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// 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/>.
//! Substrate client as Substrate messages target. The chain we connect to should have
//! runtime that implements `<BridgedChainName>HeaderApi` to allow bridging with
//! <BridgedName> chain.
messages_lane::{MessageLaneAdapter, ReceiveMessagesProofCallBuilder, SubstrateMessageLane},
messages_source::{ensure_messages_pallet_active, read_client_state, SubstrateMessagesProof},
on_demand::OnDemandRelay,
BatchCallBuilder, TransactionParams,
use async_std::sync::Arc;
use async_trait::async_trait;
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use bp_messages::{
storage_keys::inbound_lane_data_key, total_unrewarded_messages, InboundLaneData, LaneId,
MessageNonce, UnrewardedRelayersState,
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};
use bridge_runtime_common::messages::source::FromBridgedChainMessagesDeliveryProof;
message_lane::{MessageLane, SourceHeaderIdOf, TargetHeaderIdOf},
message_lane_loop::{BatchTransaction, NoncesSubmitArtifacts, TargetClient, TargetClientState},
use relay_substrate_client::{
AccountIdOf, AccountKeyPairOf, BalanceOf, CallOf, Chain, ChainWithMessages, Client,
Error as SubstrateError, HashOf, HeaderIdOf, IndexOf, SignParam, TransactionEra,
TransactionTracker, UnsignedTransaction,
};
use relay_utils::relay_loop::Client as RelayClient;
use sp_core::Pair;
use std::{collections::VecDeque, convert::TryFrom, ops::RangeInclusive};
/// Message receiving proof returned by the target Substrate node.
pub type SubstrateMessagesDeliveryProof<C> =
(UnrewardedRelayersState, FromBridgedChainMessagesDeliveryProof<HashOf<C>>);
/// Substrate client as Substrate messages target.
pub struct SubstrateMessagesTarget<P: SubstrateMessageLane> {
target_client: Client<P::TargetChain>,
source_client: Client<P::SourceChain>,
relayer_id_at_source: AccountIdOf<P::SourceChain>,
transaction_params: TransactionParams<AccountKeyPairOf<P::TargetChain>>,
source_to_target_headers_relay: Option<Arc<dyn OnDemandRelay<P::SourceChain, P::TargetChain>>>,
impl<P: SubstrateMessageLane> SubstrateMessagesTarget<P> {
/// Create new Substrate headers target.
target_client: Client<P::TargetChain>,
source_client: Client<P::SourceChain>,
lane_id: LaneId,
relayer_id_at_source: AccountIdOf<P::SourceChain>,
transaction_params: TransactionParams<AccountKeyPairOf<P::TargetChain>>,
source_to_target_headers_relay: Option<
Arc<dyn OnDemandRelay<P::SourceChain, P::TargetChain>>,
target_client,
source_client,
relayer_id_at_source,
transaction_params,
source_to_target_headers_relay,
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/// Read inbound lane state from the on-chain storage at given block.
async fn inbound_lane_data(
&self,
id: TargetHeaderIdOf<MessageLaneAdapter<P>>,
) -> Result<Option<InboundLaneData<AccountIdOf<P::SourceChain>>>, SubstrateError> {
self.target_client
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.storage_value(
inbound_lane_data_key(
P::SourceChain::WITH_CHAIN_MESSAGES_PALLET_NAME,
&self.lane_id,
),
Some(id.1),
)
.await
}
/// Ensure that the messages pallet at target chain is active.
async fn ensure_pallet_active(&self) -> Result<(), SubstrateError> {
ensure_messages_pallet_active::<P::TargetChain, P::SourceChain>(&self.target_client).await
}
impl<P: SubstrateMessageLane> Clone for SubstrateMessagesTarget<P> {
fn clone(&self) -> Self {
Self {
target_client: self.target_client.clone(),
source_client: self.source_client.clone(),
relayer_id_at_source: self.relayer_id_at_source.clone(),
transaction_params: self.transaction_params.clone(),
source_to_target_headers_relay: self.source_to_target_headers_relay.clone(),
impl<P: SubstrateMessageLane> RelayClient for SubstrateMessagesTarget<P> {
type Error = SubstrateError;
async fn reconnect(&mut self) -> Result<(), SubstrateError> {
self.target_client.reconnect().await?;
self.source_client.reconnect().await
impl<P: SubstrateMessageLane> TargetClient<MessageLaneAdapter<P>> for SubstrateMessagesTarget<P>
AccountIdOf<P::TargetChain>: From<<AccountKeyPairOf<P::TargetChain> as Pair>::Public>,
BalanceOf<P::SourceChain>: TryFrom<BalanceOf<P::TargetChain>>,
type BatchTransaction = BatchDeliveryTransaction<P>;
type TransactionTracker = TransactionTracker<P::TargetChain, Client<P::TargetChain>>;
async fn state(&self) -> Result<TargetClientState<MessageLaneAdapter<P>>, SubstrateError> {
// we can't continue to deliver confirmations if source node is out of sync, because
// it may have already received confirmations that we're going to deliver
//
// we can't continue to deliver messages if target node is out of sync, because
// it may have already received (some of) messages that we're going to deliver
self.source_client.ensure_synced().await?;
self.target_client.ensure_synced().await?;
// we can't relay messages if messages pallet at target chain is halted
self.ensure_pallet_active().await?;
read_client_state(
&self.target_client,
Some(&self.source_client),
P::SourceChain::BEST_FINALIZED_HEADER_ID_METHOD,
)
}
async fn latest_received_nonce(
&self,
id: TargetHeaderIdOf<MessageLaneAdapter<P>>,
) -> Result<(TargetHeaderIdOf<MessageLaneAdapter<P>>, MessageNonce), SubstrateError> {
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// lane data missing from the storage is fine until first message is received
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let latest_received_nonce = self
.inbound_lane_data(id)
.await?
.map(|data| data.last_delivered_nonce())
.unwrap_or(0);
Ok((id, latest_received_nonce))
}
async fn latest_confirmed_received_nonce(
&self,
id: TargetHeaderIdOf<MessageLaneAdapter<P>>,
) -> Result<(TargetHeaderIdOf<MessageLaneAdapter<P>>, MessageNonce), SubstrateError> {
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// lane data missing from the storage is fine until first message is received
let last_confirmed_nonce = self
.inbound_lane_data(id)
.await?
.map(|data| data.last_confirmed_nonce)
.unwrap_or(0);
Ok((id, last_confirmed_nonce))
async fn unrewarded_relayers_state(
&self,
id: TargetHeaderIdOf<MessageLaneAdapter<P>>,
) -> Result<(TargetHeaderIdOf<MessageLaneAdapter<P>>, UnrewardedRelayersState), SubstrateError>
{
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let inbound_lane_data = self.inbound_lane_data(id).await?;
let last_delivered_nonce =
inbound_lane_data.as_ref().map(|data| data.last_delivered_nonce()).unwrap_or(0);
let relayers = inbound_lane_data.map(|data| data.relayers).unwrap_or_else(VecDeque::new);
let unrewarded_relayers_state = bp_messages::UnrewardedRelayersState {
unrewarded_relayer_entries: relayers.len() as _,
messages_in_oldest_entry: relayers
.front()
.map(|entry| 1 + entry.messages.end - entry.messages.begin)
.unwrap_or(0),
total_messages: total_unrewarded_messages(&relayers).unwrap_or(MessageNonce::MAX),
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last_delivered_nonce,
Ok((id, unrewarded_relayers_state))
}
async fn prove_messages_receiving(
&self,
id: TargetHeaderIdOf<MessageLaneAdapter<P>>,
(
TargetHeaderIdOf<MessageLaneAdapter<P>>,
<MessageLaneAdapter<P> as MessageLane>::MessagesReceivingProof,
),
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let (id, relayers_state) = self.unrewarded_relayers_state(id).await?;
let inbound_data_key = bp_messages::storage_keys::inbound_lane_data_key(
P::SourceChain::WITH_CHAIN_MESSAGES_PALLET_NAME,
&self.lane_id,
);
.target_client
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.prove_storage(vec![inbound_data_key], id.1)
.await?
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.collect();
let proof = FromBridgedChainMessagesDeliveryProof {
bridged_header_hash: id.1,
storage_proof: proof,
lane: self.lane_id,
};
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Ok((id, (relayers_state, proof)))
}
async fn submit_messages_proof(
&self,
_generated_at_header: SourceHeaderIdOf<MessageLaneAdapter<P>>,
nonces: RangeInclusive<MessageNonce>,
proof: <MessageLaneAdapter<P> as MessageLane>::MessagesProof,
) -> Result<NoncesSubmitArtifacts<Self::TransactionTracker>, SubstrateError> {
let genesis_hash = *self.target_client.genesis_hash();
let transaction_params = self.transaction_params.clone();
let relayer_id_at_source = self.relayer_id_at_source.clone();
let nonces_clone = nonces.clone();
let (spec_version, transaction_version) =
self.target_client.simple_runtime_version().await?;
let tx_tracker = self
.target_client
.submit_and_watch_signed_extrinsic(
self.transaction_params.signer.public().into(),
SignParam::<P::TargetChain> {
spec_version,
transaction_version,
genesis_hash,
signer: self.transaction_params.signer.clone(),
},
move |best_block_id, transaction_nonce| {
make_messages_delivery_transaction::<P>(
&transaction_params,
Ok(NoncesSubmitArtifacts { nonces, tx_tracker })
async fn require_source_header_on_target(
&self,
id: SourceHeaderIdOf<MessageLaneAdapter<P>>,
) -> Result<Option<Self::BatchTransaction>, SubstrateError> {
if let Some(ref source_to_target_headers_relay) = self.source_to_target_headers_relay {
if P::TargetBatchCallBuilder::BATCH_CALL_SUPPORTED {
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let (proved_header, prove_calls) =
source_to_target_headers_relay.prove_header(id.0).await?;
return Ok(Some(BatchDeliveryTransaction {
messages_target: self.clone(),
proved_header,
prove_calls,
}))
source_to_target_headers_relay.require_more_headers(id.0).await;
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/// Batch transaction that brings target headers + and delivery confirmations to the source node.
pub struct BatchDeliveryTransaction<P: SubstrateMessageLane> {
messages_target: SubstrateMessagesTarget<P>,
proved_header: SourceHeaderIdOf<MessageLaneAdapter<P>>,
prove_calls: Vec<CallOf<P::TargetChain>>,
}
#[async_trait]
impl<P: SubstrateMessageLane>
BatchTransaction<
SourceHeaderIdOf<MessageLaneAdapter<P>>,
<MessageLaneAdapter<P> as MessageLane>::MessagesProof,
TransactionTracker<P::TargetChain, Client<P::TargetChain>>,
SubstrateError,
> for BatchDeliveryTransaction<P>
where
AccountIdOf<P::TargetChain>: From<<AccountKeyPairOf<P::TargetChain> as Pair>::Public>,
{
fn required_header_id(&self) -> SourceHeaderIdOf<MessageLaneAdapter<P>> {
self.proved_header
}
async fn append_proof_and_send(
self,
proof: <MessageLaneAdapter<P> as MessageLane>::MessagesProof,
) -> Result<TransactionTracker<P::TargetChain, Client<P::TargetChain>>, SubstrateError> {
let mut calls = self.prove_calls;
calls.push(make_messages_delivery_call::<P>(
self.messages_target.relayer_id_at_source,
proof.1.nonces_start..=proof.1.nonces_end,
proof,
false,
));
let batch_call = P::TargetBatchCallBuilder::build_batch_call(calls)?;
let (spec_version, transaction_version) =
self.messages_target.target_client.simple_runtime_version().await?;
self.messages_target
.target_client
.submit_and_watch_signed_extrinsic(
self.messages_target.transaction_params.signer.public().into(),
SignParam::<P::TargetChain> {
spec_version,
transaction_version,
genesis_hash: *self.messages_target.target_client.genesis_hash(),
signer: self.messages_target.transaction_params.signer.clone(),
},
move |best_block_id, transaction_nonce| {
Ok(UnsignedTransaction::new(batch_call.into(), transaction_nonce).era(
TransactionEra::new(
best_block_id,
self.messages_target.transaction_params.mortality,
),
))
},
)
.await
}
}
/// Make messages delivery call from given proof.
fn make_messages_delivery_call<P: SubstrateMessageLane>(
relayer_id_at_source: AccountIdOf<P::SourceChain>,
nonces: RangeInclusive<MessageNonce>,
proof: SubstrateMessagesProof<P::SourceChain>,
trace_call: bool,
) -> CallOf<P::TargetChain> {
let messages_count = nonces.end() - nonces.start() + 1;
let dispatch_weight = proof.0;
P::ReceiveMessagesProofCallBuilder::build_receive_messages_proof_call(
relayer_id_at_source,
proof,
messages_count as _,
dispatch_weight,
trace_call,
)
}
/// Make messages delivery transaction from given proof.
fn make_messages_delivery_transaction<P: SubstrateMessageLane>(
target_transaction_params: &TransactionParams<AccountKeyPairOf<P::TargetChain>>,
target_best_block_id: HeaderIdOf<P::TargetChain>,
transaction_nonce: IndexOf<P::TargetChain>,
relayer_id_at_source: AccountIdOf<P::SourceChain>,
nonces: RangeInclusive<MessageNonce>,
proof: SubstrateMessagesProof<P::SourceChain>,
trace_call: bool,
) -> Result<UnsignedTransaction<P::TargetChain>, SubstrateError> {
let call = make_messages_delivery_call::<P>(relayer_id_at_source, nonces, proof, trace_call);
Ok(UnsignedTransaction::new(call.into(), transaction_nonce)
.era(TransactionEra::new(target_best_block_id, target_transaction_params.mortality)))