freebsd-dev/sys/miscfs/devfs/devfs_tree.c
1995-09-09 18:10:37 +00:00

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/*
* Written by Julian Elischer (julian@DIALix.oz.au)
*
* $Header: /home/ncvs/src/sys/miscfs/devfs/devfs_tree.c,v 1.6 1995/09/09 12:51:55 julian Exp $
*/
#include "param.h"
#include "systm.h"
#include "types.h"
#include "kernel.h"
#include "file.h" /* define FWRITE ... */
#include "conf.h"
#include "stat.h"
#include "mount.h"
#include "vnode.h"
#include "malloc.h"
#include "dir.h" /* defines dirent structure */
#include "devfsdefs.h"
#include "sys/devfsext.h"
SYSINIT(devfs, SI_SUB_DEVFS, SI_ORDER_FIRST, devfs_sinit, NULL)
devnm_p dev_root; /* root of the backing tree */
struct mount *devfs_hidden_mount;
int devfs_up_and_going;
/*
* Set up the root directory node in the backing plane
* This is happenning before the vfs system has been
* set up yet, so be careful about what we reference..
* Notice that the ops are by indirection.. as they haven't
* been set up yet!
*/
void devfs_sinit(void *junk) /*proto*/
{
int retval; /* we will discard this */
devnm_p new;
/*
* call the right routine at the right time with the right args....
*/
retval = dev_add_entry("root", NULL, DEV_DIR, NULL, &dev_root);
#ifdef PARANOID
if(retval) panic("devfs_sinit: dev_add_entry failed ");
#endif
devfs_hidden_mount = (struct mount *)malloc(sizeof(struct mount),
M_MOUNT,M_NOWAIT);
#ifdef PARANOID
if(!devfs_hidden_mount) panic("devfs_sinit: malloc failed");
#endif
bzero(devfs_hidden_mount,sizeof(struct mount));
devfs_mount(devfs_hidden_mount,"dummy",NULL,NULL,NULL);
dev_root->dnp->dvm = (struct devfsmount *)devfs_hidden_mount->mnt_data;
devfs_up_and_going = 1;
printf("DEVFS: ready for devices\n");
}
/***********************************************************************\
*************************************************************************
* Routines used to find our way to a point in the tree *
*************************************************************************
\***********************************************************************/
/***************************************************************\
* Search down the linked list off a dir to find "name" *
* return the dn_p for that node.
\***************************************************************/
devnm_p dev_findname(dn_p dir,char *name) /*proto*/
{
devnm_p newfp;
DBPRINT((" dev_findname(%s)\n",name));
if(dir->type != DEV_DIR) return 0;/*XXX*/ /* printf?*/
if(name[0] == '.')
{
if(name[1] == 0)
{
return dir->by.Dir.myname;
}
if((name[1] == '.') && (name[2] == 0))
{
/* for root, .. == . */
return dir->by.Dir.parent->by.Dir.myname;
}
}
newfp = dir->by.Dir.dirlist;
while(newfp)
{
if(!(strcmp(name,newfp->name)))
return newfp;
newfp = newfp->next;
}
return NULL;
}
/***********************************************************************\
* Given a starting node (0 for root) and a pathname, return the node *
* for the end item on the path. It MUST BE A DIRECTORY. If the 'CREATE' *
* option is true, then create any missing nodes in the path and create *
* and return the final node as well. *
* This is used to set up a directory, before making nodes in it.. *
* *
* Warning: This function is RECURSIVE. *
* char *path, find this dir (err if not dir) *
* dn_p dirnode, starting point (0 = root) *
* int create, create path if not found *
* dn_p *dn_pp) where to return the node of the dir *
\***********************************************************************/
int dev_finddir(char *orig_path, dn_p dirnode, int create, dn_p *dn_pp) /*proto*/
{
devnm_p devnmp;
dn_p dnp;
char pathbuf[DEVMAXPATHSIZE];
char *path;
char *name;
register char *cp;
int retval;
DBPRINT(("dev_finddir\n"));
/***************************************\
* If no parent directory is given *
* then start at the root of the tree *
\***************************************/
if(!dirnode) dirnode = dev_root->dnp;
/***************************************\
* Sanity Checks *
\***************************************/
if(dirnode->type != DEV_DIR) return ENOTDIR;
if(strlen(orig_path) > (DEVMAXPATHSIZE - 1)) return ENAMETOOLONG;
path = pathbuf;
strcpy(path,orig_path);
while(*path == '/') path++; /* always absolute, skip leading / */
/***************************************\
* find the next segment of the name *
\***************************************/
cp = name = path;
while((*cp != '/') && (*cp != 0))
{
cp++;
}
/***********************************************\
* Check to see if it's the last component *
\***********************************************/
if(*cp)
{
path = cp + 1; /* path refers to the rest */
*cp = 0; /* name is now a separate string */
if(!(*path))
{
path = (char *)0; /* was trailing slash */
}
}
else
{
path = (char *)0; /* no more to do */
}
/***************************************\
* Start scanning along the linked list *
\***************************************/
devnmp = dev_findname(dirnode,name);
if(devnmp)
{ /* check it's a directory */
dnp = devnmp->dnp;
if(dnp->type != DEV_DIR) return ENOTDIR;
}
else
{
/***************************************\
* The required element does not exist *
* So we will add it if asked to. *
\***************************************/
if(!create) return ENOENT;
if(retval = dev_add_entry(name, dirnode, DEV_DIR,
NULL, &devnmp))
{
return retval;
}
dnp = devnmp->dnp;
}
if(path) /* decide whether to recurse more or return */
{
return (dev_finddir(path,dnp,create,dn_pp));
}
else
{
*dn_pp = dnp;
return 0;
}
}
/***********************************************************************\
* Add a new element to the devfs backing structure. *
* If we're creating a root node, then dirname is NULL *
* *
* Creates a name node, and links it to the supplied node *
\***********************************************************************/
int dev_add_name(char *name, dn_p dirnode, devnm_p back, dn_p dnp, devnm_p *devnm_pp) /*proto*/
{
devnm_p devnmp;
devnm_p realthing; /* needed to create an alias */
int retval;
DBPRINT(("dev_add_name\n"));
if(dirnode ) {
if(dirnode->type != DEV_DIR) return(ENOTDIR);
if( dev_findname(dirnode,name))
return(EEXIST);
}
/*
* make sure the name is legal
* slightly misleading in the case of NULL
*/
if( !name || (strlen(name) > (DEVMAXNAMESIZE - 1)))
return (ENAMETOOLONG);
/*
* Allocate and fill out a new directory entry
*/
if(!(devnmp = (devnm_p)malloc(sizeof(devnm_t),
M_DEVFSNAME, M_NOWAIT)))
{
return ENOMEM;
}
bzero(devnmp,sizeof(devnm_t));
/* inherrit our parent's mount info */ /*XXX*/
/* a kludge but.... */
if(dirnode && ( dnp->dvm == NULL)) {
dnp->dvm = dirnode->dvm;
if(!dnp->dvm) printf("parent had null dvm ");
}
/*
* Link the two together
* include the implicit link in the count of links to the devnode..
* this stops it from being accidentally freed later.
*/
devnmp->dnp = dnp;
dnp->links++ ; /* implicit from our own name-node */
if(dnp->type == DEV_DIR) {
dnp->by.Dir.myname = devnmp;
/*
* If we are unlinking from an old dir, decrement it's links
* as we point our '..' elsewhere
*/
if(dnp->by.Dir.parent) {
dnp->by.Dir.parent->links--;
}
if(dirnode) {
dnp->by.Dir.parent = dirnode;
} else {
dnp->by.Dir.parent = dnp;
}
dnp->by.Dir.parent->links++; /* account for the new '..' */
}
/*
* put in it's name
*/
strcpy(devnmp->name,name);
/*
* And set up the 'clones' list (empty if new node)
*/
if(back) {
/*******************************************************\
* Put it in the appropriate back/front list too. *
\*******************************************************/
devnmp->next_front = *back->prev_frontp;
devnmp->prev_frontp = back->prev_frontp;
*back->prev_frontp = devnmp;
back->prev_frontp = &(devnmp->next_front);
devnmp->as.front.realthing = back;
} else {
devnmp->prev_frontp = &(devnmp->next_front);
devnmp->next_front = NULL;
}
/*******************************************
* Check if we are not making a root node..
* (i.e. have parent)
*/
if(dirnode) {
/*
* Put it on the END of the linked list of directory entries
*/
devnmp->parent = dirnode; /* null for root */
devnmp->prevp = dirnode->by.Dir.dirlast;
devnmp->next = *(devnmp->prevp); /* should be NULL */ /*right?*/
*(devnmp->prevp) = devnmp;
dirnode->by.Dir.dirlast = &(devnmp->next);
dirnode->by.Dir.entrycount++;
dirnode->len += strlen(name) + 8;/*ok, ok?*/
}
/*
* If we have a parent, then maybe we should duplicate
* ourselves onto any plane that the parent is on...
* Though this may be better handled elsewhere as
* it stops this routine from being used for front nodes
*/
if(dirnode && !back) {
if(retval = devfs_add_fronts(dirnode->by.Dir.myname,devnmp))
{
/*XXX*//* no idea what to do if it fails... */
return retval;
}
}
*devnm_pp = devnmp;
return 0 ;
}
/***********************************************************************\
* Add a new element to the devfs backing structure. *
* *
* Creates a new dev_node to go with it *
* 'by' gives us info to make our node *
* note the 'links' count is 0 (except if a dir) *
* but it is only cleared on a transition *
* so this is ok till we link it to something *
\***********************************************************************/
int dev_add_node(int entrytype, union typeinfo *by, dn_p proto, dn_p *dn_pp) /*proto*/
{
dn_p dnp;
int retval;
DBPRINT(("dev_add_node\n"));
if(!(dnp = (dn_p)malloc(sizeof(devnode_t),
M_DEVFSNODE, M_NOWAIT)))
{
return ENOMEM;
}
if(proto) {
/* XXX should check that we are NOT copying a device node */
bcopy(proto, dnp, sizeof(devnode_t));
/* some things you DON'T copy */
dnp->links = 0;
dnp->dvm = NULL;
dnp->vn = NULL;
dnp->len = 0;
} else {
bzero(dnp,sizeof(devnode_t));
dnp->type = entrytype;
TIMEVAL_TO_TIMESPEC(&time,&(dnp->ctime))
dnp->mtime = dnp->ctime;
dnp->atime = dnp->ctime;
}
/*
* fill out the dev node according to type
*/
switch(entrytype) {
case DEV_DIR:
/*
* As it's a directory, make sure
* it has a null entries list
*/
dnp->by.Dir.dirlast = &(dnp->by.Dir.dirlist);
dnp->by.Dir.dirlist = (devnm_p)0;
dnp->by.Dir.entrycount = 0;
/* until we know better, it has a null parent pointer*/
dnp->by.Dir.parent = NULL;
dnp->links++; /* for .*/
dnp->by.Dir.myname = NULL;
/*
* make sure that the ops associated with it are the ops
* that we use (by default) for directories
*/
dnp->ops = &devfs_vnodeop_p;
dnp->mode |= 0555; /* default perms */
break;
/*******************************************************\
* The rest of these can't happen except in the back plane*
\*******************************************************/
case DEV_BDEV:
/*
* Make sure it has DEVICE type ops
* and device specific fields are correct
*/
dnp->ops = &dev_spec_vnodeop_p;
dnp->by.Bdev.bdevsw = by->Bdev.bdevsw;
dnp->by.Bdev.dev = by->Bdev.dev;
break;
case DEV_CDEV:
/*
* Make sure it has DEVICE type ops
* and device specific fields are correct
*/
dnp->ops = &dev_spec_vnodeop_p;
dnp->by.Cdev.cdevsw = by->Cdev.cdevsw;
dnp->by.Cdev.dev = by->Cdev.dev;
break;
case DEV_DDEV:
/*
* store the address of (the address of) the ops
* and the magic cookie to use with them
*/
dnp->by.Ddev.arg = by->Ddev.arg;
dnp->ops = by->Ddev.ops;
break;
default:
return EINVAL;
}
*dn_pp = dnp;
return 0 ;
}
/***************************************************************\
* DEV_NODE reference count manipulations.. when a ref count *
* reaches 0, the node is to be deleted *
\***************************************************************/
int dev_touch(devnm_p key) /* update the node for this dev */ /*proto*/
{
DBPRINT(("dev_touch\n"));
TIMEVAL_TO_TIMESPEC(&time,&(key->dnp->mtime))
return 0; /*XXX*/
}
void devfs_dn_free(dn_p dnp) /*proto*/
{
if(--dnp->links <= 0 ) /* can be -1 for initial free, on error */
{
/*probably need to do other cleanups XXX */
devfs_dropvnode(dnp);
free (dnp, M_DEVFSNODE);
}
}
/***********************************************************************\
* Front Node Operations *
* Add or delete a chain of front nodes *
\***********************************************************************/
/***********************************************************************\
* Given a directory backing node, and a child backing node, add the *
* appropriate front nodes to the front nodes of the directory to *
* represent the child node to the user *
* *
* on failure, front nodes will either be correct or not exist for each *
* front dir, however dirs completed will not be stripped of completed *
* frontnodes on failure of a later frontnode *
* *
* This allows a new node to be propogated through all mounted planes *
* *
\***********************************************************************/
int devfs_add_fronts(devnm_p parent,devnm_p child) /*proto*/
{
devnm_p newnmp;
devnm_p falias;
dn_p dnp = child->dnp;
int type = child->dnp->type;
DBPRINT((" devfs_add_fronts\n"));
/***********************************************\
* Find the frontnodes of the parent node *
\***********************************************/
for (falias = parent->next_front; falias; falias = falias->next_front)
{
/*
* If a Dir (XXX symlink too one day)
* Make the node, using the original as a prototype)
*/
if(type == DEV_DIR) {
if (dev_add_node(type, NULL, dnp, &dnp))
{
printf("Device %s: node allocation failed\n",
child->name);
continue;
}
}
if (dev_add_name(child->name,parent->dnp,child, dnp,&newnmp)) {
if( type == DEV_DIR) {
devfs_dn_free(dnp); /* 1->0 */
}
printf("Device %s: allocation failed\n", child->name);
continue;
}
}
return 0; /* for now always succeed */
}
/***********************************************************************
* remove all instances of this devicename [for backing nodes..]
* note.. if there is another link to the node (non dir nodes only)
* then the devfs_node will still exist as the ref count will be non-0
* removing a directory node will remove all sup-nodes on all planes (ZAP)
*
* Used be device drivers to remove nodes that are no longer relevant
***********************************************************************/
void dev_remove_dev(devnm_p devnmp) /*proto*/
{
DBPRINT(("dev_remove_dev\n"));
/*
* Keep removing the next front node till no more exist
*/
while(devnmp->next_front)
{
dev_free_name(devnmp->next_front);
}
/*
* then free the main node
*/
dev_free_name(devnmp);
return ;
}
/***************************************************************
* duplicate the backing tree into a tree of nodes hung off the
* mount point given as the argument. Do this by
* calling dev_dup_entry which recurses all the way
* up the tree..
* If we are the first plane, just return the base root
**************************************************************/
int dev_dup_plane(struct devfsmount *devfs_mp_p) /*proto*/
{
devnm_p new;
int error = 0;
DBPRINT((" dev_dup_plane\n"));
if(devfs_up_and_going) {
if(error = dev_dup_entry(NULL, dev_root, &new, devfs_mp_p)) {
return error;
}
} else { /* we are doing the dummy mount during initialisation.. */
new = dev_root;
}
devfs_mp_p->plane_root = new;
return error;
}
/***************************************************************\
* Free a whole plane
\***************************************************************/
void devfs_free_plane(struct devfsmount *devfs_mp_p) /*proto*/
{
devnm_p devnmp;
DBPRINT((" devfs_free_plane\n"));
devnmp = devfs_mp_p->plane_root;
if(devnmp) dev_free_name(devnmp);
devfs_mp_p->plane_root = NULL;
}
/***************************************************************\
* Create and link in a new front element.. *
* Parent can be 0 for a root node *
* Not presently usable to make a symlink XXX *
* recursively will create subnodes corresponding to equivalent *
* child nodes in the base level *
\***************************************************************/
int dev_dup_entry(dn_p parent, devnm_p back, devnm_p *dnm_pp, struct devfsmount *dvm) /*proto*/
{
devnm_p newnmp;
struct devfsmount *dmt;
devnm_p newback;
devnm_p newfront;
int error;
dn_p dnp = back->dnp;
int type = back->dnp->type;
DBPRINT((" dev_dup_entry\n"));
/*
* go get the node made (if we need to)
* use the back one as a prototype
*/
if ( type == DEV_DIR) {
error = dev_add_node( dnp->type, NULL, dnp, &dnp);
if(error) {
printf("dev_dup_entry: node alloc failed\n");
return error;
}
}
error = dev_add_name(back->name,parent,back,dnp,&newnmp);
if ( error ) {
if ( type == DEV_DIR) {
devfs_dn_free(dnp); /* 1->0 */
}
return error;
}
/*
* If we have just made the root, then insert the pointer to the
* mount information
*/
if(dvm) {
newnmp->dnp->dvm = dvm;
}
/*
* If it is a directory, then recurse down all the other
* subnodes in it....
* note that this time we don't pass on the mount info..
*/
if ( newnmp->dnp->type == DEV_DIR)
{
for(newback = back->dnp->by.Dir.dirlist;
newback; newback = newback->next)
{
if(error = dev_dup_entry(newnmp->dnp,
newback, &newfront, NULL))
{
break; /* back out with an error */
}
}
}
*dnm_pp = newnmp;
return error;
}
/***************************************************************\
* Free a name node (and any below it of it's a directory node) *
* remember that if there are other names pointing to the *
* dev_node then it may not get freed yet *
* can handle if there is no dnp *
\***************************************************************/
void dev_free_name(devnm_p devnmp) /*proto*/
{
dn_p parent = devnmp->parent;
dn_p dnp = devnmp->dnp;
devnm_p back;
DBPRINT((" dev_free_name\n"));
if(dnp) {
if(dnp->type == DEV_DIR)
{
while(dnp->by.Dir.dirlist)
{
dev_free_name(dnp->by.Dir.dirlist);
}
/*
* drop the reference counts on our and our parent's
* nodes for "." and ".." (root has ".." -> "." )
*/
devfs_dn_free(dnp); /* account for '.' */
devfs_dn_free(dnp->by.Dir.parent); /* '..' */
/* should only have one reference left
(from name element) */
}
devfs_dn_free(dnp);
}
/*
* unlink ourselves from the directory on this plane
*/
if(parent) /* if not fs root */
{
if( *devnmp->prevp = devnmp->next)/* yes, assign */
{
devnmp->next->prevp = devnmp->prevp;
}
else
{
parent->by.Dir.dirlast
= devnmp->prevp;
}
parent->by.Dir.entrycount--;
parent->len -= strlen(devnmp->name) + 8;
}
/*
* If the node has a backing pointer we need to free ourselves
* from that..
* Remember that we may not HAVE a backing node.
*/
if (back = devnmp->as.front.realthing) /* yes an assign */
{
if( *devnmp->prev_frontp = devnmp->next_front)/* yes, assign */
{
devnmp->next_front->prev_frontp = devnmp->prev_frontp;
}
else
{
back->prev_frontp = devnmp->prev_frontp;
}
}
/***************************************************************\
* If the front node has it's own devnode structure, *
* then free it. *
\***************************************************************/
free(devnmp,M_DEVFSNAME);
return;
}
/*******************************************************\
*********************************************************
* ROUTINES to control the connection between devfs *
* nodes and the system's vnodes *
*********************************************************
\*******************************************************/
/*******************************************************\
* Theoretically this could be called for any kind of *
* vnode, however in practice it must be a DEVFS vnode *
\*******************************************************/
int devfs_vntodn(struct vnode *vn_p, dn_p *dn_pp) /*proto*/
{
DBPRINT((" vntodn "));
if(vn_p->v_tag != VT_DEVFS)
{
printf("bad-tag ");
Debugger("bad-tag ");
return(EINVAL);
}
if(vn_p->v_usecount == 0)
{
printf("not locked! ");
}
if((vn_p->v_type == VBAD) || (vn_p->v_type == VNON))
{
printf("bad-type ");
return(EINVAL);
}
*dn_pp = (dn_p)vn_p->v_data;
return(0);
}
/***************************************************************\
* given a dev_node, find the appropriate vnode if one is already*
* associated, or get a new one an associate it with the dev_node*
* need to check about vnode references.. should we increment it?*
\***************************************************************/
int devfs_dntovn(dn_p dnp, struct vnode **vn_pp) /*proto*/
{
struct vnode *vn_p, *nvp;
int error = 0;
vn_p = dnp->vn;
DBPRINT(("dntovn "));
if( vn_p)
{
if(vn_p->v_id != dnp->vn_id)
{
printf("bad-id ");
goto skip;
}
if(vn_p->v_tag != VT_DEVFS)
{
printf("bad-tag ");
goto skip;
}
if(vn_p->v_op != *(dnp->ops))
{
printf("bad-ops ");
goto skip;
}
if((dn_p)(vn_p->v_data) != dnp)
{
printf("bad-rev_link ");
goto skip;
}
if(vn_p->v_type != VNON)
{
vget(vn_p,0/*lockflag ?*/); /*XXX*/
*vn_pp = vn_p;
return(0);
}
else
{
printf("bad-type");
}
skip:
vn_p = (struct vnode *) 0;
}
if(!(error = getnewvnode(VT_DEVFS,
dnp->dvm->mount,
*(dnp->ops),
&vn_p)))
{
dnp->vn = vn_p;
dnp->vn_id = vn_p->v_id;
*vn_pp = vn_p;
DBPRINT(("(New vnode)"));
switch(dnp->type)
{
case DEV_SLNK:
break;
case DEV_DIR:
if(dnp->by.Dir.parent == dnp)
{
vn_p->v_flag |= VROOT;
}
vn_p->v_type = VDIR;
break;
case DEV_BDEV:
vn_p->v_type = VBLK;
if (nvp = checkalias(vn_p,
dnp->by.Bdev.dev,
(struct mount *)0))
{
vput(vn_p);
vn_p = nvp;
}
break;
case DEV_CDEV:
vn_p->v_type = VCHR;
if (nvp = checkalias(vn_p,
dnp->by.Cdev.dev,
(struct mount *)0))
{
vput(vn_p);
vn_p = nvp;
}
break;
case DEV_DDEV:
break;
}
if ( vn_p)
{
vn_p->v_mount = dnp->dvm->mount;/* XXX Duplicated */
*vn_pp = vn_p;
vn_p->v_data = (void *)dnp;
}
else
{
error = EINVAL;
}
}
return error;
}
/***********************************************************************\
* UTILITY routine: *
* Return the major number for the cdevsw entry containing the given *
* address. *
\***********************************************************************/
int get_cdev_major_num(caddr_t addr) /*proto*/
{
int index = 0;
DBPRINT(("get_cdev_major_num\n"));
while (index < nchrdev)
{
if(((caddr_t)(cdevsw[index].d_open) == addr)
||((caddr_t)(cdevsw[index].d_read) == addr)
||((caddr_t)(cdevsw[index].d_ioctl) == addr))
{
return index;
}
index++;
}
return -1;
}
int get_bdev_major_num(caddr_t addr) /*proto*/
{
int index = 0;
DBPRINT(("get_bdev_major_num\n"));
while (index < nblkdev)
{
if(((caddr_t)(bdevsw[index].d_open) == addr)
||((caddr_t)(bdevsw[index].d_strategy) == addr)
||((caddr_t)(bdevsw[index].d_ioctl) == addr))
{
return index;
}
index++;
}
return -1;
}
/***********************************************************************\
* add a whole device, with not prototype.. make name element and node *
\***********************************************************************/
int dev_add_entry(char *name, dn_p parent, int type, union typeinfo *by, devnm_p *nm_pp) /*proto*/
{
dn_p dnp;
int error = 0;
DBPRINT((" devfs_add_entry\n"));
if (error = dev_add_node(type, by, NULL, &dnp))
{
printf("Device %s: base node allocation failed\n", name);
return error;
}
if ( error = dev_add_name(name ,parent ,NULL, dnp, nm_pp))
{
devfs_dn_free(dnp); /* 1->0 for dir, 0->(-1) for other */
printf("Device %s: name slot allocation failed\n",
name);
}
return error;
}
/***********************************************************************\
* Add the named device entry into the given directory, and make it *
* The appropriate type... (called (sometimes indirectly) by drivers..) *
\***********************************************************************/
void *dev_add(char *path,
char *name,
void *funct,
int minor,
int chrblk,
uid_t uid,
gid_t gid,
int perms)
{
devnm_p new_dev;
dn_p dnp; /* devnode for parent directory */
int retval;
int major ;
union typeinfo by;
DBPRINT(("dev_add\n"));
retval = dev_finddir(path,NULL,1,&dnp);
if (retval) return 0;
switch(chrblk)
{
case DV_CHR:
major = get_cdev_major_num(funct);
by.Cdev.cdevsw = cdevsw + major;
by.Cdev.dev = makedev(major, minor);
if( dev_add_entry(name, dnp, DEV_CDEV, &by,&new_dev))
return NULL;
break;
case DV_BLK:
major = get_bdev_major_num(funct);
by.Bdev.bdevsw = bdevsw + major;
by.Bdev.dev = makedev(major, minor);
if( dev_add_entry(name, dnp, DEV_BDEV, &by, &new_dev))
return NULL;
break;
default:
return NULL;
}
new_dev->dnp->gid = gid;
new_dev->dnp->uid = uid;
new_dev->dnp->mode |= perms;
return new_dev;
}
/***********************************************************************\
* Add the named device entry into the given directory, and make it *
* a link to the already created device given as an arg.. *
\***********************************************************************/
void *dev_link(char *path, char *name, void *original)
{
devnm_p new_dev;
devnm_p orig = (devnm_p) original;
dn_p dirnode; /* devnode for parent directory */
int retval;
int major ;
union typeinfo by;
DBPRINT(("dev_add\n"));
retval = dev_finddir(path,NULL,1,&dirnode);
if (retval) return 0;
/*
* The DEV_CDEV below is not used other than it must NOT be DEV_DIR
* the correctness of original shuold be checked..
*/
if( dev_add_name(name, dirnode, NULL, orig->dnp, &new_dev))
return NULL;
return new_dev;
}