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I recently wrote the following C code using sysinfo systemcall to display system statistics, what amused me was that the freeram variable of sysinfo structure doesn't return the amount of free RAM instead it is returning the current RAM usage. I had to use a workaround to show the correct value by subtracting freeram from totalram. I have tried googling about this specific variable but to no avail. Any insight into this weird behavior would be really helpful.

 * C program to print the system statistics like system uptime, 
 * total RAM space, free RAM space, process count, page size

#include <sys/sysinfo.h>    // sysinfo
#include <stdio.h>
#include <unistd.h>     // sysconf
#include "syscalls.h"       // just contains a wrapper function - error

int main()
    struct sysinfo info;

    if (sysinfo(&info) != 0)
        error("sysinfo: error reading system statistics");

    printf("Uptime: %ld:%ld:%ld\n", info.uptime/3600, info.uptime%3600/60, info.uptime%60);
    printf("Total RAM: %ld MB\n", info.totalram/1024/1024);
    printf("Free RAM: %ld MB\n", (info.totalram-info.freeram)/1024/1024);
    printf("Process count: %d\n", info.procs);
    printf("Page size: %ld bytes\n", sysconf(_SC_PAGESIZE));

    return 0;
share|improve this question
info.freeram works correctly on my box. Get rid of the "syscalls.h". –  larsmans Jan 24 '12 at 14:15
syscalls.h can't possible affect the code in anyway. See the answer by @shadyabhi below. –  k4rtik Jan 24 '12 at 15:46

3 Answers 3

up vote 1 down vote accepted


#include "syscalls.h"

May be, you borrowed the code from somewhere and edited. Double quotes are used to import unofficial header files. That custom header file is not really required.

It's not needed. You code will run fine.

On my PC, freeram value of $free -m matches with info.freeram of the program. Apparently, freeram is not what you think it's showing.

Read more about the http://www.redhat.com/advice/tips/meminfo.html

MemFree is the free memory & MemFree + Buffers + Cached is available memory (which you want). So, you are just understanding the term freeram wrongly.

share|improve this answer
If you are trying to run the code I posted above, it's definitely correct, since the workaround is present in the code: printf("Free RAM: %ld MB\n", (info.totalram-info.freeram)/1024/1024); try running instead with after replacing to printf("Free RAM: %ld MB\n", info.freeram/1024/1024); Also syscalls.h just contains a wrapper function error. –  k4rtik Jan 24 '12 at 13:42
Agree with you, free -m behaves similarly. I went through the link you provided but can't understand yet why freeram/MemFree give values which are close to memory used statistic shown by GNOME System Monitor; shouldn't this be the other way round? (Or to put it in other words, why is freeram not equal to free ram on my system?) –  k4rtik Jan 24 '12 at 15:45
@k4rtik As I told, in Gnome System monitor, it shows MemFree + Buffers + Cached. (I have already mentioned it in answer) –  shadyabhi Jan 24 '12 at 17:29
thanks, got it now, with your and R..'s explanation. :) –  k4rtik Jan 24 '12 at 18:50
Finally found the answer in its full detail after reading linuxatemyram.com/index.html –  k4rtik Dec 14 '13 at 5:20

The "free ram" field is meaningless to most people. The closest thing to a real "free ram" value is taking the fields from /proc/meminfo and subtracting Committed_AS from MemTotal. The result could be negative if swap is in use (this means there's more memory allocated than will fit in physical ram); if you want to count swap as memory too, just use MemTotal+SwapTotal as your total.

share|improve this answer
@r please shed some light on why is it meaningless. –  k4rtik Jan 24 '12 at 15:48
Any modern system will aim to keep all memory "in use" at all times, but there's a difference between using it and committing it to long-term use for data that can't be discarded or synced to disk. Most of the "in use" memory you see is actually cached copies of files on disk. Some of these are programs currently executing, others are files that have been read once that the kernel expects might be read again. Committed memory, on the other hand, stores actual variable data that doesn't exist anywhere on disk (unless it gets swapped). –  R.. Jan 24 '12 at 16:02
And for practical purposes, memory that's "in use" but not committed is free. –  R.. Jan 24 '12 at 16:08
thanks, your explanation cleared it for me. :) –  k4rtik Jan 24 '12 at 18:48
Finally found the answer in its full detail after reading linuxatemyram.com/index.html :-) –  k4rtik Dec 14 '13 at 5:20

Must be the Kernington Ritchie effect ...the "syscalls.h" thing :P

share|improve this answer
yeah actually it is :) –  k4rtik Jan 24 '12 at 14:54

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