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Documentation: deno.land | pages(only for the latest ver.)
For Node.js, you can install hpke-js
via npm/yarn:
npm install @hpke/core
# if necessary...
npm install @hpke/dhkem-x25519
npm install @hpke/dhkem-x448
npm install @hpke/chacha20poly1305
# ...or you can use the v0.x-compatible all-in-one package below.
npm install hpke-js
Then, you can use it as follows:
import { AeadId, CipherSuite, KdfId, KemId } from "@hpke/core";
// const { KemId, KdfId, AeadId, CipherSuite } = require("@hpke/core");
// import { KemId, KdfId, AeadId, CipherSuite } from "hpke-js";
async function doHpke() {
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm,
});
// A recipient generates a key pair.
const rkp = await suite.kem.generateKeyPair();
// A sender encrypts a message with the recipient public key.
const sender = await suite.createSenderContext({
recipientPublicKey: rkp.publicKey,
});
const ct = await sender.seal(new TextEncoder().encode("Hello world!"));
// The recipient decrypts it.
const recipient = await suite.createRecipientContext({
recipientKey: rkp.privateKey,
enc: sender.enc,
});
try {
const pt = await recipient.open(ct);
console.log("decrypted: ", new TextDecoder().decode(pt));
} catch (e) {
console.log("failed to decrypt:", e.message);
}
}
doHpke();
The hpke-js includes the following packages.
name | since | description |
---|---|---|
hpke-js | v0.1.0- | The HPKE module supporting all of the ciphersuites defined in RFC9180, which consists of the following @hpke/{core, dhkem-x25519, dhkem-x448, chacha20poly1305} internally. |
@hpke/core | v1.0.0- | The HPKE core module implemented using only Web Cryptography API. It does not support the X25519/X448-based KEMs and the ChaCha20/Poly1305 AEAD, but it has no external module dependencies and is small in size. See /core/README. |
@hpke/dhkem-x25519 | v1.0.0- | The HPKE extension module for DHKEM(X25519, HKDF-SHA256). See /x/dhkem-x25519/README. |
@hpke/dhkem-x448 | v1.0.0- | The HPKE extension module for DHKEM(X448, HKDF-SHA512). See /x/dhkem-x448/README. |
@hpke/chacha20poly1305 | v1.0.0- | The HPKE extension module for ChaCha20Poly1305 AEAD. See /x/chacha20poly1305/README. |
@hpke/dhkem-secp256k1 | v1.0.0- | [EXPERIMENTAL AND NOT STANDARDIZED] The HPKE extension module for DHKEM(secp256k1, HKDF-SHA256). See /x/dhkem-secp256k1/README. |
Base | PSK | Auth | AuthPSK |
---|---|---|---|
✅ | ✅ | ✅ | ✅ |
KEMs | Browser | Node.js | Deno | Cloudflare Workers | bun |
---|---|---|---|---|---|
DHKEM (P-256, HKDF-SHA256) | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core |
DHKEM (P-384, HKDF-SHA384) | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core |
DHKEM (P-521, HKDF-SHA512) | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | |
DHKEM (X25519, HKDF-SHA256) | ✅ hpke-js @hpke/dhkem-x25519 | ✅ hpke-js @hpke/dhkem-x25519 | ✅ hpke-js @hpke/dhkem-x25519 | ✅ hpke-js @hpke/dhkem-x25519 | ✅ hpke-js @hpke/dhkem-x25519 |
DHKEM (X448, HKDF-SHA512) | ✅ hpke-js @hpke/dhkem-x448 | ✅ hpke-js @hpke/dhkem-x448 | ✅ hpke-js @hpke/dhkem-x448 | ✅ hpke-js @hpke/dhkem-x448 | ✅ hpke-js @hpke/dhkem-x448 |
DHKEM (secp256k1, HKDF-SHA256) | ✅ @hpke/dhkem-secp256k1 | ✅ @hpke/dhkem-secp256k1 | ✅ @hpke/dhkem-secp256k1 | ✅ @hpke/dhkem-secp256k1 | ✅ @hpke/dhkem-secp256k1 |
KDFs | Browser | Node.js | Deno | Cloudflare Workers | bun |
---|---|---|---|---|---|
HKDF-SHA256 | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) |
HKDF-SHA384 | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) |
HKDF-SHA512 | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) | ✅ hpke-js @hpke/core(*1) |
@hpke/core
can derive keys of the same
length as the hash size. If you want to derive keys longer than the hash size,
use hpke-js
.AEADs | Browser | Node.js | Deno | Cloudflare Workers | bun |
---|---|---|---|---|---|
AES-128-GCM | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core |
AES-256-GCM | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core |
ChaCha20 Poly1305 | ✅ hpke-js @hpke/chacha 20poly1305 | ✅ hpke-js @hpke/chacha 20poly1305 | ✅ hpke-js @hpke/chacha 20poly1305 | ✅ hpke-js @hpke/chacha 20poly1305 | ✅ hpke-js @hpke/chacha 20poly1305 |
Export Only | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core | ✅ hpke-js @hpke/core |
2^53-1
).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/core@1.0.4";
// import * as hpke from "https://esm.sh/hpke-js@1.0.4";
// ...
</script>
<!-- use the latest stable version -->
<script type="module">
import * as hpke from "https://esm.sh/@hpke/core";
// 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/core@1.0.4/esm/mod.js";
// import * as hpke from "https://unpkg.com/hpke-js@1.0.4/esm/mod.js";
// ...
</script>
Using npm:
npm install @hpke/core
# if necessary...
npm install @hpke/dhkem-x25519
npm install @hpke/dhkem-x448
npm install @hpke/chacha20poly1305
# ...or you can use the v0.x-compatible all-in-one package below.
npm install hpke-js
Using yarn:
yarn add @hpke/core
# if necessary...
yarn add @hpke/dhkem-x25519
yarn add @hpke/dhkem-x448
yarn add @hpke/chacha20poly1305
# ...or you can use the v0.x-compatible all-in-one package below.
yarn add hpke-js
Using deno.land:
// use a specific version
import * as hpke from "https://deno.land/x/hpke@1.0.4/core/mod.ts";
// import * as hpke from "https://deno.land/x/hpke@1.0.4/x/dhkem-x25519/mod.ts";
// import * as hpke from "https://deno.land/x/hpke@1.0.4/mod.ts";
// use the latest stable version
import * as hpke from "https://deno.land/x/hpke/core/mod.ts";
// import * as hpke from "https://deno.land/x/hpke/x/dhkem-x25519/mod.ts";
// import * as hpke from "https://deno.land/x/hpke/mod.ts";
git clone git@github.com:dajiaji/hpke-js.git
cd hpke-js
# for hpke-js
npm install -g esbuild
deno task dnt
deno task minify > $YOUR_SRC_PATH/hpke.js
# for @hpke/core
cd hpke-js/core
npm install -g esbuild
deno task dnt
deno task minify > $YOUR_SRC_PATH/hpke-core.js
# for @hpke/dhkem-x25519
cd hpke-js/x/dhkem-x25519
npm install -g esbuild
deno task dnt
deno task minify > $YOUR_SRC_PATH/hpke-dhkem-x25519.js
This section shows some typical usage examples.
Browsers:
<html>
<head></head>
<body>
<script type="module">
import { KemId, KdfId, AeadId, CipherSuite } from "https://esm.sh/@hpke/core@1.0.4";
// import { KemId, KdfId, AeadId, CipherSuite } from "https://esm.sh/hpke-js@1.0.4";
globalThis.doHpke = async () => {
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm
});
const rkp = await suite.kem.generateKeyPair();
const sender = await suite.createSenderContext({
recipientPublicKey: rkp.publicKey
});
// A JWK-formatted recipient public key can also be used.
// const jwkPkR = {
// kty: "EC",
// crv: "P-256",
// kid: "P-256-01",
// x: "-eZXC6nV-xgthy8zZMCN8pcYSeE2XfWWqckA2fsxHPc",
// y: "BGU5soLgsu_y7GN2I3EPUXS9EZ7Sw0qif-V70JtInFI",
// key_ops: [],
// };
// const pkR = await suite.kem.importKey("jwk", jwkPkR, true);
// const sender = await suite.createSenderContext({
// recipientPublicKey: pkR,
// });
const recipient = await suite.createRecipientContext({
recipientKey: rkp.privateKey, // rkp (CryptoKeyPair) is also acceptable.
enc: sender.enc,
});
// A JWK-formatted recipient private key can also be used.
// const jwkSkR = {
// kty: "EC",
// crv: "P-256",
// kid: "P-256-01",
// x: "-eZXC6nV-xgthy8zZMCN8pcYSeE2XfWWqckA2fsxHPc",
// y: "BGU5soLgsu_y7GN2I3EPUXS9EZ7Sw0qif-V70JtInFI",
// d: "kwibx3gas6Kz1V2fyQHKSnr-ybflddSjN0eOnbmLmyo",
// key_ops: ["deriveBits"],
// };
// const skR = await suite.kem.importKey("jwk", jwkSkR, false);
// const recipient = await suite.createRecipientContext({
// recipientKey: skR,
// enc: sender.enc,
// });
// encrypt
const ct = await sender.seal(new TextEncoder().encode("hello world!"));
// decrypt
try {
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:
import { AeadId, CipherSuite, KdfId, KemId } from "@hpke/core";
// const { KemId, KdfId, AeadId, CipherSuite } = require("@hpke/core");
// import { KemId, KdfId, AeadId, CipherSuite } from "hpke-js";
async function doHpke() {
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm,
});
// A recipient generates a key pair.
const rkp = await suite.kem.generateKeyPair();
// A sender encrypts a message with the recipient public key.
const sender = await suite.createSenderContext({
recipientPublicKey: rkp.publicKey,
});
const ct = await sender.seal(new TextEncoder().encode("Hello world!"));
// The recipient decrypts it.
const recipient = await suite.createRecipientContext({
recipientKey: rkp.privateKey,
enc: sender.enc,
});
try {
const pt = await recipient.open(ct);
console.log("decrypted: ", new TextDecoder().decode(pt));
} catch (e) {
console.log("failed to decrypt:", e.message);
}
}
doHpke();
Deno:
import { KemId, KdfId, AeadId, CipherSuite } from "https://deno.land/x/hpke@1.0.4/core/mod.ts";
import { DhkemX25519HkdfSha256 } from "https://deno.land/x/hpke@1.0.4/x/dhkem-x25519/mod.ts";
// import { KemId, KdfId, AeadId, CipherSuite } from "https://deno.land/x/hpke@1.0.4/mod.ts";
async function doHpke() {
// setup
const suite = new CipherSuite({
kem: new DhkemX25519HkdfSha256(),
// If you use "https://deno.land/x/hpke@1.0.4/mod.ts", you can specify it with id as follows:
// kem: KemId.DhkemX25519HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm,
});
const rkp = await suite.kem.generateKeyPair();
const sender = await suite.createSenderContext({
recipientPublicKey: rkp.publicKey,
});
const recipient = await suite.createRecipientContext({
recipientKey: rkp.privateKey,
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();
Node.js:
import { AeadId, CipherSuite, KdfId, KemId } from "@hpke/core";
// const { KemId, KdfId, AeadId, CipherSuite } = require("@hpke/core");
// import { KemId, KdfId, AeadId, CipherSuite } from "hpke-js";
async function doHpke() {
// setup
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm
});
const rkp = await suite.kem.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.privateKey, enc: enc }, ct);
console.log('decrypted: ', new TextDecoder().decode(pt));
// decrypted: my-secret-message
} catch (err) {
console.log("failed to decrypt.");
}
}
doHpke();
Node.js:
import { AeadId, CipherSuite, KdfId, KemId } from "@hpke/core";
// const { KemId, KdfId, AeadId, CipherSuite } = require("@hpke/core");
// import { KemId, KdfId, AeadId, CipherSuite } from "hpke-js";
async function doHpke() {
// setup
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.ExportOnly,
});
const rkp = await suite.kem.generateKeyPair();
const sender = await suite.createSenderContext({
recipientPublicKey: rkp.publicKey,
});
const recipient = await suite.createRecipientContext({
recipientKey: rkp.privateKey,
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();
Node.js:
import { AeadId, CipherSuite, KdfId, KemId } from "@hpke/core";
// const { KemId, KdfId, AeadId, CipherSuite } = require("@hpke/core");
// import { KemId, KdfId, AeadId, CipherSuite } from "hpke-js";
async function doHpke() {
// setup
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm,
});
const rkp = await suite.kem.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.privateKey,
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();
Node.js:
import { AeadId, CipherSuite, KdfId, KemId } from "@hpke/core";
// const { KemId, KdfId, AeadId, CipherSuite } = require("@hpke/core");
// import { KemId, KdfId, AeadId, CipherSuite } from "hpke-js";
async function doHpke() {
// setup
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm,
});
const rkp = await suite.kem.generateKeyPair();
const skp = await suite.kem.generateKeyPair();
const sender = await suite.createSenderContext({
recipientPublicKey: rkp.publicKey,
senderKey: skp,
});
const recipient = await suite.createRecipientContext({
recipientKey: rkp.privateKey,
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();
Node.js:
import { AeadId, CipherSuite, KdfId, KemId } from "@hpke/core";
// const { KemId, KdfId, AeadId, CipherSuite } = require("@hpke/core");
// import { KemId, KdfId, AeadId, CipherSuite } from "hpke-js";
async function doHpke() {
// setup
const suite = new CipherSuite({
kem: KemId.DhkemP256HkdfSha256,
kdf: KdfId.HkdfSha256,
aead: AeadId.Aes128Gcm,
});
const rkp = await suite.kem.generateKeyPair();
const skp = await suite.kem.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.privateKey,
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();
We welcome all kind of contributions, filing issues, suggesting new features or sending PRs.
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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