minix/servers/vfs/path.c

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/* lookup() is the main routine that controls the path name lookup. It
* handles mountpoints and symbolic links. The actual lookup requests
* are sent through the req_lookup wrapper function.
*/
#include "fs.h"
#include <string.h>
#include <minix/callnr.h>
#include <minix/com.h>
#include <minix/keymap.h>
#include <minix/const.h>
#include <minix/endpoint.h>
#include <unistd.h>
#include <assert.h>
#include <minix/vfsif.h>
#include <sys/stat.h>
#include <sys/un.h>
#include <dirent.h>
#include "fproc.h"
#include "vmnt.h"
#include "vnode.h"
#include "param.h"
/* Set to following define to 1 if you really want to use the POSIX definition
* (IEEE Std 1003.1, 2004) of pathname resolution. POSIX requires pathnames
* with a traling slash (and that do not entirely consist of slash characters)
* to be treated as if a single dot is appended. This means that for example
* mkdir("dir/", ...) and rmdir("dir/") will fail because the call tries to
* create or remove the directory '.'. Historically, Unix systems just ignore
* trailing slashes.
*/
#define DO_POSIX_PATHNAME_RES 0
FORWARD _PROTOTYPE( int lookup, (struct vnode *dirp, int flags,
node_details_t *node, struct fproc *rfp));
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/*===========================================================================*
* advance *
*===========================================================================*/
PUBLIC struct vnode *advance(dirp, flags, rfp)
struct vnode *dirp;
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int flags;
struct fproc *rfp;
{
/* Resolve a pathname (in user_fullpath) starting at dirp to a vnode. */
int r;
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struct vnode *new_vp, *vp;
struct vmnt *vmp;
struct node_details res = {0,0,0,0,0,0,0};
assert(dirp);
/* Get a free vnode */
if((new_vp = get_free_vnode()) == NULL) return(NULL);
/* Lookup vnode belonging to the file. */
if ((r = lookup(dirp, flags, &res, rfp)) != OK) {
err_code = r;
return(NULL);
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}
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/* Check whether vnode is already in use or not */
if ((vp = find_vnode(res.fs_e, res.inode_nr)) != NULL) {
dup_vnode(vp);
vp->v_fs_count++; /* We got a reference from the FS */
return(vp);
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}
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/* Fill in the free vnode's fields */
new_vp->v_fs_e = res.fs_e;
new_vp->v_inode_nr = res.inode_nr;
new_vp->v_mode = res.fmode;
new_vp->v_size = res.fsize;
new_vp->v_uid = res.uid;
new_vp->v_gid = res.gid;
new_vp->v_sdev = res.dev;
if( (vmp = find_vmnt(new_vp->v_fs_e)) == NULL)
panic("VFS advance: vmnt not found");
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new_vp->v_vmnt = vmp;
new_vp->v_dev = vmp->m_dev;
new_vp->v_fs_count = 1;
new_vp->v_ref_count = 1;
return(new_vp);
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}
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/*===========================================================================*
* eat_path *
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*===========================================================================*/
PUBLIC struct vnode *eat_path(flags, rfp)
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int flags;
struct fproc *rfp;
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{
/* Resolve 'user_fullpath' to a vnode. advance does the actual work. */
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struct vnode *vp;
vp = (user_fullpath[0] == '/' ? rfp->fp_rd : rfp->fp_wd);
return advance(vp, flags, rfp);
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}
/*===========================================================================*
* last_dir *
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*===========================================================================*/
PUBLIC struct vnode *last_dir(rfp)
struct fproc *rfp;
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{
/* Parse a path, 'user_fullpath', as far as the last directory, fetch the vnode
* for the last directory into the vnode table, and return a pointer to the
* vnode. In addition, return the final component of the path in 'string'. If
* the last directory can't be opened, return NULL and the reason for
* failure in 'err_code'. We can't parse component by component as that would
* be too expensive. Alternatively, we cut off the last component of the path,
* and parse the path up to the penultimate component.
*/
size_t len;
char *cp;
char dir_entry[NAME_MAX+1];
struct vnode *vp, *res;
/* Is the path absolute or relative? Initialize 'vp' accordingly. */
vp = (user_fullpath[0] == '/' ? rfp->fp_rd : rfp->fp_wd);
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len = strlen(user_fullpath);
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/* If path is empty, return ENOENT. */
if (len == 0) {
err_code = ENOENT;
return(NULL);
}
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#if !DO_POSIX_PATHNAME_RES
/* Remove trailing slashes */
while (len > 1 && user_fullpath[len-1] == '/') {
len--;
user_fullpath[len]= '\0';
}
#endif
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cp = strrchr(user_fullpath, '/');
if (cp == NULL) {
/* Just one entry in the current working directory */
dup_vnode(vp);
return(vp);
} else if (cp[1] == '\0') {
/* Path ends in a slash. The directory entry is '.' */
strcpy(dir_entry, ".");
} else {
/* A path name for the directory and a directory entry */
strncpy(dir_entry, cp+1, NAME_MAX);
cp[1]= '\0';
dir_entry[NAME_MAX] = '\0';
}
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/* Remove trailing slashes */
while(cp > user_fullpath && cp[0] == '/') {
cp[0]= '\0';
cp--;
}
res = advance(vp, PATH_NOFLAGS, rfp);
if (res == NULL) return(NULL);
/* Copy the directory entry back to user_fullpath */
strncpy(user_fullpath, dir_entry, NAME_MAX);
return(res);
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}
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/*===========================================================================*
* lookup *
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*===========================================================================*/
PRIVATE int lookup(start_node, flags, node, rfp)
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struct vnode *start_node;
int flags;
node_details_t *node;
struct fproc *rfp;
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{
/* Resolve a pathname (in user_fullpath) relative to start_node. */
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int r, symloop;
endpoint_t fs_e;
size_t path_off, path_left_len;
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ino_t dir_ino, root_ino;
uid_t uid;
gid_t gid;
struct vnode *dir_vp;
struct vmnt *vmp;
struct lookup_res res;
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/* Empty (start) path? */
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if (user_fullpath[0] == '\0') {
node->inode_nr = 0;
return(ENOENT);
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}
if(!rfp->fp_rd || !rfp->fp_wd) {
printf("VFS: lookup_rel %d: no rd/wd\n", rfp->fp_endpoint);
return(ENOENT);
}
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fs_e = start_node->v_fs_e;
dir_ino = start_node->v_inode_nr;
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/* Is the process' root directory on the same partition?,
* if so, set the chroot directory too. */
if (rfp->fp_rd->v_dev == rfp->fp_wd->v_dev)
root_ino = rfp->fp_rd->v_inode_nr;
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else
root_ino = 0;
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/* Set user and group ids according to the system call */
uid = (call_nr == ACCESS ? rfp->fp_realuid : rfp->fp_effuid);
gid = (call_nr == ACCESS ? rfp->fp_realgid : rfp->fp_effgid);
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symloop = 0; /* Number of symlinks seen so far */
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/* Issue the request */
r = req_lookup(fs_e, dir_ino, root_ino, uid, gid, flags, &res, rfp);
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if (r != OK && r != EENTERMOUNT && r != ELEAVEMOUNT && r != ESYMLINK)
return(r); /* i.e., an error occured */
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/* While the response is related to mount control set the
* new requests respectively */
while(r == EENTERMOUNT || r == ELEAVEMOUNT || r == ESYMLINK) {
/* Update user_fullpath to reflect what's left to be parsed. */
path_off = res.char_processed;
path_left_len = strlen(&user_fullpath[path_off]);
memmove(user_fullpath, &user_fullpath[path_off], path_left_len);
user_fullpath[path_left_len] = '\0'; /* terminate string */
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/* Update the current value of the symloop counter */
symloop += res.symloop;
if (symloop > SYMLOOP_MAX)
return(ELOOP);
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/* Symlink encountered with absolute path */
if (r == ESYMLINK) {
dir_vp = rfp->fp_rd;
} else if (r == EENTERMOUNT) {
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/* Entering a new partition */
dir_vp = 0;
/* Start node is now the mounted partition's root node */
for (vmp = &vmnt[0]; vmp != &vmnt[NR_MNTS]; ++vmp) {
if (vmp->m_dev != NO_DEV && vmp->m_mounted_on) {
if (vmp->m_mounted_on->v_inode_nr == res.inode_nr &&
vmp->m_mounted_on->v_fs_e == res.fs_e) {
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dir_vp = vmp->m_root_node;
break;
}
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}
}
assert(dir_vp);
} else {
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/* Climbing up mount */
/* Find the vmnt that represents the partition on
* which we "climb up". */
if ((vmp = find_vmnt(res.fs_e)) == NULL) {
panic("VFS lookup: can't find parent vmnt");
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}
/* Make sure that the child FS does not feed a bogus path
* to the parent FS. That is, when we climb up the tree, we
* must've encountered ".." in the path, and that is exactly
* what we're going to feed to the parent */
if(strncmp(user_fullpath, "..", 2) != 0 ||
(user_fullpath[2] != '\0' && user_fullpath[2] != '/')) {
printf("VFS: bogus path: %s\n", user_fullpath);
return(ENOENT);
}
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/* Start node is the vnode on which the partition is
* mounted */
dir_vp = vmp->m_mounted_on;
}
/* Set the starting directories inode number and FS endpoint */
fs_e = dir_vp->v_fs_e;
dir_ino = dir_vp->v_inode_nr;
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/* Is the process' root directory on the same partition?,
* if so, set the chroot directory too. */
if(dir_vp->v_dev == rfp->fp_rd->v_dev)
root_ino = rfp->fp_rd->v_inode_nr;
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else
root_ino = 0;
r = req_lookup(fs_e, dir_ino, root_ino, uid, gid, flags, &res, rfp);
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if(r != OK && r != EENTERMOUNT && r != ELEAVEMOUNT && r != ESYMLINK)
return(r);
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}
/* Fill in response fields */
node->inode_nr = res.inode_nr;
node->fmode = res.fmode;
node->fsize = res.fsize;
node->dev = res.dev;
node->fs_e = res.fs_e;
node->uid = res.uid;
node->gid = res.gid;
return(r);
}
/*===========================================================================*
* get_name *
*===========================================================================*/
PUBLIC int get_name(dirp, entry, ename)
struct vnode *dirp;
struct vnode *entry;
char ename[NAME_MAX + 1];
{
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u64_t pos, new_pos;
int r, consumed, totalbytes;
char buf[(sizeof(struct dirent) + NAME_MAX) * 8];
struct dirent *cur;
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pos = make64(0, 0);
if ((dirp->v_mode & I_TYPE) != I_DIRECTORY) {
return(EBADF);
}
do {
r = req_getdents(dirp->v_fs_e, dirp->v_inode_nr, pos,
buf, sizeof(buf), &new_pos, 1);
if (r == 0) {
return(ENOENT); /* end of entries -- matching inode !found */
} else if (r < 0) {
return(r); /* error */
}
consumed = 0; /* bytes consumed */
totalbytes = r; /* number of bytes to consume */
do {
cur = (struct dirent *) (buf + consumed);
if (entry->v_inode_nr == cur->d_ino) {
/* found the entry we were looking for */
strncpy(ename, cur->d_name, NAME_MAX);
ename[NAME_MAX] = '\0';
return(OK);
}
/* not a match -- move on to the next dirent */
consumed += cur->d_reclen;
} while (consumed < totalbytes);
pos = new_pos;
} while (1);
}
/*===========================================================================*
* canonical_path *
*===========================================================================*/
PUBLIC int canonical_path(orig_path, canon_path, rfp)
char *orig_path;
char *canon_path; /* should have length PATH_MAX */
struct fproc *rfp;
{
int len = 0;
int r, symloop = 0;
struct vnode *dir_vp, *parent_dir;
char component[NAME_MAX+1];
char link_path[PATH_MAX];
dir_vp = NULL;
orig_path[PATH_MAX - 1] = '\0';
strncpy(user_fullpath, orig_path, PATH_MAX);
do {
if (dir_vp) put_vnode(dir_vp);
/* Resolve to the last directory holding the socket file */
if ((dir_vp = last_dir(rfp)) == NULL) {
return(err_code);
}
/* dir_vp points to dir and user_fullpath now contains only the
* filename.
*/
strcpy(canon_path, user_fullpath); /* Store file name */
/* check if the file is a symlink, if so resolve it */
r = rdlink_direct(canon_path, link_path, rfp);
if (r <= 0) {
strcpy(user_fullpath, canon_path);
break;
}
/* encountered a symlink -- loop again */
strcpy(user_fullpath, link_path);
symloop++;
} while (symloop < SYMLOOP_MAX);
if (symloop >= SYMLOOP_MAX) {
if (dir_vp) put_vnode(dir_vp);
return ELOOP;
}
while(dir_vp != rfp->fp_rd) {
strcpy(user_fullpath, "..");
/* check if we're at the root node of the file system */
if (dir_vp->v_vmnt->m_root_node == dir_vp) {
put_vnode(dir_vp);
dir_vp = dir_vp->v_vmnt->m_mounted_on;
dup_vnode(dir_vp);
}
if ((parent_dir = advance(dir_vp, PATH_NOFLAGS, rfp)) == NULL) {
put_vnode(dir_vp);
return(err_code);
}
/* now we have to retrieve the name of the parent directory */
if (get_name(parent_dir, dir_vp, component) != OK) {
put_vnode(dir_vp);
put_vnode(parent_dir);
return(ENOENT);
}
len += strlen(component) + 1;
if (len >= PATH_MAX) {
/* adding the component to canon_path would exceed PATH_MAX */
put_vnode(dir_vp);
put_vnode(parent_dir);
return(ENOMEM);
}
/* store result of component in canon_path */
/* first make space by moving the contents of canon_path to
* the right. Move strlen + 1 bytes to include the terminating '\0'.
*/
memmove(canon_path+strlen(component)+1, canon_path,
strlen(canon_path) + 1);
/* Copy component into canon_path */
memmove(canon_path, component, strlen(component));
/* Put slash into place */
canon_path[strlen(component)] = '/';
/* Store parent_dir result, and continue the loop once more */
put_vnode(dir_vp);
dir_vp = parent_dir;
}
put_vnode(dir_vp);
/* add the leading slash */
if (strlen(canon_path) >= PATH_MAX) return(ENAMETOOLONG);
memmove(canon_path+1, canon_path, strlen(canon_path));
canon_path[0] = '/';
return(OK);
}
/*===========================================================================*
* check_perms *
*===========================================================================*/
PUBLIC int check_perms(ep, io_gr, pathlen)
endpoint_t ep;
cp_grant_id_t io_gr;
int pathlen;
{
int r, i;
struct vnode *vp;
struct fproc *rfp;
char orig_path[PATH_MAX];
char canon_path[PATH_MAX];
i = _ENDPOINT_P(ep);
if (pathlen < UNIX_PATH_MAX || pathlen >= PATH_MAX || i < 0 || i >= NR_PROCS)
return EINVAL;
rfp = &(fproc[i]);
memset(canon_path, '\0', PATH_MAX);
r = sys_safecopyfrom(PFS_PROC_NR, io_gr, (vir_bytes) 0,
(vir_bytes) &user_fullpath, pathlen, D);
if (r != OK) {
return r;
}
user_fullpath[pathlen] = '\0';
/* save path from pfs before permissions checking modifies it */
memcpy(orig_path, user_fullpath, PATH_MAX);
/* get the canonical path to the socket file */
r = canonical_path(orig_path, canon_path, rfp);
if (r != OK) {
return r;
}
if (strlen(canon_path) >= pathlen) {
return ENAMETOOLONG;
}
/* copy canon_path back to PFS */
r = sys_safecopyto(PFS_PROC_NR, (cp_grant_id_t) io_gr, (vir_bytes) 0,
(vir_bytes) canon_path, strlen(canon_path)+1,
D);
if (r != OK) {
return r;
}
/* reload user_fullpath for permissions checking */
memcpy(user_fullpath, orig_path, PATH_MAX);
if ((vp = eat_path(PATH_NOFLAGS, rfp)) == NULL) {
return(err_code);
}
/* check permissions */
r = forbidden(vp, (R_BIT | W_BIT));
put_vnode(vp);
return(r);
}
/*===========================================================================*
* do_check_perms *
*===========================================================================*/
PUBLIC int do_check_perms(void)
{
return check_perms(m_in.USER_ENDPT, (cp_grant_id_t) m_in.IO_GRANT,
m_in.COUNT);
}