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I have a program bounded significantly by IO and am trying to speed it up. Using mmap seemed to be a good idea, but it actually degrades the performance relative to just using a series of fgets calls.

Some demo code

I've squeezed down demos to just the essentials, testing against an 800mb file with about 3.5million lines:

With fgets:

char buf[4096];
FILE * fp = fopen(argv[1], "r");

while(fgets(buf, 4096, fp) != 0) {
    // do stuff
return 0;

Runtime for 800mb file:

[juhani@xtest tests]$ time ./readfile /r/40/13479/14960 

real    0m25.614s
user    0m0.192s
sys 0m0.124s

The mmap version:

struct stat finfo;
int fh, len;
char * mem;
char * row, *end;
if(stat(argv[1], &finfo) == -1) return 0;
if((fh = open(argv[1], O_RDONLY)) == -1) return 0;

mem = (char*)mmap(NULL, finfo.st_size, PROT_READ, MAP_SHARED, fh, 0);
if(mem == (char*)-1) return 0;
madvise(mem, finfo.st_size, POSIX_MADV_SEQUENTIAL);
row = mem;
while((end = strchr(row, '\n')) != 0) {
    // do stuff
    row = end + 1;
munmap(mem, finfo.st_size);

Runtime varies quite a bit, but never faster than fgets:

[juhani@xtest tests]$ time ./readfile_map /r/40/13479/14960

real    0m28.891s
user    0m0.252s
sys 0m0.732s
[juhani@xtest tests]$ time ./readfile_map /r/40/13479/14960

real    0m42.605s
user    0m0.144s
sys 0m0.472s

Other notes

  • Watching the process run in top, the memmapped version generated a few thousand page faults along the way.
  • CPU and memory usage are both very low for the fgets version.


  • Why is this the case? Is it just because the buffered file access implemented by fopen/fgets is better than the aggressive prefetching that mmap with madvise POSIX_MADV_SEQUENTIAL?
  • Is there an alternative method of possibly making this faster(Other than on-the-fly compression/decompression to shift IO load to the processor)? Looking at the runtime of 'wc -l' on the same file, I'm guessing this might not be the case.
share|improve this question
Impossible to answer without knowing which platform this is. – larsmans May 19 '11 at 8:33
Did you try the non-memory mapped version of your second solution - read everything into a big buffer with one fread (or read) call and then parse? – nbt May 19 '11 at 8:38
larsmans: linux/centos – juhanic May 19 '11 at 9:37
Neil: With large buffers that is hardly practical(some of the larger files can be many gigabytes in size. Running with a 100mb buffer(so 9 fread calls) resulted in a 27 seconds runtime with practically 0 in user/sys – juhanic May 19 '11 at 9:49
I think this question is a good warning against premature optimization. :-) – R.. May 19 '11 at 11:38
up vote 2 down vote accepted

POSIX_MADV_SEQUENTIAL is only a hint to the system and may be completely ignored by a particular POSIX implementation.

The difference between your two solutions is that mmap requires the file to be mapped into the virtual address space entierly, whereas fgets has the IO entirely done in kernel space and just copies the pages into a buffer that doesn't change.

This also has more potential for overlap, since the IO is done by some kernel thread.

You could perhaps increase the perceived performance of the mmap implementation by having one (or more) independent threads reading the first byte of each page. This (or these) thread then would have all the page faults and the time your application thread would come at a particular page it would already be loaded.

share|improve this answer

Reading the man pages of mmap reveals that the page faults could be prevented by adding MAP_POPULATE to mmap's flags:

MAP_POPULATE (since Linux 2.5.46): 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 way a page faulting pre-load thread (as suggested by Jens) will become obsolete.

Edit: First of all the benchmarks you make should be done with the page cache flushed to get meaningful results:

    echo 3 | sudo tee /proc/sys/vm/drop_caches

Additionally: The MADV_WILLNEED advice with madvise will pre-fault the required pages in (same as the POSIX_FADV_WILLNEED with fadvise). Currently unfortunately these calls block until the requested pages are faulted in, even if the documentation tells differently. But there are kernel patches underway which queue the pre-fault requests into a kernel work-queue to make these calls asynchronous as one would expect - making a separate read-ahead user space thread obsolete.

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