nodemgmt.c 26.5 KB
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/*
 * JFFS2 -- Journalling Flash File System, Version 2.
 *
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 * Copyright © 2001-2007 Red Hat, Inc.
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 *
 * Created by David Woodhouse <dwmw2@infradead.org>
 *
 * For licensing information, see the file 'LICENCE' in this directory.
 *
 */

#include <linux/kernel.h>
#include <linux/slab.h>
#include <linux/mtd/mtd.h>
#include <linux/compiler.h>
#include <linux/sched.h> /* For cond_resched() */
#include "nodelist.h"
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#include "debug.h"
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/**
 *	jffs2_reserve_space - request physical space to write nodes to flash
 *	@c: superblock info
 *	@minsize: Minimum acceptable size of allocation
 *	@len: Returned value of allocation length
 *	@prio: Allocation type - ALLOC_{NORMAL,DELETION}
 *
 *	Requests a block of physical space on the flash. Returns zero for success
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 *	and puts 'len' into the appropriate place, or returns -ENOSPC or other 
 *	error if appropriate. Doesn't return len since that's 
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 *
 *	If it returns zero, jffs2_reserve_space() also downs the per-filesystem
 *	allocation semaphore, to prevent more than one allocation from being
 *	active at any time. The semaphore is later released by jffs2_commit_allocation()
 *
 *	jffs2_reserve_space() may trigger garbage collection in order to make room
 *	for the requested allocation.
 */

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static int jffs2_do_reserve_space(struct jffs2_sb_info *c,  uint32_t minsize,
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				  uint32_t *len, uint32_t sumsize);
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int jffs2_reserve_space(struct jffs2_sb_info *c, uint32_t minsize,
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			uint32_t *len, int prio, uint32_t sumsize)
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{
	int ret = -EAGAIN;
	int blocksneeded = c->resv_blocks_write;
	/* align it */
	minsize = PAD(minsize);

	D1(printk(KERN_DEBUG "jffs2_reserve_space(): Requested 0x%x bytes\n", minsize));
	down(&c->alloc_sem);

	D1(printk(KERN_DEBUG "jffs2_reserve_space(): alloc sem got\n"));

	spin_lock(&c->erase_completion_lock);

	/* this needs a little more thought (true <tglx> :)) */
	while(ret == -EAGAIN) {
		while(c->nr_free_blocks + c->nr_erasing_blocks < blocksneeded) {
			int ret;
			uint32_t dirty, avail;

			/* calculate real dirty size
			 * dirty_size contains blocks on erase_pending_list
			 * those blocks are counted in c->nr_erasing_blocks.
			 * If one block is actually erased, it is not longer counted as dirty_space
			 * but it is counted in c->nr_erasing_blocks, so we add it and subtract it
			 * with c->nr_erasing_blocks * c->sector_size again.
			 * Blocks on erasable_list are counted as dirty_size, but not in c->nr_erasing_blocks
			 * This helps us to force gc and pick eventually a clean block to spread the load.
			 * We add unchecked_size here, as we hopefully will find some space to use.
			 * This will affect the sum only once, as gc first finishes checking
			 * of nodes.
			 */
			dirty = c->dirty_size + c->erasing_size - c->nr_erasing_blocks * c->sector_size + c->unchecked_size;
			if (dirty < c->nospc_dirty_size) {
				if (prio == ALLOC_DELETION && c->nr_free_blocks + c->nr_erasing_blocks >= c->resv_blocks_deletion) {
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					D1(printk(KERN_NOTICE "jffs2_reserve_space(): Low on dirty space to GC, but it's a deletion. Allowing...\n"));
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					break;
				}
				D1(printk(KERN_DEBUG "dirty size 0x%08x + unchecked_size 0x%08x < nospc_dirty_size 0x%08x, returning -ENOSPC\n",
					  dirty, c->unchecked_size, c->sector_size));

				spin_unlock(&c->erase_completion_lock);
				up(&c->alloc_sem);
				return -ENOSPC;
			}
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			/* Calc possibly available space. Possibly available means that we
			 * don't know, if unchecked size contains obsoleted nodes, which could give us some
			 * more usable space. This will affect the sum only once, as gc first finishes checking
			 * of nodes.
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			 + Return -ENOSPC, if the maximum possibly available space is less or equal than
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			 * blocksneeded * sector_size.
			 * This blocks endless gc looping on a filesystem, which is nearly full, even if
			 * the check above passes.
			 */
			avail = c->free_size + c->dirty_size + c->erasing_size + c->unchecked_size;
			if ( (avail / c->sector_size) <= blocksneeded) {
				if (prio == ALLOC_DELETION && c->nr_free_blocks + c->nr_erasing_blocks >= c->resv_blocks_deletion) {
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					D1(printk(KERN_NOTICE "jffs2_reserve_space(): Low on possibly available space, but it's a deletion. Allowing...\n"));
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					break;
				}

				D1(printk(KERN_DEBUG "max. available size 0x%08x  < blocksneeded * sector_size 0x%08x, returning -ENOSPC\n",
					  avail, blocksneeded * c->sector_size));
				spin_unlock(&c->erase_completion_lock);
				up(&c->alloc_sem);
				return -ENOSPC;
			}

			up(&c->alloc_sem);

			D1(printk(KERN_DEBUG "Triggering GC pass. nr_free_blocks %d, nr_erasing_blocks %d, free_size 0x%08x, dirty_size 0x%08x, wasted_size 0x%08x, used_size 0x%08x, erasing_size 0x%08x, bad_size 0x%08x (total 0x%08x of 0x%08x)\n",
				  c->nr_free_blocks, c->nr_erasing_blocks, c->free_size, c->dirty_size, c->wasted_size, c->used_size, c->erasing_size, c->bad_size,
				  c->free_size + c->dirty_size + c->wasted_size + c->used_size + c->erasing_size + c->bad_size, c->flash_size));
			spin_unlock(&c->erase_completion_lock);
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			ret = jffs2_garbage_collect_pass(c);
			if (ret)
				return ret;

			cond_resched();

			if (signal_pending(current))
				return -EINTR;

			down(&c->alloc_sem);
			spin_lock(&c->erase_completion_lock);
		}

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		ret = jffs2_do_reserve_space(c, minsize, len, sumsize);
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		if (ret) {
			D1(printk(KERN_DEBUG "jffs2_reserve_space: ret is %d\n", ret));
		}
	}
	spin_unlock(&c->erase_completion_lock);
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	if (!ret)
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		ret = jffs2_prealloc_raw_node_refs(c, c->nextblock, 1);
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	if (ret)
		up(&c->alloc_sem);
	return ret;
}

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int jffs2_reserve_space_gc(struct jffs2_sb_info *c, uint32_t minsize,
			   uint32_t *len, uint32_t sumsize)
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{
	int ret = -EAGAIN;
	minsize = PAD(minsize);

	D1(printk(KERN_DEBUG "jffs2_reserve_space_gc(): Requested 0x%x bytes\n", minsize));

	spin_lock(&c->erase_completion_lock);
	while(ret == -EAGAIN) {
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		ret = jffs2_do_reserve_space(c, minsize, len, sumsize);
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		if (ret) {
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			D1(printk(KERN_DEBUG "jffs2_reserve_space_gc: looping, ret is %d\n", ret));
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		}
	}
	spin_unlock(&c->erase_completion_lock);
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	if (!ret)
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		ret = jffs2_prealloc_raw_node_refs(c, c->nextblock, 1);
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	return ret;
}

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/* Classify nextblock (clean, dirty of verydirty) and force to select an other one */

static void jffs2_close_nextblock(struct jffs2_sb_info *c, struct jffs2_eraseblock *jeb)
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{
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	if (c->nextblock == NULL) {
		D1(printk(KERN_DEBUG "jffs2_close_nextblock: Erase block at 0x%08x has already been placed in a list\n",
		  jeb->offset));
		return;
	}
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	/* Check, if we have a dirty block now, or if it was dirty already */
	if (ISDIRTY (jeb->wasted_size + jeb->dirty_size)) {
		c->dirty_size += jeb->wasted_size;
		c->wasted_size -= jeb->wasted_size;
		jeb->dirty_size += jeb->wasted_size;
		jeb->wasted_size = 0;
		if (VERYDIRTY(c, jeb->dirty_size)) {
			D1(printk(KERN_DEBUG "Adding full erase block at 0x%08x to very_dirty_list (free 0x%08x, dirty 0x%08x, used 0x%08x\n",
			  jeb->offset, jeb->free_size, jeb->dirty_size, jeb->used_size));
			list_add_tail(&jeb->list, &c->very_dirty_list);
		} else {
			D1(printk(KERN_DEBUG "Adding full erase block at 0x%08x to dirty_list (free 0x%08x, dirty 0x%08x, used 0x%08x\n",
			  jeb->offset, jeb->free_size, jeb->dirty_size, jeb->used_size));
			list_add_tail(&jeb->list, &c->dirty_list);
		}
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	} else {
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		D1(printk(KERN_DEBUG "Adding full erase block at 0x%08x to clean_list (free 0x%08x, dirty 0x%08x, used 0x%08x\n",
		  jeb->offset, jeb->free_size, jeb->dirty_size, jeb->used_size));
		list_add_tail(&jeb->list, &c->clean_list);
	}
	c->nextblock = NULL;

}

/* Select a new jeb for nextblock */

static int jffs2_find_nextblock(struct jffs2_sb_info *c)
{
	struct list_head *next;
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	/* Take the next block off the 'free' list */

	if (list_empty(&c->free_list)) {

		if (!c->nr_erasing_blocks &&
			!list_empty(&c->erasable_list)) {
			struct jffs2_eraseblock *ejeb;

			ejeb = list_entry(c->erasable_list.next, struct jffs2_eraseblock, list);
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			list_move_tail(&ejeb->list, &c->erase_pending_list);
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			c->nr_erasing_blocks++;
			jffs2_erase_pending_trigger(c);
			D1(printk(KERN_DEBUG "jffs2_find_nextblock: Triggering erase of erasable block at 0x%08x\n",
				  ejeb->offset));
		}

		if (!c->nr_erasing_blocks &&
			!list_empty(&c->erasable_pending_wbuf_list)) {
			D1(printk(KERN_DEBUG "jffs2_find_nextblock: Flushing write buffer\n"));
			/* c->nextblock is NULL, no update to c->nextblock allowed */
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			spin_unlock(&c->erase_completion_lock);
			jffs2_flush_wbuf_pad(c);
			spin_lock(&c->erase_completion_lock);
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			/* Have another go. It'll be on the erasable_list now */
			return -EAGAIN;
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		}
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		if (!c->nr_erasing_blocks) {
			/* Ouch. We're in GC, or we wouldn't have got here.
			   And there's no space left. At all. */
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			printk(KERN_CRIT "Argh. No free space left for GC. nr_erasing_blocks is %d. nr_free_blocks is %d. (erasableempty: %s, erasingempty: %s, erasependingempty: %s)\n",
				   c->nr_erasing_blocks, c->nr_free_blocks, list_empty(&c->erasable_list)?"yes":"no",
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				   list_empty(&c->erasing_list)?"yes":"no", list_empty(&c->erase_pending_list)?"yes":"no");
			return -ENOSPC;
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		}
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		spin_unlock(&c->erase_completion_lock);
		/* Don't wait for it; just erase one right now */
		jffs2_erase_pending_blocks(c, 1);
		spin_lock(&c->erase_completion_lock);

		/* An erase may have failed, decreasing the
		   amount of free space available. So we must
		   restart from the beginning */
		return -EAGAIN;
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	}
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	next = c->free_list.next;
	list_del(next);
	c->nextblock = list_entry(next, struct jffs2_eraseblock, list);
	c->nr_free_blocks--;
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	jffs2_sum_reset_collected(c->summary); /* reset collected summary */

	D1(printk(KERN_DEBUG "jffs2_find_nextblock(): new nextblock = 0x%08x\n", c->nextblock->offset));

	return 0;
}

/* Called with alloc sem _and_ erase_completion_lock */
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static int jffs2_do_reserve_space(struct jffs2_sb_info *c, uint32_t minsize,
				  uint32_t *len, uint32_t sumsize)
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{
	struct jffs2_eraseblock *jeb = c->nextblock;
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	uint32_t reserved_size;				/* for summary information at the end of the jeb */
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	int ret;

 restart:
	reserved_size = 0;

	if (jffs2_sum_active() && (sumsize != JFFS2_SUMMARY_NOSUM_SIZE)) {
							/* NOSUM_SIZE means not to generate summary */

		if (jeb) {
			reserved_size = PAD(sumsize + c->summary->sum_size + JFFS2_SUMMARY_FRAME_SIZE);
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			dbg_summary("minsize=%d , jeb->free=%d ,"
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						"summary->size=%d , sumsize=%d\n",
						minsize, jeb->free_size,
						c->summary->sum_size, sumsize);
		}

		/* Is there enough space for writing out the current node, or we have to
		   write out summary information now, close this jeb and select new nextblock? */
		if (jeb && (PAD(minsize) + PAD(c->summary->sum_size + sumsize +
					JFFS2_SUMMARY_FRAME_SIZE) > jeb->free_size)) {

			/* Has summary been disabled for this jeb? */
			if (jffs2_sum_is_disabled(c->summary)) {
				sumsize = JFFS2_SUMMARY_NOSUM_SIZE;
				goto restart;
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			}

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			/* Writing out the collected summary information */
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			dbg_summary("generating summary for 0x%08x.\n", jeb->offset);
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			ret = jffs2_sum_write_sumnode(c);

			if (ret)
				return ret;

			if (jffs2_sum_is_disabled(c->summary)) {
				/* jffs2_write_sumnode() couldn't write out the summary information
				   diabling summary for this jeb and free the collected information
				 */
				sumsize = JFFS2_SUMMARY_NOSUM_SIZE;
				goto restart;
			}

			jffs2_close_nextblock(c, jeb);
			jeb = NULL;
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			/* keep always valid value in reserved_size */
			reserved_size = PAD(sumsize + c->summary->sum_size + JFFS2_SUMMARY_FRAME_SIZE);
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		}
	} else {
		if (jeb && minsize > jeb->free_size) {
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			uint32_t waste;

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			/* Skip the end of this block and file it as having some dirty space */
			/* If there's a pending write to it, flush now */

			if (jffs2_wbuf_dirty(c)) {
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				spin_unlock(&c->erase_completion_lock);
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				D1(printk(KERN_DEBUG "jffs2_do_reserve_space: Flushing write buffer\n"));
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				jffs2_flush_wbuf_pad(c);
				spin_lock(&c->erase_completion_lock);
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				jeb = c->nextblock;
				goto restart;
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			}

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			spin_unlock(&c->erase_completion_lock);

			ret = jffs2_prealloc_raw_node_refs(c, jeb, 1);
			if (ret)
				return ret;
			/* Just lock it again and continue. Nothing much can change because
			   we hold c->alloc_sem anyway. In fact, it's not entirely clear why
			   we hold c->erase_completion_lock in the majority of this function...
			   but that's a question for another (more caffeine-rich) day. */
			spin_lock(&c->erase_completion_lock);

			waste = jeb->free_size;
			jffs2_link_node_ref(c, jeb,
					    (jeb->offset + c->sector_size - waste) | REF_OBSOLETE,
					    waste, NULL);
			/* FIXME: that made it count as dirty. Convert to wasted */
			jeb->dirty_size -= waste;
			c->dirty_size -= waste;
			jeb->wasted_size += waste;
			c->wasted_size += waste;
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			jffs2_close_nextblock(c, jeb);
			jeb = NULL;
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		}
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	}

	if (!jeb) {

		ret = jffs2_find_nextblock(c);
		if (ret)
			return ret;
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		jeb = c->nextblock;
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		if (jeb->free_size != c->sector_size - c->cleanmarker_size) {
			printk(KERN_WARNING "Eep. Block 0x%08x taken from free_list had free_size of 0x%08x!!\n", jeb->offset, jeb->free_size);
			goto restart;
		}
	}
	/* OK, jeb (==c->nextblock) is now pointing at a block which definitely has
	   enough space */
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	*len = jeb->free_size - reserved_size;
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	if (c->cleanmarker_size && jeb->used_size == c->cleanmarker_size &&
	    !jeb->first_node->next_in_ino) {
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		/* Only node in it beforehand was a CLEANMARKER node (we think).
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		   So mark it obsolete now that there's going to be another node
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		   in the block. This will reduce used_size to zero but We've
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		   already set c->nextblock so that jffs2_mark_node_obsolete()
		   won't try to refile it to the dirty_list.
		*/
		spin_unlock(&c->erase_completion_lock);
		jffs2_mark_node_obsolete(c, jeb->first_node);
		spin_lock(&c->erase_completion_lock);
	}

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	D1(printk(KERN_DEBUG "jffs2_do_reserve_space(): Giving 0x%x bytes at 0x%x\n",
		  *len, jeb->offset + (c->sector_size - jeb->free_size)));
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	return 0;
}

/**
 *	jffs2_add_physical_node_ref - add a physical node reference to the list
 *	@c: superblock info
 *	@new: new node reference to add
 *	@len: length of this physical node
 *
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 *	Should only be used to report nodes for which space has been allocated
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 *	by jffs2_reserve_space.
 *
 *	Must be called with the alloc_sem held.
 */
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struct jffs2_raw_node_ref *jffs2_add_physical_node_ref(struct jffs2_sb_info *c,
						       uint32_t ofs, uint32_t len,
						       struct jffs2_inode_cache *ic)
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{
	struct jffs2_eraseblock *jeb;
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	struct jffs2_raw_node_ref *new;
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	jeb = &c->blocks[ofs / c->sector_size];
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	D1(printk(KERN_DEBUG "jffs2_add_physical_node_ref(): Node at 0x%x(%d), size 0x%x\n",
		  ofs & ~3, ofs & 3, len));
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#if 1
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	/* Allow non-obsolete nodes only to be added at the end of c->nextblock, 
	   if c->nextblock is set. Note that wbuf.c will file obsolete nodes
	   even after refiling c->nextblock */
	if ((c->nextblock || ((ofs & 3) != REF_OBSOLETE))
	    && (jeb != c->nextblock || (ofs & ~3) != jeb->offset + (c->sector_size - jeb->free_size))) {
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		printk(KERN_WARNING "argh. node added in wrong place at 0x%08x(%d)\n", ofs & ~3, ofs & 3);
		if (c->nextblock)
			printk(KERN_WARNING "nextblock 0x%08x", c->nextblock->offset);
		else
			printk(KERN_WARNING "No nextblock");
		printk(", expected at %08x\n", jeb->offset + (c->sector_size - jeb->free_size));
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		return ERR_PTR(-EINVAL);
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	}
#endif
	spin_lock(&c->erase_completion_lock);

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	new = jffs2_link_node_ref(c, jeb, ofs, len, ic);
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	if (!jeb->free_size && !jeb->dirty_size && !ISDIRTY(jeb->wasted_size)) {
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		/* If it lives on the dirty_list, jffs2_reserve_space will put it there */
		D1(printk(KERN_DEBUG "Adding full erase block at 0x%08x to clean_list (free 0x%08x, dirty 0x%08x, used 0x%08x\n",
			  jeb->offset, jeb->free_size, jeb->dirty_size, jeb->used_size));
		if (jffs2_wbuf_dirty(c)) {
			/* Flush the last write in the block if it's outstanding */
			spin_unlock(&c->erase_completion_lock);
			jffs2_flush_wbuf_pad(c);
			spin_lock(&c->erase_completion_lock);
		}

		list_add_tail(&jeb->list, &c->clean_list);
		c->nextblock = NULL;
	}
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	jffs2_dbg_acct_sanity_check_nolock(c,jeb);
	jffs2_dbg_acct_paranoia_check_nolock(c, jeb);
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	spin_unlock(&c->erase_completion_lock);

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	return new;
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}


void jffs2_complete_reservation(struct jffs2_sb_info *c)
{
	D1(printk(KERN_DEBUG "jffs2_complete_reservation()\n"));
	jffs2_garbage_collect_trigger(c);
	up(&c->alloc_sem);
}

static inline int on_list(struct list_head *obj, struct list_head *head)
{
	struct list_head *this;

	list_for_each(this, head) {
		if (this == obj) {
			D1(printk("%p is on list at %p\n", obj, head));
			return 1;

		}
	}
	return 0;
}

void jffs2_mark_node_obsolete(struct jffs2_sb_info *c, struct jffs2_raw_node_ref *ref)
{
	struct jffs2_eraseblock *jeb;
	int blocknr;
	struct jffs2_unknown_node n;
	int ret, addedsize;
	size_t retlen;
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	uint32_t freed_len;
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	if(unlikely(!ref)) {
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		printk(KERN_NOTICE "EEEEEK. jffs2_mark_node_obsolete called with NULL node\n");
		return;
	}
	if (ref_obsolete(ref)) {
		D1(printk(KERN_DEBUG "jffs2_mark_node_obsolete called with already obsolete node at 0x%08x\n", ref_offset(ref)));
		return;
	}
	blocknr = ref->flash_offset / c->sector_size;
	if (blocknr >= c->nr_blocks) {
		printk(KERN_NOTICE "raw node at 0x%08x is off the end of device!\n", ref->flash_offset);
		BUG();
	}
	jeb = &c->blocks[blocknr];

	if (jffs2_can_mark_obsolete(c) && !jffs2_is_readonly(c) &&
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	    !(c->flags & (JFFS2_SB_FLAG_SCANNING | JFFS2_SB_FLAG_BUILDING))) {
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		/* Hm. This may confuse static lock analysis. If any of the above
		   three conditions is false, we're going to return from this
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		   function without actually obliterating any nodes or freeing
		   any jffs2_raw_node_refs. So we don't need to stop erases from
		   happening, or protect against people holding an obsolete
		   jffs2_raw_node_ref without the erase_completion_lock. */
		down(&c->erase_free_sem);
	}

	spin_lock(&c->erase_completion_lock);

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	freed_len = ref_totlen(c, jeb, ref);

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	if (ref_flags(ref) == REF_UNCHECKED) {
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		D1(if (unlikely(jeb->unchecked_size < freed_len)) {
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			printk(KERN_NOTICE "raw unchecked node of size 0x%08x freed from erase block %d at 0x%08x, but unchecked_size was already 0x%08x\n",
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			       freed_len, blocknr, ref->flash_offset, jeb->used_size);
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			BUG();
		})
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		D1(printk(KERN_DEBUG "Obsoleting previously unchecked node at 0x%08x of len %x: ", ref_offset(ref), freed_len));
		jeb->unchecked_size -= freed_len;
		c->unchecked_size -= freed_len;
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	} else {
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		D1(if (unlikely(jeb->used_size < freed_len)) {
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			printk(KERN_NOTICE "raw node of size 0x%08x freed from erase block %d at 0x%08x, but used_size was already 0x%08x\n",
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			       freed_len, blocknr, ref->flash_offset, jeb->used_size);
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			BUG();
		})
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		D1(printk(KERN_DEBUG "Obsoleting node at 0x%08x of len %#x: ", ref_offset(ref), freed_len));
		jeb->used_size -= freed_len;
		c->used_size -= freed_len;
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	}

	// Take care, that wasted size is taken into concern
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	if ((jeb->dirty_size || ISDIRTY(jeb->wasted_size + freed_len)) && jeb != c->nextblock) {
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		D1(printk("Dirtying\n"));
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		addedsize = freed_len;
		jeb->dirty_size += freed_len;
		c->dirty_size += freed_len;
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		/* Convert wasted space to dirty, if not a bad block */
		if (jeb->wasted_size) {
			if (on_list(&jeb->list, &c->bad_used_list)) {
				D1(printk(KERN_DEBUG "Leaving block at %08x on the bad_used_list\n",
					  jeb->offset));
				addedsize = 0; /* To fool the refiling code later */
			} else {
				D1(printk(KERN_DEBUG "Converting %d bytes of wasted space to dirty in block at %08x\n",
					  jeb->wasted_size, jeb->offset));
				addedsize += jeb->wasted_size;
				jeb->dirty_size += jeb->wasted_size;
				c->dirty_size += jeb->wasted_size;
				c->wasted_size -= jeb->wasted_size;
				jeb->wasted_size = 0;
			}
		}
	} else {
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		D1(printk("Wasting\n"));
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		addedsize = 0;
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		jeb->wasted_size += freed_len;
		c->wasted_size += freed_len;
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	}
	ref->flash_offset = ref_offset(ref) | REF_OBSOLETE;
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	jffs2_dbg_acct_sanity_check_nolock(c, jeb);
	jffs2_dbg_acct_paranoia_check_nolock(c, jeb);
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	if (c->flags & JFFS2_SB_FLAG_SCANNING) {
		/* Flash scanning is in progress. Don't muck about with the block
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		   lists because they're not ready yet, and don't actually
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		   obliterate nodes that look obsolete. If they weren't
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		   marked obsolete on the flash at the time they _became_
		   obsolete, there was probably a reason for that. */
		spin_unlock(&c->erase_completion_lock);
		/* We didn't lock the erase_free_sem */
		return;
	}

	if (jeb == c->nextblock) {
		D2(printk(KERN_DEBUG "Not moving nextblock 0x%08x to dirty/erase_pending list\n", jeb->offset));
	} else if (!jeb->used_size && !jeb->unchecked_size) {
		if (jeb == c->gcblock) {
			D1(printk(KERN_DEBUG "gcblock at 0x%08x completely dirtied. Clearing gcblock...\n", jeb->offset));
			c->gcblock = NULL;
		} else {
			D1(printk(KERN_DEBUG "Eraseblock at 0x%08x completely dirtied. Removing from (dirty?) list...\n", jeb->offset));
			list_del(&jeb->list);
		}
		if (jffs2_wbuf_dirty(c)) {
			D1(printk(KERN_DEBUG "...and adding to erasable_pending_wbuf_list\n"));
			list_add_tail(&jeb->list, &c->erasable_pending_wbuf_list);
		} else {
			if (jiffies & 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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			}
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		}
		D1(printk(KERN_DEBUG "Done OK\n"));
	} else if (jeb == c->gcblock) {
		D2(printk(KERN_DEBUG "Not moving gcblock 0x%08x to dirty_list\n", jeb->offset));
	} else if (ISDIRTY(jeb->dirty_size) && !ISDIRTY(jeb->dirty_size - addedsize)) {
		D1(printk(KERN_DEBUG "Eraseblock at 0x%08x is freshly dirtied. Removing from clean list...\n", jeb->offset));
		list_del(&jeb->list);
		D1(printk(KERN_DEBUG "...and adding to dirty_list\n"));
		list_add_tail(&jeb->list, &c->dirty_list);
	} else if (VERYDIRTY(c, jeb->dirty_size) &&
		   !VERYDIRTY(c, jeb->dirty_size - addedsize)) {
		D1(printk(KERN_DEBUG "Eraseblock at 0x%08x is now very dirty. Removing from dirty list...\n", jeb->offset));
		list_del(&jeb->list);
		D1(printk(KERN_DEBUG "...and adding to very_dirty_list\n"));
		list_add_tail(&jeb->list, &c->very_dirty_list);
	} else {
		D1(printk(KERN_DEBUG "Eraseblock at 0x%08x not moved anywhere. (free 0x%08x, dirty 0x%08x, used 0x%08x)\n",
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			  jeb->offset, jeb->free_size, jeb->dirty_size, jeb->used_size));
	}
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	spin_unlock(&c->erase_completion_lock);

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	if (!jffs2_can_mark_obsolete(c) || jffs2_is_readonly(c) ||
		(c->flags & JFFS2_SB_FLAG_BUILDING)) {
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		/* We didn't lock the erase_free_sem */
		return;
	}

	/* The erase_free_sem is locked, and has been since before we marked the node obsolete
	   and potentially put its eraseblock onto the erase_pending_list. Thus, we know that
	   the block hasn't _already_ been erased, and that 'ref' itself hasn't been freed yet
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	   by jffs2_free_jeb_node_refs() in erase.c. Which is nice. */
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	D1(printk(KERN_DEBUG "obliterating obsoleted node at 0x%08x\n", ref_offset(ref)));
	ret = jffs2_flash_read(c, ref_offset(ref), sizeof(n), &retlen, (char *)&n);
	if (ret) {
		printk(KERN_WARNING "Read error reading from obsoleted node at 0x%08x: %d\n", ref_offset(ref), ret);
		goto out_erase_sem;
	}
	if (retlen != sizeof(n)) {
		printk(KERN_WARNING "Short read from obsoleted node at 0x%08x: %zd\n", ref_offset(ref), retlen);
		goto out_erase_sem;
	}
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	if (PAD(je32_to_cpu(n.totlen)) != PAD(freed_len)) {
		printk(KERN_WARNING "Node totlen on flash (0x%08x) != totlen from node ref (0x%08x)\n", je32_to_cpu(n.totlen), freed_len);
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		goto out_erase_sem;
	}
	if (!(je16_to_cpu(n.nodetype) & JFFS2_NODE_ACCURATE)) {
		D1(printk(KERN_DEBUG "Node at 0x%08x was already marked obsolete (nodetype 0x%04x)\n", ref_offset(ref), je16_to_cpu(n.nodetype)));
		goto out_erase_sem;
	}
	/* XXX FIXME: This is ugly now */
	n.nodetype = cpu_to_je16(je16_to_cpu(n.nodetype) & ~JFFS2_NODE_ACCURATE);
	ret = jffs2_flash_write(c, ref_offset(ref), sizeof(n), &retlen, (char *)&n);
	if (ret) {
		printk(KERN_WARNING "Write error in obliterating obsoleted node at 0x%08x: %d\n", ref_offset(ref), ret);
		goto out_erase_sem;
	}
	if (retlen != sizeof(n)) {
		printk(KERN_WARNING "Short write in obliterating obsoleted node at 0x%08x: %zd\n", ref_offset(ref), retlen);
		goto out_erase_sem;
	}

	/* Nodes which have been marked obsolete no longer need to be
	   associated with any inode. Remove them from the per-inode list.
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	   Note we can't do this for NAND at the moment because we need
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	   obsolete dirent nodes to stay on the lists, because of the
	   horridness in jffs2_garbage_collect_deletion_dirent(). Also
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	   because we delete the inocache, and on NAND we need that to
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	   stay around until all the nodes are actually erased, in order
	   to stop us from giving the same inode number to another newly
	   created inode. */
	if (ref->next_in_ino) {
		struct jffs2_inode_cache *ic;
		struct jffs2_raw_node_ref **p;

		spin_lock(&c->erase_completion_lock);

		ic = jffs2_raw_ref_to_ic(ref);
		for (p = &ic->nodes; (*p) != ref; p = &((*p)->next_in_ino))
			;

		*p = ref->next_in_ino;
		ref->next_in_ino = NULL;

700 701 702 703 704 705 706 707 708 709 710 711 712 713
		switch (ic->class) {
#ifdef CONFIG_JFFS2_FS_XATTR
			case RAWNODE_CLASS_XATTR_DATUM:
				jffs2_release_xattr_datum(c, (struct jffs2_xattr_datum *)ic);
				break;
			case RAWNODE_CLASS_XATTR_REF:
				jffs2_release_xattr_ref(c, (struct jffs2_xattr_ref *)ic);
				break;
#endif
			default:
				if (ic->nodes == (void *)ic && ic->nlink == 0)
					jffs2_del_ino_cache(c, ic);
				break;
		}
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		spin_unlock(&c->erase_completion_lock);
	}

 out_erase_sem:
	up(&c->erase_free_sem);
}

int jffs2_thread_should_wake(struct jffs2_sb_info *c)
{
	int ret = 0;
	uint32_t dirty;

	if (c->unchecked_size) {
		D1(printk(KERN_DEBUG "jffs2_thread_should_wake(): unchecked_size %d, checked_ino #%d\n",
			  c->unchecked_size, c->checked_ino));
		return 1;
	}

	/* dirty_size contains blocks on erase_pending_list
	 * those blocks are counted in c->nr_erasing_blocks.
	 * If one block is actually erased, it is not longer counted as dirty_space
	 * but it is counted in c->nr_erasing_blocks, so we add it and subtract it
	 * with c->nr_erasing_blocks * c->sector_size again.
	 * Blocks on erasable_list are counted as dirty_size, but not in c->nr_erasing_blocks
	 * This helps us to force gc and pick eventually a clean block to spread the load.
	 */
	dirty = c->dirty_size + c->erasing_size - c->nr_erasing_blocks * c->sector_size;

742 743
	if (c->nr_free_blocks + c->nr_erasing_blocks < c->resv_blocks_gctrigger &&
			(dirty > c->nospc_dirty_size))
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		ret = 1;

746
	D1(printk(KERN_DEBUG "jffs2_thread_should_wake(): nr_free_blocks %d, nr_erasing_blocks %d, dirty_size 0x%x: %s\n",
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		  c->nr_free_blocks, c->nr_erasing_blocks, c->dirty_size, ret?"yes":"no"));

	return ret;
}