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I have a small example program which simply fopens a file and uses fgets to read it. Using strace, I notice that the first call to fgets runs a mmap system call, and then read system calls are used to actually read the contents of the file. on fclose, the file is munmaped. If I instead open read the file with open/read directly, this obviously does not occur. I'm curious as to what is the purpose of this mmap is, and what it is accomplishing.

On my Linux 2.6.31 based system, when under heavy virtual memory demand these mmaps will sometimes hang for several seconds, and appear to me to be unnecessary.

The example code:

#include <stdlib.h>
#include <stdio.h>
int main ()
{
   FILE *f;
   if ( NULL == ( f=fopen( "foo.txt","r" )))
   {
     printf ("Fail to open\n");
   }
   char buf[256];
   fgets(buf,256,f);
   fclose(f);
}

And here is the relevant strace output when the above code is run:

open("foo.txt", O_RDONLY)               = 3
fstat64(3, {st_mode=S_IFREG|0644, st_size=9, ...}) = 0
mmap2(NULL, 4096, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0) = 0xb8039000
read(3, "foo\nbar\n\n"..., 4096)        = 9
close(3)                                = 0
munmap(0xb8039000, 4096)                = 0
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3 Answers

up vote 14 down vote accepted

It's not the file that is mmap'ed - in this case mmap is used anonymously (not on a file), probably to allocate memory for the buffer that the consequent reads will use.

malloc in fact results in such a call to mmap. Similarly, the munmap corresponds to a call to free.

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1  
Interesting. So from this I gather that all read operations on FILE* don't actually read into the provided buffer, but into an additional allocated buffer on the heap and then copy into my buffer. Also, does malloc always result in a call to mmap? I always thought heap was managed locally in userspace and system calls were only made if more memory needed to be added to the process address space. I also always thought sbrk/brk was used for this, not mmap. –  bdk Aug 12 '11 at 20:08
5  
@bdk: Yes, the file functions from the standard library (not the system calls) do keep their own buffer so that when you call fgets(buf, 1, f) continuously in a loop, it doesn't result in hundreds of read system calls. malloc results in an mmap when it doesn't have any more space available in userspace - for example, the first malloc(8) may result in an mmap(4096), and consequent malloc(8)'s will return pointers to the already allocated area until it is exhausted. –  Blagovest Buyukliev Aug 12 '11 at 20:15
    
Thanks! That explains it. Everytime I use strace to try to track something down I end up learning something new. –  bdk Aug 12 '11 at 21:00
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from what i have read memory mapping functions are useful while handling large files. now the definition of large is something i have no idea about. but yes for the large files they are significantly faster as compared to the 'buffered' i/o calls.

in the example that you have posted i think the file is opened by the open() function and mmap is used for allocating memory or something else.

from the syntax of mmap function this can be seen clearly:

void *mmap(void *addr, size_t len, int prot, int flags, int fildes, off_t off);

the second last parameter takes the file descriptor which should be non-negative. while in the stack trace it is -1

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This is wrong. On POSIX stdio cannot be implemented with mmap because of wrong semantics when the file is truncated (it will crash with SIGBUS rather than giving an error). The mmap OP is asking about is not a map of the file; it's simply an anonymous memory allocation. –  R.. Aug 12 '11 at 20:39
    
that's what i've said " mmap is used for allocating memory or something else"... i didn't say mmap is used for mmapping 'the' file. –  Aditya Kumar Aug 12 '11 at 20:43
    
Oh, I misread "useful" as "used". Sorry! –  R.. Aug 12 '11 at 20:50
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The mmap is not mapping the file; instead it's allocating memory for the stdio FILE buffering. Normally malloc would not use mmap to service such a small allocation, but it seems glibc's stdio implementation is using mmap directly to get the buffer. This is probably to ensure it's page-aligned (though posix_memalign could achieve the same thing) and/or to make sure closing the file returns the buffer memory to the kernel. I question the usefulness of page-aligning the buffer. Presumably it's for performance, but I can't see any way it would help unless the file offset you're reading from is also page-aligned, and even then it seems like a dubious micro-optimization.

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