# Nimbus # Copyright (c) 2018 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or # http://www.apache.org/licenses/LICENSE-2.0) # * MIT license ([LICENSE-MIT](LICENSE-MIT) or # http://opensource.org/licenses/MIT) # at your option. This file may not be copied, modified, or distributed except # according to those terms. ## ## Recover Address From Signature ## ============================== ## ## This module provides caching and direct versions for recovering the ## `EthAddress` from an extended signature. The caching version reduces ## calculation time for the price of maintaing it in a LRU cache. import ../constants, ./keyed_queue/kq_rlp, ./utils_defs, eth/[common, common/transaction, keys, rlp], stew/[keyed_queue, results], stint export utils_defs {.push raises: [Defect].} const INMEMORY_SIGNATURES* = ##\ ## Default number of recent block signatures to keep in memory 4096 type EcKey* = ##\ ## Internal key used for the LRU cache (derived from Hash256). array[32,byte] EcAddrResult* = ##\ ## Typical `EthAddress` result as returned by `ecRecover()` functions. Result[EthAddress,UtilsError] EcRecover* = object size: uint q: KeyedQueue[EcKey,EthAddress] # ------------------------------------------------------------------------------ # Private helpers # ------------------------------------------------------------------------------ proc vrsSerialised(tx: Transaction): Result[array[65,byte],UtilsError] = ## Parts copied from `transaction.getSignature`. var data: array[65,byte] data[0..31] = tx.R.toByteArrayBE data[32..63] = tx.S.toByteArrayBE if tx.txType != TxLegacy: data[64] = tx.V.byte elif tx.V >= EIP155_CHAIN_ID_OFFSET: data[64] = byte(1 - (tx.V and 1)) elif tx.V == 27 or tx.V == 28: data[64] = byte(tx.V - 27) else: return err((errSigPrefixError,"")) # legacy error ok(data) proc encodePreSealed(header: BlockHeader): seq[byte] = ## Cut sigature off `extraData` header field. if header.extraData.len < EXTRA_SEAL: return rlp.encode(header) var rlpHeader = header rlpHeader.extraData.setLen(header.extraData.len - EXTRA_SEAL) rlp.encode(rlpHeader) proc hashPreSealed(header: BlockHeader): Hash256 = ## Returns the hash of a block prior to it being sealed. keccakHash header.encodePreSealed proc recoverImpl(rawSig: openArray[byte]; msg: Hash256): EcAddrResult = ## Extract account address from the last 65 bytes of the `extraData` argument ## (which is typically the bock header field with the same name.) The second ## argument `hash` is used to extract the intermediate public key. Typically, ## this would be the hash of the block header without the last 65 bytes of ## the `extraData` field reserved for the signature. if rawSig.len < EXTRA_SEAL: return err((errMissingSignature,"")) let sig = Signature.fromRaw( rawSig.toOpenArray(rawSig.len - EXTRA_SEAL, rawSig.high)) if sig.isErr: return err((errSkSigResult,$sig.error)) # Recover the public key from signature and seal hash let pubKey = recover(sig.value, SkMessage(msg.data)) if pubKey.isErr: return err((errSkPubKeyResult,$pubKey.error)) # Convert public key to address. ok(pubKey.value.toCanonicalAddress) # ------------------------------------------------------------------------------ # Public function: straight ecRecover versions # ------------------------------------------------------------------------------ proc ecRecover*(header: BlockHeader): EcAddrResult = ## Extracts account address from the `extraData` field (last 65 bytes) of ## the argument header. header.extraData.recoverImpl(header.hashPreSealed) proc ecRecover*(tx: var Transaction): EcAddrResult = ## Extracts sender address from transaction. This function has similar ## functionality as `transaction.getSender()`. let txSig = tx.vrsSerialised if txSig.isErr: return err(txSig.error) txSig.value.recoverImpl(tx.txHashNoSignature) proc ecRecover*(tx: Transaction): EcAddrResult = ## Variant of `ecRecover()` for call-by-value header. var ty = tx ty.ecRecover # ------------------------------------------------------------------------------ # Public constructor for caching ecRecover version # ------------------------------------------------------------------------------ proc init*(er: var EcRecover; cacheSize = INMEMORY_SIGNATURES; initSize = 10) = ## Inialise recover cache er.size = cacheSize.uint er.q.init(initSize) proc init*(T: type EcRecover; cacheSize = INMEMORY_SIGNATURES; initSize = 10): T = ## Inialise recover cache result.init(cacheSize, initSize) # ------------------------------------------------------------------------------ # Public functions: miscellaneous # ------------------------------------------------------------------------------ proc len*(er: var EcRecover): int = ## Returns the current number of entries in the LRU cache. er.q.len # ------------------------------------------------------------------------------ # Public functions: caching ecRecover version # ------------------------------------------------------------------------------ proc ecRecover*(er: var EcRecover; header: var BlockHeader): EcAddrResult {.gcsafe, raises: [Defect,CatchableError].} = ## Extract account address from `extraData` field (last 65 bytes) of the ## argument header. The result is kept in a LRU cache to re-purposed for ## improved result delivery avoiding calculations. let key = header.blockHash.data block: let rc = er.q.lruFetch(key) if rc.isOk: return ok(rc.value) block: let rc = header.extraData.recoverImpl(header.hashPreSealed) if rc.isOk: return ok(er.q.lruAppend(key, rc.value, er.size.int)) err(rc.error) proc ecRecover*(er: var EcRecover; header: BlockHeader): EcAddrResult {.gcsafe, raises: [Defect,CatchableError].} = ## Variant of `ecRecover()` for call-by-value header var hdr = header er.ecRecover(hdr) proc ecRecover*(er: var EcRecover; hash: Hash256): EcAddrResult {.gcsafe, raises: [Defect,CatchableError].} = ## Variant of `ecRecover()` for hash only. Will only succeed it the ## argument hash is uk the LRU queue. let rc = er.q.lruFetch(hash.data) if rc.isOk: return ok(rc.value) err((errItemNotFound,"")) # ------------------------------------------------------------------------------ # Public RLP mixin functions for caching version # ------------------------------------------------------------------------------ proc append*(rw: var RlpWriter; data: EcRecover) {.raises: [Defect,KeyError].} = ## Generic support for `rlp.encode()` rw.append((data.size,data.q)) proc read*(rlp: var Rlp; Q: type EcRecover): Q {.raises: [Defect,KeyError].} = ## Generic support for `rlp.decode()` for loading the cache from a ## serialised data stream. (result.size, result.q) = rlp.read((type result.size, type result.q)) # ------------------------------------------------------------------------------ # Debugging # ------------------------------------------------------------------------------ iterator keyItemPairs*(er: var EcRecover): (EcKey,EthAddress) {.gcsafe, raises: [Defect,CatchableError].} = var rc = er.q.first while rc.isOk: yield (rc.value.key, rc.value.data) rc = er.q.next(rc.value.key) # ------------------------------------------------------------------------------ # End # ------------------------------------------------------------------------------