openethereum/sync/src/tests.rs

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use util::*;
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use ethcore::client::{BlockChainClient, BlockStatus, TreeRoute, BlockChainInfo};
use ethcore::block_queue::BlockQueueInfo;
use ethcore::header::{Header as BlockHeader, BlockNumber};
use ethcore::error::*;
use io::SyncIo;
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use chain::{ChainSync, SyncState};
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struct TestBlockChainClient {
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blocks: RwLock<HashMap<H256, Bytes>>,
numbers: RwLock<HashMap<usize, H256>>,
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genesis_hash: H256,
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last_hash: RwLock<H256>,
difficulty: RwLock<U256>,
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}
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impl TestBlockChainClient {
fn new() -> TestBlockChainClient {
let mut client = TestBlockChainClient {
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blocks: RwLock::new(HashMap::new()),
numbers: RwLock::new(HashMap::new()),
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genesis_hash: H256::new(),
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last_hash: RwLock::new(H256::new()),
difficulty: RwLock::new(From::from(0)),
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};
client.add_blocks(1, true); // add genesis block
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client.genesis_hash = client.last_hash.read().unwrap().clone();
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client
}
pub fn add_blocks(&mut self, count: usize, empty: bool) {
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let len = self.numbers.read().unwrap().len();
for n in len..(len + count) {
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let mut header = BlockHeader::new();
header.difficulty = From::from(n);
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header.parent_hash = self.last_hash.read().unwrap().clone();
header.number = n as BlockNumber;
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let mut uncles = RlpStream::new_list(if empty {0} else {1});
if !empty {
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let mut uncle_header = BlockHeader::new();
uncle_header.difficulty = From::from(n);
uncle_header.parent_hash = self.last_hash.read().unwrap().clone();
uncle_header.number = n as BlockNumber;
uncles.append(&uncle_header);
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header.uncles_hash = uncles.as_raw().sha3();
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}
let mut rlp = RlpStream::new_list(3);
rlp.append(&header);
rlp.append_raw(&rlp::NULL_RLP, 1);
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rlp.append_raw(uncles.as_raw(), 1);
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self.import_block(rlp.as_raw().to_vec()).unwrap();
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}
}
}
impl BlockChainClient for TestBlockChainClient {
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fn block_total_difficulty(&self, _h: &H256) -> Option<U256> {
unimplemented!();
}
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fn block_header(&self, h: &H256) -> Option<Bytes> {
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self.blocks.read().unwrap().get(h).map(|r| Rlp::new(r).at(0).as_raw().to_vec())
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}
fn block_body(&self, h: &H256) -> Option<Bytes> {
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self.blocks.read().unwrap().get(h).map(|r| {
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let mut stream = RlpStream::new_list(2);
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stream.append_raw(Rlp::new(&r).at(1).as_raw(), 1);
stream.append_raw(Rlp::new(&r).at(2).as_raw(), 1);
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stream.out()
})
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}
fn block(&self, h: &H256) -> Option<Bytes> {
self.blocks.read().unwrap().get(h).cloned()
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}
fn block_status(&self, h: &H256) -> BlockStatus {
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match self.blocks.read().unwrap().get(h) {
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Some(_) => BlockStatus::InChain,
None => BlockStatus::Unknown
}
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}
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fn block_total_difficulty_at(&self, _number: BlockNumber) -> Option<U256> {
unimplemented!();
}
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fn block_header_at(&self, n: BlockNumber) -> Option<Bytes> {
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self.numbers.read().unwrap().get(&(n as usize)).and_then(|h| self.block_header(h))
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}
fn block_body_at(&self, n: BlockNumber) -> Option<Bytes> {
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self.numbers.read().unwrap().get(&(n as usize)).and_then(|h| self.block_body(h))
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}
fn block_at(&self, n: BlockNumber) -> Option<Bytes> {
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self.numbers.read().unwrap().get(&(n as usize)).map(|h| self.blocks.read().unwrap().get(h).unwrap().clone())
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}
fn block_status_at(&self, n: BlockNumber) -> BlockStatus {
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if (n as usize) < self.blocks.read().unwrap().len() {
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BlockStatus::InChain
} else {
BlockStatus::Unknown
}
}
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fn tree_route(&self, _from: &H256, _to: &H256) -> Option<TreeRoute> {
Some(TreeRoute {
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blocks: Vec::new(),
ancestor: H256::new(),
index: 0
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})
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}
fn state_data(&self, _h: &H256) -> Option<Bytes> {
None
}
fn block_receipts(&self, _h: &H256) -> Option<Bytes> {
None
}
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fn import_block(&self, b: Bytes) -> ImportResult {
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let header = Rlp::new(&b).val_at::<BlockHeader>(0);
let h = header.hash();
let number: usize = header.number as usize;
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if number > self.blocks.read().unwrap().len() {
panic!("Unexpected block number. Expected {}, got {}", self.blocks.read().unwrap().len(), number);
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}
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if number > 0 {
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match self.blocks.read().unwrap().get(&header.parent_hash) {
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Some(parent) => {
let parent = Rlp::new(parent).val_at::<BlockHeader>(0);
if parent.number != (header.number - 1) {
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panic!("Unexpected block parent");
}
},
None => {
panic!("Unknown block parent {:?} for block {}", header.parent_hash, number);
}
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}
}
let len = self.numbers.read().unwrap().len();
if number == len {
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*self.difficulty.write().unwrap().deref_mut() += header.difficulty;
mem::replace(self.last_hash.write().unwrap().deref_mut(), h.clone());
self.blocks.write().unwrap().insert(h.clone(), b);
self.numbers.write().unwrap().insert(number, h.clone());
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let mut parent_hash = header.parent_hash;
if number > 0 {
let mut n = number - 1;
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while n > 0 && self.numbers.read().unwrap()[&n] != parent_hash {
*self.numbers.write().unwrap().get_mut(&n).unwrap() = parent_hash.clone();
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n -= 1;
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parent_hash = Rlp::new(&self.blocks.read().unwrap()[&parent_hash]).val_at::<BlockHeader>(0).parent_hash;
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}
}
}
else {
self.blocks.write().unwrap().insert(h.clone(), b.to_vec());
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}
Ok(h)
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}
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fn queue_info(&self) -> BlockQueueInfo {
BlockQueueInfo {
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full: false,
verified_queue_size: 0,
unverified_queue_size: 0,
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verifying_queue_size: 0,
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}
}
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fn clear_queue(&self) {
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}
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fn chain_info(&self) -> BlockChainInfo {
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BlockChainInfo {
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total_difficulty: *self.difficulty.read().unwrap(),
pending_total_difficulty: *self.difficulty.read().unwrap(),
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genesis_hash: self.genesis_hash.clone(),
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best_block_hash: self.last_hash.read().unwrap().clone(),
best_block_number: self.blocks.read().unwrap().len() as BlockNumber - 1,
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}
}
}
struct TestIo<'p> {
chain: &'p mut TestBlockChainClient,
queue: &'p mut VecDeque<TestPacket>,
sender: Option<PeerId>,
}
impl<'p> TestIo<'p> {
fn new(chain: &'p mut TestBlockChainClient, queue: &'p mut VecDeque<TestPacket>, sender: Option<PeerId>) -> TestIo<'p> {
TestIo {
chain: chain,
queue: queue,
sender: sender
}
}
}
impl<'p> SyncIo for TestIo<'p> {
fn disable_peer(&mut self, _peer_id: PeerId) {
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}
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fn disconnect_peer(&mut self, _peer_id: PeerId) {
}
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fn respond(&mut self, packet_id: PacketId, data: Vec<u8>) -> Result<(), UtilError> {
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self.queue.push_back(TestPacket {
data: data,
packet_id: packet_id,
recipient: self.sender.unwrap()
});
Ok(())
}
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fn send(&mut self, peer_id: PeerId, packet_id: PacketId, data: Vec<u8>) -> Result<(), UtilError> {
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self.queue.push_back(TestPacket {
data: data,
packet_id: packet_id,
recipient: peer_id,
});
Ok(())
}
fn chain(&self) -> &BlockChainClient {
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self.chain
}
}
struct TestPacket {
data: Bytes,
packet_id: PacketId,
recipient: PeerId,
}
struct TestPeer {
chain: TestBlockChainClient,
sync: ChainSync,
queue: VecDeque<TestPacket>,
}
struct TestNet {
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peers: Vec<TestPeer>,
started: bool,
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}
impl TestNet {
pub fn new(n: usize) -> TestNet {
let mut net = TestNet {
peers: Vec::new(),
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started: false,
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};
for _ in 0..n {
net.peers.push(TestPeer {
chain: TestBlockChainClient::new(),
sync: ChainSync::new(),
queue: VecDeque::new(),
});
}
net
}
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pub fn peer(&self, i: usize) -> &TestPeer {
self.peers.get(i).unwrap()
}
pub fn peer_mut(&mut self, i: usize) -> &mut TestPeer {
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self.peers.get_mut(i).unwrap()
}
pub fn start(&mut self) {
for peer in 0..self.peers.len() {
for client in 0..self.peers.len() {
if peer != client {
let mut p = self.peers.get_mut(peer).unwrap();
p.sync.on_peer_connected(&mut TestIo::new(&mut p.chain, &mut p.queue, Some(client as PeerId)), client as PeerId);
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}
}
}
}
pub fn sync_step(&mut self) {
for peer in 0..self.peers.len() {
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if let Some(packet) = self.peers[peer].queue.pop_front() {
let mut p = self.peers.get_mut(packet.recipient).unwrap();
trace!("--- {} -> {} ---", peer, packet.recipient);
p.sync.on_packet(&mut TestIo::new(&mut p.chain, &mut p.queue, Some(peer as PeerId)), peer as PeerId, packet.packet_id, &packet.data);
trace!("----------------");
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}
let mut p = self.peers.get_mut(peer).unwrap();
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p.sync.maintain_sync(&mut TestIo::new(&mut p.chain, &mut p.queue, None));
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}
}
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pub fn restart_peer(&mut self, i: usize) {
let peer = self.peer_mut(i);
peer.sync.restart(&mut TestIo::new(&mut peer.chain, &mut peer.queue, None));
}
pub fn sync(&mut self) -> u32 {
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self.start();
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let mut total_steps = 0;
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while !self.done() {
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self.sync_step();
total_steps = total_steps + 1;
}
total_steps
}
pub fn sync_steps(&mut self, count: usize) {
if !self.started {
self.start();
self.started = true;
}
for _ in 0..count {
self.sync_step();
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}
}
pub fn done(&self) -> bool {
self.peers.iter().all(|p| p.queue.is_empty())
}
}
#[test]
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fn chain_two_peers() {
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::env_logger::init().ok();
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let mut net = TestNet::new(3);
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net.peer_mut(1).chain.add_blocks(1000, false);
net.peer_mut(2).chain.add_blocks(1000, false);
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net.sync();
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assert!(net.peer(0).chain.block_at(1000).is_some());
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assert_eq!(net.peer(0).chain.blocks.read().unwrap().deref(), net.peer(1).chain.blocks.read().unwrap().deref());
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}
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#[test]
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fn chain_status_after_sync() {
::env_logger::init().ok();
let mut net = TestNet::new(3);
net.peer_mut(1).chain.add_blocks(1000, false);
net.peer_mut(2).chain.add_blocks(1000, false);
net.sync();
let status = net.peer(0).sync.status();
assert_eq!(status.state, SyncState::Idle);
}
#[test]
fn chain_takes_few_steps() {
let mut net = TestNet::new(3);
net.peer_mut(1).chain.add_blocks(100, false);
net.peer_mut(2).chain.add_blocks(100, false);
let total_steps = net.sync();
assert!(total_steps < 7);
}
#[test]
fn chain_empty_blocks() {
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::env_logger::init().ok();
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let mut net = TestNet::new(3);
for n in 0..200 {
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net.peer_mut(1).chain.add_blocks(5, n % 2 == 0);
net.peer_mut(2).chain.add_blocks(5, n % 2 == 0);
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}
net.sync();
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assert!(net.peer(0).chain.block_at(1000).is_some());
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assert_eq!(net.peer(0).chain.blocks.read().unwrap().deref(), net.peer(1).chain.blocks.read().unwrap().deref());
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}
#[test]
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fn chain_forked() {
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::env_logger::init().ok();
let mut net = TestNet::new(3);
net.peer_mut(0).chain.add_blocks(300, false);
net.peer_mut(1).chain.add_blocks(300, false);
net.peer_mut(2).chain.add_blocks(300, false);
net.peer_mut(0).chain.add_blocks(100, true); //fork
net.peer_mut(1).chain.add_blocks(200, false);
net.peer_mut(2).chain.add_blocks(200, false);
net.peer_mut(1).chain.add_blocks(100, false); //fork between 1 and 2
net.peer_mut(2).chain.add_blocks(10, true);
// peer 1 has the best chain of 601 blocks
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let peer1_chain = net.peer(1).chain.numbers.read().unwrap().clone();
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net.sync();
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assert_eq!(net.peer(0).chain.numbers.read().unwrap().deref(), &peer1_chain);
assert_eq!(net.peer(1).chain.numbers.read().unwrap().deref(), &peer1_chain);
assert_eq!(net.peer(2).chain.numbers.read().unwrap().deref(), &peer1_chain);
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}
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#[test]
fn chain_restart() {
let mut net = TestNet::new(3);
net.peer_mut(1).chain.add_blocks(1000, false);
net.peer_mut(2).chain.add_blocks(1000, false);
net.sync_steps(8);
// make sure that sync has actually happened
assert!(net.peer(0).chain.chain_info().best_block_number > 100);
net.restart_peer(0);
let status = net.peer(0).sync.status();
assert_eq!(status.state, SyncState::NotSynced);
}
#[test]
fn chain_status_empty() {
let net = TestNet::new(2);
assert_eq!(net.peer(0).sync.status().state, SyncState::NotSynced);
}