// 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 . //! Primitives of messages module, that are used on the source chain. use crate::{DeliveredMessages, InboundLaneData, LaneId, MessageNonce, OutboundLaneData}; use crate::UnrewardedRelayer; use bp_runtime::Size; use frame_support::{weights::Weight, Parameter, RuntimeDebug}; use sp_std::{ collections::{btree_map::BTreeMap, vec_deque::VecDeque}, fmt::Debug, ops::RangeInclusive, }; /// Relayers rewards, grouped by relayer account id. pub type RelayersRewards = BTreeMap>; /// Single relayer rewards. #[derive(RuntimeDebug, Default)] pub struct RelayerRewards { /// Total rewards that are to be paid to the relayer. pub reward: Balance, /// Total number of messages relayed by this relayer. pub messages: MessageNonce, } /// Target chain API. Used by source chain to verify target chain proofs. /// /// All implementations of this trait should only work with finalized data that /// can't change. Wrong implementation may lead to invalid lane states (i.e. lane /// that's stuck) and/or processing messages without paying fees. /// /// The `Payload` type here means the payload of the message that is sent from the /// source chain to the target chain. The `AccountId` type here means the account /// type used by the source chain. pub trait TargetHeaderChain { /// Error type. type Error: Debug + Into<&'static str>; /// Proof that messages have been received by target chain. type MessagesDeliveryProof: Parameter + Size; /// Verify message payload before we accept it. /// /// **CAUTION**: this is very important function. Incorrect implementation may lead /// to stuck lanes and/or relayers loses. /// /// The proper implementation must ensure that the delivery-transaction with this /// payload would (at least) be accepted into target chain transaction pool AND /// eventually will be successfully mined. The most obvious incorrect implementation /// example would be implementation for BTC chain that accepts payloads larger than /// 1MB. BTC nodes aren't accepting transactions that are larger than 1MB, so relayer /// will be unable to craft valid transaction => this (and all subsequent) messages will /// never be delivered. fn verify_message(payload: &Payload) -> Result<(), Self::Error>; /// Verify messages delivery proof and return lane && nonce of the latest received message. fn verify_messages_delivery_proof( proof: Self::MessagesDeliveryProof, ) -> Result<(LaneId, InboundLaneData), Self::Error>; } /// Lane message verifier. /// /// Runtime developer may implement any additional validation logic over message-lane mechanism. /// E.g. if lanes should have some security (e.g. you can only accept Lane1 messages from /// Submitter1, Lane2 messages for those who has submitted first message to this lane, disable /// Lane3 until some block, ...), then it may be built using this verifier. /// /// Any fee requirements should also be enforced here. pub trait LaneMessageVerifier { /// Error type. type Error: Debug + Into<&'static str>; /// Verify message payload and return Ok(()) if message is valid and allowed to be sent over the /// lane. fn verify_message( submitter: &SenderOrigin, delivery_and_dispatch_fee: &Fee, lane: &LaneId, outbound_data: &OutboundLaneData, payload: &Payload, ) -> Result<(), Self::Error>; } /// Message delivery payment. It is called as a part of submit-message transaction. Transaction /// submitter is paying (in source chain tokens/assets) for: /// /// 1) submit-message-transaction-fee itself. This fee is not included in the /// `delivery_and_dispatch_fee` and is withheld by the regular transaction payment mechanism; /// 2) message-delivery-transaction-fee. It is submitted to the target node by relayer; /// 3) message-dispatch fee. It is paid by relayer for processing message by target chain; /// 4) message-receiving-delivery-transaction-fee. It is submitted to the source node /// by relayer. /// /// So to be sure that any non-altruist relayer would agree to deliver message, submitter /// should set `delivery_and_dispatch_fee` to at least (equivalent of): sum of fees from (2) /// to (4) above, plus some interest for the relayer. pub trait MessageDeliveryAndDispatchPayment { /// Error type. type Error: Debug + Into<&'static str>; /// Withhold/write-off delivery_and_dispatch_fee from submitter account to /// some relayers-fund account. fn pay_delivery_and_dispatch_fee( submitter: &SenderOrigin, fee: &Balance, ) -> Result<(), Self::Error>; /// Pay rewards for delivering messages to the given relayers. /// /// The implementation may also choose to pay reward to the `confirmation_relayer`, which is /// a relayer that has submitted delivery confirmation transaction. fn pay_relayers_rewards( lane_id: LaneId, messages_relayers: VecDeque>, confirmation_relayer: &AccountId, received_range: &RangeInclusive, ); } impl MessageDeliveryAndDispatchPayment for () { type Error = &'static str; fn pay_delivery_and_dispatch_fee( _submitter: &SenderOrigin, _fee: &Balance, ) -> Result<(), Self::Error> { Ok(()) } fn pay_relayers_rewards( _lane_id: LaneId, _messages_relayers: VecDeque>, _confirmation_relayer: &AccountId, _received_range: &RangeInclusive, ) { } } /// Send message artifacts. #[derive(Eq, RuntimeDebug, PartialEq)] pub struct SendMessageArtifacts { /// Nonce of the message. pub nonce: MessageNonce, /// Actual weight of send message call. pub weight: Weight, } /// Messages bridge API to be used from other pallets. pub trait MessagesBridge { /// Error type. type Error: Debug; /// Send message over the bridge. /// /// Returns unique message nonce or error if send has failed. fn send_message( sender: SenderOrigin, lane: LaneId, message: Payload, delivery_and_dispatch_fee: Balance, ) -> Result; } /// Bridge that does nothing when message is being sent. #[derive(Eq, RuntimeDebug, PartialEq)] pub struct NoopMessagesBridge; impl MessagesBridge for NoopMessagesBridge { type Error = &'static str; fn send_message( _sender: SenderOrigin, _lane: LaneId, _message: Payload, _delivery_and_dispatch_fee: Balance, ) -> Result { Ok(SendMessageArtifacts { nonce: 0, weight: Weight::from_ref_time(0) }) } } /// Handler for messages delivery confirmation. pub trait OnDeliveryConfirmed { /// Called when we receive confirmation that our messages have been delivered to the /// target chain. The confirmation also has single bit dispatch result for every /// confirmed message (see `DeliveredMessages` for details). Guaranteed to be called /// only when at least one message is delivered. /// /// Should return total weight consumed by the call. /// /// NOTE: messages pallet assumes that maximal weight that may be spent on processing /// single message is single DB read + single DB write. So this function shall never /// return weight that is larger than total number of messages * (db read + db write). /// If your pallet needs more time for processing single message, please do it /// from `on_initialize` call(s) of the next block(s). fn on_messages_delivered(_lane: &LaneId, _messages: &DeliveredMessages) -> Weight; } #[allow(clippy::let_and_return)] #[impl_trait_for_tuples::impl_for_tuples(30)] impl OnDeliveryConfirmed for Tuple { fn on_messages_delivered(lane: &LaneId, messages: &DeliveredMessages) -> Weight { let mut total_weight = Weight::from_ref_time(0); for_tuples!( #( total_weight = total_weight.saturating_add(Tuple::on_messages_delivered(lane, messages)); )* ); total_weight } } /// Handler for messages have been accepted pub trait OnMessageAccepted { /// Called when a message has been accepted by message pallet. fn on_messages_accepted(lane: &LaneId, message: &MessageNonce) -> Weight; } impl OnMessageAccepted for () { fn on_messages_accepted(_lane: &LaneId, _message: &MessageNonce) -> Weight { Weight::from_ref_time(0) } } /// Structure that may be used in place of `TargetHeaderChain`, `LaneMessageVerifier` and /// `MessageDeliveryAndDispatchPayment` on chains, where outbound messages are forbidden. pub struct ForbidOutboundMessages; /// Error message that is used in `ForbidOutboundMessages` implementation. const ALL_OUTBOUND_MESSAGES_REJECTED: &str = "This chain is configured to reject all outbound messages"; impl TargetHeaderChain for ForbidOutboundMessages { type Error = &'static str; type MessagesDeliveryProof = (); fn verify_message(_payload: &Payload) -> Result<(), Self::Error> { Err(ALL_OUTBOUND_MESSAGES_REJECTED) } fn verify_messages_delivery_proof( _proof: Self::MessagesDeliveryProof, ) -> Result<(LaneId, InboundLaneData), Self::Error> { Err(ALL_OUTBOUND_MESSAGES_REJECTED) } } impl LaneMessageVerifier for ForbidOutboundMessages { type Error = &'static str; fn verify_message( _submitter: &SenderOrigin, _delivery_and_dispatch_fee: &Fee, _lane: &LaneId, _outbound_data: &OutboundLaneData, _payload: &Payload, ) -> Result<(), Self::Error> { Err(ALL_OUTBOUND_MESSAGES_REJECTED) } } impl MessageDeliveryAndDispatchPayment for ForbidOutboundMessages { type Error = &'static str; fn pay_delivery_and_dispatch_fee( _submitter: &SenderOrigin, _fee: &Balance, ) -> Result<(), Self::Error> { Err(ALL_OUTBOUND_MESSAGES_REJECTED) } fn pay_relayers_rewards( _lane_id: LaneId, _messages_relayers: VecDeque>, _confirmation_relayer: &AccountId, _received_range: &RangeInclusive, ) { } }