🧰 Using the API
The API gives you finer-grained control over the CLI, allowing you to dispatch events to workers without making actual HTTP requests. This makes it great for writing tests, or advanced use cases.
Installation
Miniflare is installed using npm:
$ npm install -D miniflareUsage
In all future examples, we'll assume Node.js is running in ES module mode. You
can do this by setting the type field in your package.json:
package.json{ "type": "module"}To initialise Miniflare, import the Miniflare class from miniflare:
import { Miniflare } from "miniflare";
const mf = new Miniflare({ script: ` addEventListener("fetch", (event) => { event.respondWith(new Response("Hello Miniflare!")); }); `,});const res = await mf.dispatchFetch("http://localhost:8787/");console.log(await res.text()); // Hello Miniflare!The rest of these docs go into more detail on configuring specific features.
String and File Scripts
Note in the above example we're specifying script as a string. We could've
equally put the script in a file such as worker.js, then used the scriptPath
property instead:
const mf = new Miniflare({ scriptPath: "worker.js",});Watching, Reloading and Disposing
You can watch scripts, .env, package.json and wrangler.toml files with the
watch option. When this is enabled, you must dispose of the watcher when
you're done with the Miniflare instance:
const mf = new Miniflare({ watch: true,});// ...await mf.dispose();You must also dispose if you're persisting KV, cache, or Durable Object data
in Redis to close opened connections.
You can also manually reload scripts (main and Durable Objects') and options
(.env, package.json and wrangler.toml) with reload:
const mf = new Miniflare({ ... });await mf.reload();Miniflare will emit a reload event whenever it reloads too:
const mf = new Miniflare({ ... });mf.addEventListener("reload", (event) => { console.log("Worker reloaded!");});Updating Options and the Global Scope
You can use the setOptions method to update the options of an existing
Miniflare instance. This accepts the same options object as the
new Miniflare constructor, applies those options, then reloads the worker.
const mf = new Miniflare({ script: "...", kvNamespaces: ["TEST_NAMESPACE"], bindings: { KEY: "value1" },});
// Only updates `bindings`, leaves `script` and `kvNamespaces` aloneawait mf.setOptions({ bindings: { KEY: "value2" },});You can also access the global scope of the sandbox directly using the
getGlobalScope method. Ideally, use should use the setOptions method when
updating the environment dynamically, as Miniflare creates a new global scope
each reload, so your changes will be lost:
const mf = new Miniflare({ globals: { KEY: "value1" },});const globalScope = await mf.getGlobalScope();globalScope.KEY = "value2";Dispatching Events
dispatchFetch and dispatchScheduled dispatch fetch and scheduled events
to workers respectively:
import { Miniflare } from "miniflare";
const mf = new Miniflare({ script: ` addEventListener("fetch", (event) => { event.waitUntil(Promise.resolve(event.request.url)); event.respondWith(new Response(event.request.headers.get("X-Message"))); }); addEventListener("scheduled", (event) => { event.waitUntil(Promise.resolve(event.scheduledTime)); }); `,});
const res = await mf.dispatchFetch("http://localhost:8787/", { headers: { "X-Message": "Hello Miniflare!" },});console.log(await res.text()); // Hello Miniflare!console.log((await res.waitUntil())[0]); // http://localhost:8787/
const waitUntil = await mf.dispatchScheduled(1000);console.log(waitUntil[0]); // 1000See 📨 Fetch Events and ⏰ Scheduled Events for more details.
HTTP Server
To start an HTTP server like the CLI's, use the startServer method. This
returns a
Node.js http.Server
instance:
import { Miniflare } from "miniflare";
const mf = new Miniflare({ script: ` addEventListener("fetch", (event) => { event.respondWith(new Response("Hello Miniflare!")); }); `, port: 5000,});const server = await mf.startServer();console.log("Listening on :5000");You can also just create the server with createServer and start it yourself.
Note that you're then responsible for setting the correct host and port:
const mf = new Miniflare({ script: "...", port: 5000,});const server = await mf.createServer();const { HTTPPlugin } = await mf.getPlugins();server.listen(HTTPPlugin.port, () => { console.log(`Listening on :${HTTPPlugin.port}`);});Request#cf Object
By default, Miniflare will fetch the Request#cf object from a trusted
Cloudflare endpoint. You can disable this behaviour, using the cfFetch option:
const mf = new Miniflare({ cfFetch: false,});You can also provide a custom request metadata provider, which takes the incoming Node request and may look-up information in a geo-IP database:
const mf = new Miniflare({ async metaProvider(req) { return { forwardedProto: req.headers["X-Forwarded-Proto"], realIp: req.headers["X-Forwarded-For"], cf: { // Could get these from a geo-IP database colo: "SFO", country: "US", // ... }, }; },});HTTPS Server
To start an HTTPS server instead, set the https option. To use an
automatically generated self-signed certificate, set https to true. This
certificate will be valid for 30 days and be cached in ./.mf/cert by default.
You can customise this directory by setting https to a string path instead.
The certificate will be renewed if it expires in less than 2 days:
const mf = new Miniflare({ https: true, // Cache certificate in ./.mf/cert https: "./cert_cache", // Cache in ./cert_cache instead});To load an existing certificate from the file system:
const mf = new Miniflare({ // These are all optional, you don't need to include them all httpsKeyPath: "./key.pem", httpsCertPath: "./cert.pem", httpsCaPath: "./ca.pem", httpsPfxPath: "./pfx.pfx", httpsPassphrase: "pfx passphrase",});To load an existing certificate from strings instead:
const mf = new Miniflare({ // These are all optional, you don't need to include them all httpsKey: "-----BEGIN RSA PRIVATE KEY-----...", httpsCert: "-----BEGIN CERTIFICATE-----...", httpsCa: "...", httpsPfx: "...", httpsPassphrase: "pfx passphrase",});If both a string and path are specified for an option (e.g. httpsKey and
httpsKeyPath), the string will be preferred.
CRON Scheduler
To start a CRON scheduler like the CLI's, use the startScheduler method. This
will dispatch scheduled events according to the specified CRON expressions:
const mf = new Miniflare({ crons: ["30 * * * *"],});const scheduler = await mf.startScheduler();// ...// Stop dispatching eventsawait scheduler.dispose();Logging
By default, [mf:*] logs as seen in the CLI are disabled when using the API. To
enable these, set the log property to an instance of the Log class. Its only
parameter is a log level indicating which messages should be logged:
import { Miniflare, Log, LogLevel } from "miniflare";
const mf = new Miniflare({ scriptPath: "worker.js", log: new Log(LogLevel.DEBUG), // Enable --debug messages});Arbitrary Globals
The globals property can be used to inject arbitrary objects into the global
scope of the sandbox. This can be very useful for testing:
import { Miniflare } from "miniflare";
const mf = new Miniflare({ script: ` addEventListener("fetch", (event) => { event.respondWith(new Response(greet("Miniflare"))); }); `, globals: { greet: (name) => `Hello ${name}!`, },});const res = await mf.dispatchFetch("http://localhost:8787/");console.log(await res.text()); // Hello Miniflare!Reference
import { Miniflare, Log, LogLevel } from "miniflare";
const mf = new Miniflare({ // All options are optional, but one of script or scriptPath is required
log: new Log(LogLevel.INFO), // Logger Miniflare uses for debugging sourceMap: true, // Enable source map support globally
script: `export default { async fetch(request, env, ctx) { return new Response("Hello Miniflare!"); } }`, scriptPath: "./index.mjs",
wranglerConfigPath: true, // Load configuration from wrangler.toml wranglerConfigPath: "./wrangler.custom.toml", // ...or custom wrangler.toml path
wranglerConfigEnv: "dev", // Environment in wrangler.toml to use
packagePath: true, // Load script from package.json packagePath: "./package.custom.json", // ...or custom package.json path
modules: true, // Enable modules modulesRules: [ // Modules import rule { type: "ESModule", include: ["**/*.js"], fallthrough: true }, { type: "Text", include: ["**/*.text"] }, ], compatibilityDate: "2021-11-23", // Opt into backwards-incompatible changes from compatibilityFlags: ["formdata_parser_supports_files"], // Control specific backwards-incompatible changes upstream: "https://miniflare.dev", // URL of upstream origin watch: true, // Watch files for changes mounts: { // Mount additional named workers api: "./api", site: { rootPath: "./site", // Path to resolve files relative to scriptPath: "./index.js", // Resolved as ./site/index.js sitePath: "./public", // Resolved as ./site/public routes: ["*site.mf/*"], // Route requests matching *site.mf/* to this worker }, }, name: "worker", // Name of service routes: ["*site.mf/parent"], // Route requests matching *site.mf/parent to parent over mounts
logUnhandledRejections: true, // Log unhandled promise rejections instead of crashing
globalAsyncIO: true, // Allow async I/O outside handlers globalTimers: true, // Allow setting timers outside handlers globalRandom: true, // Allow secure random generation outside handlers
acutalTime: true, // Always return current time from `Date.now()`/`new Date()`
inaccurateCpu: true, // Log experimental, highly-inaccurate CPU time measurements with each request
host: "127.0.0.1", // Host for HTTP(S) server to listen on port: 8787, // Port for HTTP(S) server to listen on https: true, // Enable self-signed HTTPS (with optional cert path) httpsKey: "-----BEGIN RSA PRIVATE KEY-----...", httpsKeyPath: "./key.pem", // Path to PEM SSL key httpsCert: "-----BEGIN CERTIFICATE-----...", httpsCertPath: "./cert.pem", // Path to PEM SSL cert chain httpsCa: "...", httpsCaPath: "./ca.pem", // Path to SSL trusted CA certs httpsPfx: "...", httpsPfxPath: "./pfx.pfx", // Path to PFX/PKCS12 SSL key/cert chain httpsPassphrase: "pfx passphrase", // Passphrase to decrypt SSL files cfFetch: "./node_modules/.mf/cf.json", // Path for cached Request cf object from Cloudflare async metaProvider(req) { // Custom request metadata provider taking Node `http.IncomingMessage` return { forwardedProto: req.headers["X-Forwarded-Proto"], realIp: req.headers["X-Forwarded-For"], cf: { colo: "SFO", country: "US", // ... }, }; }, liveReload: true, // Reload HTML pages whenever worker is reloaded
crons: ["30 * * * *"], // CRON expression for triggering scheduled events
buildCommand: "npm run build", // Command to build project buildBasePath: "./build", // Working directory for build command buildWatchPaths: ["./src"], // Directory to watch for rebuilding on changes
kvNamespaces: ["TEST_NAMESPACE"], // KV namespace to bind kvPersist: "./kv-data", // Persist KV data (to optional path)
r2Buckets: ["BUCKET"], // R2 bucket to bind r2Persist: "./r2-data", // Persist R2 data (to optional path)
durableObjects: { // Durable Object to bind TEST_OBJECT: "TestObject", // className API_OBJECT: { className: "ApiObject", scriptName: "api" }, }, durableObjectsPersist: "./durable-objects-data", // Persist Durable Object data (to optional path) durableObjectsAlarms: false, // Enable default/named Durable Object alarms (enabled by default)
cache: false, // Enable default/named caches (enabled by default) cachePersist: "./cache-data", // Persist cached data (to optional path) cacheWarnUsage: true, // Warn on cache usage, for workers.dev subdomains
sitePath: "./site", // Path to serve Workers Site files from siteInclude: ["**/*.html", "**/*.css", "**/*.js"], // Glob pattern of site files to serve siteExclude: ["node_modules"], // Glob pattern of site files not to serve
envPath: true, // Load environment variables from .env envPath: "./env.custom", // ...or custom .env path
bindings: { SECRET: "sssh" }, // Binds variable/secret to environment globals: { LOG: () => console.log("magic") }, // Binds variable/secret to global scope wasmBindings: { ADD_MODULE: "./add.wasm" }, // WASM module to bind textBlobBindings: { TEXT: "./text.txt" }, // Text blob to bind dataBlobBindings: { DATA: "./data.bin" }, // Data blob to bind});
await mf.reload(); // Reload scripts and configuration files
await mf.setOptions({ kvNamespaces: ["TEST_NAMESPACE2"] }); // Apply options and reload
const globalScope = await mf.getGlobalScope(); // Get sandbox's global scopeconst bindings = await mf.getBindings(); // Get bindings (KV/Durable Object namespaces, variables, etc)
const exports = await mf.getModuleExports(); // Get exports from entry module
const mount = await mf.getMount("api"); // Get mounted MiniflareCore instanceawait mount.getBindings();
// Dispatch "fetch" event to workerconst res = await mf.dispatchFetch("http://localhost:8787/", { headers: { Authorization: "Bearer ..." },});const text = await res.text();const resWaitUntil = await res.waitUntil(); // Get `waitUntil`ed promises
// Dispatch "scheduled" event to workerconst waitUntil = await mf.dispatchScheduled(Date.now(), "30 * * * *");
const TEST_NAMESPACE = await mf.getKVNamespace("TEST_NAMESPACE");
const BUCKET = await mf.getR2Bucket("BUCKET");
const caches = await mf.getCaches(); // Get global `CacheStorage` instanceconst defaultCache = caches.default;const namedCache = await caches.open("name");
// Get Durable Object namespace and storage for IDconst TEST_OBJECT = await mf.getDurableObjectNamespace("TEST_OBJECT");const id = TEST_OBJECT.newUniqueId();const storage = await mf.getDurableObjectStorage(id);
const server = await mf.createServer(); // Create http.Server instanceserver.listen(8787, () => {});
const server2 = await mf.startServer(); // Create and start http.Server instanceserver2.close();
const scheduler = await mf.startScheduler(); // Start CRON schedulerawait scheduler.dispose();
await mf.dispose(); // Cleanup storage database connections and watcher