// Copyright 2015, 2016 Ethcore (UK) Ltd.
// This file is part of Parity.
// Parity is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Parity is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see .
//! Tendermint BFT consensus engine with round robin proof-of-authority.
mod message;
mod transition;
mod params;
mod vote_collector;
use std::sync::atomic::{AtomicUsize, Ordering as AtomicOrdering};
use util::*;
use basic_types::Seal;
use error::{Error, BlockError};
use header::Header;
use builtin::Builtin;
use env_info::EnvInfo;
use transaction::SignedTransaction;
use rlp::{UntrustedRlp, View};
use ethkey::{recover, public_to_address};
use account_provider::AccountProvider;
use block::*;
use spec::CommonParams;
use engines::{Engine, EngineError};
use blockchain::extras::BlockDetails;
use views::HeaderView;
use evm::Schedule;
use io::{IoService, IoChannel};
use service::ClientIoMessage;
use self::message::{ConsensusMessage, message_info_rlp, message_full_rlp};
use self::transition::TransitionHandler;
use self::params::TendermintParams;
use self::vote_collector::VoteCollector;
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
pub enum Step {
Propose,
Prevote,
Precommit,
Commit
}
pub type Height = usize;
pub type Round = usize;
pub type BlockHash = H256;
type Signatures = Vec;
/// Engine using `Tendermint` consensus algorithm, suitable for EVM chain.
pub struct Tendermint {
params: CommonParams,
our_params: TendermintParams,
builtins: BTreeMap,
step_service: IoService,
/// Address to be used as authority.
authority: RwLock,
/// Blockchain height.
height: AtomicUsize,
/// Consensus round.
round: AtomicUsize,
/// Consensus step.
step: RwLock,
/// Used to swith proposer.
proposer_nonce: AtomicUsize,
/// Vote accumulator.
votes: VoteCollector,
/// Channel for updating the sealing.
message_channel: Mutex>>,
/// Used to sign messages and proposals.
account_provider: Mutex>>,
/// Message for the last PoLC.
lock_change: RwLock>,
/// Last lock round.
last_lock: AtomicUsize,
/// Bare hash of the proposed block, used for seal submission.
proposal: RwLock>
}
impl Tendermint {
/// Create a new instance of Tendermint engine
pub fn new(params: CommonParams, our_params: TendermintParams, builtins: BTreeMap) -> Result, Error> {
let engine = Arc::new(
Tendermint {
params: params,
our_params: our_params,
builtins: builtins,
step_service: try!(IoService::::start()),
authority: RwLock::new(Address::default()),
height: AtomicUsize::new(0),
round: AtomicUsize::new(0),
step: RwLock::new(Step::Propose),
proposer_nonce: AtomicUsize::new(0),
votes: VoteCollector::new(),
message_channel: Mutex::new(None),
account_provider: Mutex::new(None),
lock_change: RwLock::new(None),
last_lock: AtomicUsize::new(0),
proposal: RwLock::new(None)
});
let handler = TransitionHandler { engine: Arc::downgrade(&engine) };
try!(engine.step_service.register_handler(Arc::new(handler)));
Ok(engine)
}
fn update_sealing(&self) {
if let Some(ref channel) = *self.message_channel.lock() {
match channel.send(ClientIoMessage::UpdateSealing) {
Ok(_) => trace!(target: "poa", "timeout: UpdateSealing message sent."),
Err(err) => warn!(target: "poa", "timeout: Could not send a sealing message {}.", err),
}
}
}
fn submit_seal(&self, block_hash: H256, seal: Vec) {
if let Some(ref channel) = *self.message_channel.lock() {
match channel.send(ClientIoMessage::SubmitSeal(block_hash, seal)) {
Ok(_) => trace!(target: "poa", "timeout: SubmitSeal message sent."),
Err(err) => warn!(target: "poa", "timeout: Could not send a sealing message {}.", err),
}
}
}
fn broadcast_message(&self, block_hash: Option) {
if let Some(message) = self.generate_message(block_hash) {
if let Some(ref channel) = *self.message_channel.lock() {
match channel.send(ClientIoMessage::BroadcastMessage(message)) {
Ok(_) => trace!(target: "poa", "timeout: BroadcastMessage message sent."),
Err(err) => warn!(target: "poa", "timeout: Could not send a sealing message {}.", err),
}
}
} else {
warn!(target: "poa", "broadcast_message: Message could not be generated.");
}
}
fn generate_message(&self, block_hash: Option) -> Option {
if let Some(ref ap) = *self.account_provider.lock() {
message_full_rlp(
|mh| ap.sign(*self.authority.read(), None, mh).ok().map(H520::from),
self.height.load(AtomicOrdering::SeqCst),
self.round.load(AtomicOrdering::SeqCst),
*self.step.read(),
block_hash
)
} else {
None
}
}
fn to_step(&self, step: Step) {
*self.step.write() = step;
match step {
Step::Propose => {
*self.proposal.write() = None;
self.update_sealing()
},
Step::Prevote => {
let block_hash = match *self.lock_change.read() {
Some(ref m) if self.should_unlock(m.round) => self.proposal.read().clone(),
Some(ref m) => m.block_hash,
None => None,
};
self.broadcast_message(block_hash)
},
Step::Precommit => {
let block_hash = match *self.lock_change.read() {
Some(ref m) if self.is_round(m) => {
self.last_lock.store(m.round, AtomicOrdering::SeqCst);
m.block_hash
},
_ => None,
};
self.broadcast_message(block_hash);
},
Step::Commit => {
// Commit the block using a complete signature set.
let round = self.round.load(AtomicOrdering::SeqCst);
if let Some(seal) = self.votes.seal_signatures(self.height.load(AtomicOrdering::SeqCst), round, *self.proposal.read()) {
let seal = vec![
::rlp::encode(&round).to_vec(),
::rlp::encode(&seal.proposal).to_vec(),
::rlp::encode(&seal.votes).to_vec()
];
if let Some(block_hash) = *self.proposal.read() {
self.submit_seal(block_hash, seal);
}
}
*self.lock_change.write() = None;
},
}
}
fn nonce_proposer(&self, proposer_nonce: usize) -> &Address {
let ref p = self.our_params;
p.authorities.get(proposer_nonce % p.authority_n).expect("There are authority_n authorities; taking number modulo authority_n gives number in authority_n range; qed")
}
fn is_nonce_proposer(&self, proposer_nonce: usize, address: &Address) -> bool {
self.nonce_proposer(proposer_nonce) == address
}
fn is_authority(&self, address: &Address) -> bool {
self.our_params.authorities.contains(address)
}
fn threshold(&self) -> usize {
self.our_params.authority_n * 2/3
}
/// Round proposer switching.
fn is_proposer(&self, address: &Address) -> bool {
self.is_nonce_proposer(self.proposer_nonce.load(AtomicOrdering::SeqCst), address)
}
fn is_height(&self, message: &ConsensusMessage) -> bool {
message.is_height(self.height.load(AtomicOrdering::SeqCst))
}
fn is_round(&self, message: &ConsensusMessage) -> bool {
message.is_round(self.height.load(AtomicOrdering::SeqCst), self.round.load(AtomicOrdering::SeqCst))
}
fn increment_round(&self, n: Round) {
self.proposer_nonce.fetch_add(n, AtomicOrdering::SeqCst);
self.round.fetch_add(n, AtomicOrdering::SeqCst);
}
fn reset_round(&self) {
self.last_lock.store(0, AtomicOrdering::SeqCst);
self.proposer_nonce.fetch_add(1, AtomicOrdering::SeqCst);
self.height.fetch_add(1, AtomicOrdering::SeqCst);
self.round.store(0, AtomicOrdering::SeqCst);
}
fn should_unlock(&self, lock_change_round: Round) -> bool {
self.last_lock.load(AtomicOrdering::SeqCst) < lock_change_round
&& lock_change_round < self.round.load(AtomicOrdering::SeqCst)
}
fn has_enough_any_votes(&self) -> bool {
self.votes.count_step_votes(self.height.load(AtomicOrdering::SeqCst), self.round.load(AtomicOrdering::SeqCst), *self.step.read()) > self.threshold()
}
fn has_enough_future_step_votes(&self, message: &ConsensusMessage) -> bool {
message.round > self.round.load(AtomicOrdering::SeqCst)
&& self.votes.count_step_votes(message.height, message.round, message.step) > self.threshold()
}
fn has_enough_aligned_votes(&self, message: &ConsensusMessage) -> bool {
self.votes.aligned_votes(&message).len() > self.threshold()
}
}
/// Block hash including the consensus round, gets signed and included in the seal.
fn block_hash(header: &Header) -> H256 {
header.rlp(Seal::WithSome(1)).sha3()
}
fn proposer_signature(header: &Header) -> Result {
UntrustedRlp::new(header.seal()[1].as_slice()).as_val()
}
fn consensus_round(header: &Header) -> Result {
UntrustedRlp::new(header.seal()[0].as_slice()).as_val()
}
impl Engine for Tendermint {
fn name(&self) -> &str { "Tendermint" }
fn version(&self) -> SemanticVersion { SemanticVersion::new(1, 0, 0) }
/// (consensus round, proposal signature, authority signatures)
fn seal_fields(&self) -> usize { 3 }
fn params(&self) -> &CommonParams { &self.params }
fn builtins(&self) -> &BTreeMap { &self.builtins }
/// Additional engine-specific information for the user/developer concerning `header`.
fn extra_info(&self, header: &Header) -> BTreeMap {
map![
"signature".into() => proposer_signature(header).as_ref().map(ToString::to_string).unwrap_or("".into()),
"height".into() => header.number().to_string(),
"round".into() => consensus_round(header).as_ref().map(ToString::to_string).unwrap_or("".into()),
"block_hash".into() => block_hash(header).to_string()
]
}
fn schedule(&self, _env_info: &EnvInfo) -> Schedule {
Schedule::new_homestead()
}
fn populate_from_parent(&self, header: &mut Header, parent: &Header, gas_floor_target: U256, _gas_ceil_target: U256) {
header.set_difficulty(parent.difficulty().clone());
header.set_gas_limit({
let gas_limit = parent.gas_limit().clone();
let bound_divisor = self.our_params.gas_limit_bound_divisor;
if gas_limit < gas_floor_target {
min(gas_floor_target, gas_limit + gas_limit / bound_divisor - 1.into())
} else {
max(gas_floor_target, gas_limit - gas_limit / bound_divisor + 1.into())
}
});
}
/// Get the address to be used as authority.
fn on_new_block(&self, block: &mut ExecutedBlock) {
*self.authority.write() = *block.header().author()
}
/// Set the correct round in the seal.
fn on_close_block(&self, block: &mut ExecutedBlock) {
let round = self.round.load(AtomicOrdering::SeqCst);
block.fields_mut().header.set_seal(vec![::rlp::encode(&round).to_vec(), Vec::new(), Vec::new()]);
}
/// Round proposer switching.
fn is_sealer(&self, address: &Address) -> Option {
Some(self.is_proposer(address))
}
/// Attempt to seal the block internally using all available signatures.
fn generate_seal(&self, block: &ExecutedBlock) -> Option> {
if let Some(ref ap) = *self.account_provider.lock() {
let header = block.header();
let author = header.author();
let vote_info = message_info_rlp(header.number() as Height, self.round.load(AtomicOrdering::SeqCst), Step::Propose, Some(block_hash(header)));
if let Ok(signature) = ap.sign(*author, None, vote_info.sha3()) {
*self.proposal.write() = Some(header.bare_hash());
Some(vec![
::rlp::encode(&self.round.load(AtomicOrdering::SeqCst)).to_vec(),
::rlp::encode(&H520::from(signature)).to_vec(),
Vec::new()
])
} else {
warn!(target: "poa", "generate_seal: FAIL: accounts secret key unavailable");
None
}
} else {
warn!(target: "poa", "generate_seal: FAIL: accounts not provided");
None
}
}
fn handle_message(&self, rlp: UntrustedRlp) -> Result<(), Error> {
let message: ConsensusMessage = try!(rlp.as_val());
let sender = public_to_address(&try!(recover(&message.signature.into(), &try!(rlp.at(1)).as_raw().sha3())));
// TODO: Do not admit old messages.
if !self.is_authority(&sender) {
try!(Err(BlockError::InvalidSeal));
}
// Check if the message is known.
if self.votes.vote(message.clone(), sender).is_none() {
let is_newer_than_lock = match *self.lock_change.read() {
Some(ref lock) => &message > lock,
None => true,
};
if is_newer_than_lock
&& message.step == Step::Prevote
&& self.has_enough_aligned_votes(&message) {
*self.lock_change.write() = Some(message.clone());
}
// Check if it can affect the step transition.
if self.is_height(&message) {
let next_step = match *self.step.read() {
Step::Precommit if self.has_enough_aligned_votes(&message) => {
if message.block_hash.is_none() {
self.increment_round(1);
Some(Step::Propose)
} else {
Some(Step::Commit)
}
},
Step::Precommit if self.has_enough_future_step_votes(&message) => {
self.increment_round(message.round - self.round.load(AtomicOrdering::SeqCst));
Some(Step::Precommit)
},
Step::Prevote if self.has_enough_aligned_votes(&message) => Some(Step::Precommit),
Step::Prevote if self.has_enough_future_step_votes(&message) => {
self.increment_round(message.round - self.round.load(AtomicOrdering::SeqCst));
Some(Step::Prevote)
},
_ => None,
};
if let Some(step) = next_step {
if let Err(io_err) = self.step_service.send_message(step) {
warn!(target: "poa", "Could not proceed to next step {}.", io_err)
}
}
}
}
Ok(())
}
fn verify_block_basic(&self, header: &Header, _block: Option<&[u8]>) -> Result<(), Error> {
let seal_length = header.seal().len();
if seal_length == self.seal_fields() {
Ok(())
} else {
Err(From::from(BlockError::InvalidSealArity(
Mismatch { expected: self.seal_fields(), found: seal_length }
)))
}
}
/// Also transitions to Prevote if verifying Proposal.
fn verify_block_unordered(&self, header: &Header, _block: Option<&[u8]>) -> Result<(), Error> {
let signature = try!(proposer_signature(header));
let proposal = ConsensusMessage {
signature: signature,
height: header.number() as Height,
round: try!(consensus_round(header)),
step: Step::Propose,
block_hash: Some(block_hash(header))
};
let proposer = public_to_address(&try!(recover(&signature.into(), &::rlp::encode(&proposal))));
if !self.is_proposer(&proposer) {
try!(Err(BlockError::InvalidSeal))
}
self.votes.vote(proposal, proposer);
let votes_rlp = UntrustedRlp::new(&header.seal()[2]);
for rlp in votes_rlp.iter() {
let sig: H520 = try!(rlp.as_val());
let address = public_to_address(&try!(recover(&sig.into(), &block_hash(header))));
if !self.our_params.authorities.contains(&address) {
try!(Err(BlockError::InvalidSeal))
}
}
Ok(())
}
fn verify_block_family(&self, header: &Header, parent: &Header, _block: Option<&[u8]>) -> Result<(), Error> {
// we should not calculate difficulty for genesis blocks
if header.number() == 0 {
return Err(From::from(BlockError::RidiculousNumber(OutOfBounds { min: Some(1), max: None, found: header.number() })));
}
// Check difficulty is correct given the two timestamps.
if header.difficulty() != parent.difficulty() {
return Err(From::from(BlockError::InvalidDifficulty(Mismatch { expected: *parent.difficulty(), found: *header.difficulty() })))
}
let gas_limit_divisor = self.our_params.gas_limit_bound_divisor;
let min_gas = parent.gas_limit().clone() - parent.gas_limit().clone() / gas_limit_divisor;
let max_gas = parent.gas_limit().clone() + parent.gas_limit().clone() / gas_limit_divisor;
if header.gas_limit() <= &min_gas || header.gas_limit() >= &max_gas {
return Err(From::from(BlockError::InvalidGasLimit(OutOfBounds { min: Some(min_gas), max: Some(max_gas), found: header.gas_limit().clone() })));
}
Ok(())
}
fn verify_transaction_basic(&self, t: &SignedTransaction, _header: &Header) -> Result<(), Error> {
try!(t.check_low_s());
Ok(())
}
fn verify_transaction(&self, t: &SignedTransaction, _header: &Header) -> Result<(), Error> {
t.sender().map(|_|()) // Perform EC recovery and cache sender
}
fn is_new_best_block(&self, _best_total_difficulty: U256, best_header: HeaderView, _parent_details: &BlockDetails, new_header: &HeaderView) -> bool {
let new_signatures = new_header.seal().get(2).expect("Tendermint seal should have three elements.").len();
let best_signatures = best_header.seal().get(2).expect("Tendermint seal should have three elements.").len();
new_signatures > best_signatures
}
fn register_message_channel(&self, message_channel: IoChannel) {
*self.message_channel.lock() = Some(message_channel);
}
fn register_account_provider(&self, account_provider: Arc) {
*self.account_provider.lock() = Some(account_provider);
}
}
#[cfg(test)]
mod tests {
use std::thread::sleep;
use std::time::{Duration};
use util::*;
use rlp::{UntrustedRlp, RlpStream, Stream, View};
use block::*;
use error::{Error, BlockError};
use header::Header;
use env_info::EnvInfo;
use tests::helpers::*;
use account_provider::AccountProvider;
use spec::Spec;
use engines::{Engine, EngineError};
use super::Tendermint;
use super::params::TendermintParams;
fn propose_default(engine: &Arc, round: u8, proposer: Address) -> Result {
let mut s = RlpStream::new_list(3);
let header = Header::default();
s.append(&round).append(&0u8).append(&header.bare_hash());
let drain = s.out();
let propose_rlp = UntrustedRlp::new(&drain);
engine.handle_message(proposer, H520::default(), propose_rlp)
}
fn vote_default(engine: &Arc, round: u8, voter: Address) -> Result {
let mut s = RlpStream::new_list(3);
let header = Header::default();
s.append(&round).append(&1u8).append(&header.bare_hash());
let drain = s.out();
let vote_rlp = UntrustedRlp::new(&drain);
engine.handle_message(voter, H520::default(), vote_rlp)
}
fn good_seal(header: &Header) -> Vec {
let tap = AccountProvider::transient_provider();
let mut seal = Vec::new();
let v0 = tap.insert_account("0".sha3(), "0").unwrap();
let sig0 = tap.sign(v0, Some("0".into()), header.bare_hash()).unwrap();
seal.push(::rlp::encode(&(&*sig0 as &[u8])).to_vec());
let v1 = tap.insert_account("1".sha3(), "1").unwrap();
let sig1 = tap.sign(v1, Some("1".into()), header.bare_hash()).unwrap();
seal.push(::rlp::encode(&(&*sig1 as &[u8])).to_vec());
seal
}
fn default_block() -> Vec {
vec![160, 39, 191, 179, 126, 80, 124, 233, 13, 161, 65, 48, 114, 4, 177, 198, 186, 36, 25, 67, 128, 97, 53, 144, 172, 80, 202, 75, 29, 113, 152, 255, 101]
}
#[test]
fn has_valid_metadata() {
let engine = Spec::new_test_tendermint().engine;
assert!(!engine.name().is_empty());
assert!(engine.version().major >= 1);
}
#[test]
fn can_return_schedule() {
let engine = Spec::new_test_tendermint().engine;
let schedule = engine.schedule(&EnvInfo {
number: 10000000,
author: 0.into(),
timestamp: 0,
difficulty: 0.into(),
last_hashes: Arc::new(vec![]),
gas_used: 0.into(),
gas_limit: 0.into(),
});
assert!(schedule.stack_limit > 0);
}
#[test]
fn verification_fails_on_short_seal() {
let engine = Spec::new_test_tendermint().engine;
let header: Header = Header::default();
let verify_result = engine.verify_block_basic(&header, None);
match verify_result {
Err(Error::Block(BlockError::InvalidSealArity(_))) => {},
Err(_) => { panic!("should be block seal-arity mismatch error (got {:?})", verify_result); },
_ => { panic!("Should be error, got Ok"); },
}
}
#[test]
fn verification_fails_on_wrong_signatures() {
let engine = Spec::new_test_tendermint().engine;
let mut header = Header::default();
let tap = AccountProvider::transient_provider();
let mut seal = Vec::new();
let v1 = tap.insert_account("0".sha3(), "0").unwrap();
let sig1 = tap.sign(v1, Some("0".into()), header.bare_hash()).unwrap();
seal.push(::rlp::encode(&(&*sig1 as &[u8])).to_vec());
header.set_seal(seal.clone());
// Not enough signatures.
assert!(engine.verify_block_basic(&header, None).is_err());
let v2 = tap.insert_account("101".sha3(), "101").unwrap();
let sig2 = tap.sign(v2, Some("101".into()), header.bare_hash()).unwrap();
seal.push(::rlp::encode(&(&*sig2 as &[u8])).to_vec());
header.set_seal(seal);
// Enough signatures.
assert!(engine.verify_block_basic(&header, None).is_ok());
let verify_result = engine.verify_block_unordered(&header, None);
// But wrong signatures.
match verify_result {
Err(Error::Block(BlockError::InvalidSeal)) => (),
Err(_) => panic!("should be block seal-arity mismatch error (got {:?})", verify_result),
_ => panic!("Should be error, got Ok"),
}
}
#[test]
fn seal_with_enough_signatures_is_ok() {
let engine = Spec::new_test_tendermint().engine;
let mut header = Header::default();
let seal = good_seal(&header);
header.set_seal(seal);
// Enough signatures.
assert!(engine.verify_block_basic(&header, None).is_ok());
// And they are ok.
assert!(engine.verify_block_unordered(&header, None).is_ok());
}
#[test]
fn can_generate_seal() {
let spec = Spec::new_test_tendermint();
let ref engine = *spec.engine;
let tender = Tendermint::new(engine.params().clone(), TendermintParams::default(), BTreeMap::new());
let genesis_header = spec.genesis_header();
let mut db_result = get_temp_state_db();
let mut db = db_result.take();
spec.ensure_db_good(&mut db).unwrap();
let last_hashes = Arc::new(vec![genesis_header.hash()]);
let b = OpenBlock::new(engine, Default::default(), false, db, &genesis_header, last_hashes, Address::default(), (3141562.into(), 31415620.into()), vec![]).unwrap();
let b = b.close_and_lock();
tender.to_commit(b.hash(), good_seal(&b.header()));
let seal = tender.generate_seal(b.block(), None).unwrap();
assert!(b.try_seal(engine, seal).is_ok());
}
#[test]
fn propose_step() {
let engine = Spec::new_test_tendermint().engine;
let tap = AccountProvider::transient_provider();
let r = 0;
let not_authority_addr = tap.insert_account("101".sha3(), "101").unwrap();
assert!(propose_default(&engine, r, not_authority_addr).is_err());
let not_proposer_addr = tap.insert_account("0".sha3(), "0").unwrap();
assert!(propose_default(&engine, r, not_proposer_addr).is_err());
let proposer_addr = tap.insert_account("1".sha3(), "1").unwrap();
assert_eq!(default_block(), propose_default(&engine, r, proposer_addr).unwrap());
assert!(propose_default(&engine, r, proposer_addr).is_err());
assert!(propose_default(&engine, r, not_proposer_addr).is_err());
}
#[test]
fn proposer_switching() {
let engine = Spec::new_test_tendermint().engine;
let tap = AccountProvider::transient_provider();
// Currently not a proposer.
let not_proposer_addr = tap.insert_account("0".sha3(), "0").unwrap();
assert!(propose_default(&engine, 0, not_proposer_addr).is_err());
sleep(Duration::from_millis(TendermintParams::default().timeouts.propose as u64));
// Becomes proposer after timeout.
assert_eq!(default_block(), propose_default(&engine, 0, not_proposer_addr).unwrap());
}
#[test]
fn prevote_step() {
let engine = Spec::new_test_tendermint().engine;
let tap = AccountProvider::transient_provider();
let r = 0;
let v0 = tap.insert_account("0".sha3(), "0").unwrap();
let v1 = tap.insert_account("1".sha3(), "1").unwrap();
// Propose.
assert!(propose_default(&engine, r, v1.clone()).is_ok());
// Prevote.
assert_eq!(default_block(), vote_default(&engine, r, v0.clone()).unwrap());
assert!(vote_default(&engine, r, v0).is_err());
assert!(vote_default(&engine, r, v1).is_err());
}
#[test]
fn precommit_step() {
let engine = Spec::new_test_tendermint().engine;
let tap = AccountProvider::transient_provider();
let r = 0;
let v0 = tap.insert_account("0".sha3(), "0").unwrap();
let v1 = tap.insert_account("1".sha3(), "1").unwrap();
// Propose.
assert!(propose_default(&engine, r, v1.clone()).is_ok());
// Prevote.
assert_eq!(default_block(), vote_default(&engine, r, v0.clone()).unwrap());
assert!(vote_default(&engine, r, v0).is_err());
assert!(vote_default(&engine, r, v1).is_err());
}
#[test]
fn timeout_switching() {
let tender = {
let engine = Spec::new_test_tendermint().engine;
Tendermint::new(engine.params().clone(), TendermintParams::default(), BTreeMap::new())
};
println!("Waiting for timeout");
sleep(Duration::from_secs(10));
}
#[test]
fn increments_round() {
let spec = Spec::new_test_tendermint();
let ref engine = *spec.engine;
let def_params = TendermintParams::default();
let tender = Tendermint::new(engine.params().clone(), def_params.clone(), BTreeMap::new());
let header = Header::default();
tender.to_commit(header.bare_hash(), good_seal(&header));
sleep(Duration::from_millis(def_params.timeouts.commit as u64));
match propose_default(&(tender as Arc), 0, Address::default()) {
Err(Error::Engine(EngineError::WrongRound)) => {},
_ => panic!("Should be EngineError::WrongRound"),
}
}
}