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I have several processes communicating with each through POSIX shared memory on OS X. My issue is these processes could spawn in any order, and try to initialize the shared memory segment at the same time.

I tried using advisory locks with fcntl and flock but both fail telling me I'm passing an invalid file descriptor (I'm positive the file descriptor is not invalid). So clearly that's out of the picture.

Are there any alternatives to this? Or is there any details about using locks with shared memory that I'm not aware of?

Edit: My attempt at using locks looks like this:

// Some declarations...

struct Queue {                                                                                          
    int index[ENTRIES_PER_QUEUE];                                                                       
    sem_t lock;                                                                                         
    sem_t readWait;                                                                                     
    sem_t writeSem;                                                                                     
    struct Entry slots[ENTRIES_PER_QUEUE];                                                              

struct ipc_t {
    int fd;
    char name[512];
    struct Queue* queue;

ipc_t ipc_create(const char* name, int owner) {

    int isInited = 1;                                                                                   
    struct Queue* queue;                                                                                
    struct flock lock = {                                                                               
        .l_type = F_WRLCK,                                                                              
        .l_whence = SEEK_SET,                                                                           
        .l_start = 0,                                                                                   
        .l_len = 0                                                                                      

    ipc_t conn = malloc(sizeof(struct ipc_t));

    sprintf(conn->name, "/arqvenger_%s", name);

    conn->fd = shm_open(conn->name, O_CREAT | O_RDWR, 0666);
    if (conn->fd == -1) {
        perror("shm_open failed");
        return NULL;

    if (fcntl(conn->fd, F_SETLKW, &lock) == -1) {

// Do stuff with the lock & release it

The output I get is:

Tanked...: Bad file descriptor
share|improve this question
Show some code maybe ? – cnicutar Aug 21 '11 at 8:41
@cnicutar I felt code would obscure the issue at hand, but if you feel like it will help, it's on its way. – Juan Aug 21 '11 at 8:42
The code looks ok to me. I tried an isolated example and it worked. – cnicutar Aug 21 '11 at 9:14
@cnicutar was that on linux? I neglected to mention I'm using OS X. Clearly it's an important factor, on retrospect. – Juan Aug 21 '11 at 9:23
Okay, I've got a FreeBSD, stay put :-) – cnicutar Aug 21 '11 at 9:24
up vote 2 down vote accepted

A common technique is to first call shm_open with O_CREAT|O_EXCL. This will succeed for only one process that then has to do the setup. The others then would have to do the open as before and wait a bit, probably polling, that the setup is finished.

Edit: To show how this could work as discussed in the comments.

struct head {
 unsigned volatile flag;
 pthread_mutex_t mut;

void * addr = 0;
/* try shm_open with exclusive, and then */
if (/* we create the segment */) {
  addr = mmap(something);
  struct head* h = addr;
  pthread_mutex_init(&h->mut, aSharedAttr);
  h->flag = 1;
  /* do the rest of the initialization, and then */
} else {
  /* retry shm_open without exclusive, and then */
  addr = mmap(something);
  struct head* h = addr;
  /* initialy flag is guaranteed to be 0 */
  /* this will break out of the loop whence the new value is written to flag */
  while (!h->flag) sched_yield();
share|improve this answer
I considered doing this, and dismissed it because it either means busy waiting or using usleep and it doesn't sit right with me. But I guess I could fall back onto this if there's not any other way. – Juan Aug 21 '11 at 9:09
This sleep really only must be for a short initial time, the initialization of one flag and a mutex, e.g. – Jens Gustedt Aug 21 '11 at 9:14
You most certainly do not need any busy waiting or sleeping. Try shm_open(...O_RDWR|O_CREAT|O_EXCL). If that fails, this means another process has already created your shared memory. Now try shm_open(...O_RDWR). If that fails, there's nothing more to try. The call will not succeed the second time around. Log a fatal error and exit. I wonder where an idea of busy-waiting could possibly be introduced into this sequence. – n.m. Aug 21 '11 at 10:16
@n.m. There is the time between the first process has successfully created and has finished initialization. E.g you could place a pthread_mutex_t at the beginning of the segment. But then you'd still have to wait with another process until that mutex has been initialized. So you'd need a flag that indicates that that mutex is initialized and all other processes would have to poll that flag. With all other lock structures this is the same you have to ensure that they are initialized before you can use them. The only process that can do that is the creator, so there is a short gap. – Jens Gustedt Aug 21 '11 at 10:57
@Jens Gustedt: OK I see what you mean. On Linux 2.6 and up you can use POSIX semaphores to implement a named interprocess mutex (that's what boost::interprocess::named_mutex does if POSIX semaphores are available). Then you don't have to wait anywhere. If POSIX semaphores or some equivalent mechanism is not available, then probably busy-waiting is the only option (again, that's what boost::interprocess::named_mutex does). I'm not sure where OS X stands in this regard. – n.m. Aug 21 '11 at 11:54

I have been able to reproduce the problem. Then I found a sad notice in the standard:

When the file descriptor fildes refers to a shared memory object, the behavior of fcntl() shall be the same as for a regular file except the effect of the following values for the argument cmd shall be unspecified: F_SETFL, F_GETLK, F_SETLK, and F_SETLKW.

So it's likely it's not yet supported. For such a simple setup I would use a semaphore for signaling "the memory is ready".


It seems I need to mention semaphores can be created using "O_EXCL" (so there are no races).

share|improve this answer
semaphores must be properly initialized before using them, so you have a race here. – Jens Gustedt Aug 21 '11 at 10:58
@Jens Gustedt No I don't ? Can you point the line ? :P Seriously though, I can easily initialize semaphores with O_EXCL and no polling is necessary ;) – cnicutar Aug 21 '11 at 11:01
Ah, you are talking of named semaphores, aren't you? Using sem_open instead of sem_init? So this then would require another shared resource outside the shared segment itself, with its own naming scheme etc. – Jens Gustedt Aug 21 '11 at 11:28
@Jens Gustedt Better than polling I think :-? – cnicutar Aug 21 '11 at 11:33
no, I don't think so. As I explained, the polling only has to be during a very brief period of initialization of one lock structure, if processes happen to jump on the same micro second (or so) for initialization. So this is a trade off situation between wasting a bit of cycles once versus wasting file descriptors and having an external data structure and convention to ensure just initialization. I'd go for the first, and if there'd be a problem, benchmarking would tell. – Jens Gustedt Aug 21 '11 at 12:21

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