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c++ - Speeding up file I/O: mmap() vs. read()

I have a Linux application that reads 150-200 files (4-10GB) in parallel. Each file is read in turn in small, variably sized blocks, typically less than 2K each.

I currently need to maintain over 200 MB/s read rate combined from the set of files. The disks handle this just fine. There is a projected requirement of over 1 GB/s (which is out of the disk's reach at the moment).

We have implemented two different read systems both make heavy use of posix_advise: first is a mmaped read in which we map the entirety of the data set and read on demand. The second is a read()/seek() based system.

Both work well but only for the moderate cases, the read() method manages our overall file cache much better and can deal well with 100s of GB of files, but is badly rate limited, mmap is able to pre-cache data making the sustained data rate of over 200MB/s easy to maintain, but cannot deal with large total data set sizes.

So my question comes to these:

A: Can read() type file i/o be further optimized beyond the posix_advise calls on Linux, or having tuned the disk scheduler, VMM and posix_advise calls is that as good as we can expect?

B: Are there systematic ways for mmap to better deal with very large mapped data?

Mmap-vs-reading-blocks is a similar problem to what I am working and provided a good starting point on this problem, along with the discussions in mmap-vs-read.

See Question&Answers more detail:os

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Reads back to what? What is the final destination of this data?

Since it sounds like you are completely IO bound, mmap and read should make no difference. The interesting part is in how you get the data to your receiver.

Assuming you're putting this data to a pipe, I recommend you just dump the contents of each file in its entirety into the pipe. To do this using zero-copy, try the splice system call. You might also try copying the file manually, or forking an instance of cat or some other tool that can buffer heavily with the current file as stdin, and the pipe as stdout.

if (pid = fork()) {
    waitpid(pid, ...);
} else {
    dup2(dest, 1);
    dup2(source, 0);
    execlp("cat", "cat");
}

Update0

If your processing is file-agnostic, and doesn't require random access, you want to create a pipeline using the options outlined above. Your processing step should accept data from stdin, or a pipe.

To answer your more specific questions:

A: Can read() type file i/o be further optimized beyond the posix_advise calls on Linux, or having tuned the disk scheduler, VMM and posix_advise calls is that as good as we can expect?

That's as good as it gets with regard to telling the kernel what to do from userspace. The rest is up to you: buffering, threading etc. but it's dangerous and probably unproductive guess work. I'd just go with splicing the files into a pipe.

B: Are there systematic ways for mmap to better deal with very large mapped data?

Yes. The following options may give you awesome performance benefits (and may make mmap worth using over read, with testing):

  • MAP_HUGETLB Allocate the mapping using "huge pages."

    This will reduce the paging overhead in the kernel, which is great if you will be mapping gigabyte sized files.

  • MAP_NORESERVE Do not reserve swap space for this mapping. When swap space is reserved, one has the guarantee that it is possible to modify the mapping. When swap space is not reserved one might get SIGSEGV upon a write if no physical memory is available.

    This will prevent you running out of memory while keeping your implementation simple if you don't actually have enough physical memory + swap for the entire mapping.**

  • MAP_POPULATE Populate (prefault) page tables for a mapping. For a file mapping, this causes read-ahead on the file. Later accesses to the mapping will not be blocked by page faults.

    This may give you speed-ups with sufficient hardware resources, and if the prefetching is ordered, and lazy. I suspect this flag is redundant, the VFS likely does this better by default.


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