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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.

// 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/>.

//! Defines traits which represent a common interface for Substrate pallets which want to
//! incorporate bridge functionality.

#![cfg_attr(not(feature = "std"), no_std)]

use crate::justification::{
	GrandpaJustification, JustificationVerificationContext, JustificationVerificationError,
};
use bp_runtime::{
	BasicOperatingMode, Chain, HashOf, HasherOf, HeaderOf, RawStorageProof, StorageProofChecker,
	StorageProofError, UnderlyingChainProvider,
use codec::{Codec, Decode, Encode, EncodeLike, MaxEncodedLen};
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use core::{clone::Clone, cmp::Eq, default::Default, fmt::Debug};
use frame_support::PalletError;
use scale_info::TypeInfo;
use serde::{Deserialize, Serialize};
use sp_consensus_grandpa::{AuthorityList, ConsensusLog, SetId, GRANDPA_ENGINE_ID};
use sp_runtime::{traits::Header as HeaderT, Digest, RuntimeDebug};
use sp_std::{boxed::Box, vec::Vec};
/// Header chain error.
#[derive(Clone, Decode, Encode, Eq, PartialEq, PalletError, Debug, TypeInfo)]
pub enum HeaderChainError {
	/// Header with given hash is missing from the chain.
	UnknownHeader,
	/// Storage proof related error.
	StorageProof(StorageProofError),
/// Header data that we're storing on-chain.
///
/// Even though we may store full header, our applications (XCM) only use couple of header
/// fields. Extracting those values makes on-chain storage and PoV smaller, which is good.
#[derive(Clone, Decode, Encode, Eq, MaxEncodedLen, PartialEq, RuntimeDebug, TypeInfo)]
pub struct StoredHeaderData<Number, Hash> {
	/// Header number.
	pub number: Number,
	/// Header state root.
	pub state_root: Hash,
}

/// Stored header data builder.
pub trait StoredHeaderDataBuilder<Number, Hash> {
	/// Build header data from self.
	fn build(&self) -> StoredHeaderData<Number, Hash>;
}

impl<H: HeaderT> StoredHeaderDataBuilder<H::Number, H::Hash> for H {
	fn build(&self) -> StoredHeaderData<H::Number, H::Hash> {
		StoredHeaderData { number: *self.number(), state_root: *self.state_root() }
	}
}

/// Substrate header chain, abstracted from the way it is stored.
pub trait HeaderChain<C: Chain> {
	/// Returns state (storage) root of given finalized header.
	fn finalized_header_state_root(header_hash: HashOf<C>) -> Option<HashOf<C>>;
	/// Get storage proof checker using finalized header.
	fn storage_proof_checker(
		storage_proof: RawStorageProof,
	) -> Result<StorageProofChecker<HasherOf<C>>, HeaderChainError> {
		let state_root = Self::finalized_header_state_root(header_hash)
			.ok_or(HeaderChainError::UnknownHeader)?;
		StorageProofChecker::new(state_root, storage_proof).map_err(HeaderChainError::StorageProof)
/// A type that can be used as a parameter in a dispatchable function.
///
/// When using `decl_module` all arguments for call functions must implement this trait.
pub trait Parameter: Codec + EncodeLike + Clone + Eq + Debug + TypeInfo {}
impl<T> Parameter for T where T: Codec + EncodeLike + Clone + Eq + Debug + TypeInfo {}
/// A GRANDPA Authority List and ID.
#[derive(Default, Encode, Eq, Decode, RuntimeDebug, PartialEq, Clone, TypeInfo)]
#[cfg_attr(feature = "std", derive(Serialize, Deserialize))]
pub struct AuthoritySet {
	/// List of GRANDPA authorities for the current round.
	pub authorities: AuthorityList,
	/// Monotonic identifier of the current GRANDPA authority set.
	pub set_id: SetId,
}

impl AuthoritySet {
	/// Create a new GRANDPA Authority Set.
	pub fn new(authorities: AuthorityList, set_id: SetId) -> Self {
		Self { authorities, set_id }
	}
}

/// Data required for initializing the GRANDPA bridge pallet.
///
/// The bridge needs to know where to start its sync from, and this provides that initial context.
#[derive(
	Default, Encode, Decode, RuntimeDebug, PartialEq, Eq, Clone, TypeInfo, Serialize, Deserialize,
)]
pub struct InitializationData<H: HeaderT> {
	/// The header from which we should start syncing.
	/// The initial authorities of the pallet.
	pub authority_list: AuthorityList,
	/// The ID of the initial authority set.
	pub set_id: SetId,
	/// Pallet operating mode.
	pub operating_mode: BasicOperatingMode,
/// Abstract finality proof that is justifying block finality.
pub trait FinalityProof<Hash, Number>: Clone + Send + Sync + Debug {
	/// Return hash of header that this proof is generated for.
	fn target_header_hash(&self) -> Hash;

	/// Return number of header that this proof is generated for.
	fn target_header_number(&self) -> Number;
}

/// A trait that provides helper methods for querying the consensus log.
pub trait ConsensusLogReader {
	/// Returns true if digest contains item that schedules authorities set change.
	fn schedules_authorities_change(digest: &Digest) -> bool;
}
/// A struct that provides helper methods for querying the GRANDPA consensus log.
pub struct GrandpaConsensusLogReader<Number>(sp_std::marker::PhantomData<Number>);
impl<Number: Codec> GrandpaConsensusLogReader<Number> {
	pub fn find_scheduled_change(
	) -> Option<sp_consensus_grandpa::ScheduledChange<Number>> {
		// find the first consensus digest with the right ID which converts to
		// the right kind of consensus log.
		digest
			.convert_first(|log| log.consensus_try_to(&GRANDPA_ENGINE_ID))
			.and_then(|log| match log {
				ConsensusLog::ScheduledChange(change) => Some(change),
				_ => None,
			})
	}

	pub fn find_forced_change(
		digest: &Digest,
	) -> Option<(Number, sp_consensus_grandpa::ScheduledChange<Number>)> {
		// find the first consensus digest with the right ID which converts to
		// the right kind of consensus log.
		digest
			.convert_first(|log| log.consensus_try_to(&GRANDPA_ENGINE_ID))
			.and_then(|log| match log {
				ConsensusLog::ForcedChange(delay, change) => Some((delay, change)),
				_ => None,
			})
	}
}

impl<Number: Codec> ConsensusLogReader for GrandpaConsensusLogReader<Number> {
	fn schedules_authorities_change(digest: &Digest) -> bool {
		GrandpaConsensusLogReader::<Number>::find_scheduled_change(digest).is_some()
/// The finality-related info associated to a header.
#[derive(Encode, Decode, Debug, PartialEq, Clone, TypeInfo)]
pub struct HeaderFinalityInfo<FinalityProof, FinalityVerificationContext> {
	/// The header finality proof.
	pub finality_proof: FinalityProof,
	/// The new verification context introduced by the header.
	pub new_verification_context: Option<FinalityVerificationContext>,
}

/// Grandpa-related info associated to a header. This info can be saved to events.
pub type StoredHeaderGrandpaInfo<Header> =
	HeaderFinalityInfo<GrandpaJustification<Header>, AuthoritySet>;

/// Processed Grandpa-related info associated to a header.
pub type HeaderGrandpaInfo<Header> =
	HeaderFinalityInfo<GrandpaJustification<Header>, JustificationVerificationContext>;

impl<Header: HeaderT> TryFrom<StoredHeaderGrandpaInfo<Header>> for HeaderGrandpaInfo<Header> {
	type Error = JustificationVerificationError;

	fn try_from(grandpa_info: StoredHeaderGrandpaInfo<Header>) -> Result<Self, Self::Error> {
		Ok(Self {
			finality_proof: grandpa_info.finality_proof,
			new_verification_context: match grandpa_info.new_verification_context {
				Some(authority_set) => Some(authority_set.try_into()?),
				None => None,
			},
		})
	}
}

/// Helper trait for finding equivocations in finality proofs.
pub trait FindEquivocations<FinalityProof, FinalityVerificationContext, EquivocationProof> {
	/// The type returned when encountering an error while looking for equivocations.

	/// Find equivocations.
	fn find_equivocations(
		verification_context: &FinalityVerificationContext,
		synced_proof: &FinalityProof,
		source_proofs: &[FinalityProof],
	) -> Result<Vec<EquivocationProof>, Self::Error>;
/// A minimized version of `pallet-bridge-grandpa::Call` that can be used without a runtime.
#[derive(Encode, Decode, Debug, PartialEq, Eq, Clone, TypeInfo)]
#[allow(non_camel_case_types)]
pub enum BridgeGrandpaCall<Header: HeaderT> {
	/// `pallet-bridge-grandpa::Call::submit_finality_proof`
	#[codec(index = 0)]
	submit_finality_proof {
		finality_target: Box<Header>,
		justification: justification::GrandpaJustification<Header>,
	},
	/// `pallet-bridge-grandpa::Call::initialize`
	#[codec(index = 1)]
	initialize { init_data: InitializationData<Header> },
}

/// The `BridgeGrandpaCall` used by a chain.
pub type BridgeGrandpaCallOf<C> = BridgeGrandpaCall<HeaderOf<C>>;

/// Substrate-based chain that is using direct GRANDPA finality.
///
/// Keep in mind that parachains are relying on relay chain GRANDPA, so they should not implement
/// this trait.
pub trait ChainWithGrandpa: Chain {
	/// Name of the bridge GRANDPA pallet (used in `construct_runtime` macro call) that is deployed
	/// at some other chain to bridge with this `ChainWithGrandpa`.
	///
	/// We assume that all chains that are bridging with this `ChainWithGrandpa` are using
	/// the same name.
	const WITH_CHAIN_GRANDPA_PALLET_NAME: &'static str;

	/// Max number of GRANDPA authorities at the chain.
	///
	/// This is a strict constant. If bridged chain will have more authorities than that,
	/// the GRANDPA bridge pallet may halt.
	const MAX_AUTHORITIES_COUNT: u32;

	/// Max reasonable number of headers in `votes_ancestries` vector of the GRANDPA justification.
	///
	/// This isn't a strict limit. The relay may submit justifications with more headers in its
	/// ancestry and the pallet will accept such justification. The limit is only used to compute
	/// maximal refund amount and submitting justifications which exceed the limit, may be costly
	/// to submitter.
	const REASONABLE_HEADERS_IN_JUSTIFICATON_ANCESTRY: u32;

	/// Maximal size of the chain header. The header may be the header that enacts new GRANDPA
	/// authorities set (so it has large digest inside).
	///
	/// This isn't a strict limit. The relay may submit larger headers and the pallet will accept
	/// the call. The limit is only used to compute maximal refund amount and doing calls which
	/// exceed the limit, may be costly to submitter.
	const MAX_HEADER_SIZE: u32;

	/// Average size of the chain header from justification ancestry. We don't expect to see there
	/// headers that change GRANDPA authorities set (GRANDPA will probably be able to finalize at
	/// least one additional header per session on non test chains), so this is average size of
	/// headers that aren't changing the set.
	///
	/// This isn't a strict limit. The relay may submit justifications with larger headers in its
	/// ancestry and the pallet will accept the call. The limit is only used to compute maximal
	/// refund amount and doing calls which exceed the limit, may be costly to submitter.
	const AVERAGE_HEADER_SIZE_IN_JUSTIFICATION: u32;
}
	T: Chain + UnderlyingChainProvider,
	const WITH_CHAIN_GRANDPA_PALLET_NAME: &'static str =
		<T::Chain as ChainWithGrandpa>::WITH_CHAIN_GRANDPA_PALLET_NAME;
	const MAX_AUTHORITIES_COUNT: u32 = <T::Chain as ChainWithGrandpa>::MAX_AUTHORITIES_COUNT;
	const REASONABLE_HEADERS_IN_JUSTIFICATON_ANCESTRY: u32 =
		<T::Chain as ChainWithGrandpa>::REASONABLE_HEADERS_IN_JUSTIFICATON_ANCESTRY;
	const MAX_HEADER_SIZE: u32 = <T::Chain as ChainWithGrandpa>::MAX_HEADER_SIZE;
	const AVERAGE_HEADER_SIZE_IN_JUSTIFICATION: u32 =
		<T::Chain as ChainWithGrandpa>::AVERAGE_HEADER_SIZE_IN_JUSTIFICATION;