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## Nim-Codex
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2023-11-14 12:02:17 +00:00
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## Copyright (c) 2023 Status Research & Development GmbH
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## Licensed under either of
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## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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## * MIT license ([LICENSE-MIT](LICENSE-MIT))
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## at your option.
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## This file may not be copied, modified, or distributed except according to
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## those terms.
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2023-12-21 06:41:43 +00:00
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{.push raises: [].}
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2023-08-15 11:23:35 +00:00
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import std/bitops
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import pkg/questionable/results
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import ../errors
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type
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CompressFn*[H, K] = proc (x, y: H, key: K): ?!H {.noSideEffect, raises: [].}
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MerkleTree*[H, K] = ref object of RootObj
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layers* : seq[seq[H]]
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compress*: CompressFn[H, K]
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zero* : H
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MerkleProof*[H, K] = ref object of RootObj
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index* : int # linear index of the leaf, starting from 0
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path* : seq[H] # order: from the bottom to the top
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nleaves* : int # number of leaves in the tree (=size of input)
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compress*: CompressFn[H, K] # compress function
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zero* : H # zero value
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func depth*[H, K](self: MerkleTree[H, K]): int =
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return self.layers.len - 1
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func leavesCount*[H, K](self: MerkleTree[H, K]): int =
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return self.layers[0].len
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func levels*[H, K](self: MerkleTree[H, K]): int =
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return self.layers.len
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func leaves*[H, K](self: MerkleTree[H, K]): seq[H] =
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return self.layers[0]
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iterator layers*[H, K](self: MerkleTree[H, K]): seq[H] =
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for layer in self.layers:
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yield layer
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iterator nodes*[H, K](self: MerkleTree[H, K]): H =
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for layer in self.layers:
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for node in layer:
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yield node
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func root*[H, K](self: MerkleTree[H, K]): ?!H =
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let last = self.layers[^1]
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if last.len != 1:
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return failure "invalid tree"
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return success last[0]
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func getProof*[H, K](
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self: MerkleTree[H, K],
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index: int,
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proof: MerkleProof[H, K]): ?!void =
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let depth = self.depth
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let nleaves = self.leavesCount
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if not (index >= 0 and index < nleaves):
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return failure "index out of bounds"
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var path : seq[H] = newSeq[H](depth)
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var k = index
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var m = nleaves
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for i in 0..<depth:
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let j = k xor 1
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path[i] = if (j < m): self.layers[i][j] else: self.zero
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k = k shr 1
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m = (m + 1) shr 1
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proof.index = index
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proof.path = path
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proof.nleaves = nleaves
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proof.compress = self.compress
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success()
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func getProof*[H, K](self: MerkleTree[H, K], index: int): ?!MerkleProof[H, K] =
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var
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proof = MerkleProof[H, K]()
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? self.getProof(index, proof)
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success proof
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func reconstructRoot*[H, K](proof: MerkleProof[H, K], leaf: H): ?!H =
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var
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m = proof.nleaves
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j = proof.index
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h = leaf
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bottomFlag = K.KeyBottomLayer
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for p in proof.path:
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let oddIndex : bool = (bitand(j,1) != 0)
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if oddIndex:
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# the index of the child is odd, so the node itself can't be odd (a bit counterintuitive, yeah :)
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h = ? proof.compress( p, h, bottomFlag )
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else:
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if j == m - 1:
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# single child => odd node
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h = ? proof.compress( h, p, K(bottomFlag.ord + 2) )
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else:
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# even node
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h = ? proof.compress( h , p, bottomFlag )
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bottomFlag = K.KeyNone
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j = j shr 1
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m = (m+1) shr 1
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return success h
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2024-02-08 02:27:11 +00:00
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func verify*[H, K](proof: MerkleProof[H, K], leaf: H, root: H): ?!bool =
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success bool(root == ? proof.reconstructRoot(leaf))
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func merkleTreeWorker*[H, K](
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self: MerkleTree[H, K],
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xs: openArray[H],
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isBottomLayer: static bool): ?!seq[seq[H]] =
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let a = low(xs)
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let b = high(xs)
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let m = b - a + 1
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when not isBottomLayer:
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if m == 1:
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return success @[ @xs ]
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let halfn: int = m div 2
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let n : int = 2 * halfn
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let isOdd: bool = (n != m)
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var ys: seq[H]
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if not isOdd:
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ys = newSeq[H](halfn)
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else:
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ys = newSeq[H](halfn + 1)
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for i in 0..<halfn:
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const key = when isBottomLayer: K.KeyBottomLayer else: K.KeyNone
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ys[i] = ? self.compress( xs[a + 2 * i], xs[a + 2 * i + 1], key = key )
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if isOdd:
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const key = when isBottomLayer: K.KeyOddAndBottomLayer else: K.KeyOdd
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ys[halfn] = ? self.compress( xs[n], self.zero, key = key )
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success @[ @xs ] & ? self.merkleTreeWorker(ys, isBottomLayer = false)
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