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I am working on a program by C that some processes need to access a shared memory on an embed linux. This shared memory needs to be initialized when it was created. Any process attaching to this memory may crash. When it restarted (may be by linux INIT), it must not initialize the shared memory again since other processes are using it. How to tell if current starting of the process that is creating shared memory is the first time or restarted. I came up with an idea that allocates a integer in shared memory where will be written as a number like 5678956 (any number other than ffffffff or 00000000) to claim this memory has been initialized. But I am not sure if this is working well since the critical data is storing this memory. Any advice would be appreciated. Thanks.

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up vote 4 down vote accepted

You should use both a shared semaphore and shared memory segment. Attempt opening the semaphore with sem_open using O_EXCL|O_CREAT and an initial value of 0. If that succeeds, create and initialize the shared memory segment, then post the semaphore and close it. If opening the seamphore in exclusive mode failed, open it non-exclusive and wait on the semaphore, then close it.

Another solution, if you prefer: Use a named file in the filesystem with mmap and MAP_SHARED for your shared memory. First create the file with a temporary name and populate it with the initial data it should contain. Then attempt to link it to the real name. If link fails with EEXIST, you're not the first process, and you can just delete your temp file and open and map the existing one. If link succeeds, you are the first process.

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You can even create the named file in a tmpfs filesystem so it doesn't touch a physical disk. – caf Feb 20 '12 at 0:53
    
Yes, it's actually rather frustrating that POSIX specified the ugly shm_open interface rather than defining /dev/shm with normal filesystem semantics. Being unable to rename/link shared memory objects makes them much less useful than they would otherwise be. – R.. Feb 20 '12 at 0:57
    
Thank you for your answers. – Joe.Z Feb 22 '12 at 11:10
    
Thank you for your quick answers. You enlightened me to use excl|IPC_CREAT to create shared memory and initialize it directly, instead of using semaphore. It works fine so far. Do you have any idea if there is anything potential issue on this? Thank you again. – Joe.Z Feb 22 '12 at 11:17
    
Yes, there's a fundamental race condition with just using exclusive create on the shared memory segment. The second process might start after the first process has created the shared memory segment, but before it has initialized the contents of it. The only ways around this are to either implement your own synchronization object (with atomics) where the "zero state" is a valid initialized state, or to use a secondary synchronization object (like filesystem names or a named semaphore) outside of the shared memory object. – R.. Feb 22 '12 at 17:30

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