// Copyright 2019-2020 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. #![cfg_attr(not(feature = "std"), no_std)] // RuntimeApi generated functions #![allow(clippy::too_many_arguments)] // Generated by `DecodeLimit::decode_with_depth_limit` #![allow(clippy::unnecessary_mut_passed)] use codec::{Decode, Encode}; use frame_support::RuntimeDebug; use sp_std::{collections::vec_deque::VecDeque, prelude::*}; pub mod source_chain; pub mod target_chain; // Weight is reexported to avoid additional frame-support dependencies in related crates. pub use frame_support::weights::Weight; /// Messages pallet parameter. pub trait Parameter: frame_support::Parameter { /// Save parameter value in the runtime storage. fn save(&self); } /// Lane identifier. pub type LaneId = [u8; 4]; /// Message nonce. Valid messages will never have 0 nonce. pub type MessageNonce = u64; /// Message id as a tuple. pub type MessageId = (LaneId, MessageNonce); /// Opaque message payload. We only decode this payload when it is dispatched. pub type MessagePayload = Vec; /// Message key (unique message identifier) as it is stored in the storage. #[derive(Encode, Decode, Clone, PartialEq, Eq, RuntimeDebug)] pub struct MessageKey { /// ID of the message lane. pub lane_id: LaneId, /// Message nonce. pub nonce: MessageNonce, } /// Message data as it is stored in the storage. #[derive(Encode, Decode, Clone, PartialEq, Eq, RuntimeDebug)] pub struct MessageData { /// Message payload. pub payload: MessagePayload, /// Message delivery and dispatch fee, paid by the submitter. pub fee: Fee, } /// Message as it is stored in the storage. #[derive(Encode, Decode, Clone, PartialEq, Eq, RuntimeDebug)] pub struct Message { /// Message key. pub key: MessageKey, /// Message data. pub data: MessageData, } /// Inbound lane data. #[derive(Encode, Decode, Clone, RuntimeDebug, PartialEq, Eq)] pub struct InboundLaneData { /// Identifiers of relayers and messages that they have delivered to this lane (ordered by message nonce). /// /// This serves as a helper storage item, to allow the source chain to easily pay rewards /// to the relayers who succesfuly delivered messages to the target chain (inbound lane). /// /// It is guaranteed to have at most N entries, where N is configured at the module level. /// If there are N entries in this vec, then: /// 1) all incoming messages are rejected if they're missing corresponding `proof-of(outbound-lane.state)`; /// 2) all incoming messages are rejected if `proof-of(outbound-lane.state).last_delivered_nonce` is /// equal to `self.last_confirmed_nonce`. /// Given what is said above, all nonces in this queue are in range: /// `(self.last_confirmed_nonce; self.last_delivered_nonce()]`. /// /// When a relayer sends a single message, both of MessageNonces are the same. /// When relayer sends messages in a batch, the first arg is the lowest nonce, second arg the highest nonce. /// Multiple dispatches from the same relayer are allowed. pub relayers: VecDeque<(MessageNonce, MessageNonce, RelayerId)>, /// Nonce of the last message that /// a) has been delivered to the target (this) chain and /// b) the delivery has been confirmed on the source chain /// /// that the target chain knows of. /// /// This value is updated indirectly when an `OutboundLane` state of the source /// chain is received alongside with new messages delivery. pub last_confirmed_nonce: MessageNonce, } impl Default for InboundLaneData { fn default() -> Self { InboundLaneData { relayers: VecDeque::new(), last_confirmed_nonce: 0, } } } impl InboundLaneData { /// Returns approximate size of the struct, given number of entries in the `relayers` set and /// size of each entry. /// /// Returns `None` if size overflows `u32` limits. pub fn encoded_size_hint(relayer_id_encoded_size: u32, relayers_entries: u32) -> Option { let message_nonce_size = 8; let relayers_entry_size = relayer_id_encoded_size.checked_add(2 * message_nonce_size)?; let relayers_size = relayers_entries.checked_mul(relayers_entry_size)?; relayers_size.checked_add(message_nonce_size) } /// Nonce of the last message that has been delivered to this (target) chain. pub fn last_delivered_nonce(&self) -> MessageNonce { self.relayers .back() .map(|(_, last_nonce, _)| *last_nonce) .unwrap_or(self.last_confirmed_nonce) } } /// Gist of `InboundLaneData::relayers` field used by runtime APIs. #[derive(Clone, Default, Encode, Decode, RuntimeDebug, PartialEq, Eq)] pub struct UnrewardedRelayersState { /// Number of entries in the `InboundLaneData::relayers` set. pub unrewarded_relayer_entries: MessageNonce, /// Number of messages in the oldest entry of `InboundLaneData::relayers`. This is the /// minimal number of reward proofs required to push out this entry from the set. pub messages_in_oldest_entry: MessageNonce, /// Total number of messages in the relayers vector. pub total_messages: MessageNonce, } /// Outbound lane data. #[derive(Encode, Decode, Clone, RuntimeDebug, PartialEq, Eq)] pub struct OutboundLaneData { /// Nonce of oldest message that we haven't yet pruned. May point to not-yet-generated message if /// all sent messages are already pruned. pub oldest_unpruned_nonce: MessageNonce, /// Nonce of latest message, received by bridged chain. pub latest_received_nonce: MessageNonce, /// Nonce of latest message, generated by us. pub latest_generated_nonce: MessageNonce, } impl Default for OutboundLaneData { fn default() -> Self { OutboundLaneData { // it is 1 because we're pruning everything in [oldest_unpruned_nonce; latest_received_nonce] oldest_unpruned_nonce: 1, latest_received_nonce: 0, latest_generated_nonce: 0, } } } /// Returns total number of messages in the `InboundLaneData::relayers` vector. /// /// Returns `None` if there are more messages that `MessageNonce` may fit (i.e. `MessageNonce + 1`). pub fn total_unrewarded_messages( relayers: &VecDeque<(MessageNonce, MessageNonce, RelayerId)>, ) -> Option { match (relayers.front(), relayers.back()) { (Some((begin, _, _)), Some((_, end, _))) => { if let Some(difference) = end.checked_sub(*begin) { difference.checked_add(1) } else { Some(0) } } _ => Some(0), } } #[cfg(test)] mod tests { use super::*; #[test] fn total_unrewarded_messages_does_not_overflow() { assert_eq!( total_unrewarded_messages( &vec![(0, 0, 1), (MessageNonce::MAX, MessageNonce::MAX, 2)] .into_iter() .collect() ), None, ); } #[test] fn inbound_lane_data_returns_correct_hint() { let expected_size = InboundLaneData::::encoded_size_hint(1, 13); let actual_size = InboundLaneData { relayers: (1u8..=13u8).map(|i| (i as _, i as _, i)).collect(), last_confirmed_nonce: 13, } .encode() .len(); let difference = (expected_size.unwrap() as f64 - actual_size as f64).abs(); assert!( difference / (std::cmp::min(actual_size, expected_size.unwrap() as usize) as f64) < 0.1, "Too large difference between actual ({}) and expected ({:?}) inbound lane data size", actual_size, expected_size, ); } }