Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/geom/geom_sched/gs_sched/@/kern/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/geom/geom_sched/gs_sched/@/kern/vnode_if.src |
#- # Copyright (c) 1992, 1993 # The Regents of the University of California. All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # 4. Neither the name of the University nor the names of its contributors # may be used to endorse or promote products derived from this software # without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND # ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE # FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL # DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS # OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) # HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT # LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY # OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF # SUCH DAMAGE. # # @(#)vnode_if.src 8.12 (Berkeley) 5/14/95 # $FreeBSD: release/9.1.0/sys/kern/vnode_if.src 234660 2012-04-24 19:08:40Z trociny $ # # # Above each of the vop descriptors in lines starting with %% # is a specification of the locking protocol used by each vop call. # The first column is the name of the variable, the remaining three # columns are in, out and error respectively. The "in" column defines # the lock state on input, the "out" column defines the state on succesful # return, and the "error" column defines the locking state on error exit. # # The locking value can take the following values: # L: locked; not converted to type of lock. # A: any lock type. # S: locked with shared lock. # E: locked with exclusive lock for this process. # O: locked with exclusive lock for other process. # U: unlocked. # -: not applicable. vnode does not yet (or no longer) exists. # =: the same on input and output, may be either L or U. # X: locked if not nil. # # The paramater named "vpp" is assumed to be always used with double # indirection (**vpp) and that name is hard-coded in vnode_if.awk ! # # Lines starting with %! specify a pre or post-condition function # to call before/after the vop call. # # If other such parameters are introduced, they have to be added to # the AWK script at the head of the definition of "add_debug_code()". # vop_islocked { IN struct vnode *vp; }; %% lookup dvp L ? ? %% lookup vpp - L - %! lookup pre vop_lookup_pre %! lookup post vop_lookup_post # XXX - the lookup locking protocol defies simple description and depends # on the flags and operation fields in the (cnp) structure. Note # especially that *vpp may equal dvp and both may be locked. vop_lookup { IN struct vnode *dvp; INOUT struct vnode **vpp; IN struct componentname *cnp; }; %% cachedlookup dvp L ? ? %% cachedlookup vpp - L - # This must be an exact copy of lookup. See kern/vfs_cache.c for details. vop_cachedlookup { IN struct vnode *dvp; INOUT struct vnode **vpp; IN struct componentname *cnp; }; %% create dvp E E E %% create vpp - L - %! create post vop_create_post vop_create { IN struct vnode *dvp; OUT struct vnode **vpp; IN struct componentname *cnp; IN struct vattr *vap; }; %% whiteout dvp E E E vop_whiteout { IN struct vnode *dvp; IN struct componentname *cnp; IN int flags; }; %% mknod dvp E E E %% mknod vpp - L - %! mknod post vop_mknod_post vop_mknod { IN struct vnode *dvp; OUT struct vnode **vpp; IN struct componentname *cnp; IN struct vattr *vap; }; %% open vp L L L vop_open { IN struct vnode *vp; IN int mode; IN struct ucred *cred; IN struct thread *td; IN struct file *fp; }; %% close vp L L L vop_close { IN struct vnode *vp; IN int fflag; IN struct ucred *cred; IN struct thread *td; }; %% access vp L L L vop_access { IN struct vnode *vp; IN accmode_t accmode; IN struct ucred *cred; IN struct thread *td; }; %% accessx vp L L L vop_accessx { IN struct vnode *vp; IN accmode_t accmode; IN struct ucred *cred; IN struct thread *td; }; %% getattr vp L L L vop_getattr { IN struct vnode *vp; OUT struct vattr *vap; IN struct ucred *cred; }; %% setattr vp E E E %! setattr post vop_setattr_post vop_setattr { IN struct vnode *vp; IN struct vattr *vap; IN struct ucred *cred; }; %% markatime vp L L L vop_markatime { IN struct vnode *vp; }; %% read vp L L L vop_read { IN struct vnode *vp; INOUT struct uio *uio; IN int ioflag; IN struct ucred *cred; }; %% write vp L L L %! write pre VOP_WRITE_PRE %! write post VOP_WRITE_POST vop_write { IN struct vnode *vp; INOUT struct uio *uio; IN int ioflag; IN struct ucred *cred; }; %% ioctl vp U U U vop_ioctl { IN struct vnode *vp; IN u_long command; IN void *data; IN int fflag; IN struct ucred *cred; IN struct thread *td; }; %% poll vp U U U vop_poll { IN struct vnode *vp; IN int events; IN struct ucred *cred; IN struct thread *td; }; %% kqfilter vp U U U vop_kqfilter { IN struct vnode *vp; IN struct knote *kn; }; %% revoke vp L L L vop_revoke { IN struct vnode *vp; IN int flags; }; %% fsync vp L L L vop_fsync { IN struct vnode *vp; IN int waitfor; IN struct thread *td; }; %% remove dvp E E E %% remove vp E E E %! remove post vop_remove_post vop_remove { IN struct vnode *dvp; IN struct vnode *vp; IN struct componentname *cnp; }; %% link tdvp E E E %% link vp E E E %! link post vop_link_post vop_link { IN struct vnode *tdvp; IN struct vnode *vp; IN struct componentname *cnp; }; %! rename pre vop_rename_pre %! rename post vop_rename_post vop_rename { IN WILLRELE struct vnode *fdvp; IN WILLRELE struct vnode *fvp; IN struct componentname *fcnp; IN WILLRELE struct vnode *tdvp; IN WILLRELE struct vnode *tvp; IN struct componentname *tcnp; }; %% mkdir dvp E E E %% mkdir vpp - E - %! mkdir post vop_mkdir_post vop_mkdir { IN struct vnode *dvp; OUT struct vnode **vpp; IN struct componentname *cnp; IN struct vattr *vap; }; %% rmdir dvp E E E %% rmdir vp E E E %! rmdir post vop_rmdir_post vop_rmdir { IN struct vnode *dvp; IN struct vnode *vp; IN struct componentname *cnp; }; %% symlink dvp E E E %% symlink vpp - E - %! symlink post vop_symlink_post vop_symlink { IN struct vnode *dvp; OUT struct vnode **vpp; IN struct componentname *cnp; IN struct vattr *vap; IN char *target; }; %% readdir vp L L L vop_readdir { IN struct vnode *vp; INOUT struct uio *uio; IN struct ucred *cred; INOUT int *eofflag; OUT int *ncookies; INOUT u_long **cookies; }; %% readlink vp L L L vop_readlink { IN struct vnode *vp; INOUT struct uio *uio; IN struct ucred *cred; }; %% inactive vp E E E vop_inactive { IN struct vnode *vp; IN struct thread *td; }; %% reclaim vp E E E vop_reclaim { IN struct vnode *vp; IN struct thread *td; }; %! lock1 pre vop_lock_pre %! lock1 post vop_lock_post vop_lock1 { IN struct vnode *vp; IN int flags; IN char *file; IN int line; }; %! unlock pre vop_unlock_pre %! unlock post vop_unlock_post vop_unlock { IN struct vnode *vp; IN int flags; }; %% bmap vp L L L vop_bmap { IN struct vnode *vp; IN daddr_t bn; OUT struct bufobj **bop; IN daddr_t *bnp; OUT int *runp; OUT int *runb; }; %% strategy vp L L L %! strategy pre vop_strategy_pre vop_strategy { IN struct vnode *vp; IN struct buf *bp; }; %% getwritemount vp = = = vop_getwritemount { IN struct vnode *vp; OUT struct mount **mpp; }; %% print vp - - - vop_print { IN struct vnode *vp; }; %% pathconf vp L L L vop_pathconf { IN struct vnode *vp; IN int name; OUT register_t *retval; }; %% advlock vp U U U vop_advlock { IN struct vnode *vp; IN void *id; IN int op; IN struct flock *fl; IN int flags; }; %% advlockasync vp U U U vop_advlockasync { IN struct vnode *vp; IN void *id; IN int op; IN struct flock *fl; IN int flags; IN struct task *task; INOUT void **cookiep; }; %% advlockpurge vp E E E vop_advlockpurge { IN struct vnode *vp; }; %% reallocblks vp E E E vop_reallocblks { IN struct vnode *vp; IN struct cluster_save *buflist; }; %% getpages vp L L L vop_getpages { IN struct vnode *vp; IN vm_page_t *m; IN int count; IN int reqpage; IN vm_ooffset_t offset; }; %% putpages vp E E E vop_putpages { IN struct vnode *vp; IN vm_page_t *m; IN int count; IN int sync; IN int *rtvals; IN vm_ooffset_t offset; }; %% getacl vp L L L vop_getacl { IN struct vnode *vp; IN acl_type_t type; OUT struct acl *aclp; IN struct ucred *cred; IN struct thread *td; }; %% setacl vp E E E vop_setacl { IN struct vnode *vp; IN acl_type_t type; IN struct acl *aclp; IN struct ucred *cred; IN struct thread *td; }; %% aclcheck vp = = = vop_aclcheck { IN struct vnode *vp; IN acl_type_t type; IN struct acl *aclp; IN struct ucred *cred; IN struct thread *td; }; %% closeextattr vp L L L vop_closeextattr { IN struct vnode *vp; IN int commit; IN struct ucred *cred; IN struct thread *td; }; %% getextattr vp L L L vop_getextattr { IN struct vnode *vp; IN int attrnamespace; IN const char *name; INOUT struct uio *uio; OUT size_t *size; IN struct ucred *cred; IN struct thread *td; }; %% listextattr vp L L L vop_listextattr { IN struct vnode *vp; IN int attrnamespace; INOUT struct uio *uio; OUT size_t *size; IN struct ucred *cred; IN struct thread *td; }; %% openextattr vp L L L vop_openextattr { IN struct vnode *vp; IN struct ucred *cred; IN struct thread *td; }; %% deleteextattr vp E E E %! deleteextattr post vop_deleteextattr_post vop_deleteextattr { IN struct vnode *vp; IN int attrnamespace; IN const char *name; IN struct ucred *cred; IN struct thread *td; }; %% setextattr vp E E E %! setextattr post vop_setextattr_post vop_setextattr { IN struct vnode *vp; IN int attrnamespace; IN const char *name; INOUT struct uio *uio; IN struct ucred *cred; IN struct thread *td; }; %% setlabel vp E E E vop_setlabel { IN struct vnode *vp; IN struct label *label; IN struct ucred *cred; IN struct thread *td; }; %% vptofh vp = = = vop_vptofh { IN struct vnode *vp; IN struct fid *fhp; }; %% vptocnp vp L L L %% vptocnp vpp - U - vop_vptocnp { IN struct vnode *vp; OUT struct vnode **vpp; IN struct ucred *cred; INOUT char *buf; INOUT int *buflen; }; %% allocate vp E E E vop_allocate { IN struct vnode *vp; INOUT off_t *offset; INOUT off_t *len; }; %% advise vp U U U vop_advise { IN struct vnode *vp; IN off_t start; IN off_t end; IN int advice; }; %% unp_bind vp E E E vop_unp_bind { IN struct vnode *vp; IN struct socket *socket; }; %% unp_connect vp L L L vop_unp_connect { IN struct vnode *vp; OUT struct socket **socket; }; %% unp_detach vp = = = vop_unp_detach { IN struct vnode *vp; }; # The VOPs below are spares at the end of the table to allow new VOPs to be # added in stable branches without breaking the KBI. New VOPs in HEAD should # be added above these spares. When merging a new VOP to a stable branch, # the new VOP should replace one of the spares. vop_spare4 { IN struct vnode *vp; }; vop_spare5 { IN struct vnode *vp; };