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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.

//! Message delivery race delivers proof-of-messages from "lane.source" to "lane.target".
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use std::{collections::VecDeque, marker::PhantomData, ops::RangeInclusive, time::Duration};

use async_trait::async_trait;
use futures::stream::FusedStream;

use bp_messages::{MessageNonce, UnrewardedRelayersState, Weight};
use relay_utils::FailedClient;

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use crate::{
	message_lane::{MessageLane, SourceHeaderIdOf, TargetHeaderIdOf},
	message_lane_loop::{
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		MessageDeliveryParams, MessageDetailsMap, MessageProofParameters,
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		SourceClient as MessageLaneSourceClient, SourceClientState,
		TargetClient as MessageLaneTargetClient, TargetClientState,
	},
	message_race_loop::{
		MessageRace, NoncesRange, RaceState, RaceStrategy, SourceClient, SourceClientNonces,
		TargetClient, TargetClientNonces,
	},
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	message_race_strategy::BasicStrategy,
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	metrics::MessageLaneLoopMetrics,
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	relay_strategy::{EnforcementStrategy, RelayMessagesBatchReference, RelayStrategy},

/// Run message delivery race.
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pub async fn run<P: MessageLane, Strategy: RelayStrategy>(
	source_client: impl MessageLaneSourceClient<P>,
	source_state_updates: impl FusedStream<Item = SourceClientState<P>>,
	target_client: impl MessageLaneTargetClient<P>,
	target_state_updates: impl FusedStream<Item = TargetClientState<P>>,
	stall_timeout: Duration,
	metrics_msg: Option<MessageLaneLoopMetrics>,
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	params: MessageDeliveryParams<Strategy>,
) -> Result<(), FailedClient> {
	crate::message_race_loop::run(
		MessageDeliveryRaceSource {
			client: source_client.clone(),
			metrics_msg: metrics_msg.clone(),
			_phantom: Default::default(),
		},
		source_state_updates,
		MessageDeliveryRaceTarget {
			client: target_client.clone(),
			metrics_msg,
			_phantom: Default::default(),
		},
		target_state_updates,
		stall_timeout,
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		MessageDeliveryStrategy::<P, Strategy, _, _> {
			lane_source_client: source_client,
			lane_target_client: target_client,
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			max_unrewarded_relayer_entries_at_target: params
				.max_unrewarded_relayer_entries_at_target,
			max_unconfirmed_nonces_at_target: params.max_unconfirmed_nonces_at_target,
			max_messages_in_single_batch: params.max_messages_in_single_batch,
			max_messages_weight_in_single_batch: params.max_messages_weight_in_single_batch,
			max_messages_size_in_single_batch: params.max_messages_size_in_single_batch,
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			relay_strategy: params.relay_strategy,
			latest_confirmed_nonces_at_source: VecDeque::new(),
			target_nonces: None,
			strategy: BasicStrategy::new(),
	)
	.await
}

/// Message delivery race.
struct MessageDeliveryRace<P>(std::marker::PhantomData<P>);

impl<P: MessageLane> MessageRace for MessageDeliveryRace<P> {
	type SourceHeaderId = SourceHeaderIdOf<P>;
	type TargetHeaderId = TargetHeaderIdOf<P>;

	type MessageNonce = MessageNonce;
	type Proof = P::MessagesProof;

	fn source_name() -> String {
		format!("{}::MessagesDelivery", P::SOURCE_NAME)
	}

	fn target_name() -> String {
		format!("{}::MessagesDelivery", P::TARGET_NAME)
	}
}

/// Message delivery race source, which is a source of the lane.
struct MessageDeliveryRaceSource<P: MessageLane, C> {
	client: C,
	metrics_msg: Option<MessageLaneLoopMetrics>,
	_phantom: PhantomData<P>,
}

impl<P, C> SourceClient<MessageDeliveryRace<P>> for MessageDeliveryRaceSource<P, C>
where
	P: MessageLane,
	C: MessageLaneSourceClient<P>,
{
	type Error = C::Error;
	type NoncesRange = MessageDetailsMap<P::SourceChainBalance>;
	type ProofParameters = MessageProofParameters;
	async fn nonces(
		&self,
		at_block: SourceHeaderIdOf<P>,
		prev_latest_nonce: MessageNonce,
	) -> Result<(SourceHeaderIdOf<P>, SourceClientNonces<Self::NoncesRange>), Self::Error> {
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		let (at_block, latest_generated_nonce) =
			self.client.latest_generated_nonce(at_block).await?;
		let (at_block, latest_confirmed_nonce) =
			self.client.latest_confirmed_received_nonce(at_block).await?;
		if let Some(metrics_msg) = self.metrics_msg.as_ref() {
			metrics_msg.update_source_latest_generated_nonce::<P>(latest_generated_nonce);
			metrics_msg.update_source_latest_confirmed_nonce::<P>(latest_confirmed_nonce);
		let new_nonces = if latest_generated_nonce > prev_latest_nonce {
			self.client
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				.generated_message_details(
					at_block.clone(),
					prev_latest_nonce + 1..=latest_generated_nonce,
				)
			MessageDetailsMap::new()
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			SourceClientNonces { new_nonces, confirmed_nonce: Some(latest_confirmed_nonce) },
	}

	async fn generate_proof(
		&self,
		at_block: SourceHeaderIdOf<P>,
		nonces: RangeInclusive<MessageNonce>,
		proof_parameters: Self::ProofParameters,
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	) -> Result<(SourceHeaderIdOf<P>, RangeInclusive<MessageNonce>, P::MessagesProof), Self::Error>
	{
		self.client.prove_messages(at_block, nonces, proof_parameters).await
	}
}

/// Message delivery race target, which is a target of the lane.
struct MessageDeliveryRaceTarget<P: MessageLane, C> {
	client: C,
	metrics_msg: Option<MessageLaneLoopMetrics>,
	_phantom: PhantomData<P>,
}

impl<P, C> TargetClient<MessageDeliveryRace<P>> for MessageDeliveryRaceTarget<P, C>
where
	P: MessageLane,
	C: MessageLaneTargetClient<P>,
{
	type Error = C::Error;
	type TargetNoncesData = DeliveryRaceTargetNoncesData;
	async fn require_source_header(&self, id: SourceHeaderIdOf<P>) {
		self.client.require_source_header_on_target(id).await
	async fn nonces(
		&self,
		at_block: TargetHeaderIdOf<P>,
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	) -> Result<(TargetHeaderIdOf<P>, TargetClientNonces<DeliveryRaceTargetNoncesData>), Self::Error>
	{
		let (at_block, latest_received_nonce) = self.client.latest_received_nonce(at_block).await?;
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		let (at_block, latest_confirmed_nonce) =
			self.client.latest_confirmed_received_nonce(at_block).await?;
		let (at_block, unrewarded_relayers) =
			self.client.unrewarded_relayers_state(at_block).await?;
		if update_metrics {
			if let Some(metrics_msg) = self.metrics_msg.as_ref() {
				metrics_msg.update_target_latest_received_nonce::<P>(latest_received_nonce);
				metrics_msg.update_target_latest_confirmed_nonce::<P>(latest_confirmed_nonce);
			}
			TargetClientNonces {
				latest_nonce: latest_received_nonce,
				nonces_data: DeliveryRaceTargetNoncesData {
					confirmed_nonce: latest_confirmed_nonce,
					unrewarded_relayers,
				},
	}

	async fn submit_proof(
		&self,
		generated_at_block: SourceHeaderIdOf<P>,
		nonces: RangeInclusive<MessageNonce>,
		proof: P::MessagesProof,
	) -> Result<RangeInclusive<MessageNonce>, Self::Error> {
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		self.client.submit_messages_proof(generated_at_block, nonces, proof).await
/// Additional nonces data from the target client used by message delivery race.
#[derive(Debug, Clone)]
struct DeliveryRaceTargetNoncesData {
	/// The latest nonce that we know: (1) has been delivered to us (2) has been confirmed
	/// back to the source node (by confirmations race) and (3) relayer has received
	/// reward for (and this has been confirmed by the message delivery race).
	confirmed_nonce: MessageNonce,
	/// State of the unrewarded relayers set at the target node.
	unrewarded_relayers: UnrewardedRelayersState,
}

/// Messages delivery strategy.
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struct MessageDeliveryStrategy<P: MessageLane, Strategy: RelayStrategy, SC, TC> {
	/// The client that is connected to the message lane source node.
	lane_source_client: SC,
	/// The client that is connected to the message lane target node.
	lane_target_client: TC,
	/// Maximal unrewarded relayer entries at target client.
	max_unrewarded_relayer_entries_at_target: MessageNonce,
	/// Maximal unconfirmed nonces at target client.
	max_unconfirmed_nonces_at_target: MessageNonce,
	/// Maximal number of messages in the single delivery transaction.
	max_messages_in_single_batch: MessageNonce,
	/// Maximal cumulative messages weight in the single delivery transaction.
	max_messages_weight_in_single_batch: Weight,
	/// Maximal messages size in the single delivery transaction.
	max_messages_size_in_single_batch: u32,
	/// Relayer operating mode.
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	relay_strategy: Strategy,
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	/// Latest confirmed nonces at the source client + the header id where we have first met this
	/// nonce.
	latest_confirmed_nonces_at_source: VecDeque<(SourceHeaderIdOf<P>, MessageNonce)>,
	/// Target nonces from the source client.
	target_nonces: Option<TargetClientNonces<DeliveryRaceTargetNoncesData>>,
	/// Basic delivery strategy.
	strategy: MessageDeliveryStrategyBase<P>,
}

type MessageDeliveryStrategyBase<P> = BasicStrategy<
	<P as MessageLane>::SourceHeaderNumber,
	<P as MessageLane>::SourceHeaderHash,
	<P as MessageLane>::TargetHeaderNumber,
	<P as MessageLane>::TargetHeaderHash,
	MessageDetailsMap<<P as MessageLane>::SourceChainBalance>,
	<P as MessageLane>::MessagesProof,
>;

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impl<P: MessageLane, Strategy: RelayStrategy, SC, TC> std::fmt::Debug
	for MessageDeliveryStrategy<P, Strategy, SC, TC>
{
	fn fmt(&self, fmt: &mut std::fmt::Formatter) -> std::fmt::Result {
		fmt.debug_struct("MessageDeliveryStrategy")
			.field(
				"max_unrewarded_relayer_entries_at_target",
				&self.max_unrewarded_relayer_entries_at_target,
			)
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			.field("max_unconfirmed_nonces_at_target", &self.max_unconfirmed_nonces_at_target)
			.field("max_messages_in_single_batch", &self.max_messages_in_single_batch)
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			.field("max_messages_weight_in_single_batch", &self.max_messages_weight_in_single_batch)
			.field("max_messages_size_in_single_batch", &self.max_messages_size_in_single_batch)
			.field("latest_confirmed_nonces_at_source", &self.latest_confirmed_nonces_at_source)
			.field("target_nonces", &self.target_nonces)
			.field("strategy", &self.strategy)
			.finish()
	}
}

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impl<P: MessageLane, Strategy: RelayStrategy, SC, TC> MessageDeliveryStrategy<P, Strategy, SC, TC> {
	/// Returns total weight of all undelivered messages.
	fn total_queued_dispatch_weight(&self) -> Weight {
		self.strategy
			.source_queue()
			.iter()
			.flat_map(|(_, range)| range.values().map(|details| details.dispatch_weight))
			.fold(0, |total, weight| total.saturating_add(weight))
	}
}

#[async_trait]
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impl<P, Strategy: RelayStrategy, SC, TC>
	RaceStrategy<SourceHeaderIdOf<P>, TargetHeaderIdOf<P>, P::MessagesProof>
	for MessageDeliveryStrategy<P, Strategy, SC, TC>
where
	P: MessageLane,
	SC: MessageLaneSourceClient<P>,
	TC: MessageLaneTargetClient<P>,
	type SourceNoncesRange = MessageDetailsMap<P::SourceChainBalance>;
	type ProofParameters = MessageProofParameters;
	type TargetNoncesData = DeliveryRaceTargetNoncesData;

	fn is_empty(&self) -> bool {
		self.strategy.is_empty()
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	fn required_source_header_at_target(
		&self,
		current_best: &SourceHeaderIdOf<P>,
	) -> Option<SourceHeaderIdOf<P>> {
		let header_required_for_messages_delivery =
			self.strategy.required_source_header_at_target(current_best);
		let header_required_for_reward_confirmations_delivery =
			self.latest_confirmed_nonces_at_source.back().map(|(id, _)| id.clone());
		match (
			header_required_for_messages_delivery,
			header_required_for_reward_confirmations_delivery,
		) {
			(Some(id1), Some(id2)) => Some(if id1.0 > id2.0 { id1 } else { id2 }),
			(a, b) => a.or(b),
		}
	fn best_at_source(&self) -> Option<MessageNonce> {
		self.strategy.best_at_source()
	}

	fn best_at_target(&self) -> Option<MessageNonce> {
		self.strategy.best_at_target()
	}

	fn source_nonces_updated(
		&mut self,
		at_block: SourceHeaderIdOf<P>,
		nonces: SourceClientNonces<Self::SourceNoncesRange>,
	) {
		if let Some(confirmed_nonce) = nonces.confirmed_nonce {
			let is_confirmed_nonce_updated = self
				.latest_confirmed_nonces_at_source
				.back()
				.map(|(_, prev_nonce)| *prev_nonce != confirmed_nonce)
				.unwrap_or(true);
			if is_confirmed_nonce_updated {
				self.latest_confirmed_nonces_at_source
					.push_back((at_block.clone(), confirmed_nonce));
			}
		}
		self.strategy.source_nonces_updated(at_block, nonces)
		nonces: TargetClientNonces<DeliveryRaceTargetNoncesData>,
		race_state: &mut RaceState<SourceHeaderIdOf<P>, TargetHeaderIdOf<P>, P::MessagesProof>,
		// best target nonces must always be ge than finalized target nonces
		let mut target_nonces = self.target_nonces.take().unwrap_or_else(|| nonces.clone());
		target_nonces.nonces_data = nonces.nonces_data.clone();
		target_nonces.latest_nonce = std::cmp::max(target_nonces.latest_nonce, nonces.latest_nonce);
		self.target_nonces = Some(target_nonces);

		self.strategy.best_target_nonces_updated(
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			TargetClientNonces { latest_nonce: nonces.latest_nonce, nonces_data: () },
			race_state,
		)
	}

	fn finalized_target_nonces_updated(
		&mut self,
		nonces: TargetClientNonces<DeliveryRaceTargetNoncesData>,
		race_state: &mut RaceState<SourceHeaderIdOf<P>, TargetHeaderIdOf<P>, P::MessagesProof>,
	) {
		if let Some(ref best_finalized_source_header_id_at_best_target) =
			race_state.best_finalized_source_header_id_at_best_target
		{
			let oldest_header_number_to_keep = best_finalized_source_header_id_at_best_target.0;
			while self
				.latest_confirmed_nonces_at_source
				.front()
				.map(|(id, _)| id.0 < oldest_header_number_to_keep)
				.unwrap_or(false)
			{
				self.latest_confirmed_nonces_at_source.pop_front();
			}
		}

		if let Some(ref mut target_nonces) = self.target_nonces {
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			target_nonces.latest_nonce =
				std::cmp::max(target_nonces.latest_nonce, nonces.latest_nonce);
		}

		self.strategy.finalized_target_nonces_updated(
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			TargetClientNonces { latest_nonce: nonces.latest_nonce, nonces_data: () },
	async fn select_nonces_to_deliver(
		race_state: RaceState<SourceHeaderIdOf<P>, TargetHeaderIdOf<P>, P::MessagesProof>,
	) -> Option<(RangeInclusive<MessageNonce>, Self::ProofParameters)> {
		let best_finalized_source_header_id_at_best_target =
			race_state.best_finalized_source_header_id_at_best_target.clone()?;
		let latest_confirmed_nonce_at_source = self
			.latest_confirmed_nonces_at_source
			.iter()
			.take_while(|(id, _)| id.0 <= best_finalized_source_header_id_at_best_target.0)
			.last()
			.map(|(_, nonce)| *nonce)?;
		let target_nonces = self.target_nonces.as_ref()?;

		// There's additional condition in the message delivery race: target would reject messages
		// if there are too much unconfirmed messages at the inbound lane.

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		// The receiving race is responsible to deliver confirmations back to the source chain. So
		// if there's a lot of unconfirmed messages, let's wait until it'll be able to do its job.
		let latest_received_nonce_at_target = target_nonces.latest_nonce;
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		let confirmations_missing =
			latest_received_nonce_at_target.checked_sub(latest_confirmed_nonce_at_source);
		match confirmations_missing {
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			Some(confirmations_missing)
				if confirmations_missing >= self.max_unconfirmed_nonces_at_target =>
			{
				log::debug!(
					target: "bridge",
					"Cannot deliver any more messages from {} to {}. Too many unconfirmed nonces \
					at target: target.latest_received={:?}, source.latest_confirmed={:?}, max={:?}",
					MessageDeliveryRace::<P>::source_name(),
					MessageDeliveryRace::<P>::target_name(),
					latest_received_nonce_at_target,
					latest_confirmed_nonce_at_source,
					self.max_unconfirmed_nonces_at_target,
				);

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				return None
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		// Ok - we may have new nonces to deliver. But target may still reject new messages, because
		// we haven't notified it that (some) messages have been confirmed. So we may want to
		// include updated `source.latest_confirmed` in the proof.
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		// Important note: we're including outbound state lane proof whenever there are unconfirmed
		// nonces on the target chain. Other strategy is to include it only if it's absolutely
		// necessary.
		let latest_confirmed_nonce_at_target = target_nonces.nonces_data.confirmed_nonce;
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		let outbound_state_proof_required =
			latest_confirmed_nonce_at_target < latest_confirmed_nonce_at_source;
		// The target node would also reject messages if there are too many entries in the
		// "unrewarded relayers" set. If we are unable to prove new rewards to the target node, then
		// we should wait for confirmations race.
		let unrewarded_relayer_entries_limit_reached =
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			target_nonces.nonces_data.unrewarded_relayers.unrewarded_relayer_entries >=
				self.max_unrewarded_relayer_entries_at_target;
		if unrewarded_relayer_entries_limit_reached {
			// so there are already too many unrewarded relayer entries in the set
			//
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			// => check if we can prove enough rewards. If not, we should wait for more rewards to
			// be paid
			let number_of_rewards_being_proved =
				latest_confirmed_nonce_at_source.saturating_sub(latest_confirmed_nonce_at_target);
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			let enough_rewards_being_proved = number_of_rewards_being_proved >=
				target_nonces.nonces_data.unrewarded_relayers.messages_in_oldest_entry;
			if !enough_rewards_being_proved {
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				return None
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		// If we're here, then the confirmations race did its job && sending side now knows that
		// messages have been delivered. Now let's select nonces that we want to deliver.
		//
		// We may deliver at most:
		//
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		// max_unconfirmed_nonces_at_target - (latest_received_nonce_at_target -
		// latest_confirmed_nonce_at_target)
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		// messages in the batch. But since we're including outbound state proof in the batch, then
		// it may be increased to:
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		// max_unconfirmed_nonces_at_target - (latest_received_nonce_at_target -
		// latest_confirmed_nonce_at_source)
		let future_confirmed_nonce_at_target = if outbound_state_proof_required {
			latest_confirmed_nonce_at_source
		} else {
			latest_confirmed_nonce_at_target
		};
		let max_nonces = latest_received_nonce_at_target
			.checked_sub(future_confirmed_nonce_at_target)
			.and_then(|diff| self.max_unconfirmed_nonces_at_target.checked_sub(diff))
			.unwrap_or_default();
		let max_nonces = std::cmp::min(max_nonces, self.max_messages_in_single_batch);
		let max_messages_weight_in_single_batch = self.max_messages_weight_in_single_batch;
		let max_messages_size_in_single_batch = self.max_messages_size_in_single_batch;
		let lane_source_client = self.lane_source_client.clone();
		let lane_target_client = self.lane_target_client.clone();
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		let maximal_source_queue_index =
			self.strategy.maximal_available_source_queue_index(race_state)?;
		let previous_total_dispatch_weight = self.total_queued_dispatch_weight();
		let source_queue = self.strategy.source_queue();
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		let reference = RelayMessagesBatchReference {
			max_messages_in_this_batch: max_nonces,
			max_messages_weight_in_single_batch,
			max_messages_size_in_single_batch,
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			lane_source_client: lane_source_client.clone(),
			lane_target_client: lane_target_client.clone(),
			nonces_queue: source_queue.clone(),
			nonces_queue_range: 0..maximal_source_queue_index + 1,
		};

		let strategy = EnforcementStrategy::new(self.relay_strategy.clone());
		let range_end = strategy.decide(reference).await?;

		let range_begin = source_queue[0].1.begin();
		let selected_nonces = range_begin..=range_end;
		self.strategy.remove_le_nonces_from_source_queue(range_end);

		let new_total_dispatch_weight = self.total_queued_dispatch_weight();
		let dispatch_weight = previous_total_dispatch_weight - new_total_dispatch_weight;
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			MessageProofParameters { outbound_state_proof_required, dispatch_weight },
impl<SourceChainBalance: std::fmt::Debug> NoncesRange for MessageDetailsMap<SourceChainBalance> {
	fn begin(&self) -> MessageNonce {
		self.keys().next().cloned().unwrap_or_default()
	}

	fn end(&self) -> MessageNonce {
		self.keys().next_back().cloned().unwrap_or_default()
	}

	fn greater_than(mut self, nonce: MessageNonce) -> Option<Self> {
		let gte = self.split_off(&(nonce + 1));
		if gte.is_empty() {
			None
		} else {
			Some(gte)
		}
	}
}

#[cfg(test)]
mod tests {
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	use bp_runtime::messages::DispatchFeePayment;

	use crate::{
		message_lane_loop::{
			tests::{
				header_id, TestMessageLane, TestMessagesProof, TestSourceChainBalance,
				TestSourceClient, TestSourceHeaderId, TestTargetClient, TestTargetHeaderId,
				BASE_MESSAGE_DELIVERY_TRANSACTION_COST, CONFIRMATION_TRANSACTION_COST,
			},
			MessageDetails, RelayerMode,
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		relay_strategy::MixStrategy,
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	use super::*;
	const DEFAULT_DISPATCH_WEIGHT: Weight = 1;
	const DEFAULT_SIZE: u32 = 1;
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	const DEFAULT_REWARD: TestSourceChainBalance = CONFIRMATION_TRANSACTION_COST +
		BASE_MESSAGE_DELIVERY_TRANSACTION_COST +
		DEFAULT_DISPATCH_WEIGHT +
		(DEFAULT_SIZE as TestSourceChainBalance);
	type TestRaceState = RaceState<TestSourceHeaderId, TestTargetHeaderId, TestMessagesProof>;
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	type TestStrategy =
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		MessageDeliveryStrategy<TestMessageLane, MixStrategy, TestSourceClient, TestTargetClient>;

	fn source_nonces(
		new_nonces: RangeInclusive<MessageNonce>,
		confirmed_nonce: MessageNonce,
		reward: TestSourceChainBalance,
		dispatch_fee_payment: DispatchFeePayment,
	) -> SourceClientNonces<MessageDetailsMap<TestSourceChainBalance>> {
		SourceClientNonces {
			new_nonces: new_nonces
				.into_iter()
				.map(|nonce| {
					(
						nonce,
						MessageDetails {
							dispatch_weight: DEFAULT_DISPATCH_WEIGHT,
							size: DEFAULT_SIZE,
						},
					)
				})
				.into_iter()
				.collect(),
			confirmed_nonce: Some(confirmed_nonce),
		}
	}

	fn prepare_strategy() -> (TestRaceState, TestStrategy) {
		let mut race_state = RaceState {
			best_finalized_source_header_id_at_source: Some(header_id(1)),
			best_finalized_source_header_id_at_best_target: Some(header_id(1)),
			best_target_header_id: Some(header_id(1)),
			best_finalized_target_header_id: Some(header_id(1)),
			nonces_to_submit: None,
			nonces_submitted: None,
		};

		let mut race_strategy = TestStrategy {
			max_unrewarded_relayer_entries_at_target: 4,
			max_unconfirmed_nonces_at_target: 4,
			max_messages_in_single_batch: 4,
			max_messages_weight_in_single_batch: 4,
			max_messages_size_in_single_batch: 4,
			latest_confirmed_nonces_at_source: vec![(header_id(1), 19)].into_iter().collect(),
			lane_source_client: TestSourceClient::default(),
			lane_target_client: TestTargetClient::default(),
			target_nonces: Some(TargetClientNonces {
				latest_nonce: 19,
				nonces_data: DeliveryRaceTargetNoncesData {
					confirmed_nonce: 19,
					unrewarded_relayers: UnrewardedRelayersState {
						unrewarded_relayer_entries: 0,
						messages_in_oldest_entry: 0,
			}),
			strategy: BasicStrategy::new(),
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			relay_strategy: MixStrategy::new(RelayerMode::Altruistic),
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		race_strategy.strategy.source_nonces_updated(
			header_id(1),
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			source_nonces(20..=23, 19, DEFAULT_REWARD, DispatchFeePayment::AtSourceChain),
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		);
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		let target_nonces = TargetClientNonces { latest_nonce: 19, nonces_data: () };
		race_strategy
			.strategy
			.best_target_nonces_updated(target_nonces.clone(), &mut race_state);
		race_strategy
			.strategy
			.finalized_target_nonces_updated(target_nonces, &mut race_state);

		(race_state, race_strategy)
	}

	fn proof_parameters(state_required: bool, weight: Weight) -> MessageProofParameters {
		MessageProofParameters {
			outbound_state_proof_required: state_required,
			dispatch_weight: weight,
		}
	}

	#[test]
	fn weights_map_works_as_nonces_range() {
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		fn build_map(
			range: RangeInclusive<MessageNonce>,
		) -> MessageDetailsMap<TestSourceChainBalance> {
						MessageDetails {
							dispatch_weight: idx,
							reward: idx as _,
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							dispatch_fee_payment: DispatchFeePayment::AtSourceChain,
		}

		let map = build_map(20..=30);

		assert_eq!(map.begin(), 20);
		assert_eq!(map.end(), 30);
		assert_eq!(map.clone().greater_than(10), Some(build_map(20..=30)));
		assert_eq!(map.clone().greater_than(19), Some(build_map(20..=30)));
		assert_eq!(map.clone().greater_than(20), Some(build_map(21..=30)));
		assert_eq!(map.clone().greater_than(25), Some(build_map(26..=30)));
		assert_eq!(map.clone().greater_than(29), Some(build_map(30..=30)));
		assert_eq!(map.greater_than(30), None);
	}

	#[async_std::test]
	async fn message_delivery_strategy_selects_messages_to_deliver() {
		let (state, mut strategy) = prepare_strategy();

		// both sides are ready to relay new messages
		assert_eq!(
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=23), proof_parameters(false, 4)))
		);
	}

	#[async_std::test]
	async fn message_delivery_strategy_selects_nothing_if_too_many_confirmations_missing() {
		let (state, mut strategy) = prepare_strategy();

		// if there are already `max_unconfirmed_nonces_at_target` messages on target,
		// we need to wait until confirmations will be delivered by receiving race
		strategy.latest_confirmed_nonces_at_source = vec![(
			header_id(1),
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			strategy.target_nonces.as_ref().unwrap().latest_nonce -
				strategy.max_unconfirmed_nonces_at_target,
		assert_eq!(strategy.select_nonces_to_deliver(state).await, None);
	#[async_std::test]
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	async fn message_delivery_strategy_includes_outbound_state_proof_when_new_nonces_are_available()
	{
		let (state, mut strategy) = prepare_strategy();

		// if there are new confirmed nonces on source, we want to relay this information
		// to target to prune rewards queue
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		let prev_confirmed_nonce_at_source =
			strategy.latest_confirmed_nonces_at_source.back().unwrap().1;
		strategy.target_nonces.as_mut().unwrap().nonces_data.confirmed_nonce =
			prev_confirmed_nonce_at_source - 1;
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=23), proof_parameters(true, 4)))
		);
	}

	#[async_std::test]
	async fn message_delivery_strategy_selects_nothing_if_there_are_too_many_unrewarded_relayers() {
		let (state, mut strategy) = prepare_strategy();

		// if there are already `max_unrewarded_relayer_entries_at_target` entries at target,
		// we need to wait until rewards will be paid
		{
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			let mut unrewarded_relayers =
				&mut strategy.target_nonces.as_mut().unwrap().nonces_data.unrewarded_relayers;
			unrewarded_relayers.unrewarded_relayer_entries =
				strategy.max_unrewarded_relayer_entries_at_target;
			unrewarded_relayers.messages_in_oldest_entry = 4;
		}
		assert_eq!(strategy.select_nonces_to_deliver(state).await, None);
	#[async_std::test]
	async fn message_delivery_strategy_selects_nothing_if_proved_rewards_is_not_enough_to_remove_oldest_unrewarded_entry(
	) {
		let (state, mut strategy) = prepare_strategy();

		// if there are already `max_unrewarded_relayer_entries_at_target` entries at target,
		// we need to prove at least `messages_in_oldest_entry` rewards
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		let prev_confirmed_nonce_at_source =
			strategy.latest_confirmed_nonces_at_source.back().unwrap().1;
		{
			let mut nonces_data = &mut strategy.target_nonces.as_mut().unwrap().nonces_data;
			nonces_data.confirmed_nonce = prev_confirmed_nonce_at_source - 1;
			let mut unrewarded_relayers = &mut nonces_data.unrewarded_relayers;
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			unrewarded_relayers.unrewarded_relayer_entries =
				strategy.max_unrewarded_relayer_entries_at_target;
			unrewarded_relayers.messages_in_oldest_entry = 4;
		}
		assert_eq!(strategy.select_nonces_to_deliver(state).await, None);
	#[async_std::test]
	async fn message_delivery_strategy_includes_outbound_state_proof_if_proved_rewards_is_enough() {
		let (state, mut strategy) = prepare_strategy();

		// if there are already `max_unrewarded_relayer_entries_at_target` entries at target,
		// we need to prove at least `messages_in_oldest_entry` rewards
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		let prev_confirmed_nonce_at_source =
			strategy.latest_confirmed_nonces_at_source.back().unwrap().1;
		{
			let mut nonces_data = &mut strategy.target_nonces.as_mut().unwrap().nonces_data;
			nonces_data.confirmed_nonce = prev_confirmed_nonce_at_source - 3;
			let mut unrewarded_relayers = &mut nonces_data.unrewarded_relayers;
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			unrewarded_relayers.unrewarded_relayer_entries =
				strategy.max_unrewarded_relayer_entries_at_target;
			unrewarded_relayers.messages_in_oldest_entry = 3;
		}
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=23), proof_parameters(true, 4)))
		);
	}

	#[async_std::test]
	async fn message_delivery_strategy_limits_batch_by_messages_weight() {
		let (state, mut strategy) = prepare_strategy();

		// not all queued messages may fit in the batch, because batch has max weight
		strategy.max_messages_weight_in_single_batch = 3;
		assert_eq!(
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=22), proof_parameters(false, 3)))
		);
	}
	#[async_std::test]
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	async fn message_delivery_strategy_accepts_single_message_even_if_its_weight_overflows_maximal_weight(
	) {
		let (state, mut strategy) = prepare_strategy();

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		// first message doesn't fit in the batch, because it has weight (10) that overflows max
		// weight (4)
		strategy.strategy.source_queue_mut()[0].1.get_mut(&20).unwrap().dispatch_weight = 10;
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=20), proof_parameters(false, 10)))
		);
	}

	#[async_std::test]
	async fn message_delivery_strategy_limits_batch_by_messages_size() {
		let (state, mut strategy) = prepare_strategy();

		// not all queued messages may fit in the batch, because batch has max weight
		strategy.max_messages_size_in_single_batch = 3;
		assert_eq!(
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=22), proof_parameters(false, 3)))
		);
	}

	#[async_std::test]
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	async fn message_delivery_strategy_accepts_single_message_even_if_its_weight_overflows_maximal_size(
	) {
		let (state, mut strategy) = prepare_strategy();

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		// first message doesn't fit in the batch, because it has weight (10) that overflows max
		// weight (4)
		strategy.strategy.source_queue_mut()[0].1.get_mut(&20).unwrap().size = 10;
		assert_eq!(
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=20), proof_parameters(false, 1)))
		);
	}

	#[async_std::test]
	async fn message_delivery_strategy_limits_batch_by_messages_count_when_there_is_upper_limit() {
		let (state, mut strategy) = prepare_strategy();

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		// not all queued messages may fit in the batch, because batch has max number of messages
		// limit
		strategy.max_messages_in_single_batch = 3;
		assert_eq!(
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=22), proof_parameters(false, 3)))
		);
	}

	#[async_std::test]
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	async fn message_delivery_strategy_limits_batch_by_messages_count_when_there_are_unconfirmed_nonces(
	) {
		let (state, mut strategy) = prepare_strategy();

		// 1 delivery confirmation from target to source is still missing, so we may only
		// relay 3 new messages
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		let prev_confirmed_nonce_at_source =
			strategy.latest_confirmed_nonces_at_source.back().unwrap().1;
		strategy.latest_confirmed_nonces_at_source =
			vec![(header_id(1), prev_confirmed_nonce_at_source - 1)].into_iter().collect();
		strategy.target_nonces.as_mut().unwrap().nonces_data.confirmed_nonce =
			prev_confirmed_nonce_at_source - 1;
			strategy.select_nonces_to_deliver(state).await,
	#[async_std::test]
	async fn message_delivery_strategy_waits_for_confirmed_nonce_header_to_appear_on_target() {
		// 1 delivery confirmation from target to source is still missing, so we may deliver
		// reward confirmation with our message delivery transaction. But the problem is that
		// the reward has been paid at header 2 && this header is still unknown to target node.
		//
		// => so we can't deliver more than 3 messages
		let (mut state, mut strategy) = prepare_strategy();
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		let prev_confirmed_nonce_at_source =
			strategy.latest_confirmed_nonces_at_source.back().unwrap().1;
		strategy.latest_confirmed_nonces_at_source = vec![
			(header_id(1), prev_confirmed_nonce_at_source - 1),
			(header_id(2), prev_confirmed_nonce_at_source),
		]
		.into_iter()
		.collect();
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		strategy.target_nonces.as_mut().unwrap().nonces_data.confirmed_nonce =
			prev_confirmed_nonce_at_source - 1;
		state.best_finalized_source_header_id_at_best_target = Some(header_id(1));
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=22), proof_parameters(false, 3)))
		);
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		// the same situation, but the header 2 is known to the target node, so we may deliver
		// reward confirmation
		let (mut state, mut strategy) = prepare_strategy();
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		let prev_confirmed_nonce_at_source =
			strategy.latest_confirmed_nonces_at_source.back().unwrap().1;
		strategy.latest_confirmed_nonces_at_source = vec![
			(header_id(1), prev_confirmed_nonce_at_source - 1),
			(header_id(2), prev_confirmed_nonce_at_source),
		]
		.into_iter()
		.collect();
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		strategy.target_nonces.as_mut().unwrap().nonces_data.confirmed_nonce =
			prev_confirmed_nonce_at_source - 1;
		state.best_finalized_source_header_id_at_source = Some(header_id(2));
		state.best_finalized_source_header_id_at_best_target = Some(header_id(2));
		assert_eq!(
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=23), proof_parameters(true, 4)))
		);
	#[async_std::test]
	async fn source_header_is_required_when_confirmations_are_required() {
		// let's prepare situation when:
		// - all messages [20; 23] have been generated at source block#1;
		let (mut state, mut strategy) = prepare_strategy();
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		//
		// - messages [20; 21] have been delivered, but messages [11; 20] can't be delivered because
		//   of unrewarded relayers vector capacity;
		strategy.max_unconfirmed_nonces_at_target = 2;
		assert_eq!(
			strategy.select_nonces_to_deliver(state.clone()).await,
			Some(((20..=21), proof_parameters(false, 2)))
		);
		strategy.finalized_target_nonces_updated(
			TargetClientNonces {
				latest_nonce: 21,
				nonces_data: DeliveryRaceTargetNoncesData {
					confirmed_nonce: 19,
					unrewarded_relayers: UnrewardedRelayersState {
						unrewarded_relayer_entries: 2,
						messages_in_oldest_entry: 2,
						total_messages: 2,
					},
				},
			},
			&mut state,
		);
		assert_eq!(strategy.select_nonces_to_deliver(state).await, None);
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		//
		// - messages [1; 10] receiving confirmation has been delivered at source block#2;
		strategy.source_nonces_updated(
			header_id(2),
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			SourceClientNonces { new_nonces: MessageDetailsMap::new(), confirmed_nonce: Some(21) },
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		//
		// - so now we'll need to relay source block#11 to be able to accept messages [11; 20].
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		assert_eq!(strategy.required_source_header_at_target(&header_id(1)), Some(header_id(2)));
	async fn rational_relayer_is_delivering_messages_if_cost_is_equal_to_reward() {
		let (state, mut strategy) = prepare_strategy();
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		strategy.relay_strategy = MixStrategy::new(RelayerMode::Rational);

		// so now we have:
		// - 20..=23 with reward = cost
		// => strategy shall select all 20..=23
		assert_eq!(
			strategy.select_nonces_to_deliver(state).await,
			Some(((20..=23), proof_parameters(false, 4)))
		);
	}

	#[async_std::test]
	async fn rational_relayer_is_not_delivering_messages_if_cost_is_larger_than_reward() {
		let (mut state, mut strategy) = prepare_strategy();
		let nonces = source_nonces(
			24..=25,
			19,
			DEFAULT_REWARD - BASE_MESSAGE_DELIVERY_TRANSACTION_COST,
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			DispatchFeePayment::AtSourceChain,
		strategy.strategy.source_nonces_updated(header_id(2), nonces);
		state.best_finalized_source_header_id_at_best_target = Some(header_id(2));
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		strategy.relay_strategy = MixStrategy::new(RelayerMode::Rational);