nim-codex/codex/slots/proofs/backends/circomcompat.nim

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## Nim-Codex
## Copyright (c) 2024 Status Research & Development GmbH
## Licensed under either of
## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
## * MIT license ([LICENSE-MIT](LICENSE-MIT))
## at your option.
## This file may not be copied, modified, or distributed except according to
## those terms.
{.push raises: [].}
import std/sequtils
import pkg/chronos
import pkg/questionable/results
import pkg/circomcompat
import pkg/poseidon2/io
import ../../types
import ../../../stores
import ../../../merkletree
import ../../../codextypes
import ../../../contracts
import ./converters
export circomcompat, converters
type
CircomCompat* = object
slotDepth : int # max depth of the slot tree
datasetDepth : int # max depth of dataset tree
blkDepth : int # depth of the block merkle tree (pow2 for now)
cellElms : int # number of field elements per cell
numSamples : int # number of samples per slot
r1csPath : string # path to the r1cs file
wasmPath : string # path to the wasm file
zkeyPath : string # path to the zkey file
backendCfg : ptr CircomBn254Cfg
vkp* : ptr CircomKey
proc release*(self: CircomCompat) =
## Release the ctx
##
if not isNil(self.backendCfg):
self.backendCfg.unsafeAddr.releaseCfg()
if not isNil(self.vkp):
self.vkp.unsafeAddr.release_key()
proc prove*[H](
self: CircomCompat,
input: ProofInputs[H]): ?!CircomProof =
## Encode buffers using a ctx
##
# NOTE: All inputs are statically sized per circuit
# and adjusted accordingly right before being passed
# to the circom ffi - `setLen` is used to adjust the
# sequence length to the correct size which also 0 pads
# to the correct length
doAssert input.samples.len == self.numSamples,
"Number of samples does not match"
doAssert input.slotProof.len <= self.datasetDepth,
"Number of slot proofs does not match"
doAssert input.samples.allIt(
block:
(it.merklePaths.len <= self.slotDepth + self.blkDepth and
it.cellData.len <= self.cellElms * 32)), "Merkle paths length does not match"
# TODO: All parameters should match circom's static parametter
var
ctx: ptr CircomCompatCtx
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defer:
if ctx != nil:
ctx.addr.releaseCircomCompat()
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if initCircomCompat(
self.backendCfg,
addr ctx) != ERR_OK or ctx == nil:
raiseAssert("failed to initialize CircomCompat ctx")
var
entropy = input.entropy.toBytes
dataSetRoot = input.datasetRoot.toBytes
slotRoot = input.slotRoot.toBytes
if ctx.pushInputU256Array(
"entropy".cstring, entropy[0].addr, entropy.len.uint32) != ERR_OK:
return failure("Failed to push entropy")
if ctx.pushInputU256Array(
"dataSetRoot".cstring, dataSetRoot[0].addr, dataSetRoot.len.uint32) != ERR_OK:
return failure("Failed to push data set root")
if ctx.pushInputU256Array(
"slotRoot".cstring, slotRoot[0].addr, slotRoot.len.uint32) != ERR_OK:
return failure("Failed to push data set root")
if ctx.pushInputU32(
"nCellsPerSlot".cstring, input.nCellsPerSlot.uint32) != ERR_OK:
return failure("Failed to push nCellsPerSlot")
if ctx.pushInputU32(
"nSlotsPerDataSet".cstring, input.nSlotsPerDataSet.uint32) != ERR_OK:
return failure("Failed to push nSlotsPerDataSet")
if ctx.pushInputU32(
"slotIndex".cstring, input.slotIndex.uint32) != ERR_OK:
return failure("Failed to push slotIndex")
var
slotProof = input.slotProof.mapIt( it.toBytes ).concat
slotProof.setLen(self.datasetDepth) # zero pad inputs to correct size
# arrays are always flattened
if ctx.pushInputU256Array(
"slotProof".cstring,
slotProof[0].addr,
uint (slotProof[0].len * slotProof.len)) != ERR_OK:
return failure("Failed to push slot proof")
for s in input.samples:
var
merklePaths = s.merklePaths.mapIt( it.toBytes )
data = s.cellData
merklePaths.setLen(self.slotDepth) # zero pad inputs to correct size
if ctx.pushInputU256Array(
"merklePaths".cstring,
merklePaths[0].addr,
uint (merklePaths[0].len * merklePaths.len)) != ERR_OK:
return failure("Failed to push merkle paths")
data.setLen(self.cellElms * 32) # zero pad inputs to correct size
if ctx.pushInputU256Array(
"cellData".cstring,
data[0].addr,
data.len.uint) != ERR_OK:
return failure("Failed to push cell data")
var
proofPtr: ptr Proof = nil
let proof =
try:
if (
let res = self.backendCfg.proveCircuit(ctx, proofPtr.addr);
res != ERR_OK) or
proofPtr == nil:
return failure("Failed to prove - err code: " & $res)
proofPtr[]
finally:
if proofPtr != nil:
proofPtr.addr.releaseProof()
success proof
proc verify*[H](
self: CircomCompat,
proof: CircomProof,
inputs: ProofInputs[H]): ?!bool =
## Verify a proof using a ctx
##
var
proofPtr = unsafeAddr proof
inputs = inputs.toCircomInputs()
try:
let res = verifyCircuit(proofPtr, inputs.addr, self.vkp)
if res == ERR_OK:
success true
elif res == ERR_FAILED_TO_VERIFY_PROOF:
success false
else:
failure("Failed to verify proof - err code: " & $res)
finally:
inputs.releaseCircomInputs()
proc init*(
_: type CircomCompat,
r1csPath : string,
wasmPath : string,
zkeyPath : string = "",
slotDepth = DefaultMaxSlotDepth,
datasetDepth = DefaultMaxDatasetDepth,
blkDepth = DefaultBlockDepth,
cellElms = DefaultCellElms,
numSamples = DefaultSamplesNum): CircomCompat =
## Create a new ctx
##
var cfg: ptr CircomBn254Cfg
var zkey = if zkeyPath.len > 0: zkeyPath.cstring else: nil
if initCircomConfig(
r1csPath.cstring,
wasmPath.cstring,
zkey, cfg.addr) != ERR_OK or cfg == nil:
if cfg != nil: cfg.addr.releaseCfg()
raiseAssert("failed to initialize circom compat config")
var
vkpPtr: ptr VerifyingKey = nil
if cfg.getVerifyingKey(vkpPtr.addr) != ERR_OK or vkpPtr == nil:
if vkpPtr != nil: vkpPtr.addr.releaseKey()
raiseAssert("Failed to get verifying key")
CircomCompat(
r1csPath : r1csPath,
wasmPath : wasmPath,
zkeyPath : zkeyPath,
slotDepth : slotDepth,
datasetDepth: datasetDepth,
blkDepth : blkDepth,
cellElms : cellElms,
numSamples : numSamples,
backendCfg : cfg,
vkp : vkpPtr)