693 lines
22 KiB
Nim
693 lines
22 KiB
Nim
# beacon_chain
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# Copyright (c) 2018-2021 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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# This module contains the parts necessary to create a merkle hash from the core
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# SSZ types outlined in the spec:
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# https://github.com/ethereum/eth2.0-specs/blob/v1.0.1/ssz/simple-serialize.md#merkleization
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{.push raises: [Defect].}
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import
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stew/[bitops2, endians2, ptrops],
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stew/ranges/ptr_arith,
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serialization/testing/tracing,
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../spec/digest,
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./bitseqs, ./spec_types, ./types
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export
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spec_types, types
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when hasSerializationTracing:
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import stew/byteutils, typetraits
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const
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zero64 = default array[64, byte]
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bitsPerChunk = bytesPerChunk * 8
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func binaryTreeHeight*(totalElements: Limit): int =
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bitWidth nextPow2(uint64 totalElements)
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type
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SszMerkleizerImpl = object
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combinedChunks: ptr UncheckedArray[Eth2Digest]
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totalChunks: uint64
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topIndex: int
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SszMerkleizer*[limit: static[Limit]] = object
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combinedChunks: ref array[binaryTreeHeight limit, Eth2Digest]
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impl: SszMerkleizerImpl
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template chunks*(m: SszMerkleizerImpl): openArray[Eth2Digest] =
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m.combinedChunks.toOpenArray(0, m.topIndex)
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template getChunkCount*(m: SszMerkleizer): uint64 =
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m.impl.totalChunks
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template getCombinedChunks*(m: SszMerkleizer): openArray[Eth2Digest] =
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toOpenArray(m.impl.combinedChunks, 0, m.impl.topIndex)
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func digest(a, b: openArray[byte]): Eth2Digest =
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result = withEth2Hash:
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trs "DIGESTING ARRAYS ", toHex(a), " ", toHex(b)
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trs toHex(a)
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trs toHex(b)
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h.update a
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h.update b
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trs "HASH RESULT ", result
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func digest(a, b, c: openArray[byte]): Eth2Digest =
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result = withEth2Hash:
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trs "DIGESTING ARRAYS ", toHex(a), " ", toHex(b), " ", toHex(c)
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h.update a
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h.update b
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h.update c
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trs "HASH RESULT ", result
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func mergeBranches(existing: Eth2Digest, newData: openArray[byte]): Eth2Digest =
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trs "MERGING BRANCHES OPEN ARRAY"
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let paddingBytes = bytesPerChunk - newData.len
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digest(existing.data, newData, zero64.toOpenArray(0, paddingBytes - 1))
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template mergeBranches(existing: Eth2Digest, newData: array[32, byte]): Eth2Digest =
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trs "MERGING BRANCHES ARRAY"
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digest(existing.data, newData)
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template mergeBranches(a, b: Eth2Digest): Eth2Digest =
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trs "MERGING BRANCHES DIGEST"
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digest(a.data, b.data)
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func computeZeroHashes: array[sizeof(Limit) * 8, Eth2Digest] =
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result[0] = Eth2Digest()
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for i in 1 .. result.high:
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result[i] = mergeBranches(result[i - 1], result[i - 1])
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const zeroHashes* = computeZeroHashes()
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func addChunk*(merkleizer: var SszMerkleizerImpl, data: openArray[byte]) =
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doAssert data.len > 0 and data.len <= bytesPerChunk
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if getBitLE(merkleizer.totalChunks, 0):
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var hash = mergeBranches(merkleizer.combinedChunks[0], data)
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for i in 1 .. merkleizer.topIndex:
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trs "ITERATING"
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if getBitLE(merkleizer.totalChunks, i):
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trs "CALLING MERGE BRANCHES"
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hash = mergeBranches(merkleizer.combinedChunks[i], hash)
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else:
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trs "WRITING FRESH CHUNK AT ", i, " = ", hash
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merkleizer.combinedChunks[i] = hash
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break
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else:
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let paddingBytes = bytesPerChunk - data.len
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merkleizer.combinedChunks[0].data[0..<data.len] = data
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merkleizer.combinedChunks[0].data[data.len..<bytesPerChunk] =
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zero64.toOpenArray(0, paddingBytes - 1)
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trs "WROTE BASE CHUNK ",
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toHex(merkleizer.combinedChunks[0].data), " ", data.len
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inc merkleizer.totalChunks
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template isOdd(x: SomeNumber): bool =
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(x and 1) != 0
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func addChunkAndGenMerkleProof*(merkleizer: var SszMerkleizerImpl,
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hash: Eth2Digest,
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outProof: var openArray[Eth2Digest]) =
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var
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hashWrittenToMerkleizer = false
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hash = hash
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doAssert merkleizer.topIndex < outProof.len
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for level in 0 .. merkleizer.topIndex:
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if getBitLE(merkleizer.totalChunks, level):
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outProof[level] = merkleizer.combinedChunks[level]
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hash = mergeBranches(merkleizer.combinedChunks[level], hash)
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else:
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if not hashWrittenToMerkleizer:
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merkleizer.combinedChunks[level] = hash
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hashWrittenToMerkleizer = true
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outProof[level] = zeroHashes[level]
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hash = mergeBranches(hash, zeroHashes[level])
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merkleizer.totalChunks += 1
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func completeStartedChunk(merkleizer: var SszMerkleizerImpl,
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hash: Eth2Digest, atLevel: int) =
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when false:
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let
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insertedChunksCount = 1'u64 shl (atLevel - 1)
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chunksStateMask = (insertedChunksCount shl 1) - 1
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doAssert (merkleizer.totalChunks and chunksStateMask) == insertedChunksCount
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var hash = hash
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for i in atLevel .. merkleizer.topIndex:
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if getBitLE(merkleizer.totalChunks, i):
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hash = mergeBranches(merkleizer.combinedChunks[i], hash)
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else:
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merkleizer.combinedChunks[i] = hash
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break
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func addChunksAndGenMerkleProofs*(merkleizer: var SszMerkleizerImpl,
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chunks: openArray[Eth2Digest]): seq[Eth2Digest] =
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doAssert chunks.len > 0 and merkleizer.topIndex > 0
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let proofHeight = merkleizer.topIndex + 1
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result = newSeq[Eth2Digest](chunks.len * proofHeight)
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if chunks.len == 1:
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merkleizer.addChunkAndGenMerkleProof(chunks[0], result)
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return
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let newTotalChunks = merkleizer.totalChunks + chunks.len.uint64
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var
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# A perfect binary tree will take either `chunks.len * 2` values if the
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# number of elements in the base layer is odd and `chunks.len * 2 - 1`
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# otherwise. Each row may also need a single extra element at most if
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# it must be combined with the existing values in the Merkleizer:
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merkleTree = newSeqOfCap[Eth2Digest](chunks.len + merkleizer.topIndex)
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inRowIdx = merkleizer.totalChunks
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postUpdateInRowIdx = newTotalChunks
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zeroMixed = false
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template writeResult(chunkIdx, level: int, chunk: Eth2Digest) =
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result[chunkIdx * proofHeight + level] = chunk
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# We'll start by generating the first row of the merkle tree.
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var currPairEnd = if inRowIdx.isOdd:
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# an odd chunk number means that we must combine the
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# hash with the existing pending sibling hash in the
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# merkleizer.
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writeResult(0, 0, merkleizer.combinedChunks[0])
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merkleTree.add mergeBranches(merkleizer.combinedChunks[0], chunks[0])
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# TODO: can we immediately write this out?
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merkleizer.completeStartedChunk(merkleTree[^1], 1)
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2
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else:
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1
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if postUpdateInRowIdx.isOdd:
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merkleizer.combinedChunks[0] = chunks[^1]
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while currPairEnd < chunks.len:
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writeResult(currPairEnd - 1, 0, chunks[currPairEnd])
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writeResult(currPairEnd, 0, chunks[currPairEnd - 1])
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merkleTree.add mergeBranches(chunks[currPairEnd - 1],
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chunks[currPairEnd])
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currPairEnd += 2
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if currPairEnd - 1 < chunks.len:
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zeroMixed = true
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writeResult(currPairEnd - 1, 0, zeroHashes[0])
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merkleTree.add mergeBranches(chunks[currPairEnd - 1],
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zeroHashes[0])
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var
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level = 0
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baseChunksPerElement = 1
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treeRowStart = 0
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rowLen = merkleTree.len
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template writeProofs(rowChunkIdx: int, hash: Eth2Digest) =
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let
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startAbsIdx = (inRowIdx.int + rowChunkIdx) * baseChunksPerElement
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endAbsIdx = startAbsIdx + baseChunksPerElement
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startResIdx = max(startAbsIdx - merkleizer.totalChunks.int, 0)
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endResIdx = min(endAbsIdx - merkleizer.totalChunks.int, chunks.len)
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for resultPos in startResIdx ..< endResIdx:
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writeResult(resultPos, level, hash)
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if rowLen > 1:
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while level < merkleizer.topIndex:
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inc level
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baseChunksPerElement *= 2
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inRowIdx = inRowIdx div 2
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postUpdateInRowIdx = postUpdateInRowIdx div 2
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var currPairEnd = if inRowIdx.isOdd:
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# an odd chunk number means that we must combine the
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# hash with the existing pending sibling hash in the
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# merkleizer.
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writeProofs(0, merkleizer.combinedChunks[level])
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merkleTree.add mergeBranches(merkleizer.combinedChunks[level],
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merkleTree[treeRowStart])
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# TODO: can we immediately write this out?
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merkleizer.completeStartedChunk(merkleTree[^1], level + 1)
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2
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else:
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1
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if postUpdateInRowIdx.isOdd:
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merkleizer.combinedChunks[level] = merkleTree[treeRowStart + rowLen -
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ord(zeroMixed) - 1]
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while currPairEnd < rowLen:
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writeProofs(currPairEnd - 1, merkleTree[treeRowStart + currPairEnd])
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writeProofs(currPairEnd, merkleTree[treeRowStart + currPairEnd - 1])
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merkleTree.add mergeBranches(merkleTree[treeRowStart + currPairEnd - 1],
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merkleTree[treeRowStart + currPairEnd])
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currPairEnd += 2
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if currPairEnd - 1 < rowLen:
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zeroMixed = true
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writeProofs(currPairEnd - 1, zeroHashes[level])
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merkleTree.add mergeBranches(merkleTree[treeRowStart + currPairEnd - 1],
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zeroHashes[level])
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treeRowStart += rowLen
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rowLen = merkleTree.len - treeRowStart
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if rowLen == 1:
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break
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doAssert rowLen == 1
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if (inRowIdx and 2) != 0:
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merkleizer.completeStartedChunk(
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mergeBranches(merkleizer.combinedChunks[level + 1], merkleTree[^1]),
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level + 2)
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if (not zeroMixed) and (postUpdateInRowIdx and 2) != 0:
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merkleizer.combinedChunks[level + 1] = merkleTree[^1]
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while level < merkleizer.topIndex:
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inc level
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baseChunksPerElement *= 2
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inRowIdx = inRowIdx div 2
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let hash = if getBitLE(merkleizer.totalChunks, level):
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merkleizer.combinedChunks[level]
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else:
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zeroHashes[level]
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writeProofs(0, hash)
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merkleizer.totalChunks = newTotalChunks
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proc init*(S: type SszMerkleizer): S =
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new result.combinedChunks
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result.impl = SszMerkleizerImpl(
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combinedChunks: cast[ptr UncheckedArray[Eth2Digest]](
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addr result.combinedChunks[][0]),
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topIndex: binaryTreeHeight(result.limit) - 1,
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totalChunks: 0)
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proc init*(S: type SszMerkleizer,
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combinedChunks: openArray[Eth2Digest],
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totalChunks: uint64): S =
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new result.combinedChunks
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result.combinedChunks[][0 ..< combinedChunks.len] = combinedChunks
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result.impl = SszMerkleizerImpl(
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combinedChunks: cast[ptr UncheckedArray[Eth2Digest]](
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addr result.combinedChunks[][0]),
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topIndex: binaryTreeHeight(result.limit) - 1,
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totalChunks: totalChunks)
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proc copy*[L: static[Limit]](cloned: SszMerkleizer[L]): SszMerkleizer[L] =
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new result.combinedChunks
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result.combinedChunks[] = cloned.combinedChunks[]
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result.impl = SszMerkleizerImpl(
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combinedChunks: cast[ptr UncheckedArray[Eth2Digest]](
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addr result.combinedChunks[][0]),
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topIndex: binaryTreeHeight(L) - 1,
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totalChunks: cloned.totalChunks)
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template addChunksAndGenMerkleProofs*(
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merkleizer: var SszMerkleizer,
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chunks: openArray[Eth2Digest]): seq[Eth2Digest] =
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addChunksAndGenMerkleProofs(merkleizer.impl, chunks)
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template addChunk*(merkleizer: var SszMerkleizer, data: openArray[byte]) =
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addChunk(merkleizer.impl, data)
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template totalChunks*(merkleizer: SszMerkleizer): uint64 =
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merkleizer.impl.totalChunks
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template getFinalHash*(merkleizer: SszMerkleizer): Eth2Digest =
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merkleizer.impl.getFinalHash
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template createMerkleizer*(totalElements: static Limit): SszMerkleizerImpl =
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trs "CREATING A MERKLEIZER FOR ", totalElements
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const treeHeight = binaryTreeHeight totalElements
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var combinedChunks {.noInit.}: array[treeHeight, Eth2Digest]
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SszMerkleizerImpl(
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combinedChunks: cast[ptr UncheckedArray[Eth2Digest]](addr combinedChunks),
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topIndex: treeHeight - 1,
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totalChunks: 0)
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func getFinalHash*(merkleizer: SszMerkleizerImpl): Eth2Digest =
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if merkleizer.totalChunks == 0:
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return zeroHashes[merkleizer.topIndex]
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let
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bottomHashIdx = firstOne(merkleizer.totalChunks) - 1
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submittedChunksHeight = bitWidth(merkleizer.totalChunks - 1)
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topHashIdx = merkleizer.topIndex
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trs "BOTTOM HASH ", bottomHashIdx
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trs "SUBMITTED HEIGHT ", submittedChunksHeight
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trs "TOP HASH IDX ", topHashIdx
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if bottomHashIdx != submittedChunksHeight:
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# Our tree is not finished. We must complete the work in progress
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# branches and then extend the tree to the right height.
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result = mergeBranches(merkleizer.combinedChunks[bottomHashIdx],
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zeroHashes[bottomHashIdx])
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for i in bottomHashIdx + 1 ..< topHashIdx:
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if getBitLE(merkleizer.totalChunks, i):
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result = mergeBranches(merkleizer.combinedChunks[i], result)
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trs "COMBINED"
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else:
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result = mergeBranches(result, zeroHashes[i])
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trs "COMBINED WITH ZERO"
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elif bottomHashIdx == topHashIdx:
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# We have a perfect tree (chunks == 2**n) at just the right height!
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result = merkleizer.combinedChunks[bottomHashIdx]
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else:
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# We have a perfect tree of user chunks, but we have more work to
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# do - we must extend it to reach the desired height
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result = mergeBranches(merkleizer.combinedChunks[bottomHashIdx],
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zeroHashes[bottomHashIdx])
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for i in bottomHashIdx + 1 ..< topHashIdx:
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result = mergeBranches(result, zeroHashes[i])
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func mixInLength*(root: Eth2Digest, length: int): Eth2Digest =
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var dataLen: array[32, byte]
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dataLen[0..<8] = uint64(length).toBytesLE()
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mergeBranches(root, dataLen)
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func hash_tree_root*(x: auto): Eth2Digest {.gcsafe, raises: [Defect].}
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template merkleizeFields(totalElements: static Limit, body: untyped): Eth2Digest =
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var merkleizer {.inject.} = createMerkleizer(totalElements)
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template addField(field) =
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let hash = hash_tree_root(field)
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trs "MERKLEIZING FIELD ", astToStr(field), " = ", hash
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addChunk(merkleizer, hash.data)
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trs "CHUNK ADDED"
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body
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getFinalHash(merkleizer)
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template writeBytesLE(chunk: var array[bytesPerChunk, byte], atParam: int,
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val: SomeUnsignedInt) =
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let at = atParam
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chunk[at ..< at + sizeof(val)] = toBytesLE(val)
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func chunkedHashTreeRootForBasicTypes[T](merkleizer: var SszMerkleizerImpl,
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arr: openArray[T]): Eth2Digest =
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static:
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doAssert T is BasicType
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if arr.len == 0:
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return getFinalHash(merkleizer)
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when T is byte:
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var
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remainingBytes = arr.len
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pos = cast[ptr byte](unsafeAddr arr[0])
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while remainingBytes >= bytesPerChunk:
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merkleizer.addChunk(makeOpenArray(pos, bytesPerChunk))
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pos = offset(pos, bytesPerChunk)
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remainingBytes -= bytesPerChunk
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if remainingBytes > 0:
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merkleizer.addChunk(makeOpenArray(pos, remainingBytes))
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elif T is bool or cpuEndian == littleEndian:
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let
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baseAddr = cast[ptr byte](unsafeAddr arr[0])
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len = arr.len * sizeof(T)
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return chunkedHashTreeRootForBasicTypes(merkleizer, makeOpenArray(baseAddr, len))
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else:
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static:
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doAssert T is UintN
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doAssert bytesPerChunk mod sizeof(Т) == 0
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const valuesPerChunk = bytesPerChunk div sizeof(Т)
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var writtenValues = 0
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var chunk: array[bytesPerChunk, byte]
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while writtenValues < arr.len - valuesPerChunk:
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for i in 0 ..< valuesPerChunk:
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chunk.writeBytesLE(i * sizeof(T), arr[writtenValues + i])
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merkleizer.addChunk chunk
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inc writtenValues, valuesPerChunk
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let remainingValues = arr.len - writtenValues
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if remainingValues > 0:
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var lastChunk: array[bytesPerChunk, byte]
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for i in 0 ..< remainingValues:
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chunk.writeBytesLE(i * sizeof(T), arr[writtenValues + i])
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merkleizer.addChunk lastChunk
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getFinalHash(merkleizer)
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func bitListHashTreeRoot(merkleizer: var SszMerkleizerImpl, x: BitSeq): Eth2Digest =
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# TODO: Switch to a simpler BitList representation and
|
||
# replace this with `chunkedHashTreeRoot`
|
||
var
|
||
totalBytes = bytes(x).len
|
||
lastCorrectedByte = bytes(x)[^1]
|
||
|
||
if lastCorrectedByte == byte(1):
|
||
if totalBytes == 1:
|
||
# This is an empty bit list.
|
||
# It should be hashed as a tree containing all zeros:
|
||
return mergeBranches(zeroHashes[merkleizer.topIndex],
|
||
zeroHashes[0]) # this is the mixed length
|
||
|
||
totalBytes -= 1
|
||
lastCorrectedByte = bytes(x)[^2]
|
||
else:
|
||
let markerPos = log2trunc(lastCorrectedByte)
|
||
lastCorrectedByte.clearBit(markerPos)
|
||
|
||
var
|
||
bytesInLastChunk = totalBytes mod bytesPerChunk
|
||
fullChunks = totalBytes div bytesPerChunk
|
||
|
||
if bytesInLastChunk == 0:
|
||
fullChunks -= 1
|
||
bytesInLastChunk = 32
|
||
|
||
for i in 0 ..< fullChunks:
|
||
let
|
||
chunkStartPos = i * bytesPerChunk
|
||
chunkEndPos = chunkStartPos + bytesPerChunk - 1
|
||
|
||
merkleizer.addChunk bytes(x).toOpenArray(chunkStartPos, chunkEndPos)
|
||
|
||
var
|
||
lastChunk: array[bytesPerChunk, byte]
|
||
chunkStartPos = fullChunks * bytesPerChunk
|
||
|
||
for i in 0 .. bytesInLastChunk - 2:
|
||
lastChunk[i] = bytes(x)[chunkStartPos + i]
|
||
|
||
lastChunk[bytesInLastChunk - 1] = lastCorrectedByte
|
||
|
||
merkleizer.addChunk lastChunk.toOpenArray(0, bytesInLastChunk - 1)
|
||
let contentsHash = merkleizer.getFinalHash
|
||
mixInLength contentsHash, x.len
|
||
|
||
func maxChunksCount(T: type, maxLen: Limit): Limit =
|
||
when T is BitList|BitArray:
|
||
(maxLen + bitsPerChunk - 1) div bitsPerChunk
|
||
elif T is array|List:
|
||
maxChunkIdx(ElemType(T), maxLen)
|
||
else:
|
||
unsupported T # This should never happen
|
||
|
||
func hashTreeRootAux[T](x: T): Eth2Digest =
|
||
when T is bool|char:
|
||
result.data[0] = byte(x)
|
||
elif T is SomeUnsignedInt:
|
||
when cpuEndian == bigEndian:
|
||
result.data[0..<sizeof(x)] = toBytesLE(x)
|
||
else:
|
||
copyMem(addr result.data[0], unsafeAddr x, sizeof x)
|
||
elif (when T is array: ElemType(T) is BasicType else: false):
|
||
type E = ElemType(T)
|
||
when sizeof(T) <= sizeof(result.data):
|
||
when E is byte|bool or cpuEndian == littleEndian:
|
||
copyMem(addr result.data[0], unsafeAddr x, sizeof x)
|
||
else:
|
||
var pos = 0
|
||
for e in x:
|
||
writeBytesLE(result.data, pos, e)
|
||
pos += sizeof(E)
|
||
else:
|
||
trs "FIXED TYPE; USE CHUNK STREAM"
|
||
var markleizer = createMerkleizer(maxChunksCount(T, Limit x.len))
|
||
chunkedHashTreeRootForBasicTypes(markleizer, x)
|
||
elif T is BitArray:
|
||
hashTreeRootAux(x.bytes)
|
||
elif T is array|object|tuple:
|
||
trs "MERKLEIZING FIELDS"
|
||
const totalFields = when T is array: len(x)
|
||
else: totalSerializedFields(T)
|
||
merkleizeFields(Limit totalFields):
|
||
x.enumerateSubFields(f):
|
||
addField f
|
||
#elif isCaseObject(T):
|
||
# # TODO implement this
|
||
else:
|
||
unsupported T
|
||
|
||
func hashTreeRootList(x: List|BitList): Eth2Digest =
|
||
const maxLen = static(x.maxLen)
|
||
type T = type(x)
|
||
const limit = maxChunksCount(T, maxLen)
|
||
var merkleizer = createMerkleizer(limit)
|
||
|
||
when x is BitList:
|
||
merkleizer.bitListHashTreeRoot(BitSeq x)
|
||
else:
|
||
type E = ElemType(T)
|
||
let contentsHash = when E is BasicType:
|
||
chunkedHashTreeRootForBasicTypes(merkleizer, asSeq x)
|
||
else:
|
||
for elem in x:
|
||
let elemHash = hash_tree_root(elem)
|
||
merkleizer.addChunk(elemHash.data)
|
||
merkleizer.getFinalHash()
|
||
mixInLength(contentsHash, x.len)
|
||
|
||
func mergedDataHash(x: HashList|HashArray, chunkIdx: int64): Eth2Digest =
|
||
# The merged hash of the data at `chunkIdx` and `chunkIdx + 1`
|
||
trs "DATA HASH ", chunkIdx, " ", x.data.len
|
||
|
||
when x.T is BasicType:
|
||
when cpuEndian == bigEndian:
|
||
unsupported type x # No bigendian support here!
|
||
|
||
let
|
||
bytes = cast[ptr UncheckedArray[byte]](unsafeAddr x.data[0])
|
||
byteIdx = chunkIdx * bytesPerChunk
|
||
byteLen = x.data.len * sizeof(x.T)
|
||
|
||
if byteIdx >= byteLen:
|
||
zeroHashes[1]
|
||
else:
|
||
let
|
||
nbytes = min(byteLen - byteIdx, 64)
|
||
padding = 64 - nbytes
|
||
|
||
digest(
|
||
toOpenArray(bytes, int(byteIdx), int(byteIdx + nbytes - 1)),
|
||
toOpenArray(zero64, 0, int(padding - 1)))
|
||
else:
|
||
if chunkIdx + 1 > x.data.len():
|
||
zeroHashes[x.maxDepth]
|
||
elif chunkIdx + 1 == x.data.len():
|
||
mergeBranches(
|
||
hash_tree_root(x.data[chunkIdx]),
|
||
Eth2Digest())
|
||
else:
|
||
mergeBranches(
|
||
hash_tree_root(x.data[chunkIdx]),
|
||
hash_tree_root(x.data[chunkIdx + 1]))
|
||
|
||
template mergedHash(x: HashList|HashArray, vIdxParam: int64): Eth2Digest =
|
||
# The merged hash of the data at `vIdx` and `vIdx + 1`
|
||
let vIdx = vIdxParam
|
||
if vIdx >= x.maxChunks:
|
||
let dataIdx = vIdx - x.maxChunks
|
||
mergedDataHash(x, dataIdx)
|
||
else:
|
||
mergeBranches(
|
||
hashTreeRootCached(x, vIdx),
|
||
hashTreeRootCached(x, vIdx + 1))
|
||
|
||
func hashTreeRootCached*(x: HashList, vIdx: int64): Eth2Digest =
|
||
doAssert vIdx >= 1, "Only valid for flat merkle tree indices"
|
||
|
||
let
|
||
layer = layer(vIdx)
|
||
idxInLayer = vIdx - (1'i64 shl layer)
|
||
layerIdx = idxInlayer + x.indices[layer]
|
||
|
||
trs "GETTING ", vIdx, " ", layerIdx, " ", layer, " ", x.indices.len
|
||
|
||
doAssert layer < x.maxDepth
|
||
if layerIdx >= x.indices[layer + 1]:
|
||
trs "ZERO ", x.indices[layer], " ", x.indices[layer + 1]
|
||
zeroHashes[x.maxDepth - layer]
|
||
else:
|
||
if not isCached(x.hashes[layerIdx]):
|
||
# TODO oops. so much for maintaining non-mutability.
|
||
let px = unsafeAddr x
|
||
|
||
trs "REFRESHING ", vIdx, " ", layerIdx, " ", layer
|
||
|
||
px[].hashes[layerIdx] = mergedHash(x, vIdx * 2)
|
||
else:
|
||
trs "CACHED ", layerIdx
|
||
|
||
x.hashes[layerIdx]
|
||
|
||
func hashTreeRootCached*(x: HashArray, vIdx: int): Eth2Digest =
|
||
doAssert vIdx >= 1, "Only valid for flat merkle tree indices"
|
||
|
||
if not isCached(x.hashes[vIdx]):
|
||
# TODO oops. so much for maintaining non-mutability.
|
||
let px = unsafeAddr x
|
||
|
||
px[].hashes[vIdx] = mergedHash(x, vIdx * 2)
|
||
|
||
return x.hashes[vIdx]
|
||
|
||
func hashTreeRootCached*(x: HashArray): Eth2Digest =
|
||
hashTreeRootCached(x, 1) # Array does not use idx 0
|
||
|
||
func hashTreeRootCached*(x: HashList): Eth2Digest =
|
||
if x.data.len == 0:
|
||
mergeBranches(
|
||
zeroHashes[x.maxDepth],
|
||
zeroHashes[0]) # mixInLength with 0!
|
||
else:
|
||
if not isCached(x.hashes[0]):
|
||
# TODO oops. so much for maintaining non-mutability.
|
||
let px = unsafeAddr x
|
||
px[].hashes[0] = mixInLength(hashTreeRootCached(x, 1), x.data.len)
|
||
|
||
x.hashes[0]
|
||
|
||
func hash_tree_root*(x: auto): Eth2Digest {.raises: [Defect].} =
|
||
trs "STARTING HASH TREE ROOT FOR TYPE ", name(type(x))
|
||
mixin toSszType
|
||
|
||
result =
|
||
when x is HashArray|HashList:
|
||
hashTreeRootCached(x)
|
||
elif x is List|BitList:
|
||
hashTreeRootList(x)
|
||
else:
|
||
hashTreeRootAux toSszType(x)
|
||
|
||
trs "HASH TREE ROOT FOR ", name(type x), " = ", "0x", $result
|
||
|