openethereum/rpc/src/v1/impls/eth.rs
2018-03-14 12:29:52 +01:00

908 lines
30 KiB
Rust

// Copyright 2015-2017 Parity Technologies (UK) Ltd.
// This file is part of Parity.
// Parity is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Parity is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
//! Eth rpc implementation.
use std::thread;
use std::time::{Instant, Duration, SystemTime, UNIX_EPOCH};
use std::sync::Arc;
use rlp::{self, UntrustedRlp};
use ethereum_types::{U256, H64, H160, H256, Address};
use parking_lot::Mutex;
use ethash::SeedHashCompute;
use ethcore::account_provider::{AccountProvider, DappId};
use ethcore::block::IsBlock;
use ethcore::client::{MiningBlockChainClient, BlockId, TransactionId, UncleId, StateOrBlock, StateClient, StateInfo, Call, EngineInfo};
use ethcore::ethereum::Ethash;
use ethcore::filter::Filter as EthcoreFilter;
use ethcore::header::{BlockNumber as EthBlockNumber, Seal};
use ethcore::log_entry::LogEntry;
use ethcore::miner::MinerService;
use ethcore::snapshot::SnapshotService;
use ethcore::encoded;
use ethsync::{SyncProvider};
use miner::external::ExternalMinerService;
use transaction::{SignedTransaction, LocalizedTransaction};
use jsonrpc_core::{BoxFuture, Result};
use jsonrpc_core::futures::future;
use jsonrpc_macros::Trailing;
use v1::helpers::{errors, limit_logs, fake_sign};
use v1::helpers::dispatch::{FullDispatcher, default_gas_price};
use v1::helpers::block_import::is_major_importing;
use v1::helpers::accounts::unwrap_provider;
use v1::traits::Eth;
use v1::types::{
RichBlock, Block, BlockTransactions, BlockNumber, Bytes, SyncStatus, SyncInfo,
Transaction, CallRequest, Index, Filter, Log, Receipt, Work,
H64 as RpcH64, H256 as RpcH256, H160 as RpcH160, U256 as RpcU256, block_number_to_id,
};
use v1::metadata::Metadata;
const EXTRA_INFO_PROOF: &'static str = "Object exists in blockchain (fetched earlier), extra_info is always available if object exists; qed";
/// Eth RPC options
pub struct EthClientOptions {
/// Return nonce from transaction queue when pending block not available.
pub pending_nonce_from_queue: bool,
/// Returns receipt from pending blocks
pub allow_pending_receipt_query: bool,
/// Send additional block number when asking for work
pub send_block_number_in_get_work: bool,
/// Gas Price Percentile used as default gas price.
pub gas_price_percentile: usize,
}
impl EthClientOptions {
/// Creates new default `EthClientOptions` and allows alterations
/// by provided function.
pub fn with<F: Fn(&mut Self)>(fun: F) -> Self {
let mut options = Self::default();
fun(&mut options);
options
}
}
impl Default for EthClientOptions {
fn default() -> Self {
EthClientOptions {
pending_nonce_from_queue: false,
allow_pending_receipt_query: true,
send_block_number_in_get_work: true,
gas_price_percentile: 50,
}
}
}
/// Eth rpc implementation.
pub struct EthClient<C, SN: ?Sized, S: ?Sized, M, EM> where
C: MiningBlockChainClient,
SN: SnapshotService,
S: SyncProvider,
M: MinerService,
EM: ExternalMinerService {
client: Arc<C>,
snapshot: Arc<SN>,
sync: Arc<S>,
accounts: Option<Arc<AccountProvider>>,
miner: Arc<M>,
external_miner: Arc<EM>,
seed_compute: Mutex<SeedHashCompute>,
options: EthClientOptions,
eip86_transition: u64,
}
enum BlockNumberOrId {
Number(BlockNumber),
Id(BlockId),
}
impl From<BlockId> for BlockNumberOrId {
fn from(value: BlockId) -> BlockNumberOrId {
BlockNumberOrId::Id(value)
}
}
impl From<BlockNumber> for BlockNumberOrId {
fn from(value: BlockNumber) -> BlockNumberOrId {
BlockNumberOrId::Number(value)
}
}
enum PendingOrBlock {
Block(BlockId),
Pending,
}
struct PendingUncleId {
id: PendingOrBlock,
position: usize,
}
enum PendingTransactionId {
Hash(H256),
Location(PendingOrBlock, usize)
}
impl<C, SN: ?Sized, S: ?Sized, M, EM, T: StateInfo + 'static> EthClient<C, SN, S, M, EM> where
C: MiningBlockChainClient + StateClient<State=T> + Call<State=T> + EngineInfo,
SN: SnapshotService,
S: SyncProvider,
M: MinerService<State=T>,
EM: ExternalMinerService {
/// Creates new EthClient.
pub fn new(
client: &Arc<C>,
snapshot: &Arc<SN>,
sync: &Arc<S>,
accounts: &Option<Arc<AccountProvider>>,
miner: &Arc<M>,
em: &Arc<EM>,
options: EthClientOptions
) -> Self {
EthClient {
client: client.clone(),
snapshot: snapshot.clone(),
sync: sync.clone(),
miner: miner.clone(),
accounts: accounts.clone(),
external_miner: em.clone(),
seed_compute: Mutex::new(SeedHashCompute::new()),
options: options,
eip86_transition: client.eip86_transition(),
}
}
/// Attempt to get the `Arc<AccountProvider>`, errors if provider was not
/// set.
fn account_provider(&self) -> Result<Arc<AccountProvider>> {
unwrap_provider(&self.accounts)
}
fn rich_block(&self, id: BlockNumberOrId, include_txs: bool) -> Result<Option<RichBlock>> {
let client = &self.client;
let client_query = |id| (client.block(id), client.block_total_difficulty(id), client.block_extra_info(id));
let (block, difficulty, extra) = match id {
BlockNumberOrId::Number(BlockNumber::Pending) => {
let info = self.client.chain_info();
let pending_block = self.miner.pending_block(info.best_block_number);
let difficulty = {
let latest_difficulty = self.client.block_total_difficulty(BlockId::Latest).expect("blocks in chain have details; qed");
let pending_difficulty = self.miner.pending_block_header(info.best_block_number).map(|header| *header.difficulty());
if let Some(difficulty) = pending_difficulty {
difficulty + latest_difficulty
} else {
latest_difficulty
}
};
let extra = pending_block.as_ref().map(|b| self.client.engine().extra_info(&b.header));
(pending_block.map(|b| encoded::Block::new(b.rlp_bytes(Seal::Without))), Some(difficulty), extra)
},
BlockNumberOrId::Number(num) => {
let id = match num {
BlockNumber::Latest => BlockId::Latest,
BlockNumber::Earliest => BlockId::Earliest,
BlockNumber::Num(n) => BlockId::Number(n),
BlockNumber::Pending => unreachable!(), // Already covered
};
client_query(id)
},
BlockNumberOrId::Id(id) => client_query(id),
};
match (block, difficulty) {
(Some(block), Some(total_difficulty)) => {
let view = block.header_view();
Ok(Some(RichBlock {
inner: Block {
hash: Some(view.hash().into()),
size: Some(block.rlp().as_raw().len().into()),
parent_hash: view.parent_hash().into(),
uncles_hash: view.uncles_hash().into(),
author: view.author().into(),
miner: view.author().into(),
state_root: view.state_root().into(),
transactions_root: view.transactions_root().into(),
receipts_root: view.receipts_root().into(),
number: Some(view.number().into()),
gas_used: view.gas_used().into(),
gas_limit: view.gas_limit().into(),
logs_bloom: view.log_bloom().into(),
timestamp: view.timestamp().into(),
difficulty: view.difficulty().into(),
total_difficulty: Some(total_difficulty.into()),
seal_fields: view.seal().into_iter().map(Into::into).collect(),
uncles: block.uncle_hashes().into_iter().map(Into::into).collect(),
transactions: match include_txs {
true => BlockTransactions::Full(block.view().localized_transactions().into_iter().map(|t| Transaction::from_localized(t, self.eip86_transition)).collect()),
false => BlockTransactions::Hashes(block.transaction_hashes().into_iter().map(Into::into).collect()),
},
extra_data: Bytes::new(view.extra_data()),
},
extra_info: extra.expect(EXTRA_INFO_PROOF),
}))
},
_ => Ok(None)
}
}
fn transaction(&self, id: PendingTransactionId) -> Result<Option<Transaction>> {
let client_transaction = |id| match self.client.transaction(id) {
Some(t) => Ok(Some(Transaction::from_localized(t, self.eip86_transition))),
None => Ok(None),
};
match id {
PendingTransactionId::Hash(hash) => client_transaction(TransactionId::Hash(hash)),
PendingTransactionId::Location(PendingOrBlock::Block(block), index) => {
client_transaction(TransactionId::Location(block, index))
},
PendingTransactionId::Location(PendingOrBlock::Pending, index) => {
let info = self.client.chain_info();
let pending_block = match self.miner.pending_block(info.best_block_number) {
Some(block) => block,
None => return Ok(None),
};
// Implementation stolen from `extract_transaction_at_index`
let transaction = pending_block.transactions.get(index)
// Verify if transaction signature is correct.
.and_then(|tx| SignedTransaction::new(tx.clone()).ok())
.map(|signed_tx| {
let (signed, sender, _) = signed_tx.deconstruct();
let block_hash = pending_block.header.hash();
let block_number = pending_block.header.number();
let transaction_index = index;
let cached_sender = Some(sender);
LocalizedTransaction {
signed,
block_number,
block_hash,
transaction_index,
cached_sender,
}
})
.map(|tx| Transaction::from_localized(tx, self.eip86_transition));
Ok(transaction)
}
}
}
fn uncle(&self, id: PendingUncleId) -> Result<Option<RichBlock>> {
let client = &self.client;
let (uncle, parent_difficulty, extra) = match id {
PendingUncleId { id: PendingOrBlock::Pending, position } => {
let info = self.client.chain_info();
let pending_block = match self.miner.pending_block(info.best_block_number) {
Some(block) => block,
None => return Ok(None),
};
let uncle = match pending_block.uncles.get(position) {
Some(uncle) => uncle.clone(),
None => return Ok(None),
};
let difficulty = {
let latest_difficulty = self.client.block_total_difficulty(BlockId::Latest).expect("blocks in chain have details; qed");
let pending_difficulty = self.miner.pending_block_header(info.best_block_number).map(|header| *header.difficulty());
if let Some(difficulty) = pending_difficulty {
difficulty + latest_difficulty
} else {
latest_difficulty
}
};
let extra = self.client.engine().extra_info(&pending_block.header);
(uncle, difficulty, extra)
},
PendingUncleId { id: PendingOrBlock::Block(block_id), position } => {
let uncle_id = UncleId { block: block_id, position };
let uncle = match client.uncle(uncle_id) {
Some(hdr) => hdr.decode(),
None => { return Ok(None); }
};
let parent_difficulty = match client.block_total_difficulty(BlockId::Hash(uncle.parent_hash().clone())) {
Some(difficulty) => difficulty,
None => { return Ok(None); }
};
let extra = client.uncle_extra_info(uncle_id).expect(EXTRA_INFO_PROOF);
(uncle, parent_difficulty, extra)
}
};
let size = client.block(BlockId::Hash(uncle.hash()))
.map(|block| block.into_inner().len())
.map(U256::from)
.map(Into::into);
let block = RichBlock {
inner: Block {
hash: Some(uncle.hash().into()),
size: size,
parent_hash: uncle.parent_hash().clone().into(),
uncles_hash: uncle.uncles_hash().clone().into(),
author: uncle.author().clone().into(),
miner: uncle.author().clone().into(),
state_root: uncle.state_root().clone().into(),
transactions_root: uncle.transactions_root().clone().into(),
number: Some(uncle.number().into()),
gas_used: uncle.gas_used().clone().into(),
gas_limit: uncle.gas_limit().clone().into(),
logs_bloom: uncle.log_bloom().clone().into(),
timestamp: uncle.timestamp().into(),
difficulty: uncle.difficulty().clone().into(),
total_difficulty: Some((uncle.difficulty().clone() + parent_difficulty).into()),
receipts_root: uncle.receipts_root().clone().into(),
extra_data: uncle.extra_data().clone().into(),
seal_fields: uncle.seal().into_iter().cloned().map(Into::into).collect(),
uncles: vec![],
transactions: BlockTransactions::Hashes(vec![]),
},
extra_info: extra,
};
Ok(Some(block))
}
fn dapp_accounts(&self, dapp: DappId) -> Result<Vec<H160>> {
let store = self.account_provider()?;
store
.note_dapp_used(dapp.clone())
.and_then(|_| store.dapp_addresses(dapp))
.map_err(|e| errors::account("Could not fetch accounts.", e))
}
fn get_state(&self, number: BlockNumber) -> StateOrBlock {
match number {
BlockNumber::Num(num) => BlockId::Number(num).into(),
BlockNumber::Earliest => BlockId::Earliest.into(),
BlockNumber::Latest => BlockId::Latest.into(),
BlockNumber::Pending => {
let info = self.client.chain_info();
self.miner
.pending_state(info.best_block_number)
.map(|s| Box::new(s) as Box<StateInfo>)
.unwrap_or(Box::new(self.client.latest_state()) as Box<StateInfo>)
.into()
}
}
}
}
pub fn pending_logs<M>(miner: &M, best_block: EthBlockNumber, filter: &EthcoreFilter) -> Vec<Log> where M: MinerService {
let receipts = miner.pending_receipts(best_block);
let pending_logs = receipts.into_iter()
.flat_map(|(hash, r)| r.logs.into_iter().map(|l| (hash.clone(), l)).collect::<Vec<(H256, LogEntry)>>())
.collect::<Vec<(H256, LogEntry)>>();
let result = pending_logs.into_iter()
.filter(|pair| filter.matches(&pair.1))
.map(|pair| {
let mut log = Log::from(pair.1);
log.transaction_hash = Some(pair.0.into());
log
})
.collect();
result
}
fn check_known<C>(client: &C, number: BlockNumber) -> Result<()> where C: MiningBlockChainClient {
use ethcore::block_status::BlockStatus;
let id = match number {
BlockNumber::Pending => return Ok(()),
BlockNumber::Num(n) => BlockId::Number(n),
BlockNumber::Latest => BlockId::Latest,
BlockNumber::Earliest => BlockId::Earliest,
};
match client.block_status(id) {
BlockStatus::InChain => Ok(()),
_ => Err(errors::unknown_block()),
}
}
const MAX_QUEUE_SIZE_TO_MINE_ON: usize = 4; // because uncles go back 6.
impl<C, SN: ?Sized, S: ?Sized, M, EM, T: StateInfo + 'static> Eth for EthClient<C, SN, S, M, EM> where
C: MiningBlockChainClient + StateClient<State=T> + Call<State=T> + EngineInfo + 'static,
SN: SnapshotService + 'static,
S: SyncProvider + 'static,
M: MinerService<State=T> + 'static,
EM: ExternalMinerService + 'static,
{
type Metadata = Metadata;
fn protocol_version(&self) -> Result<String> {
let version = self.sync.status().protocol_version.to_owned();
Ok(format!("{}", version))
}
fn syncing(&self) -> Result<SyncStatus> {
use ethcore::snapshot::RestorationStatus;
let status = self.sync.status();
let client = &self.client;
let snapshot_status = self.snapshot.status();
let (warping, warp_chunks_amount, warp_chunks_processed) = match snapshot_status {
RestorationStatus::Ongoing { state_chunks, block_chunks, state_chunks_done, block_chunks_done } =>
(true, Some(block_chunks + state_chunks), Some(block_chunks_done + state_chunks_done)),
_ => (false, None, None),
};
if warping || is_major_importing(Some(status.state), client.queue_info()) {
let chain_info = client.chain_info();
let current_block = U256::from(chain_info.best_block_number);
let highest_block = U256::from(status.highest_block_number.unwrap_or(status.start_block_number));
let info = SyncInfo {
starting_block: status.start_block_number.into(),
current_block: current_block.into(),
highest_block: highest_block.into(),
warp_chunks_amount: warp_chunks_amount.map(|x| U256::from(x as u64)).map(Into::into),
warp_chunks_processed: warp_chunks_processed.map(|x| U256::from(x as u64)).map(Into::into),
};
Ok(SyncStatus::Info(info))
} else {
Ok(SyncStatus::None)
}
}
fn author(&self, meta: Metadata) -> Result<RpcH160> {
let dapp = meta.dapp_id();
let mut miner = self.miner.author();
if miner == 0.into() {
miner = self.dapp_accounts(dapp.into())?.get(0).cloned().unwrap_or_default();
}
Ok(RpcH160::from(miner))
}
fn is_mining(&self) -> Result<bool> {
Ok(self.miner.is_currently_sealing())
}
fn hashrate(&self) -> Result<RpcU256> {
Ok(RpcU256::from(self.external_miner.hashrate()))
}
fn gas_price(&self) -> Result<RpcU256> {
Ok(RpcU256::from(default_gas_price(&*self.client, &*self.miner, self.options.gas_price_percentile)))
}
fn accounts(&self, meta: Metadata) -> Result<Vec<RpcH160>> {
let dapp = meta.dapp_id();
let accounts = self.dapp_accounts(dapp.into())?;
Ok(accounts.into_iter().map(Into::into).collect())
}
fn block_number(&self) -> Result<RpcU256> {
Ok(RpcU256::from(self.client.chain_info().best_block_number))
}
fn balance(&self, address: RpcH160, num: Trailing<BlockNumber>) -> BoxFuture<RpcU256> {
let address = address.into();
let num = num.unwrap_or_default();
try_bf!(check_known(&*self.client, num.clone()));
let res = match self.client.balance(&address, self.get_state(num)) {
Some(balance) => Ok(balance.into()),
None => Err(errors::state_pruned()),
};
Box::new(future::done(res))
}
fn storage_at(&self, address: RpcH160, pos: RpcU256, num: Trailing<BlockNumber>) -> BoxFuture<RpcH256> {
let address: Address = RpcH160::into(address);
let position: U256 = RpcU256::into(pos);
let num = num.unwrap_or_default();
try_bf!(check_known(&*self.client, num.clone()));
let res = match self.client.storage_at(&address, &H256::from(position), self.get_state(num)) {
Some(s) => Ok(s.into()),
None => Err(errors::state_pruned()),
};
Box::new(future::done(res))
}
fn transaction_count(&self, address: RpcH160, num: Trailing<BlockNumber>) -> BoxFuture<RpcU256> {
let address: Address = RpcH160::into(address);
let res = match num.unwrap_or_default() {
BlockNumber::Pending if self.options.pending_nonce_from_queue => {
let nonce = self.miner.last_nonce(&address)
.map(|n| n + 1.into())
.or_else(|| self.client.nonce(&address, BlockId::Latest));
match nonce {
Some(nonce) => Ok(nonce.into()),
None => Err(errors::database("latest nonce missing"))
}
},
BlockNumber::Pending => {
let info = self.client.chain_info();
let nonce = self.miner
.pending_state(info.best_block_number)
.and_then(|s| s.nonce(&address).ok())
.or_else(|| {
warn!("Fallback to `BlockId::Latest`");
self.client.nonce(&address, BlockId::Latest)
});
match nonce {
Some(nonce) => Ok(nonce.into()),
None => Err(errors::database("latest nonce missing"))
}
},
number => {
try_bf!(check_known(&*self.client, number.clone()));
match self.client.nonce(&address, block_number_to_id(number)) {
Some(nonce) => Ok(nonce.into()),
None => Err(errors::state_pruned()),
}
}
};
Box::new(future::done(res))
}
fn block_transaction_count_by_hash(&self, hash: RpcH256) -> BoxFuture<Option<RpcU256>> {
Box::new(future::ok(self.client.block(BlockId::Hash(hash.into()))
.map(|block| block.transactions_count().into())))
}
fn block_transaction_count_by_number(&self, num: BlockNumber) -> BoxFuture<Option<RpcU256>> {
Box::new(future::ok(match num {
BlockNumber::Pending => Some(
self.miner.status().transactions_in_pending_block.into()
),
_ =>
self.client.block(block_number_to_id(num))
.map(|block| block.transactions_count().into())
}))
}
fn block_uncles_count_by_hash(&self, hash: RpcH256) -> BoxFuture<Option<RpcU256>> {
Box::new(future::ok(self.client.block(BlockId::Hash(hash.into()))
.map(|block| block.uncles_count().into())))
}
fn block_uncles_count_by_number(&self, num: BlockNumber) -> BoxFuture<Option<RpcU256>> {
Box::new(future::ok(match num {
BlockNumber::Pending => Some(0.into()),
_ => self.client.block(block_number_to_id(num))
.map(|block| block.uncles_count().into()
),
}))
}
fn code_at(&self, address: RpcH160, num: Trailing<BlockNumber>) -> BoxFuture<Bytes> {
let address: Address = RpcH160::into(address);
let num = num.unwrap_or_default();
try_bf!(check_known(&*self.client, num.clone()));
let res = match self.client.code(&address, self.get_state(num)) {
Some(code) => Ok(code.map_or_else(Bytes::default, Bytes::new)),
None => Err(errors::state_pruned()),
};
Box::new(future::done(res))
}
fn block_by_hash(&self, hash: RpcH256, include_txs: bool) -> BoxFuture<Option<RichBlock>> {
Box::new(future::done(self.rich_block(BlockId::Hash(hash.into()).into(), include_txs)))
}
fn block_by_number(&self, num: BlockNumber, include_txs: bool) -> BoxFuture<Option<RichBlock>> {
Box::new(future::done(self.rich_block(num.into(), include_txs)))
}
fn transaction_by_hash(&self, hash: RpcH256) -> BoxFuture<Option<Transaction>> {
let hash: H256 = hash.into();
let block_number = self.client.chain_info().best_block_number;
let tx = try_bf!(self.transaction(PendingTransactionId::Hash(hash))).or_else(|| {
self.miner.transaction(block_number, &hash)
.map(|t| Transaction::from_pending(t, block_number, self.eip86_transition))
});
Box::new(future::ok(tx))
}
fn transaction_by_block_hash_and_index(&self, hash: RpcH256, index: Index) -> BoxFuture<Option<Transaction>> {
let id = PendingTransactionId::Location(PendingOrBlock::Block(BlockId::Hash(hash.into())), index.value());
Box::new(future::done(self.transaction(id)))
}
fn transaction_by_block_number_and_index(&self, num: BlockNumber, index: Index) -> BoxFuture<Option<Transaction>> {
let block_id = match num {
BlockNumber::Latest => PendingOrBlock::Block(BlockId::Latest),
BlockNumber::Earliest => PendingOrBlock::Block(BlockId::Earliest),
BlockNumber::Num(num) => PendingOrBlock::Block(BlockId::Number(num)),
BlockNumber::Pending => PendingOrBlock::Pending,
};
let transaction_id = PendingTransactionId::Location(block_id, index.value());
Box::new(future::done(self.transaction(transaction_id)))
}
fn transaction_receipt(&self, hash: RpcH256) -> BoxFuture<Option<Receipt>> {
let best_block = self.client.chain_info().best_block_number;
let hash: H256 = hash.into();
match (self.miner.pending_receipt(best_block, &hash), self.options.allow_pending_receipt_query) {
(Some(receipt), true) => Box::new(future::ok(Some(receipt.into()))),
_ => {
let receipt = self.client.transaction_receipt(TransactionId::Hash(hash));
Box::new(future::ok(receipt.map(Into::into)))
}
}
}
fn uncle_by_block_hash_and_index(&self, hash: RpcH256, index: Index) -> BoxFuture<Option<RichBlock>> {
Box::new(future::done(self.uncle(PendingUncleId {
id: PendingOrBlock::Block(BlockId::Hash(hash.into())),
position: index.value()
})))
}
fn uncle_by_block_number_and_index(&self, num: BlockNumber, index: Index) -> BoxFuture<Option<RichBlock>> {
let id = match num {
BlockNumber::Latest => PendingUncleId { id: PendingOrBlock::Block(BlockId::Latest), position: index.value() },
BlockNumber::Earliest => PendingUncleId { id: PendingOrBlock::Block(BlockId::Earliest), position: index.value() },
BlockNumber::Num(num) => PendingUncleId { id: PendingOrBlock::Block(BlockId::Number(num)), position: index.value() },
BlockNumber::Pending => PendingUncleId { id: PendingOrBlock::Pending, position: index.value() },
};
Box::new(future::done(self.uncle(id)))
}
fn compilers(&self) -> Result<Vec<String>> {
Err(errors::deprecated("Compilation functionality is deprecated.".to_string()))
}
fn logs(&self, filter: Filter) -> BoxFuture<Vec<Log>> {
let include_pending = filter.to_block == Some(BlockNumber::Pending);
let filter: EthcoreFilter = filter.into();
let mut logs = self.client.logs(filter.clone())
.into_iter()
.map(From::from)
.collect::<Vec<Log>>();
if include_pending {
let best_block = self.client.chain_info().best_block_number;
let pending = pending_logs(&*self.miner, best_block, &filter);
logs.extend(pending);
}
let logs = limit_logs(logs, filter.limit);
Box::new(future::ok(logs))
}
fn work(&self, no_new_work_timeout: Trailing<u64>) -> Result<Work> {
if !self.miner.can_produce_work_package() {
warn!(target: "miner", "Cannot give work package - engine seals internally.");
return Err(errors::no_work_required())
}
let no_new_work_timeout = no_new_work_timeout.unwrap_or_default();
// check if we're still syncing and return empty strings in that case
{
//TODO: check if initial sync is complete here
//let sync = self.sync;
if /*sync.status().state != SyncState::Idle ||*/ self.client.queue_info().total_queue_size() > MAX_QUEUE_SIZE_TO_MINE_ON {
trace!(target: "miner", "Syncing. Cannot give any work.");
return Err(errors::no_work());
}
// Otherwise spin until our submitted block has been included.
let timeout = Instant::now() + Duration::from_millis(1000);
while Instant::now() < timeout && self.client.queue_info().total_queue_size() > 0 {
thread::sleep(Duration::from_millis(1));
}
}
if self.miner.author().is_zero() {
warn!(target: "miner", "Cannot give work package - no author is configured. Use --author to configure!");
return Err(errors::no_author())
}
self.miner.map_sealing_work(&*self.client, |b| {
let pow_hash = b.hash();
let target = Ethash::difficulty_to_boundary(b.block().header().difficulty());
let seed_hash = self.seed_compute.lock().hash_block_number(b.block().header().number());
let now = SystemTime::now().duration_since(UNIX_EPOCH).unwrap_or_default().as_secs();
if no_new_work_timeout > 0 && b.block().header().timestamp() + no_new_work_timeout < now {
Err(errors::no_new_work())
} else if self.options.send_block_number_in_get_work {
let block_number = b.block().header().number();
Ok(Work {
pow_hash: pow_hash.into(),
seed_hash: seed_hash.into(),
target: target.into(),
number: Some(block_number),
})
} else {
Ok(Work {
pow_hash: pow_hash.into(),
seed_hash: seed_hash.into(),
target: target.into(),
number: None
})
}
}).unwrap_or(Err(errors::internal("No work found.", "")))
}
fn submit_work(&self, nonce: RpcH64, pow_hash: RpcH256, mix_hash: RpcH256) -> Result<bool> {
if !self.miner.can_produce_work_package() {
warn!(target: "miner", "Cannot submit work - engine seals internally.");
return Err(errors::no_work_required())
}
let nonce: H64 = nonce.into();
let pow_hash: H256 = pow_hash.into();
let mix_hash: H256 = mix_hash.into();
trace!(target: "miner", "submit_work: Decoded: nonce={}, pow_hash={}, mix_hash={}", nonce, pow_hash, mix_hash);
let seal = vec![rlp::encode(&mix_hash).into_vec(), rlp::encode(&nonce).into_vec()];
Ok(self.miner.submit_seal(&*self.client, pow_hash, seal).is_ok())
}
fn submit_hashrate(&self, rate: RpcU256, id: RpcH256) -> Result<bool> {
self.external_miner.submit_hashrate(rate.into(), id.into());
Ok(true)
}
fn send_raw_transaction(&self, raw: Bytes) -> Result<RpcH256> {
UntrustedRlp::new(&raw.into_vec()).as_val()
.map_err(errors::rlp)
.and_then(|tx| SignedTransaction::new(tx).map_err(errors::transaction))
.and_then(|signed_transaction| {
FullDispatcher::dispatch_transaction(
&*self.client,
&*self.miner,
signed_transaction.into(),
)
})
.map(Into::into)
}
fn submit_transaction(&self, raw: Bytes) -> Result<RpcH256> {
self.send_raw_transaction(raw)
}
fn call(&self, meta: Self::Metadata, request: CallRequest, num: Trailing<BlockNumber>) -> BoxFuture<Bytes> {
let request = CallRequest::into(request);
let signed = try_bf!(fake_sign::sign_call(request, meta.is_dapp()));
let num = num.unwrap_or_default();
let (mut state, header) = if num == BlockNumber::Pending {
let info = self.client.chain_info();
let state = try_bf!(self.miner.pending_state(info.best_block_number).ok_or(errors::state_pruned()));
let header = try_bf!(self.miner.pending_block_header(info.best_block_number).ok_or(errors::state_pruned()));
(state, header)
} else {
let id = match num {
BlockNumber::Num(num) => BlockId::Number(num),
BlockNumber::Earliest => BlockId::Earliest,
BlockNumber::Latest => BlockId::Latest,
BlockNumber::Pending => unreachable!(), // Already covered
};
let state = try_bf!(self.client.state_at(id).ok_or(errors::state_pruned()));
let header = try_bf!(self.client.block_header(id).ok_or(errors::state_pruned()));
(state, header.decode())
};
let result = self.client.call(&signed, Default::default(), &mut state, &header);
Box::new(future::done(result
.map(|b| b.output.into())
.map_err(errors::call)
))
}
fn estimate_gas(&self, meta: Self::Metadata, request: CallRequest, num: Trailing<BlockNumber>) -> BoxFuture<RpcU256> {
let request = CallRequest::into(request);
let signed = try_bf!(fake_sign::sign_call(request, meta.is_dapp()));
let num = num.unwrap_or_default();
let (state, header) = if num == BlockNumber::Pending {
let info = self.client.chain_info();
let state = try_bf!(self.miner.pending_state(info.best_block_number).ok_or(errors::state_pruned()));
let header = try_bf!(self.miner.pending_block_header(info.best_block_number).ok_or(errors::state_pruned()));
(state, header)
} else {
let id = match num {
BlockNumber::Num(num) => BlockId::Number(num),
BlockNumber::Earliest => BlockId::Earliest,
BlockNumber::Latest => BlockId::Latest,
BlockNumber::Pending => unreachable!(), // Already covered
};
let state = try_bf!(self.client.state_at(id).ok_or(errors::state_pruned()));
let header = try_bf!(self.client.block_header(id).ok_or(errors::state_pruned()));
(state, header.decode())
};
Box::new(future::done(self.client.estimate_gas(&signed, &state, &header)
.map(Into::into)
.map_err(errors::call)
))
}
fn compile_lll(&self, _: String) -> Result<Bytes> {
Err(errors::deprecated("Compilation of LLL via RPC is deprecated".to_string()))
}
fn compile_serpent(&self, _: String) -> Result<Bytes> {
Err(errors::deprecated("Compilation of Serpent via RPC is deprecated".to_string()))
}
fn compile_solidity(&self, _: String) -> Result<Bytes> {
Err(errors::deprecated("Compilation of Solidity via RPC is deprecated".to_string()))
}
}