forked from Minki/linux
c201d9ca53
xfs_bmap_add_free isn't a block mapping function; it schedules deferred freeing operations for a later point in a compound transaction chain. While it's primarily used by bunmapi, its use has expanded beyond that. Move it to xfs_alloc.c and rename the function since it's now general freeing functionality. Bring the slab cache bits in line with the way we handle the other intent items. Signed-off-by: Darrick J. Wong <djwong@kernel.org> Reviewed-by: Chandan Babu R <chandan.babu@oracle.com>
699 lines
18 KiB
C
699 lines
18 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Copyright (c) 2000-2003,2005 Silicon Graphics, Inc.
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* All Rights Reserved.
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*/
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#include "xfs.h"
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#include "xfs_fs.h"
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#include "xfs_shared.h"
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#include "xfs_format.h"
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#include "xfs_log_format.h"
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#include "xfs_trans_resv.h"
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#include "xfs_bit.h"
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#include "xfs_mount.h"
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#include "xfs_inode.h"
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#include "xfs_trans.h"
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#include "xfs_alloc.h"
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#include "xfs_btree.h"
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#include "xfs_bmap_btree.h"
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#include "xfs_bmap.h"
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#include "xfs_error.h"
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#include "xfs_quota.h"
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#include "xfs_trace.h"
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#include "xfs_rmap.h"
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static struct kmem_cache *xfs_bmbt_cur_cache;
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/*
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* Convert on-disk form of btree root to in-memory form.
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*/
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void
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xfs_bmdr_to_bmbt(
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struct xfs_inode *ip,
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xfs_bmdr_block_t *dblock,
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int dblocklen,
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struct xfs_btree_block *rblock,
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int rblocklen)
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{
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struct xfs_mount *mp = ip->i_mount;
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int dmxr;
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xfs_bmbt_key_t *fkp;
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__be64 *fpp;
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xfs_bmbt_key_t *tkp;
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__be64 *tpp;
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xfs_btree_init_block_int(mp, rblock, XFS_BUF_DADDR_NULL,
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XFS_BTNUM_BMAP, 0, 0, ip->i_ino,
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XFS_BTREE_LONG_PTRS);
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rblock->bb_level = dblock->bb_level;
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ASSERT(be16_to_cpu(rblock->bb_level) > 0);
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rblock->bb_numrecs = dblock->bb_numrecs;
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dmxr = xfs_bmdr_maxrecs(dblocklen, 0);
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fkp = XFS_BMDR_KEY_ADDR(dblock, 1);
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tkp = XFS_BMBT_KEY_ADDR(mp, rblock, 1);
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fpp = XFS_BMDR_PTR_ADDR(dblock, 1, dmxr);
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tpp = XFS_BMAP_BROOT_PTR_ADDR(mp, rblock, 1, rblocklen);
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dmxr = be16_to_cpu(dblock->bb_numrecs);
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memcpy(tkp, fkp, sizeof(*fkp) * dmxr);
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memcpy(tpp, fpp, sizeof(*fpp) * dmxr);
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}
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void
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xfs_bmbt_disk_get_all(
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const struct xfs_bmbt_rec *rec,
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struct xfs_bmbt_irec *irec)
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{
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uint64_t l0 = get_unaligned_be64(&rec->l0);
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uint64_t l1 = get_unaligned_be64(&rec->l1);
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irec->br_startoff = (l0 & xfs_mask64lo(64 - BMBT_EXNTFLAG_BITLEN)) >> 9;
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irec->br_startblock = ((l0 & xfs_mask64lo(9)) << 43) | (l1 >> 21);
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irec->br_blockcount = l1 & xfs_mask64lo(21);
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if (l0 >> (64 - BMBT_EXNTFLAG_BITLEN))
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irec->br_state = XFS_EXT_UNWRITTEN;
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else
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irec->br_state = XFS_EXT_NORM;
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}
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/*
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* Extract the blockcount field from an on disk bmap extent record.
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*/
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xfs_filblks_t
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xfs_bmbt_disk_get_blockcount(
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const struct xfs_bmbt_rec *r)
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{
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return (xfs_filblks_t)(be64_to_cpu(r->l1) & xfs_mask64lo(21));
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}
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/*
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* Extract the startoff field from a disk format bmap extent record.
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*/
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xfs_fileoff_t
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xfs_bmbt_disk_get_startoff(
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const struct xfs_bmbt_rec *r)
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{
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return ((xfs_fileoff_t)be64_to_cpu(r->l0) &
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xfs_mask64lo(64 - BMBT_EXNTFLAG_BITLEN)) >> 9;
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}
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/*
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* Set all the fields in a bmap extent record from the uncompressed form.
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*/
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void
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xfs_bmbt_disk_set_all(
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struct xfs_bmbt_rec *r,
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struct xfs_bmbt_irec *s)
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{
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int extent_flag = (s->br_state != XFS_EXT_NORM);
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ASSERT(s->br_state == XFS_EXT_NORM || s->br_state == XFS_EXT_UNWRITTEN);
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ASSERT(!(s->br_startoff & xfs_mask64hi(64-BMBT_STARTOFF_BITLEN)));
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ASSERT(!(s->br_blockcount & xfs_mask64hi(64-BMBT_BLOCKCOUNT_BITLEN)));
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ASSERT(!(s->br_startblock & xfs_mask64hi(64-BMBT_STARTBLOCK_BITLEN)));
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put_unaligned_be64(
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((xfs_bmbt_rec_base_t)extent_flag << 63) |
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((xfs_bmbt_rec_base_t)s->br_startoff << 9) |
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((xfs_bmbt_rec_base_t)s->br_startblock >> 43), &r->l0);
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put_unaligned_be64(
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((xfs_bmbt_rec_base_t)s->br_startblock << 21) |
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((xfs_bmbt_rec_base_t)s->br_blockcount &
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(xfs_bmbt_rec_base_t)xfs_mask64lo(21)), &r->l1);
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}
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/*
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* Convert in-memory form of btree root to on-disk form.
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*/
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void
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xfs_bmbt_to_bmdr(
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struct xfs_mount *mp,
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struct xfs_btree_block *rblock,
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int rblocklen,
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xfs_bmdr_block_t *dblock,
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int dblocklen)
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{
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int dmxr;
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xfs_bmbt_key_t *fkp;
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__be64 *fpp;
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xfs_bmbt_key_t *tkp;
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__be64 *tpp;
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if (xfs_has_crc(mp)) {
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ASSERT(rblock->bb_magic == cpu_to_be32(XFS_BMAP_CRC_MAGIC));
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ASSERT(uuid_equal(&rblock->bb_u.l.bb_uuid,
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&mp->m_sb.sb_meta_uuid));
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ASSERT(rblock->bb_u.l.bb_blkno ==
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cpu_to_be64(XFS_BUF_DADDR_NULL));
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} else
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ASSERT(rblock->bb_magic == cpu_to_be32(XFS_BMAP_MAGIC));
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ASSERT(rblock->bb_u.l.bb_leftsib == cpu_to_be64(NULLFSBLOCK));
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ASSERT(rblock->bb_u.l.bb_rightsib == cpu_to_be64(NULLFSBLOCK));
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ASSERT(rblock->bb_level != 0);
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dblock->bb_level = rblock->bb_level;
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dblock->bb_numrecs = rblock->bb_numrecs;
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dmxr = xfs_bmdr_maxrecs(dblocklen, 0);
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fkp = XFS_BMBT_KEY_ADDR(mp, rblock, 1);
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tkp = XFS_BMDR_KEY_ADDR(dblock, 1);
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fpp = XFS_BMAP_BROOT_PTR_ADDR(mp, rblock, 1, rblocklen);
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tpp = XFS_BMDR_PTR_ADDR(dblock, 1, dmxr);
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dmxr = be16_to_cpu(dblock->bb_numrecs);
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memcpy(tkp, fkp, sizeof(*fkp) * dmxr);
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memcpy(tpp, fpp, sizeof(*fpp) * dmxr);
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}
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STATIC struct xfs_btree_cur *
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xfs_bmbt_dup_cursor(
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struct xfs_btree_cur *cur)
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{
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struct xfs_btree_cur *new;
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new = xfs_bmbt_init_cursor(cur->bc_mp, cur->bc_tp,
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cur->bc_ino.ip, cur->bc_ino.whichfork);
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/*
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* Copy the firstblock, dfops, and flags values,
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* since init cursor doesn't get them.
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*/
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new->bc_ino.flags = cur->bc_ino.flags;
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return new;
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}
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STATIC void
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xfs_bmbt_update_cursor(
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struct xfs_btree_cur *src,
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struct xfs_btree_cur *dst)
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{
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ASSERT((dst->bc_tp->t_firstblock != NULLFSBLOCK) ||
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(dst->bc_ino.ip->i_diflags & XFS_DIFLAG_REALTIME));
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dst->bc_ino.allocated += src->bc_ino.allocated;
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dst->bc_tp->t_firstblock = src->bc_tp->t_firstblock;
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src->bc_ino.allocated = 0;
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}
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STATIC int
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xfs_bmbt_alloc_block(
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struct xfs_btree_cur *cur,
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const union xfs_btree_ptr *start,
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union xfs_btree_ptr *new,
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int *stat)
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{
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xfs_alloc_arg_t args; /* block allocation args */
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int error; /* error return value */
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memset(&args, 0, sizeof(args));
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args.tp = cur->bc_tp;
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args.mp = cur->bc_mp;
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args.fsbno = cur->bc_tp->t_firstblock;
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xfs_rmap_ino_bmbt_owner(&args.oinfo, cur->bc_ino.ip->i_ino,
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cur->bc_ino.whichfork);
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if (args.fsbno == NULLFSBLOCK) {
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args.fsbno = be64_to_cpu(start->l);
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args.type = XFS_ALLOCTYPE_START_BNO;
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/*
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* Make sure there is sufficient room left in the AG to
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* complete a full tree split for an extent insert. If
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* we are converting the middle part of an extent then
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* we may need space for two tree splits.
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*
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* We are relying on the caller to make the correct block
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* reservation for this operation to succeed. If the
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* reservation amount is insufficient then we may fail a
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* block allocation here and corrupt the filesystem.
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*/
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args.minleft = args.tp->t_blk_res;
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} else if (cur->bc_tp->t_flags & XFS_TRANS_LOWMODE) {
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args.type = XFS_ALLOCTYPE_START_BNO;
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} else {
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args.type = XFS_ALLOCTYPE_NEAR_BNO;
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}
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args.minlen = args.maxlen = args.prod = 1;
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args.wasdel = cur->bc_ino.flags & XFS_BTCUR_BMBT_WASDEL;
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if (!args.wasdel && args.tp->t_blk_res == 0) {
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error = -ENOSPC;
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goto error0;
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}
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error = xfs_alloc_vextent(&args);
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if (error)
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goto error0;
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if (args.fsbno == NULLFSBLOCK && args.minleft) {
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/*
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* Could not find an AG with enough free space to satisfy
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* a full btree split. Try again and if
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* successful activate the lowspace algorithm.
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*/
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args.fsbno = 0;
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args.type = XFS_ALLOCTYPE_FIRST_AG;
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error = xfs_alloc_vextent(&args);
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if (error)
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goto error0;
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cur->bc_tp->t_flags |= XFS_TRANS_LOWMODE;
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}
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if (WARN_ON_ONCE(args.fsbno == NULLFSBLOCK)) {
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*stat = 0;
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return 0;
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}
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ASSERT(args.len == 1);
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cur->bc_tp->t_firstblock = args.fsbno;
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cur->bc_ino.allocated++;
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cur->bc_ino.ip->i_nblocks++;
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xfs_trans_log_inode(args.tp, cur->bc_ino.ip, XFS_ILOG_CORE);
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xfs_trans_mod_dquot_byino(args.tp, cur->bc_ino.ip,
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XFS_TRANS_DQ_BCOUNT, 1L);
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new->l = cpu_to_be64(args.fsbno);
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*stat = 1;
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return 0;
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error0:
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return error;
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}
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STATIC int
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xfs_bmbt_free_block(
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struct xfs_btree_cur *cur,
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struct xfs_buf *bp)
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{
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struct xfs_mount *mp = cur->bc_mp;
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struct xfs_inode *ip = cur->bc_ino.ip;
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struct xfs_trans *tp = cur->bc_tp;
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xfs_fsblock_t fsbno = XFS_DADDR_TO_FSB(mp, xfs_buf_daddr(bp));
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struct xfs_owner_info oinfo;
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xfs_rmap_ino_bmbt_owner(&oinfo, ip->i_ino, cur->bc_ino.whichfork);
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xfs_free_extent_later(cur->bc_tp, fsbno, 1, &oinfo);
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ip->i_nblocks--;
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xfs_trans_log_inode(tp, ip, XFS_ILOG_CORE);
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xfs_trans_mod_dquot_byino(tp, ip, XFS_TRANS_DQ_BCOUNT, -1L);
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return 0;
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}
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STATIC int
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xfs_bmbt_get_minrecs(
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struct xfs_btree_cur *cur,
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int level)
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{
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if (level == cur->bc_nlevels - 1) {
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struct xfs_ifork *ifp;
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ifp = XFS_IFORK_PTR(cur->bc_ino.ip,
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cur->bc_ino.whichfork);
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return xfs_bmbt_maxrecs(cur->bc_mp,
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ifp->if_broot_bytes, level == 0) / 2;
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}
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return cur->bc_mp->m_bmap_dmnr[level != 0];
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}
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int
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xfs_bmbt_get_maxrecs(
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struct xfs_btree_cur *cur,
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int level)
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{
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if (level == cur->bc_nlevels - 1) {
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struct xfs_ifork *ifp;
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ifp = XFS_IFORK_PTR(cur->bc_ino.ip,
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cur->bc_ino.whichfork);
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return xfs_bmbt_maxrecs(cur->bc_mp,
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ifp->if_broot_bytes, level == 0);
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}
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return cur->bc_mp->m_bmap_dmxr[level != 0];
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}
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/*
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* Get the maximum records we could store in the on-disk format.
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*
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* For non-root nodes this is equivalent to xfs_bmbt_get_maxrecs, but
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* for the root node this checks the available space in the dinode fork
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* so that we can resize the in-memory buffer to match it. After a
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* resize to the maximum size this function returns the same value
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* as xfs_bmbt_get_maxrecs for the root node, too.
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*/
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STATIC int
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xfs_bmbt_get_dmaxrecs(
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struct xfs_btree_cur *cur,
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int level)
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{
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if (level != cur->bc_nlevels - 1)
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return cur->bc_mp->m_bmap_dmxr[level != 0];
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return xfs_bmdr_maxrecs(cur->bc_ino.forksize, level == 0);
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}
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STATIC void
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xfs_bmbt_init_key_from_rec(
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union xfs_btree_key *key,
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const union xfs_btree_rec *rec)
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{
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key->bmbt.br_startoff =
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cpu_to_be64(xfs_bmbt_disk_get_startoff(&rec->bmbt));
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}
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STATIC void
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xfs_bmbt_init_high_key_from_rec(
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union xfs_btree_key *key,
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const union xfs_btree_rec *rec)
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{
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key->bmbt.br_startoff = cpu_to_be64(
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xfs_bmbt_disk_get_startoff(&rec->bmbt) +
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xfs_bmbt_disk_get_blockcount(&rec->bmbt) - 1);
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}
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STATIC void
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xfs_bmbt_init_rec_from_cur(
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struct xfs_btree_cur *cur,
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union xfs_btree_rec *rec)
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{
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xfs_bmbt_disk_set_all(&rec->bmbt, &cur->bc_rec.b);
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}
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STATIC void
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xfs_bmbt_init_ptr_from_cur(
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struct xfs_btree_cur *cur,
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union xfs_btree_ptr *ptr)
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{
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ptr->l = 0;
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}
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STATIC int64_t
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xfs_bmbt_key_diff(
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struct xfs_btree_cur *cur,
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const union xfs_btree_key *key)
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{
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return (int64_t)be64_to_cpu(key->bmbt.br_startoff) -
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cur->bc_rec.b.br_startoff;
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}
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STATIC int64_t
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xfs_bmbt_diff_two_keys(
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struct xfs_btree_cur *cur,
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const union xfs_btree_key *k1,
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const union xfs_btree_key *k2)
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{
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uint64_t a = be64_to_cpu(k1->bmbt.br_startoff);
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uint64_t b = be64_to_cpu(k2->bmbt.br_startoff);
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/*
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* Note: This routine previously casted a and b to int64 and subtracted
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* them to generate a result. This lead to problems if b was the
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* "maximum" key value (all ones) being signed incorrectly, hence this
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* somewhat less efficient version.
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*/
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if (a > b)
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return 1;
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if (b > a)
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return -1;
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return 0;
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}
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static xfs_failaddr_t
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xfs_bmbt_verify(
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struct xfs_buf *bp)
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{
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struct xfs_mount *mp = bp->b_mount;
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struct xfs_btree_block *block = XFS_BUF_TO_BLOCK(bp);
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xfs_failaddr_t fa;
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unsigned int level;
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if (!xfs_verify_magic(bp, block->bb_magic))
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return __this_address;
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if (xfs_has_crc(mp)) {
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/*
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* XXX: need a better way of verifying the owner here. Right now
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* just make sure there has been one set.
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*/
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fa = xfs_btree_lblock_v5hdr_verify(bp, XFS_RMAP_OWN_UNKNOWN);
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if (fa)
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return fa;
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}
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/*
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* numrecs and level verification.
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*
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* We don't know what fork we belong to, so just verify that the level
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* is less than the maximum of the two. Later checks will be more
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* precise.
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*/
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level = be16_to_cpu(block->bb_level);
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if (level > max(mp->m_bm_maxlevels[0], mp->m_bm_maxlevels[1]))
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return __this_address;
|
|
|
|
return xfs_btree_lblock_verify(bp, mp->m_bmap_dmxr[level != 0]);
|
|
}
|
|
|
|
static void
|
|
xfs_bmbt_read_verify(
|
|
struct xfs_buf *bp)
|
|
{
|
|
xfs_failaddr_t fa;
|
|
|
|
if (!xfs_btree_lblock_verify_crc(bp))
|
|
xfs_verifier_error(bp, -EFSBADCRC, __this_address);
|
|
else {
|
|
fa = xfs_bmbt_verify(bp);
|
|
if (fa)
|
|
xfs_verifier_error(bp, -EFSCORRUPTED, fa);
|
|
}
|
|
|
|
if (bp->b_error)
|
|
trace_xfs_btree_corrupt(bp, _RET_IP_);
|
|
}
|
|
|
|
static void
|
|
xfs_bmbt_write_verify(
|
|
struct xfs_buf *bp)
|
|
{
|
|
xfs_failaddr_t fa;
|
|
|
|
fa = xfs_bmbt_verify(bp);
|
|
if (fa) {
|
|
trace_xfs_btree_corrupt(bp, _RET_IP_);
|
|
xfs_verifier_error(bp, -EFSCORRUPTED, fa);
|
|
return;
|
|
}
|
|
xfs_btree_lblock_calc_crc(bp);
|
|
}
|
|
|
|
const struct xfs_buf_ops xfs_bmbt_buf_ops = {
|
|
.name = "xfs_bmbt",
|
|
.magic = { cpu_to_be32(XFS_BMAP_MAGIC),
|
|
cpu_to_be32(XFS_BMAP_CRC_MAGIC) },
|
|
.verify_read = xfs_bmbt_read_verify,
|
|
.verify_write = xfs_bmbt_write_verify,
|
|
.verify_struct = xfs_bmbt_verify,
|
|
};
|
|
|
|
|
|
STATIC int
|
|
xfs_bmbt_keys_inorder(
|
|
struct xfs_btree_cur *cur,
|
|
const union xfs_btree_key *k1,
|
|
const union xfs_btree_key *k2)
|
|
{
|
|
return be64_to_cpu(k1->bmbt.br_startoff) <
|
|
be64_to_cpu(k2->bmbt.br_startoff);
|
|
}
|
|
|
|
STATIC int
|
|
xfs_bmbt_recs_inorder(
|
|
struct xfs_btree_cur *cur,
|
|
const union xfs_btree_rec *r1,
|
|
const union xfs_btree_rec *r2)
|
|
{
|
|
return xfs_bmbt_disk_get_startoff(&r1->bmbt) +
|
|
xfs_bmbt_disk_get_blockcount(&r1->bmbt) <=
|
|
xfs_bmbt_disk_get_startoff(&r2->bmbt);
|
|
}
|
|
|
|
static const struct xfs_btree_ops xfs_bmbt_ops = {
|
|
.rec_len = sizeof(xfs_bmbt_rec_t),
|
|
.key_len = sizeof(xfs_bmbt_key_t),
|
|
|
|
.dup_cursor = xfs_bmbt_dup_cursor,
|
|
.update_cursor = xfs_bmbt_update_cursor,
|
|
.alloc_block = xfs_bmbt_alloc_block,
|
|
.free_block = xfs_bmbt_free_block,
|
|
.get_maxrecs = xfs_bmbt_get_maxrecs,
|
|
.get_minrecs = xfs_bmbt_get_minrecs,
|
|
.get_dmaxrecs = xfs_bmbt_get_dmaxrecs,
|
|
.init_key_from_rec = xfs_bmbt_init_key_from_rec,
|
|
.init_high_key_from_rec = xfs_bmbt_init_high_key_from_rec,
|
|
.init_rec_from_cur = xfs_bmbt_init_rec_from_cur,
|
|
.init_ptr_from_cur = xfs_bmbt_init_ptr_from_cur,
|
|
.key_diff = xfs_bmbt_key_diff,
|
|
.diff_two_keys = xfs_bmbt_diff_two_keys,
|
|
.buf_ops = &xfs_bmbt_buf_ops,
|
|
.keys_inorder = xfs_bmbt_keys_inorder,
|
|
.recs_inorder = xfs_bmbt_recs_inorder,
|
|
};
|
|
|
|
/*
|
|
* Allocate a new bmap btree cursor.
|
|
*/
|
|
struct xfs_btree_cur * /* new bmap btree cursor */
|
|
xfs_bmbt_init_cursor(
|
|
struct xfs_mount *mp, /* file system mount point */
|
|
struct xfs_trans *tp, /* transaction pointer */
|
|
struct xfs_inode *ip, /* inode owning the btree */
|
|
int whichfork) /* data or attr fork */
|
|
{
|
|
struct xfs_ifork *ifp = XFS_IFORK_PTR(ip, whichfork);
|
|
struct xfs_btree_cur *cur;
|
|
ASSERT(whichfork != XFS_COW_FORK);
|
|
|
|
cur = xfs_btree_alloc_cursor(mp, tp, XFS_BTNUM_BMAP,
|
|
mp->m_bm_maxlevels[whichfork], xfs_bmbt_cur_cache);
|
|
cur->bc_nlevels = be16_to_cpu(ifp->if_broot->bb_level) + 1;
|
|
cur->bc_statoff = XFS_STATS_CALC_INDEX(xs_bmbt_2);
|
|
|
|
cur->bc_ops = &xfs_bmbt_ops;
|
|
cur->bc_flags = XFS_BTREE_LONG_PTRS | XFS_BTREE_ROOT_IN_INODE;
|
|
if (xfs_has_crc(mp))
|
|
cur->bc_flags |= XFS_BTREE_CRC_BLOCKS;
|
|
|
|
cur->bc_ino.forksize = XFS_IFORK_SIZE(ip, whichfork);
|
|
cur->bc_ino.ip = ip;
|
|
cur->bc_ino.allocated = 0;
|
|
cur->bc_ino.flags = 0;
|
|
cur->bc_ino.whichfork = whichfork;
|
|
|
|
return cur;
|
|
}
|
|
|
|
/* Calculate number of records in a block mapping btree block. */
|
|
static inline unsigned int
|
|
xfs_bmbt_block_maxrecs(
|
|
unsigned int blocklen,
|
|
bool leaf)
|
|
{
|
|
if (leaf)
|
|
return blocklen / sizeof(xfs_bmbt_rec_t);
|
|
return blocklen / (sizeof(xfs_bmbt_key_t) + sizeof(xfs_bmbt_ptr_t));
|
|
}
|
|
|
|
/*
|
|
* Calculate number of records in a bmap btree block.
|
|
*/
|
|
int
|
|
xfs_bmbt_maxrecs(
|
|
struct xfs_mount *mp,
|
|
int blocklen,
|
|
int leaf)
|
|
{
|
|
blocklen -= XFS_BMBT_BLOCK_LEN(mp);
|
|
return xfs_bmbt_block_maxrecs(blocklen, leaf);
|
|
}
|
|
|
|
/* Compute the max possible height for block mapping btrees. */
|
|
unsigned int
|
|
xfs_bmbt_maxlevels_ondisk(void)
|
|
{
|
|
unsigned int minrecs[2];
|
|
unsigned int blocklen;
|
|
|
|
blocklen = min(XFS_MIN_BLOCKSIZE - XFS_BTREE_SBLOCK_LEN,
|
|
XFS_MIN_CRC_BLOCKSIZE - XFS_BTREE_SBLOCK_CRC_LEN);
|
|
|
|
minrecs[0] = xfs_bmbt_block_maxrecs(blocklen, true) / 2;
|
|
minrecs[1] = xfs_bmbt_block_maxrecs(blocklen, false) / 2;
|
|
|
|
/* One extra level for the inode root. */
|
|
return xfs_btree_compute_maxlevels(minrecs, MAXEXTNUM) + 1;
|
|
}
|
|
|
|
/*
|
|
* Calculate number of records in a bmap btree inode root.
|
|
*/
|
|
int
|
|
xfs_bmdr_maxrecs(
|
|
int blocklen,
|
|
int leaf)
|
|
{
|
|
blocklen -= sizeof(xfs_bmdr_block_t);
|
|
|
|
if (leaf)
|
|
return blocklen / sizeof(xfs_bmdr_rec_t);
|
|
return blocklen / (sizeof(xfs_bmdr_key_t) + sizeof(xfs_bmdr_ptr_t));
|
|
}
|
|
|
|
/*
|
|
* Change the owner of a btree format fork fo the inode passed in. Change it to
|
|
* the owner of that is passed in so that we can change owners before or after
|
|
* we switch forks between inodes. The operation that the caller is doing will
|
|
* determine whether is needs to change owner before or after the switch.
|
|
*
|
|
* For demand paged transactional modification, the fork switch should be done
|
|
* after reading in all the blocks, modifying them and pinning them in the
|
|
* transaction. For modification when the buffers are already pinned in memory,
|
|
* the fork switch can be done before changing the owner as we won't need to
|
|
* validate the owner until the btree buffers are unpinned and writes can occur
|
|
* again.
|
|
*
|
|
* For recovery based ownership change, there is no transactional context and
|
|
* so a buffer list must be supplied so that we can record the buffers that we
|
|
* modified for the caller to issue IO on.
|
|
*/
|
|
int
|
|
xfs_bmbt_change_owner(
|
|
struct xfs_trans *tp,
|
|
struct xfs_inode *ip,
|
|
int whichfork,
|
|
xfs_ino_t new_owner,
|
|
struct list_head *buffer_list)
|
|
{
|
|
struct xfs_btree_cur *cur;
|
|
int error;
|
|
|
|
ASSERT(tp || buffer_list);
|
|
ASSERT(!(tp && buffer_list));
|
|
ASSERT(XFS_IFORK_PTR(ip, whichfork)->if_format == XFS_DINODE_FMT_BTREE);
|
|
|
|
cur = xfs_bmbt_init_cursor(ip->i_mount, tp, ip, whichfork);
|
|
cur->bc_ino.flags |= XFS_BTCUR_BMBT_INVALID_OWNER;
|
|
|
|
error = xfs_btree_change_owner(cur, new_owner, buffer_list);
|
|
xfs_btree_del_cursor(cur, error);
|
|
return error;
|
|
}
|
|
|
|
/* Calculate the bmap btree size for some records. */
|
|
unsigned long long
|
|
xfs_bmbt_calc_size(
|
|
struct xfs_mount *mp,
|
|
unsigned long long len)
|
|
{
|
|
return xfs_btree_calc_size(mp->m_bmap_dmnr, len);
|
|
}
|
|
|
|
int __init
|
|
xfs_bmbt_init_cur_cache(void)
|
|
{
|
|
xfs_bmbt_cur_cache = kmem_cache_create("xfs_bmbt_cur",
|
|
xfs_btree_cur_sizeof(xfs_bmbt_maxlevels_ondisk()),
|
|
0, 0, NULL);
|
|
|
|
if (!xfs_bmbt_cur_cache)
|
|
return -ENOMEM;
|
|
return 0;
|
|
}
|
|
|
|
void
|
|
xfs_bmbt_destroy_cur_cache(void)
|
|
{
|
|
kmem_cache_destroy(xfs_bmbt_cur_cache);
|
|
xfs_bmbt_cur_cache = NULL;
|
|
}
|