3016d54f13
* fix chain supplier increment * fix light provider block_headers
411 lines
13 KiB
Rust
411 lines
13 KiB
Rust
// Copyright 2015-2018 Parity Technologies (UK) Ltd.
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// This file is part of Parity.
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// Parity is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Parity is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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//! A provider for the PIP protocol. This is typically a full node, who can
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//! give as much data as necessary to its peers.
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use std::sync::Arc;
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use ethcore::blockchain_info::BlockChainInfo;
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use ethcore::client::{BlockChainClient, ProvingBlockChainClient, ChainInfo, BlockInfo as ClientBlockInfo};
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use ethcore::ids::BlockId;
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use ethcore::encoded;
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use ethereum_types::H256;
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use parking_lot::RwLock;
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use transaction::PendingTransaction;
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use cht::{self, BlockInfo};
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use client::{LightChainClient, AsLightClient};
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use transaction_queue::TransactionQueue;
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use request;
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/// Defines the operations that a provider for the light subprotocol must fulfill.
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pub trait Provider: Send + Sync {
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/// Provide current blockchain info.
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fn chain_info(&self) -> BlockChainInfo;
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/// Find the depth of a common ancestor between two blocks.
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/// If either block is unknown or an ancestor can't be found
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/// then return `None`.
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fn reorg_depth(&self, a: &H256, b: &H256) -> Option<u64>;
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/// Earliest block where state queries are available.
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/// If `None`, no state queries are servable.
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fn earliest_state(&self) -> Option<u64>;
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/// Provide a list of headers starting at the requested block,
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/// possibly in reverse and skipping `skip` at a time.
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///
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/// The returned vector may have any length in the range [0, `max`], but the
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/// results within must adhere to the `skip` and `reverse` parameters.
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fn block_headers(&self, req: request::CompleteHeadersRequest) -> Option<request::HeadersResponse> {
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use request::HashOrNumber;
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const MAX_HEADERS_TO_SEND: u64 = 512;
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if req.max == 0 { return None }
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let best_num = self.chain_info().best_block_number;
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let start_num = match req.start {
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HashOrNumber::Number(start_num) => start_num,
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HashOrNumber::Hash(hash) => match self.block_header(BlockId::Hash(hash)) {
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None => {
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trace!(target: "pip_provider", "Unknown block hash {} requested", hash);
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return None;
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}
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Some(header) => {
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let num = header.number();
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let canon_hash = self.block_header(BlockId::Number(num))
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.map(|h| h.hash());
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if req.max == 1 || canon_hash != Some(hash) {
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// Non-canonical header or single header requested.
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return Some(::request::HeadersResponse {
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headers: vec![header],
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})
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}
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num
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}
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}
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};
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let max = ::std::cmp::min(MAX_HEADERS_TO_SEND, req.max);
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let headers: Vec<_> = (0u64..max)
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.map(|x: u64| x.saturating_mul(req.skip.saturating_add(1)))
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.take_while(|x| if req.reverse { x < &start_num } else { best_num.saturating_sub(start_num) >= *x })
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.map(|x| if req.reverse { start_num.saturating_sub(x) } else { start_num.saturating_add(x) })
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.map(|x| self.block_header(BlockId::Number(x)))
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.take_while(|x| x.is_some())
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.flat_map(|x| x)
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.collect();
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if headers.is_empty() {
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None
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} else {
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Some(::request::HeadersResponse { headers: headers })
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}
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}
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/// Get a block header by id.
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fn block_header(&self, id: BlockId) -> Option<encoded::Header>;
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/// Get a transaction index by hash.
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fn transaction_index(&self, req: request::CompleteTransactionIndexRequest)
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-> Option<request::TransactionIndexResponse>;
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/// Fulfill a block body request.
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fn block_body(&self, req: request::CompleteBodyRequest) -> Option<request::BodyResponse>;
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/// Fulfill a request for block receipts.
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fn block_receipts(&self, req: request::CompleteReceiptsRequest) -> Option<request::ReceiptsResponse>;
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/// Get an account proof.
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fn account_proof(&self, req: request::CompleteAccountRequest) -> Option<request::AccountResponse>;
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/// Get a storage proof.
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fn storage_proof(&self, req: request::CompleteStorageRequest) -> Option<request::StorageResponse>;
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/// Provide contract code for the specified (block_hash, code_hash) pair.
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fn contract_code(&self, req: request::CompleteCodeRequest) -> Option<request::CodeResponse>;
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/// Provide a header proof from a given Canonical Hash Trie as well as the
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/// corresponding header.
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fn header_proof(&self, req: request::CompleteHeaderProofRequest) -> Option<request::HeaderProofResponse>;
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/// Provide pending transactions.
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fn ready_transactions(&self, max_len: usize) -> Vec<PendingTransaction>;
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/// Provide a proof-of-execution for the given transaction proof request.
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/// Returns a vector of all state items necessary to execute the transaction.
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fn transaction_proof(&self, req: request::CompleteExecutionRequest) -> Option<request::ExecutionResponse>;
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/// Provide epoch signal data at given block hash. This should be just the
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fn epoch_signal(&self, req: request::CompleteSignalRequest) -> Option<request::SignalResponse>;
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}
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// Implementation of a light client data provider for a client.
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impl<T: ProvingBlockChainClient + ?Sized> Provider for T {
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fn chain_info(&self) -> BlockChainInfo {
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ChainInfo::chain_info(self)
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}
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fn reorg_depth(&self, a: &H256, b: &H256) -> Option<u64> {
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self.tree_route(a, b).map(|route| route.index as u64)
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}
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fn earliest_state(&self) -> Option<u64> {
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Some(self.pruning_info().earliest_state)
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}
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fn block_header(&self, id: BlockId) -> Option<encoded::Header> {
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ClientBlockInfo::block_header(self, id)
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}
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fn transaction_index(&self, req: request::CompleteTransactionIndexRequest)
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-> Option<request::TransactionIndexResponse>
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{
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use ethcore::ids::TransactionId;
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self.transaction_receipt(TransactionId::Hash(req.hash)).map(|receipt| request::TransactionIndexResponse {
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num: receipt.block_number,
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hash: receipt.block_hash,
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index: receipt.transaction_index as u64,
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})
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}
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fn block_body(&self, req: request::CompleteBodyRequest) -> Option<request::BodyResponse> {
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BlockChainClient::block_body(self, BlockId::Hash(req.hash))
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.map(|body| ::request::BodyResponse { body: body })
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}
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fn block_receipts(&self, req: request::CompleteReceiptsRequest) -> Option<request::ReceiptsResponse> {
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BlockChainClient::block_receipts(self, &req.hash)
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.map(|x| ::request::ReceiptsResponse { receipts: ::rlp::decode_list(&x) })
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}
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fn account_proof(&self, req: request::CompleteAccountRequest) -> Option<request::AccountResponse> {
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self.prove_account(req.address_hash, BlockId::Hash(req.block_hash)).map(|(proof, acc)| {
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::request::AccountResponse {
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proof: proof,
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nonce: acc.nonce,
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balance: acc.balance,
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code_hash: acc.code_hash,
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storage_root: acc.storage_root,
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}
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})
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}
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fn storage_proof(&self, req: request::CompleteStorageRequest) -> Option<request::StorageResponse> {
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self.prove_storage(req.address_hash, req.key_hash, BlockId::Hash(req.block_hash)).map(|(proof, item) | {
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::request::StorageResponse {
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proof: proof,
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value: item,
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}
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})
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}
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fn contract_code(&self, req: request::CompleteCodeRequest) -> Option<request::CodeResponse> {
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self.state_data(&req.code_hash)
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.map(|code| ::request::CodeResponse { code: code })
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}
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fn header_proof(&self, req: request::CompleteHeaderProofRequest) -> Option<request::HeaderProofResponse> {
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let cht_number = match cht::block_to_cht_number(req.num) {
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Some(cht_num) => cht_num,
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None => {
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debug!(target: "pip_provider", "Requested CHT proof with invalid block number");
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return None;
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}
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};
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let mut needed = None;
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// build the CHT, caching the requested header as we pass through it.
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let cht = {
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let block_info = |id| {
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let hdr = self.block_header(id);
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let td = self.block_total_difficulty(id);
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match (hdr, td) {
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(Some(hdr), Some(td)) => {
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let info = BlockInfo {
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hash: hdr.hash(),
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parent_hash: hdr.parent_hash(),
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total_difficulty: td,
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};
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if hdr.number() == req.num {
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needed = Some((hdr, td));
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}
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Some(info)
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}
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_ => None,
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}
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};
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match cht::build(cht_number, block_info) {
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Some(cht) => cht,
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None => return None, // incomplete CHT.
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}
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};
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let (needed_hdr, needed_td) = needed.expect("`needed` always set in loop, number checked before; qed");
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// prove our result.
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match cht.prove(req.num, 0) {
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Ok(Some(proof)) => Some(::request::HeaderProofResponse {
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proof: proof,
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hash: needed_hdr.hash(),
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td: needed_td,
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}),
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Ok(None) => None,
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Err(e) => {
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debug!(target: "pip_provider", "Error looking up number in freshly-created CHT: {}", e);
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None
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}
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}
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}
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fn transaction_proof(&self, req: request::CompleteExecutionRequest) -> Option<request::ExecutionResponse> {
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use transaction::Transaction;
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let id = BlockId::Hash(req.block_hash);
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let nonce = match self.nonce(&req.from, id.clone()) {
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Some(nonce) => nonce,
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None => return None,
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};
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let transaction = Transaction {
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nonce: nonce,
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gas: req.gas,
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gas_price: req.gas_price,
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action: req.action,
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value: req.value,
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data: req.data,
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}.fake_sign(req.from);
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self.prove_transaction(transaction, id)
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.map(|(_, proof)| ::request::ExecutionResponse { items: proof })
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}
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fn ready_transactions(&self, max_len: usize) -> Vec<PendingTransaction> {
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BlockChainClient::ready_transactions(self, max_len)
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.into_iter()
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.map(|tx| tx.pending().clone())
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.collect()
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}
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fn epoch_signal(&self, req: request::CompleteSignalRequest) -> Option<request::SignalResponse> {
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self.epoch_signal(req.block_hash).map(|signal| request::SignalResponse {
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signal: signal,
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})
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}
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}
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/// The light client "provider" implementation. This wraps a `LightClient` and
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/// a light transaction queue.
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pub struct LightProvider<L> {
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client: Arc<L>,
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txqueue: Arc<RwLock<TransactionQueue>>,
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}
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impl<L> LightProvider<L> {
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/// Create a new `LightProvider` from the given client and transaction queue.
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pub fn new(client: Arc<L>, txqueue: Arc<RwLock<TransactionQueue>>) -> Self {
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LightProvider {
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client: client,
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txqueue: txqueue,
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}
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}
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}
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// TODO: draw from cache (shared between this and the RPC layer)
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impl<L: AsLightClient + Send + Sync> Provider for LightProvider<L> {
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fn chain_info(&self) -> BlockChainInfo {
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self.client.as_light_client().chain_info()
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}
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fn reorg_depth(&self, _a: &H256, _b: &H256) -> Option<u64> {
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None
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}
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fn earliest_state(&self) -> Option<u64> {
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None
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}
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fn block_header(&self, id: BlockId) -> Option<encoded::Header> {
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self.client.as_light_client().block_header(id)
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}
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fn transaction_index(&self, _req: request::CompleteTransactionIndexRequest)
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-> Option<request::TransactionIndexResponse>
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{
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None
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}
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fn block_body(&self, _req: request::CompleteBodyRequest) -> Option<request::BodyResponse> {
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None
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}
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fn block_receipts(&self, _req: request::CompleteReceiptsRequest) -> Option<request::ReceiptsResponse> {
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None
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}
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fn account_proof(&self, _req: request::CompleteAccountRequest) -> Option<request::AccountResponse> {
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None
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}
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fn storage_proof(&self, _req: request::CompleteStorageRequest) -> Option<request::StorageResponse> {
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None
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}
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fn contract_code(&self, _req: request::CompleteCodeRequest) -> Option<request::CodeResponse> {
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None
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}
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fn header_proof(&self, _req: request::CompleteHeaderProofRequest) -> Option<request::HeaderProofResponse> {
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None
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}
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fn transaction_proof(&self, _req: request::CompleteExecutionRequest) -> Option<request::ExecutionResponse> {
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None
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}
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fn epoch_signal(&self, _req: request::CompleteSignalRequest) -> Option<request::SignalResponse> {
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None
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}
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fn ready_transactions(&self, max_len: usize) -> Vec<PendingTransaction> {
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let chain_info = self.chain_info();
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let mut transactions = self.txqueue.read()
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.ready_transactions(chain_info.best_block_number, chain_info.best_block_timestamp);
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transactions.truncate(max_len);
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transactions
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}
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}
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impl<L: AsLightClient> AsLightClient for LightProvider<L> {
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type Client = L::Client;
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fn as_light_client(&self) -> &L::Client {
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self.client.as_light_client()
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}
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}
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#[cfg(test)]
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mod tests {
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use ethcore::client::{EachBlockWith, TestBlockChainClient};
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use super::Provider;
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#[test]
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fn cht_proof() {
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let client = TestBlockChainClient::new();
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client.add_blocks(2000, EachBlockWith::Nothing);
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let req = ::request::CompleteHeaderProofRequest {
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num: 1500,
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};
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assert!(client.header_proof(req.clone()).is_none());
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client.add_blocks(48, EachBlockWith::Nothing);
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assert!(client.header_proof(req.clone()).is_some());
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}
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}
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