// 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 . //! Parachain heads target. use crate::{ parachains::{ ParachainsPipelineAdapter, SubmitParachainHeadsCallBuilder, SubstrateParachainsPipeline, }, TransactionParams, }; use async_trait::async_trait; use bp_parachains::{ ImportedParaHeadsKeyProvider, ParaInfo, ParaStoredHeaderData, ParasInfoKeyProvider, }; use bp_polkadot_core::{ parachains::{ParaHash, ParaHeadsProof, ParaId}, BlockNumber as RelayBlockNumber, }; use bp_runtime::{ Chain as ChainBase, HeaderId, HeaderIdProvider, StorageDoubleMapKeyProvider, StorageMapKeyProvider, }; use parachains_relay::parachains_loop::TargetClient; use relay_substrate_client::{ AccountIdOf, AccountKeyPairOf, BlockNumberOf, Chain, Client, Error as SubstrateError, HeaderIdOf, ParachainBase, RelayChain, TransactionEra, TransactionTracker, UnsignedTransaction, }; use relay_utils::relay_loop::Client as RelayClient; use sp_core::Pair; /// Substrate client as parachain heads source. pub struct ParachainsTarget { source_client: Client, target_client: Client, transaction_params: TransactionParams>, } impl ParachainsTarget

{ /// Creates new parachains target client. pub fn new( source_client: Client, target_client: Client, transaction_params: TransactionParams>, ) -> Self { ParachainsTarget { source_client, target_client, transaction_params } } /// Returns reference to the underlying RPC client. pub fn target_client(&self) -> &Client { &self.target_client } } impl Clone for ParachainsTarget

{ fn clone(&self) -> Self { ParachainsTarget { source_client: self.source_client.clone(), target_client: self.target_client.clone(), transaction_params: self.transaction_params.clone(), } } } #[async_trait] impl RelayClient for ParachainsTarget

{ type Error = SubstrateError; async fn reconnect(&mut self) -> Result<(), SubstrateError> { self.target_client.reconnect().await?; self.source_client.reconnect().await?; Ok(()) } } #[async_trait] impl

TargetClient> for ParachainsTarget

where P: SubstrateParachainsPipeline, AccountIdOf: From< as Pair>::Public>, P::SourceParachain: ChainBase, P::SourceRelayChain: ChainBase, { type TransactionTracker = TransactionTracker>; async fn best_block(&self) -> Result, Self::Error> { let best_header = self.target_client.best_header().await?; let best_id = best_header.id(); Ok(best_id) } async fn best_finalized_source_relay_chain_block( &self, at_block: &HeaderIdOf, ) -> Result, Self::Error> { self.target_client .typed_state_call::<_, Option>>( P::SourceRelayChain::BEST_FINALIZED_HEADER_ID_METHOD.into(), (), Some(at_block.1), ) .await? .map(Ok) .unwrap_or(Err(SubstrateError::BridgePalletIsNotInitialized)) } async fn free_source_relay_headers_interval( &self, ) -> Result>, Self::Error> { self.target_client .typed_state_call(P::SourceRelayChain::FREE_HEADERS_INTERVAL_METHOD.into(), (), None) .await } async fn parachain_head( &self, at_block: HeaderIdOf, ) -> Result< Option<(HeaderIdOf, HeaderIdOf)>, Self::Error, > { // read best parachain head from the target bridge-parachains pallet let storage_key = ParasInfoKeyProvider::final_key( P::SourceRelayChain::WITH_CHAIN_BRIDGE_PARACHAINS_PALLET_NAME, &P::SourceParachain::PARACHAIN_ID.into(), ); let storage_value: Option = self.target_client.storage_value(storage_key, Some(at_block.hash())).await?; let para_info = match storage_value { Some(para_info) => para_info, None => return Ok(None), }; // now we need to get full header ids. For source relay chain it is simple, because we // are connected let relay_header_id = self .source_client .header_by_number(para_info.best_head_hash.at_relay_block_number) .await? .id(); // for parachain, we need to read from the target chain runtime storage let storage_key = ImportedParaHeadsKeyProvider::final_key( P::SourceRelayChain::WITH_CHAIN_BRIDGE_PARACHAINS_PALLET_NAME, &P::SourceParachain::PARACHAIN_ID.into(), ¶_info.best_head_hash.head_hash, ); let storage_value: Option = self.target_client.storage_value(storage_key, Some(at_block.hash())).await?; let para_head_number = match storage_value { Some(para_head_data) => para_head_data.decode_parachain_head_data::()?.number, None => return Ok(None), }; let para_head_id = HeaderId(para_head_number, para_info.best_head_hash.head_hash); Ok(Some((relay_header_id, para_head_id))) } async fn submit_parachain_head_proof( &self, at_relay_block: HeaderIdOf, updated_head_hash: ParaHash, proof: ParaHeadsProof, is_free_execution_expected: bool, ) -> Result { let transaction_params = self.transaction_params.clone(); let call = P::SubmitParachainHeadsCallBuilder::build_submit_parachain_heads_call( at_relay_block, vec![(ParaId(P::SourceParachain::PARACHAIN_ID), updated_head_hash)], proof, is_free_execution_expected, ); self.target_client .submit_and_watch_signed_extrinsic( &transaction_params.signer, move |best_block_id, transaction_nonce| { Ok(UnsignedTransaction::new(call.into(), transaction_nonce) .era(TransactionEra::new(best_block_id, transaction_params.mortality))) }, ) .await } }