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denoland-deno/ext/node/polyfills/internal/crypto/diffiehellman.ts
Levente Kurusa c3d670dbc9
feat(node/crypto): Elliptic Curve Diffie-Hellman (ECDH) support (#18832)
- ECDH class
- crypto.createECDH()
- Supported curves:
  - secp256k1
  - prime256v1 / secp256r1
  - secp384r1
  - secp224r1

Co-authored-by: Bartek Iwańczuk <biwanczuk@gmail.com>
2023-04-27 18:31:35 +02:00

357 lines
10 KiB
TypeScript

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// Copyright Joyent, Inc. and Node.js contributors. All rights reserved. MIT license.
import { notImplemented } from "ext:deno_node/_utils.ts";
import {
isAnyArrayBuffer,
isArrayBufferView,
} from "ext:deno_node/internal/util/types.ts";
import { ERR_INVALID_ARG_TYPE } from "ext:deno_node/internal/errors.ts";
import {
validateInt32,
validateString,
} from "ext:deno_node/internal/validators.mjs";
import { Buffer } from "ext:deno_node/buffer.ts";
import {
EllipticCurve,
ellipticCurves,
getDefaultEncoding,
toBuf,
} from "ext:deno_node/internal/crypto/util.ts";
import type {
BinaryLike,
BinaryToTextEncoding,
ECDHKeyFormat,
} from "ext:deno_node/internal/crypto/types.ts";
import { KeyObject } from "ext:deno_node/internal/crypto/keys.ts";
import type { BufferEncoding } from "ext:deno_node/_global.d.ts";
const { ops } = Deno.core;
const DH_GENERATOR = 2;
export class DiffieHellman {
verifyError!: number;
constructor(
sizeOrKey: unknown,
keyEncoding?: unknown,
generator?: unknown,
genEncoding?: unknown,
) {
if (
typeof sizeOrKey !== "number" &&
typeof sizeOrKey !== "string" &&
!isArrayBufferView(sizeOrKey) &&
!isAnyArrayBuffer(sizeOrKey)
) {
throw new ERR_INVALID_ARG_TYPE(
"sizeOrKey",
["number", "string", "ArrayBuffer", "Buffer", "TypedArray", "DataView"],
sizeOrKey,
);
}
if (typeof sizeOrKey === "number") {
validateInt32(sizeOrKey, "sizeOrKey");
}
if (
keyEncoding &&
!Buffer.isEncoding(keyEncoding as BinaryToTextEncoding) &&
keyEncoding !== "buffer"
) {
genEncoding = generator;
generator = keyEncoding;
keyEncoding = false;
}
const encoding = getDefaultEncoding();
keyEncoding = keyEncoding || encoding;
genEncoding = genEncoding || encoding;
if (typeof sizeOrKey !== "number") {
sizeOrKey = toBuf(sizeOrKey as string, keyEncoding as string);
}
if (!generator) {
generator = DH_GENERATOR;
} else if (typeof generator === "number") {
validateInt32(generator, "generator");
} else if (typeof generator === "string") {
generator = toBuf(generator, genEncoding as string);
} else if (!isArrayBufferView(generator) && !isAnyArrayBuffer(generator)) {
throw new ERR_INVALID_ARG_TYPE(
"generator",
["number", "string", "ArrayBuffer", "Buffer", "TypedArray", "DataView"],
generator,
);
}
notImplemented("crypto.DiffieHellman");
}
computeSecret(otherPublicKey: ArrayBufferView): Buffer;
computeSecret(
otherPublicKey: string,
inputEncoding: BinaryToTextEncoding,
): Buffer;
computeSecret(
otherPublicKey: ArrayBufferView,
outputEncoding: BinaryToTextEncoding,
): string;
computeSecret(
otherPublicKey: string,
inputEncoding: BinaryToTextEncoding,
outputEncoding: BinaryToTextEncoding,
): string;
computeSecret(
_otherPublicKey: ArrayBufferView | string,
_inputEncoding?: BinaryToTextEncoding,
_outputEncoding?: BinaryToTextEncoding,
): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.computeSecret");
}
generateKeys(): Buffer;
generateKeys(encoding: BinaryToTextEncoding): string;
generateKeys(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.generateKeys");
}
getGenerator(): Buffer;
getGenerator(encoding: BinaryToTextEncoding): string;
getGenerator(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getGenerator");
}
getPrime(): Buffer;
getPrime(encoding: BinaryToTextEncoding): string;
getPrime(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getPrime");
}
getPrivateKey(): Buffer;
getPrivateKey(encoding: BinaryToTextEncoding): string;
getPrivateKey(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getPrivateKey");
}
getPublicKey(): Buffer;
getPublicKey(encoding: BinaryToTextEncoding): string;
getPublicKey(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getPublicKey");
}
setPrivateKey(privateKey: ArrayBufferView): void;
setPrivateKey(privateKey: string, encoding: BufferEncoding): void;
setPrivateKey(
_privateKey: ArrayBufferView | string,
_encoding?: BufferEncoding,
) {
notImplemented("crypto.DiffieHellman.prototype.setPrivateKey");
}
setPublicKey(publicKey: ArrayBufferView): void;
setPublicKey(publicKey: string, encoding: BufferEncoding): void;
setPublicKey(
_publicKey: ArrayBufferView | string,
_encoding?: BufferEncoding,
) {
notImplemented("crypto.DiffieHellman.prototype.setPublicKey");
}
}
export class DiffieHellmanGroup {
verifyError!: number;
constructor(_name: string) {
notImplemented("crypto.DiffieHellmanGroup");
}
computeSecret(otherPublicKey: ArrayBufferView): Buffer;
computeSecret(
otherPublicKey: string,
inputEncoding: BinaryToTextEncoding,
): Buffer;
computeSecret(
otherPublicKey: ArrayBufferView,
outputEncoding: BinaryToTextEncoding,
): string;
computeSecret(
otherPublicKey: string,
inputEncoding: BinaryToTextEncoding,
outputEncoding: BinaryToTextEncoding,
): string;
computeSecret(
_otherPublicKey: ArrayBufferView | string,
_inputEncoding?: BinaryToTextEncoding,
_outputEncoding?: BinaryToTextEncoding,
): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.computeSecret");
}
generateKeys(): Buffer;
generateKeys(encoding: BinaryToTextEncoding): string;
generateKeys(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.generateKeys");
}
getGenerator(): Buffer;
getGenerator(encoding: BinaryToTextEncoding): string;
getGenerator(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getGenerator");
}
getPrime(): Buffer;
getPrime(encoding: BinaryToTextEncoding): string;
getPrime(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getPrime");
}
getPrivateKey(): Buffer;
getPrivateKey(encoding: BinaryToTextEncoding): string;
getPrivateKey(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getPrivateKey");
}
getPublicKey(): Buffer;
getPublicKey(encoding: BinaryToTextEncoding): string;
getPublicKey(_encoding?: BinaryToTextEncoding): Buffer | string {
notImplemented("crypto.DiffieHellman.prototype.getPublicKey");
}
}
export class ECDH {
#curve: EllipticCurve; // the selected curve
#privbuf: Buffer; // the private key
#pubbuf: Buffer; // the public key
constructor(curve: string) {
validateString(curve, "curve");
const c = ellipticCurves.find((x) => x.name == curve);
if (c == undefined) {
throw new Error("invalid curve");
}
this.#curve = c;
this.#pubbuf = Buffer.alloc(this.#curve.publicKeySize);
this.#privbuf = Buffer.alloc(this.#curve.privateKeySize);
}
static convertKey(
_key: BinaryLike,
_curve: string,
_inputEncoding?: BinaryToTextEncoding,
_outputEncoding?: "latin1" | "hex" | "base64" | "base64url",
_format?: "uncompressed" | "compressed" | "hybrid",
): Buffer | string {
notImplemented("crypto.ECDH.prototype.convertKey");
}
computeSecret(otherPublicKey: ArrayBufferView): Buffer;
computeSecret(
otherPublicKey: string,
inputEncoding: BinaryToTextEncoding,
): Buffer;
computeSecret(
otherPublicKey: ArrayBufferView,
outputEncoding: BinaryToTextEncoding,
): string;
computeSecret(
otherPublicKey: string,
inputEncoding: BinaryToTextEncoding,
outputEncoding: BinaryToTextEncoding,
): string;
computeSecret(
otherPublicKey: ArrayBufferView | string,
_inputEncoding?: BinaryToTextEncoding,
_outputEncoding?: BinaryToTextEncoding,
): Buffer | string {
const secretBuf = Buffer.alloc(this.#curve.sharedSecretSize);
ops.op_node_ecdh_compute_secret(
this.#curve.name,
this.#privbuf,
otherPublicKey,
secretBuf,
);
return secretBuf;
}
generateKeys(): Buffer;
generateKeys(encoding: BinaryToTextEncoding, format?: ECDHKeyFormat): string;
generateKeys(
encoding?: BinaryToTextEncoding,
_format?: ECDHKeyFormat,
): Buffer | string {
ops.op_node_ecdh_generate_keys(
this.#curve.name,
this.#pubbuf,
this.#privbuf,
);
if (encoding !== undefined) {
return this.#pubbuf.toString(encoding);
}
return this.#pubbuf;
}
getPrivateKey(): Buffer;
getPrivateKey(encoding: BinaryToTextEncoding): string;
getPrivateKey(encoding?: BinaryToTextEncoding): Buffer | string {
if (encoding !== undefined) {
return this.#privbuf.toString(encoding);
}
return this.#privbuf;
}
getPublicKey(): Buffer;
getPublicKey(encoding: BinaryToTextEncoding, format?: ECDHKeyFormat): string;
getPublicKey(
encoding?: BinaryToTextEncoding,
_format?: ECDHKeyFormat,
): Buffer | string {
if (encoding !== undefined) {
return this.#pubbuf.toString(encoding);
}
return this.#pubbuf;
}
setPrivateKey(privateKey: ArrayBufferView): void;
setPrivateKey(privateKey: string, encoding: BinaryToTextEncoding): void;
setPrivateKey(
privateKey: ArrayBufferView | string,
encoding?: BinaryToTextEncoding,
): Buffer | string {
this.#privbuf = privateKey;
this.#pubbuf = Buffer.alloc(this.#curve.publicKeySize);
ops.op_node_ecdh_compute_public_key(
this.#curve.name,
this.#privbuf,
this.#pubbuf,
);
if (encoding !== undefined) {
return this.#pubbuf.toString(encoding);
}
return this.#pubbuf;
}
}
export function diffieHellman(_options: {
privateKey: KeyObject;
publicKey: KeyObject;
}): Buffer {
notImplemented("crypto.diffieHellman");
}
export default {
DiffieHellman,
DiffieHellmanGroup,
ECDH,
diffieHellman,
};