atomic is added

2025-11-23 16:01:21 +00:00 · 2017-03-19 21:37:09 +09:00
parent 7e1b469c3d
commit ed67ec6c1b
10 changed files with 795 additions and 4 deletions
--- a/lib/core/include/core.h.in
+++ b/lib/core/include/core.h.in
@@ -25,6 +25,17 @@
 * And please, make an effort to stub core.hw and core.hnw in the process.
 */
 #if !defined(__GNUC__) || __GNUC__ < 2 || \
    (__GNUC__ == 2 && __GNUC_MINOR__ < 7) ||\
    defined(NEXT)
 #ifndef __attribute__
 #define __attribute__(__x)
 #endif
 #define CORE_INLINE
 #else
 #define CORE_INLINE __inline__
 #endif
 #ifdef HAVE_CONFIG_H
 #include "config.h"
 #endif
--- a/lib/core/include/core_atomic.h
+++ b/lib/core/include/core_atomic.h
@@ -0,0 +1,115 @@
 #ifndef __CORE_ATOMIC_H__
 #define __CORE_ATOMIC_H__
 #include "core.h"
 #include "core_errno.h"
 #ifdef __cplusplus
 extern "C" {
 #endif /* __cplusplus */
 /**
 * this function is required on some platforms to initialize the
 * atomic operation's internal structures
 * @param p pool
 * @return APR_SUCCESS on successful completion
 * @remark Programs do NOT need to call this directly. APR will call this
 *         automatically from apr_initialize.
 * @internal
 */
 CORE_DECLARE(status_t) atomic_init();
 CORE_DECLARE(status_t) atomic_final();
 /*
 * Atomic operations on 32-bit values
 * Note: Each of these functions internally implements a memory barrier
 * on platforms that require it
 */
 /**
 * atomically read an c_uint32_t from memory
 * @param mem the pointer
 */
 CORE_DECLARE(c_uint32_t) atomic_read32(volatile c_uint32_t *mem);
 /**
 * atomically set an c_uint32_t in memory
 * @param mem pointer to the object
 * @param val value that the object will assume
 */
 CORE_DECLARE(void) atomic_set32(volatile c_uint32_t *mem, c_uint32_t val);
 /**
 * atomically add 'val' to an c_uint32_t
 * @param mem pointer to the object
 * @param val amount to add
 * @return old value pointed to by mem
 */
 CORE_DECLARE(c_uint32_t) atomic_add32(volatile c_uint32_t *mem, c_uint32_t val);
 /**
 * atomically subtract 'val' from an c_uint32_t
 * @param mem pointer to the object
 * @param val amount to subtract
 */
 CORE_DECLARE(void) atomic_sub32(volatile c_uint32_t *mem, c_uint32_t val);
 /**
 * atomically increment an c_uint32_t by 1
 * @param mem pointer to the object
 * @return old value pointed to by mem
 */
 CORE_DECLARE(c_uint32_t) atomic_inc32(volatile c_uint32_t *mem);
 /**
 * atomically decrement an c_uint32_t by 1
 * @param mem pointer to the atomic value
 * @return zero if the value becomes zero on decrement, otherwise non-zero
 */
 CORE_DECLARE(int) atomic_dec32(volatile c_uint32_t *mem);
 /**
 * compare an c_uint32_t's value with 'cmp'.
 * If they are the same swap the value with 'with'
 * @param mem pointer to the value
 * @param with what to swap it with
 * @param cmp the value to compare it to
 * @return the old value of *mem
 */
 CORE_DECLARE(c_uint32_t) atomic_cas32(volatile c_uint32_t *mem, c_uint32_t with,
                                        c_uint32_t cmp);
 /**
 * exchange an c_uint32_t's value with 'val'.
 * @param mem pointer to the value
 * @param val what to swap it with
 * @return the old value of *mem
 */
 CORE_DECLARE(c_uint32_t) atomic_xchg32(volatile c_uint32_t *mem, 
                                        c_uint32_t val);
 /**
 * compare the pointer's value with cmp.
 * If they are the same swap the value with 'with'
 * @param mem pointer to the pointer
 * @param with what to swap it with
 * @param cmp the value to compare it to
 * @return the old value of the pointer
 */
 CORE_DECLARE(void*) atomic_casptr(void *volatile *mem, void *with, 
                                        const void *cmp);
 /**
 * exchange a pair of pointer values
 * @param mem pointer to the pointer
 * @param with what to swap it with
 * @return the old value of the pointer
 */
 CORE_DECLARE(void*) atomic_xchgptr(void *volatile *mem, void *with);
 #ifdef __cplusplus
 }
 #endif /* __cplusplus */
 #endif /* !__CORE_ATOMIC_H__ */
--- a/lib/core/src/Makefile.am
+++ b/lib/core/src/Makefile.am
@@ -17,6 +17,7 @@ libcore_la_SOURCES = \
 	../include/core_sha1_hmac.h ../include/core_sha2.h ../include/core_sha2_hmac.h \
 	../include/core_signal.h ../include/core_thread.h ../include/core_time.h \
 	../include/core_timer.h ../include/core_tlv.h ../include/core_tlv_msg.h \
 	../include/core_atomic.h \
 	../include/core_version.h
 nodist_libcore_la_SOURCES = \
--- a/lib/core/src/unix/Makefile.am
+++ b/lib/core/src/unix/Makefile.am
@@ -10,7 +10,7 @@ libcoreunix_la_SOURCES = \
 nodist_libcoreunix_la_SOURCES = \
    cond.c file.c net_lib.c thread.c errorcodes.c mutex.c rwlock.c \
-    start.c time.c semaphore.c signal.c pkbuf.c rand.c
+    start.c time.c semaphore.c signal.c pkbuf.c rand.c atomic.c
 AM_CPPFLAGS = \
    -I$(top_srcdir) \
--- a/lib/core/src/unix/atomic.c
+++ b/lib/core/src/unix/atomic.c
@@ -0,0 +1,168 @@
 #define TRACE_MODULE _atomic
 #include "core_atomic.h"
 #include "core_mutex.h"
 #include "core_debug.h"
 #define DECLARE_MUTEX_LOCKED(name, mem) \
        mutex_id name = mutex_hash(mem)
 #define MUTEX_UNLOCK(name) \
        d_assert(mutex_unlock(name) == CORE_OK,,);  
 #define NUM_ATOMIC_HASH 7
 static mutex_id hash_mutex[NUM_ATOMIC_HASH];
 /* shift by 2 to get rid of alignment issues */
 #define ATOMIC_HASH(x) (unsigned int)(((unsigned long)(x)>>2)%(unsigned int)NUM_ATOMIC_HASH)
 status_t atomic_init()
 {
    int i;
    status_t rv;
    for (i = 0; i < NUM_ATOMIC_HASH; i++) 
    {
        rv = mutex_create(&hash_mutex[i], MUTEX_DEFAULT);
        if (rv != CORE_OK) 
        {
           return rv;
        }
    }
    return CORE_OK;
 }
 status_t atomic_final()
 {
    status_t rv;
    int i;
    for (i = 0; i < NUM_ATOMIC_HASH; i++) 
    {
        rv = mutex_delete(hash_mutex[i]);
        if (rv != CORE_OK) 
        {
           return rv;
        }
    }
    return CORE_OK;
 }
 static CORE_INLINE mutex_id mutex_hash(volatile c_uint32_t *mem)
 {
    mutex_id id = hash_mutex[ATOMIC_HASH(mem)];
    d_assert(mutex_lock(id) == CORE_OK, return (mutex_id)NULL,);
    return id;
 }
 c_uint32_t atomic_read32(volatile c_uint32_t *mem)
 {
    return *mem;
 }
 void atomic_set32(volatile c_uint32_t *mem, c_uint32_t val)
 {
    DECLARE_MUTEX_LOCKED(mutex, mem);
    *mem = val;
    MUTEX_UNLOCK(mutex);
 }
 c_uint32_t atomic_add32(volatile c_uint32_t *mem, c_uint32_t val)
 {
    c_uint32_t old_value;
    DECLARE_MUTEX_LOCKED(mutex, mem);
    old_value = *mem;
    *mem += val;
    MUTEX_UNLOCK(mutex);
    return old_value;
 }
 void atomic_sub32(volatile c_uint32_t *mem, c_uint32_t val)
 {
    DECLARE_MUTEX_LOCKED(mutex, mem);
    *mem -= val;
    MUTEX_UNLOCK(mutex);
 }
 c_uint32_t atomic_inc32(volatile c_uint32_t *mem)
 {
    return atomic_add32(mem, 1);
 }
 int atomic_dec32(volatile c_uint32_t *mem)
 {
    c_uint32_t new;
    DECLARE_MUTEX_LOCKED(mutex, mem);
    (*mem)--;
    new = *mem;
    MUTEX_UNLOCK(mutex);
    return new;
 }
 c_uint32_t atomic_cas32(volatile c_uint32_t *mem, c_uint32_t with,
                              c_uint32_t cmp)
 {
    c_uint32_t prev;
    DECLARE_MUTEX_LOCKED(mutex, mem);
    prev = *mem;
    if (prev == cmp) {
        *mem = with;
    }
    MUTEX_UNLOCK(mutex);
    return prev;
 }
 c_uint32_t atomic_xchg32(volatile c_uint32_t *mem, c_uint32_t val)
 {
    c_uint32_t prev;
    DECLARE_MUTEX_LOCKED(mutex, mem);
    prev = *mem;
    *mem = val;
    MUTEX_UNLOCK(mutex);
    return prev;
 }
 void* atomic_casptr(void *volatile *mem, void *with, const void *cmp)
 {
    void *prev;
    DECLARE_MUTEX_LOCKED(mutex, *mem);
    prev = *(void **)mem;
    if (prev == cmp) {
        *mem = with;
    }
    MUTEX_UNLOCK(mutex);
    return prev;
 }
 void* atomic_xchgptr(void *volatile *mem, void *with)
 {
    void *prev;
    DECLARE_MUTEX_LOCKED(mutex, *mem);
    prev = *(void **)mem;
    *mem = with;
    MUTEX_UNLOCK(mutex);
    return prev;
 }
--- a/lib/core/src/unix/start.c
+++ b/lib/core/src/unix/start.c
@@ -5,6 +5,7 @@
 #include "core_msgq.h"
 #include "core_tlv.h"
 #include "core_timer.h"
 #include "core_atomic.h"
 #include "core_mutex.h"
 #include "core_cond.h"
 #include "core_rwlock.h"
@@ -42,6 +43,7 @@ status_t core_initialize(void)
    semaphore_init();
    cond_init();
    rwlock_init();
    atomic_init();
    thread_init();
    net_init();
    file_init();
@@ -72,6 +74,7 @@ void core_terminate(void)
    file_final();
    net_final();
    thread_final();
    atomic_final();
    rwlock_final();
    cond_final();
    semaphore_final();
--- a/lib/core/test/Makefile.am
+++ b/lib/core/test/Makefile.am
@@ -4,10 +4,10 @@ bin_PROGRAMS = testcore
 testcore_SOURCES = \
    abts.c testds.c testfsm.c testnetlib.c testthread.c testtlv.c \
-    testaes.c testfile.c testlock.c testsha.c testtime.c testutil.c \
+    testaes.c testfile.c testlock.c testatomic.c testsha.c testtime.c \
 	testdir.c testfilecopy.c testmsgq.c testsleep.c testtimer.c \
 	testpkbuf.c testmisc.c \
-    abts.h  abts_tests.h  testutil.h
+    abts.h  abts_tests.h testutil.c testutil.h
 testcore_LDADD = \
    $(top_srcdir)/lib/core/src/libcore.la
--- a/lib/core/test/abts_tests.h
+++ b/lib/core/test/abts_tests.h
@@ -33,6 +33,7 @@ const struct testlist {
    {testtimer},
    {testthread},
    {testlock},
    {testatomic},
    {testfile},
    {testfilecopy},
    {testdir},
--- a/lib/core/test/testatomic.c
+++ b/lib/core/test/testatomic.c
@@ -0,0 +1,491 @@
 #include "core_atomic.h"
 #include "core_thread.h"
 #include "core_mutex.h"
 #include "testutil.h"
 static void test_set32(abts_case *tc, void *data)
 {
    c_uint32_t y32;
    atomic_set32(&y32, 2);
    ABTS_INT_EQUAL(tc, 2, y32);
 }
 static void test_read32(abts_case *tc, void *data)
 {
    c_uint32_t y32;
    atomic_set32(&y32, 2);
    ABTS_INT_EQUAL(tc, 2, atomic_read32(&y32));
 }
 static void test_dec32(abts_case *tc, void *data)
 {
    c_uint32_t y32;
    int rv;
    atomic_set32(&y32, 2);
    rv = atomic_dec32(&y32);
    ABTS_INT_EQUAL(tc, 1, y32);
    ABTS_ASSERT(tc, "atomic_dec returned zero when it shouldn't", rv != 0);
    rv = atomic_dec32(&y32);
    ABTS_INT_EQUAL(tc, 0, y32);
    ABTS_ASSERT(tc, "atomic_dec didn't returned zero when it should", rv == 0);
 }
 static void test_xchg32(abts_case *tc, void *data)
 {
    c_uint32_t oldval;
    c_uint32_t y32;
    atomic_set32(&y32, 100);
    oldval = atomic_xchg32(&y32, 50);
    ABTS_INT_EQUAL(tc, 100, oldval);
    ABTS_INT_EQUAL(tc, 50, y32);
 }
 static void test_xchgptr(abts_case *tc, void *data)
 {
    int a;
    void *ref = "little piggy";
    void *target_ptr = ref;
    void *old_ptr;
    old_ptr = atomic_xchgptr(&target_ptr, &a);
    ABTS_PTR_EQUAL(tc, ref, old_ptr);
    ABTS_PTR_EQUAL(tc, &a, (void *) target_ptr);
 }
 static void test_cas_equal(abts_case *tc, void *data)
 {
    c_uint32_t casval = 0;
    c_uint32_t oldval;
    oldval = atomic_cas32(&casval, 12, 0);
    ABTS_INT_EQUAL(tc, 0, oldval);
    ABTS_INT_EQUAL(tc, 12, casval);
 }
 static void test_cas_equal_nonnull(abts_case *tc, void *data)
 {
    c_uint32_t casval = 12;
    c_uint32_t oldval;
    oldval = atomic_cas32(&casval, 23, 12);
    ABTS_INT_EQUAL(tc, 12, oldval);
    ABTS_INT_EQUAL(tc, 23, casval);
 }
 static void test_cas_notequal(abts_case *tc, void *data)
 {
    c_uint32_t casval = 12;
    c_uint32_t oldval;
    oldval = atomic_cas32(&casval, 23, 2);
    ABTS_INT_EQUAL(tc, 12, oldval);
    ABTS_INT_EQUAL(tc, 12, casval);
 }
 static void test_casptr_equal(abts_case *tc, void *data)
 {
    int a;
    void *target_ptr = NULL;
    void *old_ptr;
    old_ptr = atomic_casptr(&target_ptr, &a, NULL);
    ABTS_PTR_EQUAL(tc, NULL, old_ptr);
    ABTS_PTR_EQUAL(tc, &a, (void *) target_ptr);
 }
 static void test_casptr_equal_nonnull(abts_case *tc, void *data)
 {
    int a, b;
    void *target_ptr = &a;
    void *old_ptr;
    old_ptr = atomic_casptr(&target_ptr, &b, &a);
    ABTS_PTR_EQUAL(tc, &a, old_ptr);
    ABTS_PTR_EQUAL(tc, &b, (void *) target_ptr);
 }
 static void test_casptr_notequal(abts_case *tc, void *data)
 {
    int a, b;
    void *target_ptr = &a;
    void *old_ptr;
    old_ptr = atomic_casptr(&target_ptr, &a, &b);
    ABTS_PTR_EQUAL(tc, &a, old_ptr);
    ABTS_PTR_EQUAL(tc, &a, (void *) target_ptr);
 }
 static void test_add32(abts_case *tc, void *data)
 {
    c_uint32_t oldval;
    c_uint32_t y32;
    atomic_set32(&y32, 23);
    oldval = atomic_add32(&y32, 4);
    ABTS_INT_EQUAL(tc, 23, oldval);
    ABTS_INT_EQUAL(tc, 27, y32);
 }
 static void test_add32_neg(abts_case *tc, void *data)
 {
    c_uint32_t oldval;
    c_uint32_t y32;
    atomic_set32(&y32, 23);
    oldval = atomic_add32(&y32, -10);
    ABTS_INT_EQUAL(tc, 23, oldval);
    ABTS_INT_EQUAL(tc, 13, y32);
 }
 static void test_inc32(abts_case *tc, void *data)
 {
    c_uint32_t oldval;
    c_uint32_t y32;
    atomic_set32(&y32, 23);
    oldval = atomic_inc32(&y32);
    ABTS_INT_EQUAL(tc, 23, oldval);
    ABTS_INT_EQUAL(tc, 24, y32);
 }
 static void test_set_add_inc_sub(abts_case *tc, void *data)
 {
    c_uint32_t y32;
    atomic_set32(&y32, 0);
    atomic_add32(&y32, 20);
    atomic_inc32(&y32);
    atomic_sub32(&y32, 10);
    ABTS_INT_EQUAL(tc, 11, y32);
 }
 static void test_wrap_zero(abts_case *tc, void *data)
 {
    c_uint32_t y32;
    c_uint32_t rv;
    c_uint32_t minus1 = (c_uint32_t)-1;
    char str[256];;
    atomic_set32(&y32, 0);
    rv = atomic_dec32(&y32);
    ABTS_ASSERT(tc, "atomic_dec32 on zero returned zero.", rv != 0);
    sprintf(str, "zero wrap failed: 0 - 1 = %d", y32);
    ABTS_ASSERT(tc, str, y32 == minus1);
 }
 static void test_inc_neg1(abts_case *tc, void *data)
 {
    c_uint32_t y32 = (c_uint32_t)-1;
    c_uint32_t minus1 = (c_uint32_t)-1;
    c_uint32_t rv;
    char str[256];
    rv = atomic_inc32(&y32);
    ABTS_ASSERT(tc, "atomic_inc32 didn't return the old value.", rv == minus1);
    sprintf(str, "zero wrap failed: -1 + 1 = %d", y32);
    ABTS_ASSERT(tc, str, y32 == 0);
 }
 void *THREAD_FUNC thread_func_mutex(thread_id id, void *data);
 void *THREAD_FUNC thread_func_atomic(thread_id id, void *data);
 mutex_id thread_lock;
 volatile c_uint32_t mutex_locks = 0;
 volatile c_uint32_t atomic_ops = 0;
 status_t exit_ret_val = 123; /* just some made up number to check on later */
 #define NUM_THREADS 40
 #define NUM_ITERATIONS 20000
 void *THREAD_FUNC thread_func_mutex(thread_id id, void *data)
 {
    int i;
    for (i = 0; i < NUM_ITERATIONS; i++) {
        mutex_lock(thread_lock);
        mutex_locks++;
        mutex_unlock(thread_lock);
    }
    thread_exit(id, exit_ret_val);
    return NULL;
 }
 void *THREAD_FUNC thread_func_atomic(thread_id id, void *data)
 {
    int i;
    for (i = 0; i < NUM_ITERATIONS ; i++) {
        atomic_inc32(&atomic_ops);
        atomic_add32(&atomic_ops, 2);
        atomic_dec32(&atomic_ops);
        atomic_dec32(&atomic_ops);
    }
    thread_exit(id, exit_ret_val);
    return NULL;
 }
 static void test_atomics_threaded(abts_case *tc, void *data)
 {
    thread_id t1[NUM_THREADS];
    thread_id t2[NUM_THREADS];
    status_t rv;
    int i;
 #ifdef HAVE_PTHREAD_SETCONCURRENCY
    pthread_setconcurrency(8);
 #endif
    rv = mutex_create(&thread_lock, MUTEX_DEFAULT);
    ABTS_ASSERT(tc, "Could not create lock", rv == CORE_OK) ;
    for (i = 0; i < NUM_THREADS; i++) {
        status_t r1, r2;
        r1 = thread_create(&t1[i], NULL, thread_func_mutex, NULL);
        r2 = thread_create(&t2[i], NULL, thread_func_atomic, NULL);
        ABTS_ASSERT(tc, "Failed creating threads", !r1 && !r2);
    }
    for (i = 0; i < NUM_THREADS; i++) {
        status_t s1, s2;
        thread_join(&s1, t1[i]);
        thread_join(&s2, t2[i]);
        ABTS_ASSERT(tc, "Invalid return value from thread_join",
                    s1 == exit_ret_val && s2 == exit_ret_val);
    }
    ABTS_INT_EQUAL(tc, NUM_THREADS * NUM_ITERATIONS, mutex_locks);
    ABTS_INT_EQUAL(tc, NUM_THREADS * NUM_ITERATIONS,
                   atomic_read32(&atomic_ops));
    rv = mutex_delete(thread_lock);
    ABTS_ASSERT(tc, "Failed creating threads", rv == CORE_OK);
 }
 #undef NUM_THREADS
 #define NUM_THREADS 7
 typedef struct tbox_t tbox_t;
 struct tbox_t {
    abts_case *tc;
    c_uint32_t *mem;
    c_uint32_t preval;
    c_uint32_t postval;
    c_uint32_t loop;
    void (*func)(tbox_t *box);
 };
 static CORE_INLINE void busyloop_read32(tbox_t *tbox)
 {
    c_uint32_t val;
    do {
        val = atomic_read32(tbox->mem);
        if (val != tbox->preval)
            thread_yield();
        else
            break;
    } while (1);
 }
 static void busyloop_set32(tbox_t *tbox)
 {
    do {
        busyloop_read32(tbox);
        atomic_set32(tbox->mem, tbox->postval);
    } while (--tbox->loop);
 }
 static void busyloop_add32(tbox_t *tbox)
 {
    c_uint32_t val;
    do {
        busyloop_read32(tbox);
        val = atomic_add32(tbox->mem, tbox->postval);
        mutex_lock(thread_lock);
        ABTS_INT_EQUAL(tbox->tc, val, tbox->preval);
        mutex_unlock(thread_lock);
    } while (--tbox->loop);
 }
 static void busyloop_sub32(tbox_t *tbox)
 {
    do {
        busyloop_read32(tbox);
        atomic_sub32(tbox->mem, tbox->postval);
    } while (--tbox->loop);
 }
 static void busyloop_inc32(tbox_t *tbox)
 {
    c_uint32_t val;
    do {
        busyloop_read32(tbox);
        val = atomic_inc32(tbox->mem);
        mutex_lock(thread_lock);
        ABTS_INT_EQUAL(tbox->tc, val, tbox->preval);
        mutex_unlock(thread_lock);
    } while (--tbox->loop);
 }
 static void busyloop_dec32(tbox_t *tbox)
 {
    c_uint32_t val;
    do {
        busyloop_read32(tbox);
        val = atomic_dec32(tbox->mem);
        mutex_lock(thread_lock);
        ABTS_INT_NEQUAL(tbox->tc, 0, val);
        mutex_unlock(thread_lock);
    } while (--tbox->loop);
 }
 static void busyloop_cas32(tbox_t *tbox)
 {
    c_uint32_t val;
    do {
        do {
            val = atomic_cas32(tbox->mem, tbox->postval, tbox->preval);
            if (val != tbox->preval)
                thread_yield();
            else
                break;
        } while (1);
    } while (--tbox->loop);
 }
 static void busyloop_xchg32(tbox_t *tbox)
 {
    c_uint32_t val;
    do {
        busyloop_read32(tbox);
        val = atomic_xchg32(tbox->mem, tbox->postval);
        mutex_lock(thread_lock);
        ABTS_INT_EQUAL(tbox->tc, val, tbox->preval);
        mutex_unlock(thread_lock);
    } while (--tbox->loop);
 }
 static void *THREAD_FUNC thread_func_busyloop(thread_id id, void *data)
 {
    tbox_t *tbox = data;
    tbox->func(tbox);
    thread_exit(id, 0);
    return NULL;
 }
 static void test_atomics_busyloop_threaded(abts_case *tc, void *data)
 {
    unsigned int i;
    status_t rv;
    c_uint32_t count = 0;
    tbox_t tbox[NUM_THREADS];
    thread_id thread[NUM_THREADS];
    rv = mutex_create(&thread_lock, MUTEX_DEFAULT);
    ABTS_ASSERT(tc, "Could not create lock", rv == CORE_OK);
    /* get ready */
    for (i = 0; i < NUM_THREADS; i++) {
        tbox[i].tc = tc;
        tbox[i].mem = &count;
        tbox[i].loop = 50;
    }
    tbox[0].preval = 98;
    tbox[0].postval = 3891;
    tbox[0].func = busyloop_add32;
    tbox[1].preval = 3989;
    tbox[1].postval = 1010;
    tbox[1].func = busyloop_sub32;
    tbox[2].preval = 2979;
    tbox[2].postval = 0; /* not used */
    tbox[2].func = busyloop_inc32;
    tbox[3].preval = 2980;
    tbox[3].postval = 16384;
    tbox[3].func = busyloop_set32;
    tbox[4].preval = 16384;
    tbox[4].postval = 0; /* not used */
    tbox[4].func = busyloop_dec32;
    tbox[5].preval = 16383;
    tbox[5].postval = 1048576;
    tbox[5].func = busyloop_cas32;
    tbox[6].preval = 1048576;
    tbox[6].postval = 98; /* goto tbox[0] */
    tbox[6].func = busyloop_xchg32;
    /* get set */
    for (i = 0; i < NUM_THREADS; i++) {
        rv = thread_create(&thread[i], NULL, thread_func_busyloop,
                               &tbox[i]);
        ABTS_ASSERT(tc, "Failed creating thread", rv == CORE_OK);
    }
    /* go! */
    atomic_set32(tbox->mem, 98);
    for (i = 0; i < NUM_THREADS; i++) {
        status_t retval;
        rv = thread_join(&retval, thread[i]);
        ABTS_ASSERT(tc, "Thread join failed", rv == CORE_OK);
        ABTS_ASSERT(tc, "Invalid return value from thread_join", retval == 0);
    }
    ABTS_INT_EQUAL(tbox->tc, 98, count);
    rv = mutex_delete(thread_lock);
    ABTS_ASSERT(tc, "Failed creating threads", rv == CORE_OK);
 }
 abts_suite *testatomic(abts_suite *suite)
 {
    suite = ADD_SUITE(suite)
    abts_run_test(suite, test_set32, NULL);
    abts_run_test(suite, test_read32, NULL);
    abts_run_test(suite, test_dec32, NULL);
    abts_run_test(suite, test_xchg32, NULL);
    abts_run_test(suite, test_xchgptr, NULL);
    abts_run_test(suite, test_cas_equal, NULL);
    abts_run_test(suite, test_cas_equal_nonnull, NULL);
    abts_run_test(suite, test_cas_notequal, NULL);
    abts_run_test(suite, test_casptr_equal, NULL);
    abts_run_test(suite, test_casptr_equal_nonnull, NULL);
    abts_run_test(suite, test_casptr_notequal, NULL);
    abts_run_test(suite, test_add32, NULL);
    abts_run_test(suite, test_add32_neg, NULL);
    abts_run_test(suite, test_inc32, NULL);
    abts_run_test(suite, test_set_add_inc_sub, NULL);
    abts_run_test(suite, test_wrap_zero, NULL);
    abts_run_test(suite, test_inc_neg1, NULL);
    abts_run_test(suite, test_atomics_threaded, NULL);
    abts_run_test(suite, test_atomics_busyloop_threaded, NULL);
    return suite;
 }
--- a/lib/core/test/testutil.h
+++ b/lib/core/test/testutil.h
@@ -67,6 +67,7 @@ abts_suite *testtime(abts_suite *suite);
 abts_suite *testtimer(abts_suite *suite);
 abts_suite *testthread(abts_suite *suite);
 abts_suite *testlock(abts_suite *suite);
 abts_suite *testatomic(abts_suite *suite);
 abts_suite *testfile(abts_suite *suite);
 abts_suite *testfilecopy(abts_suite *suite);
 abts_suite *testdir(abts_suite *suite);