nim-dagger/benchmarks/codex_ark_prover_cli.nim

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import std/[sequtils, strformat, os, options, importutils]
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import std/[times, os, strutils, terminal, parseopt]
import pkg/questionable
import pkg/questionable/results
import pkg/datastore
import pkg/codex/[rng, stores, merkletree, codextypes, slots]
import pkg/codex/utils/[json, poseidon2digest]
import pkg/codex/slots/[builder, sampler/utils, backends/helpers]
import pkg/constantine/math/[arithmetic, io/io_bigints, io/io_fields]
import ./utils
import ./create_circuits
type CircuitFiles* = object
r1cs*: string
wasm*: string
zkey*: string
inputs*: string
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dir*: string
circName*: string
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proc runArkCircom(args: CircuitArgs, files: CircuitFiles, proofInputs: ProofInputs[Poseidon2Hash]) =
echo "Loading sample proof..."
var
circom = CircomCompat.init(
files.r1cs,
files.wasm,
files.zkey,
slotDepth = args.depth,
numSamples = args.nsamples,
)
defer:
circom.release() # this comes from the rust FFI
echo "Sample proof loaded..."
echo "Proving..."
var proof: CircomProof
benchmark fmt"prover":
proof = circom.prove(proofInputs).tryGet
var verRes: bool
benchmark fmt"verify":
verRes = circom.verify(proof, proofInputs).tryGet
echo "verify result: ", verRes
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proc printHelp() =
echo "usage:"
echo " ./codex_ark_prover_cli [options] --output=proof_input.json --circom=proof_main.circom"
echo ""
echo "available options:"
echo " -h, --help : print this help"
echo " -v, --verbose : verbose output (print the actual parameters)"
echo " -d, --depth = <maxdepth> : maximum depth of the slot tree (eg. 32)"
echo " -N, --maxslots = <maxslots> : maximum number of slots (eg. 256)"
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# echo " -c, --cellsize = <cellSize> : cell size in bytes (eg. 2048)"
# echo " -b, --blocksize = <blockSize> : block size in bytes (eg. 65536)"
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echo " -s, --nslots = <nslots> : number of slots in the dataset (eg. 13)"
echo " -n, --nsamples = <nsamples> : number of samples we prove (eg. 100)"
echo " -e, --entropy = <entropy> : external randomness (eg. 1234567)"
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# echo " -S, --seed = <seed> : seed to generate the fake data (eg. 12345)"
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echo " -i, --index = <slotIndex> : index of the slot (within the dataset) we prove"
echo " -K, --ncells = <ncells> : number of cells inside this slot (eg. 1024; must be a power of two)"
echo ""
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quit(1)
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proc parseCliOptions(args: var CircuitArgs, files: var CircuitFiles) =
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var argCtr: int = 0
for kind, key, value in getOpt():
case kind
# Positional arguments
of cmdArgument:
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printHelp()
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# Switches
of cmdLongOption, cmdShortOption:
case key
of "h", "help" : printHelp()
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of "d", "depth" : args.depth = parseInt(value)
of "N", "maxslots" : args.maxslots = parseInt(value)
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# of "c", "cellsize" : args.cellsize = checkPowerOfTwo(parseInt(value),"cellSize")
# of "b", "blocksize" : args.blocksize = checkPowerOfTwo(parseInt(value),"blockSize")
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of "n", "nsamples" : args.nsamples = parseInt(value)
of "e", "entropy" : args.entropy = parseInt(value)
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# of "S", "seed" : args.seed = parseInt(value)
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of "s", "nslots" : args.nslots = parseInt(value)
of "K", "ncells" : args.ncells = checkPowerOfTwo(parseInt(value),"nCells")
of "i", "index" : args.index = parseInt(value)
of "r1cs" : files.r1cs = value.absolutePath
of "wasm" : files.wasm = value.absolutePath
of "zkey" : files.zkey = value.absolutePath
of "inputs" : files.inputs = value.absolutePath
of "dir" : files.dir = value.absolutePath
of "name" : files.circName = value
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else:
echo "Unknown option: ", key
echo "use --help to get a list of options"
quit()
of cmdEnd:
discard
proc run*() =
echo "Running benchmark"
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# prove wasm ${CIRCUIT_MAIN}.zkey witness.wtns proof.json public.json
var
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args = CircuitArgs()
files = CircuitFiles()
parseCliOptions(args, files)
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let dir = if files.dir != "": files.dir else: getCurrentDir()
if files.circName != "":
if files.r1cs == "": files.r1cs = dir / fmt"{files.circName}.r1cs"
if files.wasm == "": files.wasm = dir / fmt"{files.circName}.wasm"
if files.zkey == "": files.zkey = dir / fmt"{files.circName}.zkey"
if files.inputs == "": files.inputs = dir / fmt"input.json"
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var
inputData = files.inputs.readFile()
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inputs: JsonNode = !JsonNode.parse(inputData)
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if args.depth == 0: args.depth = codextypes.DefaultMaxSlotDepth # maximum depth of the slot tree
if args.maxslots == 0: args.maxslots = 256 # maximum number of slots
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if args.nsamples == 0: args.nsamples = 1 # number of samples to prove
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if args.entropy != 0: inputs["entropy"] = %($args.entropy)
if args.nslots != 0: inputs["nSlotsPerDataSet"] = % args.nslots
if args.index != 0: inputs["slotIndex"] = % args.index
if args.ncells != 0: inputs["nCellsPerSlot"] = % args.ncells
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var
proofInputs = Poseidon2Hash.jsonToProofInput(inputs)
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echo "Got args: ", args
echo "Got files: ", files
# runArkCircom(args, files)
when isMainModule:
run()