# nimbus_verified_proxy # Copyright (c) 2022-2024 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. {.push raises: [].} import std/[sequtils, typetraits, options], stint, results, nimcrypto/hash, eth/common/eth_types as etypes, eth/common/eth_types_rlp, eth/rlp, eth/trie/[hexary, hexary_proof_verification], web3/eth_api_types export results type FixedBytes[N: static int] = primitives.FixedBytes[N] Address = primitives.Address func toMDigest(arg: primitives.FixedBytes[32]): MDigest[256] = MDigest[256](data: distinctBase(arg)) func emptyAccount(): etypes.Account = return etypes.Account( nonce: uint64(0), balance: UInt256.zero, storageRoot: etypes.EMPTY_ROOT_HASH, codeHash: etypes.EMPTY_CODE_HASH, ) proc isValidProof( branch: seq[seq[byte]], rootHash: KeccakHash, key, value: seq[byte] ): bool = try: # TODO: Investigate if this handles proof of non-existence. # Probably not as bool is not expressive enough to say if proof is valid, # but key actually does not exists in MPT return isValidBranch(branch, rootHash, key, value) except RlpError: return false proc getAccountFromProof*( stateRoot: Hash32, accountAddress: Address, accountBalance: UInt256, accountNonce: Quantity, accountCodeHash: CodeHash, accountStorageRootHash: StorageHash, mptNodes: seq[RlpEncodedBytes], ): Result[etypes.Account, string] = let mptNodesBytes = mptNodes.mapIt(distinctBase(it)) keccakStateRootHash = Hash32(stateRoot) acc = etypes.Account( nonce: distinctBase(accountNonce), balance: accountBalance, storageRoot: Hash32(accountStorageRootHash), codeHash: Hash32(accountCodeHash), ) accountEncoded = rlp.encode(acc) accountKey = toSeq(keccakHash(distinctBase(accountAddress)).data) let proofResult = verifyMptProof(mptNodesBytes, keccakStateRootHash, accountKey, accountEncoded) case proofResult.kind of MissingKey: return ok(emptyAccount()) of ValidProof: return ok(acc) of InvalidProof: return err(proofResult.errorMsg) proc getStorageData( account: etypes.Account, storageProof: StorageProof ): Result[UInt256, string] = let storageMptNodes = storageProof.proof.mapIt(distinctBase(it)) key = toSeq(keccakHash(toBytesBE(storageProof.key)).data) encodedValue = rlp.encode(storageProof.value) proofResult = verifyMptProof(storageMptNodes, account.storageRoot, key, encodedValue) case proofResult.kind of MissingKey: return ok(UInt256.zero) of ValidProof: return ok(storageProof.value) of InvalidProof: return err(proofResult.errorMsg) proc getStorageData*( stateRoot: Hash32, requestedSlot: UInt256, proof: ProofResponse ): Result[UInt256, string] = let account = ?getAccountFromProof( stateRoot, proof.address, proof.balance, proof.nonce, proof.codeHash, proof.storageHash, proof.accountProof, ) if account.storageRoot == etypes.EMPTY_ROOT_HASH: # valid account with empty storage, in that case getStorageAt # return 0 value return ok(u256(0)) if len(proof.storageProof) != 1: return err("no storage proof for requested slot") let sproof = proof.storageProof[0] if len(sproof.proof) == 0: return err("empty mpt proof for account with not empty storage") if sproof.key != requestedSlot: return err("received proof for invalid slot") return getStorageData(account, sproof) func isValidCode*(account: etypes.Account, code: openArray[byte]): bool = return account.codeHash == keccakHash(code)