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TransactionInvalidationTracker (#1544)

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* TransactionInvalidationTracker

* TransacitonInvalidationTracker -> TransactionTracker

* change sign_transaction method

* clippy and spelling

* removed comment

* more transactiontracker tests

* stalls_when_transaction_tracker_returns_error

* remove test code

* remove "impl TransactionTracker for ()"

* enum TrackedTransactionStatus

* test TransactionTracker in on_transaction_status

* do_wait
This commit is contained in:
Svyatoslav Nikolsky
2022-09-14 17:30:57 +03:00
committed by Bastian Köcher
parent 58fe2749d2
commit 70d6e91f20
8 changed files with 514 additions and 145 deletions
Download Patch File Download Diff File Expand all files Collapse all files
bridges/relays/bin-substrate/src/cli/register_parachain.rs
+50 -84
View File
@@ -26,10 +26,8 @@ use polkadot_runtime_common::{
paras_registrar::Call as ParaRegistrarCall, slots::Call as ParaSlotsCall, paras_registrar::Call as ParaRegistrarCall, slots::Call as ParaSlotsCall,
}; };
use polkadot_runtime_parachains::paras::ParaLifecycle; use polkadot_runtime_parachains::paras::ParaLifecycle;
use relay_substrate_client::{ use relay_substrate_client::{AccountIdOf, CallOf, Chain, Client, SignParam, UnsignedTransaction};
AccountIdOf, CallOf, Chain, Client, HashOf, SignParam, Subscription, TransactionStatusOf, use relay_utils::{TrackedTransactionStatus, TransactionTracker};
UnsignedTransaction,
};
use rialto_runtime::SudoCall; use rialto_runtime::SudoCall;
use sp_core::{ use sp_core::{
storage::{well_known_keys::CODE, StorageKey}, storage::{well_known_keys::CODE, StorageKey},
@@ -116,26 +114,30 @@ impl RegisterParachain {
ParaRegistrarCall::reserve {}.into(); ParaRegistrarCall::reserve {}.into();
let reserve_parachain_signer = relay_sign.clone(); let reserve_parachain_signer = relay_sign.clone();
let (spec_version, transaction_version) = relay_client.simple_runtime_version().await?; let (spec_version, transaction_version) = relay_client.simple_runtime_version().await?;
wait_until_transaction_is_finalized::<Relaychain>( let reserve_result = relay_client
relay_client .submit_and_watch_signed_extrinsic(
.submit_and_watch_signed_extrinsic( relay_sudo_account.clone(),
relay_sudo_account.clone(), SignParam::<Relaychain> {
SignParam::<Relaychain> { spec_version,
spec_version, transaction_version,
transaction_version, genesis_hash: relay_genesis_hash,
genesis_hash: relay_genesis_hash, signer: reserve_parachain_signer,
signer: reserve_parachain_signer, },
}, move |_, transaction_nonce| {
move |_, transaction_nonce| { Ok(UnsignedTransaction::new(
Ok(UnsignedTransaction::new( reserve_parachain_id_call.into(),
reserve_parachain_id_call.into(), transaction_nonce,
transaction_nonce, ))
)) },
}, )
) .await?
.await?, .wait()
) .await;
.await?; if reserve_result == TrackedTransactionStatus::Lost {
return Err(anyhow::format_err!(
"Failed to finalize `reserve-parachain-id` transaction"
))
}
log::info!(target: "bridge", "Reserved parachain id: {:?}", para_id); log::info!(target: "bridge", "Reserved parachain id: {:?}", para_id);
// step 2: register parathread // step 2: register parathread
@@ -161,26 +163,30 @@ impl RegisterParachain {
} }
.into(); .into();
let register_parathread_signer = relay_sign.clone(); let register_parathread_signer = relay_sign.clone();
wait_until_transaction_is_finalized::<Relaychain>( let register_result = relay_client
relay_client .submit_and_watch_signed_extrinsic(
.submit_and_watch_signed_extrinsic( relay_sudo_account.clone(),
relay_sudo_account.clone(), SignParam::<Relaychain> {
SignParam::<Relaychain> { spec_version,
spec_version, transaction_version,
transaction_version, genesis_hash: relay_genesis_hash,
genesis_hash: relay_genesis_hash, signer: register_parathread_signer,
signer: register_parathread_signer, },
}, move |_, transaction_nonce| {
move |_, transaction_nonce| { Ok(UnsignedTransaction::new(
Ok(UnsignedTransaction::new( register_parathread_call.into(),
register_parathread_call.into(), transaction_nonce,
transaction_nonce, ))
)) },
}, )
) .await?
.await?, .wait()
) .await;
.await?; if register_result == TrackedTransactionStatus::Lost {
return Err(anyhow::format_err!(
"Failed to finalize `register-parathread` transaction"
))
}
log::info!(target: "bridge", "Registered parachain: {:?}. Waiting for onboarding", para_id); log::info!(target: "bridge", "Registered parachain: {:?}. Waiting for onboarding", para_id);
// wait until parathread is onboarded // wait until parathread is onboarded
@@ -256,46 +262,6 @@ impl RegisterParachain {
} }
} }
/// Wait until transaction is included into finalized block.
///
/// Returns the hash of the finalized block with transaction.
pub(crate) async fn wait_until_transaction_is_finalized<C: Chain>(
subscription: Subscription<TransactionStatusOf<C>>,
) -> anyhow::Result<HashOf<C>> {
loop {
let transaction_status = subscription.next().await?;
match transaction_status {
Some(TransactionStatusOf::<C>::FinalityTimeout(_)) |
Some(TransactionStatusOf::<C>::Usurped(_)) |
Some(TransactionStatusOf::<C>::Dropped) |
Some(TransactionStatusOf::<C>::Invalid) |
None =>
return Err(anyhow::format_err!(
"We've been waiting for finalization of {} transaction, but it now has the {:?} status",
C::NAME,
transaction_status,
)),
Some(TransactionStatusOf::<C>::Finalized(block_hash)) => {
log::trace!(
target: "bridge",
"{} transaction has been finalized at block {}",
C::NAME,
block_hash,
);
return Ok(block_hash)
},
_ => {
log::trace!(
target: "bridge",
"Received intermediate status of {} transaction: {:?}",
C::NAME,
transaction_status,
);
},
}
}
}
/// Wait until parachain state is changed. /// Wait until parachain state is changed.
async fn wait_para_state<Relaychain: Chain>( async fn wait_para_state<Relaychain: Chain>(
relay_client: &Client<Relaychain>, relay_client: &Client<Relaychain>,
bridges/relays/client-substrate/src/client.rs
+27 -9
View File
@@ -23,8 +23,8 @@ use crate::{
SubstrateGrandpaClient, SubstrateStateClient, SubstrateSystemClient, SubstrateGrandpaClient, SubstrateStateClient, SubstrateSystemClient,
SubstrateTransactionPaymentClient, SubstrateTransactionPaymentClient,
}, },
ConnectionParams, Error, HashOf, HeaderIdOf, Result, SignParam, TransactionSignScheme, transaction_stall_timeout, ConnectionParams, Error, HashOf, HeaderIdOf, Result, SignParam,
TransactionStatusOf, UnsignedTransaction, TransactionSignScheme, TransactionTracker, UnsignedTransaction,
}; };
use async_std::sync::{Arc, Mutex}; use async_std::sync::{Arc, Mutex};
@@ -40,7 +40,7 @@ use jsonrpsee::{
use num_traits::{Bounded, Zero}; use num_traits::{Bounded, Zero};
use pallet_balances::AccountData; use pallet_balances::AccountData;
use pallet_transaction_payment::InclusionFee; use pallet_transaction_payment::InclusionFee;
use relay_utils::relay_loop::RECONNECT_DELAY; use relay_utils::{relay_loop::RECONNECT_DELAY, STALL_TIMEOUT};
use sp_core::{ use sp_core::{
storage::{StorageData, StorageKey}, storage::{StorageData, StorageKey},
Bytes, Hasher, Bytes, Hasher,
@@ -58,7 +58,7 @@ const SUB_API_TXPOOL_VALIDATE_TRANSACTION: &str = "TaggedTransactionQueue_valida
const MAX_SUBSCRIPTION_CAPACITY: usize = 4096; const MAX_SUBSCRIPTION_CAPACITY: usize = 4096;
/// Opaque justifications subscription type. /// Opaque justifications subscription type.
pub struct Subscription<T>(Mutex<futures::channel::mpsc::Receiver<Option<T>>>); pub struct Subscription<T>(pub(crate) Mutex<futures::channel::mpsc::Receiver<Option<T>>>);
/// Opaque GRANDPA authorities set. /// Opaque GRANDPA authorities set.
pub type OpaqueGrandpaAuthoritiesSet = Vec<u8>; pub type OpaqueGrandpaAuthoritiesSet = Vec<u8>;
@@ -467,14 +467,20 @@ impl<C: Chain> Client<C> {
prepare_extrinsic: impl FnOnce(HeaderIdOf<C>, C::Index) -> Result<UnsignedTransaction<C>> prepare_extrinsic: impl FnOnce(HeaderIdOf<C>, C::Index) -> Result<UnsignedTransaction<C>>
+ Send + Send
+ 'static, + 'static,
) -> Result<Subscription<TransactionStatusOf<C>>> { ) -> Result<TransactionTracker<C>> {
let _guard = self.submit_signed_extrinsic_lock.lock().await; let _guard = self.submit_signed_extrinsic_lock.lock().await;
let transaction_nonce = self.next_account_index(extrinsic_signer).await?; let transaction_nonce = self.next_account_index(extrinsic_signer).await?;
let best_header = self.best_header().await?; let best_header = self.best_header().await?;
let best_header_id = best_header.id(); let best_header_id = best_header.id();
let subscription = self let (sender, receiver) = futures::channel::mpsc::channel(MAX_SUBSCRIPTION_CAPACITY);
let (tracker, subscription) = self
.jsonrpsee_execute(move |client| async move { .jsonrpsee_execute(move |client| async move {
let extrinsic = prepare_extrinsic(best_header_id, transaction_nonce)?; let extrinsic = prepare_extrinsic(best_header_id, transaction_nonce)?;
let stall_timeout = transaction_stall_timeout(
extrinsic.era.mortality_period(),
C::AVERAGE_BLOCK_INTERVAL,
STALL_TIMEOUT,
);
let signed_extrinsic = S::sign_transaction(signing_data, extrinsic)?.encode(); let signed_extrinsic = S::sign_transaction(signing_data, extrinsic)?.encode();
let tx_hash = C::Hasher::hash(&signed_extrinsic); let tx_hash = C::Hasher::hash(&signed_extrinsic);
let subscription = SubstrateAuthorClient::<C>::submit_and_watch_extrinsic( let subscription = SubstrateAuthorClient::<C>::submit_and_watch_extrinsic(
@@ -487,17 +493,21 @@ impl<C: Chain> Client<C> {
e e
})?; })?;
log::trace!(target: "bridge", "Sent transaction to {} node: {:?}", C::NAME, tx_hash); log::trace!(target: "bridge", "Sent transaction to {} node: {:?}", C::NAME, tx_hash);
Ok(subscription) let tracker = TransactionTracker::new(
stall_timeout,
tx_hash,
Subscription(Mutex::new(receiver)),
);
Ok((tracker, subscription))
}) })
.await?; .await?;
let (sender, receiver) = futures::channel::mpsc::channel(MAX_SUBSCRIPTION_CAPACITY);
self.tokio.spawn(Subscription::background_worker( self.tokio.spawn(Subscription::background_worker(
C::NAME.into(), C::NAME.into(),
"extrinsic".into(), "extrinsic".into(),
subscription, subscription,
sender, sender,
)); ));
Ok(Subscription(Mutex::new(receiver))) Ok(tracker)
} }
/// Returns pending extrinsics from transaction pool. /// Returns pending extrinsics from transaction pool.
@@ -669,6 +679,14 @@ impl<C: Chain> Client<C> {
} }
impl<T: DeserializeOwned> Subscription<T> { impl<T: DeserializeOwned> Subscription<T> {
/// Consumes subscription and returns future statuses stream.
pub fn into_stream(self) -> impl futures::Stream<Item = T> {
futures::stream::unfold(self, |this| async {
let item = this.0.lock().await.next().await.unwrap_or(None);
item.map(|i| (i, this))
})
}
/// Return next item from the subscription. /// Return next item from the subscription.
pub async fn next(&self) -> Result<Option<T>> { pub async fn next(&self) -> Result<Option<T>> {
let mut receiver = self.0.lock().await; let mut receiver = self.0.lock().await;
bridges/relays/client-substrate/src/lib.rs
+2
View File
@@ -23,6 +23,7 @@ mod client;
mod error; mod error;
mod rpc; mod rpc;
mod sync_header; mod sync_header;
mod transaction_tracker;
pub mod guard; pub mod guard;
pub mod metrics; pub mod metrics;
@@ -39,6 +40,7 @@ pub use crate::{
client::{ChainRuntimeVersion, Client, OpaqueGrandpaAuthoritiesSet, Subscription}, client::{ChainRuntimeVersion, Client, OpaqueGrandpaAuthoritiesSet, Subscription},
error::{Error, Result}, error::{Error, Result},
sync_header::SyncHeader, sync_header::SyncHeader,
transaction_tracker::TransactionTracker,
}; };
pub use bp_runtime::{ pub use bp_runtime::{
AccountIdOf, AccountPublicOf, BalanceOf, BlockNumberOf, Chain as ChainBase, HashOf, HeaderOf, AccountIdOf, AccountPublicOf, BalanceOf, BlockNumberOf, Chain as ChainBase, HashOf, HeaderOf,
bridges/relays/client-substrate/src/transaction_tracker.rs
+322
View File
@@ -0,0 +1,322 @@
// Copyright 2019-2021 Parity Technologies (UK) Ltd.
// This file is part of Parity Bridges Common.
// Parity Bridges Common 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 Bridges Common 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 Bridges Common. If not, see <http://www.gnu.org/licenses/>.
//! Helper for tracking transaction invalidation events.
use crate::{Chain, HashOf, Subscription, TransactionStatusOf};
use async_trait::async_trait;
use futures::{Stream, StreamExt};
use relay_utils::TrackedTransactionStatus;
use std::time::Duration;
/// Substrate transaction tracker implementation.
///
/// Substrate node provides RPC API to submit and watch for transaction events. This way
/// we may know when transaction is included into block, finalized or rejected. There are
/// some edge cases, when we can't fully trust this mechanism - e.g. transaction may broadcasted
/// and then dropped out of node transaction pool (some other cases are also possible - node
/// restarts, connection lost, ...). Then we can't know for sure - what is currently happening
/// with our transaction. Is the transaction really lost? Is it still alive on the chain network?
///
/// We have several options to handle such cases:
///
/// 1) hope that the transaction is still alive and wait for its mining until it is spoiled;
///
/// 2) assume that the transaction is lost and resubmit another transaction instantly;
///
/// 3) wait for some time (if transaction is mortal - then until block where it dies; if it is
/// immortal - then for some time that we assume is long enough to mine it) and assume that
/// it is lost.
///
/// This struct implements third option as it seems to be the most optimal.
pub struct TransactionTracker<C: Chain> {
transaction_hash: HashOf<C>,
stall_timeout: Duration,
subscription: Subscription<TransactionStatusOf<C>>,
}
impl<C: Chain> TransactionTracker<C> {
/// Create transaction tracker.
pub fn new(
stall_timeout: Duration,
transaction_hash: HashOf<C>,
subscription: Subscription<TransactionStatusOf<C>>,
) -> Self {
Self { stall_timeout, transaction_hash, subscription }
}
/// Wait for final transaction status and return it along with last known internal invalidation
/// status.
async fn do_wait(self) -> (TrackedTransactionStatus, InvalidationStatus) {
let invalidation_status = watch_transaction_status::<C, _>(
self.transaction_hash,
self.subscription.into_stream(),
)
.await;
match invalidation_status {
InvalidationStatus::Finalized =>
(TrackedTransactionStatus::Finalized, invalidation_status),
InvalidationStatus::Invalid => (TrackedTransactionStatus::Lost, invalidation_status),
InvalidationStatus::Lost => {
async_std::task::sleep(self.stall_timeout).await;
// if someone is still watching for our transaction, then we're reporting
// an error here (which is treated as "transaction lost")
log::trace!(
target: "bridge",
"{} transaction {:?} is considered lost after timeout",
C::NAME,
self.transaction_hash,
);
(TrackedTransactionStatus::Lost, invalidation_status)
},
}
}
}
#[async_trait]
impl<C: Chain> relay_utils::TransactionTracker for TransactionTracker<C> {
async fn wait(self) -> TrackedTransactionStatus {
self.do_wait().await.0
}
}
/// Transaction invalidation status.
///
/// Note that in places where the `TransactionTracker` is used, the finalization event will be
/// ignored - relay loops are detecting the mining/finalization using their own
/// techniques. That's why we're using `InvalidationStatus` here.
#[derive(Debug, PartialEq)]
enum InvalidationStatus {
/// Transaction has been included into block and finalized.
Finalized,
/// Transaction has been invalidated.
Invalid,
/// We have lost track of transaction status.
Lost,
}
/// Watch for transaction status until transaction is finalized or we lose track of its status.
async fn watch_transaction_status<C: Chain, S: Stream<Item = TransactionStatusOf<C>>>(
transaction_hash: HashOf<C>,
subscription: S,
) -> InvalidationStatus {
futures::pin_mut!(subscription);
loop {
match subscription.next().await {
Some(TransactionStatusOf::<C>::Finalized(block_hash)) => {
// the only "successful" outcome of this method is when the block with transaction
// has been finalized
log::trace!(
target: "bridge",
"{} transaction {:?} has been finalized at block: {:?}",
C::NAME,
transaction_hash,
block_hash,
);
return InvalidationStatus::Finalized
},
Some(TransactionStatusOf::<C>::Invalid) => {
// if node says that the transaction is invalid, there are still chances that
// it is not actually invalid - e.g. if the block where transaction has been
// revalidated is retracted and transaction (at some other node pool) becomes
// valid again on other fork. But let's assume that the chances of this event
// are almost zero - there's a lot of things that must happen for this to be the
// case.
log::trace!(
target: "bridge",
"{} transaction {:?} has been invalidated",
C::NAME,
transaction_hash,
);
return InvalidationStatus::Invalid
},
Some(TransactionStatusOf::<C>::Future) |
Some(TransactionStatusOf::<C>::Ready) |
Some(TransactionStatusOf::<C>::Broadcast(_)) => {
// nothing important (for us) has happened
},
Some(TransactionStatusOf::<C>::InBlock(block_hash)) => {
// TODO: read matching system event (ExtrinsicSuccess or ExtrinsicFailed), log it
// here and use it later (on finality) for reporting invalid transaction
// https://github.com/paritytech/parity-bridges-common/issues/1464
log::trace!(
target: "bridge",
"{} transaction {:?} has been included in block: {:?}",
C::NAME,
transaction_hash,
block_hash,
);
},
Some(TransactionStatusOf::<C>::Retracted(block_hash)) => {
log::trace!(
target: "bridge",
"{} transaction {:?} at block {:?} has been retracted",
C::NAME,
transaction_hash,
block_hash,
);
},
Some(TransactionStatusOf::<C>::FinalityTimeout(block_hash)) => {
// finality is lagging? let's wait a bit more and report a stall
log::trace!(
target: "bridge",
"{} transaction {:?} block {:?} has not been finalized for too long",
C::NAME,
transaction_hash,
block_hash,
);
return InvalidationStatus::Lost
},
Some(TransactionStatusOf::<C>::Usurped(new_transaction_hash)) => {
// this may be result of our transaction resubmitter work or some manual
// intervention. In both cases - let's start stall timeout, because the meaning
// of transaction may have changed
log::trace!(
target: "bridge",
"{} transaction {:?} has been usurped by new transaction: {:?}",
C::NAME,
transaction_hash,
new_transaction_hash,
);
return InvalidationStatus::Lost
},
Some(TransactionStatusOf::<C>::Dropped) => {
// the transaction has been removed from the pool because of its limits. Let's wait
// a bit and report a stall
log::trace!(
target: "bridge",
"{} transaction {:?} has been dropped from the pool",
C::NAME,
transaction_hash,
);
return InvalidationStatus::Lost
},
None => {
// the status of transaction is unknown to us (the subscription has been closed?).
// Let's wait a bit and report a stall
return InvalidationStatus::Lost
},
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::test_chain::TestChain;
use futures::{FutureExt, SinkExt};
use sc_transaction_pool_api::TransactionStatus;
async fn on_transaction_status(
status: TransactionStatus<HashOf<TestChain>, HashOf<TestChain>>,
) -> Option<(TrackedTransactionStatus, InvalidationStatus)> {
let (mut sender, receiver) = futures::channel::mpsc::channel(1);
let tx_tracker = TransactionTracker::<TestChain>::new(
Duration::from_secs(0),
Default::default(),
Subscription(async_std::sync::Mutex::new(receiver)),
);
sender.send(Some(status)).await.unwrap();
tx_tracker.do_wait().now_or_never()
}
#[async_std::test]
async fn returns_finalized_on_finalized() {
assert_eq!(
on_transaction_status(TransactionStatus::Finalized(Default::default())).await,
Some((TrackedTransactionStatus::Finalized, InvalidationStatus::Finalized)),
);
}
#[async_std::test]
async fn returns_invalid_on_invalid() {
assert_eq!(
on_transaction_status(TransactionStatus::Invalid).await,
Some((TrackedTransactionStatus::Lost, InvalidationStatus::Invalid)),
);
}
#[async_std::test]
async fn waits_on_future() {
assert_eq!(on_transaction_status(TransactionStatus::Future).await, None,);
}
#[async_std::test]
async fn waits_on_ready() {
assert_eq!(on_transaction_status(TransactionStatus::Ready).await, None,);
}
#[async_std::test]
async fn waits_on_broadcast() {
assert_eq!(
on_transaction_status(TransactionStatus::Broadcast(Default::default())).await,
None,
);
}
#[async_std::test]
async fn waits_on_in_block() {
assert_eq!(
on_transaction_status(TransactionStatus::InBlock(Default::default())).await,
None,
);
}
#[async_std::test]
async fn waits_on_retracted() {
assert_eq!(
on_transaction_status(TransactionStatus::Retracted(Default::default())).await,
None,
);
}
#[async_std::test]
async fn lost_on_finality_timeout() {
assert_eq!(
on_transaction_status(TransactionStatus::FinalityTimeout(Default::default())).await,
Some((TrackedTransactionStatus::Lost, InvalidationStatus::Lost)),
);
}
#[async_std::test]
async fn lost_on_usurped() {
assert_eq!(
on_transaction_status(TransactionStatus::Usurped(Default::default())).await,
Some((TrackedTransactionStatus::Lost, InvalidationStatus::Lost)),
);
}
#[async_std::test]
async fn lost_on_dropped() {
assert_eq!(
on_transaction_status(TransactionStatus::Dropped).await,
Some((TrackedTransactionStatus::Lost, InvalidationStatus::Lost)),
);
}
#[async_std::test]
async fn lost_on_subscription_error() {
assert_eq!(
watch_transaction_status::<TestChain, _>(Default::default(), futures::stream::iter([]))
.now_or_never(),
Some(InvalidationStatus::Lost),
);
}
}
bridges/relays/finality/src/finality_loop.rs
+44 -35
View File
@@ -29,7 +29,7 @@ use futures::{select, Future, FutureExt, Stream, StreamExt};
use num_traits::{One, Saturating}; use num_traits::{One, Saturating};
use relay_utils::{ use relay_utils::{
metrics::MetricsParams, relay_loop::Client as RelayClient, retry_backoff, FailedClient, metrics::MetricsParams, relay_loop::Client as RelayClient, retry_backoff, FailedClient,
HeaderId, MaybeConnectionError, HeaderId, MaybeConnectionError, TrackedTransactionStatus, TransactionTracker,
}; };
use std::{ use std::{
pin::Pin, pin::Pin,
@@ -86,6 +86,9 @@ pub trait SourceClient<P: FinalitySyncPipeline>: RelayClient {
/// Target client used in finality synchronization loop. /// Target client used in finality synchronization loop.
#[async_trait] #[async_trait]
pub trait TargetClient<P: FinalitySyncPipeline>: RelayClient { pub trait TargetClient<P: FinalitySyncPipeline>: RelayClient {
/// Transaction tracker to track submitted transactions.
type TransactionTracker: TransactionTracker;
/// Get best finalized source block number. /// Get best finalized source block number.
async fn best_finalized_source_block_id( async fn best_finalized_source_block_id(
&self, &self,
@@ -96,7 +99,7 @@ pub trait TargetClient<P: FinalitySyncPipeline>: RelayClient {
&self, &self,
header: P::Header, header: P::Header,
proof: P::FinalityProof, proof: P::FinalityProof,
) -> Result<(), Self::Error>; ) -> Result<Self::TransactionTracker, Self::Error>;
} }
/// Return prefix that will be used by default to expose Prometheus metrics of the finality proofs /// Return prefix that will be used by default to expose Prometheus metrics of the finality proofs
@@ -153,8 +156,6 @@ pub(crate) enum Error<P: FinalitySyncPipeline, SourceError, TargetError> {
Target(TargetError), Target(TargetError),
/// Finality proof for mandatory header is missing from the source node. /// Finality proof for mandatory header is missing from the source node.
MissingMandatoryFinalityProof(P::Number), MissingMandatoryFinalityProof(P::Number),
/// The synchronization has stalled.
Stalled,
} }
impl<P, SourceError, TargetError> Error<P, SourceError, TargetError> impl<P, SourceError, TargetError> Error<P, SourceError, TargetError>
@@ -167,7 +168,6 @@ where
match *self { match *self {
Error::Source(ref error) if error.is_connection_error() => Err(FailedClient::Source), Error::Source(ref error) if error.is_connection_error() => Err(FailedClient::Source),
Error::Target(ref error) if error.is_connection_error() => Err(FailedClient::Target), Error::Target(ref error) if error.is_connection_error() => Err(FailedClient::Target),
Error::Stalled => Err(FailedClient::Both),
_ => Ok(()), _ => Ok(()),
} }
} }
@@ -175,9 +175,9 @@ where
/// Information about transaction that we have submitted. /// Information about transaction that we have submitted.
#[derive(Debug, Clone)] #[derive(Debug, Clone)]
pub(crate) struct Transaction<Number> { pub(crate) struct Transaction<Tracker, Number> {
/// Time when we have submitted this transaction. /// Submitted transaction tracker.
pub time: Instant, pub tracker: Tracker,
/// The number of the header we have submitted. /// The number of the header we have submitted.
pub submitted_header_number: Number, pub submitted_header_number: Number,
} }
@@ -206,11 +206,12 @@ pub(crate) struct FinalityLoopState<'a, P: FinalitySyncPipeline, FinalityProofsS
&'a mut RestartableFinalityProofsStream<FinalityProofsStream>, &'a mut RestartableFinalityProofsStream<FinalityProofsStream>,
/// Recent finality proofs that we have read from the stream. /// Recent finality proofs that we have read from the stream.
pub(crate) recent_finality_proofs: &'a mut FinalityProofs<P>, pub(crate) recent_finality_proofs: &'a mut FinalityProofs<P>,
/// Last transaction that we have submitted to the target node. /// Number of the last header, submitted to the target node.
pub(crate) last_transaction: Option<Transaction<P::Number>>, pub(crate) submitted_header_number: Option<P::Number>,
} }
async fn run_until_connection_lost<P: FinalitySyncPipeline>( /// Run finality relay loop until connection to one of nodes is lost.
pub(crate) async fn run_until_connection_lost<P: FinalitySyncPipeline>(
source_client: impl SourceClient<P>, source_client: impl SourceClient<P>,
target_client: impl TargetClient<P>, target_client: impl TargetClient<P>,
sync_params: FinalitySyncParams, sync_params: FinalitySyncParams,
@@ -230,8 +231,9 @@ async fn run_until_connection_lost<P: FinalitySyncPipeline>(
}) })
}; };
let last_transaction_tracker = futures::future::Fuse::terminated();
let exit_signal = exit_signal.fuse(); let exit_signal = exit_signal.fuse();
futures::pin_mut!(exit_signal); futures::pin_mut!(last_transaction_tracker, exit_signal);
let mut finality_proofs_stream = RestartableFinalityProofsStream { let mut finality_proofs_stream = RestartableFinalityProofsStream {
needs_restart: false, needs_restart: false,
@@ -241,7 +243,7 @@ async fn run_until_connection_lost<P: FinalitySyncPipeline>(
let mut progress = (Instant::now(), None); let mut progress = (Instant::now(), None);
let mut retry_backoff = retry_backoff(); let mut retry_backoff = retry_backoff();
let mut last_transaction = None; let mut last_submitted_header_number = None;
loop { loop {
// run loop iteration // run loop iteration
@@ -252,7 +254,7 @@ async fn run_until_connection_lost<P: FinalitySyncPipeline>(
progress: &mut progress, progress: &mut progress,
finality_proofs_stream: &mut finality_proofs_stream, finality_proofs_stream: &mut finality_proofs_stream,
recent_finality_proofs: &mut recent_finality_proofs, recent_finality_proofs: &mut recent_finality_proofs,
last_transaction: last_transaction.clone(), submitted_header_number: last_submitted_header_number,
}, },
&sync_params, &sync_params,
&metrics_sync, &metrics_sync,
@@ -261,8 +263,14 @@ async fn run_until_connection_lost<P: FinalitySyncPipeline>(
// deal with errors // deal with errors
let next_tick = match iteration_result { let next_tick = match iteration_result {
Ok(updated_last_transaction) => { Ok(Some(updated_last_transaction)) => {
last_transaction = updated_last_transaction; last_transaction_tracker.set(updated_last_transaction.tracker.wait().fuse());
last_submitted_header_number =
Some(updated_last_transaction.submitted_header_number);
retry_backoff.reset();
sync_params.tick
},
Ok(None) => {
retry_backoff.reset(); retry_backoff.reset();
sync_params.tick sync_params.tick
}, },
@@ -281,6 +289,18 @@ async fn run_until_connection_lost<P: FinalitySyncPipeline>(
// wait till exit signal, or new source block // wait till exit signal, or new source block
select! { select! {
transaction_status = last_transaction_tracker => {
if transaction_status == TrackedTransactionStatus::Lost {
log::error!(
target: "bridge",
"Finality synchronization from {} to {} has stalled. Going to restart",
P::SOURCE_NAME,
P::TARGET_NAME,
);
return Err(FailedClient::Both);
}
},
_ = async_std::task::sleep(next_tick).fuse() => {}, _ = async_std::task::sleep(next_tick).fuse() => {},
_ = exit_signal => return Ok(()), _ = exit_signal => return Ok(()),
} }
@@ -293,7 +313,7 @@ pub(crate) async fn run_loop_iteration<P, SC, TC>(
state: FinalityLoopState<'_, P, SC::FinalityProofsStream>, state: FinalityLoopState<'_, P, SC::FinalityProofsStream>,
sync_params: &FinalitySyncParams, sync_params: &FinalitySyncParams,
metrics_sync: &Option<SyncLoopMetrics>, metrics_sync: &Option<SyncLoopMetrics>,
) -> Result<Option<Transaction<P::Number>>, Error<P, SC::Error, TC::Error>> ) -> Result<Option<Transaction<TC::TransactionTracker, P::Number>>, Error<P, SC::Error, TC::Error>>
where where
P: FinalitySyncPipeline, P: FinalitySyncPipeline,
SC: SourceClient<P>, SC: SourceClient<P>,
@@ -333,20 +353,11 @@ where
// if we have already submitted header, then we just need to wait for it // if we have already submitted header, then we just need to wait for it
// if we're waiting too much, then we believe our transaction has been lost and restart sync // if we're waiting too much, then we believe our transaction has been lost and restart sync
if let Some(last_transaction) = state.last_transaction { if let Some(submitted_header_number) = state.submitted_header_number {
if best_number_at_target >= last_transaction.submitted_header_number { if best_number_at_target >= submitted_header_number {
// transaction has been mined && we can continue // transaction has been mined && we can continue
} else if last_transaction.time.elapsed() > sync_params.stall_timeout {
log::error!(
target: "bridge",
"Finality synchronization from {} to {} has stalled. Going to restart",
P::SOURCE_NAME,
P::TARGET_NAME,
);
return Err(Error::Stalled)
} else { } else {
return Ok(Some(last_transaction)) return Ok(None)
} }
} }
@@ -363,22 +374,20 @@ where
.await? .await?
{ {
Some((header, justification)) => { Some((header, justification)) => {
let new_transaction = let submitted_header_number = header.number();
Transaction { time: Instant::now(), submitted_header_number: header.number() };
log::debug!( log::debug!(
target: "bridge", target: "bridge",
"Going to submit finality proof of {} header #{:?} to {}", "Going to submit finality proof of {} header #{:?} to {}",
P::SOURCE_NAME, P::SOURCE_NAME,
new_transaction.submitted_header_number, submitted_header_number,
P::TARGET_NAME, P::TARGET_NAME,
); );
target_client let tracker = target_client
.submit_finality_proof(header, justification) .submit_finality_proof(header, justification)
.await .await
.map_err(Error::Target)?; .map_err(Error::Target)?;
Ok(Some(new_transaction)) Ok(Some(Transaction { tracker, submitted_header_number }))
}, },
None => Ok(None), None => Ok(None),
} }
bridges/relays/finality/src/finality_loop_tests.rs
+47 -13
View File
@@ -20,10 +20,10 @@
use crate::{ use crate::{
finality_loop::{ finality_loop::{
prune_recent_finality_proofs, read_finality_proofs_from_stream, run, run_loop_iteration, prune_recent_finality_proofs, read_finality_proofs_from_stream, run_loop_iteration,
select_better_recent_finality_proof, select_header_to_submit, FinalityLoopState, run_until_connection_lost, select_better_recent_finality_proof, select_header_to_submit,
FinalityProofs, FinalitySyncParams, RestartableFinalityProofsStream, SourceClient, FinalityLoopState, FinalityProofs, FinalitySyncParams, RestartableFinalityProofsStream,
TargetClient, SourceClient, TargetClient,
}, },
sync_loop_metrics::SyncLoopMetrics, sync_loop_metrics::SyncLoopMetrics,
FinalityProof, FinalitySyncPipeline, SourceHeader, FinalityProof, FinalitySyncPipeline, SourceHeader,
@@ -33,7 +33,8 @@ use async_trait::async_trait;
use futures::{FutureExt, Stream, StreamExt}; use futures::{FutureExt, Stream, StreamExt};
use parking_lot::Mutex; use parking_lot::Mutex;
use relay_utils::{ use relay_utils::{
metrics::MetricsParams, relay_loop::Client as RelayClient, HeaderId, MaybeConnectionError, relay_loop::Client as RelayClient, FailedClient, HeaderId, MaybeConnectionError,
TrackedTransactionStatus, TransactionTracker,
}; };
use std::{ use std::{
collections::HashMap, collections::HashMap,
@@ -46,6 +47,22 @@ type IsMandatory = bool;
type TestNumber = u64; type TestNumber = u64;
type TestHash = u64; type TestHash = u64;
#[derive(Clone, Debug)]
struct TestTransactionTracker(TrackedTransactionStatus);
impl Default for TestTransactionTracker {
fn default() -> TestTransactionTracker {
TestTransactionTracker(TrackedTransactionStatus::Finalized)
}
}
#[async_trait]
impl TransactionTracker for TestTransactionTracker {
async fn wait(self) -> TrackedTransactionStatus {
self.0
}
}
#[derive(Debug, Clone)] #[derive(Debug, Clone)]
enum TestError { enum TestError {
NonConnection, NonConnection,
@@ -104,6 +121,7 @@ struct ClientsData {
target_best_block_id: HeaderId<TestHash, TestNumber>, target_best_block_id: HeaderId<TestHash, TestNumber>,
target_headers: Vec<(TestSourceHeader, TestFinalityProof)>, target_headers: Vec<(TestSourceHeader, TestFinalityProof)>,
target_transaction_tracker: TestTransactionTracker,
} }
#[derive(Clone)] #[derive(Clone)]
@@ -164,6 +182,8 @@ impl RelayClient for TestTargetClient {
#[async_trait] #[async_trait]
impl TargetClient<TestFinalitySyncPipeline> for TestTargetClient { impl TargetClient<TestFinalitySyncPipeline> for TestTargetClient {
type TransactionTracker = TestTransactionTracker;
async fn best_finalized_source_block_id( async fn best_finalized_source_block_id(
&self, &self,
) -> Result<HeaderId<TestHash, TestNumber>, TestError> { ) -> Result<HeaderId<TestHash, TestNumber>, TestError> {
@@ -176,12 +196,13 @@ impl TargetClient<TestFinalitySyncPipeline> for TestTargetClient {
&self, &self,
header: TestSourceHeader, header: TestSourceHeader,
proof: TestFinalityProof, proof: TestFinalityProof,
) -> Result<(), TestError> { ) -> Result<TestTransactionTracker, TestError> {
let mut data = self.data.lock(); let mut data = self.data.lock();
(self.on_method_call)(&mut data); (self.on_method_call)(&mut data);
data.target_best_block_id = HeaderId(header.number(), header.hash()); data.target_best_block_id = HeaderId(header.number(), header.hash());
data.target_headers.push((header, proof)); data.target_headers.push((header, proof));
Ok(()) (self.on_method_call)(&mut data);
Ok(data.target_transaction_tracker.clone())
} }
} }
@@ -203,6 +224,7 @@ fn prepare_test_clients(
target_best_block_id: HeaderId(5, 5), target_best_block_id: HeaderId(5, 5),
target_headers: vec![], target_headers: vec![],
target_transaction_tracker: TestTransactionTracker(TrackedTransactionStatus::Finalized),
})); }));
( (
TestSourceClient { TestSourceClient {
@@ -224,7 +246,7 @@ fn test_sync_params() -> FinalitySyncParams {
fn run_sync_loop( fn run_sync_loop(
state_function: impl Fn(&mut ClientsData) -> bool + Send + Sync + 'static, state_function: impl Fn(&mut ClientsData) -> bool + Send + Sync + 'static,
) -> ClientsData { ) -> (ClientsData, Result<(), FailedClient>) {
let (exit_sender, exit_receiver) = futures::channel::mpsc::unbounded(); let (exit_sender, exit_receiver) = futures::channel::mpsc::unbounded();
let (source_client, target_client) = prepare_test_clients( let (source_client, target_client) = prepare_test_clients(
exit_sender, exit_sender,
@@ -243,21 +265,21 @@ fn run_sync_loop(
let sync_params = test_sync_params(); let sync_params = test_sync_params();
let clients_data = source_client.data.clone(); let clients_data = source_client.data.clone();
let _ = async_std::task::block_on(run( let result = async_std::task::block_on(run_until_connection_lost(
source_client, source_client,
target_client, target_client,
sync_params, sync_params,
MetricsParams::disabled(), None,
exit_receiver.into_future().map(|(_, _)| ()), exit_receiver.into_future().map(|(_, _)| ()),
)); ));
let clients_data = clients_data.lock().clone(); let clients_data = clients_data.lock().clone();
clients_data (clients_data, result)
} }
#[test] #[test]
fn finality_sync_loop_works() { fn finality_sync_loop_works() {
let client_data = run_sync_loop(|data| { let (client_data, result) = run_sync_loop(|data| {
// header#7 has persistent finality proof, but it isn't mandatory => it isn't submitted, // header#7 has persistent finality proof, but it isn't mandatory => it isn't submitted,
// because header#8 has persistent finality proof && it is mandatory => it is submitted // because header#8 has persistent finality proof && it is mandatory => it is submitted
// header#9 has persistent finality proof, but it isn't mandatory => it is submitted, // header#9 has persistent finality proof, but it isn't mandatory => it is submitted,
@@ -286,6 +308,7 @@ fn finality_sync_loop_works() {
data.target_best_block_id.0 == 16 data.target_best_block_id.0 == 16
}); });
assert_eq!(result, Ok(()));
assert_eq!( assert_eq!(
client_data.target_headers, client_data.target_headers,
vec![ vec![
@@ -538,7 +561,7 @@ fn different_forks_at_source_and_at_target_are_detected() {
progress: &mut progress, progress: &mut progress,
finality_proofs_stream: &mut finality_proofs_stream, finality_proofs_stream: &mut finality_proofs_stream,
recent_finality_proofs: &mut recent_finality_proofs, recent_finality_proofs: &mut recent_finality_proofs,
last_transaction: None, submitted_header_number: None,
}, },
&test_sync_params(), &test_sync_params(),
&Some(metrics_sync.clone()), &Some(metrics_sync.clone()),
@@ -547,3 +570,14 @@ fn different_forks_at_source_and_at_target_are_detected() {
assert!(!metrics_sync.is_using_same_fork()); assert!(!metrics_sync.is_using_same_fork());
} }
#[test]
fn stalls_when_transaction_tracker_returns_error() {
let (_, result) = run_sync_loop(|data| {
data.target_transaction_tracker = TestTransactionTracker(TrackedTransactionStatus::Lost);
data.target_best_block_id = HeaderId(5, 5);
data.target_best_block_id.0 == 16
});
assert_eq!(result, Err(FailedClient::Both));
}
bridges/relays/lib-substrate-relay/src/finality/target.rs
+5 -4
View File
@@ -28,7 +28,7 @@ use async_trait::async_trait;
use finality_relay::TargetClient; use finality_relay::TargetClient;
use relay_substrate_client::{ use relay_substrate_client::{
AccountIdOf, AccountKeyPairOf, Chain, Client, Error, HeaderIdOf, HeaderOf, SignParam, AccountIdOf, AccountKeyPairOf, Chain, Client, Error, HeaderIdOf, HeaderOf, SignParam,
SyncHeader, TransactionEra, TransactionSignScheme, UnsignedTransaction, SyncHeader, TransactionEra, TransactionSignScheme, TransactionTracker, UnsignedTransaction,
}; };
use relay_utils::relay_loop::Client as RelayClient; use relay_utils::relay_loop::Client as RelayClient;
use sp_core::Pair; use sp_core::Pair;
@@ -89,6 +89,8 @@ where
AccountIdOf<P::TargetChain>: From<<AccountKeyPairOf<P::TransactionSignScheme> as Pair>::Public>, AccountIdOf<P::TargetChain>: From<<AccountKeyPairOf<P::TransactionSignScheme> as Pair>::Public>,
P::TransactionSignScheme: TransactionSignScheme<Chain = P::TargetChain>, P::TransactionSignScheme: TransactionSignScheme<Chain = P::TargetChain>,
{ {
type TransactionTracker = TransactionTracker<P::TargetChain>;
async fn best_finalized_source_block_id(&self) -> Result<HeaderIdOf<P::SourceChain>, Error> { async fn best_finalized_source_block_id(&self) -> Result<HeaderIdOf<P::SourceChain>, Error> {
// we can't continue to relay finality if target node is out of sync, because // we can't continue to relay finality if target node is out of sync, because
// it may have already received (some of) headers that we're going to relay // it may have already received (some of) headers that we're going to relay
@@ -109,14 +111,14 @@ where
&self, &self,
header: SyncHeader<HeaderOf<P::SourceChain>>, header: SyncHeader<HeaderOf<P::SourceChain>>,
proof: SubstrateFinalityProof<P>, proof: SubstrateFinalityProof<P>,
) -> Result<(), Error> { ) -> Result<Self::TransactionTracker, Error> {
let genesis_hash = *self.client.genesis_hash(); let genesis_hash = *self.client.genesis_hash();
let transaction_params = self.transaction_params.clone(); let transaction_params = self.transaction_params.clone();
let call = let call =
P::SubmitFinalityProofCallBuilder::build_submit_finality_proof_call(header, proof); P::SubmitFinalityProofCallBuilder::build_submit_finality_proof_call(header, proof);
let (spec_version, transaction_version) = self.client.simple_runtime_version().await?; let (spec_version, transaction_version) = self.client.simple_runtime_version().await?;
self.client self.client
.submit_signed_extrinsic( .submit_and_watch_signed_extrinsic(
self.transaction_params.signer.public().into(), self.transaction_params.signer.public().into(),
SignParam::<P::TransactionSignScheme> { SignParam::<P::TransactionSignScheme> {
spec_version, spec_version,
@@ -130,6 +132,5 @@ where
}, },
) )
.await .await
.map(drop)
} }
} }
bridges/relays/utils/src/lib.rs
+17
View File
@@ -20,6 +20,7 @@ pub use bp_runtime::HeaderId;
pub use error::Error; pub use error::Error;
pub use relay_loop::{relay_loop, relay_metrics}; pub use relay_loop::{relay_loop, relay_metrics};
use async_trait::async_trait;
use backoff::{backoff::Backoff, ExponentialBackoff}; use backoff::{backoff::Backoff, ExponentialBackoff};
use futures::future::FutureExt; use futures::future::FutureExt;
use std::time::Duration; use std::time::Duration;
@@ -119,6 +120,22 @@ pub trait MaybeConnectionError {
fn is_connection_error(&self) -> bool; fn is_connection_error(&self) -> bool;
} }
/// Final status of the tracked transaction.
#[derive(Debug, Clone, Copy, PartialEq)]
pub enum TrackedTransactionStatus {
/// Transaction has been lost.
Lost,
/// Transaction has been mined and finalized.
Finalized,
}
/// Transaction tracker.
#[async_trait]
pub trait TransactionTracker: Send {
/// Wait until transaction is either finalized or invalidated/lost.
async fn wait(self) -> TrackedTransactionStatus;
}
/// Stringified error that may be either connection-related or not. /// Stringified error that may be either connection-related or not.
#[derive(Error, Debug)] #[derive(Error, Debug)]
pub enum StringifiedMaybeConnectionError { pub enum StringifiedMaybeConnectionError {