Follow-up on #1419 (#1531)

* Parachains source cosmetic changes - Make `ParaHashAtSource` more generic - Modify `on_chain_parachain_header` to return `HeaderId` - Shortening variable names Signed-off-by: Serban Iorga <serban@parity.io> * Change ParachainsSource::max_head_id type Change ParachainsSource::max_head_id to Arc<Mutex<NoopOption>> Signed-off-by: Serban Iorga <serban@parity.io> * code review changes
2026-05-30 22:11:02 +00:00 · 2022-08-02 12:49:08 +03:00
parent dd9debed3c
commit 77af92b17b
6 changed files with 92 additions and 102 deletions
@@ -82,7 +82,9 @@ pub const ACCOUNT_DERIVATION_PREFIX: &[u8] = b"pallet-bridge/account-derivation/
 pub const ROOT_ACCOUNT_DERIVATION_PREFIX: &[u8] = b"pallet-bridge/account-derivation/root";
 /// Generic header Id.
-#[derive(RuntimeDebug, Default, Clone, Encode, Decode, Copy, Eq, Hash, PartialEq)]
+#[derive(
 	RuntimeDebug, Default, Clone, Encode, Decode, Copy, Eq, Hash, PartialEq, PartialOrd, Ord,
 )]
 pub struct HeaderId<Hash, Number>(pub Number, pub Hash);
 /// Generic header id provider.
@@ -18,10 +18,14 @@ use crate::chains::{
 	rialto_parachains_to_millau::RialtoParachainToMillauCliBridge,
 	westend_parachains_to_millau::WestmintToMillauCliBridge,
 };
 use async_std::sync::Mutex;
 use async_trait::async_trait;
 use bp_polkadot_core::parachains::ParaId;
-use parachains_relay::parachains_loop::{ParachainSyncParams, SourceClient, TargetClient};
+use parachains_relay::parachains_loop::{
 	AvailableHeader, ParachainSyncParams, SourceClient, TargetClient,
 };
 use relay_utils::metrics::{GlobalMetrics, StandaloneMetric};
 use std::sync::Arc;
 use structopt::StructOpt;
 use strum::{EnumString, EnumVariantNames, VariantNames};
 use substrate_relay_helper::{
@@ -65,7 +69,10 @@ where
 {
 	async fn relay_headers(data: RelayParachains) -> anyhow::Result<()> {
 		let source_client = data.source.into_client::<Self::SourceRelay>().await?;
-		let source_client = ParachainsSource::<Self::ParachainFinality>::new(source_client, None);
+		let source_client = ParachainsSource::<Self::ParachainFinality>::new(
 			source_client,
 			Arc::new(Mutex::new(AvailableHeader::Missing)),
 		);
 		let target_transaction_params = TransactionParams {
 			signer: data.target_sign.to_keypair::<Self::Target>()?,
@@ -27,7 +27,6 @@ use relay_substrate_client::{
 	BlockNumberOf, BlockWithJustification, Chain, Client, Error, HeaderOf,
 };
 use relay_utils::relay_loop::Client as RelayClient;
 use sp_runtime::traits::Header as HeaderT;
 use std::pin::Pin;
 /// Shared updatable reference to the maximal header number that we want to sync from the source.
@@ -76,9 +75,7 @@ impl<P: SubstrateFinalitySyncPipeline> SubstrateFinalitySource<P> {
 	) -> Result<BlockNumberOf<P::SourceChain>, Error> {
 		// we **CAN** continue to relay finality proofs if source node is out of sync, because
 		// target node may be missing proofs that are already available at the source
-		let finalized_header_hash = self.client.best_finalized_header_hash().await?;
+		self.client.best_finalized_header_number().await
 		let finalized_header = self.client.header_by_hash(finalized_header_hash).await?;
 		Ok(*finalized_header.number())
 	}
 }
@@ -36,7 +36,7 @@ use bp_runtime::HeaderIdProvider;
 use futures::{select, FutureExt};
 use num_traits::Zero;
 use pallet_bridge_parachains::{RelayBlockHash, RelayBlockHasher, RelayBlockNumber};
-use parachains_relay::parachains_loop::{ParachainSyncParams, TargetClient};
+use parachains_relay::parachains_loop::{AvailableHeader, ParachainSyncParams, TargetClient};
 use relay_substrate_client::{
 	AccountIdOf, AccountKeyPairOf, BlockNumberOf, Chain, Client, Error as SubstrateError, HashOf,
 	TransactionSignScheme,
@@ -143,7 +143,7 @@ async fn background_task<P: SubstrateParachainsPipeline>(
 	let mut relay_state = RelayState::Idle;
 	let mut required_parachain_header_number = Zero::zero();
-	let required_para_header_number_ref = Arc::new(Mutex::new(None));
+	let required_para_header_number_ref = Arc::new(Mutex::new(AvailableHeader::Unavailable));
 	let mut restart_relay = true;
 	let parachains_relay_task = futures::future::Fuse::terminated();
@@ -151,7 +151,7 @@ async fn background_task<P: SubstrateParachainsPipeline>(
 	let mut parachains_source = ParachainsSource::<P>::new(
 		source_relay_client.clone(),
-		Some(required_para_header_number_ref.clone()),
+		required_para_header_number_ref.clone(),
 	);
 	let mut parachains_target =
 		ParachainsTarget::<P>::new(target_client.clone(), target_transaction_params.clone());
@@ -253,7 +253,8 @@ async fn background_task<P: SubstrateParachainsPipeline>(
 					.await;
 			},
 			RelayState::RelayingParaHeader(required_para_header) => {
-				*required_para_header_number_ref.lock().await = Some(required_para_header);
+				*required_para_header_number_ref.lock().await =
 					AvailableHeader::Available(required_para_header);
 			},
 		}
@@ -389,13 +390,9 @@ where
 		source.client().best_finalized_header().await.map_err(map_source_err)?;
 	let best_finalized_relay_block_id = best_finalized_relay_header.id();
 	let para_header_at_source = source
-		.on_chain_parachain_header(
+		.on_chain_para_head_id(best_finalized_relay_block_id, P::SOURCE_PARACHAIN_PARA_ID.into())
 			best_finalized_relay_block_id,
 			P::SOURCE_PARACHAIN_PARA_ID.into(),
 		)
 		.await
-		.map_err(map_source_err)?
+		.map_err(map_source_err)?;
 		.map(|h| h.id());
 	let relay_header_at_source = best_finalized_relay_block_id.0;
 	let relay_header_at_target =
@@ -408,10 +405,9 @@ where
 		.map_err(map_target_err)?;
 	let para_header_at_relay_header_at_target = source
-		.on_chain_parachain_header(relay_header_at_target, P::SOURCE_PARACHAIN_PARA_ID.into())
+		.on_chain_para_head_id(relay_header_at_target, P::SOURCE_PARACHAIN_PARA_ID.into())
 		.await
-		.map_err(map_source_err)?
+		.map_err(map_source_err)?;
 		.map(|h| h.id());
 	Ok(RelayData {
 		required_para_header: required_header_number,
@@ -22,35 +22,35 @@ use async_std::sync::{Arc, Mutex};
 use async_trait::async_trait;
 use bp_parachains::parachain_head_storage_key_at_source;
 use bp_polkadot_core::parachains::{ParaHash, ParaHead, ParaHeadsProof, ParaId};
 use bp_runtime::HeaderIdProvider;
 use codec::Decode;
 use parachains_relay::{
-	parachains_loop::{ParaHashAtSource, SourceClient},
+	parachains_loop::{AvailableHeader, SourceClient},
 	parachains_loop_metrics::ParachainsLoopMetrics,
 };
 use relay_substrate_client::{
 	Chain, Client, Error as SubstrateError, HeaderIdOf, HeaderOf, RelayChain,
 };
 use relay_utils::relay_loop::Client as RelayClient;
 use sp_runtime::traits::Header as HeaderT;
 /// Shared updatable reference to the maximal parachain header id that we want to sync from the
 /// source.
-pub type RequiredHeaderIdRef<C> = Arc<Mutex<Option<HeaderIdOf<C>>>>;
+pub type RequiredHeaderIdRef<C> = Arc<Mutex<AvailableHeader<HeaderIdOf<C>>>>;
 /// Substrate client as parachain heads source.
 #[derive(Clone)]
 pub struct ParachainsSource<P: SubstrateParachainsPipeline> {
 	client: Client<P::SourceRelayChain>,
-	maximal_header_id: Option<RequiredHeaderIdRef<P::SourceParachain>>,
+	max_head_id: RequiredHeaderIdRef<P::SourceParachain>,
 }
 impl<P: SubstrateParachainsPipeline> ParachainsSource<P> {
 	/// Creates new parachains source client.
 	pub fn new(
 		client: Client<P::SourceRelayChain>,
-		maximal_header_id: Option<RequiredHeaderIdRef<P::SourceParachain>>,
+		max_head_id: RequiredHeaderIdRef<P::SourceParachain>,
 	) -> Self {
-		ParachainsSource { client, maximal_header_id }
+		ParachainsSource { client, max_head_id }
 	}
 	/// Returns reference to the underlying RPC client.
@@ -59,11 +59,11 @@ impl<P: SubstrateParachainsPipeline> ParachainsSource<P> {
 	}
 	/// Return decoded head of given parachain.
-	pub async fn on_chain_parachain_header(
+	pub async fn on_chain_para_head_id(
 		&self,
 		at_block: HeaderIdOf<P::SourceRelayChain>,
 		para_id: ParaId,
-	) -> Result<Option<HeaderOf<P::SourceParachain>>, SubstrateError> {
+	) -> Result<Option<HeaderIdOf<P::SourceParachain>>, SubstrateError> {
 		let storage_key =
 			parachain_head_storage_key_at_source(P::SourceRelayChain::PARAS_PALLET_NAME, para_id);
 		let para_head = self.client.raw_storage_value(storage_key, Some(at_block.1)).await?;
@@ -72,8 +72,8 @@ impl<P: SubstrateParachainsPipeline> ParachainsSource<P> {
 			Some(para_head) => para_head,
 			None => return Ok(None),
 		};
-
+		let para_head: HeaderOf<P::SourceParachain> = Decode::decode(&mut &para_head.0[..])?;
-		Ok(Some(Decode::decode(&mut &para_head.0[..])?))
+		Ok(Some(para_head.id()))
 	}
 }
@@ -105,7 +105,7 @@ where
 		at_block: HeaderIdOf<P::SourceRelayChain>,
 		metrics: Option<&ParachainsLoopMetrics>,
 		para_id: ParaId,
-	) -> Result<ParaHashAtSource, Self::Error> {
+	) -> Result<AvailableHeader<ParaHash>, Self::Error> {
 		// we don't need to support many parachains now
 		if para_id.0 != P::SOURCE_PARACHAIN_PARA_ID {
 			return Err(SubstrateError::Custom(format!(
@@ -115,44 +115,28 @@ where
 			)))
 		}
-		let mut para_hash_at_source = ParaHashAtSource::None;
+		let mut para_head_id = AvailableHeader::Missing;
-		let mut para_header_number_at_source = None;
+		if let Some(on_chain_para_head_id) = self.on_chain_para_head_id(at_block, para_id).await? {
-		match self.on_chain_parachain_header(at_block, para_id).await? {
+			// Never return head that is larger than requested. This way we'll never sync
-			Some(parachain_header) => {
+			// headers past `max_header_id`.
-				para_hash_at_source = ParaHashAtSource::Some(parachain_header.hash());
+			para_head_id = match *self.max_head_id.lock().await {
-				para_header_number_at_source = Some(*parachain_header.number());
+				AvailableHeader::Unavailable => AvailableHeader::Unavailable,
-				// never return head that is larger than requested. This way we'll never sync
+				AvailableHeader::Missing => {
-				// headers past `maximal_header_id`
+					// `max_header_id` is not set. There is no limit.
-				if let Some(ref maximal_header_id) = self.maximal_header_id {
+					AvailableHeader::Available(on_chain_para_head_id)
-					let maximal_header_id = *maximal_header_id.lock().await;
+				},
-					match maximal_header_id {
+				AvailableHeader::Available(max_head_id) => {
-						Some(maximal_header_id)
+					// We report at most `max_header_id`.
-							if *parachain_header.number() > maximal_header_id.0 =>
+					AvailableHeader::Available(std::cmp::min(on_chain_para_head_id, max_head_id))
-						{
+				},
-							// we don't want this header yet => let's report previously requested
+			}
 							// header
 							para_hash_at_source = ParaHashAtSource::Some(maximal_header_id.1);
 							para_header_number_at_source = Some(maximal_header_id.0);
 						},
 						Some(_) => (),
 						None => {
 							// on-demand relay has not yet asked us to sync anything let's do that
 							para_hash_at_source = ParaHashAtSource::Unavailable;
 							para_header_number_at_source = None;
 						},
 					}
 				}
 			},
 			None => {},
 		};
 		if let (Some(metrics), Some(para_header_number_at_source)) =
 			(metrics, para_header_number_at_source)
 		{
 			metrics.update_best_parachain_block_at_source(para_id, para_header_number_at_source);
 		}
-		Ok(para_hash_at_source)
+		if let (Some(metrics), AvailableHeader::Available(para_head_id)) = (metrics, para_head_id) {
 			metrics.update_best_parachain_block_at_source(para_id, para_head_id.0);
 		}
 		Ok(para_head_id.map(|para_head_id| para_head_id.1))
 	}
 	async fn prove_parachain_heads(
@@ -52,29 +52,33 @@ pub enum ParachainSyncStrategy {
 	All,
 }
-/// Parachain head hash, available at the source (relay) chain.
+/// Parachain header availability at a certain chain.
 #[derive(Clone, Copy, Debug)]
-pub enum ParaHashAtSource {
+pub enum AvailableHeader<T> {
-	/// There's no parachain head at the source chain.
+	/// The client refuses to report parachain head at this moment.
 	///
 	/// Normally it means that the parachain is not registered there.
 	None,
 	/// Parachain head with given hash is available at the source chain.
 	Some(ParaHash),
 	/// The source client refuses to report parachain head hash at this moment.
 	///
 	/// It is a "mild" error, which may appear when e.g. on-demand parachains relay is used.
 	/// This variant must be treated as "we don't want to update parachain head value at the
 	/// target chain at this moment".
 	Unavailable,
 	/// There's no parachain header at the relay chain.
 	///
 	/// Normally it means that the parachain is not registered there.
 	Missing,
 	/// Parachain head with given hash is available at the source chain.
 	Available(T),
 }
-impl ParaHashAtSource {
+impl<T> AvailableHeader<T> {
-	/// Return parachain head hash, if available.
+	/// Transform contained value.
-	pub fn hash(&self) -> Option<&ParaHash> {
+	pub fn map<F, U>(self, f: F) -> AvailableHeader<U>
-		match *self {
+	where
-			ParaHashAtSource::Some(ref para_hash) => Some(para_hash),
+		F: FnOnce(T) -> U,
-			_ => None,
+	{
 		match self {
 			AvailableHeader::Unavailable => AvailableHeader::Unavailable,
 			AvailableHeader::Missing => AvailableHeader::Missing,
 			AvailableHeader::Available(val) => AvailableHeader::Available(f(val)),
 		}
 	}
 }
@@ -94,7 +98,7 @@ pub trait SourceClient<P: ParachainsPipeline>: RelayClient {
 		at_block: HeaderIdOf<P::SourceChain>,
 		metrics: Option<&ParachainsLoopMetrics>,
 		para_id: ParaId,
-	) -> Result<ParaHashAtSource, Self::Error>;
+	) -> Result<AvailableHeader<ParaHash>, Self::Error>;
 	/// Get parachain heads proof.
 	///
@@ -342,7 +346,7 @@ where
 /// Given heads at source and target clients, returns set of heads that are out of sync.
 fn select_parachains_to_update<P: ParachainsPipeline>(
-	heads_at_source: BTreeMap<ParaId, ParaHashAtSource>,
+	heads_at_source: BTreeMap<ParaId, AvailableHeader<ParaHash>>,
 	heads_at_target: BTreeMap<ParaId, Option<BestParaHeadHash>>,
 	best_finalized_relay_block: HeaderIdOf<P::SourceChain>,
 ) -> Vec<ParaId>
@@ -368,12 +372,12 @@ where
 		.zip(heads_at_target.into_iter())
 		.filter(|((para, head_at_source), (_, head_at_target))| {
 			let needs_update = match (head_at_source, head_at_target) {
-				(ParaHashAtSource::Unavailable, _) => {
+				(AvailableHeader::Unavailable, _) => {
 					// source client has politely asked us not to update current parachain head
 					// at the target chain
 					false
 				},
-				(ParaHashAtSource::Some(head_at_source), Some(head_at_target))
+				(AvailableHeader::Available(head_at_source), Some(head_at_target))
 					if head_at_target.at_relay_block_number < best_finalized_relay_block.0 &&
 						head_at_target.head_hash != *head_at_source =>
 				{
@@ -381,22 +385,22 @@ where
 					// client
 					true
 				},
-				(ParaHashAtSource::Some(_), Some(_)) => {
+				(AvailableHeader::Available(_), Some(_)) => {
 					// this is normal case when relay has recently updated heads, when parachain is
 					// not progressing, or when our source client is still syncing
 					false
 				},
-				(ParaHashAtSource::Some(_), None) => {
+				(AvailableHeader::Available(_), None) => {
 					// parachain is not yet known to the target client. This is true when parachain
 					// or bridge has been just onboarded/started
 					true
 				},
-				(ParaHashAtSource::None, Some(_)) => {
+				(AvailableHeader::Missing, Some(_)) => {
 					// parachain/parathread has been offboarded removed from the system. It needs to
 					// be propageted to the target client
 					true
 				},
-				(ParaHashAtSource::None, None) => {
+				(AvailableHeader::Missing, None) => {
 					// all's good - parachain is unknown to both clients
 					false
 				},
@@ -435,7 +439,7 @@ async fn read_heads_at_source<P: ParachainsPipeline>(
 	metrics: Option<&ParachainsLoopMetrics>,
 	at_relay_block: &HeaderIdOf<P::SourceChain>,
 	parachains: &[ParaId],
-) -> Result<BTreeMap<ParaId, ParaHashAtSource>, FailedClient> {
+) -> Result<BTreeMap<ParaId, AvailableHeader<ParaHash>>, FailedClient> {
 	let mut para_head_hashes = BTreeMap::new();
 	for para in parachains {
 		let para_head = source_client.parachain_head(*at_relay_block, metrics, *para).await;
@@ -612,7 +616,7 @@ mod tests {
 	#[derive(Clone, Debug)]
 	struct TestClientData {
 		source_sync_status: Result<bool, TestError>,
-		source_heads: BTreeMap<u32, Result<ParaHashAtSource, TestError>>,
+		source_heads: BTreeMap<u32, Result<AvailableHeader<ParaHash>, TestError>>,
 		source_proofs: BTreeMap<u32, Result<Vec<u8>, TestError>>,
 		target_best_block: Result<HeaderIdOf<TestChain>, TestError>,
@@ -627,7 +631,7 @@ mod tests {
 		pub fn minimal() -> Self {
 			TestClientData {
 				source_sync_status: Ok(true),
-				source_heads: vec![(PARA_ID, Ok(ParaHashAtSource::Some(PARA_0_HASH)))]
+				source_heads: vec![(PARA_ID, Ok(AvailableHeader::Available(PARA_0_HASH)))]
 					.into_iter()
 					.collect(),
 				source_proofs: vec![(PARA_ID, Ok(PARA_0_HASH.encode()))].into_iter().collect(),
@@ -676,10 +680,10 @@ mod tests {
 			_at_block: HeaderIdOf<TestChain>,
 			_metrics: Option<&ParachainsLoopMetrics>,
 			para_id: ParaId,
-		) -> Result<ParaHashAtSource, TestError> {
+		) -> Result<AvailableHeader<ParaHash>, TestError> {
 			match self.data.lock().await.source_heads.get(&para_id.0).cloned() {
 				Some(result) => result,
-				None => Ok(ParaHashAtSource::None),
+				None => Ok(AvailableHeader::Missing),
 			}
 		}
@@ -988,7 +992,7 @@ mod tests {
 	fn parachain_is_not_updated_if_it_is_unknown_to_both_clients() {
 		assert_eq!(
 			select_parachains_to_update::<TestParachainsPipeline>(
-				vec![(ParaId(PARA_ID), ParaHashAtSource::None)].into_iter().collect(),
+				vec![(ParaId(PARA_ID), AvailableHeader::Missing)].into_iter().collect(),
 				vec![(ParaId(PARA_ID), None)].into_iter().collect(),
 				HeaderId(10, Default::default()),
 			),
@@ -1000,7 +1004,7 @@ mod tests {
 	fn parachain_is_not_updated_if_it_has_been_updated_at_better_relay_block() {
 		assert_eq!(
 			select_parachains_to_update::<TestParachainsPipeline>(
-				vec![(ParaId(PARA_ID), ParaHashAtSource::Some(PARA_0_HASH))]
+				vec![(ParaId(PARA_ID), AvailableHeader::Available(PARA_0_HASH))]
 					.into_iter()
 					.collect(),
 				vec![(
@@ -1019,7 +1023,7 @@ mod tests {
 	fn parachain_is_not_updated_if_hash_is_the_same_at_next_relay_block() {
 		assert_eq!(
 			select_parachains_to_update::<TestParachainsPipeline>(
-				vec![(ParaId(PARA_ID), ParaHashAtSource::Some(PARA_0_HASH))]
+				vec![(ParaId(PARA_ID), AvailableHeader::Available(PARA_0_HASH))]
 					.into_iter()
 					.collect(),
 				vec![(
@@ -1038,7 +1042,7 @@ mod tests {
 	fn parachain_is_updated_after_offboarding() {
 		assert_eq!(
 			select_parachains_to_update::<TestParachainsPipeline>(
-				vec![(ParaId(PARA_ID), ParaHashAtSource::None)].into_iter().collect(),
+				vec![(ParaId(PARA_ID), AvailableHeader::Missing)].into_iter().collect(),
 				vec![(
 					ParaId(PARA_ID),
 					Some(BestParaHeadHash {
@@ -1058,7 +1062,7 @@ mod tests {
 	fn parachain_is_updated_after_onboarding() {
 		assert_eq!(
 			select_parachains_to_update::<TestParachainsPipeline>(
-				vec![(ParaId(PARA_ID), ParaHashAtSource::Some(PARA_0_HASH))]
+				vec![(ParaId(PARA_ID), AvailableHeader::Available(PARA_0_HASH))]
 					.into_iter()
 					.collect(),
 				vec![(ParaId(PARA_ID), None)].into_iter().collect(),
@@ -1072,7 +1076,7 @@ mod tests {
 	fn parachain_is_updated_if_newer_head_is_known() {
 		assert_eq!(
 			select_parachains_to_update::<TestParachainsPipeline>(
-				vec![(ParaId(PARA_ID), ParaHashAtSource::Some(PARA_1_HASH))]
+				vec![(ParaId(PARA_ID), AvailableHeader::Available(PARA_1_HASH))]
 					.into_iter()
 					.collect(),
 				vec![(
@@ -1091,7 +1095,7 @@ mod tests {
 	fn parachain_is_not_updated_if_source_head_is_unavailable() {
 		assert_eq!(
 			select_parachains_to_update::<TestParachainsPipeline>(
-				vec![(ParaId(PARA_ID), ParaHashAtSource::Unavailable)].into_iter().collect(),
+				vec![(ParaId(PARA_ID), AvailableHeader::Unavailable)].into_iter().collect(),
 				vec![(
 					ParaId(PARA_ID),
 					Some(BestParaHeadHash { at_relay_block_number: 0, head_hash: PARA_0_HASH })