# beacon_chain # Copyright (c) 2018-2022 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. # Serenity hash function / digest # # https://github.com/ethereum/consensus-specs/blob/v1.2.0-rc.1/specs/phase0/beacon-chain.md#hash # # In Phase 0 the beacon chain is deployed with SHA256 (SHA2-256). # Note that is is different from Keccak256 (often mistakenly called SHA3-256) # and SHA3-256. # # In Eth1.0, the default hash function is Keccak256 and SHA256 is available as a precompiled contract. # # In our code base, to enable a smooth transition # (already did Blake2b --> Keccak256 --> SHA2-256), # we call this function `eth2digest`, and it outputs a `Eth2Digest`. Easy to sed :) {.push raises: [Defect].} import # Standard library std/hashes, # Status libraries chronicles, nimcrypto/[sha2, hash], stew/[byteutils, endians2, objects], json_serialization export # Exports from sha2 / hash are explicit to avoid exporting upper-case `$` and # constant-time `==` hash.fromHex, json_serialization type Eth2Digest* = MDigest[32 * 8] ## `hash32` from spec const PREFER_BLST_SHA256* {.booldefine.} = true when PREFER_BLST_SHA256: import blscurve when BLS_BACKEND == BLST: const USE_BLST_SHA256 = true else: const USE_BLST_SHA256 = false else: const USE_BLST_SHA256 = false when USE_BLST_SHA256: export blscurve.update type Eth2DigestCtx* = BLST_SHA256_CTX else: export sha2.update type Eth2DigestCtx* = sha2.sha256 func `$`*(x: Eth2Digest): string = x.data.toHex() func shortLog*(x: Eth2Digest): string = x.data.toOpenArray(0, 3).toHex() chronicles.formatIt Eth2Digest: shortLog(it) # TODO: expose an in-place digest function # when hashing in loop or into a buffer # See: https://github.com/cheatfate/nimcrypto/blob/b90ba3abd/nimcrypto/sha2.nim#L570 func eth2digest*(v: openArray[byte]): Eth2Digest {.noinit.} = ## Apply the Eth2 Hash function ## Do NOT use for secret data. when USE_BLST_SHA256: # BLST has a fast assembly optimized SHA256 result.data.bls_sha256_digest(v) else: # We use the init-update-finish interface to avoid # the expensive burning/clearing memory (20~30% perf) var ctx {.noinit.}: Eth2DigestCtx ctx.init() ctx.update(v) ctx.finish() template withEth2Hash*(body: untyped): Eth2Digest = ## This little helper will init the hash function and return the sliced ## hash: ## let hashOfData = withHash: h.update(data) when nimvm: # In SSZ, computeZeroHashes require compile-time SHA256 block: var h {.inject.}: sha256 init(h) body finish(h) else: when USE_BLST_SHA256: block: var h {.inject, noinit.}: Eth2DigestCtx init(h) body var res {.noinit.}: Eth2Digest finalize(res.data, h) res else: block: var h {.inject, noinit.}: Eth2DigestCtx init(h) body finish(h) template hash*(x: Eth2Digest): Hash = ## Hash for digests for Nim hash tables # digests are already good hashes cast[ptr Hash](unsafeAddr x.data[0])[] func `==`*(a, b: Eth2Digest): bool = when nimvm: a.data == b.data else: # nimcrypto uses a constant-time comparison for all MDigest types which for # Eth2Digest is unnecessary - the type should never hold a secret! equalMem(unsafeAddr a.data[0], unsafeAddr b.data[0], sizeof(a.data)) func isZero*(x: Eth2Digest): bool = x.isZeroMemory proc writeValue*(w: var JsonWriter, a: Eth2Digest) {.raises: [Defect, IOError, SerializationError].} = w.writeValue $a proc readValue*(r: var JsonReader, a: var Eth2Digest) {.raises: [Defect, IOError, SerializationError].} = try: a = fromHex(type(a), r.readValue(string)) except ValueError: raiseUnexpectedValue(r, "Hex string expected") func toGaugeValue*(hash: Eth2Digest): int64 = # Only the last 8 bytes are taken into consideration in accordance # to the ETH2 metrics spec: # https://github.com/ethereum/beacon-metrics/blob/6a79914cb31f7d54858c7dd57eee75b6162ec737/metrics.md#interop-metrics cast[int64](uint64.fromBytesLE(hash.data.toOpenArray(24, 31)))