openethereum/rpc/src/v1/impls/light/eth.rs
Tomasz Drwięga e8b418ca03 Update jsonrpc dependencies and rewrite dapps to futures. (#6522)
* Bump version.

* Fix RPC crate.

* Fix BoxFuture in crates.

* Compiles and passes tests!

* Get rid of .boxed()

* Fixing issues with the UI.

* Remove minihttp. Support threads.

* Reimplement files serving to do it in chunks.

* Increase chunk size.

* Remove some unecessary copying.

* Fix tests.

* Fix stratum warning and ipfs todo.

* Switch to proper branch of jsonrpc.

* Update Cargo.lock.

* Update docs.

* Include dapps-glue in workspace.

* fixed merge artifacts

* Fix test compilation.
2017-10-05 12:35:01 +02:00

481 lines
17 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 interface for the light client.
use std::sync::Arc;
use jsonrpc_core::{BoxFuture, Error};
use jsonrpc_core::futures::{future, Future};
use jsonrpc_core::futures::future::Either;
use jsonrpc_macros::Trailing;
use light::cache::Cache as LightDataCache;
use light::client::LightChainClient;
use light::{cht, TransactionQueue};
use light::on_demand::{request, OnDemand};
use ethcore::account_provider::{AccountProvider, DappId};
use ethcore::encoded;
use ethcore::ids::BlockId;
use ethcore::filter::Filter as EthcoreFilter;
use ethcore::transaction::SignedTransaction;
use ethsync::LightSync;
use rlp::UntrustedRlp;
use hash::{KECCAK_NULL_RLP, KECCAK_EMPTY_LIST_RLP};
use bigint::prelude::U256;
use parking_lot::{RwLock, Mutex};
use v1::impls::eth_filter::Filterable;
use v1::helpers::{errors, limit_logs};
use v1::helpers::{PollFilter, PollManager};
use v1::helpers::light_fetch::LightFetch;
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,
};
use v1::metadata::Metadata;
const NO_INVALID_BACK_REFS: &'static str = "Fails only on invalid back-references; back-references here known to be valid; qed";
/// Light client `ETH` (and filter) RPC.
pub struct EthClient<T> {
sync: Arc<LightSync>,
client: Arc<T>,
on_demand: Arc<OnDemand>,
transaction_queue: Arc<RwLock<TransactionQueue>>,
accounts: Arc<AccountProvider>,
cache: Arc<Mutex<LightDataCache>>,
polls: Mutex<PollManager<PollFilter>>,
}
impl<T> Clone for EthClient<T> {
fn clone(&self) -> Self {
// each instance should have its own poll manager.
EthClient {
sync: self.sync.clone(),
client: self.client.clone(),
on_demand: self.on_demand.clone(),
transaction_queue: self.transaction_queue.clone(),
accounts: self.accounts.clone(),
cache: self.cache.clone(),
polls: Mutex::new(PollManager::new()),
}
}
}
impl<T: LightChainClient + 'static> EthClient<T> {
/// Create a new `EthClient` with a handle to the light sync instance, client,
/// and on-demand request service, which is assumed to be attached as a handler.
pub fn new(
sync: Arc<LightSync>,
client: Arc<T>,
on_demand: Arc<OnDemand>,
transaction_queue: Arc<RwLock<TransactionQueue>>,
accounts: Arc<AccountProvider>,
cache: Arc<Mutex<LightDataCache>>,
) -> Self {
EthClient {
sync: sync,
client: client,
on_demand: on_demand,
transaction_queue: transaction_queue,
accounts: accounts,
cache: cache,
polls: Mutex::new(PollManager::new()),
}
}
/// Create a light data fetcher instance.
fn fetcher(&self) -> LightFetch {
LightFetch {
client: self.client.clone(),
on_demand: self.on_demand.clone(),
sync: self.sync.clone(),
cache: self.cache.clone(),
}
}
// get a "rich" block structure. Fails on unknown block.
fn rich_block(&self, id: BlockId, include_txs: bool) -> BoxFuture<RichBlock, Error> {
let (on_demand, sync) = (self.on_demand.clone(), self.sync.clone());
let (client, engine) = (self.client.clone(), self.client.engine().clone());
let eip86_transition = self.client.eip86_transition();
// helper for filling out a rich block once we've got a block and a score.
let fill_rich = move |block: encoded::Block, score: Option<U256>| {
let header = block.decode_header();
let extra_info = engine.extra_info(&header);
RichBlock {
inner: Block {
hash: Some(header.hash().into()),
size: Some(block.rlp().as_raw().len().into()),
parent_hash: header.parent_hash().clone().into(),
uncles_hash: header.uncles_hash().clone().into(),
author: header.author().clone().into(),
miner: header.author().clone().into(),
state_root: header.state_root().clone().into(),
transactions_root: header.transactions_root().clone().into(),
receipts_root: header.receipts_root().clone().into(),
number: Some(header.number().into()),
gas_used: header.gas_used().clone().into(),
gas_limit: header.gas_limit().clone().into(),
logs_bloom: header.log_bloom().clone().into(),
timestamp: header.timestamp().into(),
difficulty: header.difficulty().clone().into(),
total_difficulty: score.map(Into::into),
seal_fields: header.seal().into_iter().cloned().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, eip86_transition)).collect()),
_ => BlockTransactions::Hashes(block.transaction_hashes().into_iter().map(Into::into).collect()),
},
extra_data: Bytes::new(header.extra_data().clone()),
},
extra_info: extra_info
}
};
// get the block itself.
Box::new(self.fetcher().block(id).and_then(move |block| {
// then fetch the total difficulty (this is much easier after getting the block).
match client.score(id) {
Some(score) => Either::A(future::ok(fill_rich(block, Some(score)))),
None => {
// make a CHT request to fetch the chain score.
let req = cht::block_to_cht_number(block.number())
.and_then(|num| client.cht_root(num as usize))
.and_then(|root| request::HeaderProof::new(block.number(), root));
let req = match req {
Some(req) => req,
None => {
// somehow the genesis block slipped past other checks.
// return it now.
let score = client.block_header(BlockId::Number(0))
.expect("genesis always stored; qed")
.difficulty();
return Either::A(future::ok(fill_rich(block, Some(score))))
}
};
// three possible outcomes:
// - network is down.
// - we get a score, but our hash is non-canonical.
// - we get a score, and our hash is canonical.
let maybe_fut = sync.with_context(move |ctx| on_demand.request(ctx, req).expect(NO_INVALID_BACK_REFS));
match maybe_fut {
Some(fut) => Either::B(fut
.map(move |(hash, score)| {
let score = if hash == block.hash() {
Some(score)
} else {
None
};
fill_rich(block, score)
}).map_err(errors::on_demand_cancel)),
None => Either::A(future::err(errors::network_disabled())),
}
}
}
}))
}
}
impl<T: LightChainClient + 'static> Eth for EthClient<T> {
type Metadata = Metadata;
fn protocol_version(&self) -> Result<String, Error> {
Ok(format!("{}", ::light::net::MAX_PROTOCOL_VERSION))
}
fn syncing(&self) -> Result<SyncStatus, Error> {
if self.sync.is_major_importing() {
let chain_info = self.client.chain_info();
let current_block = U256::from(chain_info.best_block_number);
let highest_block = self.sync.highest_block().map(U256::from)
.unwrap_or_else(|| current_block.clone());
Ok(SyncStatus::Info(SyncInfo {
starting_block: U256::from(self.sync.start_block()).into(),
current_block: current_block.into(),
highest_block: highest_block.into(),
warp_chunks_amount: None,
warp_chunks_processed: None,
}))
} else {
Ok(SyncStatus::None)
}
}
fn author(&self, _meta: Self::Metadata) -> Result<RpcH160, Error> {
Ok(Default::default())
}
fn is_mining(&self) -> Result<bool, Error> {
Ok(false)
}
fn hashrate(&self) -> Result<RpcU256, Error> {
Ok(Default::default())
}
fn gas_price(&self) -> Result<RpcU256, Error> {
Ok(self.cache.lock().gas_price_corpus()
.and_then(|c| c.median().cloned())
.map(RpcU256::from)
.unwrap_or_else(Default::default))
}
fn accounts(&self, meta: Metadata) -> Result<Vec<RpcH160>, Error> {
let dapp: DappId = meta.dapp_id().into();
self.accounts
.note_dapp_used(dapp.clone())
.and_then(|_| self.accounts.dapp_addresses(dapp))
.map_err(|e| errors::account("Could not fetch accounts.", e))
.map(|accs| accs.into_iter().map(Into::<RpcH160>::into).collect())
}
fn block_number(&self) -> Result<RpcU256, Error> {
Ok(self.client.chain_info().best_block_number.into())
}
fn balance(&self, address: RpcH160, num: Trailing<BlockNumber>) -> BoxFuture<RpcU256, Error> {
Box::new(self.fetcher().account(address.into(), num.unwrap_or_default().into())
.map(|acc| acc.map_or(0.into(), |a| a.balance).into()))
}
fn storage_at(&self, _address: RpcH160, _key: RpcU256, _num: Trailing<BlockNumber>) -> BoxFuture<RpcH256, Error> {
Box::new(future::err(errors::unimplemented(None)))
}
fn block_by_hash(&self, hash: RpcH256, include_txs: bool) -> BoxFuture<Option<RichBlock>, Error> {
Box::new(self.rich_block(BlockId::Hash(hash.into()), include_txs).map(Some))
}
fn block_by_number(&self, num: BlockNumber, include_txs: bool) -> BoxFuture<Option<RichBlock>, Error> {
Box::new(self.rich_block(num.into(), include_txs).map(Some))
}
fn transaction_count(&self, address: RpcH160, num: Trailing<BlockNumber>) -> BoxFuture<RpcU256, Error> {
Box::new(self.fetcher().account(address.into(), num.unwrap_or_default().into())
.map(|acc| acc.map_or(0.into(), |a| a.nonce).into()))
}
fn block_transaction_count_by_hash(&self, hash: RpcH256) -> BoxFuture<Option<RpcU256>, Error> {
let (sync, on_demand) = (self.sync.clone(), self.on_demand.clone());
Box::new(self.fetcher().header(BlockId::Hash(hash.into())).and_then(move |hdr| {
if hdr.transactions_root() == KECCAK_NULL_RLP {
Either::A(future::ok(Some(U256::from(0).into())))
} else {
sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.transactions_count()).into())))
.map(|x| Either::B(x.map_err(errors::on_demand_cancel)))
.unwrap_or_else(|| Either::A(future::err(errors::network_disabled())))
}
}))
}
fn block_transaction_count_by_number(&self, num: BlockNumber) -> BoxFuture<Option<RpcU256>, Error> {
let (sync, on_demand) = (self.sync.clone(), self.on_demand.clone());
Box::new(self.fetcher().header(num.into()).and_then(move |hdr| {
if hdr.transactions_root() == KECCAK_NULL_RLP {
Either::A(future::ok(Some(U256::from(0).into())))
} else {
sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.transactions_count()).into())))
.map(|x| Either::B(x.map_err(errors::on_demand_cancel)))
.unwrap_or_else(|| Either::A(future::err(errors::network_disabled())))
}
}))
}
fn block_uncles_count_by_hash(&self, hash: RpcH256) -> BoxFuture<Option<RpcU256>, Error> {
let (sync, on_demand) = (self.sync.clone(), self.on_demand.clone());
Box::new(self.fetcher().header(BlockId::Hash(hash.into())).and_then(move |hdr| {
if hdr.uncles_hash() == KECCAK_EMPTY_LIST_RLP {
Either::A(future::ok(Some(U256::from(0).into())))
} else {
sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.uncles_count()).into())))
.map(|x| Either::B(x.map_err(errors::on_demand_cancel)))
.unwrap_or_else(|| Either::A(future::err(errors::network_disabled())))
}
}))
}
fn block_uncles_count_by_number(&self, num: BlockNumber) -> BoxFuture<Option<RpcU256>, Error> {
let (sync, on_demand) = (self.sync.clone(), self.on_demand.clone());
Box::new(self.fetcher().header(num.into()).and_then(move |hdr| {
if hdr.uncles_hash() == KECCAK_EMPTY_LIST_RLP {
Either::B(future::ok(Some(U256::from(0).into())))
} else {
sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.uncles_count()).into())))
.map(|x| Either::A(x.map_err(errors::on_demand_cancel)))
.unwrap_or_else(|| Either::B(future::err(errors::network_disabled())))
}
}))
}
fn code_at(&self, _address: RpcH160, _num: Trailing<BlockNumber>) -> BoxFuture<Bytes, Error> {
Box::new(future::err(errors::unimplemented(None)))
}
fn send_raw_transaction(&self, raw: Bytes) -> Result<RpcH256, Error> {
let best_header = self.client.best_block_header().decode();
UntrustedRlp::new(&raw.into_vec()).as_val()
.map_err(errors::rlp)
.and_then(|tx| {
self.client.engine().verify_transaction_basic(&tx, &best_header)
.map_err(errors::transaction)?;
let signed = SignedTransaction::new(tx).map_err(errors::transaction)?;
let hash = signed.hash();
self.transaction_queue.write().import(signed.into())
.map(|_| hash)
.map_err(Into::into)
.map_err(errors::transaction)
})
.map(Into::into)
}
fn submit_transaction(&self, raw: Bytes) -> Result<RpcH256, Error> {
self.send_raw_transaction(raw)
}
fn call(&self, _meta: Self::Metadata, req: CallRequest, num: Trailing<BlockNumber>) -> BoxFuture<Bytes, Error> {
Box::new(self.fetcher().proved_execution(req, num).and_then(|res| {
match res {
Ok(exec) => Ok(exec.output.into()),
Err(e) => Err(errors::execution(e)),
}
}))
}
fn estimate_gas(&self, _meta: Self::Metadata, req: CallRequest, num: Trailing<BlockNumber>) -> BoxFuture<RpcU256, Error> {
// TODO: binary chop for more accurate estimates.
Box::new(self.fetcher().proved_execution(req, num).and_then(|res| {
match res {
Ok(exec) => Ok((exec.refunded + exec.gas_used).into()),
Err(e) => Err(errors::execution(e)),
}
}))
}
fn transaction_by_hash(&self, _hash: RpcH256) -> Result<Option<Transaction>, Error> {
Err(errors::unimplemented(None))
}
fn transaction_by_block_hash_and_index(&self, _hash: RpcH256, _idx: Index) -> Result<Option<Transaction>, Error> {
Err(errors::unimplemented(None))
}
fn transaction_by_block_number_and_index(&self, _num: BlockNumber, _idx: Index) -> Result<Option<Transaction>, Error> {
Err(errors::unimplemented(None))
}
fn transaction_receipt(&self, _hash: RpcH256) -> Result<Option<Receipt>, Error> {
Err(errors::unimplemented(None))
}
fn uncle_by_block_hash_and_index(&self, _hash: RpcH256, _idx: Index) -> Result<Option<RichBlock>, Error> {
Err(errors::unimplemented(None))
}
fn uncle_by_block_number_and_index(&self, _num: BlockNumber, _idx: Index) -> Result<Option<RichBlock>, Error> {
Err(errors::unimplemented(None))
}
fn compilers(&self) -> Result<Vec<String>, Error> {
Err(errors::deprecated("Compilation functionality is deprecated.".to_string()))
}
fn compile_lll(&self, _: String) -> Result<Bytes, Error> {
Err(errors::deprecated("Compilation of LLL via RPC is deprecated".to_string()))
}
fn compile_serpent(&self, _: String) -> Result<Bytes, Error> {
Err(errors::deprecated("Compilation of Serpent via RPC is deprecated".to_string()))
}
fn compile_solidity(&self, _: String) -> Result<Bytes, Error> {
Err(errors::deprecated("Compilation of Solidity via RPC is deprecated".to_string()))
}
fn logs(&self, filter: Filter) -> BoxFuture<Vec<Log>, Error> {
let limit = filter.limit;
Box::new(Filterable::logs(self, filter.into())
.map(move|logs| limit_logs(logs, limit)))
}
fn work(&self, _timeout: Trailing<u64>) -> Result<Work, Error> {
Err(errors::light_unimplemented(None))
}
fn submit_work(&self, _nonce: RpcH64, _pow_hash: RpcH256, _mix_hash: RpcH256) -> Result<bool, Error> {
Err(errors::light_unimplemented(None))
}
fn submit_hashrate(&self, _rate: RpcU256, _id: RpcH256) -> Result<bool, Error> {
Err(errors::light_unimplemented(None))
}
}
// This trait implementation triggers a blanked impl of `EthFilter`.
impl<T: LightChainClient + 'static> Filterable for EthClient<T> {
fn best_block_number(&self) -> u64 { self.client.chain_info().best_block_number }
fn block_hash(&self, id: BlockId) -> Option<RpcH256> {
self.client.block_hash(id).map(Into::into)
}
fn pending_transactions_hashes(&self, _block_number: u64) -> Vec<::bigint::hash::H256> {
Vec::new()
}
fn logs(&self, filter: EthcoreFilter) -> BoxFuture<Vec<Log>, Error> {
self.fetcher().logs(filter)
}
fn pending_logs(&self, _block_number: u64, _filter: &EthcoreFilter) -> Vec<Log> {
Vec::new() // light clients don't mine.
}
fn polls(&self) -> &Mutex<PollManager<PollFilter>> {
&self.polls
}
}