// 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 . //! Eth RPC interface for the light client. use std::sync::Arc; use jsonrpc_core::Error; use jsonrpc_macros::Trailing; use light::client::Client as LightClient; use light::cht; use light::on_demand::{request, OnDemand}; use light::net::LightProtocol; use ethcore::account_provider::{AccountProvider, DappId}; use ethcore::encoded; use ethcore::ids::BlockId; use ethsync::LightSync; use futures::{future, Future, BoxFuture}; use v1::helpers::{CallRequest as CRequest, errors, limit_logs}; use v1::helpers::dispatch::{dispatch_transaction, default_gas_price}; use v1::helpers::block_import::is_major_importing; 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; /// Light client `ETH` RPC. pub struct EthClient { sync: Arc, client: Arc, on_demand: Arc, accounts: Arc, } // helper for a specific kind of internal error. fn err_no_context() -> Error { errors::internal("network service detached", "") } impl EthClient { /// 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, client: Arc, on_demand: Arc, accounts: Arc, ) -> Self { EthClient { sync: sync, client: client, on_demand: on_demand, accounts: accounts, } } /// Get a block header from the on demand service or client, or error. fn header(&self, id: BlockId) -> BoxFuture { if let Some(h) = self.client.get_header(id) { return future::ok(h).boxed() } let maybe_future = match id { BlockId::Number(n) => { let cht_root = cht::block_to_cht_number(n).and_then(|cn| self.client.cht_root(cn as usize)); match cht_root { None => return future::err(errors::unknown_block()).boxed(), Some(root) => { let req = request::HeaderByNumber { num: n, cht_root: root, }; self.sync.with_context(|ctx| self.on_demand.header_by_number(ctx, req)) } } } BlockId::Hash(h) => { self.sync.with_context(|ctx| self.on_demand.header_by_hash(ctx, request::HeaderByHash(h))) } _ => None, // latest, earliest, and pending will have all already returned. }; match maybe_future { Some(recv) => recv.map_err(errors::from_on_demand_error).boxed(), None => future::err(err_no_context()).boxed() } } } impl Eth for EthClient { type Metadata = Metadata; fn protocol_version(&self) -> Result { Ok(format!("{}", ::light::net::MAX_PROTOCOL_VERSION)) } fn syncing(&self) -> Result { rpc_unimplemented!() } fn author(&self, _meta: Self::Metadata) -> BoxFuture { future::ok(Default::default()).boxed() } fn is_mining(&self) -> Result { Ok(false) } fn hashrate(&self) -> Result { Ok(Default::default()) } fn gas_price(&self) -> Result { Ok(Default::default()) } fn accounts(&self, meta: Metadata) -> BoxFuture, Error> { let dapp: DappId = meta.dapp_id.unwrap_or_default().into(); let accounts = self.accounts .note_dapp_used(dapp.clone()) .and_then(|_| self.accounts.dapps_addresses(dapp)) .map_err(|e| errors::internal("Could not fetch accounts.", e)) .map(|accs| accs.into_iter().map(Into::::into).collect()); future::done(accounts).boxed() } fn block_number(&self) -> Result { Ok(self.client.chain_info().best_block_number.into()) } fn balance(&self, address: RpcH160, num: Trailing) -> BoxFuture { let address = address.into(); let sync = self.sync.clone(); let on_demand = self.on_demand.clone(); self.header(num.0.into()).and_then(move |header| { sync.with_context(|ctx| on_demand.account(ctx, request::Account { header: header, address: address, })) .map(|x| x.map_err(errors::from_on_demand_error).boxed()) .unwrap_or_else(|| future::err(err_no_context()).boxed()) }).map(|acc| acc.balance.into()).boxed() } fn storage_at(&self, address: RpcH160, key: RpcU256, num: Trailing) -> BoxFuture { future::err(errors::unimplemented(None)).boxed() } fn block_by_hash(&self, hash: RpcH256, include_txs: bool) -> BoxFuture, Error> { future::err(errors::unimplemented(None)).boxed() } fn block_by_number(&self, num: BlockNumber, include_txs: bool) -> BoxFuture, Error> { future::err(errors::unimplemented(None)).boxed() } fn transaction_count(&self, address: RpcH160, num: Trailing) -> BoxFuture { future::err(errors::unimplemented(None)).boxed() } fn block_transaction_count_by_hash(&self, hash: RpcH256) -> BoxFuture, Error> { future::err(errors::unimplemented(None)).boxed() } fn block_transaction_count_by_number(&self, num: BlockNumber) -> BoxFuture, Error> { future::err(errors::unimplemented(None)).boxed() } fn block_uncles_count_by_hash(&self, hash: RpcH256) -> BoxFuture, Error> { future::err(errors::unimplemented(None)).boxed() } fn block_uncles_count_by_number(&self, num: BlockNumber) -> BoxFuture, Error> { future::err(errors::unimplemented(None)).boxed() } fn code_at(&self, address: RpcH160, num: Trailing) -> BoxFuture { future::err(errors::unimplemented(None)).boxed() } fn send_raw_transaction(&self, raw: Bytes) -> Result { Err(errors::unimplemented(None)) } fn submit_transaction(&self, raw: Bytes) -> Result { Err(errors::unimplemented(None)) } fn call(&self, req: CallRequest, num: Trailing) -> Result { Err(errors::unimplemented(None)) } fn estimate_gas(&self, req: CallRequest, num: Trailing) -> Result { Err(errors::unimplemented(None)) } fn transaction_by_hash(&self, hash: RpcH256) -> Result, Error> { Err(errors::unimplemented(None)) } fn transaction_by_block_hash_and_index(&self, hash: RpcH256, idx: Index) -> Result, Error> { Err(errors::unimplemented(None)) } fn transaction_by_block_number_and_index(&self, num: BlockNumber, idx: Index) -> Result, Error> { Err(errors::unimplemented(None)) } fn transaction_receipt(&self, hash: RpcH256) -> Result, Error> { Err(errors::unimplemented(None)) } fn uncle_by_block_hash_and_index(&self, hash: RpcH256, idx: Index) -> Result, Error> { Err(errors::unimplemented(None)) } fn uncle_by_block_number_and_index(&self, num: BlockNumber, idx: Index) -> Result, Error> { Err(errors::unimplemented(None)) } fn compilers(&self) -> Result, Error> { Err(errors::unimplemented(None)) } fn compile_lll(&self, _code: String) -> Result { Err(errors::unimplemented(None)) } fn compile_solidity(&self, _code: String) -> Result { Err(errors::unimplemented(None)) } fn compile_serpent(&self, _code: String) -> Result { Err(errors::unimplemented(None)) } fn logs(&self, _filter: Filter) -> Result, Error> { Err(errors::unimplemented(None)) } fn work(&self, _timeout: Trailing) -> Result { Err(errors::unimplemented(None)) } fn submit_work(&self, _nonce: RpcH64, _pow_hash: RpcH256, _mix_hash: RpcH256) -> Result { Err(errors::unimplemented(None)) } fn submit_hashrate(&self, _rate: RpcU256, _id: RpcH256) -> Result { Err(errors::unimplemented(None)) } }