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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 | /* * linux/fs/super.c * * Copyright (C) 1991, 1992 Linus Torvalds * * super.c contains code to handle: - mount structures * - super-block tables. * - mount system call * - umount system call * * Added options to /proc/mounts * Torbjörn Lindh (torbjorn.lindh@gopta.se), April 14, 1996. * * GK 2/5/95 - Changed to support mounting the root fs via NFS * * Added kerneld support: Jacques Gelinas and Bjorn Ekwall * Added change_root: Werner Almesberger & Hans Lermen, Feb '96 */ #include <linux/config.h> #include <linux/sched.h> #include <linux/kernel.h> #include <linux/mount.h> #include <linux/malloc.h> #include <linux/major.h> #include <linux/stat.h> #include <linux/errno.h> #include <linux/string.h> #include <linux/locks.h> #include <linux/mm.h> #include <linux/smp.h> #include <linux/smp_lock.h> #include <linux/fd.h> #include <linux/init.h> #include <linux/quotaops.h> #include <asm/system.h> #include <asm/uaccess.h> #include <asm/bitops.h> #include <linux/nfs_fs.h> #include <linux/nfs_fs_sb.h> #include <linux/nfs_mount.h> #ifdef CONFIG_KMOD #include <linux/kmod.h> #endif /* * We use a semaphore to synchronize all mount/umount * activity - imagine the mess if we have a race between * unmounting a filesystem and re-mounting it (or something * else). */ static struct semaphore mount_sem = MUTEX; #ifdef CONFIG_BSD_PROCESS_ACCT extern void acct_auto_close(kdev_t); #endif extern void wait_for_keypress(void); extern struct file_operations * get_blkfops(unsigned int major); extern int root_mountflags; static int do_remount_sb(struct super_block *sb, int flags, char * data); /* this is initialized in init/main.c */ kdev_t ROOT_DEV; struct super_block super_blocks[NR_SUPER]; static struct file_system_type *file_systems = (struct file_system_type *) NULL; struct vfsmount *vfsmntlist = (struct vfsmount *) NULL; static struct vfsmount *vfsmnttail = (struct vfsmount *) NULL, *mru_vfsmnt = (struct vfsmount *) NULL; /* * This part handles the management of the list of mounted filesystems. */ struct vfsmount *lookup_vfsmnt(kdev_t dev) { struct vfsmount *lptr; if (vfsmntlist == (struct vfsmount *)NULL) return ((struct vfsmount *)NULL); if (mru_vfsmnt != (struct vfsmount *)NULL && mru_vfsmnt->mnt_dev == dev) return (mru_vfsmnt); for (lptr = vfsmntlist; lptr != (struct vfsmount *)NULL; lptr = lptr->mnt_next) if (lptr->mnt_dev == dev) { mru_vfsmnt = lptr; return (lptr); } return ((struct vfsmount *)NULL); /* NOTREACHED */ } static struct vfsmount *add_vfsmnt(struct super_block *sb, const char *dev_name, const char *dir_name) { struct vfsmount *lptr; char *tmp, *name; lptr = (struct vfsmount *)kmalloc(sizeof(struct vfsmount), GFP_KERNEL); if (!lptr) goto out; memset(lptr, 0, sizeof(struct vfsmount)); lptr->mnt_sb = sb; lptr->mnt_dev = sb->s_dev; lptr->mnt_flags = sb->s_flags; sema_init(&lptr->mnt_dquot.semaphore, 1); lptr->mnt_dquot.flags = 0; /* N.B. Is it really OK to have a vfsmount without names? */ if (dev_name && !IS_ERR(tmp = getname(dev_name))) { name = (char *) kmalloc(strlen(tmp)+1, GFP_KERNEL); if (name) { strcpy(name, tmp); lptr->mnt_devname = name; } putname(tmp); } if (dir_name && !IS_ERR(tmp = getname(dir_name))) { name = (char *) kmalloc(strlen(tmp)+1, GFP_KERNEL); if (name) { strcpy(name, tmp); lptr->mnt_dirname = name; } putname(tmp); } if (vfsmntlist == (struct vfsmount *)NULL) { vfsmntlist = vfsmnttail = lptr; } else { vfsmnttail->mnt_next = lptr; vfsmnttail = lptr; } out: return lptr; } static void remove_vfsmnt(kdev_t dev) { struct vfsmount *lptr, *tofree; if (vfsmntlist == (struct vfsmount *)NULL) return; lptr = vfsmntlist; if (lptr->mnt_dev == dev) { tofree = lptr; vfsmntlist = lptr->mnt_next; if (vfsmnttail->mnt_dev == dev) vfsmnttail = vfsmntlist; } else { while (lptr->mnt_next != (struct vfsmount *)NULL) { if (lptr->mnt_next->mnt_dev == dev) break; lptr = lptr->mnt_next; } tofree = lptr->mnt_next; if (tofree == (struct vfsmount *)NULL) return; lptr->mnt_next = lptr->mnt_next->mnt_next; if (vfsmnttail->mnt_dev == dev) vfsmnttail = lptr; } if (tofree == mru_vfsmnt) mru_vfsmnt = NULL; kfree(tofree->mnt_devname); kfree(tofree->mnt_dirname); kfree_s(tofree, sizeof(struct vfsmount)); } int register_filesystem(struct file_system_type * fs) { struct file_system_type ** tmp; if (!fs) return -EINVAL; if (fs->next) return -EBUSY; tmp = &file_systems; while (*tmp) { if (strcmp((*tmp)->name, fs->name) == 0) return -EBUSY; tmp = &(*tmp)->next; } *tmp = fs; return 0; } #ifdef CONFIG_MODULES int unregister_filesystem(struct file_system_type * fs) { struct file_system_type ** tmp; tmp = &file_systems; while (*tmp) { if (fs == *tmp) { *tmp = fs->next; fs->next = NULL; return 0; } tmp = &(*tmp)->next; } return -EINVAL; } #endif static int fs_index(const char * __name) { struct file_system_type * tmp; char * name; int err, index; name = getname(__name); err = PTR_ERR(name); if (IS_ERR(name)) return err; index = 0; for (tmp = file_systems ; tmp ; tmp = tmp->next) { if (strcmp(tmp->name, name) == 0) { putname(name); return index; } index++; } putname(name); return -EINVAL; } static int fs_name(unsigned int index, char * buf) { struct file_system_type * tmp; int len; tmp = file_systems; while (tmp && index > 0) { tmp = tmp->next; index--; } if (!tmp) return -EINVAL; len = strlen(tmp->name) + 1; return copy_to_user(buf, tmp->name, len) ? -EFAULT : 0; } static int fs_maxindex(void) { struct file_system_type * tmp; int index; index = 0; for (tmp = file_systems ; tmp ; tmp = tmp->next) index++; return index; } /* * Whee.. Weird sysv syscall. */ asmlinkage int sys_sysfs(int option, unsigned long arg1, unsigned long arg2) { int retval = -EINVAL; lock_kernel(); switch (option) { case 1: retval = fs_index((const char *) arg1); break; case 2: retval = fs_name(arg1, (char *) arg2); break; case 3: retval = fs_maxindex(); break; } unlock_kernel(); return retval; } static struct proc_fs_info { int flag; char *str; } fs_info[] = { { MS_NOEXEC, ",noexec" }, { MS_NOSUID, ",nosuid" }, { MS_NODEV, ",nodev" }, { MS_SYNCHRONOUS, ",sync" }, { MS_MANDLOCK, ",mand" }, { MS_NOATIME, ",noatime" }, { MS_NODIRATIME, ",nodiratime" }, #ifdef MS_NOSUB /* Can't find this except in mount.c */ { MS_NOSUB, ",nosub" }, #endif { 0, NULL } }; static struct proc_nfs_info { int flag; char *str; } nfs_info[] = { { NFS_MOUNT_SOFT, ",soft" }, { NFS_MOUNT_INTR, ",intr" }, { NFS_MOUNT_POSIX, ",posix" }, { NFS_MOUNT_NOCTO, ",nocto" }, { NFS_MOUNT_NOAC, ",noac" }, { 0, NULL } }; int get_filesystem_info( char *buf ) { struct vfsmount *tmp = vfsmntlist; struct proc_fs_info *fs_infop; struct proc_nfs_info *nfs_infop; struct nfs_server *nfss; int len = 0; while ( tmp && len < PAGE_SIZE - 160) { len += sprintf( buf + len, "%s %s %s %s", tmp->mnt_devname, tmp->mnt_dirname, tmp->mnt_sb->s_type->name, tmp->mnt_flags & MS_RDONLY ? "ro" : "rw" ); for (fs_infop = fs_info; fs_infop->flag; fs_infop++) { if (tmp->mnt_flags & fs_infop->flag) { strcpy(buf + len, fs_infop->str); len += strlen(fs_infop->str); } } if (!strcmp("nfs", tmp->mnt_sb->s_type->name)) { nfss = &tmp->mnt_sb->u.nfs_sb.s_server; if (nfss->rsize != NFS_DEF_FILE_IO_BUFFER_SIZE) { len += sprintf(buf+len, ",rsize=%d", nfss->rsize); } if (nfss->wsize != NFS_DEF_FILE_IO_BUFFER_SIZE) { len += sprintf(buf+len, ",wsize=%d", nfss->wsize); } #if 0 if (nfss->timeo != 7*HZ/10) { len += sprintf(buf+len, ",timeo=%d", nfss->timeo*10/HZ); } if (nfss->retrans != 3) { len += sprintf(buf+len, ",retrans=%d", nfss->retrans); } #endif if (nfss->acregmin != 3*HZ) { len += sprintf(buf+len, ",acregmin=%d", nfss->acregmin/HZ); } if (nfss->acregmax != 60*HZ) { len += sprintf(buf+len, ",acregmax=%d", nfss->acregmax/HZ); } if (nfss->acdirmin != 30*HZ) { len += sprintf(buf+len, ",acdirmin=%d", nfss->acdirmin/HZ); } if (nfss->acdirmax != 60*HZ) { len += sprintf(buf+len, ",acdirmax=%d", nfss->acdirmax/HZ); } for (nfs_infop = nfs_info; nfs_infop->flag; nfs_infop++) { if (nfss->flags & nfs_infop->flag) { strcpy(buf + len, nfs_infop->str); len += strlen(nfs_infop->str); } } len += sprintf(buf+len, ",addr=%s", nfss->hostname); } len += sprintf( buf + len, " 0 0\n" ); tmp = tmp->mnt_next; } return len; } int get_filesystem_list(char * buf) { int len = 0; struct file_system_type * tmp; tmp = file_systems; while (tmp && len < PAGE_SIZE - 80) { len += sprintf(buf+len, "%s\t%s\n", (tmp->fs_flags & FS_REQUIRES_DEV) ? "" : "nodev", tmp->name); tmp = tmp->next; } return len; } struct file_system_type *get_fs_type(const char *name) { struct file_system_type * fs = file_systems; if (!name) return fs; for (fs = file_systems; fs && strcmp(fs->name, name); fs = fs->next) ; #ifdef CONFIG_KMOD if (!fs && (request_module(name) == 0)) { for (fs = file_systems; fs && strcmp(fs->name, name); fs = fs->next) ; } #endif return fs; } void __wait_on_super(struct super_block * sb) { struct wait_queue wait = { current, NULL }; add_wait_queue(&sb->s_wait, &wait); repeat: current->state = TASK_UNINTERRUPTIBLE; if (sb->s_lock) { schedule(); goto repeat; } remove_wait_queue(&sb->s_wait, &wait); current->state = TASK_RUNNING; } /* * Note: check the dirty flag before waiting, so we don't * hold up the sync while mounting a device. (The newly * mounted device won't need syncing.) */ void sync_supers(kdev_t dev) { struct super_block * sb; for (sb = super_blocks + 0 ; sb < super_blocks + NR_SUPER ; sb++) { if (!sb->s_dev) continue; if (dev && sb->s_dev != dev) continue; if (!sb->s_dirt) continue; /* N.B. Should lock the superblock while writing */ wait_on_super(sb); if (!sb->s_dev || !sb->s_dirt) continue; if (dev && (dev != sb->s_dev)) continue; if (sb->s_op && sb->s_op->write_super) sb->s_op->write_super(sb); } } struct super_block * get_super(kdev_t dev) { struct super_block * s; if (!dev) return NULL; restart: s = 0+super_blocks; while (s < NR_SUPER+super_blocks) if (s->s_dev == dev) { wait_on_super(s); if (s->s_dev == dev) return s; goto restart; } else s++; return NULL; } asmlinkage int sys_ustat(dev_t dev, struct ustat * ubuf) { struct super_block *s; struct ustat tmp; struct statfs sbuf; mm_segment_t old_fs; int err = -EINVAL; lock_kernel(); s = get_super(to_kdev_t(dev)); if (s == NULL) goto out; err = -ENOSYS; if (!(s->s_op->statfs)) goto out; old_fs = get_fs(); set_fs(get_ds()); s->s_op->statfs(s,&sbuf,sizeof(struct statfs)); set_fs(old_fs); memset(&tmp,0,sizeof(struct ustat)); tmp.f_tfree = sbuf.f_bfree; tmp.f_tinode = sbuf.f_ffree; err = copy_to_user(ubuf,&tmp,sizeof(struct ustat)) ? -EFAULT : 0; out: unlock_kernel(); return err; } /* * Find a super_block with no device assigned. */ static struct super_block *get_empty_super(void) { struct super_block *s = 0+super_blocks; for (; s < NR_SUPER+super_blocks; s++) { if (s->s_dev) continue; if (!s->s_lock) return s; printk("VFS: empty superblock %p locked!\n", s); } return NULL; } static struct super_block * read_super(kdev_t dev,const char *name,int flags, void *data, int silent) { struct super_block * s; struct file_system_type *type; if (!dev) goto out_null; check_disk_change(dev); s = get_super(dev); if (s) goto out; type = get_fs_type(name); if (!type) { printk("VFS: on device %s: get_fs_type(%s) failed\n", kdevname(dev), name); goto out; } s = get_empty_super(); if (!s) goto out; s->s_dev = dev; s->s_flags = flags; s->s_dirt = 0; /* N.B. Should lock superblock now ... */ if (!type->read_super(s, data, silent)) goto out_fail; s->s_dev = dev; /* N.B. why do this again?? */ s->s_rd_only = 0; s->s_type = type; out: return s; /* N.B. s_dev should be cleared in type->read_super */ out_fail: s->s_dev = 0; out_null: s = NULL; goto out; } /* * Unnamed block devices are dummy devices used by virtual * filesystems which don't use real block-devices. -- jrs */ static unsigned int unnamed_dev_in_use[256/(8*sizeof(unsigned int))] = { 0, }; kdev_t get_unnamed_dev(void) { int i; for (i = 1; i < 256; i++) { if (!test_and_set_bit(i,unnamed_dev_in_use)) return MKDEV(UNNAMED_MAJOR, i); } return 0; } void put_unnamed_dev(kdev_t dev) { if (!dev || MAJOR(dev) != UNNAMED_MAJOR) return; if (test_and_clear_bit(MINOR(dev), unnamed_dev_in_use)) return; printk("VFS: put_unnamed_dev: freeing unused device %s\n", kdevname(dev)); } static int d_umount(struct super_block * sb) { struct dentry * root = sb->s_root; struct dentry * covered = root->d_covers; if (root->d_count != 1) return -EBUSY; if (root->d_inode->i_state) return -EBUSY; sb->s_root = NULL; if (covered != root) { root->d_covers = root; covered->d_mounts = covered; dput(covered); } dput(root); return 0; } static void d_mount(struct dentry *covered, struct dentry *dentry) { if (covered->d_mounts != covered) { printk("VFS: mount - already mounted\n"); return; } covered->d_mounts = dentry; dentry->d_covers = covered; } static int do_umount(kdev_t dev, int unmount_root, int flags) { struct super_block * sb; int retval; retval = -ENOENT; sb = get_super(dev); if (!sb || !sb->s_root) goto out; /* * Before checking whether the filesystem is still busy, * make sure the kernel doesn't hold any quota files open * on the device. If the umount fails, too bad -- there * are no quotas running any more. Just turn them on again. */ DQUOT_OFF(dev); #ifdef CONFIG_BSD_PROCESS_ACCT (void) acct_auto_close(dev); #endif /* * If we may have to abort operations to get out of this * mount, and they will themselves hold resources we must * allow the fs to do things. In the Unix tradition of * 'Gee thats tricky lets do it in userspace' the umount_begin * might fail to complete on the first run through as other tasks * must return, and the like. Thats for the mount program to worry * about for the moment. */ if( (flags&MNT_FORCE) && sb->s_op->umount_begin) sb->s_op->umount_begin(sb); /* * Shrink dcache, then fsync. This guarantees that if the * filesystem is quiescent at this point, then (a) only the * root entry should be in use and (b) that root entry is * clean. */ shrink_dcache_sb(sb); fsync_dev(dev); if (dev==ROOT_DEV && !unmount_root) { /* * Special case for "unmounting" root ... * we just try to remount it readonly. */ retval = 0; if (!(sb->s_flags & MS_RDONLY)) retval = do_remount_sb(sb, MS_RDONLY, 0); return retval; } retval = d_umount(sb); if (retval) goto out; if (sb->s_op) { if (sb->s_op->write_super && sb->s_dirt) sb->s_op->write_super(sb); } lock_super(sb); if (sb->s_op) { if (sb->s_op->put_super) sb->s_op->put_super(sb); } /* Forget any remaining inodes */ if (invalidate_inodes(sb)) { printk("VFS: Busy inodes after unmount. " "Self-destruct in 5 seconds. Have a nice day...\n"); } sb->s_dev = 0; /* Free the superblock */ unlock_super(sb); remove_vfsmnt(dev); out: return retval; } static int umount_dev(kdev_t dev, int flags) { int retval; struct inode * inode = get_empty_inode(); retval = -ENOMEM; if (!inode) goto out; inode->i_rdev = dev; retval = -ENXIO; if (MAJOR(dev) >= MAX_BLKDEV) goto out_iput; fsync_dev(dev); down(&mount_sem); retval = do_umount(dev, 0, flags); if (!retval) { fsync_dev(dev); if (dev != ROOT_DEV) { blkdev_release(inode); put_unnamed_dev(dev); } } up(&mount_sem); out_iput: iput(inode); out: return retval; } /* * Now umount can handle mount points as well as block devices. * This is important for filesystems which use unnamed block devices. * * There is a little kludge here with the dummy_inode. The current * vfs release functions only use the r_dev field in the inode so * we give them the info they need without using a real inode. * If any other fields are ever needed by any block device release * functions, they should be faked here. -- jrs * * We now support a flag for forced unmount like the other 'big iron' * unixes. Our API is identical to OSF/1 to avoid making a mess of AMD */ asmlinkage int sys_umount(char * name, int flags) { struct dentry * dentry; int retval; if (!capable(CAP_SYS_ADMIN)) return -EPERM; lock_kernel(); dentry = namei(name); retval = PTR_ERR(dentry); if (!IS_ERR(dentry)) { struct inode * inode = dentry->d_inode; kdev_t dev = inode->i_rdev; retval = 0; if (S_ISBLK(inode->i_mode)) { if (IS_NODEV(inode)) retval = -EACCES; } else { struct super_block *sb = inode->i_sb; retval = -EINVAL; if (sb && inode == sb->s_root->d_inode) { dev = sb->s_dev; retval = 0; } } dput(dentry); if (!retval) retval = umount_dev(dev, flags); } unlock_kernel(); return retval; } /* * The 2.0 compatible umount. No flags. */ asmlinkage int sys_oldumount(char * name) { return sys_umount(name,0); } /* * Check whether we can mount the specified device. */ int fs_may_mount(kdev_t dev) { struct super_block * sb = get_super(dev); int busy; busy = sb && sb->s_root && (sb->s_root->d_count != 1 || sb->s_root->d_covers != sb->s_root); return !busy; } /* * do_mount() does the actual mounting after sys_mount has done the ugly * parameter parsing. When enough time has gone by, and everything uses the * new mount() parameters, sys_mount() can then be cleaned up. * * We cannot mount a filesystem if it has active, used, or dirty inodes. * We also have to flush all inode-data for this device, as the new mount * might need new info. * * [21-Mar-97] T.Schoebel-Theuer: Now this can be overridden when * supplying a leading "!" before the dir_name, allowing "stacks" of * mounted filesystems. The stacking will only influence any pathname lookups * _after_ the mount, but open file descriptors or working directories that * are now covered remain valid. For example, when you overmount /home, any * process with old cwd /home/joe will continue to use the old versions, * as long as relative paths are used, but absolute paths like /home/joe/xxx * will go to the new "top of stack" version. In general, crossing a * mount point will always go to the top of stack element. * Anyone using this new feature must know what he/she is doing. */ int do_mount(kdev_t dev, const char * dev_name, const char * dir_name, const char * type, int flags, void * data) { struct dentry * dir_d; struct super_block * sb; struct vfsmount *vfsmnt; int error; down(&mount_sem); error = -EACCES; if (!(flags & MS_RDONLY) && dev && is_read_only(dev)) goto out; /*flags |= MS_RDONLY;*/ dir_d = namei(dir_name); error = PTR_ERR(dir_d); if (IS_ERR(dir_d)) goto out; error = -ENOTDIR; if (!S_ISDIR(dir_d->d_inode->i_mode)) goto dput_and_out; error = -EBUSY; if (dir_d->d_covers != dir_d) goto dput_and_out; /* * Note: If the superblock already exists, * read_super just does a get_super(). */ error = -EINVAL; sb = read_super(dev, type, flags, data, 0); if (!sb) goto dput_and_out; /* * We may have slept while reading the super block, * so we check afterwards whether it's safe to mount. */ error = -EBUSY; if (!fs_may_mount(dev)) goto dput_and_out; error = -ENOMEM; vfsmnt = add_vfsmnt(sb, dev_name, dir_name); if (!vfsmnt) goto dput_and_out; d_mount(dir_d, sb->s_root); error = 0; /* we don't dput(dir_d) - see umount */ out: up(&mount_sem); return error; dput_and_out: dput(dir_d); goto out; } /* * Alters the mount flags of a mounted file system. Only the mount point * is used as a reference - file system type and the device are ignored. * FS-specific mount options can't be altered by remounting. */ static int do_remount_sb(struct super_block *sb, int flags, char *data) { int retval; struct vfsmount *vfsmnt; /* * Invalidate the inodes, as some mount options may be changed. * N.B. If we are changing media, we should check the return * from invalidate_inodes ... can't allow _any_ open files. */ invalidate_inodes(sb); if (!(flags & MS_RDONLY) && sb->s_dev && is_read_only(sb->s_dev)) return -EACCES; /*flags |= MS_RDONLY;*/ /* If we are remounting RDONLY, make sure there are no rw files open */ if ((flags & MS_RDONLY) && !(sb->s_flags & MS_RDONLY)) if (!fs_may_remount_ro(sb)) return -EBUSY; if (sb->s_op && sb->s_op->remount_fs) { retval = sb->s_op->remount_fs(sb, &flags, data); if (retval) return retval; } sb->s_flags = (sb->s_flags & ~MS_RMT_MASK) | (flags & MS_RMT_MASK); vfsmnt = lookup_vfsmnt(sb->s_dev); if (vfsmnt) vfsmnt->mnt_flags = sb->s_flags; return 0; } static int do_remount(const char *dir,int flags,char *data) { struct dentry *dentry; int retval; dentry = namei(dir); retval = PTR_ERR(dentry); if (!IS_ERR(dentry)) { struct super_block * sb = dentry->d_inode->i_sb; retval = -EINVAL; if (dentry == sb->s_root) { /* * Shrink the dcache and sync the device. */ shrink_dcache_sb(sb); fsync_dev(sb->s_dev); retval = do_remount_sb(sb, flags, data); } dput(dentry); } return retval; } static int copy_mount_options (const void * data, unsigned long *where) { int i; unsigned long page; struct vm_area_struct * vma; *where = 0; if (!data) return 0; vma = find_vma(current->mm, (unsigned long) data); if (!vma || (unsigned long) data < vma->vm_start) return -EFAULT; if (!(vma->vm_flags & VM_READ)) return -EFAULT; i = vma->vm_end - (unsigned long) data; if (PAGE_SIZE <= (unsigned long) i) i = PAGE_SIZE-1; if (!(page = __get_free_page(GFP_KERNEL))) { return -ENOMEM; } if (copy_from_user((void *) page,data,i)) { free_page(page); return -EFAULT; } *where = page; return 0; } /* * Flags is a 16-bit value that allows up to 16 non-fs dependent flags to * be given to the mount() call (ie: read-only, no-dev, no-suid etc). * * data is a (void *) that can point to any structure up to * PAGE_SIZE-1 bytes, which can contain arbitrary fs-dependent * information (or be NULL). * * NOTE! As old versions of mount() didn't use this setup, the flags * have to have a special 16-bit magic number in the high word: * 0xC0ED. If this magic word isn't present, the flags and data info * aren't used, as the syscall assumes we are talking to an older * version that didn't understand them. */ asmlinkage int sys_mount(char * dev_name, char * dir_name, char * type, unsigned long new_flags, void * data) { struct file_system_type * fstype; struct dentry * dentry = NULL; struct inode * inode = NULL; kdev_t dev; int retval = -EPERM; unsigned long flags = 0; unsigned long page = 0; struct file dummy; /* allows read-write or read-only flag */ lock_kernel(); if (!capable(CAP_SYS_ADMIN)) goto out; if ((new_flags & (MS_MGC_MSK | MS_REMOUNT)) == (MS_MGC_VAL | MS_REMOUNT)) { retval = copy_mount_options (data, &page); if (retval < 0) goto out; retval = do_remount(dir_name, new_flags & ~MS_MGC_MSK & ~MS_REMOUNT, (char *) page); free_page(page); goto out; } retval = copy_mount_options (type, &page); if (retval < 0) goto out; fstype = get_fs_type((char *) page); free_page(page); retval = -ENODEV; if (!fstype) goto out; memset(&dummy, 0, sizeof(dummy)); if (fstype->fs_flags & FS_REQUIRES_DEV) { dentry = namei(dev_name); retval = PTR_ERR(dentry); if (IS_ERR(dentry)) goto out; inode = dentry->d_inode; retval = -ENOTBLK; if (!S_ISBLK(inode->i_mode)) goto dput_and_out; retval = -EACCES; if (IS_NODEV(inode)) goto dput_and_out; dev = inode->i_rdev; retval = -ENXIO; if (MAJOR(dev) >= MAX_BLKDEV) goto dput_and_out; retval = -ENOTBLK; dummy.f_op = get_blkfops(MAJOR(dev)); if (!dummy.f_op) goto dput_and_out; if (dummy.f_op->open) { dummy.f_dentry = dentry; dummy.f_mode = (new_flags & MS_RDONLY) ? 1 : 3; retval = dummy.f_op->open(inode, &dummy); if (retval) goto dput_and_out; } } else { retval = -EMFILE; if (!(dev = get_unnamed_dev())) goto out; } page = 0; if ((new_flags & MS_MGC_MSK) == MS_MGC_VAL) { flags = new_flags & ~MS_MGC_MSK; retval = copy_mount_options(data, &page); if (retval < 0) goto clean_up; } retval = do_mount(dev, dev_name, dir_name, fstype->name, flags, (void *) page); free_page(page); if (retval) goto clean_up; dput_and_out: dput(dentry); out: unlock_kernel(); return retval; clean_up: if (dummy.f_op) { if (dummy.f_op->release) dummy.f_op->release(inode, NULL); } else put_unnamed_dev(dev); goto dput_and_out; } __initfunc(static void do_mount_root(void)) { struct file_system_type * fs_type; struct super_block * sb; struct vfsmount *vfsmnt; struct inode * d_inode = NULL; struct file filp; int retval; #ifdef CONFIG_ROOT_NFS if (MAJOR(ROOT_DEV) == UNNAMED_MAJOR) { ROOT_DEV = 0; if ((fs_type = get_fs_type("nfs"))) { sb = get_empty_super(); /* "can't fail" */ sb->s_dev = get_unnamed_dev(); sb->s_flags = root_mountflags & ~MS_RDONLY; vfsmnt = add_vfsmnt(sb, "/dev/root", "/"); if (vfsmnt) { if (nfs_root_mount(sb) >= 0) { sb->s_rd_only = 0; sb->s_dirt = 0; sb->s_type = fs_type; current->fs->root = dget(sb->s_root); current->fs->pwd = dget(sb->s_root); ROOT_DEV = sb->s_dev; printk (KERN_NOTICE "VFS: Mounted root (nfs filesystem).\n"); return; } remove_vfsmnt(sb->s_dev); } put_unnamed_dev(sb->s_dev); sb->s_dev = 0; } if (!ROOT_DEV) { printk(KERN_ERR "VFS: Unable to mount root fs via NFS, trying floppy.\n"); ROOT_DEV = MKDEV(FLOPPY_MAJOR, 0); } } #endif #ifdef CONFIG_BLK_DEV_FD if (MAJOR(ROOT_DEV) == FLOPPY_MAJOR) { floppy_eject(); #ifndef CONFIG_BLK_DEV_RAM printk(KERN_NOTICE "(Warning, this kernel has no ramdisk support)\n"); #endif printk(KERN_NOTICE "VFS: Insert root floppy and press ENTER\n"); wait_for_keypress(); } #endif memset(&filp, 0, sizeof(filp)); d_inode = get_empty_inode(); d_inode->i_rdev = ROOT_DEV; filp.f_dentry = NULL; if ( root_mountflags & MS_RDONLY) filp.f_mode = 1; /* read only */ else filp.f_mode = 3; /* read write */ retval = blkdev_open(d_inode, &filp); if (retval == -EROFS) { root_mountflags |= MS_RDONLY; filp.f_mode = 1; retval = blkdev_open(d_inode, &filp); } iput(d_inode); if (retval) /* * Allow the user to distinguish between failed open * and bad superblock on root device. */ printk("VFS: Cannot open root device %s\n", kdevname(ROOT_DEV)); else for (fs_type = file_systems ; fs_type ; fs_type = fs_type->next) { if (!(fs_type->fs_flags & FS_REQUIRES_DEV)) continue; sb = read_super(ROOT_DEV,fs_type->name,root_mountflags,NULL,1); if (sb) { sb->s_flags = root_mountflags; current->fs->root = dget(sb->s_root); current->fs->pwd = dget(sb->s_root); printk ("VFS: Mounted root (%s filesystem)%s.\n", fs_type->name, (sb->s_flags & MS_RDONLY) ? " readonly" : ""); vfsmnt = add_vfsmnt(sb, "/dev/root", "/"); if (vfsmnt) return; panic("VFS: add_vfsmnt failed for root fs"); } } panic("VFS: Unable to mount root fs on %s", kdevname(ROOT_DEV)); } __initfunc(void mount_root(void)) { struct super_block * sb = super_blocks; int i; memset(super_blocks, 0, sizeof(super_blocks)); /* * Initialize the dirty inode list headers for the super blocks */ for (i = NR_SUPER ; i-- ; sb++) INIT_LIST_HEAD(&sb->s_dirty); do_mount_root(); } #ifdef CONFIG_BLK_DEV_INITRD extern int initmem_freed; __initfunc(static int do_change_root(kdev_t new_root_dev,const char *put_old)) { kdev_t old_root_dev; struct vfsmount *vfsmnt; struct dentry *old_root,*old_pwd,*dir_d = NULL; int error; old_root = current->fs->root; old_pwd = current->fs->pwd; old_root_dev = ROOT_DEV; if (!fs_may_mount(new_root_dev)) { printk(KERN_CRIT "New root is busy. Staying in initrd.\n"); return -EBUSY; } ROOT_DEV = new_root_dev; do_mount_root(); dput(old_root); dput(old_pwd); #if 1 shrink_dcache(); printk("do_change_root: old root has d_count=%d\n", old_root->d_count); #endif /* * Get the new mount directory */ dir_d = lookup_dentry(put_old, NULL, 1); if (IS_ERR(dir_d)) { error = PTR_ERR(dir_d); } else if (!dir_d->d_inode) { dput(dir_d); error = -ENOENT; } else { error = 0; } if (!error && dir_d->d_covers != dir_d) { dput(dir_d); error = -EBUSY; } if (!error && !S_ISDIR(dir_d->d_inode->i_mode)) { dput(dir_d); error = -ENOTDIR; } if (error) { int umount_error; printk(KERN_NOTICE "Trying to unmount old root ... "); umount_error = do_umount(old_root_dev,1, 0); if (!umount_error) { printk("okay\n"); invalidate_buffers(old_root_dev); return 0; } printk(KERN_ERR "error %d\n",umount_error); return error; } remove_vfsmnt(old_root_dev); vfsmnt = add_vfsmnt(old_root->d_sb, "/dev/root.old", put_old); if (vfsmnt) { d_mount(dir_d,old_root); return 0; } printk(KERN_CRIT "Trouble: add_vfsmnt failed\n"); return -ENOMEM; } int change_root(kdev_t new_root_dev,const char *put_old) { if (initmem_freed) { printk (KERN_CRIT "Initmem has been already freed. Staying in initrd\n"); return -EBUSY; } return do_change_root(new_root_dev, put_old); } #endif |