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- Add more strict in_atomic() checking to the mutex entry
function just to be extra safety and paranoid. - Rewrite the thread shim to take full advantage of the new kernel kthread API. This greatly simplifies things. - Add a new regression test for thread_exit() to ensure it properly terminates a thread immediately without allowing futher execution of the thread. git-svn-id: https://outreach.scidac.gov/svn/spl/trunk@69 7e1ea52c-4ff2-0310-8f11-9dd32ca42a1c
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@ -6,6 +6,7 @@ extern "C" {
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#endif
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#include <linux/module.h>
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#include <linux/hardirq.h>
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#include <sys/types.h>
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/* See the "Big Theory Statement" in solaris mutex.c.
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@ -65,6 +66,14 @@ static __inline__ void
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mutex_enter(kmutex_t *mp)
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{
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BUG_ON(mp->km_magic != KM_MAGIC);
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if (unlikely(in_atomic() && !current->exit_state)) {
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dump_stack();
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printk("Scheduling while atomic: %s/0x%08x/%d\n",
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current->comm, preempt_count(), current->pid);
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BUG();
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}
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down(&mp->km_sem); /* Will check in_atomic() for us */
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BUG_ON(mp->km_owner != NULL);
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mp->km_owner = current;
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@ -78,6 +87,14 @@ mutex_tryenter(kmutex_t *mp)
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int result;
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BUG_ON(mp->km_magic != KM_MAGIC);
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if (unlikely(in_atomic() && !current->exit_state)) {
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dump_stack();
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printk("Scheduling while atomic: %s/0x%08x/%d\n",
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current->comm, preempt_count(), current->pid);
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BUG();
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}
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result = down_trylock(&mp->km_sem); /* returns 0 if acquired */
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if (result == 0) {
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BUG_ON(mp->km_owner != NULL);
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@ -1,4 +1,5 @@
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#include <sys/thread.h>
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#include <sys/kmem.h>
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/*
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* Thread interfaces
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@ -10,9 +11,6 @@ typedef struct thread_priv_s {
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size_t tp_len; /* Len to be passed to function */
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int tp_state; /* State to start thread at */
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pri_t tp_pri; /* Priority to start threat at */
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volatile kthread_t *tp_task; /* Task pointer for new thread */
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spinlock_t tp_lock; /* Syncronization lock */
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wait_queue_head_t tp_waitq; /* Syncronization wait queue */
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} thread_priv_t;
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static int
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@ -22,21 +20,13 @@ thread_generic_wrapper(void *arg)
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void (*func)(void *);
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void *args;
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spin_lock(&tp->tp_lock);
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BUG_ON(tp->tp_magic != TP_MAGIC);
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func = tp->tp_func;
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args = tp->tp_args;
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tp->tp_task = get_current();
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set_current_state(tp->tp_state);
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set_user_nice((kthread_t *)tp->tp_task, PRIO_TO_NICE(tp->tp_pri));
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set_user_nice((kthread_t *)get_current(), PRIO_TO_NICE(tp->tp_pri));
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kmem_free(arg, sizeof(thread_priv_t));
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spin_unlock(&tp->tp_lock);
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wake_up(&tp->tp_waitq);
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/* DO NOT USE 'ARG' AFTER THIS POINT, EVER, EVER, EVER!
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* Local variables are used here because after the calling thread
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* has been woken up it will exit and this memory will no longer
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* be safe to access since it was declared on the callers stack. */
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if (func)
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func(args);
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@ -59,7 +49,7 @@ __thread_create(caddr_t stk, size_t stksize, thread_func_t func,
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const char *name, void *args, size_t len, int *pp,
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int state, pri_t pri)
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{
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thread_priv_t tp;
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thread_priv_t *tp;
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DEFINE_WAIT(wait);
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struct task_struct *tsk;
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@ -68,45 +58,24 @@ __thread_create(caddr_t stk, size_t stksize, thread_func_t func,
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BUG_ON(stk != NULL);
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BUG_ON(stk != 0);
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/* Variable tp is located on the stack and not the heap because I want
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* to minimize any chance of a failure, since the Solaris code is designed
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* such that this function cannot fail. This is a little dangerous since
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* we're passing a stack address to a new thread but correct locking was
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* added to ensure the callee can use the data safely until wake_up(). */
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tp.tp_magic = TP_MAGIC;
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tp.tp_func = func;
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tp.tp_args = args;
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tp.tp_len = len;
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tp.tp_state = state;
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tp.tp_pri = pri;
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tp.tp_task = NULL;
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spin_lock_init(&tp.tp_lock);
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init_waitqueue_head(&tp.tp_waitq);
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tp = kmem_alloc(sizeof(thread_priv_t), KM_SLEEP);
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if (tp == NULL)
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return NULL;
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spin_lock(&tp.tp_lock);
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tp->tp_magic = TP_MAGIC;
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tp->tp_func = func;
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tp->tp_args = args;
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tp->tp_len = len;
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tp->tp_state = state;
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tp->tp_pri = pri;
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tsk = kthread_create(thread_generic_wrapper, (void *)&tp, "%s", name);
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tsk = kthread_create(thread_generic_wrapper, (void *)tp, "%s", name);
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if (IS_ERR(tsk)) {
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printk("spl: Failed to create thread: %ld\n", PTR_ERR(tsk));
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return NULL;
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}
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wake_up_process(tsk);
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/* All signals are ignored due to sleeping TASK_UNINTERRUPTIBLE */
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for (;;) {
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prepare_to_wait(&tp.tp_waitq, &wait, TASK_UNINTERRUPTIBLE);
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if (tp.tp_task != NULL)
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break;
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spin_unlock(&tp.tp_lock);
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schedule();
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spin_lock(&tp.tp_lock);
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}
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BUG_ON(tsk != tp.tp_task); /* Extra paranoia */
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spin_unlock(&tp.tp_lock);
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return (kthread_t *)tp.tp_task;
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return (kthread_t *)tsk;
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}
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EXPORT_SYMBOL(__thread_create);
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@ -6,7 +6,11 @@
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#define SPLAT_THREAD_TEST1_ID 0x0601
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#define SPLAT_THREAD_TEST1_NAME "create"
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#define SPLAT_THREAD_TEST1_DESC "Validate thread creation and destruction"
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#define SPLAT_THREAD_TEST1_DESC "Validate thread creation"
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#define SPLAT_THREAD_TEST2_ID 0x0602
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#define SPLAT_THREAD_TEST2_NAME "exit"
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#define SPLAT_THREAD_TEST2_DESC "Validate thread exit"
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#define SPLAT_THREAD_TEST_MAGIC 0x4488CC00UL
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@ -18,24 +22,84 @@ typedef struct thread_priv {
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int tp_rc;
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} thread_priv_t;
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static int
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splat_thread_rc(thread_priv_t *tp, int rc)
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{
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int ret;
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spin_lock(&tp->tp_lock);
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ret = (tp->tp_rc == rc);
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spin_unlock(&tp->tp_lock);
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return ret;
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}
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static void
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splat_thread_work(void *priv)
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splat_thread_work1(void *priv)
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{
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thread_priv_t *tp = (thread_priv_t *)priv;
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spin_lock(&tp->tp_lock);
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ASSERT(tp->tp_magic == SPLAT_THREAD_TEST_MAGIC);
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tp->tp_rc = 1;
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spin_unlock(&tp->tp_lock);
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wake_up(&tp->tp_waitq);
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wake_up(&tp->tp_waitq);
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thread_exit();
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}
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static int
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splat_thread_test1(struct file *file, void *arg)
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{
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thread_priv_t tp;
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DEFINE_WAIT(wait);
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kthread_t *thr;
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tp.tp_magic = SPLAT_THREAD_TEST_MAGIC;
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tp.tp_file = file;
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spin_lock_init(&tp.tp_lock);
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init_waitqueue_head(&tp.tp_waitq);
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tp.tp_rc = 0;
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thr = (kthread_t *)thread_create(NULL, 0, splat_thread_work1, &tp, 0,
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&p0, TS_RUN, minclsyspri);
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/* Must never fail under Solaris, but we check anyway since this
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* can happen in the linux SPL, we may want to change this behavior */
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if (thr == NULL)
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return -ESRCH;
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/* Sleep until the thread sets tp.tp_rc == 1 */
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wait_event(tp.tp_waitq, splat_thread_rc(&tp, 1));
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splat_vprint(file, SPLAT_THREAD_TEST1_NAME, "%s",
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"Thread successfully started properly\n");
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return 0;
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}
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static void
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splat_thread_work2(void *priv)
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{
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thread_priv_t *tp = (thread_priv_t *)priv;
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spin_lock(&tp->tp_lock);
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ASSERT(tp->tp_magic == SPLAT_THREAD_TEST_MAGIC);
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tp->tp_rc = 1;
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spin_unlock(&tp->tp_lock);
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wake_up(&tp->tp_waitq);
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thread_exit();
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/* The following code is unreachable when thread_exit() is
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* working properly, which is exactly what we're testing */
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spin_lock(&tp->tp_lock);
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tp->tp_rc = 2;
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spin_unlock(&tp->tp_lock);
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wake_up(&tp->tp_waitq);
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}
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static int
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splat_thread_test2(struct file *file, void *arg)
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{
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thread_priv_t tp;
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DEFINE_WAIT(wait);
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@ -48,32 +112,29 @@ splat_thread_test1(struct file *file, void *arg)
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init_waitqueue_head(&tp.tp_waitq);
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tp.tp_rc = 0;
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spin_lock(&tp.tp_lock);
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thr = (kthread_t *)thread_create(NULL, 0, splat_thread_work, &tp, 0,
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thr = (kthread_t *)thread_create(NULL, 0, splat_thread_work2, &tp, 0,
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&p0, TS_RUN, minclsyspri);
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/* Must never fail under Solaris, but we check anyway so we can
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* report an error when this impossible thing happens */
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if (thr == NULL) {
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rc = -ESRCH;
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goto out;
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/* Must never fail under Solaris, but we check anyway since this
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* can happen in the linux SPL, we may want to change this behavior */
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if (thr == NULL)
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return -ESRCH;
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/* Sleep until the thread sets tp.tp_rc == 1 */
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wait_event(tp.tp_waitq, splat_thread_rc(&tp, 1));
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/* Sleep until the thread sets tp.tp_rc == 2, or until we hit
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* the timeout. If thread exit is working properly we should
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* hit the timeout and never see to.tp_rc == 2. */
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rc = wait_event_timeout(tp.tp_waitq, splat_thread_rc(&tp, 2), HZ / 10);
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if (rc > 0) {
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rc = -EINVAL;
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splat_vprint(file, SPLAT_THREAD_TEST2_NAME, "%s",
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"Thread did not exit properly at thread_exit()\n");
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} else {
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splat_vprint(file, SPLAT_THREAD_TEST2_NAME, "%s",
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"Thread successfully exited at thread_exit()\n");
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}
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for (;;) {
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prepare_to_wait(&tp.tp_waitq, &wait, TASK_UNINTERRUPTIBLE);
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if (tp.tp_rc)
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break;
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spin_unlock(&tp.tp_lock);
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schedule();
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spin_lock(&tp.tp_lock);
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}
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splat_vprint(file, SPLAT_THREAD_TEST1_NAME, "%s",
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"Thread successfully started and exited cleanly\n");
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out:
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spin_unlock(&tp.tp_lock);
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return rc;
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}
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@ -96,6 +157,8 @@ splat_thread_init(void)
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SPLAT_TEST_INIT(sub, SPLAT_THREAD_TEST1_NAME, SPLAT_THREAD_TEST1_DESC,
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SPLAT_THREAD_TEST1_ID, splat_thread_test1);
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SPLAT_TEST_INIT(sub, SPLAT_THREAD_TEST2_NAME, SPLAT_THREAD_TEST2_DESC,
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SPLAT_THREAD_TEST2_ID, splat_thread_test2);
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return sub;
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}
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@ -104,6 +167,7 @@ void
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splat_thread_fini(splat_subsystem_t *sub)
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{
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ASSERT(sub);
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SPLAT_TEST_FINI(sub, SPLAT_THREAD_TEST2_ID);
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SPLAT_TEST_FINI(sub, SPLAT_THREAD_TEST1_ID);
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kfree(sub);
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