/* pthread_getattr_np test. Copyright (C) 2003, 2004 Free Software Foundation, Inc. This file is part of the GNU C Library. Contributed by Jakub Jelinek <jakub@redhat.com>, 2003. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see <http://www.gnu.org/licenses/>. */ #include <errno.h> #include <error.h> #include <pthread.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> static void * tf (void *arg) { pthread_attr_t a, *ap, a2; int err; void *result = NULL; if (arg == NULL) { ap = &a2; err = pthread_attr_init (ap); if (err) { error (0, err, "pthread_attr_init failed"); return tf; } } else ap = (pthread_attr_t *) arg; err = pthread_getattr_np (pthread_self (), &a); if (err) { error (0, err, "pthread_getattr_np failed"); result = tf; } int detachstate1, detachstate2; err = pthread_attr_getdetachstate (&a, &detachstate1); if (err) { error (0, err, "pthread_attr_getdetachstate failed"); result = tf; } else { err = pthread_attr_getdetachstate (ap, &detachstate2); if (err) { error (0, err, "pthread_attr_getdetachstate failed"); result = tf; } else if (detachstate1 != detachstate2) { error (0, 0, "detachstate differs %d != %d", detachstate1, detachstate2); result = tf; } } void *stackaddr; size_t stacksize; err = pthread_attr_getstack (&a, &stackaddr, &stacksize); if (err) { error (0, err, "pthread_attr_getstack failed"); result = tf; } else if ((void *) &a < stackaddr || (void *) &a >= stackaddr + stacksize) { error (0, 0, "pthread_attr_getstack returned range does not cover thread's stack"); result = tf; } else printf ("thread stack %p-%p (0x%zx)\n", stackaddr, stackaddr + stacksize, stacksize); size_t guardsize1, guardsize2; err = pthread_attr_getguardsize (&a, &guardsize1); if (err) { error (0, err, "pthread_attr_getguardsize failed"); result = tf; } else { err = pthread_attr_getguardsize (ap, &guardsize2); if (err) { error (0, err, "pthread_attr_getguardsize failed"); result = tf; } else if (guardsize1 != guardsize2) { error (0, 0, "guardsize differs %zd != %zd", guardsize1, guardsize2); result = tf; } else printf ("thread guardsize %zd\n", guardsize1); } int scope1, scope2; err = pthread_attr_getscope (&a, &scope1); if (err) { error (0, err, "pthread_attr_getscope failed"); result = tf; } else { err = pthread_attr_getscope (ap, &scope2); if (err) { error (0, err, "pthread_attr_getscope failed"); result = tf; } else if (scope1 != scope2) { error (0, 0, "scope differs %d != %d", scope1, scope2); result = tf; } } int inheritsched1, inheritsched2; err = pthread_attr_getinheritsched (&a, &inheritsched1); if (err) { error (0, err, "pthread_attr_getinheritsched failed"); result = tf; } else { err = pthread_attr_getinheritsched (ap, &inheritsched2); if (err) { error (0, err, "pthread_attr_getinheritsched failed"); result = tf; } else if (inheritsched1 != inheritsched2) { error (0, 0, "inheritsched differs %d != %d", inheritsched1, inheritsched2); result = tf; } } cpu_set_t c1, c2; err = pthread_getaffinity_np (pthread_self (), sizeof (c1), &c1); if (err == 0) { err = pthread_attr_getaffinity_np (&a, sizeof (c2), &c2); if (err) { error (0, err, "pthread_attr_getaffinity_np failed"); result = tf; } else if (memcmp (&c1, &c2, sizeof (c1))) { error (0, 0, "pthread_attr_getaffinity_np returned different CPU mask than pthread_getattr_np"); result = tf; } } err = pthread_attr_destroy (&a); if (err) { error (0, err, "pthread_attr_destroy failed"); result = tf; } if (ap == &a2) { err = pthread_attr_destroy (ap); if (err) { error (0, err, "pthread_attr_destroy failed"); result = tf; } } return result; } static int do_test (void) { int result = 0; pthread_attr_t a; cpu_set_t c1, c2; int err = pthread_attr_init (&a); if (err) { error (0, err, "pthread_attr_init failed"); result = 1; } err = pthread_attr_getaffinity_np (&a, sizeof (c1), &c1); if (err && err != ENOSYS) { error (0, err, "pthread_attr_getaffinity_np failed"); result = 1; } err = pthread_attr_destroy (&a); if (err) { error (0, err, "pthread_attr_destroy failed"); result = 1; } err = pthread_getattr_np (pthread_self (), &a); if (err) { error (0, err, "pthread_getattr_np failed"); result = 1; } int detachstate; err = pthread_attr_getdetachstate (&a, &detachstate); if (err) { error (0, err, "pthread_attr_getdetachstate failed"); result = 1; } else if (detachstate != PTHREAD_CREATE_JOINABLE) { error (0, 0, "initial thread not joinable"); result = 1; } void *stackaddr; size_t stacksize; err = pthread_attr_getstack (&a, &stackaddr, &stacksize); if (err) { error (0, err, "pthread_attr_getstack failed"); result = 1; } else if ((void *) &a < stackaddr || (void *) &a >= stackaddr + stacksize) { error (0, 0, "pthread_attr_getstack returned range does not cover main's stack"); result = 1; } else printf ("initial thread stack %p-%p (0x%zx)\n", stackaddr, stackaddr + stacksize, stacksize); size_t guardsize; err = pthread_attr_getguardsize (&a, &guardsize); if (err) { error (0, err, "pthread_attr_getguardsize failed"); result = 1; } else if (guardsize != 0) { error (0, 0, "pthread_attr_getguardsize returned %zd != 0", guardsize); result = 1; } int scope; err = pthread_attr_getscope (&a, &scope); if (err) { error (0, err, "pthread_attr_getscope failed"); result = 1; } else if (scope != PTHREAD_SCOPE_SYSTEM) { error (0, 0, "pthread_attr_getscope returned %d != PTHREAD_SCOPE_SYSTEM", scope); result = 1; } int inheritsched; err = pthread_attr_getinheritsched (&a, &inheritsched); if (err) { error (0, err, "pthread_attr_getinheritsched failed"); result = 1; } else if (inheritsched != PTHREAD_INHERIT_SCHED) { error (0, 0, "pthread_attr_getinheritsched returned %d != PTHREAD_INHERIT_SCHED", inheritsched); result = 1; } err = pthread_getaffinity_np (pthread_self (), sizeof (c1), &c1); if (err == 0) { err = pthread_attr_getaffinity_np (&a, sizeof (c2), &c2); if (err) { error (0, err, "pthread_attr_getaffinity_np failed"); result = 1; } else if (memcmp (&c1, &c2, sizeof (c1))) { error (0, 0, "pthread_attr_getaffinity_np returned different CPU mask than pthread_getattr_np"); result = 1; } } err = pthread_attr_destroy (&a); if (err) { error (0, err, "pthread_attr_destroy failed"); result = 1; } pthread_t th; err = pthread_create (&th, NULL, tf, NULL); if (err) { error (0, err, "pthread_create #1 failed"); result = 1; } else { void *ret; err = pthread_join (th, &ret); if (err) { error (0, err, "pthread_join #1 failed"); result = 1; } else if (ret != NULL) result = 1; } err = pthread_attr_init (&a); if (err) { error (0, err, "pthread_attr_init failed"); result = 1; } err = pthread_create (&th, &a, tf, &a); if (err) { error (0, err, "pthread_create #2 failed"); result = 1; } else { void *ret; err = pthread_join (th, &ret); if (err) { error (0, err, "pthread_join #2 failed"); result = 1; } else if (ret != NULL) result = 1; } err = pthread_attr_setguardsize (&a, 16 * sysconf (_SC_PAGESIZE)); if (err) { error (0, err, "pthread_attr_setguardsize failed"); result = 1; } err = pthread_create (&th, &a, tf, &a); if (err) { error (0, err, "pthread_create #3 failed"); result = 1; } else { void *ret; err = pthread_join (th, &ret); if (err) { error (0, err, "pthread_join #3 failed"); result = 1; } else if (ret != NULL) result = 1; } err = pthread_attr_destroy (&a); if (err) { error (0, err, "pthread_attr_destroy failed"); result = 1; } return result; } #define TEST_FUNCTION do_test () #include "../test-skeleton.c"