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1 jermar 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
 
1248 jermar 29
/**
30
 * @file	thread.c
31
 * @brief	Thread management functions.
32
 */
33
 
1 jermar 34
#include <proc/scheduler.h>
35
#include <proc/thread.h>
36
#include <proc/task.h>
1078 jermar 37
#include <proc/uarg.h>
1 jermar 38
#include <mm/frame.h>
39
#include <mm/page.h>
40
#include <arch/asm.h>
41
#include <arch.h>
42
#include <synch/synch.h>
43
#include <synch/spinlock.h>
44
#include <synch/waitq.h>
45
#include <synch/rwlock.h>
46
#include <cpu.h>
47
#include <func.h>
48
#include <context.h>
1158 jermar 49
#include <adt/btree.h>
788 jermar 50
#include <adt/list.h>
1 jermar 51
#include <typedefs.h>
52
#include <time/clock.h>
7 jermar 53
#include <config.h>
54
#include <arch/interrupt.h>
10 jermar 55
#include <smp/ipi.h>
76 jermar 56
#include <arch/faddr.h>
1104 jermar 57
#include <atomic.h>
195 vana 58
#include <memstr.h>
777 palkovsky 59
#include <print.h>
787 palkovsky 60
#include <mm/slab.h>
61
#include <debug.h>
1066 jermar 62
#include <main/uinit.h>
1288 jermar 63
#include <syscall/copy.h>
64
#include <errno.h>
7 jermar 65
 
1 jermar 66
 
1571 jermar 67
/** Thread states */
68
char *thread_states[] = {
69
	"Invalid",
70
	"Running",
71
	"Sleeping",
72
	"Ready",
73
	"Entering",
74
	"Exiting",
75
	"Undead"
76
}; 
77
 
1636 jermar 78
/** Lock protecting the threads_btree B+tree. For locking rules, see declaration thereof. */
1158 jermar 79
SPINLOCK_INITIALIZE(threads_lock);
1 jermar 80
 
1636 jermar 81
/** B+tree of all threads.
82
 *
83
 * When a thread is found in the threads_btree B+tree, it is guaranteed to exist as long
84
 * as the threads_lock is held.
85
 */
86
btree_t threads_btree;		
87
 
623 jermar 88
SPINLOCK_INITIALIZE(tidlock);
1 jermar 89
__u32 last_tid = 0;
90
 
787 palkovsky 91
static slab_cache_t *thread_slab;
906 palkovsky 92
#ifdef ARCH_HAS_FPU
93
slab_cache_t *fpu_context_slab;
94
#endif
107 decky 95
 
96
/** Thread wrapper
97
 *
98
 * This wrapper is provided to ensure that every thread
1 jermar 99
 * makes a call to thread_exit() when its implementing
100
 * function returns.
101
 *
413 jermar 102
 * interrupts_disable() is assumed.
107 decky 103
 *
1 jermar 104
 */
452 decky 105
static void cushion(void)
1 jermar 106
{
15 jermar 107
	void (*f)(void *) = THREAD->thread_code;
108
	void *arg = THREAD->thread_arg;
1 jermar 109
 
213 jermar 110
	/* this is where each thread wakes up after its creation */
15 jermar 111
	spinlock_unlock(&THREAD->lock);
413 jermar 112
	interrupts_enable();
1 jermar 113
 
114
	f(arg);
115
	thread_exit();
116
	/* not reached */
117
}
118
 
787 palkovsky 119
/** Initialization and allocation for thread_t structure */
120
static int thr_constructor(void *obj, int kmflags)
121
{
122
	thread_t *t = (thread_t *)obj;
814 palkovsky 123
	pfn_t pfn;
842 palkovsky 124
	int status;
107 decky 125
 
787 palkovsky 126
	spinlock_initialize(&t->lock, "thread_t_lock");
127
	link_initialize(&t->rq_link);
128
	link_initialize(&t->wq_link);
129
	link_initialize(&t->th_link);
130
 
906 palkovsky 131
#ifdef ARCH_HAS_FPU
132
#  ifdef CONFIG_FPU_LAZY
133
	t->saved_fpu_context = NULL;
134
#  else
135
	t->saved_fpu_context = slab_alloc(fpu_context_slab,kmflags);
136
	if (!t->saved_fpu_context)
137
		return -1;
138
#  endif
139
#endif	
140
 
935 vana 141
	pfn = frame_alloc_rc(STACK_FRAMES, FRAME_KA | kmflags,&status);
906 palkovsky 142
	if (status) {
143
#ifdef ARCH_HAS_FPU
144
		if (t->saved_fpu_context)
145
			slab_free(fpu_context_slab,t->saved_fpu_context);
146
#endif
842 palkovsky 147
		return -1;
906 palkovsky 148
	}
814 palkovsky 149
	t->kstack = (__u8 *)PA2KA(PFN2ADDR(pfn));
787 palkovsky 150
 
151
	return 0;
152
}
153
 
154
/** Destruction of thread_t object */
155
static int thr_destructor(void *obj)
156
{
157
	thread_t *t = (thread_t *)obj;
158
 
814 palkovsky 159
	frame_free(ADDR2PFN(KA2PA(t->kstack)));
906 palkovsky 160
#ifdef ARCH_HAS_FPU
161
	if (t->saved_fpu_context)
162
		slab_free(fpu_context_slab,t->saved_fpu_context);
163
#endif
787 palkovsky 164
	return 1; /* One page freed */
165
}
166
 
107 decky 167
/** Initialize threads
168
 *
169
 * Initialize kernel threads support.
170
 *
171
 */
1 jermar 172
void thread_init(void)
173
{
15 jermar 174
	THREAD = NULL;
625 palkovsky 175
	atomic_set(&nrdy,0);
787 palkovsky 176
	thread_slab = slab_cache_create("thread_slab", 
177
					sizeof(thread_t),0, 
178
					thr_constructor, thr_destructor, 0);
906 palkovsky 179
#ifdef ARCH_HAS_FPU
180
	fpu_context_slab = slab_cache_create("fpu_slab",
181
					     sizeof(fpu_context_t),
182
					     FPU_CONTEXT_ALIGN,
183
					     NULL, NULL, 0);
184
#endif
1158 jermar 185
 
186
	btree_create(&threads_btree);
1 jermar 187
}
188
 
107 decky 189
/** Make thread ready
190
 *
191
 * Switch thread t to the ready state.
192
 *
193
 * @param t Thread to make ready.
194
 *
195
 */
1 jermar 196
void thread_ready(thread_t *t)
197
{
198
	cpu_t *cpu;
199
	runq_t *r;
413 jermar 200
	ipl_t ipl;
625 palkovsky 201
	int i, avg;
1 jermar 202
 
413 jermar 203
	ipl = interrupts_disable();
1 jermar 204
 
205
	spinlock_lock(&t->lock);
206
 
1086 palkovsky 207
	ASSERT(! (t->state == Ready));
208
 
413 jermar 209
	i = (t->priority < RQ_COUNT -1) ? ++t->priority : t->priority;
1 jermar 210
 
16 jermar 211
	cpu = CPU;
1 jermar 212
	if (t->flags & X_WIRED) {
213
		cpu = t->cpu;
214
	}
1083 palkovsky 215
	t->state = Ready;
1 jermar 216
	spinlock_unlock(&t->lock);
217
 
107 decky 218
	/*
1 jermar 219
	 * Append t to respective ready queue on respective processor.
220
	 */
221
	r = &cpu->rq[i];
222
	spinlock_lock(&r->lock);
223
	list_append(&t->rq_link, &r->rq_head);
224
	r->n++;
225
	spinlock_unlock(&r->lock);
226
 
475 jermar 227
	atomic_inc(&nrdy);
625 palkovsky 228
	avg = atomic_get(&nrdy) / config.cpu_active;
783 palkovsky 229
	atomic_inc(&cpu->nrdy);
1 jermar 230
 
413 jermar 231
	interrupts_restore(ipl);
1 jermar 232
}
233
 
787 palkovsky 234
/** Destroy thread memory structure
235
 *
236
 * Detach thread from all queues, cpus etc. and destroy it.
237
 *
238
 * Assume thread->lock is held!!
239
 */
240
void thread_destroy(thread_t *t)
241
{
1579 jermar 242
	bool destroy_task = false;	
243
 
1581 jermar 244
	ASSERT(t->state == Exiting || t->state == Undead);
787 palkovsky 245
	ASSERT(t->task);
246
	ASSERT(t->cpu);
247
 
248
	spinlock_lock(&t->cpu->lock);
249
	if(t->cpu->fpu_owner==t)
250
		t->cpu->fpu_owner=NULL;
251
	spinlock_unlock(&t->cpu->lock);
252
 
1579 jermar 253
	spinlock_unlock(&t->lock);
254
 
255
	spinlock_lock(&threads_lock);
256
	btree_remove(&threads_btree, (btree_key_t) ((__address ) t), NULL);
257
	spinlock_unlock(&threads_lock);
258
 
787 palkovsky 259
	/*
260
	 * Detach from the containing task.
261
	 */
262
	spinlock_lock(&t->task->lock);
263
	list_remove(&t->th_link);
1579 jermar 264
	if (--t->task->refcount == 0) {
265
		t->task->accept_new_threads = false;
266
		destroy_task = true;
267
	}
268
	spinlock_unlock(&t->task->lock);	
787 palkovsky 269
 
1579 jermar 270
	if (destroy_task)
271
		task_destroy(t->task);
787 palkovsky 272
 
273
	slab_free(thread_slab, t);
274
}
275
 
107 decky 276
/** Create new thread
277
 *
278
 * Create a new thread.
279
 *
280
 * @param func  Thread's implementing function.
281
 * @param arg   Thread's implementing function argument.
282
 * @param task  Task to which the thread belongs.
283
 * @param flags Thread flags.
1062 jermar 284
 * @param name  Symbolic name.
107 decky 285
 *
286
 * @return New thread's structure on success, NULL on failure.
287
 *
288
 */
1062 jermar 289
thread_t *thread_create(void (* func)(void *), void *arg, task_t *task, int flags, char *name)
1 jermar 290
{
291
	thread_t *t;
822 palkovsky 292
	ipl_t ipl;
293
 
787 palkovsky 294
	t = (thread_t *) slab_alloc(thread_slab, 0);
842 palkovsky 295
	if (!t)
296
		return NULL;
1171 jermar 297
 
298
	thread_create_arch(t);
1 jermar 299
 
822 palkovsky 300
	/* Not needed, but good for debugging */
1138 jermar 301
	memsetb((__address)t->kstack, THREAD_STACK_SIZE * 1<<STACK_FRAMES, 0);
822 palkovsky 302
 
303
	ipl = interrupts_disable();
304
	spinlock_lock(&tidlock);
305
	t->tid = ++last_tid;
306
	spinlock_unlock(&tidlock);
307
	interrupts_restore(ipl);
308
 
309
	context_save(&t->saved_context);
310
	context_set(&t->saved_context, FADDR(cushion), (__address) t->kstack, THREAD_STACK_SIZE);
311
 
312
	the_initialize((the_t *) t->kstack);
313
 
314
	ipl = interrupts_disable();
315
	t->saved_context.ipl = interrupts_read();
316
	interrupts_restore(ipl);
317
 
1066 jermar 318
	memcpy(t->name, name, THREAD_NAME_BUFLEN);
319
 
822 palkovsky 320
	t->thread_code = func;
321
	t->thread_arg = arg;
322
	t->ticks = -1;
323
	t->priority = -1;		/* start in rq[0] */
324
	t->cpu = NULL;
325
	t->flags = 0;
326
	t->state = Entering;
327
	t->call_me = NULL;
328
	t->call_me_with = NULL;
329
 
330
	timeout_initialize(&t->sleep_timeout);
1502 jermar 331
	t->sleep_interruptible = false;
822 palkovsky 332
	t->sleep_queue = NULL;
333
	t->timeout_pending = 0;
1288 jermar 334
 
335
	t->in_copy_from_uspace = false;
336
	t->in_copy_to_uspace = false;
1579 jermar 337
 
338
	t->interrupted = false;	
1571 jermar 339
	t->detached = false;
340
	waitq_initialize(&t->join_wq);
341
 
822 palkovsky 342
	t->rwlock_holder_type = RWLOCK_NONE;
210 decky 343
 
822 palkovsky 344
	t->task = task;
345
 
860 decky 346
	t->fpu_context_exists = 0;
347
	t->fpu_context_engaged = 0;
822 palkovsky 348
 
349
	/*
1579 jermar 350
	 * Attach to the containing task.
351
	 */
352
	spinlock_lock(&task->lock);
353
	if (!task->accept_new_threads) {
354
		spinlock_unlock(&task->lock);
355
		slab_free(thread_slab, t);
356
		return NULL;
357
	}
358
	list_append(&t->th_link, &task->th_head);
1585 jermar 359
	if (task->refcount++ == 0)
360
		task->main_thread = t;
1579 jermar 361
	spinlock_unlock(&task->lock);
362
 
363
	/*
822 palkovsky 364
	 * Register this thread in the system-wide list.
365
	 */
366
	ipl = interrupts_disable();
367
	spinlock_lock(&threads_lock);
1177 jermar 368
	btree_insert(&threads_btree, (btree_key_t) ((__address) t), (void *) t, NULL);
822 palkovsky 369
	spinlock_unlock(&threads_lock);
370
 
371
	interrupts_restore(ipl);
860 decky 372
 
1 jermar 373
	return t;
374
}
375
 
107 decky 376
/** Make thread exiting
377
 *
378
 * End current thread execution and switch it to the exiting
379
 * state. All pending timeouts are executed.
380
 *
381
 */
1 jermar 382
void thread_exit(void)
383
{
413 jermar 384
	ipl_t ipl;
1 jermar 385
 
386
restart:
413 jermar 387
	ipl = interrupts_disable();
15 jermar 388
	spinlock_lock(&THREAD->lock);
389
	if (THREAD->timeout_pending) { /* busy waiting for timeouts in progress */
390
		spinlock_unlock(&THREAD->lock);
413 jermar 391
		interrupts_restore(ipl);
1 jermar 392
		goto restart;
393
	}
15 jermar 394
	THREAD->state = Exiting;
395
	spinlock_unlock(&THREAD->lock);
1 jermar 396
	scheduler();
1595 palkovsky 397
 
398
	/* Not reached */
399
	while (1)
400
		;
1 jermar 401
}
402
 
107 decky 403
 
404
/** Thread sleep
405
 *
406
 * Suspend execution of the current thread.
407
 *
408
 * @param sec Number of seconds to sleep.
409
 *
410
 */
1 jermar 411
void thread_sleep(__u32 sec)
412
{
125 jermar 413
	thread_usleep(sec*1000000);
1 jermar 414
}
107 decky 415
 
1571 jermar 416
/** Wait for another thread to exit.
417
 *
418
 * @param t Thread to join on exit.
419
 * @param usec Timeout in microseconds.
420
 * @param flags Mode of operation.
421
 *
422
 * @return An error code from errno.h or an error code from synch.h.
423
 */
424
int thread_join_timeout(thread_t *t, __u32 usec, int flags)
425
{
426
	ipl_t ipl;
427
	int rc;
428
 
429
	if (t == THREAD)
430
		return EINVAL;
431
 
432
	/*
433
	 * Since thread join can only be called once on an undetached thread,
434
	 * the thread pointer is guaranteed to be still valid.
435
	 */
436
 
437
	ipl = interrupts_disable();
438
	spinlock_lock(&t->lock);
439
 
440
	ASSERT(!t->detached);
441
 
442
	(void) waitq_sleep_prepare(&t->join_wq);
443
	spinlock_unlock(&t->lock);
444
 
445
	rc = waitq_sleep_timeout_unsafe(&t->join_wq, usec, flags);
446
 
447
	waitq_sleep_finish(&t->join_wq, rc, ipl);
448
 
449
	return rc;	
450
}
451
 
452
/** Detach thread.
453
 *
454
 * Mark the thread as detached, if the thread is already in the Undead state,
455
 * deallocate its resources.
456
 *
457
 * @param t Thread to be detached.
458
 */
459
void thread_detach(thread_t *t)
460
{
461
	ipl_t ipl;
462
 
463
	/*
464
	 * Since the thread is expected to not be already detached,
465
	 * pointer to it must be still valid.
466
	 */
467
 
468
	ipl = interrupts_disable();
469
	spinlock_lock(&t->lock);
470
	ASSERT(!t->detached);
471
	if (t->state == Undead) {
472
		thread_destroy(t);	/* unlocks &t->lock */
473
		interrupts_restore(ipl);
474
		return;
475
	} else {
476
		t->detached = true;
477
	}
478
	spinlock_unlock(&t->lock);
479
	interrupts_restore(ipl);
480
}
481
 
107 decky 482
/** Thread usleep
483
 *
484
 * Suspend execution of the current thread.
485
 *
486
 * @param usec Number of microseconds to sleep.
487
 *
488
 */	
1 jermar 489
void thread_usleep(__u32 usec)
490
{
491
	waitq_t wq;
492
 
493
	waitq_initialize(&wq);
494
 
1502 jermar 495
	(void) waitq_sleep_timeout(&wq, usec, SYNCH_FLAGS_NON_BLOCKING);
1 jermar 496
}
497
 
107 decky 498
/** Register thread out-of-context invocation
499
 *
500
 * Register a function and its argument to be executed
501
 * on next context switch to the current thread.
502
 *
503
 * @param call_me      Out-of-context function.
504
 * @param call_me_with Out-of-context function argument.
505
 *
506
 */
1 jermar 507
void thread_register_call_me(void (* call_me)(void *), void *call_me_with)
508
{
413 jermar 509
	ipl_t ipl;
1 jermar 510
 
413 jermar 511
	ipl = interrupts_disable();
15 jermar 512
	spinlock_lock(&THREAD->lock);
513
	THREAD->call_me = call_me;
514
	THREAD->call_me_with = call_me_with;
515
	spinlock_unlock(&THREAD->lock);
413 jermar 516
	interrupts_restore(ipl);
1 jermar 517
}
777 palkovsky 518
 
519
/** Print list of threads debug info */
520
void thread_print_list(void)
521
{
522
	link_t *cur;
523
	ipl_t ipl;
524
 
525
	/* Messing with thread structures, avoid deadlock */
526
	ipl = interrupts_disable();
527
	spinlock_lock(&threads_lock);
528
 
1158 jermar 529
	for (cur = threads_btree.leaf_head.next; cur != &threads_btree.leaf_head; cur = cur->next) {
530
		btree_node_t *node;
531
		int i;
532
 
533
		node = list_get_instance(cur, btree_node_t, leaf_link);
534
		for (i = 0; i < node->keys; i++) {
535
			thread_t *t;
536
 
537
			t = (thread_t *) node->value[i];
1196 cejka 538
			printf("%s: address=%#zX, tid=%zd, state=%s, task=%#zX, code=%#zX, stack=%#zX, cpu=",
1158 jermar 539
				t->name, t, t->tid, thread_states[t->state], t->task, t->thread_code, t->kstack);
540
			if (t->cpu)
1458 palkovsky 541
				printf("cpu%zd", t->cpu->id);
1158 jermar 542
			else
543
				printf("none");
1458 palkovsky 544
			if (t->state == Sleeping) {
545
				printf(", kst=%#zX", t->kstack);
546
				printf(", wq=%#zX", t->sleep_queue);
547
			}
1158 jermar 548
			printf("\n");
549
		}
777 palkovsky 550
	}
551
 
552
	spinlock_unlock(&threads_lock);
1060 palkovsky 553
	interrupts_restore(ipl);
777 palkovsky 554
}
1066 jermar 555
 
1158 jermar 556
/** Check whether thread exists.
557
 *
558
 * Note that threads_lock must be already held and
559
 * interrupts must be already disabled.
560
 *
561
 * @param t Pointer to thread.
562
 *
563
 * @return True if thread t is known to the system, false otherwise.
564
 */
565
bool thread_exists(thread_t *t)
566
{
567
	btree_node_t *leaf;
568
 
1177 jermar 569
	return btree_search(&threads_btree, (btree_key_t) ((__address) t), &leaf) != NULL;
1158 jermar 570
}
571
 
1066 jermar 572
/** Process syscall to create new thread.
573
 *
574
 */
1078 jermar 575
__native sys_thread_create(uspace_arg_t *uspace_uarg, char *uspace_name)
1066 jermar 576
{
1210 vana 577
	thread_t *t;
578
	char namebuf[THREAD_NAME_BUFLEN];
1103 jermar 579
	uspace_arg_t *kernel_uarg;
1066 jermar 580
	__u32 tid;
1288 jermar 581
	int rc;
1066 jermar 582
 
1288 jermar 583
	rc = copy_from_uspace(namebuf, uspace_name, THREAD_NAME_BUFLEN);
584
	if (rc != 0)
585
		return (__native) rc;
1066 jermar 586
 
1078 jermar 587
	kernel_uarg = (uspace_arg_t *) malloc(sizeof(uspace_arg_t), 0);	
1288 jermar 588
	rc = copy_from_uspace(kernel_uarg, uspace_uarg, sizeof(uspace_arg_t));
589
	if (rc != 0) {
590
		free(kernel_uarg);
591
		return (__native) rc;
592
	}
1078 jermar 593
 
1210 vana 594
	if ((t = thread_create(uinit, kernel_uarg, TASK, 0, namebuf))) {
1066 jermar 595
		tid = t->tid;
1210 vana 596
		thread_ready(t);
1066 jermar 597
		return (__native) tid; 
1210 vana 598
	} else {
1078 jermar 599
		free(kernel_uarg);
1210 vana 600
	}
1066 jermar 601
 
1288 jermar 602
	return (__native) ENOMEM;
1066 jermar 603
}
604
 
605
/** Process syscall to terminate thread.
606
 *
607
 */
1078 jermar 608
__native sys_thread_exit(int uspace_status)
1066 jermar 609
{
1210 vana 610
	thread_exit();
611
	/* Unreachable */
612
	return 0;
1066 jermar 613
}