2 * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
4 * Copyright 1998, 2000 Marshall Kirk McKusick. All Rights Reserved.
6 * The soft updates code is derived from the appendix of a University
7 * of Michigan technical report (Gregory R. Ganger and Yale N. Patt,
8 * "Soft Updates: A Solution to the Metadata Update Problem in File
9 * Systems", CSE-TR-254-95, August 1995).
11 * Further information about soft updates can be obtained from:
13 * Marshall Kirk McKusick http://www.mckusick.com/softdep/
14 * 1614 Oxford Street mckusick@mckusick.com
15 * Berkeley, CA 94709-1608 +1-510-843-9542
18 * Redistribution and use in source and binary forms, with or without
19 * modification, are permitted provided that the following conditions
22 * 1. Redistributions of source code must retain the above copyright
23 * notice, this list of conditions and the following disclaimer.
24 * 2. Redistributions in binary form must reproduce the above copyright
25 * notice, this list of conditions and the following disclaimer in the
26 * documentation and/or other materials provided with the distribution.
28 * THIS SOFTWARE IS PROVIDED BY MARSHALL KIRK MCKUSICK ``AS IS'' AND ANY
29 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
30 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
31 * DISCLAIMED. IN NO EVENT SHALL MARSHALL KIRK MCKUSICK BE LIABLE FOR
32 * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
33 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
34 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
35 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
36 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
37 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
40 * @(#)softdep.h 9.7 (McKusick) 6/21/00
44 #include <sys/queue.h>
47 * Allocation dependencies are handled with undo/redo on the in-memory
48 * copy of the data. A particular data dependency is eliminated when
49 * it is ALLCOMPLETE: that is ATTACHED, DEPCOMPLETE, and COMPLETE.
51 * The ATTACHED flag means that the data is not currently being written
54 * The UNDONE flag means that the data has been rolled back to a safe
55 * state for writing to the disk. When the I/O completes, the data is
56 * restored to its current form and the state reverts to ATTACHED.
57 * The data must be locked throughout the rollback, I/O, and roll
58 * forward so that the rolled back information is never visible to
61 * The COMPLETE flag indicates that the item has been written. For example,
62 * a dependency that requires that an inode be written will be marked
63 * COMPLETE after the inode has been written to disk.
65 * The DEPCOMPLETE flag indicates the completion of any other
66 * dependencies such as the writing of a cylinder group map has been
67 * completed. A dependency structure may be freed only when both it
68 * and its dependencies have completed and any rollbacks that are in
69 * progress have finished as indicated by the set of ALLCOMPLETE flags
72 * The two MKDIR flags indicate additional dependencies that must be done
73 * when creating a new directory. MKDIR_BODY is cleared when the directory
74 * data block containing the "." and ".." entries has been written.
75 * MKDIR_PARENT is cleared when the parent inode with the increased link
76 * count for ".." has been written. When both MKDIR flags have been
77 * cleared, the DEPCOMPLETE flag is set to indicate that the directory
78 * dependencies have been completed. The writing of the directory inode
79 * itself sets the COMPLETE flag which then allows the directory entry for
80 * the new directory to be written to disk. The RMDIR flag marks a dirrem
81 * structure as representing the removal of a directory rather than a
82 * file. When the removal dependencies are completed, additional work needs
83 * to be done* (an additional decrement of the associated inode, and a
84 * decrement of the parent inode).
86 * The DIRCHG flag marks a diradd structure as representing the changing
87 * of an existing entry rather than the addition of a new one. When
88 * the update is complete the dirrem associated with the inode for
89 * the old name must be added to the worklist to do the necessary
90 * reference count decrement.
92 * The GOINGAWAY flag indicates that the data structure is frozen from
93 * further change until its dependencies have been completed and its
94 * resources freed after which it will be discarded.
96 * The IOSTARTED flag prevents multiple calls to the I/O start routine from
97 * doing multiple rollbacks.
99 * The NEWBLOCK flag marks pagedep structures that have just been allocated,
100 * so must be claimed by the inode before all dependencies are complete.
102 * The INPROGRESS flag marks worklist structures that are still on the
103 * worklist, but are being considered for action by some process.
105 * The UFS1FMT flag indicates that the inode being processed is a ufs1 format.
107 * The EXTDATA flag indicates that the allocdirect describes an
108 * extended-attributes dependency.
110 * The ONWORKLIST flag shows whether the structure is currently linked
113 * The UNLINK* flags track the progress of updating the on-disk linked
114 * list of active but unlinked inodes. When an inode is first unlinked
115 * it is marked as UNLINKED. When its on-disk di_freelink has been
116 * written its UNLINKNEXT flags is set. When its predecessor in the
117 * list has its di_freelink pointing at us its UNLINKPREV is set.
118 * When the on-disk list can reach it from the superblock, its
119 * UNLINKONLIST flag is set. Once all of these flags are set, it
120 * is safe to let its last name be removed.
122 #define ATTACHED 0x000001
123 #define UNDONE 0x000002
124 #define COMPLETE 0x000004
125 #define DEPCOMPLETE 0x000008
126 #define MKDIR_PARENT 0x000010 /* diradd, mkdir, jaddref, jsegdep only */
127 #define MKDIR_BODY 0x000020 /* diradd, mkdir, jaddref only */
128 #define RMDIR 0x000040 /* dirrem only */
129 #define DIRCHG 0x000080 /* diradd, dirrem only */
130 #define GOINGAWAY 0x000100 /* indirdep, jremref only */
131 #define IOSTARTED 0x000200 /* inodedep, pagedep, bmsafemap only */
132 #define DELAYEDFREE 0x000400 /* allocindirect free delayed. */
133 #define NEWBLOCK 0x000800 /* pagedep, jaddref only */
134 #define INPROGRESS 0x001000 /* dirrem, freeblks, freefrag, freefile only */
135 #define UFS1FMT 0x002000 /* indirdep only */
136 #define EXTDATA 0x004000 /* allocdirect only */
137 #define ONWORKLIST 0x008000
138 #define IOWAITING 0x010000 /* Thread is waiting for IO to complete. */
139 #define ONDEPLIST 0x020000 /* Structure is on a dependency list. */
140 #define UNLINKED 0x040000 /* inodedep has been unlinked. */
141 #define UNLINKNEXT 0x080000 /* inodedep has valid di_freelink */
142 #define UNLINKPREV 0x100000 /* inodedep is pointed at in the unlink list */
143 #define UNLINKONLIST 0x200000 /* inodedep is in the unlinked list on disk */
144 #define UNLINKLINKS (UNLINKNEXT | UNLINKPREV)
145 #define WRITESUCCEEDED 0x400000 /* the disk write completed successfully */
147 #define ALLCOMPLETE (ATTACHED | COMPLETE | DEPCOMPLETE)
149 #define PRINT_SOFTDEP_FLAGS "\20\27writesucceeded\26unlinkonlist" \
150 "\25unlinkprev\24unlinknext\23unlinked\22ondeplist\21iowaiting" \
151 "\20onworklist\17extdata\16ufs1fmt\15inprogress\14newblock" \
152 "\13delayedfree\12iostarted\11goingaway\10dirchg\7rmdir\6mkdir_body" \
153 "\5mkdir_parent\4depcomplete\3complete\2undone\1attached"
156 * Values for each of the soft dependency types.
159 #define D_FIRST D_PAGEDEP
162 #define D_BMSAFEMAP 3
164 #define D_ALLOCDIRECT 5
166 #define D_ALLOCINDIR 7
169 #define D_FREEFILE 10
173 #define D_NEWDIRBLK 14
174 #define D_FREEWORK 15
180 #define D_JFREEBLK 21
181 #define D_JFREEFRAG 22
187 #define D_SENTINEL 28
188 #define D_LAST D_SENTINEL
191 * The workitem queue.
193 * It is sometimes useful and/or necessary to clean up certain dependencies
194 * in the background rather than during execution of an application process
195 * or interrupt service routine. To realize this, we append dependency
196 * structures corresponding to such tasks to a "workitem" queue. In a soft
197 * updates implementation, most pending workitems should not wait for more
198 * than a couple of seconds, so the filesystem syncer process awakens once
199 * per second to process the items on the queue.
202 /* LIST_HEAD(workhead, worklist); -- declared in buf.h */
205 * Each request can be linked onto a work queue through its worklist structure.
206 * To avoid the need for a pointer to the structure itself, this structure
207 * MUST be declared FIRST in each type in which it appears! If more than one
208 * worklist is needed in the structure, then a wk_data field must be added
209 * and the macros below changed to use it.
212 LIST_ENTRY(worklist) wk_list; /* list of work requests */
213 struct mount *wk_mp; /* Mount we live in */
214 unsigned int wk_type:8, /* type of request */
215 wk_state:24; /* state flags */
217 const char *wk_func; /* func where added / removed */
218 int wk_line; /* line where added / removed */
221 #define WK_DATA(wk) ((void *)(wk))
222 #define WK_PAGEDEP(wk) ((struct pagedep *)(wk))
223 #define WK_INODEDEP(wk) ((struct inodedep *)(wk))
224 #define WK_BMSAFEMAP(wk) ((struct bmsafemap *)(wk))
225 #define WK_NEWBLK(wk) ((struct newblk *)(wk))
226 #define WK_ALLOCDIRECT(wk) ((struct allocdirect *)(wk))
227 #define WK_INDIRDEP(wk) ((struct indirdep *)(wk))
228 #define WK_ALLOCINDIR(wk) ((struct allocindir *)(wk))
229 #define WK_FREEFRAG(wk) ((struct freefrag *)(wk))
230 #define WK_FREEBLKS(wk) ((struct freeblks *)(wk))
231 #define WK_FREEWORK(wk) ((struct freework *)(wk))
232 #define WK_FREEFILE(wk) ((struct freefile *)(wk))
233 #define WK_DIRADD(wk) ((struct diradd *)(wk))
234 #define WK_MKDIR(wk) ((struct mkdir *)(wk))
235 #define WK_DIRREM(wk) ((struct dirrem *)(wk))
236 #define WK_NEWDIRBLK(wk) ((struct newdirblk *)(wk))
237 #define WK_JADDREF(wk) ((struct jaddref *)(wk))
238 #define WK_JREMREF(wk) ((struct jremref *)(wk))
239 #define WK_JMVREF(wk) ((struct jmvref *)(wk))
240 #define WK_JSEGDEP(wk) ((struct jsegdep *)(wk))
241 #define WK_JSEG(wk) ((struct jseg *)(wk))
242 #define WK_JNEWBLK(wk) ((struct jnewblk *)(wk))
243 #define WK_JFREEBLK(wk) ((struct jfreeblk *)(wk))
244 #define WK_FREEDEP(wk) ((struct freedep *)(wk))
245 #define WK_JFREEFRAG(wk) ((struct jfreefrag *)(wk))
246 #define WK_SBDEP(wk) ((struct sbdep *)(wk))
247 #define WK_JTRUNC(wk) ((struct jtrunc *)(wk))
248 #define WK_JFSYNC(wk) ((struct jfsync *)(wk))
251 * Various types of lists
253 LIST_HEAD(dirremhd, dirrem);
254 LIST_HEAD(diraddhd, diradd);
255 LIST_HEAD(newblkhd, newblk);
256 LIST_HEAD(inodedephd, inodedep);
257 LIST_HEAD(allocindirhd, allocindir);
258 LIST_HEAD(allocdirecthd, allocdirect);
259 TAILQ_HEAD(allocdirectlst, allocdirect);
260 LIST_HEAD(indirdephd, indirdep);
261 LIST_HEAD(jaddrefhd, jaddref);
262 LIST_HEAD(jremrefhd, jremref);
263 LIST_HEAD(jmvrefhd, jmvref);
264 LIST_HEAD(jnewblkhd, jnewblk);
265 LIST_HEAD(jblkdephd, jblkdep);
266 LIST_HEAD(freeworkhd, freework);
267 TAILQ_HEAD(freeworklst, freework);
268 TAILQ_HEAD(jseglst, jseg);
269 TAILQ_HEAD(inoreflst, inoref);
270 TAILQ_HEAD(freeblklst, freeblks);
273 * The "pagedep" structure tracks the various dependencies related to
274 * a particular directory page. If a directory page has any dependencies,
275 * it will have a pagedep linked to its associated buffer. The
276 * pd_dirremhd list holds the list of dirrem requests which decrement
277 * inode reference counts. These requests are processed after the
278 * directory page with the corresponding zero'ed entries has been
279 * written. The pd_diraddhd list maintains the list of diradd requests
280 * which cannot be committed until their corresponding inode has been
281 * written to disk. Because a directory may have many new entries
282 * being created, several lists are maintained hashed on bits of the
283 * offset of the entry into the directory page to keep the lists from
284 * getting too long. Once a new directory entry has been cleared to
285 * be written, it is moved to the pd_pendinghd list. After the new
286 * entry has been written to disk it is removed from the pd_pendinghd
287 * list, any removed operations are done, and the dependency structure
291 #define DIRADDHASH(offset) (((offset) >> 2) % DAHASHSZ)
293 struct worklist pd_list; /* page buffer */
294 # define pd_state pd_list.wk_state /* check for multiple I/O starts */
295 LIST_ENTRY(pagedep) pd_hash; /* hashed lookup */
296 ino_t pd_ino; /* associated file */
297 ufs_lbn_t pd_lbn; /* block within file */
298 struct newdirblk *pd_newdirblk; /* associated newdirblk if NEWBLOCK */
299 struct dirremhd pd_dirremhd; /* dirrem's waiting for page */
300 struct diraddhd pd_diraddhd[DAHASHSZ]; /* diradd dir entry updates */
301 struct diraddhd pd_pendinghd; /* directory entries awaiting write */
302 struct jmvrefhd pd_jmvrefhd; /* Dependent journal writes. */
306 * The "inodedep" structure tracks the set of dependencies associated
307 * with an inode. One task that it must manage is delayed operations
308 * (i.e., work requests that must be held until the inodedep's associated
309 * inode has been written to disk). Getting an inode from its incore
310 * state to the disk requires two steps to be taken by the filesystem
311 * in this order: first the inode must be copied to its disk buffer by
312 * the VOP_UPDATE operation; second the inode's buffer must be written
313 * to disk. To ensure that both operations have happened in the required
314 * order, the inodedep maintains two lists. Delayed operations are
315 * placed on the id_inowait list. When the VOP_UPDATE is done, all
316 * operations on the id_inowait list are moved to the id_bufwait list.
317 * When the buffer is written, the items on the id_bufwait list can be
318 * safely moved to the work queue to be processed. A second task of the
319 * inodedep structure is to track the status of block allocation within
320 * the inode. Each block that is allocated is represented by an
321 * "allocdirect" structure (see below). It is linked onto the id_newinoupdt
322 * list until both its contents and its allocation in the cylinder
323 * group map have been written to disk. Once these dependencies have been
324 * satisfied, it is removed from the id_newinoupdt list and any followup
325 * actions such as releasing the previous block or fragment are placed
326 * on the id_inowait list. When an inode is updated (a VOP_UPDATE is
327 * done), the "inodedep" structure is linked onto the buffer through
328 * its worklist. Thus, it will be notified when the buffer is about
329 * to be written and when it is done. At the update time, all the
330 * elements on the id_newinoupdt list are moved to the id_inoupdt list
331 * since those changes are now relevant to the copy of the inode in the
332 * buffer. Also at update time, the tasks on the id_inowait list are
333 * moved to the id_bufwait list so that they will be executed when
334 * the updated inode has been written to disk. When the buffer containing
335 * the inode is written to disk, any updates listed on the id_inoupdt
336 * list are rolled back as they are not yet safe. Following the write,
337 * the changes are once again rolled forward and any actions on the
338 * id_bufwait list are processed (since those actions are now safe).
339 * The entries on the id_inoupdt and id_newinoupdt lists must be kept
340 * sorted by logical block number to speed the calculation of the size
341 * of the rolled back inode (see explanation in initiate_write_inodeblock).
342 * When a directory entry is created, it is represented by a diradd.
343 * The diradd is added to the id_inowait list as it cannot be safely
344 * written to disk until the inode that it represents is on disk. After
345 * the inode is written, the id_bufwait list is processed and the diradd
346 * entries are moved to the id_pendinghd list where they remain until
347 * the directory block containing the name has been written to disk.
348 * The purpose of keeping the entries on the id_pendinghd list is so that
349 * the softdep_fsync function can find and push the inode's directory
350 * name(s) as part of the fsync operation for that file.
353 struct worklist id_list; /* buffer holding inode block */
354 # define id_state id_list.wk_state /* inode dependency state */
355 LIST_ENTRY(inodedep) id_hash; /* hashed lookup */
356 TAILQ_ENTRY(inodedep) id_unlinked; /* Unlinked but ref'd inodes */
357 struct fs *id_fs; /* associated filesystem */
358 ino_t id_ino; /* dependent inode */
359 nlink_t id_nlinkdelta; /* saved effective link count */
360 nlink_t id_savednlink; /* Link saved during rollback */
361 LIST_ENTRY(inodedep) id_deps; /* bmsafemap's list of inodedep's */
362 struct bmsafemap *id_bmsafemap; /* related bmsafemap (if pending) */
363 struct diradd *id_mkdiradd; /* diradd for a mkdir. */
364 struct inoreflst id_inoreflst; /* Inode reference adjustments. */
365 long id_savedextsize; /* ext size saved during rollback */
366 off_t id_savedsize; /* file size saved during rollback */
367 struct dirremhd id_dirremhd; /* Removals pending. */
368 struct workhead id_pendinghd; /* entries awaiting directory write */
369 struct workhead id_bufwait; /* operations after inode written */
370 struct workhead id_inowait; /* operations waiting inode update */
371 struct allocdirectlst id_inoupdt; /* updates before inode written */
372 struct allocdirectlst id_newinoupdt; /* updates when inode written */
373 struct allocdirectlst id_extupdt; /* extdata updates pre-inode write */
374 struct allocdirectlst id_newextupdt; /* extdata updates at ino write */
375 struct freeblklst id_freeblklst; /* List of partial truncates. */
377 struct ufs1_dinode *idu_savedino1; /* saved ufs1_dinode contents */
378 struct ufs2_dinode *idu_savedino2; /* saved ufs2_dinode contents */
381 #define id_savedino1 id_un.idu_savedino1
382 #define id_savedino2 id_un.idu_savedino2
385 * A "bmsafemap" structure maintains a list of dependency structures
386 * that depend on the update of a particular cylinder group map.
387 * It has lists for newblks, allocdirects, allocindirs, and inodedeps.
388 * It is attached to the buffer of a cylinder group block when any of
389 * these things are allocated from the cylinder group. It is freed
390 * after the cylinder group map is written and the state of its
391 * dependencies are updated with DEPCOMPLETE to indicate that it has
395 struct worklist sm_list; /* cylgrp buffer */
396 # define sm_state sm_list.wk_state
397 LIST_ENTRY(bmsafemap) sm_hash; /* Hash links. */
398 LIST_ENTRY(bmsafemap) sm_next; /* Mount list. */
400 struct buf *sm_buf; /* associated buffer */
401 struct allocdirecthd sm_allocdirecthd; /* allocdirect deps */
402 struct allocdirecthd sm_allocdirectwr; /* writing allocdirect deps */
403 struct allocindirhd sm_allocindirhd; /* allocindir deps */
404 struct allocindirhd sm_allocindirwr; /* writing allocindir deps */
405 struct inodedephd sm_inodedephd; /* inodedep deps */
406 struct inodedephd sm_inodedepwr; /* writing inodedep deps */
407 struct newblkhd sm_newblkhd; /* newblk deps */
408 struct newblkhd sm_newblkwr; /* writing newblk deps */
409 struct jaddrefhd sm_jaddrefhd; /* Pending inode allocations. */
410 struct jnewblkhd sm_jnewblkhd; /* Pending block allocations. */
411 struct workhead sm_freehd; /* Freedep deps. */
412 struct workhead sm_freewr; /* Written freedeps. */
416 * A "newblk" structure is attached to a bmsafemap structure when a block
417 * or fragment is allocated from a cylinder group. Its state is set to
418 * DEPCOMPLETE when its cylinder group map is written. It is converted to
419 * an allocdirect or allocindir allocation once the allocator calls the
420 * appropriate setup function. It will initially be linked onto a bmsafemap
421 * list. Once converted it can be linked onto the lists described for
422 * allocdirect or allocindir as described below.
425 struct worklist nb_list; /* See comment above. */
426 # define nb_state nb_list.wk_state
427 LIST_ENTRY(newblk) nb_hash; /* Hashed lookup. */
428 LIST_ENTRY(newblk) nb_deps; /* Bmsafemap's list of newblks. */
429 struct jnewblk *nb_jnewblk; /* New block journal entry. */
430 struct bmsafemap *nb_bmsafemap;/* Cylgrp dep (if pending). */
431 struct freefrag *nb_freefrag; /* Fragment to be freed (if any). */
432 struct indirdephd nb_indirdeps; /* Children indirect blocks. */
433 struct workhead nb_newdirblk; /* Dir block to notify when written. */
434 struct workhead nb_jwork; /* Journal work pending. */
435 ufs2_daddr_t nb_newblkno; /* New value of block pointer. */
439 * An "allocdirect" structure is attached to an "inodedep" when a new block
440 * or fragment is allocated and pointed to by the inode described by
441 * "inodedep". The worklist is linked to the buffer that holds the block.
442 * When the block is first allocated, it is linked to the bmsafemap
443 * structure associated with the buffer holding the cylinder group map
444 * from which it was allocated. When the cylinder group map is written
445 * to disk, ad_state has the DEPCOMPLETE flag set. When the block itself
446 * is written, the COMPLETE flag is set. Once both the cylinder group map
447 * and the data itself have been written, it is safe to write the inode
448 * that claims the block. If there was a previous fragment that had been
449 * allocated before the file was increased in size, the old fragment may
450 * be freed once the inode claiming the new block is written to disk.
451 * This ad_fragfree request is attached to the id_inowait list of the
452 * associated inodedep (pointed to by ad_inodedep) for processing after
453 * the inode is written. When a block is allocated to a directory, an
454 * fsync of a file whose name is within that block must ensure not only
455 * that the block containing the file name has been written, but also
456 * that the on-disk inode references that block. When a new directory
457 * block is created, we allocate a newdirblk structure which is linked
458 * to the associated allocdirect (on its ad_newdirblk list). When the
459 * allocdirect has been satisfied, the newdirblk structure is moved to
460 * the inodedep id_bufwait list of its directory to await the inode
461 * being written. When the inode is written, the directory entries are
462 * fully committed and can be deleted from their pagedep->id_pendinghd
463 * and inodedep->id_pendinghd lists.
466 struct newblk ad_block; /* Common block logic */
467 # define ad_list ad_block.nb_list /* block pointer worklist */
468 # define ad_state ad_list.wk_state /* block pointer state */
469 TAILQ_ENTRY(allocdirect) ad_next; /* inodedep's list of allocdirect's */
470 struct inodedep *ad_inodedep; /* associated inodedep */
471 ufs2_daddr_t ad_oldblkno; /* old value of block pointer */
472 int ad_offset; /* Pointer offset in parent. */
473 long ad_newsize; /* size of new block */
474 long ad_oldsize; /* size of old block */
476 #define ad_newblkno ad_block.nb_newblkno
477 #define ad_freefrag ad_block.nb_freefrag
478 #define ad_newdirblk ad_block.nb_newdirblk
481 * A single "indirdep" structure manages all allocation dependencies for
482 * pointers in an indirect block. The up-to-date state of the indirect
483 * block is stored in ir_savedata. The set of pointers that may be safely
484 * written to the disk is stored in ir_savebp. The state field is used
485 * only to track whether the buffer is currently being written (in which
486 * case it is not safe to update ir_savebp). Ir_deplisthd contains the
487 * list of allocindir structures, one for each block that needs to be
488 * written to disk. Once the block and its bitmap allocation have been
489 * written the safecopy can be updated to reflect the allocation and the
490 * allocindir structure freed. If ir_state indicates that an I/O on the
491 * indirect block is in progress when ir_savebp is to be updated, the
492 * update is deferred by placing the allocindir on the ir_donehd list.
493 * When the I/O on the indirect block completes, the entries on the
494 * ir_donehd list are processed by updating their corresponding ir_savebp
495 * pointers and then freeing the allocindir structure.
498 struct worklist ir_list; /* buffer holding indirect block */
499 # define ir_state ir_list.wk_state /* indirect block pointer state */
500 LIST_ENTRY(indirdep) ir_next; /* alloc{direct,indir} list */
501 TAILQ_HEAD(, freework) ir_trunc; /* List of truncations. */
502 caddr_t ir_saveddata; /* buffer cache contents */
503 struct buf *ir_savebp; /* buffer holding safe copy */
504 struct buf *ir_bp; /* buffer holding live copy */
505 struct allocindirhd ir_completehd; /* waiting for indirdep complete */
506 struct allocindirhd ir_writehd; /* Waiting for the pointer write. */
507 struct allocindirhd ir_donehd; /* done waiting to update safecopy */
508 struct allocindirhd ir_deplisthd; /* allocindir deps for this block */
509 struct freeblks *ir_freeblks; /* Freeblks that frees this indir. */
513 * An "allocindir" structure is attached to an "indirdep" when a new block
514 * is allocated and pointed to by the indirect block described by the
515 * "indirdep". The worklist is linked to the buffer that holds the new block.
516 * When the block is first allocated, it is linked to the bmsafemap
517 * structure associated with the buffer holding the cylinder group map
518 * from which it was allocated. When the cylinder group map is written
519 * to disk, ai_state has the DEPCOMPLETE flag set. When the block itself
520 * is written, the COMPLETE flag is set. Once both the cylinder group map
521 * and the data itself have been written, it is safe to write the entry in
522 * the indirect block that claims the block; the "allocindir" dependency
523 * can then be freed as it is no longer applicable.
526 struct newblk ai_block; /* Common block area */
527 # define ai_state ai_block.nb_list.wk_state /* indirect pointer state */
528 LIST_ENTRY(allocindir) ai_next; /* indirdep's list of allocindir's */
529 struct indirdep *ai_indirdep; /* address of associated indirdep */
530 ufs2_daddr_t ai_oldblkno; /* old value of block pointer */
531 ufs_lbn_t ai_lbn; /* Logical block number. */
532 int ai_offset; /* Pointer offset in parent. */
534 #define ai_newblkno ai_block.nb_newblkno
535 #define ai_freefrag ai_block.nb_freefrag
536 #define ai_newdirblk ai_block.nb_newdirblk
539 * The allblk union is used to size the newblk structure on allocation so
540 * that it may be any one of three types.
543 struct allocindir ab_allocindir;
544 struct allocdirect ab_allocdirect;
545 struct newblk ab_newblk;
549 * A "freefrag" structure is attached to an "inodedep" when a previously
550 * allocated fragment is replaced with a larger fragment, rather than extended.
551 * The "freefrag" structure is constructed and attached when the replacement
552 * block is first allocated. It is processed after the inode claiming the
553 * bigger block that replaces it has been written to disk.
556 struct worklist ff_list; /* id_inowait or delayed worklist */
557 # define ff_state ff_list.wk_state
558 struct worklist *ff_jdep; /* Associated journal entry. */
559 struct workhead ff_jwork; /* Journal work pending. */
560 ufs2_daddr_t ff_blkno; /* fragment physical block number */
561 long ff_fragsize; /* size of fragment being deleted */
562 ino_t ff_inum; /* owning inode number */
563 enum vtype ff_vtype; /* owning inode's file type */
564 int ff_key; /* trim key when deleted */
568 * A "freeblks" structure is attached to an "inodedep" when the
569 * corresponding file's length is reduced to zero. It records all
570 * the information needed to free the blocks of a file after its
571 * zero'ed inode has been written to disk. The actual work is done
572 * by child freework structures which are responsible for individual
573 * inode pointers while freeblks is responsible for retiring the
574 * entire operation when it is complete and holding common members.
577 struct worklist fb_list; /* id_inowait or delayed worklist */
578 # define fb_state fb_list.wk_state /* inode and dirty block state */
579 TAILQ_ENTRY(freeblks) fb_next; /* List of inode truncates. */
580 struct jblkdephd fb_jblkdephd; /* Journal entries pending */
581 struct workhead fb_freeworkhd; /* Work items pending */
582 struct workhead fb_jwork; /* Journal work pending */
583 struct vnode *fb_devvp; /* filesystem device vnode */
585 struct dquot *fb_quota[MAXQUOTAS]; /* quotas to be adjusted */
587 uint64_t fb_modrev; /* Inode revision at start of trunc. */
588 off_t fb_len; /* Length we're truncating to. */
589 ufs2_daddr_t fb_chkcnt; /* Blocks released. */
590 ino_t fb_inum; /* inode owner of blocks */
591 enum vtype fb_vtype; /* inode owner's file type */
592 uid_t fb_uid; /* uid of previous owner of blocks */
593 int fb_ref; /* Children outstanding. */
594 int fb_cgwait; /* cg writes outstanding. */
598 * A "freework" structure handles the release of a tree of blocks or a single
599 * block. Each indirect block in a tree is allocated its own freework
600 * structure so that the indirect block may be freed only when all of its
601 * children are freed. In this way we enforce the rule that an allocated
602 * block must have a valid path to a root that is journaled. Each child
603 * block acquires a reference and when the ref hits zero the parent ref
604 * is decremented. If there is no parent the freeblks ref is decremented.
607 struct worklist fw_list; /* Delayed worklist. */
608 # define fw_state fw_list.wk_state
609 LIST_ENTRY(freework) fw_segs; /* Seg list. */
610 TAILQ_ENTRY(freework) fw_next; /* Hash/Trunc list. */
611 struct jnewblk *fw_jnewblk; /* Journal entry to cancel. */
612 struct freeblks *fw_freeblks; /* Root of operation. */
613 struct freework *fw_parent; /* Parent indirect. */
614 struct indirdep *fw_indir; /* indirect block. */
615 ufs2_daddr_t fw_blkno; /* Our block #. */
616 ufs_lbn_t fw_lbn; /* Original lbn before free. */
617 uint16_t fw_frags; /* Number of frags. */
618 uint16_t fw_ref; /* Number of children out. */
619 uint16_t fw_off; /* Current working position. */
620 uint16_t fw_start; /* Start of partial truncate. */
624 * A "freedep" structure is allocated to track the completion of a bitmap
625 * write for a freework. One freedep may cover many freed blocks so long
626 * as they reside in the same cylinder group. When the cg is written
627 * the freedep decrements the ref on the freework which may permit it
628 * to be freed as well.
631 struct worklist fd_list; /* Delayed worklist. */
632 struct freework *fd_freework; /* Parent freework. */
636 * A "freefile" structure is attached to an inode when its
637 * link count is reduced to zero. It marks the inode as free in
638 * the cylinder group map after the zero'ed inode has been written
639 * to disk and any associated blocks and fragments have been freed.
642 struct worklist fx_list; /* id_inowait or delayed worklist */
643 mode_t fx_mode; /* mode of inode */
644 ino_t fx_oldinum; /* inum of the unlinked file */
645 struct vnode *fx_devvp; /* filesystem device vnode */
646 struct workhead fx_jwork; /* journal work pending. */
650 * A "diradd" structure is linked to an "inodedep" id_inowait list when a
651 * new directory entry is allocated that references the inode described
652 * by "inodedep". When the inode itself is written (either the initial
653 * allocation for new inodes or with the increased link count for
654 * existing inodes), the COMPLETE flag is set in da_state. If the entry
655 * is for a newly allocated inode, the "inodedep" structure is associated
656 * with a bmsafemap which prevents the inode from being written to disk
657 * until the cylinder group has been updated. Thus the da_state COMPLETE
658 * flag cannot be set until the inode bitmap dependency has been removed.
659 * When creating a new file, it is safe to write the directory entry that
660 * claims the inode once the referenced inode has been written. Since
661 * writing the inode clears the bitmap dependencies, the DEPCOMPLETE flag
662 * in the diradd can be set unconditionally when creating a file. When
663 * creating a directory, there are two additional dependencies described by
664 * mkdir structures (see their description below). When these dependencies
665 * are resolved the DEPCOMPLETE flag is set in the diradd structure.
666 * If there are multiple links created to the same inode, there will be
667 * a separate diradd structure created for each link. The diradd is
668 * linked onto the pg_diraddhd list of the pagedep for the directory
669 * page that contains the entry. When a directory page is written,
670 * the pg_diraddhd list is traversed to rollback any entries that are
671 * not yet ready to be written to disk. If a directory entry is being
672 * changed (by rename) rather than added, the DIRCHG flag is set and
673 * the da_previous entry points to the entry that will be "removed"
674 * once the new entry has been committed. During rollback, entries
675 * with da_previous are replaced with the previous inode number rather
678 * The overlaying of da_pagedep and da_previous is done to keep the
679 * structure down. If a da_previous entry is present, the pointer to its
680 * pagedep is available in the associated dirrem entry. If the DIRCHG flag
681 * is set, the da_previous entry is valid; if not set the da_pagedep entry
682 * is valid. The DIRCHG flag never changes; it is set when the structure
683 * is created if appropriate and is never cleared.
686 struct worklist da_list; /* id_inowait or id_pendinghd list */
687 # define da_state da_list.wk_state /* state of the new directory entry */
688 LIST_ENTRY(diradd) da_pdlist; /* pagedep holding directory block */
689 doff_t da_offset; /* offset of new dir entry in dir blk */
690 ino_t da_newinum; /* inode number for the new dir entry */
692 struct dirrem *dau_previous; /* entry being replaced in dir change */
693 struct pagedep *dau_pagedep; /* pagedep dependency for addition */
695 struct workhead da_jwork; /* Journal work awaiting completion. */
697 #define da_previous da_un.dau_previous
698 #define da_pagedep da_un.dau_pagedep
701 * Two "mkdir" structures are needed to track the additional dependencies
702 * associated with creating a new directory entry. Normally a directory
703 * addition can be committed as soon as the newly referenced inode has been
704 * written to disk with its increased link count. When a directory is
705 * created there are two additional dependencies: writing the directory
706 * data block containing the "." and ".." entries (MKDIR_BODY) and writing
707 * the parent inode with the increased link count for ".." (MKDIR_PARENT).
708 * These additional dependencies are tracked by two mkdir structures that
709 * reference the associated "diradd" structure. When they have completed,
710 * they set the DEPCOMPLETE flag on the diradd so that it knows that its
711 * extra dependencies have been completed. The md_state field is used only
712 * to identify which type of dependency the mkdir structure is tracking.
713 * It is not used in the mainline code for any purpose other than consistency
714 * checking. All the mkdir structures in the system are linked together on
715 * a list. This list is needed so that a diradd can find its associated
716 * mkdir structures and deallocate them if it is prematurely freed (as for
717 * example if a mkdir is immediately followed by a rmdir of the same directory).
718 * Here, the free of the diradd must traverse the list to find the associated
719 * mkdir structures that reference it. The deletion would be faster if the
720 * diradd structure were simply augmented to have two pointers that referenced
721 * the associated mkdir's. However, this would increase the size of the diradd
722 * structure to speed a very infrequent operation.
725 struct worklist md_list; /* id_inowait or buffer holding dir */
726 # define md_state md_list.wk_state /* type: MKDIR_PARENT or MKDIR_BODY */
727 struct diradd *md_diradd; /* associated diradd */
728 struct jaddref *md_jaddref; /* dependent jaddref. */
729 struct buf *md_buf; /* MKDIR_BODY: buffer holding dir */
730 LIST_ENTRY(mkdir) md_mkdirs; /* list of all mkdirs */
734 * A "dirrem" structure describes an operation to decrement the link
735 * count on an inode. The dirrem structure is attached to the pg_dirremhd
736 * list of the pagedep for the directory page that contains the entry.
737 * It is processed after the directory page with the deleted entry has
738 * been written to disk.
741 struct worklist dm_list; /* delayed worklist */
742 # define dm_state dm_list.wk_state /* state of the old directory entry */
743 LIST_ENTRY(dirrem) dm_next; /* pagedep's list of dirrem's */
744 LIST_ENTRY(dirrem) dm_inonext; /* inodedep's list of dirrem's */
745 struct jremrefhd dm_jremrefhd; /* Pending remove reference deps. */
746 ino_t dm_oldinum; /* inum of the removed dir entry */
747 doff_t dm_offset; /* offset of removed dir entry in blk */
749 struct pagedep *dmu_pagedep; /* pagedep dependency for remove */
750 ino_t dmu_dirinum; /* parent inode number (for rmdir) */
752 struct workhead dm_jwork; /* Journal work awaiting completion. */
754 #define dm_pagedep dm_un.dmu_pagedep
755 #define dm_dirinum dm_un.dmu_dirinum
758 * A "newdirblk" structure tracks the progress of a newly allocated
759 * directory block from its creation until it is claimed by its on-disk
760 * inode. When a block is allocated to a directory, an fsync of a file
761 * whose name is within that block must ensure not only that the block
762 * containing the file name has been written, but also that the on-disk
763 * inode references that block. When a new directory block is created,
764 * we allocate a newdirblk structure which is linked to the associated
765 * allocdirect (on its ad_newdirblk list). When the allocdirect has been
766 * satisfied, the newdirblk structure is moved to the inodedep id_bufwait
767 * list of its directory to await the inode being written. When the inode
768 * is written, the directory entries are fully committed and can be
769 * deleted from their pagedep->id_pendinghd and inodedep->id_pendinghd
770 * lists. Note that we could track directory blocks allocated to indirect
771 * blocks using a similar scheme with the allocindir structures. Rather
772 * than adding this level of complexity, we simply write those newly
773 * allocated indirect blocks synchronously as such allocations are rare.
774 * In the case of a new directory the . and .. links are tracked with
775 * a mkdir rather than a pagedep. In this case we track the mkdir
776 * so it can be released when it is written. A workhead is used
777 * to simplify canceling a mkdir that is removed by a subsequent dirrem.
780 struct worklist db_list; /* id_inowait or pg_newdirblk */
781 # define db_state db_list.wk_state
782 struct pagedep *db_pagedep; /* associated pagedep */
783 struct workhead db_mkdir;
787 * The inoref structure holds the elements common to jaddref and jremref
788 * so they may easily be queued in-order on the inodedep.
791 struct worklist if_list; /* Journal pending or jseg entries. */
792 # define if_state if_list.wk_state
793 TAILQ_ENTRY(inoref) if_deps; /* Links for inodedep. */
794 struct jsegdep *if_jsegdep; /* Will track our journal record. */
795 off_t if_diroff; /* Directory offset. */
796 ino_t if_ino; /* Inode number. */
797 ino_t if_parent; /* Parent inode number. */
798 nlink_t if_nlink; /* nlink before addition. */
799 uint16_t if_mode; /* File mode, needed for IFMT. */
803 * A "jaddref" structure tracks a new reference (link count) on an inode
804 * and prevents the link count increase and bitmap allocation until a
805 * journal entry can be written. Once the journal entry is written,
806 * the inode is put on the pendinghd of the bmsafemap and a diradd or
807 * mkdir entry is placed on the bufwait list of the inode. The DEPCOMPLETE
808 * flag is used to indicate that all of the required information for writing
809 * the journal entry is present. MKDIR_BODY and MKDIR_PARENT are used to
810 * differentiate . and .. links from regular file names. NEWBLOCK indicates
811 * a bitmap is still pending. If a new reference is canceled by a delete
812 * prior to writing the journal the jaddref write is canceled and the
813 * structure persists to prevent any disk-visible changes until it is
814 * ultimately released when the file is freed or the link is dropped again.
817 struct inoref ja_ref; /* see inoref above. */
818 # define ja_list ja_ref.if_list /* Jrnl pending, id_inowait, dm_jwork.*/
819 # define ja_state ja_ref.if_list.wk_state
820 LIST_ENTRY(jaddref) ja_bmdeps; /* Links for bmsafemap. */
822 struct diradd *jau_diradd; /* Pending diradd. */
823 struct mkdir *jau_mkdir; /* MKDIR_{PARENT,BODY} */
826 #define ja_diradd ja_un.jau_diradd
827 #define ja_mkdir ja_un.jau_mkdir
828 #define ja_diroff ja_ref.if_diroff
829 #define ja_ino ja_ref.if_ino
830 #define ja_parent ja_ref.if_parent
831 #define ja_mode ja_ref.if_mode
834 * A "jremref" structure tracks a removed reference (unlink) on an
835 * inode and prevents the directory remove from proceeding until the
836 * journal entry is written. Once the journal has been written the remove
837 * may proceed as normal.
840 struct inoref jr_ref; /* see inoref above. */
841 # define jr_list jr_ref.if_list /* Linked to softdep_journal_pending. */
842 # define jr_state jr_ref.if_list.wk_state
843 LIST_ENTRY(jremref) jr_deps; /* Links for dirrem. */
844 struct dirrem *jr_dirrem; /* Back pointer to dirrem. */
848 * A "jmvref" structure tracks a name relocations within the same
849 * directory block that occur as a result of directory compaction.
850 * It prevents the updated directory entry from being written to disk
851 * until the journal entry is written. Once the journal has been
852 * written the compacted directory may be written to disk.
855 struct worklist jm_list; /* Linked to softdep_journal_pending. */
856 LIST_ENTRY(jmvref) jm_deps; /* Jmvref on pagedep. */
857 struct pagedep *jm_pagedep; /* Back pointer to pagedep. */
858 ino_t jm_parent; /* Containing directory inode number. */
859 ino_t jm_ino; /* Inode number of our entry. */
860 off_t jm_oldoff; /* Our old offset in directory. */
861 off_t jm_newoff; /* Our new offset in directory. */
865 * A "jnewblk" structure tracks a newly allocated block or fragment and
866 * prevents the direct or indirect block pointer as well as the cg bitmap
867 * from being written until it is logged. After it is logged the jsegdep
868 * is attached to the allocdirect or allocindir until the operation is
869 * completed or reverted. If the operation is reverted prior to the journal
870 * write the jnewblk structure is maintained to prevent the bitmaps from
871 * reaching the disk. Ultimately the jnewblk structure will be passed
872 * to the free routine as the in memory cg is modified back to the free
873 * state at which time it can be released. It may be held on any of the
874 * fx_jwork, fw_jwork, fb_jwork, ff_jwork, nb_jwork, or ir_jwork lists.
877 struct worklist jn_list; /* See lists above. */
878 # define jn_state jn_list.wk_state
879 struct jsegdep *jn_jsegdep; /* Will track our journal record. */
880 LIST_ENTRY(jnewblk) jn_deps; /* Jnewblks on sm_jnewblkhd. */
881 struct worklist *jn_dep; /* Dependency to ref completed seg. */
882 ufs_lbn_t jn_lbn; /* Lbn to which allocated. */
883 ufs2_daddr_t jn_blkno; /* Blkno allocated */
884 ino_t jn_ino; /* Ino to which allocated. */
885 int jn_oldfrags; /* Previous fragments when extended. */
886 int jn_frags; /* Number of fragments. */
890 * A "jblkdep" structure tracks jfreeblk and jtrunc records attached to a
891 * freeblks structure.
894 struct worklist jb_list; /* For softdep journal pending. */
895 struct jsegdep *jb_jsegdep; /* Reference to the jseg. */
896 struct freeblks *jb_freeblks; /* Back pointer to freeblks. */
897 LIST_ENTRY(jblkdep) jb_deps; /* Dep list on freeblks. */
902 * A "jfreeblk" structure tracks the journal write for freeing a block
903 * or tree of blocks. The block pointer must not be cleared in the inode
904 * or indirect prior to the jfreeblk being written to the journal.
907 struct jblkdep jf_dep; /* freeblks linkage. */
908 ufs_lbn_t jf_lbn; /* Lbn from which blocks freed. */
909 ufs2_daddr_t jf_blkno; /* Blkno being freed. */
910 ino_t jf_ino; /* Ino from which blocks freed. */
911 int jf_frags; /* Number of frags being freed. */
915 * A "jfreefrag" tracks the freeing of a single block when a fragment is
916 * extended or an indirect page is replaced. It is not part of a larger
917 * freeblks operation.
920 struct worklist fr_list; /* Linked to softdep_journal_pending. */
921 # define fr_state fr_list.wk_state
922 struct jsegdep *fr_jsegdep; /* Will track our journal record. */
923 struct freefrag *fr_freefrag; /* Back pointer to freefrag. */
924 ufs_lbn_t fr_lbn; /* Lbn from which frag freed. */
925 ufs2_daddr_t fr_blkno; /* Blkno being freed. */
926 ino_t fr_ino; /* Ino from which frag freed. */
927 int fr_frags; /* Size of frag being freed. */
931 * A "jtrunc" journals the intent to truncate an inode's data or extent area.
934 struct jblkdep jt_dep; /* freeblks linkage. */
935 off_t jt_size; /* Final file size. */
936 int jt_extsize; /* Final extent size. */
937 ino_t jt_ino; /* Ino being truncated. */
941 * A "jfsync" journals the completion of an fsync which invalidates earlier
942 * jtrunc records in the journal.
945 struct worklist jfs_list; /* For softdep journal pending. */
946 off_t jfs_size; /* Sync file size. */
947 int jfs_extsize; /* Sync extent size. */
948 ino_t jfs_ino; /* ino being synced. */
952 * A "jsegdep" structure tracks a single reference to a written journal
953 * segment so the journal space can be reclaimed when all dependencies
954 * have been written. It can hang off of id_inowait, dm_jwork, da_jwork,
955 * nb_jwork, ff_jwork, or fb_jwork lists.
958 struct worklist jd_list; /* See above for lists. */
959 # define jd_state jd_list.wk_state
960 struct jseg *jd_seg; /* Our journal record. */
964 * A "jseg" structure contains all of the journal records written in a
965 * single disk write. The jaddref and jremref structures are linked into
966 * js_entries so thay may be completed when the write completes. The
967 * js_entries also include the write dependency structures: jmvref,
968 * jnewblk, jfreeblk, jfreefrag, and jtrunc. The js_refs field counts
969 * the number of entries on the js_entries list. Thus there is a single
970 * jseg entry to describe each journal write.
973 struct worklist js_list; /* b_deps link for journal */
974 # define js_state js_list.wk_state
975 struct workhead js_entries; /* Entries awaiting write */
976 LIST_HEAD(, freework) js_indirs;/* List of indirects in this seg. */
977 TAILQ_ENTRY(jseg) js_next; /* List of all unfinished segments. */
978 struct jblocks *js_jblocks; /* Back pointer to block/seg list */
979 struct buf *js_buf; /* Buffer while unwritten */
980 uint64_t js_seq; /* Journal record sequence number. */
981 uint64_t js_oldseq; /* Oldest valid sequence number. */
982 int js_size; /* Size of journal record in bytes. */
983 int js_cnt; /* Total items allocated. */
984 int js_refs; /* Count of js_entries items. */
988 * A 'sbdep' structure tracks the head of the free inode list and
989 * superblock writes. This makes sure the superblock is always pointing at
990 * the first possible unlinked inode for the suj recovery process. If a
991 * block write completes and we discover a new head is available the buf
992 * is dirtied and the dep is kept. See the description of the UNLINK*
993 * flags above for more details.
996 struct worklist sb_list; /* b_dep linkage */
997 struct fs *sb_fs; /* Filesystem pointer within buf. */
998 struct ufsmount *sb_ump; /* Our mount structure */
1002 * Private journaling structures.
1005 struct jseglst jb_segs; /* TAILQ of current segments. */
1006 struct jseg *jb_writeseg; /* Next write to complete. */
1007 struct jseg *jb_oldestseg; /* Oldest segment with valid entries. */
1008 struct jextent *jb_extent; /* Extent array. */
1009 uint64_t jb_nextseq; /* Next sequence number. */
1010 uint64_t jb_oldestwrseq; /* Oldest written sequence number. */
1011 uint8_t jb_needseg; /* Need a forced segment. */
1012 uint8_t jb_suspended; /* Did journal suspend writes? */
1013 int jb_avail; /* Available extents. */
1014 int jb_used; /* Last used extent. */
1015 int jb_head; /* Allocator head. */
1016 int jb_off; /* Allocator extent offset. */
1017 int jb_blocks; /* Total disk blocks covered. */
1018 int jb_free; /* Total disk blocks free. */
1019 int jb_min; /* Minimum free space. */
1020 int jb_low; /* Low on space. */
1021 int jb_age; /* Insertion time of oldest rec. */
1025 ufs2_daddr_t je_daddr; /* Disk block address. */
1026 int je_blocks; /* Disk block count. */
1030 * Hash table declarations.
1032 LIST_HEAD(mkdirlist, mkdir);
1033 LIST_HEAD(pagedep_hashhead, pagedep);
1034 LIST_HEAD(inodedep_hashhead, inodedep);
1035 LIST_HEAD(newblk_hashhead, newblk);
1036 LIST_HEAD(bmsafemap_hashhead, bmsafemap);
1037 TAILQ_HEAD(indir_hashhead, freework);
1040 * Per-filesystem soft dependency data.
1041 * Allocated at mount and freed at unmount.
1043 struct mount_softdeps {
1044 struct rwlock sd_fslock; /* softdep lock */
1045 struct workhead sd_workitem_pending; /* softdep work queue */
1046 struct worklist *sd_worklist_tail; /* Tail pointer for above */
1047 struct workhead sd_journal_pending; /* journal work queue */
1048 struct worklist *sd_journal_tail; /* Tail pointer for above */
1049 struct jblocks *sd_jblocks; /* Journal block information */
1050 struct inodedeplst sd_unlinked; /* Unlinked inodes */
1051 struct bmsafemaphd sd_dirtycg; /* Dirty CGs */
1052 struct mkdirlist sd_mkdirlisthd; /* Track mkdirs */
1053 struct pagedep_hashhead *sd_pdhash; /* pagedep hash table */
1054 u_long sd_pdhashsize; /* pagedep hash table size-1 */
1055 long sd_pdnextclean; /* next hash bucket to clean */
1056 struct inodedep_hashhead *sd_idhash; /* inodedep hash table */
1057 u_long sd_idhashsize; /* inodedep hash table size-1 */
1058 long sd_idnextclean; /* next hash bucket to clean */
1059 struct newblk_hashhead *sd_newblkhash; /* newblk hash table */
1060 u_long sd_newblkhashsize; /* newblk hash table size-1 */
1061 struct bmsafemap_hashhead *sd_bmhash; /* bmsafemap hash table */
1062 u_long sd_bmhashsize; /* bmsafemap hash table size-1*/
1063 struct indir_hashhead *sd_indirhash; /* indir hash table */
1064 u_long sd_indirhashsize; /* indir hash table size-1 */
1065 int sd_on_journal; /* Items on the journal list */
1066 int sd_on_worklist; /* Items on the worklist */
1067 int sd_deps; /* Total dependency count */
1068 int sd_accdeps; /* accumulated dep count */
1069 int sd_req; /* Wakeup when deps hits 0. */
1070 int sd_flags; /* comm with flushing thread */
1071 int sd_cleanups; /* Calls to cleanup */
1072 struct thread *sd_flushtd; /* thread handling flushing */
1073 TAILQ_ENTRY(mount_softdeps) sd_next; /* List of softdep filesystem */
1074 struct ufsmount *sd_ump; /* our ufsmount structure */
1075 u_long sd_curdeps[D_LAST + 1]; /* count of current deps */
1078 * Flags for communicating with the syncer thread.
1080 #define FLUSH_EXIT 0x0001 /* time to exit */
1081 #define FLUSH_CLEANUP 0x0002 /* need to clear out softdep structures */
1082 #define FLUSH_STARTING 0x0004 /* flush thread not yet started */
1083 #define FLUSH_RC_ACTIVE 0x0008 /* a thread is flushing the mount point */
1086 * Keep the old names from when these were in the ufsmount structure.
1088 #define softdep_workitem_pending um_softdep->sd_workitem_pending
1089 #define softdep_worklist_tail um_softdep->sd_worklist_tail
1090 #define softdep_journal_pending um_softdep->sd_journal_pending
1091 #define softdep_journal_tail um_softdep->sd_journal_tail
1092 #define softdep_jblocks um_softdep->sd_jblocks
1093 #define softdep_unlinked um_softdep->sd_unlinked
1094 #define softdep_dirtycg um_softdep->sd_dirtycg
1095 #define softdep_mkdirlisthd um_softdep->sd_mkdirlisthd
1096 #define pagedep_hashtbl um_softdep->sd_pdhash
1097 #define pagedep_hash_size um_softdep->sd_pdhashsize
1098 #define pagedep_nextclean um_softdep->sd_pdnextclean
1099 #define inodedep_hashtbl um_softdep->sd_idhash
1100 #define inodedep_hash_size um_softdep->sd_idhashsize
1101 #define inodedep_nextclean um_softdep->sd_idnextclean
1102 #define newblk_hashtbl um_softdep->sd_newblkhash
1103 #define newblk_hash_size um_softdep->sd_newblkhashsize
1104 #define bmsafemap_hashtbl um_softdep->sd_bmhash
1105 #define bmsafemap_hash_size um_softdep->sd_bmhashsize
1106 #define indir_hashtbl um_softdep->sd_indirhash
1107 #define indir_hash_size um_softdep->sd_indirhashsize
1108 #define softdep_on_journal um_softdep->sd_on_journal
1109 #define softdep_on_worklist um_softdep->sd_on_worklist
1110 #define softdep_deps um_softdep->sd_deps
1111 #define softdep_accdeps um_softdep->sd_accdeps
1112 #define softdep_req um_softdep->sd_req
1113 #define softdep_flags um_softdep->sd_flags
1114 #define softdep_flushtd um_softdep->sd_flushtd
1115 #define softdep_curdeps um_softdep->sd_curdeps