nim-codex/tests/codex/slots/backends/helpers.nim

169 lines
4.2 KiB
Nim

import std/sequtils
import std/sugar
import std/strutils
import pkg/poseidon2
import pkg/constantine/math/arithmetic
import pkg/constantine/math/io/io_bigints
import pkg/constantine/math/io/io_fields
import pkg/codex/merkletree
import pkg/codex/slots
import pkg/codex/slots/types
import pkg/codex/utils/json
export types
func fromCircomData*[H](cellData: seq[byte]): seq[H] =
var
pos = 0
cellElms: seq[Bn254Fr]
while pos < cellData.len:
var
step = 32
offset = min(pos + step, cellData.len)
data = cellData[pos..<offset]
let ff = Bn254Fr.fromBytes(data.toArray32).get
cellElms.add(ff)
pos += data.len
cellElms
func toPublicInputs*[H](input: ProofInput[H]): PublicInputs[H] =
PublicInputs[H](
slotIndex: input.slotIndex,
datasetRoot: input.datasetRoot,
entropy: input.entropy
)
proc toCircomInputs*[H](inputs: PublicInputs[H]): CircomInputs =
var
slotIndex = inputs.slotIndex.toF.toBytes.toArray32
datasetRoot = inputs.datasetRoot.toBytes.toArray32
entropy = inputs.entropy.toBytes.toArray32
elms = [
entropy,
datasetRoot,
slotIndex
]
let inputsPtr = allocShared0(32 * elms.len)
copyMem(inputsPtr, addr elms[0], elms.len * 32)
CircomInputs(
elms: cast[ptr array[32, byte]](inputsPtr),
len: elms.len.uint
)
proc releaseNimInputs*(inputs: var CircomInputs) =
if not inputs.elms.isNil:
deallocShared(inputs.elms)
inputs.elms = nil
func toJsonDecimal*(big: BigInt[254]): string =
let s = big.toDecimal.strip( leading = true, trailing = false, chars = {'0'} )
if s.len == 0: "0" else: s
func toJson*[H](input: ProofInput[H]): JsonNode =
var
input = input
%* {
"dataSetRoot": input.datasetRoot.toBig.toJsonDecimal,
"entropy": input.entropy.toBig.toJsonDecimal,
"nCellsPerSlot": input.nCellsPerSlot,
"nSlotsPerDataSet": input.nSlotsPerDataSet,
"slotIndex": input.slotIndex,
"slotRoot": input.slotRoot.toDecimal,
"slotProof": input.slotProof.mapIt( it.toBig.toJsonDecimal ),
"cellData": input.samples.mapIt(
toSeq( it.cellData.elements(H) ).mapIt( it.toBig.toJsonDecimal )
),
"merklePaths": input.samples.mapIt(
it.merklePaths.mapIt( it.toBig.toJsonDecimal )
)
}
func jsonToProofInput*[H](inputJson: JsonNode): ProofInput[H] =
let
cellData =
inputJson["cellData"].mapIt(
it.mapIt(
block:
var
big: BigInt[256]
data = newSeq[byte](big.bits div 8)
assert bool(big.fromDecimal( it.str ))
data.marshal(big, littleEndian)
data
).concat # flatten out elements
)
merklePaths =
inputJson["merklePaths"].mapIt(
it.mapIt(
block:
var
big: BigInt[254]
hash: H
assert bool(big.fromDecimal( it.getStr ))
hash.fromBig( big )
hash
)
)
slotProof = inputJson["slotProof"].mapIt(
block:
var
big: BigInt[254]
hash: H
assert bool(big.fromDecimal( it.str ))
hash.fromBig( big )
hash
)
datasetRoot = block:
var
big: BigInt[254]
hash: H
assert bool(big.fromDecimal( inputJson["dataSetRoot"].str ))
hash.fromBig( big )
hash
slotRoot = block:
var
big: BigInt[254]
hash: H
assert bool(big.fromDecimal( inputJson["slotRoot"].str ))
hash.fromBig( big )
hash
entropy = block:
var
big: BigInt[254]
hash: H
assert bool(big.fromDecimal( inputJson["entropy"].str ))
hash.fromBig( big )
hash
nCellsPerSlot = inputJson["nCellsPerSlot"].getInt
nSlotsPerDataSet = inputJson["nSlotsPerDataSet"].getInt
slotIndex = inputJson["slotIndex"].getInt
ProofInput[H](
entropy: entropy,
slotIndex: slotIndex,
datasetRoot: datasetRoot,
slotProof: slotProof,
slotRoot: slotRoot,
nCellsPerSlot: nCellsPerSlot,
nSlotsPerDataSet: nSlotsPerDataSet,
samples: zip(cellData, merklePaths)
.mapIt(Sample[H](
cellData: it[0],
merklePaths: it[1]
))
)