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I'm trying to find out how to remap memory-mapped files on a Mac (when I want to expand the available space).

I see our friends in the Linux world have mremap but I can find no such function in the headers on my Mac. /Developer/SDKs/MacOSX10.6.sdk/usr/include/sys/mman.h has the following:

  • mmap
  • mprotect
  • msync
  • munlock
  • munmap
  • but no mremap

man mremap confirms my fears.

I'm currently having to munmap and mmmap if I want to resize the size of the mapped file, which involves invalidating all the loaded pages. There must be a better way. Surely?

I'm trying to write code that will work on Mac OS X and Linux. I could settle for a macro to use the best function in each case if I had to but I'd rather do it properly.

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Wow, this question is #3 in Google already. –  nmichaels Aug 19 '10 at 19:20
    
For which query? –  Joe Aug 19 '10 at 19:27
1  
After 7 hours? That's slow. Google loves SO. Often a question becomes Google's first answer within minutes. –  Potatoswatter Aug 19 '10 at 19:34
    
"mremap osx" is the query. –  nmichaels Aug 19 '10 at 19:58
    
You have a typo, in your post you said "I'm currently having to munmap and mremap." You probably meant to say "munmap and mmap." –  Dustin Mar 19 '12 at 17:41

4 Answers 4

up vote 0 down vote accepted

You can ftruncate the file to a large size (creating a hole) and mmap all of it. If the file is persistent I recommend filling the hole with write calls rather than by writing in the mapping, as otherwise the file's blocks may get unnecessarily fragmented on the disk.

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So you're suggesting I should allocate for the largest possible size I could ever want and fill up the hole? It's an interesting idea but either I map the maximum possible range of addresses and leave no more addresses for anything else or I use a smaller amount and run the risk of running out. Also, this wouldn't be cross-platform (as indicated in my question) as I couldn't guarantee some filesystem wouldn't actually zero the whole range of the file and waste gigabytes. –  Joe Aug 19 '10 at 23:21
3  
You don't even need to make the file on disk that large. Just mmap larger than the file size. Accesses past the end of the file will result in SIGBUS, so you need to ftruncate it longer before trying to access new parts via the mmap, but otherwise it's fine. –  R.. May 25 '12 at 16:03

If you need to shrink the map, just munmap the part at the end you want to remove.

If you need to enlarge the map, you can mmap the proper offset with MAP_FIXED to the addresses just above the old map, but you need to be careful that you don't map over something else that's already there...

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Doesn't adding an extra mapped region run the risk of not being able to assign at that address? –  Joe Dec 29 '10 at 12:13
    
Yes, that's what I was warning about. But I believe MAP_FIXED will always map over top of an existing mapping (destroying the existing mapping) rather than failing, which is even worse. –  R.. Dec 29 '10 at 16:38

If you expand in large enough chunks (say, 64 MB, but it depends on how fast it grows) then the cost of invalidating the old map is negligible. As always, benchmark before assuming a problem.

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I have no experience with memory mapping, but it looks like you can temporarily map the same file twice as a means to expand the mapping without losing anything.

int main() {
    int fd;
    char *fp, *fp2, *pen;

      /* create 1K file */
    fd = open( "mmap_data.txt", O_RDWR | O_CREAT, 0777 );
    lseek( fd, 1000, SEEK_SET );
    write( fd, "a", 1 );

      /* map and populate it */
    fp = mmap( NULL, 1000, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0 );
    pen = memset( fp, 'x', 1000 );

      /* expand to 8K and establish overlapping mapping */
    lseek( fd, 8000, SEEK_SET );
    write( fd, "b", 1 );
    fp2 = mmap( NULL, 7000, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0 );

      /* demonstrate that mappings alias */
    *fp = 'z';
    printf( "%c ", *fp2 );

      /* eliminate first mapping */
    munmap( fp, 1000 );

      /* populate second mapping */
    pen = memset( fp2+10, 'y', 7000 );

      /* wrap up */
    munmap( fp2, 7000 );
    close( fd );
    printf( "%d\n", errno );
}

The output is zxxxxxxxxxyyyyyy.....

I suppose, if you pound on this, it may be possible to run out of address space faster than with mremap. But nothing is guaranteed either way and it might on the other hand be just as safe.

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Correct me if I'm wrong, but wouldn't this cause a lot of extra IO over mmap MAP_PRIVATE and mremap? Due to MAP_SHARED flushing writes to disk? –  Eloff Jan 2 '12 at 16:27
    
@Eloff: Only way is to try and see. This post is very old and I never had much incentive to perform the experiment :vP . It would be a bit surprising to see excessive flushes, since all the memory is always mapped at least once. The OS should only flush when the last mapping is eliminated, right? –  Potatoswatter Jan 3 '12 at 2:36

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