Spawn child processes with `Bun.spawn` or `Bun.spawnSync`.

## Spawn a process (`Bun.spawn()`)

Provide a command as an array of strings. The result of `Bun.spawn()` is a `Bun.Subprocess` object.

```ts
const proc = Bun.spawn(["bun", "--version"]);
console.log(await proc.exited); // 0
```

The second argument to `Bun.spawn` is a parameters object that can be used to configure the subprocess.

```ts
const proc = Bun.spawn(["bun", "--version"], {
  cwd: "./path/to/subdir", // specify a working directory
  env: { ...process.env, FOO: "bar" }, // specify environment variables
  onExit(proc, exitCode, signalCode, error) {
    // exit handler
  },
});

proc.pid; // process ID of subprocess
```

## Input stream

By default, the input stream of the subprocess is undefined; it can be configured with the `stdin` parameter.

```ts
const proc = Bun.spawn(["cat"], {
  stdin: await fetch(
    "https://raw.githubusercontent.com/oven-sh/bun/main/examples/hashing.js",
  ),
});

const text = await new Response(proc.stdout).text();
console.log(text); // "const input = "hello world".repeat(400); ..."
```

{% table %}

---

- `null`
- **Default.** Provide no input to the subprocess

---

- `"pipe"`
- Return a `FileSink` for fast incremental writing

---

- `"inherit"`
- Inherit the `stdin` of the parent process

---

- `Bun.file()`
- Read from the specified file.

---

- `TypedArray | DataView`
- Use a binary buffer as input.

---

- `Response`
- Use the response `body` as input.

---

- `Request`
- Use the request `body` as input.

---

- `ReadableStream`
- Use a readable stream as input.

---

- `Blob`
- Use a blob as input.

---

- `number`
- Read from the file with a given file descriptor.

{% /table %}

The `"pipe"` option lets incrementally write to the subprocess's input stream from the parent process.

```ts
const proc = Bun.spawn(["cat"], {
  stdin: "pipe", // return a FileSink for writing
});

// enqueue string data
proc.stdin.write("hello");

// enqueue binary data
const enc = new TextEncoder();
proc.stdin.write(enc.encode(" world!"));

// send buffered data
proc.stdin.flush();

// close the input stream
proc.stdin.end();
```

## Output streams

You can read results from the subprocess via the `stdout` and `stderr` properties. By default these are instances of `ReadableStream`.

```ts
const proc = Bun.spawn(["bun", "--version"]);
const text = await new Response(proc.stdout).text();
console.log(text); // => "1.2.16"
```

Configure the output stream by passing one of the following values to `stdout/stderr`:

{% table %}

---

- `"pipe"`
- **Default for `stdout`.** Pipe the output to a `ReadableStream` on the returned `Subprocess` object.

---

- `"inherit"`
- **Default for `stderr`.** Inherit from the parent process.

---

- `"ignore"`
- Discard the output.

---

- `Bun.file()`
- Write to the specified file.

---

- `number`
- Write to the file with the given file descriptor.

{% /table %}

## Exit handling

Use the `onExit` callback to listen for the process exiting or being killed.

```ts
const proc = Bun.spawn(["bun", "--version"], {
  onExit(proc, exitCode, signalCode, error) {
    // exit handler
  },
});
```

For convenience, the `exited` property is a `Promise` that resolves when the process exits.

```ts
const proc = Bun.spawn(["bun", "--version"]);

await proc.exited; // resolves when process exit
proc.killed; // boolean — was the process killed?
proc.exitCode; // null | number
proc.signalCode; // null | "SIGABRT" | "SIGALRM" | ...
```

To kill a process:

```ts
const proc = Bun.spawn(["bun", "--version"]);
proc.kill();
proc.killed; // true

proc.kill(15); // specify a signal code
proc.kill("SIGTERM"); // specify a signal name
```

The parent `bun` process will not terminate until all child processes have exited. Use `proc.unref()` to detach the child process from the parent.

```ts
const proc = Bun.spawn(["bun", "--version"]);
proc.unref();
```

## Resource usage

You can get information about the process's resource usage after it has exited:

```ts
const proc = Bun.spawn(["bun", "--version"]);
await proc.exited;

const usage = proc.resourceUsage();
console.log(`Max memory used: ${usage.maxRSS} bytes`);
console.log(`CPU time (user): ${usage.cpuTime.user} µs`);
console.log(`CPU time (system): ${usage.cpuTime.system} µs`);
```

## Using AbortSignal

You can abort a subprocess using an `AbortSignal`:

```ts
const controller = new AbortController();
const { signal } = controller;

const proc = Bun.spawn({
  cmd: ["sleep", "100"],
  signal,
});

// Later, to abort the process:
controller.abort();
```

## Using timeout and killSignal

You can set a timeout for a subprocess to automatically terminate after a specific duration:

```ts
// Kill the process after 5 seconds
const proc = Bun.spawn({
  cmd: ["sleep", "10"],
  timeout: 5000, // 5 seconds in milliseconds
});

await proc.exited; // Will resolve after 5 seconds
```

By default, timed-out processes are killed with the `SIGTERM` signal. You can specify a different signal with the `killSignal` option:

```ts
// Kill the process with SIGKILL after 5 seconds
const proc = Bun.spawn({
  cmd: ["sleep", "10"],
  timeout: 5000,
  killSignal: "SIGKILL", // Can be string name or signal number
});
```

The `killSignal` option also controls which signal is sent when an AbortSignal is aborted.

## Using maxBuffer

For spawnSync, you can limit the maximum number of bytes of output before the process is killed:

```ts
// KIll 'yes' after it emits over 100 bytes of output
const result = Bun.spawnSync({
  cmd: ["yes"], // or ["bun", "exec", "yes"] on windows
  maxBuffer: 100,
});
// process exits
```

## Inter-process communication (IPC)

Bun supports direct inter-process communication channel between two `bun` processes. To receive messages from a spawned Bun subprocess, specify an `ipc` handler.

```ts#parent.ts
const child = Bun.spawn(["bun", "child.ts"], {
  ipc(message) {
    /**
     * The message received from the sub process
     **/
  },
});
```

The parent process can send messages to the subprocess using the `.send()` method on the returned `Subprocess` instance. A reference to the sending subprocess is also available as the second argument in the `ipc` handler.

```ts#parent.ts
const childProc = Bun.spawn(["bun", "child.ts"], {
  ipc(message, childProc) {
    /**
     * The message received from the sub process
     **/
    childProc.send("Respond to child")
  },
});

childProc.send("I am your father"); // The parent can send messages to the child as well
```

Meanwhile the child process can send messages to its parent using with `process.send()` and receive messages with `process.on("message")`. This is the same API used for `child_process.fork()` in Node.js.

```ts#child.ts
process.send("Hello from child as string");
process.send({ message: "Hello from child as object" });

process.on("message", (message) => {
  // print message from parent
  console.log(message);
});
```

```ts#child.ts
// send a string
process.send("Hello from child as string");

// send an object
process.send({ message: "Hello from child as object" });
```

The `serialization` option controls the underlying communication format between the two processes:

- `advanced`: (default) Messages are serialized using the JSC `serialize` API, which supports cloning [everything `structuredClone` supports](https://developer.mozilla.org/en-US/docs/Web/API/Web_Workers_API/Structured_clone_algorithm). This does not support transferring ownership of objects.
- `json`: Messages are serialized using `JSON.stringify` and `JSON.parse`, which does not support as many object types as `advanced` does.

To disconnect the IPC channel from the parent process, call:

```ts
childProc.disconnect();
```

### IPC between Bun & Node.js

To use IPC between a `bun` process and a Node.js process, set `serialization: "json"` in `Bun.spawn`. This is because Node.js and Bun use different JavaScript engines with different object serialization formats.

```js#bun-node-ipc.js
if (typeof Bun !== "undefined") {
  const prefix = `[bun ${process.versions.bun} 🐇]`;
  const node = Bun.spawn({
    cmd: ["node", __filename],
    ipc({ message }) {
      console.log(message);
      node.send({ message: `${prefix} 👋 hey node` });
      node.kill();
    },
    stdio: ["inherit", "inherit", "inherit"],
    serialization: "json",
  });

  node.send({ message: `${prefix} 👋 hey node` });
} else {
  const prefix = `[node ${process.version}]`;
  process.on("message", ({ message }) => {
    console.log(message);
    process.send({ message: `${prefix} 👋 hey bun` });
  });
}
```

## Blocking API (`Bun.spawnSync()`)

Bun provides a synchronous equivalent of `Bun.spawn` called `Bun.spawnSync`. This is a blocking API that supports the same inputs and parameters as `Bun.spawn`. It returns a `SyncSubprocess` object, which differs from `Subprocess` in a few ways.

1. It contains a `success` property that indicates whether the process exited with a zero exit code.
2. The `stdout` and `stderr` properties are instances of `Buffer` instead of `ReadableStream`.
3. There is no `stdin` property. Use `Bun.spawn` to incrementally write to the subprocess's input stream.

```ts
const proc = Bun.spawnSync(["echo", "hello"]);

console.log(proc.stdout.toString());
// => "hello\n"
```

As a rule of thumb, the asynchronous `Bun.spawn` API is better for HTTP servers and apps, and `Bun.spawnSync` is better for building command-line tools.

## Benchmarks

{%callout%}
⚡️ Under the hood, `Bun.spawn` and `Bun.spawnSync` use [`posix_spawn(3)`](https://man7.org/linux/man-pages/man3/posix_spawn.3.html).
{%/callout%}

Bun's `spawnSync` spawns processes 60% faster than the Node.js `child_process` module.

```bash
$ bun spawn.mjs
cpu: Apple M1 Max
runtime: bun 1.x (arm64-darwin)

benchmark              time (avg)             (min … max)       p75       p99      p995
--------------------------------------------------------- -----------------------------
spawnSync echo hi  888.14 µs/iter    (821.83 µs … 1.2 ms) 905.92 µs      1 ms   1.03 ms
$ node spawn.node.mjs
cpu: Apple M1 Max
runtime: node v18.9.1 (arm64-darwin)

benchmark              time (avg)             (min … max)       p75       p99      p995
--------------------------------------------------------- -----------------------------
spawnSync echo hi    1.47 ms/iter     (1.14 ms … 2.64 ms)   1.57 ms   2.37 ms   2.52 ms
```

## Reference

A reference of the Spawn API and types are shown below. The real types have complex generics to strongly type the `Subprocess` streams with the options passed to `Bun.spawn` and `Bun.spawnSync`. For full details, find these types as defined [bun.d.ts](https://github.com/oven-sh/bun/blob/main/packages/bun-types/bun.d.ts).

```ts
interface Bun {
  spawn(command: string[], options?: SpawnOptions.OptionsObject): Subprocess;
  spawnSync(
    command: string[],
    options?: SpawnOptions.OptionsObject,
  ): SyncSubprocess;

  spawn(options: { cmd: string[] } & SpawnOptions.OptionsObject): Subprocess;
  spawnSync(
    options: { cmd: string[] } & SpawnOptions.OptionsObject,
  ): SyncSubprocess;
}

namespace SpawnOptions {
  interface OptionsObject {
    cwd?: string;
    env?: Record<string, string | undefined>;
    stdio?: [Writable, Readable, Readable];
    stdin?: Writable;
    stdout?: Readable;
    stderr?: Readable;
    onExit?(
      subprocess: Subprocess,
      exitCode: number | null,
      signalCode: number | null,
      error?: ErrorLike,
    ): void | Promise<void>;
    ipc?(message: any, subprocess: Subprocess): void;
    serialization?: "json" | "advanced";
    windowsHide?: boolean;
    windowsVerbatimArguments?: boolean;
    argv0?: string;
    signal?: AbortSignal;
    timeout?: number;
    killSignal?: string | number;
    maxBuffer?: number;
  }

  type Readable =
    | "pipe"
    | "inherit"
    | "ignore"
    | null // equivalent to "ignore"
    | undefined // to use default
    | BunFile
    | ArrayBufferView
    | number;

  type Writable =
    | "pipe"
    | "inherit"
    | "ignore"
    | null // equivalent to "ignore"
    | undefined // to use default
    | BunFile
    | ArrayBufferView
    | number
    | ReadableStream
    | Blob
    | Response
    | Request;
}

interface Subprocess extends AsyncDisposable {
  readonly stdin: FileSink | number | undefined;
  readonly stdout: ReadableStream<Uint8Array> | number | undefined;
  readonly stderr: ReadableStream<Uint8Array> | number | undefined;
  readonly readable: ReadableStream<Uint8Array> | number | undefined;
  readonly pid: number;
  readonly exited: Promise<number>;
  readonly exitCode: number | null;
  readonly signalCode: NodeJS.Signals | null;
  readonly killed: boolean;

  kill(exitCode?: number | NodeJS.Signals): void;
  ref(): void;
  unref(): void;

  send(message: any): void;
  disconnect(): void;
  resourceUsage(): ResourceUsage | undefined;
}

interface SyncSubprocess {
  stdout: Buffer | undefined;
  stderr: Buffer | undefined;
  exitCode: number;
  success: boolean;
  resourceUsage: ResourceUsage;
  signalCode?: string;
  exitedDueToTimeout?: true;
  pid: number;
}

interface ResourceUsage {
  contextSwitches: {
    voluntary: number;
    involuntary: number;
  };

  cpuTime: {
    user: number;
    system: number;
    total: number;
  };
  maxRSS: number;

  messages: {
    sent: number;
    received: number;
  };
  ops: {
    in: number;
    out: number;
  };
  shmSize: number;
  signalCount: number;
  swapCount: number;
}

type Signal =
  | "SIGABRT"
  | "SIGALRM"
  | "SIGBUS"
  | "SIGCHLD"
  | "SIGCONT"
  | "SIGFPE"
  | "SIGHUP"
  | "SIGILL"
  | "SIGINT"
  | "SIGIO"
  | "SIGIOT"
  | "SIGKILL"
  | "SIGPIPE"
  | "SIGPOLL"
  | "SIGPROF"
  | "SIGPWR"
  | "SIGQUIT"
  | "SIGSEGV"
  | "SIGSTKFLT"
  | "SIGSTOP"
  | "SIGSYS"
  | "SIGTERM"
  | "SIGTRAP"
  | "SIGTSTP"
  | "SIGTTIN"
  | "SIGTTOU"
  | "SIGUNUSED"
  | "SIGURG"
  | "SIGUSR1"
  | "SIGUSR2"
  | "SIGVTALRM"
  | "SIGWINCH"
  | "SIGXCPU"
  | "SIGXFSZ"
  | "SIGBREAK"
  | "SIGLOST"
  | "SIGINFO";
```
