I want to fork a go process and get back the id of the new process(es), but all I can see in the exec or os libraries is to start a new process.


You supposedly want syscall.ForkExec() from the syscall package.

Note that fork() has been invented at the time when no threads were used at all, and a process had always had just a single thread of execution in it, and hence forking it was safe. With Go, the situation is radically different as it heavily uses OS-level threads to power its goroutine scheduling.

Now, unadorned fork(2) on Linux will make the child process have just the single thread—the one which called fork(2) in the parent process—among all those which were active, including some crucial threads used by the Go runtime. Basically this means that you simply cannot expect the child process to be able to continue executing Go code, and the only thing you can sensibly do is to somehow immediately perform exec(2). Notice that that's what syscall.ForkExec() is supposed to be used for.

And now think about the problem further. I'd say these days the only thing a direct call to fork(2) is useful for is "best-effort asynchronous process state snapshotting"—the kind, say, Redis uses. This technique relies on the fact the child process inherits all the memory data pages from its parent, but the OS uses copy-on-write technique to not really copy all that data, so the child can just sit there and save all the data structures to disk while its parent is chugging away modifying them in its own address space. Every other conceivable use for fork() implies immediate exec(), and that's what exec.Command() et al is for, so why just not use it?

  • 11
    "Every other conceivable use for fork() implies immediate exec(), and that's what exec.Command() et al is for, so why just not use it?" There's setrlimit(), setting up SELinux, chroot()ing, closing or setting up FDs before handing over control -- and those need to happen between fork() and exec(), no? Apr 23 '16 at 22:47
  • 1
    @cpcallen, I'm afraid, that would be "not in Go" this way. The essense of the problem is that the Go runtime does two things to the OS-level threads: a) uses them to power your goroutines; b) uses them for its own needs. Since only a single threads survives a fork(), as soon as it's resumed in a new process, it will be in a half-assed state, impossible to work properly.
    – kostix
    May 12 '17 at 7:17
  • 1
    @cpcallen, there are two things possibly worthy of doing. 1) You may fork() in a call to some C code arranged via cgo; and that code must not "return" (that is, it must eventually call exit(2)). The upside is that the Go runtime, while its data pages will be "inherited" by the forked process, won't ever be given control. The downside is that your C code will have hard time accessing regular data managed by the Go runtime because of this.
    – kostix
    May 12 '17 at 7:22
  • 5
    @IvanVučica, Go has direct support for some of this stuff in its syscall.ForkExec(): this function accepts an instance of a platform-speficic syscall.ProcAttr type which gives access to an assorted set of features including inheriting of FDs, setting the cwd, the environment block, controlling of session creation, chrooting, credentials, clone(2) flags etc. I'm afraid SELinux is not supported (and neither is AppArmor and friends). See go doc syscall.ProcAttr and go doc syscall.SysProcAttr for more info.
    – kostix
    May 12 '17 at 7:34
  • 2
    @kostix: very useful insights & suggestions. Re: fork(): when it was envisioned there was no "software with a kind of layer of abstraction over native OS threads" because UNIX didn't get native OS threads until nearly a decade later. :-)
    – cpcallen
    May 12 '17 at 14:00

One solution is to use a exec.Command executed in its goroutine.

That is what the little project akshaydeo/go_process does:

// Method to fork a process for given command
// and return ProcessMonitor
func Fork(processStateListener ProcessStateListener, cmdName string, cmdArgs ...string) {
    go func() {
        processMonitor := &ProcessMonitor{}
        args := strings.Join(cmdArgs, ",")
        command := exec.Command(cmdName, args)
        output, err := command.Output()
        if err != nil {
            processMonitor.Err = err
            processStateListener.OnError(processMonitor, err)
        processMonitor.Output = &output

The test process_test.go shows some examples:

// Test case for fork
func TestFork(t *testing.T) {
    processStateListenerImpl := &ProcessStateListenerImpl{make(chan bool)}
    Fork(processStateListenerImpl,"ls", "-a") //("ping","","-c","3")
    // waiting onto monitor
  • It is forking ls process. I want to fork the same process which I am running. How can I do that - fork of c++?
    – Shashwat
    Feb 6 '15 at 17:15
  • @Shashwat not sure: I have only seen the opposite (stackoverflow.com/q/22805059/6309)
    – VonC
    Feb 6 '15 at 17:18
  • I'm guessing here: there's a return missing inside the if err != nil block of Fork.
    – Rick-777
    Feb 7 '15 at 18:11
  • @Rick-777 that seems sensible, but I don't see one in the original source code (github.com/akshaydeo/go_process/blob/…)
    – VonC
    Feb 7 '15 at 19:41
  • I took a look at the original, but it looks incorrect too.
    – Rick-777
    Feb 7 '15 at 22:54

Forking is not just for parallel processing. It's also used to provide redundancy for critical services that cannot be down. If you have a single process a fatal error can take out the entire thing, threads and all.

With a multi-process application, the other, parallel instances of the application will continue processing while the "parent" process brings up a new instance to replace the one that crashed.

Nginx, Apache all work this way.


syscall.Syscall(syscall.SYS_FORK, 0, 0, 0) might work, and first return value is id you want.

Here's an example:

func main() {
    foo := 4
    bar := 10
    id, _, _ := syscall.Syscall(syscall.SYS_FORK, 0, 0, 0)
    if id == 0 {
        fmt.Println("In child:", id, foo, bar)
    } else {
        fmt.Println("In parent:", id, foo, bar)

then get output similar to this:

In parent: 16397 4 11
In child: 0 5 10

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