SealedBlockImporter,
ClientIoMessage
BlockId, TransactionId, UncleId, TraceId, ClientConfig, BlockChainClient,
TraceFilter, CallAnalytics, BlockImportError, Mode,
ChainNotify, PruningInfo, ProvingBlockChainClient, EngineInfo, ChainMessageType
use engines::{EthEngine, EpochTransition};
use error::{ImportError, ExecutionError, CallError, BlockError, ImportResult, Error as EthcoreError};
use executive::{Executive, Executed, TransactOptions, contract_address};
use header::{BlockNumber, Header};
use io::IoChannel;
use log_entry::LocalizedLogEntry;
use miner::{Miner, MinerService};
use ethcore_miner::pool::VerifiedTransaction;
use rand::OsRng;
use receipt::{Receipt, LocalizedReceipt};
use snapshot::{self, io as snapshot_io};
use spec::Spec;
use trace;
use trace::{TraceDB, ImportRequest as TraceImportRequest, LocalizedTrace, Database as TraceDatabase};
use transaction::{self, LocalizedTransaction, UnverifiedTransaction, SignedTransaction, Transaction, Action};
use types::filter::Filter;
use types::mode::Mode as IpcMode;
use verification;
use verification::{PreverifiedBlock, Verifier};
use verification::queue::BlockQueue;
use views::BlockView;
// re-export
pub use types::blockchain_info::BlockChainInfo;
pub use types::block_status::BlockStatus;
pub use blockchain::CacheSize as BlockChainCacheSize;
pub use verification::queue::QueueInfo as BlockQueueInfo;
use_contract!(registry, "Registry", "res/contracts/registrar.json");
const MAX_QUEUE_SIZE_TO_SLEEP_ON: usize = 2;
const MIN_HISTORY_SIZE: u64 = 8;
#[derive(Default, Clone, Debug, Eq, PartialEq)]
/// Memory used by state DB
pub state_db_mem: usize,
/// Alter internal reporting to reflect the additional `block` has been processed.
pub fn accrue_block(&mut self, header: &Header, transactions: usize) {
self.transactions_applied += transactions;
self.gas_processed = self.gas_processed + *header.gas_used();
asynchronous rob
committed
impl<'a> ::std::ops::Sub<&'a ClientReport> for ClientReport {
type Output = Self;
fn sub(mut self, other: &'a ClientReport) -> Self {
let higher_mem = ::std::cmp::max(self.state_db_mem, other.state_db_mem);
let lower_mem = ::std::cmp::min(self.state_db_mem, other.state_db_mem);
self.blocks_imported -= other.blocks_imported;
self.transactions_applied -= other.transactions_applied;
self.gas_processed = self.gas_processed - other.gas_processed;
self.state_db_mem = higher_mem - lower_mem;
self
}
}
struct SleepState {
last_activity: Option<Instant>,
last_autosleep: Option<Instant>,
}
impl SleepState {
fn new(awake: bool) -> Self {
SleepState {
last_activity: match awake { false => None, true => Some(Instant::now()) },
last_autosleep: match awake { false => Some(Instant::now()), true => None },
}
}
}
struct Importer {
/// Lock used during block import
pub import_lock: Mutex<()>, // FIXME Maybe wrap the whole `Importer` instead?
/// Used to verify blocks
pub verifier: Box<Verifier<Client>>,
/// Queue containing pending blocks
pub block_queue: BlockQueue,
/// Handles block sealing
pub miner: Arc<Miner>,
/// Ancient block verifier: import an ancient sequence of blocks in order from a starting epoch
pub ancient_verifier: Mutex<Option<AncientVerifier>>,
/// Random number generator used by `AncientVerifier`
pub rng: Mutex<OsRng>,
/// Ethereum engine to be used during import
pub engine: Arc<EthEngine>,
}
/// Blockchain database client backed by a persistent database. Owns and manages a blockchain and a block queue.
/// Call `import_block()` to import a block asynchronously; `flush_queue()` flushes the queue.
pub struct Client {
/// Flag used to disable the client forever. Not to be confused with `liveness`.
///
/// For example, auto-updater will disable client forever if there is a
/// hard fork registered on-chain that we don't have capability for.
/// When hard fork block rolls around, the client (if `update` is false)
/// knows it can't proceed further.
chain: RwLock<Arc<BlockChain>>,
tracedb: RwLock<TraceDB<BlockChain>>,
/// Database pruning strategy to use for StateDB
/// Client uses this to store blocks, traces, etc.
db: RwLock<Arc<KeyValueDB>>,
/// Flag changed by `sleep` and `wake_up` methods. Not to be confused with `enabled`.
io_channel: Mutex<IoChannel<ClientIoMessage>>,
/// List of actors to be notified on certain chain events
notify: RwLock<Vec<Weak<ChainNotify>>>,
/// Count of pending transactions in the queue
last_hashes: RwLock<VecDeque<H256>>,
factories: Factories,
/// Number of eras kept in a journal before they are pruned
/// An action to be done if a mode/spec_name change happens
on_user_defaults_change: Mutex<Option<Box<FnMut(Option<Mode>) + 'static + Send>>>,
/// Link to a registry object useful for looking up names
registrar: registry::Registry,
registrar_address: Option<Address>,
/// A closure to call when we want to restart the client
exit_handler: Mutex<Option<Box<Fn(String) + 'static + Send>>>,
config: &ClientConfig,
engine: Arc<EthEngine>,
message_channel: IoChannel<ClientIoMessage>,
miner: Arc<Miner>,
) -> Result<Importer, ::error::Error> {
let block_queue = BlockQueue::new(config.queue.clone(), engine.clone(), message_channel.clone(), config.verifier_type.verifying_seal());
Tomusdrw
committed
verifier: verification::new(config.verifier_type.clone()),
block_queue,
miner,
fn calculate_enacted_retracted(&self, import_results: &[ImportRoute]) -> (Vec<H256>, Vec<H256>) {
fn map_to_vec(map: Vec<(H256, bool)>) -> Vec<H256> {
map.into_iter().map(|(k, _v)| k).collect()
}
// In ImportRoute we get all the blocks that have been enacted and retracted by single insert.
// Because we are doing multiple inserts some of the blocks that were enacted in import `k`
// could be retracted in import `k+1`. This is why to understand if after all inserts
// the block is enacted or retracted we iterate over all routes and at the end final state
// will be in the hashmap
let map = import_results.iter().fold(HashMap::new(), |mut map, route| {
for hash in &route.enacted {
map.insert(hash.clone(), true);
for hash in &route.retracted {
map.insert(hash.clone(), false);
}
map
});
// Split to enacted retracted (using hashmap value)
let (enacted, retracted) = map.into_iter().partition(|&(_k, v)| v);
// And convert tuples to keys
(map_to_vec(enacted), map_to_vec(retracted))
}
/// This is triggered by a message coming from a block queue when the block is ready for insertion
pub fn import_verified_blocks(&self, client: &Client) -> usize {
// Shortcut out if we know we're incapable of syncing the chain.
if !client.enabled.load(AtomicOrdering::Relaxed) {
let (imported_blocks, import_results, invalid_blocks, imported, proposed_blocks, duration, is_empty) = {
let mut imported_blocks = Vec::with_capacity(max_blocks_to_import);
let mut invalid_blocks = HashSet::new();
let mut proposed_blocks = Vec::with_capacity(max_blocks_to_import);
let mut import_results = Vec::with_capacity(max_blocks_to_import);
let _import_lock = self.import_lock.lock();
let blocks = self.block_queue.drain(max_blocks_to_import);
if blocks.is_empty() {
return 0;
}
trace_time!("import_verified_blocks");
let start = Instant::now();
for block in blocks {
let header = block.header.clone();
let bytes = block.bytes.clone();
let hash = header.hash();
let is_invalid = invalid_blocks.contains(header.parent_hash());
invalid_blocks.insert(hash);
if let Ok(closed_block) = self.check_and_close_block(block, client) {
if self.engine.is_proposal(&header) {
self.block_queue.mark_as_good(&[hash]);
proposed_blocks.push(bytes);
imported_blocks.push(hash);
let transactions_len = closed_block.transactions().len();
let route = self.commit_block(closed_block, &header, &bytes, client);
client.report.write().accrue_block(&header, transactions_len);
} else {
invalid_blocks.insert(header.hash());
}
let imported = imported_blocks.len();
let invalid_blocks = invalid_blocks.into_iter().collect::<Vec<H256>>();
if !invalid_blocks.is_empty() {
self.block_queue.mark_as_bad(&invalid_blocks);
}
let is_empty = self.block_queue.mark_as_good(&imported_blocks);
let duration_ns = {
let elapsed = start.elapsed();
elapsed.as_secs() * 1_000_000_000 + elapsed.subsec_nanos() as u64
};
(imported_blocks, import_results, invalid_blocks, imported, proposed_blocks, duration_ns, is_empty)
};
{
if !imported_blocks.is_empty() && is_empty {
let (enacted, retracted) = self.calculate_enacted_retracted(&import_results);
if is_empty {
self.miner.chain_new_blocks(client, &imported_blocks, &invalid_blocks, &enacted, &retracted, false);
}
client.notify(|notify| {
notify.new_blocks(
imported_blocks.clone(),
invalid_blocks.clone(),
enacted.clone(),
retracted.clone(),
Vec::new(),
proposed_blocks.clone(),
duration,
);
});
}
}
client.db.read().flush().expect("DB flush failed.");
imported
}
fn check_and_close_block(&self, block: PreverifiedBlock, client: &Client) -> Result<LockedBlock, ()> {
let header = block.header.clone();
// Check the block isn't so old we won't be able to enact it.
let best_block_number = client.chain.read().best_block_number();
if client.pruning_info().earliest_state > header.number() {
warn!(target: "client", "Block import failed for #{} ({})\nBlock is ancient (current best block: #{}).", header.number(), header.hash(), best_block_number);
return Err(());
}
// Check if parent is in chain
let parent = match client.block_header_decoded(BlockId::Hash(*header.parent_hash())) {
Some(h) => h,
None => {
warn!(target: "client", "Block import failed for #{} ({}): Parent not found ({}) ", header.number(), header.hash(), header.parent_hash());
return Err(());
}
};
// Verify Block Family
let verify_family_result = self.verifier.verify_block_family(
&parent,
engine,
Some(verification::FullFamilyParams {
block_bytes: &block.bytes,
transactions: &block.transactions,
block_provider: &**chain,
client
}),
);
if let Err(e) = verify_family_result {
warn!(target: "client", "Stage 3 block verification failed for #{} ({})\nError: {:?}", header.number(), header.hash(), e);
return Err(());
let verify_external_result = self.verifier.verify_block_external(&header, engine);
if let Err(e) = verify_external_result {
warn!(target: "client", "Stage 4 block verification failed for #{} ({})\nError: {:?}", header.number(), header.hash(), e);
return Err(());
};
// Enact Verified Block
let last_hashes = client.build_last_hashes(header.parent_hash());
let db = client.state_db.read().boxed_clone_canon(header.parent_hash());
let is_epoch_begin = chain.epoch_transition(parent.number(), *header.parent_hash()).is_some();
let strip_receipts = header.number() < engine.params().validate_receipts_transition;
let enact_result = enact_verified(
block,
engine,
client.tracedb.read().tracing_enabled(),
db,
&parent,
last_hashes,
client.factories.clone(),
is_epoch_begin,
let locked_block = enact_result.map_err(|e| {
warn!(target: "client", "Block import failed for #{} ({})\nError: {:?}", header.number(), header.hash(), e);
})?;
// Final Verification
if let Err(e) = self.verifier.verify_block_final(&header, locked_block.block().header()) {
warn!(target: "client", "Stage 5 block verification failed for #{} ({})\nError: {:?}", header.number(), header.hash(), e);
return Err(());
}
Ok(locked_block)
/// Import a block with transaction receipts.
///
/// The block is guaranteed to be the next best blocks in the
/// first block sequence. Does no sealing or transaction validation.
fn import_old_block(&self, block_bytes: Bytes, receipts_bytes: Bytes, db: &KeyValueDB, chain: &BlockChain) -> Result<H256, ::error::Error> {
let block = BlockView::new(&block_bytes);
let header = block.header();
let receipts = ::rlp::decode_list(&receipts_bytes);
let _import_lock = self.import_lock.lock();
trace_time!("import_old_block");
let mut ancient_verifier = self.ancient_verifier.lock();
{
// closure for verifying a block.
let verify_with = |verifier: &AncientVerifier| -> Result<(), ::error::Error> {
// verify the block, passing the chain for updating the epoch
// verifier.
let mut rng = OsRng::new().map_err(UtilError::from)?;
verifier.verify(&mut rng, &header, &chain)
// initialize the ancient block verifier if we don't have one already.
match &mut *ancient_verifier {
&mut Some(ref verifier) => {
verify_with(verifier)?
}
x @ &mut None => {
// load most recent epoch.
trace!(target: "client", "Initializing ancient block restoration.");
let current_epoch_data = chain.epoch_transitions()
.take_while(|&(_, ref t)| t.block_number < header.number())
.last()
.map(|(_, t)| t.proof)
.expect("At least one epoch entry (genesis) always stored; qed");
let current_verifier = self.engine.epoch_verifier(&header, ¤t_epoch_data)
.known_confirmed()?;
let current_verifier = AncientVerifier::new(self.engine.clone(), current_verifier);
verify_with(¤t_verifier)?;
*x = Some(current_verifier);
}
}
}
let mut batch = DBTransaction::new();
chain.insert_unordered_block(&mut batch, &block_bytes, receipts, None, false, true);
// Final commit to the DB
// NOTE: the header of the block passed here is not necessarily sealed, as
// it is for reconstructing the state transition.
//
// The header passed is from the original block data and is sealed.
fn commit_block<B>(&self, block: B, header: &Header, block_data: &[u8], client: &Client) -> ImportRoute where B: IsBlock + Drain {
let hash = &header.hash();
let number = header.number();
let parent = header.parent_hash();
let receipts = block.receipts().to_owned();
let traces = block.traces().clone().drain();
assert_eq!(header.hash(), BlockView::new(block_data).header_view().hash());
//let traces = From::from(block.traces().clone().unwrap_or_else(Vec::new));
let mut batch = DBTransaction::new();
// CHECK! I *think* this is fine, even if the state_root is equal to another
// already-imported block of the same number.
// TODO: Prove it with a test.
let mut state = block.drain();
// check epoch end signal, potentially generating a proof on the current
// state.
self.check_epoch_end_signal(
&header,
block_data,
&receipts,
&state,
&chain,
&mut batch,
state.journal_under(&mut batch, number, hash).expect("DB commit failed");
let route = chain.insert_block(&mut batch, block_data, receipts.clone());
client.tracedb.read().import(&mut batch, TraceImportRequest {
block_hash: hash.clone(),
block_number: number,
enacted: route.enacted.clone(),
retracted: route.retracted.len()
});
let is_canon = route.enacted.last().map_or(false, |h| h == hash);
state.sync_cache(&route.enacted, &route.retracted, is_canon);
self.check_epoch_end(&header, &chain, client);
client.update_last_hashes(&parent, hash);
if let Err(e) = client.prune_ancient(state, &chain) {
warn!("Failed to prune ancient state data: {}", e);
}
// check for epoch end signal and write pending transition if it occurs.
// state for the given block must be available.
fn check_epoch_end_signal(
&self,
header: &Header,
block_bytes: &[u8],
receipts: &[Receipt],
state_db: &StateDB,
chain: &BlockChain,
batch: &mut DBTransaction,
use engines::EpochChange;
let auxiliary = ::machine::AuxiliaryData {
bytes: Some(block_bytes),
receipts: Some(&receipts),
};
match self.engine.signals_epoch_end(header, auxiliary) {
EpochChange::Yes(proof) => {
use engines::epoch::PendingTransition;
use engines::Proof;
let proof = match proof {
Proof::Known(proof) => proof,
Proof::WithState(with_state) => {
let env_info = EnvInfo {
number: header.number(),
author: header.author().clone(),
timestamp: header.timestamp(),
difficulty: header.difficulty().clone(),
last_hashes: client.build_last_hashes(header.parent_hash()),
gas_used: U256::default(),
gas_limit: u64::max_value().into(),
};
let call = move |addr, data| {
let mut state_db = state_db.boxed_clone();
let backend = ::state::backend::Proving::new(state_db.as_hashdb_mut());
let transaction =
client.contract_call_tx(BlockId::Hash(*header.parent_hash()), addr, data);
let mut state = State::from_existing(
backend,
header.state_root().clone(),
self.engine.account_start_nonce(header.number()),
).expect("state known to be available for just-imported block; qed");
let options = TransactOptions::with_no_tracing().dont_check_nonce();
let res = Executive::new(&mut state, &env_info, self.engine.machine())
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let res = match res {
Err(ExecutionError::Internal(e)) =>
Err(format!("Internal error: {}", e)),
Err(e) => {
trace!(target: "client", "Proved call failed: {}", e);
Ok((Vec::new(), state.drop().1.extract_proof()))
}
Ok(res) => Ok((res.output, state.drop().1.extract_proof())),
};
res.map(|(output, proof)| (output, proof.into_iter().map(|x| x.into_vec()).collect()))
};
match with_state.generate_proof(&call) {
Ok(proof) => proof,
Err(e) => {
warn!(target: "client", "Failed to generate transition proof for block {}: {}", hash, e);
warn!(target: "client", "Snapshots produced by this client may be incomplete");
Vec::new()
}
}
}
};
debug!(target: "client", "Block {} signals epoch end.", hash);
let pending = PendingTransition { proof: proof };
chain.insert_pending_transition(batch, hash, pending);
},
EpochChange::No => {},
EpochChange::Unsure(_) => {
warn!(target: "client", "Detected invalid engine implementation.");
warn!(target: "client", "Engine claims to require more block data, but everything provided.");
}
}
}
// check for ending of epoch and write transition if it occurs.
fn check_epoch_end<'a>(&self, header: &'a Header, chain: &BlockChain, client: &Client) {
let is_epoch_end = self.engine.is_epoch_end(
header,
&(|hash| client.block_header_decoded(BlockId::Hash(hash))),
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&(|hash| chain.get_pending_transition(hash)), // TODO: limit to current epoch.
);
if let Some(proof) = is_epoch_end {
debug!(target: "client", "Epoch transition at block {}", header.hash());
let mut batch = DBTransaction::new();
chain.insert_epoch_transition(&mut batch, header.number(), EpochTransition {
block_hash: header.hash(),
block_number: header.number(),
proof: proof,
});
// always write the batch directly since epoch transition proofs are
// fetched from a DB iterator and DB iterators are only available on
// flushed data.
client.db.read().write(batch).expect("DB flush failed");
}
}
}
impl Client {
/// Create a new client with given parameters.
/// The database is assumed to have been initialized with the correct columns.
pub fn new(
config: ClientConfig,
spec: &Spec,
db: Arc<KeyValueDB>,
miner: Arc<Miner>,
message_channel: IoChannel<ClientIoMessage>,
) -> Result<Arc<Client>, ::error::Error> {
let trie_spec = match config.fat_db {
true => TrieSpec::Fat,
false => TrieSpec::Secure,
};
let trie_factory = TrieFactory::new(trie_spec);
let factories = Factories {
vm: VmFactory::new(config.vm_type.clone(), config.jump_table_size),
trie: trie_factory,
accountdb: Default::default(),
};
let journal_db = journaldb::new(db.clone(), config.pruning, ::db::COL_STATE);
let mut state_db = StateDB::new(journal_db, config.state_cache_size);
if state_db.journal_db().is_empty() {
// Sets the correct state root.
state_db = spec.ensure_db_good(state_db, &factories)?;
let mut batch = DBTransaction::new();
state_db.journal_under(&mut batch, 0, &spec.genesis_header().hash())?;
db.write(batch).map_err(ClientError::Database)?;
}
let gb = spec.genesis_block();
let chain = Arc::new(BlockChain::new(config.blockchain.clone(), &gb, db.clone()));
let tracedb = RwLock::new(TraceDB::new(config.tracing.clone(), db.clone(), chain.clone()));
trace!("Cleanup journal: DB Earliest = {:?}, Latest = {:?}", state_db.journal_db().earliest_era(), state_db.journal_db().latest_era());
let history = if config.history < MIN_HISTORY_SIZE {
info!(target: "client", "Ignoring pruning history parameter of {}\
, falling back to minimum of {}",
config.history, MIN_HISTORY_SIZE);
MIN_HISTORY_SIZE
} else {
config.history
};
if !chain.block_header_data(&chain.best_block_hash()).map_or(true, |h| state_db.journal_db().contains(&h.state_root())) {
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warn!("State root not found for block #{} ({:x})", chain.best_block_number(), chain.best_block_hash());
}
let engine = spec.engine.clone();
let awake = match config.mode { Mode::Dark(..) | Mode::Off => false, _ => true };
let importer = Importer::new(&config, engine.clone(), message_channel.clone(), miner)?;
let registrar_address = engine.additional_params().get("registrar").and_then(|s| Address::from_str(s).ok());
if let Some(ref addr) = registrar_address {
trace!(target: "client", "Found registrar at {}", addr);
}
let client = Arc::new(Client {
enabled: AtomicBool::new(true),
sleep_state: Mutex::new(SleepState::new(awake)),
liveness: AtomicBool::new(awake),
mode: Mutex::new(config.mode.clone()),
chain: RwLock::new(chain),
tracedb: tracedb,
engine: engine,
pruning: config.pruning.clone(),
config: config,
db: RwLock::new(db),
state_db: RwLock::new(state_db),
report: RwLock::new(Default::default()),
io_channel: Mutex::new(message_channel),
notify: RwLock::new(Vec::new()),
queue_transactions: AtomicUsize::new(0),
last_hashes: RwLock::new(VecDeque::new()),
factories: factories,
history: history,
on_user_defaults_change: Mutex::new(None),
registrar: registry::Registry::default(),
registrar_address,
exit_handler: Mutex::new(None),
importer,
});
// prune old states.
{
let state_db = client.state_db.read().boxed_clone();
let chain = client.chain.read();
client.prune_ancient(state_db, &chain)?;
}
// ensure genesis epoch proof in the DB.
{
let chain = client.chain.read();
let gh = spec.genesis_header();
if chain.epoch_transition(0, gh.hash()).is_none() {
trace!(target: "client", "No genesis transition found.");
let proof = client.with_proving_caller(
BlockId::Number(0),
|call| client.engine.genesis_epoch_data(&gh, call)
);
let proof = match proof {
Ok(proof) => proof,
Err(e) => {
warn!(target: "client", "Error generating genesis epoch data: {}. Snapshots generated may not be complete.", e);
Vec::new()
}
};
debug!(target: "client", "Obtained genesis transition proof: {:?}", proof);
let mut batch = DBTransaction::new();
chain.insert_epoch_transition(&mut batch, 0, EpochTransition {
block_hash: gh.hash(),
block_number: 0,
proof: proof,
});
client.db.read().write_buffered(batch);
}
}
// ensure buffered changes are flushed.
client.db.read().flush().map_err(ClientError::Database)?;
Ok(client)
}
/// Wakes up client if it's a sleep.
pub fn keep_alive(&self) {
let should_wake = match *self.mode.lock() {
Mode::Dark(..) | Mode::Passive(..) => true,
_ => false,
};
if should_wake {
self.wake_up();
(*self.sleep_state.lock()).last_activity = Some(Instant::now());
}
}
/// Adds an actor to be notified on certain events
pub fn add_notify(&self, target: Arc<ChainNotify>) {
self.notify.write().push(Arc::downgrade(&target));
}
/// Set a closure to call when the client wants to be restarted.
///
/// The parameter passed to the callback is the name of the new chain spec to use after
/// the restart.
pub fn set_exit_handler<F>(&self, f: F) where F: Fn(String) + 'static + Send {
*self.exit_handler.lock() = Some(Box::new(f));
}
/// Returns engine reference.
pub fn engine(&self) -> &EthEngine {
&*self.engine
}
fn notify<F>(&self, f: F) where F: Fn(&ChainNotify) {
for np in self.notify.read().iter() {
if let Some(n) = np.upgrade() {
f(&*n);
/// Register an action to be done if a mode/spec_name change happens.
pub fn on_user_defaults_change<F>(&self, f: F) where F: 'static + FnMut(Option<Mode>) + Send {
*self.on_user_defaults_change.lock() = Some(Box::new(f));
}
/// Flush the block import queue.
pub fn flush_queue(&self) {
self.importer.block_queue.flush();
while !self.importer.block_queue.queue_info().is_empty() {
self.import_verified_blocks();
}
}
/// The env info as of the best block.
pub fn latest_env_info(&self) -> EnvInfo {
self.env_info(BlockId::Latest).expect("Best block header always stored; qed")
}
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/// The env info as of a given block.
/// returns `None` if the block unknown.
pub fn env_info(&self, id: BlockId) -> Option<EnvInfo> {
self.block_header(id).map(|header| {
EnvInfo {
number: header.number(),
author: header.author(),
timestamp: header.timestamp(),
difficulty: header.difficulty(),
last_hashes: self.build_last_hashes(&header.parent_hash()),
gas_used: U256::default(),
gas_limit: header.gas_limit(),
}
})
}
fn build_last_hashes(&self, parent_hash: &H256) -> Arc<LastHashes> {
{
let hashes = self.last_hashes.read();
if hashes.front().map_or(false, |h| h == parent_hash) {
let mut res = Vec::from(hashes.clone());
res.resize(256, H256::default());
return Arc::new(res);
}
}
let mut last_hashes = LastHashes::new();
last_hashes.resize(256, H256::default());
last_hashes[0] = parent_hash.clone();
let chain = self.chain.read();
for i in 0..255 {
match chain.block_details(&last_hashes[i]) {
Some(details) => {
last_hashes[i + 1] = details.parent.clone();
},
None => break,
}
let mut cached_hashes = self.last_hashes.write();
*cached_hashes = VecDeque::from(last_hashes.clone());
Arc::new(last_hashes)
}
/// This is triggered by a message coming from a block queue when the block is ready for insertion
pub fn import_verified_blocks(&self) -> usize {
self.importer.import_verified_blocks(self)
}
// use a state-proving closure for the given block.
fn with_proving_caller<F, T>(&self, id: BlockId, with_call: F) -> T
where F: FnOnce(&::machine::Call) -> T
{
let call = |a, d| {
let tx = self.contract_call_tx(id, a, d);
let (result, items) = self.prove_transaction(tx, id)
.ok_or_else(|| format!("Unable to make call. State unavailable?"))?;
let items = items.into_iter().map(|x| x.to_vec()).collect();
Ok((result, items))
};
with_call(&call)
}
// prune ancient states until below the memory limit or only the minimum amount remain.
fn prune_ancient(&self, mut state_db: StateDB, chain: &BlockChain) -> Result<(), ClientError> {
let number = match state_db.journal_db().latest_era() {
Some(n) => n,
None => return Ok(()),
};
// prune all ancient eras until we're below the memory target,
// but have at least the minimum number of states.
loop {
let needs_pruning = state_db.journal_db().is_pruned() &&
state_db.journal_db().journal_size() >= self.config.history_mem;
if !needs_pruning { break }
match state_db.journal_db().earliest_era() {
Some(era) if era + self.history <= number => {
trace!(target: "client", "Pruning state for ancient era {}", era);
match chain.block_hash(era) {
Some(ancient_hash) => {
let mut batch = DBTransaction::new();
state_db.mark_canonical(&mut batch, era, &ancient_hash)?;
self.db.read().write_buffered(batch);
state_db.journal_db().flush();
}
None =>
debug!(target: "client", "Missing expected hash for block {}", era),
}
}
_ => break, // means that every era is kept, no pruning necessary.
}
}
Ok(())
}
fn update_last_hashes(&self, parent: &H256, hash: &H256) {
let mut hashes = self.last_hashes.write();
if hashes.front().map_or(false, |h| h == parent) {
if hashes.len() > 255 {
hashes.pop_back();
}
hashes.push_front(hash.clone());
}
}
pub fn import_queued_transactions(&self, transactions: &[Bytes], peer_id: usize) -> usize {
trace_time!("import_queued_transactions");
self.queue_transactions.fetch_sub(transactions.len(), AtomicOrdering::SeqCst);
let txs: Vec<UnverifiedTransaction> = transactions
.iter()
.filter_map(|bytes| UntrustedRlp::new(bytes).as_val().ok())
.collect();
self.notify(|notify| {
notify.transactions_received(&txs, peer_id);
let results = self.importer.miner.import_external_transactions(self, txs);