🤹 Jest Environment
Miniflare includes a custom Jest environment that allows you to run your unit tests within the Miniflare sandbox. Note that Jest 27 is required. See this repository for an example using TypeScript.
Setup
The Miniflare environment isn't installed by default, install it and Jest with:
$ npm install -D jest-environment-miniflare jest
In the following examples, we'll assume your package.json
contains
"type": "module"
, and that you're using a tool to bundle your worker. See
⚡️ Developing with esbuild for an example.
To enable the Miniflare environment, set the
testEnvironment
option
in your Jest configuration:
jest.config.jsexport default { testEnvironment: "miniflare", // Configuration is automatically loaded from `.env`, `package.json` and // `wrangler.toml` files by default, but you can pass any additional Miniflare // API options here: testEnvironmentOptions: { bindings: { KEY: "value" }, kvNamespaces: ["TEST_NAMESPACE"], },};
Writing and Running Tests
The Miniflare environment lets us import our worker's functions with regular
import
syntax. We can write a test for the following worker like so:
src/index.jsaddEventListener("fetch", (event) => { event.respondWith(handleRequest(event.request));});
// Assuming you've got a build tool that removes `export`s when you actually// deploy your worker (e.g. https://esbuild.github.io/api/#format-iife)export async function handleRequest(request) { return new Response(`URL: ${request.url} KEY: ${KEY}`);}
test/index.spec.jsimport { handleRequest } from "../src/index.js";
test("responds with url", async () => { const req = new Request("http://localhost/"); const res = await handleRequest(req); expect(await res.text()).toBe("URL: http://localhost/ KEY: value");});
Modules support is still experimental in Jest and requires the
--experimental-vm-modules
flag. To run this test:
$ NODE_OPTIONS=--experimental-vm-modules npx jest
Isolated Storage
The Miniflare environment will use isolated storage for KV namespaces, caches,
and Durable Objects in each test. This essentially means any changes you make in
a test or describe
-block are automatically undone afterwards. The isolated
storage is copied from the parent describe
-block, allowing you to seed data in
beforeAll
hooks.
As an example, consider the following tests:
// Gets the arrayasync function get() { const jsonValue = await TEST_NAMESPACE.get("array"); return JSON.parse(jsonValue ?? "[]");}
// Pushes an item onto the end of the arrayasync function push(item) { const value = await get(); value.push(item); await TEST_NAMESPACE.put("array", JSON.stringify(value));}
beforeAll(async () => { await push("beforeAll");});
beforeEach(async () => { // This runs in each tests' isolated storage environment await push("beforeEach");});
test("test 1", async () => { // This push(1) will only mutate the isolated environment await push(1); expect(await get()).toEqual(["beforeAll", "beforeEach", 1]);});
test("test 2", async () => { await push(2); // Note that push(1) from the previous test has been "undone" expect(await get()).toEqual(["beforeAll", "beforeEach", 2]);});
describe("describe", () => { beforeAll(async () => { await push("describe: beforeAll"); });
beforeEach(async () => { await push("describe: beforeEach"); });
test("test 3", async () => { await push(3); expect(await get()).toEqual([ // All beforeAll's run before beforeEach's "beforeAll", "describe: beforeAll", "beforeEach", "describe: beforeEach", 3, ]); });
test("test 4", async () => { await push(4); expect(await get()).toEqual([ "beforeAll", "describe: beforeAll", "beforeEach", "describe: beforeEach", 4, ]); });});
Note that bindings (e.g. variables, KV namespaces, etc) are only included in the
global scope when you're using a service-worker
format worker. In modules
mode, you can use the getMiniflareBindings
global method:
const { TEST_NAMESPACE } = getMiniflareBindings();
Note also that storage persistence options (kvPersist
, cachePersist
, and
durableObjectsPersist
) are ignored by the Miniflare Jest environment.
Durable Objects
When testing Durable Objects, Miniflare needs to run your script itself to
extract exported Durable Object classes. Miniflare should be able to auto-detect
your script from your package.json
or wrangler.toml
file, but you can also
set it manually in Jest configuration:
src/index.mjsexport class TestObject { constructor(state) { this.storage = state.storage; }
async fetch() { const count = (await this.storage.get("count")) + 1; this.storage.put("count", count); return new Response(count.toString()); }}
jest.config.jsexport default { testEnvironment: "miniflare", testEnvironmentOptions: { modules: true, scriptPath: "./src/index.mjs", durableObjects: { TEST_OBJECT: "TestObject", }, },};
To access Durable Object storage in tests, use the
getMiniflareDurableObjectStorage()
global function:
test("increments count", async () => { // Durable Objects requires modules mode so bindings aren't accessible via the // global scope const { TEST_OBJECT } = getMiniflareBindings(); const id = TEST_OBJECT.newUniqueId();
// Seed Durable Object storage (isolated storage rules from above also apply) const storage = await getMiniflareDurableObjectStorage(id); await storage.put("count", 3);
// Increment the count const stub = TEST_OBJECT.get(id); const res = await stub.fetch("http://localhost/"); expect(await res.text()).toBe("4");
// Check storage updated expect(await storage.get("count")).toBe(4);});
To immediately invoke ("flush") scheduled Durable Object alarms, use the
flushMiniflareDurableObjectAlarms()
global function:
test("flushes alarms", async () => { // Get Durable Object stub const env = getMiniflareBindings(); const id = env.TEST_OBJECT.newUniqueId(); const stub = env.TEST_OBJECT.get(id);
// Schedule Durable Object alarm await stub.fetch("http://localhost/");
// Flush all alarms... await flushMiniflareDurableObjectAlarms(); // ...or specify an array of `DurableObjectId`s to flush await flushMiniflareDurableObjectAlarms([id]);});
Mocking Outbound fetch
Requests
Miniflare allows you to substitute custom Response
s for fetch()
calls using
undici
's
MockAgent
API.
This is useful for testing workers that make HTTP requests to other services. To
obtain a correctly set-up
MockAgent
,
use the getMiniflareFetchMock()
global function.
test("mocks fetch", async () => { // Get correctly set up `MockAgent` const fetchMock = getMiniflareFetchMock();
// Throw when no matching mocked request is found // (see https://undici.nodejs.org/#/docs/api/MockAgent?id=mockagentdisablenetconnect) fetchMock.disableNetConnect();
// Mock request to https://example.com/thing // (see https://undici.nodejs.org/#/docs/api/MockAgent?id=mockagentgetorigin) const origin = fetchMock.get("https://example.com"); // (see https://undici.nodejs.org/#/docs/api/MockPool?id=mockpoolinterceptoptions) origin .intercept({ method: "GET", path: "/thing" }) .reply(200, "Mocked response!");
const res = await fetch("https://example.com/thing"); const text = await res.text(); expect(text).toBe("Mocked response!");});
Waiting for waitUntil
ed Promise
s
To await
the results of waitUntil
ed Promise
s, call the
getMiniflareWaitUntil()
global function on a FetchEvent
, ScheduledEvent
or
ExecutionContext
. This will return a Promise
that resolves to an array of
resolved waitUntil
ed Promise
values:
src/index.jsexport default { async fetch(request, env, ctx) { ctx.waitUntil(Promise.resolve(1)); ctx.waitUntil(Promise.resolve(2)); ctx.waitUntil(Promise.resolve(3)); return new Response("body"); }}
test/index.spec.jsimport worker from "../src/index.js";
test("wait until", async () => { const request = new Request("http://localhost:8787/"); const env = getMiniflareBindings(); const ctx = new ExecutionContext();
// Call module worker handler const response = worker.fetch(request, env, ctx); expect(await response.text()).toBe("body");
// Check resolved values of waitUntil'ed Promises const waitUntils = await getMiniflareWaitUntil(ctx); expect(waitUntils).toEqual([1, 2, 3]);});