super.c 49.6 KB
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/*
 * bcache setup/teardown code, and some metadata io - read a superblock and
 * figure out what to do with it.
 *
 * Copyright 2010, 2011 Kent Overstreet <kent.overstreet@gmail.com>
 * Copyright 2012 Google, Inc.
 */

#include "bcache.h"
#include "btree.h"
#include "debug.h"
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#include "extents.h"
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#include "request.h"
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#include "writeback.h"
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#include <linux/blkdev.h>
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#include <linux/buffer_head.h>
#include <linux/debugfs.h>
#include <linux/genhd.h>
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#include <linux/idr.h>
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#include <linux/kthread.h>
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#include <linux/module.h>
#include <linux/random.h>
#include <linux/reboot.h>
#include <linux/sysfs.h>

MODULE_LICENSE("GPL");
MODULE_AUTHOR("Kent Overstreet <kent.overstreet@gmail.com>");

static const char bcache_magic[] = {
	0xc6, 0x85, 0x73, 0xf6, 0x4e, 0x1a, 0x45, 0xca,
	0x82, 0x65, 0xf5, 0x7f, 0x48, 0xba, 0x6d, 0x81
};

static const char invalid_uuid[] = {
	0xa0, 0x3e, 0xf8, 0xed, 0x3e, 0xe1, 0xb8, 0x78,
	0xc8, 0x50, 0xfc, 0x5e, 0xcb, 0x16, 0xcd, 0x99
};

/* Default is -1; we skip past it for struct cached_dev's cache mode */
const char * const bch_cache_modes[] = {
	"default",
	"writethrough",
	"writeback",
	"writearound",
	"none",
	NULL
};

static struct kobject *bcache_kobj;
struct mutex bch_register_lock;
LIST_HEAD(bch_cache_sets);
static LIST_HEAD(uncached_devices);

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static int bcache_major;
static DEFINE_IDA(bcache_minor);
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static wait_queue_head_t unregister_wait;
struct workqueue_struct *bcache_wq;

#define BTREE_MAX_PAGES		(256 * 1024 / PAGE_SIZE)

static void bio_split_pool_free(struct bio_split_pool *p)
{
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	if (p->bio_split_hook)
		mempool_destroy(p->bio_split_hook);

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	if (p->bio_split)
		bioset_free(p->bio_split);
}

static int bio_split_pool_init(struct bio_split_pool *p)
{
	p->bio_split = bioset_create(4, 0);
	if (!p->bio_split)
		return -ENOMEM;

	p->bio_split_hook = mempool_create_kmalloc_pool(4,
				sizeof(struct bio_split_hook));
	if (!p->bio_split_hook)
		return -ENOMEM;

	return 0;
}

/* Superblock */

static const char *read_super(struct cache_sb *sb, struct block_device *bdev,
			      struct page **res)
{
	const char *err;
	struct cache_sb *s;
	struct buffer_head *bh = __bread(bdev, 1, SB_SIZE);
	unsigned i;

	if (!bh)
		return "IO error";

	s = (struct cache_sb *) bh->b_data;

	sb->offset		= le64_to_cpu(s->offset);
	sb->version		= le64_to_cpu(s->version);

	memcpy(sb->magic,	s->magic, 16);
	memcpy(sb->uuid,	s->uuid, 16);
	memcpy(sb->set_uuid,	s->set_uuid, 16);
	memcpy(sb->label,	s->label, SB_LABEL_SIZE);

	sb->flags		= le64_to_cpu(s->flags);
	sb->seq			= le64_to_cpu(s->seq);
	sb->last_mount		= le32_to_cpu(s->last_mount);
	sb->first_bucket	= le16_to_cpu(s->first_bucket);
	sb->keys		= le16_to_cpu(s->keys);

	for (i = 0; i < SB_JOURNAL_BUCKETS; i++)
		sb->d[i] = le64_to_cpu(s->d[i]);

	pr_debug("read sb version %llu, flags %llu, seq %llu, journal size %u",
		 sb->version, sb->flags, sb->seq, sb->keys);

	err = "Not a bcache superblock";
	if (sb->offset != SB_SECTOR)
		goto err;

	if (memcmp(sb->magic, bcache_magic, 16))
		goto err;

	err = "Too many journal buckets";
	if (sb->keys > SB_JOURNAL_BUCKETS)
		goto err;

	err = "Bad checksum";
	if (s->csum != csum_set(s))
		goto err;

	err = "Bad UUID";
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	if (bch_is_zero(sb->uuid, 16))
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		goto err;

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	sb->block_size	= le16_to_cpu(s->block_size);

	err = "Superblock block size smaller than device block size";
	if (sb->block_size << 9 < bdev_logical_block_size(bdev))
		goto err;

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	switch (sb->version) {
	case BCACHE_SB_VERSION_BDEV:
		sb->data_offset	= BDEV_DATA_START_DEFAULT;
		break;
	case BCACHE_SB_VERSION_BDEV_WITH_OFFSET:
		sb->data_offset	= le64_to_cpu(s->data_offset);

		err = "Bad data offset";
		if (sb->data_offset < BDEV_DATA_START_DEFAULT)
			goto err;
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		break;
	case BCACHE_SB_VERSION_CDEV:
	case BCACHE_SB_VERSION_CDEV_WITH_UUID:
		sb->nbuckets	= le64_to_cpu(s->nbuckets);
		sb->block_size	= le16_to_cpu(s->block_size);
		sb->bucket_size	= le16_to_cpu(s->bucket_size);
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		sb->nr_in_set	= le16_to_cpu(s->nr_in_set);
		sb->nr_this_dev	= le16_to_cpu(s->nr_this_dev);
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		err = "Too many buckets";
		if (sb->nbuckets > LONG_MAX)
			goto err;
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		err = "Not enough buckets";
		if (sb->nbuckets < 1 << 7)
			goto err;
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		err = "Bad block/bucket size";
		if (!is_power_of_2(sb->block_size) ||
		    sb->block_size > PAGE_SECTORS ||
		    !is_power_of_2(sb->bucket_size) ||
		    sb->bucket_size < PAGE_SECTORS)
			goto err;
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		err = "Invalid superblock: device too small";
		if (get_capacity(bdev->bd_disk) < sb->bucket_size * sb->nbuckets)
			goto err;
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		err = "Bad UUID";
		if (bch_is_zero(sb->set_uuid, 16))
			goto err;
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		err = "Bad cache device number in set";
		if (!sb->nr_in_set ||
		    sb->nr_in_set <= sb->nr_this_dev ||
		    sb->nr_in_set > MAX_CACHES_PER_SET)
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			goto err;

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		err = "Journal buckets not sequential";
		for (i = 0; i < sb->keys; i++)
			if (sb->d[i] != sb->first_bucket + i)
				goto err;
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		err = "Too many journal buckets";
		if (sb->first_bucket + sb->keys > sb->nbuckets)
			goto err;

		err = "Invalid superblock: first bucket comes before end of super";
		if (sb->first_bucket * sb->bucket_size < 16)
			goto err;

		break;
	default:
		err = "Unsupported superblock version";
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		goto err;
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	}

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	sb->last_mount = get_seconds();
	err = NULL;

	get_page(bh->b_page);
	*res = bh->b_page;
err:
	put_bh(bh);
	return err;
}

static void write_bdev_super_endio(struct bio *bio, int error)
{
	struct cached_dev *dc = bio->bi_private;
	/* XXX: error checking */

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	closure_put(&dc->sb_write);
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}

static void __write_super(struct cache_sb *sb, struct bio *bio)
{
	struct cache_sb *out = page_address(bio->bi_io_vec[0].bv_page);
	unsigned i;

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	bio->bi_iter.bi_sector	= SB_SECTOR;
	bio->bi_rw		= REQ_SYNC|REQ_META;
	bio->bi_iter.bi_size	= SB_SIZE;
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	bch_bio_map(bio, NULL);
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	out->offset		= cpu_to_le64(sb->offset);
	out->version		= cpu_to_le64(sb->version);

	memcpy(out->uuid,	sb->uuid, 16);
	memcpy(out->set_uuid,	sb->set_uuid, 16);
	memcpy(out->label,	sb->label, SB_LABEL_SIZE);

	out->flags		= cpu_to_le64(sb->flags);
	out->seq		= cpu_to_le64(sb->seq);

	out->last_mount		= cpu_to_le32(sb->last_mount);
	out->first_bucket	= cpu_to_le16(sb->first_bucket);
	out->keys		= cpu_to_le16(sb->keys);

	for (i = 0; i < sb->keys; i++)
		out->d[i] = cpu_to_le64(sb->d[i]);

	out->csum = csum_set(out);

	pr_debug("ver %llu, flags %llu, seq %llu",
		 sb->version, sb->flags, sb->seq);

	submit_bio(REQ_WRITE, bio);
}

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static void bch_write_bdev_super_unlock(struct closure *cl)
{
	struct cached_dev *dc = container_of(cl, struct cached_dev, sb_write);

	up(&dc->sb_write_mutex);
}

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void bch_write_bdev_super(struct cached_dev *dc, struct closure *parent)
{
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	struct closure *cl = &dc->sb_write;
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	struct bio *bio = &dc->sb_bio;

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	down(&dc->sb_write_mutex);
	closure_init(cl, parent);
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	bio_reset(bio);
	bio->bi_bdev	= dc->bdev;
	bio->bi_end_io	= write_bdev_super_endio;
	bio->bi_private = dc;

	closure_get(cl);
	__write_super(&dc->sb, bio);

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	closure_return_with_destructor(cl, bch_write_bdev_super_unlock);
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}

static void write_super_endio(struct bio *bio, int error)
{
	struct cache *ca = bio->bi_private;

	bch_count_io_errors(ca, error, "writing superblock");
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	closure_put(&ca->set->sb_write);
}

static void bcache_write_super_unlock(struct closure *cl)
{
	struct cache_set *c = container_of(cl, struct cache_set, sb_write);

	up(&c->sb_write_mutex);
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}

void bcache_write_super(struct cache_set *c)
{
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	struct closure *cl = &c->sb_write;
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	struct cache *ca;
	unsigned i;

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	down(&c->sb_write_mutex);
	closure_init(cl, &c->cl);
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	c->sb.seq++;

	for_each_cache(ca, c, i) {
		struct bio *bio = &ca->sb_bio;

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		ca->sb.version		= BCACHE_SB_VERSION_CDEV_WITH_UUID;
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		ca->sb.seq		= c->sb.seq;
		ca->sb.last_mount	= c->sb.last_mount;

		SET_CACHE_SYNC(&ca->sb, CACHE_SYNC(&c->sb));

		bio_reset(bio);
		bio->bi_bdev	= ca->bdev;
		bio->bi_end_io	= write_super_endio;
		bio->bi_private = ca;

		closure_get(cl);
		__write_super(&ca->sb, bio);
	}

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	closure_return_with_destructor(cl, bcache_write_super_unlock);
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}

/* UUID io */

static void uuid_endio(struct bio *bio, int error)
{
	struct closure *cl = bio->bi_private;
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	struct cache_set *c = container_of(cl, struct cache_set, uuid_write);
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	cache_set_err_on(error, c, "accessing uuids");
	bch_bbio_free(bio, c);
	closure_put(cl);
}

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static void uuid_io_unlock(struct closure *cl)
{
	struct cache_set *c = container_of(cl, struct cache_set, uuid_write);

	up(&c->uuid_write_mutex);
}

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static void uuid_io(struct cache_set *c, unsigned long rw,
		    struct bkey *k, struct closure *parent)
{
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	struct closure *cl = &c->uuid_write;
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	struct uuid_entry *u;
	unsigned i;
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	char buf[80];
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	BUG_ON(!parent);
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	down(&c->uuid_write_mutex);
	closure_init(cl, parent);
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	for (i = 0; i < KEY_PTRS(k); i++) {
		struct bio *bio = bch_bbio_alloc(c);

		bio->bi_rw	= REQ_SYNC|REQ_META|rw;
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		bio->bi_iter.bi_size = KEY_SIZE(k) << 9;
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		bio->bi_end_io	= uuid_endio;
		bio->bi_private = cl;
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		bch_bio_map(bio, c->uuids);
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		bch_submit_bbio(bio, c, k, i);

		if (!(rw & WRITE))
			break;
	}

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	bch_extent_to_text(buf, sizeof(buf), k);
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	pr_debug("%s UUIDs at %s", rw & REQ_WRITE ? "wrote" : "read", buf);
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	for (u = c->uuids; u < c->uuids + c->nr_uuids; u++)
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		if (!bch_is_zero(u->uuid, 16))
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			pr_debug("Slot %zi: %pU: %s: 1st: %u last: %u inv: %u",
				 u - c->uuids, u->uuid, u->label,
				 u->first_reg, u->last_reg, u->invalidated);

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	closure_return_with_destructor(cl, uuid_io_unlock);
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}

static char *uuid_read(struct cache_set *c, struct jset *j, struct closure *cl)
{
	struct bkey *k = &j->uuid_bucket;

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	if (__bch_btree_ptr_invalid(c, k))
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		return "bad uuid pointer";

	bkey_copy(&c->uuid_bucket, k);
	uuid_io(c, READ_SYNC, k, cl);

	if (j->version < BCACHE_JSET_VERSION_UUIDv1) {
		struct uuid_entry_v0	*u0 = (void *) c->uuids;
		struct uuid_entry	*u1 = (void *) c->uuids;
		int i;

		closure_sync(cl);

		/*
		 * Since the new uuid entry is bigger than the old, we have to
		 * convert starting at the highest memory address and work down
		 * in order to do it in place
		 */

		for (i = c->nr_uuids - 1;
		     i >= 0;
		     --i) {
			memcpy(u1[i].uuid,	u0[i].uuid, 16);
			memcpy(u1[i].label,	u0[i].label, 32);

			u1[i].first_reg		= u0[i].first_reg;
			u1[i].last_reg		= u0[i].last_reg;
			u1[i].invalidated	= u0[i].invalidated;

			u1[i].flags	= 0;
			u1[i].sectors	= 0;
		}
	}

	return NULL;
}

static int __uuid_write(struct cache_set *c)
{
	BKEY_PADDED(key) k;
	struct closure cl;
	closure_init_stack(&cl);

	lockdep_assert_held(&bch_register_lock);

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	if (bch_bucket_alloc_set(c, RESERVE_BTREE, &k.key, 1, true))
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		return 1;

	SET_KEY_SIZE(&k.key, c->sb.bucket_size);
	uuid_io(c, REQ_WRITE, &k.key, &cl);
	closure_sync(&cl);

	bkey_copy(&c->uuid_bucket, &k.key);
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	bkey_put(c, &k.key);
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	return 0;
}

int bch_uuid_write(struct cache_set *c)
{
	int ret = __uuid_write(c);

	if (!ret)
		bch_journal_meta(c, NULL);

	return ret;
}

static struct uuid_entry *uuid_find(struct cache_set *c, const char *uuid)
{
	struct uuid_entry *u;

	for (u = c->uuids;
	     u < c->uuids + c->nr_uuids; u++)
		if (!memcmp(u->uuid, uuid, 16))
			return u;

	return NULL;
}

static struct uuid_entry *uuid_find_empty(struct cache_set *c)
{
	static const char zero_uuid[16] = "\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0";
	return uuid_find(c, zero_uuid);
}

/*
 * Bucket priorities/gens:
 *
 * For each bucket, we store on disk its
   * 8 bit gen
   * 16 bit priority
 *
 * See alloc.c for an explanation of the gen. The priority is used to implement
 * lru (and in the future other) cache replacement policies; for most purposes
 * it's just an opaque integer.
 *
 * The gens and the priorities don't have a whole lot to do with each other, and
 * it's actually the gens that must be written out at specific times - it's no
 * big deal if the priorities don't get written, if we lose them we just reuse
 * buckets in suboptimal order.
 *
 * On disk they're stored in a packed array, and in as many buckets are required
 * to fit them all. The buckets we use to store them form a list; the journal
 * header points to the first bucket, the first bucket points to the second
 * bucket, et cetera.
 *
 * This code is used by the allocation code; periodically (whenever it runs out
 * of buckets to allocate from) the allocation code will invalidate some
 * buckets, but it can't use those buckets until their new gens are safely on
 * disk.
 */

static void prio_endio(struct bio *bio, int error)
{
	struct cache *ca = bio->bi_private;

	cache_set_err_on(error, ca->set, "accessing priorities");
	bch_bbio_free(bio, ca->set);
	closure_put(&ca->prio);
}

static void prio_io(struct cache *ca, uint64_t bucket, unsigned long rw)
{
	struct closure *cl = &ca->prio;
	struct bio *bio = bch_bbio_alloc(ca->set);

	closure_init_stack(cl);

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	bio->bi_iter.bi_sector	= bucket * ca->sb.bucket_size;
	bio->bi_bdev		= ca->bdev;
	bio->bi_rw		= REQ_SYNC|REQ_META|rw;
	bio->bi_iter.bi_size	= bucket_bytes(ca);
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	bio->bi_end_io	= prio_endio;
	bio->bi_private = ca;
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	bch_bio_map(bio, ca->disk_buckets);
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	closure_bio_submit(bio, &ca->prio, ca);
	closure_sync(cl);
}

#define buckets_free(c)	"free %zu, free_inc %zu, unused %zu",		\
	fifo_used(&c->free), fifo_used(&c->free_inc), fifo_used(&c->unused)

void bch_prio_write(struct cache *ca)
{
	int i;
	struct bucket *b;
	struct closure cl;

	closure_init_stack(&cl);

	lockdep_assert_held(&ca->set->bucket_lock);

	for (b = ca->buckets;
	     b < ca->buckets + ca->sb.nbuckets; b++)
		b->disk_gen = b->gen;

	ca->disk_buckets->seq++;

	atomic_long_add(ca->sb.bucket_size * prio_buckets(ca),
			&ca->meta_sectors_written);

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	//pr_debug("free %zu, free_inc %zu, unused %zu", fifo_used(&ca->free),
	//	 fifo_used(&ca->free_inc), fifo_used(&ca->unused));
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	for (i = prio_buckets(ca) - 1; i >= 0; --i) {
		long bucket;
		struct prio_set *p = ca->disk_buckets;
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		struct bucket_disk *d = p->data;
		struct bucket_disk *end = d + prios_per_bucket(ca);
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		for (b = ca->buckets + i * prios_per_bucket(ca);
		     b < ca->buckets + ca->sb.nbuckets && d < end;
		     b++, d++) {
			d->prio = cpu_to_le16(b->prio);
			d->gen = b->gen;
		}

		p->next_bucket	= ca->prio_buckets[i + 1];
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		p->magic	= pset_magic(&ca->sb);
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		p->csum		= bch_crc64(&p->magic, bucket_bytes(ca) - 8);
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		bucket = bch_bucket_alloc(ca, RESERVE_PRIO, true);
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		BUG_ON(bucket == -1);

		mutex_unlock(&ca->set->bucket_lock);
		prio_io(ca, bucket, REQ_WRITE);
		mutex_lock(&ca->set->bucket_lock);

		ca->prio_buckets[i] = bucket;
		atomic_dec_bug(&ca->buckets[bucket].pin);
	}

	mutex_unlock(&ca->set->bucket_lock);

	bch_journal_meta(ca->set, &cl);
	closure_sync(&cl);

	mutex_lock(&ca->set->bucket_lock);

	ca->need_save_prio = 0;

	/*
	 * Don't want the old priorities to get garbage collected until after we
	 * finish writing the new ones, and they're journalled
	 */
	for (i = 0; i < prio_buckets(ca); i++)
		ca->prio_last_buckets[i] = ca->prio_buckets[i];
}

static void prio_read(struct cache *ca, uint64_t bucket)
{
	struct prio_set *p = ca->disk_buckets;
	struct bucket_disk *d = p->data + prios_per_bucket(ca), *end = d;
	struct bucket *b;
	unsigned bucket_nr = 0;

	for (b = ca->buckets;
	     b < ca->buckets + ca->sb.nbuckets;
	     b++, d++) {
		if (d == end) {
			ca->prio_buckets[bucket_nr] = bucket;
			ca->prio_last_buckets[bucket_nr] = bucket;
			bucket_nr++;

			prio_io(ca, bucket, READ_SYNC);

631
			if (p->csum != bch_crc64(&p->magic, bucket_bytes(ca) - 8))
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				pr_warn("bad csum reading priorities");

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			if (p->magic != pset_magic(&ca->sb))
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				pr_warn("bad magic reading priorities");

			bucket = p->next_bucket;
			d = p->data;
		}

		b->prio = le16_to_cpu(d->prio);
		b->gen = b->disk_gen = b->last_gc = b->gc_gen = d->gen;
	}
}

/* Bcache device */

static int open_dev(struct block_device *b, fmode_t mode)
{
	struct bcache_device *d = b->bd_disk->private_data;
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	if (test_bit(BCACHE_DEV_CLOSING, &d->flags))
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		return -ENXIO;

	closure_get(&d->cl);
	return 0;
}

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static void release_dev(struct gendisk *b, fmode_t mode)
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{
	struct bcache_device *d = b->private_data;
	closure_put(&d->cl);
}

static int ioctl_dev(struct block_device *b, fmode_t mode,
		     unsigned int cmd, unsigned long arg)
{
	struct bcache_device *d = b->bd_disk->private_data;
	return d->ioctl(d, mode, cmd, arg);
}

static const struct block_device_operations bcache_ops = {
	.open		= open_dev,
	.release	= release_dev,
	.ioctl		= ioctl_dev,
	.owner		= THIS_MODULE,
};

void bcache_device_stop(struct bcache_device *d)
{
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	if (!test_and_set_bit(BCACHE_DEV_CLOSING, &d->flags))
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		closure_queue(&d->cl);
}

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static void bcache_device_unlink(struct bcache_device *d)
{
686
	lockdep_assert_held(&bch_register_lock);
687

688 689 690
	if (d->c && !test_and_set_bit(BCACHE_DEV_UNLINK_DONE, &d->flags)) {
		unsigned i;
		struct cache *ca;
691

692 693 694 695 696 697
		sysfs_remove_link(&d->c->kobj, d->name);
		sysfs_remove_link(&d->kobj, "cache");

		for_each_cache(ca, d->c, i)
			bd_unlink_disk_holder(ca->bdev, d->disk);
	}
698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716
}

static void bcache_device_link(struct bcache_device *d, struct cache_set *c,
			       const char *name)
{
	unsigned i;
	struct cache *ca;

	for_each_cache(ca, d->c, i)
		bd_link_disk_holder(ca->bdev, d->disk);

	snprintf(d->name, BCACHEDEVNAME_SIZE,
		 "%s%u", name, d->id);

	WARN(sysfs_create_link(&d->kobj, &c->kobj, "cache") ||
	     sysfs_create_link(&c->kobj, &d->kobj, d->name),
	     "Couldn't create device <-> cache set symlinks");
}

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static void bcache_device_detach(struct bcache_device *d)
{
	lockdep_assert_held(&bch_register_lock);

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	if (test_bit(BCACHE_DEV_DETACHING, &d->flags)) {
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		struct uuid_entry *u = d->c->uuids + d->id;

		SET_UUID_FLASH_ONLY(u, 0);
		memcpy(u->uuid, invalid_uuid, 16);
		u->invalidated = cpu_to_le32(get_seconds());
		bch_uuid_write(d->c);
	}

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	bcache_device_unlink(d);
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	d->c->devices[d->id] = NULL;
	closure_put(&d->c->caching);
	d->c = NULL;
}

static void bcache_device_attach(struct bcache_device *d, struct cache_set *c,
				 unsigned id)
{
	BUG_ON(test_bit(CACHE_SET_STOPPING, &c->flags));

	d->id = id;
	d->c = c;
	c->devices[id] = d;

	closure_get(&c->caching);
}

static void bcache_device_free(struct bcache_device *d)
{
	lockdep_assert_held(&bch_register_lock);

	pr_info("%s stopped", d->disk->disk_name);

	if (d->c)
		bcache_device_detach(d);
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	if (d->disk && d->disk->flags & GENHD_FL_UP)
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		del_gendisk(d->disk);
	if (d->disk && d->disk->queue)
		blk_cleanup_queue(d->disk->queue);
761 762
	if (d->disk) {
		ida_simple_remove(&bcache_minor, d->disk->first_minor);
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		put_disk(d->disk);
764
	}
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	bio_split_pool_free(&d->bio_split_hook);
	if (d->bio_split)
		bioset_free(d->bio_split);
769 770 771 772
	if (is_vmalloc_addr(d->full_dirty_stripes))
		vfree(d->full_dirty_stripes);
	else
		kfree(d->full_dirty_stripes);
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	if (is_vmalloc_addr(d->stripe_sectors_dirty))
		vfree(d->stripe_sectors_dirty);
	else
		kfree(d->stripe_sectors_dirty);
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	closure_debug_destroy(&d->cl);
}

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static int bcache_device_init(struct bcache_device *d, unsigned block_size,
			      sector_t sectors)
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{
	struct request_queue *q;
785
	size_t n;
786
	int minor;
787

788 789
	if (!d->stripe_size)
		d->stripe_size = 1 << 31;
790

791
	d->nr_stripes = DIV_ROUND_UP_ULL(sectors, d->stripe_size);
792

793 794 795 796
	if (!d->nr_stripes ||
	    d->nr_stripes > INT_MAX ||
	    d->nr_stripes > SIZE_MAX / sizeof(atomic_t)) {
		pr_err("nr_stripes too large");
797
		return -ENOMEM;
798
	}
799 800 801 802 803 804 805

	n = d->nr_stripes * sizeof(atomic_t);
	d->stripe_sectors_dirty = n < PAGE_SIZE << 6
		? kzalloc(n, GFP_KERNEL)
		: vzalloc(n);
	if (!d->stripe_sectors_dirty)
		return -ENOMEM;
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	n = BITS_TO_LONGS(d->nr_stripes) * sizeof(unsigned long);
	d->full_dirty_stripes = n < PAGE_SIZE << 6
		? kzalloc(n, GFP_KERNEL)
		: vzalloc(n);
	if (!d->full_dirty_stripes)
		return -ENOMEM;

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	minor = ida_simple_get(&bcache_minor, 0, MINORMASK + 1, GFP_KERNEL);
	if (minor < 0)
		return minor;

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	if (!(d->bio_split = bioset_create(4, offsetof(struct bbio, bio))) ||
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	    bio_split_pool_init(&d->bio_split_hook) ||
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	    !(d->disk = alloc_disk(1))) {
		ida_simple_remove(&bcache_minor, minor);
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		return -ENOMEM;
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	}
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	set_capacity(d->disk, sectors);
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	snprintf(d->disk->disk_name, DISK_NAME_LEN, "bcache%i", minor);
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	d->disk->major		= bcache_major;
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	d->disk->first_minor	= minor;
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	d->disk->fops		= &bcache_ops;
	d->disk->private_data	= d;

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	q = blk_alloc_queue(GFP_KERNEL);
	if (!q)
		return -ENOMEM;

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	blk_queue_make_request(q, NULL);
	d->disk->queue			= q;
	q->queuedata			= d;
	q->backing_dev_info.congested_data = d;
	q->limits.max_hw_sectors	= UINT_MAX;
	q->limits.max_sectors		= UINT_MAX;
	q->limits.max_segment_size	= UINT_MAX;
	q->limits.max_segments		= BIO_MAX_PAGES;
	q->limits.max_discard_sectors	= UINT_MAX;
	q->limits.io_min		= block_size;
	q->limits.logical_block_size	= block_size;
	q->limits.physical_block_size	= block_size;
	set_bit(QUEUE_FLAG_NONROT,	&d->disk->queue->queue_flags);
	set_bit(QUEUE_FLAG_DISCARD,	&d->disk->queue->queue_flags);

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	blk_queue_flush(q, REQ_FLUSH|REQ_FUA);

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	return 0;
}

/* Cached device */

static void calc_cached_dev_sectors(struct cache_set *c)
{
	uint64_t sectors = 0;
	struct cached_dev *dc;

	list_for_each_entry(dc, &c->cached_devs, list)
		sectors += bdev_sectors(dc->bdev);

	c->cached_dev_sectors = sectors;
}

void bch_cached_dev_run(struct cached_dev *dc)
{
	struct bcache_device *d = &dc->disk;
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	char buf[SB_LABEL_SIZE + 1];
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	char *env[] = {
		"DRIVER=bcache",
		kasprintf(GFP_KERNEL, "CACHED_UUID=%pU", dc->sb.uuid),
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		NULL,
		NULL,
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	};
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	memcpy(buf, dc->sb.label, SB_LABEL_SIZE);
	buf[SB_LABEL_SIZE] = '\0';
	env[2] = kasprintf(GFP_KERNEL, "CACHED_LABEL=%s", buf);

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	if (atomic_xchg(&dc->running, 1))
		return;

	if (!d->c &&
	    BDEV_STATE(&dc->sb) != BDEV_STATE_NONE) {
		struct closure cl;
		closure_init_stack(&cl);

		SET_BDEV_STATE(&dc->sb, BDEV_STATE_STALE);
		bch_write_bdev_super(dc, &cl);
		closure_sync(&cl);
	}

	add_disk(d->disk);
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	bd_link_disk_holder(dc->bdev, dc->disk.disk);
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	/* won't show up in the uevent file, use udevadm monitor -e instead
	 * only class / kset properties are persistent */
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	kobject_uevent_env(&disk_to_dev(d->disk)->kobj, KOBJ_CHANGE, env);
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	kfree(env[1]);
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	kfree(env[2]);
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	if (sysfs_create_link(&d->kobj, &disk_to_dev(d->disk)->kobj, "dev") ||
	    sysfs_create_link(&disk_to_dev(d->disk)->kobj, &d->kobj, "bcache"))
		pr_debug("error creating sysfs link");
}

static void cached_dev_detach_finish(struct work_struct *w)
{
	struct cached_dev *dc = container_of(w, struct cached_dev, detach);
	char buf[BDEVNAME_SIZE];
	struct closure cl;
	closure_init_stack(&cl);

918
	BUG_ON(!test_bit(BCACHE_DEV_DETACHING, &dc->disk.flags));
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	BUG_ON(atomic_read(&dc->count));

	mutex_lock(&bch_register_lock);

	memset(&dc->sb.set_uuid, 0, 16);
	SET_BDEV_STATE(&dc->sb, BDEV_STATE_NONE);

	bch_write_bdev_super(dc, &cl);
	closure_sync(&cl);

	bcache_device_detach(&dc->disk);
	list_move(&dc->list, &uncached_devices);

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	clear_bit(BCACHE_DEV_DETACHING, &dc->disk.flags);

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	mutex_unlock(&bch_register_lock);

	pr_info("Caching disabled for %s", bdevname(dc->bdev, buf));

	/* Drop ref we took in cached_dev_detach() */
	closure_put(&dc->disk.cl);
}

void bch_cached_dev_detach(struct cached_dev *dc)
{
	lockdep_assert_held(&bch_register_lock);

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	if (test_bit(BCACHE_DEV_CLOSING, &dc->disk.flags))
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		return;

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	if (test_and_set_bit(BCACHE_DEV_DETACHING, &dc->disk.flags))
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		return;

	/*
	 * Block the device from being closed and freed until we're finished
	 * detaching
	 */
	closure_get(&dc->disk.cl);

	bch_writeback_queue(dc);
	cached_dev_put(dc);
}

int bch_cached_dev_attach(struct cached_dev *dc, struct cache_set *c)
{
	uint32_t rtime = cpu_to_le32(get_seconds());
	struct uuid_entry *u;
	char buf[BDEVNAME_SIZE];

	bdevname(dc->bdev, buf);

	if (memcmp(dc->sb.set_uuid, c->sb.set_uuid, 16))
		return -ENOENT;

	if (dc->disk.c) {
		pr_err("Can't attach %s: already attached", buf);
		return -EINVAL;
	}

	if (test_bit(CACHE_SET_STOPPING, &c->flags)) {
		pr_err("Can't attach %s: shutting down", buf);
		return -EINVAL;
	}

	if (dc->sb.block_size < c->sb.block_size) {
		/* Will die */
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		pr_err("Couldn't attach %s: block size less than set's block size",
		       buf);
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		return -EINVAL;
	}

	u = uuid_find(c, dc->sb.uuid);

	if (u &&
	    (BDEV_STATE(&dc->sb) == BDEV_STATE_STALE ||
	     BDEV_STATE(&dc->sb) == BDEV_STATE_NONE)) {
		memcpy(u->uuid, invalid_uuid, 16);
		u->invalidated = cpu_to_le32(get_seconds());
		u = NULL;
	}

	if (!u) {
		if (BDEV_STATE(&dc->sb) == BDEV_STATE_DIRTY) {
			pr_err("Couldn't find uuid for %s in set", buf);
			return -ENOENT;
		}

		u = uuid_find_empty(c);
		if (!u) {
			pr_err("Not caching %s, no room for UUID", buf);
			return -EINVAL;
		}
	}

	/* Deadlocks since we're called via sysfs...
	sysfs_remove_file(&dc->kobj, &sysfs_attach);
	 */

1017
	if (bch_is_zero(u->uuid, 16)) {
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		struct closure cl;
		closure_init_stack(&cl);

		memcpy(u->uuid, dc->sb.uuid, 16);
		memcpy(u->label, dc->sb.label, SB_LABEL_SIZE);
		u->first_reg = u->last_reg = rtime;
		bch_uuid_write(c);

		memcpy(dc->sb.set_uuid, c->sb.set_uuid, 16);
		SET_BDEV_STATE(&dc->sb, BDEV_STATE_CLEAN);

		bch_write_bdev_super(dc, &cl);
		closure_sync(&cl);
	} else {
		u->last_reg = rtime;
		bch_uuid_write(c);
	}

	bcache_device_attach(&dc->disk, c, u - c->uuids);
	list_move(&dc->list, &c->cached_devs);
	calc_cached_dev_sectors(c);

	smp_wmb();
	/*
	 * dc->c must be set before dc->count != 0 - paired with the mb in
	 * cached_dev_get()
	 */
	atomic_set(&dc->count, 1);

	if (BDEV_STATE(&dc->sb) == BDEV_STATE_DIRTY) {
1048
		bch_sectors_dirty_init(dc);
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		atomic_set(&dc->has_dirty, 1);
		atomic_inc(&dc->count);
		bch_writeback_queue(dc);
	}

	bch_cached_dev_run(dc);
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	bcache_device_link(&dc->disk, c, "bdev");
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	pr_info("Caching %s as %s on set %pU",
		bdevname(dc->bdev, buf), dc->disk.disk->disk_name,
		dc->disk.c->sb.set_uuid);
	return 0;
}

void bch_cached_dev_release(struct kobject *kobj)
{
	struct cached_dev *dc = container_of(kobj, struct cached_dev,
					     disk.kobj);
	kfree(dc);
	module_put(THIS_MODULE);
}

static void cached_dev_free(struct closure *cl)
{
	struct cached_dev *dc = container_of(cl, struct cached_dev, disk.cl);

	cancel_delayed_work_sync(&dc->writeback_rate_update);
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	kthread_stop(dc->writeback_thread);
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	mutex_lock(&bch_register_lock);

1080 1081
	if (atomic_read(&dc->running))
		bd_unlink_disk_holder(dc->bdev, dc->disk.disk);
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	bcache_device_free(&dc->disk);
	list_del(&dc->list);

	mutex_unlock(&bch_register_lock);

	if (!IS_ERR_OR_NULL(dc->bdev)) {
1088 1089 1090
		if (dc->bdev->bd_disk)
			blk_sync_queue(bdev_get_queue(dc->bdev));

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		blkdev_put(dc->bdev, FMODE_READ|FMODE_WRITE|FMODE_EXCL);
	}

	wake_up(&unregister_wait);

	kobject_put(&dc->disk.kobj);
}

static void cached_dev_flush(struct closure *cl)
{
	struct cached_dev *dc = container_of(cl, struct cached_dev, disk.cl);
	struct bcache_device *d = &dc->disk;

1104
	mutex_lock(&bch_register_lock);
1105
	bcache_device_unlink(d);
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	mutex_unlock(&bch_register_lock);

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	bch_cache_accounting_destroy(&dc->accounting);
	kobject_del(&d->kobj);

	continue_at(cl, cached_dev_free, system_wq);
}

static int cached_dev_init(struct cached_dev *dc, unsigned block_size)
{
1116
	int ret;
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	struct io *io;
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	struct request_queue *q = bdev_get_queue(dc->bdev);
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	__module_get(THIS_MODULE);
	INIT_LIST_HEAD(&dc->list);
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	closure_init(&dc->disk.cl, NULL);
	set_closure_fn(&dc->disk.cl, cached_dev_flush, system_wq);
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	kobject_init(&dc->disk.kobj, &bch_cached_dev_ktype);
	INIT_WORK(&dc->detach, cached_dev_detach_finish);
1126
	sema_init(&dc->sb_write_mutex, 1);
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	INIT_LIST_HEAD(&dc->io_lru);
	spin_lock_init(&dc->io_lock);
	bch_cache_accounting_init(&dc->accounting, &dc->disk.cl);
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	dc->sequential_cutoff		= 4 << 20;

	for (io = dc->io; io < dc->io + RECENT_IO; io++) {
		list_add(&io->lru, &dc->io_lru);
		hlist_add_head(&io->hash, dc->io_hash + RECENT_IO);
	}

1138 1139 1140 1141 1142 1143
	dc->disk.stripe_size = q->limits.io_opt >> 9;

	if (dc->disk.stripe_size)
		dc->partial_stripes_expensive =
			q->limits.raid_partial_stripes_expensive;

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	ret = bcache_device_init(&dc->disk, block_size,
			 dc->bdev->bd_part->nr_sects - dc->sb.data_offset);
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	if (ret)
		return ret;

	set_capacity(dc->disk.disk,
		     dc->bdev->bd_part->nr_sects - dc->sb.data_offset);

	dc->disk.disk->queue->backing_dev_info.ra_pages =
		max(dc->disk.disk->queue->backing_dev_info.ra_pages,
		    q->backing_dev_info.ra_pages);

	bch_cached_dev_request_init(dc);
	bch_cached_dev_writeback_init(dc);
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	return 0;
}

/* Cached device - bcache superblock */

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static void register_bdev(struct cache_sb *sb, struct page *sb_page,
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				 struct block_device *bdev,
				 struct cached_dev *dc)
{
	char name[BDEVNAME_SIZE];
	const char *err = "cannot allocate memory";
	struct cache_set *c;

	memcpy(&dc->sb, sb, sizeof(struct cache_sb));
	dc->bdev = bdev;
	dc->bdev->bd_holder = dc;

1175 1176 1177 1178 1179
	bio_init(&dc->sb_bio);
	dc->sb_bio.bi_max_vecs	= 1;
	dc->sb_bio.bi_io_vec	= dc->sb_bio.bi_inline_vecs;
	dc->sb_bio.bi_io_vec[0].bv_page = sb_page;
	get_page(sb_page);
1180

1181 1182
	if (cached_dev_init(dc, sb->block_size << 9))
		goto err;
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	err = "error creating kobject";
	if (kobject_add(&dc->disk.kobj, &part_to_dev(bdev->bd_part)->kobj,
			"bcache"))
		goto err;
	if (bch_cache_accounting_add_kobjs(&dc->accounting, &dc->disk.kobj))
		goto err;

1191 1192
	pr_info("registered backing device %s", bdevname(bdev, name));

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	list_add(&dc->list, &uncached_devices);
	list_for_each_entry(c, &bch_cache_sets, list)
		bch_cached_dev_attach(dc, c);

	if (BDEV_STATE(&dc->sb) == BDEV_STATE_NONE ||
	    BDEV_STATE(&dc->sb) == BDEV_STATE_STALE)
		bch_cached_dev_run(dc);

1201
	return;
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err:
	pr_notice("error opening %s: %s", bdevname(bdev, name), err);
1204
	bcache_device_stop(&dc->disk);
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}

/* Flash only volumes */

void bch_flash_dev_release(struct kobject *kobj)
{
	struct bcache_device *d = container_of(kobj, struct bcache_device,
					       kobj);
	kfree(d);
}

static void flash_dev_free(struct closure *cl)
{
	struct bcache_device *d = container_of(cl, struct bcache_device, cl);
	bcache_device_free(d);
	kobject_put(&d->kobj);
}

static void flash_dev_flush(struct closure *cl)
{
	struct bcache_device *d = container_of(cl, struct bcache_device, cl);

1227
	bcache_device_unlink(d);
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	kobject_del(&d->kobj);
	continue_at(cl, flash_dev_free, system_wq);
}

static int flash_dev_run(struct cache_set *c, struct uuid_entry *u)
{
	struct bcache_device *d = kzalloc(sizeof(struct bcache_device),
					  GFP_KERNEL);
	if (!d)
		return -ENOMEM;

	closure_init(&d->cl, NULL);
	set_closure_fn(&d->cl, flash_dev_flush, system_wq);

	kobject_init(&d->kobj, &bch_flash_dev_ktype);

1244
	if (bcache_device_init(d, block_bytes(c), u->sectors))
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		goto err;

	bcache_device_attach(d, c, u - c->uuids);
	bch_flash_dev_request_init(d);
	add_disk(d->disk);

	if (kobject_add(&d->kobj, &disk_to_dev(d->disk)->kobj, "bcache"))
		goto err;

	bcache_device_link(d, c, "volume");

	return 0;
err:
	kobject_put(&d->kobj);
	return -ENOMEM;
}

static int flash_devs_run(struct cache_set *c)
{
	int ret = 0;
	struct uuid_entry *u;

	for (u = c->uuids;
	     u < c->uuids + c->nr_uuids && !ret;
	     u++)
		if (UUID_FLASH_ONLY(u))
			ret = flash_dev_run(c, u);

	return ret;
}

int bch_flash_dev_create(struct cache_set *c, uint64_t size)
{
	struct uuid_entry *u;

	if (test_bit(CACHE_SET_STOPPING, &c->flags))
		return -EINTR;

	u = uuid_find_empty(c);
	if (!u) {
		pr_err("Can't create volume, no room for UUID");
		return -EINVAL;
	}

	get_random_bytes(u->uuid, 16);
	memset(u->label, 0, 32);
	u->first_reg = u->last_reg = cpu_to_le32(get_seconds());

	SET_UUID_FLASH_ONLY(u, 1);
	u->sectors = size >> 9;

	bch_uuid_write(c);

	return flash_dev_run(c, u);
}

/* Cache set */

__printf(2, 3)
bool bch_cache_set_error(struct cache_set *c, const char *fmt, ...)
{
	va_list args;

1308 1309
	if (c->on_error != ON_ERROR_PANIC &&
	    test_bit(CACHE_SET_STOPPING, &c->flags))
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		return false;

	/* XXX: we can be called from atomic context
	acquire_console_sem();
	*/

	printk(KERN_ERR "bcache: error on %pU: ", c->sb.set_uuid);

	va_start(args, fmt);
	vprintk(fmt, args);
	va_end(args);

	printk(", disabling caching\n");

1324 1325 1326
	if (c->on_error == ON_ERROR_PANIC)
		panic("panic forced after error\n");

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	bch_cache_set_unregister(c);
	return true;
}

void bch_cache_set_release(struct kobject *kobj)
{
	struct cache_set *c = container_of(kobj, struct cache_set, kobj);
	kfree(c);
	module_put(THIS_MODULE);
}

static void cache_set_free(struct closure *cl)
{
	struct cache_set *c = container_of(cl, struct cache_set, cl);
	struct cache *ca;
	unsigned i;

	if (!IS_ERR_OR_NULL(c->debug))
		debugfs_remove(c->debug);

	bch_open_buckets_free(c);
	bch_btree_cache_free(c);
	bch_journal_free(c);

	for_each_cache(ca, c, i)
		if (ca)
			kobject_put(&ca->kobj);

1355
	bch_bset_sort_state_free(&c->sort);
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	free_pages((unsigned long) c->uuids, ilog2(bucket_pages(c)));

	if (c->bio_split)
		bioset_free(c->bio_split);
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	if (c->fill_iter)
		mempool_destroy(c->fill_iter);
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	if (c->bio_meta)
		mempool_destroy(c->bio_meta);
	if (c->search)
		mempool_destroy(c->search);
	kfree(c->devices);

	mutex_lock(&bch_register_lock);
	list_del(&c->list);
	mutex_unlock(&bch_register_lock);

	pr_info("Cache set %pU unregistered", c->sb.set_uuid);
	wake_up(&unregister_wait);

	closure_debug_destroy(&c->cl);
	kobject_put(&c->kobj);
}

static void cache_set_flush(struct closure *cl)
{
	struct cache_set *c = container_of(cl, struct cache_set, caching);
1382
	struct cache *ca;
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	struct btree *b;
1384
	unsigned i;
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	bch_cache_accounting_destroy(&c->accounting);

	kobject_put(&c->internal);
	kobject_del(&c->kobj);

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	if (c->gc_thread)
		kthread_stop(c->gc_thread);

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	if (!IS_ERR_OR_NULL(c->root))
		list_add(&c->root->list, &c->btree_cache);

	/* Should skip this if we're unregistering because of an error */
	list_for_each_entry(b, &c->btree_cache, list)
		if (btree_node_dirty(b))
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			bch_btree_node_write(b, NULL);
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1402 1403 1404 1405
	for_each_cache(ca, c, i)
		if (ca->alloc_thread)
			kthread_stop(ca->alloc_thread);

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	closure_return(cl);
}

static void __cache_set_unregister(struct closure *cl)
{
	struct cache_set *c = container_of(cl, struct cache_set, caching);
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	struct cached_dev *dc;
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	size_t i;

	mutex_lock(&bch_register_lock);

	for (i = 0; i < c->nr_uuids; i++)
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		if (c->devices[i]) {
			if (!UUID_FLASH_ONLY(&c->uuids[i]) &&
			    test_bit(CACHE_SET_UNREGISTERING, &c->flags)) {
				dc = container_of(c->devices[i],
						  struct cached_dev, disk);
				bch_cached_dev_detach(dc);
			} else {
				bcache_device_stop(c->devices[i]);
			}
		}
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	mutex_unlock(&bch_register_lock);

	continue_at(cl, cache_set_flush, system_wq);
}

void bch_cache_set_stop(struct cache_set *c)
{
	if (!test_and_set_bit(CACHE_SET_STOPPING, &c->flags))
		closure_queue(&c->caching);
}

void bch_cache_set_unregister(struct cache_set *c)
{
	set_bit(CACHE_SET_UNREGISTERING, &c->flags);
	bch_cache_set_stop(c);
}

#define alloc_bucket_pages(gfp, c)			\
	((void *) __get_free_pages(__GFP_ZERO|gfp, ilog2(bucket_pages(c))))

struct cache_set *bch_cache_set_alloc(struct cache_sb *sb)
{
	int iter_size;
	struct cache_set *c = kzalloc(sizeof(struct cache_set), GFP_KERNEL);
	if (!c)
		return NULL;

	__module_get(THIS_MODULE);
	closure_init(&c->cl, NULL);
	set_closure_fn(&c->cl, cache_set_free, system_wq);

	closure_init(&c->caching, &c->cl);
	set_closure_fn(&c->caching, __cache_set_unregister, system_wq);

	/* Maybe create continue_at_noreturn() and use it here? */
	closure_set_stopped(&c->cl);
	closure_put(&c->cl);

	kobject_init(&c->kobj, &bch_cache_set_ktype);
	kobject_init(&c->internal, &bch_cache_set_internal_ktype);

	bch_cache_accounting_init(&c->accounting, &c->cl);

	memcpy(c->sb.set_uuid, sb->set_uuid, 16);
	c->sb.block_size	= sb->block_size;
	c->sb.bucket_size	= sb->bucket_size;
	c->sb.nr_in_set		= sb->nr_in_set;
	c->sb.last_mount	= sb->last_mount;
	c->bucket_bits		= ilog2(sb->bucket_size);
	c->block_bits		= ilog2(sb->block_size);
	c->nr_uuids		= bucket_bytes(c) / sizeof(struct uuid_entry);

1481
	c->btree_pages		= bucket_pages(c);
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	if (c->btree_pages > BTREE_MAX_PAGES)
		c->btree_pages = max_t(int, c->btree_pages / 4,
				       BTREE_MAX_PAGES);

1486
	sema_init(&c->sb_write_mutex, 1);
1487 1488
	mutex_init(&c->bucket_lock);
	init_waitqueue_head(&c->try_wait);
1489
	init_waitqueue_head(&c->bucket_wait);
1490
	sema_init(&c->uuid_write_mutex, 1);
1491 1492 1493 1494 1495

	spin_lock_init(&c->btree_gc_time.lock);
	spin_lock_init(&c->btree_split_time.lock);
	spin_lock_init(&c->btree_read_time.lock);
	spin_lock_init(&c->try_harder_time.lock);
1496

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	bch_moving_init_cache_set(c);

	INIT_LIST_HEAD(&c->list);
	INIT_LIST_HEAD(&c->cached_devs);
	INIT_LIST_HEAD(&c->btree_cache);
	INIT_LIST_HEAD(&c->btree_cache_freeable);
	INIT_LIST_HEAD(&c->btree_cache_freed);
	INIT_LIST_HEAD(&c->data_buckets);

	c->search = mempool_create_slab_pool(32, bch_search_cache);
	if (!c->search)
		goto err;

	iter_size = (sb->bucket_size / sb->block_size + 1) *
		sizeof(struct btree_iter_set);

	if (!(c->devices = kzalloc(c->nr_uuids * sizeof(void *), GFP_KERNEL)) ||
	    !(c->bio_meta = mempool_create_kmalloc_pool(2,
				sizeof(struct bbio) + sizeof(struct bio_vec) *
				bucket_pages(c))) ||
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	    !(c->fill_iter = mempool_create_kmalloc_pool(1, iter_size)) ||
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1518 1519 1520 1521
	    !(c->bio_split = bioset_create(4, offsetof(struct bbio, bio))) ||
	    !(c->uuids = alloc_bucket_pages(GFP_KERNEL, c)) ||
	    bch_journal_alloc(c) ||
	    bch_btree_cache_alloc(c) ||
1522 1523
	    bch_open_buckets_alloc(c) ||
	    bch_bset_sort_state_init(&c->sort, ilog2(c->btree_pages)))
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1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540
		goto err;

	c->congested_read_threshold_us	= 2000;
	c->congested_write_threshold_us	= 20000;
	c->error_limit	= 8 << IO_ERROR_SHIFT;

	return c;
err:
	bch_cache_set_unregister(c);
	return NULL;
}

static void run_cache_set(struct cache_set *c)
{
	const char *err = "cannot allocate memory";
	struct cached_dev *dc, *t;
	struct cache *ca;
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	struct closure cl;
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1542 1543
	unsigned i;

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1544
	closure_init_stack(&cl);
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1545 1546 1547 1548 1549 1550 1551 1552 1553 1554

	for_each_cache(ca, c, i)
		c->nbuckets += ca->sb.nbuckets;

	if (CACHE_SYNC(&c->sb)) {
		LIST_HEAD(journal);
		struct bkey *k;
		struct jset *j;

		err = "cannot allocate memory for journal";
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1555
		if (bch_journal_read(c, &journal))
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1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578
			goto err;

		pr_debug("btree_journal_read() done");

		err = "no journal entries found";
		if (list_empty(&journal))
			goto err;

		j = &list_entry(journal.prev, struct journal_replay, list)->j;

		err = "IO error reading priorities";
		for_each_cache(ca, c, i)
			prio_read(ca, j->prio_bucket[ca->sb.nr_this_dev]);

		/*
		 * If prio_read() fails it'll call cache_set_error and we'll
		 * tear everything down right away, but if we perhaps checked
		 * sooner we could avoid journal replay.
		 */

		k = &j->btree_root;

		err = "bad btree root";
1579
		if (__bch_btree_ptr_invalid(c, k))
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			goto err;

		err = "error reading btree root";
1583
		c->root = bch_btree_node_get(c, k, j->btree_level, true);
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1584 1585 1586 1587 1588 1589
		if (IS_ERR_OR_NULL(c->root))
			goto err;

		list_del_init(&c->root->list);
		rw_unlock(true, c->root);

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		err = uuid_read(c, j, &cl);
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1591 1592 1593 1594
		if (err)
			goto err;

		err = "error in recovery";
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1595
		if (bch_btree_check(c))
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1596 1597 1598 1599 1600 1601 1602 1603 1604 1605 1606 1607 1608
			goto err;

		bch_journal_mark(c, &journal);
		bch_btree_gc_finish(c);
		pr_debug("btree_check() done");

		/*
		 * bcache_journal_next() can't happen sooner, or
		 * btree_gc_finish() will give spurious errors about last_gc >
		 * gc_gen - this is a hack but oh well.
		 */
		bch_journal_next(&c->journal);

1609
		err = "error starting allocator thread";
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1610
		for_each_cache(ca, c, i)
1611 1612
			if (bch_cache_allocator_start(ca))
				goto err;
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1613 1614 1615 1616 1617 1618 1619 1620 1621 1622 1623 1624 1625 1626

		/*
		 * First place it's safe to allocate: btree_check() and
		 * btree_gc_finish() have to run before we have buckets to
		 * allocate, and bch_bucket_alloc_set() might cause a journal
		 * entry to be written so bcache_journal_next() has to be called
		 * first.
		 *
		 * If the uuids were in the old format we have to rewrite them
		 * before the next journal entry is written:
		 */
		if (j->version < BCACHE_JSET_VERSION_UUID)
			__uuid_write(c);

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		bch_journal_replay(c, &journal);
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1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642
	} else {
		pr_notice("invalidating existing data");

		for_each_cache(ca, c, i) {
			unsigned j;

			ca->sb.keys = clamp_t(int, ca->sb.nbuckets >> 7,
					      2, SB_JOURNAL_BUCKETS);

			for (j = 0; j < ca->sb.keys; j++)
				ca->sb.d[j] = ca->sb.first_bucket + j;
		}

		bch_btree_gc_finish(c);

1643
		err = "error starting allocator thread";
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1644
		for_each_cache(ca, c, i)
1645 1646
			if (bch_cache_allocator_start(ca))
				goto err;
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1647 1648 1649 1650 1651 1652 1653 1654

		mutex_lock(&c->bucket_lock);
		for_each_cache(ca, c, i)
			bch_prio_write(ca);
		mutex_unlock(&c->bucket_lock);

		err = "cannot allocate new UUID bucket";
		if (__uuid_write(c))
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			goto err;
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1656 1657

		err = "cannot allocate new btree root";
1658
		c->root = bch_btree_node_alloc(c, 0, true);
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1659
		if (IS_ERR_OR_NULL(c->root))
K
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1660
			goto err;
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1661 1662

		bkey_copy_key(&c->root->key, &MAX_KEY);
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1663
		bch_btree_node_write(c->root, &cl);
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1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675

		bch_btree_set_root(c->root);
		rw_unlock(true, c->root);

		/*
		 * We don't want to write the first journal entry until
		 * everything is set up - fortunately journal entries won't be
		 * written until the SET_CACHE_SYNC() here:
		 */
		SET_CACHE_SYNC(&c->sb, true);

		bch_journal_next(&c->journal);
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		bch_journal_meta(c, &cl);
K
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1677 1678
	}

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1679 1680 1681 1682
	err = "error starting gc thread";
	if (bch_gc_thread_start(c))
		goto err;

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1683
	closure_sync(&cl);
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1684 1685 1686 1687 1688 1689 1690 1691 1692 1693
	c->sb.last_mount = get_seconds();
	bcache_write_super(c);

	list_for_each_entry_safe(dc, t, &uncached_devices, list)
		bch_cached_dev_attach(dc, c);

	flash_devs_run(c);

	return;
err:
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1694
	closure_sync(&cl);
K
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1695
	/* XXX: test this, it's broken */
1696
	bch_cache_set_error(c, "%s", err);
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}

static bool can_attach_cache(struct cache *ca, struct cache_set *c)
{
	return ca->sb.block_size	== c->sb.block_size &&
1702
		ca->sb.bucket_size	== c->sb.bucket_size &&
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		ca->sb.nr_in_set	== c->sb.nr_in_set;
}

static const char *register_cache_set(struct cache *ca)
{
	char buf[12];
	const char *err = "cannot allocate memory";
	struct cache_set *c;

	list_for_each_entry(c, &bch_cache_sets, list)
		if (!memcmp(c->sb.set_uuid, ca->sb.set_uuid, 16)) {
			if (c->cache[ca->sb.nr_this_dev])
				return "duplicate cache set member";

			if (!can_attach_cache(ca, c))
				return "cache sb does not match set";

			if (!CACHE_SYNC(&ca->sb))
				SET_CACHE_SYNC(&c->sb, false);

			goto found;
		}

	c = bch_cache_set_alloc(&ca->sb);
	if (!c)
		return err;

	err = "error creating kobject";
	if (kobject_add(&c->kobj, bcache_kobj, "%pU", c->sb.set_uuid) ||
	    kobject_add(&c->internal, &c->kobj, "internal"))
		goto err;

	if (bch_cache_accounting_add_kobjs(&c->accounting, &c->kobj))
		goto err;

	bch_debug_init_cache_set(c);

	list_add(&c->list, &bch_cache_sets);
found:
	sprintf(buf, "cache%i", ca->sb.nr_this_dev);
	if (sysfs_create_link(&ca->kobj, &c->kobj, "set") ||
	    sysfs_create_link(&c->kobj, &ca->kobj, buf))
		goto err;

	if (ca->sb.seq > c->sb.seq) {
		c->sb.version		= ca->sb.version;
		memcpy(c->sb.set_uuid, ca->sb.set_uuid, 16);
		c->sb.flags             = ca->sb.flags;
		c->sb.seq		= ca->sb.seq;
		pr_debug("set version = %llu", c->sb.version);
	}

	ca->set = c;
	ca->set->cache[ca->sb.nr_this_dev] = ca;
	c->cache_by_alloc[c->caches_loaded++] = ca;

	if (c->caches_loaded == c->sb.nr_in_set)
		run_cache_set(c);

	return NULL;
err:
	bch_cache_set_unregister(c);
	return err;
}

/* Cache device */

void bch_cache_release(struct kobject *kobj)
{
	struct cache *ca = container_of(kobj, struct cache, kobj);
1773
	unsigned i;
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	if (ca->set)
		ca->set->cache[ca->sb.nr_this_dev] = NULL;

	bio_split_pool_free(&ca->bio_split_hook);

	free_pages((unsigned long) ca->disk_buckets, ilog2(bucket_pages(ca)));
	kfree(ca->prio_buckets);
	vfree(ca->buckets);

	free_heap(&ca->heap);
	free_fifo(&ca->unused);
	free_fifo(&ca->free_inc);
1787 1788 1789

	for (i = 0; i < RESERVE_NR; i++)
		free_fifo(&ca->free[i]);
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	if (ca->sb_bio.bi_inline_vecs[0].bv_page)
		put_page(ca->sb_bio.bi_io_vec[0].bv_page);

	if (!IS_ERR_OR_NULL(ca->bdev)) {
		blk_sync_queue(bdev_get_queue(ca->bdev));
		blkdev_put(ca->bdev, FMODE_READ|FMODE_WRITE|FMODE_EXCL);
	}

	kfree(ca);
	module_put(THIS_MODULE);
}

static int cache_alloc(struct cache_sb *sb, struct cache *ca)
{
	size_t free;
	struct bucket *b;

	__module_get(THIS_MODULE);
	kobject_init(&ca->kobj, &bch_cache_ktype);

	bio_init(&ca->journal.bio);
	ca->journal.bio.bi_max_vecs = 8;
	ca->journal.bio.bi_io_vec = ca->journal.bio.bi_inline_vecs;

1815
	free = roundup_pow_of_two(ca->sb.nbuckets) >> 10;
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1817 1818 1819 1820
	if (!init_fifo(&ca->free[RESERVE_BTREE], 8, GFP_KERNEL) ||
	    !init_fifo(&ca->free[RESERVE_PRIO], prio_buckets(ca), GFP_KERNEL) ||
	    !init_fifo(&ca->free[RESERVE_MOVINGGC], free, GFP_KERNEL) ||
	    !init_fifo(&ca->free[RESERVE_NONE], free, GFP_KERNEL) ||
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	    !init_fifo(&ca->free_inc,	free << 2, GFP_KERNEL) ||
	    !init_fifo(&ca->unused,	free << 2, GFP_KERNEL) ||
	    !init_heap(&ca->heap,	free << 3, GFP_KERNEL) ||
1824
	    !(ca->buckets	= vzalloc(sizeof(struct bucket) *
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					  ca->sb.nbuckets)) ||
	    !(ca->prio_buckets	= kzalloc(sizeof(uint64_t) * prio_buckets(ca) *
					  2, GFP_KERNEL)) ||
	    !(ca->disk_buckets	= alloc_bucket_pages(GFP_KERNEL, ca)) ||
	    bio_split_pool_init(&ca->bio_split_hook))
1830
		return -ENOMEM;
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	ca->prio_last_buckets = ca->prio_buckets + prio_buckets(ca);

	for_each_bucket(b, ca)
		atomic_set(&b->pin, 0);

	if (bch_cache_allocator_init(ca))
		goto err;

	return 0;
err:
	kobject_put(&ca->kobj);
	return -ENOMEM;
}

1846
static void register_cache(struct cache_sb *sb, struct page *sb_page,
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				  struct block_device *bdev, struct cache *ca)
{
	char name[BDEVNAME_SIZE];
	const char *err = "cannot allocate memory";

1852
	memcpy(&ca->sb, sb, sizeof(struct cache_sb));
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	ca->bdev = bdev;
	ca->bdev->bd_holder = ca;

1856 1857 1858 1859 1860 1861
	bio_init(&ca->sb_bio);
	ca->sb_bio.bi_max_vecs	= 1;
	ca->sb_bio.bi_io_vec	= ca->sb_bio.bi_inline_vecs;
	ca->sb_bio.bi_io_vec[0].bv_page = sb_page;
	get_page(sb_page);

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	if (blk_queue_discard(bdev_get_queue(ca->bdev)))
		ca->discard = CACHE_DISCARD(&ca->sb);

1865 1866 1867
	if (cache_alloc(sb, ca) != 0)
		goto err;

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	err = "error creating kobject";
	if (kobject_add(&ca->kobj, &part_to_dev(bdev->bd_part)->kobj, "bcache"))
		goto err;

	err = register_cache_set(ca);
	if (err)
		goto err;

	pr_info("registered cache device %s", bdevname(bdev, name));
1877
	return;
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err:
1879
	pr_notice("error opening %s: %s", bdevname(bdev, name), err);
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	kobject_put(&ca->kobj);
}

/* Global interfaces/init */

static ssize_t register_bcache(struct kobject *, struct kobj_attribute *,
			       const char *, size_t);

kobj_attribute_write(register,		register_bcache);
kobj_attribute_write(register_quiet,	register_bcache);

1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920
static bool bch_is_open_backing(struct block_device *bdev) {
	struct cache_set *c, *tc;
	struct cached_dev *dc, *t;

	list_for_each_entry_safe(c, tc, &bch_cache_sets, list)
		list_for_each_entry_safe(dc, t, &c->cached_devs, list)
			if (dc->bdev == bdev)
				return true;
	list_for_each_entry_safe(dc, t, &uncached_devices, list)
		if (dc->bdev == bdev)
			return true;
	return false;
}

static bool bch_is_open_cache(struct block_device *bdev) {
	struct cache_set *c, *tc;
	struct cache *ca;
	unsigned i;

	list_for_each_entry_safe(c, tc, &bch_cache_sets, list)
		for_each_cache(ca, c, i)
			if (ca->bdev == bdev)
				return true;
	return false;
}

static bool bch_is_open(struct block_device *bdev) {
	return bch_is_open_cache(bdev) || bch_is_open_backing(bdev);
}

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static ssize_t register_bcache(struct kobject *k, struct kobj_attribute *attr,
			       const char *buffer, size_t size)
{
	ssize_t ret = size;
	const char *err = "cannot allocate memory";
	char *path = NULL;
	struct cache_sb *sb = NULL;
	struct block_device *bdev = NULL;
	struct page *sb_page = NULL;

	if (!try_module_get(THIS_MODULE))
		return -EBUSY;

	mutex_lock(&bch_register_lock);

	if (!(path = kstrndup(buffer, size, GFP_KERNEL)) ||
	    !(sb = kmalloc(sizeof(struct cache_sb), GFP_KERNEL)))
		goto err;

	err = "failed to open device";
	bdev = blkdev_get_by_path(strim(path),
				  FMODE_READ|FMODE_WRITE|FMODE_EXCL,
				  sb);
1944
	if (IS_ERR(bdev)) {
1945 1946 1947 1948 1949 1950 1951
		if (bdev == ERR_PTR(-EBUSY)) {
			bdev = lookup_bdev(strim(path));
			if (!IS_ERR(bdev) && bch_is_open(bdev))
				err = "device already registered";
			else
				err = "device busy";
		}
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		goto err;
1953 1954 1955 1956 1957
	}

	err = "failed to set blocksize";
	if (set_blocksize(bdev, 4096))
		goto err_close;
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	err = read_super(sb, bdev, &sb_page);
	if (err)
		goto err_close;

1963
	if (SB_IS_BDEV(sb)) {
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		struct cached_dev *dc = kzalloc(sizeof(*dc), GFP_KERNEL);
1965 1966
		if (!dc)
			goto err_close;
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1968
		register_bdev(sb, sb_page, bdev, dc);
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	} else {
		struct cache *ca = kzalloc(sizeof(*ca), GFP_KERNEL);
1971 1972
		if (!ca)
			goto err_close;
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1974
		register_cache(sb, sb_page, bdev, ca);
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	}
1976 1977
out:
	if (sb_page)
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		put_page(sb_page);
	kfree(sb);
	kfree(path);
	mutex_unlock(&bch_register_lock);
	module_put(THIS_MODULE);
	return ret;
1984 1985 1986 1987 1988 1989 1990 1991

err_close:
	blkdev_put(bdev, FMODE_READ|FMODE_WRITE|FMODE_EXCL);
err:
	if (attr != &ksysfs_register_quiet)
		pr_info("error opening %s: %s", path, err);
	ret = -EINVAL;
	goto out;
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}

static int bcache_reboot(struct notifier_block *n, unsigned long code, void *x)
{
	if (code == SYS_DOWN ||
	    code == SYS_HALT ||
	    code == SYS_POWER_OFF) {
		DEFINE_WAIT(wait);
		unsigned long start = jiffies;
		bool stopped = false;

		struct cache_set *c, *tc;
		struct cached_dev *dc, *tdc;

		mutex_lock(&bch_register_lock);

		if (list_empty(&bch_cache_sets) &&
		    list_empty(&uncached_devices))
			goto out;

		pr_info("Stopping all devices:");

		list_for_each_entry_safe(c, tc, &bch_cache_sets, list)
			bch_cache_set_stop(c);

		list_for_each_entry_safe(dc, tdc, &uncached_devices, list)
			bcache_device_stop(&dc->disk);

		/* What's a condition variable? */
		while (1) {
			long timeout = start + 2 * HZ - jiffies;

			stopped = list_empty(&bch_cache_sets) &&
				list_empty(&uncached_devices);

			if (timeout < 0 || stopped)
				break;

			prepare_to_wait(&unregister_wait, &wait,
					TASK_UNINTERRUPTIBLE);

			mutex_unlock(&bch_register_lock);
			schedule_timeout(timeout);
			mutex_lock(&bch_register_lock);
		}

		finish_wait(&unregister_wait, &wait);

		if (stopped)
			pr_info("All devices stopped");
		else
			pr_notice("Timeout waiting for devices to be closed");
out:
		mutex_unlock(&bch_register_lock);
	}

	return NOTIFY_DONE;
}

static struct notifier_block reboot = {
	.notifier_call	= bcache_reboot,
	.priority	= INT_MAX, /* before any real devices */
};

static void bcache_exit(void)
{
	bch_debug_exit();
	bch_request_exit();
	bch_btree_exit();
	if (bcache_kobj)
		kobject_put(bcache_kobj);
	if (bcache_wq)
		destroy_workqueue(bcache_wq);
2065 2066
	if (bcache_major)
		unregister_blkdev(bcache_major, "bcache");
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	unregister_reboot_notifier(&reboot);
}

static int __init bcache_init(void)
{
	static const struct attribute *files[] = {
		&ksysfs_register.attr,
		&ksysfs_register_quiet.attr,
		NULL
	};

	mutex_init(&bch_register_lock);
	init_waitqueue_head(&unregister_wait);
	register_reboot_notifier(&reboot);
2081
	closure_debug_init();
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	bcache_major = register_blkdev(0, "bcache");
	if (bcache_major < 0)
		return bcache_major;

	if (!(bcache_wq = create_workqueue("bcache")) ||
	    !(bcache_kobj = kobject_create_and_add("bcache", fs_kobj)) ||
	    sysfs_create_files(bcache_kobj, files) ||
	    bch_btree_init() ||
	    bch_request_init() ||
	    bch_debug_init(bcache_kobj))
		goto err;

	return 0;
err:
	bcache_exit();
	return -ENOMEM;
}

module_exit(bcache_exit);
module_init(bcache_init);