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790eac5640
Pull second set of VFS changes from Al Viro: "Assorted f_pos race fixes, making do_splice_direct() safe to call with i_mutex on parent, O_TMPFILE support, Jeff's locks.c series, ->d_hash/->d_compare calling conventions changes from Linus, misc stuff all over the place." * 'for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/viro/vfs: (63 commits) Document ->tmpfile() ext4: ->tmpfile() support vfs: export lseek_execute() to modules lseek_execute() doesn't need an inode passed to it block_dev: switch to fixed_size_llseek() cpqphp_sysfs: switch to fixed_size_llseek() tile-srom: switch to fixed_size_llseek() proc_powerpc: switch to fixed_size_llseek() ubi/cdev: switch to fixed_size_llseek() pci/proc: switch to fixed_size_llseek() isapnp: switch to fixed_size_llseek() lpfc: switch to fixed_size_llseek() locks: give the blocked_hash its own spinlock locks: add a new "lm_owner_key" lock operation locks: turn the blocked_list into a hashtable locks: convert fl_link to a hlist_node locks: avoid taking global lock if possible when waking up blocked waiters locks: protect most of the file_lock handling with i_lock locks: encapsulate the fl_link list handling locks: make "added" in __posix_lock_file a bool ...
556 lines
23 KiB
Plaintext
556 lines
23 KiB
Plaintext
The text below describes the locking rules for VFS-related methods.
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It is (believed to be) up-to-date. *Please*, if you change anything in
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prototypes or locking protocols - update this file. And update the relevant
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instances in the tree, don't leave that to maintainers of filesystems/devices/
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etc. At the very least, put the list of dubious cases in the end of this file.
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Don't turn it into log - maintainers of out-of-the-tree code are supposed to
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be able to use diff(1).
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Thing currently missing here: socket operations. Alexey?
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--------------------------- dentry_operations --------------------------
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prototypes:
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int (*d_revalidate)(struct dentry *, unsigned int);
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int (*d_weak_revalidate)(struct dentry *, unsigned int);
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int (*d_hash)(const struct dentry *, struct qstr *);
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int (*d_compare)(const struct dentry *, const struct dentry *,
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unsigned int, const char *, const struct qstr *);
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int (*d_delete)(struct dentry *);
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void (*d_release)(struct dentry *);
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void (*d_iput)(struct dentry *, struct inode *);
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char *(*d_dname)((struct dentry *dentry, char *buffer, int buflen);
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struct vfsmount *(*d_automount)(struct path *path);
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int (*d_manage)(struct dentry *, bool);
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locking rules:
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rename_lock ->d_lock may block rcu-walk
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d_revalidate: no no yes (ref-walk) maybe
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d_weak_revalidate:no no yes no
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d_hash no no no maybe
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d_compare: yes no no maybe
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d_delete: no yes no no
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d_release: no no yes no
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d_prune: no yes no no
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d_iput: no no yes no
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d_dname: no no no no
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d_automount: no no yes no
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d_manage: no no yes (ref-walk) maybe
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--------------------------- inode_operations ---------------------------
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prototypes:
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int (*create) (struct inode *,struct dentry *,umode_t, bool);
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struct dentry * (*lookup) (struct inode *,struct dentry *, unsigned int);
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int (*link) (struct dentry *,struct inode *,struct dentry *);
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int (*unlink) (struct inode *,struct dentry *);
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int (*symlink) (struct inode *,struct dentry *,const char *);
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int (*mkdir) (struct inode *,struct dentry *,umode_t);
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int (*rmdir) (struct inode *,struct dentry *);
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int (*mknod) (struct inode *,struct dentry *,umode_t,dev_t);
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int (*rename) (struct inode *, struct dentry *,
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struct inode *, struct dentry *);
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int (*readlink) (struct dentry *, char __user *,int);
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void * (*follow_link) (struct dentry *, struct nameidata *);
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void (*put_link) (struct dentry *, struct nameidata *, void *);
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void (*truncate) (struct inode *);
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int (*permission) (struct inode *, int, unsigned int);
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int (*get_acl)(struct inode *, int);
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int (*setattr) (struct dentry *, struct iattr *);
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int (*getattr) (struct vfsmount *, struct dentry *, struct kstat *);
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int (*setxattr) (struct dentry *, const char *,const void *,size_t,int);
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ssize_t (*getxattr) (struct dentry *, const char *, void *, size_t);
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ssize_t (*listxattr) (struct dentry *, char *, size_t);
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int (*removexattr) (struct dentry *, const char *);
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int (*fiemap)(struct inode *, struct fiemap_extent_info *, u64 start, u64 len);
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void (*update_time)(struct inode *, struct timespec *, int);
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int (*atomic_open)(struct inode *, struct dentry *,
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struct file *, unsigned open_flag,
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umode_t create_mode, int *opened);
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int (*tmpfile) (struct inode *, struct dentry *, umode_t);
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locking rules:
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all may block
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i_mutex(inode)
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lookup: yes
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create: yes
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link: yes (both)
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mknod: yes
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symlink: yes
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mkdir: yes
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unlink: yes (both)
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rmdir: yes (both) (see below)
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rename: yes (all) (see below)
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readlink: no
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follow_link: no
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put_link: no
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setattr: yes
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permission: no (may not block if called in rcu-walk mode)
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get_acl: no
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getattr: no
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setxattr: yes
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getxattr: no
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listxattr: no
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removexattr: yes
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fiemap: no
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update_time: no
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atomic_open: yes
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tmpfile: no
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Additionally, ->rmdir(), ->unlink() and ->rename() have ->i_mutex on
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victim.
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cross-directory ->rename() has (per-superblock) ->s_vfs_rename_sem.
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See Documentation/filesystems/directory-locking for more detailed discussion
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of the locking scheme for directory operations.
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--------------------------- super_operations ---------------------------
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prototypes:
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struct inode *(*alloc_inode)(struct super_block *sb);
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void (*destroy_inode)(struct inode *);
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void (*dirty_inode) (struct inode *, int flags);
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int (*write_inode) (struct inode *, struct writeback_control *wbc);
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int (*drop_inode) (struct inode *);
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void (*evict_inode) (struct inode *);
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void (*put_super) (struct super_block *);
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int (*sync_fs)(struct super_block *sb, int wait);
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int (*freeze_fs) (struct super_block *);
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int (*unfreeze_fs) (struct super_block *);
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int (*statfs) (struct dentry *, struct kstatfs *);
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int (*remount_fs) (struct super_block *, int *, char *);
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void (*umount_begin) (struct super_block *);
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int (*show_options)(struct seq_file *, struct dentry *);
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ssize_t (*quota_read)(struct super_block *, int, char *, size_t, loff_t);
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ssize_t (*quota_write)(struct super_block *, int, const char *, size_t, loff_t);
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int (*bdev_try_to_free_page)(struct super_block*, struct page*, gfp_t);
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locking rules:
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All may block [not true, see below]
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s_umount
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alloc_inode:
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destroy_inode:
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dirty_inode:
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write_inode:
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drop_inode: !!!inode->i_lock!!!
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evict_inode:
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put_super: write
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sync_fs: read
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freeze_fs: write
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unfreeze_fs: write
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statfs: maybe(read) (see below)
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remount_fs: write
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umount_begin: no
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show_options: no (namespace_sem)
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quota_read: no (see below)
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quota_write: no (see below)
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bdev_try_to_free_page: no (see below)
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->statfs() has s_umount (shared) when called by ustat(2) (native or
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compat), but that's an accident of bad API; s_umount is used to pin
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the superblock down when we only have dev_t given us by userland to
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identify the superblock. Everything else (statfs(), fstatfs(), etc.)
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doesn't hold it when calling ->statfs() - superblock is pinned down
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by resolving the pathname passed to syscall.
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->quota_read() and ->quota_write() functions are both guaranteed to
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be the only ones operating on the quota file by the quota code (via
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dqio_sem) (unless an admin really wants to screw up something and
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writes to quota files with quotas on). For other details about locking
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see also dquot_operations section.
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->bdev_try_to_free_page is called from the ->releasepage handler of
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the block device inode. See there for more details.
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--------------------------- file_system_type ---------------------------
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prototypes:
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int (*get_sb) (struct file_system_type *, int,
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const char *, void *, struct vfsmount *);
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struct dentry *(*mount) (struct file_system_type *, int,
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const char *, void *);
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void (*kill_sb) (struct super_block *);
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locking rules:
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may block
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mount yes
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kill_sb yes
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->mount() returns ERR_PTR or the root dentry; its superblock should be locked
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on return.
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->kill_sb() takes a write-locked superblock, does all shutdown work on it,
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unlocks and drops the reference.
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--------------------------- address_space_operations --------------------------
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prototypes:
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int (*writepage)(struct page *page, struct writeback_control *wbc);
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int (*readpage)(struct file *, struct page *);
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int (*sync_page)(struct page *);
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int (*writepages)(struct address_space *, struct writeback_control *);
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int (*set_page_dirty)(struct page *page);
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int (*readpages)(struct file *filp, struct address_space *mapping,
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struct list_head *pages, unsigned nr_pages);
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int (*write_begin)(struct file *, struct address_space *mapping,
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loff_t pos, unsigned len, unsigned flags,
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struct page **pagep, void **fsdata);
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int (*write_end)(struct file *, struct address_space *mapping,
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loff_t pos, unsigned len, unsigned copied,
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struct page *page, void *fsdata);
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sector_t (*bmap)(struct address_space *, sector_t);
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void (*invalidatepage) (struct page *, unsigned int, unsigned int);
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int (*releasepage) (struct page *, int);
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void (*freepage)(struct page *);
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int (*direct_IO)(int, struct kiocb *, const struct iovec *iov,
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loff_t offset, unsigned long nr_segs);
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int (*get_xip_mem)(struct address_space *, pgoff_t, int, void **,
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unsigned long *);
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int (*migratepage)(struct address_space *, struct page *, struct page *);
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int (*launder_page)(struct page *);
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int (*is_partially_uptodate)(struct page *, read_descriptor_t *, unsigned long);
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int (*error_remove_page)(struct address_space *, struct page *);
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int (*swap_activate)(struct file *);
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int (*swap_deactivate)(struct file *);
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locking rules:
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All except set_page_dirty and freepage may block
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PageLocked(page) i_mutex
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writepage: yes, unlocks (see below)
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readpage: yes, unlocks
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sync_page: maybe
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writepages:
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set_page_dirty no
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readpages:
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write_begin: locks the page yes
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write_end: yes, unlocks yes
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bmap:
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invalidatepage: yes
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releasepage: yes
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freepage: yes
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direct_IO:
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get_xip_mem: maybe
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migratepage: yes (both)
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launder_page: yes
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is_partially_uptodate: yes
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error_remove_page: yes
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swap_activate: no
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swap_deactivate: no
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->write_begin(), ->write_end(), ->sync_page() and ->readpage()
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may be called from the request handler (/dev/loop).
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->readpage() unlocks the page, either synchronously or via I/O
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completion.
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->readpages() populates the pagecache with the passed pages and starts
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I/O against them. They come unlocked upon I/O completion.
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->writepage() is used for two purposes: for "memory cleansing" and for
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"sync". These are quite different operations and the behaviour may differ
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depending upon the mode.
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If writepage is called for sync (wbc->sync_mode != WBC_SYNC_NONE) then
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it *must* start I/O against the page, even if that would involve
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blocking on in-progress I/O.
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If writepage is called for memory cleansing (sync_mode ==
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WBC_SYNC_NONE) then its role is to get as much writeout underway as
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possible. So writepage should try to avoid blocking against
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currently-in-progress I/O.
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If the filesystem is not called for "sync" and it determines that it
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would need to block against in-progress I/O to be able to start new I/O
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against the page the filesystem should redirty the page with
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redirty_page_for_writepage(), then unlock the page and return zero.
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This may also be done to avoid internal deadlocks, but rarely.
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If the filesystem is called for sync then it must wait on any
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in-progress I/O and then start new I/O.
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The filesystem should unlock the page synchronously, before returning to the
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caller, unless ->writepage() returns special WRITEPAGE_ACTIVATE
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value. WRITEPAGE_ACTIVATE means that page cannot really be written out
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currently, and VM should stop calling ->writepage() on this page for some
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time. VM does this by moving page to the head of the active list, hence the
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name.
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Unless the filesystem is going to redirty_page_for_writepage(), unlock the page
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and return zero, writepage *must* run set_page_writeback() against the page,
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followed by unlocking it. Once set_page_writeback() has been run against the
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page, write I/O can be submitted and the write I/O completion handler must run
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end_page_writeback() once the I/O is complete. If no I/O is submitted, the
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filesystem must run end_page_writeback() against the page before returning from
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writepage.
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That is: after 2.5.12, pages which are under writeout are *not* locked. Note,
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if the filesystem needs the page to be locked during writeout, that is ok, too,
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the page is allowed to be unlocked at any point in time between the calls to
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set_page_writeback() and end_page_writeback().
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Note, failure to run either redirty_page_for_writepage() or the combination of
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set_page_writeback()/end_page_writeback() on a page submitted to writepage
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will leave the page itself marked clean but it will be tagged as dirty in the
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radix tree. This incoherency can lead to all sorts of hard-to-debug problems
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in the filesystem like having dirty inodes at umount and losing written data.
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->sync_page() locking rules are not well-defined - usually it is called
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with lock on page, but that is not guaranteed. Considering the currently
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existing instances of this method ->sync_page() itself doesn't look
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well-defined...
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->writepages() is used for periodic writeback and for syscall-initiated
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sync operations. The address_space should start I/O against at least
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*nr_to_write pages. *nr_to_write must be decremented for each page which is
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written. The address_space implementation may write more (or less) pages
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than *nr_to_write asks for, but it should try to be reasonably close. If
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nr_to_write is NULL, all dirty pages must be written.
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writepages should _only_ write pages which are present on
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mapping->io_pages.
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->set_page_dirty() is called from various places in the kernel
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when the target page is marked as needing writeback. It may be called
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under spinlock (it cannot block) and is sometimes called with the page
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not locked.
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->bmap() is currently used by legacy ioctl() (FIBMAP) provided by some
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filesystems and by the swapper. The latter will eventually go away. Please,
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keep it that way and don't breed new callers.
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->invalidatepage() is called when the filesystem must attempt to drop
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some or all of the buffers from the page when it is being truncated. It
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returns zero on success. If ->invalidatepage is zero, the kernel uses
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block_invalidatepage() instead.
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->releasepage() is called when the kernel is about to try to drop the
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buffers from the page in preparation for freeing it. It returns zero to
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indicate that the buffers are (or may be) freeable. If ->releasepage is zero,
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the kernel assumes that the fs has no private interest in the buffers.
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->freepage() is called when the kernel is done dropping the page
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from the page cache.
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->launder_page() may be called prior to releasing a page if
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it is still found to be dirty. It returns zero if the page was successfully
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cleaned, or an error value if not. Note that in order to prevent the page
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getting mapped back in and redirtied, it needs to be kept locked
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across the entire operation.
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->swap_activate will be called with a non-zero argument on
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files backing (non block device backed) swapfiles. A return value
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of zero indicates success, in which case this file can be used for
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backing swapspace. The swapspace operations will be proxied to the
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address space operations.
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->swap_deactivate() will be called in the sys_swapoff()
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path after ->swap_activate() returned success.
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----------------------- file_lock_operations ------------------------------
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prototypes:
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void (*fl_copy_lock)(struct file_lock *, struct file_lock *);
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void (*fl_release_private)(struct file_lock *);
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locking rules:
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inode->i_lock may block
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fl_copy_lock: yes no
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fl_release_private: maybe no
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----------------------- lock_manager_operations ---------------------------
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prototypes:
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int (*lm_compare_owner)(struct file_lock *, struct file_lock *);
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unsigned long (*lm_owner_key)(struct file_lock *);
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void (*lm_notify)(struct file_lock *); /* unblock callback */
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int (*lm_grant)(struct file_lock *, struct file_lock *, int);
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void (*lm_break)(struct file_lock *); /* break_lease callback */
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int (*lm_change)(struct file_lock **, int);
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locking rules:
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inode->i_lock blocked_lock_lock may block
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lm_compare_owner: yes[1] maybe no
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lm_owner_key yes[1] yes no
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lm_notify: yes yes no
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lm_grant: no no no
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lm_break: yes no no
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lm_change yes no no
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[1]: ->lm_compare_owner and ->lm_owner_key are generally called with
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*an* inode->i_lock held. It may not be the i_lock of the inode
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associated with either file_lock argument! This is the case with deadlock
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detection, since the code has to chase down the owners of locks that may
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be entirely unrelated to the one on which the lock is being acquired.
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For deadlock detection however, the blocked_lock_lock is also held. The
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fact that these locks are held ensures that the file_locks do not
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disappear out from under you while doing the comparison or generating an
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owner key.
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--------------------------- buffer_head -----------------------------------
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prototypes:
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void (*b_end_io)(struct buffer_head *bh, int uptodate);
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locking rules:
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called from interrupts. In other words, extreme care is needed here.
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bh is locked, but that's all warranties we have here. Currently only RAID1,
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highmem, fs/buffer.c, and fs/ntfs/aops.c are providing these. Block devices
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call this method upon the IO completion.
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--------------------------- block_device_operations -----------------------
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prototypes:
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int (*open) (struct block_device *, fmode_t);
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int (*release) (struct gendisk *, fmode_t);
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int (*ioctl) (struct block_device *, fmode_t, unsigned, unsigned long);
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int (*compat_ioctl) (struct block_device *, fmode_t, unsigned, unsigned long);
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int (*direct_access) (struct block_device *, sector_t, void **, unsigned long *);
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int (*media_changed) (struct gendisk *);
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void (*unlock_native_capacity) (struct gendisk *);
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int (*revalidate_disk) (struct gendisk *);
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int (*getgeo)(struct block_device *, struct hd_geometry *);
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void (*swap_slot_free_notify) (struct block_device *, unsigned long);
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locking rules:
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bd_mutex
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open: yes
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release: yes
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ioctl: no
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compat_ioctl: no
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direct_access: no
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media_changed: no
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unlock_native_capacity: no
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revalidate_disk: no
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getgeo: no
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swap_slot_free_notify: no (see below)
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media_changed, unlock_native_capacity and revalidate_disk are called only from
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check_disk_change().
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swap_slot_free_notify is called with swap_lock and sometimes the page lock
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held.
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--------------------------- file_operations -------------------------------
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prototypes:
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loff_t (*llseek) (struct file *, loff_t, int);
|
|
ssize_t (*read) (struct file *, char __user *, size_t, loff_t *);
|
|
ssize_t (*write) (struct file *, const char __user *, size_t, loff_t *);
|
|
ssize_t (*aio_read) (struct kiocb *, const struct iovec *, unsigned long, loff_t);
|
|
ssize_t (*aio_write) (struct kiocb *, const struct iovec *, unsigned long, loff_t);
|
|
int (*iterate) (struct file *, struct dir_context *);
|
|
unsigned int (*poll) (struct file *, struct poll_table_struct *);
|
|
long (*unlocked_ioctl) (struct file *, unsigned int, unsigned long);
|
|
long (*compat_ioctl) (struct file *, unsigned int, unsigned long);
|
|
int (*mmap) (struct file *, struct vm_area_struct *);
|
|
int (*open) (struct inode *, struct file *);
|
|
int (*flush) (struct file *);
|
|
int (*release) (struct inode *, struct file *);
|
|
int (*fsync) (struct file *, loff_t start, loff_t end, int datasync);
|
|
int (*aio_fsync) (struct kiocb *, int datasync);
|
|
int (*fasync) (int, struct file *, int);
|
|
int (*lock) (struct file *, int, struct file_lock *);
|
|
ssize_t (*readv) (struct file *, const struct iovec *, unsigned long,
|
|
loff_t *);
|
|
ssize_t (*writev) (struct file *, const struct iovec *, unsigned long,
|
|
loff_t *);
|
|
ssize_t (*sendfile) (struct file *, loff_t *, size_t, read_actor_t,
|
|
void __user *);
|
|
ssize_t (*sendpage) (struct file *, struct page *, int, size_t,
|
|
loff_t *, int);
|
|
unsigned long (*get_unmapped_area)(struct file *, unsigned long,
|
|
unsigned long, unsigned long, unsigned long);
|
|
int (*check_flags)(int);
|
|
int (*flock) (struct file *, int, struct file_lock *);
|
|
ssize_t (*splice_write)(struct pipe_inode_info *, struct file *, loff_t *,
|
|
size_t, unsigned int);
|
|
ssize_t (*splice_read)(struct file *, loff_t *, struct pipe_inode_info *,
|
|
size_t, unsigned int);
|
|
int (*setlease)(struct file *, long, struct file_lock **);
|
|
long (*fallocate)(struct file *, int, loff_t, loff_t);
|
|
};
|
|
|
|
locking rules:
|
|
All may block except for ->setlease.
|
|
No VFS locks held on entry except for ->setlease.
|
|
|
|
->setlease has the file_list_lock held and must not sleep.
|
|
|
|
->llseek() locking has moved from llseek to the individual llseek
|
|
implementations. If your fs is not using generic_file_llseek, you
|
|
need to acquire and release the appropriate locks in your ->llseek().
|
|
For many filesystems, it is probably safe to acquire the inode
|
|
mutex or just to use i_size_read() instead.
|
|
Note: this does not protect the file->f_pos against concurrent modifications
|
|
since this is something the userspace has to take care about.
|
|
|
|
->fasync() is responsible for maintaining the FASYNC bit in filp->f_flags.
|
|
Most instances call fasync_helper(), which does that maintenance, so it's
|
|
not normally something one needs to worry about. Return values > 0 will be
|
|
mapped to zero in the VFS layer.
|
|
|
|
->readdir() and ->ioctl() on directories must be changed. Ideally we would
|
|
move ->readdir() to inode_operations and use a separate method for directory
|
|
->ioctl() or kill the latter completely. One of the problems is that for
|
|
anything that resembles union-mount we won't have a struct file for all
|
|
components. And there are other reasons why the current interface is a mess...
|
|
|
|
->read on directories probably must go away - we should just enforce -EISDIR
|
|
in sys_read() and friends.
|
|
|
|
--------------------------- dquot_operations -------------------------------
|
|
prototypes:
|
|
int (*write_dquot) (struct dquot *);
|
|
int (*acquire_dquot) (struct dquot *);
|
|
int (*release_dquot) (struct dquot *);
|
|
int (*mark_dirty) (struct dquot *);
|
|
int (*write_info) (struct super_block *, int);
|
|
|
|
These operations are intended to be more or less wrapping functions that ensure
|
|
a proper locking wrt the filesystem and call the generic quota operations.
|
|
|
|
What filesystem should expect from the generic quota functions:
|
|
|
|
FS recursion Held locks when called
|
|
write_dquot: yes dqonoff_sem or dqptr_sem
|
|
acquire_dquot: yes dqonoff_sem or dqptr_sem
|
|
release_dquot: yes dqonoff_sem or dqptr_sem
|
|
mark_dirty: no -
|
|
write_info: yes dqonoff_sem
|
|
|
|
FS recursion means calling ->quota_read() and ->quota_write() from superblock
|
|
operations.
|
|
|
|
More details about quota locking can be found in fs/dquot.c.
|
|
|
|
--------------------------- vm_operations_struct -----------------------------
|
|
prototypes:
|
|
void (*open)(struct vm_area_struct*);
|
|
void (*close)(struct vm_area_struct*);
|
|
int (*fault)(struct vm_area_struct*, struct vm_fault *);
|
|
int (*page_mkwrite)(struct vm_area_struct *, struct vm_fault *);
|
|
int (*access)(struct vm_area_struct *, unsigned long, void*, int, int);
|
|
|
|
locking rules:
|
|
mmap_sem PageLocked(page)
|
|
open: yes
|
|
close: yes
|
|
fault: yes can return with page locked
|
|
page_mkwrite: yes can return with page locked
|
|
access: yes
|
|
|
|
->fault() is called when a previously not present pte is about
|
|
to be faulted in. The filesystem must find and return the page associated
|
|
with the passed in "pgoff" in the vm_fault structure. If it is possible that
|
|
the page may be truncated and/or invalidated, then the filesystem must lock
|
|
the page, then ensure it is not already truncated (the page lock will block
|
|
subsequent truncate), and then return with VM_FAULT_LOCKED, and the page
|
|
locked. The VM will unlock the page.
|
|
|
|
->page_mkwrite() is called when a previously read-only pte is
|
|
about to become writeable. The filesystem again must ensure that there are
|
|
no truncate/invalidate races, and then return with the page locked. If
|
|
the page has been truncated, the filesystem should not look up a new page
|
|
like the ->fault() handler, but simply return with VM_FAULT_NOPAGE, which
|
|
will cause the VM to retry the fault.
|
|
|
|
->access() is called when get_user_pages() fails in
|
|
acces_process_vm(), typically used to debug a process through
|
|
/proc/pid/mem or ptrace. This function is needed only for
|
|
VM_IO | VM_PFNMAP VMAs.
|
|
|
|
================================================================================
|
|
Dubious stuff
|
|
|
|
(if you break something or notice that it is broken and do not fix it yourself
|
|
- at least put it here)
|