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I invoked "getpid()" in a program for many times (to test the efficiency of system calls), however when I use strace to get the trace, only one getpid call is captured.

The code is simple:

#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>

void print_usage(){
    printf("Usage: program count\n");
    exit(-1);
}

int main(int argc, char** argv){
    if(argc != 2)
        print_usage();
    int cnt = atoi(argv[1]);
    int i = 0;
    while(i++<cnt)
        getpid();
    return 0;
}

I used gdb and got this:

(gdb) disasse
Dump of assembler code for function getpid:
0xb76faac0 <getpid+0>:  mov    %gs:0x4c,%edx
0xb76faac7 <getpid+7>:  cmp    $0x0,%edx
0xb76faaca <getpid+10>: mov    %edx,%eax
0xb76faacc <getpid+12>: jle    0xb76faad0 <getpid+16>
0xb76faace <getpid+14>: repz ret 
0xb76faad0 <getpid+16>: jne    0xb76faadc <getpid+28>
0xb76faad2 <getpid+18>: mov    %gs:0x48,%eax
0xb76faad8 <getpid+24>: test   %eax,%eax
0xb76faada <getpid+26>: jne    0xb76faace <getpid+14>
0xb76faadc <getpid+28>: mov    $0x14,%eax
0xb76faae1 <getpid+33>: call   *%gs:0x10
0xb76faae8 <getpid+40>: test   %edx,%edx
0xb76faaea <getpid+42>: mov    %eax,%ecx
0xb76faaec <getpid+44>: jne    0xb76faace <getpid+14>
0xb76faaee <getpid+46>: mov    %ecx,%gs:0x48
0xb76faaf5 <getpid+53>: ret  

I don't quite understand the assemble code. It would also be helpful if somebody can give some detailed explanation about it. According to my observation, "call *%gs:0x10" (, which jumps into vdso) is not executed, except for the first getpid() call, that may be the reason that other getpid calls are not captured. But I don't know why.

The linux kernel: 2.6.24-29 gcc (GCC) 4.2.4 libc 2.7,

Thanks!

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2 Answers

up vote 3 down vote accepted

Glibc caches the result, since it can't change between calls. See the source code:

http://koala.cs.pub.ro/lxr/glibc/nptl/sysdeps/unix/sysv/linux/getpid.c

So the real syscall only gets executed once. The other calls just read from the cache. (The code is not very simple because it takes care of doing the Right Thing with threads.)

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Great. And I have another question; it may be not relevant. I'm wondering whether even the first getpid() call doesn't trigger user-kernel mode switch by leveraging vdso, as for gettimeofday? –  Infinite Apr 23 '11 at 18:59
    
Another question is how can I single step into "call *%gs:0x10" using gdb? –  Infinite Apr 23 '11 at 19:00
    
I'm not sure there's a single answer to that. syscalls are handled differently depending on the platform (i.e. even 32bit x86 and 64bit x86_64 have different syscall mechanisms). But maybe I'm wrong - you should probably post a separate question for that, and do specify which architecture(s) you're interested in, and what syscalls if there are some you're especially interested in. (i'm don't know gdb very well at all) –  Mat Apr 23 '11 at 19:02
    
@Mat Is there a way to clear Glib cache? –  SIFE Feb 8 '13 at 15:59
    
@SIFE: not that I'm aware of and I don't see any reason they would provide that feature - a process's PID never changes. –  Mat Feb 8 '13 at 16:04
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glibc caches the pid value. The first time you call getpid it asks the kernel for the pid, the next time it just returns value it got from the first getpid syscall.

glibc code:

pid_t
__getpid (void)
{
#ifdef NOT_IN_libc
  INTERNAL_SYSCALL_DECL (err);
  pid_t result = INTERNAL_SYSCALL (getpid, err, 0);
#else
  pid_t result = THREAD_GETMEM (THREAD_SELF, pid);
  if (__builtin_expect (result <= 0, 0))
    result = really_getpid (result);
#endif
  return result;
}

If you want to test the overhead of syscalls, gettimeofday() is often used to do just that - the work done the kernel is very small, and neither the compiler nor the C library can optimize away calls to it.

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