hpke-js
A TypeScript Hybrid Public Key Encryption (HPKE)
implementation build on top of Web Cryptography API.
This library works on both web browsers and Node.js (currently, Deno is not supported).
Index
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) | ✅ | ✅ | |
| DHKEM (X448, HKDF-SHA512) | ✅ | ✅ |
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 | ✅ | ✅ | |
| Export Only | ✅ | ✅ |
Warnings and Restrictions
- Although this library has been passed the following test vectors, it has not been formally audited.
- The upper limit of the AEAD sequence number is further rounded to JavaScript Number.MAX_SAFE_INTEGER (
2^53 - 1).
Installation
Using npm:
npm install hpke-jsUsing unpkg CDN:
<!-- use the latest stable version -->
<script src="https://unpkg.com/hpke-js/dist/hpke.min.js"></script>
<!-- use a specific version -->
<script src="https://unpkg.com/hpke-js@0.9.0/dist/hpke.min.js"></script>Using jsDelivr CDN:
<!-- use the latest stable version -->
<script src="https://cdn.jsdelivr.net/npm/hpke-js/dist/hpke.min.js"></script>
<!-- use a specific version -->
<script src="https://cdn.jsdelivr.net/npm/hpke-js@0.9.0/dist/hpke.min.js"></script>Usage
This section shows some typical usage examples.
Base mode
On browser:
<html>
<head></head>
<body>
<script src="https://unpkg.com/hpke-js/dist/hpke.min.js"></script>
<script type="text/javascript">
async function doHpke() {
// the global name is 'hkpe'
const suite = new hpke.CipherSuite({
kem: hpke.Kem.DhkemP256HkdfSha256,
kdf: hpke.Kdf.HkdfSha256,
aead: hpke.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!'));
// decrypt
const pt = await recipient.open(ct);
// hello world!
alert(new TextDecoder().decode(pt));
}
</script>
<button type="button" onclick="doHpke()">do HPKE</button>
</body>
</html>On 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
const pt = await recipient.open(ct);
console.log('decrypted: ', new TextDecoder().decode(pt));
// decrypted: my-secret-message
}
doHpke();Base mode with Single-Shot APIs
On 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
const pt = await suite.open({ recipientKey: rkp, enc: enc }, ct);
console.log('decrypted: ', new TextDecoder().decode(pt));
// decrypted: my-secret-message
}
doHpke();Base mode with bidirectional encryption
On 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
const pt = await recipient.open(ct);
console.log('recipient decrypted: ', td.decode(pt));
// decrypted: my-secret-message-s
// encrypt reversely
const rct = await recipient.seal(te.encode('my-secret-message-r'));
// decrypt reversely
const rpt = await sender.open(rct);
console.log('sender decrypted: ', td.decode(rpt));
// decrypted: my-secret-message-r
}
doHpke();Base mode with export-only AEAD
On 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
On 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
const pt = await recipient.open(ct);
console.log('decrypted: ', new TextDecoder().decode(pt));
// decrypted: my-secret-message
}
doHpke();Auth mode
On 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'));
// decrypt
const pt = await recipient.open(ct);
console.log('decrypted: ', new TextDecoder().decode(pt));
// decrypted: my-secret-message
}
doHpke();AuthPSK mode
On 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
const pt = await recipient.open(ct);
console.log('decrypted: ', new TextDecoder().decode(pt));
// decrypted: my-secret-message
}
doHpke();Contributing
We welcome all kind of contributions, filing issues, suggesting new features or sending PRs.