// SPDX-License-Identifier: Apache-2.0 // SPDX-FileCopyrightText: 2023 Snowfork use super::*; use frame_support::ensure; use primitives::ExecutionProof; use snowbridge_core::inbound::{ VerificationError::{self, *}, *, }; use snowbridge_ethereum::Receipt; impl Verifier for Pallet { /// Verify a message by verifying the existence of the corresponding /// Ethereum log in a block. Returns the log if successful. The execution header containing /// the log should be in the beacon client storage, meaning it has been verified and is an /// ancestor of a finalized beacon block. fn verify(event_log: &Log, proof: &Proof) -> Result<(), VerificationError> { Self::verify_execution_proof(&proof.execution_proof) .map_err(|e| InvalidExecutionProof(e.into()))?; let receipt = Self::verify_receipt_inclusion( proof.execution_proof.execution_header.receipts_root(), &proof.receipt_proof.1, )?; event_log.validate().map_err(|_| InvalidLog)?; // Convert snowbridge_core::inbound::Log to snowbridge_ethereum::Log. let event_log = snowbridge_ethereum::Log { address: event_log.address, topics: event_log.topics.clone(), data: event_log.data.clone(), }; if !receipt.contains_log(&event_log) { log::error!( target: "ethereum-client", "💫 Event log not found in receipt for transaction", ); return Err(LogNotFound) } Ok(()) } } impl Pallet { /// Verifies that the receipt encoded in `proof.data` is included in the block given by /// `proof.block_hash`. pub fn verify_receipt_inclusion( receipts_root: H256, receipt_proof: &[Vec], ) -> Result { let result = verify_receipt_proof(receipts_root, receipt_proof).ok_or(InvalidProof)?; match result { Ok(receipt) => Ok(receipt), Err(err) => { log::trace!( target: "ethereum-client", "💫 Failed to decode transaction receipt: {}", err ); Err(InvalidProof) }, } } /// Validates an execution header with ancestry_proof against a finalized checkpoint on /// chain.The beacon header containing the execution header is sent, plus the execution header, /// along with a proof that the execution header is rooted in the beacon header body. pub(crate) fn verify_execution_proof(execution_proof: &ExecutionProof) -> DispatchResult { let latest_finalized_state = FinalizedBeaconState::::get(LatestFinalizedBlockRoot::::get()) .ok_or(Error::::NotBootstrapped)?; // Checks that the header is an ancestor of a finalized header, using slot number. ensure!( execution_proof.header.slot <= latest_finalized_state.slot, Error::::HeaderNotFinalized ); // Gets the hash tree root of the execution header, in preparation for the execution // header proof (used to check that the execution header is rooted in the beacon // header body. let execution_header_root: H256 = execution_proof .execution_header .hash_tree_root() .map_err(|_| Error::::BlockBodyHashTreeRootFailed)?; ensure!( verify_merkle_branch( execution_header_root, &execution_proof.execution_branch, config::EXECUTION_HEADER_SUBTREE_INDEX, config::EXECUTION_HEADER_DEPTH, execution_proof.header.body_root ), Error::::InvalidExecutionHeaderProof ); let beacon_block_root: H256 = execution_proof .header .hash_tree_root() .map_err(|_| Error::::HeaderHashTreeRootFailed)?; match &execution_proof.ancestry_proof { Some(proof) => { Self::verify_ancestry_proof( beacon_block_root, execution_proof.header.slot, &proof.header_branch, proof.finalized_block_root, )?; }, None => { // If the ancestry proof is not provided, we expect this beacon header to be a // finalized beacon header. We need to check that the header hash matches the // finalized header root at the expected slot. let state = >::get(beacon_block_root) .ok_or(Error::::ExpectedFinalizedHeaderNotStored)?; if execution_proof.header.slot != state.slot { return Err(Error::::ExpectedFinalizedHeaderNotStored.into()) } }, } Ok(()) } /// Verify that `block_root` is an ancestor of `finalized_block_root` Used to prove that /// an execution header is an ancestor of a finalized header (i.e. the blocks are /// on the same chain). fn verify_ancestry_proof( block_root: H256, block_slot: u64, block_root_proof: &[H256], finalized_block_root: H256, ) -> DispatchResult { let state = >::get(finalized_block_root) .ok_or(Error::::ExpectedFinalizedHeaderNotStored)?; ensure!(block_slot < state.slot, Error::::HeaderNotFinalized); let index_in_array = block_slot % (SLOTS_PER_HISTORICAL_ROOT as u64); let leaf_index = (SLOTS_PER_HISTORICAL_ROOT as u64) + index_in_array; ensure!( verify_merkle_branch( block_root, block_root_proof, leaf_index as usize, config::BLOCK_ROOT_AT_INDEX_DEPTH, state.block_roots_root ), Error::::InvalidAncestryMerkleProof ); Ok(()) } }