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denoland-deno/cli/tests/unit_node/crypto/crypto_key_test.ts

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// deno-lint-ignore-file no-explicit-any
// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
import {
createPrivateKey,
createSecretKey,
generateKeyPair,
generateKeyPairSync,
KeyObject,
randomBytes,
} from "node:crypto";
import { promisify } from "node:util";
import { Buffer } from "node:buffer";
import {
assertEquals,
assertThrows,
} from "../../../../test_util/std/assert/mod.ts";
import { createHmac } from "node:crypto";
const RUN_SLOW_TESTS = Deno.env.get("SLOW_TESTS") === "1";
const generateKeyPairAsync = promisify(
(
type: any,
options: any,
callback: (
err: Error | null,
key: { publicKey: KeyObject; privateKey: KeyObject },
) => void,
) =>
generateKeyPair(
type,
options,
(err: Error | null, publicKey: KeyObject, privateKey: KeyObject) => {
callback(err, { publicKey, privateKey });
},
),
);
Deno.test({
name: "create secret key",
fn() {
const key = createSecretKey(Buffer.alloc(0));
assertEquals(key.type, "secret");
assertEquals(key.asymmetricKeyType, undefined);
assertEquals(key.symmetricKeySize, 0);
},
});
Deno.test({
name: "export secret key",
fn() {
const material = Buffer.from(randomBytes(32));
const key = createSecretKey(material);
assertEquals(Buffer.from(key.export()), material);
},
});
Deno.test({
name: "export jwk secret key",
fn() {
const material = Buffer.from("secret");
const key = createSecretKey(material);
assertEquals(key.export({ format: "jwk" }), {
kty: "oct",
k: "c2VjcmV0",
});
},
});
Deno.test({
name: "createHmac with secret key",
fn() {
const key = createSecretKey(Buffer.from("secret"));
assertEquals(
createHmac("sha256", key).update("hello").digest().toString("hex"),
"88aab3ede8d3adf94d26ab90d3bafd4a2083070c3bcce9c014ee04a443847c0b",
);
},
});
const modulusLengths = RUN_SLOW_TESTS ? [2048, 3072] : [2048];
for (const type of ["rsa", "rsa-pss", "dsa"]) {
for (const modulusLength of modulusLengths) {
Deno.test({
name: `generate ${type} key ${modulusLength}`,
fn() {
const { publicKey, privateKey } = generateKeyPairSync(type as any, {
modulusLength,
});
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
Deno.test({
name: `generate ${type} key async ${modulusLength}`,
async fn() {
const x = await generateKeyPairAsync(type as any, {
modulusLength,
});
const { publicKey, privateKey } = x;
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
}
}
for (const namedCurve of ["P-384", "P-256"]) {
Deno.test({
name: `generate ec key ${namedCurve}`,
fn() {
const { publicKey, privateKey } = generateKeyPairSync("ec", {
namedCurve,
});
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
Deno.test({
name: `generate ec key ${namedCurve} async`,
async fn() {
const { publicKey, privateKey } = await generateKeyPairAsync("ec", {
namedCurve,
});
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
Deno.test({
name: `generate ec key ${namedCurve} paramEncoding=explicit fails`,
fn() {
assertThrows(() => {
// @ts-ignore: @types/node is broken?
generateKeyPairSync("ec", {
namedCurve,
paramEncoding: "explicit",
});
});
},
});
}
for (
const groupName of ["modp5", "modp14", "modp15", "modp16", "modp17", "modp18"]
) {
Deno.test({
name: `generate dh key ${groupName}`,
fn() {
// @ts-ignore: @types/node is broken?
const { publicKey, privateKey } = generateKeyPairSync("dh", {
group: groupName,
});
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
Deno.test({
name: `generate dh key ${groupName} async`,
async fn() {
// @ts-ignore: @types/node is broken?
const { publicKey, privateKey } = await generateKeyPairAsync("dh", {
group: groupName,
});
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
}
const primeLengths = RUN_SLOW_TESTS ? [1024, 2048, 4096] : [1024];
for (const primeLength of primeLengths) {
Deno.test({
name: `generate dh key ${primeLength}`,
fn() {
// @ts-ignore: @types/node is broken?
const { publicKey, privateKey } = generateKeyPairSync("dh", {
primeLength,
generator: 2,
});
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
Deno.test({
name: `generate dh key ${primeLength} async`,
async fn() {
// @ts-ignore: @types/node is broken?
const { publicKey, privateKey } = await generateKeyPairAsync("dh", {
primeLength,
generator: 2,
});
assertEquals(publicKey.type, "public");
assertEquals(privateKey.type, "private");
},
});
}
const rsaPrivateKey = Deno.readTextFileSync(
new URL("../testdata/rsa_private.pem", import.meta.url),
);
Deno.test("createPrivateKey rsa", function () {
const key = createPrivateKey(rsaPrivateKey);
assertEquals(key.type, "private");
assertEquals(key.asymmetricKeyType, "rsa");
assertEquals(key.asymmetricKeyDetails?.modulusLength, 2048);
assertEquals(key.asymmetricKeyDetails?.publicExponent, 65537n);
});
// openssl ecparam -name secp256r1 -genkey -noout -out a.pem
// openssl pkcs8 -topk8 -nocrypt -in a.pem -out b.pem
const ecPrivateKey = Deno.readTextFileSync(
new URL("./ec_private_secp256r1.pem", import.meta.url),
);
Deno.test("createPrivateKey ec", function () {
const key = createPrivateKey(ecPrivateKey);
assertEquals(key.type, "private");
assertEquals(key.asymmetricKeyType, "ec");
assertEquals(key.asymmetricKeyDetails?.namedCurve, "p256");
});