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scheduler.c@ 20d50a1

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Last change on this file since 20d50a1 was 20d50a1, checked in by Jakub Jermar <jakub@…>, 19 years ago

Memory management work.

vm.* → as.* (as like address space is, imho, more fitting)
Don't do TLB shootdown on vm_install(). Some architectures only need to call tlb_invalidate_asid().
Don't allocate all frames for as_area in as_area_create(), but let them be allocated on-demand by as_page_fault().
Add high-level page fault handler as_page_fault().
Add as_area_load_mapping().

Property mode set to 100644

File size: 13.8 KB

Rev	Line
[f761f1eb]	1	/*
	2	* Copyright (C) 2001-2004 Jakub Jermar
	3	* All rights reserved.
	4	*
	5	* Redistribution and use in source and binary forms, with or without
	6	* modification, are permitted provided that the following conditions
	7	* are met:
	8	*
	9	* - Redistributions of source code must retain the above copyright
	10	* notice, this list of conditions and the following disclaimer.
	11	* - Redistributions in binary form must reproduce the above copyright
	12	* notice, this list of conditions and the following disclaimer in the
	13	* documentation and/or other materials provided with the distribution.
	14	* - The name of the author may not be used to endorse or promote products
	15	* derived from this software without specific prior written permission.
	16	*
	17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	27	*/
	28
	29	#include <proc/scheduler.h>
	30	#include <proc/thread.h>
	31	#include <proc/task.h>
[32ff43e6]	32	#include <mm/heap.h>
	33	#include <mm/frame.h>
	34	#include <mm/page.h>
[20d50a1]	35	#include <mm/as.h>
[32ff43e6]	36	#include <arch/asm.h>
	37	#include <arch/faddr.h>
	38	#include <arch/atomic.h>
	39	#include <synch/spinlock.h>
[f761f1eb]	40	#include <config.h>
	41	#include <context.h>
	42	#include <func.h>
	43	#include <arch.h>
	44	#include <list.h>
[02a99d2]	45	#include <panic.h>
[f761f1eb]	46	#include <typedefs.h>
[32ff43e6]	47	#include <cpu.h>
[9c0a9b3]	48	#include <print.h>
[623ba26c]	49	#include <debug.h>
[9c0a9b3]	50
[59e07c91]	51	atomic_t nrdy;
[f761f1eb]	52
[b60a22c]	53	/** Take actions before new thread runs
[70527f1]	54	*
[b60a22c]	55	* Perform actions that need to be
	56	* taken before the newly selected
	57	* tread is passed control.
[70527f1]	58	*
	59	*/
[0ca6faa]	60	void before_thread_runs(void)
	61	{
[b49f4ae]	62	before_thread_runs_arch();
[5f85c91]	63	#ifdef CONFIG_FPU_LAZY
[b49f4ae]	64	if(THREAD==CPU->fpu_owner)
	65	fpu_enable();
	66	else
	67	fpu_disable();
	68	#else
	69	fpu_enable();
	70	if (THREAD->fpu_context_exists)
	71	fpu_context_restore(&(THREAD->saved_fpu_context));
	72	else {
	73	fpu_init();
	74	THREAD->fpu_context_exists=1;
	75	}
	76	#endif
[0ca6faa]	77	}
	78
[5f85c91]	79	#ifdef CONFIG_FPU_LAZY
[b49f4ae]	80	void scheduler_fpu_lazy_request(void)
	81	{
	82	fpu_enable();
	83	if (CPU->fpu_owner != NULL) {
	84	fpu_context_save(&CPU->fpu_owner->saved_fpu_context);
	85	/* don't prevent migration */
	86	CPU->fpu_owner->fpu_context_engaged=0;
	87	}
	88	if (THREAD->fpu_context_exists)
	89	fpu_context_restore(&THREAD->saved_fpu_context);
	90	else {
	91	fpu_init();
	92	THREAD->fpu_context_exists=1;
	93	}
	94	CPU->fpu_owner=THREAD;
	95	THREAD->fpu_context_engaged = 1;
	96	}
	97	#endif
[0ca6faa]	98
[70527f1]	99	/** Initialize scheduler
	100	*
	101	* Initialize kernel scheduler.
	102	*
	103	*/
[f761f1eb]	104	void scheduler_init(void)
	105	{
	106	}
	107
[70527f1]	108
	109	/** Get thread to be scheduled
	110	*
	111	* Get the optimal thread to be scheduled
[d1a184f]	112	* according to thread accounting and scheduler
[70527f1]	113	* policy.
	114	*
	115	* @return Thread to be scheduled.
	116	*
	117	*/
[e507afa]	118	static thread_t *find_best_thread(void)
[f761f1eb]	119	{
	120	thread_t *t;
	121	runq_t *r;
	122	int i, n;
	123
[623ba26c]	124	ASSERT(CPU != NULL);
	125
[f761f1eb]	126	loop:
[22f7769]	127	interrupts_disable();
[f761f1eb]	128
[43114c5]	129	spinlock_lock(&CPU->lock);
	130	n = CPU->nrdy;
	131	spinlock_unlock(&CPU->lock);
[f761f1eb]	132
[22f7769]	133	interrupts_enable();
[f761f1eb]	134
	135	if (n == 0) {
[5f85c91]	136	#ifdef CONFIG_SMP
[f761f1eb]	137	/*
	138	* If the load balancing thread is not running, wake it up and
	139	* set CPU-private flag that the kcpulb has been started.
	140	*/
[43114c5]	141	if (test_and_set(&CPU->kcpulbstarted) == 0) {
[76cec1e]	142	waitq_wakeup(&CPU->kcpulb_wq, 0);
[f761f1eb]	143	goto loop;
	144	}
[5f85c91]	145	#endif /* CONFIG_SMP */
[f761f1eb]	146
	147	/*
	148	* For there was nothing to run, the CPU goes to sleep
	149	* until a hardware interrupt or an IPI comes.
	150	* This improves energy saving and hyperthreading.
	151	* On the other hand, several hardware interrupts can be ignored.
	152	*/
	153	cpu_sleep();
	154	goto loop;
	155	}
	156
[22f7769]	157	interrupts_disable();
[d896525]	158
	159	i = 0;
	160	retry:
	161	for (; i<RQ_COUNT; i++) {
[43114c5]	162	r = &CPU->rq[i];
[f761f1eb]	163	spinlock_lock(&r->lock);
	164	if (r->n == 0) {
	165	/*
	166	* If this queue is empty, try a lower-priority queue.
	167	*/
	168	spinlock_unlock(&r->lock);
	169	continue;
	170	}
[3e1607f]	171
[18e0a6c]	172	/* avoid deadlock with relink_rq() */
[d896525]	173	if (!spinlock_trylock(&CPU->lock)) {
	174	/*
	175	* Unlock r and try again.
	176	*/
	177	spinlock_unlock(&r->lock);
	178	goto retry;
	179	}
[43114c5]	180	CPU->nrdy--;
	181	spinlock_unlock(&CPU->lock);
[f761f1eb]	182
[59e07c91]	183	atomic_dec(&nrdy);
[f761f1eb]	184	r->n--;
	185
	186	/*
	187	* Take the first thread from the queue.
	188	*/
	189	t = list_get_instance(r->rq_head.next, thread_t, rq_link);
	190	list_remove(&t->rq_link);
	191
	192	spinlock_unlock(&r->lock);
	193
	194	spinlock_lock(&t->lock);
[43114c5]	195	t->cpu = CPU;
[f761f1eb]	196
	197	t->ticks = us2ticks((i+1)*10000);
[22f7769]	198	t->priority = i; /* eventually correct rq index */
[f761f1eb]	199
	200	/*
	201	* Clear the X_STOLEN flag so that t can be migrated when load balancing needs emerge.
	202	*/
	203	t->flags &= ~X_STOLEN;
	204	spinlock_unlock(&t->lock);
	205
	206	return t;
	207	}
	208	goto loop;
	209
	210	}
	211
[70527f1]	212
	213	/** Prevent rq starvation
	214	*
	215	* Prevent low priority threads from starving in rq's.
	216	*
	217	* When the function decides to relink rq's, it reconnects
	218	* respective pointers so that in result threads with 'pri'
	219	* greater or equal 'start' are moved to a higher-priority queue.
	220	*
	221	* @param start Threshold priority.
	222	*
[f761f1eb]	223	*/
[e16e036a]	224	static void relink_rq(int start)
[f761f1eb]	225	{
	226	link_t head;
	227	runq_t *r;
	228	int i, n;
	229
	230	list_initialize(&head);
[43114c5]	231	spinlock_lock(&CPU->lock);
	232	if (CPU->needs_relink > NEEDS_RELINK_MAX) {
[f761f1eb]	233	for (i = start; i<RQ_COUNT-1; i++) {
	234	/* remember and empty rq[i + 1] */
[43114c5]	235	r = &CPU->rq[i + 1];
[f761f1eb]	236	spinlock_lock(&r->lock);
	237	list_concat(&head, &r->rq_head);
	238	n = r->n;
	239	r->n = 0;
	240	spinlock_unlock(&r->lock);
	241
	242	/* append rq[i + 1] to rq[i] */
[43114c5]	243	r = &CPU->rq[i];
[f761f1eb]	244	spinlock_lock(&r->lock);
	245	list_concat(&r->rq_head, &head);
	246	r->n += n;
	247	spinlock_unlock(&r->lock);
	248	}
[43114c5]	249	CPU->needs_relink = 0;
[f761f1eb]	250	}
[43114c5]	251	spinlock_unlock(&CPU->lock);
[f761f1eb]	252
	253	}
	254
[70527f1]	255
	256	/** Scheduler stack switch wrapper
	257	*
	258	* Second part of the scheduler() function
	259	* using new stack. Handling the actual context
	260	* switch to a new thread.
	261	*
	262	*/
[e16e036a]	263	static void scheduler_separated_stack(void)
[f761f1eb]	264	{
	265	int priority;
	266
[623ba26c]	267	ASSERT(CPU != NULL);
	268
[43114c5]	269	if (THREAD) {
	270	switch (THREAD->state) {
[f761f1eb]	271	case Running:
[76cec1e]	272	THREAD->state = Ready;
	273	spinlock_unlock(&THREAD->lock);
	274	thread_ready(THREAD);
	275	break;
[f761f1eb]	276
	277	case Exiting:
[76cec1e]	278	frame_free((__address) THREAD->kstack);
	279	if (THREAD->ustack) {
	280	frame_free((__address) THREAD->ustack);
	281	}
	282
	283	/*
	284	* Detach from the containing task.
	285	*/
	286	spinlock_lock(&TASK->lock);
	287	list_remove(&THREAD->th_link);
	288	spinlock_unlock(&TASK->lock);
	289
	290	spinlock_unlock(&THREAD->lock);
	291
	292	spinlock_lock(&threads_lock);
	293	list_remove(&THREAD->threads_link);
	294	spinlock_unlock(&threads_lock);
	295
	296	spinlock_lock(&CPU->lock);
[75e1db0]	297	if(CPU->fpu_owner==THREAD)
	298	CPU->fpu_owner=NULL;
[76cec1e]	299	spinlock_unlock(&CPU->lock);
	300
	301	free(THREAD);
	302
	303	break;
	304
[f761f1eb]	305	case Sleeping:
[76cec1e]	306	/*
	307	* Prefer the thread after it's woken up.
	308	*/
[22f7769]	309	THREAD->priority = -1;
[76cec1e]	310
	311	/*
	312	* We need to release wq->lock which we locked in waitq_sleep().
	313	* Address of wq->lock is kept in THREAD->sleep_queue.
	314	*/
	315	spinlock_unlock(&THREAD->sleep_queue->lock);
	316
	317	/*
	318	* Check for possible requests for out-of-context invocation.
	319	*/
	320	if (THREAD->call_me) {
	321	THREAD->call_me(THREAD->call_me_with);
	322	THREAD->call_me = NULL;
	323	THREAD->call_me_with = NULL;
	324	}
	325
	326	spinlock_unlock(&THREAD->lock);
	327
	328	break;
[f761f1eb]	329
	330	default:
[76cec1e]	331	/*
	332	* Entering state is unexpected.
	333	*/
	334	panic("tid%d: unexpected state %s\n", THREAD->tid, thread_states[THREAD->state]);
	335	break;
[f761f1eb]	336	}
[43114c5]	337	THREAD = NULL;
[f761f1eb]	338	}
[ba18512]	339
[cd95d784]	340
[43114c5]	341	THREAD = find_best_thread();
[f761f1eb]	342
[43114c5]	343	spinlock_lock(&THREAD->lock);
[22f7769]	344	priority = THREAD->priority;
[43114c5]	345	spinlock_unlock(&THREAD->lock);
[7ce9284]	346
[f761f1eb]	347	relink_rq(priority);
	348
[43114c5]	349	spinlock_lock(&THREAD->lock);
[f761f1eb]	350
	351	/*
	352	* If both the old and the new task are the same, lots of work is avoided.
	353	*/
[43114c5]	354	if (TASK != THREAD->task) {
[20d50a1]	355	as_t *as1 = NULL;
	356	as_t *as2;
[f761f1eb]	357
[43114c5]	358	if (TASK) {
	359	spinlock_lock(&TASK->lock);
[20d50a1]	360	as1 = TASK->as;
[43114c5]	361	spinlock_unlock(&TASK->lock);
[f761f1eb]	362	}
	363
[43114c5]	364	spinlock_lock(&THREAD->task->lock);
[20d50a1]	365	as2 = THREAD->task->as;
[43114c5]	366	spinlock_unlock(&THREAD->task->lock);
[f761f1eb]	367
	368	/*
[20d50a1]	369	* Note that it is possible for two tasks to share one address space.
[f761f1eb]	370	*/
[20d50a1]	371	if (as1 != as2) {
[f761f1eb]	372	/*
[20d50a1]	373	* Both tasks and address spaces are different.
[f761f1eb]	374	* Replace the old one with the new one.
	375	*/
[20d50a1]	376	as_install(as2);
[f761f1eb]	377	}
[43114c5]	378	TASK = THREAD->task;
[f761f1eb]	379	}
	380
[43114c5]	381	THREAD->state = Running;
[f761f1eb]	382
	383	#ifdef SCHEDULER_VERBOSE
[22f7769]	384	printf("cpu%d: tid %d (priority=%d,ticks=%d,nrdy=%d)\n", CPU->id, THREAD->tid, THREAD->priority, THREAD->ticks, CPU->nrdy);
[f761f1eb]	385	#endif
	386
[3e1607f]	387	/*
	388	* Copy the knowledge of CPU, TASK, THREAD and preemption counter to thread's stack.
	389	*/
[bcdd9aa]	390	the_copy(THE, (the_t *) THREAD->kstack);
	391
[43114c5]	392	context_restore(&THREAD->saved_context);
[f761f1eb]	393	/* not reached */
	394	}
	395
[70527f1]	396
[e16e036a]	397	/** The scheduler
	398	*
	399	* The thread scheduling procedure.
[5fe5f1e]	400	* Passes control directly to
	401	* scheduler_separated_stack().
[e16e036a]	402	*
	403	*/
	404	void scheduler(void)
	405	{
	406	volatile ipl_t ipl;
	407
	408	ASSERT(CPU != NULL);
	409
	410	ipl = interrupts_disable();
	411
[36e7ee98]	412	if (atomic_get(&haltstate))
[e16e036a]	413	halt();
	414
	415	if (THREAD) {
	416	spinlock_lock(&THREAD->lock);
[5f85c91]	417	#ifndef CONFIG_FPU_LAZY
[e16e036a]	418	fpu_context_save(&(THREAD->saved_fpu_context));
	419	#endif
	420	if (!context_save(&THREAD->saved_context)) {
	421	/*
	422	* This is the place where threads leave scheduler();
	423	*/
	424	before_thread_runs();
	425	spinlock_unlock(&THREAD->lock);
	426	interrupts_restore(THREAD->saved_context.ipl);
	427	return;
	428	}
	429
	430	/*
	431	* Interrupt priority level of preempted thread is recorded here
	432	* to facilitate scheduler() invocations from interrupts_disable()'d
	433	* code (e.g. waitq_sleep_timeout()).
	434	*/
	435	THREAD->saved_context.ipl = ipl;
	436	}
	437
	438	/*
[05e2a7ad]	439	* Through the 'THE' structure, we keep track of THREAD, TASK, CPU, VM
[e16e036a]	440	* and preemption counter. At this point THE could be coming either
	441	* from THREAD's or CPU's stack.
	442	*/
	443	the_copy(THE, (the_t *) CPU->stack);
	444
	445	/*
	446	* We may not keep the old stack.
	447	* Reason: If we kept the old stack and got blocked, for instance, in
	448	* find_best_thread(), the old thread could get rescheduled by another
	449	* CPU and overwrite the part of its own stack that was also used by
	450	* the scheduler on this CPU.
	451	*
	452	* Moreover, we have to bypass the compiler-generated POP sequence
	453	* which is fooled by SP being set to the very top of the stack.
	454	* Therefore the scheduler() function continues in
	455	* scheduler_separated_stack().
	456	*/
	457	context_save(&CPU->saved_context);
	458	context_set(&CPU->saved_context, FADDR(scheduler_separated_stack), (__address) CPU->stack, CPU_STACK_SIZE);
	459	context_restore(&CPU->saved_context);
	460	/* not reached */
	461	}
	462
	463
	464
	465
	466
[5f85c91]	467	#ifdef CONFIG_SMP
[70527f1]	468	/** Load balancing thread
	469	*
	470	* SMP load balancing thread, supervising thread supplies
	471	* for the CPU it's wired to.
	472	*
	473	* @param arg Generic thread argument (unused).
	474	*
[f761f1eb]	475	*/
	476	void kcpulb(void *arg)
	477	{
	478	thread_t *t;
	479	int count, i, j, k = 0;
[22f7769]	480	ipl_t ipl;
[f761f1eb]	481
	482	loop:
	483	/*
	484	* Sleep until there's some work to do.
	485	*/
[43114c5]	486	waitq_sleep(&CPU->kcpulb_wq);
[f761f1eb]	487
	488	not_satisfied:
	489	/*
	490	* Calculate the number of threads that will be migrated/stolen from
	491	* other CPU's. Note that situation can have changed between two
	492	* passes. Each time get the most up to date counts.
	493	*/
[22f7769]	494	ipl = interrupts_disable();
[43114c5]	495	spinlock_lock(&CPU->lock);
[80d2bdb]	496	count = atomic_get(&nrdy) / config.cpu_active;
[43114c5]	497	count -= CPU->nrdy;
	498	spinlock_unlock(&CPU->lock);
[22f7769]	499	interrupts_restore(ipl);
[f761f1eb]	500
	501	if (count <= 0)
	502	goto satisfied;
	503
	504	/*
	505	* Searching least priority queues on all CPU's first and most priority queues on all CPU's last.
	506	*/
	507	for (j=RQ_COUNT-1; j >= 0; j--) {
	508	for (i=0; i < config.cpu_active; i++) {
	509	link_t *l;
	510	runq_t *r;
	511	cpu_t *cpu;
	512
	513	cpu = &cpus[(i + k) % config.cpu_active];
	514
	515	/*
	516	* Not interested in ourselves.
	517	* Doesn't require interrupt disabling for kcpulb is X_WIRED.
	518	*/
[43114c5]	519	if (CPU == cpu)
[18e0a6c]	520	continue;
[f761f1eb]	521
[22f7769]	522	restart: ipl = interrupts_disable();
[18e0a6c]	523	r = &cpu->rq[j];
[f761f1eb]	524	spinlock_lock(&r->lock);
	525	if (r->n == 0) {
	526	spinlock_unlock(&r->lock);
[22f7769]	527	interrupts_restore(ipl);
[f761f1eb]	528	continue;
	529	}
	530
	531	t = NULL;
	532	l = r->rq_head.prev; /* search rq from the back */
	533	while (l != &r->rq_head) {
	534	t = list_get_instance(l, thread_t, rq_link);
	535	/*
[76cec1e]	536	* We don't want to steal CPU-wired threads neither threads already stolen.
[f761f1eb]	537	* The latter prevents threads from migrating between CPU's without ever being run.
[76cec1e]	538	* We don't want to steal threads whose FPU context is still in CPU.
[6a27d63]	539	*/
[f761f1eb]	540	spinlock_lock(&t->lock);
[6a27d63]	541	if ( (!(t->flags & (X_WIRED \| X_STOLEN))) && (!(t->fpu_context_engaged)) ) {
[18e0a6c]	542
[f761f1eb]	543	/*
	544	* Remove t from r.
	545	*/
	546
	547	spinlock_unlock(&t->lock);
	548
	549	/*
	550	* Here we have to avoid deadlock with relink_rq(),
	551	* because it locks cpu and r in a different order than we do.
	552	*/
	553	if (!spinlock_trylock(&cpu->lock)) {
	554	/* Release all locks and try again. */
	555	spinlock_unlock(&r->lock);
[22f7769]	556	interrupts_restore(ipl);
[f761f1eb]	557	goto restart;
	558	}
	559	cpu->nrdy--;
	560	spinlock_unlock(&cpu->lock);
	561
[59e07c91]	562	atomic_dec(&nrdy);
[f761f1eb]	563
[76cec1e]	564	r->n--;
[f761f1eb]	565	list_remove(&t->rq_link);
	566
	567	break;
	568	}
	569	spinlock_unlock(&t->lock);
	570	l = l->prev;
	571	t = NULL;
	572	}
	573	spinlock_unlock(&r->lock);
	574
	575	if (t) {
	576	/*
	577	* Ready t on local CPU
	578	*/
	579	spinlock_lock(&t->lock);
	580	#ifdef KCPULB_VERBOSE
[43114c5]	581	printf("kcpulb%d: TID %d -> cpu%d, nrdy=%d, avg=%d\n", CPU->id, t->tid, CPU->id, CPU->nrdy, nrdy / config.cpu_active);
[f761f1eb]	582	#endif
	583	t->flags \|= X_STOLEN;
	584	spinlock_unlock(&t->lock);
	585
	586	thread_ready(t);
	587
[22f7769]	588	interrupts_restore(ipl);
[f761f1eb]	589
	590	if (--count == 0)
	591	goto satisfied;
	592
	593	/*
[76cec1e]	594	* We are not satisfied yet, focus on another CPU next time.
[f761f1eb]	595	*/
	596	k++;
	597
	598	continue;
	599	}
[22f7769]	600	interrupts_restore(ipl);
[f761f1eb]	601	}
	602	}
	603
[43114c5]	604	if (CPU->nrdy) {
[f761f1eb]	605	/*
	606	* Be a little bit light-weight and let migrated threads run.
	607	*/
	608	scheduler();
	609	}
	610	else {
	611	/*
	612	* We failed to migrate a single thread.
	613	* Something more sophisticated should be done.
	614	*/
	615	scheduler();
	616	}
	617
	618	goto not_satisfied;
[76cec1e]	619
[f761f1eb]	620	satisfied:
	621	/*
	622	* Tell find_best_thread() to wake us up later again.
	623	*/
[80d2bdb]	624	atomic_set(&CPU->kcpulbstarted,0);
[f761f1eb]	625	goto loop;
	626	}
	627
[5f85c91]	628	#endif /* CONFIG_SMP */

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source: mainline/generic/src/proc/scheduler.c@ 20d50a1

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