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1 /*
2 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
6 * The contents of this file constitute Original Code as defined in and
7 * are subject to the Apple Public Source License Version 1.1 (the
8 * "License"). You may not use this file except in compliance with the
9 * License. Please obtain a copy of the License at
10 * http://www.apple.com/publicsource and read it before using this file.
11 *
12 * This Original Code and all software distributed under the License are
13 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
14 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
15 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
16 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
17 * License for the specific language governing rights and limitations
18 * under the License.
19 *
20 * @APPLE_LICENSE_HEADER_END@
21 */
22 /*
23 * @OSF_COPYRIGHT@
24 */
25 /*
26 * Mach Operating System
27 * Copyright (c) 1991,1990,1989,1988,1987 Carnegie Mellon University
28 * All Rights Reserved.
29 *
30 * Permission to use, copy, modify and distribute this software and its
31 * documentation is hereby granted, provided that both the copyright
32 * notice and this permission notice appear in all copies of the
33 * software, derivative works or modified versions, and any portions
34 * thereof, and that both notices appear in supporting documentation.
35 *
36 * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
37 * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
38 * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
39 *
40 * Carnegie Mellon requests users of this software to return to
41 *
42 * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
43 * School of Computer Science
44 * Carnegie Mellon University
45 * Pittsburgh PA 15213-3890
46 *
47 * any improvements or extensions that they make and grant Carnegie Mellon
48 * the rights to redistribute these changes.
49 */
50 /*
51 */
52 /*
53 * File: vm_object.h
54 * Author: Avadis Tevanian, Jr., Michael Wayne Young
55 * Date: 1985
56 *
57 * Virtual memory object module definitions.
58 */
59
60 #ifndef _VM_VM_OBJECT_H_
61 #define _VM_VM_OBJECT_H_
62
63 #include <mach_pagemap.h>
64 #include <task_swapper.h>
65
66 #include <mach/kern_return.h>
67 #include <mach/boolean.h>
68 #include <mach/memory_object_types.h>
69 #include <mach/port.h>
70 #include <mach/vm_prot.h>
71 #include <mach/machine/vm_types.h>
72 #include <kern/queue.h>
73 #include <kern/lock.h>
74 #include <kern/assert.h>
75 #include <kern/ipc_mig.h>
76 #include <kern/misc_protos.h>
77 #include <kern/macro_help.h>
78 #include <ipc/ipc_types.h>
79 #include <vm/pmap.h>
80
81 #if MACH_PAGEMAP
82 #include <vm/vm_external.h>
83 #endif /* MACH_PAGEMAP */
84
85 typedef memory_object_control_t pager_request_t;
86 #define PAGER_REQUEST_NULL ((pager_request_t) 0)
87
88 /*
89 * Types defined:
90 *
91 * vm_object_t Virtual memory object.
92 */
93
94 typedef unsigned long long vm_object_size_t;
95
96
97 struct vm_object {
98 queue_head_t memq; /* Resident memory */
99 decl_mutex_data(, Lock) /* Synchronization */
100
101 vm_object_size_t size; /* Object size (only valid
102 * if internal)
103 */
104 vm_object_size_t frozen_size; /* How much has been marked
105 * copy-on-write (only
106 * valid if copy_symmetric)
107 */
108 int ref_count; /* Number of references */
109 #if TASK_SWAPPER
110 int res_count; /* Residency references (swap)*/
111 #endif /* TASK_SWAPPER */
112 unsigned int resident_page_count;
113 /* number of resident pages */
114
115 struct vm_object *copy; /* Object that should receive
116 * a copy of my changed pages,
117 * for copy_delay, or just the
118 * temporary object that
119 * shadows this object, for
120 * copy_call.
121 */
122 struct vm_object *shadow; /* My shadow */
123 vm_object_offset_t shadow_offset; /* Offset into shadow */
124
125 memory_object_t pager; /* Where to get data */
126 vm_object_offset_t paging_offset; /* Offset into memory object */
127 pager_request_t pager_request; /* Where data comes back */
128
129 memory_object_copy_strategy_t
130 copy_strategy; /* How to handle data copy */
131
132 unsigned int absent_count; /* The number of pages that
133 * have been requested but
134 * not filled. That is, the
135 * number of pages for which
136 * the "absent" attribute is
137 * asserted.
138 */
139
140 unsigned int paging_in_progress;
141 /* The memory object ports are
142 * being used (e.g., for pagein
143 * or pageout) -- don't change
144 * any of these fields (i.e.,
145 * don't collapse, destroy or
146 * terminate)
147 */
148 unsigned int
149 /* boolean_t array */ all_wanted:11, /* Bit array of "want to be
150 * awakened" notations. See
151 * VM_OBJECT_EVENT_* items
152 * below */
153 /* boolean_t */ pager_created:1, /* Has pager been created? */
154 /* boolean_t */ pager_initialized:1, /* Are fields ready to use? */
155 /* boolean_t */ pager_ready:1, /* Will pager take requests? */
156
157 /* boolean_t */ pager_trusted:1,/* The pager for this object
158 * is trusted. This is true for
159 * all internal objects (backed
160 * by the default pager)
161 */
162 /* boolean_t */ can_persist:1, /* The kernel may keep the data
163 * for this object (and rights
164 * to the memory object) after
165 * all address map references
166 * are deallocated?
167 */
168 /* boolean_t */ internal:1, /* Created by the kernel (and
169 * therefore, managed by the
170 * default memory manger)
171 */
172 /* boolean_t */ temporary:1, /* Permanent objects may be
173 * changed externally by the
174 * memory manager, and changes
175 * made in memory must be
176 * reflected back to the memory
177 * manager. Temporary objects
178 * lack both of these
179 * characteristics.
180 */
181 /* boolean_t */ private:1, /* magic device_pager object,
182 * holds private pages only */
183 /* boolean_t */ pageout:1, /* pageout object. contains
184 * private pages that refer to
185 * a real memory object. */
186 /* boolean_t */ alive:1, /* Not yet terminated */
187
188 /* boolean_t */ lock_in_progress:1,
189 /* Is a multi-page lock
190 * request in progress?
191 */
192 /* boolean_t */ lock_restart:1,
193 /* Should lock request in
194 * progress restart search?
195 */
196 /* boolean_t */ shadowed:1, /* Shadow may exist */
197 /* boolean_t */ silent_overwrite:1,
198 /* Allow full page overwrite
199 * without data_request if
200 * page is absent */
201 /* boolean_t */ advisory_pageout:1,
202 /* Instead of sending page
203 * via OOL, just notify
204 * pager that the kernel
205 * wants to discard it, page
206 * remains in object */
207 /* boolean_t */ true_share:1,
208 /* This object is mapped
209 * in more than one place
210 * and hence cannot be
211 * coalesced */
212 /* boolean_t */ terminating:1,
213 /* Allows vm_object_lookup
214 * and vm_object_deallocate
215 * to special case their
216 * behavior when they are
217 * called as a result of
218 * page cleaning during
219 * object termination
220 */
221 /* boolean_t */ named:1, /* An enforces an internal
222 * naming convention, by
223 * calling the right routines
224 * for allocation and
225 * destruction, UBC references
226 * against the vm_object are
227 * checked.
228 */
229 /* boolean_t */ shadow_severed:1,
230 /* When a permanent object
231 * backing a COW goes away
232 * unexpectedly. This bit
233 * allows vm_fault to return
234 * an error rather than a
235 * zero filled page.
236 */
237 /* boolean_t */ phys_contiguous:1,
238 /* Memory is wired and
239 * guaranteed physically
240 * contiguous. However
241 * it is not device memory
242 * and obeys normal virtual
243 * memory rules w.r.t pmap
244 * access bits.
245 */
246 /* boolean_t */ nophyscache:1;
247 /* When mapped at the
248 * pmap level, don't allow
249 * primary caching. (for
250 * I/O)
251 */
252
253
254
255 queue_chain_t cached_list; /* Attachment point for the
256 * list of objects cached as a
257 * result of their can_persist
258 * value
259 */
260
261 queue_head_t msr_q; /* memory object synchronise
262 request queue */
263
264 vm_object_offset_t last_alloc; /* last allocation offset */
265 vm_size_t cluster_size; /* size of paging cluster */
266 #if MACH_PAGEMAP
267 vm_external_map_t existence_map; /* bitmap of pages written to
268 * backing storage */
269 #endif /* MACH_PAGEMAP */
270 int cow_hint; /* last page present in */
271 /* shadow but not in object */
272 #if MACH_ASSERT
273 struct vm_object *paging_object; /* object which pages to be
274 * swapped out are temporary
275 * put in current object
276 */
277 #endif
278 /* hold object lock when altering */
279 unsigned int /* cache WIMG bits */
280 wimg_bits:8, /* wimg plus some expansion*/
281 not_in_use:24;
282 #ifdef UBC_DEBUG
283 queue_head_t uplq; /* List of outstanding upls */
284 #endif /* UBC_DEBUG */
285 };
286
287 __private_extern__
288 vm_object_t kernel_object; /* the single kernel object */
289
290 __private_extern__
291 int vm_object_absent_max; /* maximum number of absent pages
292 at a time for each object */
293
294 # define VM_MSYNC_INITIALIZED 0
295 # define VM_MSYNC_SYNCHRONIZING 1
296 # define VM_MSYNC_DONE 2
297
298 struct msync_req {
299 queue_chain_t msr_q; /* object request queue */
300 queue_chain_t req_q; /* vm_msync request queue */
301 unsigned int flag;
302 vm_object_offset_t offset;
303 vm_object_size_t length;
304 vm_object_t object; /* back pointer */
305 decl_mutex_data(, msync_req_lock) /* Lock for this structure */
306 };
307
308 typedef struct msync_req *msync_req_t;
309 #define MSYNC_REQ_NULL ((msync_req_t) 0)
310
311 /*
312 * Macros to allocate and free msync_reqs
313 */
314 #define msync_req_alloc(msr) \
315 MACRO_BEGIN \
316 (msr) = (msync_req_t)kalloc(sizeof(struct msync_req)); \
317 mutex_init(&(msr)->msync_req_lock, ETAP_VM_MSYNC); \
318 msr->flag = VM_MSYNC_INITIALIZED; \
319 MACRO_END
320
321 #define msync_req_free(msr) \
322 (kfree((vm_offset_t)(msr), sizeof(struct msync_req)))
323
324 #define msr_lock(msr) mutex_lock(&(msr)->msync_req_lock)
325 #define msr_unlock(msr) mutex_unlock(&(msr)->msync_req_lock)
326
327 /*
328 * Declare procedures that operate on VM objects.
329 */
330
331 __private_extern__ void vm_object_bootstrap(void);
332
333 __private_extern__ void vm_object_init(void);
334
335 __private_extern__ vm_object_t vm_object_allocate(
336 vm_object_size_t size);
337
338 #if TASK_SWAPPER
339
340 __private_extern__ void vm_object_res_reference(
341 vm_object_t object);
342 __private_extern__ void vm_object_res_deallocate(
343 vm_object_t object);
344 #define VM_OBJ_RES_INCR(object) (object)->res_count++
345 #define VM_OBJ_RES_DECR(object) (object)->res_count--
346
347 #else /* TASK_SWAPPER */
348
349 #define VM_OBJ_RES_INCR(object)
350 #define VM_OBJ_RES_DECR(object)
351 #define vm_object_res_reference(object)
352 #define vm_object_res_deallocate(object)
353
354 #endif /* TASK_SWAPPER */
355
356 #define vm_object_reference_locked(object) \
357 MACRO_BEGIN \
358 vm_object_t RLObject = (object); \
359 assert((RLObject)->ref_count > 0); \
360 (RLObject)->ref_count++; \
361 vm_object_res_reference(RLObject); \
362 MACRO_END
363
364
365 #if MACH_ASSERT
366
367 __private_extern__ void vm_object_reference(
368 vm_object_t object);
369
370 #else /* MACH_ASSERT */
371
372 #define vm_object_reference(object) \
373 MACRO_BEGIN \
374 vm_object_t RObject = (object); \
375 if (RObject) { \
376 vm_object_lock(RObject); \
377 vm_object_reference_locked(RObject); \
378 vm_object_unlock(RObject); \
379 } \
380 MACRO_END
381
382 #endif /* MACH_ASSERT */
383
384 __private_extern__ void vm_object_deallocate(
385 vm_object_t object);
386
387 __private_extern__ kern_return_t vm_object_release_name(
388 vm_object_t object,
389 int flags);
390
391 __private_extern__ void vm_object_pmap_protect(
392 vm_object_t object,
393 vm_object_offset_t offset,
394 vm_size_t size,
395 pmap_t pmap,
396 vm_offset_t pmap_start,
397 vm_prot_t prot);
398
399 __private_extern__ void vm_object_page_remove(
400 vm_object_t object,
401 vm_object_offset_t start,
402 vm_object_offset_t end);
403
404 __private_extern__ void vm_object_deactivate_pages(
405 vm_object_t object,
406 vm_object_offset_t offset,
407 vm_object_size_t size,
408 boolean_t kill_page);
409
410 __private_extern__ boolean_t vm_object_coalesce(
411 vm_object_t prev_object,
412 vm_object_t next_object,
413 vm_object_offset_t prev_offset,
414 vm_object_offset_t next_offset,
415 vm_object_size_t prev_size,
416 vm_object_size_t next_size);
417
418 __private_extern__ boolean_t vm_object_shadow(
419 vm_object_t *object,
420 vm_object_offset_t *offset,
421 vm_object_size_t length);
422
423 __private_extern__ void vm_object_collapse(
424 vm_object_t object);
425
426 __private_extern__ boolean_t vm_object_copy_quickly(
427 vm_object_t *_object,
428 vm_object_offset_t src_offset,
429 vm_object_size_t size,
430 boolean_t *_src_needs_copy,
431 boolean_t *_dst_needs_copy);
432
433 __private_extern__ kern_return_t vm_object_copy_strategically(
434 vm_object_t src_object,
435 vm_object_offset_t src_offset,
436 vm_object_size_t size,
437 vm_object_t *dst_object,
438 vm_object_offset_t *dst_offset,
439 boolean_t *dst_needs_copy);
440
441 __private_extern__ kern_return_t vm_object_copy_slowly(
442 vm_object_t src_object,
443 vm_object_offset_t src_offset,
444 vm_object_size_t size,
445 int interruptible,
446 vm_object_t *_result_object);
447
448 __private_extern__ vm_object_t vm_object_copy_delayed(
449 vm_object_t src_object,
450 vm_object_offset_t src_offset,
451 vm_object_size_t size);
452
453
454
455 __private_extern__ kern_return_t vm_object_destroy(
456 vm_object_t object,
457 kern_return_t reason);
458
459 __private_extern__ void vm_object_pager_create(
460 vm_object_t object);
461
462 __private_extern__ void vm_object_page_map(
463 vm_object_t object,
464 vm_object_offset_t offset,
465 vm_object_size_t size,
466 vm_object_offset_t (*map_fn)
467 (void *, vm_object_offset_t),
468 void *map_fn_data);
469
470 __private_extern__ kern_return_t vm_object_upl_request(
471 vm_object_t object,
472 vm_object_offset_t offset,
473 vm_size_t size,
474 upl_t *upl,
475 upl_page_info_t *page_info,
476 unsigned int *count,
477 int flags);
478
479 __private_extern__ boolean_t vm_object_sync(
480 vm_object_t object,
481 vm_object_offset_t offset,
482 vm_size_t size,
483 boolean_t should_flush,
484 boolean_t should_return);
485
486 __private_extern__ kern_return_t vm_object_update(
487 vm_object_t object,
488 vm_object_offset_t offset,
489 vm_size_t size, /* should be 64 */
490 memory_object_return_t should_return,
491 int flags,
492 vm_prot_t prot);
493
494 __private_extern__ kern_return_t vm_object_lock_request(
495 vm_object_t object,
496 vm_object_offset_t offset,
497 vm_object_size_t size,
498 memory_object_return_t should_return,
499 int flags,
500 vm_prot_t prot);
501
502
503
504 __private_extern__ vm_object_t vm_object_enter(
505 memory_object_t pager,
506 vm_object_size_t size,
507 boolean_t internal,
508 boolean_t init,
509 boolean_t check_named);
510
511
512 /*
513 * Event waiting handling
514 */
515
516 #define VM_OBJECT_EVENT_INITIALIZED 0
517 #define VM_OBJECT_EVENT_PAGER_READY 1
518 #define VM_OBJECT_EVENT_PAGING_IN_PROGRESS 2
519 #define VM_OBJECT_EVENT_ABSENT_COUNT 3
520 #define VM_OBJECT_EVENT_LOCK_IN_PROGRESS 4
521 #define VM_OBJECT_EVENT_UNCACHING 5
522 #define VM_OBJECT_EVENT_COPY_CALL 6
523 #define VM_OBJECT_EVENT_CACHING 7
524
525 #define vm_object_assert_wait(object, event, interruptible) \
526 (((object)->all_wanted |= 1 << (event)), \
527 assert_wait((event_t)((vm_offset_t)(object)+(event)),(interruptible)))
528
529 #define vm_object_wait(object, event, interruptible) \
530 (vm_object_assert_wait((object),(event),(interruptible)), \
531 vm_object_unlock(object), \
532 thread_block(THREAD_CONTINUE_NULL)) \
533
534 #define thread_sleep_vm_object(object, event, interruptible) \
535 thread_sleep_mutex((event_t)(event), &(object)->Lock, (interruptible))
536
537 #define vm_object_sleep(object, event, interruptible) \
538 (((object)->all_wanted |= 1 << (event)), \
539 thread_sleep_vm_object((object), \
540 ((vm_offset_t)(object)+(event)), (interruptible)))
541
542 #define vm_object_wakeup(object, event) \
543 MACRO_BEGIN \
544 if ((object)->all_wanted & (1 << (event))) \
545 thread_wakeup((event_t)((vm_offset_t)(object) + (event))); \
546 (object)->all_wanted &= ~(1 << (event)); \
547 MACRO_END
548
549 #define vm_object_set_wanted(object, event) \
550 MACRO_BEGIN \
551 ((object)->all_wanted |= (1 << (event))); \
552 MACRO_END
553
554 #define vm_object_wanted(object, event) \
555 ((object)->all_wanted & (1 << (event)))
556
557 /*
558 * Routines implemented as macros
559 */
560
561 #define vm_object_paging_begin(object) \
562 MACRO_BEGIN \
563 (object)->paging_in_progress++; \
564 MACRO_END
565
566 #define vm_object_paging_end(object) \
567 MACRO_BEGIN \
568 assert((object)->paging_in_progress != 0); \
569 if (--(object)->paging_in_progress == 0) { \
570 vm_object_wakeup(object, \
571 VM_OBJECT_EVENT_PAGING_IN_PROGRESS); \
572 } \
573 MACRO_END
574
575 #define vm_object_paging_wait(object, interruptible) \
576 MACRO_BEGIN \
577 while ((object)->paging_in_progress != 0) { \
578 wait_result_t _wr; \
579 \
580 _wr = vm_object_sleep((object), \
581 VM_OBJECT_EVENT_PAGING_IN_PROGRESS, \
582 (interruptible)); \
583 \
584 /*XXX if ((interruptible) && (_wr != THREAD_AWAKENED))*/\
585 /*XXX break; */ \
586 } \
587 MACRO_END
588
589 #define vm_object_absent_assert_wait(object, interruptible) \
590 MACRO_BEGIN \
591 vm_object_assert_wait( (object), \
592 VM_OBJECT_EVENT_ABSENT_COUNT, \
593 (interruptible)); \
594 MACRO_END
595
596
597 #define vm_object_absent_release(object) \
598 MACRO_BEGIN \
599 (object)->absent_count--; \
600 vm_object_wakeup((object), \
601 VM_OBJECT_EVENT_ABSENT_COUNT); \
602 MACRO_END
603
604 /*
605 * Object locking macros
606 */
607
608 #define vm_object_lock_init(object) mutex_init(&(object)->Lock, ETAP_VM_OBJ)
609 #define vm_object_lock(object) mutex_lock(&(object)->Lock)
610 #define vm_object_unlock(object) mutex_unlock(&(object)->Lock)
611 #define vm_object_lock_try(object) mutex_try(&(object)->Lock)
612
613 #endif /* _VM_VM_OBJECT_H_ */