wbuf.c 36.3 KB
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/*
 * JFFS2 -- Journalling Flash File System, Version 2.
 *
 * Copyright (C) 2001-2003 Red Hat, Inc.
 * Copyright (C) 2004 Thomas Gleixner <tglx@linutronix.de>
 *
 * Created by David Woodhouse <dwmw2@infradead.org>
 * Modified debugged and enhanced by Thomas Gleixner <tglx@linutronix.de>
 *
 * For licensing information, see the file 'LICENCE' in this directory.
 *
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 * $Id: wbuf.c,v 1.100 2005/09/30 13:59:13 dedekind Exp $
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 *
 */

#include <linux/kernel.h>
#include <linux/slab.h>
#include <linux/mtd/mtd.h>
#include <linux/crc32.h>
#include <linux/mtd/nand.h>
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#include <linux/jiffies.h>

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#include "nodelist.h"

/* For testing write failures */
#undef BREAKME
#undef BREAKMEHEADER

#ifdef BREAKME
static unsigned char *brokenbuf;
#endif

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#define PAGE_DIV(x) ( ((unsigned long)(x) / (unsigned long)(c->wbuf_pagesize)) * (unsigned long)(c->wbuf_pagesize) )
#define PAGE_MOD(x) ( (unsigned long)(x) % (unsigned long)(c->wbuf_pagesize) )

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/* max. erase failures before we mark a block bad */
#define MAX_ERASE_FAILURES 	2

struct jffs2_inodirty {
	uint32_t ino;
	struct jffs2_inodirty *next;
};

static struct jffs2_inodirty inodirty_nomem;

static int jffs2_wbuf_pending_for_ino(struct jffs2_sb_info *c, uint32_t ino)
{
	struct jffs2_inodirty *this = c->wbuf_inodes;

	/* If a malloc failed, consider _everything_ dirty */
	if (this == &inodirty_nomem)
		return 1;

	/* If ino == 0, _any_ non-GC writes mean 'yes' */
	if (this && !ino)
		return 1;

	/* Look to see if the inode in question is pending in the wbuf */
	while (this) {
		if (this->ino == ino)
			return 1;
		this = this->next;
	}
	return 0;
}

static void jffs2_clear_wbuf_ino_list(struct jffs2_sb_info *c)
{
	struct jffs2_inodirty *this;

	this = c->wbuf_inodes;

	if (this != &inodirty_nomem) {
		while (this) {
			struct jffs2_inodirty *next = this->next;
			kfree(this);
			this = next;
		}
	}
	c->wbuf_inodes = NULL;
}

static void jffs2_wbuf_dirties_inode(struct jffs2_sb_info *c, uint32_t ino)
{
	struct jffs2_inodirty *new;

	/* Mark the superblock dirty so that kupdated will flush... */
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	jffs2_erase_pending_trigger(c);
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	if (jffs2_wbuf_pending_for_ino(c, ino))
		return;

	new = kmalloc(sizeof(*new), GFP_KERNEL);
	if (!new) {
		D1(printk(KERN_DEBUG "No memory to allocate inodirty. Fallback to all considered dirty\n"));
		jffs2_clear_wbuf_ino_list(c);
		c->wbuf_inodes = &inodirty_nomem;
		return;
	}
	new->ino = ino;
	new->next = c->wbuf_inodes;
	c->wbuf_inodes = new;
	return;
}

static inline void jffs2_refile_wbuf_blocks(struct jffs2_sb_info *c)
{
	struct list_head *this, *next;
	static int n;

	if (list_empty(&c->erasable_pending_wbuf_list))
		return;

	list_for_each_safe(this, next, &c->erasable_pending_wbuf_list) {
		struct jffs2_eraseblock *jeb = list_entry(this, struct jffs2_eraseblock, list);

		D1(printk(KERN_DEBUG "Removing eraseblock at 0x%08x from erasable_pending_wbuf_list...\n", jeb->offset));
		list_del(this);
		if ((jiffies + (n++)) & 127) {
			/* Most of the time, we just erase it immediately. Otherwise we
			   spend ages scanning it on mount, etc. */
			D1(printk(KERN_DEBUG "...and adding to erase_pending_list\n"));
			list_add_tail(&jeb->list, &c->erase_pending_list);
			c->nr_erasing_blocks++;
			jffs2_erase_pending_trigger(c);
		} else {
			/* Sometimes, however, we leave it elsewhere so it doesn't get
			   immediately reused, and we spread the load a bit. */
			D1(printk(KERN_DEBUG "...and adding to erasable_list\n"));
			list_add_tail(&jeb->list, &c->erasable_list);
		}
	}
}

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#define REFILE_NOTEMPTY 0
#define REFILE_ANYWAY   1

static void jffs2_block_refile(struct jffs2_sb_info *c, struct jffs2_eraseblock *jeb, int allow_empty)
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{
	D1(printk("About to refile bad block at %08x\n", jeb->offset));

	/* File the existing block on the bad_used_list.... */
	if (c->nextblock == jeb)
		c->nextblock = NULL;
	else /* Not sure this should ever happen... need more coffee */
		list_del(&jeb->list);
	if (jeb->first_node) {
		D1(printk("Refiling block at %08x to bad_used_list\n", jeb->offset));
		list_add(&jeb->list, &c->bad_used_list);
	} else {
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		BUG_ON(allow_empty == REFILE_NOTEMPTY);
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		/* It has to have had some nodes or we couldn't be here */
		D1(printk("Refiling block at %08x to erase_pending_list\n", jeb->offset));
		list_add(&jeb->list, &c->erase_pending_list);
		c->nr_erasing_blocks++;
		jffs2_erase_pending_trigger(c);
	}

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	if (!jffs2_prealloc_raw_node_refs(c, jeb, 1)) {
		uint32_t oldfree = jeb->free_size;

		jffs2_link_node_ref(c, jeb, 
				    (jeb->offset+c->sector_size-oldfree) | REF_OBSOLETE,
				    oldfree, NULL);
		/* convert to wasted */
		c->wasted_size += oldfree;
		jeb->wasted_size += oldfree;
		c->dirty_size -= oldfree;
		jeb->dirty_size -= oldfree;
	}
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	jffs2_dbg_dump_block_lists_nolock(c);
	jffs2_dbg_acct_sanity_check_nolock(c,jeb);
	jffs2_dbg_acct_paranoia_check_nolock(c, jeb);
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}

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static struct jffs2_raw_node_ref **jffs2_incore_replace_raw(struct jffs2_sb_info *c,
							    struct jffs2_inode_info *f,
							    struct jffs2_raw_node_ref *raw,
							    union jffs2_node_union *node)
{
	struct jffs2_node_frag *frag;
	struct jffs2_full_dirent *fd;

	dbg_noderef("incore_replace_raw: node at %p is {%04x,%04x}\n",
		    node, je16_to_cpu(node->u.magic), je16_to_cpu(node->u.nodetype));

	BUG_ON(je16_to_cpu(node->u.magic) != 0x1985 &&
	       je16_to_cpu(node->u.magic) != 0);

	switch (je16_to_cpu(node->u.nodetype)) {
	case JFFS2_NODETYPE_INODE:
		frag = jffs2_lookup_node_frag(&f->fragtree, je32_to_cpu(node->i.offset));
		BUG_ON(!frag);
		/* Find a frag which refers to the full_dnode we want to modify */
		while (!frag->node || frag->node->raw != raw) {
			frag = frag_next(frag);
			BUG_ON(!frag);
		}
		dbg_noderef("Will replace ->raw in full_dnode at %p\n", frag->node);
		return &frag->node->raw;
		break;

	case JFFS2_NODETYPE_DIRENT:
		for (fd = f->dents; fd; fd = fd->next) {
			if (fd->raw == raw) {
				dbg_noderef("Will replace ->raw in full_dirent at %p\n", fd);
				return &fd->raw;
			}
		}
		BUG();
	default:
		dbg_noderef("Don't care about replacing raw for nodetype %x\n",
			    je16_to_cpu(node->u.nodetype));
		break;
	}
	return NULL;
}

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/* Recover from failure to write wbuf. Recover the nodes up to the
 * wbuf, not the one which we were starting to try to write. */

static void jffs2_wbuf_recover(struct jffs2_sb_info *c)
{
	struct jffs2_eraseblock *jeb, *new_jeb;
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	struct jffs2_raw_node_ref *raw, *next, *first_raw = NULL;
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	size_t retlen;
	int ret;
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	int nr_refile = 0;
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	unsigned char *buf;
	uint32_t start, end, ofs, len;

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	jeb = &c->blocks[c->wbuf_ofs / c->sector_size];

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	spin_lock(&c->erase_completion_lock);
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	jffs2_block_refile(c, jeb, REFILE_NOTEMPTY);
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	spin_unlock(&c->erase_completion_lock);

	BUG_ON(!ref_obsolete(jeb->last_node));
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	/* Find the first node to be recovered, by skipping over every
	   node which ends before the wbuf starts, or which is obsolete. */
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	for (next = raw = jeb->first_node; next; raw = next) {
		next = ref_next(raw);

		if (ref_obsolete(raw) || 
		    (next && ref_offset(next) <= c->wbuf_ofs)) {
			dbg_noderef("Skipping node at 0x%08x(%d)-0x%08x which is either before 0x%08x or obsolete\n",
				    ref_offset(raw), ref_flags(raw),
				    (ref_offset(raw) + ref_totlen(c, jeb, raw)),
				    c->wbuf_ofs);
			continue;
		}
		dbg_noderef("First node to be recovered is at 0x%08x(%d)-0x%08x\n",
			    ref_offset(raw), ref_flags(raw),
			    (ref_offset(raw) + ref_totlen(c, jeb, raw)));

		first_raw = raw;
		break;
	}

	if (!first_raw) {
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		/* All nodes were obsolete. Nothing to recover. */
		D1(printk(KERN_DEBUG "No non-obsolete nodes to be recovered. Just filing block bad\n"));
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		c->wbuf_len = 0;
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		return;
	}

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	start = ref_offset(first_raw);
	end = ref_offset(jeb->last_node);
	nr_refile = 1;
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	/* Count the number of refs which need to be copied */
	while ((raw = ref_next(raw)) != jeb->last_node)
		nr_refile++;
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	dbg_noderef("wbuf recover %08x-%08x (%d bytes in %d nodes)\n",
		    start, end, end - start, nr_refile);
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	buf = NULL;
	if (start < c->wbuf_ofs) {
		/* First affected node was already partially written.
		 * Attempt to reread the old data into our buffer. */

		buf = kmalloc(end - start, GFP_KERNEL);
		if (!buf) {
			printk(KERN_CRIT "Malloc failure in wbuf recovery. Data loss ensues.\n");

			goto read_failed;
		}

		/* Do the read... */
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		ret = c->mtd->read(c->mtd, start, c->wbuf_ofs - start, &retlen, buf);
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		if (ret == -EBADMSG && retlen == c->wbuf_ofs - start) {
			/* ECC recovered */
			ret = 0;
		}
		if (ret || retlen != c->wbuf_ofs - start) {
			printk(KERN_CRIT "Old data are already lost in wbuf recovery. Data loss ensues.\n");

			kfree(buf);
			buf = NULL;
		read_failed:
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			first_raw = ref_next(first_raw);
			nr_refile--;
			while (first_raw && ref_obsolete(first_raw)) {
				first_raw = ref_next(first_raw);
				nr_refile--;
			}

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			/* If this was the only node to be recovered, give up */
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			if (!first_raw) {
				c->wbuf_len = 0;
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				return;
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			}
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			/* It wasn't. Go on and try to recover nodes complete in the wbuf */
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			start = ref_offset(first_raw);
			dbg_noderef("wbuf now recover %08x-%08x (%d bytes in %d nodes)\n",
				    start, end, end - start, nr_refile);

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		} else {
			/* Read succeeded. Copy the remaining data from the wbuf */
			memcpy(buf + (c->wbuf_ofs - start), c->wbuf, end - c->wbuf_ofs);
		}
	}
	/* OK... we're to rewrite (end-start) bytes of data from first_raw onwards.
	   Either 'buf' contains the data, or we find it in the wbuf */

	/* ... and get an allocation of space from a shiny new block instead */
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	ret = jffs2_reserve_space_gc(c, end-start, &len, JFFS2_SUMMARY_NOSUM_SIZE);
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	if (ret) {
		printk(KERN_WARNING "Failed to allocate space for wbuf recovery. Data loss ensues.\n");
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		kfree(buf);
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		return;
	}
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	ret = jffs2_prealloc_raw_node_refs(c, c->nextblock, nr_refile);
	if (ret) {
		printk(KERN_WARNING "Failed to allocate node refs for wbuf recovery. Data loss ensues.\n");
		kfree(buf);
		return;
	}

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	ofs = write_ofs(c);

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	if (end-start >= c->wbuf_pagesize) {
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		/* Need to do another write immediately, but it's possible
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		   that this is just because the wbuf itself is completely
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		   full, and there's nothing earlier read back from the
		   flash. Hence 'buf' isn't necessarily what we're writing
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		   from. */
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		unsigned char *rewrite_buf = buf?:c->wbuf;
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		uint32_t towrite = (end-start) - ((end-start)%c->wbuf_pagesize);

		D1(printk(KERN_DEBUG "Write 0x%x bytes at 0x%08x in wbuf recover\n",
			  towrite, ofs));
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#ifdef BREAKMEHEADER
		static int breakme;
		if (breakme++ == 20) {
			printk(KERN_NOTICE "Faking write error at 0x%08x\n", ofs);
			breakme = 0;
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			c->mtd->write(c->mtd, ofs, towrite, &retlen,
				      brokenbuf);
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			ret = -EIO;
		} else
#endif
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			ret = c->mtd->write(c->mtd, ofs, towrite, &retlen,
					    rewrite_buf);
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		if (ret || retlen != towrite) {
			/* Argh. We tried. Really we did. */
			printk(KERN_CRIT "Recovery of wbuf failed due to a second write error\n");
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			kfree(buf);
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			if (retlen)
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				jffs2_add_physical_node_ref(c, ofs | REF_OBSOLETE, ref_totlen(c, jeb, first_raw), NULL);
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			return;
		}
		printk(KERN_NOTICE "Recovery of wbuf succeeded to %08x\n", ofs);

		c->wbuf_len = (end - start) - towrite;
		c->wbuf_ofs = ofs + towrite;
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		memmove(c->wbuf, rewrite_buf + towrite, c->wbuf_len);
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		/* Don't muck about with c->wbuf_inodes. False positives are harmless. */
	} else {
		/* OK, now we're left with the dregs in whichever buffer we're using */
		if (buf) {
			memcpy(c->wbuf, buf, end-start);
		} else {
			memmove(c->wbuf, c->wbuf + (start - c->wbuf_ofs), end - start);
		}
		c->wbuf_ofs = ofs;
		c->wbuf_len = end - start;
	}

	/* Now sort out the jffs2_raw_node_refs, moving them from the old to the next block */
	new_jeb = &c->blocks[ofs / c->sector_size];

	spin_lock(&c->erase_completion_lock);
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	for (raw = first_raw; raw != jeb->last_node; raw = ref_next(raw)) {
		uint32_t rawlen = ref_totlen(c, jeb, raw);
		struct jffs2_inode_cache *ic;
		struct jffs2_raw_node_ref *new_ref;
		struct jffs2_raw_node_ref **adjust_ref = NULL;
		struct jffs2_inode_info *f = NULL;
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		D1(printk(KERN_DEBUG "Refiling block of %08x at %08x(%d) to %08x\n",
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			  rawlen, ref_offset(raw), ref_flags(raw), ofs));

		ic = jffs2_raw_ref_to_ic(raw);

		/* Ick. This XATTR mess should be fixed shortly... */
		if (ic && ic->class == RAWNODE_CLASS_XATTR_DATUM) {
			struct jffs2_xattr_datum *xd = (void *)ic;
			BUG_ON(xd->node != raw);
			adjust_ref = &xd->node;
			raw->next_in_ino = NULL;
			ic = NULL;
		} else if (ic && ic->class == RAWNODE_CLASS_XATTR_REF) {
			struct jffs2_xattr_datum *xr = (void *)ic;
			BUG_ON(xr->node != raw);
			adjust_ref = &xr->node;
			raw->next_in_ino = NULL;
			ic = NULL;
		} else if (ic && ic->class == RAWNODE_CLASS_INODE_CACHE) {
			struct jffs2_raw_node_ref **p = &ic->nodes;

			/* Remove the old node from the per-inode list */
			while (*p && *p != (void *)ic) {
				if (*p == raw) {
					(*p) = (raw->next_in_ino);
					raw->next_in_ino = NULL;
					break;
				}
				p = &((*p)->next_in_ino);
			}
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			if (ic->state == INO_STATE_PRESENT && !ref_obsolete(raw)) {
				/* If it's an in-core inode, then we have to adjust any
				   full_dirent or full_dnode structure to point to the
				   new version instead of the old */
				f = jffs2_gc_fetch_inode(c, ic->ino, ic->nlink);
				if (IS_ERR(f)) {
					/* Should never happen; it _must_ be present */
					JFFS2_ERROR("Failed to iget() ino #%u, err %ld\n",
						    ic->ino, PTR_ERR(f));
					BUG();
				}
				/* We don't lock f->sem. There's a number of ways we could
				   end up in here with it already being locked, and nobody's
				   going to modify it on us anyway because we hold the
				   alloc_sem. We're only changing one ->raw pointer too,
				   which we can get away with without upsetting readers. */
				adjust_ref = jffs2_incore_replace_raw(c, f, raw,
								      (void *)(buf?:c->wbuf) + (ref_offset(raw) - start));
			} else if (unlikely(ic->state != INO_STATE_PRESENT &&
					    ic->state != INO_STATE_CHECKEDABSENT &&
					    ic->state != INO_STATE_GC)) {
				JFFS2_ERROR("Inode #%u is in strange state %d!\n", ic->ino, ic->state);
				BUG();
			}
		}

		new_ref = jffs2_link_node_ref(c, new_jeb, ofs | ref_flags(raw), rawlen, ic);

		if (adjust_ref) {
			BUG_ON(*adjust_ref != raw);
			*adjust_ref = new_ref;
		}
		if (f)
			jffs2_gc_release_inode(c, f);

		if (!ref_obsolete(raw)) {
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			jeb->dirty_size += rawlen;
			jeb->used_size  -= rawlen;
			c->dirty_size += rawlen;
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			c->used_size -= rawlen;
			raw->flash_offset = ref_offset(raw) | REF_OBSOLETE;
			BUG_ON(raw->next_in_ino);
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		}
		ofs += rawlen;
	}

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	kfree(buf);

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	/* Fix up the original jeb now it's on the bad_list */
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	if (first_raw == jeb->first_node) {
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		D1(printk(KERN_DEBUG "Failing block at %08x is now empty. Moving to erase_pending_list\n", jeb->offset));
		list_del(&jeb->list);
		list_add(&jeb->list, &c->erase_pending_list);
		c->nr_erasing_blocks++;
		jffs2_erase_pending_trigger(c);
	}

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	jffs2_dbg_acct_sanity_check_nolock(c, jeb);
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	jffs2_dbg_acct_paranoia_check_nolock(c, jeb);
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	jffs2_dbg_acct_sanity_check_nolock(c, new_jeb);
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	jffs2_dbg_acct_paranoia_check_nolock(c, new_jeb);
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	spin_unlock(&c->erase_completion_lock);

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	D1(printk(KERN_DEBUG "wbuf recovery completed OK. wbuf_ofs 0x%08x, len 0x%x\n", c->wbuf_ofs, c->wbuf_len));

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}

/* Meaning of pad argument:
   0: Do not pad. Probably pointless - we only ever use this when we can't pad anyway.
   1: Pad, do not adjust nextblock free_size
   2: Pad, adjust nextblock free_size
*/
#define NOPAD		0
#define PAD_NOACCOUNT	1
#define PAD_ACCOUNTING	2

static int __jffs2_flush_wbuf(struct jffs2_sb_info *c, int pad)
{
522
	struct jffs2_eraseblock *wbuf_jeb;
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	int ret;
	size_t retlen;

526
	/* Nothing to do if not write-buffering the flash. In particular, we shouldn't
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	   del_timer() the timer we never initialised. */
528
	if (!jffs2_is_writebuffered(c))
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		return 0;

	if (!down_trylock(&c->alloc_sem)) {
		up(&c->alloc_sem);
		printk(KERN_CRIT "jffs2_flush_wbuf() called with alloc_sem not locked!\n");
		BUG();
	}

537
	if (!c->wbuf_len)	/* already checked c->wbuf above */
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		return 0;

540 541
	wbuf_jeb = &c->blocks[c->wbuf_ofs / c->sector_size];
	if (jffs2_prealloc_raw_node_refs(c, wbuf_jeb, c->nextblock->allocated_refs + 1))
542 543
		return -ENOMEM;

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	/* claim remaining space on the page
	   this happens, if we have a change to a new block,
	   or if fsync forces us to flush the writebuffer.
	   if we have a switch to next page, we will not have
548
	   enough remaining space for this.
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	*/
550
	if (pad ) {
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		c->wbuf_len = PAD(c->wbuf_len);

		/* Pad with JFFS2_DIRTY_BITMASK initially.  this helps out ECC'd NOR
		   with 8 byte page size */
		memset(c->wbuf + c->wbuf_len, 0, c->wbuf_pagesize - c->wbuf_len);
556

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		if ( c->wbuf_len + sizeof(struct jffs2_unknown_node) < c->wbuf_pagesize) {
			struct jffs2_unknown_node *padnode = (void *)(c->wbuf + c->wbuf_len);
			padnode->magic = cpu_to_je16(JFFS2_MAGIC_BITMASK);
			padnode->nodetype = cpu_to_je16(JFFS2_NODETYPE_PADDING);
			padnode->totlen = cpu_to_je32(c->wbuf_pagesize - c->wbuf_len);
			padnode->hdr_crc = cpu_to_je32(crc32(0, padnode, sizeof(*padnode)-4));
		}
	}
	/* else jffs2_flash_writev has actually filled in the rest of the
	   buffer for us, and will deal with the node refs etc. later. */
567

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#ifdef BREAKME
	static int breakme;
	if (breakme++ == 20) {
		printk(KERN_NOTICE "Faking write error at 0x%08x\n", c->wbuf_ofs);
		breakme = 0;
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		c->mtd->write(c->mtd, c->wbuf_ofs, c->wbuf_pagesize, &retlen,
			      brokenbuf);
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		ret = -EIO;
576
	} else
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#endif
578

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		ret = c->mtd->write(c->mtd, c->wbuf_ofs, c->wbuf_pagesize, &retlen, c->wbuf);

	if (ret || retlen != c->wbuf_pagesize) {
		if (ret)
			printk(KERN_WARNING "jffs2_flush_wbuf(): Write failed with %d\n",ret);
		else {
			printk(KERN_WARNING "jffs2_flush_wbuf(): Write was short: %zd instead of %d\n",
				retlen, c->wbuf_pagesize);
			ret = -EIO;
		}

		jffs2_wbuf_recover(c);

		return ret;
	}

	/* Adjust free size of the block if we padded. */
596
	if (pad) {
597
		uint32_t waste = c->wbuf_pagesize - c->wbuf_len;
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		D1(printk(KERN_DEBUG "jffs2_flush_wbuf() adjusting free_size of %sblock at %08x\n",
600
			  (wbuf_jeb==c->nextblock)?"next":"", wbuf_jeb->offset));
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602
		/* wbuf_pagesize - wbuf_len is the amount of space that's to be
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		   padded. If there is less free space in the block than that,
		   something screwed up */
605
		if (wbuf_jeb->free_size < waste) {
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			printk(KERN_CRIT "jffs2_flush_wbuf(): Accounting error. wbuf at 0x%08x has 0x%03x bytes, 0x%03x left.\n",
607
			       c->wbuf_ofs, c->wbuf_len, waste);
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			printk(KERN_CRIT "jffs2_flush_wbuf(): But free_size for block at 0x%08x is only 0x%08x\n",
609
			       wbuf_jeb->offset, wbuf_jeb->free_size);
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			BUG();
		}
612 613 614

		spin_lock(&c->erase_completion_lock);

615
		jffs2_link_node_ref(c, wbuf_jeb, (c->wbuf_ofs + c->wbuf_len) | REF_OBSOLETE, waste, NULL);
616
		/* FIXME: that made it count as dirty. Convert to wasted */
617
		wbuf_jeb->dirty_size -= waste;
618
		c->dirty_size -= waste;
619
		wbuf_jeb->wasted_size += waste;
620 621 622
		c->wasted_size += waste;
	} else
		spin_lock(&c->erase_completion_lock);
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	/* Stick any now-obsoleted blocks on the erase_pending_list */
	jffs2_refile_wbuf_blocks(c);
	jffs2_clear_wbuf_ino_list(c);
	spin_unlock(&c->erase_completion_lock);

	memset(c->wbuf,0xff,c->wbuf_pagesize);
	/* adjust write buffer offset, else we get a non contiguous write bug */
	c->wbuf_ofs += c->wbuf_pagesize;
	c->wbuf_len = 0;
	return 0;
}

636
/* Trigger garbage collection to flush the write-buffer.
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   If ino arg is zero, do it if _any_ real (i.e. not GC) writes are
638
   outstanding. If ino arg non-zero, do it only if a write for the
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   given inode is outstanding. */
int jffs2_flush_wbuf_gc(struct jffs2_sb_info *c, uint32_t ino)
{
	uint32_t old_wbuf_ofs;
	uint32_t old_wbuf_len;
	int ret = 0;

	D1(printk(KERN_DEBUG "jffs2_flush_wbuf_gc() called for ino #%u...\n", ino));

648 649 650
	if (!c->wbuf)
		return 0;

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	down(&c->alloc_sem);
	if (!jffs2_wbuf_pending_for_ino(c, ino)) {
		D1(printk(KERN_DEBUG "Ino #%d not pending in wbuf. Returning\n", ino));
		up(&c->alloc_sem);
		return 0;
	}

	old_wbuf_ofs = c->wbuf_ofs;
	old_wbuf_len = c->wbuf_len;

	if (c->unchecked_size) {
		/* GC won't make any progress for a while */
		D1(printk(KERN_DEBUG "jffs2_flush_wbuf_gc() padding. Not finished checking\n"));
		down_write(&c->wbuf_sem);
		ret = __jffs2_flush_wbuf(c, PAD_ACCOUNTING);
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		/* retry flushing wbuf in case jffs2_wbuf_recover
		   left some data in the wbuf */
		if (ret)
			ret = __jffs2_flush_wbuf(c, PAD_ACCOUNTING);
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		up_write(&c->wbuf_sem);
	} else while (old_wbuf_len &&
		      old_wbuf_ofs == c->wbuf_ofs) {

		up(&c->alloc_sem);

		D1(printk(KERN_DEBUG "jffs2_flush_wbuf_gc() calls gc pass\n"));

		ret = jffs2_garbage_collect_pass(c);
		if (ret) {
			/* GC failed. Flush it with padding instead */
			down(&c->alloc_sem);
			down_write(&c->wbuf_sem);
			ret = __jffs2_flush_wbuf(c, PAD_ACCOUNTING);
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			/* retry flushing wbuf in case jffs2_wbuf_recover
			   left some data in the wbuf */
			if (ret)
				ret = __jffs2_flush_wbuf(c, PAD_ACCOUNTING);
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			up_write(&c->wbuf_sem);
			break;
		}
		down(&c->alloc_sem);
	}

	D1(printk(KERN_DEBUG "jffs2_flush_wbuf_gc() ends...\n"));

	up(&c->alloc_sem);
	return ret;
}

/* Pad write-buffer to end and write it, wasting space. */
int jffs2_flush_wbuf_pad(struct jffs2_sb_info *c)
{
	int ret;

705 706 707
	if (!c->wbuf)
		return 0;

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	down_write(&c->wbuf_sem);
	ret = __jffs2_flush_wbuf(c, PAD_NOACCOUNT);
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	/* retry - maybe wbuf recover left some data in wbuf. */
	if (ret)
		ret = __jffs2_flush_wbuf(c, PAD_NOACCOUNT);
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	up_write(&c->wbuf_sem);

	return ret;
}
717 718 719

static size_t jffs2_fill_wbuf(struct jffs2_sb_info *c, const uint8_t *buf,
			      size_t len)
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{
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	if (len && !c->wbuf_len && (len >= c->wbuf_pagesize))
		return 0;

	if (len > (c->wbuf_pagesize - c->wbuf_len))
		len = c->wbuf_pagesize - c->wbuf_len;
	memcpy(c->wbuf + c->wbuf_len, buf, len);
	c->wbuf_len += (uint32_t) len;
	return len;
}

int jffs2_flash_writev(struct jffs2_sb_info *c, const struct kvec *invecs,
		       unsigned long count, loff_t to, size_t *retlen,
		       uint32_t ino)
{
	struct jffs2_eraseblock *jeb;
	size_t wbuf_retlen, donelen = 0;
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	uint32_t outvec_to = to;
738
	int ret, invec;
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740
	/* If not writebuffered flash, don't bother */
741
	if (!jffs2_is_writebuffered(c))
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		return jffs2_flash_direct_writev(c, invecs, count, to, retlen);
743

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	down_write(&c->wbuf_sem);

	/* If wbuf_ofs is not initialized, set it to target address */
	if (c->wbuf_ofs == 0xFFFFFFFF) {
		c->wbuf_ofs = PAGE_DIV(to);
749
		c->wbuf_len = PAGE_MOD(to);
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		memset(c->wbuf,0xff,c->wbuf_pagesize);
	}

753 754 755 756 757 758 759
	/*
	 * Sanity checks on target address.  It's permitted to write
	 * at PAD(c->wbuf_len+c->wbuf_ofs), and it's permitted to
	 * write at the beginning of a new erase block. Anything else,
	 * and you die.  New block starts at xxx000c (0-b = block
	 * header)
	 */
760
	if (SECTOR_ADDR(to) != SECTOR_ADDR(c->wbuf_ofs)) {
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		/* It's a write to a new block */
		if (c->wbuf_len) {
763 764 765
			D1(printk(KERN_DEBUG "jffs2_flash_writev() to 0x%lx "
				  "causes flush of wbuf at 0x%08x\n",
				  (unsigned long)to, c->wbuf_ofs));
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			ret = __jffs2_flush_wbuf(c, PAD_NOACCOUNT);
767 768
			if (ret)
				goto outerr;
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		}
		/* set pointer to new block */
		c->wbuf_ofs = PAGE_DIV(to);
772 773
		c->wbuf_len = PAGE_MOD(to);
	}
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	if (to != PAD(c->wbuf_ofs + c->wbuf_len)) {
		/* We're not writing immediately after the writebuffer. Bad. */
777 778
		printk(KERN_CRIT "jffs2_flash_writev(): Non-contiguous write "
		       "to %08lx\n", (unsigned long)to);
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		if (c->wbuf_len)
			printk(KERN_CRIT "wbuf was previously %08x-%08x\n",
781
			       c->wbuf_ofs, c->wbuf_ofs+c->wbuf_len);
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		BUG();
	}

785 786 787 788 789 790 791 792 793
	/* adjust alignment offset */
	if (c->wbuf_len != PAGE_MOD(to)) {
		c->wbuf_len = PAGE_MOD(to);
		/* take care of alignment to next page */
		if (!c->wbuf_len) {
			c->wbuf_len = c->wbuf_pagesize;
			ret = __jffs2_flush_wbuf(c, NOPAD);
			if (ret)
				goto outerr;
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		}
	}

797 798 799
	for (invec = 0; invec < count; invec++) {
		int vlen = invecs[invec].iov_len;
		uint8_t *v = invecs[invec].iov_base;
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801
		wbuf_retlen = jffs2_fill_wbuf(c, v, vlen);
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803 804 805 806
		if (c->wbuf_len == c->wbuf_pagesize) {
			ret = __jffs2_flush_wbuf(c, NOPAD);
			if (ret)
				goto outerr;
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		}
808 809
		vlen -= wbuf_retlen;
		outvec_to += wbuf_retlen;
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		donelen += wbuf_retlen;
811 812 813 814 815 816 817 818 819 820 821 822 823
		v += wbuf_retlen;

		if (vlen >= c->wbuf_pagesize) {
			ret = c->mtd->write(c->mtd, outvec_to, PAGE_DIV(vlen),
					    &wbuf_retlen, v);
			if (ret < 0 || wbuf_retlen != PAGE_DIV(vlen))
				goto outfile;

			vlen -= wbuf_retlen;
			outvec_to += wbuf_retlen;
			c->wbuf_ofs = outvec_to;
			donelen += wbuf_retlen;
			v += wbuf_retlen;
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		}

826 827 828 829 830 831
		wbuf_retlen = jffs2_fill_wbuf(c, v, vlen);
		if (c->wbuf_len == c->wbuf_pagesize) {
			ret = __jffs2_flush_wbuf(c, NOPAD);
			if (ret)
				goto outerr;
		}
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833 834
		outvec_to += wbuf_retlen;
		donelen += wbuf_retlen;
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	}

837 838 839 840
	/*
	 * If there's a remainder in the wbuf and it's a non-GC write,
	 * remember that the wbuf affects this ino
	 */
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	*retlen = donelen;

843 844 845 846 847 848
	if (jffs2_sum_active()) {
		int res = jffs2_sum_add_kvec(c, invecs, count, (uint32_t) to);
		if (res)
			return res;
	}

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	if (c->wbuf_len && ino)
		jffs2_wbuf_dirties_inode(c, ino);

	ret = 0;
853 854 855 856 857 858 859 860 861 862 863 864 865 866 867
	up_write(&c->wbuf_sem);
	return ret;

outfile:
	/*
	 * At this point we have no problem, c->wbuf is empty. However
	 * refile nextblock to avoid writing again to same address.
	 */

	spin_lock(&c->erase_completion_lock);

	jeb = &c->blocks[outvec_to / c->sector_size];
	jffs2_block_refile(c, jeb, REFILE_ANYWAY);

	spin_unlock(&c->erase_completion_lock);
868

869 870
outerr:
	*retlen = 0;
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	up_write(&c->wbuf_sem);
	return ret;
}

/*
 *	This is the entry for flash write.
 *	Check, if we work on NAND FLASH, if so build an kvec and write it via vritev
*/
879 880
int jffs2_flash_write(struct jffs2_sb_info *c, loff_t ofs, size_t len,
		      size_t *retlen, const u_char *buf)
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{
	struct kvec vecs[1];

884
	if (!jffs2_is_writebuffered(c))
885
		return jffs2_flash_direct_write(c, ofs, len, retlen, buf);
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	vecs[0].iov_base = (unsigned char *) buf;
	vecs[0].iov_len = len;
	return jffs2_flash_writev(c, vecs, 1, ofs, retlen, 0);
}

/*
	Handle readback from writebuffer and ECC failure return
*/
int jffs2_flash_read(struct jffs2_sb_info *c, loff_t ofs, size_t len, size_t *retlen, u_char *buf)
{
	loff_t	orbf = 0, owbf = 0, lwbf = 0;
	int	ret;

900
	if (!jffs2_is_writebuffered(c))
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		return c->mtd->read(c->mtd, ofs, len, retlen, buf);

903
	/* Read flash */
904
	down_read(&c->wbuf_sem);
905
	ret = c->mtd->read(c->mtd, ofs, len, retlen, buf);
906 907 908 909

	if ( (ret == -EBADMSG) && (*retlen == len) ) {
		printk(KERN_WARNING "mtd->read(0x%zx bytes from 0x%llx) returned ECC error\n",
		       len, ofs);
910 911
		/*
		 * We have the raw data without ECC correction in the buffer, maybe
912 913 914 915
		 * we are lucky and all data or parts are correct. We check the node.
		 * If data are corrupted node check will sort it out.
		 * We keep this block, it will fail on write or erase and the we
		 * mark it bad. Or should we do that now? But we should give him a chance.
916
		 * Maybe we had a system crash or power loss before the ecc write or
917 918 919 920
		 * a erase was completed.
		 * So we return success. :)
		 */
	 	ret = 0;
921
	}
922

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	/* if no writebuffer available or write buffer empty, return */
	if (!c->wbuf_pagesize || !c->wbuf_len)
925
		goto exit;
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	/* if we read in a different block, return */
928
	if (SECTOR_ADDR(ofs) != SECTOR_ADDR(c->wbuf_ofs))
929
		goto exit;
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	if (ofs >= c->wbuf_ofs) {
		owbf = (ofs - c->wbuf_ofs);	/* offset in write buffer */
		if (owbf > c->wbuf_len)		/* is read beyond write buffer ? */
			goto exit;
		lwbf = c->wbuf_len - owbf;	/* number of bytes to copy */
936
		if (lwbf > len)
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			lwbf = len;
938
	} else {
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		orbf = (c->wbuf_ofs - ofs);	/* offset in read buffer */
		if (orbf > len)			/* is write beyond write buffer ? */
			goto exit;
		lwbf = len - orbf; 		/* number of bytes to copy */
943
		if (lwbf > c->wbuf_len)
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			lwbf = c->wbuf_len;
945
	}
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	if (lwbf > 0)
		memcpy(buf+orbf,c->wbuf+owbf,lwbf);

exit:
	up_read(&c->wbuf_sem);
	return ret;
}

/*
 *	Check, if the out of band area is empty
 */
int jffs2_check_oob_empty( struct jffs2_sb_info *c, struct jffs2_eraseblock *jeb, int mode)
{
	unsigned char *buf;
	int 	ret = 0;
	int	i,len,page;
	size_t  retlen;
	int	oob_size;

	/* allocate a buffer for all oob data in this sector */
	oob_size = c->mtd->oobsize;
	len = 4 * oob_size;
	buf = kmalloc(len, GFP_KERNEL);
	if (!buf) {
		printk(KERN_NOTICE "jffs2_check_oob_empty(): allocation of temporary data buffer for oob check failed\n");
		return -ENOMEM;
	}
973
	/*
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	 * if mode = 0, we scan for a total empty oob area, else we have
	 * to take care of the cleanmarker in the first page of the block
	*/
	ret = jffs2_flash_read_oob(c, jeb->offset, len , &retlen, buf);
	if (ret) {
		D1(printk(KERN_WARNING "jffs2_check_oob_empty(): Read OOB failed %d for block at %08x\n", ret, jeb->offset));
		goto out;
	}
982

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	if (retlen < len) {
		D1(printk(KERN_WARNING "jffs2_check_oob_empty(): Read OOB return short read "
			  "(%zd bytes not %d) for block at %08x\n", retlen, len, jeb->offset));
		ret = -EIO;
		goto out;
	}
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	/* Special check for first page */
	for(i = 0; i < oob_size ; i++) {
		/* Yeah, we know about the cleanmarker. */
993
		if (mode && i >= c->fsdata_pos &&
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		    i < c->fsdata_pos + c->fsdata_len)
			continue;

		if (buf[i] != 0xFF) {
			D2(printk(KERN_DEBUG "Found %02x at %x in OOB for %08x\n",
999
				  buf[i], i, jeb->offset));
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			ret = 1;
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			goto out;
		}
	}

1005
	/* we know, we are aligned :) */
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	for (page = oob_size; page < len; page += sizeof(long)) {
		unsigned long dat = *(unsigned long *)(&buf[page]);
		if(dat != -1) {
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			ret = 1;
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			goto out;
		}
	}

out:
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	kfree(buf);

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	return ret;
}

/*
*	Scan for a valid cleanmarker and for bad blocks
*	For virtual blocks (concatenated physical blocks) check the cleanmarker
*	only in the first page of the first physical block, but scan for bad blocks in all
*	physical blocks
*/
int jffs2_check_nand_cleanmarker (struct jffs2_sb_info *c, struct jffs2_eraseblock *jeb)
{
	struct jffs2_unknown_node n;
	unsigned char buf[2 * NAND_MAX_OOBSIZE];
	unsigned char *p;
	int ret, i, cnt, retval = 0;
	size_t retlen, offset;
	int oob_size;

	offset = jeb->offset;
	oob_size = c->mtd->oobsize;

	/* Loop through the physical blocks */
	for (cnt = 0; cnt < (c->sector_size / c->mtd->erasesize); cnt++) {
		/* Check first if the block is bad. */
		if (c->mtd->block_isbad (c->mtd, offset)) {
			D1 (printk (KERN_WARNING "jffs2_check_nand_cleanmarker(): Bad block at %08x\n", jeb->offset));
			return 2;
		}
		/*
		   *    We read oob data from page 0 and 1 of the block.
		   *    page 0 contains cleanmarker and badblock info
		   *    page 1 contains failure count of this block
		 */
		ret = c->mtd->read_oob (c->mtd, offset, oob_size << 1, &retlen, buf);

		if (ret) {
			D1 (printk (KERN_WARNING "jffs2_check_nand_cleanmarker(): Read OOB failed %d for block at %08x\n", ret, jeb->offset));
			return ret;
		}
		if (retlen < (oob_size << 1)) {
			D1 (printk (KERN_WARNING "jffs2_check_nand_cleanmarker(): Read OOB return short read (%zd bytes not %d) for block at %08x\n", retlen, oob_size << 1, jeb->offset));
			return -EIO;
		}

		/* Check cleanmarker only on the first physical block */
		if (!cnt) {
			n.magic = cpu_to_je16 (JFFS2_MAGIC_BITMASK);
			n.nodetype = cpu_to_je16 (JFFS2_NODETYPE_CLEANMARKER);
			n.totlen = cpu_to_je32 (8);
			p = (unsigned char *) &n;

			for (i = 0; i < c->fsdata_len; i++) {
				if (buf[c->fsdata_pos + i] != p[i]) {
					retval = 1;
				}
			}
			D1(if (retval == 1) {
				printk(KERN_WARNING "jffs2_check_nand_cleanmarker(): Cleanmarker node not detected in block at %08x\n", jeb->offset);
1075
				printk(KERN_WARNING "OOB at %08zx was ", offset);
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				for (i=0; i < oob_size; i++) {
					printk("%02x ", buf[i]);
				}
				printk("\n");
			})
		}
		offset += c->mtd->erasesize;
	}
	return retval;
}

int jffs2_write_nand_cleanmarker(struct jffs2_sb_info *c, struct jffs2_eraseblock *jeb)
{
	struct 	jffs2_unknown_node n;
	int 	ret;
	size_t 	retlen;

	n.magic = cpu_to_je16(JFFS2_MAGIC_BITMASK);
	n.nodetype = cpu_to_je16(JFFS2_NODETYPE_CLEANMARKER);
	n.totlen = cpu_to_je32(8);

	ret = jffs2_flash_write_oob(c, jeb->offset + c->fsdata_pos, c->fsdata_len, &retlen, (unsigned char *)&n);
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	if (ret) {
		D1(printk(KERN_WARNING "jffs2_write_nand_cleanmarker(): Write failed for block at %08x: error %d\n", jeb->offset, ret));
		return ret;
	}
	if (retlen != c->fsdata_len) {
		D1(printk(KERN_WARNING "jffs2_write_nand_cleanmarker(): Short write for block at %08x: %zd not %d\n", jeb->offset, retlen, c->fsdata_len));
		return ret;
	}
	return 0;
}

1110
/*
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 * On NAND we try to mark this block bad. If the block was erased more
 * than MAX_ERASE_FAILURES we mark it finaly bad.
 * Don't care about failures. This block remains on the erase-pending
 * or badblock list as long as nobody manipulates the flash with
 * a bootloader or something like that.
 */

int jffs2_write_nand_badblock(struct jffs2_sb_info *c, struct jffs2_eraseblock *jeb, uint32_t bad_offset)
{
	int 	ret;

	/* if the count is < max, we try to write the counter to the 2nd page oob area */
	if( ++jeb->bad_count < MAX_ERASE_FAILURES)
		return 0;

	if (!c->mtd->block_markbad)
		return 1; // What else can we do?

	D1(printk(KERN_WARNING "jffs2_write_nand_badblock(): Marking bad block at %08x\n", bad_offset));
	ret = c->mtd->block_markbad(c->mtd, bad_offset);
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	if (ret) {
		D1(printk(KERN_WARNING "jffs2_write_nand_badblock(): Write failed for block at %08x: error %d\n", jeb->offset, ret));
		return ret;
	}
	return 1;
}

#define NAND_JFFS2_OOB16_FSDALEN	8

static struct nand_oobinfo jffs2_oobinfo_docecc = {
	.useecc = MTD_NANDECC_PLACE,
	.eccbytes = 6,
	.eccpos = {0,1,2,3,4,5}
};


static int jffs2_nand_set_oobinfo(struct jffs2_sb_info *c)
{
	struct nand_oobinfo *oinfo = &c->mtd->oobinfo;

	/* Do this only, if we have an oob buffer */
	if (!c->mtd->oobsize)
		return 0;
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	/* Cleanmarker is out-of-band, so inline size zero */
	c->cleanmarker_size = 0;

	/* Should we use autoplacement ? */
	if (oinfo && oinfo->useecc == MTD_NANDECC_AUTOPLACE) {
		D1(printk(KERN_DEBUG "JFFS2 using autoplace on NAND\n"));
		/* Get the position of the free bytes */
		if (!oinfo->oobfree[0][1]) {
			printk (KERN_WARNING "jffs2_nand_set_oobinfo(): Eeep. Autoplacement selected and no empty space in oob\n");
			return -ENOSPC;
		}
		c->fsdata_pos = oinfo->oobfree[0][0];
		c->fsdata_len = oinfo->oobfree[0][1];
		if (c->fsdata_len > 8)
			c->fsdata_len = 8;
	} else {
		/* This is just a legacy fallback and should go away soon */
		switch(c->mtd->ecctype) {
		case MTD_ECC_RS_DiskOnChip:
			printk(KERN_WARNING "JFFS2 using DiskOnChip hardware ECC without autoplacement. Fix it!\n");
			c->oobinfo = &jffs2_oobinfo_docecc;
			c->fsdata_pos = 6;
			c->fsdata_len = NAND_JFFS2_OOB16_FSDALEN;
			c->badblock_pos = 15;
			break;
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		default:
			D1(printk(KERN_DEBUG "JFFS2 on NAND. No autoplacment info found\n"));
			return -EINVAL;
		}
	}
	return 0;
}

int jffs2_nand_flash_setup(struct jffs2_sb_info *c)
{
	int res;

	/* Initialise write buffer */
	init_rwsem(&c->wbuf_sem);
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	c->wbuf_pagesize = c->mtd->writesize;
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	c->wbuf_ofs = 0xFFFFFFFF;
1198

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	c->wbuf = kmalloc(c->wbuf_pagesize, GFP_KERNEL);
	if (!c->wbuf)
		return -ENOMEM;

	res = jffs2_nand_set_oobinfo(c);

#ifdef BREAKME
	if (!brokenbuf)
		brokenbuf = kmalloc(c->wbuf_pagesize, GFP_KERNEL);
	if (!brokenbuf) {
		kfree(c->wbuf);
		return -ENOMEM;
	}
	memset(brokenbuf, 0xdb, c->wbuf_pagesize);
#endif
	return res;
}

void jffs2_nand_flash_cleanup(struct jffs2_sb_info *c)
{
	kfree(c->wbuf);
}

1222 1223
int jffs2_dataflash_setup(struct jffs2_sb_info *c) {
	c->cleanmarker_size = 0;		/* No cleanmarkers needed */
1224

1225 1226 1227
	/* Initialize write buffer */
	init_rwsem(&c->wbuf_sem);

1228

1229
	c->wbuf_pagesize =  c->mtd->erasesize;
1230

1231 1232 1233 1234 1235 1236 1237 1238 1239
	/* Find a suitable c->sector_size
	 * - Not too much sectors
	 * - Sectors have to be at least 4 K + some bytes
	 * - All known dataflashes have erase sizes of 528 or 1056
	 * - we take at least 8 eraseblocks and want to have at least 8K size
	 * - The concatenation should be a power of 2
	*/

	c->sector_size = 8 * c->mtd->erasesize;
1240

1241 1242 1243
	while (c->sector_size < 8192) {
		c->sector_size *= 2;
	}
1244

1245 1246
	/* It may be necessary to adjust the flash size */
	c->flash_size = c->mtd->size;
1247

1248 1249 1250 1251
	if ((c->flash_size % c->sector_size) != 0) {
		c->flash_size = (c->flash_size / c->sector_size) * c->sector_size;
		printk(KERN_WARNING "JFFS2 flash size adjusted to %dKiB\n", c->flash_size);
	};
1252

1253
	c->wbuf_ofs = 0xFFFFFFFF;
1254 1255 1256 1257
	c->wbuf = kmalloc(c->wbuf_pagesize, GFP_KERNEL);
	if (!c->wbuf)
		return -ENOMEM;

1258
	printk(KERN_INFO "JFFS2 write-buffering enabled buffer (%d) erasesize (%d)\n", c->wbuf_pagesize, c->sector_size);
1259 1260 1261 1262 1263 1264 1265 1266

	return 0;
}

void jffs2_dataflash_cleanup(struct jffs2_sb_info *c) {
	kfree(c->wbuf);
}

1267
int jffs2_nor_wbuf_flash_setup(struct jffs2_sb_info *c) {
1268 1269 1270
	/* Cleanmarker currently occupies whole programming regions,
	 * either one or 2 for 8Byte STMicro flashes. */
	c->cleanmarker_size = max(16u, c->mtd->writesize);
1271 1272 1273

	/* Initialize write buffer */
	init_rwsem(&c->wbuf_sem);
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	c->wbuf_pagesize = c->mtd->writesize;
1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286
	c->wbuf_ofs = 0xFFFFFFFF;

	c->wbuf = kmalloc(c->wbuf_pagesize, GFP_KERNEL);
	if (!c->wbuf)
		return -ENOMEM;

	return 0;
}

void jffs2_nor_wbuf_flash_cleanup(struct jffs2_sb_info *c) {
	kfree(c->wbuf);
}