Usage in Deno
import { ECDH } from "node:crypto";
The ECDH class is a utility for creating Elliptic Curve Diffie-Hellman (ECDH)
key exchanges.
Instances of the ECDH class can be created using the createECDH function.
import assert from 'node:assert'; const { createECDH, } = await import('node:crypto'); // Generate Alice's keys... const alice = createECDH('secp521r1'); const aliceKey = alice.generateKeys(); // Generate Bob's keys... const bob = createECDH('secp521r1'); const bobKey = bob.generateKeys(); // Exchange and generate the secret... const aliceSecret = alice.computeSecret(bobKey); const bobSecret = bob.computeSecret(aliceKey); assert.strictEqual(aliceSecret.toString('hex'), bobSecret.toString('hex')); // OK
computeSecret(otherPublicKey: ArrayBufferView): Buffer
Computes the shared secret using otherPublicKey as the other
party's public key and returns the computed shared secret. The supplied
key is interpreted using specified inputEncoding, and the returned secret
is encoded using the specified outputEncoding.
If the inputEncoding is not
provided, otherPublicKey is expected to be a Buffer, TypedArray, orDataView.
If outputEncoding is given a string will be returned; otherwise a Buffer is returned.
ecdh.computeSecret will throw anERR_CRYPTO_ECDH_INVALID_PUBLIC_KEY error when otherPublicKeylies outside of the elliptic curve. Since otherPublicKey is
usually supplied from a remote user over an insecure network,
be sure to handle this exception accordingly.
computeSecret(otherPublicKey: string,inputEncoding: BinaryToTextEncoding,): Buffer
computeSecret(otherPublicKey: ArrayBufferView,outputEncoding: BinaryToTextEncoding,): string
computeSecret(): string
generateKeys(): Buffer
Generates private and public EC Diffie-Hellman key values, and returns
the public key in the specified format and encoding. This key should be
transferred to the other party.
The format argument specifies point encoding and can be 'compressed' or'uncompressed'. If format is not specified, the point will be returned in'uncompressed' format.
If encoding is provided a string is returned; otherwise a Buffer is returned.
generateKeys(encoding: BinaryToTextEncoding,format?: ECDHKeyFormat,): string
getPrivateKey(): Buffer
If encoding is specified, a string is returned; otherwise a Buffer is
returned.
getPrivateKey(encoding: BinaryToTextEncoding): string
getPublicKey(encoding?: null,format?: ECDHKeyFormat,): Buffer
The format argument specifies point encoding and can be 'compressed' or'uncompressed'. If format is not specified the point will be returned in'uncompressed' format.
If encoding is specified, a string is returned; otherwise a Buffer is
returned.
getPublicKey(encoding: BinaryToTextEncoding,format?: ECDHKeyFormat,): string
setPrivateKey(privateKey: ArrayBufferView): void
Sets the EC Diffie-Hellman private key.
If encoding is provided, privateKey is expected
to be a string; otherwise privateKey is expected to be a Buffer,TypedArray, or DataView.
If privateKey is not valid for the curve specified when the ECDH object was
created, an error is thrown. Upon setting the private key, the associated
public point (key) is also generated and set in the ECDH object.
setPrivateKey(privateKey: string,encoding: BinaryToTextEncoding,): void
convertKey(key: BinaryLike,curve: string,inputEncoding?: BinaryToTextEncoding,outputEncoding?: "latin1"
| "hex"
| "base64"
| "base64url",format?: "uncompressed"
| "compressed"
| "hybrid",): Buffer | string
Converts the EC Diffie-Hellman public key specified by key and curve to the
format specified by format. The format argument specifies point encoding
and can be 'compressed', 'uncompressed' or 'hybrid'. The supplied key is
interpreted using the specified inputEncoding, and the returned key is encoded
using the specified outputEncoding.
Use getCurves to obtain a list of available curve names.
On recent OpenSSL releases, openssl ecparam -list_curves will also display
the name and description of each available elliptic curve.
If format is not specified the point will be returned in 'uncompressed'format.
If the inputEncoding is not provided, key is expected to be a Buffer,TypedArray, or DataView.
Example (uncompressing a key):
const { createECDH, ECDH, } = await import('node:crypto'); const ecdh = createECDH('secp256k1'); ecdh.generateKeys(); const compressedKey = ecdh.getPublicKey('hex', 'compressed'); const uncompressedKey = ECDH.convertKey(compressedKey, 'secp256k1', 'hex', 'hex', 'uncompressed'); // The converted key and the uncompressed public key should be the same console.log(uncompressedKey === ecdh.getPublicKey('hex'));