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// Copyright 2020 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/>.
//! A manual sealing engine: the engine listens for rpc calls to seal blocks and create forks.
//! This is suitable for a testing environment.
use sp_consensus::{
self, BlockImport, Environment, Proposer, BlockCheckParams,
ForkChoiceStrategy, BlockImportParams, BlockOrigin,
ImportResult, SelectChain,
import_queue::{
BasicQueue,
CacheKeyId,
Verifier,
BoxBlockImport,
},
};
use sp_inherents::InherentDataProviders;
use sp_runtime::{traits::Block as BlockT, Justification};
use sc_client_api::backend::Backend as ClientBackend;
use futures::prelude::*;
use sc_transaction_pool::txpool;
use std::collections::HashMap;
use std::sync::Arc;
pub mod rpc;
mod error;
mod finalize_block;
mod seal_new_block;
use finalize_block::{finalize_block, FinalizeBlockParams};
use seal_new_block::{seal_new_block, SealBlockParams};
pub use error::Error;
pub use rpc::{EngineCommand, CreatedBlock};
/// The synchronous block-import worker of the engine.
pub struct ManualSealBlockImport<I> {
inner: I,
}
impl<I> From<I> for ManualSealBlockImport<I> {
fn from(i: I) -> Self {
ManualSealBlockImport { inner: i }
}
}
impl<B, I> BlockImport<B> for ManualSealBlockImport<I>
where
B: BlockT,
I: BlockImport<B, Transaction = ()>,
{
type Error = I::Error;
type Transaction = ();
fn check_block(&mut self, block: BlockCheckParams<B>) -> Result<ImportResult, Self::Error>
{
self.inner.check_block(block)
}
fn import_block(
&mut self,
block: BlockImportParams<B, Self::Transaction>,
cache: HashMap<CacheKeyId, Vec<u8>>,
) -> Result<ImportResult, Self::Error> {
self.inner.import_block(block, cache)
}
}
/// The verifier for the manual seal engine; instantly finalizes.
struct ManualSealVerifier;
impl<B: BlockT> Verifier<B> for ManualSealVerifier {
fn verify(
&mut self,
origin: BlockOrigin,
header: B::Header,
justification: Option<Justification>,
body: Option<Vec<B::Extrinsic>>,
) -> Result<(BlockImportParams<B, ()>, Option<Vec<(CacheKeyId, Vec<u8>)>>), String> {
let import_params = BlockImportParams {
origin,
header,
justification,
post_digests: Vec::new(),
body,
storage_changes: None,
finalized: true,
auxiliary: Vec::new(),
intermediates: HashMap::new(),
fork_choice: Some(ForkChoiceStrategy::LongestChain),
allow_missing_state: false,
import_existing: false,
};
Ok((import_params, None))
}
}
/// Instantiate the import queue for the manual seal consensus engine.
pub fn import_queue<B: BlockT>(block_import: BoxBlockImport<B, ()>) -> BasicQueue<B, ()>
{
BasicQueue::new(
ManualSealVerifier,
block_import,
None,
None,
)
}
/// Creates the background authorship task for the manual seal engine.
pub async fn run_manual_seal<B, CB, E, A, C, S, T>(
mut block_import: BoxBlockImport<B, T>,
mut env: E,
backend: Arc<CB>,
pool: Arc<txpool::Pool<A>>,
mut seal_block_channel: S,
select_chain: C,
inherent_data_providers: InherentDataProviders,
)
where
B: BlockT + 'static,
CB: ClientBackend<B> + 'static,
E: Environment<B> + 'static,
E::Error: std::fmt::Display,
<E::Proposer as Proposer<B>>::Error: std::fmt::Display,
A: txpool::ChainApi<Block=B, Hash=<B as BlockT>::Hash> + 'static,
S: Stream<Item=EngineCommand<<B as BlockT>::Hash>> + Unpin + 'static,
C: SelectChain<B> + 'static,
{
while let Some(command) = seal_block_channel.next().await {
match command {
EngineCommand::SealNewBlock {
create_empty,
finalize,
parent_hash,
sender,
} => {
seal_new_block(
SealBlockParams {
sender,
parent_hash,
finalize,
create_empty,
env: &mut env,
select_chain: &select_chain,
block_import: &mut block_import,
inherent_data_provider: &inherent_data_providers,
pool: pool.clone(),
backend: backend.clone(),
}
).await;
}
EngineCommand::FinalizeBlock { hash, sender, justification } => {
finalize_block(
FinalizeBlockParams {
hash,
sender,
justification,
backend: backend.clone(),
}
).await
}
}
}
}
/// runs the background authorship task for the instant seal engine.
/// instant-seal creates a new block for every transaction imported into
/// the transaction pool.
pub async fn run_instant_seal<B, CB, E, A, C, T>(
block_import: BoxBlockImport<B, T>,
env: E,
backend: Arc<CB>,
pool: Arc<txpool::Pool<A>>,
select_chain: C,
inherent_data_providers: InherentDataProviders,
)
where
A: txpool::ChainApi<Block=B, Hash=<B as BlockT>::Hash> + 'static,
B: BlockT + 'static,
CB: ClientBackend<B> + 'static,
E: Environment<B> + 'static,
E::Error: std::fmt::Display,
<E::Proposer as Proposer<B>>::Error: std::fmt::Display,
C: SelectChain<B> + 'static
{
// instant-seal creates blocks as soon as transactions are imported
// into the transaction pool.
let seal_block_channel = pool.import_notification_stream()
.map(|_| {
EngineCommand::SealNewBlock {
create_empty: false,
finalize: false,
parent_hash: None,
sender: None,
}
});
run_manual_seal(
block_import,
env,
backend,
pool,
seal_block_channel,
select_chain,
inherent_data_providers,
).await
}
#[cfg(test)]
mod tests {
use super::*;
use substrate_test_runtime_client::{
DefaultTestClientBuilderExt,
TestClientBuilderExt,
AccountKeyring::*,
TestClientBuilder,
};
use sc_transaction_pool::{
BasicPool,
txpool::Options,
};
use substrate_test_runtime_transaction_pool::{TestApi, uxt};
use sp_transaction_pool::TransactionPool;
use sp_runtime::generic::BlockId;
use sp_blockchain::HeaderBackend;
use sp_consensus::ImportedAux;
use sc_client::LongestChain;
use sp_inherents::InherentDataProviders;
use sc_basic_authorship::ProposerFactory;
fn api() -> Arc<TestApi> {
Arc::new(TestApi::empty())
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}
#[tokio::test]
async fn instant_seal() {
let builder = TestClientBuilder::new();
let backend = builder.backend();
let client = Arc::new(builder.build());
let select_chain = LongestChain::new(backend.clone());
let inherent_data_providers = InherentDataProviders::new();
let pool = Arc::new(BasicPool::new(Options::default(), api()));
let env = ProposerFactory {
transaction_pool: pool.clone(),
client: client.clone(),
};
// this test checks that blocks are created as soon as transactions are imported into the pool.
let (sender, receiver) = futures::channel::oneshot::channel();
let mut sender = Arc::new(Some(sender));
let stream = pool.pool().import_notification_stream()
.map(move |_| {
// we're only going to submit one tx so this fn will only be called once.
let mut_sender = Arc::get_mut(&mut sender).unwrap();
let sender = std::mem::replace(mut_sender, None);
EngineCommand::SealNewBlock {
create_empty: false,
finalize: true,
parent_hash: None,
sender
}
});
let future = run_manual_seal(
Box::new(client.clone()),
env,
backend.clone(),
pool.pool().clone(),
stream,
select_chain,
inherent_data_providers,
);
std::thread::spawn(|| {
let mut rt = tokio::runtime::Runtime::new().unwrap();
// spawn the background authorship task
rt.block_on(future);
});
// submit a transaction to pool.
let result = pool.submit_one(&BlockId::Number(0), uxt(Alice, 0)).await;
// assert that it was successfully imported
assert!(result.is_ok());
// assert that the background task returns ok
let created_block = receiver.await.unwrap().unwrap();
assert_eq!(
created_block,
CreatedBlock {
hash: created_block.hash.clone(),
aux: ImportedAux {
header_only: false,
clear_justification_requests: false,
needs_justification: false,
bad_justification: false,
needs_finality_proof: false,
is_new_best: true,
}
}
);
// assert that there's a new block in the db.
assert!(backend.blockchain().header(BlockId::Number(1)).unwrap().is_some())
}
#[tokio::test]
async fn manual_seal_and_finalization() {
let builder = TestClientBuilder::new();
let backend = builder.backend();
let client = Arc::new(builder.build());
let select_chain = LongestChain::new(backend.clone());
let inherent_data_providers = InherentDataProviders::new();
let pool = Arc::new(BasicPool::new(Options::default(), api()));
let env = ProposerFactory {
transaction_pool: pool.clone(),
client: client.clone(),
};
// this test checks that blocks are created as soon as an engine command is sent over the stream.
let (mut sink, stream) = futures::channel::mpsc::channel(1024);
let future = run_manual_seal(
Box::new(client.clone()),
env,
backend.clone(),
pool.pool().clone(),
stream,
select_chain,
inherent_data_providers,
);
std::thread::spawn(|| {
let mut rt = tokio::runtime::Runtime::new().unwrap();
// spawn the background authorship task
rt.block_on(future);
});
// submit a transaction to pool.
let result = pool.submit_one(&BlockId::Number(0), uxt(Alice, 0)).await;
// assert that it was successfully imported
assert!(result.is_ok());
let (tx, rx) = futures::channel::oneshot::channel();
sink.send(EngineCommand::SealNewBlock {
parent_hash: None,
sender: Some(tx),
create_empty: false,
finalize: false,
}).await.unwrap();
let created_block = rx.await.unwrap().unwrap();
// assert that the background task returns ok
assert_eq!(
created_block,
CreatedBlock {
hash: created_block.hash.clone(),
aux: ImportedAux {
header_only: false,
clear_justification_requests: false,
needs_justification: false,
bad_justification: false,
needs_finality_proof: false,
is_new_best: true,
}
}
);
// assert that there's a new block in the db.
let header = backend.blockchain().header(BlockId::Number(1)).unwrap().unwrap();
let (tx, rx) = futures::channel::oneshot::channel();
sink.send(EngineCommand::FinalizeBlock {
sender: Some(tx),
hash: header.hash(),
justification: None
}).await.unwrap();
// assert that the background task returns ok
assert_eq!(rx.await.unwrap().unwrap(), ());
}
#[tokio::test]
async fn manual_seal_fork_blocks() {
let builder = TestClientBuilder::new();
let backend = builder.backend();
let client = Arc::new(builder.build());
let select_chain = LongestChain::new(backend.clone());
let inherent_data_providers = InherentDataProviders::new();
let pool_api = api();
let pool = Arc::new(BasicPool::new(Options::default(), pool_api.clone()));
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let env = ProposerFactory {
transaction_pool: pool.clone(),
client: client.clone(),
};
// this test checks that blocks are created as soon as an engine command is sent over the stream.
let (mut sink, stream) = futures::channel::mpsc::channel(1024);
let future = run_manual_seal(
Box::new(client.clone()),
env,
backend.clone(),
pool.pool().clone(),
stream,
select_chain,
inherent_data_providers,
);
std::thread::spawn(|| {
let mut rt = tokio::runtime::Runtime::new().unwrap();
// spawn the background authorship task
rt.block_on(future);
});
// submit a transaction to pool.
let result = pool.submit_one(&BlockId::Number(0), uxt(Alice, 0)).await;
// assert that it was successfully imported
assert!(result.is_ok());
let (tx, rx) = futures::channel::oneshot::channel();
sink.send(EngineCommand::SealNewBlock {
parent_hash: None,
sender: Some(tx),
create_empty: false,
finalize: false,
}).await.unwrap();
let created_block = rx.await.unwrap().unwrap();
pool_api.increment_nonce(Alice.into());
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// assert that the background task returns ok
assert_eq!(
created_block,
CreatedBlock {
hash: created_block.hash.clone(),
aux: ImportedAux {
header_only: false,
clear_justification_requests: false,
needs_justification: false,
bad_justification: false,
needs_finality_proof: false,
is_new_best: true
}
}
);
// assert that there's a new block in the db.
assert!(backend.blockchain().header(BlockId::Number(0)).unwrap().is_some());
assert!(pool.submit_one(&BlockId::Number(1), uxt(Alice, 1)).await.is_ok());
let (tx1, rx1) = futures::channel::oneshot::channel();
assert!(sink.send(EngineCommand::SealNewBlock {
parent_hash: Some(created_block.hash.clone()),
sender: Some(tx1),
create_empty: false,
finalize: false,
}).await.is_ok());
assert!(rx1.await.unwrap().is_ok());
assert!(backend.blockchain().header(BlockId::Number(1)).unwrap().is_some());
pool_api.increment_nonce(Alice.into());
assert!(pool.submit_one(&BlockId::Number(2), uxt(Alice, 2)).await.is_ok());
let (tx2, rx2) = futures::channel::oneshot::channel();
assert!(sink.send(EngineCommand::SealNewBlock {
parent_hash: Some(created_block.hash),
sender: Some(tx2),
create_empty: false,
finalize: false,
}).await.is_ok());
let imported = rx2.await.unwrap().unwrap();
// assert that fork block is in the db
assert!(backend.blockchain().header(BlockId::Hash(imported.hash)).unwrap().is_some())
}
}