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I want to use /dev/zero for storing lots of temporary data (32 GB or around that). I am doing this:

fd = open("/dev/zero", O_RDWR );
// <Exit on error>
vbase = (uint64_t*) mmap(NULL, MEMSIZE, PROT_READ|PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, fd, 0);
// <Exit on error>
ftruncate(fd, (off_t) MEMSIZE);

I am changing MEMSIZE from 1GB to 32 GB (performing a memtest) to see if I can really access all that range. I am running out of memory at 1 GB.

Is there something I am missing ? Am I mmap'ing correctly ? Or am I running into some system limit ? How can I check if this is happening ?

P.S: I run many programs that generate many gigs of data within a single file, so I dont know if there is an artificial upper limit, just that I seem to be running into something.

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Do you have a 64-bit system? Because in a 32-bit system you will not be able to map 32GB, not even close! More like the 1GB you seem to have. –  rodrigo May 6 at 7:26
    
I do. I am running on a SLES 64 bit machine –  boffin May 6 at 17:31

1 Answer 1

I have to admit I'm confused about what you're actually trying to do. Anyway, a couple of reason why what you do might not work:

  1. From the mmap(2) manpage: "MAP_ANONYMOUS
    The mapping is not backed by any file; its contents are initialized to zero. The fd and offset arguments are ignored;"
  2. From the null(4) manpage: "Data written to a null or zero special file is discarded."

So anyway, before MAP_ANONYMOUS, mmap'ing /dev/zero was sometimes used to get anonymous (i.e. not backed by any file) memory. No need to do both. In either case, actually writing to all that memory implies that you need some kind of backing store for it, either physical memory or swap space. If you cannot guarantee that, maybe it's better to mmap() a real file on a filesystem with enough space?

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