haiku/src/kernel/core/scheduler.c

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/* The thread scheduler */
/*
** Copyright 2002-2004, The OpenBeOS Team. All rights reserved.
** Distributed under the terms of the OpenBeOS License.
**
** Copyright 2001-2002, Travis Geiselbrecht. All rights reserved.
** Distributed under the terms of the NewOS License.
*/
#include <OS.h>
#include <thread.h>
#include <timer.h>
#include <int.h>
#include <smp.h>
#include <cpu.h>
#include <khash.h>
//#define TRACE_SCHEDULER
#ifdef TRACE_SCHEDULER
# define TRACE(x) dprintf x
#else
# define TRACE(x) ;
#endif
// prototypes
static int dump_run_queue(int argc, char **argv);
static int _rand(void);
// The run queue. Holds the threads ready to run ordered by priority.
static struct thread_queue sRunQueue = {NULL, NULL};
static int
_rand(void)
{
static int next = 0;
if (next == 0)
next = system_time();
next = next * 1103515245 + 12345;
return((next >> 16) & 0x7FFF);
}
static int
dump_run_queue(int argc, char **argv)
{
struct thread *thread;
thread = sRunQueue.head;
if (!thread)
dprintf("Run queue is empty!\n");
else {
while (thread) {
dprintf("Thread id: %ld - priority: %d\n", thread->id, thread->priority);
thread = thread->queue_next;
}
}
return 0;
}
/** Enqueues the thread into the run queue.
* Note: THREAD_LOCK must be held when entering this function
*/
void
scheduler_enqueue_in_run_queue(struct thread *thread)
{
struct thread *curr, *prev;
// these shouldn't exist
if (thread->priority > B_MAX_PRIORITY)
thread->priority = B_MAX_PRIORITY;
if (thread->priority < B_MIN_PRIORITY)
thread->priority = B_MIN_PRIORITY;
for (curr = sRunQueue.head, prev = NULL; curr && (curr->priority >= thread->priority); curr = curr->queue_next) {
if (prev)
prev = prev->queue_next;
else
prev = sRunQueue.head;
}
thread->queue_next = curr;
if (prev)
prev->queue_next = thread;
else
sRunQueue.head = thread;
}
/** Removes a thread from the run queue.
* Note: THREAD_LOCK must be held when entering this function
*/
void
scheduler_remove_from_run_queue(struct thread *thread)
{
struct thread *item, *prev;
// find thread in run queue
for (item = sRunQueue.head, prev = NULL; item && item != thread; item = item->queue_next) {
if (prev)
prev = prev->queue_next;
else
prev = sRunQueue.head;
}
ASSERT(item == thread);
if (prev)
prev->queue_next = item->queue_next;
else
sRunQueue.head = item->queue_next;
}
static void
context_switch(struct thread *fromThread, struct thread *toThread)
{
bigtime_t now;
// track kernel & user time
now = system_time();
if(fromThread->last_time_type == KERNEL_TIME)
fromThread->kernel_time += now - fromThread->last_time;
else
fromThread->user_time += now - fromThread->last_time;
toThread->last_time = now;
toThread->cpu = fromThread->cpu;
fromThread->cpu = NULL;
arch_thread_set_current_thread(toThread);
arch_thread_context_switch(fromThread, toThread);
}
static int32
reschedule_event(timer *unused)
{
// this function is called as a result of the timer event set by the scheduler
// returning this causes a reschedule on the timer event
thread_get_current_thread()->cpu->info.preempted= 1;
return B_INVOKE_SCHEDULER;
}
/** Runs the scheduler.
* NOTE: expects thread_spinlock to be held
*/
void
scheduler_reschedule(void)
{
struct thread *oldThread = thread_get_current_thread();
struct thread *nextThread, *prevThread;
TRACE(("reschedule(): cpu %d, cur_thread = 0x%lx\n", smp_get_current_cpu(), thread_get_current_thread()->id));
switch (oldThread->next_state) {
case B_THREAD_RUNNING:
case B_THREAD_READY:
TRACE(("enqueueing thread 0x%lx into run q. pri = %d\n", oldThread->id, oldThread->priority));
scheduler_enqueue_in_run_queue(oldThread);
break;
case B_THREAD_SUSPENDED:
TRACE(("reschedule(): suspending thread 0x%lx\n", oldThread->id));
break;
case THREAD_STATE_FREE_ON_RESCHED:
// This will hopefully be eliminated once the slab
// allocator is done
thread_enqueue(oldThread, &dead_q);
break;
default:
TRACE(("not enqueueing thread 0x%lx into run q. next_state = %d\n", oldThread->id, oldThread->next_state));
break;
}
oldThread->state = oldThread->next_state;
// select next thread from the run queue
nextThread = sRunQueue.head;
prevThread = NULL;
while (nextThread && (nextThread->priority > B_IDLE_PRIORITY)) {
// always extract real time threads
if (nextThread->priority >= B_FIRST_REAL_TIME_PRIORITY)
break;
// never skip last non-idle normal thread
if (nextThread->queue_next && (nextThread->queue_next->priority == B_IDLE_PRIORITY))
break;
// skip normal threads sometimes
if (_rand() > 0x3000)
break;
prevThread = nextThread;
nextThread = nextThread->queue_next;
}
if (!nextThread)
panic("reschedule(): run queue is empty!\n");
// extract selected thread from the run queue
if (prevThread)
prevThread->queue_next = nextThread->queue_next;
else
sRunQueue.head = nextThread->queue_next;
nextThread->state = B_THREAD_RUNNING;
nextThread->next_state = B_THREAD_READY;
if (nextThread != oldThread || oldThread->cpu->info.preempted) {
bigtime_t quantum = 3000; // ToDo: calculate quantum!
timer *quantum_timer= &oldThread->cpu->info.quantum_timer;
if (!oldThread->cpu->info.preempted)
_local_timer_cancel_event(oldThread->cpu->info.cpu_num, quantum_timer);
oldThread->cpu->info.preempted = 0;
add_timer(quantum_timer, &reschedule_event, quantum, B_ONE_SHOT_RELATIVE_TIMER);
if (nextThread != oldThread)
context_switch(oldThread, nextThread);
}
}
/** This starts the scheduler. Must be run under the context of
* the initial idle thread.
*/
void
start_scheduler(void)
{
int state;
// XXX may not be the best place for this
// invalidate all of the other processors' TLB caches
state = disable_interrupts();
arch_cpu_global_TLB_invalidate();
smp_send_broadcast_ici(SMP_MSG_GLOBAL_INVL_PAGE, 0, 0, 0, NULL, SMP_MSG_FLAG_SYNC);
restore_interrupts(state);
// start the other processors
smp_send_broadcast_ici(SMP_MSG_RESCHEDULE, 0, 0, 0, NULL, SMP_MSG_FLAG_ASYNC);
state = disable_interrupts();
GRAB_THREAD_LOCK();
scheduler_reschedule();
RELEASE_THREAD_LOCK();
restore_interrupts(state);
add_debugger_command("run_queue", &dump_run_queue, "list threads in run queue");
}