7c335e8764
* misc: bump license header to 2019 * misc: remove_duplicate_empty_lines.sh * misc: run license header script * commit cargo lock
265 lines
8.6 KiB
Rust
265 lines
8.6 KiB
Rust
// Copyright 2015-2019 Parity Technologies (UK) Ltd.
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// This file is part of Parity Ethereum.
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// Parity Ethereum 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 Ethereum 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 Ethereum. If not, see <http://www.gnu.org/licenses/>.
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use std::sync::Arc;
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use ethcore::client::{TestBlockChainClient, BlockChainClient, BlockId, EachBlockWith, ChainInfo, BlockInfo};
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use chain::{SyncState};
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use super::helpers::*;
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use {SyncConfig, WarpSync};
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#[test]
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fn two_peers() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(3);
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net.peer(1).chain.add_blocks(1000, EachBlockWith::Uncle);
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net.peer(2).chain.add_blocks(1000, EachBlockWith::Uncle);
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net.sync();
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assert!(net.peer(0).chain.block(BlockId::Number(1000)).is_some());
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assert_eq!(*net.peer(0).chain.blocks.read(), *net.peer(1).chain.blocks.read());
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}
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#[test]
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fn long_chain() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(2);
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net.peer(1).chain.add_blocks(50000, EachBlockWith::Nothing);
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net.sync();
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assert!(net.peer(0).chain.block(BlockId::Number(50000)).is_some());
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assert_eq!(*net.peer(0).chain.blocks.read(), *net.peer(1).chain.blocks.read());
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}
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#[test]
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fn status_after_sync() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(3);
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net.peer(1).chain.add_blocks(1000, EachBlockWith::Uncle);
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net.peer(2).chain.add_blocks(1000, EachBlockWith::Uncle);
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net.sync();
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let status = net.peer(0).sync.read().status();
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assert_eq!(status.state, SyncState::Idle);
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}
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#[test]
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fn takes_few_steps() {
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let mut net = TestNet::new(3);
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net.peer(1).chain.add_blocks(100, EachBlockWith::Uncle);
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net.peer(2).chain.add_blocks(100, EachBlockWith::Uncle);
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let total_steps = net.sync();
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assert!(total_steps < 20);
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}
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#[test]
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fn empty_blocks() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(3);
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for n in 0..200 {
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let with = if n % 2 == 0 { EachBlockWith::Nothing } else { EachBlockWith::Uncle };
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net.peer(1).chain.add_blocks(5, with.clone());
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net.peer(2).chain.add_blocks(5, with);
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}
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net.sync();
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assert!(net.peer(0).chain.block(BlockId::Number(1000)).is_some());
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assert_eq!(*net.peer(0).chain.blocks.read(), *net.peer(1).chain.blocks.read());
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}
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#[test]
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fn forked() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(3);
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net.peer(0).chain.add_blocks(30, EachBlockWith::Uncle);
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net.peer(1).chain.add_blocks(30, EachBlockWith::Uncle);
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net.peer(2).chain.add_blocks(30, EachBlockWith::Uncle);
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net.peer(0).chain.add_blocks(10, EachBlockWith::Nothing); //fork
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net.peer(1).chain.add_blocks(20, EachBlockWith::Uncle);
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net.peer(2).chain.add_blocks(20, EachBlockWith::Uncle);
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net.peer(1).chain.add_blocks(10, EachBlockWith::Uncle); //fork between 1 and 2
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net.peer(2).chain.add_blocks(1, EachBlockWith::Nothing);
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// peer 1 has the best chain of 601 blocks
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let peer1_chain = net.peer(1).chain.numbers.read().clone();
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net.sync();
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assert_eq!(*net.peer(0).chain.difficulty.read(), *net.peer(1).chain.difficulty.read());
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assert_eq!(&*net.peer(0).chain.numbers.read(), &peer1_chain);
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assert_eq!(&*net.peer(1).chain.numbers.read(), &peer1_chain);
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assert_eq!(&*net.peer(2).chain.numbers.read(), &peer1_chain);
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}
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#[test]
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fn forked_with_misbehaving_peer() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(3);
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let mut alt_spec = ::ethcore::spec::Spec::new_test();
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alt_spec.extra_data = b"fork".to_vec();
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// peer 0 is on a totally different chain with higher total difficulty
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net.peer_mut(0).chain = Arc::new(TestBlockChainClient::new_with_spec(alt_spec));
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net.peer(0).chain.add_blocks(50, EachBlockWith::Nothing);
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net.peer(1).chain.add_blocks(10, EachBlockWith::Nothing);
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net.peer(2).chain.add_blocks(10, EachBlockWith::Nothing);
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net.peer(1).chain.add_blocks(10, EachBlockWith::Nothing);
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net.peer(2).chain.add_blocks(20, EachBlockWith::Uncle);
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// peer 1 should sync to peer 2, others should not change
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let peer0_chain = net.peer(0).chain.numbers.read().clone();
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let peer2_chain = net.peer(2).chain.numbers.read().clone();
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net.sync();
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assert_eq!(&*net.peer(0).chain.numbers.read(), &peer0_chain);
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assert_eq!(&*net.peer(1).chain.numbers.read(), &peer2_chain);
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assert_eq!(&*net.peer(2).chain.numbers.read(), &peer2_chain);
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}
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#[test]
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fn net_hard_fork() {
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::env_logger::try_init().ok();
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let ref_client = TestBlockChainClient::new();
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ref_client.add_blocks(50, EachBlockWith::Uncle);
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{
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let mut net = TestNet::new_with_fork(2, Some((50, ref_client.block_hash(BlockId::Number(50)).unwrap())));
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net.peer(0).chain.add_blocks(100, EachBlockWith::Uncle);
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net.sync();
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assert_eq!(net.peer(1).chain.chain_info().best_block_number, 100);
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}
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{
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let mut net = TestNet::new_with_fork(2, Some((50, ref_client.block_hash(BlockId::Number(50)).unwrap())));
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net.peer(0).chain.add_blocks(100, EachBlockWith::Nothing);
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net.sync();
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assert_eq!(net.peer(1).chain.chain_info().best_block_number, 0);
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}
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}
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#[test]
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fn restart() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(3);
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net.peer(1).chain.add_blocks(1000, EachBlockWith::Uncle);
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net.peer(2).chain.add_blocks(1000, EachBlockWith::Uncle);
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net.sync();
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// make sure that sync has actually happened
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assert!(net.peer(0).chain.chain_info().best_block_number > 100);
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net.restart_peer(0);
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let status = net.peer(0).sync.read().status();
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assert_eq!(status.state, SyncState::Idle);
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}
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#[test]
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fn status_empty() {
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let net = TestNet::new(2);
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assert_eq!(net.peer(0).sync.read().status().state, SyncState::Idle);
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let mut config = SyncConfig::default();
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config.warp_sync = WarpSync::Enabled;
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let net = TestNet::new_with_config(2, config);
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assert_eq!(net.peer(0).sync.read().status().state, SyncState::WaitingPeers);
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}
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#[test]
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fn status_packet() {
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let mut net = TestNet::new(2);
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net.peer(0).chain.add_blocks(100, EachBlockWith::Uncle);
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net.peer(1).chain.add_blocks(1, EachBlockWith::Uncle);
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net.start();
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net.sync_step_peer(0);
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assert_eq!(1, net.peer(0).queue.read().len());
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assert_eq!(0x00, net.peer(0).queue.read()[0].packet_id);
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}
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#[test]
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fn propagate_hashes() {
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let mut net = TestNet::new(6);
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net.peer(1).chain.add_blocks(10, EachBlockWith::Uncle);
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net.sync();
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net.peer(0).chain.add_blocks(10, EachBlockWith::Uncle);
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net.sync();
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net.trigger_chain_new_blocks(0); //first event just sets the marker
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net.trigger_chain_new_blocks(0);
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// 5 peers with NewHahses, 4 with blocks
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assert_eq!(9, net.peer(0).queue.read().len());
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let mut hashes = 0;
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let mut blocks = 0;
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for i in 0..net.peer(0).queue.read().len() {
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if net.peer(0).queue.read()[i].packet_id == 0x1 {
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hashes += 1;
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}
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if net.peer(0).queue.read()[i].packet_id == 0x7 {
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blocks += 1;
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}
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}
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assert_eq!(blocks, 4);
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assert_eq!(hashes, 5);
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}
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#[test]
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fn propagate_blocks() {
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let mut net = TestNet::new(20);
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net.peer(1).chain.add_blocks(10, EachBlockWith::Uncle);
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net.sync();
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net.peer(0).chain.add_blocks(10, EachBlockWith::Uncle);
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net.trigger_chain_new_blocks(0); //first event just sets the marker
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net.trigger_chain_new_blocks(0);
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assert!(!net.peer(0).queue.read().is_empty());
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// NEW_BLOCK_PACKET
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let blocks = net.peer(0).queue.read().iter().filter(|p| p.packet_id == 0x7).count();
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assert!(blocks > 0);
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}
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#[test]
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fn restart_on_malformed_block() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(2);
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net.peer(1).chain.add_blocks(5, EachBlockWith::Nothing);
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net.peer(1).chain.add_block(EachBlockWith::Nothing, |mut header| {
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header.set_extra_data(b"This extra data is way too long to be considered valid".to_vec());
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header
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});
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net.sync_steps(20);
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// This gets accepted just fine since the TestBlockChainClient performs no validation.
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// Probably remove this test?
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assert_eq!(net.peer(0).chain.chain_info().best_block_number, 6);
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}
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#[test]
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fn reject_on_broken_chain() {
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let mut net = TestNet::new(2);
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net.peer(1).chain.add_blocks(10, EachBlockWith::Nothing);
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net.peer(1).chain.corrupt_block_parent(6);
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net.sync_steps(20);
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assert_eq!(net.peer(0).chain.chain_info().best_block_number, 0);
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}
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#[test]
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fn disconnect_on_unrelated_chain() {
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::env_logger::try_init().ok();
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let mut net = TestNet::new(2);
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net.peer(0).chain.set_history(Some(20));
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net.peer(1).chain.set_history(Some(20));
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net.restart_peer(0);
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net.restart_peer(1);
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net.peer(0).chain.add_blocks(500, EachBlockWith::Uncle);
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net.peer(1).chain.add_blocks(300, EachBlockWith::Nothing);
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net.sync();
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assert_eq!(net.disconnect_events, vec![(0, 0)]);
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}
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