haiku/src/kernel/core/fs/bootfs.c
Axel Dörfler 8655936935 Replaced some more vm_*() calls with BeOS compatible ones.
git-svn-id: file:///srv/svn/repos/haiku/trunk/current@4355 a95241bf-73f2-0310-859d-f6bbb57e9c96
2003-08-20 15:55:56 +00:00

1087 lines
21 KiB
C
Executable File

/*
** Copyright 2001-2002, Travis Geiselbrecht. All rights reserved.
** Distributed under the terms of the NewOS License.
*/
#include <KernelExport.h>
#include <vfs.h>
#include <debug.h>
#include <khash.h>
#include <lock.h>
#include <vm.h>
#include <boot/bootdir.h>
#include <sys/stat.h>
#include <malloc.h>
#include <string.h>
#include <stdio.h>
#include "builtin_fs.h"
#define BOOTFS_TRACE 0
#if BOOTFS_TRACE
#define TRACE(x) dprintf x
#else
#define TRACE(x)
#endif
static char *bootdir = NULL;
static off_t bootdir_len = 0;
static region_id bootdir_region = -1;
typedef enum {
STREAM_TYPE_FILE = S_IFREG,
STREAM_TYPE_DIR = S_IFDIR,
} stream_type;
struct bootfs_stream {
stream_type type;
union {
struct stream_dir {
struct bootfs_vnode *dir_head;
struct bootfs_cookie *jar_head;
} dir;
struct stream_file {
void *start;
off_t len;
} file;
} u;
};
struct bootfs_vnode {
struct bootfs_vnode *all_next;
vnode_id id;
char *name;
struct bootfs_vnode *parent;
struct bootfs_vnode *dir_next;
struct bootfs_stream stream;
};
struct bootfs {
mount_id id;
mutex lock;
int32 next_vnode_id;
void *vnode_list_hash;
struct bootfs_vnode *root_vnode;
};
struct bootfs_cookie {
struct bootfs_stream *s;
int oflags;
union {
struct cookie_dir {
struct bootfs_cookie *next;
struct bootfs_cookie *prev;
struct bootfs_vnode *ptr;
} dir;
struct cookie_file {
off_t pos;
} file;
} u;
};
#define BOOTFS_HASH_SIZE 16
static uint32
bootfs_vnode_hash_func(void *_v, const void *_key, uint32 range)
{
struct bootfs_vnode *v = _v;
const vnode_id *key = _key;
if (v != NULL)
return v->id % range;
return (*key) % range;
}
static int
bootfs_vnode_compare_func(void *_v, const void *_key)
{
struct bootfs_vnode *v = _v;
const vnode_id *key = _key;
if (v->id == *key)
return 0;
return -1;
}
static struct bootfs_vnode *
bootfs_create_vnode(struct bootfs *fs, const char *name)
{
struct bootfs_vnode *v;
v = malloc(sizeof(struct bootfs_vnode));
if (v == NULL)
return NULL;
memset(v, 0, sizeof(struct bootfs_vnode));
v->id = atomic_add(&fs->next_vnode_id, 1);
v->name = strdup(name);
if (v->name == NULL) {
free(v);
return NULL;
}
return v;
}
static status_t
bootfs_delete_vnode(struct bootfs *fs, struct bootfs_vnode *v, bool force_delete)
{
// cant delete it if it's in a directory or is a directory
// and has children
if (!force_delete
&& ((v->stream.type == STREAM_TYPE_DIR && v->stream.u.dir.dir_head != NULL)
|| v->dir_next != NULL))
return EPERM;
// remove it from the global hash table
hash_remove(fs->vnode_list_hash, v);
if (v->name != NULL)
free(v->name);
free(v);
return 0;
}
static void
insert_cookie_in_jar(struct bootfs_vnode *dir, struct bootfs_cookie *cookie)
{
cookie->u.dir.next = dir->stream.u.dir.jar_head;
dir->stream.u.dir.jar_head = cookie;
cookie->u.dir.prev = NULL;
}
static void
remove_cookie_from_jar(struct bootfs_vnode *dir, struct bootfs_cookie *cookie)
{
if(cookie->u.dir.next)
cookie->u.dir.next->u.dir.prev = cookie->u.dir.prev;
if(cookie->u.dir.prev)
cookie->u.dir.prev->u.dir.next = cookie->u.dir.next;
if(dir->stream.u.dir.jar_head == cookie)
dir->stream.u.dir.jar_head = cookie->u.dir.next;
cookie->u.dir.prev = cookie->u.dir.next = NULL;
}
/** Makes sure none of the dircookies point to the vnode passed in */
static void
update_dircookies(struct bootfs_vnode *dir, struct bootfs_vnode *v)
{
struct bootfs_cookie *cookie;
for(cookie = dir->stream.u.dir.jar_head; cookie; cookie = cookie->u.dir.next) {
if(cookie->u.dir.ptr == v) {
cookie->u.dir.ptr = v->dir_next;
}
}
}
static struct bootfs_vnode *
bootfs_find_in_dir(struct bootfs_vnode *dir, const char *path)
{
struct bootfs_vnode *v;
if(dir->stream.type != STREAM_TYPE_DIR)
return NULL;
if(!strcmp(path, "."))
return dir;
if(!strcmp(path, ".."))
return dir->parent;
for(v = dir->stream.u.dir.dir_head; v; v = v->dir_next) {
// dprintf("bootfs_find_in_dir: looking at entry '%s'\n", v->name);
if(strcmp(v->name, path) == 0) {
// dprintf("bootfs_find_in_dir: found it at 0x%x\n", v);
return v;
}
}
return NULL;
}
static status_t
bootfs_insert_in_dir(struct bootfs_vnode *dir, struct bootfs_vnode *v)
{
if(dir->stream.type != STREAM_TYPE_DIR)
return EINVAL;
v->dir_next = dir->stream.u.dir.dir_head;
dir->stream.u.dir.dir_head = v;
v->parent = dir;
return 0;
}
static status_t
bootfs_remove_from_dir(struct bootfs_vnode *dir, struct bootfs_vnode *findit)
{
struct bootfs_vnode *v;
struct bootfs_vnode *last_v;
for(v = dir->stream.u.dir.dir_head, last_v = NULL; v; last_v = v, v = v->dir_next) {
if(v == findit) {
/* make sure all dircookies dont point to this vnode */
update_dircookies(dir, v);
if(last_v)
last_v->dir_next = v->dir_next;
else
dir->stream.u.dir.dir_head = v->dir_next;
v->dir_next = NULL;
return 0;
}
}
return -1;
}
/* XXX seems to be unused
static bool
bootfs_is_dir_empty(struct bootfs_vnode *dir)
{
if(dir->stream.type != STREAM_TYPE_DIR)
return false;
return !dir->stream.u.dir.dir_head;
}
*/
/** Creates a path of vnodes up to the last part of the passed in path.
* returns the vnode the last segment should be a part of and
* a pointer to the leaf of the path.
* clobbers the path string passed in
*/
static struct bootfs_vnode *
bootfs_create_path(struct bootfs *fs, char *path, struct bootfs_vnode *base, char **path_leaf)
{
struct bootfs_vnode *v;
char *temp;
bool done;
// strip off any leading '/' or spaces
for(; *path == '/' || *path == ' '; path++)
;
// first, find the leaf
*path_leaf = strrchr(path, '/');
if(*path_leaf == NULL) {
// didn't find it, so this path only is a leaf
*path_leaf = path;
return base;
}
// this is a multipart path, seperate the leaf off
**path_leaf = '\0';
(*path_leaf)++;
if(**path_leaf == '\0') {
// the path ended with '/'. That's invalid
return NULL;
}
// now, lets walk down the path, building vnodes as we need em
done = false;
for(; !done; path = temp+1) {
// find the next seperator and knock it out
temp = strchr(path, '/');
if(temp) {
*temp = '\0';
} else {
done = true;
}
if(*path == '\0') {
// zero length path segment, continue
continue;
}
v = bootfs_find_in_dir(base, path);
if(!v) {
v = bootfs_create_vnode(fs, path);
if(!v)
return NULL;
v->stream.type = STREAM_TYPE_DIR;
v->stream.u.dir.dir_head = NULL;
v->stream.u.dir.jar_head = NULL;
bootfs_insert_in_dir(base, v);
hash_insert(fs->vnode_list_hash, v);
} else {
// we found one
if(v->stream.type != STREAM_TYPE_DIR)
return NULL;
}
base = v;
}
return base;
}
static status_t
bootfs_create_vnode_tree(struct bootfs *fs, struct bootfs_vnode *root)
{
int i;
boot_entry *entry;
int err;
struct bootfs_vnode *new_vnode;
struct bootfs_vnode *dir;
char path[SYS_MAX_PATH_LEN];
char *leaf;
entry = (boot_entry *)bootdir;
for (i = 0; i < BOOTDIR_MAX_ENTRIES; i++) {
if(entry[i].be_type != BE_TYPE_NONE && entry[i].be_type != BE_TYPE_DIRECTORY) {
strncpy(path, entry[i].be_name, SYS_MAX_PATH_LEN-1);
path[SYS_MAX_PATH_LEN-1] = '\0';
dir = bootfs_create_path(fs, path, root, &leaf);
if(!dir)
continue;
new_vnode = bootfs_create_vnode(fs, leaf);
if(new_vnode == NULL)
return ENOMEM;
// set up the new node
new_vnode->stream.type = STREAM_TYPE_FILE;
new_vnode->stream.u.file.start = bootdir + entry[i].be_offset * PAGE_SIZE;
new_vnode->stream.u.file.len = entry[i].be_vsize;
dprintf("bootfs_create_vnode_tree: added entry '%s', start %p, len 0x%Lx\n", new_vnode->name,
new_vnode->stream.u.file.start, new_vnode->stream.u.file.len);
// insert it into the parent dir
bootfs_insert_in_dir(dir, new_vnode);
hash_insert(fs->vnode_list_hash, new_vnode);
}
}
return 0;
}
// #pragma mark -
static status_t
bootfs_mount(mount_id id, const char *device, void *args, fs_volume *_fs, vnode_id *root_vnid)
{
struct bootfs *fs;
struct bootfs_vnode *v;
status_t err;
TRACE(("bootfs_mount: entry\n"));
fs = malloc(sizeof(struct bootfs));
if(fs == NULL) {
err = ENOMEM;
goto err;
}
fs->id = id;
fs->next_vnode_id = 0;
err = mutex_init(&fs->lock, "bootfs_mutex");
if(err < 0) {
goto err1;
}
fs->vnode_list_hash = hash_init(BOOTFS_HASH_SIZE, (addr)&v->all_next - (addr)v,
&bootfs_vnode_compare_func, &bootfs_vnode_hash_func);
if(fs->vnode_list_hash == NULL) {
err = ENOMEM;
goto err2;
}
// create a vnode
v = bootfs_create_vnode(fs, "");
if(v == NULL) {
err = ENOMEM;
goto err3;
}
// set it up
v->parent = v;
// create a dir stream for it to hold
v->stream.type = STREAM_TYPE_DIR;
v->stream.u.dir.dir_head = NULL;
fs->root_vnode = v;
hash_insert(fs->vnode_list_hash, v);
err = bootfs_create_vnode_tree(fs, fs->root_vnode);
if(err < 0) {
goto err4;
}
*root_vnid = v->id;
*_fs = fs;
return 0;
err4:
bootfs_delete_vnode(fs, v, true);
err3:
hash_uninit(fs->vnode_list_hash);
err2:
mutex_destroy(&fs->lock);
err1:
free(fs);
err:
return err;
}
static status_t
bootfs_unmount(fs_volume _fs)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v;
struct hash_iterator i;
TRACE(("bootfs_unmount: entry fs = %p\n", fs));
// delete all of the vnodes
hash_open(fs->vnode_list_hash, &i);
while((v = (struct bootfs_vnode *)hash_next(fs->vnode_list_hash, &i)) != NULL) {
bootfs_delete_vnode(fs, v, true);
}
hash_close(fs->vnode_list_hash, &i, false);
hash_uninit(fs->vnode_list_hash);
mutex_destroy(&fs->lock);
free(fs);
return 0;
}
static status_t
bootfs_sync(fs_volume fs)
{
TRACE(("bootfs_sync: entry\n"));
return 0;
}
static status_t
bootfs_lookup(fs_volume _fs, fs_vnode _dir, const char *name, vnode_id *_id, int *_type)
{
struct bootfs *fs = (struct bootfs *)_fs;
struct bootfs_vnode *dir = (struct bootfs_vnode *)_dir;
struct bootfs_vnode *vnode, *vdummy;
status_t status;
TRACE(("bootfs_lookup: entry dir %p, name '%s'\n", dir, name));
if (dir->stream.type != STREAM_TYPE_DIR)
return B_NOT_A_DIRECTORY;
mutex_lock(&fs->lock);
// look it up
vnode = bootfs_find_in_dir(dir, name);
if (!vnode) {
status = B_ENTRY_NOT_FOUND;
goto err;
}
status = vfs_get_vnode(fs->id, vnode->id, (fs_vnode *)&vdummy);
if (status < 0)
goto err;
*_id = vnode->id;
*_type = dir->stream.type;
err:
mutex_unlock(&fs->lock);
return status;
}
static status_t
bootfs_get_vnode_name(fs_volume _fs, fs_vnode _vnode, char *buffer, size_t bufferSize)
{
struct bootfs_vnode *vnode = (struct bootfs_vnode *)_vnode;
TRACE(("devfs_get_vnode_name: vnode = %p\n",vnode));
strlcpy(buffer,vnode->name,bufferSize);
return B_OK;
}
static status_t
bootfs_get_vnode(fs_volume _fs, vnode_id id, fs_vnode *v, bool r)
{
struct bootfs *fs = (struct bootfs *)_fs;
TRACE(("bootfs_get_vnode: asking for vnode 0x%Lx, r %d\n", id, r));
if (!r)
mutex_lock(&fs->lock);
*v = hash_lookup(fs->vnode_list_hash, &id);
if (!r)
mutex_unlock(&fs->lock);
TRACE(("bootfs_get_vnode: looked it up at %p\n", *v));
if (*v)
return B_OK;
return B_ENTRY_NOT_FOUND;
}
static status_t
bootfs_put_vnode(fs_volume _fs, fs_vnode _v, bool r)
{
struct bootfs_vnode *v = (struct bootfs_vnode *)_v;
TRACE(("bootfs_put_vnode: entry on vnode 0x%Lx r %d\n", v->id, r));
return 0; // whatever
}
static status_t
bootfs_remove_vnode(fs_volume _fs, fs_vnode _v, bool reenter)
{
struct bootfs *fs = (struct bootfs *)_fs;
struct bootfs_vnode *v = (struct bootfs_vnode *)_v;
struct bootfs_vnode dummy;
status_t err;
TRACE(("bootfs_remove_vnode: remove %p (0x%Lx) r %d\n", v, v->id, reenter));
if (!reenter)
mutex_lock(&fs->lock);
if (v->dir_next) {
// can't remove node if it's linked to the dir
panic("bootfs_remove_vnode: vnode %p asked to be removed is present in dir\n", v);
}
bootfs_delete_vnode(fs, v, false);
err = 0;
err:
if (!reenter)
mutex_unlock(&fs->lock);
return err;
}
static status_t
bootfs_create(fs_volume _fs, fs_vnode _dir, const char *name, int omode, int perms, fs_cookie *_cookie, vnode_id *new_vnid)
{
return EROFS;
}
static status_t
bootfs_open(fs_volume _fs, fs_vnode _v, int oflags, fs_cookie *_cookie)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *vnode = _v;
struct bootfs_cookie *cookie;
TRACE(("bootfs_open: vnode %p, oflags 0x%x\n", vnode, oflags));
cookie = malloc(sizeof(struct bootfs_cookie));
if (cookie == NULL)
return ENOMEM;
mutex_lock(&fs->lock);
cookie->s = &vnode->stream;
cookie->u.file.pos = 0;
*_cookie = cookie;
mutex_unlock(&fs->lock);
return B_OK;
}
static status_t
bootfs_close(fs_volume _fs, fs_vnode _v, fs_cookie _cookie)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
struct bootfs_cookie *cookie = _cookie;
TRACE(("bootfs_close: entry vnode %p, cookie %p\n", v, cookie));
return 0;
}
static status_t
bootfs_free_cookie(fs_volume _fs, fs_vnode _v, fs_cookie _cookie)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
struct bootfs_cookie *cookie = _cookie;
TRACE(("bootfs_freecookie: entry vnode %p, cookie %p\n", v, cookie));
if (cookie)
free(cookie);
return 0;
}
static status_t
bootfs_fsync(fs_volume _fs, fs_vnode _v)
{
return 0;
}
static ssize_t
bootfs_read(fs_volume _fs, fs_vnode _v, fs_cookie _cookie, off_t pos, void *buf, size_t *len)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
struct bootfs_cookie *cookie = _cookie;
ssize_t err = 0;
TRACE(("bootfs_read: vnode %p, cookie %p, pos 0x%Lx, len 0x%lx\n", v, cookie, pos, *len));
mutex_lock(&fs->lock);
switch(cookie->s->type) {
case STREAM_TYPE_FILE:
if(*len <= 0) {
err = 0;
break;
}
if(pos < 0) {
// we'll read where the cookie is at
pos = cookie->u.file.pos;
}
if(pos >= cookie->s->u.file.len) {
*len = 0;
err = ESPIPE;
break;
}
if(pos + *len > cookie->s->u.file.len) {
// trim the read
*len = cookie->s->u.file.len - pos;
}
err = user_memcpy(buf, cookie->s->u.file.start + pos, *len);
if(err < 0) {
goto err;
}
cookie->u.file.pos = pos + *len;
err = 0;
break;
default:
*len = 0;
err = EINVAL;
}
err:
mutex_unlock(&fs->lock);
return err;
}
static ssize_t
bootfs_write(fs_volume fs, fs_vnode v, fs_cookie cookie, off_t pos, const void *buf, size_t *len)
{
TRACE(("bootfs_write: vnode %p, cookie %p, pos 0x%Lx , len 0x%lx\n", v, cookie, pos, *len));
return EROFS;
}
static off_t
bootfs_seek(fs_volume _fs, fs_vnode _v, fs_cookie _cookie, off_t pos, int seekType)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
struct bootfs_cookie *cookie = _cookie;
status_t err = B_OK;
TRACE(("bootfs_seek: vnode %p, cookie %p, pos 0x%Lx , seek_type %d\n", v, cookie, pos, seekType));
if (cookie->s->type != STREAM_TYPE_FILE)
return EINVAL;
mutex_lock(&fs->lock);
switch (seekType) {
case SEEK_SET:
if (pos < 0)
pos = 0;
if (pos > cookie->s->u.file.len)
pos = cookie->s->u.file.len;
cookie->u.file.pos = pos;
break;
case SEEK_CUR:
if (pos + cookie->u.file.pos > cookie->s->u.file.len)
pos = cookie->s->u.file.len;
else if (pos + cookie->u.file.pos < 0)
pos = 0;
else
pos += cookie->u.file.pos;
break;
case SEEK_END:
if (pos > 0)
pos = cookie->s->u.file.len;
else if (pos + cookie->s->u.file.len < 0)
pos = 0;
else
pos += cookie->s->u.file.len;
break;
default:
err = EINVAL;
}
if (err == B_OK)
cookie->u.file.pos = pos;
mutex_unlock(&fs->lock);
if (err < B_OK)
return err;
return pos;
}
static status_t
bootfs_create_dir(fs_volume _fs, fs_vnode _dir, const char *name, int perms, vnode_id *new_vnid)
{
return EROFS;
}
static status_t
bootfs_open_dir(fs_volume _fs, fs_vnode _v, fs_cookie *_cookie)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *vnode = _v;
struct bootfs_cookie *cookie;
status_t status = 0;
TRACE(("bootfs_open_dir: vnode %p\n", vnode));
if (vnode->stream.type != STREAM_TYPE_DIR)
return EINVAL;
cookie = malloc(sizeof(struct bootfs_cookie));
if (cookie == NULL)
return ENOMEM;
mutex_lock(&fs->lock);
cookie->s = &vnode->stream;
cookie->u.dir.ptr = vnode->stream.u.dir.dir_head;
*_cookie = cookie;
mutex_unlock(&fs->lock);
return status;
}
static status_t
bootfs_read_dir(fs_volume _fs, fs_vnode _vnode, fs_cookie _cookie, struct dirent *dirent, size_t bufferSize, uint32 *_num)
{
struct bootfs_cookie *cookie = _cookie;
struct bootfs *fs = _fs;
status_t status;
TRACE(("bootfs_read_dir(fs_volume = %p vnode = %p, fs_cookie = %p, buffer = %p, bufferSize = %ld, num = %ld)\n",_fs, _vnode, cookie, dirent, bufferSize, *_num));
mutex_lock(&fs->lock);
if (cookie->u.dir.ptr == NULL) {
*_num = 0;
status = B_OK;
goto err;
}
dirent->d_dev = fs->id;
dirent->d_ino = cookie->u.dir.ptr->id;
dirent->d_reclen = strlen(cookie->u.dir.ptr->name) + sizeof(struct dirent);
if (dirent->d_reclen > bufferSize) {
status = ENOBUFS;
goto err;
}
status = user_strcpy(dirent->d_name, cookie->u.dir.ptr->name);
if (status < B_OK)
goto err;
cookie->u.dir.ptr = cookie->u.dir.ptr->dir_next;
err:
mutex_unlock(&fs->lock);
return status;
}
static status_t
bootfs_rewind_dir(fs_volume _fs, fs_vnode _vnode, fs_cookie _cookie)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *vnode = _vnode;
struct bootfs_cookie *cookie = _cookie;
mutex_lock(&fs->lock);
cookie->u.dir.ptr = vnode->stream.u.dir.dir_head;
mutex_unlock(&fs->lock);
return B_OK;
}
static status_t
bootfs_ioctl(fs_volume _fs, fs_vnode _v, fs_cookie _cookie, ulong op, void *buf, size_t len)
{
TRACE(("bootfs_ioctl: fs_volume %p vnode %p, fs_cookie %p, op %lu, buf %p, len %ld\n", _fs, _v, _cookie, op, buf, len));
return EINVAL;
}
static status_t
bootfs_can_page(fs_volume _fs, fs_vnode _v)
{
struct bootfs_vnode *v = _v;
TRACE(("bootfs_canpage: vnode %p\n", v));
if (v->stream.type == STREAM_TYPE_FILE)
return 1;
else
return 0;
}
static ssize_t
bootfs_read_pages(fs_volume _fs, fs_vnode _v, iovecs *vecs, off_t pos)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
unsigned int i;
TRACE(("bootfs_readpage: fs_cookie %p vnode %p, vecs %p, pos 0x%Ld\n",fs, v, vecs, pos));
for (i = 0; i < vecs->num; i++) {
if (pos >= v->stream.u.file.len) {
memset(vecs->vec[i].iov_base, 0, vecs->vec[i].iov_len);
pos += vecs->vec[i].iov_len;
} else {
unsigned int copy_len;
copy_len = min(vecs->vec[i].iov_len, v->stream.u.file.len - pos);
memcpy(vecs->vec[i].iov_base, v->stream.u.file.start + pos, copy_len);
if (copy_len < vecs->vec[i].iov_len)
memset((char *)vecs->vec[i].iov_base + copy_len, 0, vecs->vec[i].iov_len - copy_len);
pos += vecs->vec[i].iov_len;
}
}
return EPERM;
}
static ssize_t
bootfs_write_pages(fs_volume _fs, fs_vnode _v, iovecs *vecs, off_t pos)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
TRACE(("bootfs_writepage: fs_cookie %p vnode %p, vecs %p, pos %Ld \n", fs, v, vecs, pos));
return EPERM;
}
static status_t
bootfs_unlink(fs_volume _fs, fs_vnode _dir, const char *name)
{
return EROFS;
}
static status_t
bootfs_rename(fs_volume _fs, fs_vnode _olddir, const char *oldname, fs_vnode _newdir, const char *newname)
{
return EROFS;
}
static status_t
bootfs_read_stat(fs_volume _fs, fs_vnode _v, struct stat *stat)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
status_t err = 0;
TRACE(("bootfs_rstat: fs_cookie %p vnode %p v->id 0x%Lx , stat %p\n", fs, v, v->id, stat));
mutex_lock(&fs->lock);
/* Read Only File System */
/** XXX - no pretense at access control, just tell people
* they can read it :)
*/
stat->st_mode = (S_IRUSR | S_IRGRP | S_IROTH);
stat->st_size = 0;
stat->st_ino = v->id;
switch(v->stream.type) {
case STREAM_TYPE_DIR:
stat->st_mode |= S_IFDIR;
break;
case STREAM_TYPE_FILE:
stat->st_size = v->stream.u.file.len;
stat->st_mode |= S_IFREG;
break;
default:
err = EINVAL;
break;
}
err:
mutex_unlock(&fs->lock);
return err;
}
static status_t
bootfs_write_stat(fs_volume _fs, fs_vnode _v, const struct stat *stat, int stat_mask)
{
struct bootfs *fs = _fs;
struct bootfs_vnode *v = _v;
TRACE(("bootfs_wstat: fs_cookie %p, vnode %p, v->id 0x%Lx, stat 0x%p, stat_mask 0x%x\n", fs, v, v->id, stat, stat_mask));
// cannot change anything
return EROFS;
}
// #pragma mark -
static struct fs_ops bootfs_ops = {
&bootfs_mount,
&bootfs_unmount,
NULL,
NULL,
&bootfs_sync,
&bootfs_lookup,
&bootfs_get_vnode_name,
&bootfs_get_vnode,
&bootfs_put_vnode,
&bootfs_remove_vnode,
&bootfs_can_page,
&bootfs_read_pages,
&bootfs_write_pages,
/* common */
&bootfs_ioctl,
&bootfs_fsync,
NULL, // read_link
NULL, // write_link
NULL, // symlink
NULL, // link
&bootfs_unlink,
&bootfs_rename,
NULL, // access
&bootfs_read_stat,
&bootfs_write_stat,
/* file */
&bootfs_create,
&bootfs_open,
&bootfs_close,
&bootfs_free_cookie,
&bootfs_read,
&bootfs_write,
/* dir */
&bootfs_create_dir,
NULL, // remove_dir
&bootfs_open_dir,
&bootfs_close, // we are using the same operations for directories
&bootfs_free_cookie, // and files here - that's intended, not by accident
&bootfs_read_dir,
&bootfs_rewind_dir,
// the other operations are not supported (attributes, indices, queries)
NULL,
};
status_t
bootstrap_bootfs(void)
{
area_id area;
area_info areaInfo;
TRACE(("bootstrap_bootfs: entry\n"));
// find the bootdir and set it up
area = find_area("bootdir");
if (area < 0)
panic("bootstrap_bootfs: no bootdir area found!\n");
get_area_info(area, &areaInfo);
bootdir = (char *)areaInfo.address;
bootdir_len = areaInfo.size;
bootdir_region = areaInfo.area;
TRACE(("bootstrap_bootfs: found bootdir at %p\n", bootdir));
return vfs_register_filesystem("bootfs", &bootfs_ops);
}