// 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 . //! Defines traits which represent a common interface for Substrate pallets which want to //! incorporate bridge functionality. #![cfg_attr(not(feature = "std"), no_std)] use codec::{Codec, Decode, Encode, EncodeLike}; use core::clone::Clone; use core::cmp::Eq; use core::default::Default; use core::fmt::Debug; #[cfg(feature = "std")] use serde::{Deserialize, Serialize}; use sp_finality_grandpa::{AuthorityList, SetId}; use sp_runtime::traits::Header as HeaderT; use sp_runtime::RuntimeDebug; use sp_std::vec::Vec; pub mod justification; /// 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 {} impl Parameter for T where T: Codec + EncodeLike + Clone + Eq + Debug {} /// A GRANDPA Authority List and ID. #[derive(Default, Encode, Decode, RuntimeDebug, PartialEq, Clone)] #[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 } } } /// base trait for verifying transaction inclusion proofs. pub trait InclusionProofVerifier { /// Transaction type. type Transaction: Parameter; /// Transaction inclusion proof type. type TransactionInclusionProof: Parameter; /// Verify that transaction is a part of given block. /// /// Returns Some(transaction) if proof is valid and None otherwise. fn verify_transaction_inclusion_proof(proof: &Self::TransactionInclusionProof) -> Option; } /// A trait for pallets which want to keep track of finalized headers from a bridged chain. pub trait HeaderChain { /// Get the best finalized header known to the header chain. fn best_finalized() -> H; /// Get the best authority set known to the header chain. fn authority_set() -> AuthoritySet; /// Write a header finalized by GRANDPA to the underlying pallet storage. fn append_header(header: H); } impl HeaderChain for () { fn best_finalized() -> H { H::default() } fn authority_set() -> AuthoritySet { AuthoritySet::default() } fn append_header(_header: H) {} } /// A trait for checking if a given child header is a direct descendant of an ancestor. pub trait AncestryChecker { /// Is the child header a descendant of the ancestor header? fn are_ancestors(ancestor: &H, child: &H, proof: &P) -> bool; } impl AncestryChecker for () { fn are_ancestors(_ancestor: &H, _child: &H, _proof: &P) -> bool { true } } /// A simple ancestry checker which verifies ancestry by walking every header between `child` and /// `ancestor`. pub struct LinearAncestryChecker; impl AncestryChecker> for LinearAncestryChecker { fn are_ancestors(ancestor: &H, child: &H, proof: &Vec) -> bool { // You can't be your own parent if proof.len() < 2 { return false; } // Let's make sure that the given headers are actually in the proof match proof.first() { Some(first) if first == ancestor => {} _ => return false, } match proof.last() { Some(last) if last == child => {} _ => return false, } // Now we actually check the proof for i in 1..proof.len() { if &proof[i - 1].hash() != proof[i].parent_hash() { return false; } } true } } #[cfg(test)] mod tests { use super::*; use bp_test_utils::test_header; use sp_runtime::testing::Header; #[test] fn can_verify_ancestry_correctly() { let ancestor: Header = test_header(1); let header2: Header = test_header(2); let header3: Header = test_header(3); let child: Header = test_header(4); let ancestry_proof = vec![ancestor.clone(), header2, header3, child.clone()]; assert!(LinearAncestryChecker::are_ancestors(&ancestor, &child, &ancestry_proof)); } #[test] fn does_not_verify_invalid_proof() { let ancestor: Header = test_header(1); let header2: Header = test_header(2); let header3: Header = test_header(3); let child: Header = test_header(4); let ancestry_proof = vec![ancestor.clone(), header3, header2, child.clone()]; let invalid = !LinearAncestryChecker::are_ancestors(&ancestor, &child, &ancestry_proof); assert!(invalid); } #[test] fn header_is_not_allowed_to_be_its_own_ancestor() { let ancestor: Header = test_header(1); let child: Header = ancestor.clone(); let ancestry_proof = vec![ancestor.clone()]; let invalid = !LinearAncestryChecker::are_ancestors(&ancestor, &child, &ancestry_proof); assert!(invalid); } #[test] fn proof_is_considered_invalid_if_child_and_ancestor_do_not_match() { let ancestor: Header = test_header(1); let header2: Header = test_header(2); let header3: Header = test_header(3); let child: Header = test_header(4); let ancestry_proof = vec![ancestor, header3.clone(), header2.clone(), child]; let invalid = !LinearAncestryChecker::are_ancestors(&header2, &header3, &ancestry_proof); assert!(invalid); } #[test] fn empty_proof_is_invalid() { let ancestor: Header = test_header(1); let child: Header = ancestor.clone(); let ancestry_proof = vec![]; let invalid = !LinearAncestryChecker::are_ancestors(&ancestor, &child, &ancestry_proof); assert!(invalid); } }