Browse Source

remove unused files

pull/4/head
mmagician 5 months ago
parent
commit
bc2c1a5ddc
No known key found for this signature in database GPG Key ID: BDEF1AAE14CCE516
22 changed files with 724 additions and 94 deletions
  1. +1
    -1
      src/circom/circuit.rs
  2. +3
    -3
      src/witness/witness_calculator.rs
  3. +0
    -35
      test-vectors/calculatewitness.js
  4. BIN
      test-vectors/circom2_multiplier2.r1cs
  5. BIN
      test-vectors/circom2_multiplier2.wasm
  6. BIN
      test-vectors/circuit2.r1cs
  7. +0
    -0
      test-vectors/circuit2_js/circuit2.wasm
  8. +20
    -0
      test-vectors/circuit2_js/generate_witness.js
  9. BIN
      test-vectors/circuit2_js/witness.wtns
  10. +337
    -0
      test-vectors/circuit2_js/witness_calculator.js
  11. +0
    -1
      test-vectors/input.json
  12. +0
    -3
      test-vectors/mycircuit.sym
  13. +20
    -0
      test-vectors/mycircuit_js/generate_witness.js
  14. +0
    -0
      test-vectors/mycircuit_js/mycircuit.wasm
  15. +337
    -0
      test-vectors/mycircuit_js/witness_calculator.js
  16. +0
    -14
      test-vectors/nconstraints.circom
  17. +0
    -28
      test-vectors/proof.json
  18. +0
    -3
      test-vectors/public.json
  19. +1
    -1
      test-vectors/safe-circuit.sh
  20. BIN
      test-vectors/witness.wtns
  21. +4
    -4
      tests/groth16.rs
  22. +1
    -1
      tests/solidity.rs

+ 1
- 1
src/circom/circuit.rs

@ -96,7 +96,7 @@ mod tests {
#[tokio::test]
async fn satisfied() {
let cfg = CircomConfig::<Bn254>::new(
"./test-vectors/mycircuit.wasm",
"./test-vectors/mycircuit_js/mycircuit.wasm",
"./test-vectors/mycircuit.r1cs",
)
.unwrap();

+ 3
- 3
src/witness/witness_calculator.rs

@ -268,7 +268,7 @@ mod tests {
#[tokio::test]
async fn multiplier_1() {
run_test(TestCase {
circuit_path: root_path("test-vectors/mycircuit.wasm").as_str(),
circuit_path: root_path("test-vectors/mycircuit_js/mycircuit.wasm").as_str(),
inputs_path: root_path("test-vectors/mycircuit-input1.json").as_str(),
n64: 4,
witness: &["1", "33", "3", "11"],
@ -278,7 +278,7 @@ mod tests {
#[tokio::test]
async fn multiplier_2() {
run_test(TestCase {
circuit_path: root_path("test-vectors/mycircuit.wasm").as_str(),
circuit_path: root_path("test-vectors/mycircuit_js/mycircuit.wasm").as_str(),
inputs_path: root_path("test-vectors/mycircuit-input2.json").as_str(),
n64: 4,
witness: &[
@ -293,7 +293,7 @@ mod tests {
#[tokio::test]
async fn multiplier_3() {
run_test(TestCase {
circuit_path: root_path("test-vectors/mycircuit.wasm").as_str(),
circuit_path: root_path("test-vectors/mycircuit_js/mycircuit.wasm").as_str(),
inputs_path: root_path("test-vectors/mycircuit-input3.json").as_str(),
n64: 4,
witness: &[

+ 0
- 35
test-vectors/calculatewitness.js

@ -1,35 +0,0 @@
#!/usr/bin/env node
const fs = require("fs");
const {stringifyBigInts, unstringifyBigInts} = require("snarkjs");
const WitnessCalculatorBuilder = require("./witness_calculator.js");
// const wasmName = "smtverifier10.wasm"
// const inputName = "smtverifier10-input.json"
const wasmName = "nconstraints.wasm"
const inputName = "nconstraints-input.json"
async function run () {
const wasm = await fs.promises.readFile(wasmName);
const input = unstringifyBigInts(JSON.parse(await fs.promises.readFile(inputName, "utf8")));
console.log("input:", input);
let options;
const wc = await WitnessCalculatorBuilder(wasm, options);
const w = await wc.calculateWitness(input);
console.log("witness:\n", JSON.stringify(stringifyBigInts(w)));
// const wb = await wc.calculateBinWitness(input);
// console.log("witnessBin:", Buffer.from(wb).toString('hex'));
// await fs.promises.writeFile(witnessName, JSON.stringify(stringifyBigInts(w), null, 1));
}
run().then(() => {
process.exit();
});

BIN
test-vectors/circom2_multiplier2.r1cs


BIN
test-vectors/circom2_multiplier2.wasm


BIN
test-vectors/circuit2.r1cs


test-vectors/circuit2.wasm → test-vectors/circuit2_js/circuit2.wasm


+ 20
- 0
test-vectors/circuit2_js/generate_witness.js

@ -0,0 +1,20 @@
const wc = require("./witness_calculator.js");
const { readFileSync, writeFile } = require("fs");
if (process.argv.length != 5) {
console.log("Usage: node generate_witness.js <file.wasm> <input.json> <output.wtns>");
} else {
const input = JSON.parse(readFileSync(process.argv[3], "utf8"));
const buffer = readFileSync(process.argv[2]);
wc(buffer).then(async witnessCalculator => {
// const w= await witnessCalculator.calculateWitness(input,0);
// for (let i=0; i< w.length; i++){
// console.log(w[i]);
// }
const buff= await witnessCalculator.calculateWTNSBin(input,0);
writeFile(process.argv[4], buff, function(err) {
if (err) throw err;
});
});
}

BIN
test-vectors/circuit2_js/witness.wtns


+ 337
- 0
test-vectors/circuit2_js/witness_calculator.js

@ -0,0 +1,337 @@
module.exports = async function builder(code, options) {
options = options || {};
let wasmModule;
try {
wasmModule = await WebAssembly.compile(code);
} catch (err) {
console.log(err);
console.log("\nTry to run circom --c in order to generate c++ code instead\n");
throw new Error(err);
}
let wc;
let errStr = "";
let msgStr = "";
const instance = await WebAssembly.instantiate(wasmModule, {
runtime: {
exceptionHandler : function(code) {
let err;
if (code == 1) {
err = "Signal not found.\n";
} else if (code == 2) {
err = "Too many signals set.\n";
} else if (code == 3) {
err = "Signal already set.\n";
} else if (code == 4) {
err = "Assert Failed.\n";
} else if (code == 5) {
err = "Not enough memory.\n";
} else if (code == 6) {
err = "Input signal array access exceeds the size.\n";
} else {
err = "Unknown error.\n";
}
throw new Error(err + errStr);
},
printErrorMessage : function() {
errStr += getMessage() + "\n";
// console.error(getMessage());
},
writeBufferMessage : function() {
const msg = getMessage();
// Any calls to `log()` will always end with a `\n`, so that's when we print and reset
if (msg === "\n") {
console.log(msgStr);
msgStr = "";
} else {
// If we've buffered other content, put a space in between the items
if (msgStr !== "") {
msgStr += " "
}
// Then append the message to the message we are creating
msgStr += msg;
}
},
showSharedRWMemory : function() {
printSharedRWMemory ();
}
}
});
const sanityCheck =
options
// options &&
// (
// options.sanityCheck ||
// options.logGetSignal ||
// options.logSetSignal ||
// options.logStartComponent ||
// options.logFinishComponent
// );
wc = new WitnessCalculator(instance, sanityCheck);
return wc;
function getMessage() {
var message = "";
var c = instance.exports.getMessageChar();
while ( c != 0 ) {
message += String.fromCharCode(c);
c = instance.exports.getMessageChar();
}
return message;
}
function printSharedRWMemory () {
const shared_rw_memory_size = instance.exports.getFieldNumLen32();
const arr = new Uint32Array(shared_rw_memory_size);
for (let j=0; j<shared_rw_memory_size; j++) {
arr[shared_rw_memory_size-1-j] = instance.exports.readSharedRWMemory(j);
}
// If we've buffered other content, put a space in between the items
if (msgStr !== "") {
msgStr += " "
}
// Then append the value to the message we are creating
msgStr += (fromArray32(arr).toString());
}
};
class WitnessCalculator {
constructor(instance, sanityCheck) {
this.instance = instance;
this.version = this.instance.exports.getVersion();
this.n32 = this.instance.exports.getFieldNumLen32();
this.instance.exports.getRawPrime();
const arr = new Uint32Array(this.n32);
for (let i=0; i<this.n32; i++) {
arr[this.n32-1-i] = this.instance.exports.readSharedRWMemory(i);
}
this.prime = fromArray32(arr);
this.witnessSize = this.instance.exports.getWitnessSize();
this.sanityCheck = sanityCheck;
}
circom_version() {
return this.instance.exports.getVersion();
}
async _doCalculateWitness(input, sanityCheck) {
//input is assumed to be a map from signals to arrays of bigints
this.instance.exports.init((this.sanityCheck || sanityCheck) ? 1 : 0);
const keys = Object.keys(input);
var input_counter = 0;
keys.forEach( (k) => {
const h = fnvHash(k);
const hMSB = parseInt(h.slice(0,8), 16);
const hLSB = parseInt(h.slice(8,16), 16);
const fArr = flatArray(input[k]);
let signalSize = this.instance.exports.getInputSignalSize(hMSB, hLSB);
if (signalSize < 0){
throw new Error(`Signal ${k} not found\n`);
}
if (fArr.length < signalSize) {
throw new Error(`Not enough values for input signal ${k}\n`);
}
if (fArr.length > signalSize) {
throw new Error(`Too many values for input signal ${k}\n`);
}
for (let i=0; i<fArr.length; i++) {
const arrFr = toArray32(normalize(fArr[i],this.prime),this.n32)
for (let j=0; j<this.n32; j++) {
this.instance.exports.writeSharedRWMemory(j,arrFr[this.n32-1-j]);
}
try {
this.instance.exports.setInputSignal(hMSB, hLSB,i);
input_counter++;
} catch (err) {
// console.log(`After adding signal ${i} of ${k}`)
throw new Error(err);
}
}
});
if (input_counter < this.instance.exports.getInputSize()) {
throw new Error(`Not all inputs have been set. Only ${input_counter} out of ${this.instance.exports.getInputSize()}`);
}
}
async calculateWitness(input, sanityCheck) {
const w = [];
await this._doCalculateWitness(input, sanityCheck);
for (let i=0; i<this.witnessSize; i++) {
this.instance.exports.getWitness(i);
const arr = new Uint32Array(this.n32);
for (let j=0; j<this.n32; j++) {
arr[this.n32-1-j] = this.instance.exports.readSharedRWMemory(j);
}
w.push(fromArray32(arr));
}
return w;
}
async calculateBinWitness(input, sanityCheck) {
const buff32 = new Uint32Array(this.witnessSize*this.n32);
const buff = new Uint8Array( buff32.buffer);
await this._doCalculateWitness(input, sanityCheck);
for (let i=0; i<this.witnessSize; i++) {
this.instance.exports.getWitness(i);
const pos = i*this.n32;
for (let j=0; j<this.n32; j++) {
buff32[pos+j] = this.instance.exports.readSharedRWMemory(j);
}
}
return buff;
}
async calculateWTNSBin(input, sanityCheck) {
const buff32 = new Uint32Array(this.witnessSize*this.n32+this.n32+11);
const buff = new Uint8Array( buff32.buffer);
await this._doCalculateWitness(input, sanityCheck);
//"wtns"
buff[0] = "w".charCodeAt(0)
buff[1] = "t".charCodeAt(0)
buff[2] = "n".charCodeAt(0)
buff[3] = "s".charCodeAt(0)
//version 2
buff32[1] = 2;
//number of sections: 2
buff32[2] = 2;
//id section 1
buff32[3] = 1;
const n8 = this.n32*4;
//id section 1 length in 64bytes
const idSection1length = 8 + n8;
const idSection1lengthHex = idSection1length.toString(16);
buff32[4] = parseInt(idSection1lengthHex.slice(0,8), 16);
buff32[5] = parseInt(idSection1lengthHex.slice(8,16), 16);
//this.n32
buff32[6] = n8;
//prime number
this.instance.exports.getRawPrime();
var pos = 7;
for (let j=0; j<this.n32; j++) {
buff32[pos+j] = this.instance.exports.readSharedRWMemory(j);
}
pos += this.n32;
// witness size
buff32[pos] = this.witnessSize;
pos++;
//id section 2
buff32[pos] = 2;
pos++;
// section 2 length
const idSection2length = n8*this.witnessSize;
const idSection2lengthHex = idSection2length.toString(16);
buff32[pos] = parseInt(idSection2lengthHex.slice(0,8), 16);
buff32[pos+1] = parseInt(idSection2lengthHex.slice(8,16), 16);
pos += 2;
for (let i=0; i<this.witnessSize; i++) {
this.instance.exports.getWitness(i);
for (let j=0; j<this.n32; j++) {
buff32[pos+j] = this.instance.exports.readSharedRWMemory(j);
}
pos += this.n32;
}
return buff;
}
}
function toArray32(rem,size) {
const res = []; //new Uint32Array(size); //has no unshift
const radix = BigInt(0x100000000);
while (rem) {
res.unshift( Number(rem % radix));
rem = rem / radix;
}
if (size) {
var i = size - res.length;
while (i>0) {
res.unshift(0);
i--;
}
}
return res;
}
function fromArray32(arr) { //returns a BigInt
var res = BigInt(0);
const radix = BigInt(0x100000000);
for (let i = 0; i<arr.length; i++) {
res = res*radix + BigInt(arr[i]);
}
return res;
}
function flatArray(a) {
var res = [];
fillArray(res, a);
return res;
function fillArray(res, a) {
if (Array.isArray(a)) {
for (let i=0; i<a.length; i++) {
fillArray(res, a[i]);
}
} else {
res.push(a);
}
}
}
function normalize(n, prime) {
let res = BigInt(n) % prime
if (res < 0) res += prime
return res
}
function fnvHash(str) {
const uint64_max = BigInt(2) ** BigInt(64);
let hash = BigInt("0xCBF29CE484222325");
for (var i = 0; i < str.length; i++) {
hash ^= BigInt(str[i].charCodeAt());
hash *= BigInt(0x100000001B3);
hash %= uint64_max;
}
let shash = hash.toString(16);
let n = 16 - shash.length;
shash = '0'.repeat(n).concat(shash);
return shash;
}

+ 0
- 1
test-vectors/input.json

@ -1 +0,0 @@
{ "a": 3, "b": 11 }

+ 0
- 3
test-vectors/mycircuit.sym

@ -1,3 +0,0 @@
1,2,0,main.a
2,3,0,main.b
3,1,0,main.c

+ 20
- 0
test-vectors/mycircuit_js/generate_witness.js

@ -0,0 +1,20 @@
const wc = require("./witness_calculator.js");
const { readFileSync, writeFile } = require("fs");
if (process.argv.length != 5) {
console.log("Usage: node generate_witness.js <file.wasm> <input.json> <output.wtns>");
} else {
const input = JSON.parse(readFileSync(process.argv[3], "utf8"));
const buffer = readFileSync(process.argv[2]);
wc(buffer).then(async witnessCalculator => {
// const w= await witnessCalculator.calculateWitness(input,0);
// for (let i=0; i< w.length; i++){
// console.log(w[i]);
// }
const buff= await witnessCalculator.calculateWTNSBin(input,0);
writeFile(process.argv[4], buff, function(err) {
if (err) throw err;
});
});
}

test-vectors/mycircuit.wasm → test-vectors/mycircuit_js/mycircuit.wasm


+ 337
- 0
test-vectors/mycircuit_js/witness_calculator.js

@ -0,0 +1,337 @@
module.exports = async function builder(code, options) {
options = options || {};
let wasmModule;
try {
wasmModule = await WebAssembly.compile(code);
} catch (err) {
console.log(err);
console.log("\nTry to run circom --c in order to generate c++ code instead\n");
throw new Error(err);
}
let wc;
let errStr = "";
let msgStr = "";
const instance = await WebAssembly.instantiate(wasmModule, {
runtime: {
exceptionHandler : function(code) {
let err;
if (code == 1) {
err = "Signal not found.\n";
} else if (code == 2) {
err = "Too many signals set.\n";
} else if (code == 3) {
err = "Signal already set.\n";
} else if (code == 4) {
err = "Assert Failed.\n";
} else if (code == 5) {
err = "Not enough memory.\n";
} else if (code == 6) {
err = "Input signal array access exceeds the size.\n";
} else {
err = "Unknown error.\n";
}
throw new Error(err + errStr);
},
printErrorMessage : function() {
errStr += getMessage() + "\n";
// console.error(getMessage());
},
writeBufferMessage : function() {
const msg = getMessage();
// Any calls to `log()` will always end with a `\n`, so that's when we print and reset
if (msg === "\n") {
console.log(msgStr);
msgStr = "";
} else {
// If we've buffered other content, put a space in between the items
if (msgStr !== "") {
msgStr += " "
}
// Then append the message to the message we are creating
msgStr += msg;
}
},
showSharedRWMemory : function() {
printSharedRWMemory ();
}
}
});
const sanityCheck =
options
// options &&
// (
// options.sanityCheck ||
// options.logGetSignal ||
// options.logSetSignal ||
// options.logStartComponent ||
// options.logFinishComponent
// );
wc = new WitnessCalculator(instance, sanityCheck);
return wc;
function getMessage() {
var message = "";
var c = instance.exports.getMessageChar();
while ( c != 0 ) {
message += String.fromCharCode(c);
c = instance.exports.getMessageChar();
}
return message;
}
function printSharedRWMemory () {
const shared_rw_memory_size = instance.exports.getFieldNumLen32();
const arr = new Uint32Array(shared_rw_memory_size);
for (let j=0; j<shared_rw_memory_size; j++) {
arr[shared_rw_memory_size-1-j] = instance.exports.readSharedRWMemory(j);
}
// If we've buffered other content, put a space in between the items
if (msgStr !== "") {
msgStr += " "
}
// Then append the value to the message we are creating
msgStr += (fromArray32(arr).toString());
}
};
class WitnessCalculator {
constructor(instance, sanityCheck) {
this.instance = instance;
this.version = this.instance.exports.getVersion();
this.n32 = this.instance.exports.getFieldNumLen32();
this.instance.exports.getRawPrime();
const arr = new Uint32Array(this.n32);
for (let i=0; i<this.n32; i++) {
arr[this.n32-1-i] = this.instance.exports.readSharedRWMemory(i);
}
this.prime = fromArray32(arr);
this.witnessSize = this.instance.exports.getWitnessSize();
this.sanityCheck = sanityCheck;
}
circom_version() {
return this.instance.exports.getVersion();
}
async _doCalculateWitness(input, sanityCheck) {
//input is assumed to be a map from signals to arrays of bigints
this.instance.exports.init((this.sanityCheck || sanityCheck) ? 1 : 0);
const keys = Object.keys(input);
var input_counter = 0;
keys.forEach( (k) => {
const h = fnvHash(k);
const hMSB = parseInt(h.slice(0,8), 16);
const hLSB = parseInt(h.slice(8,16), 16);
const fArr = flatArray(input[k]);
let signalSize = this.instance.exports.getInputSignalSize(hMSB, hLSB);
if (signalSize < 0){
throw new Error(`Signal ${k} not found\n`);
}
if (fArr.length < signalSize) {
throw new Error(`Not enough values for input signal ${k}\n`);
}
if (fArr.length > signalSize) {
throw new Error(`Too many values for input signal ${k}\n`);
}
for (let i=0; i<fArr.length; i++) {
const arrFr = toArray32(normalize(fArr[i],this.prime),this.n32)
for (let j=0; j<this.n32; j++) {
this.instance.exports.writeSharedRWMemory(j,arrFr[this.n32-1-j]);
}
try {
this.instance.exports.setInputSignal(hMSB, hLSB,i);
input_counter++;
} catch (err) {
// console.log(`After adding signal ${i} of ${k}`)
throw new Error(err);
}
}
});
if (input_counter < this.instance.exports.getInputSize()) {
throw new Error(`Not all inputs have been set. Only ${input_counter} out of ${this.instance.exports.getInputSize()}`);
}
}
async calculateWitness(input, sanityCheck) {
const w = [];
await this._doCalculateWitness(input, sanityCheck);
for (let i=0; i<this.witnessSize; i++) {
this.instance.exports.getWitness(i);
const arr = new Uint32Array(this.n32);
for (let j=0; j<this.n32; j++) {
arr[this.n32-1-j] = this.instance.exports.readSharedRWMemory(j);
}
w.push(fromArray32(arr));
}
return w;
}
async calculateBinWitness(input, sanityCheck) {
const buff32 = new Uint32Array(this.witnessSize*this.n32);
const buff = new Uint8Array( buff32.buffer);
await this._doCalculateWitness(input, sanityCheck);
for (let i=0; i<this.witnessSize; i++) {
this.instance.exports.getWitness(i);
const pos = i*this.n32;
for (let j=0; j<this.n32; j++) {
buff32[pos+j] = this.instance.exports.readSharedRWMemory(j);
}
}
return buff;
}
async calculateWTNSBin(input, sanityCheck) {
const buff32 = new Uint32Array(this.witnessSize*this.n32+this.n32+11);
const buff = new Uint8Array( buff32.buffer);
await this._doCalculateWitness(input, sanityCheck);
//"wtns"
buff[0] = "w".charCodeAt(0)
buff[1] = "t".charCodeAt(0)
buff[2] = "n".charCodeAt(0)
buff[3] = "s".charCodeAt(0)
//version 2
buff32[1] = 2;
//number of sections: 2
buff32[2] = 2;
//id section 1
buff32[3] = 1;
const n8 = this.n32*4;
//id section 1 length in 64bytes
const idSection1length = 8 + n8;
const idSection1lengthHex = idSection1length.toString(16);
buff32[4] = parseInt(idSection1lengthHex.slice(0,8), 16);
buff32[5] = parseInt(idSection1lengthHex.slice(8,16), 16);
//this.n32
buff32[6] = n8;
//prime number
this.instance.exports.getRawPrime();
var pos = 7;
for (let j=0; j<this.n32; j++) {
buff32[pos+j] = this.instance.exports.readSharedRWMemory(j);
}
pos += this.n32;
// witness size
buff32[pos] = this.witnessSize;
pos++;
//id section 2
buff32[pos] = 2;
pos++;
// section 2 length
const idSection2length = n8*this.witnessSize;
const idSection2lengthHex = idSection2length.toString(16);
buff32[pos] = parseInt(idSection2lengthHex.slice(0,8), 16);
buff32[pos+1] = parseInt(idSection2lengthHex.slice(8,16), 16);
pos += 2;
for (let i=0; i<this.witnessSize; i++) {
this.instance.exports.getWitness(i);
for (let j=0; j<this.n32; j++) {
buff32[pos+j] = this.instance.exports.readSharedRWMemory(j);
}
pos += this.n32;
}
return buff;
}
}
function toArray32(rem,size) {
const res = []; //new Uint32Array(size); //has no unshift
const radix = BigInt(0x100000000);
while (rem) {
res.unshift( Number(rem % radix));
rem = rem / radix;
}
if (size) {
var i = size - res.length;
while (i>0) {
res.unshift(0);
i--;
}
}
return res;
}
function fromArray32(arr) { //returns a BigInt
var res = BigInt(0);
const radix = BigInt(0x100000000);
for (let i = 0; i<arr.length; i++) {
res = res*radix + BigInt(arr[i]);
}
return res;
}
function flatArray(a) {
var res = [];
fillArray(res, a);
return res;
function fillArray(res, a) {
if (Array.isArray(a)) {
for (let i=0; i<a.length; i++) {
fillArray(res, a[i]);
}
} else {
res.push(a);
}
}
}
function normalize(n, prime) {
let res = BigInt(n) % prime
if (res < 0) res += prime
return res
}
function fnvHash(str) {
const uint64_max = BigInt(2) ** BigInt(64);
let hash = BigInt("0xCBF29CE484222325");
for (var i = 0; i < str.length; i++) {
hash ^= BigInt(str[i].charCodeAt());
hash *= BigInt(0x100000001B3);
hash %= uint64_max;
}
let shash = hash.toString(16);
let n = 16 - shash.length;
shash = '0'.repeat(n).concat(shash);
return shash;
}

+ 0
- 14
test-vectors/nconstraints.circom

@ -1,14 +0,0 @@
template A(n) {
signal input in;
signal output out;
signal intermediate[n];
intermediate[0] <== in;
for (var i=1; i<n; i++) {
intermediate[i] <== intermediate[i-1] * intermediate[i-1] + i;
}
out <== intermediate[n-1];
}
component main = A({{N}});

+ 0
- 28
test-vectors/proof.json

@ -1,28 +0,0 @@
{
"pi_a": [
"6235746210673106891683313862449025023627555115162992763714613342703079170148",
"12399711040178466467332477784020211067450597599035925008336813728555144120335",
"1"
],
"pi_b": [
[
"3878778368997395576585378205610237973645840367459368364069435490380759882761",
"6372446288114997398874714591076628465205914797783709795970421045876437438845"
],
[
"1848758415443668505660007055104065117685874818267116126442518003813688485119",
"13151381207181352787620244234186261096498266850828100859417113864178798435289"
],
[
"1",
"0"
]
],
"pi_c": [
"20702909955866523755177574141774962608204777398014771961964213040023134853917",
"11380617408700662148925472638480792573061992967930438232337416544412668869948",
"1"
],
"protocol": "groth16",
"curve": "bn128"
}

+ 0
- 3
test-vectors/public.json

@ -1,3 +0,0 @@
[
"20227169454906525228014700210166866282343639252280745415680311389428188660505"
]

+ 1
- 1
test-vectors/safe-circuit.sh

@ -8,7 +8,7 @@ fi
cd "$DIR"
echo "compiling"
circom circuit2.circom --wasm
circom circuit2.circom --wasm --r1cs
node circuit2_js/generate_witness.js circuit2_js/circuit2.wasm mycircuit-input1.json circuit2_js/witness.wtns

BIN
test-vectors/witness.wtns


+ 4
- 4
tests/groth16.rs

@ -75,8 +75,8 @@ async fn groth16_proof_wrong_input() -> Result<()> {
#[tokio::test]
async fn groth16_proof_circom() -> Result<()> {
let cfg = CircomConfig::<Bn254>::new(
"./test-vectors/circom2_multiplier2.wasm",
"./test-vectors/circom2_multiplier2.r1cs",
"test-vectors/circuit2_js/circuit2.wasm",
"test-vectors/circuit2.r1cs",
)?;
let mut builder = CircomBuilder::new(cfg);
builder.push_input("a", 3);
@ -106,8 +106,8 @@ async fn groth16_proof_circom() -> Result<()> {
#[tokio::test]
async fn witness_generation_circom() -> Result<()> {
let cfg = CircomConfig::<Bn254>::new(
"./test-vectors/circom2_multiplier2.wasm",
"./test-vectors/circom2_multiplier2.r1cs",
"test-vectors/circuit2_js/circuit2.wasm",
"test-vectors/circuit2.r1cs",
)?;
let mut builder = CircomBuilder::new(cfg);
builder.push_input("a", 3);

+ 1
- 1
tests/solidity.rs

@ -17,7 +17,7 @@ use std::{convert::TryFrom, sync::Arc};
#[tokio::test]
async fn solidity_verifier() -> Result<()> {
let cfg = CircomConfig::<Bn254>::new(
"./test-vectors/mycircuit.wasm",
"./test-vectors/mycircuit_js/mycircuit.wasm",
"./test-vectors/mycircuit.r1cs",
)?;
let mut builder = CircomBuilder::new(cfg);

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