In Linux or other modern OS, each process's memory is protected, so that a wild write in one process do not crash any other process. Now assume, we have memory shared between process A and process B. Now say, due to a soft error, process A unintentionally writes something to that memory area. Is there any way to protect this, given both process A and process B have full write access to that memory.

up vote 2 down vote accepted

When you call shm_open you can pass it the O_RDONLY flag to the mode parameter.

Alternatively you can use mprotect to mark specific pages as (e.g.) read-only. You'll need cooperation and trust between the two processes to do this, there is no way for B to say A can't write to it using mprotect.

If you really want to be sure that the other process can't interfere then communicating via pipes or sockets of some description might be a sensible idea.

You could also use mmap to map a something (e.g. in /dev/shm?) the file permissions make impossible to write to for one of the two processes if they're running as separate UIDs. For example if you have /dev/shm/myprocess owned by user producer and group consumer and set the file permissions to 0640 before mapping it by a process running with that UID and GID then you could prevent the second process from writing to it.

  • I know about mprotect, but as I said, both have full read and write access. It seems impossible to me to achieve this and I think reliability is one major issue of shared memory systems. isn't it? – MetallicPriest Aug 27 '11 at 19:36
  • 1
    @MetallicPriest updated to add the O_RDONLY flag for the open call. There are other solutions to this too though. I'll update again shortly. – Flexo Aug 27 '11 at 19:39
  • Thanks awoodland. One solution that comes to my mind is to use a mutex for every access to the shared memory and give write access to the process only when it has locked the mutex. That will reduce chances of wild writes. However, I think this scheme would be very inefficient when frequency of shared memory access is high. – MetallicPriest Aug 27 '11 at 19:44
  • 1
    @MetallicPriest, if you have stray pointers, the mutex itself may be corrupted... – bdonlan Aug 27 '11 at 20:26
  • Changing permissions directly on "files" in /dev/shm is not portable. Instead you should specify the desired mode (permissions) when creating the shared memory object with shm_open and O_CREAT. Alternatively, just use a file in the normal filesystem instead of shm_open to get shared memory. – R.. Aug 27 '11 at 20:43

You may use a simple checksum on each write. So, when a process detects wrong checksum upon a read operation, it's the sign of the failure of the other process.

  • You can use a checksum, but consider using a semaphore as well because checksum alone is going to be a horrible solution without some form of synchronization. But the best solution of you really want to be sure is to have a single master that write and reads that memory and communicate with it over a socket so it can validate each write. – Martin Oct 10 '16 at 17:48

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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