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Introduce MessagesLaneManager (#2227)
* some useful stuff like LanesManager * clippy * more clippy * Error::LanesManager * {in, out}bound_lane -> active_{in, out}bound_lane * merge two impl blocks in one * fmt
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// Copyright 2019-2021 Parity Technologies (UK) Ltd. | ||
// This file is part of Parity Bridges Common. | ||
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// 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. | ||
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// 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. | ||
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// 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/>. | ||
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use crate::{ | ||
BridgedChainOf, Config, InboundLane, InboundLaneStorage, InboundLanes, OutboundLane, | ||
OutboundLaneStorage, OutboundLanes, OutboundMessages, StoredInboundLaneData, | ||
StoredMessagePayload, | ||
}; | ||
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use bp_messages::{ | ||
ChainWithMessages, InboundLaneData, LaneId, LaneState, MessageKey, MessageNonce, | ||
OutboundLaneData, | ||
}; | ||
use bp_runtime::AccountIdOf; | ||
use codec::{Decode, Encode, MaxEncodedLen}; | ||
use frame_support::{ensure, sp_runtime::RuntimeDebug, PalletError}; | ||
use scale_info::TypeInfo; | ||
use sp_std::marker::PhantomData; | ||
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/// Lanes manager errors. | ||
#[derive(Encode, Decode, RuntimeDebug, PartialEq, Eq, PalletError, TypeInfo)] | ||
pub enum LanesManagerError { | ||
/// Inbound lane already exists. | ||
InboundLaneAlreadyExists, | ||
/// Outbound lane already exists. | ||
OutboundLaneAlreadyExists, | ||
/// No inbound lane with given id. | ||
UnknownInboundLane, | ||
/// No outbound lane with given id. | ||
UnknownOutboundLane, | ||
/// Inbound lane with given id is closed. | ||
ClosedInboundLane, | ||
/// Outbound lane with given id is closed. | ||
ClosedOutboundLane, | ||
} | ||
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/// Message lanes manager. | ||
pub struct LanesManager<T, I>(PhantomData<(T, I)>); | ||
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impl<T: Config<I>, I: 'static> Default for LanesManager<T, I> { | ||
fn default() -> Self { | ||
Self::new() | ||
} | ||
} | ||
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impl<T: Config<I>, I: 'static> LanesManager<T, I> { | ||
/// Create new lanes manager. | ||
pub fn new() -> Self { | ||
Self(PhantomData) | ||
} | ||
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/// Create new inbound lane in `Opened` state. | ||
pub fn create_inbound_lane( | ||
&self, | ||
lane_id: LaneId, | ||
) -> Result<InboundLane<RuntimeInboundLaneStorage<T, I>>, LanesManagerError> { | ||
InboundLanes::<T, I>::try_mutate(lane_id, |lane| match lane { | ||
Some(_) => Err(LanesManagerError::InboundLaneAlreadyExists), | ||
None => { | ||
*lane = Some(StoredInboundLaneData(InboundLaneData { | ||
state: LaneState::Opened, | ||
..Default::default() | ||
})); | ||
Ok(()) | ||
}, | ||
})?; | ||
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self.active_inbound_lane(lane_id) | ||
} | ||
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/// Create new outbound lane in `Opened` state. | ||
pub fn create_outbound_lane( | ||
&self, | ||
lane_id: LaneId, | ||
) -> Result<OutboundLane<RuntimeOutboundLaneStorage<T, I>>, LanesManagerError> { | ||
OutboundLanes::<T, I>::try_mutate(lane_id, |lane| match lane { | ||
Some(_) => Err(LanesManagerError::OutboundLaneAlreadyExists), | ||
None => { | ||
*lane = Some(OutboundLaneData { state: LaneState::Opened, ..Default::default() }); | ||
Ok(()) | ||
}, | ||
})?; | ||
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self.active_outbound_lane(lane_id) | ||
} | ||
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/// Get existing inbound lane, checking that it is in usable state. | ||
pub fn active_inbound_lane( | ||
&self, | ||
lane_id: LaneId, | ||
) -> Result<InboundLane<RuntimeInboundLaneStorage<T, I>>, LanesManagerError> { | ||
Ok(InboundLane::new(RuntimeInboundLaneStorage::from_lane_id(lane_id, true)?)) | ||
} | ||
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/// Get existing outbound lane, checking that it is in usable state. | ||
pub fn active_outbound_lane( | ||
&self, | ||
lane_id: LaneId, | ||
) -> Result<OutboundLane<RuntimeOutboundLaneStorage<T, I>>, LanesManagerError> { | ||
Ok(OutboundLane::new(RuntimeOutboundLaneStorage::from_lane_id(lane_id, true)?)) | ||
} | ||
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/// Get existing inbound lane without any additional state checks. | ||
pub fn any_state_inbound_lane( | ||
&self, | ||
lane_id: LaneId, | ||
) -> Result<InboundLane<RuntimeInboundLaneStorage<T, I>>, LanesManagerError> { | ||
Ok(InboundLane::new(RuntimeInboundLaneStorage::from_lane_id(lane_id, false)?)) | ||
} | ||
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/// Get existing outbound lane without any additional state checks. | ||
pub fn any_state_outbound_lane( | ||
&self, | ||
lane_id: LaneId, | ||
) -> Result<OutboundLane<RuntimeOutboundLaneStorage<T, I>>, LanesManagerError> { | ||
Ok(OutboundLane::new(RuntimeOutboundLaneStorage::from_lane_id(lane_id, false)?)) | ||
} | ||
} | ||
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/// Runtime inbound lane storage. | ||
pub struct RuntimeInboundLaneStorage<T: Config<I>, I: 'static = ()> { | ||
pub(crate) lane_id: LaneId, | ||
pub(crate) cached_data: InboundLaneData<AccountIdOf<BridgedChainOf<T, I>>>, | ||
pub(crate) _phantom: PhantomData<I>, | ||
} | ||
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impl<T: Config<I>, I: 'static> RuntimeInboundLaneStorage<T, I> { | ||
/// Creates new runtime inbound lane storage for given **existing** lane. | ||
fn from_lane_id( | ||
lane_id: LaneId, | ||
check_active: bool, | ||
) -> Result<RuntimeInboundLaneStorage<T, I>, LanesManagerError> { | ||
let cached_data = | ||
InboundLanes::<T, I>::get(lane_id).ok_or(LanesManagerError::UnknownInboundLane)?; | ||
ensure!( | ||
!check_active || cached_data.state.is_active(), | ||
LanesManagerError::ClosedInboundLane | ||
); | ||
Ok(RuntimeInboundLaneStorage { | ||
lane_id, | ||
cached_data: cached_data.into(), | ||
_phantom: Default::default(), | ||
}) | ||
} | ||
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/// Returns number of bytes that may be subtracted from the PoV component of | ||
/// `receive_messages_proof` call, because the actual inbound lane state is smaller than the | ||
/// maximal configured. | ||
/// | ||
/// Maximal inbound lane state set size is configured by the | ||
/// `MAX_UNREWARDED_RELAYERS_IN_CONFIRMATION_TX` constant from the pallet configuration. The PoV | ||
/// of the call includes the maximal size of inbound lane state. If the actual size is smaller, | ||
/// we may subtract extra bytes from this component. | ||
pub fn extra_proof_size_bytes(&self) -> u64 { | ||
let max_encoded_len = StoredInboundLaneData::<T, I>::max_encoded_len(); | ||
let relayers_count = self.data().relayers.len(); | ||
let actual_encoded_len = | ||
InboundLaneData::<AccountIdOf<BridgedChainOf<T, I>>>::encoded_size_hint(relayers_count) | ||
.unwrap_or(usize::MAX); | ||
max_encoded_len.saturating_sub(actual_encoded_len) as _ | ||
} | ||
} | ||
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impl<T: Config<I>, I: 'static> InboundLaneStorage for RuntimeInboundLaneStorage<T, I> { | ||
type Relayer = AccountIdOf<BridgedChainOf<T, I>>; | ||
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fn id(&self) -> LaneId { | ||
self.lane_id | ||
} | ||
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fn max_unrewarded_relayer_entries(&self) -> MessageNonce { | ||
BridgedChainOf::<T, I>::MAX_UNREWARDED_RELAYERS_IN_CONFIRMATION_TX | ||
} | ||
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fn max_unconfirmed_messages(&self) -> MessageNonce { | ||
BridgedChainOf::<T, I>::MAX_UNCONFIRMED_MESSAGES_IN_CONFIRMATION_TX | ||
} | ||
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fn data(&self) -> InboundLaneData<AccountIdOf<BridgedChainOf<T, I>>> { | ||
self.cached_data.clone() | ||
} | ||
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fn set_data(&mut self, data: InboundLaneData<AccountIdOf<BridgedChainOf<T, I>>>) { | ||
self.cached_data = data.clone(); | ||
InboundLanes::<T, I>::insert(self.lane_id, StoredInboundLaneData::<T, I>(data)) | ||
} | ||
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fn purge(self) { | ||
InboundLanes::<T, I>::remove(self.lane_id) | ||
} | ||
} | ||
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/// Runtime outbound lane storage. | ||
#[derive(Debug, PartialEq, Eq)] | ||
pub struct RuntimeOutboundLaneStorage<T, I = ()> { | ||
pub(crate) lane_id: LaneId, | ||
pub(crate) cached_data: OutboundLaneData, | ||
pub(crate) _phantom: PhantomData<(T, I)>, | ||
} | ||
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impl<T: Config<I>, I: 'static> RuntimeOutboundLaneStorage<T, I> { | ||
/// Creates new runtime outbound lane storage for given **existing** lane. | ||
fn from_lane_id(lane_id: LaneId, check_active: bool) -> Result<Self, LanesManagerError> { | ||
let cached_data = | ||
OutboundLanes::<T, I>::get(lane_id).ok_or(LanesManagerError::UnknownOutboundLane)?; | ||
ensure!( | ||
!check_active || cached_data.state.is_active(), | ||
LanesManagerError::ClosedOutboundLane | ||
); | ||
Ok(Self { lane_id, cached_data, _phantom: PhantomData }) | ||
} | ||
} | ||
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impl<T: Config<I>, I: 'static> OutboundLaneStorage for RuntimeOutboundLaneStorage<T, I> { | ||
type StoredMessagePayload = StoredMessagePayload<T, I>; | ||
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fn id(&self) -> LaneId { | ||
self.lane_id | ||
} | ||
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fn data(&self) -> OutboundLaneData { | ||
self.cached_data.clone() | ||
} | ||
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fn set_data(&mut self, data: OutboundLaneData) { | ||
self.cached_data = data.clone(); | ||
OutboundLanes::<T, I>::insert(self.lane_id, data) | ||
} | ||
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#[cfg(test)] | ||
fn message(&self, nonce: &MessageNonce) -> Option<Self::StoredMessagePayload> { | ||
OutboundMessages::<T, I>::get(MessageKey { lane_id: self.lane_id, nonce: *nonce }) | ||
.map(Into::into) | ||
} | ||
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fn save_message(&mut self, nonce: MessageNonce, message_payload: Self::StoredMessagePayload) { | ||
OutboundMessages::<T, I>::insert( | ||
MessageKey { lane_id: self.lane_id, nonce }, | ||
message_payload, | ||
); | ||
} | ||
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fn remove_message(&mut self, nonce: &MessageNonce) { | ||
OutboundMessages::<T, I>::remove(MessageKey { lane_id: self.lane_id, nonce: *nonce }); | ||
} | ||
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fn purge(self) { | ||
OutboundLanes::<T, I>::remove(self.lane_id) | ||
} | ||
} |
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