Merge pull request #13 from apache/issue10

tree: 82bef1546d930edc98b992dd254c91505b653803
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  12. docs/
  13. examples/
  14. index.js
  15. package.json
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MCJS - Milagro Crypto JavaScript

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MCJS - Milagro Crypto JavaScript

  • MCJS is a standards compliant JavaScript cryptographic library with no external dependencies except for the random seed source.

  • MCJS supports the standards for RSA, ECDH, ECIES, ECDSA and M-PIN, AES-GCM encryption/decryption, SHA256, SHA384, SHA512 and SHA3 hash functions and a cryptographically secure random number generator. Furthermore we recently added New Hope, a post-quantum key exchange.

  • MCJS is Node.js compatible and browser compatible (see some examples below).

Install and run tests

Node.js (minimum v6.9.5) and npm are required in order to build the library and run the tests. Install also the node.js modules required with the command

npm install

Run all the tests with the following command

npm test

Quick Start

Elliptic Curves

Suppose you want to implement ECDH with NIST256 elliptic curve. First you need to initialize the context:

var CTX = require("milagro-crypto-js");

var ctx = new CTX("NIST256");

then you can call the functions as follows:


If you need to use more than one elliptic curve in the same script you only need to initialize two different contexts, for example

var ctx1 = new CTX("NIST256");
var ctx2 = new CTX("C25519");

The following is the list of all elliptic curves supported by MCJS

['ED25519', 'C25519', 'SECP256K1', 'NIST256', 'NIST384', 'BRAINPOOL', 'ANSSI', 'HIFIVE', 'GOLDILOCKS', 'C41417', 'NIST521', 'NUMS256W', 'NUMS256E', 'NUMS384W', 'NUMS384E', 'NUMS512W', 'NUMS512E', 'FP256BN', 'FP512BN', 'BN254', 'BN254CX', 'BLS383', 'BLS24', 'BLS48', 'BLS381', 'BLS461'];


This library supports also RSA encryption/decryption and RSA signature. The following is a quick example on how to use RSA. First initialize the context

var CTX = require("milagro-crypto-js");

var ctx = new CTX("RSA2048");

then you can call the RSA functions as follows:


The following is the list of all the RSA security level supported by MCJS


Other functions

MCJS supports SHA256, SHA384, SHA512, AES-GCM encryption and Marsaglia & Zaman random number generator. Those functions are contained in every context initialized with RSA or with an elliptic curve. If you want to create a context supporting only those general functions then initialize it with no parameter as follows:

var CTX = require("milagro-crypto-js");

var ctx = new CTX();

Run examples

Node.js examples are provided - please see ./examples/node. Use the following command to run an example

node ./examples/node/example_ECC_NIST256.js


The library source code is browser compatible. The browser examples are located in ./examples/browser.


The tests can be run using Docker:

docker build -t mcjs:builder .
docker run --rm mcjs:builder 

Crypto Notice

This distribution includes cryptographic software. The country in which you currently reside may have restrictions on the import, possession, use, and/or re-export to another country, of encryption software. BEFORE using any encryption software, please check your country's laws, regulations and policies concerning the import, possession, or use, and re-export of encryption software, to see if this is permitted. See for more information.

The Apache Software Foundation has classified this software as Export Commodity Control Number (ECCN) 5D002, which includes information security software using or performing cryptographic functions with asymmetric algorithms. The form and manner of this Apache Software Foundation distribution makes it eligible for export under the “publicly available” Section 742.15(b) exemption (see the BIS Export Administration Regulations, Section 742.15(b)) for both object code and source code.


The following people have contributed to milagro-crypto-js

  • Mike Scott
  • Kealan McCusker
  • Alessandro Budroni
  • Samuele Andreoli

Please add yourself here if you make or have made a contribution.

Making a Contribution

  1. Check for open issues or start a discussion around a feature idea or a bug by sending a mail to
  2. Fork the repository to start making your changes. Please use the “development” branch as a basis.
  3. Write a test which shows that the bug was fixed or that the feature works as expected.
  4. Make a pull request with a reference to the issue