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1 /*
2 * Copyright (c) 2000-2006 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
14 *
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
17 *
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
25 *
26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27 */
28 /*
29 * Mach Operating System
30 * Copyright (c) 1987 Carnegie-Mellon University
31 * All rights reserved. The CMU software License Agreement specifies
32 * the terms and conditions for use and redistribution.
33 */
34 /*
35 * File: vnode_pager.c
36 *
37 * "Swap" pager that pages to/from vnodes. Also
38 * handles demand paging from files.
39 *
40 */
41
42 #include <mach/boolean.h>
43 #include <sys/param.h>
44 #include <sys/systm.h>
45 #include <sys/user.h>
46 #include <sys/proc.h>
47 #include <sys/kauth.h>
48 #include <sys/buf.h>
49 #include <sys/uio.h>
50 #include <sys/vnode_internal.h>
51 #include <sys/namei.h>
52 #include <sys/mount_internal.h> /* needs internal due to fhandle_t */
53 #include <sys/ubc_internal.h>
54 #include <sys/lock.h>
55 #include <sys/disk.h> /* For DKIOC calls */
56
57 #include <mach/mach_types.h>
58 #include <mach/memory_object_types.h>
59 #include <mach/memory_object_control.h>
60 #include <mach/vm_map.h>
61 #include <mach/mach_vm.h>
62 #include <mach/upl.h>
63 #include <mach/sdt.h>
64
65 #include <vm/vm_map.h>
66 #include <vm/vm_kern.h>
67 #include <kern/zalloc.h>
68 #include <kern/kalloc.h>
69 #include <libkern/libkern.h>
70
71 #include <vm/vnode_pager.h>
72 #include <vm/vm_pageout.h>
73
74 #include <kern/assert.h>
75 #include <sys/kdebug.h>
76 #include <nfs/rpcv2.h>
77 #include <nfs/nfsproto.h>
78 #include <nfs/nfs.h>
79
80 #include <vm/vm_protos.h>
81
82 #include <vfs/vfs_disk_conditioner.h>
83
84 void
85 vnode_pager_throttle()
86 {
87 struct uthread *ut;
88
89 ut = get_bsdthread_info(current_thread());
90
91 if (ut->uu_lowpri_window) {
92 throttle_lowpri_io(1);
93 }
94 }
95
96 boolean_t
97 vnode_pager_isSSD(vnode_t vp)
98 {
99 return disk_conditioner_mount_is_ssd(vp->v_mount);
100 }
101
102 #if CONFIG_IOSCHED
103 void
104 vnode_pager_issue_reprioritize_io(struct vnode *devvp, uint64_t blkno, uint32_t len, int priority)
105 {
106 u_int32_t blocksize = 0;
107 dk_extent_t extent;
108 dk_set_tier_t set_tier;
109 int error = 0;
110
111 error = VNOP_IOCTL(devvp, DKIOCGETBLOCKSIZE, (caddr_t)&blocksize, 0, vfs_context_kernel());
112 if (error) {
113 return;
114 }
115
116 memset(&extent, 0, sizeof(dk_extent_t));
117 memset(&set_tier, 0, sizeof(dk_set_tier_t));
118
119 extent.offset = blkno * (u_int64_t) blocksize;
120 extent.length = len;
121
122 set_tier.extents = &extent;
123 set_tier.extentsCount = 1;
124 set_tier.tier = priority;
125
126 error = VNOP_IOCTL(devvp, DKIOCSETTIER, (caddr_t)&set_tier, 0, vfs_context_kernel());
127 return;
128 }
129 #endif
130
131 void
132 vnode_pager_was_dirtied(
133 struct vnode *vp,
134 vm_object_offset_t s_offset,
135 vm_object_offset_t e_offset)
136 {
137 cluster_update_state(vp, s_offset, e_offset, TRUE);
138 }
139
140 uint32_t
141 vnode_pager_isinuse(struct vnode *vp)
142 {
143 if (vp->v_usecount > vp->v_kusecount) {
144 return 1;
145 }
146 return 0;
147 }
148
149 uint32_t
150 vnode_pager_return_throttle_io_limit(struct vnode *vp, uint32_t *limit)
151 {
152 return cluster_throttle_io_limit(vp, limit);
153 }
154
155 vm_object_offset_t
156 vnode_pager_get_filesize(struct vnode *vp)
157 {
158 return (vm_object_offset_t) ubc_getsize(vp);
159 }
160
161 extern int safe_getpath(struct vnode *dvp, char *leafname, char *path, int _len, int *truncated_path);
162
163 kern_return_t
164 vnode_pager_get_name(
165 struct vnode *vp,
166 char *pathname,
167 vm_size_t pathname_len,
168 char *filename,
169 vm_size_t filename_len,
170 boolean_t *truncated_path_p)
171 {
172 *truncated_path_p = FALSE;
173 if (pathname != NULL) {
174 /* get the path name */
175 safe_getpath(vp, NULL,
176 pathname, (int) pathname_len,
177 truncated_path_p);
178 }
179 if ((pathname == NULL || *truncated_path_p) &&
180 filename != NULL) {
181 /* get the file name */
182 const char *name;
183
184 name = vnode_getname_printable(vp);
185 strlcpy(filename, name, (size_t) filename_len);
186 vnode_putname_printable(name);
187 }
188 return KERN_SUCCESS;
189 }
190
191 kern_return_t
192 vnode_pager_get_mtime(
193 struct vnode *vp,
194 struct timespec *current_mtime,
195 struct timespec *cs_mtime)
196 {
197 vnode_mtime(vp, current_mtime, vfs_context_current());
198 if (cs_mtime != NULL) {
199 ubc_get_cs_mtime(vp, cs_mtime);
200 }
201 return KERN_SUCCESS;
202 }
203
204 kern_return_t
205 vnode_pager_get_cs_blobs(
206 struct vnode *vp,
207 void **blobs)
208 {
209 *blobs = ubc_get_cs_blobs(vp);
210 return KERN_SUCCESS;
211 }
212
213 /*
214 * vnode_trim:
215 * Used to call the DKIOCUNMAP ioctl on the underlying disk device for the specified vnode.
216 * Trims the region at offset bytes into the file, for length bytes.
217 *
218 * Care must be taken to ensure that the vnode is sufficiently reference counted at the time this
219 * function is called; no iocounts or usecounts are taken on the vnode.
220 * This function is non-idempotent in error cases; We cannot un-discard the blocks if only some of them
221 * are successfully discarded.
222 */
223 u_int32_t
224 vnode_trim(
225 struct vnode *vp,
226 off_t offset,
227 size_t length)
228 {
229 daddr64_t io_blockno; /* Block number corresponding to the start of the extent */
230 size_t io_bytecount; /* Number of bytes in current extent for the specified range */
231 size_t trimmed = 0;
232 off_t current_offset = offset;
233 size_t remaining_length = length;
234 int error = 0;
235 u_int32_t blocksize = 0;
236 struct vnode *devvp;
237 dk_extent_t extent;
238 dk_unmap_t unmap;
239
240
241 /* Get the underlying device vnode */
242 devvp = vp->v_mount->mnt_devvp;
243
244 /* Figure out the underlying device block size */
245 error = VNOP_IOCTL(devvp, DKIOCGETBLOCKSIZE, (caddr_t)&blocksize, 0, vfs_context_kernel());
246 if (error) {
247 goto trim_exit;
248 }
249
250 /*
251 * We may not get the entire range from offset -> offset+length in a single
252 * extent from the blockmap call. Keep looping/going until we are sure we've hit
253 * the whole range or if we encounter an error.
254 */
255 while (trimmed < length) {
256 /*
257 * VNOP_BLOCKMAP will tell us the logical to physical block number mapping for the
258 * specified offset. It returns blocks in contiguous chunks, so if the logical range is
259 * broken into multiple extents, it must be called multiple times, increasing the offset
260 * in each call to ensure that the entire range is covered.
261 */
262 error = VNOP_BLOCKMAP(vp, current_offset, remaining_length,
263 &io_blockno, &io_bytecount, NULL, VNODE_READ | VNODE_BLOCKMAP_NO_TRACK, NULL);
264
265 if (error) {
266 goto trim_exit;
267 }
268 /*
269 * We have a contiguous run. Prepare & issue the ioctl for the device.
270 * the DKIOCUNMAP ioctl takes offset in bytes from the start of the device.
271 */
272 memset(&extent, 0, sizeof(dk_extent_t));
273 memset(&unmap, 0, sizeof(dk_unmap_t));
274 extent.offset = (uint64_t) io_blockno * (u_int64_t) blocksize;
275 extent.length = io_bytecount;
276 unmap.extents = &extent;
277 unmap.extentsCount = 1;
278 error = VNOP_IOCTL(devvp, DKIOCUNMAP, (caddr_t)&unmap, 0, vfs_context_kernel());
279
280 if (error) {
281 goto trim_exit;
282 }
283 remaining_length = remaining_length - io_bytecount;
284 trimmed = trimmed + io_bytecount;
285 current_offset = current_offset + io_bytecount;
286 }
287 trim_exit:
288
289 return error;
290 }
291
292 pager_return_t
293 vnode_pageout(struct vnode *vp,
294 upl_t upl,
295 upl_offset_t upl_offset,
296 vm_object_offset_t f_offset,
297 upl_size_t size,
298 int flags,
299 int *errorp)
300 {
301 int result = PAGER_SUCCESS;
302 int error = 0;
303 int error_ret = 0;
304 daddr64_t blkno;
305 int isize;
306 int pg_index;
307 int base_index;
308 upl_offset_t offset;
309 upl_page_info_t *pl;
310 vfs_context_t ctx = vfs_context_current(); /* pager context */
311
312 isize = (int)size;
313
314 if (isize <= 0) {
315 result = PAGER_ERROR;
316 error_ret = EINVAL;
317 goto out;
318 }
319
320 if (UBCINFOEXISTS(vp) == 0) {
321 result = PAGER_ERROR;
322 error_ret = EINVAL;
323
324 if (upl && !(flags & UPL_NOCOMMIT)) {
325 ubc_upl_abort_range(upl, upl_offset, size, UPL_ABORT_FREE_ON_EMPTY);
326 }
327 goto out;
328 }
329 if (!(flags & UPL_VNODE_PAGER)) {
330 /*
331 * This is a pageout from the default pager,
332 * just go ahead and call vnop_pageout since
333 * it has already sorted out the dirty ranges
334 */
335 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
336 (MACHDBG_CODE(DBG_MACH_VM, 1)) | DBG_FUNC_START,
337 size, 1, 0, 0, 0);
338
339 if ((error_ret = VNOP_PAGEOUT(vp, upl, upl_offset, (off_t)f_offset,
340 (size_t)size, flags, ctx))) {
341 result = PAGER_ERROR;
342 }
343
344 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
345 (MACHDBG_CODE(DBG_MACH_VM, 1)) | DBG_FUNC_END,
346 size, 1, 0, 0, 0);
347
348 goto out;
349 }
350 if (upl == NULL) {
351 int request_flags;
352
353 if (vp->v_mount->mnt_vtable->vfc_vfsflags & VFC_VFSVNOP_PAGEOUTV2) {
354 /*
355 * filesystem has requested the new form of VNOP_PAGEOUT for file
356 * backed objects... we will not grab the UPL befofe calling VNOP_PAGEOUT...
357 * it is the fileystem's responsibility to grab the range we're denoting
358 * via 'f_offset' and 'size' into a UPL... this allows the filesystem to first
359 * take any locks it needs, before effectively locking the pages into a UPL...
360 */
361 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
362 (MACHDBG_CODE(DBG_MACH_VM, 1)) | DBG_FUNC_START,
363 size, (int)f_offset, 0, 0, 0);
364
365 if ((error_ret = VNOP_PAGEOUT(vp, NULL, upl_offset, (off_t)f_offset,
366 size, flags, ctx))) {
367 result = PAGER_ERROR;
368 }
369 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
370 (MACHDBG_CODE(DBG_MACH_VM, 1)) | DBG_FUNC_END,
371 size, 0, 0, 0, 0);
372
373 goto out;
374 }
375 if (flags & UPL_MSYNC) {
376 request_flags = UPL_UBC_MSYNC | UPL_RET_ONLY_DIRTY;
377 } else {
378 request_flags = UPL_UBC_PAGEOUT | UPL_RET_ONLY_DIRTY;
379 }
380
381 if (ubc_create_upl_kernel(vp, f_offset, size, &upl, &pl, request_flags, VM_KERN_MEMORY_FILE) != KERN_SUCCESS) {
382 result = PAGER_ERROR;
383 error_ret = EINVAL;
384 goto out;
385 }
386 upl_offset = 0;
387 } else {
388 pl = ubc_upl_pageinfo(upl);
389 }
390
391 /*
392 * Ignore any non-present pages at the end of the
393 * UPL so that we aren't looking at a upl that
394 * may already have been freed by the preceeding
395 * aborts/completions.
396 */
397 base_index = upl_offset / PAGE_SIZE;
398
399 for (pg_index = (upl_offset + isize) / PAGE_SIZE; pg_index > base_index;) {
400 if (upl_page_present(pl, --pg_index)) {
401 break;
402 }
403 if (pg_index == base_index) {
404 /*
405 * no pages were returned, so release
406 * our hold on the upl and leave
407 */
408 if (!(flags & UPL_NOCOMMIT)) {
409 ubc_upl_abort_range(upl, upl_offset, isize, UPL_ABORT_FREE_ON_EMPTY);
410 }
411
412 goto out;
413 }
414 }
415 isize = ((pg_index + 1) - base_index) * PAGE_SIZE;
416
417 /*
418 * we come here for pageouts to 'real' files and
419 * for msyncs... the upl may not contain any
420 * dirty pages.. it's our responsibility to sort
421 * through it and find the 'runs' of dirty pages
422 * to call VNOP_PAGEOUT on...
423 */
424
425 if (ubc_getsize(vp) == 0) {
426 /*
427 * if the file has been effectively deleted, then
428 * we need to go through the UPL and invalidate any
429 * buffer headers we might have that reference any
430 * of it's pages
431 */
432 for (offset = upl_offset; isize; isize -= PAGE_SIZE, offset += PAGE_SIZE) {
433 #if NFSCLIENT
434 if (vp->v_tag == VT_NFS) {
435 /* check with nfs if page is OK to drop */
436 error = nfs_buf_page_inval(vp, (off_t)f_offset);
437 } else
438 #endif
439 {
440 blkno = ubc_offtoblk(vp, (off_t)f_offset);
441 error = buf_invalblkno(vp, blkno, 0);
442 }
443 if (error) {
444 if (!(flags & UPL_NOCOMMIT)) {
445 ubc_upl_abort_range(upl, offset, PAGE_SIZE, UPL_ABORT_FREE_ON_EMPTY);
446 }
447 if (error_ret == 0) {
448 error_ret = error;
449 }
450 result = PAGER_ERROR;
451 } else if (!(flags & UPL_NOCOMMIT)) {
452 ubc_upl_commit_range(upl, offset, PAGE_SIZE, UPL_COMMIT_FREE_ON_EMPTY);
453 }
454 f_offset += PAGE_SIZE;
455 }
456 goto out;
457 }
458
459 offset = upl_offset;
460 pg_index = base_index;
461
462 while (isize) {
463 int xsize;
464 int num_of_pages;
465
466 if (!upl_page_present(pl, pg_index)) {
467 /*
468 * we asked for RET_ONLY_DIRTY, so it's possible
469 * to get back empty slots in the UPL
470 * just skip over them
471 */
472 f_offset += PAGE_SIZE;
473 offset += PAGE_SIZE;
474 isize -= PAGE_SIZE;
475 pg_index++;
476
477 continue;
478 }
479 if (!upl_dirty_page(pl, pg_index)) {
480 /*
481 * if the page is not dirty and reached here it is
482 * marked precious or it is due to invalidation in
483 * memory_object_lock request as part of truncation
484 * We also get here from vm_object_terminate()
485 * So all you need to do in these
486 * cases is to invalidate incore buffer if it is there
487 * Note we must not sleep here if the buffer is busy - that is
488 * a lock inversion which causes deadlock.
489 */
490 #if NFSCLIENT
491 if (vp->v_tag == VT_NFS) {
492 /* check with nfs if page is OK to drop */
493 error = nfs_buf_page_inval(vp, (off_t)f_offset);
494 } else
495 #endif
496 {
497 blkno = ubc_offtoblk(vp, (off_t)f_offset);
498 error = buf_invalblkno(vp, blkno, 0);
499 }
500 if (error) {
501 if (!(flags & UPL_NOCOMMIT)) {
502 ubc_upl_abort_range(upl, offset, PAGE_SIZE, UPL_ABORT_FREE_ON_EMPTY);
503 }
504 if (error_ret == 0) {
505 error_ret = error;
506 }
507 result = PAGER_ERROR;
508 } else if (!(flags & UPL_NOCOMMIT)) {
509 ubc_upl_commit_range(upl, offset, PAGE_SIZE, UPL_COMMIT_FREE_ON_EMPTY);
510 }
511 f_offset += PAGE_SIZE;
512 offset += PAGE_SIZE;
513 isize -= PAGE_SIZE;
514 pg_index++;
515
516 continue;
517 }
518 num_of_pages = 1;
519 xsize = isize - PAGE_SIZE;
520
521 while (xsize) {
522 if (!upl_dirty_page(pl, pg_index + num_of_pages)) {
523 break;
524 }
525 num_of_pages++;
526 xsize -= PAGE_SIZE;
527 }
528 xsize = num_of_pages * PAGE_SIZE;
529
530 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
531 (MACHDBG_CODE(DBG_MACH_VM, 1)) | DBG_FUNC_START,
532 xsize, (int)f_offset, 0, 0, 0);
533
534 if ((error = VNOP_PAGEOUT(vp, upl, offset, (off_t)f_offset,
535 xsize, flags, ctx))) {
536 if (error_ret == 0) {
537 error_ret = error;
538 }
539 result = PAGER_ERROR;
540 }
541 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
542 (MACHDBG_CODE(DBG_MACH_VM, 1)) | DBG_FUNC_END,
543 xsize, 0, 0, 0, 0);
544
545 f_offset += xsize;
546 offset += xsize;
547 isize -= xsize;
548 pg_index += num_of_pages;
549 }
550 out:
551 if (errorp) {
552 *errorp = error_ret;
553 }
554
555 return result;
556 }
557
558
559 pager_return_t
560 vnode_pagein(
561 struct vnode *vp,
562 upl_t upl,
563 upl_offset_t upl_offset,
564 vm_object_offset_t f_offset,
565 upl_size_t size,
566 int flags,
567 int *errorp)
568 {
569 upl_page_info_t *pl;
570 int result = PAGER_SUCCESS;
571 int error = 0;
572 int pages_in_upl;
573 int start_pg;
574 int last_pg;
575 int first_pg;
576 int xsize;
577 int must_commit = 1;
578 int ignore_valid_page_check = 0;
579
580 if (flags & UPL_NOCOMMIT) {
581 must_commit = 0;
582 }
583
584 if (flags & UPL_IGNORE_VALID_PAGE_CHECK) {
585 ignore_valid_page_check = 1;
586 }
587
588 if (UBCINFOEXISTS(vp) == 0) {
589 result = PAGER_ERROR;
590 error = PAGER_ERROR;
591
592 if (upl && must_commit) {
593 ubc_upl_abort_range(upl, upl_offset, size, UPL_ABORT_FREE_ON_EMPTY | UPL_ABORT_ERROR);
594 }
595
596 goto out;
597 }
598 if (upl == (upl_t)NULL) {
599 flags &= ~UPL_NOCOMMIT;
600
601 if (size > MAX_UPL_SIZE_BYTES) {
602 result = PAGER_ERROR;
603 error = PAGER_ERROR;
604 goto out;
605 }
606 if (vp->v_mount->mnt_vtable->vfc_vfsflags & VFC_VFSVNOP_PAGEINV2) {
607 /*
608 * filesystem has requested the new form of VNOP_PAGEIN for file
609 * backed objects... we will not grab the UPL befofe calling VNOP_PAGEIN...
610 * it is the fileystem's responsibility to grab the range we're denoting
611 * via 'f_offset' and 'size' into a UPL... this allows the filesystem to first
612 * take any locks it needs, before effectively locking the pages into a UPL...
613 * so we pass a NULL into the filesystem instead of a UPL pointer... the 'upl_offset'
614 * is used to identify the "must have" page in the extent... the filesystem is free
615 * to clip the extent to better fit the underlying FS blocksize if it desires as
616 * long as it continues to include the "must have" page... 'f_offset' + 'upl_offset'
617 * identifies that page
618 */
619 if ((error = VNOP_PAGEIN(vp, NULL, upl_offset, (off_t)f_offset,
620 size, flags, vfs_context_current()))) {
621 result = PAGER_ERROR;
622 error = PAGER_ERROR;
623 }
624 goto out;
625 }
626 ubc_create_upl_kernel(vp, f_offset, size, &upl, &pl, UPL_UBC_PAGEIN | UPL_RET_ONLY_ABSENT, VM_KERN_MEMORY_FILE);
627
628 if (upl == (upl_t)NULL) {
629 result = PAGER_ABSENT;
630 error = PAGER_ABSENT;
631 goto out;
632 }
633 ubc_upl_range_needed(upl, upl_offset / PAGE_SIZE, 1);
634
635 upl_offset = 0;
636 first_pg = 0;
637
638 /*
639 * if we get here, we've created the upl and
640 * are responsible for commiting/aborting it
641 * regardless of what the caller has passed in
642 */
643 must_commit = 1;
644 } else {
645 pl = ubc_upl_pageinfo(upl);
646 first_pg = upl_offset / PAGE_SIZE;
647 }
648 pages_in_upl = size / PAGE_SIZE;
649 DTRACE_VM2(pgpgin, int, pages_in_upl, (uint64_t *), NULL);
650
651 /*
652 * before we start marching forward, we must make sure we end on
653 * a present page, otherwise we will be working with a freed
654 * upl
655 */
656 for (last_pg = pages_in_upl - 1; last_pg >= first_pg; last_pg--) {
657 if (upl_page_present(pl, last_pg)) {
658 break;
659 }
660 if (last_pg == first_pg) {
661 /*
662 * empty UPL, no pages are present
663 */
664 if (must_commit) {
665 ubc_upl_abort_range(upl, upl_offset, size, UPL_ABORT_FREE_ON_EMPTY);
666 }
667 goto out;
668 }
669 }
670 pages_in_upl = last_pg + 1;
671 last_pg = first_pg;
672
673 while (last_pg < pages_in_upl) {
674 /*
675 * skip over missing pages...
676 */
677 for (; last_pg < pages_in_upl; last_pg++) {
678 if (upl_page_present(pl, last_pg)) {
679 break;
680 }
681 }
682
683 if (ignore_valid_page_check == 1) {
684 start_pg = last_pg;
685 } else {
686 /*
687 * skip over 'valid' pages... we don't want to issue I/O for these
688 */
689 for (start_pg = last_pg; last_pg < pages_in_upl; last_pg++) {
690 if (!upl_valid_page(pl, last_pg)) {
691 break;
692 }
693 }
694 }
695
696 if (last_pg > start_pg) {
697 /*
698 * we've found a range of valid pages
699 * if we've got COMMIT responsibility
700 * commit this range of pages back to the
701 * cache unchanged
702 */
703 xsize = (last_pg - start_pg) * PAGE_SIZE;
704
705 if (must_commit) {
706 ubc_upl_abort_range(upl, start_pg * PAGE_SIZE, xsize, UPL_ABORT_FREE_ON_EMPTY);
707 }
708 }
709 if (last_pg == pages_in_upl) {
710 /*
711 * we're done... all pages that were present
712 * have either had I/O issued on them or
713 * were aborted unchanged...
714 */
715 break;
716 }
717
718 if (!upl_page_present(pl, last_pg)) {
719 /*
720 * we found a range of valid pages
721 * terminated by a missing page...
722 * bump index to the next page and continue on
723 */
724 last_pg++;
725 continue;
726 }
727 /*
728 * scan from the found invalid page looking for a valid
729 * or non-present page before the end of the upl is reached, if we
730 * find one, then it will be the last page of the request to
731 * 'cluster_io'
732 */
733 for (start_pg = last_pg; last_pg < pages_in_upl; last_pg++) {
734 if ((!ignore_valid_page_check && upl_valid_page(pl, last_pg)) || !upl_page_present(pl, last_pg)) {
735 break;
736 }
737 }
738 if (last_pg > start_pg) {
739 int xoff;
740 xsize = (last_pg - start_pg) * PAGE_SIZE;
741 xoff = start_pg * PAGE_SIZE;
742
743 if ((error = VNOP_PAGEIN(vp, upl, (upl_offset_t) xoff,
744 (off_t)f_offset + xoff,
745 xsize, flags, vfs_context_current()))) {
746 /*
747 * Usually this UPL will be aborted/committed by the lower cluster layer.
748 *
749 * a) In the case of decmpfs, however, we may return an error (EAGAIN) to avoid
750 * a deadlock with another thread already inflating the file.
751 *
752 * b) In the case of content protection, EPERM is a valid error and we should respect it.
753 *
754 * In those cases, we must take care of our UPL at this layer itself.
755 */
756 if (must_commit) {
757 if (error == EAGAIN) {
758 ubc_upl_abort_range(upl, (upl_offset_t) xoff, xsize, UPL_ABORT_FREE_ON_EMPTY | UPL_ABORT_RESTART);
759 }
760 if (error == EPERM) {
761 ubc_upl_abort_range(upl, (upl_offset_t) xoff, xsize, UPL_ABORT_FREE_ON_EMPTY | UPL_ABORT_ERROR);
762 }
763 }
764 result = PAGER_ERROR;
765 error = PAGER_ERROR;
766 }
767 }
768 }
769 out:
770 if (errorp) {
771 *errorp = result;
772 }
773
774 return error;
775 }
776
777 void *
778 upl_get_internal_page_list(upl_t upl)
779 {
780 return UPL_GET_INTERNAL_PAGE_LIST(upl);
781 }
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