// 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 target chain.
use crate::{LaneId, Message, MessageKey, MessageNonce, MessagePayload, OutboundLaneData};
use bp_runtime::{messages::MessageDispatchResult, Size};
use codec::{Decode, Encode, Error as CodecError};
use frame_support::{weights::Weight, Parameter, RuntimeDebug};
use scale_info::TypeInfo;
use sp_std::{collections::btree_map::BTreeMap, fmt::Debug, marker::PhantomData, prelude::*};
/// Proved messages from the source chain.
pub type ProvedMessages = BTreeMap>;
/// Proved messages from single lane of the source chain.
#[derive(RuntimeDebug, Encode, Decode, Clone, PartialEq, Eq, TypeInfo)]
pub struct ProvedLaneMessages {
/// Optional outbound lane state.
pub lane_state: Option,
/// Messages sent through this lane.
pub messages: Vec,
}
/// Message data with decoded dispatch payload.
#[derive(RuntimeDebug)]
pub struct DispatchMessageData {
/// Result of dispatch payload decoding.
pub payload: Result,
}
/// Message with decoded dispatch payload.
#[derive(RuntimeDebug)]
pub struct DispatchMessage {
/// Message key.
pub key: MessageKey,
/// Message data with decoded dispatch payload.
pub data: DispatchMessageData,
}
/// Source chain API. Used by target chain, to verify source 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.
pub trait SourceHeaderChain {
/// Error type.
type Error: Debug;
/// Proof that messages are sent from source chain. This may also include proof
/// of corresponding outbound lane states.
type MessagesProof: Parameter + Size;
/// Verify messages proof and return proved messages.
///
/// Returns error if either proof is incorrect, or the number of messages in the proof
/// is not matching the `messages_count`.
///
/// Messages vector is required to be sorted by nonce within each lane. Out-of-order
/// messages will be rejected.
///
/// The `messages_count` argument verification (sane limits) is supposed to be made
/// outside this function. This function only verifies that the proof declares exactly
/// `messages_count` messages.
fn verify_messages_proof(
proof: Self::MessagesProof,
messages_count: u32,
) -> Result, Self::Error>;
}
/// Called when inbound message is received.
pub trait MessageDispatch {
/// Decoded message payload type. Valid message may contain invalid payload. In this case
/// message is delivered, but dispatch fails. Therefore, two separate types of payload
/// (opaque `MessagePayload` used in delivery and this `DispatchPayload` used in dispatch).
type DispatchPayload: Decode;
/// Fine-grained result of single message dispatch (for better diagnostic purposes)
type DispatchLevelResult: Clone + sp_std::fmt::Debug + Eq;
/// Estimate dispatch weight.
///
/// This function must return correct upper bound of dispatch weight. The return value
/// of this function is expected to match return value of the corresponding
/// `FromInboundLaneApi::message_details().dispatch_weight` call.
fn dispatch_weight(message: &mut DispatchMessage) -> Weight;
/// Called when inbound message is received.
///
/// It is up to the implementers of this trait to determine whether the message
/// is invalid (i.e. improperly encoded, has too large weight, ...) or not.
///
/// If your configuration allows paying dispatch fee at the target chain, then
/// it must be paid inside this method to the `relayer_account`.
fn dispatch(
relayer_account: &AccountId,
message: DispatchMessage,
) -> MessageDispatchResult;
}
/// Manages payments that are happening at the target chain during message delivery transaction.
pub trait DeliveryPayments {
/// Error type.
type Error: Debug + Into<&'static str>;
/// Pay rewards for delivering messages to the given relayer.
///
/// This method is called during message delivery transaction which has been submitted
/// by the `relayer`. The transaction brings `total_messages` messages but only
/// `valid_messages` have been accepted. The post-dispatch transaction weight is the
/// `actual_weight`.
fn pay_reward(
relayer: AccountId,
total_messages: MessageNonce,
valid_messages: MessageNonce,
actual_weight: Weight,
);
}
impl Default for ProvedLaneMessages {
fn default() -> Self {
ProvedLaneMessages { lane_state: None, messages: Vec::new() }
}
}
impl From for DispatchMessage {
fn from(message: Message) -> Self {
DispatchMessage { key: message.key, data: message.payload.into() }
}
}
impl From for DispatchMessageData {
fn from(payload: MessagePayload) -> Self {
DispatchMessageData { payload: DispatchPayload::decode(&mut &payload[..]) }
}
}
impl DeliveryPayments for () {
type Error = &'static str;
fn pay_reward(
_relayer: AccountId,
_total_messages: MessageNonce,
_valid_messages: MessageNonce,
_actual_weight: Weight,
) {
// this implementation is not rewarding relayer at all
}
}
/// Structure that may be used in place of `SourceHeaderChain` and `MessageDispatch` on chains,
/// where inbound messages are forbidden.
pub struct ForbidInboundMessages(
PhantomData<(MessagesProof, DispatchPayload)>,
);
/// Error message that is used in `ForbidOutboundMessages` implementation.
const ALL_INBOUND_MESSAGES_REJECTED: &str =
"This chain is configured to reject all inbound messages";
impl SourceHeaderChain
for ForbidInboundMessages
{
type Error = &'static str;
type MessagesProof = MessagesProof;
fn verify_messages_proof(
_proof: Self::MessagesProof,
_messages_count: u32,
) -> Result, Self::Error> {
Err(ALL_INBOUND_MESSAGES_REJECTED)
}
}
impl MessageDispatch
for ForbidInboundMessages
{
type DispatchPayload = DispatchPayload;
type DispatchLevelResult = ();
fn dispatch_weight(_message: &mut DispatchMessage) -> Weight {
Weight::MAX
}
fn dispatch(
_: &AccountId,
_: DispatchMessage,
) -> MessageDispatchResult {
MessageDispatchResult { unspent_weight: Weight::zero(), dispatch_level_result: () }
}
}