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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.
use crate::messages_lane::{StandaloneMessagesMetrics, SubstrateMessageLane};
use crate::messages_source::{read_client_state, SubstrateMessagesProof};
use crate::on_demand_headers::OnDemandHeadersRelay;
use async_trait::async_trait;
use bp_messages::{LaneId, MessageNonce, UnrewardedRelayersState};
use bridge_runtime_common::messages::{
source::FromBridgedChainMessagesDeliveryProof, target::FromBridgedChainMessagesProof,
};
use codec::{Decode, Encode};
use frame_support::weights::{Weight, WeightToFeePolynomial};
use messages_relay::message_lane::MessageLane;
message_lane::{SourceHeaderIdOf, TargetHeaderIdOf},
message_lane_loop::{TargetClient, TargetClientState},
};
use num_traits::{Bounded, Zero};
use relay_substrate_client::{
BalanceOf, BlockNumberOf, Chain, Client, Error as SubstrateError, HashOf, HeaderOf, IndexOf, WeightToFeeOf,
};
use relay_utils::{relay_loop::Client as RelayClient, BlockNumberBase, HeaderId};
use sp_runtime::{traits::Saturating, DeserializeOwned, FixedPointNumber, FixedU128};
use std::{convert::TryFrom, ops::RangeInclusive};
/// Message receiving proof returned by the target Substrate node.
pub type SubstrateMessagesReceivingProof<C> = (
UnrewardedRelayersState,
FromBridgedChainMessagesDeliveryProof<HashOf<C>>,
);
/// Substrate client as Substrate messages target.
pub struct SubstrateMessagesTarget<P: SubstrateMessageLane> {
client: Client<P::TargetChain>,
lane: P,
lane_id: LaneId,
metric_values: StandaloneMessagesMetrics,
source_to_target_headers_relay: Option<OnDemandHeadersRelay<P::SourceChain>>,
impl<P: SubstrateMessageLane> SubstrateMessagesTarget<P> {
/// Create new Substrate headers target.
client: Client<P::TargetChain>,
lane: P,
lane_id: LaneId,
metric_values: StandaloneMessagesMetrics,
source_to_target_headers_relay: Option<OnDemandHeadersRelay<P::SourceChain>>,
SubstrateMessagesTarget {
client,
lane,
metric_values,
source_to_target_headers_relay,
impl<P: SubstrateMessageLane> Clone for SubstrateMessagesTarget<P> {
fn clone(&self) -> Self {
Self {
client: self.client.clone(),
lane: self.lane.clone(),
lane_id: self.lane_id,
metric_values: self.metric_values.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.client.reconnect().await
}
}
impl<P> TargetClient<P::MessageLane> for SubstrateMessagesTarget<P>
P: SubstrateMessageLane,
P::SourceChain: Chain<
Hash = <P::MessageLane as MessageLane>::SourceHeaderHash,
BlockNumber = <P::MessageLane as MessageLane>::SourceHeaderNumber,
Balance = <P::MessageLane as MessageLane>::SourceChainBalance,
>,
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BalanceOf<P::SourceChain>: TryFrom<BalanceOf<P::TargetChain>> + Bounded,
P::TargetChain: Chain<
Hash = <P::MessageLane as MessageLane>::TargetHeaderHash,
BlockNumber = <P::MessageLane as MessageLane>::TargetHeaderNumber,
>,
IndexOf<P::TargetChain>: DeserializeOwned,
HashOf<P::TargetChain>: Copy,
BlockNumberOf<P::TargetChain>: Copy,
HeaderOf<P::TargetChain>: DeserializeOwned,
BlockNumberOf<P::TargetChain>: BlockNumberBase,
MessagesProof = SubstrateMessagesProof<P::SourceChain>,
MessagesReceivingProof = SubstrateMessagesReceivingProof<P::TargetChain>,
<P::MessageLane as MessageLane>::SourceHeaderNumber: Decode,
<P::MessageLane as MessageLane>::SourceHeaderHash: Decode,
async fn state(&self) -> Result<TargetClientState<P::MessageLane>, SubstrateError> {
// 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.client.ensure_synced().await?;
read_client_state::<
_,
<P::MessageLane as MessageLane>::SourceHeaderHash,
<P::MessageLane as MessageLane>::SourceHeaderNumber,
>(&self.client, P::BEST_FINALIZED_SOURCE_HEADER_ID_AT_TARGET)
}
async fn latest_received_nonce(
&self,
id: TargetHeaderIdOf<P::MessageLane>,
) -> Result<(TargetHeaderIdOf<P::MessageLane>, MessageNonce), SubstrateError> {
let encoded_response = self
.client
.state_call(
P::INBOUND_LANE_LATEST_RECEIVED_NONCE_METHOD.into(),
Bytes(self.lane_id.encode()),
Some(id.1),
)
.await?;
let latest_received_nonce: MessageNonce =
Decode::decode(&mut &encoded_response.0[..]).map_err(SubstrateError::ResponseParseFailed)?;
Ok((id, latest_received_nonce))
}
async fn latest_confirmed_received_nonce(
&self,
id: TargetHeaderIdOf<P::MessageLane>,
) -> Result<(TargetHeaderIdOf<P::MessageLane>, MessageNonce), SubstrateError> {
let encoded_response = self
.client
.state_call(
P::INBOUND_LANE_LATEST_CONFIRMED_NONCE_METHOD.into(),
Bytes(self.lane_id.encode()),
Some(id.1),
)
.await?;
let latest_received_nonce: MessageNonce =
Decode::decode(&mut &encoded_response.0[..]).map_err(SubstrateError::ResponseParseFailed)?;
Ok((id, latest_received_nonce))
}
async fn unrewarded_relayers_state(
&self,
id: TargetHeaderIdOf<P::MessageLane>,
) -> Result<(TargetHeaderIdOf<P::MessageLane>, UnrewardedRelayersState), SubstrateError> {
let encoded_response = self
.client
.state_call(
P::INBOUND_LANE_UNREWARDED_RELAYERS_STATE.into(),
Bytes(self.lane_id.encode()),
Some(id.1),
)
.await?;
let unrewarded_relayers_state: UnrewardedRelayersState =
Decode::decode(&mut &encoded_response.0[..]).map_err(SubstrateError::ResponseParseFailed)?;
Ok((id, unrewarded_relayers_state))
}
async fn prove_messages_receiving(
&self,
id: TargetHeaderIdOf<P::MessageLane>,
) -> Result<
(
TargetHeaderIdOf<P::MessageLane>,
<P::MessageLane as MessageLane>::MessagesReceivingProof,
),
SubstrateError,
> {
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let (id, relayers_state) = self.unrewarded_relayers_state(id).await?;
let inbound_data_key = pallet_bridge_messages::storage_keys::inbound_lane_data_key(
P::MESSAGE_PALLET_NAME_AT_TARGET,
&self.lane_id,
);
let proof = self
.client
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.prove_storage(vec![inbound_data_key], id.1)
.await?
.iter_nodes()
.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<P::MessageLane>,
nonces: RangeInclusive<MessageNonce>,
proof: <P::MessageLane as MessageLane>::MessagesProof,
) -> Result<RangeInclusive<MessageNonce>, SubstrateError> {
let lane = self.lane.clone();
let nonces_clone = nonces.clone();
.submit_signed_extrinsic(self.lane.target_transactions_author(), move |_, transaction_nonce| {
lane.make_messages_delivery_transaction(transaction_nonce, generated_at_header, nonces_clone, proof)
.await?;
Ok(nonces)
}
async fn require_source_header_on_target(&self, id: SourceHeaderIdOf<P::MessageLane>) {
if let Some(ref source_to_target_headers_relay) = self.source_to_target_headers_relay {
source_to_target_headers_relay.require_finalized_header(id).await;
async fn estimate_delivery_transaction_in_source_tokens(
&self,
nonces: RangeInclusive<MessageNonce>,
total_prepaid_nonces: MessageNonce,
total_dispatch_weight: Weight,
total_size: u32,
) -> Result<<P::MessageLane as MessageLane>::SourceChainBalance, SubstrateError> {
let conversion_rate = self
.metric_values
.target_to_source_conversion_rate()
.await
.ok_or_else(|| {
SubstrateError::Custom(format!(
"Failed to compute conversion rate from {} to {}",
P::TargetChain::NAME,
P::SourceChain::NAME,
))
})?;
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// Prepare 'dummy' delivery transaction - we only care about its length and dispatch weight.
let delivery_tx = self.lane.make_messages_delivery_transaction(
Zero::zero(),
HeaderId(Default::default(), Default::default()),
nonces.clone(),
prepare_dummy_messages_proof::<P::SourceChain>(nonces.clone(), total_dispatch_weight, total_size),
);
let delivery_tx_fee = self.client.estimate_extrinsic_fee(delivery_tx).await?;
let inclusion_fee_in_target_tokens = delivery_tx_fee.inclusion_fee();
// The pre-dispatch cost of delivery transaction includes additional fee to cover dispatch fee payment
// (Currency::transfer in regular deployment). But if message dispatch has already been paid
// at the Source chain, the delivery transaction will refund relayer with this additional cost.
// But `estimate_extrinsic_fee` obviously just returns pre-dispatch cost of the transaction. So
// if transaction delivers prepaid message, then it may happen that pre-dispatch cost is larger
// than reward and `Rational` relayer will refuse to deliver this message.
//
// The most obvious solution would be to deduct total weight of dispatch fee payments from the
// `total_dispatch_weight` and use regular `estimate_extrinsic_fee` call. But what if
// `total_dispatch_weight` is less than total dispatch fee payments weight? Weight is strictly
// positive, so we can't use this option.
//
// Instead we'll be directly using `WeightToFee` and `NextFeeMultiplier` of the Target chain.
// This requires more knowledge of the Target chain, but seems there's no better way to solve
// this now.
let expected_refund_in_target_tokens = if total_prepaid_nonces != 0 {
const WEIGHT_DIFFERENCE: Weight = 100;
let larger_dispatch_weight = total_dispatch_weight.saturating_add(WEIGHT_DIFFERENCE);
let larger_delivery_tx_fee = self
.client
.estimate_extrinsic_fee(self.lane.make_messages_delivery_transaction(
Zero::zero(),
HeaderId(Default::default(), Default::default()),
nonces.clone(),
prepare_dummy_messages_proof::<P::SourceChain>(nonces.clone(), larger_dispatch_weight, total_size),
))
.await?;
compute_prepaid_messages_refund::<P>(
total_prepaid_nonces,
compute_fee_multiplier::<P::TargetChain>(
delivery_tx_fee.adjusted_weight_fee,
total_dispatch_weight,
larger_delivery_tx_fee.adjusted_weight_fee,
larger_dispatch_weight,
),
)
} else {
Zero::zero()
};
let delivery_fee_in_source_tokens = convert_target_tokens_to_source_tokens::<P::SourceChain, P::TargetChain>(
FixedU128::from_float(conversion_rate),
inclusion_fee_in_target_tokens.saturating_sub(expected_refund_in_target_tokens),
);
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log::trace!(
target: "bridge",
"Estimated {} -> {} messages delivery transaction.\n\t\
Total nonces: {:?}\n\t\
Prepaid messages: {}\n\t\
Total messages size: {}\n\t\
Total messages dispatch weight: {}\n\t\
Inclusion fee (in {1} tokens): {:?}\n\t\
Expected refund (in {1} tokens): {:?}\n\t\
{1} -> {0} conversion rate: {:?}\n\t\
Expected delivery tx fee (in {0} tokens): {:?}",
P::SourceChain::NAME,
P::TargetChain::NAME,
nonces,
total_prepaid_nonces,
total_size,
total_dispatch_weight,
inclusion_fee_in_target_tokens,
expected_refund_in_target_tokens,
conversion_rate,
delivery_fee_in_source_tokens,
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);
Ok(delivery_fee_in_source_tokens)
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}
}
/// Prepare 'dummy' messages proof that will compose the delivery transaction.
///
/// We don't care about proof actually being the valid proof, because its validity doesn't
/// affect the call weight - we only care about its size.
fn prepare_dummy_messages_proof<SC: Chain>(
nonces: RangeInclusive<MessageNonce>,
total_dispatch_weight: Weight,
total_size: u32,
) -> SubstrateMessagesProof<SC> {
(
total_dispatch_weight,
FromBridgedChainMessagesProof {
bridged_header_hash: Default::default(),
storage_proof: vec![vec![0; SC::STORAGE_PROOF_OVERHEAD.saturating_add(total_size) as usize]],
lane: Default::default(),
nonces_start: *nonces.start(),
nonces_end: *nonces.end(),
},
)
}
/// Given delivery transaction fee in target chain tokens and conversion rate to the source
/// chain tokens, compute transaction cost in source chain tokens.
fn convert_target_tokens_to_source_tokens<SC: Chain, TC: Chain>(
target_to_source_conversion_rate: FixedU128,
target_transaction_fee: TC::Balance,
) -> SC::Balance
where
SC::Balance: TryFrom<TC::Balance>,
{
SC::Balance::try_from(target_to_source_conversion_rate.saturating_mul_int(target_transaction_fee))
.unwrap_or_else(|_| SC::Balance::max_value())
}
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/// Compute fee multiplier that is used by the chain, given couple of fees for transactions
/// that are only differ in dispatch weights.
///
/// This function assumes that standard transaction payment pallet is used by the chain.
/// The only fee component that depends on dispatch weight is the `adjusted_weight_fee`.
///
/// **WARNING**: this functions will only be accurate if weight-to-fee conversion function
/// is linear. For non-linear polynomials the error will grow with `weight_difference` growth.
/// So better to use smaller differences.
fn compute_fee_multiplier<C: Chain>(
smaller_adjusted_weight_fee: BalanceOf<C>,
smaller_tx_weight: Weight,
larger_adjusted_weight_fee: BalanceOf<C>,
larger_tx_weight: Weight,
) -> FixedU128 {
let adjusted_weight_fee_difference = larger_adjusted_weight_fee.saturating_sub(smaller_adjusted_weight_fee);
let smaller_tx_unadjusted_weight_fee = WeightToFeeOf::<C>::calc(&smaller_tx_weight);
let larger_tx_unadjusted_weight_fee = WeightToFeeOf::<C>::calc(&larger_tx_weight);
FixedU128::saturating_from_rational(
adjusted_weight_fee_difference,
larger_tx_unadjusted_weight_fee.saturating_sub(smaller_tx_unadjusted_weight_fee),
)
}
/// Compute fee that will be refunded to the relayer because dispatch of `total_prepaid_nonces`
/// messages has been paid at the source chain.
fn compute_prepaid_messages_refund<P: SubstrateMessageLane>(
total_prepaid_nonces: MessageNonce,
fee_multiplier: FixedU128,
) -> BalanceOf<P::TargetChain> {
fee_multiplier.saturating_mul_int(WeightToFeeOf::<P::TargetChain>::calc(
&P::PAY_INBOUND_DISPATCH_FEE_WEIGHT_AT_TARGET_CHAIN.saturating_mul(total_prepaid_nonces),
))
}
#[cfg(test)]
mod tests {
use super::*;
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use relay_rococo_client::{Rococo, SigningParams as RococoSigningParams};
use relay_wococo_client::{SigningParams as WococoSigningParams, Wococo};
#[derive(Clone)]
struct TestSubstrateMessageLane;
impl SubstrateMessageLane for TestSubstrateMessageLane {
type MessageLane = crate::messages_lane::SubstrateMessageLaneToSubstrate<
Rococo,
RococoSigningParams,
Wococo,
WococoSigningParams,
>;
const OUTBOUND_LANE_MESSAGE_DETAILS_METHOD: &'static str = "";
const OUTBOUND_LANE_LATEST_GENERATED_NONCE_METHOD: &'static str = "";
const OUTBOUND_LANE_LATEST_RECEIVED_NONCE_METHOD: &'static str = "";
const INBOUND_LANE_LATEST_RECEIVED_NONCE_METHOD: &'static str = "";
const INBOUND_LANE_LATEST_CONFIRMED_NONCE_METHOD: &'static str = "";
const INBOUND_LANE_UNREWARDED_RELAYERS_STATE: &'static str = "";
const BEST_FINALIZED_SOURCE_HEADER_ID_AT_TARGET: &'static str = "";
const BEST_FINALIZED_TARGET_HEADER_ID_AT_SOURCE: &'static str = "";
const MESSAGE_PALLET_NAME_AT_SOURCE: &'static str = "";
const MESSAGE_PALLET_NAME_AT_TARGET: &'static str = "";
const PAY_INBOUND_DISPATCH_FEE_WEIGHT_AT_TARGET_CHAIN: Weight = 100_000;
type SourceChain = Rococo;
type TargetChain = Wococo;
fn source_transactions_author(&self) -> bp_rococo::AccountId {
unreachable!()
}
fn make_messages_receiving_proof_transaction(
&self,
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_transaction_nonce: IndexOf<Rococo>,
_generated_at_block: TargetHeaderIdOf<Self::MessageLane>,
_proof: <Self::MessageLane as MessageLane>::MessagesReceivingProof,
) -> Bytes {
unreachable!()
}
fn target_transactions_author(&self) -> bp_wococo::AccountId {
unreachable!()
}
fn make_messages_delivery_transaction(
&self,
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_transaction_nonce: IndexOf<Wococo>,
_generated_at_header: SourceHeaderIdOf<Self::MessageLane>,
_nonces: RangeInclusive<MessageNonce>,
_proof: <Self::MessageLane as MessageLane>::MessagesProof,
) -> Bytes {
unreachable!()
}
}
#[test]
fn prepare_dummy_messages_proof_works() {
const DISPATCH_WEIGHT: Weight = 1_000_000;
const SIZE: u32 = 1_000;
let dummy_proof = prepare_dummy_messages_proof::<Rococo>(1..=10, DISPATCH_WEIGHT, SIZE);
assert_eq!(dummy_proof.0, DISPATCH_WEIGHT);
assert!(
dummy_proof.1.encode().len() as u32 > SIZE,
"Expected proof size at least {}. Got: {}",
SIZE,
dummy_proof.1.encode().len(),
);
}
#[test]
fn convert_target_tokens_to_source_tokens_works() {
assert_eq!(
convert_target_tokens_to_source_tokens::<Rococo, Wococo>((150, 100).into(), 1_000),
convert_target_tokens_to_source_tokens::<Rococo, Wococo>((50, 100).into(), 1_000),
convert_target_tokens_to_source_tokens::<Rococo, Wococo>((100, 100).into(), 1_000),
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#[test]
fn compute_fee_multiplier_returns_sane_results() {
let multiplier = FixedU128::saturating_from_rational(1, 1000);
let smaller_weight = 1_000_000;
let smaller_adjusted_weight_fee = multiplier.saturating_mul_int(WeightToFeeOf::<Rococo>::calc(&smaller_weight));
let larger_weight = smaller_weight + 200_000;
let larger_adjusted_weight_fee = multiplier.saturating_mul_int(WeightToFeeOf::<Rococo>::calc(&larger_weight));
assert_eq!(
compute_fee_multiplier::<Rococo>(
smaller_adjusted_weight_fee,
smaller_weight,
larger_adjusted_weight_fee,
larger_weight,
),
multiplier,
);
}
#[test]
fn compute_prepaid_messages_refund_returns_sane_results() {
assert!(
compute_prepaid_messages_refund::<TestSubstrateMessageLane>(
10,
FixedU128::saturating_from_rational(110, 100),
) > (10 * TestSubstrateMessageLane::PAY_INBOUND_DISPATCH_FEE_WEIGHT_AT_TARGET_CHAIN).into()
);
}