d5dd4e9c6bac3671dbb1c67c5a0ab530a84cbe50
[dragonfly.git] / sys / vfs / hammer / hammer.h
1 /*
2  * Copyright (c) 2007-2008 The DragonFly Project.  All rights reserved.
3  *
4  * This code is derived from software contributed to The DragonFly Project
5  * by Matthew Dillon <dillon@backplane.com>
6  *
7  * Redistribution and use in source and binary forms, with or without
8  * modification, are permitted provided that the following conditions
9  * are met:
10  *
11  * 1. Redistributions of source code must retain the above copyright
12  *    notice, this list of conditions and the following disclaimer.
13  * 2. Redistributions in binary form must reproduce the above copyright
14  *    notice, this list of conditions and the following disclaimer in
15  *    the documentation and/or other materials provided with the
16  *    distribution.
17  * 3. Neither the name of The DragonFly Project nor the names of its
18  *    contributors may be used to endorse or promote products derived
19  *    from this software without specific, prior written permission.
20  *
21  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
22  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
23  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
24  * FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE
25  * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
26  * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
27  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
28  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
29  * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
30  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
31  * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32  * SUCH DAMAGE.
33  */
34 /*
35  * This header file contains structures used internally by the HAMMERFS
36  * implementation.  See hammer_disk.h for on-disk structures.
37  */
38
39 #include <sys/param.h>
40 #ifdef _KERNEL
41 #include <sys/kernel.h>
42 #include <sys/systm.h>
43 #endif
44 #include <sys/conf.h>
45 #include <sys/tree.h>
46 #include <sys/malloc.h>
47 #include <sys/mount.h>
48 #include <sys/mountctl.h>
49 #include <sys/vnode.h>
50 #include <sys/proc.h>
51 #include <sys/priv.h>
52 #include <sys/stat.h>
53 #include <sys/globaldata.h>
54 #include <sys/lockf.h>
55 #include <sys/buf.h>
56 #include <sys/queue.h>
57 #include <sys/ktr.h>
58 #include <sys/limits.h>
59 #include <vm/vm_extern.h>
60
61 #ifdef _KERNEL
62 #include <sys/buf2.h>
63 #include <sys/signal2.h>
64 #include <vm/vm_page2.h>
65 #endif
66
67 #include "hammer_disk.h"
68 #include "hammer_mount.h"
69 #include "hammer_ioctl.h"
70
71 #if defined(_KERNEL) || defined(_KERNEL_STRUCTURES)
72
73 MALLOC_DECLARE(M_HAMMER);
74
75 /*
76  * Kernel trace
77  */
78 #if !defined(KTR_HAMMER)
79 #define KTR_HAMMER      KTR_ALL
80 #endif
81 /* KTR_INFO_MASTER_EXTERN(hammer); */
82
83 /*
84  * Misc structures
85  */
86 struct hammer_mount;
87
88 /*
89  * Key structure used for custom RB tree inode lookups.  This prototypes
90  * the function hammer_ino_rb_tree_RB_LOOKUP_INFO(root, info).
91  */
92 typedef struct hammer_inode_info {
93         int64_t         obj_id;         /* (key) object identifier */
94         hammer_tid_t    obj_asof;       /* (key) snapshot transid or 0 */
95         u_int32_t       obj_localization; /* (key) pseudo-fs */
96         union {
97                 struct hammer_btree_leaf_elm *leaf;
98         } u;
99 } *hammer_inode_info_t;
100
101 typedef enum hammer_transaction_type {
102         HAMMER_TRANS_RO,
103         HAMMER_TRANS_STD,
104         HAMMER_TRANS_FLS
105 } hammer_transaction_type_t;
106
107 /*
108  * HAMMER Transaction tracking
109  */
110 struct hammer_transaction {
111         hammer_transaction_type_t type;
112         struct hammer_mount *hmp;
113         hammer_tid_t    tid;
114         u_int64_t       time;
115         u_int32_t       time32;
116         int             sync_lock_refs;
117         int             flags;
118         struct hammer_volume *rootvol;
119 };
120
121 typedef struct hammer_transaction *hammer_transaction_t;
122
123 #define HAMMER_TRANSF_NEWINODE  0x0001
124 #define HAMMER_TRANSF_DIDIO     0x0002
125 #define HAMMER_TRANSF_CRCDOM    0x0004  /* EDOM on CRC error, less critical */
126
127 /*
128  * HAMMER locks
129  */
130 struct hammer_lock {
131         volatile u_int  refs;           /* active references */
132         volatile u_int  lockval;        /* lock count and control bits */
133         struct thread   *lowner;        /* owner if exclusively held */
134         struct thread   *rowner;        /* owner if exclusively held */
135 };
136
137 #define HAMMER_REFS_LOCKED      0x40000000      /* transition check */
138 #define HAMMER_REFS_WANTED      0x20000000      /* transition check */
139 #define HAMMER_REFS_CHECK       0x10000000      /* transition check */
140
141 #define HAMMER_REFS_FLAGS       (HAMMER_REFS_LOCKED | \
142                                  HAMMER_REFS_WANTED | \
143                                  HAMMER_REFS_CHECK)
144
145 #define HAMMER_LOCKF_EXCLUSIVE  0x40000000
146 #define HAMMER_LOCKF_WANTED     0x20000000
147
148 static __inline int
149 hammer_notlocked(struct hammer_lock *lock)
150 {
151         return(lock->lockval == 0);
152 }
153
154 static __inline int
155 hammer_islocked(struct hammer_lock *lock)
156 {
157         return(lock->lockval != 0);
158 }
159
160 /*
161  * Returns the number of refs on the object.
162  */
163 static __inline int
164 hammer_isactive(struct hammer_lock *lock)
165 {
166         return(lock->refs & ~HAMMER_REFS_FLAGS);
167 }
168
169 static __inline int
170 hammer_oneref(struct hammer_lock *lock)
171 {
172         return((lock->refs & ~HAMMER_REFS_FLAGS) == 1);
173 }
174
175 static __inline int
176 hammer_norefs(struct hammer_lock *lock)
177 {
178         return((lock->refs & ~HAMMER_REFS_FLAGS) == 0);
179 }
180
181 static __inline int
182 hammer_norefsorlock(struct hammer_lock *lock)
183 {
184         return(lock->refs == 0);
185 }
186
187 static __inline int
188 hammer_refsorlock(struct hammer_lock *lock)
189 {
190         return(lock->refs != 0);
191 }
192
193 /*
194  * Return if we specifically own the lock exclusively.
195  */
196 static __inline int
197 hammer_lock_excl_owned(struct hammer_lock *lock, thread_t td)
198 {
199         if ((lock->lockval & HAMMER_LOCKF_EXCLUSIVE) &&
200             lock->lowner == td) {
201                 return(1);
202         }
203         return(0);
204 }
205
206 /*
207  * Flush state, used by various structures
208  */
209 typedef enum hammer_inode_state {
210         HAMMER_FST_IDLE,
211         HAMMER_FST_SETUP,
212         HAMMER_FST_FLUSH
213 } hammer_inode_state_t;
214
215 TAILQ_HEAD(hammer_record_list, hammer_record);
216
217 /*
218  * Pseudo-filesystem extended data tracking
219  */
220 struct hammer_pfs_rb_tree;
221 struct hammer_pseudofs_inmem;
222 RB_HEAD(hammer_pfs_rb_tree, hammer_pseudofs_inmem);
223 RB_PROTOTYPE2(hammer_pfs_rb_tree, hammer_pseudofs_inmem, rb_node,
224               hammer_pfs_rb_compare, u_int32_t);
225
226 struct hammer_pseudofs_inmem {
227         RB_ENTRY(hammer_pseudofs_inmem) rb_node;
228         struct hammer_lock      lock;
229         u_int32_t               localization;
230         hammer_tid_t            create_tid;
231         int                     flags;
232         udev_t                  fsid_udev;
233         struct hammer_pseudofs_data pfsd;
234 };
235
236 typedef struct hammer_pseudofs_inmem *hammer_pseudofs_inmem_t;
237
238 #define HAMMER_PFSM_DELETED     0x0001
239
240 /*
241  * Cache object ids.  A fixed number of objid cache structures are
242  * created to reserve object id's for newly created files in multiples
243  * of 100,000, localized to a particular directory, and recycled as
244  * needed.  This allows parallel create operations in different
245  * directories to retain fairly localized object ids which in turn
246  * improves reblocking performance and layout.
247  */
248 #define OBJID_CACHE_SIZE        2048
249 #define OBJID_CACHE_BULK_BITS   10              /* 10 bits (1024)       */
250 #define OBJID_CACHE_BULK        (32 * 32)       /* two level (1024)     */
251 #define OBJID_CACHE_BULK_MASK   (OBJID_CACHE_BULK - 1)
252 #define OBJID_CACHE_BULK_MASK64 ((u_int64_t)(OBJID_CACHE_BULK - 1))
253
254 typedef struct hammer_objid_cache {
255         TAILQ_ENTRY(hammer_objid_cache) entry;
256         struct hammer_inode             *dip;
257         hammer_tid_t                    base_tid;
258         int                             count;
259         u_int32_t                       bm0;
260         u_int32_t                       bm1[32];
261 } *hammer_objid_cache_t;
262
263 /*
264  * Associate an inode with a B-Tree node to cache search start positions
265  */
266 typedef struct hammer_node_cache {
267         TAILQ_ENTRY(hammer_node_cache)  entry;
268         struct hammer_node              *node;
269         struct hammer_inode             *ip;
270 } *hammer_node_cache_t;
271
272 TAILQ_HEAD(hammer_node_cache_list, hammer_node_cache);
273
274 /*
275  * Live dedup cache
276  */
277 struct hammer_dedup_crc_rb_tree;
278 RB_HEAD(hammer_dedup_crc_rb_tree, hammer_dedup_cache);
279 RB_PROTOTYPE2(hammer_dedup_crc_rb_tree, hammer_dedup_cache, crc_entry,
280                 hammer_dedup_crc_rb_compare, hammer_crc_t);
281
282 struct hammer_dedup_off_rb_tree;
283 RB_HEAD(hammer_dedup_off_rb_tree, hammer_dedup_cache);
284 RB_PROTOTYPE2(hammer_dedup_off_rb_tree, hammer_dedup_cache, off_entry,
285                 hammer_dedup_off_rb_compare, hammer_off_t);
286
287 #define DEDUP_CACHE_SIZE        4096 /* XXX make it a dynamic tunable */
288
289 typedef struct hammer_dedup_cache {
290         RB_ENTRY(hammer_dedup_cache) crc_entry;
291         RB_ENTRY(hammer_dedup_cache) off_entry;
292         TAILQ_ENTRY(hammer_dedup_cache) lru_entry;
293         struct hammer_mount *hmp;
294         int64_t obj_id;
295         u_int32_t localization;
296         off_t file_offset;
297         int bytes;
298         hammer_off_t data_offset;
299         hammer_crc_t crc;
300 } *hammer_dedup_cache_t;
301
302 /*
303  * Structure used to organize flush groups.  Flush groups must be
304  * organized into chunks in order to avoid blowing out the UNDO FIFO.
305  * Without this a 'sync' could end up flushing 50,000 inodes in a single
306  * transaction.
307  */
308 struct hammer_fls_rb_tree;
309 RB_HEAD(hammer_fls_rb_tree, hammer_inode);
310 RB_PROTOTYPE(hammer_fls_rb_tree, hammer_inode, rb_flsnode,
311               hammer_ino_rb_compare);
312
313 struct hammer_flush_group {
314         TAILQ_ENTRY(hammer_flush_group) flush_entry;
315         struct hammer_fls_rb_tree       flush_tree;
316         int                             seq;            /* our seq no */
317         int                             total_count;    /* record load */
318         int                             running;        /* group is running */
319         int                             closed;
320         int                             refs;
321 };
322
323 typedef struct hammer_flush_group *hammer_flush_group_t;
324
325 TAILQ_HEAD(hammer_flush_group_list, hammer_flush_group);
326
327 /*
328  * Structure used to represent an inode in-memory.
329  *
330  * The record and data associated with an inode may be out of sync with
331  * the disk (xDIRTY flags), or not even on the disk at all (ONDISK flag
332  * clear).
333  *
334  * An inode may also hold a cache of unsynchronized records, used for
335  * database and directories only.  Unsynchronized regular file data is
336  * stored in the buffer cache.
337  *
338  * NOTE: A file which is created and destroyed within the initial
339  * synchronization period can wind up not doing any disk I/O at all.
340  *
341  * Finally, an inode may cache numerous disk-referencing B-Tree cursors.
342  */
343 struct hammer_ino_rb_tree;
344 struct hammer_inode;
345 RB_HEAD(hammer_ino_rb_tree, hammer_inode);
346 RB_PROTOTYPEX(hammer_ino_rb_tree, INFO, hammer_inode, rb_node,
347               hammer_ino_rb_compare, hammer_inode_info_t);
348
349 struct hammer_redo_rb_tree;
350 RB_HEAD(hammer_redo_rb_tree, hammer_inode);
351 RB_PROTOTYPE2(hammer_redo_rb_tree, hammer_inode, rb_redonode,
352               hammer_redo_rb_compare, hammer_off_t);
353
354 struct hammer_rec_rb_tree;
355 struct hammer_record;
356 RB_HEAD(hammer_rec_rb_tree, hammer_record);
357 RB_PROTOTYPEX(hammer_rec_rb_tree, INFO, hammer_record, rb_node,
358               hammer_rec_rb_compare, hammer_btree_leaf_elm_t);
359
360 TAILQ_HEAD(hammer_node_list, hammer_node);
361
362 struct hammer_inode {
363         RB_ENTRY(hammer_inode)  rb_node;
364         hammer_inode_state_t    flush_state;
365         hammer_flush_group_t    flush_group;
366         RB_ENTRY(hammer_inode)  rb_flsnode;     /* when on flush list */
367         RB_ENTRY(hammer_inode)  rb_redonode;    /* when INODE_RDIRTY is set */
368         struct hammer_record_list target_list;  /* target of dependant recs */
369         int64_t                 obj_id;         /* (key) object identifier */
370         hammer_tid_t            obj_asof;       /* (key) snapshot or 0 */
371         u_int32_t               obj_localization; /* (key) pseudo-fs */
372         struct hammer_mount     *hmp;
373         hammer_objid_cache_t    objid_cache;
374         int                     flags;
375         int                     error;          /* flush error */
376         int                     cursor_ip_refs; /* sanity */
377         int                     cursor_exclreq_count;
378         int                     rsv_recs;
379         struct vnode            *vp;
380         hammer_pseudofs_inmem_t pfsm;
381         struct lockf            advlock;
382         struct hammer_lock      lock;           /* sync copy interlock */
383         off_t                   trunc_off;
384         struct hammer_btree_leaf_elm ino_leaf;  /* in-memory cache */
385         struct hammer_inode_data ino_data;      /* in-memory cache */
386         struct hammer_rec_rb_tree rec_tree;     /* in-memory cache */
387         int                     rec_generation;
388         struct hammer_node_cache cache[4];      /* search initiate cache */
389
390         /*
391          * When a demark is created to synchronize an inode to
392          * disk, certain fields are copied so the front-end VOPs
393          * can continue to run in parallel with the synchronization
394          * occuring in the background.
395          */
396         int             sync_flags;             /* to-sync flags cache */
397         off_t           sync_trunc_off;         /* to-sync truncation */
398         off_t           save_trunc_off;         /* write optimization */
399         struct hammer_btree_leaf_elm sync_ino_leaf; /* to-sync cache */
400         struct hammer_inode_data sync_ino_data; /* to-sync cache */
401         size_t          redo_count;
402
403         /*
404          * Track the earliest offset in the UNDO/REDO FIFO containing
405          * REDO records.  This is staged to the backend during flush
406          * sequences.  While the inode is staged redo_fifo_next is used
407          * to track the earliest offset for rotation into redo_fifo_start
408          * on completion of the flush.
409          */
410         hammer_off_t    redo_fifo_start;
411         hammer_off_t    redo_fifo_next;
412 };
413
414 typedef struct hammer_inode *hammer_inode_t;
415
416 #define VTOI(vp)        ((struct hammer_inode *)(vp)->v_data)
417
418 /*
419  * NOTE: DDIRTY does not include atime or mtime and does not include
420  *       write-append size changes.  SDIRTY handles write-append size
421  *       changes.
422  *
423  *       REDO indicates that REDO logging is active, creating a definitive
424  *       stream of REDO records in the UNDO/REDO log for writes and
425  *       truncations, including boundary records when/if REDO is turned off.
426  *       REDO is typically enabled by fsync() and turned off if excessive
427  *       writes without an fsync() occurs.
428  *
429  *       RDIRTY indicates that REDO records were laid down in the UNDO/REDO
430  *       FIFO (even if REDO is turned off some might still be active) and
431  *       still being tracked for this inode.  See hammer_redo.c
432  */
433                                         /* (not including atime/mtime) */
434 #define HAMMER_INODE_DDIRTY     0x0001  /* in-memory ino_data is dirty */
435 #define HAMMER_INODE_RSV_INODES 0x0002  /* hmp->rsv_inodes bumped */
436 #define HAMMER_INODE_CONN_DOWN  0x0004  /* include in downward recursion */
437 #define HAMMER_INODE_XDIRTY     0x0008  /* in-memory records */
438 #define HAMMER_INODE_ONDISK     0x0010  /* inode is on-disk (else not yet) */
439 #define HAMMER_INODE_FLUSH      0x0020  /* flush on last ref */
440 #define HAMMER_INODE_DELETED    0x0080  /* inode delete (backend) */
441 #define HAMMER_INODE_DELONDISK  0x0100  /* delete synchronized to disk */
442 #define HAMMER_INODE_RO         0x0200  /* read-only (because of as-of) */
443 #define HAMMER_INODE_RECSW      0x0400  /* waiting on data record flush */
444 #define HAMMER_INODE_DONDISK    0x0800  /* data records may be on disk */
445 #define HAMMER_INODE_BUFS       0x1000  /* dirty high level bps present */
446 #define HAMMER_INODE_REFLUSH    0x2000  /* flush on dependancy / reflush */
447 #define HAMMER_INODE_RECLAIM    0x4000  /* trying to reclaim */
448 #define HAMMER_INODE_FLUSHW     0x8000  /* Someone waiting for flush */
449
450 #define HAMMER_INODE_TRUNCATED  0x00010000
451 #define HAMMER_INODE_DELETING   0x00020000 /* inode delete request (frontend)*/
452 #define HAMMER_INODE_RESIGNAL   0x00040000 /* re-signal on re-flush */
453 #define HAMMER_INODE_ATIME      0x00100000 /* in-memory atime modified */
454 #define HAMMER_INODE_MTIME      0x00200000 /* in-memory mtime modified */
455 #define HAMMER_INODE_WOULDBLOCK 0x00400000 /* re-issue to new flush group */
456 #define HAMMER_INODE_DUMMY      0x00800000 /* dummy inode covering bad file */
457 #define HAMMER_INODE_SDIRTY     0x01000000 /* in-memory ino_data.size is dirty*/
458 #define HAMMER_INODE_REDO       0x02000000 /* REDO logging active */
459 #define HAMMER_INODE_RDIRTY     0x04000000 /* REDO records active in fifo */
460 #define HAMMER_INODE_SLAVEFLUSH 0x08000000 /* being flushed by slave */
461
462 #define HAMMER_INODE_MODMASK    (HAMMER_INODE_DDIRTY|HAMMER_INODE_SDIRTY|   \
463                                  HAMMER_INODE_XDIRTY|HAMMER_INODE_BUFS|     \
464                                  HAMMER_INODE_ATIME|HAMMER_INODE_MTIME|     \
465                                  HAMMER_INODE_TRUNCATED|HAMMER_INODE_DELETING)
466
467 #define HAMMER_INODE_MODMASK_NOXDIRTY   \
468                                 (HAMMER_INODE_MODMASK & ~HAMMER_INODE_XDIRTY)
469
470 #define HAMMER_INODE_MODMASK_NOREDO     \
471                                 (HAMMER_INODE_DDIRTY|                       \
472                                  HAMMER_INODE_XDIRTY|                       \
473                                  HAMMER_INODE_TRUNCATED|HAMMER_INODE_DELETING)
474
475 #define HAMMER_FLUSH_SIGNAL     0x0001
476 #define HAMMER_FLUSH_RECURSION  0x0002
477
478 /*
479  * Used by the inode reclaim code to pipeline reclaims and avoid
480  * blowing out kernel memory or letting the flusher get too far
481  * behind.  The reclaim wakes up when count reaches 0 or the
482  * timer expires.
483  */
484 struct hammer_reclaim {
485         TAILQ_ENTRY(hammer_reclaim) entry;
486         int     count;
487 };
488
489 /*
490  * Track who is creating the greatest burden on the
491  * inode cache.
492  */
493 struct hammer_inostats {
494         pid_t           pid;    /* track user process */
495         int             ltick;  /* last tick */
496         int             count;  /* count (degenerates) */
497 };
498
499 #define HAMMER_INOSTATS_HSIZE   32
500 #define HAMMER_INOSTATS_HMASK   (HAMMER_INOSTATS_HSIZE - 1)
501
502 /*
503  * Structure used to represent an unsynchronized record in-memory.  These
504  * records typically represent directory entries.  Only non-historical
505  * records are kept in-memory.
506  *
507  * Records are organized as a per-inode RB-Tree.  If the inode is not
508  * on disk then neither are any records and the in-memory record tree
509  * represents the entire contents of the inode.  If the inode is on disk
510  * then the on-disk B-Tree is scanned in parallel with the in-memory
511  * RB-Tree to synthesize the current state of the file.
512  *
513  * Records are also used to enforce the ordering of directory create/delete
514  * operations.  A new inode will not be flushed to disk unless its related
515  * directory entry is also being flushed at the same time.  A directory entry
516  * will not be removed unless its related inode is also being removed at the
517  * same time.
518  */
519 typedef enum hammer_record_type {
520         HAMMER_MEM_RECORD_GENERAL,      /* misc record */
521         HAMMER_MEM_RECORD_INODE,        /* inode record */
522         HAMMER_MEM_RECORD_ADD,          /* positive memory cache record */
523         HAMMER_MEM_RECORD_DEL,          /* negative delete-on-disk record */
524         HAMMER_MEM_RECORD_DATA          /* bulk-data record w/on-disk ref */
525 } hammer_record_type_t;
526
527 struct hammer_record {
528         RB_ENTRY(hammer_record)         rb_node;
529         TAILQ_ENTRY(hammer_record)      target_entry;
530         hammer_inode_state_t            flush_state;
531         hammer_flush_group_t            flush_group;
532         hammer_record_type_t            type;
533         struct hammer_lock              lock;
534         struct hammer_reserve           *resv;
535         struct hammer_inode             *ip;
536         struct hammer_inode             *target_ip;
537         struct hammer_btree_leaf_elm    leaf;
538         union hammer_data_ondisk        *data;
539         int                             flags;
540         int                             gflags;
541         hammer_off_t                    zone2_offset;   /* direct-write only */
542 };
543
544 typedef struct hammer_record *hammer_record_t;
545
546 /*
547  * Record flags.  Note that FE can only be set by the frontend if the
548  * record has not been interlocked by the backend w/ BE.
549  */
550 #define HAMMER_RECF_ALLOCDATA           0x0001
551 #define HAMMER_RECF_ONRBTREE            0x0002
552 #define HAMMER_RECF_DELETED_FE          0x0004  /* deleted (frontend) */
553 #define HAMMER_RECF_DELETED_BE          0x0008  /* deleted (backend) */
554 #define HAMMER_RECF_COMMITTED           0x0010  /* committed to the B-Tree */
555 #define HAMMER_RECF_INTERLOCK_BE        0x0020  /* backend interlock */
556 #define HAMMER_RECF_WANTED              0x0040  /* wanted by the frontend */
557 #define HAMMER_RECF_DEDUPED             0x0080  /* will be live-dedup'ed */
558 #define HAMMER_RECF_CONVERT_DELETE      0x0100  /* special case */
559 #define HAMMER_RECF_REDO                0x1000  /* REDO was laid down */
560
561 /*
562  * These flags must be separate to deal with SMP races
563  */
564 #define HAMMER_RECG_DIRECT_IO           0x0001  /* related direct I/O running*/
565 #define HAMMER_RECG_DIRECT_WAIT         0x0002  /* related direct I/O running*/
566 #define HAMMER_RECG_DIRECT_INVAL        0x0004  /* buffer alias invalidation */
567 /*
568  * hammer_create_at_cursor() and hammer_delete_at_cursor() flags.
569  */
570 #define HAMMER_CREATE_MODE_UMIRROR      0x0001
571 #define HAMMER_CREATE_MODE_SYS          0x0002
572
573 #define HAMMER_DELETE_ADJUST            0x0001
574 #define HAMMER_DELETE_DESTROY           0x0002
575
576 /*
577  * In-memory structures representing on-disk structures.
578  */
579 struct hammer_volume;
580 struct hammer_buffer;
581 struct hammer_node;
582 struct hammer_undo;
583 struct hammer_reserve;
584
585 RB_HEAD(hammer_vol_rb_tree, hammer_volume);
586 RB_HEAD(hammer_buf_rb_tree, hammer_buffer);
587 RB_HEAD(hammer_nod_rb_tree, hammer_node);
588 RB_HEAD(hammer_und_rb_tree, hammer_undo);
589 RB_HEAD(hammer_res_rb_tree, hammer_reserve);
590 RB_HEAD(hammer_mod_rb_tree, hammer_io);
591
592 RB_PROTOTYPE2(hammer_vol_rb_tree, hammer_volume, rb_node,
593               hammer_vol_rb_compare, int32_t);
594 RB_PROTOTYPE2(hammer_buf_rb_tree, hammer_buffer, rb_node,
595               hammer_buf_rb_compare, hammer_off_t);
596 RB_PROTOTYPE2(hammer_nod_rb_tree, hammer_node, rb_node,
597               hammer_nod_rb_compare, hammer_off_t);
598 RB_PROTOTYPE2(hammer_und_rb_tree, hammer_undo, rb_node,
599               hammer_und_rb_compare, hammer_off_t);
600 RB_PROTOTYPE2(hammer_res_rb_tree, hammer_reserve, rb_node,
601               hammer_res_rb_compare, hammer_off_t);
602 RB_PROTOTYPE2(hammer_mod_rb_tree, hammer_io, rb_node,
603               hammer_mod_rb_compare, hammer_off_t);
604
605 /*
606  * IO management - embedded at the head of various in-memory structures
607  *
608  * VOLUME       - hammer_volume containing meta-data
609  * META_BUFFER  - hammer_buffer containing meta-data
610  * UNDO_BUFFER  - hammer_buffer containing undo-data
611  * DATA_BUFFER  - hammer_buffer containing pure-data
612  * DUMMY        - hammer_buffer not containing valid data
613  *
614  * Dirty volume headers and dirty meta-data buffers are locked until the
615  * flusher can sequence them out.  Dirty pure-data buffers can be written.
616  * Clean buffers can be passively released.
617  */
618 typedef enum hammer_io_type {
619         HAMMER_STRUCTURE_VOLUME,
620         HAMMER_STRUCTURE_META_BUFFER,
621         HAMMER_STRUCTURE_UNDO_BUFFER,
622         HAMMER_STRUCTURE_DATA_BUFFER,
623         HAMMER_STRUCTURE_DUMMY
624 } hammer_io_type_t;
625
626 union hammer_io_structure;
627 struct hammer_io;
628
629 struct worklist {
630         LIST_ENTRY(worklist) node;
631 };
632
633 TAILQ_HEAD(hammer_io_list, hammer_io);
634 typedef struct hammer_io_list *hammer_io_list_t;
635
636 struct hammer_io {
637         struct worklist         worklist;
638         struct hammer_lock      lock;
639         enum hammer_io_type     type;
640         struct hammer_mount     *hmp;
641         struct hammer_volume    *volume;
642         RB_ENTRY(hammer_io)     rb_node;     /* if modified */
643         TAILQ_ENTRY(hammer_io)  iorun_entry; /* iorun_list */
644         struct hammer_mod_rb_tree *mod_root;
645         struct buf              *bp;
646         int64_t                 offset;    /* zone-2 offset */
647         int                     bytes;     /* buffer cache buffer size */
648         int                     modify_refs;
649
650         /*
651          * These can be modified at any time by the backend while holding
652          * io_token, due to bio_done and hammer_io_complete() callbacks.
653          */
654         u_int           running : 1;    /* bp write IO in progress */
655         u_int           waiting : 1;    /* someone is waiting on us */
656         u_int           ioerror : 1;    /* abort on io-error */
657         u_int           unusedA : 29;
658
659         /*
660          * These can only be modified by the frontend while holding
661          * fs_token, or by the backend while holding the io interlocked
662          * with no references (which will block the frontend when it
663          * tries to reference it).
664          *
665          * WARNING! SMP RACES will create havoc if the callbacks ever tried
666          *          to modify any of these outside the above restrictions.
667          */
668         u_int           modified : 1;   /* bp's data was modified */
669         u_int           released : 1;   /* bp released (w/ B_LOCKED set) */
670         u_int           validated : 1;  /* ondisk has been validated */
671         u_int           waitdep : 1;    /* flush waits for dependancies */
672         u_int           recovered : 1;  /* has recovery ref */
673         u_int           waitmod : 1;    /* waiting for modify_refs */
674         u_int           reclaim : 1;    /* reclaim requested */
675         u_int           gencrc : 1;     /* crc needs to be generated */
676         u_int           unusedB : 24;
677 };
678
679 typedef struct hammer_io *hammer_io_t;
680
681 #define HAMMER_CLUSTER_SIZE     (64 * 1024)
682 #if HAMMER_CLUSTER_SIZE > MAXBSIZE
683 #undef  HAMMER_CLUSTER_SIZE
684 #define HAMMER_CLUSTER_SIZE     MAXBSIZE
685 #endif
686 #define HAMMER_CLUSTER_BUFS     (HAMMER_CLUSTER_SIZE / HAMMER_BUFSIZE)
687
688 /*
689  * In-memory volume representing on-disk buffer
690  */
691 struct hammer_volume {
692         struct hammer_io io;
693         RB_ENTRY(hammer_volume) rb_node;
694         struct hammer_volume_ondisk *ondisk;
695         int32_t vol_no;
696         int64_t nblocks;        /* note: special calculation for statfs */
697         int64_t buffer_base;    /* base offset of buffer 0 */
698         hammer_off_t maxbuf_off; /* Maximum buffer offset (zone-2) */
699         hammer_off_t maxraw_off; /* Maximum raw offset for device */
700         char    *vol_name;
701         struct vnode *devvp;
702         int     vol_flags;
703 };
704
705 typedef struct hammer_volume *hammer_volume_t;
706
707 /*
708  * In-memory buffer (other then volume, super-cluster, or cluster),
709  * representing an on-disk buffer.
710  */
711 struct hammer_buffer {
712         struct hammer_io io;
713         RB_ENTRY(hammer_buffer) rb_node;
714         void *ondisk;
715         hammer_off_t zoneX_offset;
716         hammer_off_t zone2_offset;
717         struct hammer_reserve *resv;
718         struct hammer_node_list clist;
719 };
720
721 typedef struct hammer_buffer *hammer_buffer_t;
722
723 /*
724  * In-memory B-Tree node, representing an on-disk B-Tree node.
725  *
726  * This is a hang-on structure which is backed by a hammer_buffer,
727  * indexed by a hammer_cluster, and used for fine-grained locking of
728  * B-Tree nodes in order to properly control lock ordering.  A hammer_buffer
729  * can contain multiple nodes representing wildly disassociated portions
730  * of the B-Tree so locking cannot be done on a buffer-by-buffer basis.
731  *
732  * This structure uses a cluster-relative index to reduce the number
733  * of layers required to access it, and also because all on-disk B-Tree
734  * references are cluster-relative offsets.
735  */
736 struct hammer_node {
737         struct hammer_lock      lock;           /* node-by-node lock */
738         TAILQ_ENTRY(hammer_node) entry;         /* per-buffer linkage */
739         RB_ENTRY(hammer_node)   rb_node;        /* per-cluster linkage */
740         hammer_off_t            node_offset;    /* full offset spec */
741         struct hammer_mount     *hmp;
742         struct hammer_buffer    *buffer;        /* backing buffer */
743         hammer_node_ondisk_t    ondisk;         /* ptr to on-disk structure */
744         TAILQ_HEAD(, hammer_cursor) cursor_list;  /* deadlock recovery */
745         struct hammer_node_cache_list cache_list; /* passive caches */
746         int                     flags;
747         int                     cursor_exclreq_count;
748 };
749
750 #define HAMMER_NODE_DELETED     0x0001
751 #define HAMMER_NODE_FLUSH       0x0002
752 #define HAMMER_NODE_CRCGOOD     0x0004
753 #define HAMMER_NODE_NEEDSCRC    0x0008
754 #define HAMMER_NODE_NEEDSMIRROR 0x0010
755 #define HAMMER_NODE_CRCBAD      0x0020
756 #define HAMMER_NODE_NONLINEAR   0x0040          /* linear heuristic */
757
758 #define HAMMER_NODE_CRCANY      (HAMMER_NODE_CRCGOOD | HAMMER_NODE_CRCBAD)
759
760 typedef struct hammer_node      *hammer_node_t;
761
762 /*
763  * List of locked nodes.  This structure is used to lock potentially large
764  * numbers of nodes as an aid for complex B-Tree operations.
765  */
766 struct hammer_node_lock;
767 TAILQ_HEAD(hammer_node_lock_list, hammer_node_lock);
768
769 struct hammer_node_lock {
770         TAILQ_ENTRY(hammer_node_lock) entry;
771         struct hammer_node_lock_list  list;
772         struct hammer_node_lock       *parent;
773         hammer_node_t   node;
774         hammer_node_ondisk_t copy;      /* copy of on-disk data */
775         int             index;          /* index of this node in parent */
776         int             count;          /* count children */
777         int             flags;
778 };
779
780 typedef struct hammer_node_lock *hammer_node_lock_t;
781
782 #define HAMMER_NODE_LOCK_UPDATED        0x0001
783 #define HAMMER_NODE_LOCK_LCACHE         0x0002
784
785 /*
786  * Common I/O management structure - embedded in in-memory structures
787  * which are backed by filesystem buffers.
788  */
789 union hammer_io_structure {
790         struct hammer_io        io;
791         struct hammer_volume    volume;
792         struct hammer_buffer    buffer;
793 };
794
795 typedef union hammer_io_structure *hammer_io_structure_t;
796
797 /*
798  * The reserve structure prevents the blockmap from allocating
799  * out of a reserved big-block.  Such reservations are used by
800  * the direct-write mechanism.
801  *
802  * The structure is also used to hold off on reallocations of
803  * big-blocks from the freemap until flush dependancies have
804  * been dealt with.
805  */
806 struct hammer_reserve {
807         RB_ENTRY(hammer_reserve) rb_node;
808         TAILQ_ENTRY(hammer_reserve) delay_entry;
809         int             flush_group;
810         int             flags;
811         int             refs;
812         int             zone;
813         int             append_off;
814         int32_t         bytes_free;
815         hammer_off_t    zone_offset;
816 };
817
818 typedef struct hammer_reserve *hammer_reserve_t;
819
820 #define HAMMER_RESF_ONDELAY     0x0001
821 #define HAMMER_RESF_LAYER2FREE  0x0002
822
823 #include "hammer_cursor.h"
824
825 /*
826  * The undo structure tracks recent undos to avoid laying down duplicate
827  * undos within a flush group, saving us a significant amount of overhead.
828  *
829  * This is strictly a heuristic.
830  */
831 #define HAMMER_MAX_UNDOS                1024
832 #define HAMMER_MAX_FLUSHERS             4
833
834 struct hammer_undo {
835         RB_ENTRY(hammer_undo)   rb_node;
836         TAILQ_ENTRY(hammer_undo) lru_entry;
837         hammer_off_t            offset;
838         int                     bytes;
839 };
840
841 typedef struct hammer_undo *hammer_undo_t;
842
843 struct hammer_flusher_info;
844 TAILQ_HEAD(hammer_flusher_info_list, hammer_flusher_info);
845
846 struct hammer_flusher {
847         int             signal;         /* flusher thread sequencer */
848         int             done;           /* last completed flush group */
849         int             next;           /* next unallocated flg seqno */
850         int             group_lock;     /* lock sequencing of the next flush */
851         int             exiting;        /* request master exit */
852         thread_t        td;             /* master flusher thread */
853         hammer_tid_t    tid;            /* last flushed transaction id */
854         int             finalize_want;          /* serialize finalization */
855         struct hammer_lock finalize_lock;       /* serialize finalization */
856         struct hammer_transaction trans;        /* shared transaction */
857         struct hammer_flusher_info_list run_list;
858         struct hammer_flusher_info_list ready_list;
859 };
860
861 #define HAMMER_FLUSH_UNDOS_RELAXED      0
862 #define HAMMER_FLUSH_UNDOS_FORCED       1
863 #define HAMMER_FLUSH_UNDOS_AUTO         2
864 /*
865  * Internal hammer mount data structure
866  */
867 struct hammer_mount {
868         struct mount *mp;
869         /*struct vnode *rootvp;*/
870         struct hammer_ino_rb_tree rb_inos_root;
871         struct hammer_redo_rb_tree rb_redo_root;
872         struct hammer_vol_rb_tree rb_vols_root;
873         struct hammer_nod_rb_tree rb_nods_root;
874         struct hammer_und_rb_tree rb_undo_root;
875         struct hammer_res_rb_tree rb_resv_root;
876         struct hammer_buf_rb_tree rb_bufs_root;
877         struct hammer_pfs_rb_tree rb_pfsm_root;
878
879         struct hammer_dedup_crc_rb_tree rb_dedup_crc_root;
880         struct hammer_dedup_off_rb_tree rb_dedup_off_root;
881
882         struct hammer_volume *rootvol;
883         struct hammer_base_elm root_btree_beg;
884         struct hammer_base_elm root_btree_end;
885
886         struct malloc_type      *m_misc;
887         struct malloc_type      *m_inodes;
888
889         int     flags;          /* HAMMER_MOUNT_xxx flags */
890         int     hflags;
891         int     ronly;
892         int     nvolumes;
893         int     volume_iterator;
894         int     master_id;      /* -1 or 0-15 - clustering and mirroring */
895         int     version;        /* hammer filesystem version to use */
896         int     rsv_inodes;     /* reserved space due to dirty inodes */
897         int64_t rsv_databytes;  /* reserved space due to record data */
898         int     rsv_recs;       /* reserved space due to dirty records */
899         int     rsv_fromdelay;  /* big-blocks reserved due to flush delay */
900         int     undo_rec_limit; /* based on size of undo area */
901         int     last_newrecords;
902         int     count_newrecords;
903
904         int     volume_to_remove; /* volume that is currently being removed */
905
906         int     count_inodes;   /* total number of inodes */
907         int     count_iqueued;  /* inodes queued to flusher */
908         int     count_reclaims; /* inodes pending reclaim by flusher */
909
910         struct hammer_flusher flusher;
911
912         u_int   check_interrupt;
913         u_int   check_yield;
914         uuid_t  fsid;
915         struct hammer_mod_rb_tree volu_root;    /* dirty undo buffers */
916         struct hammer_mod_rb_tree undo_root;    /* dirty undo buffers */
917         struct hammer_mod_rb_tree data_root;    /* dirty data buffers */
918         struct hammer_mod_rb_tree meta_root;    /* dirty meta bufs    */
919         struct hammer_mod_rb_tree lose_root;    /* loose buffers      */
920         long    locked_dirty_space;             /* meta/volu count    */
921         long    io_running_space;               /* io_token */
922         int     unused01;
923         int     objid_cache_count;
924         int     dedup_cache_count;
925         int     error;                          /* critical I/O error */
926         struct krate    krate;                  /* rate limited kprintf */
927         struct krate    kdiag;                  /* rate limited kprintf */
928         hammer_tid_t    asof;                   /* snapshot mount */
929         hammer_tid_t    next_tid;
930         hammer_tid_t    flush_tid1;             /* flusher tid sequencing */
931         hammer_tid_t    flush_tid2;             /* flusher tid sequencing */
932         int64_t copy_stat_freebigblocks;        /* number of free big-blocks */
933         u_int32_t       undo_seqno;             /* UNDO/REDO FIFO seqno */
934         u_int32_t       recover_stage2_seqno;   /* REDO recovery seqno */
935         hammer_off_t    recover_stage2_offset;  /* REDO recovery offset */
936
937         struct netexport export;
938         struct hammer_lock sync_lock;
939         struct hammer_lock free_lock;
940         struct hammer_lock undo_lock;
941         struct hammer_lock blkmap_lock;
942         struct hammer_lock snapshot_lock;
943         struct hammer_lock volume_lock;
944         struct hammer_blockmap  blockmap[HAMMER_MAX_ZONES];
945         struct hammer_undo      undos[HAMMER_MAX_UNDOS];
946         int                     undo_alloc;
947         TAILQ_HEAD(, hammer_undo)  undo_lru_list;
948         TAILQ_HEAD(, hammer_reserve) delay_list;
949         struct hammer_flush_group_list  flush_group_list;
950         hammer_flush_group_t    fill_flush_group;
951         hammer_flush_group_t    next_flush_group;
952         TAILQ_HEAD(, hammer_objid_cache) objid_cache_list;
953         TAILQ_HEAD(, hammer_dedup_cache) dedup_lru_list;
954         hammer_dedup_cache_t    dedup_free_cache;
955         TAILQ_HEAD(, hammer_reclaim) reclaim_list;
956         TAILQ_HEAD(, hammer_io) iorun_list;
957
958         struct lwkt_token       fs_token;       /* high level */
959         struct lwkt_token       io_token;       /* low level (IO callback) */
960
961         struct hammer_inostats  inostats[HAMMER_INOSTATS_HSIZE];
962         uint64_t volume_map[4];  /* 256 bits bitfield */
963 };
964
965 typedef struct hammer_mount     *hammer_mount_t;
966
967 #define HAMMER_MOUNT_CRITICAL_ERROR     0x0001
968 #define HAMMER_MOUNT_FLUSH_RECOVERY     0x0002
969 #define HAMMER_MOUNT_REDO_SYNC          0x0004
970 #define HAMMER_MOUNT_REDO_RECOVERY_REQ  0x0008
971 #define HAMMER_MOUNT_REDO_RECOVERY_RUN  0x0010
972
973 #define HAMMER_VOLUME_NUMBER_ADD(hmp, vol)                      \
974         (hmp)->volume_map[(vol)->vol_no >> 6] |=                \
975         ((uint64_t)1 << ((vol)->vol_no & ((1 << 6) - 1)))
976
977 #define HAMMER_VOLUME_NUMBER_DEL(hmp, vol)                      \
978         (hmp)->volume_map[(vol)->vol_no >> 6] &=                \
979         ~((uint64_t)1 << ((vol)->vol_no & ((1 << 6) - 1)))
980
981 #define HAMMER_VOLUME_NUMBER_IS_SET(hmp, n)                     \
982         (((hmp)->volume_map[(n) >> 6] &                         \
983         ((uint64_t)1 << ((n) & ((1 << 6) - 1)))) != 0)
984
985 #define HAMMER_VOLUME_NUMBER_FOREACH(hmp, n)                    \
986         for (n = 0; n < HAMMER_MAX_VOLUMES; n++)                \
987                 if (HAMMER_VOLUME_NUMBER_IS_SET(hmp, n))
988
989 struct hammer_sync_info {
990         int error;
991         int waitfor;
992 };
993
994 /*
995  * Minium buffer cache bufs required to rebalance the B-Tree.
996  * This is because we must hold the children and the children's children
997  * locked.  Even this might not be enough if things are horribly out
998  * of balance.
999  */
1000 #define HAMMER_REBALANCE_MIN_BUFS       \
1001         (HAMMER_BTREE_LEAF_ELMS * HAMMER_BTREE_LEAF_ELMS)
1002
1003 #endif  /* _KERNEL || _KERNEL_STRUCTURES */
1004
1005 #if defined(_KERNEL)
1006 /*
1007  * checkspace slop (8MB chunks), higher numbers are more conservative.
1008  */
1009 #define HAMMER_CHKSPC_REBLOCK   25
1010 #define HAMMER_CHKSPC_MIRROR    20
1011 #define HAMMER_CHKSPC_WRITE     20
1012 #define HAMMER_CHKSPC_CREATE    20
1013 #define HAMMER_CHKSPC_REMOVE    10
1014 #define HAMMER_CHKSPC_EMERGENCY 0
1015
1016 extern struct vop_ops hammer_vnode_vops;
1017 extern struct vop_ops hammer_spec_vops;
1018 extern struct vop_ops hammer_fifo_vops;
1019 extern struct bio_ops hammer_bioops;
1020
1021 extern int hammer_debug_io;
1022 extern int hammer_debug_general;
1023 extern int hammer_debug_debug;
1024 extern int hammer_debug_inode;
1025 extern int hammer_debug_locks;
1026 extern int hammer_debug_btree;
1027 extern int hammer_debug_tid;
1028 extern int hammer_debug_recover;
1029 extern int hammer_debug_recover_faults;
1030 extern int hammer_debug_critical;
1031 extern int hammer_cluster_enable;
1032 extern int hammer_live_dedup;
1033 extern int hammer_tdmux_ticks;
1034 extern int hammer_count_fsyncs;
1035 extern int hammer_count_inodes;
1036 extern int hammer_count_iqueued;
1037 extern int hammer_count_reclaims;
1038 extern int hammer_count_records;
1039 extern int hammer_count_record_datas;
1040 extern int hammer_count_volumes;
1041 extern int hammer_count_buffers;
1042 extern int hammer_count_nodes;
1043 extern int64_t hammer_count_extra_space_used;
1044 extern int64_t hammer_stats_btree_lookups;
1045 extern int64_t hammer_stats_btree_searches;
1046 extern int64_t hammer_stats_btree_inserts;
1047 extern int64_t hammer_stats_btree_deletes;
1048 extern int64_t hammer_stats_btree_elements;
1049 extern int64_t hammer_stats_btree_splits;
1050 extern int64_t hammer_stats_btree_iterations;
1051 extern int64_t hammer_stats_btree_root_iterations;
1052 extern int64_t hammer_stats_record_iterations;
1053 extern int64_t hammer_stats_file_read;
1054 extern int64_t hammer_stats_file_write;
1055 extern int64_t hammer_stats_file_iopsr;
1056 extern int64_t hammer_stats_file_iopsw;
1057 extern int64_t hammer_stats_disk_read;
1058 extern int64_t hammer_stats_disk_write;
1059 extern int64_t hammer_stats_inode_flushes;
1060 extern int64_t hammer_stats_commits;
1061 extern int64_t hammer_stats_undo;
1062 extern int64_t hammer_stats_redo;
1063 extern long hammer_count_dirtybufspace;
1064 extern int hammer_count_refedbufs;
1065 extern int hammer_count_reservations;
1066 extern long hammer_count_io_running_read;
1067 extern long hammer_count_io_running_write;
1068 extern int hammer_count_io_locked;
1069 extern long hammer_limit_dirtybufspace;
1070 extern int hammer_limit_recs;
1071 extern int hammer_limit_inode_recs;
1072 extern int hammer_limit_reclaims;
1073 extern int hammer_live_dedup_cache_size;
1074 extern int hammer_limit_redo;
1075 extern int hammer_bio_count;
1076 extern int hammer_verify_zone;
1077 extern int hammer_verify_data;
1078 extern int hammer_write_mode;
1079 extern int hammer_double_buffer;
1080 extern int hammer_btree_full_undo;
1081 extern int hammer_yield_check;
1082 extern int hammer_fsync_mode;
1083 extern int hammer_autoflush;
1084 extern int64_t hammer_contention_count;
1085
1086 extern int64_t hammer_live_dedup_vnode_bcmps;
1087 extern int64_t hammer_live_dedup_device_bcmps;
1088 extern int64_t hammer_live_dedup_findblk_failures;
1089 extern int64_t hammer_live_dedup_bmap_saves;
1090
1091 void    hammer_critical_error(hammer_mount_t hmp, hammer_inode_t ip,
1092                         int error, const char *msg);
1093 int     hammer_vop_inactive(struct vop_inactive_args *);
1094 int     hammer_vop_reclaim(struct vop_reclaim_args *);
1095 int     hammer_get_vnode(struct hammer_inode *ip, struct vnode **vpp);
1096 struct hammer_inode *hammer_get_inode(hammer_transaction_t trans,
1097                         hammer_inode_t dip, int64_t obj_id,
1098                         hammer_tid_t asof, u_int32_t localization,
1099                         int flags, int *errorp);
1100 struct hammer_inode *hammer_get_dummy_inode(hammer_transaction_t trans,
1101                         hammer_inode_t dip, int64_t obj_id,
1102                         hammer_tid_t asof, u_int32_t localization,
1103                         int flags, int *errorp);
1104 struct hammer_inode *hammer_find_inode(hammer_transaction_t trans,
1105                         int64_t obj_id, hammer_tid_t asof,
1106                         u_int32_t localization);
1107 void    hammer_scan_inode_snapshots(hammer_mount_t hmp,
1108                         hammer_inode_info_t iinfo,
1109                         int (*callback)(hammer_inode_t ip, void *data),
1110                         void *data);
1111 void    hammer_put_inode(struct hammer_inode *ip);
1112 void    hammer_put_inode_ref(struct hammer_inode *ip);
1113 void    hammer_inode_waitreclaims(hammer_transaction_t trans);
1114 void    hammer_inode_dirty(struct hammer_inode *ip);
1115
1116 int     hammer_unload_volume(hammer_volume_t volume, void *data);
1117 int     hammer_adjust_volume_mode(hammer_volume_t volume, void *data __unused);
1118
1119 int     hammer_unload_buffer(hammer_buffer_t buffer, void *data);
1120 int     hammer_install_volume(hammer_mount_t hmp, const char *volname,
1121                         struct vnode *devvp, void *data);
1122 int     hammer_mountcheck_volumes(hammer_mount_t hmp);
1123 int     hammer_get_installed_volumes(hammer_mount_t hmp);
1124
1125 int     hammer_mem_add(hammer_record_t record);
1126 int     hammer_ip_lookup(hammer_cursor_t cursor);
1127 int     hammer_ip_first(hammer_cursor_t cursor);
1128 int     hammer_ip_next(hammer_cursor_t cursor);
1129 int     hammer_ip_resolve_data(hammer_cursor_t cursor);
1130 int     hammer_ip_delete_record(hammer_cursor_t cursor, hammer_inode_t ip,
1131                         hammer_tid_t tid);
1132 int     hammer_create_at_cursor(hammer_cursor_t cursor,
1133                         hammer_btree_leaf_elm_t leaf, void *udata, int mode);
1134 int     hammer_delete_at_cursor(hammer_cursor_t cursor, int delete_flags,
1135                         hammer_tid_t delete_tid, u_int32_t delete_ts,
1136                         int track, int64_t *stat_bytes);
1137 int     hammer_ip_check_directory_empty(hammer_transaction_t trans,
1138                         hammer_inode_t ip);
1139 int     hammer_sync_hmp(hammer_mount_t hmp, int waitfor);
1140 int     hammer_queue_inodes_flusher(hammer_mount_t hmp, int waitfor);
1141
1142 hammer_record_t
1143         hammer_alloc_mem_record(hammer_inode_t ip, int data_len);
1144 void    hammer_flush_record_done(hammer_record_t record, int error);
1145 void    hammer_wait_mem_record_ident(hammer_record_t record, const char *ident);
1146 void    hammer_rel_mem_record(hammer_record_t record);
1147
1148 int     hammer_cursor_up(hammer_cursor_t cursor);
1149 int     hammer_cursor_up_locked(hammer_cursor_t cursor);
1150 int     hammer_cursor_down(hammer_cursor_t cursor);
1151 int     hammer_cursor_upgrade(hammer_cursor_t cursor);
1152 int     hammer_cursor_upgrade_node(hammer_cursor_t cursor);
1153 void    hammer_cursor_downgrade(hammer_cursor_t cursor);
1154 int     hammer_cursor_upgrade2(hammer_cursor_t c1, hammer_cursor_t c2);
1155 void    hammer_cursor_downgrade2(hammer_cursor_t c1, hammer_cursor_t c2);
1156 int     hammer_cursor_seek(hammer_cursor_t cursor, hammer_node_t node,
1157                         int index);
1158 void    hammer_lock_ex_ident(struct hammer_lock *lock, const char *ident);
1159 int     hammer_lock_ex_try(struct hammer_lock *lock);
1160 void    hammer_lock_sh(struct hammer_lock *lock);
1161 int     hammer_lock_sh_try(struct hammer_lock *lock);
1162 int     hammer_lock_upgrade(struct hammer_lock *lock, int shcount);
1163 void    hammer_lock_downgrade(struct hammer_lock *lock, int shcount);
1164 int     hammer_lock_status(struct hammer_lock *lock);
1165 void    hammer_unlock(struct hammer_lock *lock);
1166 void    hammer_ref(struct hammer_lock *lock);
1167 int     hammer_ref_interlock(struct hammer_lock *lock);
1168 int     hammer_ref_interlock_true(struct hammer_lock *lock);
1169 void    hammer_ref_interlock_done(struct hammer_lock *lock);
1170 void    hammer_rel(struct hammer_lock *lock);
1171 int     hammer_rel_interlock(struct hammer_lock *lock, int locked);
1172 void    hammer_rel_interlock_done(struct hammer_lock *lock, int orig_locked);
1173 int     hammer_get_interlock(struct hammer_lock *lock);
1174 int     hammer_try_interlock_norefs(struct hammer_lock *lock);
1175 void    hammer_put_interlock(struct hammer_lock *lock, int error);
1176
1177 void    hammer_sync_lock_ex(hammer_transaction_t trans);
1178 void    hammer_sync_lock_sh(hammer_transaction_t trans);
1179 int     hammer_sync_lock_sh_try(hammer_transaction_t trans);
1180 void    hammer_sync_unlock(hammer_transaction_t trans);
1181
1182 u_int32_t hammer_to_unix_xid(uuid_t *uuid);
1183 void hammer_guid_to_uuid(uuid_t *uuid, u_int32_t guid);
1184 void    hammer_time_to_timespec(u_int64_t xtime, struct timespec *ts);
1185 u_int64_t hammer_timespec_to_time(struct timespec *ts);
1186 int     hammer_str_to_tid(const char *str, int *ispfsp,
1187                         hammer_tid_t *tidp, u_int32_t *localizationp);
1188 int     hammer_is_atatext(const char *name, int len);
1189 hammer_tid_t hammer_alloc_objid(hammer_mount_t hmp, hammer_inode_t dip,
1190                         int64_t namekey);
1191 void hammer_clear_objid(hammer_inode_t dip);
1192 void hammer_destroy_objid_cache(hammer_mount_t hmp);
1193
1194 int hammer_dedup_crc_rb_compare(hammer_dedup_cache_t dc1,
1195                         hammer_dedup_cache_t dc2);
1196 int hammer_dedup_off_rb_compare(hammer_dedup_cache_t dc1,
1197                         hammer_dedup_cache_t dc2);
1198 hammer_dedup_cache_t hammer_dedup_cache_add(hammer_inode_t ip,
1199                         hammer_btree_leaf_elm_t leaf);
1200 hammer_dedup_cache_t hammer_dedup_cache_lookup(hammer_mount_t hmp,
1201                         hammer_crc_t crc);
1202 void hammer_dedup_cache_inval(hammer_mount_t hmp, hammer_off_t base_offset);
1203 void hammer_destroy_dedup_cache(hammer_mount_t hmp);
1204 void hammer_dump_dedup_cache(hammer_mount_t hmp);
1205 int hammer_dedup_validate(hammer_dedup_cache_t dcp, int zone, int bytes,
1206                         void *data);
1207
1208 int hammer_enter_undo_history(hammer_mount_t hmp, hammer_off_t offset,
1209                         int bytes);
1210 void hammer_clear_undo_history(hammer_mount_t hmp);
1211 enum vtype hammer_get_vnode_type(u_int8_t obj_type);
1212 int hammer_get_dtype(u_int8_t obj_type);
1213 u_int8_t hammer_get_obj_type(enum vtype vtype);
1214 int64_t hammer_directory_namekey(hammer_inode_t dip, const void *name, int len,
1215                         u_int32_t *max_iterationsp);
1216 int     hammer_nohistory(hammer_inode_t ip);
1217
1218 int     hammer_init_cursor(hammer_transaction_t trans, hammer_cursor_t cursor,
1219                         hammer_node_cache_t cache, hammer_inode_t ip);
1220 void    hammer_normalize_cursor(hammer_cursor_t cursor);
1221 void    hammer_done_cursor(hammer_cursor_t cursor);
1222 int     hammer_recover_cursor(hammer_cursor_t cursor);
1223 void    hammer_unlock_cursor(hammer_cursor_t cursor);
1224 int     hammer_lock_cursor(hammer_cursor_t cursor);
1225 hammer_cursor_t hammer_push_cursor(hammer_cursor_t ocursor);
1226 void    hammer_pop_cursor(hammer_cursor_t ocursor, hammer_cursor_t ncursor);
1227
1228 void    hammer_cursor_replaced_node(hammer_node_t onode, hammer_node_t nnode);
1229 void    hammer_cursor_removed_node(hammer_node_t onode, hammer_node_t parent,
1230                         int index);
1231 void    hammer_cursor_split_node(hammer_node_t onode, hammer_node_t nnode,
1232                         int index);
1233 void    hammer_cursor_moved_element(hammer_node_t oparent, int pindex,
1234                         hammer_node_t onode, int oindex,
1235                         hammer_node_t nnode, int nindex);
1236 void    hammer_cursor_parent_changed(hammer_node_t node, hammer_node_t oparent,
1237                         hammer_node_t nparent, int nindex);
1238 void    hammer_cursor_inserted_element(hammer_node_t node, int index);
1239 void    hammer_cursor_deleted_element(hammer_node_t node, int index);
1240 void    hammer_cursor_invalidate_cache(hammer_cursor_t cursor);
1241
1242 int     hammer_btree_lookup(hammer_cursor_t cursor);
1243 int     hammer_btree_first(hammer_cursor_t cursor);
1244 int     hammer_btree_last(hammer_cursor_t cursor);
1245 int     hammer_btree_extract(hammer_cursor_t cursor, int flags);
1246 int     hammer_btree_iterate(hammer_cursor_t cursor);
1247 int     hammer_btree_iterate_reverse(hammer_cursor_t cursor);
1248 int     hammer_btree_insert(hammer_cursor_t cursor,
1249                             hammer_btree_leaf_elm_t elm, int *doprop);
1250 int     hammer_btree_delete(hammer_cursor_t cursor, int *ndelete);
1251 void    hammer_btree_do_propagation(hammer_cursor_t cursor,
1252                             hammer_pseudofs_inmem_t pfsm,
1253                             hammer_btree_leaf_elm_t leaf);
1254 int     hammer_btree_cmp(hammer_base_elm_t key1, hammer_base_elm_t key2);
1255 int     hammer_btree_chkts(hammer_tid_t ts, hammer_base_elm_t key);
1256 int     hammer_btree_correct_rhb(hammer_cursor_t cursor, hammer_tid_t tid);
1257 int     hammer_btree_correct_lhb(hammer_cursor_t cursor, hammer_tid_t tid);
1258
1259 int     btree_set_parent(hammer_transaction_t trans, hammer_node_t node,
1260                         hammer_btree_elm_t elm);
1261 void    hammer_node_lock_init(hammer_node_lock_t parent, hammer_node_t node);
1262 void    hammer_btree_lcache_init(hammer_mount_t hmp, hammer_node_lock_t lcache,
1263                         int depth);
1264 void    hammer_btree_lcache_free(hammer_mount_t hmp, hammer_node_lock_t lcache);
1265 int     hammer_btree_lock_children(hammer_cursor_t cursor, int depth,
1266                         hammer_node_lock_t parent,
1267                         hammer_node_lock_t lcache);
1268 void    hammer_btree_lock_copy(hammer_cursor_t cursor,
1269                         hammer_node_lock_t parent);
1270 int     hammer_btree_sync_copy(hammer_cursor_t cursor,
1271                         hammer_node_lock_t parent);
1272 void    hammer_btree_unlock_children(hammer_mount_t hmp,
1273                         hammer_node_lock_t parent,
1274                         hammer_node_lock_t lcache);
1275 int     hammer_btree_search_node(hammer_base_elm_t elm, hammer_node_ondisk_t node);
1276 hammer_node_t hammer_btree_get_parent(hammer_transaction_t trans,
1277                         hammer_node_t node, int *parent_indexp,
1278                         int *errorp, int try_exclusive);
1279
1280 void    hammer_print_btree_node(hammer_node_ondisk_t ondisk);
1281 void    hammer_print_btree_elm(hammer_btree_elm_t elm, u_int8_t type, int i);
1282
1283 void    *hammer_bread(hammer_mount_t hmp, hammer_off_t off,
1284                         int *errorp, struct hammer_buffer **bufferp);
1285 void    *hammer_bnew(hammer_mount_t hmp, hammer_off_t off,
1286                         int *errorp, struct hammer_buffer **bufferp);
1287 void    *hammer_bread_ext(hammer_mount_t hmp, hammer_off_t off, int bytes,
1288                         int *errorp, struct hammer_buffer **bufferp);
1289 void    *hammer_bnew_ext(hammer_mount_t hmp, hammer_off_t off, int bytes,
1290                         int *errorp, struct hammer_buffer **bufferp);
1291
1292 hammer_volume_t hammer_get_root_volume(hammer_mount_t hmp, int *errorp);
1293
1294 hammer_volume_t hammer_get_volume(hammer_mount_t hmp,
1295                         int32_t vol_no, int *errorp);
1296 hammer_buffer_t hammer_get_buffer(hammer_mount_t hmp, hammer_off_t buf_offset,
1297                         int bytes, int isnew, int *errorp);
1298 void            hammer_sync_buffers(hammer_mount_t hmp,
1299                         hammer_off_t base_offset, int bytes);
1300 int             hammer_del_buffers(hammer_mount_t hmp,
1301                         hammer_off_t base_offset,
1302                         hammer_off_t zone2_offset, int bytes,
1303                         int report_conflicts);
1304
1305 int             hammer_ref_volume(hammer_volume_t volume);
1306 int             hammer_ref_buffer(hammer_buffer_t buffer);
1307 void            hammer_flush_buffer_nodes(hammer_buffer_t buffer);
1308
1309 void            hammer_rel_volume(hammer_volume_t volume, int locked);
1310 void            hammer_rel_buffer(hammer_buffer_t buffer, int locked);
1311
1312 int             hammer_vfs_export(struct mount *mp, int op,
1313                         const struct export_args *export);
1314 hammer_node_t   hammer_get_node(hammer_transaction_t trans,
1315                         hammer_off_t node_offset, int isnew, int *errorp);
1316 void            hammer_ref_node(hammer_node_t node);
1317 hammer_node_t   hammer_ref_node_safe(hammer_transaction_t trans,
1318                         hammer_node_cache_t cache, int *errorp);
1319 void            hammer_rel_node(hammer_node_t node);
1320 void            hammer_delete_node(hammer_transaction_t trans,
1321                         hammer_node_t node);
1322 void            hammer_cache_node(hammer_node_cache_t cache,
1323                         hammer_node_t node);
1324 void            hammer_uncache_node(hammer_node_cache_t cache);
1325 void            hammer_flush_node(hammer_node_t node, int locked);
1326
1327 void hammer_dup_buffer(struct hammer_buffer **bufferp,
1328                         struct hammer_buffer *buffer);
1329 hammer_node_t hammer_alloc_btree(hammer_transaction_t trans,
1330                         hammer_off_t hint, int *errorp);
1331 void *hammer_alloc_data(hammer_transaction_t trans, int32_t data_len,
1332                         u_int16_t rec_type, hammer_off_t *data_offsetp,
1333                         struct hammer_buffer **data_bufferp,
1334                         hammer_off_t hint, int *errorp);
1335
1336 int hammer_generate_undo(hammer_transaction_t trans,
1337                         hammer_off_t zone_offset, void *base, int len);
1338 int hammer_generate_redo(hammer_transaction_t trans, hammer_inode_t ip,
1339                         hammer_off_t file_offset, u_int32_t flags,
1340                         void *base, int len);
1341 void hammer_generate_redo_sync(hammer_transaction_t trans);
1342 void hammer_redo_fifo_start_flush(hammer_inode_t ip);
1343 void hammer_redo_fifo_end_flush(hammer_inode_t ip);
1344
1345 void hammer_format_undo(void *base, u_int32_t seqno);
1346 int hammer_upgrade_undo_4(hammer_transaction_t trans);
1347
1348 void hammer_put_volume(struct hammer_volume *volume, int flush);
1349 void hammer_put_buffer(struct hammer_buffer *buffer, int flush);
1350
1351 hammer_off_t hammer_freemap_alloc(hammer_transaction_t trans,
1352                         hammer_off_t owner, int *errorp);
1353 void hammer_freemap_free(hammer_transaction_t trans, hammer_off_t phys_offset,
1354                         hammer_off_t owner, int *errorp);
1355 int _hammer_checkspace(hammer_mount_t hmp, int slop, int64_t *resp);
1356 hammer_off_t hammer_blockmap_alloc(hammer_transaction_t trans, int zone,
1357                         int bytes, hammer_off_t hint, int *errorp);
1358 hammer_reserve_t hammer_blockmap_reserve(hammer_mount_t hmp, int zone,
1359                         int bytes, hammer_off_t *zone_offp, int *errorp);
1360 hammer_reserve_t hammer_blockmap_reserve_dedup(hammer_mount_t hmp, int zone,
1361                         int bytes, hammer_off_t zone_offset, int *errorp);
1362 void hammer_blockmap_reserve_complete(hammer_mount_t hmp,
1363                         hammer_reserve_t resv);
1364 void hammer_reserve_clrdelay(hammer_mount_t hmp, hammer_reserve_t resv);
1365 void hammer_blockmap_free(hammer_transaction_t trans,
1366                         hammer_off_t zone_offset, int bytes);
1367 int hammer_blockmap_dedup(hammer_transaction_t trans,
1368                         hammer_off_t zone_offset, int bytes);
1369 int hammer_blockmap_finalize(hammer_transaction_t trans,
1370                         hammer_reserve_t resv,
1371                         hammer_off_t zone_offset, int bytes);
1372 int hammer_blockmap_getfree(hammer_mount_t hmp, hammer_off_t zone_offset,
1373                         int *curp, int *errorp);
1374 hammer_off_t hammer_blockmap_lookup_verify(hammer_mount_t hmp,
1375                         hammer_off_t zone_offset, int *errorp);
1376
1377 hammer_off_t hammer_undo_lookup(hammer_mount_t hmp, hammer_off_t zone_offset,
1378                         int *errorp);
1379 int64_t hammer_undo_used(hammer_transaction_t trans);
1380 int64_t hammer_undo_space(hammer_transaction_t trans);
1381 int64_t hammer_undo_max(hammer_mount_t hmp);
1382 int hammer_undo_reclaim(hammer_io_t io);
1383
1384 void hammer_start_transaction(struct hammer_transaction *trans,
1385                               struct hammer_mount *hmp);
1386 void hammer_simple_transaction(struct hammer_transaction *trans,
1387                               struct hammer_mount *hmp);
1388 void hammer_start_transaction_fls(struct hammer_transaction *trans,
1389                                   struct hammer_mount *hmp);
1390 void hammer_done_transaction(struct hammer_transaction *trans);
1391 hammer_tid_t hammer_alloc_tid(hammer_mount_t hmp, int count);
1392
1393 void hammer_modify_inode(hammer_transaction_t trans, hammer_inode_t ip, int flags);
1394 void hammer_flush_inode(hammer_inode_t ip, int flags);
1395 void hammer_flush_inode_done(hammer_inode_t ip, int error);
1396 void hammer_wait_inode(hammer_inode_t ip);
1397
1398 int  hammer_create_inode(struct hammer_transaction *trans, struct vattr *vap,
1399                         struct ucred *cred, struct hammer_inode *dip,
1400                         const char *name, int namelen,
1401                         hammer_pseudofs_inmem_t pfsm,
1402                         struct hammer_inode **ipp);
1403 void hammer_rel_inode(hammer_inode_t ip, int flush);
1404 int hammer_reload_inode(hammer_inode_t ip, void *arg __unused);
1405 int hammer_ino_rb_compare(hammer_inode_t ip1, hammer_inode_t ip2);
1406 int hammer_redo_rb_compare(hammer_inode_t ip1, hammer_inode_t ip2);
1407 int hammer_destroy_inode_callback(hammer_inode_t ip, void *data __unused);
1408
1409 int hammer_sync_inode(hammer_transaction_t trans, hammer_inode_t ip);
1410 void hammer_test_inode(hammer_inode_t dip);
1411 void hammer_inode_unloadable_check(hammer_inode_t ip, int getvp);
1412 int hammer_update_atime_quick(hammer_inode_t ip);
1413
1414 int  hammer_ip_add_directory(struct hammer_transaction *trans,
1415                         hammer_inode_t dip, const char *name, int bytes,
1416                         hammer_inode_t nip);
1417 int  hammer_ip_del_directory(struct hammer_transaction *trans,
1418                         hammer_cursor_t cursor, hammer_inode_t dip,
1419                         hammer_inode_t ip);
1420 void hammer_ip_replace_bulk(hammer_mount_t hmp, hammer_record_t record);
1421 hammer_record_t hammer_ip_add_bulk(hammer_inode_t ip, off_t file_offset,
1422                         void *data, int bytes, int *errorp);
1423 int  hammer_ip_frontend_trunc(struct hammer_inode *ip, off_t file_size);
1424 int  hammer_ip_add_record(struct hammer_transaction *trans,
1425                         hammer_record_t record);
1426 int  hammer_ip_delete_range(hammer_cursor_t cursor, hammer_inode_t ip,
1427                         int64_t ran_beg, int64_t ran_end, int truncating);
1428 int  hammer_ip_delete_clean(hammer_cursor_t cursor, hammer_inode_t ip,
1429                         int *countp);
1430 int  hammer_ip_sync_data(hammer_cursor_t cursor, hammer_inode_t ip,
1431                         int64_t offset, void *data, int bytes);
1432 int  hammer_ip_sync_record(hammer_transaction_t trans, hammer_record_t rec);
1433 int  hammer_ip_sync_record_cursor(hammer_cursor_t cursor, hammer_record_t rec);
1434 hammer_pseudofs_inmem_t  hammer_load_pseudofs(hammer_transaction_t trans,
1435                         u_int32_t localization, int *errorp);
1436 int  hammer_mkroot_pseudofs(hammer_transaction_t trans, struct ucred *cred,
1437                         hammer_pseudofs_inmem_t pfsm);
1438 int  hammer_save_pseudofs(hammer_transaction_t trans,
1439                         hammer_pseudofs_inmem_t pfsm);
1440 int  hammer_unload_pseudofs(hammer_transaction_t trans, u_int32_t localization);
1441 void hammer_rel_pseudofs(hammer_mount_t hmp, hammer_pseudofs_inmem_t pfsm);
1442 int hammer_ioctl(hammer_inode_t ip, u_long com, caddr_t data, int fflag,
1443                         struct ucred *cred);
1444
1445 void hammer_io_init(hammer_io_t io, hammer_volume_t volume,
1446                         enum hammer_io_type type);
1447 int hammer_io_read(struct vnode *devvp, struct hammer_io *io, int limit);
1448 void hammer_io_advance(struct hammer_io *io);
1449 int hammer_io_new(struct vnode *devvp, struct hammer_io *io);
1450 int hammer_io_inval(hammer_volume_t volume, hammer_off_t zone2_offset);
1451 struct buf *hammer_io_release(struct hammer_io *io, int flush);
1452 void hammer_io_flush(struct hammer_io *io, int reclaim);
1453 void hammer_io_wait(struct hammer_io *io);
1454 void hammer_io_waitdep(struct hammer_io *io);
1455 void hammer_io_wait_all(hammer_mount_t hmp, const char *ident, int doflush);
1456 int hammer_io_direct_read(hammer_mount_t hmp, struct bio *bio,
1457                         hammer_btree_leaf_elm_t leaf);
1458 int hammer_io_indirect_read(hammer_mount_t hmp, struct bio *bio,
1459                         hammer_btree_leaf_elm_t leaf);
1460 int hammer_io_direct_write(hammer_mount_t hmp, struct bio *bio,
1461                         hammer_record_t record);
1462 void hammer_io_direct_wait(hammer_record_t record);
1463 void hammer_io_direct_uncache(hammer_mount_t hmp, hammer_btree_leaf_elm_t leaf);
1464 void hammer_io_write_interlock(hammer_io_t io);
1465 void hammer_io_done_interlock(hammer_io_t io);
1466 void hammer_io_clear_modify(struct hammer_io *io, int inval);
1467 void hammer_io_clear_modlist(struct hammer_io *io);
1468 void hammer_io_flush_sync(hammer_mount_t hmp);
1469 void hammer_io_clear_error(struct hammer_io *io);
1470 void hammer_io_clear_error_noassert(struct hammer_io *io);
1471 void hammer_io_notmeta(hammer_buffer_t buffer);
1472 void hammer_io_limit_backlog(hammer_mount_t hmp);
1473
1474 void hammer_modify_volume(hammer_transaction_t trans, hammer_volume_t volume,
1475                         void *base, int len);
1476 void hammer_modify_buffer(hammer_transaction_t trans, hammer_buffer_t buffer,
1477                         void *base, int len);
1478 void hammer_modify_volume_done(hammer_volume_t volume);
1479 void hammer_modify_buffer_done(hammer_buffer_t buffer);
1480
1481 int hammer_ioc_reblock(hammer_transaction_t trans, hammer_inode_t ip,
1482                         struct hammer_ioc_reblock *reblock);
1483 int hammer_ioc_rebalance(hammer_transaction_t trans, hammer_inode_t ip,
1484                         struct hammer_ioc_rebalance *rebal);
1485 int hammer_ioc_prune(hammer_transaction_t trans, hammer_inode_t ip,
1486                         struct hammer_ioc_prune *prune);
1487 int hammer_ioc_mirror_read(hammer_transaction_t trans, hammer_inode_t ip,
1488                         struct hammer_ioc_mirror_rw *mirror);
1489 int hammer_ioc_mirror_write(hammer_transaction_t trans, hammer_inode_t ip,
1490                         struct hammer_ioc_mirror_rw *mirror);
1491 int hammer_ioc_set_pseudofs(hammer_transaction_t trans, hammer_inode_t ip,
1492                         struct ucred *cred, struct hammer_ioc_pseudofs_rw *pfs);
1493 int hammer_ioc_get_pseudofs(hammer_transaction_t trans, hammer_inode_t ip,
1494                         struct hammer_ioc_pseudofs_rw *pfs);
1495 int hammer_ioc_destroy_pseudofs(hammer_transaction_t trans, hammer_inode_t ip,
1496                         struct hammer_ioc_pseudofs_rw *pfs);
1497 int hammer_ioc_downgrade_pseudofs(hammer_transaction_t trans, hammer_inode_t ip,
1498                         struct hammer_ioc_pseudofs_rw *pfs);
1499 int hammer_ioc_upgrade_pseudofs(hammer_transaction_t trans, hammer_inode_t ip,
1500                         struct hammer_ioc_pseudofs_rw *pfs);
1501 int hammer_ioc_wait_pseudofs(hammer_transaction_t trans, hammer_inode_t ip,
1502                         struct hammer_ioc_pseudofs_rw *pfs);
1503 int hammer_ioc_iterate_pseudofs(hammer_transaction_t trans, hammer_inode_t ip,
1504                         struct hammer_ioc_pfs_iterate *pi);
1505 int hammer_ioc_volume_add(hammer_transaction_t trans, hammer_inode_t ip,
1506                         struct hammer_ioc_volume *ioc);
1507 int hammer_ioc_volume_del(hammer_transaction_t trans, hammer_inode_t ip,
1508                         struct hammer_ioc_volume *ioc);
1509 int hammer_ioc_volume_list(hammer_transaction_t trans, hammer_inode_t ip,
1510                         struct hammer_ioc_volume_list *ioc);
1511 int hammer_ioc_dedup(hammer_transaction_t trans, hammer_inode_t ip,
1512                         struct hammer_ioc_dedup *dedup);
1513
1514 int hammer_signal_check(hammer_mount_t hmp);
1515
1516 void hammer_flusher_create(hammer_mount_t hmp);
1517 void hammer_flusher_destroy(hammer_mount_t hmp);
1518 void hammer_flusher_sync(hammer_mount_t hmp);
1519 int  hammer_flusher_async(hammer_mount_t hmp, hammer_flush_group_t flg);
1520 int  hammer_flusher_async_one(hammer_mount_t hmp);
1521 int hammer_flusher_running(hammer_mount_t hmp);
1522 void hammer_flusher_wait(hammer_mount_t hmp, int seq);
1523 void hammer_flusher_wait_next(hammer_mount_t hmp);
1524 int  hammer_flusher_meta_limit(hammer_mount_t hmp);
1525 int  hammer_flusher_meta_halflimit(hammer_mount_t hmp);
1526 int  hammer_flusher_undo_exhausted(hammer_transaction_t trans, int quarter);
1527 void hammer_flusher_clean_loose_ios(hammer_mount_t hmp);
1528 void hammer_flusher_finalize(hammer_transaction_t trans, int final);
1529 int  hammer_flusher_haswork(hammer_mount_t hmp);
1530 int  hammer_flush_dirty(hammer_mount_t hmp, int max_count);
1531 void hammer_flusher_flush_undos(hammer_mount_t hmp, int already_flushed);
1532
1533 int hammer_recover_stage1(hammer_mount_t hmp, hammer_volume_t rootvol);
1534 int hammer_recover_stage2(hammer_mount_t hmp, hammer_volume_t rootvol);
1535 void hammer_recover_flush_buffers(hammer_mount_t hmp,
1536                         hammer_volume_t root_volume, int final);
1537
1538 void hammer_crc_set_blockmap(hammer_blockmap_t blockmap);
1539 void hammer_crc_set_volume(hammer_volume_ondisk_t ondisk);
1540 void hammer_crc_set_leaf(void *data, hammer_btree_leaf_elm_t leaf);
1541
1542 int hammer_crc_test_blockmap(hammer_blockmap_t blockmap);
1543 int hammer_crc_test_volume(hammer_volume_ondisk_t ondisk);
1544 int hammer_crc_test_btree(hammer_node_ondisk_t ondisk);
1545 int hammer_crc_test_leaf(void *data, hammer_btree_leaf_elm_t leaf);
1546 void hkprintf(const char *ctl, ...) __printflike(1, 2);
1547 udev_t hammer_fsid_to_udev(uuid_t *uuid);
1548
1549
1550 int hammer_blocksize(int64_t file_offset);
1551 int hammer_blockoff(int64_t file_offset);
1552 int64_t hammer_blockdemarc(int64_t file_offset1, int64_t file_offset2);
1553
1554 /*
1555  * Shortcut for _hammer_checkspace(), used all over the code.
1556  */
1557 static __inline int
1558 hammer_checkspace(hammer_mount_t hmp, int slop)
1559 {
1560         return(_hammer_checkspace(hmp, slop, NULL));
1561 }
1562
1563 static __inline void
1564 hammer_wait_mem_record(hammer_record_t record)
1565 {
1566         hammer_wait_mem_record_ident(record, "hmmwai");
1567 }
1568
1569 static __inline void
1570 hammer_lock_ex(struct hammer_lock *lock)
1571 {
1572         hammer_lock_ex_ident(lock, "hmrlck");
1573 }
1574
1575 static __inline void
1576 hammer_modify_volume_noundo(hammer_transaction_t trans, hammer_volume_t volume)
1577 {
1578         hammer_modify_volume(trans, volume, NULL, 0);
1579 }
1580
1581 static __inline void
1582 hammer_modify_buffer_noundo(hammer_transaction_t trans, hammer_buffer_t buffer)
1583 {
1584         hammer_modify_buffer(trans, buffer, NULL, 0);
1585 }
1586
1587 /*
1588  * Indicate that a B-Tree node is being modified.
1589  */
1590 static __inline void
1591 hammer_modify_node_noundo(hammer_transaction_t trans, hammer_node_t node)
1592 {
1593         KKASSERT((node->flags & HAMMER_NODE_CRCBAD) == 0);
1594         hammer_modify_buffer(trans, node->buffer, NULL, 0);
1595 }
1596
1597 static __inline void
1598 hammer_modify_node_all(hammer_transaction_t trans, struct hammer_node *node)
1599 {
1600         KKASSERT((node->flags & HAMMER_NODE_CRCBAD) == 0);
1601         hammer_modify_buffer(trans, node->buffer,
1602                              node->ondisk, sizeof(*node->ondisk));
1603 }
1604
1605 static __inline void
1606 hammer_modify_node(hammer_transaction_t trans, hammer_node_t node,
1607                    void *base, int len)
1608 {
1609         hammer_crc_t *crcptr;
1610
1611         KKASSERT((char *)base >= (char *)node->ondisk &&
1612                  (char *)base + len <=
1613                     (char *)node->ondisk + sizeof(*node->ondisk));
1614         KKASSERT((node->flags & HAMMER_NODE_CRCBAD) == 0);
1615
1616         if (hammer_btree_full_undo) {
1617                 hammer_modify_node_all(trans, node);
1618         } else {
1619                 hammer_modify_buffer(trans, node->buffer, base, len);
1620                 crcptr = &node->ondisk->crc;
1621                 hammer_modify_buffer(trans, node->buffer,
1622                                      crcptr, sizeof(hammer_crc_t));
1623                 --node->buffer->io.modify_refs; /* only want one ref */
1624         }
1625 }
1626
1627 /*
1628  * Indicate that the specified modifications have been completed.
1629  *
1630  * Do not try to generate the crc here, it's very expensive to do and a
1631  * sequence of insertions or deletions can result in many calls to this
1632  * function on the same node.
1633  */
1634 static __inline void
1635 hammer_modify_node_done(hammer_node_t node)
1636 {
1637         node->flags |= HAMMER_NODE_CRCGOOD;
1638         if ((node->flags & HAMMER_NODE_NEEDSCRC) == 0) {
1639                 node->flags |= HAMMER_NODE_NEEDSCRC;
1640                 node->buffer->io.gencrc = 1;
1641                 hammer_ref_node(node);
1642         }
1643         hammer_modify_buffer_done(node->buffer);
1644 }
1645
1646 /*
1647  * Lookup a blockmap offset.
1648  */
1649 static __inline hammer_off_t
1650 hammer_blockmap_lookup(hammer_mount_t hmp, hammer_off_t zone_offset,
1651                         int *errorp)
1652 {
1653 #if defined INVARIANTS
1654         int zone = HAMMER_ZONE_DECODE(zone_offset);
1655         KKASSERT(zone >= HAMMER_ZONE2_MAPPED_INDEX && zone < HAMMER_MAX_ZONES);
1656 #endif
1657
1658         /*
1659          * We can actually skip blockmap verify by default,
1660          * as normal blockmaps are now direct-mapped onto the freemap
1661          * and so represent zone-2 addresses.
1662          */
1663         if (hammer_verify_zone == 0) {
1664                 *errorp = 0;
1665                 return hammer_xlate_to_zone2(zone_offset);
1666         }
1667
1668         return hammer_blockmap_lookup_verify(hmp, zone_offset, errorp);
1669 }
1670
1671 #define hammer_modify_volume_field(trans, vol, field)           \
1672         hammer_modify_volume(trans, vol, &(vol)->ondisk->field, \
1673                              sizeof((vol)->ondisk->field))
1674
1675 #define hammer_modify_node_field(trans, node, field)            \
1676         hammer_modify_node(trans, node, &(node)->ondisk->field, \
1677                              sizeof((node)->ondisk->field))
1678
1679 /*
1680  * The HAMMER_INODE_CAP_DIR_LOCAL_INO capability is set on newly
1681  * created directories for HAMMER version 2 or greater and causes
1682  * directory entries to be placed the inode localization zone in
1683  * the B-Tree instead of the misc zone.
1684  *
1685  * This greatly improves localization between directory entries and
1686  * inodes
1687  */
1688 static __inline u_int32_t
1689 hammer_dir_localization(hammer_inode_t dip)
1690 {
1691         if (dip->ino_data.cap_flags & HAMMER_INODE_CAP_DIR_LOCAL_INO)
1692                 return(HAMMER_LOCALIZE_INODE);
1693         else
1694                 return(HAMMER_LOCALIZE_MISC);
1695 }
1696 #endif  /* _KERNEL */