/SHIELD

Shield is a development framework for circom developers. The core reason is to provide libraries, plugins, and testing tools to ensure code quality and security.

Primary LanguageTypeScriptMIT LicenseMIT

SHIELD

shield

The shield is a development framework for circom developers, but we plan it for other languages such as CAIRO, SNARKYJS, etc.

The core reason is to provide libraries, plugins, and testing tools to ensure code quality and security.

Circomlib (which is the most popular library to build circom circuits) has over 1800 weekly downloads.

Pre-Requisite

You have to setup the environment before using it and install the following to get started with shield cli.

Windows

In future versions, we will provide a script to setup the environment with single command execution.

Linux/Mac

Installation

Install shield globally with npm:

$ npm i -g @xorddotcom/shield

Usage

Getting Started

To create a sample project, run In future versions, we will provide a script to setup the environment with single command execution.

$ shield init

create a JavaScript, TypeScript project, or an empty shield.config.js

? What do you want to do? …
❯ Create a JavaScript project
  Create a TypeScript project
  Create an empty shield.config.js
  Quit

Compiling your circuits

$ shield compile
Usage: shield compile [options]

compiles the circuits to verifer contracts

Options:
  -c, --circuit <value>  specific circuit to compile
  -h, --help             display help for command

Basic configuration

Set up your project with the following minimal shield.config.js at the root.

module.exports = {
  // (optional) solidity version for compiled contracts, defaults to `^0.8.0`
  solidity: "^0.8.0",
  circom: {
    // (optional) Base path for files being read, defaults to `./circuits/`
    inputBasePath: "./circuits/",
    // (optional) Base path for files being output, defaults to `./circuits/`
    outputBasePath: "./build/",
    // (required) The final ptau file, relative to inputBasePath, from a Phase 1 ceremony
    ptau: "powersOfTau28_hez_final_10.ptau",
    // (required) Each object in this array refers to a separate circuit
    circuits: [
      {
        // (required) The name of the circuit
        name: "demo",
        // (optional) Protocol used to build circuits ("groth16" or "plonk"), defaults to "groth16"
        protocol: "groth16",
        // (optional) Input path for circuit file, inferred from `name` if unspecified
        circuit: "demo.circom",
        // (optional) Output path for zkey file, inferred from `name` if unspecified
        zkey: "demo.zkey",
        // (optional) Input path for input signal data, inferred from `name` if unspecified
        input: "input.json",
        // // (optional) Output path for witness file, inferred from `name` if unspecified
        witness: "demo.json",
      },
    ],
  },
};

Your project structure should look like this:

.
├── circuits
   └── demo.circom
└── shield.config.js

Now, you can use shield compile to compile the circuits and output demo_Verifier.sol, demo.zkey,demo.wasm and Verifier contract interface files into their respective directories:

.
├── build
   └── demo
       ├── circuit_0000.zkey
       ├── demo_js
          ├── demo.wasm
          ├── generate_witness.js
          └── witness_calculator.js
       ├── demo.r1cs
       ├── demo.sym
       ├── demo.zkey
       └── verification_key.json
├── circuits
   ├── demo.circom
   ├── input.json
   ├── demo.wtns
   ├── demo.json
   └── powersOfTau28_hez_final_10.ptau
├── contracts
   ├── demo_Verifier.sol
   └── interfaces
       └── IdemoVerifier.sol
└── shield.config.js

Debugging your circuits

Debug feature allows you to display the circom circuits logs, input/output signals logs, and the passed/failed Constraints along with signals calculations.

To debug with an error stack trace and generate a witness JSON/Wtns file, run:

$ shield debug
Usage: shield debug [options]

debug (display input/output signals, circuit logs, and passed/failed constraints ) and generate a witness file of the circuit

Options:
  -c, --circuit <value>  specific circuit to debug
  -h, --help             display help for command

Example debug logs


Input Signals:

┌───────────┬────────┐
│ (Signals) │ Values │
├───────────┼────────┤
│    c      │  '4'   │
│    a      │  '2'   │
│    b      │  '2'   │
└───────────┴────────┘

No output signal found:

Constraint no 1: passed

=> ((-1)*signal2) * (1*signal3) = ((-1)*signal1)

=> ((-1)*2) * (1*2) = ((-1)*4)

Related signals:

signal2: main.a, value: 2

signal3: main.b, value: 2

signal1: main.c, value: 4


Contribution

For making a contribution refer to CONTRIBUTION.md file.

License

MIT

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