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29 #include <sys/param.h>
30 #include <sys/systm.h>
32 #include <sys/buf_internal.h>
33 #include <sys/kernel.h>
34 #include <sys/malloc.h>
35 #include <sys/mount.h>
36 #include <sys/vnode.h>
40 #include "hfs_cnode.h"
42 #include "hfs_endian.h"
43 #include "hfs_btreeio.h"
45 #include "hfscommon/headers/FileMgrInternal.h"
46 #include "hfscommon/headers/BTreesPrivate.h"
48 #define FORCESYNCBTREEWRITES 0
50 /* From bsd/vfs/vfs_bio.c */
51 extern int bdwrite_internal(struct buf
*, int);
53 static int ClearBTNodes(struct vnode
*vp
, int blksize
, off_t offset
, off_t amount
);
54 static int btree_journal_modify_block_end(struct hfsmount
*hfsmp
, struct buf
*bp
);
56 void btree_swap_node(struct buf
*bp
, __unused
void *arg
);
59 * Return btree node size for given vnode.
62 * For btree vnode, returns btree node size.
63 * For non-btree vnodes, returns 0.
65 u_int16_t
get_btree_nodesize(struct vnode
*vp
)
67 BTreeControlBlockPtr btree
;
68 u_int16_t node_size
= 0;
70 if (vnode_issystem(vp
)) {
71 btree
= (BTreeControlBlockPtr
) VTOF(vp
)->fcbBTCBPtr
;
73 node_size
= btree
->nodeSize
;
80 OSStatus
SetBTreeBlockSize(FileReference vp
, ByteCount blockSize
, __unused ItemCount minBlockCount
)
82 BTreeControlBlockPtr bTreePtr
;
84 DBG_ASSERT(vp
!= NULL
);
85 DBG_ASSERT(blockSize
>= kMinNodeSize
);
86 if (blockSize
> MAXBSIZE
)
87 return (fsBTBadNodeSize
);
89 bTreePtr
= (BTreeControlBlockPtr
)VTOF(vp
)->fcbBTCBPtr
;
90 bTreePtr
->nodeSize
= blockSize
;
96 OSStatus
GetBTreeBlock(FileReference vp
, u_int32_t blockNum
, GetBlockOptions options
, BlockDescriptor
*block
)
98 OSStatus retval
= E_NONE
;
99 struct buf
*bp
= NULL
;
100 u_int8_t allow_empty_node
;
102 /* If the btree block is being read using hint, it is
103 * fine for the swap code to find zeroed out nodes.
105 if (options
& kGetBlockHint
) {
106 allow_empty_node
= true;
108 allow_empty_node
= false;
111 if (options
& kGetEmptyBlock
) {
115 offset
= (daddr64_t
)blockNum
* (daddr64_t
)block
->blockSize
;
116 bp
= buf_getblk(vp
, (daddr64_t
)blockNum
, block
->blockSize
, 0, 0, BLK_META
);
118 VNOP_BLOCKMAP(vp
, offset
, block
->blockSize
, &blkno
, NULL
, NULL
, 0, NULL
) == 0) {
119 buf_setblkno(bp
, blkno
);
122 retval
= buf_meta_bread(vp
, (daddr64_t
)blockNum
, block
->blockSize
, NOCRED
, &bp
);
125 retval
= -1; //XXX need better error
127 if (retval
== E_NONE
) {
128 block
->blockHeader
= bp
;
129 block
->buffer
= (char *)buf_dataptr(bp
);
130 block
->blockNum
= buf_lblkno(bp
);
131 block
->blockReadFromDisk
= (buf_fromcache(bp
) == 0); /* not found in cache ==> came from disk */
134 block
->isModified
= 0;
136 /* Check and endian swap B-Tree node (only if it's a valid block) */
137 if (!(options
& kGetEmptyBlock
)) {
139 /* This happens when we first open the b-tree, we might not have all the node data on hand */
140 if ((((BTNodeDescriptor
*)block
->buffer
)->kind
== kBTHeaderNode
) &&
141 (((BTHeaderRec
*)((char *)block
->buffer
+ 14))->nodeSize
!= buf_count(bp
)) &&
142 (SWAP_BE16 (((BTHeaderRec
*)((char *)block
->buffer
+ 14))->nodeSize
) != buf_count(bp
))) {
145 * Don't swap the node descriptor, record offsets, or other records.
146 * This record will be invalidated and re-read with the correct node
147 * size once the B-tree control block is set up with the node size
148 * from the header record.
150 retval
= hfs_swap_BTNode (block
, vp
, kSwapBTNodeHeaderRecordOnly
, allow_empty_node
);
154 * In this case, we have enough data in-hand to do basic validation
155 * on the B-Tree node.
157 if (block
->blockReadFromDisk
) {
159 * The node was just read from disk, so always swap/check it.
160 * This is necessary on big endian since the test below won't trigger.
162 retval
= hfs_swap_BTNode (block
, vp
, kSwapBTNodeBigToHost
, allow_empty_node
);
166 * Block wasn't read from disk; it was found in the cache.
168 if (*((u_int16_t
*)((char *)block
->buffer
+ (block
->blockSize
- sizeof (u_int16_t
)))) == 0x0e00) {
170 * The node was left in the cache in non-native order, so swap it.
171 * This only happens on little endian, after the node is written
174 retval
= hfs_swap_BTNode (block
, vp
, kSwapBTNodeBigToHost
, allow_empty_node
);
176 else if (*((u_int16_t
*)((char *)block
->buffer
+ (block
->blockSize
- sizeof (u_int16_t
)))) == 0x000e) {
178 * The node was in-cache in native-endianness. We don't need to do
179 * anything here, because the node is ready to use. Set retval == 0.
184 * If the node doesn't have hex 14 (0xe) in the last two bytes of the buffer,
185 * it doesn't necessarily mean that this is a bad node. Zeroed nodes that are
186 * marked as unused in the b-tree map node would be OK and not have valid content.
192 * If we got an error, then the node is only partially swapped.
193 * We mark the buffer invalid so that the next attempt to get the
194 * node will read it and attempt to swap again, and will notice
195 * the error again. If we didn't do this, the next attempt to get
196 * the node might use the partially swapped node as-is.
206 block
->blockHeader
= NULL
;
207 block
->buffer
= NULL
;
214 void ModifyBlockStart(FileReference vp
, BlockDescPtr blockPtr
)
216 struct hfsmount
*hfsmp
= VTOHFS(vp
);
217 struct buf
*bp
= NULL
;
219 if (hfsmp
->jnl
== NULL
) {
223 bp
= (struct buf
*) blockPtr
->blockHeader
;
225 panic("hfs: ModifyBlockStart: null bp for blockdescptr %p?!?\n", blockPtr
);
229 journal_modify_block_start(hfsmp
->jnl
, bp
);
230 blockPtr
->isModified
= 1;
234 btree_swap_node(struct buf
*bp
, __unused
void *arg
)
236 // struct hfsmount *hfsmp = (struct hfsmount *)arg;
238 struct vnode
*vp
= buf_vnode(bp
);
239 BlockDescriptor block
;
241 /* Prepare the block pointer */
242 block
.blockHeader
= bp
;
243 block
.buffer
= (char *)buf_dataptr(bp
);
244 block
.blockNum
= buf_lblkno(bp
);
245 /* not found in cache ==> came from disk */
246 block
.blockReadFromDisk
= (buf_fromcache(bp
) == 0);
247 block
.blockSize
= buf_count(bp
);
249 /* Swap the data now that this node is ready to go to disk.
250 * We allow swapping of zeroed out nodes here because we might
251 * be writing node whose last record just got deleted.
253 retval
= hfs_swap_BTNode (&block
, vp
, kSwapBTNodeHostToBig
, true);
255 panic("hfs: btree_swap_node: about to write corrupt node!\n");
260 btree_journal_modify_block_end(struct hfsmount
*hfsmp
, struct buf
*bp
)
262 return journal_modify_block_end(hfsmp
->jnl
, bp
, btree_swap_node
, hfsmp
);
266 OSStatus
ReleaseBTreeBlock(FileReference vp
, BlockDescPtr blockPtr
, ReleaseBlockOptions options
)
268 struct hfsmount
*hfsmp
= VTOHFS(vp
);
269 OSStatus retval
= E_NONE
;
270 struct buf
*bp
= NULL
;
272 bp
= (struct buf
*) blockPtr
->blockHeader
;
279 if (options
& kTrashBlock
) {
282 if (hfsmp
->jnl
&& (buf_flags(bp
) & B_LOCKED
)) {
283 journal_kill_block(hfsmp
->jnl
, bp
);
285 buf_brelse(bp
); /* note: B-tree code will clear blockPtr->blockHeader and blockPtr->buffer */
288 /* Don't let anyone else try to use this bp, it's been consumed */
289 blockPtr
->blockHeader
= NULL
;
292 if (options
& kForceWriteBlock
) {
294 if (blockPtr
->isModified
== 0) {
295 panic("hfs: releaseblock: modified is 0 but forcewrite set! bp %p\n", bp
);
298 retval
= btree_journal_modify_block_end(hfsmp
, bp
);
299 blockPtr
->isModified
= 0;
301 retval
= VNOP_BWRITE(bp
);
304 /* Don't let anyone else try to use this bp, it's been consumed */
305 blockPtr
->blockHeader
= NULL
;
307 } else if (options
& kMarkBlockDirty
) {
310 if ((options
& kLockTransaction
) && hfsmp
->jnl
== NULL
) {
313 * Set the B_LOCKED flag and unlock the buffer, causing buf_brelse to move
314 * the buffer onto the LOCKED free list. This is necessary, otherwise
315 * getnewbuf() would try to reclaim the buffers using buf_bawrite, which
316 * isn't going to work.
319 /* Don't hog all the buffers... */
320 if (count_lock_queue() > kMaxLockedMetaBuffers
) {
321 hfs_btsync(vp
, HFS_SYNCTRANS
);
322 /* Rollback sync time to cause a sync on lock release... */
323 (void) BTSetLastSync(VTOF(vp
), tv
.tv_sec
- (kMaxSecsForFsync
+ 1));
325 buf_setflags(bp
, B_LOCKED
);
329 * Delay-write this block.
330 * If the maximum delayed buffers has been exceeded then
331 * free up some buffers and fall back to an asynchronous write.
334 if (blockPtr
->isModified
== 0) {
335 panic("hfs: releaseblock: modified is 0 but markdirty set! bp %p\n", bp
);
337 retval
= btree_journal_modify_block_end(hfsmp
, bp
);
338 blockPtr
->isModified
= 0;
339 } else if (bdwrite_internal(bp
, 1) != 0) {
341 /* Rollback sync time to cause a sync on lock release... */
342 (void) BTSetLastSync(VTOF(vp
), tv
.tv_sec
- (kMaxSecsForFsync
+ 1));
344 buf_clearflags(bp
, B_LOCKED
);
348 /* Don't let anyone else try to use this bp, it's been consumed */
349 blockPtr
->blockHeader
= NULL
;
352 // check if we had previously called journal_modify_block_start()
353 // on this block and if so, abort it (which will call buf_brelse()).
354 if (hfsmp
->jnl
&& blockPtr
->isModified
) {
355 // XXXdbg - I don't want to call modify_block_abort()
356 // because I think it may be screwing up the
357 // journal and blowing away a block that has
360 // journal_modify_block_abort(hfsmp->jnl, bp);
361 //panic("hfs: releaseblock called for 0x%x but mod_block_start previously called.\n", bp);
362 btree_journal_modify_block_end(hfsmp
, bp
);
363 blockPtr
->isModified
= 0;
365 buf_brelse(bp
); /* note: B-tree code will clear blockPtr->blockHeader and blockPtr->buffer */
368 /* Don't let anyone else try to use this bp, it's been consumed */
369 blockPtr
->blockHeader
= NULL
;
378 OSStatus
ExtendBTreeFile(FileReference vp
, FSSize minEOF
, FSSize maxEOF
)
380 #pragma unused (maxEOF)
382 OSStatus retval
= 0, ret
= 0;
383 int64_t actualBytesAdded
, origSize
;
384 u_int64_t bytesToAdd
;
385 u_int32_t startAllocation
;
386 u_int32_t fileblocks
;
390 struct proc
*p
= NULL
;
394 filePtr
= GetFileControlBlock(vp
);
396 if ( (off_t
)minEOF
> filePtr
->fcbEOF
)
398 bytesToAdd
= minEOF
- filePtr
->fcbEOF
;
400 if (bytesToAdd
< filePtr
->ff_clumpsize
)
401 bytesToAdd
= filePtr
->ff_clumpsize
; //XXX why not always be a mutiple of clump size?
411 * The Extents B-tree can't have overflow extents. ExtendFileC will
412 * return an error if an attempt is made to extend the Extents B-tree
413 * when the resident extents are exhausted.
416 /* Protect allocation bitmap and extents overflow file. */
417 lockflags
= SFL_BITMAP
;
418 if (VTOC(vp
)->c_fileid
!= kHFSExtentsFileID
)
419 lockflags
|= SFL_EXTENTS
;
420 lockflags
= hfs_systemfile_lock(vcb
, lockflags
, HFS_EXCLUSIVE_LOCK
);
422 (void) BTGetInformation(filePtr
, 0, &btInfo
);
426 * The b-tree code expects nodes to be contiguous. So when
427 * the allocation block size is less than the b-tree node
428 * size, we need to force disk allocations to be contiguous.
430 if (vcb
->blockSize
>= btInfo
.nodeSize
) {
433 /* Ensure that all b-tree nodes are contiguous on disk */
434 extendFlags
= kEFContigMask
;
438 origSize
= filePtr
->fcbEOF
;
439 fileblocks
= filePtr
->ff_blocks
;
440 startAllocation
= vcb
->nextAllocation
;
442 // loop trying to get a contiguous chunk that's an integer multiple
443 // of the btree node size. if we can't get a contiguous chunk that
444 // is at least the node size then we break out of the loop and let
445 // the error propagate back up.
446 while((off_t
)bytesToAdd
>= btInfo
.nodeSize
) {
448 retval
= ExtendFileC(vcb
, filePtr
, bytesToAdd
, 0,
449 kEFContigMask
| kEFMetadataMask
| kEFNoClumpMask
,
450 (int64_t *)&actualBytesAdded
);
451 if (retval
== dskFulErr
&& actualBytesAdded
== 0) {
453 if (bytesToAdd
< btInfo
.nodeSize
) {
455 } else if ((bytesToAdd
% btInfo
.nodeSize
) != 0) {
456 // make sure it's an integer multiple of the nodeSize
457 bytesToAdd
-= (bytesToAdd
% btInfo
.nodeSize
);
460 } while (retval
== dskFulErr
&& actualBytesAdded
== 0);
462 if (retval
== dskFulErr
&& actualBytesAdded
== 0 && bytesToAdd
<= btInfo
.nodeSize
) {
466 filePtr
->fcbEOF
= (u_int64_t
)filePtr
->ff_blocks
* (u_int64_t
)vcb
->blockSize
;
467 bytesToAdd
= minEOF
- filePtr
->fcbEOF
;
471 * If a new extent was added then move the roving allocator
472 * reference forward by the current b-tree file size so
473 * there's plenty of room to grow.
476 ((VCBTOHFS(vcb
)->hfs_flags
& HFS_METADATA_ZONE
) == 0) &&
477 (vcb
->nextAllocation
> startAllocation
) &&
478 ((vcb
->nextAllocation
+ fileblocks
) < vcb
->allocLimit
)) {
479 HFS_UPDATE_NEXT_ALLOCATION(vcb
, vcb
->nextAllocation
+ fileblocks
);
482 filePtr
->fcbEOF
= (u_int64_t
)filePtr
->ff_blocks
* (u_int64_t
)vcb
->blockSize
;
484 // XXXdbg ExtendFileC() could have returned an error even though
485 // it grew the file to be big enough for our needs. If this is
486 // the case, we don't care about retval so we blow it away.
488 if (filePtr
->fcbEOF
>= (off_t
)minEOF
&& retval
!= 0) {
492 // XXXdbg if the file grew but isn't large enough or isn't an
493 // even multiple of the nodeSize then trim things back. if
494 // the file isn't large enough we trim back to the original
495 // size. otherwise we trim back to be an even multiple of the
498 if ((filePtr
->fcbEOF
< (off_t
)minEOF
) || ((filePtr
->fcbEOF
- origSize
) % btInfo
.nodeSize
) != 0) {
500 if (filePtr
->fcbEOF
< (off_t
)minEOF
) {
503 if (filePtr
->fcbEOF
< origSize
) {
504 panic("hfs: btree file eof %lld less than orig size %lld!\n",
505 filePtr
->fcbEOF
, origSize
);
508 trim
= filePtr
->fcbEOF
- origSize
;
510 trim
= ((filePtr
->fcbEOF
- origSize
) % btInfo
.nodeSize
);
513 ret
= TruncateFileC(vcb
, filePtr
, filePtr
->fcbEOF
- trim
, 0, 0, FTOC(filePtr
)->c_fileid
, 0);
514 filePtr
->fcbEOF
= (u_int64_t
)filePtr
->ff_blocks
* (u_int64_t
)vcb
->blockSize
;
516 // XXXdbg - panic if the file didn't get trimmed back properly
517 if ((filePtr
->fcbEOF
% btInfo
.nodeSize
) != 0) {
518 panic("hfs: truncate file didn't! fcbEOF %lld nsize %d fcb %p\n",
519 filePtr
->fcbEOF
, btInfo
.nodeSize
, filePtr
);
523 // XXXdbg - this probably doesn't need to be a panic()
524 panic("hfs: error truncating btree files (sz 0x%llx, trim %lld, ret %ld)\n",
525 filePtr
->fcbEOF
, trim
, (long)ret
);
530 if(VTOC(vp
)->c_fileid
!= kHFSExtentsFileID
) {
532 * Get any extents overflow b-tree changes to disk ASAP!
534 (void) BTFlushPath(VTOF(vcb
->extentsRefNum
));
535 (void) hfs_fsync(vcb
->extentsRefNum
, MNT_WAIT
, 0, p
);
537 hfs_systemfile_unlock(vcb
, lockflags
);
540 if ((filePtr
->fcbEOF
% btInfo
.nodeSize
) != 0) {
541 panic("hfs: extendbtree: fcb %p has eof 0x%llx not a multiple of 0x%x (trim %llx)\n",
542 filePtr
, filePtr
->fcbEOF
, btInfo
.nodeSize
, trim
);
546 * Update the Alternate MDB or Alternate VolumeHeader
548 if ((VTOC(vp
)->c_fileid
== kHFSExtentsFileID
) ||
549 (VTOC(vp
)->c_fileid
== kHFSCatalogFileID
) ||
550 (VTOC(vp
)->c_fileid
== kHFSAttributesFileID
)
552 VTOC(vp
)->c_flag
|= C_MODIFIED
;
554 ret
= hfs_flushvolumeheader(VCBTOHFS(vcb
), MNT_WAIT
, HFS_ALTFLUSH
);
556 VTOC(vp
)->c_touch_chgtime
= TRUE
;
557 VTOC(vp
)->c_touch_modtime
= TRUE
;
558 (void) hfs_update(vp
, TRUE
);
561 ret
= ClearBTNodes(vp
, btInfo
.nodeSize
, origSize
, (filePtr
->fcbEOF
- origSize
));
567 hfs_systemfile_unlock(vcb
, lockflags
);
574 * Clear out (zero) new b-tree nodes on disk.
577 ClearBTNodes(struct vnode
*vp
, int blksize
, off_t offset
, off_t amount
)
579 struct hfsmount
*hfsmp
= VTOHFS(vp
);
580 struct buf
*bp
= NULL
;
584 blk
= offset
/ blksize
;
585 blkcnt
= amount
/ blksize
;
588 bp
= buf_getblk(vp
, blk
, blksize
, 0, 0, BLK_META
);
594 // XXXdbg -- skipping this for now since it makes a transaction
595 // become *way* too large
596 //journal_modify_block_start(hfsmp->jnl, bp);
598 bzero((char *)buf_dataptr(bp
), blksize
);
604 // XXXdbg -- skipping this for now since it makes a transaction
605 // become *way* too large
606 //journal_modify_block_end(hfsmp->jnl, bp);
608 // XXXdbg - remove this once we decide what to do with the
609 // writes to the journal
615 /* wait/yield every 32 blocks so we don't hog all the buffers */
629 extern char hfs_attrname
[];
632 * Create an HFS+ Attribute B-tree File.
634 * No global resources should be held.
637 hfs_create_attr_btree(struct hfsmount
*hfsmp
, u_int32_t nodesize
, u_int32_t nodecnt
)
639 struct vnode
* vp
= NULLVP
;
640 struct cat_desc cndesc
;
641 struct cat_attr cnattr
;
642 struct cat_fork cfork
;
643 BlockDescriptor blkdesc
;
644 BTNodeDescriptor
*ndp
;
646 BTreeControlBlockPtr btcb
= NULL
;
647 struct buf
*bp
= NULL
;
651 u_int32_t node_num
, num_map_nodes
;
652 u_int32_t bytes_per_map_record
;
657 int newvnode_flags
= 0;
661 * Serialize creation using HFS_CREATING_BTREE flag.
663 hfs_lock_mount (hfsmp
);
664 if (hfsmp
->hfs_flags
& HFS_CREATING_BTREE
) {
665 /* Someone else beat us, wait for them to finish. */
666 (void) msleep(&hfsmp
->hfs_attribute_cp
, &hfsmp
->hfs_mutex
,
667 PDROP
| PINOD
, "hfs_create_attr_btree", 0);
668 if (hfsmp
->hfs_attribute_vp
) {
673 hfsmp
->hfs_flags
|= HFS_CREATING_BTREE
;
674 hfs_unlock_mount (hfsmp
);
676 /* Check if were out of usable disk space. */
677 if ((hfs_freeblks(hfsmp
, 1) == 0)) {
683 * Set up Attribute B-tree vnode
684 * (this must be done before we start a transaction
685 * or take any system file locks)
687 bzero(&cndesc
, sizeof(cndesc
));
688 cndesc
.cd_parentcnid
= kHFSRootParentID
;
689 cndesc
.cd_flags
|= CD_ISMETA
;
690 cndesc
.cd_nameptr
= (const u_int8_t
*)hfs_attrname
;
691 cndesc
.cd_namelen
= strlen(hfs_attrname
);
692 cndesc
.cd_cnid
= kHFSAttributesFileID
;
694 bzero(&cnattr
, sizeof(cnattr
));
695 cnattr
.ca_linkcount
= 1;
696 cnattr
.ca_mode
= S_IFREG
;
697 cnattr
.ca_fileid
= cndesc
.cd_cnid
;
699 bzero(&cfork
, sizeof(cfork
));
700 cfork
.cf_clump
= nodesize
* nodecnt
;
702 result
= hfs_getnewvnode(hfsmp
, NULL
, NULL
, &cndesc
, 0, &cnattr
,
703 &cfork
, &vp
, &newvnode_flags
);
708 * Set up Attribute B-tree control block
710 MALLOC(btcb
, BTreeControlBlock
*, sizeof(BTreeControlBlock
), M_TEMP
, M_WAITOK
);
711 bzero(btcb
, sizeof(BTreeControlBlock
));
713 btcb
->nodeSize
= nodesize
;
714 btcb
->maxKeyLength
= kHFSPlusAttrKeyMaximumLength
;
715 btcb
->btreeType
= 0xFF;
716 btcb
->attributes
= kBTVariableIndexKeysMask
| kBTBigKeysMask
;
717 btcb
->version
= kBTreeVersion
;
718 btcb
->writeCount
= 1;
719 btcb
->flags
= 0; /* kBTHeaderDirty */
720 btcb
->fileRefNum
= vp
;
721 btcb
->getBlockProc
= GetBTreeBlock
;
722 btcb
->releaseBlockProc
= ReleaseBTreeBlock
;
723 btcb
->setEndOfForkProc
= ExtendBTreeFile
;
724 btcb
->keyCompareProc
= (KeyCompareProcPtr
)hfs_attrkeycompare
;
725 VTOF(vp
)->fcbBTCBPtr
= btcb
;
728 * Allocate some space
730 if (hfs_start_transaction(hfsmp
) != 0) {
736 /* Note ExtendBTreeFile will acquire the necessary system file locks. */
737 result
= ExtendBTreeFile(vp
, nodesize
, cfork
.cf_clump
);
741 btcb
->totalNodes
= VTOF(vp
)->ff_size
/ nodesize
;
744 * Figure out how many map nodes we'll need.
746 * bytes_per_map_record = the number of bytes in the map record of a
747 * map node. Since that is the only record in the node, it is the size
748 * of the node minus the node descriptor at the start, and two record
749 * offsets at the end of the node. The "- 2" is to round the size down
750 * to a multiple of 4 bytes (since sizeof(BTNodeDescriptor) is not a
753 * The value "temp" here is the number of *bits* in the map record of
756 bytes_per_map_record
= nodesize
- sizeof(BTNodeDescriptor
) - 2*sizeof(u_int16_t
) - 2;
757 temp
= 8 * (nodesize
- sizeof(BTNodeDescriptor
)
758 - sizeof(BTHeaderRec
)
759 - kBTreeHeaderUserBytes
760 - 4 * sizeof(u_int16_t
));
761 if (btcb
->totalNodes
> temp
) {
762 num_map_nodes
= howmany(btcb
->totalNodes
- temp
, bytes_per_map_record
* 8);
768 btcb
->freeNodes
= btcb
->totalNodes
- 1 - num_map_nodes
;
771 * Initialize the b-tree header on disk
773 bp
= buf_getblk(vp
, 0, nodesize
, 0, 0, BLK_META
);
779 buffer
= (void *)buf_dataptr(bp
);
780 blkdesc
.buffer
= buffer
;
781 blkdesc
.blockHeader
= (void *)bp
;
782 blkdesc
.blockReadFromDisk
= 0;
783 blkdesc
.isModified
= 0;
785 ModifyBlockStart(vp
, &blkdesc
);
787 if (buf_size(bp
) != nodesize
)
788 panic("hfs_create_attr_btree: bad buffer size (%d)\n", buf_size(bp
));
790 bzero(buffer
, nodesize
);
791 index
= (u_int16_t
*)buffer
;
793 /* FILL IN THE NODE DESCRIPTOR: */
794 ndp
= (BTNodeDescriptor
*)buffer
;
795 if (num_map_nodes
!= 0)
797 ndp
->kind
= kBTHeaderNode
;
799 offset
= sizeof(BTNodeDescriptor
);
800 index
[(nodesize
/ 2) - 1] = offset
;
802 /* FILL IN THE HEADER RECORD: */
803 bthp
= (BTHeaderRec
*)((u_int8_t
*)buffer
+ offset
);
804 bthp
->nodeSize
= nodesize
;
805 bthp
->totalNodes
= btcb
->totalNodes
;
806 bthp
->freeNodes
= btcb
->freeNodes
;
807 bthp
->clumpSize
= cfork
.cf_clump
;
808 bthp
->btreeType
= 0xFF;
809 bthp
->attributes
= kBTVariableIndexKeysMask
| kBTBigKeysMask
;
810 bthp
->maxKeyLength
= kHFSPlusAttrKeyMaximumLength
;
811 bthp
->keyCompareType
= kHFSBinaryCompare
;
812 offset
+= sizeof(BTHeaderRec
);
813 index
[(nodesize
/ 2) - 2] = offset
;
815 /* FILL IN THE USER RECORD: */
816 offset
+= kBTreeHeaderUserBytes
;
817 index
[(nodesize
/ 2) - 3] = offset
;
819 /* Mark the header node and map nodes in use in the map record.
821 * NOTE: Assumes that the header node's map record has at least
822 * (num_map_nodes + 1) bits.
824 bitmap
= (u_int8_t
*) buffer
+ offset
;
825 temp
= num_map_nodes
+ 1; /* +1 for the header node */
830 *bitmap
= ~(0xFF >> temp
);
832 offset
+= nodesize
- sizeof(BTNodeDescriptor
) - sizeof(BTHeaderRec
)
833 - kBTreeHeaderUserBytes
- (4 * sizeof(int16_t));
834 index
[(nodesize
/ 2) - 4] = offset
;
837 result
= btree_journal_modify_block_end(hfsmp
, bp
);
839 result
= VNOP_BWRITE(bp
);
844 /* Create the map nodes: node numbers 1 .. num_map_nodes */
845 for (node_num
=1; node_num
<= num_map_nodes
; ++node_num
) {
846 bp
= buf_getblk(vp
, node_num
, nodesize
, 0, 0, BLK_META
);
851 buffer
= (void *)buf_dataptr(bp
);
852 blkdesc
.buffer
= buffer
;
853 blkdesc
.blockHeader
= (void *)bp
;
854 blkdesc
.blockReadFromDisk
= 0;
855 blkdesc
.isModified
= 0;
857 ModifyBlockStart(vp
, &blkdesc
);
859 bzero(buffer
, nodesize
);
860 index
= (u_int16_t
*)buffer
;
862 /* Fill in the node descriptor */
863 ndp
= (BTNodeDescriptor
*)buffer
;
864 if (node_num
!= num_map_nodes
)
865 ndp
->fLink
= node_num
+ 1;
866 ndp
->kind
= kBTMapNode
;
868 offset
= sizeof(BTNodeDescriptor
);
869 index
[(nodesize
/ 2) - 1] = offset
;
872 /* Fill in the map record's offset */
873 /* Note: We assume that the map record is all zeroes */
874 offset
= sizeof(BTNodeDescriptor
) + bytes_per_map_record
;
875 index
[(nodesize
/ 2) - 2] = offset
;
878 result
= btree_journal_modify_block_end(hfsmp
, bp
);
880 result
= VNOP_BWRITE(bp
);
886 /* Update vp/cp for attribute btree */
887 hfs_lock_mount (hfsmp
);
888 hfsmp
->hfs_attribute_cp
= VTOC(vp
);
889 hfsmp
->hfs_attribute_vp
= vp
;
890 hfs_unlock_mount (hfsmp
);
892 (void) hfs_flushvolumeheader(hfsmp
, MNT_WAIT
, HFS_ALTFLUSH
);
895 hfs_end_transaction(hfsmp
);
899 /* Initialize the vnode for virtual attribute data file */
900 result
= init_attrdata_vnode(hfsmp
);
902 printf("hfs_create_attr_btree: vol=%s init_attrdata_vnode() error=%d\n", hfsmp
->vcbVN
, result
);
907 hfs_unlock(VTOC(vp
));
916 /* XXX need to give back blocks ? */
919 hfs_end_transaction(hfsmp
);
923 * All done, clear HFS_CREATING_BTREE, and wake up any sleepers.
925 hfs_lock_mount (hfsmp
);
926 hfsmp
->hfs_flags
&= ~HFS_CREATING_BTREE
;
927 wakeup((caddr_t
)&hfsmp
->hfs_attribute_cp
);
928 hfs_unlock_mount (hfsmp
);