mirror of
https://github.com/pezkuwichain/pezkuwi-subxt.git
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6b20f7a2c5
* ci: add quick-check with clippy and rustfmt * chore: rustfmt round * chore: set the same rustfmt config than substrate * chore: fix formatting * cI: remove clippy * ci: switch to nightly for the checks * ci: fix toolchains and naming * ci: Limit the check to formatting * chore: fix formatting * Update .rustfmt.toml * Update .rustfmt.toml Co-authored-by: Bastian Köcher <bkchr@users.noreply.github.com>
452 lines
13 KiB
Rust
452 lines
13 KiB
Rust
// Copyright 2021 Parity Technologies (UK) Ltd.
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// This file is part of Cumulus.
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// Cumulus is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Polkadot is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Cumulus. If not, see <http://www.gnu.org/licenses/>.
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//! Parachain PoV recovery
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//!
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//! A parachain needs to build PoVs that are send to the relay chain to progress. These PoVs are
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//! erasure encoded and one piece of it is stored by each relay chain validator. As the relay chain
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//! decides on which PoV per parachain to include and thus, to progess the parachain it can happen
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//! that the block corresponding to this PoV isn't propagated in the parachain network. This can have
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//! several reasons, either a malicious collator that managed to include its own PoV and doesn't want
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//! to share it with the rest of the network or maybe a collator went down before it could distribute
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//! the block in the network. When something like this happens we can use the PoV recovery algorithm
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//! implemented in this crate to recover a PoV and to propagate it with the rest of the network. This
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//! protocol is only executed by the collators, to not overwhelm the relay chain validators.
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//!
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//! It works in the following way:
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//!
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//! 1. For every included relay chain block we note the backed candidate of our parachain. If the
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//! block belonging to the PoV is already known, we do nothing. Otherwise we start
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//! a timer that waits a random time between 0..relay_chain_slot_length before starting to recover
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//! the PoV.
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//!
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//! 2. If between starting and firing the timer the block is imported, we skip the recovery of the
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//! PoV.
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//!
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//! 3. If the timer fired we recover the PoV using the relay chain PoV recovery protocol. After it
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//! is recovered, we restore the block and import it.
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//!
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//! If we need to recover multiple PoV blocks (which should hopefully not happen in real life), we
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//! make sure that the blocks are imported in the correct order.
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use sc_client_api::{BlockBackend, BlockchainEvents, UsageProvider};
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use sc_consensus::import_queue::{ImportQueue, IncomingBlock};
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use sp_api::ProvideRuntimeApi;
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use sp_consensus::{BlockOrigin, BlockStatus};
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use sp_runtime::{
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generic::BlockId,
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traits::{Block as BlockT, Header as HeaderT, NumberFor},
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};
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use polkadot_node_primitives::{AvailableData, POV_BOMB_LIMIT};
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use polkadot_overseer::Handle as OverseerHandle;
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use polkadot_primitives::v1::{
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Block as PBlock, CandidateReceipt, CommittedCandidateReceipt, Id as ParaId, ParachainHost,
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SessionIndex,
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};
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use cumulus_primitives_core::ParachainBlockData;
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use codec::Decode;
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use futures::{select, stream::FuturesUnordered, Future, FutureExt, Stream, StreamExt};
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use futures_timer::Delay;
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use rand::{thread_rng, Rng};
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use std::{
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collections::{HashMap, VecDeque},
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pin::Pin,
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sync::Arc,
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time::Duration,
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};
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mod active_candidate_recovery;
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use active_candidate_recovery::ActiveCandidateRecovery;
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const LOG_TARGET: &str = "cumulus-pov-recovery";
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/// Represents a pending candidate.
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struct PendingCandidate<Block: BlockT> {
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receipt: CandidateReceipt,
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session_index: SessionIndex,
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block_number: NumberFor<Block>,
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}
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/// Encapsulates the logic of the pov recovery.
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pub struct PoVRecovery<Block: BlockT, PC, IQ, RC> {
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/// All the pending candidates that we are waiting for to be imported or that need to be
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/// recovered when `next_candidate_to_recover` tells us to do so.
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pending_candidates: HashMap<Block::Hash, PendingCandidate<Block>>,
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/// A stream of futures that resolve to hashes of candidates that need to be recovered.
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///
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/// The candidates to the hashes are stored in `pending_candidates`. If a candidate is not
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/// available anymore in this map, it means that it was already imported.
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next_candidate_to_recover: FuturesUnordered<Pin<Box<dyn Future<Output = Block::Hash> + Send>>>,
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active_candidate_recovery: ActiveCandidateRecovery<Block>,
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/// Blocks that wait that the parent is imported.
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///
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/// Uses parent -> blocks mapping.
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waiting_for_parent: HashMap<Block::Hash, Vec<Block>>,
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relay_chain_slot_duration: Duration,
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parachain_client: Arc<PC>,
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parachain_import_queue: IQ,
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relay_chain_client: Arc<RC>,
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para_id: ParaId,
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}
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impl<Block: BlockT, PC, IQ, RC> PoVRecovery<Block, PC, IQ, RC>
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where
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PC: BlockBackend<Block> + BlockchainEvents<Block> + UsageProvider<Block>,
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RC: ProvideRuntimeApi<PBlock> + BlockchainEvents<PBlock>,
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RC::Api: ParachainHost<PBlock>,
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IQ: ImportQueue<Block>,
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{
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/// Create a new instance.
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pub fn new(
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overseer_handle: OverseerHandle,
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relay_chain_slot_duration: Duration,
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parachain_client: Arc<PC>,
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parachain_import_queue: IQ,
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relay_chain_client: Arc<RC>,
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para_id: ParaId,
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) -> Self {
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Self {
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pending_candidates: HashMap::new(),
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next_candidate_to_recover: Default::default(),
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active_candidate_recovery: ActiveCandidateRecovery::new(overseer_handle),
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relay_chain_slot_duration,
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waiting_for_parent: HashMap::new(),
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parachain_client,
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parachain_import_queue,
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relay_chain_client,
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para_id,
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}
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}
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/// Handle a new pending candidate.
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fn handle_pending_candidate(
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&mut self,
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receipt: CommittedCandidateReceipt,
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session_index: SessionIndex,
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) {
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let header = match Block::Header::decode(&mut &receipt.commitments.head_data.0[..]) {
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Ok(header) => header,
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Err(e) => {
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tracing::warn!(
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target: LOG_TARGET,
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error = ?e,
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"Failed to decode parachain header from pending candidate",
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);
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return
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},
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};
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if *header.number() <= self.parachain_client.usage_info().chain.finalized_number {
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return
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}
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let hash = header.hash();
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match self.parachain_client.block_status(&BlockId::Hash(hash)) {
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Ok(BlockStatus::Unknown) => (),
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// Any other state means, we should ignore it.
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Ok(_) => return,
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Err(e) => {
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tracing::debug!(
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target: "cumulus-consensus",
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error = ?e,
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block_hash = ?hash,
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"Failed to get block status",
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);
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return
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},
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}
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if self
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.pending_candidates
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.insert(
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hash,
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PendingCandidate {
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block_number: *header.number(),
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receipt: receipt.to_plain(),
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session_index,
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},
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)
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.is_some()
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{
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return
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}
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// Wait some random time, with the maximum being the slot duration of the relay chain
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// before we start to recover the candidate.
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let delay = Delay::new(self.relay_chain_slot_duration.mul_f64(thread_rng().gen()));
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self.next_candidate_to_recover.push(
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async move {
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delay.await;
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hash
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}
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.boxed(),
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);
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}
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/// Handle an imported block.
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fn handle_block_imported(&mut self, hash: &Block::Hash) {
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self.pending_candidates.remove(&hash);
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}
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/// Handle a finalized block with the given `block_number`.
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fn handle_block_finalized(&mut self, block_number: NumberFor<Block>) {
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self.pending_candidates.retain(|_, pc| pc.block_number > block_number);
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}
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/// Recover the candidate for the given `block_hash`.
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async fn recover_candidate(&mut self, block_hash: Block::Hash) {
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let pending_candidate = match self.pending_candidates.remove(&block_hash) {
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Some(pending_candidate) => pending_candidate,
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None => return,
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};
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self.active_candidate_recovery
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.recover_candidate(block_hash, pending_candidate)
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.await;
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}
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/// Clear `waiting_for_parent` from the given `hash` and do this recursively for all child
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/// blocks.
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fn clear_waiting_for_parent(&mut self, hash: Block::Hash) {
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let mut blocks_to_delete = vec![hash];
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while let Some(delete) = blocks_to_delete.pop() {
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if let Some(childs) = self.waiting_for_parent.remove(&delete) {
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blocks_to_delete.extend(childs.iter().map(BlockT::hash));
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}
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}
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}
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/// Handle a recovered candidate.
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async fn handle_candidate_recovered(
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&mut self,
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block_hash: Block::Hash,
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available_data: Option<AvailableData>,
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) {
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let available_data = match available_data {
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Some(data) => data,
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None => {
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self.clear_waiting_for_parent(block_hash);
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return
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},
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};
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let raw_block_data = match sp_maybe_compressed_blob::decompress(
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&available_data.pov.block_data.0,
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POV_BOMB_LIMIT,
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) {
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Ok(r) => r,
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Err(error) => {
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tracing::debug!(target: LOG_TARGET, ?error, "Failed to decompress PoV");
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self.clear_waiting_for_parent(block_hash);
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return
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},
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};
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let block_data = match ParachainBlockData::<Block>::decode(&mut &raw_block_data[..]) {
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Ok(d) => d,
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Err(error) => {
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tracing::warn!(
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target: LOG_TARGET,
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?error,
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"Failed to decode parachain block data from recovered PoV",
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);
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self.clear_waiting_for_parent(block_hash);
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return
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},
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};
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let block = block_data.into_block();
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let parent = *block.header().parent_hash();
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match self.parachain_client.block_status(&BlockId::hash(parent)) {
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Ok(BlockStatus::Unknown) => {
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if self.active_candidate_recovery.is_being_recovered(&parent) {
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tracing::debug!(
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target: "cumulus-consensus",
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?block_hash,
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parent_hash = ?parent,
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"Parent is still being recovered, waiting.",
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);
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self.waiting_for_parent.entry(parent).or_default().push(block);
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return
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} else {
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tracing::debug!(
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target: "cumulus-consensus",
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?block_hash,
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parent_hash = ?parent,
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"Parent not found while trying to import recovered block.",
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);
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self.clear_waiting_for_parent(block_hash);
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return
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}
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},
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Err(error) => {
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tracing::debug!(
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target: "cumulus-consensus",
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block_hash = ?parent,
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?error,
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"Error while checking block status",
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);
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self.clear_waiting_for_parent(block_hash);
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return
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},
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// Any other status is fine to "ignore/accept"
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_ => (),
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}
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self.import_block(block).await;
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}
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/// Import the given `block`.
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///
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/// This will also recursivley drain `waiting_for_parent` and import them as well.
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async fn import_block(&mut self, block: Block) {
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let mut blocks = VecDeque::new();
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blocks.push_back(block);
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let mut incoming_blocks = Vec::new();
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while let Some(block) = blocks.pop_front() {
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let block_hash = block.hash();
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let (header, body) = block.deconstruct();
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incoming_blocks.push(IncomingBlock {
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hash: block_hash,
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header: Some(header),
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body: Some(body),
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import_existing: false,
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allow_missing_state: false,
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justifications: None,
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origin: None,
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skip_execution: false,
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state: None,
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indexed_body: None,
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});
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if let Some(waiting) = self.waiting_for_parent.remove(&block_hash) {
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blocks.extend(waiting);
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}
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}
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self.parachain_import_queue
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.import_blocks(BlockOrigin::ConsensusBroadcast, incoming_blocks);
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}
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/// Run the pov-recovery.
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pub async fn run(mut self) {
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let mut imported_blocks = self.parachain_client.import_notification_stream().fuse();
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let mut finalized_blocks = self.parachain_client.finality_notification_stream().fuse();
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let pending_candidates =
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pending_candidates(self.relay_chain_client.clone(), self.para_id).fuse();
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futures::pin_mut!(pending_candidates);
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loop {
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select! {
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pending_candidate = pending_candidates.next() => {
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if let Some((receipt, session_index)) = pending_candidate {
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self.handle_pending_candidate(receipt, session_index);
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} else {
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tracing::debug!(
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target: LOG_TARGET,
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"Pending candidates stream ended",
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);
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return;
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}
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},
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imported = imported_blocks.next() => {
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if let Some(imported) = imported {
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self.handle_block_imported(&imported.hash);
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} else {
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tracing::debug!(
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target: LOG_TARGET,
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"Imported blocks stream ended",
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);
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return;
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}
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},
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finalized = finalized_blocks.next() => {
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if let Some(finalized) = finalized {
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self.handle_block_finalized(*finalized.header.number());
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} else {
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tracing::debug!(
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target: LOG_TARGET,
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"Finalized blocks stream ended",
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);
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return;
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}
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},
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next_to_recover = self.next_candidate_to_recover.next() => {
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if let Some(block_hash) = next_to_recover {
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self.recover_candidate(block_hash).await;
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}
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},
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(block_hash, available_data) =
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self.active_candidate_recovery.wait_for_recovery().fuse() =>
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{
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self.handle_candidate_recovered(block_hash, available_data).await;
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},
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}
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}
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}
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}
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/// Returns a stream over pending candidates for the parachain corresponding to `para_id`.
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fn pending_candidates<RC>(
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relay_chain_client: Arc<RC>,
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para_id: ParaId,
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) -> impl Stream<Item = (CommittedCandidateReceipt, SessionIndex)>
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where
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RC: ProvideRuntimeApi<PBlock> + BlockchainEvents<PBlock>,
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RC::Api: ParachainHost<PBlock>,
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{
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relay_chain_client.import_notification_stream().filter_map(move |n| {
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let runtime_api = relay_chain_client.runtime_api();
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let res = runtime_api
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.candidate_pending_availability(&BlockId::hash(n.hash), para_id)
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.and_then(|pa| {
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runtime_api
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.session_index_for_child(&BlockId::hash(n.hash))
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.map(|v| pa.map(|pa| (pa, v)))
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})
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.map_err(|e| {
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tracing::error!(
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target: LOG_TARGET,
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error = ?e,
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"Failed fetch pending candidates.",
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)
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})
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.ok()
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.flatten();
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async move { res }
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})
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}
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