I want to programmatically [in C] calculate CPU usage % for a given process ID in Linux.

How can we get the realtime CPU usage % for a given process?

To make it further clear:

  • I should be able to determine the CPU usage for the provided processid or process.
  • The process need not be the child process.
  • I want the solution in 'C' language.
  • what about catching (grep-ing) output of top.
    – dusoft
    Sep 14, 2009 at 8:59
  • Thats really not a best way to do efficient;y Sep 14, 2009 at 9:02
  • Will probably require an "expensive" system call to start 'top'. Sep 14, 2009 at 9:28
  • @Liran: Rightly said :)
    – vpram86
    Sep 14, 2009 at 9:29
  • Forget about this way of doing things .... in C Sep 14, 2009 at 9:33

13 Answers 13


You need to parse out the data from /proc/<PID>/stat. These are the first few fields (from Documentation/filesystems/proc.txt in your kernel source):

Table 1-3: Contents of the stat files (as of 2.6.22-rc3)
 Field          Content
  pid           process id
  tcomm         filename of the executable
  state         state (R is running, S is sleeping, D is sleeping in an
                uninterruptible wait, Z is zombie, T is traced or stopped)
  ppid          process id of the parent process
  pgrp          pgrp of the process
  sid           session id
  tty_nr        tty the process uses
  tty_pgrp      pgrp of the tty
  flags         task flags
  min_flt       number of minor faults
  cmin_flt      number of minor faults with child's
  maj_flt       number of major faults
  cmaj_flt      number of major faults with child's
  utime         user mode jiffies
  stime         kernel mode jiffies
  cutime        user mode jiffies with child's
  cstime        kernel mode jiffies with child's

You're probably after utime and/or stime. You'll also need to read the cpu line from /proc/stat, which looks like:

cpu  192369 7119 480152 122044337 14142 9937 26747 0 0

This tells you the cumulative CPU time that's been used in various categories, in units of jiffies. You need to take the sum of the values on this line to get a time_total measure.

Read both utime and stime for the process you're interested in, and read time_total from /proc/stat. Then sleep for a second or so, and read them all again. You can now calculate the CPU usage of the process over the sampling time, with:

user_util = 100 * (utime_after - utime_before) / (time_total_after - time_total_before);
sys_util = 100 * (stime_after - stime_before) / (time_total_after - time_total_before);

Make sense?

  • 14
    A "jiffy" is a unit of CPU time. Exactly what it corresponds to in wall-clock time depends on the architecture and how your kernel is configured, but the important thing is that /proc/stat tells you how many jiffies the CPU has executed in total, and /proc/<PID>/stat tells you how many jiffies have been executed by a single process.
    – caf
    Sep 15, 2009 at 6:21
  • 1
    @advocate: It's a pseudo-file which implements an interface to retrieve process execution statistics from the kernel.
    – caf
    May 7, 2012 at 1:49
  • 6
    To people seeking for more information about the fields: man proc is your friend (search for /proc/[pid]/stat)
    – redShadow
    Jun 28, 2013 at 23:24
  • 2
    I'd like to share a little example program that I created based on this answer: github.com/scaidermern/top-processes. Feel free to make us of it, it is licensed under CC0.
    – scai
    Aug 14, 2016 at 11:59
  • 2
    Apparently the OP disagreed. The key insight here is to use the /proc pseudo-file system: the teaching of standard C file system access functions like fopen() and scanf() is beside the point.
    – caf
    Jan 11, 2018 at 0:33

getrusage() can help you in determining the usage of current process or its child

Update: I can't remember an API. But all details will be in /proc/PID/stat, so if we could parse it, we can get the percentage.

EDIT: Since CPU % is not straight forward to calculate, You could use sampling kind of stuff here. Read ctime and utime for a PID at a point in time and read the same values again after 1 sec. Find the difference and divide by hundred. You will get utilization for that process for past one second.

(might get more complex if there are many processors)

  • 2
    How does getrusage() system call help me in calculating CPU usage of a process ?? Sep 14, 2009 at 9:06
  • @codingfreak. i misunderstood the question. Now after u updated it, clear.
    – vpram86
    Sep 14, 2009 at 9:22
  • 1
    @Aviator CPU % = (processusertime + processkerneltime)/(CPUusertime+CPUkerneltime) How can I get the values for "processusertime" and so on. ??? I see different values down in "/proc/PID/stat" file. So which one corresponds to which value ?? Sep 14, 2009 at 9:32
  • @codingfreak:CPU time is difficult to calculate. U need to loop through all PID stats i guess (though not sure)
    – vpram86
    Sep 14, 2009 at 10:08
  • @Aviator there would be some way or other to do it ... since even applications like top should calculate the CPU usage to show in their output Sep 14, 2009 at 10:14

Easy step to step for beginners like me:

  1. Read the first line of /proc/stat to get total_cpu_usage1.
    sscanf(line,"%*s %llu %llu %llu %llu",&user,&nice,&system,&idle);
    total_cpu_usage1 = user + nice + system + idle;
  1. Read /proc/pid/stat where pid is the PID of the process you want to know the CPU usage, like this:
    "%*d %*s %*c %*d" //pid,command,state,ppid

    "%*d %*d %*d %*d %*u %*lu %*lu %*lu %*lu"

    "%lu %lu" //usertime,systemtime

    "%*ld %*ld %*ld %*ld %*ld %*ld %*llu"

    "%*lu", //virtual memory size in bytes
  1. Now sum usertime and systemtime and get proc_times1
  2. Now wait 1 second or more
  3. Do it again, and get total_cpu_usage2 and proc_times2

The formula is:

(number of processors) * (proc_times2 - proc_times1) * 100 / (float) (total_cpu_usage2 - total_cpu_usage1)

You can get the amount of CPU's from /proc/cpuinfo.

  • 4
    Your solution is good but to get the number of CPUs, make it simpler. Include this guy #include <unistd.h> and call this method int nb = sysconf(_SC_NPROCESSORS_ONLN); Jun 3, 2014 at 8:01
  • 4
    I do not understand why multiply by the (number of processors), assuming delta(proc_times) is for the core on which it executed. Without multiplying by the factor or CPUs, it should be correct. Nov 27, 2017 at 11:53
  • @JayabalanAaron: Linux measures the CPU percentage to a 0 - (100 * #cores) % scale. This is the so-called 'Irix mode'. Unix systems, on the other hand use a 0-100% scale (the Solaris mode)
    – drgnfr
    Jun 5, 2022 at 22:10

I wrote two little C function based on cafs answer to calculate the user+kernel cpu usage of of an process: https://github.com/fho/code_snippets/blob/master/c/getusage.c

  • is there is a compiled version of it as It gives me error while compiling and also how can I use it?
    – Medhat
    Nov 13, 2014 at 14:19
  • I does not have a main() function therefore it's not a "standalone" program than you can compile and execute. You would have to write a main() function that does some things with the functions of getusage.c
    – fho
    Nov 13, 2014 at 18:07
  • It's not really using C functions. Just using an arbitrary language to parse command output.
    – Graham
    Jan 9, 2018 at 15:47

You can read the manpage for proc for more detail, but in summary you can read /proc/[number]/stat to get the information about a process. This is also used by the 'ps' command.

All the fields and their scanf format specifiers are documented in the proc manpage.

Here are some of the information from the manpage copied (it is quite long):

          pid %d The process ID.

          comm %s
                 The  filename of the executable, in parentheses.  This is
                 visible whether or not the executable is swapped out.

          state %c
                 One character from the string "RSDZTW" where  R  is  runâ
                 ning,  S is sleeping in an interruptible wait, D is waitâ
                 ing in uninterruptible disk sleep,  Z  is  zombie,  T  is
                 traced or stopped (on a signal), and W is paging.

          ppid %d
                 The PID of the parent.

          pgrp %d
                 The process group ID of the process.

          session %d
                 The session ID of the process.

          tty_nr %d
                 The tty the process uses.

          tpgid %d
                 The  process group ID of the process which currently owns
                 the tty that the process is connected to.
  • “CPU usage” and “current state” are like location and velocity. If you know one you can’t know the other. CPU usage depends on a duration so you have to check yourself how often your process is in the “R” state.
    – Bombe
    Sep 14, 2009 at 9:45
  • Hmm, good question, I always just assumed it would be there! Presumably you should be able to calculate it from these variables Sep 14, 2009 at 9:51
  • If you check the output of top command you can see CPU usage .... but I am not intrested in greping through top output to calculate CPU usage ..... Sep 14, 2009 at 9:54
  • @codingfreak: ps aux is better :)
    – vpram86
    Sep 14, 2009 at 9:55
  • @Aviator - I have already told u to forget about grepping the output of a shell command to determine the CPU USAGE % Sep 14, 2009 at 10:13

Take a look at the "pidstat" command, sounds like exactly what you require.

  • @James - I am not able to access pidstat command in my FEDORA 9 machine. Sep 14, 2009 at 10:15
  • @codingfreak - you need to install Sysstat tool for it Oct 9, 2009 at 0:46

This is my solution...

this program is looking for CPU,Memory,Procs also u can look glibtop header there was a lot of usefull function have fun..
#include <stdio.h>
#include <glibtop.h>
#include <glibtop/cpu.h>
#include <glibtop/mem.h>
#include <glibtop/proclist.h>

int main(){


glibtop_cpu cpu;
glibtop_mem memory;
glibtop_proclist proclist;

glibtop_get_cpu (&cpu);

"Cpu Total : %ld \n"
"Cpu User : %ld \n"
"Cpu Nice : %ld \n"
"Cpu Sys : %ld \n"
"Cpu Idle : %ld \n"
"Cpu Frequences : %ld \n",
(unsigned long)cpu.total,
(unsigned long)cpu.user,
(unsigned long)cpu.nice,
(unsigned long)cpu.sys,
(unsigned long)cpu.idle,
(unsigned long)cpu.frequency);

printf("\nMEMORY USING\n\n"
"Memory Total : %ld MB\n"
"Memory Used : %ld MB\n"
"Memory Free : %ld MB\n"
"Memory Buffered : %ld MB\n"
"Memory Cached : %ld MB\n"
"Memory user : %ld MB\n"
"Memory Locked : %ld MB\n",
(unsigned long)memory.total/(1024*1024),
(unsigned long)memory.used/(1024*1024),
(unsigned long)memory.free/(1024*1024),
(unsigned long)memory.shared/(1024*1024),
(unsigned long)memory.buffer/(1024*1024),
(unsigned long)memory.cached/(1024*1024),
(unsigned long)memory.user/(1024*1024),
(unsigned long)memory.locked/(1024*1024));

int which,arg;
(unsigned long)proclist.number,
(unsigned long)proclist.total,
(unsigned long)proclist.size);
return 0;

makefile is
CFLAGS=-Wall -g
CLIBS=-lgtop-2.0 -lgtop_sysdeps-2.0 -lgtop_common-2.0

$(CC) $(CFLAGS) systeminfo.c -o systeminfo $(CLIBS)
rm -f systeminfo
  • 1
    Seems using the help of libgtop library .. ? Mar 13, 2011 at 11:19
  • 1
    I like this - the library is straightforward. I wonder if there's a way to see what % of the total capacity the total usage is?
    – Cera
    Dec 26, 2012 at 2:19

Instead of parsing this from proc, one can use functions like getrusage() or clock_gettime() and calculate the cpu usage as a ratio or wallclock time and time the process/thread used on the cpu.

  • getrusage clock_gettime are limited, not for all processes
    – Graham
    Jan 9, 2018 at 15:50

When you want monitor specified process, usually it is done by scripting. Here is perl example. This put percents as the same way as top, scalling it to one CPU. Then when some process is active working with 2 threads, cpu usage can be more than 100%. Specially look how cpu cores are counted :D then let me show my example:


my $pid=1234; #insert here monitored process PID

#returns current process time counters or single undef if unavailable
#returns:  1. process counter  , 2. system counter , 3. total system cpu cores
sub GetCurrentLoads {
    my $pid=shift;
    my $fh;
    my $line;
    open $fh,'<',"/proc/$pid/stat" or return undef;
    close $fh;
    return undef unless $line=~/^\d+ \([^)]+\) \S \d+ \d+ \d+ \d+ -?\d+ \d+ \d+ \d+ \d+ \d+ (\d+) (\d+)/;
    my $TimeApp=$1+$2;
    my $TimeSystem=0;
    my $CpuCount=0;
    open $fh,'<',"/proc/stat" or return undef;
    while (defined($line=<$fh>)) {
        if ($line=~/^cpu\s/) {
            foreach my $nr ($line=~/\d+/g) { $TimeSystem+=$nr; };
        $CpuCount++ if $line=~/^cpu\d/;
    close $fh;
    return undef if $TimeSystem==0;
    return $TimeApp,$TimeSystem,$CpuCount;

my ($currApp,$currSys,$lastApp,$lastSys,$cores);
while () {
    printf "Load is: %5.1f\%\n",($currApp-$lastApp)/($currSys-$lastSys)*$cores*100 if defined $currApp and defined $lastApp and defined $currSys and defined $lastSys;
    sleep 1;

I hope it will help you in any monitoring. Of course you should use scanf or other C functions for converting any perl regexpes I've used to C source. Of course 1 second for sleeping is not mandatory. you can use any time. effect is, you will get averrage load on specfied time period. When you will use it for monitoring, of course last values you should put outside. It is needed, because monitoring usually calls scripts periodically, and script should finish his work asap.


Install psacct or acct package. Then use the sa command to display CPU time used for various commands. sa man page

A nice howto from the nixCraft site.


I think it's worth looking at GNU "time" command source code. time It outputs user/system cpu time along with real elapsed time. It calls wait3/wait4 system call (if available) and otherwise it calls times system call. wait* system call returns a "rusage" struct variable and times system call returns "tms". Also, you can have a look at getrusage system call which also return very interesting timing information. time

  • GNU "time" is for child process of "time" only
    – Graham
    Jan 9, 2018 at 15:51

Use strace found the CPU usage need to be calculated by a time period:

# top -b -n 1 -p 3889
top - 16:46:37 up  1:04,  3 users,  load average: 0.00, 0.01, 0.02
Tasks:   1 total,   0 running,   1 sleeping,   0 stopped,   0 zombie
%Cpu(s):  0.0 us,  0.0 sy,  0.0 ni,100.0 id,  0.0 wa,  0.0 hi,  0.0 si,  0.0 st
KiB Mem :  5594496 total,  5158284 free,   232132 used,   204080 buff/cache
KiB Swap:  3309564 total,  3309564 free,        0 used.  5113756 avail Mem 

 3889 root      20   0  162016   2220   1544 S   0.0  0.0   0:05.77 top
# strace top -b -n 1 -p 3889
stat("/proc/3889", {st_mode=S_IFDIR|0555, st_size=0, ...}) = 0
open("/proc/3889/stat", O_RDONLY)       = 7
read(7, "3889 (top) S 3854 3889 3854 3481"..., 1024) = 342

nanosleep({0, 150000000}, NULL)         = 0
stat("/proc/3889", {st_mode=S_IFDIR|0555, st_size=0, ...}) = 0
open("/proc/3889/stat", O_RDONLY)       = 7
read(7, "3889 (top) S 3854 3889 3854 3481"..., 1024) = 342

htop -p <pid-of-process> . It will list all the cpus and their utilisation.

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