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freebsd-dev/sys/miscfs/devfs/devfs_tree.c
Julian Elischer 53ac6efbd8 OK, that's it.. 
That's EVERY SINGLE driver that has an entry in conf.c..
my next trick will be to define cdevsw[] and bdevsw[]
as empty arrays and remove all those DAMNED defines as well..

Each of these drivers has a SYSINIT linker set entry
that comes in very early.. and asks teh driver to add it's own
entry to the two devsw[] tables.

some slight reworking of the commits from yesterday (added the SYSINIT
stuff and some usually wrong but token DEVFS entries to all these
devices.

BTW does anyone know where the 'ata' entries in conf.c actually reside?
seems we don't actually have a 'ataopen() etc...

If you want to add a new device in conf.c
please  make sure I know
so I can keep it up to date too..

as before, this is all dependent on #if defined(JREMOD)
(and #ifdef DEVFS in parts)
1995-11-29 10:49:16 +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 1.8 1995/10/10 07:12:25 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-tag2 ");
Debugger("bad-tag ");
return(EINVAL);
}
if(vn_p->v_usecount == 0)
{
printf("No references! ");
}
if((vn_p->v_type == VBAD) || (vn_p->v_type == VNON))
{
printf("bad-type2 ");
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 *devfs_add_devsw(char *path,
char *name,
int major,
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;
union typeinfo by;
DBPRINT(("dev_add\n"));
retval = dev_finddir(path,NULL,1,&dnp);
if (retval) return 0;
switch(chrblk)
{
case DV_CHR:
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:
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 *
* 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;
}
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