Server Options
When starting a new server, in addition to main fetch handler, you can provide additional options to customize listening server.
import { serve } from "srvx";
serve({
// Generic options
port: 3000,
hostname: "localhost",
// Runtime specific options
node: {},
bun: {},
deno: {},
// Main server handler
fetch: () => new Response("๐ Hello there!"),
});
There are two kind of options:
- Generic options: Top level options are intended to have exactly same functionality regardless of runtime
- Runtime specific: Allow customizing more runtime specific options
Generic Options
port
The port server should be listening to.
Default is value of PORT environment variable or 3000.
0 to use a random port.hostname
The hostname (IP or resolvable host) server listener should bound to.
Default is value of the HOST environment variable, if set. When neither hostname nor HOST is provided, the server will listen to all network interfaces by default.
localhost.reusePort
Enabling this option allows multiple processes to bind to the same port, which is useful for load balancing.
exclusive flag enabled by default, srvx uses non-exclusive mode for consistency.silent
If enabled, no server listening message will be printed (enabled by default when TEST environment variable is set).
manual
If set to true, the server will not start listening automatically. You must call server.serve() yourself to begin accepting connections. Useful when you need to fully construct the server before it starts.
import { serve } from "srvx";
const server = serve({
manual: true,
fetch: () => new Response("๐ Hello there!"),
});
// ...later
await server.serve();
await server.ready();
manual is meaningless on module-worker style runtimes (Cloudflare module syntax, Bunny), where the runtime drives the request lifecycle and there is no listening step to defer.middleware
An array of middleware handlers to run before the main fetch handler.
import { serve } from "srvx";
serve({
middleware: [
(request, next) => {
console.log(`[${request.method}] ${request.url}`);
return next();
},
],
fetch: () => new Response("๐ Hello there!"),
});
plugins
An array of plugins to extend the server. A plugin is a synchronous function that receives the server instance and can register middleware, hook into the lifecycle, or augment requests.
import { serve } from "srvx";
const myPlugin = (server) => {
server.options.middleware.push((request, next) => next());
};
serve({
plugins: [myPlugin],
fetch: () => new Response("๐ Hello there!"),
});
void). All plugin-registered middleware is therefore in place before the first request is handled.protocol
The protocol to use for the server.
Possible values are http or https.
If protocol is not set, Server will use http as the default protocol or https if both tls.cert and tls.key options are provided.
tls
TLS server options.
Example:
import { serve } from "srvx";
serve({
tls: { cert: "./server.crt", key: "./server.key" },
fetch: () => new Response("๐ Hello there!"),
});
Options:
cert: Path or inline content for the certificate in PEM format (required).key: Path or inline content for the private key in PEM format (required).passphrase: Passphrase for the private key (optional).
cert and key values in PEM format starting with -----BEGIN .Client certificates (mutual TLS) are available through the mtls() plugin.
onError
Runtime agnostic error handler.
Example:
import { serve } from "srvx";
serve({
fetch: () => new Response("๐ Hello there!"),
onError(error) {
return new Response(`<pre>${error}\n${error.stack}</pre>`, {
headers: { "Content-Type": "text/html" },
});
},
});
maxRequestBodySize
Maximum allowed size in bytes for the request body. Defaults to undefined (no limit).
As the body is read, its accumulated length is tracked and, once it exceeds the limit, reading is aborted and rejects with a 413-style error. The error carries statusCode: 413, status: 413 and code: "ERR_BODY_TOO_LARGE", so a handler (or onError) can map it to an HTTP 413 Payload Too Large response.
The limit covers both buffered reads (request.text() / request.json()) and the streamed body (request.body, and therefore request.arrayBuffer() / .blob() / .bytes() / .formData()).
Example:
import { serve } from "srvx";
serve({
maxRequestBodySize: 1024 * 1024, // 1 MiB
fetch: async (request) => {
try {
return Response.json(await request.json());
} catch (error) {
if (error.code === "ERR_BODY_TOO_LARGE") {
return new Response("Payload Too Large", { status: 413 });
}
throw error;
}
},
});
- Node: enforced by srvx (the request body stream is size-limited).
- Bun: forwarded to Bun's native
maxRequestBodySize, enforced by Bun (responds with413before the handler runs). - Deno: enforced by srvx (
Deno.servehas no native option).
trustProxy
Whether to trust X-Forwarded-* headers (X-Forwarded-Proto, X-Forwarded-Host, X-Forwarded-For, and the HTTP/2 :scheme) when deriving request.url and request.ip. Defaults to false.
Any client can send X-Forwarded-Proto: https, X-Forwarded-Host or X-Forwarded-For, so trusting them lets a request masquerade as https:, forge its host, or spoof its client IP. Only enable this when a proxy you control sits in front and overwrites the headers.
false(default): ignore the headers; use the real connection protocol, the on-the-wireHostheader and the socket peer address.true: always trust the headers."loopback": trust them only when the proxy connects from a loopback address (127.0.0.0/8or::1).string[]: trust them only when the proxy's address is in the list.
Example:
import { serve } from "srvx";
serve({
// Behind a reverse proxy you control (e.g. Nginx, a load balancer):
trustProxy: true,
fetch: (request) => new Response(new URL(request.url).protocol),
});
Runtime Specific Options
Node.js
Example:
import { serve } from "srvx";
serve({
node: {
maxHeaderSize: 16384 * 2, // Double default
ipv6Only: true, // Disable dual-stack support
// http2: false // Disable http2 support (enabled by default in TLS mode)
},
fetch: () => new Response("๐ Hello there!"),
});
Bun
Example:
import { serve } from "srvx";
serve({
bun: {
error(error) {
return new Response(`<pre>${error}\n${error.stack}</pre>`, {
headers: { "Content-Type": "text/html" },
});
},
},
fetch: () => new Response("๐ Hello there!"),
});
Deno
Example:
import { serve } from "srvx";
serve({
deno: {
onError(error) {
return new Response(`<pre>${error}\n${error.stack}</pre>`, {
headers: { "Content-Type": "text/html" },
});
},
},
fetch: () => new Response("๐ Hello there!"),
});
Service Worker
Options for the service worker adapter (srvx/service-worker).
import { serve } from "srvx/service-worker";
serve({
serviceWorker: {
url: "/sw.js", // path to the service worker file to register
scope: "/", // service worker scope
},
fetch: () => new Response("๐ Hello there!"),
});
url: The path to the service worker file to be registered.scope: The scope of the service worker.
Per-runtime Support
srvx aims for identical behavior across runtimes, but a few options depend on capabilities the underlying runtime does not expose. The table below lists the intentional differences.
| Option / feature | Behavior |
|---|---|
close(true) (force close) | Honored on Node and Bun. On Deno the force argument is currently ignored โ close(true) behaves like a graceful close(). |
trustProxy | Applies to the Node, AWS Lambda, Bun and Deno adapters only. Ignored on Cloudflare, Bunny and the generic/service-worker adapters. |
maxRequestBodySize | Node/Deno enforced by srvx (unlimited by default). Bun forwards it to Bun's native option, which has its own 128 MiB default even when unset. Dropped (not applied) when running under the CLI loader on any runtime. |
manual | Meaningless on module-worker runtimes (Cloudflare module syntax, Bunny) โ there is no listening step to defer. |
gracefulShutdown | Supported on Node, Deno and Bun. No-op on Cloudflare, Bunny and service-worker runtimes. |
Cloudflare env bindings | request.runtime.cloudflare.env is only populated in module-worker syntax. In service-worker syntax (the global fetch listener) bindings are unavailable. |
upgrade / WebSocket | srvx does not handle HTTP upgrade requests on any runtime โ WebSocket upgrades never reach your fetch handler. Use crossws for WebSocket support. |
Deno version
srvx targets Deno 2.x (CI runs against Deno 2.7.x).
srvx import resolves the deno export condition (Bunny is Deno-based) and would give you the Deno adapter. Always import the Bunny adapter explicitly via srvx/bunny.Public Subpaths
In addition to the main srvx entry and the runtime adapters, srvx exposes several public subpaths:
| Subpath | Exports | Use when |
|---|---|---|
srvx/static | serveStatic middleware | Serving static files. Node-API-only (uses node:fs / node:zlib) despite the neutral name โ works only on runtimes with Node compatibility. |
srvx/log | log() middleware | Adding request logging (used by the CLI). |
srvx/loader | loadServerEntry, related types | Resolving and loading a server entry file (as the CLI does). |
srvx/cli | main, cliFetch, CLI types | Building a custom CLI on top of srvx. |
srvx/generic | serve, FastURL, FastResponse | A web-standard (fetch/Response) runtime with no dedicated adapter. |
srvx/service-worker | serve, FastURL, FastResponse | Running inside a browser/service-worker environment. |
TypeScript Types
Runtime-specific option and context types are typed against each runtime's own type packages, which srvx does not bundle. To get full typing for options.bun, options.deno, request.runtime.cloudflare, request.runtime.awsLambda (and similar), install the relevant devDependencies in your project:
- Bun (
options.bun):@types/bun(orbun-types) - Deno (
options.deno,request.runtime.deno):@types/deno - Cloudflare (
request.runtime.cloudflare):@cloudflare/workers-types - AWS Lambda (
request.runtime.awsLambda):@types/aws-lambda
Without these, the corresponding fields fall back to any (with skipLibCheck) or raise type errors (without it).