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Is there any way, linux specific or not, to have posix shared memory segments (obtained with shm_open()) removed when no process is using them. i.e. have them reference counted and have the system remove them when the reference becomes 0

A few notes:

  • Establishing an atexit handler to remove them doesn't work if the program crashes.

  • Currently, the linux specific way, I embed the pid in the segment name, and try to find unused segments by walking /dev/shm in an external program. Which has the drawback of having to periodically clean them up externally in a rather hackish way.

  • As the program can run multiple copies, using a well defined name for the segment that the program reuses when it starts up is not feasible.

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Are you asking whether there is a system library approach to this rather than doing it by hand? –  Joe Nov 14 '12 at 12:03
    
You could use gdb to debug your application so it doesn't crash? That alleviates the problem that crashy applications can't clean up behind themselves... –  Nicholas Wilson Nov 14 '12 at 12:37

5 Answers 5

up vote 3 down vote accepted

No - at lest on Linux, the kernel doesn't contain anything that can do this. It's up to some application to call shm_unlink() at some point to get rid of a shared memory segment.

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Could you not just use a global counting semaphore to reference count? Wrap the attach and detach calls so that the semaphore is incremented when you attach to the memory and decremented when you detach. Release the segment when a detach reduces the semaphore to zero.

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This has the same implication as removing it in an atexit handler (atexit is fine for my particular use, as there's only on process writing to the shared memory, and that process can remove it). This does not take care of the segments if e.g. the process crashes. –  user964970 Nov 14 '12 at 12:10
1  
You could trap the crash signals and decrement the reference count in the signal handler? –  Joe Nov 14 '12 at 12:18

Not sure, if the below works, or feasible. But my try.

Why do not you execute the helper program, which is executed each time your program crashed.

ie:

/proc/sys/kernel/core_pattern  to  /path/to/Myprogram %p

Myprogram is executed when process crashes, and probably you can explore further.

see

man 5 core.  for more information. 

Hope this helps to some extend.

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If there is a point in your program's execution when it is well known, that all processes that need to open the shared memory segment have already done so, you can safely unlink it. Unlinking removes the object from the global namespace but it sill lingers around as long as there is at least one process that keep its file descriptor open. If a crash occurs after that point, the file descriptor is automatically closed and the reference count is decremented. Once no open descriptors to the unlinked shared memory block remain, it is deleted.

This is useful in the following scenario: a process creates a shared memory block, unlinks it and then forks. The child inherits the file descriptor and can use the shared memory block to communicate with the parent. Once both processes terminate, the block is automatically removed as both file descriptors get closed.

While unlinked, the shared memory block is unavailable for other processes to open it. Meanwhile, if one use shm_open() with the same name as the unlinked block, a new and completely different shared memory block would be created instead.

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I found a way using a system command and the Linux command "fuser" which allow to list the processes which opened a file. This way, you can check if the shared memory file (located in /dev/shm") is still in use and delete it if not. Note that the operations of check / delete / create must be enclosed in a inter-processes critical section using a named mutex or named semaphore or file lock.

        std::string shm_file = "/dev/shm/" + service_name + "Shm";
        std::string cmd_line = "if [ -f " + shm_file + " ] ; then if ! fuser -s " + shm_file + " ; then rm -f " + shm_file + " ; else exit 2 ; fi else exit 3 ; fi";
        int res = system(cmd_line.c_str());
        switch (WEXITSTATUS(res)) {
        case 0: _logger.warning ("The shared memory file " + shm_file + " was found orphan and is deleted");         break;
        case 1: _logger.critical("The shared memory file " + shm_file + " was found orphan and cannot be deleted");  break;
        case 2: _logger.trace   ("The shared memory file " + shm_file + " is linked to alive processes");            break;
        case 3: _logger.trace   ("The shared memory file " + shm_file + " is not found");                            break;
        }
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