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Base | PSK | Auth | AuthPSK |
---|---|---|---|
✅ | ✅ | ✅ | ✅ |
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) |
KDFs | Browser | Node.js | Deno |
---|---|---|---|
HKDF-SHA256 | ✅ | ✅ | |
HKDF-SHA384 | ✅ | ✅ | |
HKDF-SHA512 | ✅ | ✅ |
AEADs | Browser | Node.js | Deno |
---|---|---|---|
AES-128-GCM | ✅ | ✅ | |
AES-256-GCM | ✅ | ✅ | |
ChaCha20Poly1305 | |||
Export Only | ✅ | ✅ |
Using npm:
npm install hpke-js
Using 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@0.5.0/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@0.5.0/dist/hpke.min.js"></script>
This section shows some typical usage examples.
Node.js environment:
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));
// decripted: my-secret-message
}
doHpke();
Browser environment:
<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>
Node.js environment:
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));
// decripted: my-secret-message
}
doHpke();
Node.js environment:
const te = new TextEncoder();
const td = new TextDecoder();
// 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);
// assert
console.log("recipient decrypted: ", td.decode(pt));
// decripted: 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));
// decripted: my-secret-message-r
}
doHpke();
Node.js environment:
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"),
key: new TextEncoder().encode("our-pre-shared-key"),
}
});
const recipient = await suite.createRecipientContext({
recipientKey: rkp,
enc: sender.enc,
psk: {
id: new TextEncoder().encode("our-pre-shared-key-id"),
key: new TextEncoder().encode("our-pre-shared-key"),
}
});
// 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));
// decripted: my-secret-message
}
doHpke();
Node.js environment:
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));
// decripted: my-secret-message
}
doHpke();
Node.js environment:
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"),
key: new TextEncoder().encode("our-pre-shared-key"),
}
});
const recipient = await suite.createRecipientContext({
recipientKey: rkp,
enc: sender.enc,
senderPublicKey: skp.publicKey,
psk: {
id: new TextEncoder().encode("our-pre-shared-key-id"),
key: new TextEncoder().encode("our-pre-shared-key"),
}
});
// 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));
// decripted: my-secret-message
}
doHpke();
We welcome all kind of contributions, filing issues, suggesting new features or sending PRs.
Version 0.5.0
Released 2022-05-15
FAQs
A Hybrid Public Key Encryption (HPKE) module for various JavaScript runtimes
The npm package hpke-js receives a total of 15,808 weekly downloads. As such, hpke-js popularity was classified as popular.
We found that hpke-js demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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