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I am trying to write a process manager that schedules different processes using the real-time scheduling policy SCHED_FIFO. What I want to do is set the priorities of processes and have them execute according to the priority.

I have test processes that are paused, and wait to be resumed by the process manager so that they execute their tasks.

Here is part of the code for the test process:

while(1) {
  kill(myPid, SIGTSTP); // pause process until resumed by scheduler
  printf("Process %s with PID %d and priority %d\n",
  argv[0], myPid, param.sched_priority);
  printf("Process %s processing...\n", argv[0]);
  k = 0;

  for (i = 0; i < 10000; i++) // do random task
  {
     for (j = 0; j < 10000; j++)
     {
        k++;
     }
  }
  printf("Process %s done.  Going to sleep.\n", argv[0]);
  sched_yield(); // yield the processor
}

The following is a sample code for the process manager:

pid_t child[3]; // holds child processes
while(1)
{

    for (i = 0; i < num_child; i++)
    {
       kill(child[i], SIGCONT); // resume process
       child_param.sched_priority = BASE_CHILD_PRIORITY + i * 10; // set priority
       sched_setscheduler(child[i], SCHED_FIFO, &child_param); // set policy
    }

}

Although I am able to get the highest priority to run first, the processes do not complete their task fully before yield the processor. The output of my problem can be seen below.

Process 1 with PID 5975 and priority 79
Process 1 processing...
Process 2 with PID 5974 and priority 69
Process 3 with PID 5973 and priority 59
Process 2 processing...
Process 3 processing...
Process 1 done.  Going to sleep.
Process 2 done.  Going to sleep.
Process 3 done.  Going to sleep.

Why don't the processes with SCHED_FIFO policy complete their full task before the next process starts?

share|improve this question
1  
Any chance this is running on a multi-core CPU?... –  TheCodeArtist Aug 31 '13 at 4:15
    
It is running on a single core computer –  Olivier Aug 31 '13 at 4:29
    
Output of sysctl -a | grep sched_rt_ ? –  ninjalj Aug 31 '13 at 10:43
    
kernel.sched_rt_period_us = 1000000 kernel.sched_rt_runtime_us = 950000 –  Olivier Aug 31 '13 at 15:57
1  
That limits RT tasks to 95% of CPU time. It's a safety feature to avoid unintended hangups. Set sched_rt_runtime_us to -1 to disable it. –  ninjalj Sep 1 '13 at 8:18

1 Answer 1

From the man page of sched_setscheduler(),

For processes scheduled under the SCHED_FIFO policy, the following rules apply :

  1. A SCHED_FIFO process that has been preempted by another process of higher priority will stay at the head of the list for its priority and will resume execution as soon as all processes of higher priority are blocked again.

  2. When a SCHED_FIFO process becomes runnable, it will be inserted at the end of the list for its priority.

  3. A call to sched_setscheduler() or sched_setparam() will put the SCHED_FIFO process identified by pid at the start of the list if it was runnable. As a consequence, it may preempt the currently running process if it has the same priority. (POSIX.1-2001 specifies that the process should go to the end of the list.)

  4. A process calling sched_yield() will be put at the end of the list.

Rule1 and Rule3 indirectly imply that SCHED_FIFO guarantees FIFO behaviour ONLY if another process of higher priority does NOT get scheduled.


Further down the man page,

Processes scheduled under one of the real-time policies have a sched_priority value in the range 1(low) to 99(high).

The following line of code in your snippet

child_param.sched_priority = BASE_CHILD_PRIORITY + i * 10;

sets higher priorities to the latter processes. Thus they tend to preempt the earlier processes.

Note : POSIX.1-2001 requires an implementation to support only a minimum 32 distinct priority levels for the real-time policies, and some systems supply just this minimum. Portable programs should use sched_get_priority_min() and sched_get_priority_max() to find the range of priorities supported for a particular policy.

share|improve this answer
    
The latter processes seem to be preempted as well. If you have a look at the output, none of the processes fully complete their task. –  Olivier Aug 31 '13 at 4:28
    
Can you try by calling sched_setscheduler() before resuming the process with SIGCONT? –  TheCodeArtist Aug 31 '13 at 4:35
    
I tried it. It gives me the same result. Is it possible that there other processes that preempt my test processes? –  Olivier Aug 31 '13 at 4:38
    
Only thing left now are the calls to printf() which can potentially allow the scheduler a point where it chooses to preempt the process that is stalled on the printf() call. You could try to modify all but the final printf() to be without a \n so that all the intermediate ones are buffered. However printf() in realtime processes is a bad idea. –  TheCodeArtist Aug 31 '13 at 5:05

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