segment.c 53.0 KB
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/*
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 * fs/f2fs/segment.c
 *
 * Copyright (c) 2012 Samsung Electronics Co., Ltd.
 *             http://www.samsung.com/
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 */
#include <linux/fs.h>
#include <linux/f2fs_fs.h>
#include <linux/bio.h>
#include <linux/blkdev.h>
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#include <linux/prefetch.h>
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#include <linux/vmalloc.h>
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#include <linux/swap.h>
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#include "f2fs.h"
#include "segment.h"
#include "node.h"
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#include <trace/events/f2fs.h>
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#define __reverse_ffz(x) __reverse_ffs(~(x))

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static struct kmem_cache *discard_entry_slab;

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/*
 * __reverse_ffs is copied from include/asm-generic/bitops/__ffs.h since
 * MSB and LSB are reversed in a byte by f2fs_set_bit.
 */
static inline unsigned long __reverse_ffs(unsigned long word)
{
	int num = 0;

#if BITS_PER_LONG == 64
	if ((word & 0xffffffff) == 0) {
		num += 32;
		word >>= 32;
	}
#endif
	if ((word & 0xffff) == 0) {
		num += 16;
		word >>= 16;
	}
	if ((word & 0xff) == 0) {
		num += 8;
		word >>= 8;
	}
	if ((word & 0xf0) == 0)
		num += 4;
	else
		word >>= 4;
	if ((word & 0xc) == 0)
		num += 2;
	else
		word >>= 2;
	if ((word & 0x2) == 0)
		num += 1;
	return num;
}

/*
 * __find_rev_next(_zero)_bit is copied from lib/find_next_bit.c becasue
 * f2fs_set_bit makes MSB and LSB reversed in a byte.
 * Example:
 *                             LSB <--> MSB
 *   f2fs_set_bit(0, bitmap) => 0000 0001
 *   f2fs_set_bit(7, bitmap) => 1000 0000
 */
static unsigned long __find_rev_next_bit(const unsigned long *addr,
			unsigned long size, unsigned long offset)
{
	const unsigned long *p = addr + BIT_WORD(offset);
	unsigned long result = offset & ~(BITS_PER_LONG - 1);
	unsigned long tmp;
	unsigned long mask, submask;
	unsigned long quot, rest;

	if (offset >= size)
		return size;

	size -= result;
	offset %= BITS_PER_LONG;
	if (!offset)
		goto aligned;

	tmp = *(p++);
	quot = (offset >> 3) << 3;
	rest = offset & 0x7;
	mask = ~0UL << quot;
	submask = (unsigned char)(0xff << rest) >> rest;
	submask <<= quot;
	mask &= submask;
	tmp &= mask;
	if (size < BITS_PER_LONG)
		goto found_first;
	if (tmp)
		goto found_middle;

	size -= BITS_PER_LONG;
	result += BITS_PER_LONG;
aligned:
	while (size & ~(BITS_PER_LONG-1)) {
		tmp = *(p++);
		if (tmp)
			goto found_middle;
		result += BITS_PER_LONG;
		size -= BITS_PER_LONG;
	}
	if (!size)
		return result;
	tmp = *p;
found_first:
	tmp &= (~0UL >> (BITS_PER_LONG - size));
	if (tmp == 0UL)		/* Are any bits set? */
		return result + size;   /* Nope. */
found_middle:
	return result + __reverse_ffs(tmp);
}

static unsigned long __find_rev_next_zero_bit(const unsigned long *addr,
			unsigned long size, unsigned long offset)
{
	const unsigned long *p = addr + BIT_WORD(offset);
	unsigned long result = offset & ~(BITS_PER_LONG - 1);
	unsigned long tmp;
	unsigned long mask, submask;
	unsigned long quot, rest;

	if (offset >= size)
		return size;

	size -= result;
	offset %= BITS_PER_LONG;
	if (!offset)
		goto aligned;

	tmp = *(p++);
	quot = (offset >> 3) << 3;
	rest = offset & 0x7;
	mask = ~(~0UL << quot);
	submask = (unsigned char)~((unsigned char)(0xff << rest) >> rest);
	submask <<= quot;
	mask += submask;
	tmp |= mask;
	if (size < BITS_PER_LONG)
		goto found_first;
	if (~tmp)
		goto found_middle;

	size -= BITS_PER_LONG;
	result += BITS_PER_LONG;
aligned:
	while (size & ~(BITS_PER_LONG - 1)) {
		tmp = *(p++);
		if (~tmp)
			goto found_middle;
		result += BITS_PER_LONG;
		size -= BITS_PER_LONG;
	}
	if (!size)
		return result;
	tmp = *p;

found_first:
	tmp |= ~0UL << size;
	if (tmp == ~0UL)        /* Are any bits zero? */
		return result + size;   /* Nope. */
found_middle:
	return result + __reverse_ffz(tmp);
}

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/*
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 * This function balances dirty node and dentry pages.
 * In addition, it controls garbage collection.
 */
void f2fs_balance_fs(struct f2fs_sb_info *sbi)
{
	/*
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	 * We should do GC or end up with checkpoint, if there are so many dirty
	 * dir/node pages without enough free segments.
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	 */
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	if (has_not_enough_free_secs(sbi, 0)) {
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		mutex_lock(&sbi->gc_mutex);
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		f2fs_gc(sbi);
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	}
}

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void f2fs_balance_fs_bg(struct f2fs_sb_info *sbi)
{
	/* check the # of cached NAT entries and prefree segments */
	if (try_to_free_nats(sbi, NAT_ENTRY_PER_BLOCK) ||
				excess_prefree_segs(sbi))
		f2fs_sync_fs(sbi->sb, true);
}

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static void __locate_dirty_segment(struct f2fs_sb_info *sbi, unsigned int segno,
		enum dirty_type dirty_type)
{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);

	/* need not be added */
	if (IS_CURSEG(sbi, segno))
		return;

	if (!test_and_set_bit(segno, dirty_i->dirty_segmap[dirty_type]))
		dirty_i->nr_dirty[dirty_type]++;

	if (dirty_type == DIRTY) {
		struct seg_entry *sentry = get_seg_entry(sbi, segno);
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		enum dirty_type t = sentry->type;
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		if (!test_and_set_bit(segno, dirty_i->dirty_segmap[t]))
			dirty_i->nr_dirty[t]++;
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	}
}

static void __remove_dirty_segment(struct f2fs_sb_info *sbi, unsigned int segno,
		enum dirty_type dirty_type)
{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);

	if (test_and_clear_bit(segno, dirty_i->dirty_segmap[dirty_type]))
		dirty_i->nr_dirty[dirty_type]--;

	if (dirty_type == DIRTY) {
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		struct seg_entry *sentry = get_seg_entry(sbi, segno);
		enum dirty_type t = sentry->type;

		if (test_and_clear_bit(segno, dirty_i->dirty_segmap[t]))
			dirty_i->nr_dirty[t]--;
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		if (get_valid_blocks(sbi, segno, sbi->segs_per_sec) == 0)
			clear_bit(GET_SECNO(sbi, segno),
						dirty_i->victim_secmap);
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	}
}

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/*
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 * Should not occur error such as -ENOMEM.
 * Adding dirty entry into seglist is not critical operation.
 * If a given segment is one of current working segments, it won't be added.
 */
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static void locate_dirty_segment(struct f2fs_sb_info *sbi, unsigned int segno)
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{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
	unsigned short valid_blocks;

	if (segno == NULL_SEGNO || IS_CURSEG(sbi, segno))
		return;

	mutex_lock(&dirty_i->seglist_lock);

	valid_blocks = get_valid_blocks(sbi, segno, 0);

	if (valid_blocks == 0) {
		__locate_dirty_segment(sbi, segno, PRE);
		__remove_dirty_segment(sbi, segno, DIRTY);
	} else if (valid_blocks < sbi->blocks_per_seg) {
		__locate_dirty_segment(sbi, segno, DIRTY);
	} else {
		/* Recovery routine with SSR needs this */
		__remove_dirty_segment(sbi, segno, DIRTY);
	}

	mutex_unlock(&dirty_i->seglist_lock);
}

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static void f2fs_issue_discard(struct f2fs_sb_info *sbi,
				block_t blkstart, block_t blklen)
{
	sector_t start = ((sector_t)blkstart) << sbi->log_sectors_per_block;
	sector_t len = ((sector_t)blklen) << sbi->log_sectors_per_block;
	blkdev_issue_discard(sbi->sb->s_bdev, start, len, GFP_NOFS, 0);
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	trace_f2fs_issue_discard(sbi->sb, blkstart, blklen);
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}

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static void add_discard_addrs(struct f2fs_sb_info *sbi,
			unsigned int segno, struct seg_entry *se)
{
	struct list_head *head = &SM_I(sbi)->discard_list;
	struct discard_entry *new;
	int entries = SIT_VBLOCK_MAP_SIZE / sizeof(unsigned long);
	int max_blocks = sbi->blocks_per_seg;
	unsigned long *cur_map = (unsigned long *)se->cur_valid_map;
	unsigned long *ckpt_map = (unsigned long *)se->ckpt_valid_map;
	unsigned long dmap[entries];
	unsigned int start = 0, end = -1;
	int i;

	if (!test_opt(sbi, DISCARD))
		return;

	/* zero block will be discarded through the prefree list */
	if (!se->valid_blocks || se->valid_blocks == max_blocks)
		return;

	/* SIT_VBLOCK_MAP_SIZE should be multiple of sizeof(unsigned long) */
	for (i = 0; i < entries; i++)
		dmap[i] = (cur_map[i] ^ ckpt_map[i]) & ckpt_map[i];

	while (SM_I(sbi)->nr_discards <= SM_I(sbi)->max_discards) {
		start = __find_rev_next_bit(dmap, max_blocks, end + 1);
		if (start >= max_blocks)
			break;

		end = __find_rev_next_zero_bit(dmap, max_blocks, start + 1);

		new = f2fs_kmem_cache_alloc(discard_entry_slab, GFP_NOFS);
		INIT_LIST_HEAD(&new->list);
		new->blkaddr = START_BLOCK(sbi, segno) + start;
		new->len = end - start;

		list_add_tail(&new->list, head);
		SM_I(sbi)->nr_discards += end - start;
	}
}

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/*
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 * Should call clear_prefree_segments after checkpoint is done.
 */
static void set_prefree_as_free_segments(struct f2fs_sb_info *sbi)
{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
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	unsigned int segno = -1;
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	unsigned int total_segs = TOTAL_SEGS(sbi);

	mutex_lock(&dirty_i->seglist_lock);
	while (1) {
		segno = find_next_bit(dirty_i->dirty_segmap[PRE], total_segs,
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				segno + 1);
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		if (segno >= total_segs)
			break;
		__set_test_and_free(sbi, segno);
	}
	mutex_unlock(&dirty_i->seglist_lock);
}

void clear_prefree_segments(struct f2fs_sb_info *sbi)
{
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	struct list_head *head = &(SM_I(sbi)->discard_list);
	struct list_head *this, *next;
	struct discard_entry *entry;
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	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
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	unsigned long *prefree_map = dirty_i->dirty_segmap[PRE];
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	unsigned int total_segs = TOTAL_SEGS(sbi);
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	unsigned int start = 0, end = -1;
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	mutex_lock(&dirty_i->seglist_lock);
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	while (1) {
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		int i;
		start = find_next_bit(prefree_map, total_segs, end + 1);
		if (start >= total_segs)
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			break;
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		end = find_next_zero_bit(prefree_map, total_segs, start + 1);

		for (i = start; i < end; i++)
			clear_bit(i, prefree_map);

		dirty_i->nr_dirty[PRE] -= end - start;

		if (!test_opt(sbi, DISCARD))
			continue;
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		f2fs_issue_discard(sbi, START_BLOCK(sbi, start),
				(end - start) << sbi->log_blocks_per_seg);
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	}
	mutex_unlock(&dirty_i->seglist_lock);
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	/* send small discards */
	list_for_each_safe(this, next, head) {
		entry = list_entry(this, struct discard_entry, list);
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		f2fs_issue_discard(sbi, entry->blkaddr, entry->len);
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		list_del(&entry->list);
		SM_I(sbi)->nr_discards -= entry->len;
		kmem_cache_free(discard_entry_slab, entry);
	}
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}

static void __mark_sit_entry_dirty(struct f2fs_sb_info *sbi, unsigned int segno)
{
	struct sit_info *sit_i = SIT_I(sbi);
	if (!__test_and_set_bit(segno, sit_i->dirty_sentries_bitmap))
		sit_i->dirty_sentries++;
}

static void __set_sit_entry_type(struct f2fs_sb_info *sbi, int type,
					unsigned int segno, int modified)
{
	struct seg_entry *se = get_seg_entry(sbi, segno);
	se->type = type;
	if (modified)
		__mark_sit_entry_dirty(sbi, segno);
}

static void update_sit_entry(struct f2fs_sb_info *sbi, block_t blkaddr, int del)
{
	struct seg_entry *se;
	unsigned int segno, offset;
	long int new_vblocks;

	segno = GET_SEGNO(sbi, blkaddr);

	se = get_seg_entry(sbi, segno);
	new_vblocks = se->valid_blocks + del;
	offset = GET_SEGOFF_FROM_SEG0(sbi, blkaddr) & (sbi->blocks_per_seg - 1);

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	f2fs_bug_on((new_vblocks >> (sizeof(unsigned short) << 3) ||
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				(new_vblocks > sbi->blocks_per_seg)));

	se->valid_blocks = new_vblocks;
	se->mtime = get_mtime(sbi);
	SIT_I(sbi)->max_mtime = se->mtime;

	/* Update valid block bitmap */
	if (del > 0) {
		if (f2fs_set_bit(offset, se->cur_valid_map))
			BUG();
	} else {
		if (!f2fs_clear_bit(offset, se->cur_valid_map))
			BUG();
	}
	if (!f2fs_test_bit(offset, se->ckpt_valid_map))
		se->ckpt_valid_blocks += del;

	__mark_sit_entry_dirty(sbi, segno);

	/* update total number of valid blocks to be written in ckpt area */
	SIT_I(sbi)->written_valid_blocks += del;

	if (sbi->segs_per_sec > 1)
		get_sec_entry(sbi, segno)->valid_blocks += del;
}

static void refresh_sit_entry(struct f2fs_sb_info *sbi,
			block_t old_blkaddr, block_t new_blkaddr)
{
	update_sit_entry(sbi, new_blkaddr, 1);
	if (GET_SEGNO(sbi, old_blkaddr) != NULL_SEGNO)
		update_sit_entry(sbi, old_blkaddr, -1);
}

void invalidate_blocks(struct f2fs_sb_info *sbi, block_t addr)
{
	unsigned int segno = GET_SEGNO(sbi, addr);
	struct sit_info *sit_i = SIT_I(sbi);

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	f2fs_bug_on(addr == NULL_ADDR);
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	if (addr == NEW_ADDR)
		return;

	/* add it into sit main buffer */
	mutex_lock(&sit_i->sentry_lock);

	update_sit_entry(sbi, addr, -1);

	/* add it into dirty seglist */
	locate_dirty_segment(sbi, segno);

	mutex_unlock(&sit_i->sentry_lock);
}

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/*
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 * This function should be resided under the curseg_mutex lock
 */
static void __add_sum_entry(struct f2fs_sb_info *sbi, int type,
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					struct f2fs_summary *sum)
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{
	struct curseg_info *curseg = CURSEG_I(sbi, type);
	void *addr = curseg->sum_blk;
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	addr += curseg->next_blkoff * sizeof(struct f2fs_summary);
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	memcpy(addr, sum, sizeof(struct f2fs_summary));
}

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/*
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 * Calculate the number of current summary pages for writing
 */
int npages_for_summary_flush(struct f2fs_sb_info *sbi)
{
	int valid_sum_count = 0;
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	int i, sum_in_page;
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	for (i = CURSEG_HOT_DATA; i <= CURSEG_COLD_DATA; i++) {
		if (sbi->ckpt->alloc_type[i] == SSR)
			valid_sum_count += sbi->blocks_per_seg;
		else
			valid_sum_count += curseg_blkoff(sbi, i);
	}

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	sum_in_page = (PAGE_CACHE_SIZE - 2 * SUM_JOURNAL_SIZE -
			SUM_FOOTER_SIZE) / SUMMARY_SIZE;
	if (valid_sum_count <= sum_in_page)
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		return 1;
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	else if ((valid_sum_count - sum_in_page) <=
		(PAGE_CACHE_SIZE - SUM_FOOTER_SIZE) / SUMMARY_SIZE)
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		return 2;
	return 3;
}

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/*
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 * Caller should put this summary page
 */
struct page *get_sum_page(struct f2fs_sb_info *sbi, unsigned int segno)
{
	return get_meta_page(sbi, GET_SUM_BLOCK(sbi, segno));
}

static void write_sum_page(struct f2fs_sb_info *sbi,
			struct f2fs_summary_block *sum_blk, block_t blk_addr)
{
	struct page *page = grab_meta_page(sbi, blk_addr);
	void *kaddr = page_address(page);
	memcpy(kaddr, sum_blk, PAGE_CACHE_SIZE);
	set_page_dirty(page);
	f2fs_put_page(page, 1);
}

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static int is_next_segment_free(struct f2fs_sb_info *sbi, int type)
{
	struct curseg_info *curseg = CURSEG_I(sbi, type);
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	unsigned int segno = curseg->segno + 1;
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	struct free_segmap_info *free_i = FREE_I(sbi);

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	if (segno < TOTAL_SEGS(sbi) && segno % sbi->segs_per_sec)
		return !test_bit(segno, free_i->free_segmap);
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	return 0;
}

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/*
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 * Find a new segment from the free segments bitmap to right order
 * This function should be returned with success, otherwise BUG
 */
static void get_new_segment(struct f2fs_sb_info *sbi,
			unsigned int *newseg, bool new_sec, int dir)
{
	struct free_segmap_info *free_i = FREE_I(sbi);
	unsigned int segno, secno, zoneno;
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	unsigned int total_zones = TOTAL_SECS(sbi) / sbi->secs_per_zone;
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	unsigned int hint = *newseg / sbi->segs_per_sec;
	unsigned int old_zoneno = GET_ZONENO_FROM_SEGNO(sbi, *newseg);
	unsigned int left_start = hint;
	bool init = true;
	int go_left = 0;
	int i;

	write_lock(&free_i->segmap_lock);

	if (!new_sec && ((*newseg + 1) % sbi->segs_per_sec)) {
		segno = find_next_zero_bit(free_i->free_segmap,
					TOTAL_SEGS(sbi), *newseg + 1);
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		if (segno - *newseg < sbi->segs_per_sec -
					(*newseg % sbi->segs_per_sec))
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			goto got_it;
	}
find_other_zone:
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	secno = find_next_zero_bit(free_i->free_secmap, TOTAL_SECS(sbi), hint);
	if (secno >= TOTAL_SECS(sbi)) {
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		if (dir == ALLOC_RIGHT) {
			secno = find_next_zero_bit(free_i->free_secmap,
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							TOTAL_SECS(sbi), 0);
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			f2fs_bug_on(secno >= TOTAL_SECS(sbi));
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		} else {
			go_left = 1;
			left_start = hint - 1;
		}
	}
	if (go_left == 0)
		goto skip_left;

	while (test_bit(left_start, free_i->free_secmap)) {
		if (left_start > 0) {
			left_start--;
			continue;
		}
		left_start = find_next_zero_bit(free_i->free_secmap,
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							TOTAL_SECS(sbi), 0);
579
		f2fs_bug_on(left_start >= TOTAL_SECS(sbi));
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		break;
	}
	secno = left_start;
skip_left:
	hint = secno;
	segno = secno * sbi->segs_per_sec;
	zoneno = secno / sbi->secs_per_zone;

	/* give up on finding another zone */
	if (!init)
		goto got_it;
	if (sbi->secs_per_zone == 1)
		goto got_it;
	if (zoneno == old_zoneno)
		goto got_it;
	if (dir == ALLOC_LEFT) {
		if (!go_left && zoneno + 1 >= total_zones)
			goto got_it;
		if (go_left && zoneno == 0)
			goto got_it;
	}
	for (i = 0; i < NR_CURSEG_TYPE; i++)
		if (CURSEG_I(sbi, i)->zone == zoneno)
			break;

	if (i < NR_CURSEG_TYPE) {
		/* zone is in user, try another */
		if (go_left)
			hint = zoneno * sbi->secs_per_zone - 1;
		else if (zoneno + 1 >= total_zones)
			hint = 0;
		else
			hint = (zoneno + 1) * sbi->secs_per_zone;
		init = false;
		goto find_other_zone;
	}
got_it:
	/* set it as dirty segment in free segmap */
618
	f2fs_bug_on(test_bit(segno, free_i->free_segmap));
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	__set_inuse(sbi, segno);
	*newseg = segno;
	write_unlock(&free_i->segmap_lock);
}

static void reset_curseg(struct f2fs_sb_info *sbi, int type, int modified)
{
	struct curseg_info *curseg = CURSEG_I(sbi, type);
	struct summary_footer *sum_footer;

	curseg->segno = curseg->next_segno;
	curseg->zone = GET_ZONENO_FROM_SEGNO(sbi, curseg->segno);
	curseg->next_blkoff = 0;
	curseg->next_segno = NULL_SEGNO;

	sum_footer = &(curseg->sum_blk->footer);
	memset(sum_footer, 0, sizeof(struct summary_footer));
	if (IS_DATASEG(type))
		SET_SUM_TYPE(sum_footer, SUM_TYPE_DATA);
	if (IS_NODESEG(type))
		SET_SUM_TYPE(sum_footer, SUM_TYPE_NODE);
	__set_sit_entry_type(sbi, type, curseg->segno, modified);
}

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/*
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 * Allocate a current working segment.
 * This function always allocates a free segment in LFS manner.
 */
static void new_curseg(struct f2fs_sb_info *sbi, int type, bool new_sec)
{
	struct curseg_info *curseg = CURSEG_I(sbi, type);
	unsigned int segno = curseg->segno;
	int dir = ALLOC_LEFT;

	write_sum_page(sbi, curseg->sum_blk,
654
				GET_SUM_BLOCK(sbi, segno));
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	if (type == CURSEG_WARM_DATA || type == CURSEG_COLD_DATA)
		dir = ALLOC_RIGHT;

	if (test_opt(sbi, NOHEAP))
		dir = ALLOC_RIGHT;

	get_new_segment(sbi, &segno, new_sec, dir);
	curseg->next_segno = segno;
	reset_curseg(sbi, type, 1);
	curseg->alloc_type = LFS;
}

static void __next_free_blkoff(struct f2fs_sb_info *sbi,
			struct curseg_info *seg, block_t start)
{
	struct seg_entry *se = get_seg_entry(sbi, seg->segno);
671 672 673 674 675 676 677 678 679 680 681 682
	int entries = SIT_VBLOCK_MAP_SIZE / sizeof(unsigned long);
	unsigned long target_map[entries];
	unsigned long *ckpt_map = (unsigned long *)se->ckpt_valid_map;
	unsigned long *cur_map = (unsigned long *)se->cur_valid_map;
	int i, pos;

	for (i = 0; i < entries; i++)
		target_map[i] = ckpt_map[i] | cur_map[i];

	pos = __find_rev_next_zero_bit(target_map, sbi->blocks_per_seg, start);

	seg->next_blkoff = pos;
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}

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/*
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 * If a segment is written by LFS manner, next block offset is just obtained
 * by increasing the current block offset. However, if a segment is written by
 * SSR manner, next block offset obtained by calling __next_free_blkoff
 */
static void __refresh_next_blkoff(struct f2fs_sb_info *sbi,
				struct curseg_info *seg)
{
	if (seg->alloc_type == SSR)
		__next_free_blkoff(sbi, seg, seg->next_blkoff + 1);
	else
		seg->next_blkoff++;
}

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/*
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 * This function always allocates a used segment (from dirty seglist) by SSR
 * manner, so it should recover the existing segment information of valid blocks
 */
static void change_curseg(struct f2fs_sb_info *sbi, int type, bool reuse)
{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
	struct curseg_info *curseg = CURSEG_I(sbi, type);
	unsigned int new_segno = curseg->next_segno;
	struct f2fs_summary_block *sum_node;
	struct page *sum_page;

	write_sum_page(sbi, curseg->sum_blk,
				GET_SUM_BLOCK(sbi, curseg->segno));
	__set_test_and_inuse(sbi, new_segno);

	mutex_lock(&dirty_i->seglist_lock);
	__remove_dirty_segment(sbi, new_segno, PRE);
	__remove_dirty_segment(sbi, new_segno, DIRTY);
	mutex_unlock(&dirty_i->seglist_lock);

	reset_curseg(sbi, type, 1);
	curseg->alloc_type = SSR;
	__next_free_blkoff(sbi, curseg, 0);

	if (reuse) {
		sum_page = get_sum_page(sbi, new_segno);
		sum_node = (struct f2fs_summary_block *)page_address(sum_page);
		memcpy(curseg->sum_blk, sum_node, SUM_ENTRY_SIZE);
		f2fs_put_page(sum_page, 1);
	}
}

732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748
static int get_ssr_segment(struct f2fs_sb_info *sbi, int type)
{
	struct curseg_info *curseg = CURSEG_I(sbi, type);
	const struct victim_selection *v_ops = DIRTY_I(sbi)->v_ops;

	if (IS_NODESEG(type) || !has_not_enough_free_secs(sbi, 0))
		return v_ops->get_victim(sbi,
				&(curseg)->next_segno, BG_GC, type, SSR);

	/* For data segments, let's do SSR more intensively */
	for (; type >= CURSEG_HOT_DATA; type--)
		if (v_ops->get_victim(sbi, &(curseg)->next_segno,
						BG_GC, type, SSR))
			return 1;
	return 0;
}

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/*
 * flush out current segment and replace it with new segment
 * This function should be returned with success, otherwise BUG
 */
static void allocate_segment_by_default(struct f2fs_sb_info *sbi,
						int type, bool force)
{
	struct curseg_info *curseg = CURSEG_I(sbi, type);

758
	if (force)
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		new_curseg(sbi, type, true);
760
	else if (type == CURSEG_WARM_NODE)
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		new_curseg(sbi, type, false);
762 763
	else if (curseg->alloc_type == LFS && is_next_segment_free(sbi, type))
		new_curseg(sbi, type, false);
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	else if (need_SSR(sbi) && get_ssr_segment(sbi, type))
		change_curseg(sbi, type, true);
	else
		new_curseg(sbi, type, false);
768 769

	stat_inc_seg_type(sbi, curseg);
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}

void allocate_new_segments(struct f2fs_sb_info *sbi)
{
	struct curseg_info *curseg;
	unsigned int old_curseg;
	int i;

	for (i = CURSEG_HOT_DATA; i <= CURSEG_COLD_DATA; i++) {
		curseg = CURSEG_I(sbi, i);
		old_curseg = curseg->segno;
		SIT_I(sbi)->s_ops->allocate_segment(sbi, i, true);
		locate_dirty_segment(sbi, old_curseg);
	}
}

static const struct segment_allocation default_salloc_ops = {
	.allocate_segment = allocate_segment_by_default,
};

static void f2fs_end_io_write(struct bio *bio, int err)
{
	const int uptodate = test_bit(BIO_UPTODATE, &bio->bi_flags);
	struct bio_vec *bvec = bio->bi_io_vec + bio->bi_vcnt - 1;
	struct bio_private *p = bio->bi_private;

	do {
		struct page *page = bvec->bv_page;

		if (--bvec >= bio->bi_io_vec)
			prefetchw(&bvec->bv_page->flags);
		if (!uptodate) {
			SetPageError(page);
			if (page->mapping)
				set_bit(AS_EIO, &page->mapping->flags);
805
			set_ckpt_flags(p->sbi->ckpt, CP_ERROR_FLAG);
806
			p->sbi->sb->s_flags |= MS_RDONLY;
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		}
		end_page_writeback(page);
		dec_page_count(p->sbi, F2FS_WRITEBACK);
	} while (bvec >= bio->bi_io_vec);

	if (p->is_sync)
		complete(p->wait);
814

815 816 817
	if (!get_pages(p->sbi, F2FS_WRITEBACK) &&
			!list_empty(&p->sbi->cp_wait.task_list))
		wake_up(&p->sbi->cp_wait);
818

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	kfree(p);
	bio_put(bio);
}

823
struct bio *f2fs_bio_alloc(struct block_device *bdev, int npages)
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{
	struct bio *bio;
826 827 828 829

	/* No failure on bio allocation */
	bio = bio_alloc(GFP_NOIO, npages);
	bio->bi_bdev = bdev;
830 831
	bio->bi_private = NULL;

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	return bio;
}

static void do_submit_bio(struct f2fs_sb_info *sbi,
				enum page_type type, bool sync)
{
	int rw = sync ? WRITE_SYNC : WRITE;
839
	enum page_type btype = PAGE_TYPE_OF_BIO(type);
840
	struct f2fs_bio_info *io = &sbi->write_io[btype];
841 842
	struct bio_private *p;

843
	if (!io->bio)
844 845
		return;

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	if (type >= META_FLUSH)
		rw = WRITE_FLUSH_FUA;
848

849 850 851
	if (btype == META)
		rw |= REQ_META;

852 853
	trace_f2fs_submit_write_bio(sbi->sb, rw, btype, io->bio);

854
	p = io->bio->bi_private;
855
	p->sbi = sbi;
856
	io->bio->bi_end_io = f2fs_end_io_write;
857

858 859 860 861
	if (type == META_FLUSH) {
		DECLARE_COMPLETION_ONSTACK(wait);
		p->is_sync = true;
		p->wait = &wait;
862
		submit_bio(rw, io->bio);
863 864 865
		wait_for_completion(&wait);
	} else {
		p->is_sync = false;
866
		submit_bio(rw, io->bio);
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	}
868
	io->bio = NULL;
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}

void f2fs_submit_bio(struct f2fs_sb_info *sbi, enum page_type type, bool sync)
{
873
	struct f2fs_bio_info *io = &sbi->write_io[PAGE_TYPE_OF_BIO(type)];
874

875
	if (!io->bio)
876 877
		return;

878
	mutex_lock(&io->io_mutex);
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	do_submit_bio(sbi, type, sync);
880
	mutex_unlock(&io->io_mutex);
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}

static void submit_write_page(struct f2fs_sb_info *sbi, struct page *page,
				block_t blk_addr, enum page_type type)
{
	struct block_device *bdev = sbi->sb->s_bdev;
887
	struct f2fs_bio_info *io = &sbi->write_io[type];
888
	int bio_blocks;
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	verify_block_addr(sbi, blk_addr);

892
	mutex_lock(&io->io_mutex);
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	inc_page_count(sbi, F2FS_WRITEBACK);

896
	if (io->bio && io->last_block_in_bio != blk_addr - 1)
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		do_submit_bio(sbi, type, false);
alloc_new:
899
	if (io->bio == NULL) {
900 901 902 903 904 905 906 907
		struct bio_private *priv;
retry:
		priv = kmalloc(sizeof(struct bio_private), GFP_NOFS);
		if (!priv) {
			cond_resched();
			goto retry;
		}

908
		bio_blocks = MAX_BIO_BLOCKS(max_hw_blocks(sbi));
909 910 911
		io->bio = f2fs_bio_alloc(bdev, bio_blocks);
		io->bio->bi_sector = SECTOR_FROM_BLOCK(sbi, blk_addr);
		io->bio->bi_private = priv;
912 913 914 915 916 917
		/*
		 * The end_io will be assigned at the sumbission phase.
		 * Until then, let bio_add_page() merge consecutive IOs as much
		 * as possible.
		 */
	}
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919
	if (bio_add_page(io->bio, page, PAGE_CACHE_SIZE, 0) <
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							PAGE_CACHE_SIZE) {
		do_submit_bio(sbi, type, false);
		goto alloc_new;
	}

925
	io->last_block_in_bio = blk_addr;
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927
	mutex_unlock(&io->io_mutex);
928
	trace_f2fs_submit_write_page(page, WRITE, type, blk_addr);
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}

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void f2fs_wait_on_page_writeback(struct page *page,
				enum page_type type, bool sync)
{
	struct f2fs_sb_info *sbi = F2FS_SB(page->mapping->host->i_sb);
	if (PageWriteback(page)) {
		f2fs_submit_bio(sbi, type, sync);
		wait_on_page_writeback(page);
	}
}

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static bool __has_curseg_space(struct f2fs_sb_info *sbi, int type)
{
	struct curseg_info *curseg = CURSEG_I(sbi, type);
	if (curseg->next_blkoff < sbi->blocks_per_seg)
		return true;
	return false;
}

static int __get_segment_type_2(struct page *page, enum page_type p_type)
{
	if (p_type == DATA)
		return CURSEG_HOT_DATA;
	else
		return CURSEG_HOT_NODE;
}

static int __get_segment_type_4(struct page *page, enum page_type p_type)
{
	if (p_type == DATA) {
		struct inode *inode = page->mapping->host;

		if (S_ISDIR(inode->i_mode))
			return CURSEG_HOT_DATA;
		else
			return CURSEG_COLD_DATA;
	} else {
		if (IS_DNODE(page) && !is_cold_node(page))
			return CURSEG_HOT_NODE;
		else
			return CURSEG_COLD_NODE;
	}
}

static int __get_segment_type_6(struct page *page, enum page_type p_type)
{
	if (p_type == DATA) {
		struct inode *inode = page->mapping->host;

		if (S_ISDIR(inode->i_mode))
			return CURSEG_HOT_DATA;
981
		else if (is_cold_data(page) || file_is_cold(inode))
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			return CURSEG_COLD_DATA;
		else
			return CURSEG_WARM_DATA;
	} else {
		if (IS_DNODE(page))
			return is_cold_node(page) ? CURSEG_WARM_NODE :
						CURSEG_HOT_NODE;
		else
			return CURSEG_COLD_NODE;
	}
}

static int __get_segment_type(struct page *page, enum page_type p_type)
{
	struct f2fs_sb_info *sbi = F2FS_SB(page->mapping->host->i_sb);
	switch (sbi->active_logs) {
	case 2:
		return __get_segment_type_2(page, p_type);
	case 4:
		return __get_segment_type_4(page, p_type);
	}
1003
	/* NR_CURSEG_TYPE(6) logs by default */
1004
	f2fs_bug_on(sbi->active_logs != NR_CURSEG_TYPE);
1005
	return __get_segment_type_6(page, p_type);
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}

static void do_write_page(struct f2fs_sb_info *sbi, struct page *page,
			block_t old_blkaddr, block_t *new_blkaddr,
			struct f2fs_summary *sum, enum page_type p_type)
{
	struct sit_info *sit_i = SIT_I(sbi);
	struct curseg_info *curseg;
	unsigned int old_cursegno;
	int type;

	type = __get_segment_type(page, p_type);
	curseg = CURSEG_I(sbi, type);

	mutex_lock(&curseg->curseg_mutex);

	*new_blkaddr = NEXT_FREE_BLKADDR(sbi, curseg);
	old_cursegno = curseg->segno;

	/*
	 * __add_sum_entry should be resided under the curseg_mutex
	 * because, this function updates a summary entry in the
	 * current summary block.
	 */
1030
	__add_sum_entry(sbi, type, sum);
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	mutex_lock(&sit_i->sentry_lock);
	__refresh_next_blkoff(sbi, curseg);
1034 1035

	stat_inc_block_count(sbi, curseg);
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	/*
	 * SIT information should be updated before segment allocation,
	 * since SSR needs latest valid block information.
	 */
	refresh_sit_entry(sbi, old_blkaddr, *new_blkaddr);

	if (!__has_curseg_space(sbi, type))
		sit_i->s_ops->allocate_segment(sbi, type, false);

	locate_dirty_segment(sbi, old_cursegno);
	locate_dirty_segment(sbi, GET_SEGNO(sbi, old_blkaddr));
	mutex_unlock(&sit_i->sentry_lock);

	if (p_type == NODE)
		fill_node_footer_blkaddr(page, NEXT_FREE_BLKADDR(sbi, curseg));

	/* writeout dirty page into bdev */
	submit_write_page(sbi, page, *new_blkaddr, p_type);

	mutex_unlock(&curseg->curseg_mutex);
}

1059
void write_meta_page(struct f2fs_sb_info *sbi, struct page *page)
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{
	set_page_writeback(page);
	submit_write_page(sbi, page, page->index, META);
}

void write_node_page(struct f2fs_sb_info *sbi, struct page *page,
		unsigned int nid, block_t old_blkaddr, block_t *new_blkaddr)
{
	struct f2fs_summary sum;
	set_summary(&sum, nid, 0, 0);
	do_write_page(sbi, page, old_blkaddr, new_blkaddr, &sum, NODE);
}

void write_data_page(struct inode *inode, struct page *page,
		struct dnode_of_data *dn, block_t old_blkaddr,
		block_t *new_blkaddr)
{
	struct f2fs_sb_info *sbi = F2FS_SB(inode->i_sb);
	struct f2fs_summary sum;
	struct node_info ni;

1081
	f2fs_bug_on(old_blkaddr == NULL_ADDR);
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	get_node_info(sbi, dn->nid, &ni);
	set_summary(&sum, dn->nid, dn->ofs_in_node, ni.version);

	do_write_page(sbi, page, old_blkaddr,
			new_blkaddr, &sum, DATA);
}

void rewrite_data_page(struct f2fs_sb_info *sbi, struct page *page,
					block_t old_blk_addr)
{
	submit_write_page(sbi, page, old_blk_addr, DATA);
}

void recover_data_page(struct f2fs_sb_info *sbi,
			struct page *page, struct f2fs_summary *sum,
			block_t old_blkaddr, block_t new_blkaddr)
{
	struct sit_info *sit_i = SIT_I(sbi);
	struct curseg_info *curseg;
	unsigned int segno, old_cursegno;
	struct seg_entry *se;
	int type;

	segno = GET_SEGNO(sbi, new_blkaddr);
	se = get_seg_entry(sbi, segno);
	type = se->type;

	if (se->valid_blocks == 0 && !IS_CURSEG(sbi, segno)) {
		if (old_blkaddr == NULL_ADDR)
			type = CURSEG_COLD_DATA;
		else
			type = CURSEG_WARM_DATA;
	}
	curseg = CURSEG_I(sbi, type);

	mutex_lock(&curseg->curseg_mutex);
	mutex_lock(&sit_i->sentry_lock);

	old_cursegno = curseg->segno;

	/* change the current segment */
	if (segno != curseg->segno) {
		curseg->next_segno = segno;
		change_curseg(sbi, type, true);
	}

	curseg->next_blkoff = GET_SEGOFF_FROM_SEG0(sbi, new_blkaddr) &
					(sbi->blocks_per_seg - 1);
1130
	__add_sum_entry(sbi, type, sum);
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	refresh_sit_entry(sbi, old_blkaddr, new_blkaddr);

	locate_dirty_segment(sbi, old_cursegno);
	locate_dirty_segment(sbi, GET_SEGNO(sbi, old_blkaddr));

	mutex_unlock(&sit_i->sentry_lock);
	mutex_unlock(&curseg->curseg_mutex);
}

void rewrite_node_page(struct f2fs_sb_info *sbi,
			struct page *page, struct f2fs_summary *sum,
			block_t old_blkaddr, block_t new_blkaddr)
{
	struct sit_info *sit_i = SIT_I(sbi);
	int type = CURSEG_WARM_NODE;
	struct curseg_info *curseg;
	unsigned int segno, old_cursegno;
	block_t next_blkaddr = next_blkaddr_of_node(page);
	unsigned int next_segno = GET_SEGNO(sbi, next_blkaddr);

	curseg = CURSEG_I(sbi, type);

	mutex_lock(&curseg->curseg_mutex);
	mutex_lock(&sit_i->sentry_lock);

	segno = GET_SEGNO(sbi, new_blkaddr);
	old_cursegno = curseg->segno;

	/* change the current segment */
	if (segno != curseg->segno) {
		curseg->next_segno = segno;
		change_curseg(sbi, type, true);
	}
	curseg->next_blkoff = GET_SEGOFF_FROM_SEG0(sbi, new_blkaddr) &
					(sbi->blocks_per_seg - 1);
1167
	__add_sum_entry(sbi, type, sum);
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	/* change the current log to the next block addr in advance */
	if (next_segno != segno) {
		curseg->next_segno = next_segno;
		change_curseg(sbi, type, true);
	}
	curseg->next_blkoff = GET_SEGOFF_FROM_SEG0(sbi, next_blkaddr) &
					(sbi->blocks_per_seg - 1);

	/* rewrite node page */
	set_page_writeback(page);
	submit_write_page(sbi, page, new_blkaddr, NODE);
	f2fs_submit_bio(sbi, NODE, true);
	refresh_sit_entry(sbi, old_blkaddr, new_blkaddr);

	locate_dirty_segment(sbi, old_cursegno);
	locate_dirty_segment(sbi, GET_SEGNO(sbi, old_blkaddr));

	mutex_unlock(&sit_i->sentry_lock);
	mutex_unlock(&curseg->curseg_mutex);
}

static int read_compacted_summaries(struct f2fs_sb_info *sbi)
{
	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);
	struct curseg_info *seg_i;
	unsigned char *kaddr;
	struct page *page;
	block_t start;
	int i, j, offset;

	start = start_sum_block(sbi);

	page = get_meta_page(sbi, start++);
	kaddr = (unsigned char *)page_address(page);

	/* Step 1: restore nat cache */
	seg_i = CURSEG_I(sbi, CURSEG_HOT_DATA);
	memcpy(&seg_i->sum_blk->n_nats, kaddr, SUM_JOURNAL_SIZE);

	/* Step 2: restore sit cache */
	seg_i = CURSEG_I(sbi, CURSEG_COLD_DATA);
	memcpy(&seg_i->sum_blk->n_sits, kaddr + SUM_JOURNAL_SIZE,
						SUM_JOURNAL_SIZE);
	offset = 2 * SUM_JOURNAL_SIZE;

	/* Step 3: restore summary entries */
	for (i = CURSEG_HOT_DATA; i <= CURSEG_COLD_DATA; i++) {
		unsigned short blk_off;
		unsigned int segno;

		seg_i = CURSEG_I(sbi, i);
		segno = le32_to_cpu(ckpt->cur_data_segno[i]);
		blk_off = le16_to_cpu(ckpt->cur_data_blkoff[i]);
		seg_i->next_segno = segno;
		reset_curseg(sbi, i, 0);
		seg_i->alloc_type = ckpt->alloc_type[i];
		seg_i->next_blkoff = blk_off;

		if (seg_i->alloc_type == SSR)
			blk_off = sbi->blocks_per_seg;

		for (j = 0; j < blk_off; j++) {
			struct f2fs_summary *s;
			s = (struct f2fs_summary *)(kaddr + offset);
			seg_i->sum_blk->entries[j] = *s;
			offset += SUMMARY_SIZE;
			if (offset + SUMMARY_SIZE <= PAGE_CACHE_SIZE -
						SUM_FOOTER_SIZE)
				continue;

			f2fs_put_page(page, 1);
			page = NULL;

			page = get_meta_page(sbi, start++);
			kaddr = (unsigned char *)page_address(page);
			offset = 0;
		}
	}
	f2fs_put_page(page, 1);
	return 0;
}

static int read_normal_summaries(struct f2fs_sb_info *sbi, int type)
{
	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);
	struct f2fs_summary_block *sum;
	struct curseg_info *curseg;
	struct page *new;
	unsigned short blk_off;
	unsigned int segno = 0;
	block_t blk_addr = 0;

	/* get segment number and block addr */
	if (IS_DATASEG(type)) {
		segno = le32_to_cpu(ckpt->cur_data_segno[type]);
		blk_off = le16_to_cpu(ckpt->cur_data_blkoff[type -
							CURSEG_HOT_DATA]);
1266
		if (is_set_ckpt_flags(ckpt, CP_UMOUNT_FLAG))
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			blk_addr = sum_blk_addr(sbi, NR_CURSEG_TYPE, type);
		else
			blk_addr = sum_blk_addr(sbi, NR_CURSEG_DATA_TYPE, type);
	} else {
		segno = le32_to_cpu(ckpt->cur_node_segno[type -
							CURSEG_HOT_NODE]);
		blk_off = le16_to_cpu(ckpt->cur_node_blkoff[type -
							CURSEG_HOT_NODE]);
1275
		if (is_set_ckpt_flags(ckpt, CP_UMOUNT_FLAG))
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			blk_addr = sum_blk_addr(sbi, NR_CURSEG_NODE_TYPE,
							type - CURSEG_HOT_NODE);
		else
			blk_addr = GET_SUM_BLOCK(sbi, segno);
	}

	new = get_meta_page(sbi, blk_addr);
	sum = (struct f2fs_summary_block *)page_address(new);

	if (IS_NODESEG(type)) {
1286
		if (is_set_ckpt_flags(ckpt, CP_UMOUNT_FLAG)) {
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			struct f2fs_summary *ns = &sum->entries[0];
			int i;
			for (i = 0; i < sbi->blocks_per_seg; i++, ns++) {
				ns->version = 0;
				ns->ofs_in_node = 0;
			}
		} else {
			if (restore_node_summary(sbi, segno, sum)) {
				f2fs_put_page(new, 1);
				return -EINVAL;
			}
		}
	}

	/* set uncompleted segment to curseg */
	curseg = CURSEG_I(sbi, type);
	mutex_lock(&curseg->curseg_mutex);
	memcpy(curseg->sum_blk, sum, PAGE_CACHE_SIZE);
	curseg->next_segno = segno;
	reset_curseg(sbi, type, 0);
	curseg->alloc_type = ckpt->alloc_type[type];
	curseg->next_blkoff = blk_off;
	mutex_unlock(&curseg->curseg_mutex);
	f2fs_put_page(new, 1);
	return 0;
}

static int restore_curseg_summaries(struct f2fs_sb_info *sbi)
{
	int type = CURSEG_HOT_DATA;

1318
	if (is_set_ckpt_flags(F2FS_CKPT(sbi), CP_COMPACT_SUM_FLAG)) {
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		/* restore for compacted data summary */
		if (read_compacted_summaries(sbi))
			return -EINVAL;
		type = CURSEG_HOT_NODE;
	}

	for (; type <= CURSEG_COLD_NODE; type++)
		if (read_normal_summaries(sbi, type))
			return -EINVAL;
	return 0;
}

static void write_compacted_summaries(struct f2fs_sb_info *sbi, block_t blkaddr)
{
	struct page *page;
	unsigned char *kaddr;
	struct f2fs_summary *summary;
	struct curseg_info *seg_i;
	int written_size = 0;
	int i, j;

	page = grab_meta_page(sbi, blkaddr++);
	kaddr = (unsigned char *)page_address(page);

	/* Step 1: write nat cache */
	seg_i = CURSEG_I(sbi, CURSEG_HOT_DATA);
	memcpy(kaddr, &seg_i->sum_blk->n_nats, SUM_JOURNAL_SIZE);
	written_size += SUM_JOURNAL_SIZE;

	/* Step 2: write sit cache */
	seg_i = CURSEG_I(sbi, CURSEG_COLD_DATA);
	memcpy(kaddr + written_size, &seg_i->sum_blk->n_sits,
						SUM_JOURNAL_SIZE);
	written_size += SUM_JOURNAL_SIZE;

	/* Step 3: write summary entries */
	for (i = CURSEG_HOT_DATA; i <= CURSEG_COLD_DATA; i++) {
		unsigned short blkoff;
		seg_i = CURSEG_I(sbi, i);
		if (sbi->ckpt->alloc_type[i] == SSR)
			blkoff = sbi->blocks_per_seg;
		else
			blkoff = curseg_blkoff(sbi, i);

		for (j = 0; j < blkoff; j++) {
			if (!page) {
				page = grab_meta_page(sbi, blkaddr++);
				kaddr = (unsigned char *)page_address(page);
				written_size = 0;
			}
			summary = (struct f2fs_summary *)(kaddr + written_size);
			*summary = seg_i->sum_blk->entries[j];
			written_size += SUMMARY_SIZE;

			if (written_size + SUMMARY_SIZE <= PAGE_CACHE_SIZE -
							SUM_FOOTER_SIZE)
				continue;

1377
			set_page_dirty(page);
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			f2fs_put_page(page, 1);
			page = NULL;
		}
	}
1382 1383
	if (page) {
		set_page_dirty(page);
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		f2fs_put_page(page, 1);
1385
	}
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}

static void write_normal_summaries(struct f2fs_sb_info *sbi,
					block_t blkaddr, int type)
{
	int i, end;
	if (IS_DATASEG(type))
		end = type + NR_CURSEG_DATA_TYPE;
	else
		end = type + NR_CURSEG_NODE_TYPE;

	for (i = type; i < end; i++) {
		struct curseg_info *sum = CURSEG_I(sbi, i);
		mutex_lock(&sum->curseg_mutex);
		write_sum_page(sbi, sum->sum_blk, blkaddr + (i - type));
		mutex_unlock(&sum->curseg_mutex);
	}
}

void write_data_summaries(struct f2fs_sb_info *sbi, block_t start_blk)
{
1407
	if (is_set_ckpt_flags(F2FS_CKPT(sbi), CP_COMPACT_SUM_FLAG))
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		write_compacted_summaries(sbi, start_blk);
	else
		write_normal_summaries(sbi, start_blk, CURSEG_HOT_DATA);
}

void write_node_summaries(struct f2fs_sb_info *sbi, block_t start_blk)
{
1415
	if (is_set_ckpt_flags(F2FS_CKPT(sbi), CP_UMOUNT_FLAG))
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		write_normal_summaries(sbi, start_blk, CURSEG_HOT_NODE);
}

int lookup_journal_in_cursum(struct f2fs_summary_block *sum, int type,
					unsigned int val, int alloc)
{
	int i;

	if (type == NAT_JOURNAL) {
		for (i = 0; i < nats_in_cursum(sum); i++) {
			if (le32_to_cpu(nid_in_journal(sum, i)) == val)
				return i;
		}
		if (alloc && nats_in_cursum(sum) < NAT_JOURNAL_ENTRIES)
			return update_nats_in_cursum(sum, 1);
	} else if (type == SIT_JOURNAL) {
		for (i = 0; i < sits_in_cursum(sum); i++)
			if (le32_to_cpu(segno_in_journal(sum, i)) == val)
				return i;
		if (alloc && sits_in_cursum(sum) < SIT_JOURNAL_ENTRIES)
			return update_sits_in_cursum(sum, 1);
	}
	return -1;
}

static struct page *get_current_sit_page(struct f2fs_sb_info *sbi,
					unsigned int segno)
{
	struct sit_info *sit_i = SIT_I(sbi);
	unsigned int offset = SIT_BLOCK_OFFSET(sit_i, segno);
	block_t blk_addr = sit_i->sit_base_addr + offset;

	check_seg_range(sbi, segno);

	/* calculate sit block address */
	if (f2fs_test_bit(offset, sit_i->sit_bitmap))
		blk_addr += sit_i->sit_blocks;

	return get_meta_page(sbi, blk_addr);
}

static struct page *get_next_sit_page(struct f2fs_sb_info *sbi,
					unsigned int start)
{
	struct sit_info *sit_i = SIT_I(sbi);
	struct page *src_page, *dst_page;
	pgoff_t src_off, dst_off;
	void *src_addr, *dst_addr;

	src_off = current_sit_addr(sbi, start);
	dst_off = next_sit_addr(sbi, src_off);

	/* get current sit block page without lock */
	src_page = get_meta_page(sbi, src_off);
	dst_page = grab_meta_page(sbi, dst_off);
1471
	f2fs_bug_on(PageDirty(src_page));
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	src_addr = page_address(src_page);
	dst_addr = page_address(dst_page);
	memcpy(dst_addr, src_addr, PAGE_CACHE_SIZE);

	set_page_dirty(dst_page);
	f2fs_put_page(src_page, 1);

	set_to_next_sit(sit_i, start);

	return dst_page;
}

static bool flush_sits_in_journal(struct f2fs_sb_info *sbi)
{
	struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_COLD_DATA);
	struct f2fs_summary_block *sum = curseg->sum_blk;
	int i;

	/*
	 * If the journal area in the current summary is full of sit entries,
	 * all the sit entries will be flushed. Otherwise the sit entries
	 * are not able to replace with newly hot sit entries.
	 */
	if (sits_in_cursum(sum) >= SIT_JOURNAL_ENTRIES) {
		for (i = sits_in_cursum(sum) - 1; i >= 0; i--) {
			unsigned int segno;
			segno = le32_to_cpu(segno_in_journal(sum, i));
			__mark_sit_entry_dirty(sbi, segno);
		}
		update_sits_in_cursum(sum, -sits_in_cursum(sum));
1503
		return true;
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	}
1505
	return false;
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}

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/*
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 * CP calls this function, which flushes SIT entries including sit_journal,
 * and moves prefree segs to free segs.
 */
void flush_sit_entries(struct f2fs_sb_info *sbi)
{
	struct sit_info *sit_i = SIT_I(sbi);
	unsigned long *bitmap = sit_i->dirty_sentries_bitmap;
	struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_COLD_DATA);
	struct f2fs_summary_block *sum = curseg->sum_blk;
	unsigned long nsegs = TOTAL_SEGS(sbi);
	struct page *page = NULL;
	struct f2fs_sit_block *raw_sit = NULL;
	unsigned int start = 0, end = 0;
	unsigned int segno = -1;
	bool flushed;

	mutex_lock(&curseg->curseg_mutex);
	mutex_lock(&sit_i->sentry_lock);

	/*
	 * "flushed" indicates whether sit entries in journal are flushed
	 * to the SIT area or not.
	 */
	flushed = flush_sits_in_journal(sbi);

	while ((segno = find_next_bit(bitmap, nsegs, segno + 1)) < nsegs) {
		struct seg_entry *se = get_seg_entry(sbi, segno);
		int sit_offset, offset;

		sit_offset = SIT_ENTRY_OFFSET(sit_i, segno);

1540 1541 1542 1543
		/* add discard candidates */
		if (SM_I(sbi)->nr_discards < SM_I(sbi)->max_discards)
			add_discard_addrs(sbi, segno, se);

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		if (flushed)
			goto to_sit_page;

		offset = lookup_journal_in_cursum(sum, SIT_JOURNAL, segno, 1);
		if (offset >= 0) {
			segno_in_journal(sum, offset) = cpu_to_le32(segno);
			seg_info_to_raw_sit(se, &sit_in_journal(sum, offset));
			goto flush_done;
		}
to_sit_page:
		if (!page || (start > segno) || (segno > end)) {
			if (page) {
				f2fs_put_page(page, 1);
				page = NULL;
			}

			start = START_SEGNO(sit_i, segno);
			end = start + SIT_ENTRY_PER_BLOCK - 1;

			/* read sit block that will be updated */
			page = get_next_sit_page(sbi, start);
			raw_sit = page_address(page);
		}

		/* udpate entry in SIT block */
		seg_info_to_raw_sit(se, &raw_sit->entries[sit_offset]);
flush_done:
		__clear_bit(segno, bitmap);
		sit_i->dirty_sentries--;
	}
	mutex_unlock(&sit_i->sentry_lock);
	mutex_unlock(&curseg->curseg_mutex);

	/* writeout last modified SIT block */
	f2fs_put_page(page, 1);

	set_prefree_as_free_segments(sbi);
}

static int build_sit_info(struct f2fs_sb_info *sbi)
{
	struct f2fs_super_block *raw_super = F2FS_RAW_SUPER(sbi);
	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);
	struct sit_info *sit_i;
	unsigned int sit_segs, start;
	char *src_bitmap, *dst_bitmap;
	unsigned int bitmap_size;

	/* allocate memory for SIT information */
	sit_i = kzalloc(sizeof(struct sit_info), GFP_KERNEL);
	if (!sit_i)
		return -ENOMEM;

	SM_I(sbi)->sit_info = sit_i;

	sit_i->sentries = vzalloc(TOTAL_SEGS(sbi) * sizeof(struct seg_entry));
	if (!sit_i->sentries)
		return -ENOMEM;

	bitmap_size = f2fs_bitmap_size(TOTAL_SEGS(sbi));
	sit_i->dirty_sentries_bitmap = kzalloc(bitmap_size, GFP_KERNEL);
	if (!sit_i->dirty_sentries_bitmap)
		return -ENOMEM;

	for (start = 0; start < TOTAL_SEGS(sbi); start++) {
		sit_i->sentries[start].cur_valid_map
			= kzalloc(SIT_VBLOCK_MAP_SIZE, GFP_KERNEL);
		sit_i->sentries[start].ckpt_valid_map
			= kzalloc(SIT_VBLOCK_MAP_SIZE, GFP_KERNEL);
		if (!sit_i->sentries[start].cur_valid_map
				|| !sit_i->sentries[start].ckpt_valid_map)
			return -ENOMEM;
	}

	if (sbi->segs_per_sec > 1) {
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		sit_i->sec_entries = vzalloc(TOTAL_SECS(sbi) *
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					sizeof(struct sec_entry));
		if (!sit_i->sec_entries)
			return -ENOMEM;
	}

	/* get information related with SIT */
	sit_segs = le32_to_cpu(raw_super->segment_count_sit) >> 1;

	/* setup SIT bitmap from ckeckpoint pack */
	bitmap_size = __bitmap_size(sbi, SIT_BITMAP);
	src_bitmap = __bitmap_ptr(sbi, SIT_BITMAP);

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	dst_bitmap = kmemdup(src_bitmap, bitmap_size, GFP_KERNEL);
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	if (!dst_bitmap)
		return -ENOMEM;

	/* init SIT information */
	sit_i->s_ops = &default_salloc_ops;

	sit_i->sit_base_addr = le32_to_cpu(raw_super->sit_blkaddr);
	sit_i->sit_blocks = sit_segs << sbi->log_blocks_per_seg;
	sit_i->written_valid_blocks = le64_to_cpu(ckpt->valid_block_count);
	sit_i->sit_bitmap = dst_bitmap;
	sit_i->bitmap_size = bitmap_size;
	sit_i->dirty_sentries = 0;
	sit_i->sents_per_block = SIT_ENTRY_PER_BLOCK;
	sit_i->elapsed_time = le64_to_cpu(sbi->ckpt->elapsed_time);
	sit_i->mounted_time = CURRENT_TIME_SEC.tv_sec;
	mutex_init(&sit_i->sentry_lock);
	return 0;
}

static int build_free_segmap(struct f2fs_sb_info *sbi)
{
	struct f2fs_sm_info *sm_info = SM_I(sbi);
	struct free_segmap_info *free_i;
	unsigned int bitmap_size, sec_bitmap_size;

	/* allocate memory for free segmap information */
	free_i = kzalloc(sizeof(struct free_segmap_info), GFP_KERNEL);
	if (!free_i)
		return -ENOMEM;

	SM_I(sbi)->free_info = free_i;

	bitmap_size = f2fs_bitmap_size(TOTAL_SEGS(sbi));
	free_i->free_segmap = kmalloc(bitmap_size, GFP_KERNEL);
	if (!free_i->free_segmap)
		return -ENOMEM;

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	sec_bitmap_size = f2fs_bitmap_size(TOTAL_SECS(sbi));
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	free_i->free_secmap = kmalloc(sec_bitmap_size, GFP_KERNEL);
	if (!free_i->free_secmap)
		return -ENOMEM;

	/* set all segments as dirty temporarily */
	memset(free_i->free_segmap, 0xff, bitmap_size);
	memset(free_i->free_secmap, 0xff, sec_bitmap_size);

	/* init free segmap information */
	free_i->start_segno =
		(unsigned int) GET_SEGNO_FROM_SEG0(sbi, sm_info->main_blkaddr);
	free_i->free_segments = 0;
	free_i->free_sections = 0;
	rwlock_init(&free_i->segmap_lock);
	return 0;
}

static int build_curseg(struct f2fs_sb_info *sbi)
{
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	struct curseg_info *array;
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	int i;

	array = kzalloc(sizeof(*array) * NR_CURSEG_TYPE, GFP_KERNEL);
	if (!array)
		return -ENOMEM;

	SM_I(sbi)->curseg_array = array;

	for (i = 0; i < NR_CURSEG_TYPE; i++) {
		mutex_init(&array[i].curseg_mutex);
		array[i].sum_blk = kzalloc(PAGE_CACHE_SIZE, GFP_KERNEL);
		if (!array[i].sum_blk)
			return -ENOMEM;
		array[i].segno = NULL_SEGNO;
		array[i].next_blkoff = 0;
	}
	return restore_curseg_summaries(sbi);
}

1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746
static int ra_sit_pages(struct f2fs_sb_info *sbi, int start, int nrpages)
{
	struct address_space *mapping = sbi->meta_inode->i_mapping;
	struct page *page;
	block_t blk_addr, prev_blk_addr = 0;
	int sit_blk_cnt = SIT_BLK_CNT(sbi);
	int blkno = start;

	for (; blkno < start + nrpages && blkno < sit_blk_cnt; blkno++) {

		blk_addr = current_sit_addr(sbi, blkno * SIT_ENTRY_PER_BLOCK);

		if (blkno != start && prev_blk_addr + 1 != blk_addr)
			break;
		prev_blk_addr = blk_addr;
repeat:
		page = grab_cache_page(mapping, blk_addr);
		if (!page) {
			cond_resched();
			goto repeat;
		}
		if (PageUptodate(page)) {
			mark_page_accessed(page);
			f2fs_put_page(page, 1);
			continue;
		}

		submit_read_page(sbi, page, blk_addr, READ_SYNC);

		mark_page_accessed(page);
		f2fs_put_page(page, 0);
	}

	f2fs_submit_read_bio(sbi, READ_SYNC);
	return blkno - start;
}

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static void build_sit_entries(struct f2fs_sb_info *sbi)
{
	struct sit_info *sit_i = SIT_I(sbi);
	struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_COLD_DATA);
	struct f2fs_summary_block *sum = curseg->sum_blk;
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	int sit_blk_cnt = SIT_BLK_CNT(sbi);
	unsigned int i, start, end;
	unsigned int readed, start_blk = 0;
	int nrpages = MAX_BIO_BLOCKS(max_hw_blocks(sbi));
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	do {
		readed = ra_sit_pages(sbi, start_blk, nrpages);

		start = start_blk * sit_i->sents_per_block;
		end = (start_blk + readed) * sit_i->sents_per_block;

		for (; start < end && start < TOTAL_SEGS(sbi); start++) {
			struct seg_entry *se = &sit_i->sentries[start];
			struct f2fs_sit_block *sit_blk;
			struct f2fs_sit_entry sit;
			struct page *page;

			mutex_lock(&curseg->curseg_mutex);
			for (i = 0; i < sits_in_cursum(sum); i++) {
				if (le32_to_cpu(segno_in_journal(sum, i)) == start) {
					sit = sit_in_journal(sum, i);
					mutex_unlock(&curseg->curseg_mutex);
					goto got_it;
				}
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			}
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			mutex_unlock(&curseg->curseg_mutex);

			page = get_current_sit_page(sbi, start);
			sit_blk = (struct f2fs_sit_block *)page_address(page);
			sit = sit_blk->entries[SIT_ENTRY_OFFSET(sit_i, start)];
			f2fs_put_page(page, 1);
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			check_block_count(sbi, start, &sit);
			seg_info_from_raw_sit(se, &sit);
			if (sbi->segs_per_sec > 1) {
				struct sec_entry *e = get_sec_entry(sbi, start);
				e->valid_blocks += se->valid_blocks;
			}
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		}
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		start_blk += readed;
	} while (start_blk < sit_blk_cnt);
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}

static void init_free_segmap(struct f2fs_sb_info *sbi)
{
	unsigned int start;
	int type;

	for (start = 0; start < TOTAL_SEGS(sbi); start++) {
		struct seg_entry *sentry = get_seg_entry(sbi, start);
		if (!sentry->valid_blocks)
			__set_free(sbi, start);
	}

	/* set use the current segments */
	for (type = CURSEG_HOT_DATA; type <= CURSEG_COLD_NODE; type++) {
		struct curseg_info *curseg_t = CURSEG_I(sbi, type);
		__set_test_and_inuse(sbi, curseg_t->segno);
	}
}

static void init_dirty_segmap(struct f2fs_sb_info *sbi)
{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
	struct free_segmap_info *free_i = FREE_I(sbi);
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	unsigned int segno = 0, offset = 0, total_segs = TOTAL_SEGS(sbi);
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	unsigned short valid_blocks;

1820
	while (1) {
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		/* find dirty segment based on free segmap */
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		segno = find_next_inuse(free_i, total_segs, offset);
		if (segno >= total_segs)
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			break;
		offset = segno + 1;
		valid_blocks = get_valid_blocks(sbi, segno, 0);
		if (valid_blocks >= sbi->blocks_per_seg || !valid_blocks)
			continue;
		mutex_lock(&dirty_i->seglist_lock);
		__locate_dirty_segment(sbi, segno, DIRTY);
		mutex_unlock(&dirty_i->seglist_lock);
	}
}

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static int init_victim_secmap(struct f2fs_sb_info *sbi)
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{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
1838
	unsigned int bitmap_size = f2fs_bitmap_size(TOTAL_SECS(sbi));
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	dirty_i->victim_secmap = kzalloc(bitmap_size, GFP_KERNEL);
	if (!dirty_i->victim_secmap)
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		return -ENOMEM;
	return 0;
}

static int build_dirty_segmap(struct f2fs_sb_info *sbi)
{
	struct dirty_seglist_info *dirty_i;
	unsigned int bitmap_size, i;

	/* allocate memory for dirty segments list information */
	dirty_i = kzalloc(sizeof(struct dirty_seglist_info), GFP_KERNEL);
	if (!dirty_i)
		return -ENOMEM;

	SM_I(sbi)->dirty_info = dirty_i;
	mutex_init(&dirty_i->seglist_lock);

	bitmap_size = f2fs_bitmap_size(TOTAL_SEGS(sbi));

	for (i = 0; i < NR_DIRTY_TYPE; i++) {
		dirty_i->dirty_segmap[i] = kzalloc(bitmap_size, GFP_KERNEL);
		if (!dirty_i->dirty_segmap[i])
			return -ENOMEM;
	}

	init_dirty_segmap(sbi);
1868
	return init_victim_secmap(sbi);
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}

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/*
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 * Update min, max modified time for cost-benefit GC algorithm
 */
static void init_min_max_mtime(struct f2fs_sb_info *sbi)
{
	struct sit_info *sit_i = SIT_I(sbi);
	unsigned int segno;

	mutex_lock(&sit_i->sentry_lock);

	sit_i->min_mtime = LLONG_MAX;

	for (segno = 0; segno < TOTAL_SEGS(sbi); segno += sbi->segs_per_sec) {
		unsigned int i;
		unsigned long long mtime = 0;

		for (i = 0; i < sbi->segs_per_sec; i++)
			mtime += get_seg_entry(sbi, segno + i)->mtime;

		mtime = div_u64(mtime, sbi->segs_per_sec);

		if (sit_i->min_mtime > mtime)
			sit_i->min_mtime = mtime;
	}
	sit_i->max_mtime = get_mtime(sbi);
	mutex_unlock(&sit_i->sentry_lock);
}

int build_segment_manager(struct f2fs_sb_info *sbi)
{
	struct f2fs_super_block *raw_super = F2FS_RAW_SUPER(sbi);
	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);
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	struct f2fs_sm_info *sm_info;
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	int err;

	sm_info = kzalloc(sizeof(struct f2fs_sm_info), GFP_KERNEL);
	if (!sm_info)
		return -ENOMEM;

	/* init sm info */
	sbi->sm_info = sm_info;
	INIT_LIST_HEAD(&sm_info->wblist_head);
	spin_lock_init(&sm_info->wblist_lock);
	sm_info->seg0_blkaddr = le32_to_cpu(raw_super->segment0_blkaddr);
	sm_info->main_blkaddr = le32_to_cpu(raw_super->main_blkaddr);
	sm_info->segment_count = le32_to_cpu(raw_super->segment_count);
	sm_info->reserved_segments = le32_to_cpu(ckpt->rsvd_segment_count);
	sm_info->ovp_segments = le32_to_cpu(ckpt->overprov_segment_count);
	sm_info->main_segments = le32_to_cpu(raw_super->segment_count_main);
	sm_info->ssa_blkaddr = le32_to_cpu(raw_super->ssa_blkaddr);
1921
	sm_info->rec_prefree_segments = DEF_RECLAIM_PREFREE_SEGMENTS;
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	INIT_LIST_HEAD(&sm_info->discard_list);
	sm_info->nr_discards = 0;
	sm_info->max_discards = 0;

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	err = build_sit_info(sbi);
	if (err)
		return err;
	err = build_free_segmap(sbi);
	if (err)
		return err;
	err = build_curseg(sbi);
	if (err)
		return err;

	/* reinit free segmap based on SIT */
	build_sit_entries(sbi);

	init_free_segmap(sbi);
	err = build_dirty_segmap(sbi);
	if (err)
		return err;

	init_min_max_mtime(sbi);
	return 0;
}

static void discard_dirty_segmap(struct f2fs_sb_info *sbi,
		enum dirty_type dirty_type)
{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);

	mutex_lock(&dirty_i->seglist_lock);
	kfree(dirty_i->dirty_segmap[dirty_type]);
	dirty_i->nr_dirty[dirty_type] = 0;
	mutex_unlock(&dirty_i->seglist_lock);
}

1960
static void destroy_victim_secmap(struct f2fs_sb_info *sbi)
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{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
1963
	kfree(dirty_i->victim_secmap);
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}

static void destroy_dirty_segmap(struct f2fs_sb_info *sbi)
{
	struct dirty_seglist_info *dirty_i = DIRTY_I(sbi);
	int i;

	if (!dirty_i)
		return;

	/* discard pre-free/dirty segments list */
	for (i = 0; i < NR_DIRTY_TYPE; i++)
		discard_dirty_segmap(sbi, i);

1978
	destroy_victim_secmap(sbi);
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	SM_I(sbi)->dirty_info = NULL;
	kfree(dirty_i);
}

static void destroy_curseg(struct f2fs_sb_info *sbi)
{
	struct curseg_info *array = SM_I(sbi)->curseg_array;
	int i;

	if (!array)
		return;
	SM_I(sbi)->curseg_array = NULL;
	for (i = 0; i < NR_CURSEG_TYPE; i++)
		kfree(array[i].sum_blk);
	kfree(array);
}

static void destroy_free_segmap(struct f2fs_sb_info *sbi)
{
	struct free_segmap_info *free_i = SM_I(sbi)->free_info;
	if (!free_i)
		return;
	SM_I(sbi)->free_info = NULL;
	kfree(free_i->free_segmap);
	kfree(free_i->free_secmap);
	kfree(free_i);
}

static void destroy_sit_info(struct f2fs_sb_info *sbi)
{
	struct sit_info *sit_i = SIT_I(sbi);
	unsigned int start;

	if (!sit_i)
		return;

	if (sit_i->sentries) {
		for (start = 0; start < TOTAL_SEGS(sbi); start++) {
			kfree(sit_i->sentries[start].cur_valid_map);
			kfree(sit_i->sentries[start].ckpt_valid_map);
		}
	}
	vfree(sit_i->sentries);
	vfree(sit_i->sec_entries);
	kfree(sit_i->dirty_sentries_bitmap);

	SM_I(sbi)->sit_info = NULL;
	kfree(sit_i->sit_bitmap);
	kfree(sit_i);
}

void destroy_segment_manager(struct f2fs_sb_info *sbi)
{
	struct f2fs_sm_info *sm_info = SM_I(sbi);
2033 2034
	if (!sm_info)
		return;
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	destroy_dirty_segmap(sbi);
	destroy_curseg(sbi);
	destroy_free_segmap(sbi);
	destroy_sit_info(sbi);
	sbi->sm_info = NULL;
	kfree(sm_info);
}
2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055

int __init create_segment_manager_caches(void)
{
	discard_entry_slab = f2fs_kmem_cache_create("discard_entry",
			sizeof(struct discard_entry), NULL);
	if (!discard_entry_slab)
		return -ENOMEM;
	return 0;
}

void destroy_segment_manager_caches(void)
{
	kmem_cache_destroy(discard_entry_slab);
}