hpke-js

hpke-js

A TypeScript Hybrid Public Key Encryption (HPKE) implementation build on top of Web Cryptography API. This module works on web browsers, Node.js and Deno.

API Documentation

Index

• Supported Features
• Supported Environments
• Warnings and Restrictions
• Installation
  • Web Browser
  • Node.js
  • Deno
• Usage
  • Base mode - for web browsers, Node.js and Deno.
  • Base mode with Single-Shot APIs
  • Base mode with bidirectional encryption
  • Base mode with export-only AEAD
  • PSK mode
  • Auth mode
  • AuthPSK mode
• Contributing
• References

Supported Features

HPKE Modes

Base	PSK	Auth	AuthPSK
✅	✅	✅	✅

Key Encapsulation Machanisms (KEMs)

KEMs	Browser	Node.js	Deno
DHKEM (P-256, HKDF-SHA256)	✅	✅
DHKEM (P-384, HKDF-SHA384)	✅	✅
DHKEM (P-521, HKDF-SHA512)	✅	✅
DHKEM (X25519, HKDF-SHA256)	✅	✅	✅	@stablelib/x25519 is used until Secure Curves is implemented on browsers.
DHKEM (X448, HKDF-SHA512)	✅	✅	✅	x448-js is used until Secure Curves is implemented on browsers.

Key Derivation Functions (KDFs)

KDFs	Browser	Node.js	Deno
HKDF-SHA256	✅	✅	✅
HKDF-SHA384	✅	✅	✅
HKDF-SHA512	✅	✅	✅

Authenticated Encryption with Associated Data (AEAD) Functions

AEADs	Browser	Node.js	Deno
AES-128-GCM	✅	✅	✅
AES-256-GCM	✅	✅	✅
ChaCha20Poly1305	✅	✅	✅	@stablelib/chacha20poly1305 is used.
Export Only	✅	✅	✅

Supported Environments

• Web Browser: Web Cryptography API supported browsers
  • Confirmed: Chrome, Firefox, Edge, Safari, Opera, Vivaldi, Brave
• Node.js: 16.x, 17.x, 18.x
• Deno: 1.x

Warnings and Restrictions

• Although this library has been passed the following test vectors, it has not been formally audited.
  • RFC9180 official test vectors provided on github.com/cfrg/draft-irtf-cfrg-hpke
  • ECDH/X25519/X448 test vectors provided on Project Wycheproof
• The upper limit of the AEAD sequence number is further rounded to JavaScript's MAX_SAFE_INTEGER (2^53-1).

Installation

Web Browser

Followings are how to use with typical CDNs. Other CDNs can be used as well.

Using esm.sh:

<!-- use a specific version -->
<script type="module">
  import * as hpke from "https://esm.sh/hpke-js@0.11.4";
  // ...
</script>

<!-- use the latest stable version -->
<script type="module">
  import * as hpke from "https://esm.sh/hpke-js";
  // ...
</script>

Using unpkg:

<!-- use a specific version -->
<script type="module">
  import * as hpke from "https://unpkg.com/hpke-js@0.11.4/esm/mod.js";
  // ...
</script>

Node.js

Using npm:

npm install hpke-js

Using yarn:

yarn add hpke-js

Deno

Using deno.land:

// use a specific version
import * as hpke from "https://deno.land/x/hpke@v0.11.4/mod.ts";

// use the latest stable version
import * as hpke from "https://deno.land/x/hpke/mod.ts";

Usage

This section shows some typical usage examples.

Base mode

Browsers:

<html>
  <head></head>
  <body>
    <script type="module">
      // import * as hpke from "https://esm.sh/hpke-js@0.11.4";
      import { Kem, Kdf, Aead, CipherSuite } from "https://esm.sh/hpke-js@0.11.4";

      globalThis.doHpke = async () => {

        const suite = new CipherSuite({
          kem: Kem.DhkemP256HkdfSha256,
          kdf: Kdf.HkdfSha256,
          aead: Aead.Aes128Gcm
        });
 
        const rkp = await suite.generateKeyPair();
      
        const sender = await suite.createSenderContext({
          recipientPublicKey: rkp.publicKey
        });
      
        const recipient = await suite.createRecipientContext({
          recipientKey: rkp,
          enc: sender.enc,
        });
      
        // encrypt
        const ct = await sender.seal(new TextEncoder().encode("hello world!"));
      
        try {
          // decrypt
          const pt = await recipient.open(ct);

          // hello world!
          alert(new TextDecoder().decode(pt));
        } catch (err) {
          alert("failed to decrypt.");
        }
      }
      
    </script>
    <button type="button" onclick="doHpke()">do HPKE</button>
  </body>
</html>

Node.js:

const { Kem, Kdf, Aead, CipherSuite } = require("hpke-js");

async function doHpke() {
  // setup
  const suite = new CipherSuite({
    kem: Kem.DhkemP256HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.Aes128Gcm,
  });

  const rkp = await suite.generateKeyPair();

  const sender = await suite.createSenderContext({
    recipientPublicKey: rkp.publicKey,
  });

  const recipient = await suite.createRecipientContext({
    recipientKey: rkp,
    enc: sender.enc,
  });

  // encrypt
  const ct = await sender.seal(new TextEncoder().encode("my-secret-message"));

  // decrypt
  try {
    const pt = await recipient.open(ct);

    console.log("decrypted: ", new TextDecoder().decode(pt));
    // decrypted: my-secret-message
  } catch (err) {
    console.log("failed to decrypt.");
  }
}

doHpke();

Deno:

import { Kem, Kdf, Aead, CipherSuite } from "https://deno.land/x/hpke@v0.11.4/mod.ts";

async function doHpke() {
  // setup
  const suite = new CipherSuite({
    kem: Kem.DhkemX25519HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.Aes128Gcm,
  });

  const rkp = await suite.generateKeyPair();

  const sender = await suite.createSenderContext({
    recipientPublicKey: rkp.publicKey,
  });

  const recipient = await suite.createRecipientContext({
    recipientKey: rkp,
    enc: sender.enc,
  });

  // encrypt
  const ct = await sender.seal(new TextEncoder().encode("my-secret-message"));

  try {
    // decrypt
    const pt = await recipient.open(ct);

    console.log("decrypted: ", new TextDecoder().decode(pt));
    // decrypted: my-secret-message
  } catch (_err: unknown) {
    console.log("failed to decrypt.");
  }
}

doHpke();

Base mode with Single-Shot APIs

Node.js:

const { Kem, Kdf, Aead, CipherSuite } = require('hpke-js');

async function doHpke() {

  // setup
  const suite = new CipherSuite({
    kem: Kem.DhkemP256HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.Aes128Gcm
  });

  const rkp = await suite.generateKeyPair();
  const pt = new TextEncoder().encode('my-secret-message'),

  // encrypt
  const { ct, enc } = await suite.seal({ recipientPublicKey: rkp.publicKey }, pt);

  // decrypt
  try {
  const pt = await suite.open({ recipientKey: rkp, enc: enc }, ct);

  console.log('decrypted: ', new TextDecoder().decode(pt));
  // decrypted: my-secret-message
  } catch (err) {
    console.log("failed to decrypt.");
  }
}

doHpke();

Base mode with bidirectional encryption

Node.js:

const { Kem, Kdf, Aead, CipherSuite } = require("hpke-js");

const te = new TextEncoder();
const td = new TextDecoder();

async function doHpke() {
  // setup
  const suite = new CipherSuite({
    kem: Kem.DhkemP256HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.Aes128Gcm,
  });
  const rkp = await suite.generateKeyPair();

  const sender = await suite.createSenderContext({
    recipientPublicKey: rkp.publicKey,
  });

  const recipient = await suite.createRecipientContext({
    recipientKey: rkp,
    enc: sender.enc,
  });

  // setup bidirectional encryption
  await sender.setupBidirectional(
    te.encode("seed-for-key"),
    te.encode("seed-for-nonce"),
  );
  await recipient.setupBidirectional(
    te.encode("seed-for-key"),
    te.encode("seed-for-nonce"),
  );

  // encrypt
  const ct = await sender.seal(te.encode("my-secret-message-s"));

  // decrypt
  try {
    const pt = await recipient.open(ct);

    console.log("recipient decrypted: ", td.decode(pt));
    // decrypted: my-secret-message-s
  } catch (err) {
    console.log("failed to decrypt.");
  }

  // encrypt reversely
  const rct = await recipient.seal(te.encode("my-secret-message-r"));

  // decrypt reversely
  try {
    const rpt = await sender.open(rct);

    console.log("sender decrypted: ", td.decode(rpt));
    // decrypted: my-secret-message-r
  } catch (err) {
    console.log("failed to decrypt.");
  }
}

doHpke();

Base mode with export-only AEAD

Node.js:

  const suite = new CipherSuite({
    kem: Kem.DhkemP256HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.ExportOnly,
  });

  const rkp = await suite.generateKeyPair();

  const sender = await suite.createSenderContext({
    recipientPublicKey: rkp.publicKey,
  });

  const recipient = await suite.createRecipientContext({
    recipientKey: rkp,
    enc: sender.enc,
  });

  const te = new TextEncoder();

  // export
  const pskS = sender.export(te.encode('jugemujugemu'), 32);
  const pskR = recipient.export(te.encode('jugemujugemu'), 32);
  // pskR === pskS
}

doHpke();

PSK mode

Node.js:

const { Kem, Kdf, Aead, CipherSuite } = require("hpke-js");

async function doHpke() {
  // setup
  const suite = new CipherSuite({
    kem: Kem.DhkemP256HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.Aes128Gcm,
  });

  const rkp = await suite.generateKeyPair();

  const sender = await suite.createSenderContext({
    recipientPublicKey: rkp.publicKey,
    psk: {
      id: new TextEncoder().encode("our-pre-shared-key-id"),
      // a PSK MUST have at least 32 bytes.
      key: new TextEncoder().encode("jugemujugemugokounosurikirekaija"),
    },
  });

  const recipient = await suite.createRecipientContext({
    recipientKey: rkp,
    enc: sender.enc,
    psk: {
      id: new TextEncoder().encode("our-pre-shared-key-id"),
      // a PSK MUST have at least 32 bytes.
      key: new TextEncoder().encode("jugemujugemugokounosurikirekaija"),
    },
  });

  // encrypt
  const ct = await sender.seal(new TextEncoder().encode("my-secret-message"));

  // decrypt
  try {
    const pt = await recipient.open(ct);

    console.log("decrypted: ", new TextDecoder().decode(pt));
    // decrypted: my-secret-message
  } catch (err) {
    console.log("failed to decrypt:", err.message);
  }
}

doHpke();

Auth mode

Node.js:

const { Kem, Kdf, Aead, CipherSuite } = require("hpke-js");

async function doHpke() {
  // setup
  const suite = new CipherSuite({
    kem: Kem.DhkemP256HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.Aes128Gcm,
  });

  const rkp = await suite.generateKeyPair();
  const skp = await suite.generateKeyPair();

  const sender = await suite.createSenderContext({
    recipientPublicKey: rkp.publicKey,
    senderKey: skp,
  });

  const recipient = await suite.createRecipientContext({
    recipientKey: rkp,
    enc: sender.enc,
    senderPublicKey: skp.publicKey,
  });

  // encrypt
  const ct = await sender.seal(new TextEncoder().encode("my-secret-message"));

  try {
    // decrypt
    const pt = await recipient.open(ct);

    console.log("decrypted: ", new TextDecoder().decode(pt));
    // decrypted: my-secret-message
  } catch (err) {
    console.log("failed to decrypt:", err.message);
  }
}

doHpke();

AuthPSK mode

Node.js:

const { Kem, Kdf, Aead, CipherSuite } = require("hpke-js");

async function doHpke() {
  // setup
  const suite = new CipherSuite({
    kem: Kem.DhkemP256HkdfSha256,
    kdf: Kdf.HkdfSha256,
    aead: Aead.Aes128Gcm,
  });

  const rkp = await suite.generateKeyPair();
  const skp = await suite.generateKeyPair();

  const sender = await suite.createSenderContext({
    recipientPublicKey: rkp.publicKey,
    senderKey: skp,
    psk: {
      id: new TextEncoder().encode("our-pre-shared-key-id"),
      // a PSK MUST have at least 32 bytes.
      key: new TextEncoder().encode("jugemujugemugokounosurikirekaija"),
    },
  });

  const recipient = await suite.createRecipientContext({
    recipientKey: rkp,
    enc: sender.enc,
    senderPublicKey: skp.publicKey,
    psk: {
      id: new TextEncoder().encode("our-pre-shared-key-id"),
      // a PSK MUST have at least 32 bytes.
      key: new TextEncoder().encode("jugemujugemugokounosurikirekaija"),
    },
  });

  // encrypt
  const ct = await sender.seal(new TextEncoder().encode("my-secret-message"));

  // decrypt
  try {
    const pt = await recipient.open(ct);

    console.log("decrypted: ", new TextDecoder().decode(pt));
    // decrypted: my-secret-message
  } catch (err) {
    console.log("failed to decrypt:", err.message);
  }
}

doHpke();

Contributing

We welcome all kind of contributions, filing issues, suggesting new features or sending PRs.

References

• RFC9180: Hybrid Public Key Encryption
• W3C/WICG: Secure Curves in the Web Cryptography API

Changelog

Version 0.11.4

Released 2022-06-11

• (#76) Add playwright test.
• (#75) Refine dnt.ts.
• (#74) Add Github pages for test.