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Cryptographic Key Pair Library for Linked Data (crypto-ld)

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A Javascript library for generating and performing common operations on Linked Data cryptographic key pairs.

Table of Contents

Background

See also (related specs):

Supported Key Types (crypto-ld versions 4+)

This library provides general Linked Data cryptographic key generation functionality, but does not support any individual key type by default.

To use it, you must install individual driver libraries for each cryptographic key type. The following libraries are currently supported.

TypeCrypto SuiteLibraryUsage
Ed25519Ed25519VerificationKey2020 (recommended), Ed25519VerificationKey2018 (legacy)ed25519-verification-key-2020 >=1.0 (recommended), ed25519-verification-key-2018 >=2.0 (legacy)Signatures, VCs, zCaps, DIDAuth
X25519/Curve25519X25519KeyAgreementKey2019x25519-key-agreement-key-2019 >=4.0ECDH key agreement, JWE/CWE encryption with minimal-cipher
Secp256k1EcdsaSecp256k1VerificationKey2019ecdsa-secp256k1-verification-key-2019Signatures, VCs, zCaps, DIDAuth, HD Wallets

Legacy Supported Key Types (crypto-ld versions <=3)

In the previous version (v3.x) of crypto-ld, the RSA and Ed25519 suites were bundled with crypto-ld (as opposed to residing in standalone packages). For previous usage instructions of bundled RSA, Ed25519 and standalone Curve25519/x25519-key-pair type keys, see the README for crypto-ld v3.9.

Choosing a Key Type

For digital signatures using the jsonld-signatures, signing of Verifiable Credentials using vc-js, authorization capabilities, and DIDAuth operations:

For key agreement protocols for encryption operations:

Security

As with most security- and cryptography-related tools, the overall security of your system will largely depend on your design decisions.

Install

To install locally (for development):

git clone https://github.com/digitalbazaar/crypto-ld.git
cd crypto-ld
npm install

Usage

Installing Support for Key Types

In order to use this library, you will need to import and install driver libraries for key types you'll be working with via the use() method.

To use the library with one or more supported suites:

import {Ed25519VerificationKey2020} from '@digitalbazaar/ed25519-verification-key-2020';
import {X25519KeyAgreementKey2020} from '@digitalbazaar/x25519-key-agreement-key-2020';

import {CryptoLD} from 'crypto-ld';
const cryptoLd = new CryptoLD();

cryptoLd.use(Ed25519VerificationKey2020);
cryptoLd.use(X25519KeyAgreementKey2020);

const edKeyPair = await cryptoLd.generate({type: 'Ed25519VerificationKey2020'});

Generating a new public/private key pair

To generate a new public/private key pair: cryptoLd.generate(options):

Importing a key pair from storage

To create an instance of a public/private key pair from data imported from storage, use cryptoLd.from():

const serializedKeyPair = { ... };

const keyPair = await cryptoLd.from(serializedKeyPair);

Note that only installed key types are supported, if you try to create a key pair via from() for an unsupported type, an error will be thrown.

Common individual key pair operations

The full range of operations will depend on key type. Here are some common operations supported by all key types.

Exporting the public key only

To export just the public key of a pair - use export():

keyPair.export({publicKey: true});
// ->
{
  type: 'Ed25519VerificationKey2020',
  id: 'did:example:1234#z6MkszZtxCmA2Ce4vUV132PCuLQmwnaDD5mw2L23fGNnsiX3',
  controller: 'did:example:1234',
  publicKeyMultibase: 'zEYJrMxWigf9boyeJMTRN4Ern8DJMoCXaLK77pzQmxVjf'
}

Exporting the full public-private key pair

To export the full key pair, including private key (warning: this should be a carefully considered operation, best left to dedicated Key Management Systems):

keyPair.export({publicKey: true, privateKey: true});
// ->
{
  type: 'Ed25519VerificationKey2020',
  id: 'did:example:1234#z6MkszZtxCmA2Ce4vUV132PCuLQmwnaDD5mw2L23fGNnsiX3',
  controller: 'did:example:1234',
  publicKeyMultibase: 'zEYJrMxWigf9boyeJMTRN4Ern8DJMoCXaLK77pzQmxVjf',
  privateKeyMultibase: 'z4E7Q4neNHwv3pXUNzUjzc6TTYspqn9Aw6vakpRKpbVrCzwKWD4hQDHnxuhfrTaMjnR8BTp9NeUvJiwJoSUM6xHAZ'
}

Generating and verifying key fingerprint

To generate a fingerprint:

keyPair.fingerprint();
// ->
'z6MkszZtxCmA2Ce4vUV132PCuLQmwnaDD5mw2L23fGNnsiX3'

To verify a fingerprint:

keyPair.verifyFingerprint({
  fingerprint: 'z6MkszZtxCmA2Ce4vUV132PCuLQmwnaDD5mw2L23fGNnsiX3'
});
// ->
{ valid: true }

Operations on signature-related key pairs

For key pairs that are related to signature and verification (that extend from the LDVerifierKeyPair class), two additional operations must be supported:

Creating a signer function

In order to perform a cryptographic signature, you need to create a sign function, and then invoke it.

const keyPair = await cryptoLd.generate({type: 'Ed25519VerificationKey2020'});

const {sign} = keyPair.signer();

const data = 'test data to sign';
const signatureValue = await sign({data});

Creating a verifier function

In order to verify a cryptographic signature, you need to create a verify function, and then invoke it (passing it the data to verify, and the signature).

const keyPair = await cryptoLd.generate({type: 'Ed25519VerificationKey2020'});

const {verify} = keyPair.verifier();

const {valid} = await verify({data, signature});

Contribute

See the contribute file!

PRs accepted.

If editing the Readme, please conform to the standard-readme specification.

Commercial Support

Commercial support for this library is available upon request from Digital Bazaar: support@digitalbazaar.com

License

New BSD License (3-clause) © Digital Bazaar