pezkuwi-subxt/cumulus/client/service/src/lib.rs

// Copyright 2020-2021 Parity Technologies (UK) Ltd.
// This file is part of Cumulus.

// Substrate is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.

// Substrate is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.

// You should have received a copy of the GNU General Public License
// along with Cumulus.  If not, see <http://www.gnu.org/licenses/>.

//! Cumulus service
//!
//! Provides functions for starting a collator node or a normal full node.

use cumulus_client_cli::CollatorOptions;
use cumulus_client_consensus_common::ParachainConsensus;
use cumulus_client_network::BlockAnnounceValidator;
use cumulus_client_pov_recovery::{PoVRecovery, RecoveryDelayRange, RecoveryHandle};
use cumulus_primitives_core::{CollectCollationInfo, ParaId};
use cumulus_relay_chain_inprocess_interface::build_inprocess_relay_chain;
use cumulus_relay_chain_interface::{RelayChainInterface, RelayChainResult};
use cumulus_relay_chain_minimal_node::build_minimal_relay_chain_node;
use futures::{
	channel::{mpsc, oneshot},
	FutureExt, StreamExt,
};
use polkadot_primitives::{CollatorPair, OccupiedCoreAssumption};
use sc_client_api::{
	Backend as BackendT, BlockBackend, BlockchainEvents, Finalizer, ProofProvider, UsageProvider,
};
use sc_consensus::{
	import_queue::{ImportQueue, ImportQueueService},
	BlockImport,
};
use sc_network::{config::SyncMode, NetworkService};
use sc_network_sync::SyncingService;
use sc_network_transactions::TransactionsHandlerController;
use sc_service::{Configuration, NetworkStarter, SpawnTaskHandle, TaskManager, WarpSyncParams};
use sc_telemetry::{log, TelemetryWorkerHandle};
use sc_utils::mpsc::TracingUnboundedSender;
use sp_api::ProvideRuntimeApi;
use sp_blockchain::{HeaderBackend, HeaderMetadata};
use sp_core::{traits::SpawnNamed, Decode};
use sp_runtime::traits::{Block as BlockT, BlockIdTo};
use std::{sync::Arc, time::Duration};

// Given the sporadic nature of the explicit recovery operation and the
// possibility to retry infinite times this value is more than enough.
// In practice here we expect no more than one queued messages.
const RECOVERY_CHAN_SIZE: usize = 8;
const LOG_TARGET_SYNC: &str = "sync::cumulus";

/// Parameters given to [`start_collator`].
pub struct StartCollatorParams<'a, Block: BlockT, BS, Client, RCInterface, Spawner> {
	pub block_status: Arc<BS>,
	pub client: Arc<Client>,
	pub announce_block: Arc<dyn Fn(Block::Hash, Option<Vec<u8>>) + Send + Sync>,
	pub spawner: Spawner,
	pub para_id: ParaId,
	pub relay_chain_interface: RCInterface,
	pub task_manager: &'a mut TaskManager,
	pub parachain_consensus: Box<dyn ParachainConsensus<Block>>,
	pub import_queue: Box<dyn ImportQueueService<Block>>,
	pub collator_key: CollatorPair,
	pub relay_chain_slot_duration: Duration,
	pub recovery_handle: Box<dyn RecoveryHandle>,
	pub sync_service: Arc<SyncingService<Block>>,
}

/// Start a collator node for a parachain.
///
/// A collator is similar to a validator in a normal blockchain.
/// It is responsible for producing blocks and sending the blocks to a
/// parachain validator for validation and inclusion into the relay chain.
pub async fn start_collator<'a, Block, BS, Client, Backend, RCInterface, Spawner>(
	StartCollatorParams {
		block_status,
		client,
		announce_block,
		spawner,
		para_id,
		task_manager,
		relay_chain_interface,
		parachain_consensus,
		import_queue,
		collator_key,
		relay_chain_slot_duration,
		recovery_handle,
		sync_service,
	}: StartCollatorParams<'a, Block, BS, Client, RCInterface, Spawner>,
) -> sc_service::error::Result<()>
where
	Block: BlockT,
	BS: BlockBackend<Block> + Send + Sync + 'static,
	Client: Finalizer<Block, Backend>
		+ UsageProvider<Block>
		+ HeaderBackend<Block>
		+ Send
		+ Sync
		+ BlockBackend<Block>
		+ BlockchainEvents<Block>
		+ ProvideRuntimeApi<Block>
		+ 'static,
	Client::Api: CollectCollationInfo<Block>,
	for<'b> &'b Client: BlockImport<Block>,
	Spawner: SpawnNamed + Clone + Send + Sync + 'static,
	RCInterface: RelayChainInterface + Clone + 'static,
	Backend: BackendT<Block> + 'static,
{
	let (recovery_chan_tx, recovery_chan_rx) = mpsc::channel(RECOVERY_CHAN_SIZE);

	let consensus = cumulus_client_consensus_common::run_parachain_consensus(
		para_id,
		client.clone(),
		relay_chain_interface.clone(),
		announce_block.clone(),
		Some(recovery_chan_tx),
	);

	task_manager
		.spawn_essential_handle()
		.spawn_blocking("cumulus-consensus", None, consensus);

	let pov_recovery = PoVRecovery::new(
		recovery_handle,
		// We want that collators wait at maximum the relay chain slot duration before starting
		// to recover blocks. Additionally, we wait at least half the slot time to give the
		// relay chain the chance to increase availability.
		RecoveryDelayRange { min: relay_chain_slot_duration / 2, max: relay_chain_slot_duration },
		client.clone(),
		import_queue,
		relay_chain_interface.clone(),
		para_id,
		recovery_chan_rx,
		sync_service,
	);

	task_manager
		.spawn_essential_handle()
		.spawn("cumulus-pov-recovery", None, pov_recovery.run());

	let overseer_handle = relay_chain_interface
		.overseer_handle()
		.map_err(|e| sc_service::Error::Application(Box::new(e)))?;
	cumulus_client_collator::start_collator(cumulus_client_collator::StartCollatorParams {
		runtime_api: client,
		block_status,
		announce_block,
		overseer_handle,
		spawner,
		para_id,
		key: collator_key,
		parachain_consensus,
	})
	.await;

	Ok(())
}

/// Parameters given to [`start_full_node`].
pub struct StartFullNodeParams<'a, Block: BlockT, Client, RCInterface> {
	pub para_id: ParaId,
	pub client: Arc<Client>,
	pub relay_chain_interface: RCInterface,
	pub task_manager: &'a mut TaskManager,
	pub announce_block: Arc<dyn Fn(Block::Hash, Option<Vec<u8>>) + Send + Sync>,
	pub relay_chain_slot_duration: Duration,
	pub import_queue: Box<dyn ImportQueueService<Block>>,
	pub recovery_handle: Box<dyn RecoveryHandle>,
	pub sync_service: Arc<SyncingService<Block>>,
}

/// Start a full node for a parachain.
///
/// A full node will only sync the given parachain and will follow the
/// tip of the chain.
pub fn start_full_node<Block, Client, Backend, RCInterface>(
	StartFullNodeParams {
		client,
		announce_block,
		task_manager,
		relay_chain_interface,
		para_id,
		relay_chain_slot_duration,
		import_queue,
		recovery_handle,
		sync_service,
	}: StartFullNodeParams<Block, Client, RCInterface>,
) -> sc_service::error::Result<()>
where
	Block: BlockT,
	Client: Finalizer<Block, Backend>
		+ UsageProvider<Block>
		+ Send
		+ Sync
		+ BlockBackend<Block>
		+ BlockchainEvents<Block>
		+ 'static,
	for<'a> &'a Client: BlockImport<Block>,
	Backend: BackendT<Block> + 'static,
	RCInterface: RelayChainInterface + Clone + 'static,
{
	let (recovery_chan_tx, recovery_chan_rx) = mpsc::channel(RECOVERY_CHAN_SIZE);

	let consensus = cumulus_client_consensus_common::run_parachain_consensus(
		para_id,
		client.clone(),
		relay_chain_interface.clone(),
		announce_block,
		Some(recovery_chan_tx),
	);

	task_manager
		.spawn_essential_handle()
		.spawn_blocking("cumulus-consensus", None, consensus);

	let pov_recovery = PoVRecovery::new(
		recovery_handle,
		// Full nodes should at least wait 2.5 minutes (assuming 6 seconds slot duration) and
		// in maximum 5 minutes before starting to recover blocks. Collators should already start
		// the recovery way before full nodes try to recover a certain block and then share the
		// block with the network using "the normal way". Full nodes are just the "last resort"
		// for block recovery.
		RecoveryDelayRange {
			min: relay_chain_slot_duration * 25,
			max: relay_chain_slot_duration * 50,
		},
		client,
		import_queue,
		relay_chain_interface,
		para_id,
		recovery_chan_rx,
		sync_service,
	);

	task_manager
		.spawn_essential_handle()
		.spawn("cumulus-pov-recovery", None, pov_recovery.run());

	Ok(())
}

/// Prepare the parachain's node configuration
///
/// This function will disable the default announcement of Substrate for the parachain in favor
/// of the one of Cumulus.
pub fn prepare_node_config(mut parachain_config: Configuration) -> Configuration {
	parachain_config.announce_block = false;

	parachain_config
}

/// Build a relay chain interface.
/// Will return a minimal relay chain node with RPC
/// client or an inprocess node, based on the [`CollatorOptions`] passed in.
pub async fn build_relay_chain_interface(
	polkadot_config: Configuration,
	parachain_config: &Configuration,
	telemetry_worker_handle: Option<TelemetryWorkerHandle>,
	task_manager: &mut TaskManager,
	collator_options: CollatorOptions,
	hwbench: Option<sc_sysinfo::HwBench>,
) -> RelayChainResult<(Arc<(dyn RelayChainInterface + 'static)>, Option<CollatorPair>)> {
	if !collator_options.relay_chain_rpc_urls.is_empty() {
		build_minimal_relay_chain_node(
			polkadot_config,
			task_manager,
			collator_options.relay_chain_rpc_urls,
		)
		.await
	} else {
		build_inprocess_relay_chain(
			polkadot_config,
			parachain_config,
			telemetry_worker_handle,
			task_manager,
			hwbench,
		)
	}
}

/// Parameters given to [`build_network`].
pub struct BuildNetworkParams<
	'a,
	Block: BlockT,
	Client: ProvideRuntimeApi<Block>
		+ BlockBackend<Block>
		+ HeaderMetadata<Block, Error = sp_blockchain::Error>
		+ HeaderBackend<Block>
		+ BlockIdTo<Block>
		+ 'static,
	RCInterface,
	IQ,
> where
	Client::Api: sp_transaction_pool::runtime_api::TaggedTransactionQueue<Block>,
{
	pub parachain_config: &'a Configuration,
	pub net_config: sc_network::config::FullNetworkConfiguration,
	pub client: Arc<Client>,
	pub transaction_pool: Arc<sc_transaction_pool::FullPool<Block, Client>>,
	pub para_id: ParaId,
	pub relay_chain_interface: RCInterface,
	pub spawn_handle: SpawnTaskHandle,
	pub import_queue: IQ,
}

/// Build the network service, the network status sinks and an RPC sender.
pub async fn build_network<'a, Block, Client, RCInterface, IQ>(
	BuildNetworkParams {
		parachain_config,
		net_config,
		client,
		transaction_pool,
		para_id,
		spawn_handle,
		relay_chain_interface,
		import_queue,
	}: BuildNetworkParams<'a, Block, Client, RCInterface, IQ>,
) -> sc_service::error::Result<(
	Arc<NetworkService<Block, Block::Hash>>,
	TracingUnboundedSender<sc_rpc::system::Request<Block>>,
	TransactionsHandlerController<Block::Hash>,
	NetworkStarter,
	Arc<SyncingService<Block>>,
)>
where
	Block: BlockT,
	Client: UsageProvider<Block>
		+ HeaderBackend<Block>
		+ sp_consensus::block_validation::Chain<Block>
		+ Send
		+ Sync
		+ BlockBackend<Block>
		+ BlockchainEvents<Block>
		+ ProvideRuntimeApi<Block>
		+ HeaderMetadata<Block, Error = sp_blockchain::Error>
		+ BlockIdTo<Block, Error = sp_blockchain::Error>
		+ ProofProvider<Block>
		+ 'static,
	Client::Api: CollectCollationInfo<Block>
		+ sp_transaction_pool::runtime_api::TaggedTransactionQueue<Block>,
	for<'b> &'b Client: BlockImport<Block>,
	RCInterface: RelayChainInterface + Clone + 'static,
	IQ: ImportQueue<Block> + 'static,
{
	let warp_sync_params = match parachain_config.network.sync_mode {
		SyncMode::Warp => {
			let target_block = warp_sync_get::<Block, RCInterface>(
				para_id,
				relay_chain_interface.clone(),
				spawn_handle.clone(),
			);
			Some(WarpSyncParams::WaitForTarget(target_block))
		},
		_ => None,
	};

	let block_announce_validator = BlockAnnounceValidator::new(relay_chain_interface, para_id);
	let block_announce_validator_builder = move |_| Box::new(block_announce_validator) as Box<_>;

	sc_service::build_network(sc_service::BuildNetworkParams {
		config: parachain_config,
		net_config,
		client,
		transaction_pool,
		spawn_handle,
		import_queue,
		block_announce_validator_builder: Some(Box::new(block_announce_validator_builder)),
		warp_sync_params,
	})
}

/// Creates a new background task to wait for the relay chain to sync up and retrieve the parachain header
fn warp_sync_get<B, RCInterface>(
	para_id: ParaId,
	relay_chain_interface: RCInterface,
	spawner: SpawnTaskHandle,
) -> oneshot::Receiver<<B as BlockT>::Header>
where
	B: BlockT + 'static,
	RCInterface: RelayChainInterface + 'static,
{
	let (sender, receiver) = oneshot::channel::<B::Header>();
	spawner.spawn(
		"cumulus-parachain-wait-for-target-block",
		None,
		async move {
			log::debug!(
				target: "cumulus-network",
				"waiting for announce block in a background task...",
			);

			let _ = wait_for_target_block::<B, _>(sender, para_id, relay_chain_interface)
				.await
				.map_err(|e| {
					log::error!(
						target: LOG_TARGET_SYNC,
						"Unable to determine parachain target block {:?}",
						e
					)
				});
		}
		.boxed(),
	);

	receiver
}

/// Waits for the relay chain to have finished syncing and then gets the parachain header that corresponds to the last finalized relay chain block.
async fn wait_for_target_block<B, RCInterface>(
	sender: oneshot::Sender<<B as BlockT>::Header>,
	para_id: ParaId,
	relay_chain_interface: RCInterface,
) -> Result<(), Box<dyn std::error::Error + Send + Sync>>
where
	B: BlockT + 'static,
	RCInterface: RelayChainInterface + Send + 'static,
{
	let mut imported_blocks = relay_chain_interface.import_notification_stream().await?.fuse();
	while imported_blocks.next().await.is_some() {
		let is_syncing = relay_chain_interface.is_major_syncing().await.map_err(|e| {
			Box::<dyn std::error::Error + Send + Sync>::from(format!(
				"Unable to determine sync status. {e}"
			))
		})?;

		if !is_syncing {
			let relay_chain_best_hash = relay_chain_interface
				.finalized_block_hash()
				.await
				.map_err(|e| Box::new(e) as Box<_>)?;

			let validation_data = relay_chain_interface
				.persisted_validation_data(
					relay_chain_best_hash,
					para_id,
					OccupiedCoreAssumption::TimedOut,
				)
				.await
				.map_err(|e| format!("{e:?}"))?
				.ok_or("Could not find parachain head in relay chain")?;

			let target_block = B::Header::decode(&mut &validation_data.parent_head.0[..])
				.map_err(|e| format!("Failed to decode parachain head: {e}"))?;

			log::debug!(target: LOG_TARGET_SYNC, "Target block reached {:?}", target_block);
			let _ = sender.send(target_block);
			return Ok(())
		}
	}

	Err("Stopping following imported blocks. Could not determine parachain target block".into())
}