2 * Copyright (c) 2011-2013 The DragonFly Project. All rights reserved.
4 * This code is derived from software contributed to The DragonFly Project
5 * by Matthew Dillon <dillon@dragonflybsd.org>
6 * by Venkatesh Srinivas <vsrinivas@dragonflybsd.org>
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
12 * 1. Redistributions of source code must retain the above copyright
13 * notice, this list of conditions and the following disclaimer.
14 * 2. Redistributions in binary form must reproduce the above copyright
15 * notice, this list of conditions and the following disclaimer in
16 * the documentation and/or other materials provided with the
18 * 3. Neither the name of The DragonFly Project nor the names of its
19 * contributors may be used to endorse or promote products derived
20 * from this software without specific, prior written permission.
22 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
23 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
24 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
25 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
26 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
27 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
28 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
29 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
30 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
31 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
32 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
37 * This header file contains structures used internally by the HAMMER2
38 * implementation. See hammer2_disk.h for on-disk structures.
41 #ifndef _VFS_HAMMER2_HAMMER2_H_
42 #define _VFS_HAMMER2_HAMMER2_H_
44 #include <sys/param.h>
45 #include <sys/types.h>
46 #include <sys/kernel.h>
48 #include <sys/systm.h>
50 #include <sys/malloc.h>
51 #include <sys/mount.h>
52 #include <sys/vnode.h>
54 #include <sys/mountctl.h>
57 #include <sys/thread.h>
58 #include <sys/globaldata.h>
59 #include <sys/lockf.h>
61 #include <sys/queue.h>
62 #include <sys/limits.h>
64 #include <sys/signal2.h>
67 #include "hammer2_disk.h"
68 #include "hammer2_mount.h"
69 #include "hammer2_ioctl.h"
70 #include "hammer2_ccms.h"
75 struct hammer2_pfsmount;
81 * The chain structure tracks blockref recursions all the way to the root
82 * volume. These consist of indirect blocks, inodes, and eventually the
83 * volume header itself.
85 * In situations where a duplicate is needed to represent different snapshots
86 * or flush points a new chain will be allocated but associated with the
87 * same shared chain_core. The RBTREE is contained in the shared chain_core
88 * and entries in the RBTREE are versioned.
90 * Duplication can occur whenever a chain must be modified. Note that
91 * a deletion is not considered a modification.
93 * (a) General modifications at data leafs
94 * (b) When a chain is resized
95 * (c) When a chain's blockref array is updated
96 * (d) When a chain is renamed
97 * (e) When a chain is moved (when an indirect block is split)
101 * (1) Fully coherent snapshots can be taken without requiring
102 * a pre-flush, resulting in extremely fast (sub-millisecond)
105 * (2) Multiple synchronization points can be in-flight at the same
106 * time, representing multiple snapshots or flushes.
108 * (3) The algorithms needed to keep track of everything are actually
111 * Special Considerations:
113 * A chain is ref-counted on a per-chain basis, but the chain's lock
114 * is associated with the shared chain_core and is not per-chain.
116 * Each chain is representative of a filesystem topology. Even
117 * though the shared chain_core's are effectively multi-homed, the
118 * chain structure is not.
120 * chain->parent is a stable pointer and can be iterated without locking
121 * as long as either the chain or *any* deep child under the chain
124 RB_HEAD(hammer2_chain_tree, hammer2_chain);
125 TAILQ_HEAD(flush_deferral_list, hammer2_chain);
127 struct hammer2_chain_core {
129 struct hammer2_chain_tree rbtree;
130 struct hammer2_chain *first_parent;
135 typedef struct hammer2_chain_core hammer2_chain_core_t;
137 #define HAMMER2_CORE_INDIRECT 0x0001
139 struct hammer2_chain {
140 RB_ENTRY(hammer2_chain) rbnode;
141 hammer2_blockref_t bref;
142 hammer2_chain_core_t *core;
143 hammer2_chain_core_t *above;
144 struct hammer2_chain *next_parent;
145 struct hammer2_state *state; /* if active cache msg */
146 struct hammer2_mount *hmp;
148 hammer2_tid_t modify_tid; /* snapshot/flush filter */
149 hammer2_tid_t delete_tid;
150 hammer2_key_t data_count; /* delta's to apply */
151 hammer2_key_t inode_count; /* delta's to apply */
152 struct buf *bp; /* physical data buffer */
153 u_int bytes; /* physical data size */
154 int index; /* blockref index in parent */
158 hammer2_media_data_t *data; /* data pointer shortcut */
159 TAILQ_ENTRY(hammer2_chain) flush_node; /* flush deferral list */
162 typedef struct hammer2_chain hammer2_chain_t;
164 int hammer2_chain_cmp(hammer2_chain_t *chain1, hammer2_chain_t *chain2);
165 RB_PROTOTYPE(hammer2_chain_tree, hammer2_chain, rbnode, hammer2_chain_cmp);
168 * Special notes on flags:
170 * INITIAL - This flag allows a chain to be created and for storage to
171 * be allocated without having to immediately instantiate the
172 * related buffer. The data is assumed to be all-zeros. It
173 * is primarily used for indirect blocks.
175 * MOVED - A modified chain becomes MOVED after it flushes. A chain
176 * can also become MOVED if it is moved within the topology
177 * (even if not modified).
179 #define HAMMER2_CHAIN_MODIFIED 0x00000001 /* dirty chain data */
180 #define HAMMER2_CHAIN_ALLOCATED 0x00000002 /* kmalloc'd chain */
181 #define HAMMER2_CHAIN_DIRTYBP 0x00000004 /* dirty on unlock */
182 #define HAMMER2_CHAIN_SUBMODIFIED 0x00000008 /* recursive flush */
183 #define HAMMER2_CHAIN_DELETED 0x00000010 /* deleted chain */
184 #define HAMMER2_CHAIN_INITIAL 0x00000020 /* initial create */
185 #define HAMMER2_CHAIN_FLUSHED 0x00000040 /* flush on unlock */
186 #define HAMMER2_CHAIN_MOVED 0x00000080 /* bref changed */
187 #define HAMMER2_CHAIN_IOFLUSH 0x00000100 /* bawrite on put */
188 #define HAMMER2_CHAIN_DEFERRED 0x00000200 /* on a deferral list */
189 #define HAMMER2_CHAIN_DESTROYED 0x00000400 /* destroying inode */
190 #define HAMMER2_CHAIN_VOLUMESYNC 0x00000800 /* needs volume sync */
191 #define HAMMER2_CHAIN_RECYCLE 0x00001000 /* force recycle */
192 #define HAMMER2_CHAIN_MOUNTED 0x00002000 /* PFS is mounted */
193 #define HAMMER2_CHAIN_ONRBTREE 0x00004000 /* on parent RB tree */
194 #define HAMMER2_CHAIN_SNAPSHOT 0x00008000 /* snapshot special */
195 #define HAMMER2_CHAIN_EMBEDDED 0x00010000 /* embedded data */
198 * Flags passed to hammer2_chain_lookup() and hammer2_chain_next()
200 * NOTE: MATCHIND allows an indirect block / freemap node to be returned
201 * when the passed key range matches the radix. Remember that key_end
202 * is inclusive (e.g. {0x000,0xFFF}, not {0x000,0x1000}).
204 #define HAMMER2_LOOKUP_NOLOCK 0x00000001 /* ref only */
205 #define HAMMER2_LOOKUP_NODATA 0x00000002 /* data left NULL */
206 #define HAMMER2_LOOKUP_SHARED 0x00000100
207 #define HAMMER2_LOOKUP_MATCHIND 0x00000200
208 #define HAMMER2_LOOKUP_FREEMAP 0x00000400 /* freemap base */
209 #define HAMMER2_LOOKUP_ALWAYS 0x00000800 /* resolve data */
212 * Flags passed to hammer2_chain_modify() and hammer2_chain_resize()
214 * NOTE: OPTDATA allows us to avoid instantiating buffers for INDIRECT
215 * blocks in the INITIAL-create state.
217 #define HAMMER2_MODIFY_OPTDATA 0x00000002 /* data can be NULL */
218 #define HAMMER2_MODIFY_NO_MODIFY_TID 0x00000004
219 #define HAMMER2_MODIFY_ASSERTNOCOPY 0x00000008
220 #define HAMMER2_MODIFY_NOREALLOC 0x00000010
223 * Flags passed to hammer2_chain_lock()
225 #define HAMMER2_RESOLVE_NEVER 1
226 #define HAMMER2_RESOLVE_MAYBE 2
227 #define HAMMER2_RESOLVE_ALWAYS 3
228 #define HAMMER2_RESOLVE_MASK 0x0F
230 #define HAMMER2_RESOLVE_SHARED 0x10 /* request shared lock */
231 #define HAMMER2_RESOLVE_NOREF 0x20 /* already ref'd on lock */
234 * Flags passed to hammer2_chain_delete()
236 #define HAMMER2_DELETE_WILLDUP 0x0001 /* no blk free, will be dup */
239 * Flags passed to hammer2_chain_delete_duplicate()
241 #define HAMMER2_DELDUP_RECORE 0x0001
244 * Cluster different types of storage together for allocations
246 #define HAMMER2_FREECACHE_INODE 0
247 #define HAMMER2_FREECACHE_INDIR 1
248 #define HAMMER2_FREECACHE_DATA 2
249 #define HAMMER2_FREECACHE_UNUSED3 3
250 #define HAMMER2_FREECACHE_TYPES 4
253 * hammer2_freemap_alloc() block preference
255 #define HAMMER2_OFF_NOPREF ((hammer2_off_t)-1)
258 * BMAP read-ahead maximum parameters
260 #define HAMMER2_BMAP_COUNT 16 /* max bmap read-ahead */
261 #define HAMMER2_BMAP_BYTES (HAMMER2_PBUFSIZE * HAMMER2_BMAP_COUNT)
266 #define HAMMER2_FLUSH_DEPTH_LIMIT 40 /* stack recursion limit */
269 * HAMMER2 IN-MEMORY CACHE OF MEDIA STRUCTURES
271 * There is an in-memory representation of all on-media data structure.
273 * When accessed read-only the data will be mapped to the related buffer
276 * When accessed read-write (marked modified) a kmalloc()'d copy of the
277 * is created which can then be modified. The copy is destroyed when a
278 * filesystem block is allocated to replace it.
280 * Active inodes (those with vnodes attached) will maintain the kmalloc()'d
281 * copy for both the read-only and the read-write case. The combination of
282 * (bp) and (data) determines whether (data) was allocated or not.
284 * The in-memory representation may remain cached (for example in order to
285 * placemark clustering locks) even after the related data has been
289 RB_HEAD(hammer2_inode_tree, hammer2_inode);
294 * NOTE: The inode's attribute CST which is also used to lock the inode
295 * is embedded in the chain (chain.cst) and aliased w/ attr_cst.
297 struct hammer2_inode {
298 RB_ENTRY(hammer2_inode) rbnode; /* inumber lookup (HL) */
299 ccms_cst_t topo_cst; /* directory topology cst */
300 struct hammer2_pfsmount *pmp; /* PFS mount */
301 struct hammer2_inode *pip; /* parent inode */
303 hammer2_chain_t *chain; /* NOTE: rehomed on rename */
304 struct lockf advlock;
307 u_int refs; /* +vpref, +flushref */
310 typedef struct hammer2_inode hammer2_inode_t;
312 #define HAMMER2_INODE_MODIFIED 0x0001
313 #define HAMMER2_INODE_SROOT 0x0002 /* kmalloc special case */
314 #define HAMMER2_INODE_RENAME_INPROG 0x0004
315 #define HAMMER2_INODE_ONRBTREE 0x0008
317 int hammer2_inode_cmp(hammer2_inode_t *ip1, hammer2_inode_t *ip2);
318 RB_PROTOTYPE2(hammer2_inode_tree, hammer2_inode, rbnode, hammer2_inode_cmp,
322 * A hammer2 transaction and flush sequencing structure.
324 * This global structure is tied into hammer2_mount and is used
325 * to sequence modifying operations and flushes.
327 * (a) Any modifying operations with sync_tid >= flush_tid will stall until
328 * all modifying operating with sync_tid < flush_tid complete.
330 * The flush related to flush_tid stalls until all modifying operations
331 * with sync_tid < flush_tid complete.
333 * (b) Once unstalled, modifying operations with sync_tid > flush_tid are
334 * allowed to run. All modifications cause modify/duplicate operations
335 * to occur on the related chains. Note that most INDIRECT blocks will
336 * be unaffected because the modifications just overload the RBTREE
337 * structurally instead of actually modifying the indirect blocks.
339 * (c) The actual flush unstalls and RUNS CONCURRENTLY with (b), but only
340 * utilizes the chain structures with sync_tid <= flush_tid. The
341 * flush will modify related indirect blocks and inodes in-place
342 * (rather than duplicate) since the adjustments are compatible with
343 * (b)'s RBTREE overloading
345 * SPECIAL NOTE: Inode modifications have to also propagate along any
346 * modify/duplicate chains. File writes detect the flush
347 * and force out the conflicting buffer cache buffer(s)
348 * before reusing them.
350 * (d) Snapshots can be made instantly but must be flushed and disconnected
351 * from their duplicative source before they can be mounted. This is
352 * because while H2's on-media structure supports forks, its in-memory
353 * structure only supports very simple forking for background flushing
356 * TODO: Flush merging. When fsync() is called on multiple discrete files
357 * concurrently there is no reason to stall the second fsync.
358 * The final flush that reaches to root can cover both fsync()s.
360 * The chains typically terminate as they fly onto the disk. The flush
361 * ultimately reaches the volume header.
363 struct hammer2_trans {
364 TAILQ_ENTRY(hammer2_trans) entry;
365 struct hammer2_pfsmount *pmp;
366 hammer2_tid_t sync_tid;
367 thread_t td; /* pointer */
370 uint8_t inodes_created;
374 typedef struct hammer2_trans hammer2_trans_t;
376 #define HAMMER2_TRANS_ISFLUSH 0x0001
377 #define HAMMER2_TRANS_RESTRICTED 0x0002 /* snapshot flush restrict */
379 #define HAMMER2_FREEMAP_HEUR_NRADIX 4 /* pwr 2 PBUFRADIX-MINIORADIX */
380 #define HAMMER2_FREEMAP_HEUR_TYPES 8
381 #define HAMMER2_FREEMAP_HEUR (HAMMER2_FREEMAP_HEUR_NRADIX * \
382 HAMMER2_FREEMAP_HEUR_TYPES)
385 * Global (per device) mount structure for device (aka vp->v_mount->hmp)
387 TAILQ_HEAD(hammer2_trans_queue, hammer2_trans);
389 struct hammer2_mount {
390 struct vnode *devvp; /* device vnode */
391 int ronly; /* read-only mount */
392 int pmp_count; /* PFS mounts backed by us */
393 TAILQ_ENTRY(hammer2_mount) mntentry; /* hammer2_mntlist */
395 struct malloc_type *mchain;
398 hammer2_chain_t vchain; /* anchor chain */
399 hammer2_chain_t fchain; /* freemap chain special */
400 hammer2_chain_t *schain; /* super-root */
401 hammer2_inode_t *sroot; /* super-root inode */
402 struct lock alloclk; /* lockmgr lock */
403 struct lock voldatalk; /* lockmgr lock */
404 struct hammer2_trans_queue transq; /* all in-progress transactions */
405 hammer2_trans_t *curflush; /* current flush in progress */
406 hammer2_tid_t topo_flush_tid; /* currently synchronizing flush pt */
407 hammer2_tid_t free_flush_tid; /* currently synchronizing flush pt */
408 hammer2_off_t heur_freemap[HAMMER2_FREEMAP_HEUR];
409 int flushcnt; /* #of flush trans on the list */
411 int volhdrno; /* last volhdrno written */
412 hammer2_volume_data_t voldata;
413 hammer2_volume_data_t volsync; /* synchronized voldata */
416 typedef struct hammer2_mount hammer2_mount_t;
419 * HAMMER2 cluster - a device/root associated with a PFS.
421 * A PFS may have several hammer2_cluster's associated with it.
423 struct hammer2_cluster {
424 struct hammer2_mount *hmp; /* device global mount */
425 hammer2_chain_t *rchain; /* PFS root chain */
428 typedef struct hammer2_cluster hammer2_cluster_t;
431 * HAMMER2 PFS mount point structure (aka vp->v_mount->mnt_data).
433 * This structure represents a cluster mount and not necessarily a
434 * PFS under a specific device mount (HMP). The distinction is important
435 * because the elements backing a cluster mount can change on the fly.
437 struct hammer2_pfsmount {
438 struct mount *mp; /* kernel mount */
439 hammer2_cluster_t *mount_cluster;
440 hammer2_cluster_t *cluster;
441 hammer2_inode_t *iroot; /* PFS root inode */
442 hammer2_off_t inode_count; /* copy of inode_count */
443 ccms_domain_t ccms_dom;
444 struct netexport export; /* nfs export */
445 int ronly; /* read-only mount */
446 struct malloc_type *minode;
447 struct malloc_type *mmsg;
449 struct spinlock inum_spin; /* inumber lookup */
450 struct hammer2_inode_tree inum_tree;
453 typedef struct hammer2_pfsmount hammer2_pfsmount_t;
455 struct hammer2_cbinfo {
456 hammer2_chain_t *chain;
457 void (*func)(hammer2_chain_t *, struct buf *, char *, void *);
462 typedef struct hammer2_cbinfo hammer2_cbinfo_t;
466 MALLOC_DECLARE(M_HAMMER2);
468 #define VTOI(vp) ((hammer2_inode_t *)(vp)->v_data)
469 #define ITOV(ip) ((ip)->vp)
472 * Currently locked chains retain the locked buffer cache buffer for
473 * indirect blocks, and indirect blocks can be one of two sizes. The
474 * device buffer has to match the case to avoid deadlocking recursive
475 * chains that might otherwise try to access different offsets within
476 * the same device buffer.
480 hammer2_devblkradix(int radix)
483 if (radix <= HAMMER2_LBUFRADIX) {
484 return (HAMMER2_LBUFRADIX);
486 return (HAMMER2_PBUFRADIX);
489 return (HAMMER2_PBUFRADIX);
495 hammer2_devblksize(size_t bytes)
498 if (bytes <= HAMMER2_LBUFSIZE) {
499 return(HAMMER2_LBUFSIZE);
501 KKASSERT(bytes <= HAMMER2_PBUFSIZE &&
502 (bytes ^ (bytes - 1)) == ((bytes << 1) - 1));
503 return (HAMMER2_PBUFSIZE);
506 KKASSERT(bytes <= HAMMER2_PBUFSIZE &&
507 (bytes ^ (bytes - 1)) == ((bytes << 1) - 1));
508 return(HAMMER2_PBUFSIZE);
515 MPTOPMP(struct mount *mp)
517 return ((hammer2_pfsmount_t *)mp->mnt_data);
522 MPTOHMP(struct mount *mp)
524 return (((hammer2_pfsmount_t *)mp->mnt_data)->cluster->hmp);
529 hammer2_chain_refactor_test(hammer2_chain_t *chain, int traverse_hlink)
531 if ((chain->flags & HAMMER2_CHAIN_DELETED) &&
532 chain->next_parent &&
533 (chain->next_parent->flags & HAMMER2_CHAIN_SNAPSHOT) == 0) {
536 if (traverse_hlink &&
537 chain->bref.type == HAMMER2_BREF_TYPE_INODE &&
538 chain->data->ipdata.type == HAMMER2_OBJTYPE_HARDLINK &&
539 chain->next_parent &&
540 (chain->next_parent->flags & HAMMER2_CHAIN_SNAPSHOT) == 0) {
547 extern struct vop_ops hammer2_vnode_vops;
548 extern struct vop_ops hammer2_spec_vops;
549 extern struct vop_ops hammer2_fifo_vops;
551 extern int hammer2_debug;
552 extern int hammer2_cluster_enable;
553 extern int hammer2_hardlink_enable;
554 extern long hammer2_iod_file_read;
555 extern long hammer2_iod_meta_read;
556 extern long hammer2_iod_indr_read;
557 extern long hammer2_iod_fmap_read;
558 extern long hammer2_iod_volu_read;
559 extern long hammer2_iod_file_write;
560 extern long hammer2_iod_meta_write;
561 extern long hammer2_iod_indr_write;
562 extern long hammer2_iod_fmap_write;
563 extern long hammer2_iod_volu_write;
564 extern long hammer2_ioa_file_read;
565 extern long hammer2_ioa_meta_read;
566 extern long hammer2_ioa_indr_read;
567 extern long hammer2_ioa_fmap_read;
568 extern long hammer2_ioa_volu_read;
569 extern long hammer2_ioa_file_write;
570 extern long hammer2_ioa_meta_write;
571 extern long hammer2_ioa_indr_write;
572 extern long hammer2_ioa_fmap_write;
573 extern long hammer2_ioa_volu_write;
578 #define hammer2_icrc32(buf, size) iscsi_crc32((buf), (size))
579 #define hammer2_icrc32c(buf, size, crc) iscsi_crc32_ext((buf), (size), (crc))
581 hammer2_chain_t *hammer2_inode_lock_ex(hammer2_inode_t *ip);
582 hammer2_chain_t *hammer2_inode_lock_sh(hammer2_inode_t *ip);
583 void hammer2_inode_unlock_ex(hammer2_inode_t *ip, hammer2_chain_t *chain);
584 void hammer2_inode_unlock_sh(hammer2_inode_t *ip, hammer2_chain_t *chain);
585 void hammer2_voldata_lock(hammer2_mount_t *hmp);
586 void hammer2_voldata_unlock(hammer2_mount_t *hmp, int modify);
587 ccms_state_t hammer2_inode_lock_temp_release(hammer2_inode_t *ip);
588 void hammer2_inode_lock_temp_restore(hammer2_inode_t *ip, ccms_state_t ostate);
589 ccms_state_t hammer2_inode_lock_upgrade(hammer2_inode_t *ip);
590 void hammer2_inode_lock_downgrade(hammer2_inode_t *ip, ccms_state_t ostate);
592 void hammer2_mount_exlock(hammer2_mount_t *hmp);
593 void hammer2_mount_shlock(hammer2_mount_t *hmp);
594 void hammer2_mount_unlock(hammer2_mount_t *hmp);
596 int hammer2_get_dtype(hammer2_chain_t *chain);
597 int hammer2_get_vtype(hammer2_chain_t *chain);
598 u_int8_t hammer2_get_obj_type(enum vtype vtype);
599 void hammer2_time_to_timespec(u_int64_t xtime, struct timespec *ts);
600 u_int64_t hammer2_timespec_to_time(struct timespec *ts);
601 u_int32_t hammer2_to_unix_xid(uuid_t *uuid);
602 void hammer2_guid_to_uuid(uuid_t *uuid, u_int32_t guid);
604 hammer2_key_t hammer2_dirhash(const unsigned char *name, size_t len);
605 int hammer2_getradix(size_t bytes);
607 int hammer2_calc_logical(hammer2_inode_t *ip, hammer2_off_t uoff,
608 hammer2_key_t *lbasep, hammer2_key_t *leofp);
609 void hammer2_update_time(uint64_t *timep);
614 struct vnode *hammer2_igetv(hammer2_inode_t *ip, int *errorp);
616 void hammer2_inode_lock_nlinks(hammer2_inode_t *ip);
617 void hammer2_inode_unlock_nlinks(hammer2_inode_t *ip);
618 hammer2_inode_t *hammer2_inode_lookup(hammer2_pfsmount_t *pmp,
620 hammer2_inode_t *hammer2_inode_get(hammer2_pfsmount_t *pmp,
621 hammer2_inode_t *dip, hammer2_chain_t *chain);
622 void hammer2_inode_free(hammer2_inode_t *ip);
623 void hammer2_inode_ref(hammer2_inode_t *ip);
624 void hammer2_inode_drop(hammer2_inode_t *ip);
625 void hammer2_inode_repoint(hammer2_inode_t *ip, hammer2_inode_t *pip,
626 hammer2_chain_t *chain);
628 hammer2_inode_t *hammer2_inode_create(hammer2_trans_t *trans,
629 hammer2_inode_t *dip,
630 struct vattr *vap, struct ucred *cred,
631 const uint8_t *name, size_t name_len,
632 hammer2_chain_t **chainp, int *errorp);
633 int hammer2_inode_connect(hammer2_trans_t *trans, int hlink,
634 hammer2_inode_t *dip, hammer2_chain_t **chainp,
635 const uint8_t *name, size_t name_len);
636 hammer2_inode_t *hammer2_inode_common_parent(hammer2_inode_t *fdip,
637 hammer2_inode_t *tdip);
639 int hammer2_unlink_file(hammer2_trans_t *trans, hammer2_inode_t *dip,
640 const uint8_t *name, size_t name_len, int isdir,
642 int hammer2_hardlink_consolidate(hammer2_trans_t *trans, hammer2_inode_t *ip,
643 hammer2_chain_t **chainp,
644 hammer2_inode_t *tdip, int linkcnt);
645 int hammer2_hardlink_deconsolidate(hammer2_trans_t *trans, hammer2_inode_t *dip,
646 hammer2_chain_t **chainp, hammer2_chain_t **ochainp);
647 int hammer2_hardlink_find(hammer2_inode_t *dip,
648 hammer2_chain_t **chainp, hammer2_chain_t **ochainp);
653 void hammer2_modify_volume(hammer2_mount_t *hmp);
654 hammer2_chain_t *hammer2_chain_alloc(hammer2_mount_t *hmp,
655 hammer2_trans_t *trans,
656 hammer2_blockref_t *bref);
657 void hammer2_chain_core_alloc(hammer2_chain_t *chain,
658 hammer2_chain_core_t *core);
659 void hammer2_chain_ref(hammer2_chain_t *chain);
660 void hammer2_chain_drop(hammer2_chain_t *chain);
661 int hammer2_chain_lock(hammer2_chain_t *chain, int how);
662 void hammer2_chain_load_async(hammer2_chain_t *chain,
663 void (*func)(hammer2_chain_t *, struct buf *,
666 void hammer2_chain_moved(hammer2_chain_t *chain);
667 void hammer2_chain_modify(hammer2_trans_t *trans,
668 hammer2_chain_t **chainp, int flags);
669 hammer2_inode_data_t *hammer2_chain_modify_ip(hammer2_trans_t *trans,
670 hammer2_inode_t *ip, hammer2_chain_t **chainp,
672 void hammer2_chain_resize(hammer2_trans_t *trans, hammer2_inode_t *ip,
674 hammer2_chain_t *parent,
675 hammer2_chain_t **chainp,
676 int nradix, int flags);
677 void hammer2_chain_unlock(hammer2_chain_t *chain);
678 void hammer2_chain_wait(hammer2_chain_t *chain);
679 hammer2_chain_t *hammer2_chain_find(hammer2_chain_t *parent, int index);
680 hammer2_chain_t *hammer2_chain_get(hammer2_chain_t *parent, int index,
682 hammer2_chain_t *hammer2_chain_lookup_init(hammer2_chain_t *parent, int flags);
683 void hammer2_chain_lookup_done(hammer2_chain_t *parent);
684 hammer2_chain_t *hammer2_chain_lookup(hammer2_chain_t **parentp,
685 hammer2_key_t key_beg, hammer2_key_t key_end,
687 hammer2_chain_t *hammer2_chain_next(hammer2_chain_t **parentp,
688 hammer2_chain_t *chain,
689 hammer2_key_t key_beg, hammer2_key_t key_end,
691 int hammer2_chain_iterate(hammer2_chain_t *parent,
692 int (*callback)(hammer2_chain_t *parent,
693 hammer2_chain_t **chainp,
695 void *arg, int flags);
697 int hammer2_chain_create(hammer2_trans_t *trans,
698 hammer2_chain_t **parentp,
699 hammer2_chain_t **chainp,
700 hammer2_key_t key, int keybits,
701 int type, size_t bytes);
702 void hammer2_chain_duplicate(hammer2_trans_t *trans, hammer2_chain_t *parent,
704 hammer2_chain_t **chainp,
705 hammer2_blockref_t *bref);
706 int hammer2_chain_snapshot(hammer2_trans_t *trans, hammer2_inode_t *ip,
707 hammer2_ioc_pfs_t *pfs);
708 void hammer2_chain_delete(hammer2_trans_t *trans, hammer2_chain_t *chain,
710 void hammer2_chain_delete_duplicate(hammer2_trans_t *trans,
711 hammer2_chain_t **chainp, int flags);
712 void hammer2_chain_flush(hammer2_trans_t *trans, hammer2_chain_t *chain);
713 void hammer2_chain_commit(hammer2_trans_t *trans, hammer2_chain_t *chain);
714 void hammer2_chain_setsubmod(hammer2_trans_t *trans, hammer2_chain_t *chain);
719 void hammer2_trans_init(hammer2_trans_t *trans,
720 hammer2_pfsmount_t *pmp, int flags);
721 void hammer2_trans_done(hammer2_trans_t *trans);
726 int hammer2_ioctl(hammer2_inode_t *ip, u_long com, void *data,
727 int fflag, struct ucred *cred);
732 int hammer2_msg_dbg_rcvmsg(kdmsg_msg_t *msg);
733 int hammer2_msg_adhoc_input(kdmsg_msg_t *msg);
738 void hammer2_clusterctl_wakeup(kdmsg_iocom_t *iocom);
739 void hammer2_volconf_update(hammer2_pfsmount_t *pmp, int index);
740 void hammer2_cluster_reconnect(hammer2_pfsmount_t *pmp, struct file *fp);
741 void hammer2_dump_chain(hammer2_chain_t *chain, int tab, int *countp);
746 int hammer2_freemap_alloc(hammer2_trans_t *trans, hammer2_mount_t *hmp,
747 hammer2_blockref_t *bref, size_t bytes);
748 void hammer2_freemap_free(hammer2_trans_t *trans, hammer2_mount_t *hmp,
749 hammer2_blockref_t *bref, int how);
752 #endif /* !_KERNEL */
753 #endif /* !_VFS_HAMMER2_HAMMER2_H_ */