Files
pezkuwi-subxt/substrate/core/finality-grandpa/src/tests.rs
T
Tomasz Drwięga e2f5e40876 Initial: Offchain Workers (#1942)
* Refactor state-machine stuff.

* Fix tests.

* WiP

* WiP2

* Service support for offchain workers.

* Service support for offchain workers.

* Testing offchain worker.

* Initial version working.

* Pass side effects in call.

* Pass OffchainExt in context.

* Submit extrinsics to the pool.

* Support inherents.

* Insert to inherents pool.

* Inserting to the pool asynchronously.

* Add test to offchain worker.

* Implement convenience syntax for modules.

* Dispatching offchain worker through executive.

* Fix offchain test.

* Remove offchain worker from timestamp.

* Update Cargo.lock.

* Address review comments.

* Use latest patch version for futures.

* Add CLI parameter for offchain worker.

* Fix compilation.

* Fix test.

* Fix extrinsics format for tests.

* Fix RPC test.

* Bump spec version.

* Fix executive.

* Fix support macro.

* Address grumbles.

* Bump runtime
2019-03-25 23:22:11 +01:00

1047 lines
30 KiB
Rust

// Copyright 2018-2019 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate 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.
// Substrate 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 Substrate. If not, see <http://www.gnu.org/licenses/>.
//! Tests and test helpers for GRANDPA.
use super::*;
use network::test::{Block, DummySpecialization, Hash, TestNetFactory, Peer, PeersClient};
use network::test::{PassThroughVerifier};
use network::config::{ProtocolConfig, Roles};
use parking_lot::Mutex;
use tokio::runtime::current_thread;
use keyring::AuthorityKeyring;
use client::{
BlockchainEvents, error::Result,
blockchain::Backend as BlockchainBackend,
runtime_api::{Core, RuntimeVersion, ApiExt},
};
use test_client::{self, runtime::BlockNumber};
use consensus_common::{BlockOrigin, ForkChoiceStrategy, ImportedAux, ImportBlock, ImportResult};
use consensus_common::import_queue::{SharedBlockImport, SharedJustificationImport};
use std::collections::{HashMap, HashSet};
use std::result;
use runtime_primitives::traits::{ApiRef, ProvideRuntimeApi};
use runtime_primitives::generic::BlockId;
use substrate_primitives::{NativeOrEncoded, ExecutionContext};
use authorities::AuthoritySet;
use consensus_changes::ConsensusChanges;
type PeerData =
Mutex<
Option<
LinkHalf<
test_client::Backend,
test_client::Executor,
Block,
test_client::runtime::RuntimeApi,
>
>
>;
type GrandpaPeer = Peer<PeerData, DummySpecialization>;
struct GrandpaTestNet {
peers: Vec<Arc<GrandpaPeer>>,
test_config: TestApi,
started: bool,
}
impl GrandpaTestNet {
fn new(test_config: TestApi, n_peers: usize) -> Self {
let mut net = GrandpaTestNet {
peers: Vec::with_capacity(n_peers),
started: false,
test_config,
};
let config = Self::default_config();
for _ in 0..n_peers {
net.add_peer(&config);
}
net
}
}
impl TestNetFactory for GrandpaTestNet {
type Specialization = DummySpecialization;
type Verifier = PassThroughVerifier;
type PeerData = PeerData;
/// Create new test network with peers and given config.
fn from_config(_config: &ProtocolConfig) -> Self {
GrandpaTestNet {
peers: Vec::new(),
test_config: Default::default(),
started: false,
}
}
fn default_config() -> ProtocolConfig {
// the authority role ensures gossip hits all nodes here.
ProtocolConfig {
roles: Roles::AUTHORITY,
}
}
fn make_verifier(&self, _client: Arc<PeersClient>, _cfg: &ProtocolConfig)
-> Arc<Self::Verifier>
{
Arc::new(PassThroughVerifier(false)) // use non-instant finality.
}
fn make_block_import(&self, client: Arc<PeersClient>)
-> (SharedBlockImport<Block>, Option<SharedJustificationImport<Block>>, PeerData)
{
let (import, link) = block_import(
client,
Arc::new(self.test_config.clone())
).expect("Could not create block import for fresh peer.");
let shared_import = Arc::new(import);
(shared_import.clone(), Some(shared_import), Mutex::new(Some(link)))
}
fn peer(&self, i: usize) -> &GrandpaPeer {
&self.peers[i]
}
fn peers(&self) -> &Vec<Arc<GrandpaPeer>> {
&self.peers
}
fn mut_peers<F: FnOnce(&mut Vec<Arc<GrandpaPeer>>)>(&mut self, closure: F) {
closure(&mut self.peers);
}
fn started(&self) -> bool {
self.started
}
fn set_started(&mut self, new: bool) {
self.started = new;
}
}
#[derive(Clone)]
struct MessageRouting {
inner: Arc<Mutex<GrandpaTestNet>>,
peer_id: usize,
validator: Arc<GossipValidator<Block>>,
}
impl MessageRouting {
fn new(inner: Arc<Mutex<GrandpaTestNet>>, peer_id: usize,) -> Self {
let validator = Arc::new(GossipValidator::new());
let v = validator.clone();
{
let inner = inner.lock();
let peer = inner.peer(peer_id);
peer.with_gossip(move |gossip, _| {
gossip.register_validator(GRANDPA_ENGINE_ID, v);
});
}
MessageRouting {
inner,
peer_id,
validator,
}
}
fn drop_messages(&self, topic: Hash) {
let inner = self.inner.lock();
let peer = inner.peer(self.peer_id);
peer.consensus_gossip_collect_garbage_for_topic(topic);
}
}
fn make_topic(round: u64, set_id: u64) -> Hash {
message_topic::<Block>(round, set_id)
}
fn make_commit_topic(set_id: u64) -> Hash {
commit_topic::<Block>(set_id)
}
impl Network<Block> for MessageRouting {
type In = Box<Stream<Item=Vec<u8>,Error=()> + Send>;
fn messages_for(&self, round: u64, set_id: u64) -> Self::In {
self.validator.note_round(round, set_id);
let inner = self.inner.lock();
let peer = inner.peer(self.peer_id);
let messages = peer.consensus_gossip_messages_for(
GRANDPA_ENGINE_ID,
make_topic(round, set_id),
);
let messages = messages.map_err(
move |_| panic!("Messages for round {} dropped too early", round)
);
Box::new(messages)
}
fn send_message(&self, round: u64, set_id: u64, message: Vec<u8>, force: bool) {
let inner = self.inner.lock();
inner.peer(self.peer_id)
.gossip_message(make_topic(round, set_id), GRANDPA_ENGINE_ID, message, force);
}
fn drop_round_messages(&self, round: u64, set_id: u64) {
self.validator.drop_round(round, set_id);
let topic = make_topic(round, set_id);
self.drop_messages(topic);
}
fn drop_set_messages(&self, set_id: u64) {
self.validator.drop_set(set_id);
let topic = make_commit_topic(set_id);
self.drop_messages(topic);
}
fn commit_messages(&self, set_id: u64) -> Self::In {
self.validator.note_set(set_id);
let inner = self.inner.lock();
let peer = inner.peer(self.peer_id);
let messages = peer.consensus_gossip_messages_for(
GRANDPA_ENGINE_ID,
make_commit_topic(set_id),
);
let messages = messages.map_err(
move |_| panic!("Commit messages for set {} dropped too early", set_id)
);
Box::new(messages)
}
fn send_commit(&self, _round: u64, set_id: u64, message: Vec<u8>, force: bool) {
let inner = self.inner.lock();
inner.peer(self.peer_id)
.gossip_message(make_commit_topic(set_id), GRANDPA_ENGINE_ID, message, force);
}
fn announce(&self, _round: u64, _set_id: u64, _block: H256) {
}
}
#[derive(Default, Clone)]
struct TestApi {
genesis_authorities: Vec<(AuthorityId, u64)>,
scheduled_changes: Arc<Mutex<HashMap<Hash, ScheduledChange<BlockNumber>>>>,
forced_changes: Arc<Mutex<HashMap<Hash, (BlockNumber, ScheduledChange<BlockNumber>)>>>,
}
impl TestApi {
fn new(genesis_authorities: Vec<(AuthorityId, u64)>) -> Self {
TestApi {
genesis_authorities,
scheduled_changes: Arc::new(Mutex::new(HashMap::new())),
forced_changes: Arc::new(Mutex::new(HashMap::new())),
}
}
}
struct RuntimeApi {
inner: TestApi,
}
impl ProvideRuntimeApi for TestApi {
type Api = RuntimeApi;
fn runtime_api<'a>(&'a self) -> ApiRef<'a, Self::Api> {
RuntimeApi { inner: self.clone() }.into()
}
}
impl Core<Block> for RuntimeApi {
fn version_runtime_api_impl(
&self,
_: &BlockId<Block>,
_: ExecutionContext,
_: Option<()>,
_: Vec<u8>,
) -> Result<NativeOrEncoded<RuntimeVersion>> {
unimplemented!("Not required for testing!")
}
fn authorities_runtime_api_impl(
&self,
_: &BlockId<Block>,
_: ExecutionContext,
_: Option<()>,
_: Vec<u8>,
) -> Result<NativeOrEncoded<Vec<AuthorityId>>> {
unimplemented!("Not required for testing!")
}
fn execute_block_runtime_api_impl(
&self,
_: &BlockId<Block>,
_: ExecutionContext,
_: Option<(Block)>,
_: Vec<u8>,
) -> Result<NativeOrEncoded<()>> {
unimplemented!("Not required for testing!")
}
fn initialise_block_runtime_api_impl(
&self,
_: &BlockId<Block>,
_: ExecutionContext,
_: Option<&<Block as BlockT>::Header>,
_: Vec<u8>,
) -> Result<NativeOrEncoded<()>> {
unimplemented!("Not required for testing!")
}
}
impl ApiExt<Block> for RuntimeApi {
fn map_api_result<F: FnOnce(&Self) -> result::Result<R, E>, R, E>(
&self,
_: F
) -> result::Result<R, E> {
unimplemented!("Not required for testing!")
}
fn runtime_version_at(&self, _: &BlockId<Block>) -> Result<RuntimeVersion> {
unimplemented!("Not required for testing!")
}
}
impl GrandpaApi<Block> for RuntimeApi {
fn grandpa_authorities_runtime_api_impl(
&self,
at: &BlockId<Block>,
_: ExecutionContext,
_: Option<()>,
_: Vec<u8>,
) -> Result<NativeOrEncoded<Vec<(AuthorityId, u64)>>> {
if at == &BlockId::Number(0) {
Ok(self.inner.genesis_authorities.clone()).map(NativeOrEncoded::Native)
} else {
panic!("should generally only request genesis authorities")
}
}
fn grandpa_pending_change_runtime_api_impl(
&self,
at: &BlockId<Block>,
_: ExecutionContext,
_: Option<(&DigestFor<Block>)>,
_: Vec<u8>,
) -> Result<NativeOrEncoded<Option<ScheduledChange<NumberFor<Block>>>>> {
let parent_hash = match at {
&BlockId::Hash(at) => at,
_ => panic!("not requested by block hash!!"),
};
// we take only scheduled changes at given block number where there are no
// extrinsics.
Ok(self.inner.scheduled_changes.lock().get(&parent_hash).map(|c| c.clone())).map(NativeOrEncoded::Native)
}
fn grandpa_forced_change_runtime_api_impl(
&self,
at: &BlockId<Block>,
_: ExecutionContext,
_: Option<(&DigestFor<Block>)>,
_: Vec<u8>,
)
-> Result<NativeOrEncoded<Option<(NumberFor<Block>, ScheduledChange<NumberFor<Block>>)>>> {
let parent_hash = match at {
&BlockId::Hash(at) => at,
_ => panic!("not requested by block hash!!"),
};
// we take only scheduled changes at given block number where there are no
// extrinsics.
Ok(self.inner.forced_changes.lock().get(&parent_hash).map(|c| c.clone())).map(NativeOrEncoded::Native)
}
}
const TEST_GOSSIP_DURATION: Duration = Duration::from_millis(500);
const TEST_ROUTING_INTERVAL: Duration = Duration::from_millis(50);
fn make_ids(keys: &[AuthorityKeyring]) -> Vec<(AuthorityId, u64)> {
keys.iter()
.map(|key| AuthorityId(key.to_raw_public()))
.map(|id| (id, 1))
.collect()
}
// run the voters to completion. provide a closure to be invoked after
// the voters are spawned but before blocking on them.
fn run_to_completion_with<F: FnOnce()>(
blocks: u64,
net: Arc<Mutex<GrandpaTestNet>>,
peers: &[AuthorityKeyring],
before_waiting: F,
) -> u64 {
use parking_lot::RwLock;
let mut finality_notifications = Vec::new();
let mut runtime = current_thread::Runtime::new().unwrap();
let highest_finalized = Arc::new(RwLock::new(0));
for (peer_id, key) in peers.iter().enumerate() {
let highest_finalized = highest_finalized.clone();
let (client, link) = {
let net = net.lock();
// temporary needed for some reason
let link = net.peers[peer_id].data.lock().take().expect("link initialized at startup; qed");
(
net.peers[peer_id].client().clone(),
link,
)
};
finality_notifications.push(
client.finality_notification_stream()
.take_while(move |n| {
let mut highest_finalized = highest_finalized.write();
if *n.header.number() > *highest_finalized {
*highest_finalized = *n.header.number();
}
Ok(n.header.number() < &blocks)
})
.for_each(|_| Ok(()))
);
fn assert_send<T: Send>(_: &T) { }
let voter = run_grandpa(
Config {
gossip_duration: TEST_GOSSIP_DURATION,
justification_period: 32,
local_key: Some(Arc::new(key.clone().into())),
name: Some(format!("peer#{}", peer_id)),
},
link,
MessageRouting::new(net.clone(), peer_id),
InherentDataProviders::new(),
futures::empty(),
).expect("all in order with client and network");
assert_send(&voter);
runtime.spawn(voter);
}
// wait for all finalized on each.
let wait_for = ::futures::future::join_all(finality_notifications)
.map(|_| ())
.map_err(|_| ());
let drive_to_completion = ::tokio::timer::Interval::new_interval(TEST_ROUTING_INTERVAL)
.for_each(move |_| {
net.lock().send_import_notifications();
net.lock().send_finality_notifications();
net.lock().route_fast();
Ok(())
})
.map(|_| ())
.map_err(|_| ());
(before_waiting)();
runtime.block_on(wait_for.select(drive_to_completion).map_err(|_| ())).unwrap();
let highest_finalized = *highest_finalized.read();
highest_finalized
}
fn run_to_completion(blocks: u64, net: Arc<Mutex<GrandpaTestNet>>, peers: &[AuthorityKeyring]) -> u64 {
run_to_completion_with(blocks, net, peers, || {})
}
#[test]
fn finalize_3_voters_no_observers() {
let _ = env_logger::try_init();
let peers = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let voters = make_ids(peers);
let mut net = GrandpaTestNet::new(TestApi::new(voters), 3);
net.peer(0).push_blocks(20, false);
net.sync();
for i in 0..3 {
assert_eq!(net.peer(i).client().info().unwrap().chain.best_number, 20,
"Peer #{} failed to sync", i);
}
let net = Arc::new(Mutex::new(net));
run_to_completion(20, net.clone(), peers);
// normally there's no justification for finalized blocks
assert!(net.lock().peer(0).client().backend().blockchain().justification(BlockId::Number(20)).unwrap().is_none(),
"Extra justification for block#1");
}
#[test]
fn finalize_3_voters_1_observer() {
let peers = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let voters = make_ids(peers);
let mut net = GrandpaTestNet::new(TestApi::new(voters), 4);
net.peer(0).push_blocks(20, false);
net.sync();
let net = Arc::new(Mutex::new(net));
let mut finality_notifications = Vec::new();
let mut runtime = current_thread::Runtime::new().unwrap();
let all_peers = peers.iter()
.cloned()
.map(|key| Some(Arc::new(key.into())))
.chain(::std::iter::once(None));
for (peer_id, local_key) in all_peers.enumerate() {
let (client, link) = {
let net = net.lock();
let link = net.peers[peer_id].data.lock().take().expect("link initialized at startup; qed");
(
net.peers[peer_id].client().clone(),
link,
)
};
finality_notifications.push(
client.finality_notification_stream()
.take_while(|n| Ok(n.header.number() < &20))
.for_each(move |_| Ok(()))
);
let voter = run_grandpa(
Config {
gossip_duration: TEST_GOSSIP_DURATION,
justification_period: 32,
local_key,
name: Some(format!("peer#{}", peer_id)),
},
link,
MessageRouting::new(net.clone(), peer_id),
InherentDataProviders::new(),
futures::empty(),
).expect("all in order with client and network");
runtime.spawn(voter);
}
// wait for all finalized on each.
let wait_for = ::futures::future::join_all(finality_notifications)
.map(|_| ())
.map_err(|_| ());
let drive_to_completion = ::tokio::timer::Interval::new_interval(TEST_ROUTING_INTERVAL)
.for_each(move |_| { net.lock().route_fast(); Ok(()) })
.map(|_| ())
.map_err(|_| ());
runtime.block_on(wait_for.select(drive_to_completion).map_err(|_| ())).unwrap();
}
#[test]
fn transition_3_voters_twice_1_observer() {
let _ = env_logger::try_init();
let peers_a = &[
AuthorityKeyring::Alice,
AuthorityKeyring::Bob,
AuthorityKeyring::Charlie,
];
let peers_b = &[
AuthorityKeyring::Dave,
AuthorityKeyring::Eve,
AuthorityKeyring::Ferdie,
];
let peers_c = &[
AuthorityKeyring::Alice,
AuthorityKeyring::Eve,
AuthorityKeyring::Two,
];
let observer = &[AuthorityKeyring::One];
let genesis_voters = make_ids(peers_a);
let api = TestApi::new(genesis_voters);
let transitions = api.scheduled_changes.clone();
let net = Arc::new(Mutex::new(GrandpaTestNet::new(api, 8)));
let mut runtime = current_thread::Runtime::new().unwrap();
net.lock().peer(0).push_blocks(1, false);
net.lock().sync();
for (i, peer) in net.lock().peers().iter().enumerate() {
assert_eq!(peer.client().info().unwrap().chain.best_number, 1,
"Peer #{} failed to sync", i);
let set: AuthoritySet<Hash, BlockNumber> = crate::aux_schema::load_authorities(
&**peer.client().backend()
).unwrap();
assert_eq!(set.current(), (0, make_ids(peers_a).as_slice()));
assert_eq!(set.pending_changes().count(), 0);
}
{
let net = net.clone();
let client = net.lock().peers[0].client().clone();
let transitions = transitions.clone();
let add_transition = move |parent_hash, change| {
transitions.lock().insert(parent_hash, change);
};
let peers_c = peers_c.clone();
// wait for blocks to be finalized before generating new ones
let block_production = client.finality_notification_stream()
.take_while(|n| Ok(n.header.number() < &30))
.for_each(move |n| {
match n.header.number() {
1 => {
// first 14 blocks.
net.lock().peer(0).push_blocks(13, false);
},
14 => {
// generate transition at block 15, applied at 20.
net.lock().peer(0).generate_blocks(1, BlockOrigin::File, |builder| {
let block = builder.bake().unwrap();
add_transition(*block.header.parent_hash(), ScheduledChange {
next_authorities: make_ids(peers_b),
delay: 4,
});
block
});
net.lock().peer(0).push_blocks(5, false);
},
20 => {
// at block 21 we do another transition, but this time instant.
// add more until we have 30.
net.lock().peer(0).generate_blocks(1, BlockOrigin::File, |builder| {
let block = builder.bake().unwrap();
add_transition(*block.header.parent_hash(), ScheduledChange {
next_authorities: make_ids(&peers_c),
delay: 0,
});
block
});
net.lock().peer(0).push_blocks(9, false);
},
_ => {},
}
Ok(())
});
runtime.spawn(block_production);
}
let mut finality_notifications = Vec::new();
let all_peers = peers_a.iter()
.chain(peers_b)
.chain(peers_c)
.chain(observer)
.cloned()
.collect::<HashSet<_>>() // deduplicate
.into_iter()
.map(|key| Some(Arc::new(key.into())))
.enumerate();
for (peer_id, local_key) in all_peers {
let (client, link) = {
let net = net.lock();
let link = net.peers[peer_id].data.lock().take().expect("link initialized at startup; qed");
(
net.peers[peer_id].client().clone(),
link,
)
};
finality_notifications.push(
client.finality_notification_stream()
.take_while(|n| Ok(n.header.number() < &30))
.for_each(move |_| Ok(()))
.map(move |()| {
let set: AuthoritySet<Hash, BlockNumber> = crate::aux_schema::load_authorities(
&**client.backend()
).unwrap();
assert_eq!(set.current(), (2, make_ids(peers_c).as_slice()));
assert_eq!(set.pending_changes().count(), 0);
})
);
let voter = run_grandpa(
Config {
gossip_duration: TEST_GOSSIP_DURATION,
justification_period: 32,
local_key,
name: Some(format!("peer#{}", peer_id)),
},
link,
MessageRouting::new(net.clone(), peer_id),
InherentDataProviders::new(),
futures::empty(),
).expect("all in order with client and network");
runtime.spawn(voter);
}
// wait for all finalized on each.
let wait_for = ::futures::future::join_all(finality_notifications)
.map(|_| ())
.map_err(|_| ());
let drive_to_completion = ::tokio::timer::Interval::new_interval(TEST_ROUTING_INTERVAL)
.for_each(move |_| {
net.lock().send_import_notifications();
net.lock().send_finality_notifications();
net.lock().route_fast();
Ok(())
})
.map(|_| ())
.map_err(|_| ());
runtime.block_on(wait_for.select(drive_to_completion).map_err(|_| ())).unwrap();
}
#[test]
fn justification_is_emitted_when_consensus_data_changes() {
let peers = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let mut net = GrandpaTestNet::new(TestApi::new(make_ids(peers)), 3);
// import block#1 WITH consensus data change
let new_authorities = vec![AuthorityId::from_raw([42; 32])];
net.peer(0).push_authorities_change_block(new_authorities);
net.sync();
let net = Arc::new(Mutex::new(net));
run_to_completion(1, net.clone(), peers);
// ... and check that there's no justification for block#1
assert!(net.lock().peer(0).client().backend().blockchain().justification(BlockId::Number(1)).unwrap().is_some(),
"Missing justification for block#1");
}
#[test]
fn justification_is_generated_periodically() {
let peers = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let voters = make_ids(peers);
let mut net = GrandpaTestNet::new(TestApi::new(voters), 3);
net.peer(0).push_blocks(32, false);
net.sync();
let net = Arc::new(Mutex::new(net));
run_to_completion(32, net.clone(), peers);
// when block#32 (justification_period) is finalized, justification
// is required => generated
for i in 0..3 {
assert!(net.lock().peer(i).client().backend().blockchain()
.justification(BlockId::Number(32)).unwrap().is_some());
}
}
#[test]
fn consensus_changes_works() {
let mut changes = ConsensusChanges::<H256, u64>::empty();
// pending changes are not finalized
changes.note_change((10, H256::from_low_u64_be(1)));
assert_eq!(changes.finalize((5, H256::from_low_u64_be(5)), |_| Ok(None)).unwrap(), (false, false));
// no change is selected from competing pending changes
changes.note_change((1, H256::from_low_u64_be(1)));
changes.note_change((1, H256::from_low_u64_be(101)));
assert_eq!(changes.finalize((10, H256::from_low_u64_be(10)), |_| Ok(Some(H256::from_low_u64_be(1001)))).unwrap(), (true, false));
// change is selected from competing pending changes
changes.note_change((1, H256::from_low_u64_be(1)));
changes.note_change((1, H256::from_low_u64_be(101)));
assert_eq!(changes.finalize((10, H256::from_low_u64_be(10)), |_| Ok(Some(H256::from_low_u64_be(1)))).unwrap(), (true, true));
}
#[test]
fn sync_justifications_on_change_blocks() {
let peers_a = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let peers_b = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob];
let voters = make_ids(peers_b);
// 4 peers, 3 of them are authorities and participate in grandpa
let api = TestApi::new(voters);
let transitions = api.scheduled_changes.clone();
let mut net = GrandpaTestNet::new(api, 4);
// add 20 blocks
net.peer(0).push_blocks(20, false);
// at block 21 we do add a transition which is instant
net.peer(0).generate_blocks(1, BlockOrigin::File, |builder| {
let block = builder.bake().unwrap();
transitions.lock().insert(*block.header.parent_hash(), ScheduledChange {
next_authorities: make_ids(peers_b),
delay: 0,
});
block
});
// add more blocks on top of it (until we have 25)
net.peer(0).push_blocks(4, false);
net.sync();
for i in 0..4 {
assert_eq!(net.peer(i).client().info().unwrap().chain.best_number, 25,
"Peer #{} failed to sync", i);
}
let net = Arc::new(Mutex::new(net));
run_to_completion(25, net.clone(), peers_a);
// the first 3 peers are grandpa voters and therefore have already finalized
// block 21 and stored a justification
for i in 0..3 {
assert!(net.lock().peer(i).client().justification(&BlockId::Number(21)).unwrap().is_some());
}
// the last peer should get the justification by syncing from other peers
while net.lock().peer(3).client().justification(&BlockId::Number(21)).unwrap().is_none() {
net.lock().route_fast();
}
}
#[test]
fn finalizes_multiple_pending_changes_in_order() {
let _ = env_logger::try_init();
let peers_a = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let peers_b = &[AuthorityKeyring::Dave, AuthorityKeyring::Eve, AuthorityKeyring::Ferdie];
let peers_c = &[AuthorityKeyring::Dave, AuthorityKeyring::Alice, AuthorityKeyring::Bob];
let all_peers = &[
AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie,
AuthorityKeyring::Dave, AuthorityKeyring::Eve, AuthorityKeyring::Ferdie,
];
let genesis_voters = make_ids(peers_a);
// 6 peers, 3 of them are authorities and participate in grandpa from genesis
let api = TestApi::new(genesis_voters);
let transitions = api.scheduled_changes.clone();
let mut net = GrandpaTestNet::new(api, 6);
// add 20 blocks
net.peer(0).push_blocks(20, false);
// at block 21 we do add a transition which is instant
net.peer(0).generate_blocks(1, BlockOrigin::File, |builder| {
let block = builder.bake().unwrap();
transitions.lock().insert(*block.header.parent_hash(), ScheduledChange {
next_authorities: make_ids(peers_b),
delay: 0,
});
block
});
// add more blocks on top of it (until we have 25)
net.peer(0).push_blocks(4, false);
// at block 26 we add another which is enacted at block 30
net.peer(0).generate_blocks(1, BlockOrigin::File, |builder| {
let block = builder.bake().unwrap();
transitions.lock().insert(*block.header.parent_hash(), ScheduledChange {
next_authorities: make_ids(peers_c),
delay: 4,
});
block
});
// add more blocks on top of it (until we have 30)
net.peer(0).push_blocks(4, false);
net.sync();
// all peers imported both change blocks
for i in 0..6 {
assert_eq!(net.peer(i).client().info().unwrap().chain.best_number, 30,
"Peer #{} failed to sync", i);
}
let net = Arc::new(Mutex::new(net));
run_to_completion(30, net.clone(), all_peers);
}
#[test]
fn doesnt_vote_on_the_tip_of_the_chain() {
let peers_a = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let voters = make_ids(peers_a);
let api = TestApi::new(voters);
let mut net = GrandpaTestNet::new(api, 3);
// add 100 blocks
net.peer(0).push_blocks(100, false);
net.sync();
for i in 0..3 {
assert_eq!(net.peer(i).client().info().unwrap().chain.best_number, 100,
"Peer #{} failed to sync", i);
}
let net = Arc::new(Mutex::new(net));
let highest = run_to_completion(75, net.clone(), peers_a);
// the highest block to be finalized will be 3/4 deep in the unfinalized chain
assert_eq!(highest, 75);
}
#[test]
fn force_change_to_new_set() {
// two of these guys are offline.
let genesis_authorities = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie, AuthorityKeyring::One, AuthorityKeyring::Two];
let peers_a = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let api = TestApi::new(make_ids(genesis_authorities));
let voters = make_ids(peers_a);
let normal_transitions = api.scheduled_changes.clone();
let forced_transitions = api.forced_changes.clone();
let net = GrandpaTestNet::new(api, 3);
let net = Arc::new(Mutex::new(net));
let runner_net = net.clone();
let add_blocks = move || {
net.lock().peer(0).push_blocks(1, false);
{
// add a forced transition at block 12.
let parent_hash = net.lock().peer(0).client().info().unwrap().chain.best_hash;
forced_transitions.lock().insert(parent_hash, (0, ScheduledChange {
next_authorities: voters.clone(),
delay: 10,
}));
// add a normal transition too to ensure that forced changes take priority.
normal_transitions.lock().insert(parent_hash, ScheduledChange {
next_authorities: make_ids(genesis_authorities),
delay: 5,
});
}
net.lock().peer(0).push_blocks(25, false);
net.lock().sync();
for (i, peer) in net.lock().peers().iter().enumerate() {
assert_eq!(peer.client().info().unwrap().chain.best_number, 26,
"Peer #{} failed to sync", i);
let set: AuthoritySet<Hash, BlockNumber> = crate::aux_schema::load_authorities(
&**peer.client().backend()
).unwrap();
assert_eq!(set.current(), (1, voters.as_slice()));
assert_eq!(set.pending_changes().count(), 0);
}
};
// it will only finalize if the forced transition happens.
// we add_blocks after the voters are spawned because otherwise
// the link-halfs have the wrong AuthoritySet
run_to_completion_with(25, runner_net, peers_a, add_blocks);
}
#[test]
fn allows_reimporting_change_blocks() {
let peers_a = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let peers_b = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob];
let voters = make_ids(peers_a);
let api = TestApi::new(voters);
let net = GrandpaTestNet::new(api.clone(), 3);
let client = net.peer(0).client().clone();
let (block_import, ..) = net.make_block_import(client.clone());
let builder = client.new_block_at(&BlockId::Number(0)).unwrap();
let block = builder.bake().unwrap();
api.scheduled_changes.lock().insert(*block.header.parent_hash(), ScheduledChange {
next_authorities: make_ids(peers_b),
delay: 0,
});
let block = || {
let block = block.clone();
ImportBlock {
origin: BlockOrigin::File,
header: block.header,
justification: None,
post_digests: Vec::new(),
body: Some(block.extrinsics),
finalized: false,
auxiliary: Vec::new(),
fork_choice: ForkChoiceStrategy::LongestChain,
}
};
assert_eq!(
block_import.import_block(block(), None).unwrap(),
ImportResult::Imported(ImportedAux { needs_justification: true, clear_justification_requests: false, bad_justification: false }),
);
assert_eq!(
block_import.import_block(block(), None).unwrap(),
ImportResult::AlreadyInChain
);
}
#[test]
fn test_bad_justification() {
let peers_a = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob, AuthorityKeyring::Charlie];
let peers_b = &[AuthorityKeyring::Alice, AuthorityKeyring::Bob];
let voters = make_ids(peers_a);
let api = TestApi::new(voters);
let net = GrandpaTestNet::new(api.clone(), 3);
let client = net.peer(0).client().clone();
let (block_import, ..) = net.make_block_import(client.clone());
let builder = client.new_block_at(&BlockId::Number(0)).unwrap();
let block = builder.bake().unwrap();
api.scheduled_changes.lock().insert(*block.header.parent_hash(), ScheduledChange {
next_authorities: make_ids(peers_b),
delay: 0,
});
let block = || {
let block = block.clone();
ImportBlock {
origin: BlockOrigin::File,
header: block.header,
justification: Some(Vec::new()),
post_digests: Vec::new(),
body: Some(block.extrinsics),
finalized: false,
auxiliary: Vec::new(),
fork_choice: ForkChoiceStrategy::LongestChain,
}
};
assert_eq!(
block_import.import_block(block(), None).unwrap(),
ImportResult::Imported(ImportedAux { needs_justification: true, clear_justification_requests: false, bad_justification: true }),
);
assert_eq!(
block_import.import_block(block(), None).unwrap(),
ImportResult::AlreadyInChain
);
}