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  • shm_open()
  • mmap() with a predefined big length
  • fork() (several times)
  • ftruncate() at will

The point of this is to make sure that every process spawned by fork() have a shared segment at the same address. Yet, I don't want to keep the RAM busy all the time, but dynamically resize it (with size spanning 0 - big length).

Can this work? Is there UB?

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3 Answers 3

up vote 4 down vote accepted

No, that's fine. You can truncate the underlying file anytime, but you may receive SIGBUS if you access the memory beyond the file's bounds. So, you will need to be extremely careful not to touch memory beyond the current length of the file (or catch SIGBUS and deal with it).

From man 2 mmap:

Use of a mapped region can result in these signals:

SIGBUS Attempted access to a portion of the buffer that does not correspond to the file (for example, beyond the end of the file, including the case where another process has truncated the file).

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That's what I'd assume, but could the munmap trigger writes to dirty pages which might trigger a SIGBUS? –  Brian Cain Oct 29 '12 at 17:53
    
Marking this as accepted, because it answers my question. But Damon's method is better manageable (I can unload pages in the middle of the mmaped range). –  Lorenzo Pistone Oct 29 '12 at 18:17
    
@nneonneo I don't think this is quite right. I believe you need to do an mremap after the ftruncate to update the mapping. Nonetheless you should still allocate a large size originally to prevent mremap failing with ENOMEM. –  jleahy Mar 11 '13 at 16:44
    
@jleahy: Actually, my point is that you don't need to mremap, but accessing memory past the end of the file may cause a crash. In practice, mremap is safer. –  nneonneo Mar 11 '13 at 17:41
    
@nneonneo What about if another process shares a mapping of the file? Then one process can launch a denial of service attack on the other by ftruncating the file smaller and triggering SIGBUS in the innocent process (surely Linux does not allow this?) –  Eloff Feb 1 at 22:35

Don't resize it.

I don't want to keep the RAM busy all the time

That's what the kernel will do for you with virtual memory. It will be paged as necessary/appropriate as long as you don't use mlock() or MAP_LOCKED.

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well, RAM as well as swap. I might use something in the middle of the mapped area at some time (forcing the kernel to commit it), but then I could forget about it for the rest of the runtime. So I think I need a way to explicitly tell that I'm no more using that part of the address space. –  Lorenzo Pistone Oct 29 '12 at 18:00
    
You can use madvise(), but be aware that there's no guarantees on the behavior. –  Brian Cain Oct 29 '12 at 18:02
    
I guess I would use MADV_REMOVE. But then what should I do if I need back that space? –  Lorenzo Pistone Oct 29 '12 at 18:07
    
Without knowing more details, I'd think you'd prefer MADV_DONTNEED. –  Brian Cain Oct 29 '12 at 18:09

Create mappings as large as you like, it will not "keep RAM busy" unless you actually use it.

If you are worried about keeping RAM busy after you are done using it, call madvise(MADV_DONTNEED) -- this will purge the pages and give you back new pages from the zero pool if you access them again.

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There's no operation that I need to perform before writing to a a range that has been marked as MADV_DONTNEED, right? –  Lorenzo Pistone Oct 29 '12 at 18:11
    
Note that the zero fill behavior is only in cases where the backing store no longer has those pages (as it might be in the question where some of the data could have been discarded by ftruncate). –  Brian Cain Oct 29 '12 at 18:12
    
@LorenzoPistone: There is nothing you have to do, no. MADV_DONTNEED will discard the pages and either (if backed by a file) reload pages from disk transparently as needed, or (anon mapping) just throw a zero page at you. Note that the latter is -- at least in my opinion -- actually "incorrect" behaviour, since POSIX states that semantics are not changed (which is quite the case!). It's just what you want, though. –  Damon Oct 29 '12 at 18:38

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