nim-dagger/tests/codex/merkletree/testmerkletree.nim

246 lines
7.5 KiB
Nim

import std/unittest
import std/sequtils
import std/tables
import pkg/questionable/results
import pkg/stew/byteutils
import pkg/nimcrypto/sha2
import pkg/codex/merkletree
import ../helpers
checksuite "merkletree":
const data =
[
"0123456789012345678901234567890123456789".toBytes,
"1234567890123456789012345678901234567890".toBytes,
"2345678901234567890123456789012345678901".toBytes,
"3456789012345678901234567890123456789012".toBytes,
"4567890123456789012345678901234567890123".toBytes,
"5678901234567890123456789012345678901234".toBytes,
"6789012345678901234567890123456789012345".toBytes,
"7890123456789012345678901234567890123456".toBytes,
"8901234567890123456789012345678901234567".toBytes,
"9012345678901234567890123456789012345678".toBytes,
]
const sha256 = multiCodec("sha2-256")
const sha512 = multiCodec("sha2-512")
proc combine(a, b: MultiHash, codec: MultiCodec = sha256): MultiHash =
var buf = newSeq[byte](a.size + b.size)
copyMem(addr buf[0], unsafeAddr a.data.buffer[a.dpos], a.size)
copyMem(addr buf[a.size], unsafeAddr b.data.buffer[b.dpos], b.size)
return MultiHash.digest($codec, buf).tryGet()
var zeroHash: MultiHash
var oneHash: MultiHash
var expectedLeaves: array[data.len, MultiHash]
var builder: MerkleTreeBuilder
setup:
for i in 0..<data.len:
expectedLeaves[i] = MultiHash.digest($sha256, data[i]).tryGet()
builder = MerkleTreeBuilder.init(sha256).tryGet()
var zero: array[32, byte]
var one: array[32, byte]
one[^1] = 0x01
zeroHash = MultiHash.init($sha256, zero).tryGet()
oneHash = MultiHash.init($sha256, one).tryGet()
test "cannot init tree without any leafs":
let treeOrErr = MerkleTree.init(newSeq[MultiHash]())
check:
treeOrErr.isErr
test "tree with one leaf has expected structure":
builder.addDataBlock(data[0]).tryGet()
let tree = builder.build().tryGet()
check:
tree.leaves.toSeq == expectedLeaves[0..0]
tree.root == expectedLeaves[0]
tree.len == 1
test "tree with two leaves has expected structure":
builder.addDataBlock(data[0]).tryGet()
builder.addDataBlock(data[1]).tryGet()
let tree = builder.build().tryGet()
let expectedRoot = combine(expectedLeaves[0], expectedLeaves[1])
check:
tree.leaves.toSeq == expectedLeaves[0..1]
tree.len == 3
tree.root == expectedRoot
test "tree with three leaves has expected structure":
builder.addDataBlock(data[0]).tryGet()
builder.addDataBlock(data[1]).tryGet()
builder.addDataBlock(data[2]).tryGet()
let tree = builder.build().tryGet()
let
expectedRoot = combine(
combine(expectedLeaves[0], expectedLeaves[1]),
combine(expectedLeaves[2], zeroHash)
)
check:
tree.leaves.toSeq == expectedLeaves[0..2]
tree.len == 6
tree.root == expectedRoot
test "tree with nine leaves has expected structure":
builder.addDataBlock(data[0]).tryGet()
builder.addDataBlock(data[1]).tryGet()
builder.addDataBlock(data[2]).tryGet()
builder.addDataBlock(data[3]).tryGet()
builder.addDataBlock(data[4]).tryGet()
builder.addDataBlock(data[5]).tryGet()
builder.addDataBlock(data[6]).tryGet()
builder.addDataBlock(data[7]).tryGet()
builder.addDataBlock(data[8]).tryGet()
let tree = builder.build().tryGet()
let
expectedRoot = combine(
combine(
combine(
combine(expectedLeaves[0], expectedLeaves[1]),
combine(expectedLeaves[2], expectedLeaves[3]),
),
combine(
combine(expectedLeaves[4], expectedLeaves[5]),
combine(expectedLeaves[6], expectedLeaves[7])
)
),
combine(
combine(
combine(expectedLeaves[8], zeroHash),
oneHash
),
oneHash
)
)
check:
tree.leaves.toSeq == expectedLeaves[0..8]
tree.len == 20
tree.root == expectedRoot
test "tree with two leaves provides expected and valid proofs":
builder.addDataBlock(data[0]).tryGet()
builder.addDataBlock(data[1]).tryGet()
let tree = builder.build().tryGet()
let expectedProofs = [
MerkleProof.init(0, @[expectedLeaves[1]]).tryGet(),
MerkleProof.init(1, @[expectedLeaves[0]]).tryGet(),
]
check:
tree.getProof(0).tryGet() == expectedProofs[0]
tree.getProof(1).tryGet() == expectedProofs[1]
check:
tree.getProof(0).tryGet().verifyDataBlock(data[0], tree.root).tryGet()
tree.getProof(1).tryGet().verifyDataBlock(data[1], tree.root).tryGet()
test "tree with three leaves provides expected proofs":
builder.addDataBlock(data[0]).tryGet()
builder.addDataBlock(data[1]).tryGet()
builder.addDataBlock(data[2]).tryGet()
let tree = builder.build().tryGet()
let expectedProofs = [
MerkleProof.init(0, @[expectedLeaves[1], combine(expectedLeaves[2], zeroHash)]).tryGet(),
MerkleProof.init(1, @[expectedLeaves[0], combine(expectedLeaves[2], zeroHash)]).tryGet(),
MerkleProof.init(2, @[zeroHash, combine(expectedLeaves[0], expectedLeaves[1])]).tryGet(),
]
check:
tree.getProof(0).tryGet() == expectedProofs[0]
tree.getProof(1).tryGet() == expectedProofs[1]
tree.getProof(2).tryGet() == expectedProofs[2]
check:
tree.getProof(0).tryGet().verifyDataBlock(data[0], tree.root).tryGet()
tree.getProof(1).tryGet().verifyDataBlock(data[1], tree.root).tryGet()
tree.getProof(2).tryGet().verifyDataBlock(data[2], tree.root).tryGet()
test "tree with nine leaves provides expected proofs":
builder.addDataBlock(data[0]).tryGet()
builder.addDataBlock(data[1]).tryGet()
builder.addDataBlock(data[2]).tryGet()
builder.addDataBlock(data[3]).tryGet()
builder.addDataBlock(data[4]).tryGet()
builder.addDataBlock(data[5]).tryGet()
builder.addDataBlock(data[6]).tryGet()
builder.addDataBlock(data[7]).tryGet()
builder.addDataBlock(data[8]).tryGet()
let tree = builder.build().tryGet()
let expectedProofs = {
4:
MerkleProof.init(4, @[
expectedLeaves[5],
combine(expectedLeaves[6], expectedLeaves[7]),
combine(
combine(expectedLeaves[0], expectedLeaves[1]),
combine(expectedLeaves[2], expectedLeaves[3]),
),
combine(
combine(
combine(expectedLeaves[8], zeroHash),
oneHash
),
oneHash
)
]).tryGet(),
8:
MerkleProof.init(8, @[
zeroHash,
oneHash,
oneHash,
combine(
combine(
combine(expectedLeaves[0], expectedLeaves[1]),
combine(expectedLeaves[2], expectedLeaves[3]),
),
combine(
combine(expectedLeaves[4], expectedLeaves[5]),
combine(expectedLeaves[6], expectedLeaves[7])
)
)
]).tryGet(),
}.newTable
check:
tree.getProof(4).tryGet() == expectedProofs[4]
tree.getProof(8).tryGet() == expectedProofs[8]
check:
tree.getProof(4).tryGet().verifyDataBlock(data[4], tree.root).tryGet()
tree.getProof(8).tryGet().verifyDataBlock(data[8], tree.root).tryGet()
test "getProof fails for index out of bounds":
builder.addDataBlock(data[0]).tryGet()
builder.addDataBlock(data[1]).tryGet()
builder.addDataBlock(data[2]).tryGet()
let tree = builder.build().tryGet()
check:
isErr(tree.getProof(4))