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|
/* $OpenBSD: kernfs_vnops.c,v 1.6 1997/01/15 03:06:28 kstailey Exp $ */
/* $NetBSD: kernfs_vnops.c,v 1.43 1996/03/16 23:52:47 christos Exp $ */
/*
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software donated to Berkeley by
* Jan-Simon Pendry.
*
* 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 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.
*
* @(#)kernfs_vnops.c 8.9 (Berkeley) 6/15/94
*/
/*
* Kernel parameter filesystem (/kern)
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/vmmeter.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/proc.h>
#include <sys/vnode.h>
#include <sys/malloc.h>
#include <sys/file.h>
#include <sys/stat.h>
#include <sys/mount.h>
#include <sys/namei.h>
#include <sys/buf.h>
#include <sys/dirent.h>
#include <sys/msgbuf.h>
#include <miscfs/kernfs/kernfs.h>
#define KSTRING 256 /* Largest I/O available via this filesystem */
#define UIO_MX 32
#define READ_MODE (S_IRUSR|S_IRGRP|S_IROTH)
#define WRITE_MODE (S_IWUSR|READ_MODE)
#define DIR_MODE (S_IRUSR|S_IXUSR|S_IRGRP|S_IXGRP|S_IROTH|S_IXOTH)
static int byteorder = BYTE_ORDER;
static int posix = _POSIX_VERSION;
static int osrev = BSD;
static int ncpu = 1; /* XXX */
extern char machine[], cpu_model[];
extern char ostype[], osrelease[];
struct kern_target {
u_char kt_type;
u_char kt_namlen;
char *kt_name;
void *kt_data;
#define KTT_NULL 1
#define KTT_TIME 5
#define KTT_INT 17
#define KTT_STRING 31
#define KTT_HOSTNAME 47
#define KTT_AVENRUN 53
#define KTT_DEVICE 71
#define KTT_MSGBUF 89
#define KTT_USERMEM 91
#define KTT_DOMAIN 95
u_char kt_tag;
u_char kt_vtype;
mode_t kt_mode;
} kern_targets[] = {
/* NOTE: The name must be less than UIO_MX-16 chars in length */
#define N(s) sizeof(s)-1, s
/* name data tag type ro/rw */
{ DT_DIR, N("."), 0, KTT_NULL, VDIR, DIR_MODE },
{ DT_DIR, N(".."), 0, KTT_NULL, VDIR, DIR_MODE },
{ DT_REG, N("boottime"), &boottime.tv_sec, KTT_INT, VREG, READ_MODE },
{ DT_REG, N("byteorder"), &byteorder, KTT_INT, VREG, READ_MODE },
{ DT_REG, N("copyright"), copyright, KTT_STRING, VREG, READ_MODE },
{ DT_REG, N("hostname"), 0, KTT_HOSTNAME, VREG, WRITE_MODE },
{ DT_REG, N("domainname"),0, KTT_DOMAIN, VREG, WRITE_MODE },
{ DT_REG, N("hz"), &hz, KTT_INT, VREG, READ_MODE },
{ DT_REG, N("loadavg"), 0, KTT_AVENRUN, VREG, READ_MODE },
{ DT_REG, N("machine"), machine, KTT_STRING, VREG, READ_MODE },
{ DT_REG, N("model"), cpu_model, KTT_STRING, VREG, READ_MODE },
{ DT_REG, N("msgbuf"), 0, KTT_MSGBUF, VREG, READ_MODE },
{ DT_REG, N("ncpu"), &ncpu, KTT_INT, VREG, READ_MODE },
{ DT_REG, N("ostype"), &ostype, KTT_STRING, VREG, READ_MODE },
{ DT_REG, N("osrelease"), &osrelease, KTT_STRING, VREG, READ_MODE },
{ DT_REG, N("osrev"), &osrev, KTT_INT, VREG, READ_MODE },
{ DT_REG, N("pagesize"), &cnt.v_page_size, KTT_INT, VREG, READ_MODE },
{ DT_REG, N("physmem"), &physmem, KTT_INT, VREG, READ_MODE },
{ DT_REG, N("posix"), &posix, KTT_INT, VREG, READ_MODE },
#if 0
{ DT_DIR, N("root"), 0, KTT_NULL, VDIR, DIR_MODE },
#endif
{ DT_BLK, N("rootdev"), &rootdev, KTT_DEVICE, VBLK, READ_MODE },
{ DT_CHR, N("rrootdev"), &rrootdev, KTT_DEVICE, VCHR, READ_MODE },
{ DT_REG, N("time"), 0, KTT_TIME, VREG, READ_MODE },
{ DT_REG, N("usermem"), 0, KTT_USERMEM, VREG, READ_MODE },
{ DT_REG, N("version"), version, KTT_STRING, VREG, READ_MODE },
#undef N
};
static int nkern_targets = sizeof(kern_targets) / sizeof(kern_targets[0]);
int kernfs_badop __P((void *));
int kernfs_enotsupp __P((void *));
int kernfs_lookup __P((void *));
#define kernfs_create kernfs_enotsupp
#define kernfs_mknod kernfs_enotsupp
int kernfs_open __P((void *));
#define kernfs_close nullop
int kernfs_access __P((void *));
int kernfs_getattr __P((void *));
int kernfs_setattr __P((void *));
int kernfs_read __P((void *));
int kernfs_write __P((void *));
#define kernfs_ioctl kernfs_enotsupp
#define kernfs_select kernfs_enotsupp
#define kernfs_mmap kernfs_enotsupp
#define kernfs_fsync nullop
#define kernfs_seek nullop
#define kernfs_remove kernfs_enotsupp
int kernfs_link __P((void *));
#define kernfs_rename kernfs_enotsupp
#define kernfs_mkdir kernfs_enotsupp
#define kernfs_rmdir kernfs_enotsupp
int kernfs_symlink __P((void *));
int kernfs_readdir __P((void *));
#define kernfs_readlink kernfs_enotsupp
int kernfs_abortop __P((void *));
int kernfs_inactive __P((void *));
int kernfs_reclaim __P((void *));
#define kernfs_lock nullop
#define kernfs_unlock nullop
#define kernfs_bmap kernfs_badop
#define kernfs_strategy kernfs_badop
int kernfs_print __P((void *));
#define kernfs_islocked nullop
int kernfs_pathconf __P((void *));
#define kernfs_advlock kernfs_enotsupp
#define kernfs_blkatoff kernfs_enotsupp
#define kernfs_valloc kernfs_enotsupp
int kernfs_vfree __P((void *));
#define kernfs_truncate kernfs_enotsupp
#define kernfs_update kernfs_enotsupp
#define kernfs_bwrite kernfs_enotsupp
int kernfs_xread __P((struct kern_target *, int, char **, int));
int kernfs_xwrite __P((struct kern_target *, char *, int));
int (**kernfs_vnodeop_p) __P((void *));
struct vnodeopv_entry_desc kernfs_vnodeop_entries[] = {
{ &vop_default_desc, vn_default_error },
{ &vop_lookup_desc, kernfs_lookup }, /* lookup */
{ &vop_create_desc, kernfs_create }, /* create */
{ &vop_mknod_desc, kernfs_mknod }, /* mknod */
{ &vop_open_desc, kernfs_open }, /* open */
{ &vop_close_desc, kernfs_close }, /* close */
{ &vop_access_desc, kernfs_access }, /* access */
{ &vop_getattr_desc, kernfs_getattr }, /* getattr */
{ &vop_setattr_desc, kernfs_setattr }, /* setattr */
{ &vop_read_desc, kernfs_read }, /* read */
{ &vop_write_desc, kernfs_write }, /* write */
{ &vop_ioctl_desc, kernfs_ioctl }, /* ioctl */
{ &vop_select_desc, kernfs_select }, /* select */
{ &vop_mmap_desc, kernfs_mmap }, /* mmap */
{ &vop_fsync_desc, kernfs_fsync }, /* fsync */
{ &vop_seek_desc, kernfs_seek }, /* seek */
{ &vop_remove_desc, kernfs_remove }, /* remove */
{ &vop_link_desc, kernfs_link }, /* link */
{ &vop_rename_desc, kernfs_rename }, /* rename */
{ &vop_mkdir_desc, kernfs_mkdir }, /* mkdir */
{ &vop_rmdir_desc, kernfs_rmdir }, /* rmdir */
{ &vop_symlink_desc, kernfs_symlink }, /* symlink */
{ &vop_readdir_desc, kernfs_readdir }, /* readdir */
{ &vop_readlink_desc, kernfs_readlink },/* readlink */
{ &vop_abortop_desc, kernfs_abortop }, /* abortop */
{ &vop_inactive_desc, kernfs_inactive },/* inactive */
{ &vop_reclaim_desc, kernfs_reclaim }, /* reclaim */
{ &vop_lock_desc, kernfs_lock }, /* lock */
{ &vop_unlock_desc, kernfs_unlock }, /* unlock */
{ &vop_bmap_desc, kernfs_bmap }, /* bmap */
{ &vop_strategy_desc, kernfs_strategy },/* strategy */
{ &vop_print_desc, kernfs_print }, /* print */
{ &vop_islocked_desc, kernfs_islocked },/* islocked */
{ &vop_pathconf_desc, kernfs_pathconf },/* pathconf */
{ &vop_advlock_desc, kernfs_advlock }, /* advlock */
{ &vop_blkatoff_desc, kernfs_blkatoff },/* blkatoff */
{ &vop_valloc_desc, kernfs_valloc }, /* valloc */
{ &vop_vfree_desc, kernfs_vfree }, /* vfree */
{ &vop_truncate_desc, kernfs_truncate },/* truncate */
{ &vop_update_desc, kernfs_update }, /* update */
{ &vop_bwrite_desc, kernfs_bwrite }, /* bwrite */
{ (struct vnodeop_desc*)NULL, (int(*) __P((void *)))NULL }
};
struct vnodeopv_desc kernfs_vnodeop_opv_desc =
{ &kernfs_vnodeop_p, kernfs_vnodeop_entries };
int
kernfs_xread(kt, off, bufp, len)
struct kern_target *kt;
int off;
char **bufp;
int len;
{
switch (kt->kt_tag) {
case KTT_TIME: {
struct timeval tv;
microtime(&tv);
sprintf(*bufp, "%ld %ld\n", tv.tv_sec, tv.tv_usec);
break;
}
case KTT_INT: {
int *ip = kt->kt_data;
sprintf(*bufp, "%d\n", *ip);
break;
}
case KTT_STRING: {
char *cp = kt->kt_data;
*bufp = cp;
break;
}
case KTT_MSGBUF: {
extern struct msgbuf *msgbufp;
long n;
if (off >= MSG_BSIZE)
return (0);
n = msgbufp->msg_bufx + off;
if (n >= MSG_BSIZE)
n -= MSG_BSIZE;
len = min(MSG_BSIZE - n, MSG_BSIZE - off);
*bufp = msgbufp->msg_bufc + n;
return (len);
}
case KTT_HOSTNAME: {
char *cp = hostname;
int xlen = hostnamelen;
if (xlen >= (len-2))
return (EINVAL);
bcopy(cp, *bufp, xlen);
(*bufp)[xlen] = '\n';
(*bufp)[xlen+1] = '\0';
break;
}
case KTT_DOMAIN: {
char *cp = domainname;
int xlen = domainnamelen;
if (xlen >= (len-2))
return (EINVAL);
bcopy(cp, *bufp, xlen);
(*bufp)[xlen] = '\n';
(*bufp)[xlen+1] = '\0';
break;
}
case KTT_AVENRUN:
averunnable.fscale = FSCALE;
sprintf(*bufp, "%d %d %d %ld\n",
averunnable.ldavg[0], averunnable.ldavg[1],
averunnable.ldavg[2], averunnable.fscale);
break;
case KTT_USERMEM:
sprintf(*bufp, "%u\n", physmem - cnt.v_wire_count);
break;
default:
return (0);
}
len = strlen(*bufp);
if (len <= off)
return (0);
*bufp += off;
return (len - off);
}
int
kernfs_xwrite(kt, buf, len)
struct kern_target *kt;
char *buf;
int len;
{
switch (kt->kt_tag) {
case KTT_DOMAIN:
if (buf[len-1] == '\n')
--len;
bcopy(buf, domainname, len);
domainname[len] = '\0';
domainnamelen = len;
return (0);
case KTT_HOSTNAME:
if (buf[len-1] == '\n')
--len;
bcopy(buf, hostname, len);
hostname[len] = '\0';
hostnamelen = len;
return (0);
default:
return (EIO);
}
}
/*
* vp is the current namei directory
* ndp is the name to locate in that directory...
*/
int
kernfs_lookup(v)
void *v;
{
struct vop_lookup_args /* {
struct vnode * a_dvp;
struct vnode ** a_vpp;
struct componentname * a_cnp;
} */ *ap = v;
struct componentname *cnp = ap->a_cnp;
struct vnode **vpp = ap->a_vpp;
struct vnode *dvp = ap->a_dvp;
char *pname = cnp->cn_nameptr;
struct kern_target *kt;
struct vnode *fvp;
int error, i;
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_lookup(%x)\n", ap);
printf("kernfs_lookup(dp = %x, vpp = %x, cnp = %x)\n", dvp, vpp, ap->a_cnp);
printf("kernfs_lookup(%s)\n", pname);
#endif
*vpp = NULLVP;
if (cnp->cn_nameiop == DELETE || cnp->cn_nameiop == RENAME)
return (EROFS);
if (cnp->cn_namelen == 1 && *pname == '.') {
*vpp = dvp;
VREF(dvp);
/*VOP_LOCK(dvp);*/
return (0);
}
#if 0
if (cnp->cn_namelen == 4 && bcmp(pname, "root", 4) == 0) {
*vpp = rootdir;
VREF(rootdir);
VOP_LOCK(rootdir);
return (0);
}
#endif
for (kt = kern_targets, i = 0; i < nkern_targets; kt++, i++) {
if (cnp->cn_namelen == kt->kt_namlen &&
bcmp(kt->kt_name, pname, cnp->cn_namelen) == 0)
goto found;
}
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_lookup: i = %d, failed", i);
#endif
return (cnp->cn_nameiop == LOOKUP ? ENOENT : EROFS);
found:
if (kt->kt_tag == KTT_DEVICE) {
dev_t *dp = kt->kt_data;
loop:
if (*dp == NODEV || !vfinddev(*dp, kt->kt_vtype, &fvp))
return (ENOENT);
*vpp = fvp;
if (vget(fvp, 1))
goto loop;
return (0);
}
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_lookup: allocate new vnode\n");
#endif
error = getnewvnode(VT_KERNFS, dvp->v_mount, kernfs_vnodeop_p, &fvp);
if (error)
return (error);
MALLOC(fvp->v_data, void *, sizeof(struct kernfs_node), M_TEMP,
M_WAITOK);
VTOKERN(fvp)->kf_kt = kt;
fvp->v_type = kt->kt_vtype;
*vpp = fvp;
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_lookup: newvp = %x\n", fvp);
#endif
return (0);
}
/*ARGSUSED*/
int
kernfs_open(v)
void *v;
{
/* Only need to check access permissions. */
return (0);
}
int
kernfs_access(v)
void *v;
{
struct vop_access_args /* {
struct vnode *a_vp;
int a_mode;
struct ucred *a_cred;
struct proc *a_p;
} */ *ap = v;
struct vnode *vp = ap->a_vp;
mode_t fmode =
(vp->v_flag & VROOT) ? DIR_MODE : VTOKERN(vp)->kf_kt->kt_mode;
return (vaccess(fmode, (uid_t)0, (gid_t)0, ap->a_mode, ap->a_cred));
}
int
kernfs_getattr(v)
void *v;
{
struct vop_getattr_args /* {
struct vnode *a_vp;
struct vattr *a_vap;
struct ucred *a_cred;
struct proc *a_p;
} */ *ap = v;
struct vnode *vp = ap->a_vp;
struct vattr *vap = ap->a_vap;
struct timeval tv;
int error = 0;
char strbuf[KSTRING], *buf;
bzero((caddr_t) vap, sizeof(*vap));
vattr_null(vap);
vap->va_uid = 0;
vap->va_gid = 0;
vap->va_fsid = vp->v_mount->mnt_stat.f_fsid.val[0];
vap->va_size = 0;
vap->va_blocksize = DEV_BSIZE;
microtime(&tv);
TIMEVAL_TO_TIMESPEC(&tv, &vap->va_atime);
vap->va_mtime = vap->va_atime;
vap->va_ctime = vap->va_ctime;
vap->va_gen = 0;
vap->va_flags = 0;
vap->va_rdev = 0;
vap->va_bytes = 0;
if (vp->v_flag & VROOT) {
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_getattr: stat rootdir\n");
#endif
vap->va_type = VDIR;
vap->va_mode = DIR_MODE;
vap->va_nlink = 2;
vap->va_fileid = 2;
vap->va_size = DEV_BSIZE;
} else {
struct kern_target *kt = VTOKERN(vp)->kf_kt;
int nbytes, total;
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_getattr: stat target %s\n", kt->kt_name);
#endif
vap->va_type = kt->kt_vtype;
vap->va_mode = kt->kt_mode;
vap->va_nlink = 1;
vap->va_fileid = 3 + (kt - kern_targets);
total = 0;
while (buf = strbuf,
nbytes = kernfs_xread(kt, total, &buf, sizeof(strbuf)))
total += nbytes;
vap->va_size = total;
}
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_getattr: return error %d\n", error);
#endif
return (error);
}
/*ARGSUSED*/
int
kernfs_setattr(v)
void *v;
{
/*
* Silently ignore attribute changes.
* This allows for open with truncate to have no
* effect until some data is written. I want to
* do it this way because all writes are atomic.
*/
return (0);
}
int
kernfs_read(v)
void *v;
{
struct vop_read_args /* {
struct vnode *a_vp;
struct uio *a_uio;
int a_ioflag;
struct ucred *a_cred;
} */ *ap = v;
struct vnode *vp = ap->a_vp;
struct uio *uio = ap->a_uio;
struct kern_target *kt;
char strbuf[KSTRING], *buf;
int off, len;
int error;
if (vp->v_type == VDIR)
return (EOPNOTSUPP);
kt = VTOKERN(vp)->kf_kt;
#ifdef KERNFS_DIAGNOSTIC
printf("kern_read %s\n", kt->kt_name);
#endif
off = uio->uio_offset;
#if 0
while (buf = strbuf,
#else
if (buf = strbuf,
#endif
len = kernfs_xread(kt, off, &buf, sizeof(strbuf))) {
if ((error = uiomove(buf, len, uio)) != 0)
return (error);
off += len;
}
return (0);
}
int
kernfs_write(v)
void *v;
{
struct vop_write_args /* {
struct vnode *a_vp;
struct uio *a_uio;
int a_ioflag;
struct ucred *a_cred;
} */ *ap = v;
struct vnode *vp = ap->a_vp;
struct uio *uio = ap->a_uio;
struct kern_target *kt;
int error, xlen;
char strbuf[KSTRING];
if (vp->v_type == VDIR)
return (EOPNOTSUPP);
kt = VTOKERN(vp)->kf_kt;
if (uio->uio_offset != 0)
return (EINVAL);
xlen = min(uio->uio_resid, KSTRING-1);
if ((error = uiomove(strbuf, xlen, uio)) != 0)
return (error);
if (uio->uio_resid != 0)
return (EIO);
strbuf[xlen] = '\0';
xlen = strlen(strbuf);
return (kernfs_xwrite(kt, strbuf, xlen));
}
int
kernfs_readdir(v)
void *v;
{
struct vop_readdir_args /* {
struct vnode *a_vp;
struct uio *a_uio;
struct ucred *a_cred;
int *a_eofflag;
u_long *a_cookies;
int a_ncookies;
} */ *ap = v;
struct uio *uio = ap->a_uio;
struct dirent d;
struct kern_target *kt;
int i;
int error;
u_long *cookies = ap->a_cookies;
int ncookies = ap->a_ncookies;
if (ap->a_vp->v_type != VDIR)
return (ENOTDIR);
if (uio->uio_resid < UIO_MX)
return (EINVAL);
if (uio->uio_offset < 0)
return (EINVAL);
error = 0;
i = uio->uio_offset;
bzero((caddr_t)&d, UIO_MX);
d.d_reclen = UIO_MX;
for (kt = &kern_targets[i];
uio->uio_resid >= UIO_MX && i < nkern_targets; kt++, i++) {
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_readdir: i = %d\n", i);
#endif
if (kt->kt_tag == KTT_DEVICE) {
dev_t *dp = kt->kt_data;
struct vnode *fvp;
if (*dp == NODEV || !vfinddev(*dp, kt->kt_vtype, &fvp))
continue;
}
d.d_fileno = i + 3;
d.d_namlen = kt->kt_namlen;
bcopy(kt->kt_name, d.d_name, kt->kt_namlen + 1);
d.d_type = kt->kt_type;
if ((error = uiomove((caddr_t)&d, UIO_MX, uio)) != 0)
break;
if (ncookies-- > 0)
*cookies++ = i + 1;
}
uio->uio_offset = i;
return (error);
}
int
kernfs_inactive(v)
void *v;
{
struct vop_inactive_args /* {
struct vnode *a_vp;
} */ *ap = v;
struct vnode *vp = ap->a_vp;
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_inactive(%x)\n", vp);
#endif
/*
* Clear out the v_type field to avoid
* nasty things happening in vgone().
*/
vp->v_type = VNON;
return (0);
}
int
kernfs_reclaim(v)
void *v;
{
struct vop_reclaim_args /* {
struct vnode *a_vp;
} */ *ap = v;
struct vnode *vp = ap->a_vp;
#ifdef KERNFS_DIAGNOSTIC
printf("kernfs_reclaim(%x)\n", vp);
#endif
if (vp->v_data) {
FREE(vp->v_data, M_TEMP);
vp->v_data = 0;
}
return (0);
}
/*
* Return POSIX pathconf information applicable to special devices.
*/
int
kernfs_pathconf(v)
void *v;
{
struct vop_pathconf_args /* {
struct vnode *a_vp;
int a_name;
register_t *a_retval;
} */ *ap = v;
switch (ap->a_name) {
case _PC_LINK_MAX:
*ap->a_retval = LINK_MAX;
return (0);
case _PC_MAX_CANON:
*ap->a_retval = MAX_CANON;
return (0);
case _PC_MAX_INPUT:
*ap->a_retval = MAX_INPUT;
return (0);
case _PC_PIPE_BUF:
*ap->a_retval = PIPE_BUF;
return (0);
case _PC_CHOWN_RESTRICTED:
*ap->a_retval = 1;
return (0);
case _PC_VDISABLE:
*ap->a_retval = _POSIX_VDISABLE;
return (0);
default:
return (EINVAL);
}
/* NOTREACHED */
}
/*
* Print out the contents of a /dev/fd vnode.
*/
/* ARGSUSED */
int
kernfs_print(v)
void *v;
{
printf("tag VT_KERNFS, kernfs vnode\n");
return (0);
}
/*ARGSUSED*/
int
kernfs_vfree(v)
void *v;
{
return (0);
}
int
kernfs_link(v)
void *v;
{
struct vop_link_args /* {
struct vnode *a_dvp;
struct vnode *a_vp;
struct componentname *a_cnp;
} */ *ap = v;
VOP_ABORTOP(ap->a_dvp, ap->a_cnp);
vput(ap->a_dvp);
return (EROFS);
}
int
kernfs_symlink(v)
void *v;
{
struct vop_symlink_args /* {
struct vnode *a_dvp;
struct vnode **a_vpp;
struct componentname *a_cnp;
struct vattr *a_vap;
char *a_target;
} */ *ap = v;
VOP_ABORTOP(ap->a_dvp, ap->a_cnp);
vput(ap->a_dvp);
return (EROFS);
}
int
kernfs_abortop(v)
void *v;
{
struct vop_abortop_args /* {
struct vnode *a_dvp;
struct componentname *a_cnp;
} */ *ap = v;
if ((ap->a_cnp->cn_flags & (HASBUF | SAVESTART)) == HASBUF)
FREE(ap->a_cnp->cn_pnbuf, M_NAMEI);
return (0);
}
/*
* /dev/fd vnode unsupported operation
*/
/*ARGSUSED*/
int
kernfs_enotsupp(v)
void *v;
{
return (EOPNOTSUPP);
}
/*
* /dev/fd "should never get here" operation
*/
/*ARGSUSED*/
int
kernfs_badop(v)
void *v;
{
panic("kernfs: bad op");
return 0;
}
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