vfsops(9) - NetBSD Manual Pages

VFSOPS(9)              NetBSD Kernel Developer's Manual              VFSOPS(9)


NAME
vfsops, VFS_MOUNT, VFS_START, VFS_UNMOUNT, VFS_ROOT, VFS_QUOTACTL, VFS_STATVFS, VFS_SYNC, VFS_VGET, VFS_FHTOVP, VFS_VPTOFH, VFS_CHECKEXP, VFS_SNAPSHOT -- kernel file system interface
SYNOPSIS
#include <sys/param.h> #include <sys/mount.h> #include <sys/vnode.h> int VFS_MOUNT(struct mount *mp, const char *path, void *data, struct nameidata *ndp, struct proc *p); int VFS_START(struct mount *mp, int flags, struct proc *p); int VFS_UNMOUNT(struct mount *mp, int mntflags, struct proc *p); int VFS_ROOT(struct mount *mp, struct vnode **vpp); int VFS_QUOTACTL(struct mount *mp, int cmds, uid_t uid, caddr_t arg, struct proc *p); int VFS_STATVFS(struct mount *mp, struct statvfs *sbp, struct proc *p); int VFS_SYNC(struct mount *mp, int waitfor, struct ucred *cred, struct proc *p); int VFS_VGET(struct mount *mp, ino_t ino, struct vnode **vpp); int VFS_FHTOVP(struct mount *mp, struct fid *fhp, struct vnode **vpp); int VFS_VPTOFH(struct vnode *vp, struct fid *fhp); int VFS_CHECKEXP(struct mount *mp, struct mbuf *nam, int *extflagsp, struct ucred **credanonp); int VFS_SNAPSHOT(struct mount *mp, struct vnode *vp, struct timespec *ts);
DESCRIPTION
In a similar fashion to the vnode(9) interface, all operations that are done on a file system are conducted through a single interface that allows the system to carry out operations on a file system without know- ing its construction or type. All supported file systems in the kernel have an entry in the vfs_list_initial table. This table is generated by config(8) and is a NULL-terminated list of vfsops structures. The vfsops structure describes the operations that can be done to a specific file system type. The following table list the elements of the vfsops vector, the corre- sponding invocation macro, and a description of the element. Vector element Macro Description int (*vfs_mount)() VFS_MOUNT Mount a file system int (*vfs_start)() VFS_START Make operational int (*vfs_unmount)() VFS_UMOUNT Unmount a file system int (*vfs_root)() VFS_ROOT Get the file system root vnode int (*vfs_quotactl)() VFS_QUOTACTL Query/modify space quotas int (*vfs_statvfs)() VFS_STATVFS Get file system statistics int (*vfs_sync)() VFS_SYNC Flush file system buffers int (*vfs_vget)() VFS_VGET Get vnode from file id int (*vfs_fhtovp)() VFS_FHTOVP NFS file handle to vnode lookup int (*vfs_vptofh)() VFS_VPTOFH Vnode to NFS file handle lookup void (*vfs_init)() - Initialise file system void (*vfs_reinit)() - Reinitialise file system void (*vfs_done)() - Cleanup unmounted file system int (*vfs_mountroot)() - Mount the root file system int (*vfs_checkexp)() VFS_CHECKEXP Check if file system is exported int (*vfs_snapshot)() VFS_SNAPSHOT Take a snapshot Some additional non-function members of the vfsops structure are the file system name vfs_name and a reference count vfs_refcount. It is not mandatory for a file system type to support a particular operation, but it must assign each member function pointer to a suitable function to do the minimum required of it. In most cases, such functions either do nothing or return an error value to the effect that it is not supported. vfs_reinit and vfs_mountroot may be NULL. At system boot, each file system with an entry in vfs_list_initial is established and initialised. Each initialised file system is recorded by the kernel in the list vfs_list and the file system specific initialisa- tion function vfs_init in its vfsops vector is invoked. When the file system is not longer needed vfs_done is invoked to run file system spe- cific cleanups and the file system is removed from the kernel list. At system boot, the root filesystem is mounted by invoking the file sys- tem type specific vfs_mountroot function in the vfsops vector. All filesystems that can be mounted as a root file system must define this function. It is responsible for initialising to list of mount structures for all future mounted file systems. Kernel state which affects a specific file system type can be queried and modified using the sysctl(8) interface.
FUNCTIONS
VFS_MOUNT(mp, path, data, ndp, p) Mount a file system specified by the mount structure mp on the mount point described by path. The argument data contains file system type specific data and is read into the kernel using copyin(9). The argument ndp contains the result of a namei(9) call on the pathname of the mount point and p is the calling process. VFS_MOUNT() initialises the mount structure for the mounted file system. This structure records mount-specific information for the file system and records the list of vnodes associated with the file system. This function is invoked both to mount new file systems and to change the attributes of an existing file system. If the MNT_UPDATE flag is set in mp->mnt_flag then the filesystem should update its internal state from the value of mp->mnt_flag. This can be used, for instance, to convert a read-only filesystem to read-write. If the MNT_UPDATE flag is not specified, then this is a newly mounted filesystem. VFS_START(mp, flags, p) Make the file system specified by the mount structure mp opera- tional. The argument p is the calling process. The argument flags is a set of flags for controlling the operation of VOP_START(). This function is invoked after VFS_MOUNT() and before the first access to the file system. VFS_UNMOUNT(mp, mntflags, p) Unmount a file system specified by the mount structure mp. The argument p is the calling process. VFS_UNMOUNT() performs any file system type specific operations required before the file system is unmounted, such are flushing buffers. If MNT_FORCE is specified in the flags mntflags then open files are forcibly closed. The function also deallocates space associated with data structure that were allocated for the file system when it was mounted. VFS_ROOT(mp, vpp) Get the root vnode of the file system specified by the mount structure mp. The vnode is returned in the address given by vpp. This function is used by the pathname translation algo- rithms when a vnode that has been covered by a mounted file sys- tem is encountered. While resolving the pathname, the pathname translation algorithm will have to go through the directory tree in the file system associated with that mount point and there- fore requires the root vnode of the file system. VFS_QUOTACTL(mp, cmds, uid, arg, p) Query/modify user space quotas for the file system specified by the mount structure mp. The argument specifies the control com- mand to perform. The userid is specified in id, the calling process is p and arg allows command-specific data to be returned to the system call interface. VFS_QUOTACTL() is the file system type specific implementation of the quotactl(2) system call. VFS_STATVFS(mp, sbp, p) Get file system statistics for the file system specified by the mount structure mp. The argument p is the calling process. A statvfs structure filled with the statistics is returned in sbp. VFS_STATVFS() is the file system type specific implementation of the statvfs(2) and fstatvfs(2) system calls. VFS_SYNC(mp, waitfor, cred, p) Flush file system I/O buffers for the file system specified by the mount structure mp. The waitfor argument indicates whether a partial flush or complete flush should be performed. The arguments p and cred specific the calling process and its cre- dentials respectively. VFS_SYNC() does not provide any return value since the operation can never fail. VFS_VGET(mp, ino, vpp) Get vnode for a file system type specific file id ino for the file system specified by the mount structure mp. The vnode is returned in the address specified vpp. The function is optional for file systems which have a unique id number for every file in the file system. It is used internally by the UFS file system and also by the NFSv3 server to implement the READDIRPLUS nfs call. If the file system does not support this function, it should return EOPNOTSUPP. VFS_FHTOVP(mp, fhp, vpp) Get the vnode for the NFS file specified by the file handle fhp in the file system specified by the mount structure mp. The locked vnode is returned in vpp. A call to VFS_FHTOVP() should generally be followed by a call to VFS_CHECKEXP() to check if the file is accessable to the client. VFS_VPTOFH(vp, fhp) Get a unique NFS file handle for the file specified by the vnode vp. The file handle is returned in fhp. The contents of the file handle are defined by the file system and are not examined by any other subsystems. It should contain enough information to uniquely identify a file within the file system as well as noticing when a file has been removed and the file system resources have been recycled for a new file. VFS_CHECKEXP(mp, nam, extflagsp, credanonp) Check if the file system specified by the mount structure mp is exported to a client with anonymous credentials credanonp. The argument nam is an mbuf containing the network address of the client. The return parameters for the export flags for the client are returned in the address specified by exflagsp. This function is used by the NFS server. It is generally invoked before VFS_FHTOVP() to validate that client has access to the file system. The file system should call vfs_export_lookup() with the address of an appropriate netexport structure and the address of the client to verify that the client can access this file system. VFS_SNAPSHOT(mp, vp, ts) Take a snapshot of the file system specified by the mount struc- ture mp and make it accessible through the locked vnode vp. If ts is not NULL it will receive the time this snapshot was taken. If the file system does not support this function, it should return EOPNOTSUPP.
CODE REFERENCES
This section describes places within the NetBSD source tree where actual code implementing or using the vfs operations can be found. All path- names are relative to /usr/src. The vfs operations are implemented within the files sys/kern/vfs_subr.c and sys/kern/vfs_init.c.
SEE ALSO
intro(9), namei(9), vfs(9), vfssubr(9), vnode(9), vnodeops(9)
HISTORY
The vfs operations vector, its functions and the corresponding macros appeared in 4.3BSD. NetBSD 3.1.1 June 20, 2004 NetBSD 3.1.1

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