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I'm working with the support SMP kernel: Snapgear 2.6.21. I have created 4 threads in my c application, and I am trying to set thread 1 to run on CPU1, thread2 on CPU 2, etc. However, the compiler sparc-linux-gcc does not recognize these functions:

CPU_SET (int cpu, cpu_set_t * set);
CPU_ZERO (cpu_set_t * set);

and this type: cpu_set_t It always gives me these errors:

implicit declaration of function 'CPU_ZERO'
implicit declaration of function 'CPU_SET'
'cpu_set_t' undeclared (first use in this function)

Here is my code to bind active thread to processor 0:

cpu_set_t mask;
CPU_ZERO (& mask);
CPU_SET (0, & mask) // bind processor 0
sched_setaffinity (0, sizeof(mask), & mask);

I have included and defined at the top :

**define _GNU_SOURCE
include <sched.h>**

But I always get the same errors. can you help me please?

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Edit your question by formatting it better. Use four spaces between each line of code (with an empty line before and after the code chunk). And you should test the return value of sched_setaffinity – Basile Starynkevitch Jul 29 '14 at 11:54
You might show much more source code and your compilation command. Feel free to edit your question. – Basile Starynkevitch Jul 29 '14 at 12:07
Is using taskset or numactl a possible alternative for you, @Mariem? – Michael Foukarakis Jul 29 '14 at 13:25

1 Answer 1

You should read sched_setaffinity(2) carefully and test its result (and display errno on failure, e.g. with perror).

Actually, I believe you should use pthread_setaffinity_np(3) instead (and of course test its failure, etc...)

Even more, I believe that you should not bother to explicitly set the affinity. Recent Linux kernels are often quite good at dispatching running threads on different CPUs.

So simply use pthreads and don't bother about affinity, unless you see actual issues when benchmarking.

BTW, passing the -H flag to your GCC (cross-)compiler could be helpful. It shows you the included files. Perhaps also look into the preprocessed form obtained with gcc -C -E ; it looks like some header files are missing or not found (maybe some missing -I include-directory at compilation time, or some missing headers on your development system)

BTW, your kernel version looks ancient. Can't you upgrade your kernel to something newer (3.15.x or some 3.y)?

share|improve this answer
Linux' scheduling can be quite bad too - it's possible it groups threads on the same core if their load is uneven and Linux determines they're mostly not doing anything. – Michael Foukarakis Jul 29 '14 at 13:24

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