]> pilppa.com Git - linux-2.6-omap-h63xx.git/commitdiff
Remove JFFS (version 1), as scheduled.
authorJeff Garzik <jeff@garzik.org>
Sat, 17 Feb 2007 21:10:59 +0000 (16:10 -0500)
committerJeff Garzik <jeff@garzik.org>
Sat, 17 Feb 2007 21:10:59 +0000 (16:10 -0500)
Unmaintained for years, few if any users.

Signed-off-by: Jeff Garzik <jeff@garzik.org>
12 files changed:
Documentation/feature-removal-schedule.txt
fs/Kconfig
fs/Makefile
fs/jffs/Makefile [deleted file]
fs/jffs/inode-v23.c [deleted file]
fs/jffs/intrep.c [deleted file]
fs/jffs/intrep.h [deleted file]
fs/jffs/jffs_fm.c [deleted file]
fs/jffs/jffs_fm.h [deleted file]
fs/jffs/jffs_proc.c [deleted file]
fs/jffs/jffs_proc.h [deleted file]
include/linux/jffs.h [deleted file]

index c585aa8d62b430fc4c052253f8db7fd38bd0e2cc..e1bc0c534ef929912dc219df8a1ccddc3bcf2a2b 100644 (file)
@@ -306,13 +306,6 @@ Who:       Len Brown <len.brown@intel.com>
 
 ---------------------------
 
-What:  JFFS (version 1)
-When:  2.6.21
-Why:   Unmaintained for years, superceded by JFFS2 for years.
-Who:   Jeff Garzik <jeff@garzik.org>
-
----------------------------
-
 What:   sk98lin network driver
 When:   July 2007
 Why:    In kernel tree version of driver is unmaintained. Sk98lin driver
index a722b5a3f752f1701c4f172fb1ac94dd8c576836..3c4886b849f57e21d4fbde30fd7b633139165790 100644 (file)
@@ -1189,32 +1189,6 @@ config EFS_FS
          To compile the EFS file system support as a module, choose M here: the
          module will be called efs.
 
-config JFFS_FS
-       tristate "Journalling Flash File System (JFFS) support"
-       depends on MTD && BLOCK && BROKEN
-       help
-         JFFS is the Journalling Flash File System developed by Axis
-         Communications in Sweden, aimed at providing a crash/powerdown-safe
-         file system for disk-less embedded devices. Further information is
-         available at (<http://developer.axis.com/software/jffs/>).
-
-         NOTE: This filesystem is deprecated and is scheduled for removal in
-         2.6.21.  See Documentation/feature-removal-schedule.txt
-
-config JFFS_FS_VERBOSE
-       int "JFFS debugging verbosity (0 = quiet, 3 = noisy)"
-       depends on JFFS_FS
-       default "0"
-       help
-         Determines the verbosity level of the JFFS debugging messages.
-
-config JFFS_PROC_FS
-       bool "JFFS stats available in /proc filesystem"
-       depends on JFFS_FS && PROC_FS
-       help
-         Enabling this option will cause statistics from mounted JFFS file systems
-         to be made available to the user in the /proc/fs/jffs/ directory.
-
 config JFFS2_FS
        tristate "Journalling Flash File System v2 (JFFS2) support"
        select CRC32
index b9ffa63f77fc266afde9a7d0c43daebcef4bca16..9edf4112bee0512a081b1666b3a1e426905cece3 100644 (file)
@@ -94,7 +94,6 @@ obj-$(CONFIG_HPFS_FS)         += hpfs/
 obj-$(CONFIG_NTFS_FS)          += ntfs/
 obj-$(CONFIG_UFS_FS)           += ufs/
 obj-$(CONFIG_EFS_FS)           += efs/
-obj-$(CONFIG_JFFS_FS)          += jffs/
 obj-$(CONFIG_JFFS2_FS)         += jffs2/
 obj-$(CONFIG_AFFS_FS)          += affs/
 obj-$(CONFIG_ROMFS_FS)         += romfs/
diff --git a/fs/jffs/Makefile b/fs/jffs/Makefile
deleted file mode 100644 (file)
index 9c1c0bb..0000000
+++ /dev/null
@@ -1,11 +0,0 @@
-#
-# Makefile for the linux Journalling Flash FileSystem (JFFS) routines.
-#
-# $Id: Makefile,v 1.11 2001/09/25 20:59:41 dwmw2 Exp $
-#
-
-obj-$(CONFIG_JFFS_FS) += jffs.o
-
-jffs-y                                 := jffs_fm.o intrep.o inode-v23.o
-jffs-$(CONFIG_JFFS_PROC_FS)    += jffs_proc.o
-jffs-objs                      := $(jffs-y)
diff --git a/fs/jffs/inode-v23.c b/fs/jffs/inode-v23.c
deleted file mode 100644 (file)
index 9602b92..0000000
+++ /dev/null
@@ -1,1847 +0,0 @@
-/*
- * JFFS -- Journalling Flash File System, Linux implementation.
- *
- * Copyright (C) 1999, 2000  Axis Communications AB.
- *
- * Created by Finn Hakansson <finn@axis.com>.
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * $Id: inode-v23.c,v 1.70 2001/10/02 09:16:02 dwmw2 Exp $
- *
- * Ported to Linux 2.3.x and MTD:
- * Copyright (C) 2000  Alexander Larsson (alex@cendio.se), Cendio Systems AB
- *
- * Copyright 2000, 2001  Red Hat, Inc.
- */
-
-/* inode.c -- Contains the code that is called from the VFS.  */
-
-/* TODO-ALEX:
- * uid and gid are just 16 bit.
- * jffs_file_write reads from user-space pointers without xx_from_user
- * maybe other stuff do to.
- */
-
-#include <linux/time.h>
-
-#include <linux/module.h>
-#include <linux/init.h>
-#include <linux/types.h>
-#include <linux/errno.h>
-#include <linux/slab.h>
-#include <linux/jffs.h>
-#include <linux/fs.h>
-#include <linux/smp_lock.h>
-#include <linux/ioctl.h>
-#include <linux/stat.h>
-#include <linux/blkdev.h>
-#include <linux/quotaops.h>
-#include <linux/highmem.h>
-#include <linux/vfs.h>
-#include <linux/mutex.h>
-#include <asm/byteorder.h>
-#include <asm/uaccess.h>
-
-#include "jffs_fm.h"
-#include "intrep.h"
-#ifdef CONFIG_JFFS_PROC_FS
-#include "jffs_proc.h"
-#endif
-
-static int jffs_remove(struct inode *dir, struct dentry *dentry, int type);
-
-static const struct super_operations jffs_ops;
-static const struct file_operations jffs_file_operations;
-static const struct inode_operations jffs_file_inode_operations;
-static const struct file_operations jffs_dir_operations;
-static const struct inode_operations jffs_dir_inode_operations;
-static const struct address_space_operations jffs_address_operations;
-
-struct kmem_cache     *node_cache = NULL;
-struct kmem_cache     *fm_cache = NULL;
-
-/* Called by the VFS at mount time to initialize the whole file system.  */
-static int jffs_fill_super(struct super_block *sb, void *data, int silent)
-{
-       struct inode *root_inode;
-       struct jffs_control *c;
-
-       sb->s_flags |= MS_NODIRATIME;
-
-       D1(printk(KERN_NOTICE "JFFS: Trying to mount device %s.\n",
-                 sb->s_id));
-
-       if (MAJOR(sb->s_dev) != MTD_BLOCK_MAJOR) {
-               printk(KERN_WARNING "JFFS: Trying to mount a "
-                      "non-mtd device.\n");
-               return -EINVAL;
-       }
-
-       sb->s_blocksize = PAGE_CACHE_SIZE;
-       sb->s_blocksize_bits = PAGE_CACHE_SHIFT;
-       sb->s_fs_info = (void *) 0;
-       sb->s_maxbytes = 0xFFFFFFFF;
-
-       /* Build the file system.  */
-       if (jffs_build_fs(sb) < 0) {
-               goto jffs_sb_err1;
-       }
-
-       /*
-        * set up enough so that we can read an inode
-        */
-       sb->s_magic = JFFS_MAGIC_SB_BITMASK;
-       sb->s_op = &jffs_ops;
-
-       root_inode = iget(sb, JFFS_MIN_INO);
-       if (!root_inode)
-               goto jffs_sb_err2;
-
-       /* Get the root directory of this file system.  */
-       if (!(sb->s_root = d_alloc_root(root_inode))) {
-               goto jffs_sb_err3;
-       }
-
-       c = (struct jffs_control *) sb->s_fs_info;
-
-#ifdef CONFIG_JFFS_PROC_FS
-       /* Set up the jffs proc file system.  */
-       if (jffs_register_jffs_proc_dir(MINOR(sb->s_dev), c) < 0) {
-               printk(KERN_WARNING "JFFS: Failed to initialize the JFFS "
-                       "proc file system for device %s.\n",
-                       sb->s_id);
-       }
-#endif
-
-       /* Set the Garbage Collection thresholds */
-
-       /* GC if free space goes below 5% of the total size */
-       c->gc_minfree_threshold = c->fmc->flash_size / 20;
-
-       if (c->gc_minfree_threshold < c->fmc->sector_size)
-               c->gc_minfree_threshold = c->fmc->sector_size;
-
-       /* GC if dirty space exceeds 33% of the total size. */
-       c->gc_maxdirty_threshold = c->fmc->flash_size / 3;
-
-       if (c->gc_maxdirty_threshold < c->fmc->sector_size)
-               c->gc_maxdirty_threshold = c->fmc->sector_size;
-
-
-       c->thread_pid = kernel_thread (jffs_garbage_collect_thread, 
-                                       (void *) c, 
-                                       CLONE_KERNEL);
-       D1(printk(KERN_NOTICE "JFFS: GC thread pid=%d.\n", (int) c->thread_pid));
-
-       D1(printk(KERN_NOTICE "JFFS: Successfully mounted device %s.\n",
-              sb->s_id));
-       return 0;
-
-jffs_sb_err3:
-       iput(root_inode);
-jffs_sb_err2:
-       jffs_cleanup_control((struct jffs_control *)sb->s_fs_info);
-jffs_sb_err1:
-       printk(KERN_WARNING "JFFS: Failed to mount device %s.\n",
-              sb->s_id);
-       return -EINVAL;
-}
-
-
-/* This function is called when the file system is umounted.  */
-static void
-jffs_put_super(struct super_block *sb)
-{
-       struct jffs_control *c = (struct jffs_control *) sb->s_fs_info;
-
-       D2(printk("jffs_put_super()\n"));
-
-#ifdef CONFIG_JFFS_PROC_FS
-       jffs_unregister_jffs_proc_dir(c);
-#endif
-
-       if (c->gc_task) {
-               D1(printk (KERN_NOTICE "jffs_put_super(): Telling gc thread to die.\n"));
-               send_sig(SIGKILL, c->gc_task, 1);
-       }
-       wait_for_completion(&c->gc_thread_comp);
-
-       D1(printk (KERN_NOTICE "jffs_put_super(): Successfully waited on thread.\n"));
-
-       jffs_cleanup_control((struct jffs_control *)sb->s_fs_info);
-       D1(printk(KERN_NOTICE "JFFS: Successfully unmounted device %s.\n",
-              sb->s_id));
-}
-
-
-/* This function is called when user commands like chmod, chgrp and
-   chown are executed. System calls like trunc() results in a call
-   to this function.  */
-static int
-jffs_setattr(struct dentry *dentry, struct iattr *iattr)
-{
-       struct inode *inode = dentry->d_inode;
-       struct jffs_raw_inode raw_inode;
-       struct jffs_control *c;
-       struct jffs_fmcontrol *fmc;
-       struct jffs_file *f;
-       struct jffs_node *new_node;
-       int update_all;
-       int res = 0;
-       int recoverable = 0;
-
-       lock_kernel();
-
-       if ((res = inode_change_ok(inode, iattr))) 
-               goto out;
-
-       c = (struct jffs_control *)inode->i_sb->s_fs_info;
-       fmc = c->fmc;
-
-       D3(printk (KERN_NOTICE "notify_change(): down biglock\n"));
-       mutex_lock(&fmc->biglock);
-
-       f = jffs_find_file(c, inode->i_ino);
-
-       ASSERT(if (!f) {
-               printk("jffs_setattr(): Invalid inode number: %lu\n",
-                      inode->i_ino);
-               D3(printk (KERN_NOTICE "notify_change(): up biglock\n"));
-               mutex_unlock(&fmc->biglock);
-               res = -EINVAL;
-               goto out;
-       });
-
-       D1(printk("***jffs_setattr(): file: \"%s\", ino: %u\n",
-                 f->name, f->ino));
-
-       update_all = iattr->ia_valid & ATTR_FORCE;
-
-       if ( (update_all || iattr->ia_valid & ATTR_SIZE)
-            && (iattr->ia_size + 128 < f->size) ) {
-               /* We're shrinking the file by more than 128 bytes.
-                  We'll be able to GC and recover this space, so
-                  allow it to go into the reserved space. */
-               recoverable = 1;
-        }
-
-       if (!(new_node = jffs_alloc_node())) {
-               D(printk("jffs_setattr(): Allocation failed!\n"));
-               D3(printk (KERN_NOTICE "notify_change(): up biglock\n"));
-               mutex_unlock(&fmc->biglock);
-               res = -ENOMEM;
-               goto out;
-       }
-
-       new_node->data_offset = 0;
-       new_node->removed_size = 0;
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = f->ino;
-       raw_inode.pino = f->pino;
-       raw_inode.mode = f->mode;
-       raw_inode.uid = f->uid;
-       raw_inode.gid = f->gid;
-       raw_inode.atime = f->atime;
-       raw_inode.mtime = f->mtime;
-       raw_inode.ctime = f->ctime;
-       raw_inode.dsize = 0;
-       raw_inode.offset = 0;
-       raw_inode.rsize = 0;
-       raw_inode.dsize = 0;
-       raw_inode.nsize = f->nsize;
-       raw_inode.nlink = f->nlink;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = 0;
-
-       if (update_all || iattr->ia_valid & ATTR_MODE) {
-               raw_inode.mode = iattr->ia_mode;
-               inode->i_mode = iattr->ia_mode;
-       }
-       if (update_all || iattr->ia_valid & ATTR_UID) {
-               raw_inode.uid = iattr->ia_uid;
-               inode->i_uid = iattr->ia_uid;
-       }
-       if (update_all || iattr->ia_valid & ATTR_GID) {
-               raw_inode.gid = iattr->ia_gid;
-               inode->i_gid = iattr->ia_gid;
-       }
-       if (update_all || iattr->ia_valid & ATTR_SIZE) {
-               int len;
-               D1(printk("jffs_notify_change(): Changing size "
-                         "to %lu bytes!\n", (long)iattr->ia_size));
-               raw_inode.offset = iattr->ia_size;
-
-               /* Calculate how many bytes need to be removed from
-                  the end.  */
-               if (f->size < iattr->ia_size) {
-                       len = 0;
-               }
-               else {
-                       len = f->size - iattr->ia_size;
-               }
-
-               raw_inode.rsize = len;
-
-               /* The updated node will be a removal node, with
-                  base at the new size and size of the nbr of bytes
-                  to be removed.  */
-               new_node->data_offset = iattr->ia_size;
-               new_node->removed_size = len;
-               inode->i_size = iattr->ia_size;
-               inode->i_blocks = (inode->i_size + 511) >> 9;
-
-               if (len) {
-                       invalidate_mapping_pages(inode->i_mapping, 0, -1);
-               }
-               inode->i_ctime = CURRENT_TIME_SEC;
-               inode->i_mtime = inode->i_ctime;
-       }
-       if (update_all || iattr->ia_valid & ATTR_ATIME) {
-               raw_inode.atime = iattr->ia_atime.tv_sec;
-               inode->i_atime = iattr->ia_atime;
-       }
-       if (update_all || iattr->ia_valid & ATTR_MTIME) {
-               raw_inode.mtime = iattr->ia_mtime.tv_sec;
-               inode->i_mtime = iattr->ia_mtime;
-       }
-       if (update_all || iattr->ia_valid & ATTR_CTIME) {
-               raw_inode.ctime = iattr->ia_ctime.tv_sec;
-               inode->i_ctime = iattr->ia_ctime;
-       }
-
-       /* Write this node to the flash.  */
-       if ((res = jffs_write_node(c, new_node, &raw_inode, f->name, NULL, recoverable, f)) < 0) {
-               D(printk("jffs_notify_change(): The write failed!\n"));
-               jffs_free_node(new_node);
-               D3(printk (KERN_NOTICE "n_c(): up biglock\n"));
-               mutex_unlock(&c->fmc->biglock);
-               goto out;
-       }
-
-       jffs_insert_node(c, f, &raw_inode, NULL, new_node);
-
-       mark_inode_dirty(inode);
-       D3(printk (KERN_NOTICE "n_c(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-out:
-       unlock_kernel();
-       return res;
-} /* jffs_notify_change()  */
-
-
-static struct inode *
-jffs_new_inode(const struct inode * dir, struct jffs_raw_inode *raw_inode,
-              int * err)
-{
-       struct super_block * sb;
-       struct inode * inode;
-       struct jffs_control *c;
-       struct jffs_file *f;
-
-       sb = dir->i_sb;
-       inode = new_inode(sb);
-       if (!inode) {
-               *err = -ENOMEM;
-               return NULL;
-       }
-
-       c = (struct jffs_control *)sb->s_fs_info;
-
-       inode->i_ino = raw_inode->ino;
-       inode->i_mode = raw_inode->mode;
-       inode->i_nlink = raw_inode->nlink;
-       inode->i_uid = raw_inode->uid;
-       inode->i_gid = raw_inode->gid;
-       inode->i_size = raw_inode->dsize;
-       inode->i_atime.tv_sec = raw_inode->atime;
-       inode->i_mtime.tv_sec = raw_inode->mtime;
-       inode->i_ctime.tv_sec = raw_inode->ctime;
-       inode->i_ctime.tv_nsec = 0;
-       inode->i_mtime.tv_nsec = 0;
-       inode->i_atime.tv_nsec = 0;
-       inode->i_blocks = (inode->i_size + 511) >> 9;
-
-       f = jffs_find_file(c, raw_inode->ino);
-
-       inode->i_private = (void *)f;
-       insert_inode_hash(inode);
-
-       return inode;
-}
-
-/* Get statistics of the file system.  */
-static int
-jffs_statfs(struct dentry *dentry, struct kstatfs *buf)
-{
-       struct jffs_control *c = (struct jffs_control *) dentry->d_sb->s_fs_info;
-       struct jffs_fmcontrol *fmc;
-
-       lock_kernel();
-
-       fmc = c->fmc;
-
-       D2(printk("jffs_statfs()\n"));
-
-       buf->f_type = JFFS_MAGIC_SB_BITMASK;
-       buf->f_bsize = PAGE_CACHE_SIZE;
-       buf->f_blocks = (fmc->flash_size / PAGE_CACHE_SIZE)
-                      - (fmc->min_free_size / PAGE_CACHE_SIZE);
-       buf->f_bfree = (jffs_free_size1(fmc) + jffs_free_size2(fmc) +
-                      fmc->dirty_size - fmc->min_free_size)
-                              >> PAGE_CACHE_SHIFT;
-       buf->f_bavail = buf->f_bfree;
-
-       /* Find out how many files there are in the filesystem.  */
-       buf->f_files = jffs_foreach_file(c, jffs_file_count);
-       buf->f_ffree = buf->f_bfree;
-       /* buf->f_fsid = 0; */
-       buf->f_namelen = JFFS_MAX_NAME_LEN;
-
-       unlock_kernel();
-
-       return 0;
-}
-
-
-/* Rename a file.  */
-static int
-jffs_rename(struct inode *old_dir, struct dentry *old_dentry,
-           struct inode *new_dir, struct dentry *new_dentry)
-{
-       struct jffs_raw_inode raw_inode;
-       struct jffs_control *c;
-       struct jffs_file *old_dir_f;
-       struct jffs_file *new_dir_f;
-       struct jffs_file *del_f;
-       struct jffs_file *f;
-       struct jffs_node *node;
-       struct inode *inode;
-       int result = 0;
-       __u32 rename_data = 0;
-
-       D2(printk("***jffs_rename()\n"));
-
-       D(printk("jffs_rename(): old_dir: 0x%p, old name: 0x%p, "
-                "new_dir: 0x%p, new name: 0x%p\n",
-                old_dir, old_dentry->d_name.name,
-                new_dir, new_dentry->d_name.name));
-
-       lock_kernel();
-       c = (struct jffs_control *)old_dir->i_sb->s_fs_info;
-       ASSERT(if (!c) {
-               printk(KERN_ERR "jffs_rename(): The old_dir inode "
-                      "didn't have a reference to a jffs_file struct\n");
-               unlock_kernel();
-               return -EIO;
-       });
-
-       result = -ENOTDIR;
-       if (!(old_dir_f = old_dir->i_private)) {
-               D(printk("jffs_rename(): Old dir invalid.\n"));
-               goto jffs_rename_end;
-       }
-
-       /* Try to find the file to move.  */
-       result = -ENOENT;
-       if (!(f = jffs_find_child(old_dir_f, old_dentry->d_name.name,
-                                 old_dentry->d_name.len))) {
-               goto jffs_rename_end;
-       }
-
-       /* Find the new directory.  */
-       result = -ENOTDIR;
-       if (!(new_dir_f = new_dir->i_private)) {
-               D(printk("jffs_rename(): New dir invalid.\n"));
-               goto jffs_rename_end;
-       }
-       D3(printk (KERN_NOTICE "rename(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-       /* Create a node and initialize as much as needed.  */
-       result = -ENOMEM;
-       if (!(node = jffs_alloc_node())) {
-               D(printk("jffs_rename(): Allocation failed: node == 0\n"));
-               goto jffs_rename_end;
-       }
-       node->data_offset = 0;
-       node->removed_size = 0;
-
-       /* Initialize the raw inode.  */
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = f->ino;
-       raw_inode.pino = new_dir_f->ino;
-/*     raw_inode.version = f->highest_version + 1; */
-       raw_inode.mode = f->mode;
-       raw_inode.uid = current->fsuid;
-       raw_inode.gid = current->fsgid;
-#if 0
-       raw_inode.uid = f->uid;
-       raw_inode.gid = f->gid;
-#endif
-       raw_inode.atime = get_seconds();
-       raw_inode.mtime = raw_inode.atime;
-       raw_inode.ctime = f->ctime;
-       raw_inode.offset = 0;
-       raw_inode.dsize = 0;
-       raw_inode.rsize = 0;
-       raw_inode.nsize = new_dentry->d_name.len;
-       raw_inode.nlink = f->nlink;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = 0;
-
-       /* See if there already exists a file with the same name as
-          new_name.  */
-       if ((del_f = jffs_find_child(new_dir_f, new_dentry->d_name.name,
-                                    new_dentry->d_name.len))) {
-               raw_inode.rename = 1;
-               raw_inode.dsize = sizeof(__u32);
-               rename_data = del_f->ino;
-       }
-
-       /* Write the new node to the flash memory.  */
-       if ((result = jffs_write_node(c, node, &raw_inode,
-                                     new_dentry->d_name.name,
-                                     (unsigned char*)&rename_data, 0, f)) < 0) {
-               D(printk("jffs_rename(): Failed to write node to flash.\n"));
-               jffs_free_node(node);
-               goto jffs_rename_end;
-       }
-       raw_inode.dsize = 0;
-
-       if (raw_inode.rename) {
-               /* The file with the same name must be deleted.  */
-               //FIXME deadlock                down(&c->fmc->gclock);
-               if ((result = jffs_remove(new_dir, new_dentry,
-                                         del_f->mode)) < 0) {
-                       /* This is really bad.  */
-                       printk(KERN_ERR "JFFS: An error occurred in "
-                              "rename().\n");
-               }
-               //              up(&c->fmc->gclock);
-       }
-
-       if (old_dir_f != new_dir_f) {
-               /* Remove the file from its old position in the
-                  filesystem tree.  */
-               jffs_unlink_file_from_tree(f);
-       }
-
-       /* Insert the new node into the file system.  */
-       if ((result = jffs_insert_node(c, f, &raw_inode,
-                                      new_dentry->d_name.name, node)) < 0) {
-               D(printk(KERN_ERR "jffs_rename(): jffs_insert_node() "
-                        "failed!\n"));
-       }
-
-       if (old_dir_f != new_dir_f) {
-               /* Insert the file to its new position in the
-                  file system.  */
-               jffs_insert_file_into_tree(f);
-       }
-
-       /* This is a kind of update of the inode we're about to make
-          here.  This is what they do in ext2fs.  Kind of.  */
-       if ((inode = iget(new_dir->i_sb, f->ino))) {
-               inode->i_ctime = CURRENT_TIME_SEC;
-               mark_inode_dirty(inode);
-               iput(inode);
-       }
-
-jffs_rename_end:
-       D3(printk (KERN_NOTICE "rename(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return result;
-} /* jffs_rename()  */
-
-
-/* Read the contents of a directory.  Used by programs like `ls'
-   for instance.  */
-static int
-jffs_readdir(struct file *filp, void *dirent, filldir_t filldir)
-{
-       struct jffs_file *f;
-       struct dentry *dentry = filp->f_path.dentry;
-       struct inode *inode = dentry->d_inode;
-       struct jffs_control *c = (struct jffs_control *)inode->i_sb->s_fs_info;
-       int j;
-       int ddino;
-       lock_kernel();
-       D3(printk (KERN_NOTICE "readdir(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       D2(printk("jffs_readdir(): inode: 0x%p, filp: 0x%p\n", inode, filp));
-       if (filp->f_pos == 0) {
-               D3(printk("jffs_readdir(): \".\" %lu\n", inode->i_ino));
-               if (filldir(dirent, ".", 1, filp->f_pos, inode->i_ino, DT_DIR) < 0) {
-                       D3(printk (KERN_NOTICE "readdir(): up biglock\n"));
-                       mutex_unlock(&c->fmc->biglock);
-                       unlock_kernel();
-                       return 0;
-               }
-               filp->f_pos = 1;
-       }
-       if (filp->f_pos == 1) {
-               if (inode->i_ino == JFFS_MIN_INO) {
-                       ddino = JFFS_MIN_INO;
-               }
-               else {
-                       ddino = ((struct jffs_file *)
-                                inode->i_private)->pino;
-               }
-               D3(printk("jffs_readdir(): \"..\" %u\n", ddino));
-               if (filldir(dirent, "..", 2, filp->f_pos, ddino, DT_DIR) < 0) {
-                       D3(printk (KERN_NOTICE "readdir(): up biglock\n"));
-                       mutex_unlock(&c->fmc->biglock);
-                       unlock_kernel();
-                       return 0;
-               }
-               filp->f_pos++;
-       }
-       f = ((struct jffs_file *)inode->i_private)->children;
-
-       j = 2;
-       while(f && (f->deleted || j++ < filp->f_pos )) {
-               f = f->sibling_next;
-       }
-
-       while (f) {
-               D3(printk("jffs_readdir(): \"%s\" ino: %u\n",
-                         (f->name ? f->name : ""), f->ino));
-               if (filldir(dirent, f->name, f->nsize,
-                           filp->f_pos , f->ino, DT_UNKNOWN) < 0) {
-                       D3(printk (KERN_NOTICE "readdir(): up biglock\n"));
-                       mutex_unlock(&c->fmc->biglock);
-                       unlock_kernel();
-                       return 0;
-               }
-               filp->f_pos++;
-               do {
-                       f = f->sibling_next;
-               } while(f && f->deleted);
-       }
-       D3(printk (KERN_NOTICE "readdir(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return filp->f_pos;
-} /* jffs_readdir()  */
-
-
-/* Find a file in a directory. If the file exists, return its
-   corresponding dentry.  */
-static struct dentry *
-jffs_lookup(struct inode *dir, struct dentry *dentry, struct nameidata *nd)
-{
-       struct jffs_file *d;
-       struct jffs_file *f;
-       struct jffs_control *c = (struct jffs_control *)dir->i_sb->s_fs_info;
-       int len;
-       int r = 0;
-       const char *name;
-       struct inode *inode = NULL;
-
-       len = dentry->d_name.len;
-       name = dentry->d_name.name;
-
-       lock_kernel();
-
-       D3({
-               char *s = kmalloc(len + 1, GFP_KERNEL);
-               memcpy(s, name, len);
-               s[len] = '\0';
-               printk("jffs_lookup(): dir: 0x%p, name: \"%s\"\n", dir, s);
-               kfree(s);
-       });
-
-       D3(printk (KERN_NOTICE "lookup(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       r = -ENAMETOOLONG;
-       if (len > JFFS_MAX_NAME_LEN) {
-               goto jffs_lookup_end;
-       }
-
-       r = -EACCES;
-       if (!(d = (struct jffs_file *)dir->i_private)) {
-               D(printk("jffs_lookup(): No such inode! (%lu)\n",
-                        dir->i_ino));
-               goto jffs_lookup_end;
-       }
-
-       /* Get the corresponding inode to the file.  */
-
-       /* iget calls jffs_read_inode, so we need to drop the biglock
-           before calling iget.  Unfortunately, the GC has a tendency
-           to sneak in here, because iget sometimes calls schedule ().
-       */
-
-       if ((len == 1) && (name[0] == '.')) {
-               D3(printk (KERN_NOTICE "lookup(): up biglock\n"));
-               mutex_unlock(&c->fmc->biglock);
-               if (!(inode = iget(dir->i_sb, d->ino))) {
-                       D(printk("jffs_lookup(): . iget() ==> NULL\n"));
-                       goto jffs_lookup_end_no_biglock;
-               }
-               D3(printk (KERN_NOTICE "lookup(): down biglock\n"));
-               mutex_lock(&c->fmc->biglock);
-       } else if ((len == 2) && (name[0] == '.') && (name[1] == '.')) {
-               D3(printk (KERN_NOTICE "lookup(): up biglock\n"));
-               mutex_unlock(&c->fmc->biglock);
-               if (!(inode = iget(dir->i_sb, d->pino))) {
-                       D(printk("jffs_lookup(): .. iget() ==> NULL\n"));
-                       goto jffs_lookup_end_no_biglock;
-               }
-               D3(printk (KERN_NOTICE "lookup(): down biglock\n"));
-               mutex_lock(&c->fmc->biglock);
-       } else if ((f = jffs_find_child(d, name, len))) {
-               D3(printk (KERN_NOTICE "lookup(): up biglock\n"));
-               mutex_unlock(&c->fmc->biglock);
-               if (!(inode = iget(dir->i_sb, f->ino))) {
-                       D(printk("jffs_lookup(): iget() ==> NULL\n"));
-                       goto jffs_lookup_end_no_biglock;
-               }
-               D3(printk (KERN_NOTICE "lookup(): down biglock\n"));
-               mutex_lock(&c->fmc->biglock);
-       } else {
-               D3(printk("jffs_lookup(): Couldn't find the file. "
-                         "f = 0x%p, name = \"%s\", d = 0x%p, d->ino = %u\n",
-                         f, name, d, d->ino));
-               inode = NULL;
-       }
-
-       d_add(dentry, inode);
-       D3(printk (KERN_NOTICE "lookup(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return NULL;
-
-jffs_lookup_end:
-       D3(printk (KERN_NOTICE "lookup(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-
-jffs_lookup_end_no_biglock:
-       unlock_kernel();
-       return ERR_PTR(r);
-} /* jffs_lookup()  */
-
-
-/* Try to read a page of data from a file.  */
-static int
-jffs_do_readpage_nolock(struct file *file, struct page *page)
-{
-       void *buf;
-       unsigned long read_len;
-       int result;
-       struct inode *inode = (struct inode*)page->mapping->host;
-       struct jffs_file *f = (struct jffs_file *)inode->i_private;
-       struct jffs_control *c = (struct jffs_control *)inode->i_sb->s_fs_info;
-       int r;
-       loff_t offset;
-
-       D2(printk("***jffs_readpage(): file = \"%s\", page->index = %lu\n",
-                 (f->name ? f->name : ""), (long)page->index));
-
-       get_page(page);
-       /* Don't SetPageLocked(page), should be locked already */
-       ClearPageUptodate(page);
-       ClearPageError(page);
-
-       D3(printk (KERN_NOTICE "readpage(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       read_len = 0;
-       result = 0;
-       offset = page_offset(page);
-
-       kmap(page);
-       buf = page_address(page);
-       if (offset < inode->i_size) {
-               read_len = min_t(long, inode->i_size - offset, PAGE_SIZE);
-               r = jffs_read_data(f, buf, offset, read_len);
-               if (r != read_len) {
-                       result = -EIO;
-                       D(
-                               printk("***jffs_readpage(): Read error! "
-                                      "Wanted to read %lu bytes but only "
-                                      "read %d bytes.\n", read_len, r);
-                         );
-               }
-
-       }
-
-       /* This handles the case of partial or no read in above */
-       if(read_len < PAGE_SIZE)
-               memset(buf + read_len, 0, PAGE_SIZE - read_len);
-       flush_dcache_page(page);
-       kunmap(page);
-
-       D3(printk (KERN_NOTICE "readpage(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-
-       if (result) {
-               SetPageError(page);
-       }else {
-               SetPageUptodate(page);          
-       }
-
-       page_cache_release(page);
-
-       D3(printk("jffs_readpage(): Leaving...\n"));
-
-       return result;
-} /* jffs_do_readpage_nolock()  */
-
-static int jffs_readpage(struct file *file, struct page *page)
-{
-       int ret = jffs_do_readpage_nolock(file, page);
-       unlock_page(page);
-       return ret;
-}
-
-/* Create a new directory.  */
-static int
-jffs_mkdir(struct inode *dir, struct dentry *dentry, int mode)
-{
-       struct jffs_raw_inode raw_inode;
-       struct jffs_control *c;
-       struct jffs_node *node;
-       struct jffs_file *dir_f;
-       struct inode *inode;
-       int dir_mode;
-       int result = 0;
-       int err;
-
-       D1({
-               int len = dentry->d_name.len;
-               char *_name = kmalloc(len + 1, GFP_KERNEL);
-               memcpy(_name, dentry->d_name.name, len);
-               _name[len] = '\0';
-               printk("***jffs_mkdir(): dir = 0x%p, name = \"%s\", "
-                      "len = %d, mode = 0x%08x\n", dir, _name, len, mode);
-               kfree(_name);
-       });
-
-       lock_kernel();
-       dir_f = dir->i_private;
-
-       ASSERT(if (!dir_f) {
-               printk(KERN_ERR "jffs_mkdir(): No reference to a "
-                      "jffs_file struct in inode.\n");
-               unlock_kernel();
-               return -EIO;
-       });
-
-       c = dir_f->c;
-       D3(printk (KERN_NOTICE "mkdir(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       dir_mode = S_IFDIR | (mode & (S_IRWXUGO|S_ISVTX)
-                             & ~current->fs->umask);
-       if (dir->i_mode & S_ISGID) {
-               dir_mode |= S_ISGID;
-       }
-
-       /* Create a node and initialize it as much as needed.  */
-       if (!(node = jffs_alloc_node())) {
-               D(printk("jffs_mkdir(): Allocation failed: node == 0\n"));
-               result = -ENOMEM;
-               goto jffs_mkdir_end;
-       }
-       node->data_offset = 0;
-       node->removed_size = 0;
-
-       /* Initialize the raw inode.  */
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = c->next_ino++;
-       raw_inode.pino = dir_f->ino;
-       raw_inode.version = 1;
-       raw_inode.mode = dir_mode;
-       raw_inode.uid = current->fsuid;
-       raw_inode.gid = (dir->i_mode & S_ISGID) ? dir->i_gid : current->fsgid;
-       /*      raw_inode.gid = current->fsgid; */
-       raw_inode.atime = get_seconds();
-       raw_inode.mtime = raw_inode.atime;
-       raw_inode.ctime = raw_inode.atime;
-       raw_inode.offset = 0;
-       raw_inode.dsize = 0;
-       raw_inode.rsize = 0;
-       raw_inode.nsize = dentry->d_name.len;
-       raw_inode.nlink = 1;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = 0;
-
-       /* Write the new node to the flash.  */
-       if ((result = jffs_write_node(c, node, &raw_inode,
-                                    dentry->d_name.name, NULL, 0, NULL)) < 0) {
-               D(printk("jffs_mkdir(): jffs_write_node() failed.\n"));
-               jffs_free_node(node);
-               goto jffs_mkdir_end;
-       }
-
-       /* Insert the new node into the file system.  */
-       if ((result = jffs_insert_node(c, NULL, &raw_inode, dentry->d_name.name,
-                                      node)) < 0) {
-               goto jffs_mkdir_end;
-       }
-
-       inode = jffs_new_inode(dir, &raw_inode, &err);
-       if (inode == NULL) {
-               result = err;
-               goto jffs_mkdir_end;
-       }
-
-       inode->i_op = &jffs_dir_inode_operations;
-       inode->i_fop = &jffs_dir_operations;
-
-       mark_inode_dirty(dir);
-       d_instantiate(dentry, inode);
-
-       result = 0;
-jffs_mkdir_end:
-       D3(printk (KERN_NOTICE "mkdir(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return result;
-} /* jffs_mkdir()  */
-
-
-/* Remove a directory.  */
-static int
-jffs_rmdir(struct inode *dir, struct dentry *dentry)
-{
-       struct jffs_control *c = (struct jffs_control *)dir->i_sb->s_fs_info;
-       int ret;
-       D3(printk("***jffs_rmdir()\n"));
-       D3(printk (KERN_NOTICE "rmdir(): down biglock\n"));
-       lock_kernel();
-       mutex_lock(&c->fmc->biglock);
-       ret = jffs_remove(dir, dentry, S_IFDIR);
-       D3(printk (KERN_NOTICE "rmdir(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return ret;
-}
-
-
-/* Remove any kind of file except for directories.  */
-static int
-jffs_unlink(struct inode *dir, struct dentry *dentry)
-{
-       struct jffs_control *c = (struct jffs_control *)dir->i_sb->s_fs_info;
-       int ret; 
-
-       lock_kernel();
-       D3(printk("***jffs_unlink()\n"));
-       D3(printk (KERN_NOTICE "unlink(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-       ret = jffs_remove(dir, dentry, 0);
-       D3(printk (KERN_NOTICE "unlink(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return ret;
-}
-
-
-/* Remove a JFFS entry, i.e. plain files, directories, etc.  Here we
-   shouldn't test for free space on the device.  */
-static int
-jffs_remove(struct inode *dir, struct dentry *dentry, int type)
-{
-       struct jffs_raw_inode raw_inode;
-       struct jffs_control *c;
-       struct jffs_file *dir_f; /* The file-to-remove's parent.  */
-       struct jffs_file *del_f; /* The file to remove.  */
-       struct jffs_node *del_node;
-       struct inode *inode = NULL;
-       int result = 0;
-
-       D1({
-               int len = dentry->d_name.len;
-               const char *name = dentry->d_name.name;
-               char *_name = kmalloc(len + 1, GFP_KERNEL);
-               memcpy(_name, name, len);
-               _name[len] = '\0';
-               printk("***jffs_remove(): file = \"%s\", ino = %ld\n", _name, dentry->d_inode->i_ino);
-               kfree(_name);
-       });
-
-       dir_f = dir->i_private;
-       c = dir_f->c;
-
-       result = -ENOENT;
-       if (!(del_f = jffs_find_child(dir_f, dentry->d_name.name,
-                                     dentry->d_name.len))) {
-               D(printk("jffs_remove(): jffs_find_child() failed.\n"));
-               goto jffs_remove_end;
-       }
-
-       if (S_ISDIR(type)) {
-               struct jffs_file *child = del_f->children;
-               while(child) {
-                       if( !child->deleted ) {
-                               result = -ENOTEMPTY;
-                               goto jffs_remove_end;
-                       }
-                       child = child->sibling_next;
-               }
-       }            
-       else if (S_ISDIR(del_f->mode)) {
-               D(printk("jffs_remove(): node is a directory "
-                        "but it shouldn't be.\n"));
-               result = -EPERM;
-               goto jffs_remove_end;
-       }
-
-       inode = dentry->d_inode;
-
-       result = -EIO;
-       if (del_f->ino != inode->i_ino)
-               goto jffs_remove_end;
-
-       if (!inode->i_nlink) {
-               printk("Deleting nonexistent file inode: %lu, nlink: %d\n",
-                      inode->i_ino, inode->i_nlink);
-               inode->i_nlink=1;
-       }
-
-       /* Create a node for the deletion.  */
-       result = -ENOMEM;
-       if (!(del_node = jffs_alloc_node())) {
-               D(printk("jffs_remove(): Allocation failed!\n"));
-               goto jffs_remove_end;
-       }
-       del_node->data_offset = 0;
-       del_node->removed_size = 0;
-
-       /* Initialize the raw inode.  */
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = del_f->ino;
-       raw_inode.pino = del_f->pino;
-/*     raw_inode.version = del_f->highest_version + 1; */
-       raw_inode.mode = del_f->mode;
-       raw_inode.uid = current->fsuid;
-       raw_inode.gid = current->fsgid;
-       raw_inode.atime = get_seconds();
-       raw_inode.mtime = del_f->mtime;
-       raw_inode.ctime = raw_inode.atime;
-       raw_inode.offset = 0;
-       raw_inode.dsize = 0;
-       raw_inode.rsize = 0;
-       raw_inode.nsize = 0;
-       raw_inode.nlink = del_f->nlink;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = 1;
-
-       /* Write the new node to the flash memory.  */
-       if (jffs_write_node(c, del_node, &raw_inode, NULL, NULL, 1, del_f) < 0) {
-               jffs_free_node(del_node);
-               result = -EIO;
-               goto jffs_remove_end;
-       }
-
-       /* Update the file.  This operation will make the file disappear
-          from the in-memory file system structures.  */
-       jffs_insert_node(c, del_f, &raw_inode, NULL, del_node);
-
-       dir->i_ctime = dir->i_mtime = CURRENT_TIME_SEC;
-       mark_inode_dirty(dir);
-       inode->i_ctime = dir->i_ctime;
-       inode_dec_link_count(inode);
-
-       d_delete(dentry);       /* This also frees the inode */
-
-       result = 0;
-jffs_remove_end:
-       return result;
-} /* jffs_remove()  */
-
-
-static int
-jffs_mknod(struct inode *dir, struct dentry *dentry, int mode, dev_t rdev)
-{
-       struct jffs_raw_inode raw_inode;
-       struct jffs_file *dir_f;
-       struct jffs_node *node = NULL;
-       struct jffs_control *c;
-       struct inode *inode;
-       int result = 0;
-       u16 data = old_encode_dev(rdev);
-       int err;
-
-       D1(printk("***jffs_mknod()\n"));
-
-       if (!old_valid_dev(rdev))
-               return -EINVAL;
-       lock_kernel();
-       dir_f = dir->i_private;
-       c = dir_f->c;
-
-       D3(printk (KERN_NOTICE "mknod(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       /* Create and initialize a new node.  */
-       if (!(node = jffs_alloc_node())) {
-               D(printk("jffs_mknod(): Allocation failed!\n"));
-               result = -ENOMEM;
-               goto jffs_mknod_err;
-       }
-       node->data_offset = 0;
-       node->removed_size = 0;
-
-       /* Initialize the raw inode.  */
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = c->next_ino++;
-       raw_inode.pino = dir_f->ino;
-       raw_inode.version = 1;
-       raw_inode.mode = mode;
-       raw_inode.uid = current->fsuid;
-       raw_inode.gid = (dir->i_mode & S_ISGID) ? dir->i_gid : current->fsgid;
-       /*      raw_inode.gid = current->fsgid; */
-       raw_inode.atime = get_seconds();
-       raw_inode.mtime = raw_inode.atime;
-       raw_inode.ctime = raw_inode.atime;
-       raw_inode.offset = 0;
-       raw_inode.dsize = 2;
-       raw_inode.rsize = 0;
-       raw_inode.nsize = dentry->d_name.len;
-       raw_inode.nlink = 1;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = 0;
-
-       /* Write the new node to the flash.  */
-       if ((err = jffs_write_node(c, node, &raw_inode, dentry->d_name.name,
-                                  (unsigned char *)&data, 0, NULL)) < 0) {
-               D(printk("jffs_mknod(): jffs_write_node() failed.\n"));
-               result = err;
-               goto jffs_mknod_err;
-       }
-
-       /* Insert the new node into the file system.  */
-       if ((err = jffs_insert_node(c, NULL, &raw_inode, dentry->d_name.name,
-                                   node)) < 0) {
-               result = err;
-               goto jffs_mknod_end;
-       }
-
-       inode = jffs_new_inode(dir, &raw_inode, &err);
-       if (inode == NULL) {
-               result = err;
-               goto jffs_mknod_end;
-       }
-
-       init_special_inode(inode, mode, rdev);
-
-       d_instantiate(dentry, inode);
-
-       goto jffs_mknod_end;
-
-jffs_mknod_err:
-       if (node) {
-               jffs_free_node(node);
-       }
-
-jffs_mknod_end:
-       D3(printk (KERN_NOTICE "mknod(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return result;
-} /* jffs_mknod()  */
-
-
-static int
-jffs_symlink(struct inode *dir, struct dentry *dentry, const char *symname)
-{
-       struct jffs_raw_inode raw_inode;
-       struct jffs_control *c;
-       struct jffs_file *dir_f;
-       struct jffs_node *node;
-       struct inode *inode;
-
-       int symname_len = strlen(symname);
-       int err;
-
-       lock_kernel();
-       D1({
-               int len = dentry->d_name.len; 
-               char *_name = kmalloc(len + 1, GFP_KERNEL);
-               char *_symname = kmalloc(symname_len + 1, GFP_KERNEL);
-               memcpy(_name, dentry->d_name.name, len);
-               _name[len] = '\0';
-               memcpy(_symname, symname, symname_len);
-               _symname[symname_len] = '\0';
-               printk("***jffs_symlink(): dir = 0x%p, "
-                      "dentry->dname.name = \"%s\", "
-                      "symname = \"%s\"\n", dir, _name, _symname);
-               kfree(_name);
-               kfree(_symname);
-       });
-
-       dir_f = dir->i_private;
-       ASSERT(if (!dir_f) {
-               printk(KERN_ERR "jffs_symlink(): No reference to a "
-                      "jffs_file struct in inode.\n");
-               unlock_kernel();
-               return -EIO;
-       });
-
-       c = dir_f->c;
-
-       /* Create a node and initialize it as much as needed.  */
-       if (!(node = jffs_alloc_node())) {
-               D(printk("jffs_symlink(): Allocation failed: node = NULL\n"));
-               unlock_kernel();
-               return -ENOMEM;
-       }
-       D3(printk (KERN_NOTICE "symlink(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       node->data_offset = 0;
-       node->removed_size = 0;
-
-       /* Initialize the raw inode.  */
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = c->next_ino++;
-       raw_inode.pino = dir_f->ino;
-       raw_inode.version = 1;
-       raw_inode.mode = S_IFLNK | S_IRWXUGO;
-       raw_inode.uid = current->fsuid;
-       raw_inode.gid = (dir->i_mode & S_ISGID) ? dir->i_gid : current->fsgid;
-       raw_inode.atime = get_seconds();
-       raw_inode.mtime = raw_inode.atime;
-       raw_inode.ctime = raw_inode.atime;
-       raw_inode.offset = 0;
-       raw_inode.dsize = symname_len;
-       raw_inode.rsize = 0;
-       raw_inode.nsize = dentry->d_name.len;
-       raw_inode.nlink = 1;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = 0;
-
-       /* Write the new node to the flash.  */
-       if ((err = jffs_write_node(c, node, &raw_inode, dentry->d_name.name,
-                                  (const unsigned char *)symname, 0, NULL)) < 0) {
-               D(printk("jffs_symlink(): jffs_write_node() failed.\n"));
-               jffs_free_node(node);
-               goto jffs_symlink_end;
-       }
-
-       /* Insert the new node into the file system.  */
-       if ((err = jffs_insert_node(c, NULL, &raw_inode, dentry->d_name.name,
-                                   node)) < 0) {
-               goto jffs_symlink_end;
-       }
-
-       inode = jffs_new_inode(dir, &raw_inode, &err);
-       if (inode == NULL) {
-               goto jffs_symlink_end;
-       }
-       err = 0;
-       inode->i_op = &page_symlink_inode_operations;
-       inode->i_mapping->a_ops = &jffs_address_operations;
-
-       d_instantiate(dentry, inode);
- jffs_symlink_end:
-       D3(printk (KERN_NOTICE "symlink(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return err;
-} /* jffs_symlink()  */
-
-
-/* Create an inode inside a JFFS directory (dir) and return it.
- *
- * By the time this is called, we already have created
- * the directory cache entry for the new file, but it
- * is so far negative - it has no inode.
- *
- * If the create succeeds, we fill in the inode information
- * with d_instantiate().
- */
-static int
-jffs_create(struct inode *dir, struct dentry *dentry, int mode,
-               struct nameidata *nd)
-{
-       struct jffs_raw_inode raw_inode;
-       struct jffs_control *c;
-       struct jffs_node *node;
-       struct jffs_file *dir_f; /* JFFS representation of the directory.  */
-       struct inode *inode;
-       int err;
-
-       lock_kernel();
-       D1({
-               int len = dentry->d_name.len;
-               char *s = kmalloc(len + 1, GFP_KERNEL);
-               memcpy(s, dentry->d_name.name, len);
-               s[len] = '\0';
-               printk("jffs_create(): dir: 0x%p, name: \"%s\"\n", dir, s);
-               kfree(s);
-       });
-
-       dir_f = dir->i_private;
-       ASSERT(if (!dir_f) {
-               printk(KERN_ERR "jffs_create(): No reference to a "
-                      "jffs_file struct in inode.\n");
-               unlock_kernel();
-               return -EIO;
-       });
-
-       c = dir_f->c;
-
-       /* Create a node and initialize as much as needed.  */
-       if (!(node = jffs_alloc_node())) {
-               D(printk("jffs_create(): Allocation failed: node == 0\n"));
-               unlock_kernel();
-               return -ENOMEM;
-       }
-       D3(printk (KERN_NOTICE "create(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       node->data_offset = 0;
-       node->removed_size = 0;
-
-       /* Initialize the raw inode.  */
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = c->next_ino++;
-       raw_inode.pino = dir_f->ino;
-       raw_inode.version = 1;
-       raw_inode.mode = mode;
-       raw_inode.uid = current->fsuid;
-       raw_inode.gid = (dir->i_mode & S_ISGID) ? dir->i_gid : current->fsgid;
-       raw_inode.atime = get_seconds();
-       raw_inode.mtime = raw_inode.atime;
-       raw_inode.ctime = raw_inode.atime;
-       raw_inode.offset = 0;
-       raw_inode.dsize = 0;
-       raw_inode.rsize = 0;
-       raw_inode.nsize = dentry->d_name.len;
-       raw_inode.nlink = 1;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = 0;
-
-       /* Write the new node to the flash.  */
-       if ((err = jffs_write_node(c, node, &raw_inode,
-                                  dentry->d_name.name, NULL, 0, NULL)) < 0) {
-               D(printk("jffs_create(): jffs_write_node() failed.\n"));
-               jffs_free_node(node);
-               goto jffs_create_end;
-       }
-
-       /* Insert the new node into the file system.  */
-       if ((err = jffs_insert_node(c, NULL, &raw_inode, dentry->d_name.name,
-                                   node)) < 0) {
-               goto jffs_create_end;
-       }
-
-       /* Initialize an inode.  */
-       inode = jffs_new_inode(dir, &raw_inode, &err);
-       if (inode == NULL) {
-               goto jffs_create_end;
-       }
-       err = 0;
-       inode->i_op = &jffs_file_inode_operations;
-       inode->i_fop = &jffs_file_operations;
-       inode->i_mapping->a_ops = &jffs_address_operations;
-       inode->i_mapping->nrpages = 0;
-
-       d_instantiate(dentry, inode);
- jffs_create_end:
-       D3(printk (KERN_NOTICE "create(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       unlock_kernel();
-       return err;
-} /* jffs_create()  */
-
-
-/* Write, append or rewrite data to an existing file.  */
-static ssize_t
-jffs_file_write(struct file *filp, const char *buf, size_t count,
-               loff_t *ppos)
-{
-       struct jffs_raw_inode raw_inode;
-       struct jffs_control *c;
-       struct jffs_file *f;
-       struct jffs_node *node;
-       struct dentry *dentry = filp->f_path.dentry;
-       struct inode *inode = dentry->d_inode;
-       int recoverable = 0;
-       size_t written = 0;
-       __u32 thiscount = count;
-       loff_t pos = *ppos;
-       int err;
-
-       inode = filp->f_path.dentry->d_inode;
-
-       D2(printk("***jffs_file_write(): inode: 0x%p (ino: %lu), "
-                 "filp: 0x%p, buf: 0x%p, count: %d\n",
-                 inode, inode->i_ino, filp, buf, count));
-
-#if 0
-       if (inode->i_sb->s_flags & MS_RDONLY) {
-               D(printk("jffs_file_write(): MS_RDONLY\n"));
-               err = -EROFS;
-               goto out_isem;
-       }
-#endif 
-       err = -EINVAL;
-
-       if (!S_ISREG(inode->i_mode)) {
-               D(printk("jffs_file_write(): inode->i_mode == 0x%08x\n",
-                               inode->i_mode));
-               goto out_isem;
-       }
-
-       if (!(f = inode->i_private)) {
-               D(printk("jffs_file_write(): inode->i_private = 0x%p\n",
-                               inode->i_private));
-               goto out_isem;
-       }
-
-       c = f->c;
-
-       /*
-        * This will never trigger with sane page sizes.  leave it in
-        * anyway, since I'm thinking about how to merge larger writes
-        * (the current idea is to poke a thread that does the actual
-        * I/O and starts by doing a mutex_lock(&inode->i_mutex).  then we
-        * would need to get the page cache pages and have a list of
-        * I/O requests and do write-merging here.
-        * -- prumpf
-        */
-       thiscount = min(c->fmc->max_chunk_size - sizeof(struct jffs_raw_inode), count);
-
-       D3(printk (KERN_NOTICE "file_write(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       /* Urgh. POSIX says we can do short writes if we feel like it. 
-        * In practice, we can't. Nothing will cope. So we loop until
-        * we're done.
-        *
-        * <_Anarchy_> posix and reality are not interconnected on this issue
-        */
-       while (count) {
-               /* Things are going to be written so we could allocate and
-                  initialize the necessary data structures now.  */
-               if (!(node = jffs_alloc_node())) {
-                       D(printk("jffs_file_write(): node == 0\n"));
-                       err = -ENOMEM;
-                       goto out;
-               }
-
-               node->data_offset = pos;
-               node->removed_size = 0;
-
-               /* Initialize the raw inode.  */
-               raw_inode.magic = JFFS_MAGIC_BITMASK;
-               raw_inode.ino = f->ino;
-               raw_inode.pino = f->pino;
-
-               raw_inode.mode = f->mode;
-
-               raw_inode.uid = f->uid;
-               raw_inode.gid = f->gid;
-               raw_inode.atime = get_seconds();
-               raw_inode.mtime = raw_inode.atime;
-               raw_inode.ctime = f->ctime;
-               raw_inode.offset = pos;
-               raw_inode.dsize = thiscount;
-               raw_inode.rsize = 0;
-               raw_inode.nsize = f->nsize;
-               raw_inode.nlink = f->nlink;
-               raw_inode.spare = 0;
-               raw_inode.rename = 0;
-               raw_inode.deleted = 0;
-
-               if (pos < f->size) {
-                       node->removed_size = raw_inode.rsize = min(thiscount, (__u32)(f->size - pos));
-
-                       /* If this node is going entirely over the top of old data,
-                          we can allow it to go into the reserved space, because
-                          we know that GC can reclaim the space later.
-                       */
-                       if (pos + thiscount < f->size) {
-                               /* If all the data we're overwriting are _real_,
-                                  not just holes, then:
-                                  recoverable = 1;
-                               */
-                       }
-               }
-
-               /* Write the new node to the flash.  */
-               /* NOTE: We would be quite happy if jffs_write_node() wrote a
-                  smaller node than we were expecting. There's no need for it
-                  to waste the space at the end of the flash just because it's
-                  a little smaller than what we asked for. But that's a whole
-                  new can of worms which I'm not going to open this week. 
-                  -- dwmw2.
-               */
-               if ((err = jffs_write_node(c, node, &raw_inode, f->name,
-                                          (const unsigned char *)buf,
-                                          recoverable, f)) < 0) {
-                       D(printk("jffs_file_write(): jffs_write_node() failed.\n"));
-                       jffs_free_node(node);
-                       goto out;
-               }
-
-               written += err;
-               buf += err;
-               count -= err;
-               pos += err;
-
-               /* Insert the new node into the file system.  */
-               if ((err = jffs_insert_node(c, f, &raw_inode, NULL, node)) < 0) {
-                       goto out;
-               }
-
-               D3(printk("jffs_file_write(): new f_pos %ld.\n", (long)pos));
-
-               thiscount = min(c->fmc->max_chunk_size - sizeof(struct jffs_raw_inode), count);
-       }
- out:
-       D3(printk (KERN_NOTICE "file_write(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-
-       /* Fix things in the real inode.  */
-       if (pos > inode->i_size) {
-               inode->i_size = pos;
-               inode->i_blocks = (inode->i_size + 511) >> 9;
-       }
-       inode->i_ctime = inode->i_mtime = CURRENT_TIME_SEC;
-       mark_inode_dirty(inode);
-       invalidate_mapping_pages(inode->i_mapping, 0, -1);
-
- out_isem:
-       return err;
-} /* jffs_file_write()  */
-
-static int
-jffs_prepare_write(struct file *filp, struct page *page,
-                  unsigned from, unsigned to)
-{
-       /* FIXME: we should detect some error conditions here */
-
-       /* Bugger that. We should make sure the page is uptodate */
-       if (!PageUptodate(page) && (from || to < PAGE_CACHE_SIZE))
-               return jffs_do_readpage_nolock(filp, page);
-
-       return 0;
-} /* jffs_prepare_write() */
-
-static int
-jffs_commit_write(struct file *filp, struct page *page,
-                 unsigned from, unsigned to)
-{
-       void *addr = page_address(page) + from;
-       /* XXX: PAGE_CACHE_SHIFT or PAGE_SHIFT */
-       loff_t pos = page_offset(page) + from;
-
-       return jffs_file_write(filp, addr, to-from, &pos);
-} /* jffs_commit_write() */
-
-/* This is our ioctl() routine.  */
-static int
-jffs_ioctl(struct inode *inode, struct file *filp, unsigned int cmd,
-          unsigned long arg)
-{
-       struct jffs_control *c;
-       int ret = 0;
-
-       D2(printk("***jffs_ioctl(): cmd = 0x%08x, arg = 0x%08lx\n",
-                 cmd, arg));
-
-       if (!(c = (struct jffs_control *)inode->i_sb->s_fs_info)) {
-               printk(KERN_ERR "JFFS: Bad inode in ioctl() call. "
-                      "(cmd = 0x%08x)\n", cmd);
-               return -EIO;
-       }
-       D3(printk (KERN_NOTICE "ioctl(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-
-       switch (cmd) {
-       case JFFS_PRINT_HASH:
-               jffs_print_hash_table(c);
-               break;
-       case JFFS_PRINT_TREE:
-               jffs_print_tree(c->root, 0);
-               break;
-       case JFFS_GET_STATUS:
-               {
-                       struct jffs_flash_status fst;
-                       struct jffs_fmcontrol *fmc = c->fmc;
-                       printk("Flash status -- ");
-                       if (!access_ok(VERIFY_WRITE,
-                                      (struct jffs_flash_status __user *)arg,
-                                      sizeof(struct jffs_flash_status))) {
-                               D(printk("jffs_ioctl(): Bad arg in "
-                                        "JFFS_GET_STATUS ioctl!\n"));
-                               ret = -EFAULT;
-                               break;
-                       }
-                       fst.size = fmc->flash_size;
-                       fst.used = fmc->used_size;
-                       fst.dirty = fmc->dirty_size;
-                       fst.begin = fmc->head->offset;
-                       fst.end = fmc->tail->offset + fmc->tail->size;
-                       printk("size: %d, used: %d, dirty: %d, "
-                              "begin: %d, end: %d\n",
-                              fst.size, fst.used, fst.dirty,
-                              fst.begin, fst.end);
-                       if (copy_to_user((struct jffs_flash_status __user *)arg,
-                                        &fst,
-                                        sizeof(struct jffs_flash_status))) {
-                               ret = -EFAULT;
-                       }
-               }
-               break;
-       default:
-               ret = -ENOTTY;
-       }
-       D3(printk (KERN_NOTICE "ioctl(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-       return ret;
-} /* jffs_ioctl()  */
-
-
-static const struct address_space_operations jffs_address_operations = {
-       .readpage       = jffs_readpage,
-       .prepare_write  = jffs_prepare_write,
-       .commit_write   = jffs_commit_write,
-};
-
-static int jffs_fsync(struct file *f, struct dentry *d, int datasync)
-{
-       /* We currently have O_SYNC operations at all times.
-          Do nothing.
-       */
-       return 0;
-}
-
-
-static const struct file_operations jffs_file_operations =
-{
-       .open           = generic_file_open,
-       .llseek         = generic_file_llseek,
-       .read           = do_sync_read,
-       .aio_read       = generic_file_aio_read,
-       .write          = do_sync_write,
-       .aio_write      = generic_file_aio_write,
-       .ioctl          = jffs_ioctl,
-       .mmap           = generic_file_readonly_mmap,
-       .fsync          = jffs_fsync,
-       .sendfile       = generic_file_sendfile,
-};
-
-
-static const struct inode_operations jffs_file_inode_operations =
-{
-       .lookup         = jffs_lookup,          /* lookup */
-       .setattr        = jffs_setattr,
-};
-
-
-static const struct file_operations jffs_dir_operations =
-{
-       .readdir        = jffs_readdir,
-};
-
-
-static const struct inode_operations jffs_dir_inode_operations =
-{
-       .create         = jffs_create,
-       .lookup         = jffs_lookup,
-       .unlink         = jffs_unlink,
-       .symlink        = jffs_symlink,
-       .mkdir          = jffs_mkdir,
-       .rmdir          = jffs_rmdir,
-       .mknod          = jffs_mknod,
-       .rename         = jffs_rename,
-       .setattr        = jffs_setattr,
-};
-
-
-/* Initialize an inode for the VFS.  */
-static void
-jffs_read_inode(struct inode *inode)
-{
-       struct jffs_file *f;
-       struct jffs_control *c;
-
-       D3(printk("jffs_read_inode(): inode->i_ino == %lu\n", inode->i_ino));
-
-       if (!inode->i_sb) {
-               D(printk("jffs_read_inode(): !inode->i_sb ==> "
-                        "No super block!\n"));
-               return;
-       }
-       c = (struct jffs_control *)inode->i_sb->s_fs_info;
-       D3(printk (KERN_NOTICE "read_inode(): down biglock\n"));
-       mutex_lock(&c->fmc->biglock);
-       if (!(f = jffs_find_file(c, inode->i_ino))) {
-               D(printk("jffs_read_inode(): No such inode (%lu).\n",
-                        inode->i_ino));
-               D3(printk (KERN_NOTICE "read_inode(): up biglock\n"));
-               mutex_unlock(&c->fmc->biglock);
-               return;
-       }
-       inode->i_private = f;
-       inode->i_mode = f->mode;
-       inode->i_nlink = f->nlink;
-       inode->i_uid = f->uid;
-       inode->i_gid = f->gid;
-       inode->i_size = f->size;
-       inode->i_atime.tv_sec = f->atime;
-       inode->i_mtime.tv_sec = f->mtime;
-       inode->i_ctime.tv_sec = f->ctime;
-       inode->i_atime.tv_nsec = 
-       inode->i_mtime.tv_nsec = 
-       inode->i_ctime.tv_nsec = 0;
-
-       inode->i_blocks = (inode->i_size + 511) >> 9;
-       if (S_ISREG(inode->i_mode)) {
-               inode->i_op = &jffs_file_inode_operations;
-               inode->i_fop = &jffs_file_operations;
-               inode->i_mapping->a_ops = &jffs_address_operations;
-       }
-       else if (S_ISDIR(inode->i_mode)) {
-               inode->i_op = &jffs_dir_inode_operations;
-               inode->i_fop = &jffs_dir_operations;
-       }
-       else if (S_ISLNK(inode->i_mode)) {
-               inode->i_op = &page_symlink_inode_operations;
-               inode->i_mapping->a_ops = &jffs_address_operations;
-       }
-       else {
-               /* If the node is a device of some sort, then the number of
-                  the device should be read from the flash memory and then
-                  added to the inode's i_rdev member.  */
-               u16 val;
-               jffs_read_data(f, (char *)&val, 0, 2);
-               init_special_inode(inode, inode->i_mode,
-                       old_decode_dev(val));
-       }
-
-       D3(printk (KERN_NOTICE "read_inode(): up biglock\n"));
-       mutex_unlock(&c->fmc->biglock);
-}
-
-
-static void
-jffs_delete_inode(struct inode *inode)
-{
-       struct jffs_file *f;
-       struct jffs_control *c;
-       D3(printk("jffs_delete_inode(): inode->i_ino == %lu\n",
-                 inode->i_ino));
-
-       truncate_inode_pages(&inode->i_data, 0);
-       lock_kernel();
-       inode->i_size = 0;
-       inode->i_blocks = 0;
-       inode->i_private = NULL;
-       clear_inode(inode);
-       if (inode->i_nlink == 0) {
-               c = (struct jffs_control *) inode->i_sb->s_fs_info;
-               f = (struct jffs_file *) jffs_find_file (c, inode->i_ino);
-               jffs_possibly_delete_file(f);
-       }
-
-       unlock_kernel();
-}
-
-
-static void
-jffs_write_super(struct super_block *sb)
-{
-       struct jffs_control *c = (struct jffs_control *)sb->s_fs_info;
-       lock_kernel();
-       jffs_garbage_collect_trigger(c);
-       unlock_kernel();
-}
-
-static int jffs_remount(struct super_block *sb, int *flags, char *data)
-{
-       *flags |= MS_NODIRATIME;
-       return 0;
-}
-
-static const struct super_operations jffs_ops =
-{
-       .read_inode     = jffs_read_inode,
-       .delete_inode   = jffs_delete_inode,
-       .put_super      = jffs_put_super,
-       .write_super    = jffs_write_super,
-       .statfs         = jffs_statfs,
-       .remount_fs     = jffs_remount,
-};
-
-static int jffs_get_sb(struct file_system_type *fs_type,
-       int flags, const char *dev_name, void *data, struct vfsmount *mnt)
-{
-       return get_sb_bdev(fs_type, flags, dev_name, data, jffs_fill_super,
-                          mnt);
-}
-
-static struct file_system_type jffs_fs_type = {
-       .owner          = THIS_MODULE,
-       .name           = "jffs",
-       .get_sb         = jffs_get_sb,
-       .kill_sb        = kill_block_super,
-       .fs_flags       = FS_REQUIRES_DEV,
-};
-
-static int __init
-init_jffs_fs(void)
-{
-       printk(KERN_INFO "JFFS version " JFFS_VERSION_STRING
-               ", (C) 1999, 2000  Axis Communications AB\n");
-       
-#ifdef CONFIG_JFFS_PROC_FS
-       jffs_proc_root = proc_mkdir("jffs", proc_root_fs);
-       if (!jffs_proc_root) {
-               printk(KERN_WARNING "cannot create /proc/jffs entry\n");
-       }
-#endif
-       fm_cache = kmem_cache_create("jffs_fm", sizeof(struct jffs_fm),
-                      0,
-                      SLAB_HWCACHE_ALIGN|SLAB_RECLAIM_ACCOUNT|SLAB_MEM_SPREAD,
-                      NULL, NULL);
-       if (!fm_cache) {
-               return -ENOMEM;
-       }
-
-       node_cache = kmem_cache_create("jffs_node",sizeof(struct jffs_node),
-                      0,
-                      SLAB_HWCACHE_ALIGN|SLAB_RECLAIM_ACCOUNT|SLAB_MEM_SPREAD,
-                      NULL, NULL);
-       if (!node_cache) {
-               kmem_cache_destroy(fm_cache);
-               return -ENOMEM;
-       }
-
-       return register_filesystem(&jffs_fs_type);
-}
-
-static void __exit
-exit_jffs_fs(void)
-{
-       unregister_filesystem(&jffs_fs_type);
-       kmem_cache_destroy(fm_cache);
-       kmem_cache_destroy(node_cache);
-}
-
-module_init(init_jffs_fs)
-module_exit(exit_jffs_fs)
-
-MODULE_DESCRIPTION("The Journalling Flash File System");
-MODULE_AUTHOR("Axis Communications AB.");
-MODULE_LICENSE("GPL");
diff --git a/fs/jffs/intrep.c b/fs/jffs/intrep.c
deleted file mode 100644 (file)
index 6dd1891..0000000
+++ /dev/null
@@ -1,3449 +0,0 @@
-/*
- * JFFS -- Journaling Flash File System, Linux implementation.
- *
- * Copyright (C) 1999, 2000  Axis Communications, Inc.
- *
- * Created by Finn Hakansson <finn@axis.com>.
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * $Id: intrep.c,v 1.102 2001/09/23 23:28:36 dwmw2 Exp $
- *
- * Ported to Linux 2.3.x and MTD:
- * Copyright (C) 2000  Alexander Larsson (alex@cendio.se), Cendio Systems AB
- *
- */
-
-/* This file contains the code for the internal structure of the
-   Journaling Flash File System, JFFS.  */
-
-/*
- * Todo list:
- *
- * memcpy_to_flash() and memcpy_from_flash() functions.
- *
- * Implementation of hard links.
- *
- * Organize the source code in a better way. Against the VFS we could
- * have jffs_ext.c, and against the block device jffs_int.c.
- * A better file-internal organization too.
- *
- * A better checksum algorithm.
- *
- * Consider endianness stuff. ntohl() etc.
- *
- * Are we handling the atime, mtime, ctime members of the inode right?
- *
- * Remove some duplicated code. Take a look at jffs_write_node() and
- * jffs_rewrite_data() for instance.
- *
- * Implement more meaning of the nlink member in various data structures.
- * nlink could be used in conjunction with hard links for instance.
- *
- * Better memory management. Allocate data structures in larger chunks
- * if possible.
- *
- * If too much meta data is stored, a garbage collect should be issued.
- * We have experienced problems with too much meta data with for instance
- * log files.
- *
- * Improve the calls to jffs_ioctl(). We would like to retrieve more
- * information to be able to debug (or to supervise) JFFS during run-time.
- *
- */
-
-#include <linux/types.h>
-#include <linux/slab.h>
-#include <linux/jffs.h>
-#include <linux/fs.h>
-#include <linux/stat.h>
-#include <linux/pagemap.h>
-#include <linux/mutex.h>
-#include <asm/byteorder.h>
-#include <linux/smp_lock.h>
-#include <linux/time.h>
-#include <linux/ctype.h>
-#include <linux/freezer.h>
-
-#include "intrep.h"
-#include "jffs_fm.h"
-
-long no_jffs_node = 0;
-static long no_jffs_file = 0;
-#if defined(JFFS_MEMORY_DEBUG) && JFFS_MEMORY_DEBUG
-long no_jffs_control = 0;
-long no_jffs_raw_inode = 0;
-long no_jffs_node_ref = 0;
-long no_jffs_fm = 0;
-long no_jffs_fmcontrol = 0;
-long no_hash = 0;
-long no_name = 0;
-#endif
-
-static int jffs_scan_flash(struct jffs_control *c);
-static int jffs_update_file(struct jffs_file *f, struct jffs_node *node);
-static int jffs_build_file(struct jffs_file *f);
-static int jffs_free_file(struct jffs_file *f);
-static int jffs_free_node_list(struct jffs_file *f);
-static int jffs_garbage_collect_now(struct jffs_control *c);
-static int jffs_insert_file_into_hash(struct jffs_file *f);
-static int jffs_remove_redundant_nodes(struct jffs_file *f);
-
-/* Is there enough space on the flash?  */
-static inline int JFFS_ENOUGH_SPACE(struct jffs_control *c, __u32 space)
-{
-       struct jffs_fmcontrol *fmc = c->fmc;
-
-       while (1) {
-               if ((fmc->flash_size - (fmc->used_size + fmc->dirty_size))
-                       >= fmc->min_free_size + space) {
-                       return 1;
-               }
-               if (fmc->dirty_size < fmc->sector_size)
-                       return 0;
-
-               if (jffs_garbage_collect_now(c)) {
-                 D1(printk("JFFS_ENOUGH_SPACE: jffs_garbage_collect_now() failed.\n"));
-                 return 0;
-               }
-       }
-}
-
-#if CONFIG_JFFS_FS_VERBOSE > 0
-static __u8
-flash_read_u8(struct mtd_info *mtd, loff_t from)
-{
-       size_t retlen;
-       __u8 ret;
-       int res;
-
-       res = MTD_READ(mtd, from, 1, &retlen, &ret);
-       if (retlen != 1) {
-               printk("Didn't read a byte in flash_read_u8(). Returned %d\n", res);
-               return 0;
-       }
-
-       return ret;
-}
-
-static void
-jffs_hexdump(struct mtd_info *mtd, loff_t pos, int size)
-{
-       char line[16];
-       int j = 0;
-
-       while (size > 0) {
-               int i;
-
-               printk("%ld:", (long) pos);
-               for (j = 0; j < 16; j++) {
-                       line[j] = flash_read_u8(mtd, pos++);
-               }
-               for (i = 0; i < j; i++) {
-                       if (!(i & 1)) {
-                               printk(" %.2x", line[i] & 0xff);
-                       }
-                       else {
-                               printk("%.2x", line[i] & 0xff);
-                       }
-               }
-
-               /* Print empty space */
-               for (; i < 16; i++) {
-                       if (!(i & 1)) {
-                               printk("   ");
-                       }
-                       else {
-                               printk("  ");
-                       }
-               }
-               printk("  ");
-
-               for (i = 0; i < j; i++) {
-                       if (isgraph(line[i])) {
-                               printk("%c", line[i]);
-                       }
-                       else {
-                               printk(".");
-                       }
-               }
-               printk("\n");
-               size -= 16;
-       }
-}
-
-/* Print the contents of a node.  */
-static void
-jffs_print_node(struct jffs_node *n)
-{
-       D(printk("jffs_node: 0x%p\n", n));
-       D(printk("{\n"));
-       D(printk("        0x%08x, /* version  */\n", n->version));
-       D(printk("        0x%08x, /* data_offset  */\n", n->data_offset));
-       D(printk("        0x%08x, /* data_size  */\n", n->data_size));
-       D(printk("        0x%08x, /* removed_size  */\n", n->removed_size));
-       D(printk("        0x%08x, /* fm_offset  */\n", n->fm_offset));
-       D(printk("        0x%02x,       /* name_size  */\n", n->name_size));
-       D(printk("        0x%p, /* fm,  fm->offset: %u  */\n",
-                n->fm, (n->fm ? n->fm->offset : 0)));
-       D(printk("        0x%p, /* version_prev  */\n", n->version_prev));
-       D(printk("        0x%p, /* version_next  */\n", n->version_next));
-       D(printk("        0x%p, /* range_prev  */\n", n->range_prev));
-       D(printk("        0x%p, /* range_next  */\n", n->range_next));
-       D(printk("}\n"));
-}
-
-#endif
-
-/* Print the contents of a raw inode.  */
-static void
-jffs_print_raw_inode(struct jffs_raw_inode *raw_inode)
-{
-       D(printk("jffs_raw_inode: inode number: %u\n", raw_inode->ino));
-       D(printk("{\n"));
-       D(printk("        0x%08x, /* magic  */\n", raw_inode->magic));
-       D(printk("        0x%08x, /* ino  */\n", raw_inode->ino));
-       D(printk("        0x%08x, /* pino  */\n", raw_inode->pino));
-       D(printk("        0x%08x, /* version  */\n", raw_inode->version));
-       D(printk("        0x%08x, /* mode  */\n", raw_inode->mode));
-       D(printk("        0x%04x,     /* uid  */\n", raw_inode->uid));
-       D(printk("        0x%04x,     /* gid  */\n", raw_inode->gid));
-       D(printk("        0x%08x, /* atime  */\n", raw_inode->atime));
-       D(printk("        0x%08x, /* mtime  */\n", raw_inode->mtime));
-       D(printk("        0x%08x, /* ctime  */\n", raw_inode->ctime));
-       D(printk("        0x%08x, /* offset  */\n", raw_inode->offset));
-       D(printk("        0x%08x, /* dsize  */\n", raw_inode->dsize));
-       D(printk("        0x%08x, /* rsize  */\n", raw_inode->rsize));
-       D(printk("        0x%02x,       /* nsize  */\n", raw_inode->nsize));
-       D(printk("        0x%02x,       /* nlink  */\n", raw_inode->nlink));
-       D(printk("        0x%02x,       /* spare  */\n",
-                raw_inode->spare));
-       D(printk("        %u,          /* rename  */\n",
-                raw_inode->rename));
-       D(printk("        %u,          /* deleted  */\n",
-                raw_inode->deleted));
-       D(printk("        0x%02x,       /* accurate  */\n",
-                raw_inode->accurate));
-       D(printk("        0x%08x, /* dchksum  */\n", raw_inode->dchksum));
-       D(printk("        0x%04x,     /* nchksum  */\n", raw_inode->nchksum));
-       D(printk("        0x%04x,     /* chksum  */\n", raw_inode->chksum));
-       D(printk("}\n"));
-}
-
-#define flash_safe_acquire(arg)
-#define flash_safe_release(arg)
-
-
-static int
-flash_safe_read(struct mtd_info *mtd, loff_t from,
-               u_char *buf, size_t count)
-{
-       size_t retlen;
-       int res;
-
-       D3(printk(KERN_NOTICE "flash_safe_read(%p, %08x, %p, %08x)\n",
-                 mtd, (unsigned int) from, buf, count));
-
-       res = mtd->read(mtd, from, count, &retlen, buf);
-       if (retlen != count) {
-               panic("Didn't read all bytes in flash_safe_read(). Returned %d\n", res);
-       }
-       return res?res:retlen;
-}
-
-
-static __u32
-flash_read_u32(struct mtd_info *mtd, loff_t from)
-{
-       size_t retlen;
-       __u32 ret;
-       int res;
-
-       res = mtd->read(mtd, from, 4, &retlen, (unsigned char *)&ret);
-       if (retlen != 4) {
-               printk("Didn't read all bytes in flash_read_u32(). Returned %d\n", res);
-               return 0;
-       }
-
-       return ret;
-}
-
-
-static int
-flash_safe_write(struct mtd_info *mtd, loff_t to,
-                const u_char *buf, size_t count)
-{
-       size_t retlen;
-       int res;
-
-       D3(printk(KERN_NOTICE "flash_safe_write(%p, %08x, %p, %08x)\n",
-                 mtd, (unsigned int) to, buf, count));
-
-       res = mtd->write(mtd, to, count, &retlen, buf);
-       if (retlen != count) {
-               printk("Didn't write all bytes in flash_safe_write(). Returned %d\n", res);
-       }
-       return res?res:retlen;
-}
-
-
-static int
-flash_safe_writev(struct mtd_info *mtd, const struct kvec *vecs,
-                       unsigned long iovec_cnt, loff_t to)
-{
-       size_t retlen, retlen_a;
-       int i;
-       int res;
-
-       D3(printk(KERN_NOTICE "flash_safe_writev(%p, %08x, %p)\n",
-                 mtd, (unsigned int) to, vecs));
-
-       if (mtd->writev) {
-               res = mtd->writev(mtd, vecs, iovec_cnt, to, &retlen);
-               return res ? res : retlen;
-       }
-       /* Not implemented writev. Repeatedly use write - on the not so
-          unreasonable assumption that the mtd driver doesn't care how
-          many write cycles we use. */
-       res=0;
-       retlen=0;
-
-       for (i=0; !res && i<iovec_cnt; i++) {
-               res = mtd->write(mtd, to, vecs[i].iov_len, &retlen_a,
-                                vecs[i].iov_base);
-               if (retlen_a != vecs[i].iov_len) {
-                       printk("Didn't write all bytes in flash_safe_writev(). Returned %d\n", res);
-                       if (i != iovec_cnt-1)
-                               return -EIO;
-               }
-               /* If res is non-zero, retlen_a is undefined, but we don't
-                  care because in that case it's not going to be 
-                  returned anyway.
-               */
-               to += retlen_a;
-               retlen += retlen_a;
-       }
-       return res?res:retlen;
-}
-
-
-static int
-flash_memset(struct mtd_info *mtd, loff_t to,
-            const u_char c, size_t size)
-{
-       static unsigned char pattern[64];
-       int i;
-
-       /* fill up pattern */
-
-       for(i = 0; i < 64; i++)
-               pattern[i] = c;
-
-       /* write as many 64-byte chunks as we can */
-
-       while (size >= 64) {
-               flash_safe_write(mtd, to, pattern, 64);
-               size -= 64;
-               to += 64;
-       }
-
-       /* and the rest */
-
-       if(size)
-               flash_safe_write(mtd, to, pattern, size);
-
-       return size;
-}
-
-
-static void
-intrep_erase_callback(struct erase_info *done)
-{
-       wait_queue_head_t *wait_q;
-
-       wait_q = (wait_queue_head_t *)done->priv;
-
-       wake_up(wait_q);
-}
-
-
-static int
-flash_erase_region(struct mtd_info *mtd, loff_t start,
-                  size_t size)
-{
-       struct erase_info *erase;
-       DECLARE_WAITQUEUE(wait, current);
-       wait_queue_head_t wait_q;
-
-       erase = kmalloc(sizeof(struct erase_info), GFP_KERNEL);
-       if (!erase)
-               return -ENOMEM;
-
-       init_waitqueue_head(&wait_q);
-
-       erase->mtd = mtd;
-       erase->callback = intrep_erase_callback;
-       erase->addr = start;
-       erase->len = size;
-       erase->priv = (u_long)&wait_q;
-
-       /* FIXME: Use TASK_INTERRUPTIBLE and deal with being interrupted */
-       set_current_state(TASK_UNINTERRUPTIBLE);
-       add_wait_queue(&wait_q, &wait);
-
-       if (mtd->erase(mtd, erase) < 0) {
-               set_current_state(TASK_RUNNING);
-               remove_wait_queue(&wait_q, &wait);
-               kfree(erase);
-
-               printk(KERN_WARNING "flash: erase of region [0x%lx, 0x%lx] "
-                      "totally failed\n", (long)start, (long)start + size);
-
-               return -1;
-       }
-
-       schedule(); /* Wait for flash to finish. */
-       remove_wait_queue(&wait_q, &wait);
-
-       kfree(erase);
-
-       return 0;
-}
-
-/* This routine calculates checksums in JFFS.  */
-static __u32
-jffs_checksum(const void *data, int size)
-{
-       __u32 sum = 0;
-       __u8 *ptr = (__u8 *)data;
-       while (size-- > 0) {
-               sum += *ptr++;
-       }
-       D3(printk(", result: 0x%08x\n", sum));
-       return sum;
-}
-
-
-static int
-jffs_checksum_flash(struct mtd_info *mtd, loff_t start, int size, __u32 *result)
-{
-       __u32 sum = 0;
-       loff_t ptr = start;
-       __u8 *read_buf;
-       int i, length;
-
-       /* Allocate read buffer */
-       read_buf = kmalloc(sizeof(__u8) * 4096, GFP_KERNEL);
-       if (!read_buf) {
-               printk(KERN_NOTICE "kmalloc failed in jffs_checksum_flash()\n");
-               return -ENOMEM;
-       }
-       /* Loop until checksum done */
-       while (size) {
-               /* Get amount of data to read */
-               if (size < 4096)
-                       length = size;
-               else
-                       length = 4096;
-
-               /* Perform flash read */
-               D3(printk(KERN_NOTICE "jffs_checksum_flash\n"));
-               flash_safe_read(mtd, ptr, &read_buf[0], length);
-
-               /* Compute checksum */
-               for (i=0; i < length ; i++)
-                       sum += read_buf[i];
-
-               /* Update pointer and size */
-               size -= length;
-               ptr += length;
-       }
-
-       /* Free read buffer */
-       kfree(read_buf);
-
-       /* Return result */
-       D3(printk("checksum result: 0x%08x\n", sum));
-       *result = sum;
-       return 0;
-}
-
-static __inline__ void jffs_fm_write_lock(struct jffs_fmcontrol *fmc)
-{
-  //   down(&fmc->wlock);
-}
-
-static __inline__ void jffs_fm_write_unlock(struct jffs_fmcontrol *fmc)
-{
-  //   up(&fmc->wlock);
-}
-
-
-/* Create and initialize a new struct jffs_file.  */
-static struct jffs_file *
-jffs_create_file(struct jffs_control *c,
-                const struct jffs_raw_inode *raw_inode)
-{
-       struct jffs_file *f;
-
-       if (!(f = kzalloc(sizeof(*f), GFP_KERNEL))) {
-               D(printk("jffs_create_file(): Failed!\n"));
-               return NULL;
-       }
-       no_jffs_file++;
-       f->ino = raw_inode->ino;
-       f->pino = raw_inode->pino;
-       f->nlink = raw_inode->nlink;
-       f->deleted = raw_inode->deleted;
-       f->c = c;
-
-       return f;
-}
-
-
-/* Build a control block for the file system.  */
-static struct jffs_control *
-jffs_create_control(struct super_block *sb)
-{
-       struct jffs_control *c;
-       register int s = sizeof(struct jffs_control);
-       int i;
-       D(char *t = 0);
-
-       D2(printk("jffs_create_control()\n"));
-
-       if (!(c = kmalloc(s, GFP_KERNEL))) {
-               goto fail_control;
-       }
-       DJM(no_jffs_control++);
-       c->root = NULL;
-       c->gc_task = NULL;
-       c->hash_len = JFFS_HASH_SIZE;
-       s = sizeof(struct list_head) * c->hash_len;
-       if (!(c->hash = kmalloc(s, GFP_KERNEL))) {
-               goto fail_hash;
-       }
-       DJM(no_hash++);
-       for (i = 0; i < c->hash_len; i++)
-               INIT_LIST_HEAD(&c->hash[i]);
-       if (!(c->fmc = jffs_build_begin(c, MINOR(sb->s_dev)))) {
-               goto fail_fminit;
-       }
-       c->next_ino = JFFS_MIN_INO + 1;
-       c->delete_list = (struct jffs_delete_list *) 0;
-       return c;
-
-fail_fminit:
-       D(t = "c->fmc");
-fail_hash:
-       kfree(c);
-       DJM(no_jffs_control--);
-       D(t = t ? t : "c->hash");
-fail_control:
-       D(t = t ? t : "control");
-       D(printk("jffs_create_control(): Allocation failed: (%s)\n", t));
-       return (struct jffs_control *)0;
-}
-
-
-/* Clean up all data structures associated with the file system.  */
-void
-jffs_cleanup_control(struct jffs_control *c)
-{
-       D2(printk("jffs_cleanup_control()\n"));
-
-       if (!c) {
-               D(printk("jffs_cleanup_control(): c == NULL !!!\n"));
-               return;
-       }
-
-       while (c->delete_list) {
-               struct jffs_delete_list *delete_list_element;
-               delete_list_element = c->delete_list;
-               c->delete_list = c->delete_list->next;
-               kfree(delete_list_element);
-       }
-
-       /* Free all files and nodes.  */
-       if (c->hash) {
-               jffs_foreach_file(c, jffs_free_node_list);
-               jffs_foreach_file(c, jffs_free_file);
-               kfree(c->hash);
-               DJM(no_hash--);
-       }
-       jffs_cleanup_fmcontrol(c->fmc);
-       kfree(c);
-       DJM(no_jffs_control--);
-       D3(printk("jffs_cleanup_control(): Leaving...\n"));
-}
-
-
-/* This function adds a virtual root node to the in-RAM representation.
-   Called by jffs_build_fs().  */
-static int
-jffs_add_virtual_root(struct jffs_control *c)
-{
-       struct jffs_file *root;
-       struct jffs_node *node;
-
-       D2(printk("jffs_add_virtual_root(): "
-                 "Creating a virtual root directory.\n"));
-
-       if (!(root = kzalloc(sizeof(struct jffs_file), GFP_KERNEL))) {
-               return -ENOMEM;
-       }
-       no_jffs_file++;
-       if (!(node = jffs_alloc_node())) {
-               kfree(root);
-               no_jffs_file--;
-               return -ENOMEM;
-       }
-       DJM(no_jffs_node++);
-       memset(node, 0, sizeof(struct jffs_node));
-       node->ino = JFFS_MIN_INO;
-       root->ino = JFFS_MIN_INO;
-       root->mode = S_IFDIR | S_IRWXU | S_IRGRP
-                    | S_IXGRP | S_IROTH | S_IXOTH;
-       root->atime = root->mtime = root->ctime = get_seconds();
-       root->nlink = 1;
-       root->c = c;
-       root->version_head = root->version_tail = node;
-       jffs_insert_file_into_hash(root);
-       return 0;
-}
-
-
-/* This is where the file system is built and initialized.  */
-int
-jffs_build_fs(struct super_block *sb)
-{
-       struct jffs_control *c;
-       int err = 0;
-
-       D2(printk("jffs_build_fs()\n"));
-
-       if (!(c = jffs_create_control(sb))) {
-               return -ENOMEM;
-       }
-       c->building_fs = 1;
-       c->sb = sb;
-       if ((err = jffs_scan_flash(c)) < 0) {
-               if(err == -EAGAIN){
-                       /* scan_flash() wants us to try once more. A flipping 
-                          bits sector was detect in the middle of the scan flash.
-                          Clean up old allocated memory before going in.
-                       */
-                       D1(printk("jffs_build_fs: Cleaning up all control structures,"
-                                 " reallocating them and trying mount again.\n"));
-                       jffs_cleanup_control(c);
-                       if (!(c = jffs_create_control(sb))) {
-                               return -ENOMEM;
-                       }
-                       c->building_fs = 1;
-                       c->sb = sb;
-
-                       if ((err = jffs_scan_flash(c)) < 0) {
-                               goto jffs_build_fs_fail;
-                       }                       
-               }else{
-                       goto jffs_build_fs_fail;
-               }
-       }
-
-       /* Add a virtual root node if no one exists.  */
-       if (!jffs_find_file(c, JFFS_MIN_INO)) {
-               if ((err = jffs_add_virtual_root(c)) < 0) {
-                       goto jffs_build_fs_fail;
-               }
-       }
-
-       while (c->delete_list) {
-               struct jffs_file *f;
-               struct jffs_delete_list *delete_list_element;
-
-               if ((f = jffs_find_file(c, c->delete_list->ino))) {
-                       f->deleted = 1;
-               }
-               delete_list_element = c->delete_list;
-               c->delete_list = c->delete_list->next;
-               kfree(delete_list_element);
-       }
-
-       /* Remove deleted nodes.  */
-       if ((err = jffs_foreach_file(c, jffs_possibly_delete_file)) < 0) {
-               printk(KERN_ERR "JFFS: Failed to remove deleted nodes.\n");
-               goto jffs_build_fs_fail;
-       }
-       /* Remove redundant nodes.  (We are not interested in the
-          return value in this case.)  */
-       jffs_foreach_file(c, jffs_remove_redundant_nodes);
-       /* Try to build a tree from all the nodes.  */
-       if ((err = jffs_foreach_file(c, jffs_insert_file_into_tree)) < 0) {
-               printk("JFFS: Failed to build tree.\n");
-               goto jffs_build_fs_fail;
-       }
-       /* Compute the sizes of all files in the filesystem.  Adjust if
-          necessary.  */
-       if ((err = jffs_foreach_file(c, jffs_build_file)) < 0) {
-               printk("JFFS: Failed to build file system.\n");
-               goto jffs_build_fs_fail;
-       }
-       sb->s_fs_info = (void *)c;
-       c->building_fs = 0;
-
-       D1(jffs_print_hash_table(c));
-       D1(jffs_print_tree(c->root, 0));
-
-       return 0;
-
-jffs_build_fs_fail:
-       jffs_cleanup_control(c);
-       return err;
-} /* jffs_build_fs()  */
-
-
-/*
-  This checks for sectors that were being erased in their previous 
-  lifetimes and for some reason or the other (power fail etc.), 
-  the erase cycles never completed.
-  As the flash array would have reverted back to read status, 
-  these sectors are detected by the symptom of the "flipping bits",
-  i.e. bits being read back differently from the same location in
-  flash if read multiple times.
-  The only solution to this is to re-erase the entire
-  sector.
-  Unfortunately detecting "flipping bits" is not a simple exercise
-  as a bit may be read back at 1 or 0 depending on the alignment 
-  of the stars in the universe.
-  The level of confidence is in direct proportion to the number of 
-  scans done. By power fail testing I (Vipin) have been able to 
-  proove that reading twice is not enough.
-  Maybe 4 times? Change NUM_REREADS to a higher number if you want
-  a (even) higher degree of confidence in your mount process. 
-  A higher number would of course slow down your mount.
-*/
-static int check_partly_erased_sectors(struct jffs_fmcontrol *fmc){
-
-#define NUM_REREADS             4 /* see note above */
-#define READ_AHEAD_BYTES        4096 /* must be a multiple of 4, 
-                                       usually set to kernel page size */
-
-       __u8 *read_buf1;
-       __u8 *read_buf2;
-
-       int err = 0;
-       int retlen;
-       int i;
-       int cnt;
-       __u32 offset;
-       loff_t pos = 0;
-       loff_t end = fmc->flash_size;
-
-
-       /* Allocate read buffers */
-       read_buf1 = kmalloc(sizeof(__u8) * READ_AHEAD_BYTES, GFP_KERNEL);
-       if (!read_buf1)
-               return -ENOMEM;
-
-       read_buf2 = kmalloc(sizeof(__u8) * READ_AHEAD_BYTES, GFP_KERNEL);
-       if (!read_buf2) {
-               kfree(read_buf1);
-               return -ENOMEM;
-       }
-
- CHECK_NEXT:
-       while(pos < end){
-               
-               D1(printk("check_partly_erased_sector():checking sector which contains"
-                         " offset 0x%x for flipping bits..\n", (__u32)pos));
-               
-               retlen = flash_safe_read(fmc->mtd, pos,
-                                        &read_buf1[0], READ_AHEAD_BYTES);
-               retlen &= ~3;
-               
-               for(cnt = 0; cnt < NUM_REREADS; cnt++){
-                       (void)flash_safe_read(fmc->mtd, pos,
-                                             &read_buf2[0], READ_AHEAD_BYTES);
-                       
-                       for (i=0 ; i < retlen ; i+=4) {
-                               /* buffers MUST match, double word for word! */
-                               if(*((__u32 *) &read_buf1[i]) !=
-                                  *((__u32 *) &read_buf2[i])
-                                  ){
-                                       /* flipping bits detected, time to erase sector */
-                                       /* This will help us log some statistics etc. */
-                                       D1(printk("Flipping bits detected in re-read round:%i of %i\n",
-                                              cnt, NUM_REREADS));
-                                       D1(printk("check_partly_erased_sectors:flipping bits detected"
-                                                 " @offset:0x%x(0x%x!=0x%x)\n",
-                                                 (__u32)pos+i, *((__u32 *) &read_buf1[i]), 
-                                                 *((__u32 *) &read_buf2[i])));
-                                       
-                                       /* calculate start of present sector */
-                                       offset = (((__u32)pos+i)/(__u32)fmc->sector_size) * (__u32)fmc->sector_size;
-                                       
-                                       D1(printk("check_partly_erased_sector():erasing sector starting 0x%x.\n",
-                                                 offset));
-                                       
-                                       if (flash_erase_region(fmc->mtd,
-                                                              offset, fmc->sector_size) < 0) {
-                                               printk(KERN_ERR "JFFS: Erase of flash failed. "
-                                                      "offset = %u, erase_size = %d\n",
-                                                      offset , fmc->sector_size);
-                                               
-                                               err = -EIO;
-                                               goto returnBack;
-
-                                       }else{
-                                               D1(printk("JFFS: Erase of flash sector @0x%x successful.\n",
-                                                      offset));
-                                               /* skip ahead to the next sector */
-                                               pos = (((__u32)pos+i)/(__u32)fmc->sector_size) * (__u32)fmc->sector_size;
-                                               pos += fmc->sector_size;
-                                               goto CHECK_NEXT;
-                                       }
-                               }
-                       }
-               }
-               pos += READ_AHEAD_BYTES;
-       }
-
- returnBack:
-       kfree(read_buf1);
-       kfree(read_buf2);
-
-       D2(printk("check_partly_erased_sector():Done checking all sectors till offset 0x%x for flipping bits.\n",
-                 (__u32)pos));
-
-       return err;
-
-}/* end check_partly_erased_sectors() */
-
-
-
-/* Scan the whole flash memory in order to find all nodes in the
-   file systems.  */
-static int
-jffs_scan_flash(struct jffs_control *c)
-{
-       char name[JFFS_MAX_NAME_LEN + 2];
-       struct jffs_raw_inode raw_inode;
-       struct jffs_node *node = NULL;
-       struct jffs_fmcontrol *fmc = c->fmc;
-       __u32 checksum;
-       __u8 tmp_accurate;
-       __u16 tmp_chksum;
-       __u32 deleted_file;
-       loff_t pos = 0;
-       loff_t start;
-       loff_t test_start;
-       loff_t end = fmc->flash_size;
-       __u8 *read_buf;
-       int i, len, retlen;
-       __u32 offset;
-
-       __u32 free_chunk_size1;
-       __u32 free_chunk_size2;
-
-       
-#define NUMFREEALLOWED     2        /* 2 chunks of at least erase size space allowed */
-       int num_free_space = 0;       /* Flag err if more than TWO
-                                      free blocks found. This is NOT allowed
-                                      by the current jffs design.
-                                   */
-       int num_free_spc_not_accp = 0; /* For debugging purposed keep count 
-                                       of how much free space was rejected and
-                                       marked dirty
-                                    */
-
-       D1(printk("jffs_scan_flash(): start pos = 0x%lx, end = 0x%lx\n",
-                 (long)pos, (long)end));
-
-       flash_safe_acquire(fmc->mtd);
-
-       /*
-         check and make sure that any sector does not suffer
-         from the "partly erased, bit flipping syndrome" (TM Vipin :)
-         If so, offending sectors will be erased.
-       */
-       if(check_partly_erased_sectors(fmc) < 0){
-
-               flash_safe_release(fmc->mtd);
-               return -EIO; /* bad, bad, bad error. Cannot continue.*/
-       }
-
-       /* Allocate read buffer */
-       read_buf = kmalloc(sizeof(__u8) * 4096, GFP_KERNEL);
-       if (!read_buf) {
-               flash_safe_release(fmc->mtd);
-               return -ENOMEM;
-       }
-                             
-       /* Start the scan.  */
-       while (pos < end) {
-               deleted_file = 0;
-
-               /* Remember the position from where we started this scan.  */
-               start = pos;
-
-               switch (flash_read_u32(fmc->mtd, pos)) {
-               case JFFS_EMPTY_BITMASK:
-                       /* We have found 0xffffffff at this position.  We have to
-                          scan the rest of the flash till the end or till
-                          something else than 0xffffffff is found.
-                          Keep going till we do not find JFFS_EMPTY_BITMASK 
-                          anymore */
-
-                       D1(printk("jffs_scan_flash(): 0xffffffff at pos 0x%lx.\n",
-                                 (long)pos));
-
-                       while(pos < end){
-
-                             len = end - pos < 4096 ? end - pos : 4096;
-                             
-                             retlen = flash_safe_read(fmc->mtd, pos,
-                                                &read_buf[0], len);
-
-                             retlen &= ~3;
-                             
-                             for (i=0 ; i < retlen ; i+=4, pos += 4) {
-                                     if(*((__u32 *) &read_buf[i]) !=
-                                        JFFS_EMPTY_BITMASK)
-                                       break;
-                             }
-                             if (i == retlen)
-                                   continue;
-                             else
-                                   break;
-                       }
-
-                       D1(printk("jffs_scan_flash():0xffffffff ended at pos 0x%lx.\n",
-                                 (long)pos));
-                       
-                       /* If some free space ends in the middle of a sector,
-                          treat it as dirty rather than clean.
-                          This is to handle the case where one thread 
-                          allocated space for a node, but didn't get to
-                          actually _write_ it before power was lost, leaving
-                          a gap in the log. Shifting all node writes into
-                          a single kernel thread will fix the original problem.
-                       */
-                       if ((__u32) pos % fmc->sector_size) {
-                               /* If there was free space in previous 
-                                  sectors, don't mark that dirty too - 
-                                  only from the beginning of this sector
-                                  (or from start) 
-                               */
-
-                               test_start = pos & ~(fmc->sector_size-1); /* end of last sector */
-
-                               if (start < test_start) {
-
-                                       /* free space started in the previous sector! */
-
-                                       if((num_free_space < NUMFREEALLOWED) && 
-                                          ((unsigned int)(test_start - start) >= fmc->sector_size)){
-
-                                               /*
-                                                 Count it in if we are still under NUMFREEALLOWED *and* it is 
-                                                 at least 1 erase sector in length. This will keep us from 
-                                                 picking any little ole' space as "free".
-                                               */
-                                         
-                                               D1(printk("Reducing end of free space to 0x%x from 0x%x\n",
-                                                         (unsigned int)test_start, (unsigned int)pos));
-
-                                               D1(printk("Free space accepted: Starting 0x%x for 0x%x bytes\n",
-                                                         (unsigned int) start,
-                                                         (unsigned int)(test_start - start)));
-
-                                               /* below, space from "start" to "pos" will be marked dirty. */
-                                               start = test_start; 
-                                               
-                                               /* Being in here means that we have found at least an entire 
-                                                  erase sector size of free space ending on a sector boundary.
-                                                  Keep track of free spaces accepted.
-                                               */
-                                               num_free_space++;
-                                       }else{
-                                               num_free_spc_not_accp++;
-                                               D1(printk("Free space (#%i) found but *Not* accepted: Starting"
-                                                         " 0x%x for 0x%x bytes\n",
-                                                         num_free_spc_not_accp, (unsigned int)start, 
-                                                         (unsigned int)((unsigned int)(pos & ~(fmc->sector_size-1)) - (unsigned int)start)));
-                                               
-                                       }
-                                       
-                               }
-                               if((((__u32)(pos - start)) != 0)){
-
-                                       D1(printk("Dirty space: Starting 0x%x for 0x%x bytes\n",
-                                                 (unsigned int) start, (unsigned int) (pos - start)));
-                                       jffs_fmalloced(fmc, (__u32) start,
-                                                      (__u32) (pos - start), NULL);
-                               }else{
-                                       /* "Flipping bits" detected. This means that our scan for them
-                                          did not catch this offset. See check_partly_erased_sectors() for
-                                          more info.
-                                       */
-                                       
-                                       D1(printk("jffs_scan_flash():wants to allocate dirty flash "
-                                                 "space for 0 bytes.\n"));
-                                       D1(printk("jffs_scan_flash(): Flipping bits! We will free "
-                                                 "all allocated memory, erase this sector and remount\n"));
-
-                                       /* calculate start of present sector */
-                                       offset = (((__u32)pos)/(__u32)fmc->sector_size) * (__u32)fmc->sector_size;
-                                       
-                                       D1(printk("jffs_scan_flash():erasing sector starting 0x%x.\n",
-                                                 offset));
-                                       
-                                       if (flash_erase_region(fmc->mtd,
-                                                              offset, fmc->sector_size) < 0) {
-                                               printk(KERN_ERR "JFFS: Erase of flash failed. "
-                                                      "offset = %u, erase_size = %d\n",
-                                                      offset , fmc->sector_size);
-
-                                               flash_safe_release(fmc->mtd);
-                                               kfree(read_buf);
-                                               return -1; /* bad, bad, bad! */
-
-                                       }
-                                       flash_safe_release(fmc->mtd);
-                                       kfree(read_buf);
-
-                                       return -EAGAIN; /* erased offending sector. Try mount one more time please. */
-                               }
-                       }else{
-                               /* Being in here means that we have found free space that ends on an erase sector
-                                  boundary.
-                                  Count it in if we are still under NUMFREEALLOWED *and* it is at least 1 erase 
-                                  sector in length. This will keep us from picking any little ole' space as "free".
-                                */
-                                if((num_free_space < NUMFREEALLOWED) && 
-                                   ((unsigned int)(pos - start) >= fmc->sector_size)){
-                                          /* We really don't do anything to mark space as free, except *not* 
-                                             mark it dirty and just advance the "pos" location pointer. 
-                                             It will automatically be picked up as free space.
-                                           */ 
-                                          num_free_space++;
-                                          D1(printk("Free space accepted: Starting 0x%x for 0x%x bytes\n",
-                                                    (unsigned int) start, (unsigned int) (pos - start)));
-                                }else{
-                                        num_free_spc_not_accp++;
-                                        D1(printk("Free space (#%i) found but *Not* accepted: Starting "
-                                                  "0x%x for 0x%x bytes\n", num_free_spc_not_accp, 
-                                                  (unsigned int) start, 
-                                                  (unsigned int) (pos - start)));
-                                        
-                                        /* Mark this space as dirty. We already have our free space. */
-                                        D1(printk("Dirty space: Starting 0x%x for 0x%x bytes\n",
-                                                  (unsigned int) start, (unsigned int) (pos - start)));
-                                        jffs_fmalloced(fmc, (__u32) start,
-                                                       (__u32) (pos - start), NULL);                                      
-                                }
-                                
-                       }
-                       if(num_free_space > NUMFREEALLOWED){
-                                printk(KERN_WARNING "jffs_scan_flash(): Found free space "
-                                       "number %i. Only %i free space is allowed.\n",
-                                       num_free_space, NUMFREEALLOWED);                              
-                       }
-                       continue;
-
-               case JFFS_DIRTY_BITMASK:
-                       /* We have found 0x00000000 at this position.  Scan as far
-                          as possible to find out how much is dirty.  */
-                       D1(printk("jffs_scan_flash(): 0x00000000 at pos 0x%lx.\n",
-                                 (long)pos));
-                       for (; pos < end
-                              && JFFS_DIRTY_BITMASK == flash_read_u32(fmc->mtd, pos);
-                            pos += 4);
-                       D1(printk("jffs_scan_flash(): 0x00 ended at "
-                                 "pos 0x%lx.\n", (long)pos));
-                       jffs_fmalloced(fmc, (__u32) start,
-                                      (__u32) (pos - start), NULL);
-                       continue;
-
-               case JFFS_MAGIC_BITMASK:
-                       /* We have probably found a new raw inode.  */
-                       break;
-
-               default:
-               bad_inode:
-                       /* We're f*cked.  This is not solved yet.  We have
-                          to scan for the magic pattern.  */
-                       D1(printk("*************** Dirty flash memory or "
-                                 "bad inode: "
-                                 "hexdump(pos = 0x%lx, len = 128):\n",
-                                 (long)pos));
-                       D1(jffs_hexdump(fmc->mtd, pos, 128));
-
-                       for (pos += 4; pos < end; pos += 4) {
-                               switch (flash_read_u32(fmc->mtd, pos)) {
-                               case JFFS_MAGIC_BITMASK:
-                               case JFFS_EMPTY_BITMASK:
-                                       /* handle these in the main switch() loop */
-                                       goto cont_scan;
-
-                               default:
-                                       break;
-                               }
-                       }
-
-                       cont_scan:
-                       /* First, mark as dirty the region
-                          which really does contain crap. */
-                       jffs_fmalloced(fmc, (__u32) start,
-                                      (__u32) (pos - start),
-                                      NULL);
-                       
-                       continue;
-               }/* switch */
-
-               /* We have found the beginning of an inode.  Create a
-                  node for it unless there already is one available.  */
-               if (!node) {
-                       if (!(node = jffs_alloc_node())) {
-                               /* Free read buffer */
-                               kfree(read_buf);
-
-                               /* Release the flash device */
-                               flash_safe_release(fmc->mtd);
-       
-                               return -ENOMEM;
-                       }
-                       DJM(no_jffs_node++);
-               }
-
-               /* Read the next raw inode.  */
-
-               flash_safe_read(fmc->mtd, pos, (u_char *) &raw_inode,
-                               sizeof(struct jffs_raw_inode));
-
-               /* When we compute the checksum for the inode, we never
-                  count the 'accurate' or the 'checksum' fields.  */
-               tmp_accurate = raw_inode.accurate;
-               tmp_chksum = raw_inode.chksum;
-               raw_inode.accurate = 0;
-               raw_inode.chksum = 0;
-               checksum = jffs_checksum(&raw_inode,
-                                        sizeof(struct jffs_raw_inode));
-               raw_inode.accurate = tmp_accurate;
-               raw_inode.chksum = tmp_chksum;
-
-               D3(printk("*** We have found this raw inode at pos 0x%lx "
-                         "on the flash:\n", (long)pos));
-               D3(jffs_print_raw_inode(&raw_inode));
-
-               if (checksum != raw_inode.chksum) {
-                       D1(printk("jffs_scan_flash(): Bad checksum: "
-                                 "checksum = %u, "
-                                 "raw_inode.chksum = %u\n",
-                                 checksum, raw_inode.chksum));
-                       pos += sizeof(struct jffs_raw_inode);
-                       jffs_fmalloced(fmc, (__u32) start,
-                                      (__u32) (pos - start), NULL);
-                       /* Reuse this unused struct jffs_node.  */
-                       continue;
-               }
-
-               /* Check the raw inode read so far.  Start with the
-                  maximum length of the filename.  */
-               if (raw_inode.nsize > JFFS_MAX_NAME_LEN) {
-                       printk(KERN_WARNING "jffs_scan_flash: Found a "
-                              "JFFS node with name too large\n");
-                       goto bad_inode;
-               }
-
-               if (raw_inode.rename && raw_inode.dsize != sizeof(__u32)) {
-                       printk(KERN_WARNING "jffs_scan_flash: Found a "
-                              "rename node with dsize %u.\n",
-                              raw_inode.dsize);
-                       jffs_print_raw_inode(&raw_inode);
-                       goto bad_inode;
-               }
-
-               /* The node's data segment should not exceed a
-                  certain length.  */
-               if (raw_inode.dsize > fmc->max_chunk_size) {
-                       printk(KERN_WARNING "jffs_scan_flash: Found a "
-                              "JFFS node with dsize (0x%x) > max_chunk_size (0x%x)\n",
-                              raw_inode.dsize, fmc->max_chunk_size);
-                       goto bad_inode;
-               }
-
-               pos += sizeof(struct jffs_raw_inode);
-
-               /* This shouldn't be necessary because a node that
-                  violates the flash boundaries shouldn't be written
-                  in the first place. */
-               if (pos >= end) {
-                       goto check_node;
-               }
-
-               /* Read the name.  */
-               *name = 0;
-               if (raw_inode.nsize) {
-                       flash_safe_read(fmc->mtd, pos, name, raw_inode.nsize);
-                       name[raw_inode.nsize] = '\0';
-                       pos += raw_inode.nsize
-                              + JFFS_GET_PAD_BYTES(raw_inode.nsize);
-                       D3(printk("name == \"%s\"\n", name));
-                       checksum = jffs_checksum(name, raw_inode.nsize);
-                       if (checksum != raw_inode.nchksum) {
-                               D1(printk("jffs_scan_flash(): Bad checksum: "
-                                         "checksum = %u, "
-                                         "raw_inode.nchksum = %u\n",
-                                         checksum, raw_inode.nchksum));
-                               jffs_fmalloced(fmc, (__u32) start,
-                                              (__u32) (pos - start), NULL);
-                               /* Reuse this unused struct jffs_node.  */
-                               continue;
-                       }
-                       if (pos >= end) {
-                               goto check_node;
-                       }
-               }
-
-               /* Read the data, if it exists, in order to be sure it
-                  matches the checksum.  */
-               if (raw_inode.dsize) {
-                       if (raw_inode.rename) {
-                               deleted_file = flash_read_u32(fmc->mtd, pos);
-                       }
-                       if (jffs_checksum_flash(fmc->mtd, pos, raw_inode.dsize, &checksum)) {
-                               printk("jffs_checksum_flash() failed to calculate a checksum\n");
-                               jffs_fmalloced(fmc, (__u32) start,
-                                              (__u32) (pos - start), NULL);
-                               /* Reuse this unused struct jffs_node.  */
-                               continue;
-                       }                               
-                       pos += raw_inode.dsize
-                              + JFFS_GET_PAD_BYTES(raw_inode.dsize);
-
-                       if (checksum != raw_inode.dchksum) {
-                               D1(printk("jffs_scan_flash(): Bad checksum: "
-                                         "checksum = %u, "
-                                         "raw_inode.dchksum = %u\n",
-                                         checksum, raw_inode.dchksum));
-                               jffs_fmalloced(fmc, (__u32) start,
-                                              (__u32) (pos - start), NULL);
-                               /* Reuse this unused struct jffs_node.  */
-                               continue;
-                       }
-               }
-
-               check_node:
-
-               /* Remember the highest inode number in the whole file
-                  system.  This information will be used when assigning
-                  new files new inode numbers.  */
-               if (c->next_ino <= raw_inode.ino) {
-                       c->next_ino = raw_inode.ino + 1;
-               }
-
-               if (raw_inode.accurate) {
-                       int err;
-                       node->data_offset = raw_inode.offset;
-                       node->data_size = raw_inode.dsize;
-                       node->removed_size = raw_inode.rsize;
-                       /* Compute the offset to the actual data in the
-                          on-flash node.  */
-                       node->fm_offset
-                       = sizeof(struct jffs_raw_inode)
-                         + raw_inode.nsize
-                         + JFFS_GET_PAD_BYTES(raw_inode.nsize);
-                       node->fm = jffs_fmalloced(fmc, (__u32) start,
-                                                 (__u32) (pos - start),
-                                                 node);
-                       if (!node->fm) {
-                               D(printk("jffs_scan_flash(): !node->fm\n"));
-                               jffs_free_node(node);
-                               DJM(no_jffs_node--);
-
-                               /* Free read buffer */
-                               kfree(read_buf);
-
-                               /* Release the flash device */
-                               flash_safe_release(fmc->mtd);
-
-                               return -ENOMEM;
-                       }
-                       if ((err = jffs_insert_node(c, NULL, &raw_inode,
-                                                   name, node)) < 0) {
-                               printk("JFFS: Failed to handle raw inode. "
-                                      "(err = %d)\n", err);
-                               break;
-                       }
-                       if (raw_inode.rename) {
-                               struct jffs_delete_list *dl
-                               = (struct jffs_delete_list *)
-                                 kmalloc(sizeof(struct jffs_delete_list),
-                                         GFP_KERNEL);
-                               if (!dl) {
-                                       D(printk("jffs_scan_flash: !dl\n"));
-                                       jffs_free_node(node);
-                                       DJM(no_jffs_node--);
-
-                                       /* Release the flash device */
-                                       flash_safe_release(fmc->flash_part);
-
-                                       /* Free read buffer */
-                                       kfree(read_buf);
-
-                                       return -ENOMEM;
-                               }
-                               dl->ino = deleted_file;
-                               dl->next = c->delete_list;
-                               c->delete_list = dl;
-                               node->data_size = 0;
-                       }
-                       D3(jffs_print_node(node));
-                       node = NULL; /* Don't free the node!  */
-               }
-               else {
-                       jffs_fmalloced(fmc, (__u32) start,
-                                      (__u32) (pos - start), NULL);
-                       D3(printk("jffs_scan_flash(): Just found an obsolete "
-                                 "raw_inode. Continuing the scan...\n"));
-                       /* Reuse this unused struct jffs_node.  */
-               }
-       }
-
-       if (node) {
-               jffs_free_node(node);
-               DJM(no_jffs_node--);
-       }
-       jffs_build_end(fmc);
-
-       /* Free read buffer */
-       kfree(read_buf);
-
-       if(!num_free_space){
-               printk(KERN_WARNING "jffs_scan_flash(): Did not find even a single "
-                      "chunk of free space. This is BAD!\n");
-       }
-
-       /* Return happy */
-       D3(printk("jffs_scan_flash(): Leaving...\n"));
-       flash_safe_release(fmc->mtd);
-
-       /* This is to trap the "free size accounting screwed error. */
-       free_chunk_size1 = jffs_free_size1(fmc);
-       free_chunk_size2 = jffs_free_size2(fmc);
-
-       if (free_chunk_size1 + free_chunk_size2 != fmc->free_size) {
-
-               printk(KERN_WARNING "jffs_scan_falsh():Free size accounting screwed\n");
-               printk(KERN_WARNING "jfffs_scan_flash():free_chunk_size1 == 0x%x, "
-                      "free_chunk_size2 == 0x%x, fmc->free_size == 0x%x\n", 
-                      free_chunk_size1, free_chunk_size2, fmc->free_size);
-
-               return -1; /* Do NOT mount f/s so that we can inspect what happened.
-                             Mounting this  screwed up f/s will screw us up anyway.
-                           */
-       }       
-
-       return 0; /* as far as we are concerned, we are happy! */
-} /* jffs_scan_flash()  */
-
-
-/* Insert any kind of node into the file system.  Take care of data
-   insertions and deletions.  Also remove redundant information. The
-   memory allocated for the `name' is regarded as "given away" in the
-   caller's perspective.  */
-int
-jffs_insert_node(struct jffs_control *c, struct jffs_file *f,
-                const struct jffs_raw_inode *raw_inode,
-                const char *name, struct jffs_node *node)
-{
-       int update_name = 0;
-       int insert_into_tree = 0;
-
-       D2(printk("jffs_insert_node(): ino = %u, version = %u, "
-                 "name = \"%s\", deleted = %d\n",
-                 raw_inode->ino, raw_inode->version,
-                 ((name && *name) ? name : ""), raw_inode->deleted));
-
-       /* If there doesn't exist an associated jffs_file, then
-          create, initialize and insert one into the file system.  */
-       if (!f && !(f = jffs_find_file(c, raw_inode->ino))) {
-               if (!(f = jffs_create_file(c, raw_inode))) {
-                       return -ENOMEM;
-               }
-               jffs_insert_file_into_hash(f);
-               insert_into_tree = 1;
-       }
-       node->ino = raw_inode->ino;
-       node->version = raw_inode->version;
-       node->data_size = raw_inode->dsize;
-       node->fm_offset = sizeof(struct jffs_raw_inode) + raw_inode->nsize
-                         + JFFS_GET_PAD_BYTES(raw_inode->nsize);
-       node->name_size = raw_inode->nsize;
-
-       /* Now insert the node at the correct position into the file's
-          version list.  */
-       if (!f->version_head) {
-               /* This is the first node.  */
-               f->version_head = node;
-               f->version_tail = node;
-               node->version_prev = NULL;
-               node->version_next = NULL;
-               f->highest_version = node->version;
-               update_name = 1;
-               f->mode = raw_inode->mode;
-               f->uid = raw_inode->uid;
-               f->gid = raw_inode->gid;
-               f->atime = raw_inode->atime;
-               f->mtime = raw_inode->mtime;
-               f->ctime = raw_inode->ctime;
-       }
-       else if ((f->highest_version < node->version)
-                || (node->version == 0)) {
-               /* Insert at the end of the list.  I.e. this node is the
-                  newest one so far.  */
-               node->version_prev = f->version_tail;
-               node->version_next = NULL;
-               f->version_tail->version_next = node;
-               f->version_tail = node;
-               f->highest_version = node->version;
-               update_name = 1;
-               f->pino = raw_inode->pino;
-               f->mode = raw_inode->mode;
-               f->uid = raw_inode->uid;
-               f->gid = raw_inode->gid;
-               f->atime = raw_inode->atime;
-               f->mtime = raw_inode->mtime;
-               f->ctime = raw_inode->ctime;
-       }
-       else if (f->version_head->version > node->version) {
-               /* Insert at the bottom of the list.  */
-               node->version_prev = NULL;
-               node->version_next = f->version_head;
-               f->version_head->version_prev = node;
-               f->version_head = node;
-               if (!f->name) {
-                       update_name = 1;
-               }
-       }
-       else {
-               struct jffs_node *n;
-               int newer_name = 0;
-               /* Search for the insertion position starting from
-                  the tail (newest node).  */
-               for (n = f->version_tail; n; n = n->version_prev) {
-                       if (n->version < node->version) {
-                               node->version_prev = n;
-                               node->version_next = n->version_next;
-                               node->version_next->version_prev = node;
-                               n->version_next = node;
-                               if (!newer_name) {
-                                       update_name = 1;
-                               }
-                               break;
-                       }
-                       if (n->name_size) {
-                               newer_name = 1;
-                       }
-               }
-       }
-
-       /* Deletion is irreversible. If any 'deleted' node is ever
-          written, the file is deleted */
-       if (raw_inode->deleted)
-               f->deleted = raw_inode->deleted;
-
-       /* Perhaps update the name.  */
-       if (raw_inode->nsize && update_name && name && *name && (name != f->name)) {
-               if (f->name) {
-                       kfree(f->name);
-                       DJM(no_name--);
-               }
-               if (!(f->name = kmalloc(raw_inode->nsize + 1,
-                                                GFP_KERNEL))) {
-                       return -ENOMEM;
-               }
-               DJM(no_name++);
-               memcpy(f->name, name, raw_inode->nsize);
-               f->name[raw_inode->nsize] = '\0';
-               f->nsize = raw_inode->nsize;
-               D3(printk("jffs_insert_node(): Updated the name of "
-                         "the file to \"%s\".\n", name));
-       }
-
-       if (!c->building_fs) {
-               D3(printk("jffs_insert_node(): ---------------------------"
-                         "------------------------------------------- 1\n"));
-               if (insert_into_tree) {
-                       jffs_insert_file_into_tree(f);
-               }
-               /* Once upon a time, we would call jffs_possibly_delete_file()
-                  here. That causes an oops if someone's still got the file
-                  open, so now we only do it in jffs_delete_inode()
-                  -- dwmw2
-               */
-               if (node->data_size || node->removed_size) {
-                       jffs_update_file(f, node);
-               }
-               jffs_remove_redundant_nodes(f);
-
-               jffs_garbage_collect_trigger(c);
-
-               D3(printk("jffs_insert_node(): ---------------------------"
-                         "------------------------------------------- 2\n"));
-       }
-
-       return 0;
-} /* jffs_insert_node()  */
-
-
-/* Unlink a jffs_node from the version list it is in.  */
-static inline void
-jffs_unlink_node_from_version_list(struct jffs_file *f,
-                                  struct jffs_node *node)
-{
-       if (node->version_prev) {
-               node->version_prev->version_next = node->version_next;
-       } else {
-               f->version_head = node->version_next;
-       }
-       if (node->version_next) {
-               node->version_next->version_prev = node->version_prev;
-       } else {
-               f->version_tail = node->version_prev;
-       }
-}
-
-
-/* Unlink a jffs_node from the range list it is in.  */
-static inline void
-jffs_unlink_node_from_range_list(struct jffs_file *f, struct jffs_node *node)
-{
-       if (node->range_prev) {
-               node->range_prev->range_next = node->range_next;
-       }
-       else {
-               f->range_head = node->range_next;
-       }
-       if (node->range_next) {
-               node->range_next->range_prev = node->range_prev;
-       }
-       else {
-               f->range_tail = node->range_prev;
-       }
-}
-
-
-/* Function used by jffs_remove_redundant_nodes() below.  This function
-   classifies what kind of information a node adds to a file.  */
-static inline __u8
-jffs_classify_node(struct jffs_node *node)
-{
-       __u8 mod_type = JFFS_MODIFY_INODE;
-
-       if (node->name_size) {
-               mod_type |= JFFS_MODIFY_NAME;
-       }
-       if (node->data_size || node->removed_size) {
-               mod_type |= JFFS_MODIFY_DATA;
-       }
-       return mod_type;
-}
-
-
-/* Remove redundant nodes from a file.  Mark the on-flash memory
-   as dirty.  */
-static int
-jffs_remove_redundant_nodes(struct jffs_file *f)
-{
-       struct jffs_node *newest_node;
-       struct jffs_node *cur;
-       struct jffs_node *prev;
-       __u8 newest_type;
-       __u8 mod_type;
-       __u8 node_with_name_later = 0;
-
-       if (!(newest_node = f->version_tail)) {
-               return 0;
-       }
-
-       /* What does the `newest_node' modify?  */
-       newest_type = jffs_classify_node(newest_node);
-       node_with_name_later = newest_type & JFFS_MODIFY_NAME;
-
-       D3(printk("jffs_remove_redundant_nodes(): ino: %u, name: \"%s\", "
-                 "newest_type: %u\n", f->ino, (f->name ? f->name : ""),
-                 newest_type));
-
-       /* Traverse the file's nodes and determine which of them that are
-          superfluous.  Yeah, this might look very complex at first
-          glance but it is actually very simple.  */
-       for (cur = newest_node->version_prev; cur; cur = prev) {
-               prev = cur->version_prev;
-               mod_type = jffs_classify_node(cur);
-               if ((mod_type <= JFFS_MODIFY_INODE)
-                   || ((newest_type & JFFS_MODIFY_NAME)
-                       && (mod_type
-                           <= (JFFS_MODIFY_INODE + JFFS_MODIFY_NAME)))
-                   || (cur->data_size == 0 && cur->removed_size
-                       && !cur->version_prev && node_with_name_later)) {
-                       /* Yes, this node is redundant. Remove it.  */
-                       D2(printk("jffs_remove_redundant_nodes(): "
-                                 "Removing node: ino: %u, version: %u, "
-                                 "mod_type: %u\n", cur->ino, cur->version,
-                                 mod_type));
-                       jffs_unlink_node_from_version_list(f, cur);
-                       jffs_fmfree(f->c->fmc, cur->fm, cur);
-                       jffs_free_node(cur);
-                       DJM(no_jffs_node--);
-               }
-               else {
-                       node_with_name_later |= (mod_type & JFFS_MODIFY_NAME);
-               }
-       }
-
-       return 0;
-}
-
-
-/* Insert a file into the hash table.  */
-static int
-jffs_insert_file_into_hash(struct jffs_file *f)
-{
-       int i = f->ino % f->c->hash_len;
-
-       D3(printk("jffs_insert_file_into_hash(): f->ino: %u\n", f->ino));
-
-       list_add(&f->hash, &f->c->hash[i]);
-       return 0;
-}
-
-
-/* Insert a file into the file system tree.  */
-int
-jffs_insert_file_into_tree(struct jffs_file *f)
-{
-       struct jffs_file *parent;
-
-       D3(printk("jffs_insert_file_into_tree(): name: \"%s\"\n",
-                 (f->name ? f->name : "")));
-
-       if (!(parent = jffs_find_file(f->c, f->pino))) {
-               if (f->pino == 0) {
-                       f->c->root = f;
-                       f->parent = NULL;
-                       f->sibling_prev = NULL;
-                       f->sibling_next = NULL;
-                       return 0;
-               }
-               else {
-                       D1(printk("jffs_insert_file_into_tree(): Found "
-                                 "inode with no parent and pino == %u\n",
-                                 f->pino));
-                       return -1;
-               }
-       }
-       f->parent = parent;
-       f->sibling_next = parent->children;
-       if (f->sibling_next) {
-               f->sibling_next->sibling_prev = f;
-       }
-       f->sibling_prev = NULL;
-       parent->children = f;
-       return 0;
-}
-
-
-/* Remove a file from the hash table.  */
-static int
-jffs_unlink_file_from_hash(struct jffs_file *f)
-{
-       D3(printk("jffs_unlink_file_from_hash(): f: 0x%p, "
-                 "ino %u\n", f, f->ino));
-
-       list_del(&f->hash);
-       return 0;
-}
-
-
-/* Just remove the file from the parent's children.  Don't free
-   any memory.  */
-int
-jffs_unlink_file_from_tree(struct jffs_file *f)
-{
-       D3(printk("jffs_unlink_file_from_tree(): ino: %d, pino: %d, name: "
-                 "\"%s\"\n", f->ino, f->pino, (f->name ? f->name : "")));
-
-       if (f->sibling_prev) {
-               f->sibling_prev->sibling_next = f->sibling_next;
-       }
-       else if (f->parent) {
-               D3(printk("f->parent=%p\n", f->parent));
-               f->parent->children = f->sibling_next;
-       }
-       if (f->sibling_next) {
-               f->sibling_next->sibling_prev = f->sibling_prev;
-       }
-       return 0;
-}
-
-
-/* Find a file with its inode number.  */
-struct jffs_file *
-jffs_find_file(struct jffs_control *c, __u32 ino)
-{
-       struct jffs_file *f;
-       int i = ino % c->hash_len;
-
-       D3(printk("jffs_find_file(): ino: %u\n", ino));
-
-       list_for_each_entry(f, &c->hash[i], hash) {
-               if (ino != f->ino)
-                       continue;
-               D3(printk("jffs_find_file(): Found file with ino "
-                              "%u. (name: \"%s\")\n",
-                              ino, (f->name ? f->name : ""));
-               );
-               return f;
-       }
-       D3(printk("jffs_find_file(): Didn't find file "
-                        "with ino %u.\n", ino);
-       );
-       return NULL;
-}
-
-
-/* Find a file in a directory.  We are comparing the names.  */
-struct jffs_file *
-jffs_find_child(struct jffs_file *dir, const char *name, int len)
-{
-       struct jffs_file *f;
-
-       D3(printk("jffs_find_child()\n"));
-
-       for (f = dir->children; f; f = f->sibling_next) {
-               if (!f->deleted && f->name
-                   && !strncmp(f->name, name, len)
-                   && f->name[len] == '\0') {
-                       break;
-               }
-       }
-
-       D3(if (f) {
-               printk("jffs_find_child(): Found \"%s\".\n", f->name);
-       }
-       else {
-               char *copy = kmalloc(len + 1, GFP_KERNEL);
-               if (copy) {
-                       memcpy(copy, name, len);
-                       copy[len] = '\0';
-               }
-               printk("jffs_find_child(): Didn't find the file \"%s\".\n",
-                      (copy ? copy : ""));
-               kfree(copy);
-       });
-
-       return f;
-}
-
-
-/* Write a raw inode that takes up a certain amount of space in the flash
-   memory.  At the end of the flash device, there is often space that is
-   impossible to use.  At these times we want to mark this space as not
-   used.  In the cases when the amount of space is greater or equal than
-   a struct jffs_raw_inode, we write a "dummy node" that takes up this
-   space.  The space after the raw inode, if it exists, is left as it is.
-   Since this space after the raw inode contains JFFS_EMPTY_BITMASK bytes,
-   we can compute the checksum of it; we don't have to manipulate it any
-   further.
-
-   If the space left on the device is less than the size of a struct
-   jffs_raw_inode, this space is filled with JFFS_DIRTY_BITMASK bytes.
-   No raw inode is written this time.  */
-static int
-jffs_write_dummy_node(struct jffs_control *c, struct jffs_fm *dirty_fm)
-{
-       struct jffs_fmcontrol *fmc = c->fmc;
-       int err;
-
-       D1(printk("jffs_write_dummy_node(): dirty_fm->offset = 0x%08x, "
-                 "dirty_fm->size = %u\n",
-                 dirty_fm->offset, dirty_fm->size));
-
-       if (dirty_fm->size >= sizeof(struct jffs_raw_inode)) {
-               struct jffs_raw_inode raw_inode;
-               memset(&raw_inode, 0, sizeof(struct jffs_raw_inode));
-               raw_inode.magic = JFFS_MAGIC_BITMASK;
-               raw_inode.dsize = dirty_fm->size
-                                 - sizeof(struct jffs_raw_inode);
-               raw_inode.dchksum = raw_inode.dsize * 0xff;
-               raw_inode.chksum
-               = jffs_checksum(&raw_inode, sizeof(struct jffs_raw_inode));
-
-               if ((err = flash_safe_write(fmc->mtd,
-                                           dirty_fm->offset,
-                                           (u_char *)&raw_inode,
-                                           sizeof(struct jffs_raw_inode)))
-                   < 0) {
-                       printk(KERN_ERR "JFFS: jffs_write_dummy_node: "
-                              "flash_safe_write failed!\n");
-                       return err;
-               }
-       }
-       else {
-               flash_safe_acquire(fmc->mtd);
-               flash_memset(fmc->mtd, dirty_fm->offset, 0, dirty_fm->size);
-               flash_safe_release(fmc->mtd);
-       }
-
-       D3(printk("jffs_write_dummy_node(): Leaving...\n"));
-       return 0;
-}
-
-
-/* Write a raw inode, possibly its name and possibly some data.  */
-int
-jffs_write_node(struct jffs_control *c, struct jffs_node *node,
-               struct jffs_raw_inode *raw_inode,
-               const char *name, const unsigned char *data,
-               int recoverable,
-               struct jffs_file *f)
-{
-       struct jffs_fmcontrol *fmc = c->fmc;
-       struct jffs_fm *fm;
-       struct kvec node_iovec[4];
-       unsigned long iovec_cnt;
-
-       __u32 pos;
-       int err;
-       __u32 slack = 0;
-
-       __u32 total_name_size = raw_inode->nsize
-                               + JFFS_GET_PAD_BYTES(raw_inode->nsize);
-       __u32 total_data_size = raw_inode->dsize
-                               + JFFS_GET_PAD_BYTES(raw_inode->dsize);
-       __u32 total_size = sizeof(struct jffs_raw_inode)
-                          + total_name_size + total_data_size;
-       
-       /* If this node isn't something that will eventually let
-          GC free even more space, then don't allow it unless
-          there's at least max_chunk_size space still available
-       */
-       if (!recoverable)
-               slack = fmc->max_chunk_size;
-               
-
-       /* Fire the retrorockets and shoot the fruiton torpedoes, sir!  */
-
-       ASSERT(if (!node) {
-               printk("jffs_write_node(): node == NULL\n");
-               return -EINVAL;
-       });
-       ASSERT(if (raw_inode && raw_inode->nsize && !name) {
-               printk("*** jffs_write_node(): nsize = %u but name == NULL\n",
-                      raw_inode->nsize);
-               return -EINVAL;
-       });
-
-       D1(printk("jffs_write_node(): filename = \"%s\", ino = %u, "
-                 "total_size = %u\n",
-                 (name ? name : ""), raw_inode->ino,
-                 total_size));
-
-       jffs_fm_write_lock(fmc);
-
-retry:
-       fm = NULL;
-       err = 0;
-       while (!fm) {
-
-               /* Deadlocks suck. */
-               while(fmc->free_size < fmc->min_free_size + total_size + slack) {
-                       jffs_fm_write_unlock(fmc);
-                       if (!JFFS_ENOUGH_SPACE(c, total_size + slack))
-                               return -ENOSPC;
-                       jffs_fm_write_lock(fmc);
-               }
-
-               /* First try to allocate some flash memory.  */
-               err = jffs_fmalloc(fmc, total_size, node, &fm);
-               
-               if (err == -ENOSPC) {
-                       /* Just out of space. GC and try again */
-                       if (fmc->dirty_size < fmc->sector_size) {
-                               D(printk("jffs_write_node(): jffs_fmalloc(0x%p, %u) "
-                                        "failed, no dirty space to GC\n", fmc,
-                                        total_size));
-                               return err;
-                       }
-                       
-                       D1(printk(KERN_INFO "jffs_write_node(): Calling jffs_garbage_collect_now()\n"));
-                       jffs_fm_write_unlock(fmc);
-                       if ((err = jffs_garbage_collect_now(c))) {
-                               D(printk("jffs_write_node(): jffs_garbage_collect_now() failed\n"));
-                               return err;
-                       }
-                       jffs_fm_write_lock(fmc);
-                       continue;
-               } 
-
-               if (err < 0) {
-                       jffs_fm_write_unlock(fmc);
-
-                       D(printk("jffs_write_node(): jffs_fmalloc(0x%p, %u) "
-                                "failed!\n", fmc, total_size));
-                       return err;
-               }
-
-               if (!fm->nodes) {
-                       /* The jffs_fm struct that we got is not good enough.
-                          Make that space dirty and try again  */
-                       if ((err = jffs_write_dummy_node(c, fm)) < 0) {
-                               kfree(fm);
-                               DJM(no_jffs_fm--);
-                               jffs_fm_write_unlock(fmc);
-                               D(printk("jffs_write_node(): "
-                                        "jffs_write_dummy_node(): Failed!\n"));
-                               return err;
-                       }
-                       fm = NULL;
-               }
-       } /* while(!fm) */
-       node->fm = fm;
-
-       ASSERT(if (fm->nodes == 0) {
-               printk(KERN_ERR "jffs_write_node(): fm->nodes == 0\n");
-       });
-
-       pos = node->fm->offset;
-
-       /* Increment the version number here. We can't let the caller
-          set it beforehand, because we might have had to do GC on a node
-          of this file - and we'd end up reusing version numbers.
-       */
-       if (f) {
-               raw_inode->version = f->highest_version + 1;
-               D1(printk (KERN_NOTICE "jffs_write_node(): setting version of %s to %d\n", f->name, raw_inode->version));
-
-               /* if the file was deleted, set the deleted bit in the raw inode */
-               if (f->deleted)
-                       raw_inode->deleted = 1;
-       }
-
-       /* Compute the checksum for the data and name chunks.  */
-       raw_inode->dchksum = jffs_checksum(data, raw_inode->dsize);
-       raw_inode->nchksum = jffs_checksum(name, raw_inode->nsize);
-
-       /* The checksum is calculated without the chksum and accurate
-          fields so set them to zero first.  */
-       raw_inode->accurate = 0;
-       raw_inode->chksum = 0;
-       raw_inode->chksum = jffs_checksum(raw_inode,
-                                         sizeof(struct jffs_raw_inode));
-       raw_inode->accurate = 0xff;
-
-       D3(printk("jffs_write_node(): About to write this raw inode to the "
-                 "flash at pos 0x%lx:\n", (long)pos));
-       D3(jffs_print_raw_inode(raw_inode));
-
-       /* The actual raw JFFS node */
-       node_iovec[0].iov_base = (void *) raw_inode;
-       node_iovec[0].iov_len = (size_t) sizeof(struct jffs_raw_inode);
-       iovec_cnt = 1;
-
-       /* Get name and size if there is one */
-       if (raw_inode->nsize) {
-               node_iovec[iovec_cnt].iov_base = (void *) name;
-               node_iovec[iovec_cnt].iov_len = (size_t) raw_inode->nsize;
-               iovec_cnt++;
-
-               if (JFFS_GET_PAD_BYTES(raw_inode->nsize)) {
-                       static unsigned char allff[3]={255,255,255};
-                       /* Add some extra padding if necessary */
-                       node_iovec[iovec_cnt].iov_base = allff;
-                       node_iovec[iovec_cnt].iov_len =
-                               JFFS_GET_PAD_BYTES(raw_inode->nsize);
-                       iovec_cnt++;
-               }
-       }
-
-       /* Get data and size if there is any */
-       if (raw_inode->dsize) {
-               node_iovec[iovec_cnt].iov_base = (void *) data;
-               node_iovec[iovec_cnt].iov_len = (size_t) raw_inode->dsize;
-               iovec_cnt++;
-               /* No need to pad this because we're not actually putting
-                  anything after it.
-               */
-       }
-
-       if ((err = flash_safe_writev(fmc->mtd, node_iovec, iovec_cnt,
-                                   pos)) < 0) {
-               jffs_fmfree_partly(fmc, fm, 0);
-               jffs_fm_write_unlock(fmc);
-               printk(KERN_ERR "JFFS: jffs_write_node: Failed to write, "
-                      "requested %i, wrote %i\n", total_size, err);
-               goto retry;
-       }
-       if (raw_inode->deleted)
-               f->deleted = 1;
-
-       jffs_fm_write_unlock(fmc);
-       D3(printk("jffs_write_node(): Leaving...\n"));
-       return raw_inode->dsize;
-} /* jffs_write_node()  */
-
-
-/* Read data from the node and write it to the buffer.  'node_offset'
-   is how much we have read from this particular node before and which
-   shouldn't be read again.  'max_size' is how much space there is in
-   the buffer.  */
-static int
-jffs_get_node_data(struct jffs_file *f, struct jffs_node *node, 
-                  unsigned char *buf,__u32 node_offset, __u32 max_size)
-{
-       struct jffs_fmcontrol *fmc = f->c->fmc;
-       __u32 pos = node->fm->offset + node->fm_offset + node_offset;
-       __u32 avail = node->data_size - node_offset;
-       __u32 r;
-
-       D2(printk("  jffs_get_node_data(): file: \"%s\", ino: %u, "
-                 "version: %u, node_offset: %u\n",
-                 f->name, node->ino, node->version, node_offset));
-
-       r = min(avail, max_size);
-       D3(printk(KERN_NOTICE "jffs_get_node_data\n"));
-       flash_safe_read(fmc->mtd, pos, buf, r);
-
-       D3(printk("  jffs_get_node_data(): Read %u byte%s.\n",
-                 r, (r == 1 ? "" : "s")));
-
-       return r;
-}
-
-
-/* Read data from the file's nodes.  Write the data to the buffer
-   'buf'.  'read_offset' tells how much data we should skip.  */
-int
-jffs_read_data(struct jffs_file *f, unsigned char *buf, __u32 read_offset,
-              __u32 size)
-{
-       struct jffs_node *node;
-       __u32 read_data = 0; /* Total amount of read data.  */
-       __u32 node_offset = 0;
-       __u32 pos = 0; /* Number of bytes traversed.  */
-
-       D2(printk("jffs_read_data(): file = \"%s\", read_offset = %d, "
-                 "size = %u\n",
-                 (f->name ? f->name : ""), read_offset, size));
-
-       if (read_offset >= f->size) {
-               D(printk("  f->size: %d\n", f->size));
-               return 0;
-       }
-
-       /* First find the node to read data from.  */
-       node = f->range_head;
-       while (pos <= read_offset) {
-               node_offset = read_offset - pos;
-               if (node_offset >= node->data_size) {
-                       pos += node->data_size;
-                       node = node->range_next;
-               }
-               else {
-                       break;
-               }
-       }
-
-       /* "Cats are living proof that not everything in nature
-          has to be useful."
-          - Garrison Keilor ('97)  */
-
-       /* Fill the buffer.  */
-       while (node && (read_data < size)) {
-               int r;
-               if (!node->fm) {
-                       /* This node does not refer to real data.  */
-                       r = min(size - read_data,
-                                    node->data_size - node_offset);
-                       memset(&buf[read_data], 0, r);
-               }
-               else if ((r = jffs_get_node_data(f, node, &buf[read_data],
-                                                node_offset,
-                                                size - read_data)) < 0) {
-                       return r;
-               }
-               read_data += r;
-               node_offset = 0;
-               node = node->range_next;
-       }
-       D3(printk("  jffs_read_data(): Read %u bytes.\n", read_data));
-       return read_data;
-}
-
-
-/* Used for traversing all nodes in the hash table.  */
-int
-jffs_foreach_file(struct jffs_control *c, int (*func)(struct jffs_file *))
-{
-       int pos;
-       int r;
-       int result = 0;
-
-       for (pos = 0; pos < c->hash_len; pos++) {
-               struct jffs_file *f, *next;
-
-               /* We must do _safe, because 'func' might remove the
-                  current file 'f' from the list.  */
-               list_for_each_entry_safe(f, next, &c->hash[pos], hash) {
-                       r = func(f);
-                       if (r < 0)
-                               return r;
-                       result += r;
-               }
-       }
-
-       return result;
-}
-
-
-/* Free all nodes associated with a file.  */
-static int
-jffs_free_node_list(struct jffs_file *f)
-{
-       struct jffs_node *node;
-       struct jffs_node *p;
-
-       D3(printk("jffs_free_node_list(): f #%u, \"%s\"\n",
-                 f->ino, (f->name ? f->name : "")));
-       node = f->version_head;
-       while (node) {
-               p = node;
-               node = node->version_next;
-               jffs_free_node(p);
-               DJM(no_jffs_node--);
-       }
-       return 0;
-}
-
-
-/* Free a file and its name.  */
-static int
-jffs_free_file(struct jffs_file *f)
-{
-       D3(printk("jffs_free_file: f #%u, \"%s\"\n",
-                 f->ino, (f->name ? f->name : "")));
-
-       if (f->name) {
-               kfree(f->name);
-               DJM(no_name--);
-       }
-       kfree(f);
-       no_jffs_file--;
-       return 0;
-}
-
-static long
-jffs_get_file_count(void)
-{
-       return no_jffs_file;
-}
-
-/* See if a file is deleted. If so, mark that file's nodes as obsolete.  */
-int
-jffs_possibly_delete_file(struct jffs_file *f)
-{
-       struct jffs_node *n;
-
-       D3(printk("jffs_possibly_delete_file(): ino: %u\n",
-                 f->ino));
-
-       ASSERT(if (!f) {
-               printk(KERN_ERR "jffs_possibly_delete_file(): f == NULL\n");
-               return -1;
-       });
-
-       if (f->deleted) {
-               /* First try to remove all older versions.  Commence with
-                  the oldest node.  */
-               for (n = f->version_head; n; n = n->version_next) {
-                       if (!n->fm) {
-                               continue;
-                       }
-                       if (jffs_fmfree(f->c->fmc, n->fm, n) < 0) {
-                               break;
-                       }
-               }
-               /* Unlink the file from the filesystem.  */
-               if (!f->c->building_fs) {
-                       jffs_unlink_file_from_tree(f);
-               }
-               jffs_unlink_file_from_hash(f);
-               jffs_free_node_list(f);
-               jffs_free_file(f);
-       }
-       return 0;
-}
-
-
-/* Used in conjunction with jffs_foreach_file() to count the number
-   of files in the file system.  */
-int
-jffs_file_count(struct jffs_file *f)
-{
-       return 1;
-}
-
-
-/* Build up a file's range list from scratch by going through the
-   version list.  */
-static int
-jffs_build_file(struct jffs_file *f)
-{
-       struct jffs_node *n;
-
-       D3(printk("jffs_build_file(): ino: %u, name: \"%s\"\n",
-                 f->ino, (f->name ? f->name : "")));
-
-       for (n = f->version_head; n; n = n->version_next) {
-               jffs_update_file(f, n);
-       }
-       return 0;
-}
-
-
-/* Remove an amount of data from a file. If this amount of data is
-   zero, that could mean that a node should be split in two parts.
-   We remove or change the appropriate nodes in the lists.
-
-   Starting offset of area to be removed is node->data_offset,
-   and the length of the area is in node->removed_size.   */
-static int
-jffs_delete_data(struct jffs_file *f, struct jffs_node *node)
-{
-       struct jffs_node *n;
-       __u32 offset = node->data_offset;
-       __u32 remove_size = node->removed_size;
-
-       D3(printk("jffs_delete_data(): offset = %u, remove_size = %u\n",
-                 offset, remove_size));
-
-       if (remove_size == 0
-           && f->range_tail
-           && f->range_tail->data_offset + f->range_tail->data_size
-              == offset) {
-               /* A simple append; nothing to remove or no node to split.  */
-               return 0;
-       }
-
-       /* Find the node where we should begin the removal.  */
-       for (n = f->range_head; n; n = n->range_next) {
-               if (n->data_offset + n->data_size > offset) {
-                       break;
-               }
-       }
-       if (!n) {
-               /* If there's no data in the file there's no data to
-                  remove either.  */
-               return 0;
-       }
-
-       if (n->data_offset > offset) {
-               /* XXX: Not implemented yet.  */
-               printk(KERN_WARNING "JFFS: An unexpected situation "
-                      "occurred in jffs_delete_data.\n");
-       }
-       else if (n->data_offset < offset) {
-               /* See if the node has to be split into two parts.  */
-               if (n->data_offset + n->data_size > offset + remove_size) {
-                       /* Do the split.  */
-                       struct jffs_node *new_node;
-                       D3(printk("jffs_delete_data(): Split node with "
-                                 "version number %u.\n", n->version));
-
-                       if (!(new_node = jffs_alloc_node())) {
-                               D(printk("jffs_delete_data(): -ENOMEM\n"));
-                               return -ENOMEM;
-                       }
-                       DJM(no_jffs_node++);
-
-                       new_node->ino = n->ino;
-                       new_node->version = n->version;
-                       new_node->data_offset = offset;
-                       new_node->data_size = n->data_size - (remove_size + (offset - n->data_offset));
-                       new_node->fm_offset = n->fm_offset + (remove_size + (offset - n->data_offset));
-                       new_node->name_size = n->name_size;
-                       new_node->fm = n->fm;
-                       new_node->version_prev = n;
-                       new_node->version_next = n->version_next;
-                       if (new_node->version_next) {
-                               new_node->version_next->version_prev
-                               = new_node;
-                       }
-                       else {
-                               f->version_tail = new_node;
-                       }
-                       n->version_next = new_node;
-                       new_node->range_prev = n;
-                       new_node->range_next = n->range_next;
-                       if (new_node->range_next) {
-                               new_node->range_next->range_prev = new_node;
-                       }
-                       else {
-                               f->range_tail = new_node;
-                       }
-                       /* A very interesting can of worms.  */
-                       n->range_next = new_node;
-                       n->data_size = offset - n->data_offset;
-                       if (new_node->fm)
-                               jffs_add_node(new_node);
-                       else {
-                               D1(printk(KERN_WARNING "jffs_delete_data(): Splitting an empty node (file hold).\n!"));
-                               D1(printk(KERN_WARNING "FIXME: Did dwmw2 do the right thing here?\n"));
-                       }
-                       n = new_node->range_next;
-                       remove_size = 0;
-               }
-               else {
-                       /* No.  No need to split the node.  Just remove
-                          the end of the node.  */
-                       int r = min(n->data_offset + n->data_size
-                                        - offset, remove_size);
-                       n->data_size -= r;
-                       remove_size -= r;
-                       n = n->range_next;
-               }
-       }
-
-       /* Remove as many nodes as necessary.  */
-       while (n && remove_size) {
-               if (n->data_size <= remove_size) {
-                       struct jffs_node *p = n;
-                       remove_size -= n->data_size;
-                       n = n->range_next;
-                       D3(printk("jffs_delete_data(): Removing node: "
-                                 "ino: %u, version: %u%s\n",
-                                 p->ino, p->version,
-                                 (p->fm ? "" : " (virtual)")));
-                       if (p->fm) {
-                               jffs_fmfree(f->c->fmc, p->fm, p);
-                       }
-                       jffs_unlink_node_from_range_list(f, p);
-                       jffs_unlink_node_from_version_list(f, p);
-                       jffs_free_node(p);
-                       DJM(no_jffs_node--);
-               }
-               else {
-                       n->data_size -= remove_size;
-                       n->fm_offset += remove_size;
-                       n->data_offset -= (node->removed_size - remove_size);
-                       n = n->range_next;
-                       break;
-               }
-       }
-
-       /* Adjust the following nodes' information about offsets etc.  */
-       while (n && node->removed_size) {
-               n->data_offset -= node->removed_size;
-               n = n->range_next;
-       }
-
-       if (node->removed_size > (f->size - node->data_offset)) {
-               /* It's possible that the removed_size is in fact
-                * greater than the amount of data we actually thought
-                * were present in the first place - some of the nodes 
-                * which this node originally obsoleted may already have
-                * been deleted from the flash by subsequent garbage 
-                * collection.
-                *
-                * If this is the case, don't let f->size go negative.
-                * Bad things would happen :)
-                */
-               f->size = node->data_offset;
-       } else {
-               f->size -= node->removed_size;
-       }
-       D3(printk("jffs_delete_data(): f->size = %d\n", f->size));
-       return 0;
-} /* jffs_delete_data()  */
-
-
-/* Insert some data into a file.  Prior to the call to this function,
-   jffs_delete_data should be called.  */
-static int
-jffs_insert_data(struct jffs_file *f, struct jffs_node *node)
-{
-       D3(printk("jffs_insert_data(): node->data_offset = %u, "
-                 "node->data_size = %u, f->size = %u\n",
-                 node->data_offset, node->data_size, f->size));
-
-       /* Find the position where we should insert data.  */
-       retry:
-       if (node->data_offset == f->size) {
-               /* A simple append.  This is the most common operation.  */
-               node->range_next = NULL;
-               node->range_prev = f->range_tail;
-               if (node->range_prev) {
-                       node->range_prev->range_next = node;
-               }
-               f->range_tail = node;
-               f->size += node->data_size;
-               if (!f->range_head) {
-                       f->range_head = node;
-               }
-       }
-       else if (node->data_offset < f->size) {
-               /* Trying to insert data into the middle of the file.  This
-                  means no problem because jffs_delete_data() has already
-                  prepared the range list for us.  */
-               struct jffs_node *n;
-
-               /* Find the correct place for the insertion and then insert
-                  the node.  */
-               for (n = f->range_head; n; n = n->range_next) {
-                       D2(printk("Cool stuff's happening!\n"));
-
-                       if (n->data_offset == node->data_offset) {
-                               node->range_prev = n->range_prev;
-                               if (node->range_prev) {
-                                       node->range_prev->range_next = node;
-                               }
-                               else {
-                                       f->range_head = node;
-                               }
-                               node->range_next = n;
-                               n->range_prev = node;
-                               break;
-                       }
-                       ASSERT(else if (n->data_offset + n->data_size >
-                                       node->data_offset) {
-                               printk(KERN_ERR "jffs_insert_data(): "
-                                      "Couldn't find a place to insert "
-                                      "the data!\n");
-                               return -1;
-                       });
-               }
-
-               /* Adjust later nodes' offsets etc.  */
-               n = node->range_next;
-               while (n) {
-                       n->data_offset += node->data_size;
-                       n = n->range_next;
-               }
-               f->size += node->data_size;
-       }
-       else if (node->data_offset > f->size) {
-               /* Okay.  This is tricky.  This means that we want to insert
-                  data at a place that is beyond the limits of the file as
-                  it is constructed right now.  This is actually a common
-                  event that for instance could occur during the mounting
-                  of the file system if a large file have been truncated,
-                  rewritten and then only partially garbage collected.  */
-
-               struct jffs_node *n;
-
-               /* We need a place holder for the data that is missing in
-                  front of this insertion.  This "virtual node" will not
-                  be associated with any space on the flash device.  */
-               struct jffs_node *virtual_node;
-               if (!(virtual_node = jffs_alloc_node())) {
-                       return -ENOMEM;
-               }
-
-               D(printk("jffs_insert_data: Inserting a virtual node.\n"));
-               D(printk("  node->data_offset = %u\n", node->data_offset));
-               D(printk("  f->size = %u\n", f->size));
-
-               virtual_node->ino = node->ino;
-               virtual_node->version = node->version;
-               virtual_node->removed_size = 0;
-               virtual_node->fm_offset = 0;
-               virtual_node->name_size = 0;
-               virtual_node->fm = NULL; /* This is a virtual data holder.  */
-               virtual_node->version_prev = NULL;
-               virtual_node->version_next = NULL;
-               virtual_node->range_next = NULL;
-
-               /* Are there any data at all in the file yet?  */
-               if (f->range_head) {
-                       virtual_node->data_offset
-                       = f->range_tail->data_offset
-                         + f->range_tail->data_size;
-                       virtual_node->data_size
-                       = node->data_offset - virtual_node->data_offset;
-                       virtual_node->range_prev = f->range_tail;
-                       f->range_tail->range_next = virtual_node;
-               }
-               else {
-                       virtual_node->data_offset = 0;
-                       virtual_node->data_size = node->data_offset;
-                       virtual_node->range_prev = NULL;
-                       f->range_head = virtual_node;
-               }
-
-               f->range_tail = virtual_node;
-               f->size += virtual_node->data_size;
-
-               /* Insert this virtual node in the version list as well.  */
-               for (n = f->version_head; n ; n = n->version_next) {
-                       if (n->version == virtual_node->version) {
-                               virtual_node->version_prev = n->version_prev;
-                               n->version_prev = virtual_node;
-                               if (virtual_node->version_prev) {
-                                       virtual_node->version_prev
-                                       ->version_next = virtual_node;
-                               }
-                               else {
-                                       f->version_head = virtual_node;
-                               }
-                               virtual_node->version_next = n;
-                               break;
-                       }
-               }
-
-               D(jffs_print_node(virtual_node));
-
-               /* Make a new try to insert the node.  */
-               goto retry;
-       }
-
-       D3(printk("jffs_insert_data(): f->size = %d\n", f->size));
-       return 0;
-}
-
-
-/* A new node (with data) has been added to the file and now the range
-   list has to be modified.  */
-static int
-jffs_update_file(struct jffs_file *f, struct jffs_node *node)
-{
-       int err;
-
-       D3(printk("jffs_update_file(): ino: %u, version: %u\n",
-                 f->ino, node->version));
-
-       if (node->data_size == 0) {
-               if (node->removed_size == 0) {
-                       /* data_offset == X  */
-                       /* data_size == 0  */
-                       /* remove_size == 0  */
-               }
-               else {
-                       /* data_offset == X  */
-                       /* data_size == 0  */
-                       /* remove_size != 0  */
-                       if ((err = jffs_delete_data(f, node)) < 0) {
-                               return err;
-                       }
-               }
-       }
-       else {
-               /* data_offset == X  */
-               /* data_size != 0  */
-               /* remove_size == Y  */
-               if ((err = jffs_delete_data(f, node)) < 0) {
-                       return err;
-               }
-               if ((err = jffs_insert_data(f, node)) < 0) {
-                       return err;
-               }
-       }
-       return 0;
-}
-
-/* Print the contents of a file.  */
-#if 0
-int
-jffs_print_file(struct jffs_file *f)
-{
-       D(int i);
-       D(printk("jffs_file: 0x%p\n", f));
-       D(printk("{\n"));
-       D(printk("        0x%08x, /* ino  */\n", f->ino));
-       D(printk("        0x%08x, /* pino  */\n", f->pino));
-       D(printk("        0x%08x, /* mode  */\n", f->mode));
-       D(printk("        0x%04x,     /* uid  */\n", f->uid));
-       D(printk("        0x%04x,     /* gid  */\n", f->gid));
-       D(printk("        0x%08x, /* atime  */\n", f->atime));
-       D(printk("        0x%08x, /* mtime  */\n", f->mtime));
-       D(printk("        0x%08x, /* ctime  */\n", f->ctime));
-       D(printk("        0x%02x,       /* nsize  */\n", f->nsize));
-       D(printk("        0x%02x,       /* nlink  */\n", f->nlink));
-       D(printk("        0x%02x,       /* deleted  */\n", f->deleted));
-       D(printk("        \"%s\", ", (f->name ? f->name : "")));
-       D(for (i = strlen(f->name ? f->name : ""); i < 8; ++i) {
-               printk(" ");
-       });
-       D(printk("/* name  */\n"));
-       D(printk("        0x%08x, /* size  */\n", f->size));
-       D(printk("        0x%08x, /* highest_version  */\n",
-                f->highest_version));
-       D(printk("        0x%p, /* c  */\n", f->c));
-       D(printk("        0x%p, /* parent  */\n", f->parent));
-       D(printk("        0x%p, /* children  */\n", f->children));
-       D(printk("        0x%p, /* sibling_prev  */\n", f->sibling_prev));
-       D(printk("        0x%p, /* sibling_next  */\n", f->sibling_next));
-       D(printk("        0x%p, /* hash_prev  */\n", f->hash.prev));
-       D(printk("        0x%p, /* hash_next  */\n", f->hash.next));
-       D(printk("        0x%p, /* range_head  */\n", f->range_head));
-       D(printk("        0x%p, /* range_tail  */\n", f->range_tail));
-       D(printk("        0x%p, /* version_head  */\n", f->version_head));
-       D(printk("        0x%p, /* version_tail  */\n", f->version_tail));
-       D(printk("}\n"));
-       return 0;
-}
-#endif  /*  0  */
-
-void
-jffs_print_hash_table(struct jffs_control *c)
-{
-       int i;
-
-       printk("JFFS: Dumping the file system's hash table...\n");
-       for (i = 0; i < c->hash_len; i++) {
-               struct jffs_file *f;
-               list_for_each_entry(f, &c->hash[i], hash) {
-                       printk("*** c->hash[%u]: \"%s\" "
-                              "(ino: %u, pino: %u)\n",
-                              i, (f->name ? f->name : ""),
-                              f->ino, f->pino);
-               }
-       }
-}
-
-
-void
-jffs_print_tree(struct jffs_file *first_file, int indent)
-{
-       struct jffs_file *f;
-       char *space;
-       int dir;
-
-       if (!first_file) {
-               return;
-       }
-
-       if (!(space = kmalloc(indent + 1, GFP_KERNEL))) {
-               printk("jffs_print_tree(): Out of memory!\n");
-               return;
-       }
-
-       memset(space, ' ', indent);
-       space[indent] = '\0';
-
-       for (f = first_file; f; f = f->sibling_next) {
-               dir = S_ISDIR(f->mode);
-               printk("%s%s%s (ino: %u, highest_version: %u, size: %u)\n",
-                      space, (f->name ? f->name : ""), (dir ? "/" : ""),
-                      f->ino, f->highest_version, f->size);
-               if (dir) {
-                       jffs_print_tree(f->children, indent + 2);
-               }
-       }
-
-       kfree(space);
-}
-
-
-#if defined(JFFS_MEMORY_DEBUG) && JFFS_MEMORY_DEBUG
-void
-jffs_print_memory_allocation_statistics(void)
-{
-       static long printout;
-       printk("________ Memory printout #%ld ________\n", ++printout);
-       printk("no_jffs_file = %ld\n", no_jffs_file);
-       printk("no_jffs_node = %ld\n", no_jffs_node);
-       printk("no_jffs_control = %ld\n", no_jffs_control);
-       printk("no_jffs_raw_inode = %ld\n", no_jffs_raw_inode);
-       printk("no_jffs_node_ref = %ld\n", no_jffs_node_ref);
-       printk("no_jffs_fm = %ld\n", no_jffs_fm);
-       printk("no_jffs_fmcontrol = %ld\n", no_jffs_fmcontrol);
-       printk("no_hash = %ld\n", no_hash);
-       printk("no_name = %ld\n", no_name);
-       printk("\n");
-}
-#endif
-
-
-/* Rewrite `size' bytes, and begin at `node'.  */
-static int
-jffs_rewrite_data(struct jffs_file *f, struct jffs_node *node, __u32 size)
-{
-       struct jffs_control *c = f->c;
-       struct jffs_fmcontrol *fmc = c->fmc;
-       struct jffs_raw_inode raw_inode;
-       struct jffs_node *new_node;
-       struct jffs_fm *fm;
-       __u32 pos;
-       __u32 pos_dchksum;
-       __u32 total_name_size;
-       __u32 total_data_size;
-       __u32 total_size;
-       int err;
-
-       D1(printk("***jffs_rewrite_data(): node: %u, name: \"%s\", size: %u\n",
-                 f->ino, (f->name ? f->name : "(null)"), size));
-
-       /* Create and initialize the new node.  */
-       if (!(new_node = jffs_alloc_node())) {
-               D(printk("jffs_rewrite_data(): "
-                        "Failed to allocate node.\n"));
-               return -ENOMEM;
-       }
-       DJM(no_jffs_node++);
-       new_node->data_offset = node->data_offset;
-       new_node->removed_size = size;
-       total_name_size = JFFS_PAD(f->nsize);
-       total_data_size = JFFS_PAD(size);
-       total_size = sizeof(struct jffs_raw_inode)
-                    + total_name_size + total_data_size;
-       new_node->fm_offset = sizeof(struct jffs_raw_inode)
-                             + total_name_size;
-
-retry:
-       jffs_fm_write_lock(fmc);
-       err = 0;
-
-       if ((err = jffs_fmalloc(fmc, total_size, new_node, &fm)) < 0) {
-               DJM(no_jffs_node--);
-               jffs_fm_write_unlock(fmc);
-               D(printk("jffs_rewrite_data(): Failed to allocate fm.\n"));
-               jffs_free_node(new_node);
-               return err;
-       }
-       else if (!fm->nodes) {
-               /* The jffs_fm struct that we got is not big enough.  */
-               /* This should never happen, because we deal with this case
-                  in jffs_garbage_collect_next().*/
-               printk(KERN_WARNING "jffs_rewrite_data(): Allocated node is too small (%d bytes of %d)\n", fm->size, total_size);
-               if ((err = jffs_write_dummy_node(c, fm)) < 0) {
-                       D(printk("jffs_rewrite_data(): "
-                                "jffs_write_dummy_node() Failed!\n"));
-               } else {
-                       err = -ENOSPC;
-               }
-               DJM(no_jffs_fm--);
-               jffs_fm_write_unlock(fmc);
-               kfree(fm);
-               
-               return err;
-       }
-       new_node->fm = fm;
-
-       /* Initialize the raw inode.  */
-       raw_inode.magic = JFFS_MAGIC_BITMASK;
-       raw_inode.ino = f->ino;
-       raw_inode.pino = f->pino;
-       raw_inode.version = f->highest_version + 1;
-       raw_inode.mode = f->mode;
-       raw_inode.uid = f->uid;
-       raw_inode.gid = f->gid;
-       raw_inode.atime = f->atime;
-       raw_inode.mtime = f->mtime;
-       raw_inode.ctime = f->ctime;
-       raw_inode.offset = node->data_offset;
-       raw_inode.dsize = size;
-       raw_inode.rsize = size;
-       raw_inode.nsize = f->nsize;
-       raw_inode.nlink = f->nlink;
-       raw_inode.spare = 0;
-       raw_inode.rename = 0;
-       raw_inode.deleted = f->deleted;
-       raw_inode.accurate = 0xff;
-       raw_inode.dchksum = 0;
-       raw_inode.nchksum = 0;
-
-       pos = new_node->fm->offset;
-       pos_dchksum = pos +JFFS_RAW_INODE_DCHKSUM_OFFSET;
-
-       D3(printk("jffs_rewrite_data(): Writing this raw inode "
-                 "to pos 0x%ul.\n", pos));
-       D3(jffs_print_raw_inode(&raw_inode));
-
-       if ((err = flash_safe_write(fmc->mtd, pos,
-                                   (u_char *) &raw_inode,
-                                   sizeof(struct jffs_raw_inode)
-                                   - sizeof(__u32)
-                                   - sizeof(__u16) - sizeof(__u16))) < 0) {
-               jffs_fmfree_partly(fmc, fm,
-                                  total_name_size + total_data_size);
-               jffs_fm_write_unlock(fmc);
-               printk(KERN_ERR "JFFS: jffs_rewrite_data: Write error during "
-                       "rewrite. (raw inode)\n");
-               printk(KERN_ERR "JFFS: jffs_rewrite_data: Now retrying "
-                       "rewrite. (raw inode)\n");
-               goto retry;
-       }
-       pos += sizeof(struct jffs_raw_inode);
-
-       /* Write the name to the flash memory.  */
-       if (f->nsize) {
-               D3(printk("jffs_rewrite_data(): Writing name \"%s\" to "
-                         "pos 0x%ul.\n", f->name, (unsigned int) pos));
-               if ((err = flash_safe_write(fmc->mtd, pos,
-                                           (u_char *)f->name,
-                                           f->nsize)) < 0) {
-                       jffs_fmfree_partly(fmc, fm, total_data_size);
-                       jffs_fm_write_unlock(fmc);
-                       printk(KERN_ERR "JFFS: jffs_rewrite_data: Write "
-                               "error during rewrite. (name)\n");
-                       printk(KERN_ERR "JFFS: jffs_rewrite_data: Now retrying "
-                               "rewrite. (name)\n");
-                       goto retry;
-               }
-               pos += total_name_size;
-               raw_inode.nchksum = jffs_checksum(f->name, f->nsize);
-       }
-
-       /* Write the data.  */
-       if (size) {
-               int r;
-               unsigned char *page;
-               __u32 offset = node->data_offset;
-
-               if (!(page = (unsigned char *)__get_free_page(GFP_KERNEL))) {
-                       jffs_fmfree_partly(fmc, fm, 0);
-                       return -1;
-               }
-
-               while (size) {
-                       __u32 s = min(size, (__u32)PAGE_SIZE);
-                       if ((r = jffs_read_data(f, (char *)page,
-                                               offset, s)) < s) {
-                               free_page((unsigned long)page);
-                               jffs_fmfree_partly(fmc, fm, 0);
-                               jffs_fm_write_unlock(fmc);
-                               printk(KERN_ERR "JFFS: jffs_rewrite_data: "
-                                        "jffs_read_data() "
-                                        "failed! (r = %d)\n", r);
-                               return -1;
-                       }
-                       if ((err = flash_safe_write(fmc->mtd,
-                                                   pos, page, r)) < 0) {
-                               free_page((unsigned long)page);
-                               jffs_fmfree_partly(fmc, fm, 0);
-                               jffs_fm_write_unlock(fmc);
-                               printk(KERN_ERR "JFFS: jffs_rewrite_data: "
-                                      "Write error during rewrite. "
-                                      "(data)\n");
-                               goto retry;
-                       }
-                       pos += r;
-                       size -= r;
-                       offset += r;
-                       raw_inode.dchksum += jffs_checksum(page, r);
-               }
-
-               free_page((unsigned long)page);
-       }
-
-       raw_inode.accurate = 0;
-       raw_inode.chksum = jffs_checksum(&raw_inode,
-                                        sizeof(struct jffs_raw_inode)
-                                        - sizeof(__u16));
-
-       /* Add the checksum.  */
-       if ((err
-            = flash_safe_write(fmc->mtd, pos_dchksum,
-                               &((u_char *)
-                               &raw_inode)[JFFS_RAW_INODE_DCHKSUM_OFFSET],
-                               sizeof(__u32) + sizeof(__u16)
-                               + sizeof(__u16))) < 0) {
-               jffs_fmfree_partly(fmc, fm, 0);
-               jffs_fm_write_unlock(fmc);
-               printk(KERN_ERR "JFFS: jffs_rewrite_data: Write error during "
-                      "rewrite. (checksum)\n");
-               goto retry;
-       }
-
-       /* Now make the file system aware of the newly written node.  */
-       jffs_insert_node(c, f, &raw_inode, f->name, new_node);
-       jffs_fm_write_unlock(fmc);
-
-       D3(printk("jffs_rewrite_data(): Leaving...\n"));
-       return 0;
-} /* jffs_rewrite_data()  */
-
-
-/* jffs_garbage_collect_next implements one step in the garbage collect
-   process and is often called multiple times at each occasion of a
-   garbage collect.  */
-
-static int
-jffs_garbage_collect_next(struct jffs_control *c)
-{
-       struct jffs_fmcontrol *fmc = c->fmc;
-       struct jffs_node *node;
-       struct jffs_file *f;
-       int err = 0;
-       __u32 size;
-       __u32 data_size;
-       __u32 total_name_size;
-       __u32 extra_available;
-       __u32 space_needed;
-       __u32 free_chunk_size1 = jffs_free_size1(fmc);
-       D2(__u32 free_chunk_size2 = jffs_free_size2(fmc));
-
-       /* Get the oldest node in the flash.  */
-       node = jffs_get_oldest_node(fmc);
-       ASSERT(if (!node) {
-               printk(KERN_ERR "JFFS: jffs_garbage_collect_next: "
-                      "No oldest node found!\n");
-                err = -1;
-                goto jffs_garbage_collect_next_end;
-               
-
-       });
-
-       /* Find its corresponding file too.  */
-       f = jffs_find_file(c, node->ino);
-
-       if (!f) {
-         printk (KERN_ERR "JFFS: jffs_garbage_collect_next: "
-                  "No file to garbage collect! "
-                 "(ino = 0x%08x)\n", node->ino);
-          /* FIXME: Free the offending node and recover. */
-          err = -1;
-          goto jffs_garbage_collect_next_end;
-       }
-
-       /* We always write out the name. Theoretically, we don't need
-          to, but for now it's easier - because otherwise we'd have
-          to keep track of how many times the current name exists on
-          the flash and make sure it never reaches zero.
-
-          The current approach means that would be possible to cause
-          the GC to end up eating its tail by writing lots of nodes
-          with no name for it to garbage-collect. Hence the change in
-          inode.c to write names with _every_ node.
-
-          It sucks, but it _should_ work.
-       */
-       total_name_size = JFFS_PAD(f->nsize);
-
-       D1(printk("jffs_garbage_collect_next(): \"%s\", "
-                 "ino: %u, version: %u, location 0x%x, dsize %u\n",
-                 (f->name ? f->name : ""), node->ino, node->version, 
-                 node->fm->offset, node->data_size));
-
-       /* Compute how many data it's possible to rewrite at the moment.  */
-       data_size = f->size - node->data_offset;
-
-       /* And from that, the total size of the chunk we want to write */
-       size = sizeof(struct jffs_raw_inode) + total_name_size
-              + data_size + JFFS_GET_PAD_BYTES(data_size);
-
-       /* If that's more than max_chunk_size, reduce it accordingly */
-       if (size > fmc->max_chunk_size) {
-               size = fmc->max_chunk_size;
-               data_size = size - sizeof(struct jffs_raw_inode)
-                           - total_name_size;
-       }
-
-       /* If we're asking to take up more space than free_chunk_size1
-          but we _could_ fit in it, shrink accordingly.
-       */
-       if (size > free_chunk_size1) {
-
-               if (free_chunk_size1 <
-                   (sizeof(struct jffs_raw_inode) + total_name_size + BLOCK_SIZE)){
-                       /* The space left is too small to be of any
-                          use really.  */
-                       struct jffs_fm *dirty_fm
-                       = jffs_fmalloced(fmc,
-                                        fmc->tail->offset + fmc->tail->size,
-                                        free_chunk_size1, NULL);
-                       if (!dirty_fm) {
-                               printk(KERN_ERR "JFFS: "
-                                      "jffs_garbage_collect_next: "
-                                      "Failed to allocate `dirty' "
-                                      "flash memory!\n");
-                               err = -1;
-                                goto jffs_garbage_collect_next_end;
-                       }
-                       D1(printk("Dirtying end of flash - too small\n"));
-                       jffs_write_dummy_node(c, dirty_fm);
-                        err = 0;
-                       goto jffs_garbage_collect_next_end;
-               }
-               D1(printk("Reducing size of new node from %d to %d to avoid "
-                         " exceeding free_chunk_size1\n",
-                         size, free_chunk_size1));
-
-               size = free_chunk_size1;
-               data_size = size - sizeof(struct jffs_raw_inode)
-                           - total_name_size;
-       }
-
-
-       /* Calculate the amount of space needed to hold the nodes
-          which are remaining in the tail */
-       space_needed = fmc->min_free_size - (node->fm->offset % fmc->sector_size);
-
-       /* From that, calculate how much 'extra' space we can use to
-          increase the size of the node we're writing from the size
-          of the node we're obsoleting
-       */
-       if (space_needed > fmc->free_size) {
-               /* If we've gone below min_free_size for some reason,
-                  don't fuck up. This is why we have 
-                  min_free_size > sector_size. Whinge about it though,
-                  just so I can convince myself my maths is right.
-               */
-               D1(printk(KERN_WARNING "jffs_garbage_collect_next(): "
-                         "space_needed %d exceeded free_size %d\n",
-                         space_needed, fmc->free_size));
-               extra_available = 0;
-       } else {
-               extra_available = fmc->free_size - space_needed;
-       }
-
-       /* Check that we don't use up any more 'extra' space than
-          what's available */
-       if (size > JFFS_PAD(node->data_size) + total_name_size + 
-           sizeof(struct jffs_raw_inode) + extra_available) {
-               D1(printk("Reducing size of new node from %d to %ld to avoid "
-                      "catching our tail\n", size, 
-                         (long) (JFFS_PAD(node->data_size) + JFFS_PAD(node->name_size) + 
-                         sizeof(struct jffs_raw_inode) + extra_available)));
-               D1(printk("space_needed = %d, extra_available = %d\n", 
-                         space_needed, extra_available));
-
-               size = JFFS_PAD(node->data_size) + total_name_size + 
-                 sizeof(struct jffs_raw_inode) + extra_available;
-               data_size = size - sizeof(struct jffs_raw_inode)
-                       - total_name_size;
-       };
-
-       D2(printk("  total_name_size: %u\n", total_name_size));
-       D2(printk("  data_size: %u\n", data_size));
-       D2(printk("  size: %u\n", size));
-       D2(printk("  f->nsize: %u\n", f->nsize));
-       D2(printk("  f->size: %u\n", f->size));
-       D2(printk("  node->data_offset: %u\n", node->data_offset));
-       D2(printk("  free_chunk_size1: %u\n", free_chunk_size1));
-       D2(printk("  free_chunk_size2: %u\n", free_chunk_size2));
-       D2(printk("  node->fm->offset: 0x%08x\n", node->fm->offset));
-
-       if ((err = jffs_rewrite_data(f, node, data_size))) {
-               printk(KERN_WARNING "jffs_rewrite_data() failed: %d\n", err);
-               return err;
-       }
-         
-jffs_garbage_collect_next_end:
-       D3(printk("jffs_garbage_collect_next: Leaving...\n"));
-       return err;
-} /* jffs_garbage_collect_next */
-
-
-/* If an obsolete node is partly going to be erased due to garbage
-   collection, the part that isn't going to be erased must be filled
-   with zeroes so that the scan of the flash will work smoothly next
-   time.  (The data in the file could for instance be a JFFS image
-   which could cause enormous confusion during a scan of the flash
-   device if we didn't do this.)
-     There are two phases in this procedure: First, the clearing of
-   the name and data parts of the node. Second, possibly also clearing
-   a part of the raw inode as well.  If the box is power cycled during
-   the first phase, only the checksum of this node-to-be-cleared-at-
-   the-end will be wrong.  If the box is power cycled during, or after,
-   the clearing of the raw inode, the information like the length of
-   the name and data parts are zeroed.  The next time the box is
-   powered up, the scanning algorithm manages this faulty data too
-   because:
-
-   - The checksum is invalid and thus the raw inode must be discarded
-     in any case.
-   - If the lengths of the data part or the name part are zeroed, the
-     scanning just continues after the raw inode.  But after the inode
-     the scanning procedure just finds zeroes which is the same as
-     dirt.
-
-   So, in the end, this could never fail. :-)  Even if it does fail,
-   the scanning algorithm should manage that too.  */
-
-static int
-jffs_clear_end_of_node(struct jffs_control *c, __u32 erase_size)
-{
-       struct jffs_fm *fm;
-       struct jffs_fmcontrol *fmc = c->fmc;
-       __u32 zero_offset;
-       __u32 zero_size;
-       __u32 zero_offset_data;
-       __u32 zero_size_data;
-       __u32 cutting_raw_inode = 0;
-
-       if (!(fm = jffs_cut_node(fmc, erase_size))) {
-               D3(printk("jffs_clear_end_of_node(): fm == NULL\n"));
-               return 0;
-       }
-
-       /* Where and how much shall we clear?  */
-       zero_offset = fmc->head->offset + erase_size;
-       zero_size = fm->offset + fm->size - zero_offset;
-
-       /* Do we have to clear the raw_inode explicitly?  */
-       if (fm->size - zero_size < sizeof(struct jffs_raw_inode)) {
-               cutting_raw_inode = sizeof(struct jffs_raw_inode)
-                                   - (fm->size - zero_size);
-       }
-
-       /* First, clear the name and data fields.  */
-       zero_offset_data = zero_offset + cutting_raw_inode;
-       zero_size_data = zero_size - cutting_raw_inode;
-       flash_safe_acquire(fmc->mtd);
-       flash_memset(fmc->mtd, zero_offset_data, 0, zero_size_data);
-       flash_safe_release(fmc->mtd);
-
-       /* Should we clear a part of the raw inode?  */
-       if (cutting_raw_inode) {
-               /* I guess it is ok to clear the raw inode in this order.  */
-               flash_safe_acquire(fmc->mtd);
-               flash_memset(fmc->mtd, zero_offset, 0,
-                            cutting_raw_inode);
-               flash_safe_release(fmc->mtd);
-       }
-
-       return 0;
-} /* jffs_clear_end_of_node()  */
-
-/* Try to erase as much as possible of the dirt in the flash memory.  */
-static long
-jffs_try_to_erase(struct jffs_control *c)
-{
-       struct jffs_fmcontrol *fmc = c->fmc;
-       long erase_size;
-       int err;
-       __u32 offset;
-
-       D3(printk("jffs_try_to_erase()\n"));
-
-       erase_size = jffs_erasable_size(fmc);
-
-       D2(printk("jffs_try_to_erase(): erase_size = %ld\n", erase_size));
-
-       if (erase_size == 0) {
-               return 0;
-       }
-       else if (erase_size < 0) {
-               printk(KERN_ERR "JFFS: jffs_try_to_erase: "
-                      "jffs_erasable_size returned %ld.\n", erase_size);
-               return erase_size;
-       }
-
-       if ((err = jffs_clear_end_of_node(c, erase_size)) < 0) {
-               printk(KERN_ERR "JFFS: jffs_try_to_erase: "
-                      "Clearing of node failed.\n");
-               return err;
-       }
-
-       offset = fmc->head->offset;
-
-       /* Now, let's try to do the erase.  */
-       if ((err = flash_erase_region(fmc->mtd,
-                                     offset, erase_size)) < 0) {
-               printk(KERN_ERR "JFFS: Erase of flash failed. "
-                      "offset = %u, erase_size = %ld\n",
-                      offset, erase_size);
-               /* XXX: Here we should allocate this area as dirty
-                  with jffs_fmalloced or something similar.  Now
-                  we just report the error.  */
-               return err;
-       }
-
-#if 0
-       /* Check if the erased sectors really got erased.  */
-       {
-               __u32 pos;
-               __u32 end;
-
-               pos = (__u32)flash_get_direct_pointer(to_kdev_t(c->sb->s_dev), offset);
-               end = pos + erase_size;
-
-               D2(printk("JFFS: Checking erased sector(s)...\n"));
-
-               flash_safe_acquire(fmc->mtd);
-
-               for (; pos < end; pos += 4) {
-                       if (*(__u32 *)pos != JFFS_EMPTY_BITMASK) {
-                               printk("JFFS: Erase failed! pos = 0x%lx\n",
-                                      (long)pos);
-                               jffs_hexdump(fmc->mtd, pos,
-                                            jffs_min(256, end - pos));
-                               err = -1;
-                               break;
-                       }
-               }
-
-               flash_safe_release(fmc->mtd);
-
-               if (!err) {
-                       D2(printk("JFFS: Erase succeeded.\n"));
-               }
-               else {
-                       /* XXX: Here we should allocate the memory
-                          with jffs_fmalloced() in order to prevent
-                          JFFS from using this area accidentally.  */
-                       return err;
-               }
-       }
-#endif
-
-       /* Update the flash memory data structures.  */
-       jffs_sync_erase(fmc, erase_size);
-
-       return erase_size;
-}
-
-
-/* There are different criteria that should trigger a garbage collect:
-
-   1. There is too much dirt in the memory.
-   2. The free space is becoming small.
-   3. There are many versions of a node.
-
-   The garbage collect should always be done in a manner that guarantees
-   that future garbage collects cannot be locked.  E.g. Rewritten chunks
-   should not be too large (span more than one sector in the flash memory
-   for exemple).  Of course there is a limit on how intelligent this garbage
-   collection can be.  */
-
-
-static int
-jffs_garbage_collect_now(struct jffs_control *c)
-{
-       struct jffs_fmcontrol *fmc = c->fmc;
-       long erased = 0;
-       int result = 0;
-       D1(int i = 1);
-       D2(printk("***jffs_garbage_collect_now(): fmc->dirty_size = %u, fmc->free_size = 0x%x\n, fcs1=0x%x, fcs2=0x%x",
-                 fmc->dirty_size, fmc->free_size, jffs_free_size1(fmc), jffs_free_size2(fmc)));
-       D2(jffs_print_fmcontrol(fmc));
-
-       //      down(&fmc->gclock);
-
-       /* If it is possible to garbage collect, do so.  */
-       
-       while (erased == 0) {
-               D1(printk("***jffs_garbage_collect_now(): round #%u, "
-                         "fmc->dirty_size = %u\n", i++, fmc->dirty_size));
-               D2(jffs_print_fmcontrol(fmc));
-
-               if ((erased = jffs_try_to_erase(c)) < 0) {
-                       printk(KERN_WARNING "JFFS: Error in "
-                              "garbage collector.\n");
-                       result = erased;
-                       goto gc_end;
-               }
-               if (erased)
-                       break;
-               
-               if (fmc->free_size == 0) {
-                       /* Argh */
-                       printk(KERN_ERR "jffs_garbage_collect_now(): free_size == 0. This is BAD.\n");
-                       result = -ENOSPC;
-                       break;
-               }
-
-               if (fmc->dirty_size < fmc->sector_size) {
-                       /* Actually, we _may_ have been able to free some, 
-                        * if there are many overlapping nodes which aren't
-                        * actually marked dirty because they still have
-                        * some valid data in each.
-                        */
-                       result = -ENOSPC;
-                       break;
-               }
-
-               /* Let's dare to make a garbage collect.  */
-               if ((result = jffs_garbage_collect_next(c)) < 0) {
-                       printk(KERN_ERR "JFFS: Something "
-                              "has gone seriously wrong "
-                              "with a garbage collect.\n");
-                       goto gc_end;
-               }
-
-               D1(printk("   jffs_garbage_collect_now(): erased: %ld\n", erased));
-               DJM(jffs_print_memory_allocation_statistics());
-       }
-       
-gc_end:
-       //      up(&fmc->gclock);
-
-       D3(printk("   jffs_garbage_collect_now(): Leaving...\n"));
-       D1(if (erased) {
-               printk("jffs_g_c_now(): erased = %ld\n", erased);
-               jffs_print_fmcontrol(fmc);
-       });
-
-       if (!erased && !result)
-               return -ENOSPC;
-
-       return result;
-} /* jffs_garbage_collect_now() */
-
-
-/* Determine if it is reasonable to start garbage collection.
-   We start a gc pass if either:
-   - The number of free bytes < MIN_FREE_BYTES && at least one
-     block is dirty, OR
-   - The number of dirty bytes > MAX_DIRTY_BYTES
-*/
-static inline int thread_should_wake (struct jffs_control *c)
-{
-       D1(printk (KERN_NOTICE "thread_should_wake(): free=%d, dirty=%d, blocksize=%d.\n",
-                  c->fmc->free_size, c->fmc->dirty_size, c->fmc->sector_size));
-
-       /* If there's not enough dirty space to free a block, there's no point. */
-       if (c->fmc->dirty_size < c->fmc->sector_size) {
-               D2(printk(KERN_NOTICE "thread_should_wake(): Not waking. Insufficient dirty space\n"));
-               return 0;
-       }
-#if 1
-       /* If there is too much RAM used by the various structures, GC */
-       if (jffs_get_node_inuse() > (c->fmc->used_size/c->fmc->max_chunk_size * 5 + jffs_get_file_count() * 2 + 50)) {
-               /* FIXME: Provide proof that this test can be satisfied. We
-                  don't want a filesystem doing endless GC just because this
-                  condition cannot ever be false.
-               */
-               D2(printk(KERN_NOTICE "thread_should_wake(): Waking due to number of nodes\n"));
-               return 1;
-       }
-#endif
-       /* If there are fewer free bytes than the threshold, GC */
-       if (c->fmc->free_size < c->gc_minfree_threshold) {
-               D2(printk(KERN_NOTICE "thread_should_wake(): Waking due to insufficent free space\n"));
-               return 1;
-       }
-       /* If there are more dirty bytes than the threshold, GC */
-       if (c->fmc->dirty_size > c->gc_maxdirty_threshold) {
-               D2(printk(KERN_NOTICE "thread_should_wake(): Waking due to excessive dirty space\n"));
-               return 1;
-       }       
-       /* FIXME: What about the "There are many versions of a node" condition? */
-
-       return 0;
-}
-
-
-void jffs_garbage_collect_trigger(struct jffs_control *c)
-{
-       /* NOTE: We rely on the fact that we have the BKL here.
-        * Otherwise, the gc_task could go away between the check
-        * and the wake_up_process()
-        */
-       if (c->gc_task && thread_should_wake(c))
-               send_sig(SIGHUP, c->gc_task, 1);
-}
-  
-
-/* Kernel threads  take (void *) as arguments.   Thus we pass
-   the jffs_control data as a (void *) and then cast it. */
-int
-jffs_garbage_collect_thread(void *ptr)
-{
-        struct jffs_control *c = (struct jffs_control *) ptr;
-       struct jffs_fmcontrol *fmc = c->fmc;
-       long erased;
-       int result = 0;
-       D1(int i = 1);
-
-       daemonize("jffs_gcd");
-
-       c->gc_task = current;
-
-       lock_kernel();
-       init_completion(&c->gc_thread_comp); /* barrier */ 
-       spin_lock_irq(&current->sighand->siglock);
-       siginitsetinv (&current->blocked, sigmask(SIGHUP) | sigmask(SIGKILL) | sigmask(SIGSTOP) | sigmask(SIGCONT));
-       recalc_sigpending();
-       spin_unlock_irq(&current->sighand->siglock);
-
-       D1(printk (KERN_NOTICE "jffs_garbage_collect_thread(): Starting infinite loop.\n"));
-
-       for (;;) {
-
-               /* See if we need to start gc.  If we don't, go to sleep.
-                  
-                  Current implementation is a BAD THING(tm).  If we try 
-                  to unmount the FS, the unmount operation will sleep waiting
-                  for this thread to exit.  We need to arrange to send it a
-                  sig before the umount process sleeps.
-               */
-
-               if (!thread_should_wake(c))
-                       set_current_state (TASK_INTERRUPTIBLE);
-               
-               schedule(); /* Yes, we do this even if we want to go
-                                      on immediately - we're a low priority 
-                                      background task. */
-
-               /* Put_super will send a SIGKILL and then wait on the sem. 
-                */
-               while (signal_pending(current)) {
-                       siginfo_t info;
-                       unsigned long signr = 0;
-
-                       if (try_to_freeze())
-                               continue;
-
-                       spin_lock_irq(&current->sighand->siglock);
-                       signr = dequeue_signal(current, &current->blocked, &info);
-                       spin_unlock_irq(&current->sighand->siglock);
-
-                       switch(signr) {
-                       case SIGSTOP:
-                               D1(printk("jffs_garbage_collect_thread(): SIGSTOP received.\n"));
-                               set_current_state(TASK_STOPPED);
-                               schedule();
-                               break;
-
-                       case SIGKILL:
-                               D1(printk("jffs_garbage_collect_thread(): SIGKILL received.\n"));
-                               c->gc_task = NULL;
-                               complete_and_exit(&c->gc_thread_comp, 0);
-                       }
-               }
-
-
-               D1(printk (KERN_NOTICE "jffs_garbage_collect_thread(): collecting.\n"));
-
-               D3(printk (KERN_NOTICE "g_c_thread(): down biglock\n"));
-               mutex_lock(&fmc->biglock);
-               
-               D1(printk("***jffs_garbage_collect_thread(): round #%u, "
-                         "fmc->dirty_size = %u\n", i++, fmc->dirty_size));
-               D2(jffs_print_fmcontrol(fmc));
-
-               if ((erased = jffs_try_to_erase(c)) < 0) {
-                       printk(KERN_WARNING "JFFS: Error in "
-                              "garbage collector: %ld.\n", erased);
-               }
-
-               if (erased)
-                       goto gc_end;
-
-               if (fmc->free_size == 0) {
-                       /* Argh. Might as well commit suicide. */
-                       printk(KERN_ERR "jffs_garbage_collect_thread(): free_size == 0. This is BAD.\n");
-                       send_sig(SIGQUIT, c->gc_task, 1);
-                       // panic()
-                       goto gc_end;
-               }
-               
-               /* Let's dare to make a garbage collect.  */
-               if ((result = jffs_garbage_collect_next(c)) < 0) {
-                       printk(KERN_ERR "JFFS: Something "
-                              "has gone seriously wrong "
-                              "with a garbage collect: %d\n", result);
-               }
-               
-       gc_end:
-               D3(printk (KERN_NOTICE "g_c_thread(): up biglock\n"));
-               mutex_unlock(&fmc->biglock);
-       } /* for (;;) */
-} /* jffs_garbage_collect_thread() */
diff --git a/fs/jffs/intrep.h b/fs/jffs/intrep.h
deleted file mode 100644 (file)
index 5c7abe0..0000000
+++ /dev/null
@@ -1,58 +0,0 @@
-/*
- * JFFS -- Journaling Flash File System, Linux implementation.
- *
- * Copyright (C) 1999, 2000  Axis Communications AB.
- *
- * Created by Finn Hakansson <finn@axis.com>.
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * $Id: intrep.h,v 1.14 2001/09/23 23:28:37 dwmw2 Exp $
- *
- */
-
-#ifndef __LINUX_JFFS_INTREP_H__
-#define __LINUX_JFFS_INTREP_H__
-#include "jffs_fm.h"
-struct jffs_node *jffs_alloc_node(void);
-void jffs_free_node(struct jffs_node *n);
-int jffs_get_node_inuse(void);
-
-void jffs_cleanup_control(struct jffs_control *c);
-int jffs_build_fs(struct super_block *sb);
-
-int jffs_insert_node(struct jffs_control *c, struct jffs_file *f,
-                    const struct jffs_raw_inode *raw_inode,
-                    const char *name, struct jffs_node *node);
-struct jffs_file *jffs_find_file(struct jffs_control *c, __u32 ino);
-struct jffs_file *jffs_find_child(struct jffs_file *dir, const char *name, int len);
-
-void jffs_free_node(struct jffs_node *node);
-
-int jffs_foreach_file(struct jffs_control *c, int (*func)(struct jffs_file *));
-int jffs_possibly_delete_file(struct jffs_file *f);
-int jffs_insert_file_into_tree(struct jffs_file *f);
-int jffs_unlink_file_from_tree(struct jffs_file *f);
-int jffs_file_count(struct jffs_file *f);
-
-int jffs_write_node(struct jffs_control *c, struct jffs_node *node,
-                   struct jffs_raw_inode *raw_inode,
-                   const char *name, const unsigned char *buf,
-                   int recoverable, struct jffs_file *f);
-int jffs_read_data(struct jffs_file *f, unsigned char *buf, __u32 read_offset, __u32 size);
-
-/* Garbage collection stuff.  */
-int jffs_garbage_collect_thread(void *c);
-void jffs_garbage_collect_trigger(struct jffs_control *c);
-
-/* For debugging purposes.  */
-#if 0
-int jffs_print_file(struct jffs_file *f);
-#endif  /*  0  */
-void jffs_print_hash_table(struct jffs_control *c);
-void jffs_print_tree(struct jffs_file *first_file, int indent);
-
-#endif /* __LINUX_JFFS_INTREP_H__  */
diff --git a/fs/jffs/jffs_fm.c b/fs/jffs/jffs_fm.c
deleted file mode 100644 (file)
index 5a95fbd..0000000
+++ /dev/null
@@ -1,798 +0,0 @@
-/*
- * JFFS -- Journaling Flash File System, Linux implementation.
- *
- * Copyright (C) 1999, 2000  Axis Communications AB.
- *
- * Created by Finn Hakansson <finn@axis.com>.
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * $Id: jffs_fm.c,v 1.27 2001/09/20 12:29:47 dwmw2 Exp $
- *
- * Ported to Linux 2.3.x and MTD:
- * Copyright (C) 2000  Alexander Larsson (alex@cendio.se), Cendio Systems AB
- *
- */
-#include <linux/slab.h>
-#include <linux/err.h>
-#include <linux/blkdev.h>
-#include <linux/jffs.h>
-#include "jffs_fm.h"
-#include "intrep.h"
-
-#if defined(JFFS_MARK_OBSOLETE) && JFFS_MARK_OBSOLETE
-static int jffs_mark_obsolete(struct jffs_fmcontrol *fmc, __u32 fm_offset);
-#endif
-
-static struct jffs_fm *jffs_alloc_fm(void);
-static void jffs_free_fm(struct jffs_fm *n);
-
-extern struct kmem_cache     *fm_cache;
-extern struct kmem_cache     *node_cache;
-
-#if CONFIG_JFFS_FS_VERBOSE > 0
-void
-jffs_print_fmcontrol(struct jffs_fmcontrol *fmc)
-{
-       D(printk("struct jffs_fmcontrol: 0x%p\n", fmc));
-       D(printk("{\n"));
-       D(printk("        %u, /* flash_size  */\n", fmc->flash_size));
-       D(printk("        %u, /* used_size  */\n", fmc->used_size));
-       D(printk("        %u, /* dirty_size  */\n", fmc->dirty_size));
-       D(printk("        %u, /* free_size  */\n", fmc->free_size));
-       D(printk("        %u, /* sector_size  */\n", fmc->sector_size));
-       D(printk("        %u, /* min_free_size  */\n", fmc->min_free_size));
-       D(printk("        %u, /* max_chunk_size  */\n", fmc->max_chunk_size));
-       D(printk("        0x%p, /* mtd  */\n", fmc->mtd));
-       D(printk("        0x%p, /* head  */    "
-                "(head->offset = 0x%08x)\n",
-                fmc->head, (fmc->head ? fmc->head->offset : 0)));
-       D(printk("        0x%p, /* tail  */    "
-                "(tail->offset + tail->size = 0x%08x)\n",
-                fmc->tail,
-                (fmc->tail ? fmc->tail->offset + fmc->tail->size : 0)));
-       D(printk("        0x%p, /* head_extra  */\n", fmc->head_extra));
-       D(printk("        0x%p, /* tail_extra  */\n", fmc->tail_extra));
-       D(printk("}\n"));
-}
-#endif  /*  CONFIG_JFFS_FS_VERBOSE > 0  */
-
-#if CONFIG_JFFS_FS_VERBOSE > 2
-static void
-jffs_print_fm(struct jffs_fm *fm)
-{
-       D(printk("struct jffs_fm: 0x%p\n", fm));
-       D(printk("{\n"));
-       D(printk("       0x%08x, /* offset  */\n", fm->offset));
-       D(printk("       %u, /* size  */\n", fm->size));
-       D(printk("       0x%p, /* prev  */\n", fm->prev));
-       D(printk("       0x%p, /* next  */\n", fm->next));
-       D(printk("       0x%p, /* nodes  */\n", fm->nodes));
-       D(printk("}\n"));
-}
-#endif  /*  CONFIG_JFFS_FS_VERBOSE > 2  */
-
-#if 0
-void
-jffs_print_node_ref(struct jffs_node_ref *ref)
-{
-       D(printk("struct jffs_node_ref: 0x%p\n", ref));
-       D(printk("{\n"));
-       D(printk("       0x%p, /* node  */\n", ref->node));
-       D(printk("       0x%p, /* next  */\n", ref->next));
-       D(printk("}\n"));
-}
-#endif  /*  0  */
-
-/* This function creates a new shiny flash memory control structure.  */
-struct jffs_fmcontrol *
-jffs_build_begin(struct jffs_control *c, int unit)
-{
-       struct jffs_fmcontrol *fmc;
-       struct mtd_info *mtd;
-       
-       D3(printk("jffs_build_begin()\n"));
-       fmc = kmalloc(sizeof(*fmc), GFP_KERNEL);
-       if (!fmc) {
-               D(printk("jffs_build_begin(): Allocation of "
-                        "struct jffs_fmcontrol failed!\n"));
-               return (struct jffs_fmcontrol *)0;
-       }
-       DJM(no_jffs_fmcontrol++);
-
-       mtd = get_mtd_device(NULL, unit);
-
-       if (IS_ERR(mtd)) {
-               kfree(fmc);
-               DJM(no_jffs_fmcontrol--);
-               return NULL;
-       }
-       
-       /* Retrieve the size of the flash memory.  */
-       fmc->flash_size = mtd->size;
-       D3(printk("  fmc->flash_size = %d bytes\n", fmc->flash_size));
-
-       fmc->used_size = 0;
-       fmc->dirty_size = 0;
-       fmc->free_size = mtd->size;
-       fmc->sector_size = mtd->erasesize;
-       fmc->max_chunk_size = fmc->sector_size >> 1;
-       /* min_free_size:
-          1 sector, obviously.
-          + 1 x max_chunk_size, for when a nodes overlaps the end of a sector
-          + 1 x max_chunk_size again, which ought to be enough to handle 
-                  the case where a rename causes a name to grow, and GC has
-                  to write out larger nodes than the ones it's obsoleting.
-                  We should fix it so it doesn't have to write the name
-                  _every_ time. Later.
-          + another 2 sectors because people keep getting GC stuck and
-                  we don't know why. This scares me - I want formal proof
-                  of correctness of whatever number we put here. dwmw2.
-       */
-       fmc->min_free_size = fmc->sector_size << 2;
-       fmc->mtd = mtd;
-       fmc->c = c;
-       fmc->head = NULL;
-       fmc->tail = NULL;
-       fmc->head_extra = NULL;
-       fmc->tail_extra = NULL;
-       mutex_init(&fmc->biglock);
-       return fmc;
-}
-
-
-/* When the flash memory scan has completed, this function should be called
-   before use of the control structure.  */
-void
-jffs_build_end(struct jffs_fmcontrol *fmc)
-{
-       D3(printk("jffs_build_end()\n"));
-
-       if (!fmc->head) {
-               fmc->head = fmc->head_extra;
-               fmc->tail = fmc->tail_extra;
-       }
-       else if (fmc->head_extra) {
-               fmc->tail_extra->next = fmc->head;
-               fmc->head->prev = fmc->tail_extra;
-               fmc->head = fmc->head_extra;
-       }
-       fmc->head_extra = NULL; /* These two instructions should be omitted.  */
-       fmc->tail_extra = NULL;
-       D3(jffs_print_fmcontrol(fmc));
-}
-
-
-/* Call this function when the file system is unmounted.  This function
-   frees all memory used by this module.  */
-void
-jffs_cleanup_fmcontrol(struct jffs_fmcontrol *fmc)
-{
-       if (fmc) {
-               struct jffs_fm *next = fmc->head;
-               while (next) {
-                       struct jffs_fm *cur = next;
-                       next = next->next;
-                       jffs_free_fm(cur);
-               }
-               put_mtd_device(fmc->mtd);
-               kfree(fmc);
-               DJM(no_jffs_fmcontrol--);
-       }
-}
-
-
-/* This function returns the size of the first chunk of free space on the
-   flash memory.  This function will return something nonzero if the flash
-   memory contains any free space.  */
-__u32
-jffs_free_size1(struct jffs_fmcontrol *fmc)
-{
-       __u32 head;
-       __u32 tail;
-       __u32 end = fmc->flash_size;
-
-       if (!fmc->head) {
-               /* There is nothing on the flash.  */
-               return fmc->flash_size;
-       }
-
-       /* Compute the beginning and ending of the contents of the flash.  */
-       head = fmc->head->offset;
-       tail = fmc->tail->offset + fmc->tail->size;
-       if (tail == end) {
-               tail = 0;
-       }
-       ASSERT(else if (tail > end) {
-               printk(KERN_WARNING "jffs_free_size1(): tail > end\n");
-               tail = 0;
-       });
-
-       if (head <= tail) {
-               return end - tail;
-       }
-       else {
-               return head - tail;
-       }
-}
-
-/* This function will return something nonzero in case there are two free
-   areas on the flash.  Like this:
-
-     +----------------+------------------+----------------+
-     |     FREE 1     |   USED / DIRTY   |     FREE 2     |
-     +----------------+------------------+----------------+
-       fmc->head -----^
-       fmc->tail ------------------------^
-
-   The value returned, will be the size of the first empty area on the
-   flash, in this case marked "FREE 1".  */
-__u32
-jffs_free_size2(struct jffs_fmcontrol *fmc)
-{
-       if (fmc->head) {
-               __u32 head = fmc->head->offset;
-               __u32 tail = fmc->tail->offset + fmc->tail->size;
-               if (tail == fmc->flash_size) {
-                       tail = 0;
-               }
-
-               if (tail >= head) {
-                       return head;
-               }
-       }
-       return 0;
-}
-
-
-/* Allocate a chunk of flash memory.  If there is enough space on the
-   device, a reference to the associated node is stored in the jffs_fm
-   struct.  */
-int
-jffs_fmalloc(struct jffs_fmcontrol *fmc, __u32 size, struct jffs_node *node,
-            struct jffs_fm **result)
-{
-       struct jffs_fm *fm;
-       __u32 free_chunk_size1;
-       __u32 free_chunk_size2;
-
-       D2(printk("jffs_fmalloc(): fmc = 0x%p, size = %d, "
-                 "node = 0x%p\n", fmc, size, node));
-
-       *result = NULL;
-
-       if (!(fm = jffs_alloc_fm())) {
-               D(printk("jffs_fmalloc(): kmalloc() failed! (fm)\n"));
-               return -ENOMEM;
-       }
-
-       free_chunk_size1 = jffs_free_size1(fmc);
-       free_chunk_size2 = jffs_free_size2(fmc);
-       if (free_chunk_size1 + free_chunk_size2 != fmc->free_size) {
-               printk(KERN_WARNING "Free size accounting screwed\n");
-               printk(KERN_WARNING "free_chunk_size1 == 0x%x, free_chunk_size2 == 0x%x, fmc->free_size == 0x%x\n", free_chunk_size1, free_chunk_size2, fmc->free_size);
-       }
-
-       D3(printk("jffs_fmalloc(): free_chunk_size1 = %u, "
-                 "free_chunk_size2 = %u\n",
-                 free_chunk_size1, free_chunk_size2));
-
-       if (size <= free_chunk_size1) {
-               if (!(fm->nodes = (struct jffs_node_ref *)
-                                 kmalloc(sizeof(struct jffs_node_ref),
-                                         GFP_KERNEL))) {
-                       D(printk("jffs_fmalloc(): kmalloc() failed! "
-                                "(node_ref)\n"));
-                       jffs_free_fm(fm);
-                       return -ENOMEM;
-               }
-               DJM(no_jffs_node_ref++);
-               fm->nodes->node = node;
-               fm->nodes->next = NULL;
-               if (fmc->tail) {
-                       fm->offset = fmc->tail->offset + fmc->tail->size;
-                       if (fm->offset == fmc->flash_size) {
-                               fm->offset = 0;
-                       }
-                       ASSERT(else if (fm->offset > fmc->flash_size) {
-                               printk(KERN_WARNING "jffs_fmalloc(): "
-                                      "offset > flash_end\n");
-                               fm->offset = 0;
-                       });
-               }
-               else {
-                       /* There don't have to be files in the file
-                          system yet.  */
-                       fm->offset = 0;
-               }
-               fm->size = size;
-               fmc->free_size -= size;
-               fmc->used_size += size;
-       }
-       else if (size > free_chunk_size2) {
-               printk(KERN_WARNING "JFFS: Tried to allocate a too "
-                      "large flash memory chunk. (size = %u)\n", size);
-               jffs_free_fm(fm);
-               return -ENOSPC;
-       }
-       else {
-               fm->offset = fmc->tail->offset + fmc->tail->size;
-               fm->size = free_chunk_size1;
-               fm->nodes = NULL;
-               fmc->free_size -= fm->size;
-               fmc->dirty_size += fm->size; /* Changed by simonk. This seemingly fixes a 
-                                               bug that caused infinite garbage collection.
-                                               It previously set fmc->dirty_size to size (which is the
-                                               size of the requested chunk).
-                                            */
-       }
-
-       fm->next = NULL;
-       if (!fmc->head) {
-               fm->prev = NULL;
-               fmc->head = fm;
-               fmc->tail = fm;
-       }
-       else {
-               fm->prev = fmc->tail;
-               fmc->tail->next = fm;
-               fmc->tail = fm;
-       }
-
-       D3(jffs_print_fmcontrol(fmc));
-       D3(jffs_print_fm(fm));
-       *result = fm;
-       return 0;
-}
-
-
-/* The on-flash space is not needed anymore by the passed node.  Remove
-   the reference to the node from the node list.  If the data chunk in
-   the flash memory isn't used by any more nodes anymore (fm->nodes == 0),
-   then mark that chunk as dirty.  */
-int
-jffs_fmfree(struct jffs_fmcontrol *fmc, struct jffs_fm *fm, struct jffs_node *node)
-{
-       struct jffs_node_ref *ref;
-       struct jffs_node_ref *prev;
-       ASSERT(int del = 0);
-
-       D2(printk("jffs_fmfree(): node->ino = %u, node->version = %u\n",
-                node->ino, node->version));
-
-       ASSERT(if (!fmc || !fm || !fm->nodes) {
-               printk(KERN_ERR "jffs_fmfree(): fmc: 0x%p, fm: 0x%p, "
-                      "fm->nodes: 0x%p\n",
-                      fmc, fm, (fm ? fm->nodes : NULL));
-               return -1;
-       });
-
-       /* Find the reference to the node that is going to be removed
-          and remove it.  */
-       for (ref = fm->nodes, prev = NULL; ref; ref = ref->next) {
-               if (ref->node == node) {
-                       if (prev) {
-                               prev->next = ref->next;
-                       }
-                       else {
-                               fm->nodes = ref->next;
-                       }
-                       kfree(ref);
-                       DJM(no_jffs_node_ref--);
-                       ASSERT(del = 1);
-                       break;
-               }
-               prev = ref;
-       }
-
-       /* If the data chunk in the flash memory isn't used anymore
-          just mark it as obsolete.  */
-       if (!fm->nodes) {
-               /* No node uses this chunk so let's remove it.  */
-               fmc->used_size -= fm->size;
-               fmc->dirty_size += fm->size;
-#if defined(JFFS_MARK_OBSOLETE) && JFFS_MARK_OBSOLETE
-               if (jffs_mark_obsolete(fmc, fm->offset) < 0) {
-                       D1(printk("jffs_fmfree(): Failed to mark an on-flash "
-                                 "node obsolete!\n"));
-                       return -1;
-               }
-#endif
-       }
-
-       ASSERT(if (!del) {
-               printk(KERN_WARNING "***jffs_fmfree(): "
-                      "Didn't delete any node reference!\n");
-       });
-
-       return 0;
-}
-
-
-/* This allocation function is used during the initialization of
-   the file system.  */
-struct jffs_fm *
-jffs_fmalloced(struct jffs_fmcontrol *fmc, __u32 offset, __u32 size,
-              struct jffs_node *node)
-{
-       struct jffs_fm *fm;
-
-       D3(printk("jffs_fmalloced()\n"));
-
-       if (!(fm = jffs_alloc_fm())) {
-               D(printk("jffs_fmalloced(0x%p, %u, %u, 0x%p): failed!\n",
-                        fmc, offset, size, node));
-               return NULL;
-       }
-       fm->offset = offset;
-       fm->size = size;
-       fm->prev = NULL;
-       fm->next = NULL;
-       fm->nodes = NULL;
-       if (node) {
-               /* `node' exists and it should be associated with the
-                   jffs_fm structure `fm'.  */
-               if (!(fm->nodes = (struct jffs_node_ref *)
-                                 kmalloc(sizeof(struct jffs_node_ref),
-                                         GFP_KERNEL))) {
-                       D(printk("jffs_fmalloced(): !fm->nodes\n"));
-                       jffs_free_fm(fm);
-                       return NULL;
-               }
-               DJM(no_jffs_node_ref++);
-               fm->nodes->node = node;
-               fm->nodes->next = NULL;
-               fmc->used_size += size;
-               fmc->free_size -= size;
-       }
-       else {
-               /* If there is no node, then this is just a chunk of dirt.  */
-               fmc->dirty_size += size;
-               fmc->free_size -= size;
-       }
-
-       if (fmc->head_extra) {
-               fm->prev = fmc->tail_extra;
-               fmc->tail_extra->next = fm;
-               fmc->tail_extra = fm;
-       }
-       else if (!fmc->head) {
-               fmc->head = fm;
-               fmc->tail = fm;
-       }
-       else if (fmc->tail->offset + fmc->tail->size < offset) {
-               fmc->head_extra = fm;
-               fmc->tail_extra = fm;
-       }
-       else {
-               fm->prev = fmc->tail;
-               fmc->tail->next = fm;
-               fmc->tail = fm;
-       }
-       D3(jffs_print_fmcontrol(fmc));
-       D3(jffs_print_fm(fm));
-       return fm;
-}
-
-
-/* Add a new node to an already existing jffs_fm struct.  */
-int
-jffs_add_node(struct jffs_node *node)
-{
-       struct jffs_node_ref *ref;
-
-       D3(printk("jffs_add_node(): ino = %u\n", node->ino));
-
-       ref = kmalloc(sizeof(*ref), GFP_KERNEL);
-       if (!ref)
-               return -ENOMEM;
-
-       DJM(no_jffs_node_ref++);
-       ref->node = node;
-       ref->next = node->fm->nodes;
-       node->fm->nodes = ref;
-       return 0;
-}
-
-
-/* Free a part of some allocated space.  */
-void
-jffs_fmfree_partly(struct jffs_fmcontrol *fmc, struct jffs_fm *fm, __u32 size)
-{
-       D1(printk("***jffs_fmfree_partly(): fm = 0x%p, fm->nodes = 0x%p, "
-                 "fm->nodes->node->ino = %u, size = %u\n",
-                 fm, (fm ? fm->nodes : 0),
-                 (!fm ? 0 : (!fm->nodes ? 0 : fm->nodes->node->ino)), size));
-
-       if (fm->nodes) {
-               kfree(fm->nodes);
-               DJM(no_jffs_node_ref--);
-               fm->nodes = NULL;
-       }
-       fmc->used_size -= fm->size;
-       if (fm == fmc->tail) {
-               fm->size -= size;
-               fmc->free_size += size;
-       }
-       fmc->dirty_size += fm->size;
-}
-
-
-/* Find the jffs_fm struct that contains the end of the data chunk that
-   begins at the logical beginning of the flash memory and spans `size'
-   bytes.  If we want to erase a sector of the flash memory, we use this
-   function to find where the sector limit cuts a chunk of data.  */
-struct jffs_fm *
-jffs_cut_node(struct jffs_fmcontrol *fmc, __u32 size)
-{
-       struct jffs_fm *fm;
-       __u32 pos = 0;
-
-       if (size == 0) {
-               return NULL;
-       }
-
-       ASSERT(if (!fmc) {
-               printk(KERN_ERR "jffs_cut_node(): fmc == NULL\n");
-               return NULL;
-       });
-
-       fm = fmc->head;
-
-       while (fm) {
-               pos += fm->size;
-               if (pos < size) {
-                       fm = fm->next;
-               }
-               else if (pos > size) {
-                       break;
-               }
-               else {
-                       fm = NULL;
-                       break;
-               }
-       }
-
-       return fm;
-}
-
-
-/* Move the head of the fmc structures and delete the obsolete parts.  */
-void
-jffs_sync_erase(struct jffs_fmcontrol *fmc, int erased_size)
-{
-       struct jffs_fm *fm;
-       struct jffs_fm *del;
-
-       ASSERT(if (!fmc) {
-               printk(KERN_ERR "jffs_sync_erase(): fmc == NULL\n");
-               return;
-       });
-
-       fmc->dirty_size -= erased_size;
-       fmc->free_size += erased_size;
-
-       for (fm = fmc->head; fm && (erased_size > 0);) {
-               if (erased_size >= fm->size) {
-                       erased_size -= fm->size;
-                       del = fm;
-                       fm = fm->next;
-                       fm->prev = NULL;
-                       fmc->head = fm;
-                       jffs_free_fm(del);
-               }
-               else {
-                       fm->size -= erased_size;
-                       fm->offset += erased_size;
-                       break;
-               }
-       }
-}
-
-
-/* Return the oldest used node in the flash memory.  */
-struct jffs_node *
-jffs_get_oldest_node(struct jffs_fmcontrol *fmc)
-{
-       struct jffs_fm *fm;
-       struct jffs_node_ref *nref;
-       struct jffs_node *node = NULL;
-
-       ASSERT(if (!fmc) {
-               printk(KERN_ERR "jffs_get_oldest_node(): fmc == NULL\n");
-               return NULL;
-       });
-
-       for (fm = fmc->head; fm && !fm->nodes; fm = fm->next);
-
-       if (!fm) {
-               return NULL;
-       }
-
-       /* The oldest node is the last one in the reference list.  This list
-          shouldn't be too long; just one or perhaps two elements.  */
-       for (nref = fm->nodes; nref; nref = nref->next) {
-               node = nref->node;
-       }
-
-       D2(printk("jffs_get_oldest_node(): ino = %u, version = %u\n",
-                 (node ? node->ino : 0), (node ? node->version : 0)));
-
-       return node;
-}
-
-
-#if defined(JFFS_MARK_OBSOLETE) && JFFS_MARK_OBSOLETE
-
-/* Mark an on-flash node as obsolete.
-
-   Note that this is just an optimization that isn't necessary for the
-   filesystem to work.  */
-
-static int
-jffs_mark_obsolete(struct jffs_fmcontrol *fmc, __u32 fm_offset)
-{
-       /* The `accurate_pos' holds the position of the accurate byte
-          in the jffs_raw_inode structure that we are going to mark
-          as obsolete.  */
-       __u32 accurate_pos = fm_offset + JFFS_RAW_INODE_ACCURATE_OFFSET;
-       unsigned char zero = 0x00;
-       size_t len;
-
-       D3(printk("jffs_mark_obsolete(): accurate_pos = %u\n", accurate_pos));
-       ASSERT(if (!fmc) {
-               printk(KERN_ERR "jffs_mark_obsolete(): fmc == NULL\n");
-               return -1;
-       });
-
-       /* Write 0x00 to the raw inode's accurate member.  Don't care
-          about the return value.  */
-       MTD_WRITE(fmc->mtd, accurate_pos, 1, &len, &zero);
-       return 0;
-}
-
-#endif /* JFFS_MARK_OBSOLETE  */
-
-/* check if it's possible to erase the wanted range, and if not, return
- * the range that IS erasable, or a negative error code.
- */
-static long
-jffs_flash_erasable_size(struct mtd_info *mtd, __u32 offset, __u32 size)
-{
-         u_long ssize;
-
-       /* assume that sector size for a partition is constant even
-        * if it spans more than one chip (you usually put the same
-        * type of chips in a system)
-        */
-
-        ssize = mtd->erasesize;
-
-       if (offset % ssize) {
-               printk(KERN_WARNING "jffs_flash_erasable_size() given non-aligned offset %x (erasesize %lx)\n", offset, ssize);
-               /* The offset is not sector size aligned.  */
-               return -1;
-       }
-       else if (offset > mtd->size) {
-               printk(KERN_WARNING "jffs_flash_erasable_size given offset off the end of device (%x > %x)\n", offset, mtd->size);
-               return -2;
-       }
-       else if (offset + size > mtd->size) {
-               printk(KERN_WARNING "jffs_flash_erasable_size() given length which runs off the end of device (ofs %x + len %x = %x, > %x)\n", offset,size, offset+size, mtd->size);
-               return -3;
-       }
-
-       return (size / ssize) * ssize;
-}
-
-
-/* How much dirty flash memory is possible to erase at the moment?  */
-long
-jffs_erasable_size(struct jffs_fmcontrol *fmc)
-{
-       struct jffs_fm *fm;
-       __u32 size = 0;
-       long ret;
-
-       ASSERT(if (!fmc) {
-               printk(KERN_ERR "jffs_erasable_size(): fmc = NULL\n");
-               return -1;
-       });
-
-       if (!fmc->head) {
-               /* The flash memory is totally empty. No nodes. No dirt.
-                  Just return.  */
-               return 0;
-       }
-
-       /* Calculate how much space that is dirty.  */
-       for (fm = fmc->head; fm && !fm->nodes; fm = fm->next) {
-               if (size && fm->offset == 0) {
-                       /* We have reached the beginning of the flash.  */
-                       break;
-               }
-               size += fm->size;
-       }
-
-       /* Someone's signature contained this:
-          There's a fine line between fishing and just standing on
-          the shore like an idiot...  */
-       ret = jffs_flash_erasable_size(fmc->mtd, fmc->head->offset, size);
-
-       ASSERT(if (ret < 0) {
-               printk("jffs_erasable_size: flash_erasable_size() "
-                      "returned something less than zero (%ld).\n", ret);
-               printk("jffs_erasable_size: offset = 0x%08x\n",
-                      fmc->head->offset);
-       });
-
-       /* If there is dirt on the flash (which is the reason to why
-          this function was called in the first place) but no space is
-          possible to erase right now, the initial part of the list of
-          jffs_fm structs, that hold place for dirty space, could perhaps
-          be shortened.  The list's initial "dirty" elements are merged
-          into just one large dirty jffs_fm struct.  This operation must
-          only be performed if nothing is possible to erase.  Otherwise,
-          jffs_clear_end_of_node() won't work as expected.  */
-       if (ret == 0) {
-               struct jffs_fm *head = fmc->head;
-               struct jffs_fm *del;
-               /* While there are two dirty nodes beside each other.*/
-               while (head->nodes == 0
-                      && head->next
-                      && head->next->nodes == 0) {
-                       del = head->next;
-                       head->size += del->size;
-                       head->next = del->next;
-                       if (del->next) {
-                               del->next->prev = head;
-                       }
-                       jffs_free_fm(del);
-               }
-       }
-
-       return (ret >= 0 ? ret : 0);
-}
-
-static struct jffs_fm *jffs_alloc_fm(void)
-{
-       struct jffs_fm *fm;
-
-       fm = kmem_cache_alloc(fm_cache,GFP_KERNEL);
-       DJM(if (fm) no_jffs_fm++;);
-       
-       return fm;
-}
-
-static void jffs_free_fm(struct jffs_fm *n)
-{
-       kmem_cache_free(fm_cache,n);
-       DJM(no_jffs_fm--);
-}
-
-
-
-struct jffs_node *jffs_alloc_node(void)
-{
-       struct jffs_node *n;
-
-       n = (struct jffs_node *)kmem_cache_alloc(node_cache,GFP_KERNEL);
-       if(n != NULL)
-               no_jffs_node++;
-       return n;
-}
-
-void jffs_free_node(struct jffs_node *n)
-{
-       kmem_cache_free(node_cache,n);
-       no_jffs_node--;
-}
-
-
-int jffs_get_node_inuse(void)
-{
-       return no_jffs_node;
-}
diff --git a/fs/jffs/jffs_fm.h b/fs/jffs/jffs_fm.h
deleted file mode 100644 (file)
index 9ee6ad2..0000000
+++ /dev/null
@@ -1,149 +0,0 @@
-/*
- * JFFS -- Journaling Flash File System, Linux implementation.
- *
- * Copyright (C) 1999, 2000  Axis Communications AB.
- *
- * Created by Finn Hakansson <finn@axis.com>.
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * $Id: jffs_fm.h,v 1.13 2001/01/11 12:03:25 dwmw2 Exp $
- *
- * Ported to Linux 2.3.x and MTD:
- * Copyright (C) 2000  Alexander Larsson (alex@cendio.se), Cendio Systems AB
- *
- */
-
-#ifndef __LINUX_JFFS_FM_H__
-#define __LINUX_JFFS_FM_H__
-
-#include <linux/types.h>
-#include <linux/jffs.h>
-#include <linux/mtd/mtd.h>
-#include <linux/mutex.h>
-
-/* The alignment between two nodes in the flash memory.  */
-#define JFFS_ALIGN_SIZE 4
-
-/* Mark the on-flash space as obsolete when appropriate.  */
-#define JFFS_MARK_OBSOLETE 0
-
-#ifndef CONFIG_JFFS_FS_VERBOSE
-#define CONFIG_JFFS_FS_VERBOSE 1
-#endif
-
-#if CONFIG_JFFS_FS_VERBOSE > 0
-#define D(x) x
-#define D1(x) D(x)
-#else
-#define D(x)
-#define D1(x)
-#endif
-
-#if CONFIG_JFFS_FS_VERBOSE > 1
-#define D2(x) D(x)
-#else
-#define D2(x)
-#endif
-
-#if CONFIG_JFFS_FS_VERBOSE > 2
-#define D3(x) D(x)
-#else
-#define D3(x)
-#endif
-
-#define ASSERT(x) x
-
-/* How many padding bytes should be inserted between two chunks of data
-   on the flash?  */
-#define JFFS_GET_PAD_BYTES(size) ( (JFFS_ALIGN_SIZE-1) & -(__u32)(size) )
-#define JFFS_PAD(size) ( (size + (JFFS_ALIGN_SIZE-1)) & ~(JFFS_ALIGN_SIZE-1) )
-
-
-
-struct jffs_node_ref
-{
-       struct jffs_node *node;
-       struct jffs_node_ref *next;
-};
-
-
-/* The struct jffs_fm represents a chunk of data in the flash memory.  */
-struct jffs_fm
-{
-       __u32 offset;
-       __u32 size;
-       struct jffs_fm *prev;
-       struct jffs_fm *next;
-       struct jffs_node_ref *nodes; /* USED if != 0.  */
-};
-
-struct jffs_fmcontrol
-{
-       __u32 flash_size;
-       __u32 used_size;
-       __u32 dirty_size;
-       __u32 free_size;
-       __u32 sector_size;
-       __u32 min_free_size;  /* The minimum free space needed to be able
-                                to perform garbage collections.  */
-       __u32 max_chunk_size; /* The maximum size of a chunk of data.  */
-       struct mtd_info *mtd;
-       struct jffs_control *c;
-       struct jffs_fm *head;
-       struct jffs_fm *tail;
-       struct jffs_fm *head_extra;
-       struct jffs_fm *tail_extra;
-       struct mutex biglock;
-};
-
-/* Notice the two members head_extra and tail_extra in the jffs_control
-   structure above. Those are only used during the scanning of the flash
-   memory; while the file system is being built. If the data in the flash
-   memory is organized like
-
-      +----------------+------------------+----------------+
-      |  USED / DIRTY  |       FREE       |  USED / DIRTY  |
-      +----------------+------------------+----------------+
-
-   then the scan is split in two parts. The first scanned part of the
-   flash memory is organized through the members head and tail. The
-   second scanned part is organized with head_extra and tail_extra. When
-   the scan is completed, the two lists are merged together. The jffs_fm
-   struct that head_extra references is the logical beginning of the
-   flash memory so it will be referenced by the head member.  */
-
-
-
-struct jffs_fmcontrol *jffs_build_begin(struct jffs_control *c, int unit);
-void jffs_build_end(struct jffs_fmcontrol *fmc);
-void jffs_cleanup_fmcontrol(struct jffs_fmcontrol *fmc);
-
-int jffs_fmalloc(struct jffs_fmcontrol *fmc, __u32 size,
-                struct jffs_node *node, struct jffs_fm **result);
-int jffs_fmfree(struct jffs_fmcontrol *fmc, struct jffs_fm *fm,
-               struct jffs_node *node);
-
-__u32 jffs_free_size1(struct jffs_fmcontrol *fmc);
-__u32 jffs_free_size2(struct jffs_fmcontrol *fmc);
-void jffs_sync_erase(struct jffs_fmcontrol *fmc, int erased_size);
-struct jffs_fm *jffs_cut_node(struct jffs_fmcontrol *fmc, __u32 size);
-struct jffs_node *jffs_get_oldest_node(struct jffs_fmcontrol *fmc);
-long jffs_erasable_size(struct jffs_fmcontrol *fmc);
-struct jffs_fm *jffs_fmalloced(struct jffs_fmcontrol *fmc, __u32 offset,
-                              __u32 size, struct jffs_node *node);
-int jffs_add_node(struct jffs_node *node);
-void jffs_fmfree_partly(struct jffs_fmcontrol *fmc, struct jffs_fm *fm,
-                       __u32 size);
-
-#if CONFIG_JFFS_FS_VERBOSE > 0
-void jffs_print_fmcontrol(struct jffs_fmcontrol *fmc);
-#endif
-#if 0
-void jffs_print_node_ref(struct jffs_node_ref *ref);
-#endif  /*  0  */
-
-#endif /* __LINUX_JFFS_FM_H__  */
diff --git a/fs/jffs/jffs_proc.c b/fs/jffs/jffs_proc.c
deleted file mode 100644 (file)
index 9bdd99a..0000000
+++ /dev/null
@@ -1,261 +0,0 @@
-/*
- * JFFS -- Journaling Flash File System, Linux implementation.
- *
- * Copyright (C) 2000  Axis Communications AB.
- *
- * Created by Simon Kagstrom <simonk@axis.com>.
- *
- * $Id: jffs_proc.c,v 1.5 2001/06/02 14:34:55 dwmw2 Exp $
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- *  Overview:
- *   This file defines JFFS partition entries in the proc file system.
- *
- *  TODO:
- *   Create some more proc files for different kinds of info, i.e. statistics
- *   about written and read bytes, number of calls to different routines,
- *   reports about failures.
- */
-
-#include <linux/errno.h>
-#include <linux/fs.h>
-#include <linux/jffs.h>
-#include <linux/slab.h>
-#include <linux/proc_fs.h>
-#include <linux/time.h>
-#include <linux/types.h>
-#include "jffs_fm.h"
-#include "jffs_proc.h"
-
-/*
- * Structure for a JFFS partition in the system
- */
-struct jffs_partition_dir {
-       struct jffs_control *c;
-       struct proc_dir_entry *part_root;
-       struct proc_dir_entry *part_info;
-       struct proc_dir_entry *part_layout;
-       struct jffs_partition_dir *next;
-};
-
-/*
- * Structure for top-level entry in '/proc/fs' directory
- */
-struct proc_dir_entry *jffs_proc_root;
-
-/*
- * Linked list of 'jffs_partition_dirs' to help us track
- * the mounted JFFS partitions in the system
- */
-static struct jffs_partition_dir *jffs_part_dirs;
-
-/*
- * Read functions for entries
- */
-static int jffs_proc_info_read(char *page, char **start, off_t off,
-               int count, int *eof, void *data);
-static int jffs_proc_layout_read (char *page, char **start, off_t off,
-               int count, int *eof, void *data);
-
-
-/*
- * Register a JFFS partition directory (called upon mount)
- */
-int jffs_register_jffs_proc_dir(int mtd, struct jffs_control *c)
-{
-       struct jffs_partition_dir *part_dir;
-       struct proc_dir_entry *part_info = NULL;
-       struct proc_dir_entry *part_layout = NULL;
-       struct proc_dir_entry *part_root = NULL;
-       char name[10];
-
-       sprintf(name, "%d", mtd);
-       /* Allocate structure for local JFFS partition table */
-       part_dir = (struct jffs_partition_dir *)
-               kmalloc(sizeof (struct jffs_partition_dir), GFP_KERNEL);
-       if (!part_dir)
-               goto out;
-
-       /* Create entry for this partition */
-       part_root = proc_mkdir(name, jffs_proc_root);
-       if (!part_root)
-               goto out1;
-
-       /* Create entry for 'info' file */
-       part_info = create_proc_entry ("info", 0, part_root);
-       if (!part_info)
-               goto out2;
-       part_info->read_proc = jffs_proc_info_read;
-       part_info->data = (void *) c;
-
-       /* Create entry for 'layout' file */
-       part_layout = create_proc_entry ("layout", 0, part_root);
-       if (!part_layout)
-               goto out3;
-       part_layout->read_proc = jffs_proc_layout_read;
-       part_layout->data = (void *) c;
-
-       /* Fill in structure for table and insert in the list */
-       part_dir->c = c;
-       part_dir->part_root = part_root;
-       part_dir->part_info = part_info;
-       part_dir->part_layout = part_layout;
-       part_dir->next = jffs_part_dirs;
-       jffs_part_dirs = part_dir;
-
-       /* Return happy */
-       return 0;
-
-out3:
-       remove_proc_entry("info", part_root);
-out2:
-       remove_proc_entry(name, jffs_proc_root);
-out1:
-       kfree(part_dir);
-out:
-       return -ENOMEM;
-}
-
-
-/*
- * Unregister a JFFS partition directory (called at umount)
- */
-int jffs_unregister_jffs_proc_dir(struct jffs_control *c)
-{
-       struct jffs_partition_dir *part_dir = jffs_part_dirs;
-       struct jffs_partition_dir *prev_part_dir = NULL;
-
-       while (part_dir) {
-               if (part_dir->c == c) {
-                       /* Remove entries for partition */
-                       remove_proc_entry (part_dir->part_info->name,
-                               part_dir->part_root);
-                       remove_proc_entry (part_dir->part_layout->name,
-                               part_dir->part_root);
-                       remove_proc_entry (part_dir->part_root->name,
-                               jffs_proc_root);
-
-                       /* Remove entry from list */
-                       if (prev_part_dir)
-                               prev_part_dir->next = part_dir->next;
-                       else
-                               jffs_part_dirs = part_dir->next;
-
-                       /*
-                        * Check to see if this is the last one
-                        * and remove the entry from '/proc/fs'
-                        * if it is.
-                        */
-                       if (jffs_part_dirs == part_dir->next)
-                               remove_proc_entry ("jffs", proc_root_fs);
-
-                       /* Free memory for entry */
-                       kfree(part_dir);
-
-                       /* Return happy */
-                       return 0;
-               }
-
-               /* Move to next entry */
-               prev_part_dir = part_dir;
-               part_dir = part_dir->next;
-       }
-
-       /* Return unhappy */
-       return -1;
-}
-
-
-/*
- * Read a JFFS partition's `info' file
- */
-static int jffs_proc_info_read (char *page, char **start, off_t off,
-               int count, int *eof, void *data)
-{
-       struct jffs_control *c = (struct jffs_control *) data;
-       int len = 0;
-
-       /* Get information on the parition */
-       len += sprintf (page,
-               "partition size:     %08lX (%u)\n"
-               "sector size:        %08lX (%u)\n"
-               "used size:          %08lX (%u)\n"
-               "dirty size:         %08lX (%u)\n"
-               "free size:          %08lX (%u)\n\n",
-               (unsigned long) c->fmc->flash_size, c->fmc->flash_size,
-               (unsigned long) c->fmc->sector_size, c->fmc->sector_size,
-               (unsigned long) c->fmc->used_size, c->fmc->used_size,
-               (unsigned long) c->fmc->dirty_size, c->fmc->dirty_size,
-               (unsigned long) (c->fmc->flash_size -
-                       (c->fmc->used_size + c->fmc->dirty_size)),
-               c->fmc->flash_size - (c->fmc->used_size + c->fmc->dirty_size));
-
-       /* We're done */
-       *eof = 1;
-
-       /* Return length */
-       return len;
-}
-
-
-/*
- * Read a JFFS partition's `layout' file
- */
-static int jffs_proc_layout_read (char *page, char **start, off_t off,
-               int count, int *eof, void *data)
-{
-       struct jffs_control *c = (struct jffs_control *) data;
-       struct jffs_fm *fm = NULL;
-       struct jffs_fm *last_fm = NULL;
-       int len = 0;
-
-       /* Get the first item in the list */
-       fm = c->fmc->head;
-
-       /* Print free space */
-       if (fm && fm->offset) {
-               len += sprintf (page, "00000000 %08lX free\n",
-                       (unsigned long) fm->offset);
-       }
-
-       /* Loop through all of the flash control structures */
-       while (fm && (len < (off + count))) {
-               if (fm->nodes) {
-                       len += sprintf (page + len,
-                               "%08lX %08lX ino=%08lX, ver=%08lX\n",
-                               (unsigned long) fm->offset,
-                               (unsigned long) fm->size,
-                               (unsigned long) fm->nodes->node->ino,
-                               (unsigned long) fm->nodes->node->version);
-               }
-               else {
-                       len += sprintf (page + len,
-                               "%08lX %08lX dirty\n",
-                               (unsigned long) fm->offset,
-                               (unsigned long) fm->size);
-               }
-               last_fm = fm;
-               fm = fm->next;
-       }
-
-       /* Print free space */
-       if ((len < (off + count)) && last_fm
-           && (last_fm->offset < c->fmc->flash_size)) {
-               len += sprintf (page + len,
-                              "%08lX %08lX free\n",
-                              (unsigned long) last_fm->offset + 
-                               last_fm->size,
-                              (unsigned long) (c->fmc->flash_size -
-                                                   (last_fm->offset + last_fm->size)));
-       }
-
-       /* We're done */
-       *eof = 1;
-
-       /* Return length */
-       return len;
-}
diff --git a/fs/jffs/jffs_proc.h b/fs/jffs/jffs_proc.h
deleted file mode 100644 (file)
index 39a1c5d..0000000
+++ /dev/null
@@ -1,28 +0,0 @@
-/*
- * JFFS -- Journaling Flash File System, Linux implementation.
- *
- * Copyright (C) 2000  Axis Communications AB.
- *
- * Created by Simon Kagstrom <simonk@axis.com>.
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * $Id: jffs_proc.h,v 1.2 2000/11/15 22:04:12 sjhill Exp $
- */
-
-/* jffs_proc.h defines a structure for inclusion in the proc-file system.  */
-#ifndef __LINUX_JFFS_PROC_H__
-#define __LINUX_JFFS_PROC_H__
-
-#include <linux/proc_fs.h>
-
-/* The proc_dir_entry for jffs (defined in jffs_proc.c).  */
-extern struct proc_dir_entry *jffs_proc_root;
-
-int jffs_register_jffs_proc_dir(int mtd, struct jffs_control *c);
-int jffs_unregister_jffs_proc_dir(struct jffs_control *c);
-
-#endif /* __LINUX_JFFS_PROC_H__ */
diff --git a/include/linux/jffs.h b/include/linux/jffs.h
deleted file mode 100644 (file)
index 9221321..0000000
+++ /dev/null
@@ -1,224 +0,0 @@
-/*
- * JFFS -- Journalling Flash File System, Linux implementation.
- *
- * Copyright (C) 1999, 2000  Axis Communications AB.
- *
- * Created by Finn Hakansson <finn@axis.com>.
- *
- * This is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * $Id: jffs.h,v 1.20 2001/09/18 21:33:37 dwmw2 Exp $
- *
- * Ported to Linux 2.3.x and MTD:
- * Copyright (C) 2000  Alexander Larsson (alex@cendio.se), Cendio Systems AB
- *
- */
-
-#ifndef __LINUX_JFFS_H__
-#define __LINUX_JFFS_H__
-
-#include <linux/types.h>
-#include <linux/completion.h>
-
-#define JFFS_VERSION_STRING "1.0"
-
-/* This is a magic number that is used as an identification number for
-   this file system.  It is written to the super_block structure.  */
-#define JFFS_MAGIC_SB_BITMASK 0x07c0  /* 1984 */
-
-/* This is a magic number that every on-flash raw inode begins with.  */
-#define JFFS_MAGIC_BITMASK 0x34383931 /* "1984" */
-
-/* These two bitmasks are the valid ones for the flash memories we have
-   for the moment.  */
-#define JFFS_EMPTY_BITMASK 0xffffffff
-#define JFFS_DIRTY_BITMASK 0x00000000
-
-/* This is the inode number of the root node.  */
-#define JFFS_MIN_INO 1
-
-/* How many slots in the file hash table should we have?  */
-#define JFFS_HASH_SIZE 40
-
-/* Don't use more than 254 bytes as the maximum allowed length of a file's
-   name due to errors that could occur during the scanning of the flash
-   memory. In fact, a name length of 255 or 0xff, could be the result of
-   an uncompleted write.  For instance, if a raw inode is written to the
-   flash memory and there is a power lossage just before the length of
-   the name is written, the length 255 would be interpreted as an illegal
-   value.  */
-#define JFFS_MAX_NAME_LEN 254
-
-/* Commands for ioctl().  */
-#define JFFS_IOCTL_MAGIC 't'
-#define JFFS_PRINT_HASH _IO(JFFS_IOCTL_MAGIC, 90)
-#define JFFS_PRINT_TREE _IO(JFFS_IOCTL_MAGIC, 91)
-#define JFFS_GET_STATUS _IO(JFFS_IOCTL_MAGIC, 92)
-
-/* XXX: This is something that we should try to get rid of in the future.  */
-#define JFFS_MODIFY_INODE 0x01
-#define JFFS_MODIFY_NAME  0x02
-#define JFFS_MODIFY_DATA  0x04
-#define JFFS_MODIFY_EXIST 0x08
-
-struct jffs_control;
-
-/* The JFFS raw inode structure: Used for storage on physical media.  */
-/* Perhaps the uid, gid, atime, mtime and ctime members should have
-   more space due to future changes in the Linux kernel. Anyhow, since
-   a user of this filesystem probably have to fix a large number of
-   other things, we have decided to not be forward compatible.  */
-struct jffs_raw_inode
-{
-       __u32 magic;      /* A constant magic number.  */
-       __u32 ino;        /* Inode number.  */
-       __u32 pino;       /* Parent's inode number.  */
-       __u32 version;    /* Version number.  */
-       __u32 mode;       /* The file's type or mode.  */
-       __u16 uid;        /* The file's owner.  */
-       __u16 gid;        /* The file's group.  */
-       __u32 atime;      /* Last access time.  */
-       __u32 mtime;      /* Last modification time.  */
-       __u32 ctime;      /* Creation time.  */
-       __u32 offset;     /* Where to begin to write.  */
-       __u32 dsize;      /* Size of the node's data.  */
-       __u32 rsize;      /* How much are going to be replaced?  */
-       __u8 nsize;       /* Name length.  */
-       __u8 nlink;       /* Number of links.  */
-       __u8 spare : 6;   /* For future use.  */
-       __u8 rename : 1;  /* Rename to a name of an already existing file?  */
-       __u8 deleted : 1; /* Has this file been deleted?  */
-       __u8 accurate;    /* The inode is obsolete if accurate == 0.  */
-       __u32 dchksum;    /* Checksum for the data.  */
-       __u16 nchksum;    /* Checksum for the name.  */
-       __u16 chksum;     /* Checksum for the raw inode.  */
-};
-
-/* Define the offset of the accurate byte in struct jffs_raw_inode.  */
-#define JFFS_RAW_INODE_ACCURATE_OFFSET (sizeof(struct jffs_raw_inode) \
-                                       - 2 * sizeof(__u32) - sizeof(__u8))
-
-/* Define the offset of the chksum member in struct jffs_raw_inode.  */
-#define JFFS_RAW_INODE_CHKSUM_OFFSET (sizeof(struct jffs_raw_inode) \
-                                     - sizeof(__u16))
-
-/* Define the offset of the dchksum member in struct jffs_raw_inode.  */
-#define JFFS_RAW_INODE_DCHKSUM_OFFSET (sizeof(struct jffs_raw_inode)   \
-                                      - sizeof(__u16) - sizeof(__u16) \
-                                      - sizeof(__u32))
-
-
-/* The RAM representation of the node.  The names of pointers to
-   jffs_nodes are very often just called `n' in the source code.  */
-struct jffs_node
-{
-       __u32 ino;          /* Inode number.  */
-       __u32 version;      /* Version number.  */
-       __u32 data_offset;  /* Logic location of the data to insert.  */
-       __u32 data_size;    /* The amount of data this node inserts.  */
-       __u32 removed_size; /* The amount of data that this node removes.  */
-       __u32 fm_offset;    /* Physical location of the data in the actual
-                              flash memory data chunk.  */
-       __u8 name_size;     /* Size of the name.  */
-       struct jffs_fm *fm; /* Physical memory information.  */
-       struct jffs_node *version_prev;
-       struct jffs_node *version_next;
-       struct jffs_node *range_prev;
-       struct jffs_node *range_next;
-};
-
-
-/* The RAM representation of a file (plain files, directories,
-   links, etc.).  Pointers to jffs_files are normally named `f'
-   in the JFFS source code.  */
-struct jffs_file
-{
-       __u32 ino;    /* Inode number.  */
-       __u32 pino;   /* Parent's inode number.  */
-       __u32 mode;   /* file_type, mode  */
-       __u16 uid;    /* owner  */
-       __u16 gid;    /* group  */
-       __u32 atime;  /* Last access time.  */
-       __u32 mtime;  /* Last modification time.  */
-       __u32 ctime;  /* Creation time.  */
-       __u8 nsize;   /* Name length.  */
-       __u8 nlink;   /* Number of links.  */
-       __u8 deleted; /* Has this file been deleted?  */
-       char *name;   /* The name of this file; NULL-terminated.  */
-       __u32 size;   /* The total size of the file's data.  */
-       __u32 highest_version; /* The highest version number of this file.  */
-       struct jffs_control *c;
-       struct jffs_file *parent;   /* Reference to the parent directory.  */
-       struct jffs_file *children; /* Always NULL for plain files.  */
-       struct jffs_file *sibling_prev; /* Siblings in the same directory.  */
-       struct jffs_file *sibling_next;
-       struct list_head hash;    /* hash list.  */
-       struct jffs_node *range_head;   /* The final data.  */
-       struct jffs_node *range_tail;   /* The first data.  */
-       struct jffs_node *version_head; /* The youngest node.  */
-       struct jffs_node *version_tail; /* The oldest node.  */
-};
-
-
-/* This is just a definition of a simple list used for keeping track of
-   files deleted due to a rename.  This list is only used during the
-   mounting of the file system and only if there have been rename operations
-   earlier.  */
-struct jffs_delete_list
-{
-       __u32 ino;
-       struct jffs_delete_list *next;
-};
-
-
-/* A struct for the overall file system control.  Pointers to
-   jffs_control structs are named `c' in the source code.  */
-struct jffs_control
-{
-       struct super_block *sb;         /* Reference to the VFS super block.  */
-       struct jffs_file *root;         /* The root directory file.  */
-       struct list_head *hash;         /* Hash table for finding files by ino.  */
-       struct jffs_fmcontrol *fmc;     /* Flash memory control structure.  */
-       __u32 hash_len;                 /* The size of the hash table.  */
-       __u32 next_ino;                 /* Next inode number to use for new files.  */
-       __u16 building_fs;              /* Is the file system being built right now?  */
-       struct jffs_delete_list *delete_list; /* Track deleted files.  */
-       pid_t thread_pid;               /* GC thread's PID */
-       struct task_struct *gc_task;    /* GC task struct */
-       struct completion gc_thread_comp; /* GC thread exit mutex */
-       __u32 gc_minfree_threshold;     /* GC trigger thresholds */
-       __u32 gc_maxdirty_threshold;
-};
-
-
-/* Used to inform about flash status.  */
-struct jffs_flash_status
-{
-       __u32 size;
-       __u32 used;
-       __u32 dirty;
-       __u32 begin;
-       __u32 end;
-};
-
-/* This stuff could be used for finding memory leaks.  */
-#define JFFS_MEMORY_DEBUG 0
-
-extern long no_jffs_node;
-#if defined(JFFS_MEMORY_DEBUG) && JFFS_MEMORY_DEBUG
-extern long no_jffs_control;
-extern long no_jffs_raw_inode;
-extern long no_jffs_node_ref;
-extern long no_jffs_fm;
-extern long no_jffs_fmcontrol;
-extern long no_hash;
-extern long no_name;
-#define DJM(x) x
-#else
-#define DJM(x)
-#endif
-
-#endif /* __LINUX_JFFS_H__ */