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@digitalcredentials/vc

Verifiable Credentials JavaScript library.

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Verifiable Credentials JS Library (@digitalcredentials/vc)

NPM Version

A Javascript library for issuing and verifying Verifiable Credentials.

Table of Contents

Security

As with most security- and cryptography-related tools, the overall security of your system will largely depend on your design decisions (which key types you will use, where you'll store the private keys, what you put into your credentials, and so on.)

Background

(Forked from digitalbazaar/vc v1.0.0 to provide ReactNative compatibility.)

This library is a Javascript (Node.js and browser) implementation of the Verifiable Credentials Data Model 1.0 specification (the JWT serialization is not currently supported).

It allows you to perform the following basic operations:

  1. Signing (issuing) a Verifiable Credential (VC).
  2. Creating a Verifiable Presentation (VP), signed or unsigned
  3. Verifying a VP
  4. Verifying a standalone VC

Pre-requisites: Usage of this library assumes you have the ability to do the following:

  • Generate LD key pairs and signature suites
  • Publish the corresponding public keys somewhere that is accessible to the verifier.
  • Make sure your custom @contexts, verification methods (such as public keys) and their corresponding controller documents, and any other resolvable objects, are reachable via a documentLoader.

Install

  • Browsers and Node.js 18+ are supported.

To install from NPM:

npm install @digitalbazaar/vc

To install locally (for development):

git clone https://github.com/digitalcredentials/vc.git
cd vc
npm install

Usage

Setting up a signature suite

For signing, when setting up a signature suite, you will need to pass in a key pair containing a private key.

import vc from '@digitalcredentials/vc';

// Required to set up a suite instance with private key
import {Ed25519VerificationKey2020} from
  '@digitalcredentials/ed25519-verification-key-2020';
import {Ed25519Signature2020} from '@digitalcredentials/ed25519-signature-2020';

const keyPair = await Ed25519VerificationKey2020.generate();

const suite = new Ed25519Signature2020({key: keyPair});

Issuing a Verifiable Credential

Pre-requisites:

  • You have a private key (with id and controller) and corresponding suite
  • If you're using a custom @context, make sure it's resolvable
  • (Recommended) You have a strategy for where to publish your Controller Document and Public Key
const vc = require('@digitalcredentials/vc');

// Sample unsigned credential
const credential = {
  "@context": [
    "https://www.w3.org/2018/credentials/v1",
    "https://www.w3.org/2018/credentials/examples/v1"
  ],
  "id": "https://example.com/credentials/1872",
  "type": ["VerifiableCredential", "AlumniCredential"],
  "issuer": "https://example.edu/issuers/565049",
  "issuanceDate": "2010-01-01T19:23:24Z",
  "credentialSubject": {
    "id": "did:example:ebfeb1f712ebc6f1c276e12ec21",
    "alumniOf": "Example University"
  }
};

const signedVC = await vc.issue({credential, suite, documentLoader});
console.log(JSON.stringify(signedVC, null, 2));

Issuing a Selective Disclosure Verifiable Credential

Pre-requisites:

  • You have a private key (with id and controller) and corresponding suite
  • You have are using a cryptosuite that supports selective disclosure, such as ecdsa-sd-2023
  • If you're using a custom @context, make sure it's resolvable
  • (Recommended) You have a strategy for where to publish your Controller Document and Public Key
import * as vc from '@digitalbazaar/vc';
import * as ecdsaSd2023Cryptosuite from
  '@digitalbazaar/ecdsa-sd-2023-cryptosuite';
import {DataIntegrityProof} from '@digitalbazaar/data-integrity';

const ecdsaKeyPair = await EcdsaMultikey.generate({
  curve: 'P-256',
  id: 'https://example.edu/issuers/keys/2',
  controller: 'https://example.edu/issuers/565049'
});

// sample unsigned credential
const credential = {
  "@context": [
    "https://www.w3.org/2018/credentials/v1",
    "https://www.w3.org/2018/credentials/examples/v1"
  ],
  "id": "https://example.com/credentials/1872",
  "type": ["VerifiableCredential", "AlumniCredential"],
  "issuer": "https://example.edu/issuers/565049",
  "issuanceDate": "2010-01-01T19:23:24Z",
  "credentialSubject": {
    "id": "did:example:ebfeb1f712ebc6f1c276e12ec21",
    "alumniOf": "Example University"
  }
};

// setup ecdsa-sd-2023 suite for signing selective disclosure VCs
const suite = new DataIntegrityProof({
  signer: ecdsaKeyPair.signer(),
  cryptosuite: createSignCryptosuite({
    // require the `issuer` and `issuanceDate` fields to always be disclosed
    // by the holder (presenter)
    mandatoryPointers: [
      '/issuanceDate',
      '/issuer'
    ]
  })
});
// use a proof ID to enable it to be found and transformed into a disclosure
// proof by the holder later
const proofId = `urn:uuid:${uuid()}`;
suite.proof = {id: proofId};

const signedVC = await vc.issue({credential, suite, documentLoader});
console.log(JSON.stringify(signedVC, null, 2));

Deriving a Selective Disclosure Verifiable Credential

Note: This step is performed as a holder of a verifiable credential, not as an issuer.

Pre-requisites:

  • You have a verifiable credential that was issued using a cryptosuite that supports selective disclosure, such as ecdsa-sd-2023
  • If you're using a custom @context, make sure it's resolvable
import * as vc from '@digitalbazaar/vc';
import * as ecdsaSd2023Cryptosuite from
  '@digitalbazaar/ecdsa-sd-2023-cryptosuite';
import {DataIntegrityProof} from '@digitalbazaar/data-integrity';

const {
  createDiscloseCryptosuite,
  createSignCryptosuite,
  createVerifyCryptosuite
} = ecdsaSd2023Cryptosuite;

// sample signed credential
const credential = {
  "@context": [
    "https://www.w3.org/2018/credentials/v1",
    "https://www.w3.org/2018/credentials/examples/v1",
    "https://w3id.org/security/data-integrity/v2"
  ],
  "id": "http://example.edu/credentials/1872",
  "type": [
    "VerifiableCredential",
    "AlumniCredential"
  ],
  "issuer": "https://example.edu/issuers/565049",
  "issuanceDate": "2010-01-01T19:23:24Z",
  "credentialSubject": {
    "id": "did:example:ebfeb1f712ebc6f1c276e12ec21",
    "alumniOf": "<span lang=\"en\">Example University</span>"
  },
  "proof": {
    "id": "urn:uuid:2ef8c7ce-a4da-44b4-ba7f-3d43eaf1e50c",
    "type": "DataIntegrityProof",
    "created": "2023-11-13T22:58:06Z",
    "verificationMethod": "https://example.edu/issuers/keys/2",
    "cryptosuite": "ecdsa-sd-2023",
    "proofPurpose": "assertionMethod",
    "proofValue": "u2V0AhVhAtYPKUQxwULXzMdsAfqtipsiX6YEPURYSBFYxoFY-v0vCPyAs1Ckyy61Wtk3xZWyBGNaEr3w0wQiJHHd5B9uR-1gjgCQCVtFPMk-ECi0CJFYv_GTjCChf8St0FQjuExTAnwP0-ipYIOHSun3YqabOfNe2DYFkHBTZa0Csf1a7YUDW8hhsOHqTglhA8aqnyanT-Ybo2-aHBTcI-UmHX0iluGb2IxoHLLhQoOPm2rDW0eB04Fa2Dh6WMKoOl_Bz3wZZDGQ31XoGrQvgIlhAo8qspvC-QQ-xI3KADiA12sO5LRsZ7hl9ozoJEECVsDOKlxWd-dhices5b2ZQIiiRE9XxxJx8YuwCMoD2bRLbOIJtL2lzc3VhbmNlRGF0ZWcvaXNzdWVy"
  }
};

// note no `signer` needed; the selective disclosure credential will be
// derived from the base proof already provided by the issuer
const suite = new DataIntegrityProof({
  cryptosuite: createDiscloseCryptosuite({
    // the ID of the base proof to convert to a disclosure proof
    proofId: 'urn:uuid:da088899-3439-41ea-a580-af3f1cf98cd3',
    // selectively disclose the entire credential subject; different JSON
    // pointers could be provided to selectively disclose different information;
    // the issuer will have mandatory fields that will be automatically
    // disclosed such as the `issuer` and `issuanceDate` fields
    selectivePointers: [
      '/credentialSubject'
    ]
  })
});

const derivedVC = await vc.derive({
  verifiableCredential, suite, documentLoader
});
console.log(JSON.stringify(derivedVC, null, 2));

Creating a Verifiable Presentation

Pre-requisites:

  • You have the requisite private keys (with id and controller) and corresponding suites
  • If you're using a custom @context, make sure it's resolvable
  • (Recommended) You have a strategy for where to publish your Controller Documents and Public Keys
Creating an unsigned presentation

To create a presentation out of one or more verifiable credentials, you can use the createPresentation() convenience function. Alternatively, you can create the presentation object manually (don't forget to set the @context and type properties).

To create a verifiable presentation with a custom @context field use a custom documentLoader

const verifiableCredential = [vc1, vc2]; // either array or single object

// optional `id` and `holder`
const id = 'ebc6f1c2';
const holder = 'did:ex:12345';

const presentation = vc.createPresentation({
  verifiableCredential, id, holder
});

console.log(JSON.stringify(presentation, null, 2));
// ->
{
  "@context": [
    "https://www.w3.org/2018/credentials/v1"
  ],
  "type": [
    "VerifiablePresentation"
  ],
  "id": "ebc6f1c2",
  "holder": "did:ex:12345",
  "verifiableCredential": [
    // vc1:
    {
      "@context": [
        "https://www.w3.org/2018/credentials/v1",
        "https://www.w3.org/2018/credentials/examples/v1"
      ],
      "id": "http://example.edu/credentials/1872",
      "type": [
        "VerifiableCredential",
        "AlumniCredential"
      ],
      "issuer": "https://example.edu/issuers/565049",
      "issuanceDate": "2010-01-01T19:23:24Z",
      "credentialSubject": {
        "id": "did:example:ebfeb1f712ebc6f1c276e12ec21",
        "alumniOf": "<span lang=\"en\">Example University</span>"
      },
      "proof": {
        "type": "Ed25519Signature2018",
        "created": "2020-02-03T17:23:49Z",
        "jws": "eyJhbGciOiJFZERTQSIsImI2NCI6ZmFsc2UsImNyaXQiOlsiYjY0Il19..AUQ3AJ23WM5vMOWNtYKuqZBekRAOUibOMH9XuvOd39my1sO-X9R4QyAXLD2ospssLvIuwmQVhJa-F0xMOnkvBg",
        "proofPurpose": "assertionMethod",
        "verificationMethod": "https://example.edu/issuers/keys/1"
      }
    },
    // vc2 goes here ...
  ]
}

Note that this creates an unsigned presentation (which may be valid for some use cases).

Custom documentLoader

Pre-requisites:

  • You have an existing valid JSON-LD @context.
  • Your custom context is resolvable at an address.
// jsonld-signatures has a secure context loader
// by requiring this first you ensure security
// contexts are loaded from jsonld-signatures
// and not an insecure source.
import vc from '@digitalcredentials/vc';
import { securityLoader } from '@digitalcredentials/security-document-loader';

const documentLoader = securityLoader().build();

const vp = await vc.signPresentation({
  presentation, suite, challenge, documentLoader
});

// or
const signedVC = await vc.issue({credential, suite, documentLoader});

// or
const result = await vc.verifyCredential({credential: signedVC, suite, documentLoader});

Signing the Presentation

Once you've created the presentation (either via createPresentation() or manually), you can sign it using signPresentation():

const vp = await vc.signPresentation({
  presentation, suite, challenge, documentLoader
});

console.log(JSON.stringify(vp, null, 2));
// ->
{
  "@context": [
    "https://www.w3.org/2018/credentials/v1"
  ],
  "type": [
    "VerifiablePresentation"
  ],
  "verifiableCredential": [
    {
      "@context": [
        "https://www.w3.org/2018/credentials/v1",
        "https://www.w3.org/2018/credentials/examples/v1"
      ],
      "id": "http://example.edu/credentials/1872",
      "type": [
        "VerifiableCredential",
        "AlumniCredential"
      ],
      "issuer": "https://example.edu/issuers/565049",
      "issuanceDate": "2010-01-01T19:23:24Z",
      "credentialSubject": {
        "id": "did:example:ebfeb1f712ebc6f1c276e12ec21",
        "alumniOf": "<span lang=\"en\">Example University</span>"
      },
      "proof": {
        "type": "Ed25519Signature2018",
        "created": "2020-02-03T17:23:49Z",
        "jws": "eyJhbGciOiJFZERTQSIsImI2NCI6ZmFsc2UsImNyaXQiOlsiYjY0Il19..AUQ3AJ23WM5vMOWNtYKuqZBekRAOUibOMH9XuvOd39my1sO-X9R4QyAXLD2ospssLvIuwmQVhJa-F0xMOnkvBg",
        "proofPurpose": "assertionMethod",
        "verificationMethod": "https://example.edu/issuers/keys/1"
      }
    }
  ],
  "id": "ebc6f1c2",
  "holder": "did:ex:holder123",
  "proof": {
    "type": "Ed25519Signature2018",
    "created": "2019-02-03T17:23:49Z",
    "challenge": "12ec21",
    "jws": "eyJhbGciOiJFZERTQSIsImI2NCI6ZmFsc2UsImNyaXQiOlsiYjY0Il19..ZO4Lkq8-fOruE4oUvuMaxepGX-vLD2gPyNIsz-iA7X0tzC3_96djaBYDxxl6wD1xKrx0h60NjI9i9p_MxoXkDQ",
    "proofPurpose": "authentication",
    "verificationMethod": "https://example.edu/issuers/keys/1"
  }
}

Verifying a Verifiable Presentation

Pre-requisites:

  • Your custom @contexts, verification methods (like public keys) and their corresponding controller documents are reachable via a documentLoader.

To verify a verifiable presentation:

// challenge has been received from the requesting party - see 'challenge'
// section below
import vc from '@digitalcredentials/vc';
import { securityLoader } from '@digitalcredentials/security-document-loader';

const documentLoader = securityLoader().build();

const result = await vc.verify({presentation, challenge, suite, documentLoader});
// {valid: true}

By default, verify() will throw an error if the proof section is missing. To verify an unsigned presentation, you must set the unsignedPresentation flag:

const result = await vc.verify({
  presentation, suite, documentLoader, unsignedPresentation: true
});
// {valid: true}
challenge parameter

Verifiable Presentations are typically used for authentication purposes. A challenge param (similar to a nonce in OAuth2/OpenID Connect) is provided by the party that's receiving the VP, and serves to prevent presentation replay attacks. The workflow is:

  1. Receiving party asks for the VerifiablePresentation, and provides a challenge parameter.
  2. The client code creating the VP passes in that challenge (from the requesting party), and it gets included in the VP.
  3. The client code passes the VP to the receiving party, which then checks to make sure the challenge is the same as the one it provided in the request in 1).

Verifying a Verifiable Credential

For most situations, Verifiable Credentials will be wrapped in a Verifiable Presentation and the entire VP should be verified. However, this library provides a utility function to verify a Verifiable Credential on its own.

Pre-requisites:

  • Your custom @contexts, verification methods (like public keys) and their corresponding controller documents are reachable via a documentLoader.

To verify a verifiable credential:

const suite = new Ed25519Signature2020();
const result = await vc.verifyCredential({credential: signedVC, suite, documentLoader});
// {valid: true}

To verify a selective disclosure verifiable credential ensure the suite supports it, for example:

import * as ecdsaSd2023Cryptosuite from
  '@digitalbazaar/ecdsa-sd-2023-cryptosuite';
import {DataIntegrityProof} from '@digitalbazaar/data-integrity';

const {
  createDiscloseCryptosuite,
  createSignCryptosuite,
  createVerifyCryptosuite
} = ecdsaSd2023Cryptosuite;

const suite = new DataIntegrityProof({
  cryptosuite: createVerifyCryptosuite()
});
const result = await vc.verifyCredential({credential, suite, documentLoader});
// {valid: true}

To verify a verifiable credential with a custom @context field use a custom documentLoader

Testing

To run Mocha tests:

npm run test-node

To run Karma (in-browser) tests:

npm run test-karma

Contribute

See the contribute file!

PRs accepted.

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

License

  • MIT License - DCC - TypeScript compatibility.
  • New BSD License (3-clause) © 2020-2021 Digital Bazaar - Initial implementation.

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Package last updated on 30 Sep 2024

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