Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Let me explain: I have already been developing an application on Linux which forks and execs an external binary and waits for it to finish. Results are communicated by shm files that are unique to the fork + process. The entire code is encapsulated within a class.

Now I am considering threading the process in order to seed things up. Having many different instances of class functions fork and execute the binary concurrently (with different parameters) and communicate results with their own unique shm files.

Is this thread safe? If I fork within a thread, apart from being safe, is there something I have to watch for? Any advice or help is much appreciated!

share|improve this question
4  
How would you execute code and not be within a thread? –  ildjarn May 21 '11 at 0:11
2  
The forked process will only contain a copy of the current thread, if that's what you meant. –  hammar May 21 '11 at 0:16
    
@ildjarn: I think he means a child thread of the base process. –  Lightness Races in Orbit May 21 '11 at 0:27
    
@TomalakGeretkal : I realize that, but my (facetiously-made) point is, if code is executing, you're in a thread whether you explicitly created that thread or not, which makes the question a bit silly on the surface. –  ildjarn May 21 '11 at 0:38
    
I should have clarified. I run a single execution path. For a population of individuals (linear genetic programming optimization), I need to execute an external binary, and thus I use fork & exec. Now this execution path can be run in parallel by using threads (boost threads, pthreads, etc). Will it be safe to do so? Meaning, have the threaded execution part fork itself and execute the binary? The shm object is unique to each fork and it's executed binary, and thus unique to each thread as well. Also, Am I better off using vfork instead of fork (conserving memory, minimizing copying, etc?). –  Alex May 21 '11 at 1:07
show 1 more comment

7 Answers 7

up vote 5 down vote accepted

forking, even with threads, is safe. Once you fork, the threads are independent per process. (That is, threading is orthogonal to forking). However, if the threads in different processes use the same shared memory to comunicate, you have to devise a synchronization mechanism.

share|improve this answer
5  
However, it's dangerous to do anything complex in the child (ie, anything beyond an exec), as malloc mutexes might be left locked –  bdonlan May 21 '11 at 1:25
add comment

The problem is that fork() only copies the calling thread, and any mutexes held in child threads will be forever locked in the forked child. The pthread solution was the pthread_atfork() handlers. The idea was you can register 3 handlers: one prefork, one parent, and one child. When fork happens prefork should obtain all mutexes. Both parent and child release all mutexes in parent and child processes respectively.

This isn't the end of the story though! Libraries call atfork to register handlers for library specific mutexes, for example Libc does this. This is a good thing: the application can't possibly know about the mutexes held by 3rd party libraries, so each library must call pthread_atfork to ensure it's own mutexes are cleaned up in the event of a fork().

The problem is that the order that atfork handlers are called for unrelated libraries is undefined (it depends on the order that the libraries are loaded by the program). So this means that technically a deadlock can happen inside of a prefork handler because of a race condition. For example, consider this sequence:

  1. Thread T1 calls fork, which fires prefork handlers for libc (all libc locks obtained
  2. Thread T2 a 3rd party library A acquires its own mutex AM, and then makes a libc call which requires a mutex (blocks).
  3. Thread T1 fires prefork handler for library A, which blocks waiting to obtain AM. (deadlock).

There's your deadlock and its unrelated to your own mutexes or code.

This actually happened on a project I once worked on. The advice I had found at that time was to choose fork or threads but not both. But for some applications that's probably not practical.

share|improve this answer
    
Basically if you have a multiple-process product with any process potentially fork()ing to call exec(), no process should have multiple threads? –  Keith4G Nov 7 '13 at 22:27
    
yes, but if you're willing to live dangerously, you're probably mostly fine. –  Kevin Nov 25 '13 at 5:49
add comment

It's safe to fork in a multithreaded program as long as you are very careful about the code between fork and exec. You can make only re-enterant (aka asynchronous-safe) system calls in that span. In theory, you are not allowed to malloc or free there, although in practice the default Linux allocator is safe, and Linux libraries came to rely on it End result is that you must use the default allocator.

share|improve this answer
add comment

While you can use Linux's NPTL pthreads(7) support for your program, threads are an awkward fit on Unix systems, as you've discovered with your fork(2) question.

Since fork(2) is a very cheap operation on modern systems, you might do better to just fork(2) your process when you have more handling to perform. It depends upon how much data you intend to move back and forth, the share-nothing philosophy of forked processes is good for reducing shared-data bugs but does mean you either need to create pipes to move data between processes or use shared memory (shmget(2) or shm_open(3)).

But if you choose to use threading, you can fork(2) a new process, with the following hints from the fork(2) manpage:

   *  The child process is created with a single thread — the
      one that called fork().  The entire virtual address space
      of the parent is replicated in the child, including the
      states of mutexes, condition variables, and other pthreads
      objects; the use of pthread_atfork(3) may be helpful for
      dealing with problems that this can cause.
share|improve this answer
    
Thank you, I am already using forking and exec for the external process, and chose to stick with shm because I believe it will be faster, and the amount of info need to be passed between processes is big. shm objects are unique to each fork + process, and destroyed/unlinked after passing info. I admit you are probably right about sticking with fork, but it is my understanding that it is heavier on the cpu, and the part where I need to use threads instead of forks contain a lot of memory to share between them, so threads would be much easier to use. –  Alex May 21 '11 at 1:14
add comment

Back at the Dawn of Time, we called threads "lightweight processes" because while they act a lot like processes, they're not identical. The biggest distinction is that threads by definition live in the same address space of one process. This has advantages: switching from thread to thread is fast, they inherently share memory so inter-thread communications are fast, and creating and disposing of threads is fast.

The distinction here is with "heavyweight processes", which are complete address spaces. A new heavyweight process is created by fork(2). As virtual memory came into the UNIX world, that was augmented with vfork(2) and some others.

A fork(2) copies the entire address space of the process, including all the registers, and puts that process under the control of the operating system scheduler; the next time the scheduler comes around, the instruction counter picks up at the next instruction -- the forked child process is a clone of the parent. (If you want to run another program, say because you're writing a shell, you follow the fork with an exec(2) call, which loads that new address space with a new program, replacing the one that was cloned.)

Basically, your answer is buried in that explanation: when you have a process with many LWPs threads and you fork the process, you will have two independent processes with many threads, running concurrently.

This trick is even useful: in many programs, you have a parent process that may have many threads, some of which fork new child processes. (For example, an HTTP server might do that: each connection to port 80 is handled by a thread, and then a child process for something like a CGI program could be forked; exec(2) would then be called to run the CGI program in place of the parent process close.)

share|improve this answer
    
Thank you for the detailed explanation. My question to you is this: I am interested in the main/parent application to use threads (not processes), yet each thread will have to fork and replace its self with another process (execute the binary). Is it safe to do so? Furthermore since fork copies pretty much everything, But I know I do not need everything since the forked process is to be instantly replaced by executing another binary, is there a way to avoid this, or minimize memory copying? –  Alex May 21 '11 at 1:12
2  
@Alex, the copying is actually done on demand - most pages are shared between parent and the child and marked copy-on-write. –  Nikolai N Fetissov May 21 '11 at 1:54
3  
@Charlie, your statement "you will have two independent processes with many threads, running concurrently" is ambiguous or incorrect. The POSIX-specified behavior for fork() is that only the calling thread is in a non-suspended state in the child process. However, some platforms (e.g. Solaris) implement forkall(). –  vladr Feb 15 '12 at 18:46
    
The sentence reads "Two independent processes ... running concurrently." That's correct. "With many threads" is a subordinate clause referring to what the processes have, not to "running concurrently". It's only ambiguous since they don't teach you young kids how to parse an English sentence any more, he said crankily. –  Charlie Martin Feb 16 '12 at 19:32
1  
CMIIAW, parent keeps its threads, child gets only one thread. Or is that only in Linux? –  qarma Oct 1 '13 at 20:23
add comment

If you are using the unix 'fork()' system call, then you are not technically using threads- you are using processes- they will have their own memory space, and therefore cannot interfere with eachother.

As long as each process uses different files, there should not be any issue.

share|improve this answer
add comment

Provided you quickly either call exec or _exit in the forked child process, you're ok in practice.

You might want to use posix_spawn() instead which will probably do the Right Thing.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.