+
+
+void proc_preempt(void)
+{
+ TRACE;
+
+ ATOMIC(LIST_ASSERT_VALID(&ProcReadyList));
+
+ TRACEMSG("hello1");
+ IRQ_DISABLE;
+ /* Poll on the ready queue for the first ready process */
+ while (!(CurrentProcess = (struct Process *)list_remHead(&ProcReadyList)))
+ {
+ //TRACEMSG("hello2");
+ /*
+ * Make sure we physically reenable interrupts here, no matter what
+ * the current task status is. This is important because if we
+ * are idle-spinning, we must allow interrupts, otherwise no
+ * process will ever wake up.
+ *
+ * During idle-spinning, an interrupt can occur and it may
+ * modify \p ProcReadyList. To ensure that compiler reload this
+ * variable every while cycle we call CPU_MEMORY_BARRIER.
+ * The memory barrier ensure that all variables used in this context
+ * are reloaded.
+ */
+ IRQ_ENABLE;
+ //FIXME: calls Qt stuff from sighandler! CPU_IDLE;
+ MEMORY_BARRIER;
+ IRQ_DISABLE;
+ //TRACEMSG("hello3");
+ }
+ IRQ_ENABLE;
+ TRACEMSG("hello4");
+}
+
+void proc_preempt_timer(UNUSED_ARG(void *, param))
+{
+ IRQ_DISABLE;
+ if (CurrentProcess)
+ {
+ TRACEMSG("preempting %p:%s", CurrentProcess, CurrentProcess->monitor.name);
+ SCHED_ENQUEUE(CurrentProcess);
+ IRQ_ENABLE;
+ proc_preempt();
+ }
+ IRQ_ENABLE;
+
+ timer_setDelay(&preempt_timer, CONFIG_KERN_QUANTUM);
+ timer_add(&preempt_timer);
+}
+
+void proc_schedule(void)
+{
+ TRACE;
+
+ // Will invoke proc_preempt() in interrupt context
+ kill(0, SIGUSR1);
+}
+
+void proc_yield(void)
+{
+ ATOMIC(SCHED_ENQUEUE(CurrentProcess));
+
+ proc_schedule();
+}
+
+void proc_entry(void (*user_entry)(void))
+{
+ user_entry();
+ proc_exit();
+}
+
+void preempt_init(void)
+{
+ MOD_CHECK(irq);
+ MOD_CHECK(timer);
+
+ irq_register(SIGUSR1, proc_preempt);
+
+ timer_setSoftint(&preempt_timer, proc_preempt_timer, NULL);
+ timer_setDelay(&preempt_timer, CONFIG_KERN_QUANTUM);
+ timer_add(&preempt_timer);
+}