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Subject[PATCH 11/13] docs: filesystems: vfs: Clean up lists
Date
During conversion of txt file to rst format we added a bunch of lists.
To ease the review of that patch the list contents were not changed. We
do that now as a separate patch.

This patch does not change the contents of the document in any real way,
does whitespace fixes and adds missing periods to list items.

Clean up lists by:

- Adding missing periods.
- Correcting the column width.
- Correcting the indentation.

Signed-off-by: Tobin C. Harding <tobin@kernel.org>
---
Documentation/filesystems/vfs.rst | 1111 ++++++++++++++---------------
1 file changed, 554 insertions(+), 557 deletions(-)

diff --git a/Documentation/filesystems/vfs.rst b/Documentation/filesystems/vfs.rst
index ba59f6cb0ca9..2cdd4700aba3 100644
--- a/Documentation/filesystems/vfs.rst
+++ b/Documentation/filesystems/vfs.rst
@@ -127,34 +127,34 @@ members are defined:
};

- ``name``: the name of the filesystem type, such as "ext2", "iso9660",
- "msdos" and so on
+ "msdos" and so on.

-- ``fs_flags``: various flags (i.e. FS_REQUIRES_DEV, FS_NO_DCACHE, etc.)
+- ``fs_flags``: various flags (i.e. FS_REQUIRES_DEV, FS_NO_DCACHE, etc.).

-- ``mount``: the method to call when a new instance of this
- filesystem should be mounted
+- ``mount``: the method to call when a new instance of this filesystem
+ should be mounted.

- ``kill_sb``: the method to call when an instance of this filesystem
- should be shut down
+ should be shut down.

-- ``owner``: for internal VFS use: you should initialize this to THIS_MODULE in
- most cases.
+- ``owner``: for internal VFS use: you should initialize this to
+ THIS_MODULE in most cases.

-- ``next``: for internal VFS use: you should initialize this to NULL
+- ``next``: for internal VFS use: you should initialize this to NULL.

-- ``s_lock_key``, ``s_umount_key``: lockdep-specific
+- ``s_lock_key``, ``s_umount_key``: lockdep-specific.

The mount() method has the following arguments:

-- ``struct file_system_type *fs_type``: describes the filesystem, partly initialized
- by the specific filesystem code
+- ``struct file_system_type *fs_type``: describes the filesystem, partly
+ initialized by the specific filesystem code.

-- ``int flags``: mount flags
+- ``int flags``: mount flags.

- ``const char *dev_name``: the device name we are mounting.

- ``void *data``: arbitrary mount options, usually comes as an ASCII
- string (see "Mount Options" section)
+ string (see "Mount Options" section)

The mount() method must return the root dentry of the tree requested by
caller. An active reference to its superblock must be grabbed and the
@@ -179,22 +179,22 @@ implementation.
Usually, a filesystem uses one of the generic mount() implementations
and provides a fill_super() callback instead. The generic variants are:

-- ``mount_bdev``: mount a filesystem residing on a block device
+- ``mount_bdev``: mount a filesystem residing on a block device.

-- ``mount_nodev``: mount a filesystem that is not backed by a device
+- ``mount_nodev``: mount a filesystem that is not backed by a device.

- ``mount_single``: mount a filesystem which shares the instance between
- all mounts
+ all mounts.

A fill_super() callback implementation has the following arguments:

- ``struct super_block *sb``: the superblock structure. The callback
- must initialize this properly.
+ must initialize this properly.

- ``void *data``: arbitrary mount options, usually comes as an ASCII
- string (see "Mount Options" section)
+ string (see "Mount Options" section).

-- ``int silent``: whether or not to be silent on error
+- ``int silent``: whether or not to be silent on error.


The Superblock Object
@@ -240,87 +240,87 @@ noted. This means that most methods can block safely. All methods are
only called from a process context (i.e. not from an interrupt handler
or bottom half).

-- ``alloc_inode``: this method is called by alloc_inode() to allocate memory
- for struct inode and initialize it. If this function is not
- defined, a simple 'struct inode' is allocated. Normally
- alloc_inode will be used to allocate a larger structure which
- contains a 'struct inode' embedded within it.
+- ``alloc_inode``: this method is called by alloc_inode() to allocate
+ memory for struct inode and initialize it. If this function is not
+ defined, a simple 'struct inode' is allocated. Normally alloc_inode
+ will be used to allocate a larger structure which contains a 'struct
+ inode' embedded within it.

- ``destroy_inode``: this method is called by destroy_inode() to release
- resources allocated for struct inode. It is only required if
- ->alloc_inode was defined and simply undoes anything done by
- ->alloc_inode.
+ resources allocated for struct inode. It is only required if
+ ->alloc_inode was defined and simply undoes anything done by
+ ->alloc_inode.

-- ``dirty_inode``: this method is called by the VFS to mark an inode dirty.
+- ``dirty_inode``: this method is called by the VFS to mark an inode
+ dirty.

- ``write_inode``: this method is called when the VFS needs to write an
- inode to disc. The second parameter indicates whether the write
- should be synchronous or not, not all filesystems check this flag.
+ inode to disc. The second parameter indicates whether the write
+ should be synchronous or not, not all filesystems check this flag.

- ``drop_inode``: called when the last access to the inode is dropped,
- with the inode->i_lock spinlock held.
+ with the inode->i_lock spinlock held.

- This method should be either NULL (normal UNIX filesystem
- semantics) or "generic_delete_inode" (for filesystems that do not
- want to cache inodes - causing "delete_inode" to always be
- called regardless of the value of i_nlink)
+ This method should be either NULL (normal UNIX filesystem semantics)
+ or "generic_delete_inode" (for filesystems that do not want to cache
+ inodes - causing "delete_inode" to always be called regardless of the
+ value of i_nlink).

- The "generic_delete_inode()" behavior is equivalent to the
- old practice of using "force_delete" in the put_inode() case,
- but does not have the races that the "force_delete()" approach
- had.
+ The "generic_delete_inode()" behavior is equivalent to the old
+ practice of using "force_delete" in the put_inode() case, but does not
+ have the races that the "force_delete()" approach had.

-- ``delete_inode``: called when the VFS wants to delete an inode
+- ``delete_inode``: called when the VFS wants to delete an inode.

- ``put_super``: called when the VFS wishes to free the superblock
- (i.e. unmount). This is called with the superblock lock held
+ (i.e. unmount). This is called with the superblock lock held.

-- ``sync_fs``: called when VFS is writing out all dirty data associated with
- a superblock. The second parameter indicates whether the method
- should wait until the write out has been completed. Optional.
+- ``sync_fs``: called when VFS is writing out all dirty data associated
+ with a superblock. The second parameter indicates whether the method
+ should wait until the write out has been completed. Optional.

-- ``freeze_fs``: called when VFS is locking a filesystem and
- forcing it into a consistent state. This method is currently
- used by the Logical Volume Manager (LVM).
+- ``freeze_fs``: called when VFS is locking a filesystem and forcing it
+ into a consistent state. This method is currently used by the Logical
+ Volume Manager (LVM).

-- ``unfreeze_fs``: called when VFS is unlocking a filesystem and making it writable
- again.
+- ``unfreeze_fs``: called when VFS is unlocking a filesystem and making
+ it writable again.

- ``statfs``: called when the VFS needs to get filesystem statistics.

-- ``remount_fs``: called when the filesystem is remounted. This is called
- with the kernel lock held
+- ``remount_fs``: called when the filesystem is remounted. This is
+ called with the kernel lock held.

-- ``clear_inode``: called then the VFS clears the inode. Optional
+- ``clear_inode``: called then the VFS clears the inode. Optional.

- ``umount_begin``: called when the VFS is unmounting a filesystem.

- ``show_options``: called by the VFS to show mount options for
- /proc/<pid>/mounts. (see "Mount Options" section)
+ /proc/<pid>/mounts (see "Mount Options" section).

- ``quota_read``: called by the VFS to read from filesystem quota file.

- ``quota_write``: called by the VFS to write to filesystem quota file.

-- ``nr_cached_objects``: called by the sb cache shrinking function for the
- filesystem to return the number of freeable cached objects it contains.
- Optional.
+- ``nr_cached_objects``: called by the sb cache shrinking function for
+ the filesystem to return the number of freeable cached objects it
+ contains. Optional.

-- ``free_cache_objects``: called by the sb cache shrinking function for the
- filesystem to scan the number of objects indicated to try to free them.
- Optional, but any filesystem implementing this method needs to also
- implement ->nr_cached_objects for it to be called correctly.
+- ``free_cache_objects``: called by the sb cache shrinking function for
+ the filesystem to scan the number of objects indicated to try to free
+ them. Optional, but any filesystem implementing this method needs to
+ also implement ->nr_cached_objects for it to be called correctly.

- We can't do anything with any errors that the filesystem might
- encountered, hence the void return type. This will never be called if
- the VM is trying to reclaim under GFP_NOFS conditions, hence this
- method does not need to handle that situation itself.
+ We can't do anything with any errors that the filesystem might
+ encountered, hence the void return type. This will never be called if
+ the VM is trying to reclaim under GFP_NOFS conditions, hence this
+ method does not need to handle that situation itself.

- Implementations must include conditional reschedule calls inside any
- scanning loop that is done. This allows the VFS to determine
- appropriate scan batch sizes without having to worry about whether
- implementations will cause holdoff problems due to large scan batch
- sizes.
+ Implementations must include conditional reschedule calls inside any
+ scanning loop that is done. This allows the VFS to determine
+ appropriate scan batch sizes without having to worry about whether
+ implementations will cause holdoff problems due to large scan batch
+ sizes.

Whoever sets up the inode is responsible for filling in the "i_op"
field. This is a pointer to a "struct inode_operations" which describes
@@ -334,23 +334,24 @@ On filesystems that support extended attributes (xattrs), the s_xattr
superblock field points to a NULL-terminated array of xattr handlers.
Extended attributes are name:value pairs.

-- ``name``: Indicates that the handler matches attributes with the specified name
- (such as "system.posix_acl_access"); the prefix field must be NULL.
+- ``name``: Indicates that the handler matches attributes with the
+ specified name (such as "system.posix_acl_access"); the prefix field
+ must be NULL.

-- ``prefix``: Indicates that the handler matches all attributes with the specified
- name prefix (such as "user."); the name field must be NULL.
+- ``prefix``: Indicates that the handler matches all attributes with the
+ specified name prefix (such as "user."); the name field must be NULL.

-- ``list``: Determine if attributes matching this xattr handler should be listed
- for a particular dentry. Used by some listxattr implementations like
- generic_listxattr.
+- ``list``: Determine if attributes matching this xattr handler should
+ be listed for a particular dentry. Used by some listxattr
+ implementations like generic_listxattr.

-- ``get``: Called by the VFS to get the value of a particular extended attribute.
- This method is called by the getxattr(2) system call.
+- ``get``: Called by the VFS to get the value of a particular extended
+ attribute. This method is called by the getxattr(2) system call.

-- ``set``: Called by the VFS to set the value of a particular extended attribute.
- When the new value is NULL, called to remove a particular extended
- attribute. This method is called by the the setxattr(2) and
- removexattr(2) system calls.
+- ``set``: Called by the VFS to set the value of a particular extended
+ attribute. When the new value is NULL, called to remove a particular
+ extended attribute. This method is called by the the setxattr(2) and
+ removexattr(2) system calls.

When none of the xattr handlers of a filesystem match the specified
attribute name or when a filesystem doesn't support extended attributes,
@@ -400,120 +401,118 @@ Again, all methods are called without any locks being held, unless
otherwise noted.

- ``create``: called by the open(2) and creat(2) system calls. Only
- required if you want to support regular files. The dentry you
- get should not have an inode (i.e. it should be a negative
- dentry). Here you will probably call d_instantiate() with the
- dentry and the newly created inode
+ required if you want to support regular files. The dentry you get
+ should not have an inode (i.e. it should be a negative dentry). Here
+ you will probably call d_instantiate() with the dentry and the newly
+ created inode.

- ``lookup``: called when the VFS needs to look up an inode in a parent
- directory. The name to look for is found in the dentry. This
- method must call d_add() to insert the found inode into the
- dentry. The "i_count" field in the inode structure should be
- incremented. If the named inode does not exist a NULL inode
- should be inserted into the dentry (this is called a negative
- dentry). Returning an error code from this routine must only
- be done on a real error, otherwise creating inodes with system
- calls like create(2), mknod(2), mkdir(2) and so on will fail.
- If you wish to overload the dentry methods then you should
- initialise the "d_dop" field in the dentry; this is a pointer
- to a struct "dentry_operations".
- This method is called with the directory inode semaphore held
-
-- ``link``: called by the link(2) system call. Only required if you want
- to support hard links. You will probably need to call
- d_instantiate() just as you would in the create() method
+ directory. The name to look for is found in the dentry. This method
+ must call d_add() to insert the found inode into the dentry. The
+ "i_count" field in the inode structure should be incremented. If the
+ named inode does not exist a NULL inode should be inserted into the
+ dentry (this is called a negative dentry). Returning an error code
+ from this routine must only be done on a real error, otherwise
+ creating inodes with system calls like create(2), mknod(2), mkdir(2)
+ and so on will fail. If you wish to overload the dentry methods then
+ you should initialise the "d_dop" field in the dentry; this is a
+ pointer to a struct "dentry_operations". This method is called with
+ the directory inode semaphore held.
+
+- ``link``: called by the link(2) system call. Only required if you
+ want to support hard links. You will probably need to call
+ d_instantiate() just as you would in the create() method.

- ``unlink``: called by the unlink(2) system call. Only required if you
- want to support deleting inodes
-
-- ``symlink``: called by the symlink(2) system call. Only required if you
- want to support symlinks. You will probably need to call
- d_instantiate() just as you would in the create() method
-
-- ``mkdir``: called by the mkdir(2) system call. Only required if you want
- to support creating subdirectories. You will probably need to
- call d_instantiate() just as you would in the create() method
-
-- ``rmdir``: called by the rmdir(2) system call. Only required if you want
- to support deleting subdirectories
-
-- ``mknod``: called by the mknod(2) system call to create a device (char,
- block) inode or a named pipe (FIFO) or socket. Only required
- if you want to support creating these types of inodes. You
- will probably need to call d_instantiate() just as you would
- in the create() method
-
-- ``rename``: called by the rename(2) system call to rename the object to
- have the parent and name given by the second inode and dentry.
-
- The filesystem must return -EINVAL for any unsupported or
- unknown flags. Currently the following flags are implemented:
- (1) RENAME_NOREPLACE: this flag indicates that if the target
- of the rename exists the rename should fail with -EEXIST
- instead of replacing the target. The VFS already checks for
- existence, so for local filesystems the RENAME_NOREPLACE
- implementation is equivalent to plain rename.
- (2) RENAME_EXCHANGE: exchange source and target. Both must
- exist; this is checked by the VFS. Unlike plain rename,
- source and target may be of different type.
-
-- ``get_link``: called by the VFS to follow a symbolic link to the
- inode it points to. Only required if you want to support
- symbolic links. This method returns the symlink body
- to traverse (and possibly resets the current position with
- nd_jump_link()). If the body won't go away until the inode
- is gone, nothing else is needed; if it needs to be otherwise
- pinned, arrange for its release by having get_link(..., ..., done)
- do set_delayed_call(done, destructor, argument).
- In that case destructor(argument) will be called once VFS is
- done with the body you've returned.
- May be called in RCU mode; that is indicated by NULL dentry
- argument. If request can't be handled without leaving RCU mode,
- have it return ERR_PTR(-ECHILD).
-
-- ``readlink``: this is now just an override for use by readlink(2) for the
- cases when ->get_link uses nd_jump_link() or object is not in
- fact a symlink. Normally filesystems should only implement
- ->get_link for symlinks and readlink(2) will automatically use
- that.
-
-- ``permission``: called by the VFS to check for access rights on a POSIX-like
- filesystem.
-
- May be called in rcu-walk mode (mask & MAY_NOT_BLOCK). If in rcu-walk
- mode, the filesystem must check the permission without blocking or
- storing to the inode.
-
- If a situation is encountered that rcu-walk cannot handle, return
- -ECHILD and it will be called again in ref-walk mode.
-
-- ``setattr``: called by the VFS to set attributes for a file. This method
- is called by chmod(2) and related system calls.
-
-- ``getattr``: called by the VFS to get attributes of a file. This method
- is called by stat(2) and related system calls.
+ want to support deleting inodes.
+
+- ``symlink``: called by the symlink(2) system call. Only required if
+ you want to support symlinks. You will probably need to call
+ d_instantiate() just as you would in the create() method.
+
+- ``mkdir``: called by the mkdir(2) system call. Only required if you
+ want to support creating subdirectories. You will probably need to
+ call d_instantiate() just as you would in the create() method.
+
+- ``rmdir``: called by the rmdir(2) system call. Only required if you
+ want to support deleting subdirectories.
+
+- ``mknod``: called by the mknod(2) system call to create a device
+ (char, block) inode or a named pipe (FIFO) or socket. Only required
+ if you want to support creating these types of inodes. You will
+ probably need to call d_instantiate() just as you would in the
+ create() method.
+
+- ``rename``: called by the rename(2) system call to rename the object
+ to have the parent and name given by the second inode and dentry.
+
+ The filesystem must return -EINVAL for any unsupported or unknown
+ flags. Currently the following flags are implemented:
+
+ 1. ``RENAME_NOREPLACE``: this flag indicates that if the target of the
+ rename exists the rename should fail with -EEXIST instead of
+ replacing the target. The VFS already checks for existence, so for
+ local filesystems the RENAME_NOREPLACE implementation is equivalent
+ to plain rename.
+ 2. ``RENAME_EXCHANGE``: exchange source and target. Both must exist;
+ this is checked by the VFS. Unlike plain rename, source and target
+ may be of different type.
+
+- ``get_link``: called by the VFS to follow a symbolic link to the inode
+ it points to. Only required if you want to support symbolic links.
+ This method returns the symlink body to traverse (and possibly resets
+ the current position with nd_jump_link()). If the body won't go away
+ until the inode is gone, nothing else is needed; if it needs to be
+ otherwise pinned, arrange for its release by having get_link(..., ...,
+ done) do set_delayed_call(done, destructor, argument). In that case
+ destructor(argument) will be called once VFS is done with the body
+ you've returned. May be called in RCU mode; that is indicated by NULL
+ dentry argument. If request can't be handled without leaving RCU
+ mode, have it return ERR_PTR(-ECHILD).
+
+- ``readlink``: this is now just an override for use by readlink(2) for
+ the cases when ->get_link uses nd_jump_link() or object is not in fact
+ a symlink. Normally filesystems should only implement ->get_link for
+ symlinks and readlink(2) will automatically use that.
+
+- ``permission``: called by the VFS to check for access rights on a
+ POSIX-like filesystem.
+
+ May be called in rcu-walk mode (mask & MAY_NOT_BLOCK). If in rcu-walk
+ mode, the filesystem must check the permission without blocking or
+ storing to the inode.
+
+ If a situation is encountered that rcu-walk cannot handle, return
+ -ECHILD and it will be called again in ref-walk mode.
+
+- ``setattr``: called by the VFS to set attributes for a file. This
+ method is called by chmod(2) and related system calls.
+
+- ``getattr``: called by the VFS to get attributes of a file. This
+ method is called by stat(2) and related system calls.

- ``listxattr``: called by the VFS to list all extended attributes for a
- given file. This method is called by the listxattr(2) system call.
+ given file. This method is called by the listxattr(2) system call.

-- ``update_time``: called by the VFS to update a specific time or the i_version of
- an inode. If this is not defined the VFS will update the inode itself
- and call mark_inode_dirty_sync.
+- ``update_time``: called by the VFS to update a specific time or the
+ i_version of an inode. If this is not defined the VFS will update the
+ inode itself and call mark_inode_dirty_sync.

-- ``atomic_open``: called on the last component of an open. Using this optional
- method the filesystem can look up, possibly create and open the file in
- one atomic operation. If it wants to leave actual opening to the
- caller (e.g. if the file turned out to be a symlink, device, or just
- something filesystem won't do atomic open for), it may signal this by
- returning finish_no_open(file, dentry). This method is only called if
- the last component is negative or needs lookup. Cached positive dentries
- are still handled by f_op->open(). If the file was created,
- FMODE_CREATED flag should be set in file->f_mode. In case of O_EXCL
- the method must only succeed if the file didn't exist and hence FMODE_CREATED
- shall always be set on success.
+- ``atomic_open``: called on the last component of an open. Using this
+ optional method the filesystem can look up, possibly create and open
+ the file in one atomic operation. If it wants to leave actual opening
+ to the caller (e.g. if the file turned out to be a symlink, device, or
+ just something filesystem won't do atomic open for), it may signal
+ this by returning finish_no_open(file, dentry). This method is only
+ called if the last component is negative or needs lookup. Cached
+ positive dentries are still handled by f_op->open(). If the file was
+ created, FMODE_CREATED flag should be set in file->f_mode. In case of
+ O_EXCL the method must only succeed if the file didn't exist and hence
+ FMODE_CREATED shall always be set on success.

-- ``tmpfile``: called in the end of O_TMPFILE open(). Optional, equivalent to
- atomically creating, opening and unlinking a file in given directory.
+- ``tmpfile``: called in the end of O_TMPFILE open(). Optional,
+ equivalent to atomically creating, opening and unlinking a file in
+ given directory.


The Address Space Object
@@ -666,185 +665,180 @@ cache in your filesystem. The following members are defined:
int (*swap_deactivate)(struct file *);
};

-- ``writepage``: called by the VM to write a dirty page to backing store.
- This may happen for data integrity reasons (i.e. 'sync'), or
- to free up memory (flush). The difference can be seen in
- wbc->sync_mode.
- The PG_Dirty flag has been cleared and PageLocked is true.
- writepage should start writeout, should set PG_Writeback,
- and should make sure the page is unlocked, either synchronously
- or asynchronously when the write operation completes.
-
- If wbc->sync_mode is WB_SYNC_NONE, ->writepage doesn't have to
- try too hard if there are problems, and may choose to write out
- other pages from the mapping if that is easier (e.g. due to
- internal dependencies). If it chooses not to start writeout, it
- should return AOP_WRITEPAGE_ACTIVATE so that the VM will not keep
- calling ->writepage on that page.
-
- See the file "Locking" for more details.
-
-- ``readpage``: called by the VM to read a page from backing store.
- The page will be Locked when readpage is called, and should be
- unlocked and marked uptodate once the read completes.
- If ->readpage discovers that it needs to unlock the page for
- some reason, it can do so, and then return AOP_TRUNCATED_PAGE.
- In this case, the page will be relocated, relocked and if
- that all succeeds, ->readpage will be called again.
-
-- ``writepages``: called by the VM to write out pages associated with the
- address_space object. If wbc->sync_mode is WBC_SYNC_ALL, then
- the writeback_control will specify a range of pages that must be
- written out. If it is WBC_SYNC_NONE, then a nr_to_write is given
- and that many pages should be written if possible.
- If no ->writepages is given, then mpage_writepages is used
- instead. This will choose pages from the address space that are
- tagged as DIRTY and will pass them to ->writepage.
-
-- ``set_page_dirty``: called by the VM to set a page dirty.
- This is particularly needed if an address space attaches
- private data to a page, and that data needs to be updated when
- a page is dirtied. This is called, for example, when a memory
- mapped page gets modified.
- If defined, it should set the PageDirty flag, and the
- PAGECACHE_TAG_DIRTY tag in the radix tree.
-
-- ``readpages``: called by the VM to read pages associated with the address_space
- object. This is essentially just a vector version of
- readpage. Instead of just one page, several pages are
- requested.
- readpages is only used for read-ahead, so read errors are
- ignored. If anything goes wrong, feel free to give up.
-
-- ``write_begin``:
- Called by the generic buffered write code to ask the filesystem to
- prepare to write len bytes at the given offset in the file. The
- address_space should check that the write will be able to complete,
- by allocating space if necessary and doing any other internal
- housekeeping. If the write will update parts of any basic-blocks on
- storage, then those blocks should be pre-read (if they haven't been
- read already) so that the updated blocks can be written out properly.
-
- The filesystem must return the locked pagecache page for the specified
- offset, in *pagep, for the caller to write into.
-
- It must be able to cope with short writes (where the length passed to
- write_begin is greater than the number of bytes copied into the page).
-
- flags is a field for AOP_FLAG_xxx flags, described in
- include/linux/fs.h.
-
- A void * may be returned in fsdata, which then gets passed into
- write_end.
-
- Returns 0 on success; < 0 on failure (which is the error code), in
- which case write_end is not called.
-
-- ``write_end``: After a successful write_begin, and data copy, write_end must
- be called. len is the original len passed to write_begin, and copied
- is the amount that was able to be copied.
-
- The filesystem must take care of unlocking the page and releasing it
- refcount, and updating i_size.
-
- Returns < 0 on failure, otherwise the number of bytes (<= 'copied')
- that were able to be copied into pagecache.
-
-- ``bmap``: called by the VFS to map a logical block offset within object to
- physical block number. This method is used by the FIBMAP
- ioctl and for working with swap-files. To be able to swap to
- a file, the file must have a stable mapping to a block
- device. The swap system does not go through the filesystem
- but instead uses bmap to find out where the blocks in the file
- are and uses those addresses directly.
+- ``writepage``: called by the VM to write a dirty page to backing
+ store. This may happen for data integrity reasons (i.e. 'sync'), or
+ to free up memory (flush). The difference can be seen in
+ wbc->sync_mode. The PG_Dirty flag has been cleared and PageLocked is
+ true. writepage should start writeout, should set PG_Writeback, and
+ should make sure the page is unlocked, either synchronously or
+ asynchronously when the write operation completes.
+
+ If wbc->sync_mode is WB_SYNC_NONE, ->writepage doesn't have to try too
+ hard if there are problems, and may choose to write out other pages
+ from the mapping if that is easier (e.g. due to internal
+ dependencies). If it chooses not to start writeout, it should return
+ AOP_WRITEPAGE_ACTIVATE so that the VM will not keep calling
+ ->writepage on that page.
+
+ See the file "Locking" for more details.
+
+- ``readpage``: called by the VM to read a page from backing store. The
+ page will be Locked when readpage is called, and should be unlocked
+ and marked uptodate once the read completes. If ->readpage discovers
+ that it needs to unlock the page for some reason, it can do so, and
+ then return AOP_TRUNCATED_PAGE. In this case, the page will be
+ relocated, relocked and if that all succeeds, ->readpage will be
+ called again.
+
+- ``writepages``: called by the VM to write out pages associated with
+ the address_space object. If wbc->sync_mode is WBC_SYNC_ALL, then the
+ writeback_control will specify a range of pages that must be written
+ out. If it is WBC_SYNC_NONE, then a nr_to_write is given and that
+ many pages should be written if possible. If no ->writepages is
+ given, then mpage_writepages is used instead. This will choose pages
+ from the address space that are tagged as DIRTY and will pass them to
+ ->writepage.
+
+- ``set_page_dirty``: called by the VM to set a page dirty. This is
+ particularly needed if an address space attaches private data to a
+ page, and that data needs to be updated when a page is dirtied. This
+ is called, for example, when a memory mapped page gets modified. If
+ defined, it should set the PageDirty flag, and the PAGECACHE_TAG_DIRTY
+ tag in the radix tree.
+
+- ``readpages``: called by the VM to read pages associated with the
+ address_space object. This is essentially just a vector version of
+ readpage. Instead of just one page, several pages are requested.
+ readpages is only used for read-ahead, so read errors are ignored. If
+ anything goes wrong, feel free to give up.
+
+- ``write_begin``: Called by the generic buffered write code to ask the
+ filesystem to prepare to write len bytes at the given offset in the
+ file. The address_space should check that the write will be able to
+ complete, by allocating space if necessary and doing any other
+ internal housekeeping. If the write will update parts of any
+ basic-blocks on storage, then those blocks should be pre-read (if they
+ haven't been read already) so that the updated blocks can be written
+ out properly.
+
+ The filesystem must return the locked pagecache page for the specified
+ offset, in *pagep, for the caller to write into.
+
+ It must be able to cope with short writes (where the length passed to
+ write_begin is greater than the number of bytes copied into the page).
+
+ flags is a field for AOP_FLAG_xxx flags, described in
+ include/linux/fs.h.
+
+ A void * may be returned in fsdata, which then gets passed into
+ write_end.
+
+ Returns 0 on success; < 0 on failure (which is the error code), in
+ which case write_end is not called.
+
+- ``write_end``: After a successful write_begin, and data copy,
+ write_end must be called. len is the original len passed to
+ write_begin, and copied is the amount that was able to be copied.
+
+ The filesystem must take care of unlocking the page and releasing it
+ refcount, and updating i_size.
+
+ Returns < 0 on failure, otherwise the number of bytes (<= 'copied')
+ that were able to be copied into pagecache.
+
+- ``bmap``: called by the VFS to map a logical block offset within
+ object to physical block number. This method is used by the FIBMAP
+ ioctl and for working with swap-files. To be able to swap to a file,
+ the file must have a stable mapping to a block device. The swap
+ system does not go through the filesystem but instead uses bmap to
+ find out where the blocks in the file are and uses those addresses
+ directly.

- ``invalidatepage``: If a page has PagePrivate set, then invalidatepage
- will be called when part or all of the page is to be removed
- from the address space. This generally corresponds to either a
- truncation, punch hole or a complete invalidation of the address
- space (in the latter case 'offset' will always be 0 and 'length'
- will be PAGE_SIZE). Any private data associated with the page
- should be updated to reflect this truncation. If offset is 0 and
- length is PAGE_SIZE, then the private data should be released,
- because the page must be able to be completely discarded. This may
- be done by calling the ->releasepage function, but in this case the
- release MUST succeed.
-
-- ``releasepage``: releasepage is called on PagePrivate pages to indicate
- that the page should be freed if possible. ->releasepage
- should remove any private data from the page and clear the
- PagePrivate flag. If releasepage() fails for some reason, it must
- indicate failure with a 0 return value.
- releasepage() is used in two distinct though related cases. The
- first is when the VM finds a clean page with no active users and
- wants to make it a free page. If ->releasepage succeeds, the
- page will be removed from the address_space and become free.
-
- The second case is when a request has been made to invalidate
- some or all pages in an address_space. This can happen
- through the fadvise(POSIX_FADV_DONTNEED) system call or by the
- filesystem explicitly requesting it as nfs and 9fs do (when
- they believe the cache may be out of date with storage) by
- calling invalidate_inode_pages2().
- If the filesystem makes such a call, and needs to be certain
- that all pages are invalidated, then its releasepage will
- need to ensure this. Possibly it can clear the PageUptodate
- bit if it cannot free private data yet.
+ will be called when part or all of the page is to be removed from the
+ address space. This generally corresponds to either a truncation,
+ punch hole or a complete invalidation of the address space (in the
+ latter case 'offset' will always be 0 and 'length' will be PAGE_SIZE).
+ Any private data associated with the page should be updated to reflect
+ this truncation. If offset is 0 and length is PAGE_SIZE, then the
+ private data should be released, because the page must be able to be
+ completely discarded. This may be done by calling the ->releasepage
+ function, but in this case the release MUST succeed.
+
+- ``releasepage``: releasepage is called on PagePrivate pages to
+ indicate that the page should be freed if possible. ->releasepage
+ should remove any private data from the page and clear the PagePrivate
+ flag. If releasepage() fails for some reason, it must indicate
+ failure with a 0 return value. releasepage() is used in two distinct
+ though related cases. The first is when the VM finds a clean page
+ with no active users and wants to make it a free page. If
+ ->releasepage succeeds, the page will be removed from the
+ address_space and become free.
+
+ The second case is when a request has been made to invalidate some or
+ all pages in an address_space. This can happen through the
+ fadvise(POSIX_FADV_DONTNEED) system call or by the filesystem
+ explicitly requesting it as nfs and 9fs do (when they believe the
+ cache may be out of date with storage) by calling
+ invalidate_inode_pages2(). If the filesystem makes such a call, and
+ needs to be certain that all pages are invalidated, then its
+ releasepage will need to ensure this. Possibly it can clear the
+ PageUptodate bit if it cannot free private data yet.

- ``freepage``: freepage is called once the page is no longer visible in
- the page cache in order to allow the cleanup of any private
- data. Since it may be called by the memory reclaimer, it
- should not assume that the original address_space mapping still
- exists, and it should not block.
+ the page cache in order to allow the cleanup of any private data.
+ Since it may be called by the memory reclaimer, it should not assume
+ that the original address_space mapping still exists, and it should
+ not block.

- ``direct_IO``: called by the generic read/write routines to perform
- direct_IO - that is IO requests which bypass the page cache
- and transfer data directly between the storage and the
- application's address space.
-
-- ``isolate_page``: Called by the VM when isolating a movable non-lru page.
- If page is successfully isolated, VM marks the page as PG_isolated
- via __SetPageIsolated.
-
-- ``migrate_page``: This is used to compact the physical memory usage.
- If the VM wants to relocate a page (maybe off a memory card
- that is signalling imminent failure) it will pass a new page
- and an old page to this function. migrate_page should
- transfer any private data across and update any references
- that it has to the page.
-
-- ``putback_page``: Called by the VM when isolated page's migration fails.
-
-- ``launder_page``: Called before freeing a page - it writes back the dirty page. To
- prevent redirtying the page, it is kept locked during the whole
- operation.
-
-- ``is_partially_uptodate``: Called by the VM when reading a file through the
- pagecache when the underlying blocksize != pagesize. If the required
- block is up to date then the read can complete without needing the IO
- to bring the whole page up to date.
-
-- ``is_dirty_writeback``: Called by the VM when attempting to reclaim a page.
- The VM uses dirty and writeback information to determine if it needs
- to stall to allow flushers a chance to complete some IO. Ordinarily
- it can use PageDirty and PageWriteback but some filesystems have
- more complex state (unstable pages in NFS prevent reclaim) or
- do not set those flags due to locking problems. This callback
- allows a filesystem to indicate to the VM if a page should be
- treated as dirty or writeback for the purposes of stalling.
-
-- ``error_remove_page``: normally set to generic_error_remove_page if truncation
- is ok for this address space. Used for memory failure handling.
- Setting this implies you deal with pages going away under you,
- unless you have them locked or reference counts increased.
+ direct_IO - that is IO requests which bypass the page cache and
+ transfer data directly between the storage and the application's
+ address space.
+
+- ``isolate_page``: Called by the VM when isolating a movable non-lru
+ page. If page is successfully isolated, VM marks the page as
+ PG_isolated via __SetPageIsolated.
+
+- ``migrate_page``: This is used to compact the physical memory usage.
+ If the VM wants to relocate a page (maybe off a memory card that is
+ signalling imminent failure) it will pass a new page and an old page
+ to this function. migrate_page should transfer any private data
+ across and update any references that it has to the page.
+
+- ``putback_page``: Called by the VM when isolated page's migration
+ fails.
+
+- ``launder_page``: Called before freeing a page - it writes back the
+ dirty page. To prevent redirtying the page, it is kept locked during
+ the whole operation.
+
+- ``is_partially_uptodate``: Called by the VM when reading a file
+ through the pagecache when the underlying blocksize != pagesize. If
+ the required block is up to date then the read can complete without
+ needing the IO to bring the whole page up to date.
+
+- ``is_dirty_writeback``: Called by the VM when attempting to reclaim a
+ page. The VM uses dirty and writeback information to determine if it
+ needs to stall to allow flushers a chance to complete some IO.
+ Ordinarily it can use PageDirty and PageWriteback but some filesystems
+ have more complex state (unstable pages in NFS prevent reclaim) or do
+ not set those flags due to locking problems. This callback allows a
+ filesystem to indicate to the VM if a page should be treated as dirty
+ or writeback for the purposes of stalling.
+
+- ``error_remove_page``: normally set to generic_error_remove_page if
+ truncation is ok for this address space. Used for memory failure
+ handling. Setting this implies you deal with pages going away under
+ you, unless you have them locked or reference counts increased.

- ``swap_activate``: Called when swapon is used on a file to allocate
- space if necessary and pin the block lookup information in
- memory. A return value of zero indicates success,
- in which case this file can be used to back swapspace.
+ space if necessary and pin the block lookup information in memory. A
+ return value of zero indicates success, in which case this file can be
+ used to back swapspace.

-- ``swap_deactivate``: Called during swapoff on files where swap_activate
- was successful.
+- ``swap_deactivate``: Called during swapoff on files where
+ swap_activate was successful.


The File Object
@@ -907,87 +901,90 @@ This describes how the VFS can manipulate an open file. As of kernel
Again, all methods are called without any locks being held, unless
otherwise noted.

-- ``llseek``: called when the VFS needs to move the file position index
+- ``llseek``: called when the VFS needs to move the file position index.

-- ``read``: called by read(2) and related system calls
+- ``read``: called by read(2) and related system calls.

-- ``read_iter``: possibly asynchronous read with iov_iter as destination
+- ``read_iter``: possibly asynchronous read with iov_iter as
+ destination.

-- ``write``: called by write(2) and related system calls
+- ``write``: called by write(2) and related system calls.

-- ``write_iter``: possibly asynchronous write with iov_iter as source
+- ``write_iter``: possibly asynchronous write with iov_iter as source.

-- ``iterate``: called when the VFS needs to read the directory contents
+- ``iterate``: called when the VFS needs to read the directory contents.

-- ``iterate_shared``: called when the VFS needs to read the directory contents
- when filesystem supports concurrent dir iterators
+- ``iterate_shared``: called when the VFS needs to read the directory
+ contents when filesystem supports concurrent dir iterators.

- ``poll``: called by the VFS when a process wants to check if there is
- activity on this file and (optionally) go to sleep until there
- is activity. Called by the select(2) and poll(2) system calls
+ activity on this file and (optionally) go to sleep until there is
+ activity. Called by the select(2) and poll(2) system calls.

- ``unlocked_ioctl``: called by the ioctl(2) system call.

-- ``compat_ioctl``: called by the ioctl(2) system call when 32 bit system calls
- are used on 64 bit kernels.
+- ``compat_ioctl``: called by the ioctl(2) system call when 32 bit
+ system calls are used on 64 bit kernels.

-- ``mmap``: called by the mmap(2) system call
+- ``mmap``: called by the mmap(2) system call.

-- ``open``: called by the VFS when an inode should be opened. When the VFS
- opens a file, it creates a new "struct file". It then calls the
- open method for the newly allocated file structure. You might
- think that the open method really belongs in
- "struct inode_operations", and you may be right. I think it's
- done the way it is because it makes filesystems simpler to
- implement. The open() method is a good place to initialize the
- "private_data" member in the file structure if you want to point
- to a device structure
+- ``open``: called by the VFS when an inode should be opened. When the
+ VFS opens a file, it creates a new "struct file". It then calls the
+ open method for the newly allocated file structure. You might think
+ that the open method really belongs in "struct inode_operations", and
+ you may be right. I think it's done the way it is because it makes
+ filesystems simpler to implement. The open() method is a good place
+ to initialize the "private_data" member in the file structure if you
+ want to point to a device structure.

-- ``flush``: called by the close(2) system call to flush a file
+- ``flush``: called by the close(2) system call to flush a file.

-- ``release``: called when the last reference to an open file is closed
+- ``release``: called when the last reference to an open file is closed.

-- ``fsync``: called by the fsync(2) system call. Also see the section above
- entitled "Handling errors during writeback".
+- ``fsync``: called by the fsync(2) system call. Also see the section
+ above entitled "Handling errors during writeback".

- ``fasync``: called by the fcntl(2) system call when asynchronous
- (non-blocking) mode is enabled for a file
+ (non-blocking) mode is enabled for a file.

-- ``lock``: called by the fcntl(2) system call for F_GETLK, F_SETLK, and F_SETLKW
- commands
+- ``lock``: called by the fcntl(2) system call for F_GETLK, F_SETLK, and
+ F_SETLKW commands.

-- ``get_unmapped_area``: called by the mmap(2) system call
+- ``get_unmapped_area``: called by the mmap(2) system call.

-- ``check_flags``: called by the fcntl(2) system call for F_SETFL command
+- ``check_flags``: called by the fcntl(2) system call for F_SETFL
+ command.

-- ``flock``: called by the flock(2) system call
+- ``flock``: called by the flock(2) system call.

-- ``splice_write``: called by the VFS to splice data from a pipe to a file. This
- method is used by the splice(2) system call
+- ``splice_write``: called by the VFS to splice data from a pipe to a
+ file. This method is used by the splice(2) system call.

-- ``splice_read``: called by the VFS to splice data from file to a pipe. This
- method is used by the splice(2) system call
+- ``splice_read``: called by the VFS to splice data from file to a pipe.
+ This method is used by the splice(2) system call

-- ``setlease``: called by the VFS to set or release a file lock lease. setlease
- implementations should call generic_setlease to record or remove
- the lease in the inode after setting it.
+- ``setlease``: called by the VFS to set or release a file lock lease.
+ setlease implementations should call generic_setlease to record or
+ remove the lease in the inode after setting it.

-- ``fallocate``: called by the VFS to preallocate blocks or punch a hole.
+- ``fallocate``: called by the VFS to preallocate blocks or punch a
+ hole.

- ``copy_file_range``: called by the copy_file_range(2) system call.

-- ``remap_file_range``: called by the ioctl(2) system call for FICLONERANGE and
- FICLONE and FIDEDUPERANGE commands to remap file ranges. An
- implementation should remap len bytes at pos_in of the source file into
- the dest file at pos_out. Implementations must handle callers passing
- in len == 0; this means "remap to the end of the source file". The
- return value should the number of bytes remapped, or the usual
- negative error code if errors occurred before any bytes were remapped.
- The remap_flags parameter accepts REMAP_FILE_* flags. If
- REMAP_FILE_DEDUP is set then the implementation must only remap if the
- requested file ranges have identical contents. If REMAP_CAN_SHORTEN is
- set, the caller is ok with the implementation shortening the request
- length to satisfy alignment or EOF requirements (or any other reason).
+- ``remap_file_range``: called by the ioctl(2) system call for
+ FICLONERANGE and FICLONE and FIDEDUPERANGE commands to remap file
+ ranges. An implementation should remap len bytes at pos_in of the
+ source file into the dest file at pos_out. Implementations must
+ handle callers passing in len == 0; this means "remap to the end of
+ the source file". The return value should the number of bytes
+ remapped, or the usual negative error code if errors occurred before
+ any bytes were remapped. The remap_flags parameter accepts
+ REMAP_FILE_* flags. If REMAP_FILE_DEDUP is set then the
+ implementation must only remap if the requested file ranges have
+ identical contents. If REMAP_CAN_SHORTEN is set, the caller is ok
+ with the implementation shortening the request length to satisfy
+ alignment or EOF requirements (or any other reason).

- ``fadvise``: possibly called by the fadvise64() system call.

@@ -1034,146 +1031,147 @@ defined:
struct dentry *(*d_real)(struct dentry *, const struct inode *);
};

-- ``d_revalidate``: called when the VFS needs to revalidate a dentry. This
- is called whenever a name look-up finds a dentry in the
- dcache. Most local filesystems leave this as NULL, because all their
- dentries in the dcache are valid. Network filesystems are different
- since things can change on the server without the client necessarily
- being aware of it.
+- ``d_revalidate``: called when the VFS needs to revalidate a dentry.
+ This is called whenever a name look-up finds a dentry in the dcache.
+ Most local filesystems leave this as NULL, because all their dentries
+ in the dcache are valid. Network filesystems are different since
+ things can change on the server without the client necessarily being
+ aware of it.

- This function should return a positive value if the dentry is still
- valid, and zero or a negative error code if it isn't.
+ This function should return a positive value if the dentry is still
+ valid, and zero or a negative error code if it isn't.

- d_revalidate may be called in rcu-walk mode (flags & LOOKUP_RCU).
- If in rcu-walk mode, the filesystem must revalidate the dentry without
- blocking or storing to the dentry, d_parent and d_inode should not be
- used without care (because they can change and, in d_inode case, even
- become NULL under us).
+ d_revalidate may be called in rcu-walk mode (flags & LOOKUP_RCU). If
+ in rcu-walk mode, the filesystem must revalidate the dentry without
+ blocking or storing to the dentry, d_parent and d_inode should not be
+ used without care (because they can change and, in d_inode case, even
+ become NULL under us).

- If a situation is encountered that rcu-walk cannot handle, return
- -ECHILD and it will be called again in ref-walk mode.
+ If a situation is encountered that rcu-walk cannot handle, return
+ -ECHILD and it will be called again in ref-walk mode.

-- ``d_weak_revalidate``: called when the VFS needs to revalidate a "jumped" dentry.
- This is called when a path-walk ends at dentry that was not acquired by
- doing a lookup in the parent directory. This includes "/", "." and "..",
- as well as procfs-style symlinks and mountpoint traversal.
+- ``d_weak_revalidate``: called when the VFS needs to revalidate a
+ "jumped" dentry. This is called when a path-walk ends at dentry that
+ was not acquired by doing a lookup in the parent directory. This
+ includes "/", "." and "..", as well as procfs-style symlinks and
+ mountpoint traversal.

- In this case, we are less concerned with whether the dentry is still
- fully correct, but rather that the inode is still valid. As with
- d_revalidate, most local filesystems will set this to NULL since their
- dcache entries are always valid.
+ In this case, we are less concerned with whether the dentry is still
+ fully correct, but rather that the inode is still valid. As with
+ d_revalidate, most local filesystems will set this to NULL since their
+ dcache entries are always valid.

- This function has the same return code semantics as d_revalidate.
+ This function has the same return code semantics as d_revalidate.

- d_weak_revalidate is only called after leaving rcu-walk mode.
+ d_weak_revalidate is only called after leaving rcu-walk mode.

-- ``d_hash``: called when the VFS adds a dentry to the hash table. The first
- dentry passed to d_hash is the parent directory that the name is
- to be hashed into.
+- ``d_hash``: called when the VFS adds a dentry to the hash table. The
+ first dentry passed to d_hash is the parent directory that the name is
+ to be hashed into.

- Same locking and synchronisation rules as d_compare regarding
- what is safe to dereference etc.
+ Same locking and synchronisation rules as d_compare regarding what is
+ safe to dereference etc.

-- ``d_compare``: called to compare a dentry name with a given name. The first
- dentry is the parent of the dentry to be compared, the second is
- the child dentry. len and name string are properties of the dentry
- to be compared. qstr is the name to compare it with.
+- ``d_compare``: called to compare a dentry name with a given name. The
+ first dentry is the parent of the dentry to be compared, the second is
+ the child dentry. len and name string are properties of the dentry to
+ be compared. qstr is the name to compare it with.

- Must be constant and idempotent, and should not take locks if
- possible, and should not or store into the dentry.
- Should not dereference pointers outside the dentry without
- lots of care (eg. d_parent, d_inode, d_name should not be used).
+ Must be constant and idempotent, and should not take locks if
+ possible, and should not or store into the dentry. Should not
+ dereference pointers outside the dentry without lots of care (eg.
+ d_parent, d_inode, d_name should not be used).

- However, our vfsmount is pinned, and RCU held, so the dentries and
- inodes won't disappear, neither will our sb or filesystem module.
- ->d_sb may be used.
+ However, our vfsmount is pinned, and RCU held, so the dentries and
+ inodes won't disappear, neither will our sb or filesystem module.
+ ->d_sb may be used.

- It is a tricky calling convention because it needs to be called under
- "rcu-walk", ie. without any locks or references on things.
+ It is a tricky calling convention because it needs to be called under
+ "rcu-walk", ie. without any locks or references on things.

-- ``d_delete``: called when the last reference to a dentry is dropped and the
- dcache is deciding whether or not to cache it. Return 1 to delete
- immediately, or 0 to cache the dentry. Default is NULL which means to
- always cache a reachable dentry. d_delete must be constant and
- idempotent.
+- ``d_delete``: called when the last reference to a dentry is dropped
+ and the dcache is deciding whether or not to cache it. Return 1 to
+ delete immediately, or 0 to cache the dentry. Default is NULL which
+ means to always cache a reachable dentry. d_delete must be constant
+ and idempotent.

-- ``d_init``: called when a dentry is allocated
+- ``d_init``: called when a dentry is allocated.

-- ``d_release``: called when a dentry is really deallocated
+- ``d_release``: called when a dentry is really deallocated.

- ``d_iput``: called when a dentry loses its inode (just prior to its
- being deallocated). The default when this is NULL is that the
- VFS calls iput(). If you define this method, you must call
- iput() yourself
+ being deallocated). The default when this is NULL is that the VFS
+ calls iput(). If you define this method, you must call iput()
+ yourself.

- ``d_dname``: called when the pathname of a dentry should be generated.
- Useful for some pseudo filesystems (sockfs, pipefs, ...) to delay
- pathname generation. (Instead of doing it when dentry is created,
- it's done only when the path is needed.). Real filesystems probably
- dont want to use it, because their dentries are present in global
- dcache hash, so their hash should be an invariant. As no lock is
- held, d_dname() should not try to modify the dentry itself, unless
- appropriate SMP safety is used. CAUTION : d_path() logic is quite
- tricky. The correct way to return for example "Hello" is to put it
- at the end of the buffer, and returns a pointer to the first char.
- dynamic_dname() helper function is provided to take care of this.
-
- .. code-block:: c
-
- static char *pipefs_dname(struct dentry *dent, char *buffer, int buflen)
- {
- return dynamic_dname(dentry, buffer, buflen, "pipe:[%lu]",
- dentry->d_inode->i_ino);
- }
-
-- ``d_automount``: called when an automount dentry is to be traversed (optional).
- This should create a new VFS mount record and return the record to the
- caller. The caller is supplied with a path parameter giving the
- automount directory to describe the automount target and the parent
- VFS mount record to provide inheritable mount parameters. NULL should
- be returned if someone else managed to make the automount first. If
- the vfsmount creation failed, then an error code should be returned.
- If -EISDIR is returned, then the directory will be treated as an
- ordinary directory and returned to pathwalk to continue walking.
-
- If a vfsmount is returned, the caller will attempt to mount it on the
- mountpoint and will remove the vfsmount from its expiration list in
- the case of failure. The vfsmount should be returned with 2 refs on
- it to prevent automatic expiration - the caller will clean up the
- additional ref.
-
- This function is only used if DCACHE_NEED_AUTOMOUNT is set on the
- dentry. This is set by __d_instantiate() if S_AUTOMOUNT is set on the
- inode being added.
-
-- ``d_manage``: called to allow the filesystem to manage the transition from a
- dentry (optional). This allows autofs, for example, to hold up clients
- waiting to explore behind a 'mountpoint' while letting the daemon go
- past and construct the subtree there. 0 should be returned to let the
- calling process continue. -EISDIR can be returned to tell pathwalk to
- use this directory as an ordinary directory and to ignore anything
- mounted on it and not to check the automount flag. Any other error
- code will abort pathwalk completely.
-
- If the 'rcu_walk' parameter is true, then the caller is doing a
- pathwalk in RCU-walk mode. Sleeping is not permitted in this mode,
- and the caller can be asked to leave it and call again by returning
- -ECHILD. -EISDIR may also be returned to tell pathwalk to
- ignore d_automount or any mounts.
-
- This function is only used if DCACHE_MANAGE_TRANSIT is set on the
- dentry being transited from.
-
-- ``d_real``: overlay/union type filesystems implement this method to return one of
- the underlying dentries hidden by the overlay. It is used in two
- different modes:
-
- Called from file_dentry() it returns the real dentry matching the inode
- argument. The real dentry may be from a lower layer already copied up,
- but still referenced from the file. This mode is selected with a
- non-NULL inode argument.
-
- With NULL inode the topmost real underlying dentry is returned.
+ Useful for some pseudo filesystems (sockfs, pipefs, ...) to delay
+ pathname generation. (Instead of doing it when dentry is created,
+ it's done only when the path is needed.). Real filesystems probably
+ dont want to use it, because their dentries are present in global
+ dcache hash, so their hash should be an invariant. As no lock is
+ held, d_dname() should not try to modify the dentry itself, unless
+ appropriate SMP safety is used. CAUTION : d_path() logic is quite
+ tricky. The correct way to return for example "Hello" is to put it at
+ the end of the buffer, and returns a pointer to the first char.
+ dynamic_dname() helper function is provided to take care of this.
+
+ .. code-block:: c
+
+ static char *pipefs_dname(struct dentry *dent, char *buffer, int buflen)
+ {
+ return dynamic_dname(dentry, buffer, buflen, "pipe:[%lu]",
+ dentry->d_inode->i_ino);
+ }
+
+- ``d_automount``: called when an automount dentry is to be traversed
+ (optional). This should create a new VFS mount record and return the
+ record to the caller. The caller is supplied with a path parameter
+ giving the automount directory to describe the automount target and
+ the parent VFS mount record to provide inheritable mount parameters.
+ NULL should be returned if someone else managed to make the automount
+ first. If the vfsmount creation failed, then an error code should be
+ returned. If -EISDIR is returned, then the directory will be treated
+ as an ordinary directory and returned to pathwalk to continue walking.
+
+ If a vfsmount is returned, the caller will attempt to mount it on the
+ mountpoint and will remove the vfsmount from its expiration list in
+ the case of failure. The vfsmount should be returned with 2 refs on
+ it to prevent automatic expiration - the caller will clean up the
+ additional ref.
+
+ This function is only used if DCACHE_NEED_AUTOMOUNT is set on the
+ dentry. This is set by __d_instantiate() if S_AUTOMOUNT is set on the
+ inode being added.
+
+- ``d_manage``: called to allow the filesystem to manage the transition
+ from a dentry (optional). This allows autofs, for example, to hold up
+ clients waiting to explore behind a 'mountpoint' while letting the
+ daemon go past and construct the subtree there. 0 should be returned
+ to let the calling process continue. -EISDIR can be returned to tell
+ pathwalk to use this directory as an ordinary directory and to ignore
+ anything mounted on it and not to check the automount flag. Any other
+ error code will abort pathwalk completely.
+
+ If the 'rcu_walk' parameter is true, then the caller is doing a
+ pathwalk in RCU-walk mode. Sleeping is not permitted in this mode,
+ and the caller can be asked to leave it and call again by returning
+ -ECHILD. -EISDIR may also be returned to tell pathwalk to ignore
+ d_automount or any mounts.
+
+ This function is only used if DCACHE_MANAGE_TRANSIT is set on the
+ dentry being transited from.
+
+- ``d_real``: overlay/union type filesystems implement this method to
+ return one of the underlying dentries hidden by the overlay. It is
+ used in two different modes:
+
+ Called from file_dentry() it returns the real dentry matching the
+ inode argument. The real dentry may be from a lower layer already
+ copied up, but still referenced from the file. This mode is selected
+ with a non-NULL inode argument.
+
+ With NULL inode the topmost real underlying dentry is returned.

Each dentry has a pointer to its parent dentry, as well as a hash list
of child dentries. Child dentries are basically like files in a
@@ -1187,39 +1185,38 @@ There are a number of functions defined which permit a filesystem to
manipulate dentries:

- ``dget``: open a new handle for an existing dentry (this just increments
- the usage count)
+ the usage count).

- ``dput``: close a handle for a dentry (decrements the usage count). If
- the usage count drops to 0, and the dentry is still in its
- parent's hash, the "d_delete" method is called to check whether
- it should be cached. If it should not be cached, or if the dentry
- is not hashed, it is deleted. Otherwise cached dentries are put
- into an LRU list to be reclaimed on memory shortage.
+ the usage count drops to 0, and the dentry is still in its parent's hash,
+ the "d_delete" method is called to check whether it should be cached. If
+ it should not be cached, or if the dentry is not hashed, it is deleted.
+ Otherwise cached dentries are put into an LRU list to be reclaimed on
+ memory shortage.

- ``d_drop``: this unhashes a dentry from its parents hash list. A
- subsequent call to dput() will deallocate the dentry if its
- usage count drops to 0
+ subsequent call to dput() will deallocate the dentry if its usage count
+ drops to 0.

- ``d_delete``: delete a dentry. If there are no other open references to
- the dentry then the dentry is turned into a negative dentry
- (the d_iput() method is called). If there are other
- references, then d_drop() is called instead
+ the dentry then the dentry is turned into a negative dentry (the d_iput()
+ method is called). If there are other references, then d_drop() is
+ called instead.

- ``d_add``: add a dentry to its parents hash list and then calls
- d_instantiate()
+ d_instantiate().

- ``d_instantiate``: add a dentry to the alias hash list for the inode and
- updates the "d_inode" member. The "i_count" member in the
- inode structure should be set/incremented. If the inode
- pointer is NULL, the dentry is called a "negative
- dentry". This function is commonly called when an inode is
- created for an existing negative dentry
+ updates the "d_inode" member. The "i_count" member in the inode
+ structure should be set/incremented. If the inode pointer is NULL, the
+ dentry is called a "negative dentry". This function is commonly called
+ when an inode is created for an existing negative dentry.

-- ``d_lookup``: look up a dentry given its parent and path name component
- It looks up the child of that given name from the dcache
- hash table. If it is found, the reference count is incremented
- and the dentry is returned. The caller must use dput()
- to free the dentry when it finishes using it.
+- ``d_lookup``: look up a dentry given its parent and path name component.
+ It looks up the child of that given name from the dcache hash table. If
+ it is found, the reference count is incremented and the dentry is
+ returned. The caller must use dput() to free the dentry when it finishes
+ using it.


Mount Options
@@ -1233,8 +1230,8 @@ On mount and remount the filesystem is passed a string containing a
comma separated list of mount options. The options can have either of
these forms:

- option
- option=value
+- option
+- option=value

The <linux/parser.h> header defines an API that helps parse these
options. There are plenty of examples on how to use it in existing
@@ -1247,11 +1244,11 @@ Showing options
If a filesystem accepts mount options, it must define show_options() to
show all the currently active options. The rules are:

- - options MUST be shown which are not default or their values differ
- from the default
+- options MUST be shown which are not default or their values differ from
+ the default.

- - options MAY be shown which are enabled by default or have their
- default value
+- options MAY be shown which are enabled by default or have their default
+ value.

Options used only internally between a mount helper and the kernel (such
as file descriptors), or which only have an effect during the mounting
--
2.21.0
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