implement provider for client
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3c7533831e
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abf39fde0a
@ -68,6 +68,7 @@ use factory::Factories;
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use rlp::{decode, View, UntrustedRlp};
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use state_db::StateDB;
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use rand::OsRng;
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use light::{self, request};
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// re-export
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pub use types::blockchain_info::BlockChainInfo;
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@ -1317,13 +1318,135 @@ impl MayPanic for Client {
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}
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}
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// Implementation of a light client data provider for a client.
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impl light::Provider for Client {
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fn chain_info(&self) -> BlockChainInfo {
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BlockChainClient::chain_info(self)
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}
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#[test]
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fn should_not_cache_details_before_commit() {
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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_headers(&self, req: request::Headers) -> Vec<Bytes> {
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let best_num = self.chain.read().best_block_number();
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let start_num = req.block_num;
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match self.block_hash(BlockID::Number(req.block_num)) {
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Some(hash) if hash == req.block_hash => {}
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_=> {
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trace!(target: "les_provider", "unknown/non-canonical start block in header request: {:?}", (req.block_num, req.block_hash));
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return vec![]
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}
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}
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(0u64..req.max as u64)
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.map(|x: u64| x.saturating_mul(req.skip))
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.take_while(|x| if req.reverse { x < &start_num } else { best_num - start_num < *x })
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.map(|x| if req.reverse { start_num - x } else { start_num + x })
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.map(|x| self.block_header(BlockID::Number(x)))
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.flat_map(|x| x)
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.fuse() // collect no more beyond the first `None`
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.collect()
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}
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fn block_bodies(&self, req: request::Bodies) -> Vec<Bytes> {
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use ids::BlockID;
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req.block_hashes.into_iter()
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.map(|hash| self.block_body(BlockID::Hash(hash)))
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.map(|body| body.unwrap_or_else(|| ::rlp::EMPTY_LIST_RLP.to_vec()))
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.collect()
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}
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fn receipts(&self, req: request::Receipts) -> Vec<Bytes> {
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req.block_hashes.into_iter()
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.map(|hash| self.block_receipts(&hash))
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.map(|receipts| receipts.unwrap_or_else(|| ::rlp::EMPTY_LIST_RLP.to_vec()))
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.collect()
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}
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fn proofs(&self, req: request::StateProofs) -> Vec<Bytes> {
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use rlp::{EMPTY_LIST_RLP, RlpStream, Stream};
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let mut results = Vec::with_capacity(req.requests.len());
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for request in req.requests {
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let state = match self.state_at(BlockID::Hash(request.block)) {
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Some(state) => state,
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None => {
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trace!(target: "light_provider", "state for {} not available", request.block);
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results.push(EMPTY_LIST_RLP.to_vec());
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continue;
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}
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};
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let res = match request.key2 {
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Some(storage_key) => state.prove_storage(request.key1, storage_key, request.from_level),
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None => state.prove_account(request.key1, request.from_level),
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};
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match res {
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Ok(records) => {
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let mut stream = RlpStream::new_list(records.len());
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for record in records {
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stream.append_raw(&record, 1);
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}
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results.push(stream.out())
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}
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Err(e) => {
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debug!(target: "light_provider", "encountered error {} while forming proof of state at {}", e, request.block);
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results.push(EMPTY_LIST_RLP.to_vec());
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}
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}
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}
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results
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}
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fn contract_code(&self, req: request::ContractCodes) -> Vec<Bytes> {
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req.code_requests.into_iter()
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.map(|req| {
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self.state_at(BlockID::Hash(req.block_hash))
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.map(|state| {
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match state.code_by_address_hash(req.account_key) {
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Ok(code) => code.unwrap_or_else(Vec::new),
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Err(e) => {
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debug!(target: "light_provider", "encountered error {} while fetching code.", e);
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Vec::new()
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}
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}
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}).unwrap_or_else(Vec::new)
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})
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.collect()
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}
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fn header_proofs(&self, req: request::HeaderProofs) -> Vec<Bytes> {
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req.requests.into_iter().map(|_| ::rlp::EMPTY_LIST_RLP.to_vec()).collect()
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}
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fn pending_transactions(&self) -> Vec<SignedTransaction> {
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BlockChainClient::pending_transactions(self)
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}
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}
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#[cfg(test)]
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mod tests {
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#[test]
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fn should_not_cache_details_before_commit() {
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use client::BlockChainClient;
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use tests::helpers::*;
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use std::thread;
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use std::time::Duration;
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use std::sync::Arc;
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use std::sync::atomic::{AtomicBool, Ordering};
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use util::kvdb::DBTransaction;
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let client = generate_dummy_client(0);
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let genesis = client.chain_info().best_block_hash;
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@ -1345,4 +1468,5 @@ fn should_not_cache_details_before_commit() {
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while !go.load(Ordering::SeqCst) { thread::park_timeout(Duration::from_millis(5)); }
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assert!(client.tree_route(&genesis, &new_hash).is_none());
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}
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}
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@ -101,7 +101,7 @@ impl Provider for Client {
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Vec::new()
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}
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fn code(&self, _req: request::ContractCodes) -> Vec<Bytes> {
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fn contract_code(&self, _req: request::ContractCodes) -> Vec<Bytes> {
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Vec::new()
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}
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@ -35,4 +35,5 @@ pub mod client;
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pub mod net;
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pub mod provider;
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pub use self::provider::Provider;
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pub use types::les_request as request;
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@ -17,11 +17,9 @@
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//! A provider for the LES 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 client::BlockChainClient;
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use transaction::SignedTransaction;
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use blockchain_info::BlockChainInfo;
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use rlp::EMPTY_LIST_RLP;
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use util::{Bytes, H256};
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use light::request;
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@ -65,7 +63,7 @@ pub trait Provider: Send + Sync {
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fn proofs(&self, req: request::StateProofs) -> Vec<Bytes>;
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/// Provide contract code for the specified (block_hash, account_hash) pairs.
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fn code(&self, req: request::ContractCodes) -> Vec<Bytes>;
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fn contract_code(&self, req: request::ContractCodes) -> Vec<Bytes>;
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/// Provide header proofs from the Canonical Hash Tries.
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fn header_proofs(&self, req: request::HeaderProofs) -> Vec<Bytes>;
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@ -73,57 +71,3 @@ pub trait Provider: Send + Sync {
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/// Provide pending transactions.
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fn pending_transactions(&self) -> Vec<SignedTransaction>;
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}
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// TODO [rob] move into trait definition file after ethcore crate
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// is split up. ideally `ethcore-light` will be between `ethcore-blockchain`
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// and `ethcore-client`
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impl<T: BlockChainClient + ?Sized> Provider for T {
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fn chain_info(&self) -> BlockChainInfo {
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BlockChainClient::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_headers(&self, req: request::Headers) -> Vec<Bytes> {
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unimplemented!()
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}
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fn block_bodies(&self, req: request::Bodies) -> Vec<Bytes> {
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use ids::BlockID;
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req.block_hashes.into_iter()
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.map(|hash| self.block_body(BlockID::Hash(hash)))
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.map(|body| body.unwrap_or_else(|| EMPTY_LIST_RLP.to_vec()))
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.collect()
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}
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fn receipts(&self, req: request::Receipts) -> Vec<Bytes> {
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req.block_hashes.into_iter()
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.map(|hash| self.block_receipts(&hash))
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.map(|receipts| receipts.unwrap_or_else(|| EMPTY_LIST_RLP.to_vec()))
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.collect()
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}
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fn proofs(&self, req: request::StateProofs) -> Vec<Bytes> {
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unimplemented!()
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}
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fn code(&self, req: request::ContractCodes) -> Vec<Bytes> {
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unimplemented!()
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}
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fn header_proofs(&self, req: request::HeaderProofs) -> Vec<Bytes> {
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// TODO: [rob] implement CHT stuff on `ethcore` side.
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req.requests.into_iter().map(|_| EMPTY_LIST_RLP.to_vec()).collect()
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}
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fn pending_transactions(&self) -> Vec<SignedTransaction> {
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unimplemented!()
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}
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}
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@ -437,6 +437,27 @@ impl Account {
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}
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}
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// light client storage proof.
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impl Account {
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/// Prove a storage key's existence or nonexistence in the account's storage
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/// trie.
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/// `storage_key` is the hash of the desired storage key, meaning
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/// this will only work correctly under a secure trie.
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/// Returns a merkle proof of the storage trie node with all nodes before `from_level`
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/// omitted.
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pub fn prove_storage(&self, db: &HashDB, storage_key: H256, from_level: u32) -> Result<Vec<Bytes>, Box<TrieError>> {
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use util::trie::{Trie, TrieDB};
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use util::trie::recorder::{Recorder, BasicRecorder as TrieRecorder};
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let mut recorder = TrieRecorder::with_depth(from_level);
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let trie = try!(TrieDB::new(db, &self.storage_root));
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let _ = try!(trie.get_recorded(&storage_key, &mut recorder));
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Ok(recorder.drain().into_iter().map(|r| r.data).collect())
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}
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}
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impl fmt::Debug for Account {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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write!(f, "{:?}", PodAccount::from_account(self))
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@ -16,7 +16,7 @@
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use std::cell::{RefCell, RefMut};
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use std::collections::hash_map::Entry;
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use util::*;
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use receipt::Receipt;
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use engines::Engine;
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use env_info::EnvInfo;
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@ -30,6 +30,9 @@ use types::state_diff::StateDiff;
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use transaction::SignedTransaction;
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use state_db::StateDB;
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use util::*;
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use util::trie::recorder::{Recorder, BasicRecorder as TrieRecorder};
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mod account;
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mod substate;
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@ -751,6 +754,53 @@ impl State {
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}
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}
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// LES state proof implementations.
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impl State {
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/// Prove an account's existence or nonexistence in the state trie.
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/// Returns a merkle proof of the account's trie node with all nodes before `from_level`
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/// omitted or an encountered trie error.
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/// Requires a secure trie to be used for accurate results.
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/// `account_key` == sha3(address)
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pub fn prove_account(&self, account_key: H256, from_level: u32) -> Result<Vec<Bytes>, Box<TrieError>> {
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let mut recorder = TrieRecorder::with_depth(from_level);
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let trie = try!(TrieDB::new(self.db.as_hashdb(), &self.root));
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let _ = try!(trie.get_recorded(&account_key, &mut recorder));
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Ok(recorder.drain().into_iter().map(|r| r.data).collect())
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}
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/// Prove an account's storage key's existence or nonexistence in the state.
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/// Returns a merkle proof of the account's storage trie with all nodes before
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/// `from_level` omitted. Requires a secure trie to be used for correctness.
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/// `account_key` == sha3(address)
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/// `storage_key` == sha3(key)
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pub fn prove_storage(&self, account_key: H256, storage_key: H256, from_level: u32) -> Result<Vec<Bytes>, Box<TrieError>> {
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// TODO: probably could look into cache somehow but it's keyed by
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// address, not sha3(address).
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let trie = try!(TrieDB::new(self.db.as_hashdb(), &self.root));
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let acc = match try!(trie.get(&account_key)) {
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Some(rlp) => Account::from_rlp(&rlp),
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None => return Ok(Vec::new()),
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};
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let account_db = self.factories.accountdb.readonly(self.db.as_hashdb(), account_key);
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acc.prove_storage(account_db.as_hashdb(), storage_key, from_level)
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}
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/// Get code by address hash.
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/// Only works when backed by a secure trie.
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pub fn code_by_address_hash(&self, account_key: H256) -> Result<Option<Bytes>, Box<TrieError>> {
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let trie = try!(TrieDB::new(self.db.as_hashdb(), &self.root));
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let mut acc = match try!(trie.get(&account_key)) {
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Some(rlp) => Account::from_rlp(&rlp),
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None => return Ok(None),
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};
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let account_db = self.factories.accountdb.readonly(self.db.as_hashdb(), account_key);
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Ok(acc.cache_code(account_db.as_hashdb()).map(|c| (&*c).clone()))
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}
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}
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impl fmt::Debug for State {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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write!(f, "{:?}", self.cache.borrow())
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@ -29,7 +29,7 @@ pub struct Headers {
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/// The maximum amount of headers which can be returned.
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pub max: usize,
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/// The amount of headers to skip between each response entry.
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pub skip: usize,
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pub skip: u64,
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/// Whether the headers should proceed in falling number from the initial block.
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pub reverse: bool,
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}
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@ -97,11 +97,11 @@ pub trait Trie {
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}
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/// Query the value of the given key in this trie while recording visited nodes
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/// to the given recorder. If the query fails, the nodes passed to the recorder are unspecified.
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/// to the given recorder. If the query encounters an error, the nodes passed to the recorder are unspecified.
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fn get_recorded<'a, 'b, R: 'b>(&'a self, key: &'b [u8], rec: &'b mut R) -> Result<Option<DBValue>>
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where 'a: 'b, R: Recorder;
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/// Returns an iterator over elements of trie.
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/// Returns a depth-first iterator over the elements of the trie.
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fn iter<'a>(&'a self) -> Result<Box<Iterator<Item = TrieItem> + 'a>>;
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}
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@ -35,7 +35,6 @@ pub struct Record {
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/// These are used to record which nodes are visited during a trie query.
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/// Inline nodes are not to be recorded, as they are contained within their parent.
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pub trait Recorder {
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/// Record that the given node has been visited.
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///
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/// The depth parameter is the depth of the visited node, with the root node having depth 0.
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@ -58,6 +57,7 @@ impl Recorder for NoOp {
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/// A simple recorder. Does nothing fancy but fulfills the `Recorder` interface
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/// properly.
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#[derive(Debug)]
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pub struct BasicRecorder {
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nodes: Vec<Record>,
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min_depth: u32,
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