Usage in Deno
import { DiffieHellman } from "node:crypto";
The DiffieHellman class is a utility for creating Diffie-Hellman key
exchanges.
Instances of the DiffieHellman class can be created using the createDiffieHellman function.
import assert from 'node:assert'; const { createDiffieHellman, } = await import('node:crypto'); // Generate Alice's keys... const alice = createDiffieHellman(2048); const aliceKey = alice.generateKeys(); // Generate Bob's keys... const bob = createDiffieHellman(alice.getPrime(), alice.getGenerator()); const bobKey = bob.generateKeys(); // Exchange and generate the secret... const aliceSecret = alice.computeSecret(bobKey); const bobSecret = bob.computeSecret(aliceKey); // OK assert.strictEqual(aliceSecret.toString('hex'), bobSecret.toString('hex'));
verifyError: number
A bit field containing any warnings and/or errors resulting from a check
performed during initialization of the DiffieHellman object.
The following values are valid for this property (as defined in node:constants module):
DH_CHECK_P_NOT_SAFE_PRIMEDH_CHECK_P_NOT_PRIMEDH_UNABLE_TO_CHECK_GENERATORDH_NOT_SUITABLE_GENERATOR
computeSecret(otherPublicKey: ArrayBufferView,inputEncoding?: null,outputEncoding?: null,): 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 the specified inputEncoding, and secret is
encoded using specified outputEncoding.
If the inputEncoding is not
provided, otherPublicKey is expected to be a Buffer,TypedArray, or DataView.
If outputEncoding is given a string is returned; otherwise, a Buffer is returned.
computeSecret(): Buffer
computeSecret(): string
computeSecret(): string
generateKeys(): Buffer
Generates private and public Diffie-Hellman key values unless they have been
generated or computed already, and returns
the public key in the specified encoding. This key should be
transferred to the other party.
If encoding is provided a string is returned; otherwise a Buffer is returned.
This function is a thin wrapper around DH_generate_key(). In particular,
once a private key has been generated or set, calling this function only updates
the public key but does not generate a new private key.
generateKeys(encoding: BinaryToTextEncoding): string
getGenerator(): Buffer
Returns the Diffie-Hellman generator in the specified encoding.
If encoding is provided a string is
returned; otherwise a Buffer is returned.
getGenerator(encoding: BinaryToTextEncoding): string
getPrime(): Buffer
Returns the Diffie-Hellman prime in the specified encoding.
If encoding is provided a string is
returned; otherwise a Buffer is returned.
getPrime(encoding: BinaryToTextEncoding): string
getPrivateKey(): Buffer
Returns the Diffie-Hellman private key in the specified encoding.
If encoding is provided a
string is returned; otherwise a Buffer is returned.
getPrivateKey(encoding: BinaryToTextEncoding): string
getPublicKey(): Buffer
Returns the Diffie-Hellman public key in the specified encoding.
If encoding is provided a
string is returned; otherwise a Buffer is returned.
getPublicKey(encoding: BinaryToTextEncoding): string
setPrivateKey(privateKey: ArrayBufferView): void
Sets the Diffie-Hellman private key. If the encoding argument is provided,privateKey is expected
to be a string. If no encoding is provided, privateKey is expected
to be a Buffer, TypedArray, or DataView.
This function does not automatically compute the associated public key. Either diffieHellman.setPublicKey() or diffieHellman.generateKeys() can be
used to manually provide the public key or to automatically derive it.
setPrivateKey(privateKey: string,encoding: BufferEncoding,): void
setPublicKey(publicKey: ArrayBufferView): void
Sets the Diffie-Hellman public key. If the encoding argument is provided,publicKey is expected
to be a string. If no encoding is provided, publicKey is expected
to be a Buffer, TypedArray, or DataView.
setPublicKey(publicKey: string,encoding: BufferEncoding,): void