I guess the question says it all.

I want to fork on Windows. What is the most similar operation and how do I use it.

14 Answers 14


Cygwin has fully featured fork() on Windows. Thus if using Cygwin is acceptable for you, then the problem is solved in the case performance is not an issue.

Otherwise you can take a look at how Cygwin implements fork(). From a quite old Cygwin's architecture doc:

5.6. Process Creation The fork call in Cygwin is particularly interesting because it does not map well on top of the Win32 API. This makes it very difficult to implement correctly. Currently, the Cygwin fork is a non-copy-on-write implementation similar to what was present in early flavors of UNIX.

The first thing that happens when a parent process forks a child process is that the parent initializes a space in the Cygwin process table for the child. It then creates a suspended child process using the Win32 CreateProcess call. Next, the parent process calls setjmp to save its own context and sets a pointer to this in a Cygwin shared memory area (shared among all Cygwin tasks). It then fills in the child's .data and .bss sections by copying from its own address space into the suspended child's address space. After the child's address space is initialized, the child is run while the parent waits on a mutex. The child discovers it has been forked and longjumps using the saved jump buffer. The child then sets the mutex the parent is waiting on and blocks on another mutex. This is the signal for the parent to copy its stack and heap into the child, after which it releases the mutex the child is waiting on and returns from the fork call. Finally, the child wakes from blocking on the last mutex, recreates any memory-mapped areas passed to it via the shared area, and returns from fork itself.

While we have some ideas as to how to speed up our fork implementation by reducing the number of context switches between the parent and child process, fork will almost certainly always be inefficient under Win32. Fortunately, in most circumstances the spawn family of calls provided by Cygwin can be substituted for a fork/exec pair with only a little effort. These calls map cleanly on top of the Win32 API. As a result, they are much more efficient. Changing the compiler's driver program to call spawn instead of fork was a trivial change and increased compilation speeds by twenty to thirty percent in our tests.

However, spawn and exec present their own set of difficulties. Because there is no way to do an actual exec under Win32, Cygwin has to invent its own Process IDs (PIDs). As a result, when a process performs multiple exec calls, there will be multiple Windows PIDs associated with a single Cygwin PID. In some cases, stubs of each of these Win32 processes may linger, waiting for their exec'd Cygwin process to exit.

Sounds like a lot of work, doesn't it? And yes, it is slooooow.

EDIT: the doc is outdated, please see this excellent answer for an update

  • 12
    This is a good answer if you want to write a Cygwin app on windows. But in general its not the best thing to do. Fundamentally, the *nix and Windows process and thread models are quite different. CreateProcess() and CreateThread() are the generally equivalent APIs
    – Foredecker
    Jun 13, 2009 at 4:08
  • 2
    Developers should keep in mind that this is an unsupported mechanism, and IIRC it is indeed inclined to break whenever some other process on the system is using code injection. Apr 6, 2014 at 2:33
  • 1
    The different implementation link is no longer valid.
    – PythonNut
    Nov 27, 2014 at 18:28
  • Edited to leave the other answer link only Nov 28, 2014 at 5:14
  • 1
    @Foredecker, Actually you shouldn't do it even if you are trying to write a "cygwin app". It tries to imitate Unix's fork yet it accomplishes this with a leaky solution and you must be prepared for unexpected situations.
    – Pacerier
    Aug 13, 2015 at 11:11

I certainly don't know the details on this because I've never done it it, but the native NT API has a capability to fork a process (the POSIX subsystem on Windows needs this capability - I'm not sure if the POSIX subsystem is even supported anymore).

A search for ZwCreateProcess() should get you some more details - for example this bit of information from Maxim Shatskih:

The most important parameter here is SectionHandle. If this parameter is NULL, the kernel will fork the current process. Otherwise, this parameter must be a handle of the SEC_IMAGE section object created on the EXE file before calling ZwCreateProcess().

Though note that Corinna Vinschen indicates that Cygwin found using ZwCreateProcess() still unreliable:

Iker Arizmendi wrote:

> Because the Cygwin project relied solely on Win32 APIs its fork
> implementation is non-COW and inefficient in those cases where a fork
> is not followed by exec.  It's also rather complex. See here (section
> 5.6) for details:
> http://www.redhat.com/support/wpapers/cygnus/cygnus_cygwin/architecture.html

This document is rather old, 10 years or so. While we're still using Win32 calls to emulate fork, the method has changed noticably. Especially, we don't create the child process in the suspended state anymore, unless specific datastructes need a special handling in the parent before they get copied to the child. In the current 1.5.25 release the only case for a suspended child are open sockets in the parent. The upcoming 1.7.0 release will not suspend at all.

One reason not to use ZwCreateProcess was that up to the 1.5.25 release we're still supporting Windows 9x users. However, two attempts to use ZwCreateProcess on NT-based systems failed for one reason or another.

It would be really nice if this stuff would be better or at all documented, especially a couple of datastructures and how to connect a process to a subsystem. While fork is not a Win32 concept, I don't see that it would be a bad thing to make fork easier to implement.

  • 1
    This is the wrong answer. CreateProcess() and CreateThread() are the general equivalents.
    – Foredecker
    Jun 13, 2009 at 4:05
  • 2
    Interix is available in Windows Vista Enterprise/Ultimate as "Subsystem for UNIX Applications": en.wikipedia.org/wiki/Interix
    – bk1e
    Jun 13, 2009 at 18:03
  • 18
    @Foredecker - this may be a wrong answer, but CreateProcess()/CreateThread() might well be wrong, too. It depends on whether one is looking for 'the Win32 way to do things' or 'as close to fork() semantics as possible'. CreateProcess() behaves significantly differently than fork(), which is the reason cygwin needed to do a lot of work to support it. Jun 13, 2009 at 18:29
  • 1
    @jon: I've tried to fix up the links and copy the relevant text into the answer (so future broken links aren't a problem). However, this answer is from long enough ago that I'm not 100% certain the quote I found today is what I was referring to in 2009. Jul 19, 2013 at 23:31
  • 4
    If people want "fork with immediate exec", then perhaps CreateProcess is a candidate. But fork without exec is often desirable and this is what drivers people to ask for a real fork. Oct 16, 2014 at 17:56

Well, windows doesn't really have anything quite like it. Especially since fork can be used to conceptually create a thread or a process in *nix.

So, I'd have to say:



CreateThread() (I've heard that for C applications, _beginthreadex() is better).


People have tried to implement fork on Windows. This is the closest thing to it I can find:

Taken from: http://doxygen.scilab.org/5.3/d0/d8f/forkWindows_8c_source.html#l00216

static BOOL haveLoadedFunctionsForFork(void);

int fork(void) 
    HANDLE hProcess = 0, hThread = 0;
    OBJECT_ATTRIBUTES oa = { sizeof(oa) };
    CLIENT_ID cid;
    USER_STACK stack;
    PNT_TIB tib;

    CONTEXT context = {
        CONTEXT_FULL | 

    if (setjmp(jenv) != 0) return 0; /* return as a child */

    /* check whether the entry points are 
       initilized and get them if necessary */
    if (!ZwCreateProcess && !haveLoadedFunctionsForFork()) return -1;

    /* create forked process */
    ZwCreateProcess(&hProcess, PROCESS_ALL_ACCESS, &oa,
        NtCurrentProcess(), TRUE, 0, 0, 0);

    /* set the Eip for the child process to our child function */
    ZwGetContextThread(NtCurrentThread(), &context);

    /* In x64 the Eip and Esp are not present, 
       their x64 counterparts are Rip and Rsp respectively. */
#if _WIN64
    context.Rip = (ULONG)child_entry;
    context.Eip = (ULONG)child_entry;

#if _WIN64
    ZwQueryVirtualMemory(NtCurrentProcess(), (PVOID)context.Rsp,
        MemoryBasicInformation, &mbi, sizeof mbi, 0);
    ZwQueryVirtualMemory(NtCurrentProcess(), (PVOID)context.Esp,
        MemoryBasicInformation, &mbi, sizeof mbi, 0);

    stack.FixedStackBase = 0;
    stack.FixedStackLimit = 0;
    stack.ExpandableStackBase = (PCHAR)mbi.BaseAddress + mbi.RegionSize;
    stack.ExpandableStackLimit = mbi.BaseAddress;
    stack.ExpandableStackBottom = mbi.AllocationBase;

    /* create thread using the modified context and stack */
    ZwCreateThread(&hThread, THREAD_ALL_ACCESS, &oa, hProcess,
        &cid, &context, &stack, TRUE);

    /* copy exception table */
    ZwQueryInformationThread(NtCurrentThread(), ThreadBasicInformation,
        &tbi, sizeof tbi, 0);
    tib = (PNT_TIB)tbi.TebBaseAddress;
    ZwQueryInformationThread(hThread, ThreadBasicInformation,
        &tbi, sizeof tbi, 0);
    ZwWriteVirtualMemory(hProcess, tbi.TebBaseAddress, 
        &tib->ExceptionList, sizeof tib->ExceptionList, 0);

    /* start (resume really) the child */
    ZwResumeThread(hThread, 0);

    /* clean up */

    /* exit with child's pid */
    return (int)cid.UniqueProcess;
static BOOL haveLoadedFunctionsForFork(void)
    HANDLE ntdll = GetModuleHandle("ntdll");
    if (ntdll == NULL) return FALSE;

    if (ZwCreateProcess && ZwQuerySystemInformation && ZwQueryVirtualMemory &&
        ZwCreateThread && ZwGetContextThread && ZwResumeThread &&
        ZwQueryInformationThread && ZwWriteVirtualMemory && ZwClose)
        return TRUE;

    ZwCreateProcess = (ZwCreateProcess_t) GetProcAddress(ntdll,
    ZwQuerySystemInformation = (ZwQuerySystemInformation_t)
        GetProcAddress(ntdll, "ZwQuerySystemInformation");
    ZwQueryVirtualMemory = (ZwQueryVirtualMemory_t)
        GetProcAddress(ntdll, "ZwQueryVirtualMemory");
    ZwCreateThread = (ZwCreateThread_t)
        GetProcAddress(ntdll, "ZwCreateThread");
    ZwGetContextThread = (ZwGetContextThread_t)
        GetProcAddress(ntdll, "ZwGetContextThread");
    ZwResumeThread = (ZwResumeThread_t)
        GetProcAddress(ntdll, "ZwResumeThread");
    ZwQueryInformationThread = (ZwQueryInformationThread_t)
        GetProcAddress(ntdll, "ZwQueryInformationThread");
    ZwWriteVirtualMemory = (ZwWriteVirtualMemory_t)
        GetProcAddress(ntdll, "ZwWriteVirtualMemory");
    ZwClose = (ZwClose_t) GetProcAddress(ntdll, "ZwClose");

    if (ZwCreateProcess && ZwQuerySystemInformation && ZwQueryVirtualMemory &&
        ZwCreateThread && ZwGetContextThread && ZwResumeThread &&
        ZwQueryInformationThread && ZwWriteVirtualMemory && ZwClose)
        return TRUE;
        ZwCreateProcess = NULL;
        ZwQuerySystemInformation = NULL;
        ZwQueryVirtualMemory = NULL;
        ZwCreateThread = NULL;
        ZwGetContextThread = NULL;
        ZwResumeThread = NULL;
        ZwQueryInformationThread = NULL;
        ZwWriteVirtualMemory = NULL;
        ZwClose = NULL;
    return FALSE;
  • 5
    Note that most of the error checking is missing - e.g. ZwCreateThread returns an NTSTATUS value which can be checked using the SUCCEEDED and FAILED macros.
    – BCran
    Oct 11, 2013 at 9:27
  • 1
    What happens if the fork crashes, does it crash the program, or does the thread just crash? If it crashes the program, then this isn't really forking. Just curious, because I'm looking for a real solution, and hope this might be a decent alternative. Apr 28, 2014 at 20:26
  • 1
    I would like to note there's a bug in the provided code. haveLoadedFunctionsForFork is a global function in the header, but a static function in the c file. They both should be global. And currently fork crashes, adding error checking now. Apr 28, 2014 at 21:04
  • The site is dead and I don't know how I can compile the example on my own system. I assume I am missing some headers or including the wrong ones am I? (the example doesn't show them.) Mar 30, 2019 at 21:23

Prior to Microsoft introducing their new "Linux subsystem for Windows" option, CreateProcess() was the closest thing Windows has to fork(), but Windows requires you to specify an executable to run in that process.

The UNIX process creation is quite different to Windows. Its fork() call basically duplicates the current process almost in total, each in their own address space, and continues running them separately. While the processes themselves are different, they are still running the same program. See here for a good overview of the fork/exec model.

Going back the other way, the equivalent of the Windows CreateProcess() is the fork()/exec() pair of functions in UNIX.

If you were porting software to Windows and you don't mind a translation layer, Cygwin provided the capability that you want but it was rather kludgey.

Of course, with the new Linux subsystem, the closest thing Windows has to fork() is actually fork() :-)

  • 5
    So, given WSL, can I use fork in an average, non-WSL application?
    – Caesar
    Mar 4, 2019 at 14:42

As other answers have mentioned, NT (the kernel underlying modern versions of Windows) has an equivalent of Unix fork(). That's not the problem.

The problem is that cloning a process's entire state is not generally a sane thing to do. This is as true in the Unix world as it is in Windows, but in the Unix world, fork() is used all the time, and libraries are designed to deal with it. Windows libraries aren't.

For example, the system DLLs kernel32.dll and user32.dll maintain a private connection to the Win32 server process csrss.exe. After a fork, there are two processes on the client end of that connection, which is going to cause problems. The child process should inform csrss.exe of its existence and make a new connection – but there's no interface to do that, because these libraries weren't designed with fork() in mind.

So you have two choices. One is to forbid the use of kernel32 and user32 and other libraries that aren't designed to be forked – including any libraries that link directly or indirectly to kernel32 or user32, which is virtually all of them. This means that you can't interact with the Windows desktop at all, and are stuck in your own separate Unixy world. This is the approach taken by the various Unix subsystems for NT.

The other option is to resort to some sort of horrible hack to try to get unaware libraries to work with fork(). That's what Cygwin does. It creates a new process, lets it initialize (including registering itself with csrss.exe), then copies most of the dynamic state over from the old process and hopes for the best. It amazes me that this ever works. It certainly doesn't work reliably – even if it doesn't randomly fail due to an address space conflict, any library you're using may be silently left in a broken state. The claim of the current accepted answer that Cygwin has a "fully-featured fork()" is... dubious.

Summary: In an Interix-like environment, you can fork by calling fork(). Otherwise, please try to wean yourself from the desire to do it. Even if you're targeting Cygwin, don't use fork() unless you absolutely have to.


The following document provides some information on porting code from UNIX to Win32: https://msdn.microsoft.com/en-us/library/y23kc048.aspx

Among other things, it indicates that the process model is quite different between the two systems and recommends consideration of CreateProcess and CreateThread where fork()-like behavior is required.


"as soon as you want to do file access or printf then io are refused"

  • You cannot have your cake and eat it too... in msvcrt.dll, printf() is based on the Console API, which in itself uses lpc to communicate with the console subsystem (csrss.exe). Connection with csrss is initiated at process start-up, which means that any process that begins its execution "in the middle" will have that step skipped. Unless you have access to the source code of the operating system, then there is no point in trying to connect to csrss manually. Instead, you should create your own subsystem, and accordingly avoid the console functions in applications that use fork().

  • once you have implemented your own subsystem, don't forget to also duplicate all of the parent's handles for the child process;-)

"Also, you probably shouldn't use the Zw* functions unless you're in kernel mode, you should probably use the Nt* functions instead."

  • This is incorrect. When accessed in user mode, there is absolutely no difference between Zw*** Nt***; these are merely two different (ntdll.dll) exported names that refer to the same (relative) virtual address.

ZwGetContextThread(NtCurrentThread(), &context);

  • obtaining the context of the current (running) thread by calling ZwGetContextThread is wrong, is likely to crash, and (due to the extra system call) is also not the fastest way to accomplishing the task.
  • 3
    This doesn't appear to be answering the main question but replying to a few other different answers, and would probably be better replying directly to each for clarity and to make it easier to follow what's going on.
    – Leigh
    Apr 6, 2014 at 2:16
  • you seem to be asuming that printf always writes to the console.
    – Jasen
    May 13, 2016 at 12:01

Your best options are CreateProcess() or CreateThread(). There is more information on porting here.


There is no easy way to emulate fork() on Windows.

I suggest you to use threads instead.

  • Well, in fairness, implementing fork was exactly what CygWin did. But, if you ever read up on how they did it, yor "no easy way" is a gross misunderstatement :-)
    – paxdiablo
    Apr 5, 2018 at 1:11

fork() semantics are necessary where the child needs access to the actual memory state of the parent as of the instant fork() is called. I have a piece of software which relies on the implicit mutex of memory copying as of the instant fork() is called, which makes threads impossible to use. (This is emulated on modern *nix platforms via copy-on-write/update-memory-table semantics.)

The closest that exists on Windows as a syscall is CreateProcess. The best that can be done is for the parent to freeze all other threads during the time that it is copying memory over to the new process's memory space, then thaw them. Neither the Cygwin frok [sic] class nor the Scilab code that Eric des Courtis posted does the thread-freezing, that I can see.

Also, you probably shouldn't use the Zw* functions unless you're in kernel mode, you should probably use the Nt* functions instead. There's an extra branch that checks whether you're in kernel mode and, if not, performs all of the bounds checking and parameter verification that Nt* always do. Thus, it's very slightly less efficient to call them from user mode.

  • Very interesting information regarding Zw* exported symbols, thank you. Nov 5, 2015 at 22:24
  • Do note that the Zw* functions from user space still map to Nt* functions in kernel space, for safety. Or at least they should. Mar 30, 2019 at 21:19

The closest you say... Let me think... This must be fork() I guess :)

For details see Does Interix implement fork()?


If you only care about creating a subprocess and waiting for it, perhaps _spawn* API's in process.h are sufficient. Here's more information about that:

https://docs.microsoft.com/en-us/cpp/c-runtime-library/process-and-environment-control https://en.wikipedia.org/wiki/Process.h


Most of the hacky solutions are outdated. Winnie the fuzzer has a version of fork that works on current versions of Windows 10 (tho this requires system specific offsets and can break easily too).


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