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e47dcf113a
If the extended attributes look bad, try to sift through the rubble to find whatever keys/values we can, stage a new attribute structure in a temporary file and use the atomic extent swapping mechanism to commit the results in bulk. Signed-off-by: Darrick J. Wong <djwong@kernel.org> Reviewed-by: Christoph Hellwig <hch@lst.de>
624 lines
23 KiB
C
624 lines
23 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright (c) 2000,2002-2003,2005 Silicon Graphics, Inc.
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* All Rights Reserved.
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*/
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#ifndef __XFS_ATTR_H__
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#define __XFS_ATTR_H__
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struct xfs_inode;
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struct xfs_da_args;
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struct xfs_attr_list_context;
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/*
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* Large attribute lists are structured around Btrees where all the data
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* elements are in the leaf nodes. Attribute names are hashed into an int,
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* then that int is used as the index into the Btree. Since the hashval
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* of an attribute name may not be unique, we may have duplicate keys.
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* The internal links in the Btree are logical block offsets into the file.
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*
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* Small attribute lists use a different format and are packed as tightly
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* as possible so as to fit into the literal area of the inode.
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*/
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/*
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* The maximum size (into the kernel or returned from the kernel) of an
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* attribute value or the buffer used for an attr_list() call. Larger
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* sizes will result in an ERANGE return code.
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*/
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#define ATTR_MAX_VALUELEN (64*1024) /* max length of a value */
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/*
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* Kernel-internal version of the attrlist cursor.
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*/
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struct xfs_attrlist_cursor_kern {
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__u32 hashval; /* hash value of next entry to add */
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__u32 blkno; /* block containing entry (suggestion) */
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__u32 offset; /* offset in list of equal-hashvals */
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__u16 pad1; /* padding to match user-level */
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__u8 pad2; /* padding to match user-level */
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__u8 initted; /* T/F: cursor has been initialized */
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};
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/*========================================================================
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* Structure used to pass context around among the routines.
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*========================================================================*/
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/* void; state communicated via *context */
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typedef void (*put_listent_func_t)(struct xfs_attr_list_context *, int,
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unsigned char *, int, int);
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struct xfs_attr_list_context {
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struct xfs_trans *tp;
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struct xfs_inode *dp; /* inode */
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struct xfs_attrlist_cursor_kern cursor; /* position in list */
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void *buffer; /* output buffer */
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/*
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* Abort attribute list iteration if non-zero. Can be used to pass
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* error values to the xfs_attr_list caller.
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*/
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int seen_enough;
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bool allow_incomplete;
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ssize_t count; /* num used entries */
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int dupcnt; /* count dup hashvals seen */
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int bufsize; /* total buffer size */
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int firstu; /* first used byte in buffer */
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unsigned int attr_filter; /* XFS_ATTR_{ROOT,SECURE} */
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int resynch; /* T/F: resynch with cursor */
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put_listent_func_t put_listent; /* list output fmt function */
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int index; /* index into output buffer */
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};
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/*
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* ========================================================================
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* Structure used to pass context around among the delayed routines.
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* ========================================================================
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*/
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/*
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* Below is a state machine diagram for attr remove operations. The XFS_DAS_*
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* states indicate places where the function would return -EAGAIN, and then
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* immediately resume from after being called by the calling function. States
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* marked as a "subroutine state" indicate that they belong to a subroutine, and
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* so the calling function needs to pass them back to that subroutine to allow
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* it to finish where it left off. But they otherwise do not have a role in the
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* calling function other than just passing through.
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*
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* xfs_attr_remove_iter()
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* │
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* v
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* have attr to remove? ──n──> done
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* │
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* y
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* │
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* v
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* are we short form? ──y──> xfs_attr_shortform_remove ──> done
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* │
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* n
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* │
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* V
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* are we leaf form? ──y──> xfs_attr_leaf_removename ──> done
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* │
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* n
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* │
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* V
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* ┌── need to setup state?
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* │ │
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* n y
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* │ │
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* │ v
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* │ find attr and get state
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* │ attr has remote blks? ──n─┐
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* │ │ v
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* │ │ find and invalidate
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* │ y the remote blocks.
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* │ │ mark attr incomplete
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* │ ├────────────────┘
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* └──────────┤
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* │
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* v
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* Have remote blks to remove? ───y─────┐
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* │ ^ remove the blks
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* │ │ │
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* │ │ v
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* │ XFS_DAS_RMTBLK <─n── done?
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* │ re-enter with │
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* │ one less blk to y
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* │ remove │
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* │ V
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* │ refill the state
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* n │
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* │ v
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* │ XFS_DAS_RM_NAME
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* │ │
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* ├─────────────────────────┘
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* │
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* v
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* remove leaf and
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* update hash with
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* xfs_attr_node_remove_cleanup
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* │
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* v
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* need to
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* shrink tree? ─n─┐
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* │ │
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* y │
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* │ │
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* v │
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* join leaf │
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* │ │
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* v │
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* XFS_DAS_RM_SHRINK │
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* │ │
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* v │
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* do the shrink │
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* │ │
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* v │
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* free state <──┘
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* │
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* v
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* done
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*
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*
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* Below is a state machine diagram for attr set operations.
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*
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* It seems the challenge with understanding this system comes from trying to
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* absorb the state machine all at once, when really one should only be looking
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* at it with in the context of a single function. Once a state sensitive
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* function is called, the idea is that it "takes ownership" of the
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* state machine. It isn't concerned with the states that may have belonged to
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* it's calling parent. Only the states relevant to itself or any other
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* subroutines there in. Once a calling function hands off the state machine to
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* a subroutine, it needs to respect the simple rule that it doesn't "own" the
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* state machine anymore, and it's the responsibility of that calling function
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* to propagate the -EAGAIN back up the call stack. Upon reentry, it is
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* committed to re-calling that subroutine until it returns something other than
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* -EAGAIN. Once that subroutine signals completion (by returning anything other
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* than -EAGAIN), the calling function can resume using the state machine.
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*
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* xfs_attr_set_iter()
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* │
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* v
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* ┌─y─ has an attr fork?
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* │ |
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* │ n
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* │ |
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* │ V
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* │ add a fork
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* │ │
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* └──────────┤
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* │
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* V
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* ┌─── is shortform?
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* │ │
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* │ y
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* │ │
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* │ V
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* │ xfs_attr_set_fmt
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* │ |
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* │ V
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* │ xfs_attr_try_sf_addname
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* │ │
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* │ V
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* │ had enough ──y──> done
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* │ space?
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* n │
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* │ n
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* │ │
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* │ V
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* │ transform to leaf
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* │ │
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* │ V
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* │ hold the leaf buffer
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* │ │
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* │ V
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* │ return -EAGAIN
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* │ Re-enter in
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* │ leaf form
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* │
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* └─> release leaf buffer
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* if needed
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* │
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* V
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* ┌───n── fork has
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* │ only 1 blk?
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* │ │
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* │ y
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* │ │
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* │ v
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* │ xfs_attr_leaf_try_add()
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* │ │
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* │ v
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* │ had enough ──────────────y─────────────┐
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* │ space? │
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* │ │ │
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* │ n │
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* │ │ │
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* │ v │
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* │ return -EAGAIN │
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* │ re-enter in │
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* │ node form │
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* │ │ │
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* └──────────┤ │
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* │ │
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* V │
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* xfs_attr_node_addname_find_attr │
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* determines if this │
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* is create or rename │
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* find space to store attr │
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* │ │
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* v │
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* xfs_attr_node_addname │
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* │ │
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* v │
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* fits in a node leaf? ────n─────┐ │
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* │ ^ v │
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* │ │ single leaf node? │
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* │ │ │ │ │
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* y │ y n │
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* │ │ │ │ │
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* v │ v v │
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* update │ grow the leaf split if │
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* hashvals └── return -EAGAIN needed │
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* │ retry leaf add │ │
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* │ on reentry │ │
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* ├────────────────────────────┘ │
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* │ │
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* v │
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* need to alloc │
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* ┌─y── or flip flag? │
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* │ │ │
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* │ n │
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* │ │ │
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* │ v │
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* │ done │
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* │ │
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* │ │
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* │ XFS_DAS_FOUND_LBLK <────────────────┘
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* │ │
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* │ V
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* │ xfs_attr_leaf_addname()
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* │ │
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* │ v
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* │ ┌──first time through?
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* │ │ │
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* │ │ y
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* │ │ │
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* │ n v
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* │ │ if we have rmt blks
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* │ │ find space for them
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* │ │ │
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* │ └──────────┤
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* │ │
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* │ v
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* │ still have
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* │ ┌─n─ blks to alloc? <──┐
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* │ │ │ │
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* │ │ y │
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* │ │ │ │
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* │ │ v │
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* │ │ alloc one blk │
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* │ │ return -EAGAIN ──┘
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* │ │ re-enter with one
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* │ │ less blk to alloc
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* │ │
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* │ │
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* │ └───> set the rmt
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* │ value
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* │ │
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* │ v
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* │ was this
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* │ a rename? ──n─┐
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* │ │ │
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* │ y │
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* │ │ │
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* │ v │
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* │ flip incomplete │
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* │ flag │
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* │ │ │
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* │ v │
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* │ XFS_DAS_FLIP_LFLAG │
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* │ │ │
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* │ v │
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* │ need to remove │
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* │ old bks? ──n──┤
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* │ │ │
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* │ y │
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* │ │ │
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* │ V │
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* │ remove │
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* │ ┌───> old blks │
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* │ │ │ │
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* │ XFS_DAS_RM_LBLK │ │
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* │ ^ │ │
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* │ │ v │
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* │ └──y── more to │
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* │ remove? │
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* │ │ │
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* │ n │
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* │ │ │
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* │ v │
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* │ XFS_DAS_RD_LEAF │
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* │ │ │
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* │ v │
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* │ remove leaf │
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* │ │ │
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* │ v │
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* │ shrink to sf │
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* │ if needed │
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* │ │ │
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* │ v │
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* │ done <──────┘
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* │
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* └──────> XFS_DAS_FOUND_NBLK
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* │
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* v
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* ┌─────n── need to
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* │ alloc blks?
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* │ │
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* │ y
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* │ │
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* │ v
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* │ find space
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* │ │
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* │ v
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* │ ┌─>XFS_DAS_ALLOC_NODE
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* │ │ │
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* │ │ v
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* │ │ alloc blk
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* │ │ │
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* │ │ v
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* │ └──y── need to alloc
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* │ more blocks?
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* │ │
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* │ n
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* │ │
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* │ v
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* │ set the rmt value
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* │ │
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* │ v
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* │ was this
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* └────────> a rename? ──n─┐
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* │ │
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* y │
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* │ │
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* v │
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* flip incomplete │
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* flag │
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* │ │
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* v │
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* XFS_DAS_FLIP_NFLAG │
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* │ │
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* v │
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* need to │
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* remove blks? ─n──┤
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* │ │
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* y │
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* │ │
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* v │
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* remove │
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* ┌────────> old blks │
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* │ │ │
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* XFS_DAS_RM_NBLK │ │
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* ^ │ │
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* │ v │
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* └──────y── more to │
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* remove │
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* │ │
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* n │
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* │ │
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* v │
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* XFS_DAS_CLR_FLAG │
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* │ │
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* v │
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* clear flags │
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* │ │
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* ├──────────┘
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* │
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* v
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* done
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*/
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/*
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* Enum values for xfs_attr_intent.xattri_da_state
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*
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* These values are used by delayed attribute operations to keep track of where
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* they were before they returned -EAGAIN. A return code of -EAGAIN signals the
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* calling function to roll the transaction, and then call the subroutine to
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* finish the operation. The enum is then used by the subroutine to jump back
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* to where it was and resume executing where it left off.
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*/
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enum xfs_delattr_state {
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XFS_DAS_UNINIT = 0, /* No state has been set yet */
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/*
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* Initial sequence states. The replace setup code relies on the
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* ADD and REMOVE states for a specific format to be sequential so
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* that we can transform the initial operation to be performed
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* according to the xfs_has_larp() state easily.
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*/
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XFS_DAS_SF_ADD, /* Initial sf add state */
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XFS_DAS_SF_REMOVE, /* Initial sf replace/remove state */
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XFS_DAS_LEAF_ADD, /* Initial leaf add state */
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XFS_DAS_LEAF_REMOVE, /* Initial leaf replace/remove state */
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XFS_DAS_NODE_ADD, /* Initial node add state */
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XFS_DAS_NODE_REMOVE, /* Initial node replace/remove state */
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/* Leaf state set/replace/remove sequence */
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XFS_DAS_LEAF_SET_RMT, /* set a remote xattr from a leaf */
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XFS_DAS_LEAF_ALLOC_RMT, /* We are allocating remote blocks */
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XFS_DAS_LEAF_REPLACE, /* Perform replace ops on a leaf */
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XFS_DAS_LEAF_REMOVE_OLD, /* Start removing old attr from leaf */
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XFS_DAS_LEAF_REMOVE_RMT, /* A rename is removing remote blocks */
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XFS_DAS_LEAF_REMOVE_ATTR, /* Remove the old attr from a leaf */
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/* Node state sequence, must match leaf state above */
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XFS_DAS_NODE_SET_RMT, /* set a remote xattr from a node */
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XFS_DAS_NODE_ALLOC_RMT, /* We are allocating remote blocks */
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XFS_DAS_NODE_REPLACE, /* Perform replace ops on a node */
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XFS_DAS_NODE_REMOVE_OLD, /* Start removing old attr from node */
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XFS_DAS_NODE_REMOVE_RMT, /* A rename is removing remote blocks */
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XFS_DAS_NODE_REMOVE_ATTR, /* Remove the old attr from a node */
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XFS_DAS_DONE, /* finished operation */
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};
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#define XFS_DAS_STRINGS \
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{ XFS_DAS_UNINIT, "XFS_DAS_UNINIT" }, \
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{ XFS_DAS_SF_ADD, "XFS_DAS_SF_ADD" }, \
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{ XFS_DAS_SF_REMOVE, "XFS_DAS_SF_REMOVE" }, \
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{ XFS_DAS_LEAF_ADD, "XFS_DAS_LEAF_ADD" }, \
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{ XFS_DAS_LEAF_REMOVE, "XFS_DAS_LEAF_REMOVE" }, \
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{ XFS_DAS_NODE_ADD, "XFS_DAS_NODE_ADD" }, \
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{ XFS_DAS_NODE_REMOVE, "XFS_DAS_NODE_REMOVE" }, \
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{ XFS_DAS_LEAF_SET_RMT, "XFS_DAS_LEAF_SET_RMT" }, \
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{ XFS_DAS_LEAF_ALLOC_RMT, "XFS_DAS_LEAF_ALLOC_RMT" }, \
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{ XFS_DAS_LEAF_REPLACE, "XFS_DAS_LEAF_REPLACE" }, \
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{ XFS_DAS_LEAF_REMOVE_OLD, "XFS_DAS_LEAF_REMOVE_OLD" }, \
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{ XFS_DAS_LEAF_REMOVE_RMT, "XFS_DAS_LEAF_REMOVE_RMT" }, \
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{ XFS_DAS_LEAF_REMOVE_ATTR, "XFS_DAS_LEAF_REMOVE_ATTR" }, \
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{ XFS_DAS_NODE_SET_RMT, "XFS_DAS_NODE_SET_RMT" }, \
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{ XFS_DAS_NODE_ALLOC_RMT, "XFS_DAS_NODE_ALLOC_RMT" }, \
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{ XFS_DAS_NODE_REPLACE, "XFS_DAS_NODE_REPLACE" }, \
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{ XFS_DAS_NODE_REMOVE_OLD, "XFS_DAS_NODE_REMOVE_OLD" }, \
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{ XFS_DAS_NODE_REMOVE_RMT, "XFS_DAS_NODE_REMOVE_RMT" }, \
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{ XFS_DAS_NODE_REMOVE_ATTR, "XFS_DAS_NODE_REMOVE_ATTR" }, \
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{ XFS_DAS_DONE, "XFS_DAS_DONE" }
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struct xfs_attri_log_nameval;
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/*
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* Context used for keeping track of delayed attribute operations
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*/
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struct xfs_attr_intent {
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/*
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* used to log this item to an intent containing a list of attrs to
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* commit later
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*/
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struct list_head xattri_list;
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/* Used in xfs_attr_node_removename to roll through removing blocks */
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struct xfs_da_state *xattri_da_state;
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struct xfs_da_args *xattri_da_args;
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/*
|
|
* Shared buffer containing the attr name and value so that the logging
|
|
* code can share large memory buffers between log items.
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|
*/
|
|
struct xfs_attri_log_nameval *xattri_nameval;
|
|
|
|
/* Used to keep track of current state of delayed operation */
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|
enum xfs_delattr_state xattri_dela_state;
|
|
|
|
/*
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|
* Attr operation being performed - XFS_ATTRI_OP_FLAGS_*
|
|
*/
|
|
unsigned int xattri_op_flags;
|
|
|
|
/* Used in xfs_attr_rmtval_set_blk to roll through allocating blocks */
|
|
xfs_dablk_t xattri_lblkno;
|
|
int xattri_blkcnt;
|
|
struct xfs_bmbt_irec xattri_map;
|
|
};
|
|
|
|
|
|
/*========================================================================
|
|
* Function prototypes for the kernel.
|
|
*========================================================================*/
|
|
|
|
/*
|
|
* Overall external interface routines.
|
|
*/
|
|
int xfs_attr_inactive(struct xfs_inode *dp);
|
|
int xfs_attr_list_ilocked(struct xfs_attr_list_context *);
|
|
int xfs_attr_list(struct xfs_attr_list_context *);
|
|
int xfs_inode_hasattr(struct xfs_inode *ip);
|
|
bool xfs_attr_is_leaf(struct xfs_inode *ip);
|
|
int xfs_attr_get_ilocked(struct xfs_da_args *args);
|
|
int xfs_attr_get(struct xfs_da_args *args);
|
|
int xfs_attr_set(struct xfs_da_args *args);
|
|
int xfs_attr_set_iter(struct xfs_attr_intent *attr);
|
|
int xfs_attr_remove_iter(struct xfs_attr_intent *attr);
|
|
bool xfs_attr_namecheck(const void *name, size_t length);
|
|
int xfs_attr_calc_size(struct xfs_da_args *args, int *local);
|
|
void xfs_init_attr_trans(struct xfs_da_args *args, struct xfs_trans_res *tres,
|
|
unsigned int *total);
|
|
|
|
/*
|
|
* Check to see if the attr should be upgraded from non-existent or shortform to
|
|
* single-leaf-block attribute list.
|
|
*/
|
|
static inline bool
|
|
xfs_attr_is_shortform(
|
|
struct xfs_inode *ip)
|
|
{
|
|
return ip->i_af.if_format == XFS_DINODE_FMT_LOCAL ||
|
|
(ip->i_af.if_format == XFS_DINODE_FMT_EXTENTS &&
|
|
ip->i_af.if_nextents == 0);
|
|
}
|
|
|
|
static inline enum xfs_delattr_state
|
|
xfs_attr_init_add_state(struct xfs_da_args *args)
|
|
{
|
|
/*
|
|
* When called from the completion of a attr remove to determine the
|
|
* next state, the attribute fork may be null. This can occur only occur
|
|
* on a pure remove, but we grab the next state before we check if a
|
|
* replace operation is being performed. If we are called from any other
|
|
* context, i_af is guaranteed to exist. Hence if the attr fork is
|
|
* null, we were called from a pure remove operation and so we are done.
|
|
*/
|
|
if (!xfs_inode_has_attr_fork(args->dp))
|
|
return XFS_DAS_DONE;
|
|
|
|
args->op_flags |= XFS_DA_OP_ADDNAME;
|
|
if (xfs_attr_is_shortform(args->dp))
|
|
return XFS_DAS_SF_ADD;
|
|
if (xfs_attr_is_leaf(args->dp))
|
|
return XFS_DAS_LEAF_ADD;
|
|
return XFS_DAS_NODE_ADD;
|
|
}
|
|
|
|
static inline enum xfs_delattr_state
|
|
xfs_attr_init_remove_state(struct xfs_da_args *args)
|
|
{
|
|
args->op_flags |= XFS_DA_OP_REMOVE;
|
|
if (xfs_attr_is_shortform(args->dp))
|
|
return XFS_DAS_SF_REMOVE;
|
|
if (xfs_attr_is_leaf(args->dp))
|
|
return XFS_DAS_LEAF_REMOVE;
|
|
return XFS_DAS_NODE_REMOVE;
|
|
}
|
|
|
|
/*
|
|
* If we are logging the attributes, then we have to start with removal of the
|
|
* old attribute so that there is always consistent state that we can recover
|
|
* from if the system goes down part way through. We always log the new attr
|
|
* value, so even when we remove the attr first we still have the information in
|
|
* the log to finish the replace operation atomically.
|
|
*/
|
|
static inline enum xfs_delattr_state
|
|
xfs_attr_init_replace_state(struct xfs_da_args *args)
|
|
{
|
|
args->op_flags |= XFS_DA_OP_ADDNAME | XFS_DA_OP_REPLACE;
|
|
if (args->op_flags & XFS_DA_OP_LOGGED)
|
|
return xfs_attr_init_remove_state(args);
|
|
return xfs_attr_init_add_state(args);
|
|
}
|
|
|
|
extern struct kmem_cache *xfs_attr_intent_cache;
|
|
int __init xfs_attr_intent_init_cache(void);
|
|
void xfs_attr_intent_destroy_cache(void);
|
|
|
|
int xfs_attr_sf_totsize(struct xfs_inode *dp);
|
|
|
|
#endif /* __XFS_ATTR_H__ */
|