nimbus-eth1/fluffy/eth_data/era1.nim

487 lines
15 KiB
Nim

# fluffy
# Copyright (c) 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/[strformat, typetraits],
results,
stew/[endians2, io2, byteutils, arrayops],
stint,
snappy,
eth/common/eth_types_rlp,
beacon_chain/spec/beacon_time,
ssz_serialization,
ncli/e2store,
../network/history/accumulator
from nimcrypto/hash import fromHex
from ../../nimbus/utils/utils import calcTxRoot, calcReceiptRoot
export e2store.readRecord
# Implementation of era1 file format as current described in:
# https://github.com/ethereum/go-ethereum/pull/26621
# era1 := Version | block-tuple* | other-entries* | Accumulator | BlockIndex
# block-tuple := CompressedHeader | CompressedBody | CompressedReceipts | TotalDifficulty
# block-index := starting-number | index | index | index ... | count
# CompressedHeader = { type: 0x03, data: snappyFramed(rlp(header)) }
# CompressedBody = { type: 0x04, data: snappyFramed(rlp(body)) }
# CompressedReceipts = { type: 0x05, data: snappyFramed(rlp(receipts)) }
# TotalDifficulty = { type: 0x06, data: uint256(header.total_difficulty) }
# AccumulatorRoot = { type: 0x07, data: hash_tree_root(List(HeaderRecord, 8192)) }
# BlockIndex = { type: 0x3266, data: block-index }
# Important note:
# Snappy does not give the same compression result as the implementation used
# by go-ethereum for some block headers and block bodies. This means that we
# cannot rely on the secondary verification mechanism that is based on doing the
# sha256sum of the full era1 files.
#
const
# Note: When specification is more official, these could go with the other
# E2S types.
CompressedHeader* = [byte 0x03, 0x00]
CompressedBody* = [byte 0x04, 0x00]
CompressedReceipts* = [byte 0x05, 0x00]
TotalDifficulty* = [byte 0x06, 0x00]
AccumulatorRoot* = [byte 0x07, 0x00]
E2BlockIndex* = [byte 0x66, 0x32]
MaxEra1Size* = 8192
type
BlockIndex* = object
startNumber*: uint64
offsets*: seq[int64] # Absolute positions in file
Era1* = distinct uint64 # Period of 8192 blocks (not an exact time unit)
Era1Group* = object
blockIndex*: BlockIndex
# As stated, not really a time unit but nevertheless, need the borrows
ethTimeUnit Era1
template lenu64(x: untyped): untyped =
uint64(len(x))
# Note: appendIndex, appendRecord and readIndex for BlockIndex are very similar
# to its consensus layer counter parts. The difference lies in the naming of
# slots vs block numbers and there is different behavior for the first era
# (first slot) and the last era (era1 ends at merge block).
proc appendIndex*(
f: IoHandle, startNumber: uint64, offsets: openArray[int64]
): Result[int64, string] =
let
len = offsets.len() * sizeof(int64) + 16
pos = ?f.appendHeader(E2BlockIndex, len)
?f.append(startNumber.uint64.toBytesLE())
for v in offsets:
?f.append(cast[uint64](v - pos).toBytesLE())
?f.append(offsets.lenu64().toBytesLE())
ok(pos)
proc appendRecord(f: IoHandle, index: BlockIndex): Result[int64, string] =
f.appendIndex(index.startNumber, index.offsets)
proc readBlockIndex*(f: IoHandle): Result[BlockIndex, string] =
let
startPos = ?f.getFilePos().mapErr(toString)
fileSize = ?f.getFileSize().mapErr(toString)
header = ?f.readHeader()
if header.typ != E2BlockIndex:
return err("not an index")
if header.len < 16:
return err("index entry too small")
if header.len mod 8 != 0:
return err("index length invalid")
var buf: array[8, byte]
?f.readFileExact(buf)
let
blockNumber = uint64.fromBytesLE(buf)
count = header.len div 8 - 2
var offsets = newSeqUninitialized[int64](count)
for i in 0 ..< count:
?f.readFileExact(buf)
let
offset = uint64.fromBytesLE(buf)
absolute =
if offset == 0:
0'i64
else:
# Wrapping math is actually convenient here
cast[int64](cast[uint64](startPos) + offset)
if absolute < 0 or absolute > fileSize:
return err("Invalid offset")
offsets[i] = absolute
?f.readFileExact(buf)
if uint64(count) != uint64.fromBytesLE(buf):
return err("invalid count")
# technically not an error, but we'll throw this sanity check in here..
if blockNumber > int32.high().uint64:
return err("fishy block number")
ok(BlockIndex(startNumber: blockNumber, offsets: offsets))
proc skipRecord*(f: IoHandle): Result[void, string] =
let header = ?readHeader(f)
if header.len > 0:
?f.setFilePos(header.len, SeekPosition.SeekCurrent).mapErr(ioErrorMsg)
ok()
func startNumber*(era: Era1): uint64 =
era * MaxEra1Size
func endNumber*(era: Era1): uint64 =
if (era + 1) * MaxEra1Size - 1'u64 >= mergeBlockNumber:
# The incomplete era just before the merge
mergeBlockNumber - 1'u64
else:
(era + 1) * MaxEra1Size - 1'u64
func endNumber*(blockIdx: BlockIndex): uint64 =
blockIdx.startNumber + blockIdx.offsets.lenu64() - 1
func era*(blockNumber: uint64): Era1 =
Era1(blockNumber div MaxEra1Size)
func offsetsLen(startNumber: uint64): int =
# For the era where the merge happens the era files only holds the blocks
# until the merge block so the offsets length needs to be adapted too.
if startNumber.era() >= mergeBlockNumber.era():
int((mergeBlockNumber) mod MaxEra1Size)
else:
MaxEra1Size
proc toCompressedRlpBytes(item: auto): seq[byte] =
snappy.encodeFramed(rlp.encode(item))
proc fromCompressedRlpBytes(bytes: openArray[byte], T: type): Result[T, string] =
try:
ok(rlp.decode(decodeFramed(bytes, checkIntegrity = false), T))
except RlpError as e:
err("Invalid Compressed RLP data" & e.msg)
proc init*(T: type Era1Group, f: IoHandle, startNumber: uint64): Result[T, string] =
discard ?f.appendHeader(E2Version, 0)
ok(
Era1Group(
blockIndex: BlockIndex(
startNumber: startNumber, offsets: newSeq[int64](startNumber.offsetsLen())
)
)
)
proc update*(
g: var Era1Group,
f: IoHandle,
blockNumber: uint64,
header, body, receipts, totalDifficulty: openArray[byte],
): Result[void, string] =
doAssert blockNumber >= g.blockIndex.startNumber
g.blockIndex.offsets[int(blockNumber - g.blockIndex.startNumber)] =
?f.appendRecord(CompressedHeader, header)
discard ?f.appendRecord(CompressedBody, body)
discard ?f.appendRecord(CompressedReceipts, receipts)
discard ?f.appendRecord(TotalDifficulty, totalDifficulty)
ok()
proc update*(
g: var Era1Group,
f: IoHandle,
blockNumber: uint64,
header: BlockHeader,
body: BlockBody,
receipts: seq[Receipt],
totalDifficulty: UInt256,
): Result[void, string] =
g.update(
f,
blockNumber,
toCompressedRlpBytes(header),
toCompressedRlpBytes(body),
toCompressedRlpBytes(receipts),
totalDifficulty.toBytesLE(),
)
proc finish*(
g: var Era1Group, f: IoHandle, accumulatorRoot: Digest, lastBlockNumber: uint64
): Result[void, string] =
let accumulatorRootPos = ?f.appendRecord(AccumulatorRoot, accumulatorRoot.data)
if lastBlockNumber > 0:
discard ?f.appendRecord(g.blockIndex)
# TODO:
# This is not something added in current specification of era1.
# But perhaps we want to be able to quickly jump to acummulator root.
# discard ? f.appendIndex(lastBlockNumber, [accumulatorRootPos])
discard accumulatorRootPos
ok()
func shortLog*(x: Digest): string =
x.data.toOpenArray(0, 3).toHex()
func era1FileName*(network: string, era: Era1, eraRoot: Digest): string =
try:
&"{network}-{era.uint64:05}-{shortLog(eraRoot)}.era1"
except ValueError as exc:
raiseAssert exc.msg
# Helpers to directly read objects from era1 files
# TODO: Might want to var parameters to avoid copying as is done for era files.
type
Era1File* = ref object
handle: Opt[IoHandle]
blockIdx*: BlockIndex
BlockTuple* =
tuple[header: BlockHeader, body: BlockBody, receipts: seq[Receipt], td: UInt256]
proc open*(_: type Era1File, name: string): Result[Era1File, string] =
var f = Opt[IoHandle].ok(?openFile(name, {OpenFlags.Read}).mapErr(ioErrorMsg))
defer:
if f.isSome():
discard closeFile(f[])
# Indices can be found at the end of each era file - we only support
# single-era files for now
?f[].setFilePos(0, SeekPosition.SeekEnd).mapErr(ioErrorMsg)
# Last in the file is the block index
let blockIdxPos = ?f[].findIndexStartOffset()
?f[].setFilePos(blockIdxPos, SeekPosition.SeekCurrent).mapErr(ioErrorMsg)
let blockIdx = ?f[].readBlockIndex()
if blockIdx.offsets.len() != blockIdx.startNumber.offsetsLen():
return err("Block index length invalid")
let res = Era1File(handle: f, blockIdx: blockIdx)
reset(f)
ok res
proc close*(f: Era1File) =
if f.handle.isSome():
discard closeFile(f.handle.get())
reset(f.handle)
proc skipRecord*(f: Era1File): Result[void, string] =
doAssert f[].handle.isSome()
f[].handle.get().skipRecord()
proc getBlockHeader(f: Era1File): Result[BlockHeader, string] =
var bytes: seq[byte]
let header = ?f[].handle.get().readRecord(bytes)
if header.typ != CompressedHeader:
return err("Invalid era file: didn't find block header at index position")
fromCompressedRlpBytes(bytes, BlockHeader)
proc getBlockBody(f: Era1File): Result[BlockBody, string] =
var bytes: seq[byte]
let header = ?f[].handle.get().readRecord(bytes)
if header.typ != CompressedBody:
return err("Invalid era file: didn't find block body at index position")
fromCompressedRlpBytes(bytes, BlockBody)
proc getReceipts(f: Era1File): Result[seq[Receipt], string] =
var bytes: seq[byte]
let header = ?f[].handle.get().readRecord(bytes)
if header.typ != CompressedReceipts:
return err("Invalid era file: didn't find receipts at index position")
fromCompressedRlpBytes(bytes, seq[Receipt])
proc getTotalDifficulty(f: Era1File): Result[UInt256, string] =
var bytes: seq[byte]
let header = ?f[].handle.get().readRecord(bytes)
if header.typ != TotalDifficulty:
return err("Invalid era file: didn't find total difficulty at index position")
if bytes.len != 32:
return err("Invalid total difficulty length")
ok(UInt256.fromBytesLE(bytes))
proc getNextBlockTuple*(f: Era1File): Result[BlockTuple, string] =
doAssert not isNil(f) and f[].handle.isSome
let
blockHeader = ?getBlockHeader(f)
blockBody = ?getBlockBody(f)
receipts = ?getReceipts(f)
totalDifficulty = ?getTotalDifficulty(f)
ok((blockHeader, blockBody, receipts, totalDifficulty))
proc getBlockTuple*(f: Era1File, blockNumber: uint64): Result[BlockTuple, string] =
doAssert not isNil(f) and f[].handle.isSome
doAssert(
blockNumber >= f[].blockIdx.startNumber and blockNumber <= f[].blockIdx.endNumber,
"Wrong era1 file for selected block number",
)
let pos = f[].blockIdx.offsets[blockNumber - f[].blockIdx.startNumber]
?f[].handle.get().setFilePos(pos, SeekPosition.SeekBegin).mapErr(ioErrorMsg)
getNextBlockTuple(f)
proc getBlockHeader*(f: Era1File, blockNumber: uint64): Result[BlockHeader, string] =
doAssert not isNil(f) and f[].handle.isSome
doAssert(
blockNumber >= f[].blockIdx.startNumber and blockNumber <= f[].blockIdx.endNumber,
"Wrong era1 file for selected block number",
)
let pos = f[].blockIdx.offsets[blockNumber - f[].blockIdx.startNumber]
?f[].handle.get().setFilePos(pos, SeekPosition.SeekBegin).mapErr(ioErrorMsg)
getBlockHeader(f)
proc getTotalDifficulty*(f: Era1File, blockNumber: uint64): Result[UInt256, string] =
doAssert not isNil(f) and f[].handle.isSome
doAssert(
blockNumber >= f[].blockIdx.startNumber and blockNumber <= f[].blockIdx.endNumber,
"Wrong era1 file for selected block number",
)
let pos = f[].blockIdx.offsets[blockNumber - f[].blockIdx.startNumber]
?f[].handle.get().setFilePos(pos, SeekPosition.SeekBegin).mapErr(ioErrorMsg)
?skipRecord(f) # BlockHeader
?skipRecord(f) # BlockBody
?skipRecord(f) # Receipts
getTotalDifficulty(f)
# TODO: Should we add this perhaps in the Era1File object and grab it in open()?
proc getAccumulatorRoot*(f: Era1File): Result[Digest, string] =
# Get position of BlockIndex
?f[].handle.get().setFilePos(0, SeekPosition.SeekEnd).mapErr(ioErrorMsg)
let blockIdxPos = ?f[].handle.get().findIndexStartOffset()
# Accumulator root is 40 bytes before the BlockIndex
let accumulatorRootPos = blockIdxPos - 40 # 8 + 32
?f[].handle.get().setFilePos(accumulatorRootPos, SeekPosition.SeekCurrent).mapErr(
ioErrorMsg
)
var bytes: seq[byte]
let header = ?f[].handle.get().readRecord(bytes)
if header.typ != AccumulatorRoot:
return err("Invalid era file: didn't find accumulator root at index position")
if bytes.len != 32:
return err("invalid accumulator root")
ok(Digest(data: array[32, byte].initCopyFrom(bytes)))
proc buildAccumulator*(f: Era1File): Result[EpochAccumulatorCached, string] =
let
startNumber = f.blockIdx.startNumber
endNumber = f.blockIdx.endNumber()
var headerRecords: seq[HeaderRecord]
for blockNumber in startNumber .. endNumber:
let
blockHeader = ?f.getBlockHeader(blockNumber)
totalDifficulty = ?f.getTotalDifficulty(blockNumber)
headerRecords.add(
HeaderRecord(blockHash: blockHeader.blockHash(), totalDifficulty: totalDifficulty)
)
ok(EpochAccumulatorCached.init(@headerRecords))
proc verify*(f: Era1File): Result[Digest, string] =
let
startNumber = f.blockIdx.startNumber
endNumber = f.blockIdx.endNumber()
var headerRecords: seq[HeaderRecord]
for blockNumber in startNumber .. endNumber:
let
(blockHeader, blockBody, receipts, totalDifficulty) =
?f.getBlockTuple(blockNumber)
txRoot = calcTxRoot(blockBody.transactions)
ommershHash = keccakHash(rlp.encode(blockBody.uncles))
if blockHeader.txRoot != txRoot:
return err("Invalid transactions root")
if blockHeader.ommersHash != ommershHash:
return err("Invalid ommers hash")
if blockHeader.receiptRoot != calcReceiptRoot(receipts):
return err("Invalid receipts root")
headerRecords.add(
HeaderRecord(blockHash: blockHeader.blockHash(), totalDifficulty: totalDifficulty)
)
let expectedRoot = ?f.getAccumulatorRoot()
let accumulatorRoot = getEpochAccumulatorRoot(headerRecords)
if accumulatorRoot != expectedRoot:
err("Invalid accumulator root")
else:
ok(accumulatorRoot)
iterator era1BlockHeaders*(f: Era1File): BlockHeader =
let
startNumber = f.blockIdx.startNumber
endNumber = f.blockIdx.endNumber()
for blockNumber in startNumber .. endNumber:
let header = f.getBlockHeader(blockNumber).valueOr:
raiseAssert("Failed to read block header")
yield header
iterator era1BlockTuples*(f: Era1File): BlockTuple =
let
startNumber = f.blockIdx.startNumber
endNumber = f.blockIdx.endNumber()
for blockNumber in startNumber .. endNumber:
let blockTuple = f.getBlockTuple(blockNumber).valueOr:
raiseAssert("Failed to read block header")
yield blockTuple