fs/btrfs/raid56.c

53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * Copyright (C) 2012 Fusion-io  All rights reserved.
53b381b3SDavid Woodhouse * Copyright (C) 2012 Intel Corp. All rights reserved.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * This program is free software; you can redistribute it and/or
53b381b3SDavid Woodhouse * modify it under the terms of the GNU General Public
53b381b3SDavid Woodhouse * License v2 as published by the Free Software Foundation.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * This program is distributed in the hope that it will be useful,
53b381b3SDavid Woodhouse * but WITHOUT ANY WARRANTY; without even the implied warranty of
53b381b3SDavid Woodhouse * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
53b381b3SDavid Woodhouse * General Public License for more details.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * You should have received a copy of the GNU General Public
53b381b3SDavid Woodhouse * License along with this program; if not, write to the
53b381b3SDavid Woodhouse * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
53b381b3SDavid Woodhouse * Boston, MA 021110-1307, USA.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhouse#include <linux/sched.h>
53b381b3SDavid Woodhouse#include <linux/wait.h>
53b381b3SDavid Woodhouse#include <linux/bio.h>
53b381b3SDavid Woodhouse#include <linux/slab.h>
53b381b3SDavid Woodhouse#include <linux/buffer_head.h>
53b381b3SDavid Woodhouse#include <linux/blkdev.h>
53b381b3SDavid Woodhouse#include <linux/random.h>
53b381b3SDavid Woodhouse#include <linux/iocontext.h>
53b381b3SDavid Woodhouse#include <linux/capability.h>
53b381b3SDavid Woodhouse#include <linux/ratelimit.h>
53b381b3SDavid Woodhouse#include <linux/kthread.h>
53b381b3SDavid Woodhouse#include <linux/raid/pq.h>
53b381b3SDavid Woodhouse#include <linux/hash.h>
53b381b3SDavid Woodhouse#include <linux/list_sort.h>
53b381b3SDavid Woodhouse#include <linux/raid/xor.h>
d7011f5bSGeert Uytterhoeven#include <linux/vmalloc.h>
53b381b3SDavid Woodhouse#include <asm/div64.h>
53b381b3SDavid Woodhouse#include "ctree.h"
53b381b3SDavid Woodhouse#include "extent_map.h"
53b381b3SDavid Woodhouse#include "disk-io.h"
53b381b3SDavid Woodhouse#include "transaction.h"
53b381b3SDavid Woodhouse#include "print-tree.h"
53b381b3SDavid Woodhouse#include "volumes.h"
53b381b3SDavid Woodhouse#include "raid56.h"
53b381b3SDavid Woodhouse#include "async-thread.h"
53b381b3SDavid Woodhouse#include "check-integrity.h"
53b381b3SDavid Woodhouse#include "rcu-string.h"
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/* set when additional merges to this rbio are not allowed */
53b381b3SDavid Woodhouse#define RBIO_RMW_LOCKED_BIT	1
53b381b3SDavid Woodhouse
4ae10b3aSChris Mason/*
4ae10b3aSChris Mason * set when this rbio is sitting in the hash, but it is just a cache
4ae10b3aSChris Mason * of past RMW
4ae10b3aSChris Mason */
4ae10b3aSChris Mason#define RBIO_CACHE_BIT		2
4ae10b3aSChris Mason
4ae10b3aSChris Mason/*
4ae10b3aSChris Mason * set when it is safe to trust the stripe_pages for caching
4ae10b3aSChris Mason */
4ae10b3aSChris Mason#define RBIO_CACHE_READY_BIT	3
4ae10b3aSChris Mason
4ae10b3aSChris Mason#define RBIO_CACHE_SIZE 1024
4ae10b3aSChris Mason
1b94b556SMiao Xieenum btrfs_rbio_ops {
b4ee1782SOmar Sandoval	BTRFS_RBIO_WRITE,
b4ee1782SOmar Sandoval	BTRFS_RBIO_READ_REBUILD,
b4ee1782SOmar Sandoval	BTRFS_RBIO_PARITY_SCRUB,
b4ee1782SOmar Sandoval	BTRFS_RBIO_REBUILD_MISSING,
1b94b556SMiao Xie};
1b94b556SMiao Xie
53b381b3SDavid Woodhousestruct btrfs_raid_bio {
53b381b3SDavid Woodhouse	struct btrfs_fs_info *fs_info;
53b381b3SDavid Woodhouse	struct btrfs_bio *bbio;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* while we're doing rmw on a stripe
53b381b3SDavid Woodhouse	 * we put it into a hash table so we can
53b381b3SDavid Woodhouse	 * lock the stripe and merge more rbios
53b381b3SDavid Woodhouse	 * into it.
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	struct list_head hash_list;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
4ae10b3aSChris Mason	 * LRU list for the stripe cache
4ae10b3aSChris Mason	 */
4ae10b3aSChris Mason	struct list_head stripe_cache;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	/*
53b381b3SDavid Woodhouse	 * for scheduling work in the helper threads
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	struct btrfs_work work;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * bio list and bio_list_lock are used
53b381b3SDavid Woodhouse	 * to add more bios into the stripe
53b381b3SDavid Woodhouse	 * in hopes of avoiding the full rmw
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	struct bio_list bio_list;
53b381b3SDavid Woodhouse	spinlock_t bio_list_lock;
53b381b3SDavid Woodhouse
6ac0f488SChris Mason	/* also protected by the bio_list_lock, the
6ac0f488SChris Mason	 * plug list is used by the plugging code
6ac0f488SChris Mason	 * to collect partial bios while plugged.  The
6ac0f488SChris Mason	 * stripe locking code also uses it to hand off
53b381b3SDavid Woodhouse	 * the stripe lock to the next pending IO
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	struct list_head plug_list;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * flags that tell us if it is safe to
53b381b3SDavid Woodhouse	 * merge with this bio
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	unsigned long flags;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* size of each individual stripe on disk */
53b381b3SDavid Woodhouse	int stripe_len;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* number of data stripes (no p/q) */
53b381b3SDavid Woodhouse	int nr_data;
53b381b3SDavid Woodhouse
2c8cdd6eSMiao Xie	int real_stripes;
2c8cdd6eSMiao Xie
5a6ac9eaSMiao Xie	int stripe_npages;
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * set if we're doing a parity rebuild
53b381b3SDavid Woodhouse	 * for a read from higher up, which is handled
53b381b3SDavid Woodhouse	 * differently from a parity rebuild as part of
53b381b3SDavid Woodhouse	 * rmw
53b381b3SDavid Woodhouse	 */
1b94b556SMiao Xie	enum btrfs_rbio_ops operation;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* first bad stripe */
53b381b3SDavid Woodhouse	int faila;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* second bad stripe (for raid6 use) */
53b381b3SDavid Woodhouse	int failb;
53b381b3SDavid Woodhouse
5a6ac9eaSMiao Xie	int scrubp;
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * number of pages needed to represent the full
53b381b3SDavid Woodhouse	 * stripe
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	int nr_pages;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * size of all the bios in the bio_list.  This
53b381b3SDavid Woodhouse	 * helps us decide if the rbio maps to a full
53b381b3SDavid Woodhouse	 * stripe or not
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	int bio_list_bytes;
53b381b3SDavid Woodhouse
4245215dSMiao Xie	int generic_bio_cnt;
4245215dSMiao Xie
*dec95574SElena Reshetova	refcount_t refs;
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	atomic_t stripes_pending;
b89e1b01SMiao Xie
b89e1b01SMiao Xie	atomic_t error;
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * these are two arrays of pointers.  We allocate the
53b381b3SDavid Woodhouse	 * rbio big enough to hold them both and setup their
53b381b3SDavid Woodhouse	 * locations when the rbio is allocated
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* pointers to pages that we allocated for
53b381b3SDavid Woodhouse	 * reading/writing stripes directly from the disk (including P/Q)
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	struct page **stripe_pages;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * pointers to the pages in the bio_list.  Stored
53b381b3SDavid Woodhouse	 * here for faster lookup
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	struct page **bio_pages;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * bitmap to record which horizontal stripe has data
5a6ac9eaSMiao Xie	 */
5a6ac9eaSMiao Xie	unsigned long *dbitmap;
53b381b3SDavid Woodhouse};
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic int __raid56_parity_recover(struct btrfs_raid_bio *rbio);
53b381b3SDavid Woodhousestatic noinline void finish_rmw(struct btrfs_raid_bio *rbio);
53b381b3SDavid Woodhousestatic void rmw_work(struct btrfs_work *work);
53b381b3SDavid Woodhousestatic void read_rebuild_work(struct btrfs_work *work);
53b381b3SDavid Woodhousestatic void async_rmw_stripe(struct btrfs_raid_bio *rbio);
53b381b3SDavid Woodhousestatic void async_read_rebuild(struct btrfs_raid_bio *rbio);
53b381b3SDavid Woodhousestatic int fail_bio_stripe(struct btrfs_raid_bio *rbio, struct bio *bio);
53b381b3SDavid Woodhousestatic int fail_rbio_index(struct btrfs_raid_bio *rbio, int failed);
53b381b3SDavid Woodhousestatic void __free_raid_bio(struct btrfs_raid_bio *rbio);
53b381b3SDavid Woodhousestatic void index_rbio_pages(struct btrfs_raid_bio *rbio);
53b381b3SDavid Woodhousestatic int alloc_rbio_pages(struct btrfs_raid_bio *rbio);
53b381b3SDavid Woodhouse
5a6ac9eaSMiao Xiestatic noinline void finish_parity_scrub(struct btrfs_raid_bio *rbio,
5a6ac9eaSMiao Xie					 int need_check);
5a6ac9eaSMiao Xiestatic void async_scrub_parity(struct btrfs_raid_bio *rbio);
5a6ac9eaSMiao Xie
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * the stripe hash table is used for locking, and to collect
53b381b3SDavid Woodhouse * bios in hopes of making a full stripe
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhouseint btrfs_alloc_stripe_hash_table(struct btrfs_fs_info *info)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_stripe_hash_table *table;
53b381b3SDavid Woodhouse	struct btrfs_stripe_hash_table *x;
53b381b3SDavid Woodhouse	struct btrfs_stripe_hash *cur;
53b381b3SDavid Woodhouse	struct btrfs_stripe_hash *h;
53b381b3SDavid Woodhouse	int num_entries = 1 << BTRFS_STRIPE_HASH_TABLE_BITS;
53b381b3SDavid Woodhouse	int i;
83c8266aSDavid Sterba	int table_size;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	if (info->stripe_hash_table)
53b381b3SDavid Woodhouse		return 0;
53b381b3SDavid Woodhouse
83c8266aSDavid Sterba	/*
83c8266aSDavid Sterba	 * The table is large, starting with order 4 and can go as high as
83c8266aSDavid Sterba	 * order 7 in case lock debugging is turned on.
83c8266aSDavid Sterba	 *
83c8266aSDavid Sterba	 * Try harder to allocate and fallback to vmalloc to lower the chance
83c8266aSDavid Sterba	 * of a failing mount.
83c8266aSDavid Sterba	 */
83c8266aSDavid Sterba	table_size = sizeof(*table) + sizeof(*h) * num_entries;
83c8266aSDavid Sterba	table = kzalloc(table_size, GFP_KERNEL | __GFP_NOWARN | __GFP_REPEAT);
83c8266aSDavid Sterba	if (!table) {
83c8266aSDavid Sterba		table = vzalloc(table_size);
53b381b3SDavid Woodhouse		if (!table)
53b381b3SDavid Woodhouse			return -ENOMEM;
83c8266aSDavid Sterba	}
53b381b3SDavid Woodhouse
4ae10b3aSChris Mason	spin_lock_init(&table->cache_lock);
4ae10b3aSChris Mason	INIT_LIST_HEAD(&table->stripe_cache);
4ae10b3aSChris Mason
53b381b3SDavid Woodhouse	h = table->table;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	for (i = 0; i < num_entries; i++) {
53b381b3SDavid Woodhouse		cur = h + i;
53b381b3SDavid Woodhouse		INIT_LIST_HEAD(&cur->hash_list);
53b381b3SDavid Woodhouse		spin_lock_init(&cur->lock);
53b381b3SDavid Woodhouse		init_waitqueue_head(&cur->wait);
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	x = cmpxchg(&info->stripe_hash_table, NULL, table);
f749303bSWang Shilong	if (x)
f749303bSWang Shilong		kvfree(x);
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
4ae10b3aSChris Mason * caching an rbio means to copy anything from the
4ae10b3aSChris Mason * bio_pages array into the stripe_pages array.  We
4ae10b3aSChris Mason * use the page uptodate bit in the stripe cache array
4ae10b3aSChris Mason * to indicate if it has valid data
4ae10b3aSChris Mason *
4ae10b3aSChris Mason * once the caching is done, we set the cache ready
4ae10b3aSChris Mason * bit.
4ae10b3aSChris Mason */
4ae10b3aSChris Masonstatic void cache_rbio_pages(struct btrfs_raid_bio *rbio)
4ae10b3aSChris Mason{
4ae10b3aSChris Mason	int i;
4ae10b3aSChris Mason	char *s;
4ae10b3aSChris Mason	char *d;
4ae10b3aSChris Mason	int ret;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	ret = alloc_rbio_pages(rbio);
4ae10b3aSChris Mason	if (ret)
4ae10b3aSChris Mason		return;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	for (i = 0; i < rbio->nr_pages; i++) {
4ae10b3aSChris Mason		if (!rbio->bio_pages[i])
4ae10b3aSChris Mason			continue;
4ae10b3aSChris Mason
4ae10b3aSChris Mason		s = kmap(rbio->bio_pages[i]);
4ae10b3aSChris Mason		d = kmap(rbio->stripe_pages[i]);
4ae10b3aSChris Mason
09cbfeafSKirill A. Shutemov		memcpy(d, s, PAGE_SIZE);
4ae10b3aSChris Mason
4ae10b3aSChris Mason		kunmap(rbio->bio_pages[i]);
4ae10b3aSChris Mason		kunmap(rbio->stripe_pages[i]);
4ae10b3aSChris Mason		SetPageUptodate(rbio->stripe_pages[i]);
4ae10b3aSChris Mason	}
4ae10b3aSChris Mason	set_bit(RBIO_CACHE_READY_BIT, &rbio->flags);
4ae10b3aSChris Mason}
4ae10b3aSChris Mason
4ae10b3aSChris Mason/*
53b381b3SDavid Woodhouse * we hash on the first logical address of the stripe
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int rbio_bucket(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
8e5cfb55SZhao Lei	u64 num = rbio->bbio->raid_map[0];
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * we shift down quite a bit.  We're using byte
53b381b3SDavid Woodhouse	 * addressing, and most of the lower bits are zeros.
53b381b3SDavid Woodhouse	 * This tends to upset hash_64, and it consistently
53b381b3SDavid Woodhouse	 * returns just one or two different values.
53b381b3SDavid Woodhouse	 *
53b381b3SDavid Woodhouse	 * shifting off the lower bits fixes things.
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	return hash_64(num >> 16, BTRFS_STRIPE_HASH_TABLE_BITS);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
4ae10b3aSChris Mason * stealing an rbio means taking all the uptodate pages from the stripe
4ae10b3aSChris Mason * array in the source rbio and putting them into the destination rbio
4ae10b3aSChris Mason */
4ae10b3aSChris Masonstatic void steal_rbio(struct btrfs_raid_bio *src, struct btrfs_raid_bio *dest)
4ae10b3aSChris Mason{
4ae10b3aSChris Mason	int i;
4ae10b3aSChris Mason	struct page *s;
4ae10b3aSChris Mason	struct page *d;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	if (!test_bit(RBIO_CACHE_READY_BIT, &src->flags))
4ae10b3aSChris Mason		return;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	for (i = 0; i < dest->nr_pages; i++) {
4ae10b3aSChris Mason		s = src->stripe_pages[i];
4ae10b3aSChris Mason		if (!s || !PageUptodate(s)) {
4ae10b3aSChris Mason			continue;
4ae10b3aSChris Mason		}
4ae10b3aSChris Mason
4ae10b3aSChris Mason		d = dest->stripe_pages[i];
4ae10b3aSChris Mason		if (d)
4ae10b3aSChris Mason			__free_page(d);
4ae10b3aSChris Mason
4ae10b3aSChris Mason		dest->stripe_pages[i] = s;
4ae10b3aSChris Mason		src->stripe_pages[i] = NULL;
4ae10b3aSChris Mason	}
4ae10b3aSChris Mason}
4ae10b3aSChris Mason
4ae10b3aSChris Mason/*
53b381b3SDavid Woodhouse * merging means we take the bio_list from the victim and
53b381b3SDavid Woodhouse * splice it into the destination.  The victim should
53b381b3SDavid Woodhouse * be discarded afterwards.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * must be called with dest->rbio_list_lock held
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic void merge_rbio(struct btrfs_raid_bio *dest,
53b381b3SDavid Woodhouse		       struct btrfs_raid_bio *victim)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	bio_list_merge(&dest->bio_list, &victim->bio_list);
53b381b3SDavid Woodhouse	dest->bio_list_bytes += victim->bio_list_bytes;
4245215dSMiao Xie	dest->generic_bio_cnt += victim->generic_bio_cnt;
53b381b3SDavid Woodhouse	bio_list_init(&victim->bio_list);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
4ae10b3aSChris Mason * used to prune items that are in the cache.  The caller
4ae10b3aSChris Mason * must hold the hash table lock.
4ae10b3aSChris Mason */
4ae10b3aSChris Masonstatic void __remove_rbio_from_cache(struct btrfs_raid_bio *rbio)
4ae10b3aSChris Mason{
4ae10b3aSChris Mason	int bucket = rbio_bucket(rbio);
4ae10b3aSChris Mason	struct btrfs_stripe_hash_table *table;
4ae10b3aSChris Mason	struct btrfs_stripe_hash *h;
4ae10b3aSChris Mason	int freeit = 0;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	/*
4ae10b3aSChris Mason	 * check the bit again under the hash table lock.
4ae10b3aSChris Mason	 */
4ae10b3aSChris Mason	if (!test_bit(RBIO_CACHE_BIT, &rbio->flags))
4ae10b3aSChris Mason		return;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	table = rbio->fs_info->stripe_hash_table;
4ae10b3aSChris Mason	h = table->table + bucket;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	/* hold the lock for the bucket because we may be
4ae10b3aSChris Mason	 * removing it from the hash table
4ae10b3aSChris Mason	 */
4ae10b3aSChris Mason	spin_lock(&h->lock);
4ae10b3aSChris Mason
4ae10b3aSChris Mason	/*
4ae10b3aSChris Mason	 * hold the lock for the bio list because we need
4ae10b3aSChris Mason	 * to make sure the bio list is empty
4ae10b3aSChris Mason	 */
4ae10b3aSChris Mason	spin_lock(&rbio->bio_list_lock);
4ae10b3aSChris Mason
4ae10b3aSChris Mason	if (test_and_clear_bit(RBIO_CACHE_BIT, &rbio->flags)) {
4ae10b3aSChris Mason		list_del_init(&rbio->stripe_cache);
4ae10b3aSChris Mason		table->cache_size -= 1;
4ae10b3aSChris Mason		freeit = 1;
4ae10b3aSChris Mason
4ae10b3aSChris Mason		/* if the bio list isn't empty, this rbio is
4ae10b3aSChris Mason		 * still involved in an IO.  We take it out
4ae10b3aSChris Mason		 * of the cache list, and drop the ref that
4ae10b3aSChris Mason		 * was held for the list.
4ae10b3aSChris Mason		 *
4ae10b3aSChris Mason		 * If the bio_list was empty, we also remove
4ae10b3aSChris Mason		 * the rbio from the hash_table, and drop
4ae10b3aSChris Mason		 * the corresponding ref
4ae10b3aSChris Mason		 */
4ae10b3aSChris Mason		if (bio_list_empty(&rbio->bio_list)) {
4ae10b3aSChris Mason			if (!list_empty(&rbio->hash_list)) {
4ae10b3aSChris Mason				list_del_init(&rbio->hash_list);
*dec95574SElena Reshetova				refcount_dec(&rbio->refs);
4ae10b3aSChris Mason				BUG_ON(!list_empty(&rbio->plug_list));
4ae10b3aSChris Mason			}
4ae10b3aSChris Mason		}
4ae10b3aSChris Mason	}
4ae10b3aSChris Mason
4ae10b3aSChris Mason	spin_unlock(&rbio->bio_list_lock);
4ae10b3aSChris Mason	spin_unlock(&h->lock);
4ae10b3aSChris Mason
4ae10b3aSChris Mason	if (freeit)
4ae10b3aSChris Mason		__free_raid_bio(rbio);
4ae10b3aSChris Mason}
4ae10b3aSChris Mason
4ae10b3aSChris Mason/*
4ae10b3aSChris Mason * prune a given rbio from the cache
4ae10b3aSChris Mason */
4ae10b3aSChris Masonstatic void remove_rbio_from_cache(struct btrfs_raid_bio *rbio)
4ae10b3aSChris Mason{
4ae10b3aSChris Mason	struct btrfs_stripe_hash_table *table;
4ae10b3aSChris Mason	unsigned long flags;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	if (!test_bit(RBIO_CACHE_BIT, &rbio->flags))
4ae10b3aSChris Mason		return;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	table = rbio->fs_info->stripe_hash_table;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	spin_lock_irqsave(&table->cache_lock, flags);
4ae10b3aSChris Mason	__remove_rbio_from_cache(rbio);
4ae10b3aSChris Mason	spin_unlock_irqrestore(&table->cache_lock, flags);
4ae10b3aSChris Mason}
4ae10b3aSChris Mason
4ae10b3aSChris Mason/*
4ae10b3aSChris Mason * remove everything in the cache
4ae10b3aSChris Mason */
48a3b636SEric Sandeenstatic void btrfs_clear_rbio_cache(struct btrfs_fs_info *info)
4ae10b3aSChris Mason{
4ae10b3aSChris Mason	struct btrfs_stripe_hash_table *table;
4ae10b3aSChris Mason	unsigned long flags;
4ae10b3aSChris Mason	struct btrfs_raid_bio *rbio;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	table = info->stripe_hash_table;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	spin_lock_irqsave(&table->cache_lock, flags);
4ae10b3aSChris Mason	while (!list_empty(&table->stripe_cache)) {
4ae10b3aSChris Mason		rbio = list_entry(table->stripe_cache.next,
4ae10b3aSChris Mason				  struct btrfs_raid_bio,
4ae10b3aSChris Mason				  stripe_cache);
4ae10b3aSChris Mason		__remove_rbio_from_cache(rbio);
4ae10b3aSChris Mason	}
4ae10b3aSChris Mason	spin_unlock_irqrestore(&table->cache_lock, flags);
4ae10b3aSChris Mason}
4ae10b3aSChris Mason
4ae10b3aSChris Mason/*
4ae10b3aSChris Mason * remove all cached entries and free the hash table
4ae10b3aSChris Mason * used by unmount
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousevoid btrfs_free_stripe_hash_table(struct btrfs_fs_info *info)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	if (!info->stripe_hash_table)
53b381b3SDavid Woodhouse		return;
4ae10b3aSChris Mason	btrfs_clear_rbio_cache(info);
f749303bSWang Shilong	kvfree(info->stripe_hash_table);
53b381b3SDavid Woodhouse	info->stripe_hash_table = NULL;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
4ae10b3aSChris Mason * insert an rbio into the stripe cache.  It
4ae10b3aSChris Mason * must have already been prepared by calling
4ae10b3aSChris Mason * cache_rbio_pages
4ae10b3aSChris Mason *
4ae10b3aSChris Mason * If this rbio was already cached, it gets
4ae10b3aSChris Mason * moved to the front of the lru.
4ae10b3aSChris Mason *
4ae10b3aSChris Mason * If the size of the rbio cache is too big, we
4ae10b3aSChris Mason * prune an item.
4ae10b3aSChris Mason */
4ae10b3aSChris Masonstatic void cache_rbio(struct btrfs_raid_bio *rbio)
4ae10b3aSChris Mason{
4ae10b3aSChris Mason	struct btrfs_stripe_hash_table *table;
4ae10b3aSChris Mason	unsigned long flags;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	if (!test_bit(RBIO_CACHE_READY_BIT, &rbio->flags))
4ae10b3aSChris Mason		return;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	table = rbio->fs_info->stripe_hash_table;
4ae10b3aSChris Mason
4ae10b3aSChris Mason	spin_lock_irqsave(&table->cache_lock, flags);
4ae10b3aSChris Mason	spin_lock(&rbio->bio_list_lock);
4ae10b3aSChris Mason
4ae10b3aSChris Mason	/* bump our ref if we were not in the list before */
4ae10b3aSChris Mason	if (!test_and_set_bit(RBIO_CACHE_BIT, &rbio->flags))
*dec95574SElena Reshetova		refcount_inc(&rbio->refs);
4ae10b3aSChris Mason
4ae10b3aSChris Mason	if (!list_empty(&rbio->stripe_cache)){
4ae10b3aSChris Mason		list_move(&rbio->stripe_cache, &table->stripe_cache);
4ae10b3aSChris Mason	} else {
4ae10b3aSChris Mason		list_add(&rbio->stripe_cache, &table->stripe_cache);
4ae10b3aSChris Mason		table->cache_size += 1;
4ae10b3aSChris Mason	}
4ae10b3aSChris Mason
4ae10b3aSChris Mason	spin_unlock(&rbio->bio_list_lock);
4ae10b3aSChris Mason
4ae10b3aSChris Mason	if (table->cache_size > RBIO_CACHE_SIZE) {
4ae10b3aSChris Mason		struct btrfs_raid_bio *found;
4ae10b3aSChris Mason
4ae10b3aSChris Mason		found = list_entry(table->stripe_cache.prev,
4ae10b3aSChris Mason				  struct btrfs_raid_bio,
4ae10b3aSChris Mason				  stripe_cache);
4ae10b3aSChris Mason
4ae10b3aSChris Mason		if (found != rbio)
4ae10b3aSChris Mason			__remove_rbio_from_cache(found);
4ae10b3aSChris Mason	}
4ae10b3aSChris Mason
4ae10b3aSChris Mason	spin_unlock_irqrestore(&table->cache_lock, flags);
4ae10b3aSChris Mason}
4ae10b3aSChris Mason
4ae10b3aSChris Mason/*
53b381b3SDavid Woodhouse * helper function to run the xor_blocks api.  It is only
53b381b3SDavid Woodhouse * able to do MAX_XOR_BLOCKS at a time, so we need to
53b381b3SDavid Woodhouse * loop through.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic void run_xor(void **pages, int src_cnt, ssize_t len)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int src_off = 0;
53b381b3SDavid Woodhouse	int xor_src_cnt = 0;
53b381b3SDavid Woodhouse	void *dest = pages[src_cnt];
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	while(src_cnt > 0) {
53b381b3SDavid Woodhouse		xor_src_cnt = min(src_cnt, MAX_XOR_BLOCKS);
53b381b3SDavid Woodhouse		xor_blocks(xor_src_cnt, len, dest, pages + src_off);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		src_cnt -= xor_src_cnt;
53b381b3SDavid Woodhouse		src_off += xor_src_cnt;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * returns true if the bio list inside this rbio
53b381b3SDavid Woodhouse * covers an entire stripe (no rmw required).
53b381b3SDavid Woodhouse * Must be called with the bio list lock held, or
53b381b3SDavid Woodhouse * at a time when you know it is impossible to add
53b381b3SDavid Woodhouse * new bios into the list
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int __rbio_is_full(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	unsigned long size = rbio->bio_list_bytes;
53b381b3SDavid Woodhouse	int ret = 1;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	if (size != rbio->nr_data * rbio->stripe_len)
53b381b3SDavid Woodhouse		ret = 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	BUG_ON(size > rbio->nr_data * rbio->stripe_len);
53b381b3SDavid Woodhouse	return ret;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic int rbio_is_full(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	unsigned long flags;
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	spin_lock_irqsave(&rbio->bio_list_lock, flags);
53b381b3SDavid Woodhouse	ret = __rbio_is_full(rbio);
53b381b3SDavid Woodhouse	spin_unlock_irqrestore(&rbio->bio_list_lock, flags);
53b381b3SDavid Woodhouse	return ret;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * returns 1 if it is safe to merge two rbios together.
53b381b3SDavid Woodhouse * The merging is safe if the two rbios correspond to
53b381b3SDavid Woodhouse * the same stripe and if they are both going in the same
53b381b3SDavid Woodhouse * direction (read vs write), and if neither one is
53b381b3SDavid Woodhouse * locked for final IO
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * The caller is responsible for locking such that
53b381b3SDavid Woodhouse * rmw_locked is safe to test
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int rbio_can_merge(struct btrfs_raid_bio *last,
53b381b3SDavid Woodhouse			  struct btrfs_raid_bio *cur)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	if (test_bit(RBIO_RMW_LOCKED_BIT, &last->flags) ||
53b381b3SDavid Woodhouse	    test_bit(RBIO_RMW_LOCKED_BIT, &cur->flags))
53b381b3SDavid Woodhouse		return 0;
53b381b3SDavid Woodhouse
4ae10b3aSChris Mason	/*
4ae10b3aSChris Mason	 * we can't merge with cached rbios, since the
4ae10b3aSChris Mason	 * idea is that when we merge the destination
4ae10b3aSChris Mason	 * rbio is going to run our IO for us.  We can
01327610SNicholas D Steeves	 * steal from cached rbios though, other functions
4ae10b3aSChris Mason	 * handle that.
4ae10b3aSChris Mason	 */
4ae10b3aSChris Mason	if (test_bit(RBIO_CACHE_BIT, &last->flags) ||
4ae10b3aSChris Mason	    test_bit(RBIO_CACHE_BIT, &cur->flags))
4ae10b3aSChris Mason		return 0;
4ae10b3aSChris Mason
8e5cfb55SZhao Lei	if (last->bbio->raid_map[0] !=
8e5cfb55SZhao Lei	    cur->bbio->raid_map[0])
53b381b3SDavid Woodhouse		return 0;
53b381b3SDavid Woodhouse
5a6ac9eaSMiao Xie	/* we can't merge with different operations */
5a6ac9eaSMiao Xie	if (last->operation != cur->operation)
53b381b3SDavid Woodhouse		return 0;
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * We've need read the full stripe from the drive.
5a6ac9eaSMiao Xie	 * check and repair the parity and write the new results.
5a6ac9eaSMiao Xie	 *
5a6ac9eaSMiao Xie	 * We're not allowed to add any new bios to the
5a6ac9eaSMiao Xie	 * bio list here, anyone else that wants to
5a6ac9eaSMiao Xie	 * change this stripe needs to do their own rmw.
5a6ac9eaSMiao Xie	 */
5a6ac9eaSMiao Xie	if (last->operation == BTRFS_RBIO_PARITY_SCRUB ||
5a6ac9eaSMiao Xie	    cur->operation == BTRFS_RBIO_PARITY_SCRUB)
5a6ac9eaSMiao Xie		return 0;
53b381b3SDavid Woodhouse
b4ee1782SOmar Sandoval	if (last->operation == BTRFS_RBIO_REBUILD_MISSING ||
b4ee1782SOmar Sandoval	    cur->operation == BTRFS_RBIO_REBUILD_MISSING)
b4ee1782SOmar Sandoval		return 0;
b4ee1782SOmar Sandoval
53b381b3SDavid Woodhouse	return 1;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
b7178a5fSZhao Leistatic int rbio_stripe_page_index(struct btrfs_raid_bio *rbio, int stripe,
b7178a5fSZhao Lei				  int index)
b7178a5fSZhao Lei{
b7178a5fSZhao Lei	return stripe * rbio->stripe_npages + index;
b7178a5fSZhao Lei}
b7178a5fSZhao Lei
b7178a5fSZhao Lei/*
b7178a5fSZhao Lei * these are just the pages from the rbio array, not from anything
b7178a5fSZhao Lei * the FS sent down to us
b7178a5fSZhao Lei */
b7178a5fSZhao Leistatic struct page *rbio_stripe_page(struct btrfs_raid_bio *rbio, int stripe,
b7178a5fSZhao Lei				     int index)
b7178a5fSZhao Lei{
b7178a5fSZhao Lei	return rbio->stripe_pages[rbio_stripe_page_index(rbio, stripe, index)];
b7178a5fSZhao Lei}
b7178a5fSZhao Lei
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * helper to index into the pstripe
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic struct page *rbio_pstripe_page(struct btrfs_raid_bio *rbio, int index)
53b381b3SDavid Woodhouse{
b7178a5fSZhao Lei	return rbio_stripe_page(rbio, rbio->nr_data, index);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * helper to index into the qstripe, returns null
53b381b3SDavid Woodhouse * if there is no qstripe
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic struct page *rbio_qstripe_page(struct btrfs_raid_bio *rbio, int index)
53b381b3SDavid Woodhouse{
2c8cdd6eSMiao Xie	if (rbio->nr_data + 1 == rbio->real_stripes)
53b381b3SDavid Woodhouse		return NULL;
b7178a5fSZhao Lei	return rbio_stripe_page(rbio, rbio->nr_data + 1, index);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * The first stripe in the table for a logical address
53b381b3SDavid Woodhouse * has the lock.  rbios are added in one of three ways:
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * 1) Nobody has the stripe locked yet.  The rbio is given
53b381b3SDavid Woodhouse * the lock and 0 is returned.  The caller must start the IO
53b381b3SDavid Woodhouse * themselves.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * 2) Someone has the stripe locked, but we're able to merge
53b381b3SDavid Woodhouse * with the lock owner.  The rbio is freed and the IO will
53b381b3SDavid Woodhouse * start automatically along with the existing rbio.  1 is returned.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * 3) Someone has the stripe locked, but we're not able to merge.
53b381b3SDavid Woodhouse * The rbio is added to the lock owner's plug list, or merged into
53b381b3SDavid Woodhouse * an rbio already on the plug list.  When the lock owner unlocks,
53b381b3SDavid Woodhouse * the next rbio on the list is run and the IO is started automatically.
53b381b3SDavid Woodhouse * 1 is returned
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * If we return 0, the caller still owns the rbio and must continue with
53b381b3SDavid Woodhouse * IO submission.  If we return 1, the caller must assume the rbio has
53b381b3SDavid Woodhouse * already been freed.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic noinline int lock_stripe_add(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int bucket = rbio_bucket(rbio);
53b381b3SDavid Woodhouse	struct btrfs_stripe_hash *h = rbio->fs_info->stripe_hash_table->table + bucket;
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *cur;
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *pending;
53b381b3SDavid Woodhouse	unsigned long flags;
53b381b3SDavid Woodhouse	DEFINE_WAIT(wait);
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *freeit = NULL;
4ae10b3aSChris Mason	struct btrfs_raid_bio *cache_drop = NULL;
53b381b3SDavid Woodhouse	int ret = 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	spin_lock_irqsave(&h->lock, flags);
53b381b3SDavid Woodhouse	list_for_each_entry(cur, &h->hash_list, hash_list) {
8e5cfb55SZhao Lei		if (cur->bbio->raid_map[0] == rbio->bbio->raid_map[0]) {
53b381b3SDavid Woodhouse			spin_lock(&cur->bio_list_lock);
53b381b3SDavid Woodhouse
4ae10b3aSChris Mason			/* can we steal this cached rbio's pages? */
4ae10b3aSChris Mason			if (bio_list_empty(&cur->bio_list) &&
4ae10b3aSChris Mason			    list_empty(&cur->plug_list) &&
4ae10b3aSChris Mason			    test_bit(RBIO_CACHE_BIT, &cur->flags) &&
4ae10b3aSChris Mason			    !test_bit(RBIO_RMW_LOCKED_BIT, &cur->flags)) {
4ae10b3aSChris Mason				list_del_init(&cur->hash_list);
*dec95574SElena Reshetova				refcount_dec(&cur->refs);
4ae10b3aSChris Mason
4ae10b3aSChris Mason				steal_rbio(cur, rbio);
4ae10b3aSChris Mason				cache_drop = cur;
4ae10b3aSChris Mason				spin_unlock(&cur->bio_list_lock);
4ae10b3aSChris Mason
4ae10b3aSChris Mason				goto lockit;
4ae10b3aSChris Mason			}
4ae10b3aSChris Mason
53b381b3SDavid Woodhouse			/* can we merge into the lock owner? */
53b381b3SDavid Woodhouse			if (rbio_can_merge(cur, rbio)) {
53b381b3SDavid Woodhouse				merge_rbio(cur, rbio);
53b381b3SDavid Woodhouse				spin_unlock(&cur->bio_list_lock);
53b381b3SDavid Woodhouse				freeit = rbio;
53b381b3SDavid Woodhouse				ret = 1;
53b381b3SDavid Woodhouse				goto out;
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse
4ae10b3aSChris Mason
53b381b3SDavid Woodhouse			/*
53b381b3SDavid Woodhouse			 * we couldn't merge with the running
53b381b3SDavid Woodhouse			 * rbio, see if we can merge with the
53b381b3SDavid Woodhouse			 * pending ones.  We don't have to
53b381b3SDavid Woodhouse			 * check for rmw_locked because there
53b381b3SDavid Woodhouse			 * is no way they are inside finish_rmw
53b381b3SDavid Woodhouse			 * right now
53b381b3SDavid Woodhouse			 */
53b381b3SDavid Woodhouse			list_for_each_entry(pending, &cur->plug_list,
53b381b3SDavid Woodhouse					    plug_list) {
53b381b3SDavid Woodhouse				if (rbio_can_merge(pending, rbio)) {
53b381b3SDavid Woodhouse					merge_rbio(pending, rbio);
53b381b3SDavid Woodhouse					spin_unlock(&cur->bio_list_lock);
53b381b3SDavid Woodhouse					freeit = rbio;
53b381b3SDavid Woodhouse					ret = 1;
53b381b3SDavid Woodhouse					goto out;
53b381b3SDavid Woodhouse				}
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/* no merging, put us on the tail of the plug list,
53b381b3SDavid Woodhouse			 * our rbio will be started with the currently
53b381b3SDavid Woodhouse			 * running rbio unlocks
53b381b3SDavid Woodhouse			 */
53b381b3SDavid Woodhouse			list_add_tail(&rbio->plug_list, &cur->plug_list);
53b381b3SDavid Woodhouse			spin_unlock(&cur->bio_list_lock);
53b381b3SDavid Woodhouse			ret = 1;
53b381b3SDavid Woodhouse			goto out;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
4ae10b3aSChris Masonlockit:
*dec95574SElena Reshetova	refcount_inc(&rbio->refs);
53b381b3SDavid Woodhouse	list_add(&rbio->hash_list, &h->hash_list);
53b381b3SDavid Woodhouseout:
53b381b3SDavid Woodhouse	spin_unlock_irqrestore(&h->lock, flags);
4ae10b3aSChris Mason	if (cache_drop)
4ae10b3aSChris Mason		remove_rbio_from_cache(cache_drop);
53b381b3SDavid Woodhouse	if (freeit)
53b381b3SDavid Woodhouse		__free_raid_bio(freeit);
53b381b3SDavid Woodhouse	return ret;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * called as rmw or parity rebuild is completed.  If the plug list has more
53b381b3SDavid Woodhouse * rbios waiting for this stripe, the next one on the list will be started
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic noinline void unlock_stripe(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int bucket;
53b381b3SDavid Woodhouse	struct btrfs_stripe_hash *h;
53b381b3SDavid Woodhouse	unsigned long flags;
4ae10b3aSChris Mason	int keep_cache = 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bucket = rbio_bucket(rbio);
53b381b3SDavid Woodhouse	h = rbio->fs_info->stripe_hash_table->table + bucket;
53b381b3SDavid Woodhouse
4ae10b3aSChris Mason	if (list_empty(&rbio->plug_list))
4ae10b3aSChris Mason		cache_rbio(rbio);
4ae10b3aSChris Mason
53b381b3SDavid Woodhouse	spin_lock_irqsave(&h->lock, flags);
53b381b3SDavid Woodhouse	spin_lock(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	if (!list_empty(&rbio->hash_list)) {
4ae10b3aSChris Mason		/*
4ae10b3aSChris Mason		 * if we're still cached and there is no other IO
4ae10b3aSChris Mason		 * to perform, just leave this rbio here for others
4ae10b3aSChris Mason		 * to steal from later
4ae10b3aSChris Mason		 */
4ae10b3aSChris Mason		if (list_empty(&rbio->plug_list) &&
4ae10b3aSChris Mason		    test_bit(RBIO_CACHE_BIT, &rbio->flags)) {
4ae10b3aSChris Mason			keep_cache = 1;
4ae10b3aSChris Mason			clear_bit(RBIO_RMW_LOCKED_BIT, &rbio->flags);
4ae10b3aSChris Mason			BUG_ON(!bio_list_empty(&rbio->bio_list));
4ae10b3aSChris Mason			goto done;
4ae10b3aSChris Mason		}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		list_del_init(&rbio->hash_list);
*dec95574SElena Reshetova		refcount_dec(&rbio->refs);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		/*
53b381b3SDavid Woodhouse		 * we use the plug list to hold all the rbios
53b381b3SDavid Woodhouse		 * waiting for the chance to lock this stripe.
53b381b3SDavid Woodhouse		 * hand the lock over to one of them.
53b381b3SDavid Woodhouse		 */
53b381b3SDavid Woodhouse		if (!list_empty(&rbio->plug_list)) {
53b381b3SDavid Woodhouse			struct btrfs_raid_bio *next;
53b381b3SDavid Woodhouse			struct list_head *head = rbio->plug_list.next;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			next = list_entry(head, struct btrfs_raid_bio,
53b381b3SDavid Woodhouse					  plug_list);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			list_del_init(&rbio->plug_list);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			list_add(&next->hash_list, &h->hash_list);
*dec95574SElena Reshetova			refcount_inc(&next->refs);
53b381b3SDavid Woodhouse			spin_unlock(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse			spin_unlock_irqrestore(&h->lock, flags);
53b381b3SDavid Woodhouse
1b94b556SMiao Xie			if (next->operation == BTRFS_RBIO_READ_REBUILD)
53b381b3SDavid Woodhouse				async_read_rebuild(next);
b4ee1782SOmar Sandoval			else if (next->operation == BTRFS_RBIO_REBUILD_MISSING) {
b4ee1782SOmar Sandoval				steal_rbio(rbio, next);
b4ee1782SOmar Sandoval				async_read_rebuild(next);
b4ee1782SOmar Sandoval			} else if (next->operation == BTRFS_RBIO_WRITE) {
4ae10b3aSChris Mason				steal_rbio(rbio, next);
53b381b3SDavid Woodhouse				async_rmw_stripe(next);
5a6ac9eaSMiao Xie			} else if (next->operation == BTRFS_RBIO_PARITY_SCRUB) {
5a6ac9eaSMiao Xie				steal_rbio(rbio, next);
5a6ac9eaSMiao Xie				async_scrub_parity(next);
4ae10b3aSChris Mason			}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			goto done_nolock;
33a9eca7SDavid Sterba			/*
33a9eca7SDavid Sterba			 * The barrier for this waitqueue_active is not needed,
33a9eca7SDavid Sterba			 * we're protected by h->lock and can't miss a wakeup.
33a9eca7SDavid Sterba			 */
53b381b3SDavid Woodhouse		} else if (waitqueue_active(&h->wait)) {
53b381b3SDavid Woodhouse			spin_unlock(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse			spin_unlock_irqrestore(&h->lock, flags);
53b381b3SDavid Woodhouse			wake_up(&h->wait);
53b381b3SDavid Woodhouse			goto done_nolock;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
4ae10b3aSChris Masondone:
53b381b3SDavid Woodhouse	spin_unlock(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse	spin_unlock_irqrestore(&h->lock, flags);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousedone_nolock:
4ae10b3aSChris Mason	if (!keep_cache)
4ae10b3aSChris Mason		remove_rbio_from_cache(rbio);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic void __free_raid_bio(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse
*dec95574SElena Reshetova	if (!refcount_dec_and_test(&rbio->refs))
53b381b3SDavid Woodhouse		return;
53b381b3SDavid Woodhouse
4ae10b3aSChris Mason	WARN_ON(!list_empty(&rbio->stripe_cache));
53b381b3SDavid Woodhouse	WARN_ON(!list_empty(&rbio->hash_list));
53b381b3SDavid Woodhouse	WARN_ON(!bio_list_empty(&rbio->bio_list));
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	for (i = 0; i < rbio->nr_pages; i++) {
53b381b3SDavid Woodhouse		if (rbio->stripe_pages[i]) {
53b381b3SDavid Woodhouse			__free_page(rbio->stripe_pages[i]);
53b381b3SDavid Woodhouse			rbio->stripe_pages[i] = NULL;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
af8e2d1dSMiao Xie
6e9606d2SZhao Lei	btrfs_put_bbio(rbio->bbio);
53b381b3SDavid Woodhouse	kfree(rbio);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic void free_raid_bio(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	unlock_stripe(rbio);
53b381b3SDavid Woodhouse	__free_raid_bio(rbio);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * this frees the rbio and runs through all the bios in the
53b381b3SDavid Woodhouse * bio_list and calls end_io on them
53b381b3SDavid Woodhouse */
4246a0b6SChristoph Hellwigstatic void rbio_orig_end_io(struct btrfs_raid_bio *rbio, int err)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct bio *cur = bio_list_get(&rbio->bio_list);
53b381b3SDavid Woodhouse	struct bio *next;
4245215dSMiao Xie
4245215dSMiao Xie	if (rbio->generic_bio_cnt)
4245215dSMiao Xie		btrfs_bio_counter_sub(rbio->fs_info, rbio->generic_bio_cnt);
4245215dSMiao Xie
53b381b3SDavid Woodhouse	free_raid_bio(rbio);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	while (cur) {
53b381b3SDavid Woodhouse		next = cur->bi_next;
53b381b3SDavid Woodhouse		cur->bi_next = NULL;
4246a0b6SChristoph Hellwig		cur->bi_error = err;
4246a0b6SChristoph Hellwig		bio_endio(cur);
53b381b3SDavid Woodhouse		cur = next;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * end io function used by finish_rmw.  When we finally
53b381b3SDavid Woodhouse * get here, we've written a full stripe
53b381b3SDavid Woodhouse */
4246a0b6SChristoph Hellwigstatic void raid_write_end_io(struct bio *bio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio = bio->bi_private;
4246a0b6SChristoph Hellwig	int err = bio->bi_error;
a6111d11SZhao Lei	int max_errors;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	if (err)
53b381b3SDavid Woodhouse		fail_bio_stripe(rbio, bio);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bio_put(bio);
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	if (!atomic_dec_and_test(&rbio->stripes_pending))
53b381b3SDavid Woodhouse		return;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	err = 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* OK, we have read all the stripes we need to. */
a6111d11SZhao Lei	max_errors = (rbio->operation == BTRFS_RBIO_PARITY_SCRUB) ?
a6111d11SZhao Lei		     0 : rbio->bbio->max_errors;
a6111d11SZhao Lei	if (atomic_read(&rbio->error) > max_errors)
53b381b3SDavid Woodhouse		err = -EIO;
53b381b3SDavid Woodhouse
4246a0b6SChristoph Hellwig	rbio_orig_end_io(rbio, err);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * the read/modify/write code wants to use the original bio for
53b381b3SDavid Woodhouse * any pages it included, and then use the rbio for everything
53b381b3SDavid Woodhouse * else.  This function decides if a given index (stripe number)
53b381b3SDavid Woodhouse * and page number in that stripe fall inside the original bio
53b381b3SDavid Woodhouse * or the rbio.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * if you set bio_list_only, you'll get a NULL back for any ranges
53b381b3SDavid Woodhouse * that are outside the bio_list
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * This doesn't take any refs on anything, you get a bare page pointer
53b381b3SDavid Woodhouse * and the caller must bump refs as required.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * You must call index_rbio_pages once before you can trust
53b381b3SDavid Woodhouse * the answers from this function.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic struct page *page_in_rbio(struct btrfs_raid_bio *rbio,
53b381b3SDavid Woodhouse				 int index, int pagenr, int bio_list_only)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int chunk_page;
53b381b3SDavid Woodhouse	struct page *p = NULL;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	chunk_page = index * (rbio->stripe_len >> PAGE_SHIFT) + pagenr;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	spin_lock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse	p = rbio->bio_pages[chunk_page];
53b381b3SDavid Woodhouse	spin_unlock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	if (p || bio_list_only)
53b381b3SDavid Woodhouse		return p;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	return rbio->stripe_pages[chunk_page];
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * number of pages we need for the entire stripe across all the
53b381b3SDavid Woodhouse * drives
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic unsigned long rbio_nr_pages(unsigned long stripe_len, int nr_stripes)
53b381b3SDavid Woodhouse{
09cbfeafSKirill A. Shutemov	return DIV_ROUND_UP(stripe_len, PAGE_SIZE) * nr_stripes;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * allocation and initial setup for the btrfs_raid_bio.  Not
53b381b3SDavid Woodhouse * this does not allocate any pages for rbio->pages.
53b381b3SDavid Woodhouse */
2ff7e61eSJeff Mahoneystatic struct btrfs_raid_bio *alloc_rbio(struct btrfs_fs_info *fs_info,
2ff7e61eSJeff Mahoney					 struct btrfs_bio *bbio,
2ff7e61eSJeff Mahoney					 u64 stripe_len)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio;
53b381b3SDavid Woodhouse	int nr_data = 0;
2c8cdd6eSMiao Xie	int real_stripes = bbio->num_stripes - bbio->num_tgtdevs;
2c8cdd6eSMiao Xie	int num_pages = rbio_nr_pages(stripe_len, real_stripes);
5a6ac9eaSMiao Xie	int stripe_npages = DIV_ROUND_UP(stripe_len, PAGE_SIZE);
53b381b3SDavid Woodhouse	void *p;
53b381b3SDavid Woodhouse
5a6ac9eaSMiao Xie	rbio = kzalloc(sizeof(*rbio) + num_pages * sizeof(struct page *) * 2 +
bfca9a6dSZhao Lei		       DIV_ROUND_UP(stripe_npages, BITS_PER_LONG) *
bfca9a6dSZhao Lei		       sizeof(long), GFP_NOFS);
af8e2d1dSMiao Xie	if (!rbio)
53b381b3SDavid Woodhouse		return ERR_PTR(-ENOMEM);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bio_list_init(&rbio->bio_list);
53b381b3SDavid Woodhouse	INIT_LIST_HEAD(&rbio->plug_list);
53b381b3SDavid Woodhouse	spin_lock_init(&rbio->bio_list_lock);
4ae10b3aSChris Mason	INIT_LIST_HEAD(&rbio->stripe_cache);
53b381b3SDavid Woodhouse	INIT_LIST_HEAD(&rbio->hash_list);
53b381b3SDavid Woodhouse	rbio->bbio = bbio;
2ff7e61eSJeff Mahoney	rbio->fs_info = fs_info;
53b381b3SDavid Woodhouse	rbio->stripe_len = stripe_len;
53b381b3SDavid Woodhouse	rbio->nr_pages = num_pages;
2c8cdd6eSMiao Xie	rbio->real_stripes = real_stripes;
5a6ac9eaSMiao Xie	rbio->stripe_npages = stripe_npages;
53b381b3SDavid Woodhouse	rbio->faila = -1;
53b381b3SDavid Woodhouse	rbio->failb = -1;
*dec95574SElena Reshetova	refcount_set(&rbio->refs, 1);
b89e1b01SMiao Xie	atomic_set(&rbio->error, 0);
b89e1b01SMiao Xie	atomic_set(&rbio->stripes_pending, 0);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * the stripe_pages and bio_pages array point to the extra
53b381b3SDavid Woodhouse	 * memory we allocated past the end of the rbio
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	p = rbio + 1;
53b381b3SDavid Woodhouse	rbio->stripe_pages = p;
53b381b3SDavid Woodhouse	rbio->bio_pages = p + sizeof(struct page *) * num_pages;
5a6ac9eaSMiao Xie	rbio->dbitmap = p + sizeof(struct page *) * num_pages * 2;
53b381b3SDavid Woodhouse
10f11900SZhao Lei	if (bbio->map_type & BTRFS_BLOCK_GROUP_RAID5)
10f11900SZhao Lei		nr_data = real_stripes - 1;
10f11900SZhao Lei	else if (bbio->map_type & BTRFS_BLOCK_GROUP_RAID6)
2c8cdd6eSMiao Xie		nr_data = real_stripes - 2;
53b381b3SDavid Woodhouse	else
10f11900SZhao Lei		BUG();
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	rbio->nr_data = nr_data;
53b381b3SDavid Woodhouse	return rbio;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/* allocate pages for all the stripes in the bio, including parity */
53b381b3SDavid Woodhousestatic int alloc_rbio_pages(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse	struct page *page;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	for (i = 0; i < rbio->nr_pages; i++) {
53b381b3SDavid Woodhouse		if (rbio->stripe_pages[i])
53b381b3SDavid Woodhouse			continue;
53b381b3SDavid Woodhouse		page = alloc_page(GFP_NOFS | __GFP_HIGHMEM);
53b381b3SDavid Woodhouse		if (!page)
53b381b3SDavid Woodhouse			return -ENOMEM;
53b381b3SDavid Woodhouse		rbio->stripe_pages[i] = page;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
b7178a5fSZhao Lei/* only allocate pages for p/q stripes */
53b381b3SDavid Woodhousestatic int alloc_rbio_parity_pages(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse	struct page *page;
53b381b3SDavid Woodhouse
b7178a5fSZhao Lei	i = rbio_stripe_page_index(rbio, rbio->nr_data, 0);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	for (; i < rbio->nr_pages; i++) {
53b381b3SDavid Woodhouse		if (rbio->stripe_pages[i])
53b381b3SDavid Woodhouse			continue;
53b381b3SDavid Woodhouse		page = alloc_page(GFP_NOFS | __GFP_HIGHMEM);
53b381b3SDavid Woodhouse		if (!page)
53b381b3SDavid Woodhouse			return -ENOMEM;
53b381b3SDavid Woodhouse		rbio->stripe_pages[i] = page;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * add a single page from a specific stripe into our list of bios for IO
53b381b3SDavid Woodhouse * this will try to merge into existing bios if possible, and returns
53b381b3SDavid Woodhouse * zero if all went well.
53b381b3SDavid Woodhouse */
48a3b636SEric Sandeenstatic int rbio_add_io_page(struct btrfs_raid_bio *rbio,
53b381b3SDavid Woodhouse			    struct bio_list *bio_list,
53b381b3SDavid Woodhouse			    struct page *page,
53b381b3SDavid Woodhouse			    int stripe_nr,
53b381b3SDavid Woodhouse			    unsigned long page_index,
53b381b3SDavid Woodhouse			    unsigned long bio_max_len)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct bio *last = bio_list->tail;
53b381b3SDavid Woodhouse	u64 last_end = 0;
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse	struct bio *bio;
53b381b3SDavid Woodhouse	struct btrfs_bio_stripe *stripe;
53b381b3SDavid Woodhouse	u64 disk_start;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	stripe = &rbio->bbio->stripes[stripe_nr];
09cbfeafSKirill A. Shutemov	disk_start = stripe->physical + (page_index << PAGE_SHIFT);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* if the device is missing, just fail this stripe */
53b381b3SDavid Woodhouse	if (!stripe->dev->bdev)
53b381b3SDavid Woodhouse		return fail_rbio_index(rbio, stripe_nr);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* see if we can add this page onto our existing bio */
53b381b3SDavid Woodhouse	if (last) {
4f024f37SKent Overstreet		last_end = (u64)last->bi_iter.bi_sector << 9;
4f024f37SKent Overstreet		last_end += last->bi_iter.bi_size;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		/*
53b381b3SDavid Woodhouse		 * we can't merge these if they are from different
53b381b3SDavid Woodhouse		 * devices or if they are not contiguous
53b381b3SDavid Woodhouse		 */
53b381b3SDavid Woodhouse		if (last_end == disk_start && stripe->dev->bdev &&
4246a0b6SChristoph Hellwig		    !last->bi_error &&
53b381b3SDavid Woodhouse		    last->bi_bdev == stripe->dev->bdev) {
09cbfeafSKirill A. Shutemov			ret = bio_add_page(last, page, PAGE_SIZE, 0);
09cbfeafSKirill A. Shutemov			if (ret == PAGE_SIZE)
53b381b3SDavid Woodhouse				return 0;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* put a new bio on the list */
9be3395bSChris Mason	bio = btrfs_io_bio_alloc(GFP_NOFS, bio_max_len >> PAGE_SHIFT?:1);
53b381b3SDavid Woodhouse	if (!bio)
53b381b3SDavid Woodhouse		return -ENOMEM;
53b381b3SDavid Woodhouse
4f024f37SKent Overstreet	bio->bi_iter.bi_size = 0;
53b381b3SDavid Woodhouse	bio->bi_bdev = stripe->dev->bdev;
4f024f37SKent Overstreet	bio->bi_iter.bi_sector = disk_start >> 9;
53b381b3SDavid Woodhouse
09cbfeafSKirill A. Shutemov	bio_add_page(bio, page, PAGE_SIZE, 0);
53b381b3SDavid Woodhouse	bio_list_add(bio_list, bio);
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * while we're doing the read/modify/write cycle, we could
53b381b3SDavid Woodhouse * have errors in reading pages off the disk.  This checks
53b381b3SDavid Woodhouse * for errors and if we're not able to read the page it'll
53b381b3SDavid Woodhouse * trigger parity reconstruction.  The rmw will be finished
53b381b3SDavid Woodhouse * after we've reconstructed the failed stripes
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic void validate_rbio_for_rmw(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	if (rbio->faila >= 0 || rbio->failb >= 0) {
2c8cdd6eSMiao Xie		BUG_ON(rbio->faila == rbio->real_stripes - 1);
53b381b3SDavid Woodhouse		__raid56_parity_recover(rbio);
53b381b3SDavid Woodhouse	} else {
53b381b3SDavid Woodhouse		finish_rmw(rbio);
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * helper function to walk our bio list and populate the bio_pages array with
53b381b3SDavid Woodhouse * the result.  This seems expensive, but it is faster than constantly
53b381b3SDavid Woodhouse * searching through the bio list as we setup the IO in finish_rmw or stripe
53b381b3SDavid Woodhouse * reconstruction.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * This must be called before you trust the answers from page_in_rbio
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic void index_rbio_pages(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct bio *bio;
80ace3e4SChristoph Hellwig	struct bio_vec *bvec;
53b381b3SDavid Woodhouse	u64 start;
53b381b3SDavid Woodhouse	unsigned long stripe_offset;
53b381b3SDavid Woodhouse	unsigned long page_index;
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	spin_lock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse	bio_list_for_each(bio, &rbio->bio_list) {
4f024f37SKent Overstreet		start = (u64)bio->bi_iter.bi_sector << 9;
8e5cfb55SZhao Lei		stripe_offset = start - rbio->bbio->raid_map[0];
09cbfeafSKirill A. Shutemov		page_index = stripe_offset >> PAGE_SHIFT;
53b381b3SDavid Woodhouse
80ace3e4SChristoph Hellwig		bio_for_each_segment_all(bvec, bio, i)
80ace3e4SChristoph Hellwig			rbio->bio_pages[page_index + i] = bvec->bv_page;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse	spin_unlock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * this is called from one of two situations.  We either
53b381b3SDavid Woodhouse * have a full stripe from the higher layers, or we've read all
53b381b3SDavid Woodhouse * the missing bits off disk.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * This will calculate the parity and then send down any
53b381b3SDavid Woodhouse * changed blocks.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic noinline void finish_rmw(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_bio *bbio = rbio->bbio;
2c8cdd6eSMiao Xie	void *pointers[rbio->real_stripes];
53b381b3SDavid Woodhouse	int nr_data = rbio->nr_data;
53b381b3SDavid Woodhouse	int stripe;
53b381b3SDavid Woodhouse	int pagenr;
53b381b3SDavid Woodhouse	int p_stripe = -1;
53b381b3SDavid Woodhouse	int q_stripe = -1;
53b381b3SDavid Woodhouse	struct bio_list bio_list;
53b381b3SDavid Woodhouse	struct bio *bio;
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bio_list_init(&bio_list);
53b381b3SDavid Woodhouse
2c8cdd6eSMiao Xie	if (rbio->real_stripes - rbio->nr_data == 1) {
2c8cdd6eSMiao Xie		p_stripe = rbio->real_stripes - 1;
2c8cdd6eSMiao Xie	} else if (rbio->real_stripes - rbio->nr_data == 2) {
2c8cdd6eSMiao Xie		p_stripe = rbio->real_stripes - 2;
2c8cdd6eSMiao Xie		q_stripe = rbio->real_stripes - 1;
53b381b3SDavid Woodhouse	} else {
53b381b3SDavid Woodhouse		BUG();
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* at this point we either have a full stripe,
53b381b3SDavid Woodhouse	 * or we've read the full stripe from the drive.
53b381b3SDavid Woodhouse	 * recalculate the parity and write the new results.
53b381b3SDavid Woodhouse	 *
53b381b3SDavid Woodhouse	 * We're not allowed to add any new bios to the
53b381b3SDavid Woodhouse	 * bio list here, anyone else that wants to
53b381b3SDavid Woodhouse	 * change this stripe needs to do their own rmw.
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	spin_lock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse	set_bit(RBIO_RMW_LOCKED_BIT, &rbio->flags);
53b381b3SDavid Woodhouse	spin_unlock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	atomic_set(&rbio->error, 0);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * now that we've set rmw_locked, run through the
53b381b3SDavid Woodhouse	 * bio list one last time and map the page pointers
4ae10b3aSChris Mason	 *
4ae10b3aSChris Mason	 * We don't cache full rbios because we're assuming
4ae10b3aSChris Mason	 * the higher layers are unlikely to use this area of
4ae10b3aSChris Mason	 * the disk again soon.  If they do use it again,
4ae10b3aSChris Mason	 * hopefully they will send another full bio.
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	index_rbio_pages(rbio);
4ae10b3aSChris Mason	if (!rbio_is_full(rbio))
4ae10b3aSChris Mason		cache_rbio_pages(rbio);
4ae10b3aSChris Mason	else
4ae10b3aSChris Mason		clear_bit(RBIO_CACHE_READY_BIT, &rbio->flags);
53b381b3SDavid Woodhouse
915e2290SZhao Lei	for (pagenr = 0; pagenr < rbio->stripe_npages; pagenr++) {
53b381b3SDavid Woodhouse		struct page *p;
53b381b3SDavid Woodhouse		/* first collect one page from each data stripe */
53b381b3SDavid Woodhouse		for (stripe = 0; stripe < nr_data; stripe++) {
53b381b3SDavid Woodhouse			p = page_in_rbio(rbio, stripe, pagenr, 0);
53b381b3SDavid Woodhouse			pointers[stripe] = kmap(p);
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		/* then add the parity stripe */
53b381b3SDavid Woodhouse		p = rbio_pstripe_page(rbio, pagenr);
53b381b3SDavid Woodhouse		SetPageUptodate(p);
53b381b3SDavid Woodhouse		pointers[stripe++] = kmap(p);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		if (q_stripe != -1) {
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/*
53b381b3SDavid Woodhouse			 * raid6, add the qstripe and call the
53b381b3SDavid Woodhouse			 * library function to fill in our p/q
53b381b3SDavid Woodhouse			 */
53b381b3SDavid Woodhouse			p = rbio_qstripe_page(rbio, pagenr);
53b381b3SDavid Woodhouse			SetPageUptodate(p);
53b381b3SDavid Woodhouse			pointers[stripe++] = kmap(p);
53b381b3SDavid Woodhouse
2c8cdd6eSMiao Xie			raid6_call.gen_syndrome(rbio->real_stripes, PAGE_SIZE,
53b381b3SDavid Woodhouse						pointers);
53b381b3SDavid Woodhouse		} else {
53b381b3SDavid Woodhouse			/* raid5 */
53b381b3SDavid Woodhouse			memcpy(pointers[nr_data], pointers[0], PAGE_SIZE);
09cbfeafSKirill A. Shutemov			run_xor(pointers + 1, nr_data - 1, PAGE_SIZE);
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse
2c8cdd6eSMiao Xie		for (stripe = 0; stripe < rbio->real_stripes; stripe++)
53b381b3SDavid Woodhouse			kunmap(page_in_rbio(rbio, stripe, pagenr, 0));
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * time to start writing.  Make bios for everything from the
53b381b3SDavid Woodhouse	 * higher layers (the bio_list in our rbio) and our p/q.  Ignore
53b381b3SDavid Woodhouse	 * everything else.
53b381b3SDavid Woodhouse	 */
2c8cdd6eSMiao Xie	for (stripe = 0; stripe < rbio->real_stripes; stripe++) {
915e2290SZhao Lei		for (pagenr = 0; pagenr < rbio->stripe_npages; pagenr++) {
53b381b3SDavid Woodhouse			struct page *page;
53b381b3SDavid Woodhouse			if (stripe < rbio->nr_data) {
53b381b3SDavid Woodhouse				page = page_in_rbio(rbio, stripe, pagenr, 1);
53b381b3SDavid Woodhouse				if (!page)
53b381b3SDavid Woodhouse					continue;
53b381b3SDavid Woodhouse			} else {
53b381b3SDavid Woodhouse			       page = rbio_stripe_page(rbio, stripe, pagenr);
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			ret = rbio_add_io_page(rbio, &bio_list,
53b381b3SDavid Woodhouse				       page, stripe, pagenr, rbio->stripe_len);
53b381b3SDavid Woodhouse			if (ret)
53b381b3SDavid Woodhouse				goto cleanup;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
2c8cdd6eSMiao Xie	if (likely(!bbio->num_tgtdevs))
2c8cdd6eSMiao Xie		goto write_data;
2c8cdd6eSMiao Xie
2c8cdd6eSMiao Xie	for (stripe = 0; stripe < rbio->real_stripes; stripe++) {
2c8cdd6eSMiao Xie		if (!bbio->tgtdev_map[stripe])
2c8cdd6eSMiao Xie			continue;
2c8cdd6eSMiao Xie
915e2290SZhao Lei		for (pagenr = 0; pagenr < rbio->stripe_npages; pagenr++) {
2c8cdd6eSMiao Xie			struct page *page;
2c8cdd6eSMiao Xie			if (stripe < rbio->nr_data) {
2c8cdd6eSMiao Xie				page = page_in_rbio(rbio, stripe, pagenr, 1);
2c8cdd6eSMiao Xie				if (!page)
2c8cdd6eSMiao Xie					continue;
2c8cdd6eSMiao Xie			} else {
2c8cdd6eSMiao Xie			       page = rbio_stripe_page(rbio, stripe, pagenr);
2c8cdd6eSMiao Xie			}
2c8cdd6eSMiao Xie
2c8cdd6eSMiao Xie			ret = rbio_add_io_page(rbio, &bio_list, page,
2c8cdd6eSMiao Xie					       rbio->bbio->tgtdev_map[stripe],
2c8cdd6eSMiao Xie					       pagenr, rbio->stripe_len);
2c8cdd6eSMiao Xie			if (ret)
2c8cdd6eSMiao Xie				goto cleanup;
2c8cdd6eSMiao Xie		}
2c8cdd6eSMiao Xie	}
2c8cdd6eSMiao Xie
2c8cdd6eSMiao Xiewrite_data:
b89e1b01SMiao Xie	atomic_set(&rbio->stripes_pending, bio_list_size(&bio_list));
b89e1b01SMiao Xie	BUG_ON(atomic_read(&rbio->stripes_pending) == 0);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	while (1) {
53b381b3SDavid Woodhouse		bio = bio_list_pop(&bio_list);
53b381b3SDavid Woodhouse		if (!bio)
53b381b3SDavid Woodhouse			break;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		bio->bi_private = rbio;
53b381b3SDavid Woodhouse		bio->bi_end_io = raid_write_end_io;
37226b21SMike Christie		bio_set_op_attrs(bio, REQ_OP_WRITE, 0);
4e49ea4aSMike Christie
4e49ea4aSMike Christie		submit_bio(bio);
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse	return;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousecleanup:
4246a0b6SChristoph Hellwig	rbio_orig_end_io(rbio, -EIO);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * helper to find the stripe number for a given bio.  Used to figure out which
53b381b3SDavid Woodhouse * stripe has failed.  This expects the bio to correspond to a physical disk,
53b381b3SDavid Woodhouse * so it looks up based on physical sector numbers.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int find_bio_stripe(struct btrfs_raid_bio *rbio,
53b381b3SDavid Woodhouse			   struct bio *bio)
53b381b3SDavid Woodhouse{
4f024f37SKent Overstreet	u64 physical = bio->bi_iter.bi_sector;
53b381b3SDavid Woodhouse	u64 stripe_start;
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse	struct btrfs_bio_stripe *stripe;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	physical <<= 9;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	for (i = 0; i < rbio->bbio->num_stripes; i++) {
53b381b3SDavid Woodhouse		stripe = &rbio->bbio->stripes[i];
53b381b3SDavid Woodhouse		stripe_start = stripe->physical;
53b381b3SDavid Woodhouse		if (physical >= stripe_start &&
2c8cdd6eSMiao Xie		    physical < stripe_start + rbio->stripe_len &&
2c8cdd6eSMiao Xie		    bio->bi_bdev == stripe->dev->bdev) {
53b381b3SDavid Woodhouse			return i;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse	return -1;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * helper to find the stripe number for a given
53b381b3SDavid Woodhouse * bio (before mapping).  Used to figure out which stripe has
53b381b3SDavid Woodhouse * failed.  This looks up based on logical block numbers.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int find_logical_bio_stripe(struct btrfs_raid_bio *rbio,
53b381b3SDavid Woodhouse				   struct bio *bio)
53b381b3SDavid Woodhouse{
4f024f37SKent Overstreet	u64 logical = bio->bi_iter.bi_sector;
53b381b3SDavid Woodhouse	u64 stripe_start;
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	logical <<= 9;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	for (i = 0; i < rbio->nr_data; i++) {
8e5cfb55SZhao Lei		stripe_start = rbio->bbio->raid_map[i];
53b381b3SDavid Woodhouse		if (logical >= stripe_start &&
53b381b3SDavid Woodhouse		    logical < stripe_start + rbio->stripe_len) {
53b381b3SDavid Woodhouse			return i;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse	return -1;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * returns -EIO if we had too many failures
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int fail_rbio_index(struct btrfs_raid_bio *rbio, int failed)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	unsigned long flags;
53b381b3SDavid Woodhouse	int ret = 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	spin_lock_irqsave(&rbio->bio_list_lock, flags);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/* we already know this stripe is bad, move on */
53b381b3SDavid Woodhouse	if (rbio->faila == failed || rbio->failb == failed)
53b381b3SDavid Woodhouse		goto out;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	if (rbio->faila == -1) {
53b381b3SDavid Woodhouse		/* first failure on this rbio */
53b381b3SDavid Woodhouse		rbio->faila = failed;
b89e1b01SMiao Xie		atomic_inc(&rbio->error);
53b381b3SDavid Woodhouse	} else if (rbio->failb == -1) {
53b381b3SDavid Woodhouse		/* second failure on this rbio */
53b381b3SDavid Woodhouse		rbio->failb = failed;
b89e1b01SMiao Xie		atomic_inc(&rbio->error);
53b381b3SDavid Woodhouse	} else {
53b381b3SDavid Woodhouse		ret = -EIO;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouseout:
53b381b3SDavid Woodhouse	spin_unlock_irqrestore(&rbio->bio_list_lock, flags);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	return ret;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * helper to fail a stripe based on a physical disk
53b381b3SDavid Woodhouse * bio.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int fail_bio_stripe(struct btrfs_raid_bio *rbio,
53b381b3SDavid Woodhouse			   struct bio *bio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int failed = find_bio_stripe(rbio, bio);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	if (failed < 0)
53b381b3SDavid Woodhouse		return -EIO;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	return fail_rbio_index(rbio, failed);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * this sets each page in the bio uptodate.  It should only be used on private
53b381b3SDavid Woodhouse * rbio pages, nothing that comes in from the higher layers
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic void set_bio_pages_uptodate(struct bio *bio)
53b381b3SDavid Woodhouse{
80ace3e4SChristoph Hellwig	struct bio_vec *bvec;
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse
80ace3e4SChristoph Hellwig	bio_for_each_segment_all(bvec, bio, i)
80ace3e4SChristoph Hellwig		SetPageUptodate(bvec->bv_page);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * end io for the read phase of the rmw cycle.  All the bios here are physical
53b381b3SDavid Woodhouse * stripe bios we've read from the disk so we can recalculate the parity of the
53b381b3SDavid Woodhouse * stripe.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * This will usually kick off finish_rmw once all the bios are read in, but it
53b381b3SDavid Woodhouse * may trigger parity reconstruction if we had any errors along the way
53b381b3SDavid Woodhouse */
4246a0b6SChristoph Hellwigstatic void raid_rmw_end_io(struct bio *bio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio = bio->bi_private;
53b381b3SDavid Woodhouse
4246a0b6SChristoph Hellwig	if (bio->bi_error)
53b381b3SDavid Woodhouse		fail_bio_stripe(rbio, bio);
53b381b3SDavid Woodhouse	else
53b381b3SDavid Woodhouse		set_bio_pages_uptodate(bio);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bio_put(bio);
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	if (!atomic_dec_and_test(&rbio->stripes_pending))
53b381b3SDavid Woodhouse		return;
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	if (atomic_read(&rbio->error) > rbio->bbio->max_errors)
53b381b3SDavid Woodhouse		goto cleanup;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * this will normally call finish_rmw to start our write
53b381b3SDavid Woodhouse	 * but if there are any failed stripes we'll reconstruct
53b381b3SDavid Woodhouse	 * from parity first
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	validate_rbio_for_rmw(rbio);
53b381b3SDavid Woodhouse	return;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousecleanup:
53b381b3SDavid Woodhouse
4246a0b6SChristoph Hellwig	rbio_orig_end_io(rbio, -EIO);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic void async_rmw_stripe(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
0b246afaSJeff Mahoney	btrfs_init_work(&rbio->work, btrfs_rmw_helper, rmw_work, NULL, NULL);
0b246afaSJeff Mahoney	btrfs_queue_work(rbio->fs_info->rmw_workers, &rbio->work);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic void async_read_rebuild(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
9e0af237SLiu Bo	btrfs_init_work(&rbio->work, btrfs_rmw_helper,
9e0af237SLiu Bo			read_rebuild_work, NULL, NULL);
53b381b3SDavid Woodhouse
0b246afaSJeff Mahoney	btrfs_queue_work(rbio->fs_info->rmw_workers, &rbio->work);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * the stripe must be locked by the caller.  It will
53b381b3SDavid Woodhouse * unlock after all the writes are done
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int raid56_rmw_stripe(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int bios_to_read = 0;
53b381b3SDavid Woodhouse	struct bio_list bio_list;
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse	int pagenr;
53b381b3SDavid Woodhouse	int stripe;
53b381b3SDavid Woodhouse	struct bio *bio;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bio_list_init(&bio_list);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	ret = alloc_rbio_pages(rbio);
53b381b3SDavid Woodhouse	if (ret)
53b381b3SDavid Woodhouse		goto cleanup;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	index_rbio_pages(rbio);
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	atomic_set(&rbio->error, 0);
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * build a list of bios to read all the missing parts of this
53b381b3SDavid Woodhouse	 * stripe
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	for (stripe = 0; stripe < rbio->nr_data; stripe++) {
915e2290SZhao Lei		for (pagenr = 0; pagenr < rbio->stripe_npages; pagenr++) {
53b381b3SDavid Woodhouse			struct page *page;
53b381b3SDavid Woodhouse			/*
53b381b3SDavid Woodhouse			 * we want to find all the pages missing from
53b381b3SDavid Woodhouse			 * the rbio and read them from the disk.  If
53b381b3SDavid Woodhouse			 * page_in_rbio finds a page in the bio list
53b381b3SDavid Woodhouse			 * we don't need to read it off the stripe.
53b381b3SDavid Woodhouse			 */
53b381b3SDavid Woodhouse			page = page_in_rbio(rbio, stripe, pagenr, 1);
53b381b3SDavid Woodhouse			if (page)
53b381b3SDavid Woodhouse				continue;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			page = rbio_stripe_page(rbio, stripe, pagenr);
4ae10b3aSChris Mason			/*
4ae10b3aSChris Mason			 * the bio cache may have handed us an uptodate
4ae10b3aSChris Mason			 * page.  If so, be happy and use it
4ae10b3aSChris Mason			 */
4ae10b3aSChris Mason			if (PageUptodate(page))
4ae10b3aSChris Mason				continue;
4ae10b3aSChris Mason
53b381b3SDavid Woodhouse			ret = rbio_add_io_page(rbio, &bio_list, page,
53b381b3SDavid Woodhouse				       stripe, pagenr, rbio->stripe_len);
53b381b3SDavid Woodhouse			if (ret)
53b381b3SDavid Woodhouse				goto cleanup;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bios_to_read = bio_list_size(&bio_list);
53b381b3SDavid Woodhouse	if (!bios_to_read) {
53b381b3SDavid Woodhouse		/*
53b381b3SDavid Woodhouse		 * this can happen if others have merged with
53b381b3SDavid Woodhouse		 * us, it means there is nothing left to read.
53b381b3SDavid Woodhouse		 * But if there are missing devices it may not be
53b381b3SDavid Woodhouse		 * safe to do the full stripe write yet.
53b381b3SDavid Woodhouse		 */
53b381b3SDavid Woodhouse		goto finish;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * the bbio may be freed once we submit the last bio.  Make sure
53b381b3SDavid Woodhouse	 * not to touch it after that
53b381b3SDavid Woodhouse	 */
b89e1b01SMiao Xie	atomic_set(&rbio->stripes_pending, bios_to_read);
53b381b3SDavid Woodhouse	while (1) {
53b381b3SDavid Woodhouse		bio = bio_list_pop(&bio_list);
53b381b3SDavid Woodhouse		if (!bio)
53b381b3SDavid Woodhouse			break;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		bio->bi_private = rbio;
53b381b3SDavid Woodhouse		bio->bi_end_io = raid_rmw_end_io;
37226b21SMike Christie		bio_set_op_attrs(bio, REQ_OP_READ, 0);
53b381b3SDavid Woodhouse
0b246afaSJeff Mahoney		btrfs_bio_wq_end_io(rbio->fs_info, bio, BTRFS_WQ_ENDIO_RAID56);
53b381b3SDavid Woodhouse
4e49ea4aSMike Christie		submit_bio(bio);
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse	/* the actual write will happen once the reads are done */
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousecleanup:
4246a0b6SChristoph Hellwig	rbio_orig_end_io(rbio, -EIO);
53b381b3SDavid Woodhouse	return -EIO;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousefinish:
53b381b3SDavid Woodhouse	validate_rbio_for_rmw(rbio);
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * if the upper layers pass in a full stripe, we thank them by only allocating
53b381b3SDavid Woodhouse * enough pages to hold the parity, and sending it all down quickly.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int full_stripe_write(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	ret = alloc_rbio_parity_pages(rbio);
3cd846d1SMiao Xie	if (ret) {
3cd846d1SMiao Xie		__free_raid_bio(rbio);
53b381b3SDavid Woodhouse		return ret;
3cd846d1SMiao Xie	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	ret = lock_stripe_add(rbio);
53b381b3SDavid Woodhouse	if (ret == 0)
53b381b3SDavid Woodhouse		finish_rmw(rbio);
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * partial stripe writes get handed over to async helpers.
53b381b3SDavid Woodhouse * We're really hoping to merge a few more writes into this
53b381b3SDavid Woodhouse * rbio before calculating new parity
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int partial_stripe_write(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	ret = lock_stripe_add(rbio);
53b381b3SDavid Woodhouse	if (ret == 0)
53b381b3SDavid Woodhouse		async_rmw_stripe(rbio);
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * sometimes while we were reading from the drive to
53b381b3SDavid Woodhouse * recalculate parity, enough new bios come into create
53b381b3SDavid Woodhouse * a full stripe.  So we do a check here to see if we can
53b381b3SDavid Woodhouse * go directly to finish_rmw
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int __raid56_parity_write(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	/* head off into rmw land if we don't have a full stripe */
53b381b3SDavid Woodhouse	if (!rbio_is_full(rbio))
53b381b3SDavid Woodhouse		return partial_stripe_write(rbio);
53b381b3SDavid Woodhouse	return full_stripe_write(rbio);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
6ac0f488SChris Mason * We use plugging call backs to collect full stripes.
6ac0f488SChris Mason * Any time we get a partial stripe write while plugged
6ac0f488SChris Mason * we collect it into a list.  When the unplug comes down,
6ac0f488SChris Mason * we sort the list by logical block number and merge
6ac0f488SChris Mason * everything we can into the same rbios
6ac0f488SChris Mason */
6ac0f488SChris Masonstruct btrfs_plug_cb {
6ac0f488SChris Mason	struct blk_plug_cb cb;
6ac0f488SChris Mason	struct btrfs_fs_info *info;
6ac0f488SChris Mason	struct list_head rbio_list;
6ac0f488SChris Mason	struct btrfs_work work;
6ac0f488SChris Mason};
6ac0f488SChris Mason
6ac0f488SChris Mason/*
6ac0f488SChris Mason * rbios on the plug list are sorted for easier merging.
6ac0f488SChris Mason */
6ac0f488SChris Masonstatic int plug_cmp(void *priv, struct list_head *a, struct list_head *b)
6ac0f488SChris Mason{
6ac0f488SChris Mason	struct btrfs_raid_bio *ra = container_of(a, struct btrfs_raid_bio,
6ac0f488SChris Mason						 plug_list);
6ac0f488SChris Mason	struct btrfs_raid_bio *rb = container_of(b, struct btrfs_raid_bio,
6ac0f488SChris Mason						 plug_list);
4f024f37SKent Overstreet	u64 a_sector = ra->bio_list.head->bi_iter.bi_sector;
4f024f37SKent Overstreet	u64 b_sector = rb->bio_list.head->bi_iter.bi_sector;
6ac0f488SChris Mason
6ac0f488SChris Mason	if (a_sector < b_sector)
6ac0f488SChris Mason		return -1;
6ac0f488SChris Mason	if (a_sector > b_sector)
6ac0f488SChris Mason		return 1;
6ac0f488SChris Mason	return 0;
6ac0f488SChris Mason}
6ac0f488SChris Mason
6ac0f488SChris Masonstatic void run_plug(struct btrfs_plug_cb *plug)
6ac0f488SChris Mason{
6ac0f488SChris Mason	struct btrfs_raid_bio *cur;
6ac0f488SChris Mason	struct btrfs_raid_bio *last = NULL;
6ac0f488SChris Mason
6ac0f488SChris Mason	/*
6ac0f488SChris Mason	 * sort our plug list then try to merge
6ac0f488SChris Mason	 * everything we can in hopes of creating full
6ac0f488SChris Mason	 * stripes.
6ac0f488SChris Mason	 */
6ac0f488SChris Mason	list_sort(NULL, &plug->rbio_list, plug_cmp);
6ac0f488SChris Mason	while (!list_empty(&plug->rbio_list)) {
6ac0f488SChris Mason		cur = list_entry(plug->rbio_list.next,
6ac0f488SChris Mason				 struct btrfs_raid_bio, plug_list);
6ac0f488SChris Mason		list_del_init(&cur->plug_list);
6ac0f488SChris Mason
6ac0f488SChris Mason		if (rbio_is_full(cur)) {
6ac0f488SChris Mason			/* we have a full stripe, send it down */
6ac0f488SChris Mason			full_stripe_write(cur);
6ac0f488SChris Mason			continue;
6ac0f488SChris Mason		}
6ac0f488SChris Mason		if (last) {
6ac0f488SChris Mason			if (rbio_can_merge(last, cur)) {
6ac0f488SChris Mason				merge_rbio(last, cur);
6ac0f488SChris Mason				__free_raid_bio(cur);
6ac0f488SChris Mason				continue;
6ac0f488SChris Mason
6ac0f488SChris Mason			}
6ac0f488SChris Mason			__raid56_parity_write(last);
6ac0f488SChris Mason		}
6ac0f488SChris Mason		last = cur;
6ac0f488SChris Mason	}
6ac0f488SChris Mason	if (last) {
6ac0f488SChris Mason		__raid56_parity_write(last);
6ac0f488SChris Mason	}
6ac0f488SChris Mason	kfree(plug);
6ac0f488SChris Mason}
6ac0f488SChris Mason
6ac0f488SChris Mason/*
6ac0f488SChris Mason * if the unplug comes from schedule, we have to push the
6ac0f488SChris Mason * work off to a helper thread
6ac0f488SChris Mason */
6ac0f488SChris Masonstatic void unplug_work(struct btrfs_work *work)
6ac0f488SChris Mason{
6ac0f488SChris Mason	struct btrfs_plug_cb *plug;
6ac0f488SChris Mason	plug = container_of(work, struct btrfs_plug_cb, work);
6ac0f488SChris Mason	run_plug(plug);
6ac0f488SChris Mason}
6ac0f488SChris Mason
6ac0f488SChris Masonstatic void btrfs_raid_unplug(struct blk_plug_cb *cb, bool from_schedule)
6ac0f488SChris Mason{
6ac0f488SChris Mason	struct btrfs_plug_cb *plug;
6ac0f488SChris Mason	plug = container_of(cb, struct btrfs_plug_cb, cb);
6ac0f488SChris Mason
6ac0f488SChris Mason	if (from_schedule) {
9e0af237SLiu Bo		btrfs_init_work(&plug->work, btrfs_rmw_helper,
9e0af237SLiu Bo				unplug_work, NULL, NULL);
d05a33acSQu Wenruo		btrfs_queue_work(plug->info->rmw_workers,
6ac0f488SChris Mason				 &plug->work);
6ac0f488SChris Mason		return;
6ac0f488SChris Mason	}
6ac0f488SChris Mason	run_plug(plug);
6ac0f488SChris Mason}
6ac0f488SChris Mason
6ac0f488SChris Mason/*
53b381b3SDavid Woodhouse * our main entry point for writes from the rest of the FS.
53b381b3SDavid Woodhouse */
2ff7e61eSJeff Mahoneyint raid56_parity_write(struct btrfs_fs_info *fs_info, struct bio *bio,
8e5cfb55SZhao Lei			struct btrfs_bio *bbio, u64 stripe_len)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio;
6ac0f488SChris Mason	struct btrfs_plug_cb *plug = NULL;
6ac0f488SChris Mason	struct blk_plug_cb *cb;
4245215dSMiao Xie	int ret;
53b381b3SDavid Woodhouse
2ff7e61eSJeff Mahoney	rbio = alloc_rbio(fs_info, bbio, stripe_len);
af8e2d1dSMiao Xie	if (IS_ERR(rbio)) {
6e9606d2SZhao Lei		btrfs_put_bbio(bbio);
53b381b3SDavid Woodhouse		return PTR_ERR(rbio);
af8e2d1dSMiao Xie	}
53b381b3SDavid Woodhouse	bio_list_add(&rbio->bio_list, bio);
4f024f37SKent Overstreet	rbio->bio_list_bytes = bio->bi_iter.bi_size;
1b94b556SMiao Xie	rbio->operation = BTRFS_RBIO_WRITE;
6ac0f488SChris Mason
0b246afaSJeff Mahoney	btrfs_bio_counter_inc_noblocked(fs_info);
4245215dSMiao Xie	rbio->generic_bio_cnt = 1;
4245215dSMiao Xie
6ac0f488SChris Mason	/*
6ac0f488SChris Mason	 * don't plug on full rbios, just get them out the door
6ac0f488SChris Mason	 * as quickly as we can
6ac0f488SChris Mason	 */
4245215dSMiao Xie	if (rbio_is_full(rbio)) {
4245215dSMiao Xie		ret = full_stripe_write(rbio);
4245215dSMiao Xie		if (ret)
0b246afaSJeff Mahoney			btrfs_bio_counter_dec(fs_info);
4245215dSMiao Xie		return ret;
4245215dSMiao Xie	}
6ac0f488SChris Mason
0b246afaSJeff Mahoney	cb = blk_check_plugged(btrfs_raid_unplug, fs_info, sizeof(*plug));
6ac0f488SChris Mason	if (cb) {
6ac0f488SChris Mason		plug = container_of(cb, struct btrfs_plug_cb, cb);
6ac0f488SChris Mason		if (!plug->info) {
0b246afaSJeff Mahoney			plug->info = fs_info;
6ac0f488SChris Mason			INIT_LIST_HEAD(&plug->rbio_list);
6ac0f488SChris Mason		}
6ac0f488SChris Mason		list_add_tail(&rbio->plug_list, &plug->rbio_list);
4245215dSMiao Xie		ret = 0;
6ac0f488SChris Mason	} else {
4245215dSMiao Xie		ret = __raid56_parity_write(rbio);
4245215dSMiao Xie		if (ret)
0b246afaSJeff Mahoney			btrfs_bio_counter_dec(fs_info);
53b381b3SDavid Woodhouse	}
4245215dSMiao Xie	return ret;
6ac0f488SChris Mason}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * all parity reconstruction happens here.  We've read in everything
53b381b3SDavid Woodhouse * we can find from the drives and this does the heavy lifting of
53b381b3SDavid Woodhouse * sorting the good from the bad.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic void __raid_recover_end_io(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int pagenr, stripe;
53b381b3SDavid Woodhouse	void **pointers;
53b381b3SDavid Woodhouse	int faila = -1, failb = -1;
53b381b3SDavid Woodhouse	struct page *page;
53b381b3SDavid Woodhouse	int err;
53b381b3SDavid Woodhouse	int i;
53b381b3SDavid Woodhouse
31e818feSDavid Sterba	pointers = kcalloc(rbio->real_stripes, sizeof(void *), GFP_NOFS);
53b381b3SDavid Woodhouse	if (!pointers) {
53b381b3SDavid Woodhouse		err = -ENOMEM;
53b381b3SDavid Woodhouse		goto cleanup_io;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	faila = rbio->faila;
53b381b3SDavid Woodhouse	failb = rbio->failb;
53b381b3SDavid Woodhouse
b4ee1782SOmar Sandoval	if (rbio->operation == BTRFS_RBIO_READ_REBUILD ||
b4ee1782SOmar Sandoval	    rbio->operation == BTRFS_RBIO_REBUILD_MISSING) {
53b381b3SDavid Woodhouse		spin_lock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse		set_bit(RBIO_RMW_LOCKED_BIT, &rbio->flags);
53b381b3SDavid Woodhouse		spin_unlock_irq(&rbio->bio_list_lock);
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	index_rbio_pages(rbio);
53b381b3SDavid Woodhouse
915e2290SZhao Lei	for (pagenr = 0; pagenr < rbio->stripe_npages; pagenr++) {
5a6ac9eaSMiao Xie		/*
5a6ac9eaSMiao Xie		 * Now we just use bitmap to mark the horizontal stripes in
5a6ac9eaSMiao Xie		 * which we have data when doing parity scrub.
5a6ac9eaSMiao Xie		 */
5a6ac9eaSMiao Xie		if (rbio->operation == BTRFS_RBIO_PARITY_SCRUB &&
5a6ac9eaSMiao Xie		    !test_bit(pagenr, rbio->dbitmap))
5a6ac9eaSMiao Xie			continue;
5a6ac9eaSMiao Xie
53b381b3SDavid Woodhouse		/* setup our array of pointers with pages
53b381b3SDavid Woodhouse		 * from each stripe
53b381b3SDavid Woodhouse		 */
2c8cdd6eSMiao Xie		for (stripe = 0; stripe < rbio->real_stripes; stripe++) {
53b381b3SDavid Woodhouse			/*
53b381b3SDavid Woodhouse			 * if we're rebuilding a read, we have to use
53b381b3SDavid Woodhouse			 * pages from the bio list
53b381b3SDavid Woodhouse			 */
b4ee1782SOmar Sandoval			if ((rbio->operation == BTRFS_RBIO_READ_REBUILD ||
b4ee1782SOmar Sandoval			     rbio->operation == BTRFS_RBIO_REBUILD_MISSING) &&
53b381b3SDavid Woodhouse			    (stripe == faila || stripe == failb)) {
53b381b3SDavid Woodhouse				page = page_in_rbio(rbio, stripe, pagenr, 0);
53b381b3SDavid Woodhouse			} else {
53b381b3SDavid Woodhouse				page = rbio_stripe_page(rbio, stripe, pagenr);
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse			pointers[stripe] = kmap(page);
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		/* all raid6 handling here */
10f11900SZhao Lei		if (rbio->bbio->map_type & BTRFS_BLOCK_GROUP_RAID6) {
53b381b3SDavid Woodhouse			/*
53b381b3SDavid Woodhouse			 * single failure, rebuild from parity raid5
53b381b3SDavid Woodhouse			 * style
53b381b3SDavid Woodhouse			 */
53b381b3SDavid Woodhouse			if (failb < 0) {
53b381b3SDavid Woodhouse				if (faila == rbio->nr_data) {
53b381b3SDavid Woodhouse					/*
53b381b3SDavid Woodhouse					 * Just the P stripe has failed, without
53b381b3SDavid Woodhouse					 * a bad data or Q stripe.
53b381b3SDavid Woodhouse					 * TODO, we should redo the xor here.
53b381b3SDavid Woodhouse					 */
53b381b3SDavid Woodhouse					err = -EIO;
53b381b3SDavid Woodhouse					goto cleanup;
53b381b3SDavid Woodhouse				}
53b381b3SDavid Woodhouse				/*
53b381b3SDavid Woodhouse				 * a single failure in raid6 is rebuilt
53b381b3SDavid Woodhouse				 * in the pstripe code below
53b381b3SDavid Woodhouse				 */
53b381b3SDavid Woodhouse				goto pstripe;
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/* make sure our ps and qs are in order */
53b381b3SDavid Woodhouse			if (faila > failb) {
53b381b3SDavid Woodhouse				int tmp = failb;
53b381b3SDavid Woodhouse				failb = faila;
53b381b3SDavid Woodhouse				faila = tmp;
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/* if the q stripe is failed, do a pstripe reconstruction
53b381b3SDavid Woodhouse			 * from the xors.
53b381b3SDavid Woodhouse			 * If both the q stripe and the P stripe are failed, we're
53b381b3SDavid Woodhouse			 * here due to a crc mismatch and we can't give them the
53b381b3SDavid Woodhouse			 * data they want
53b381b3SDavid Woodhouse			 */
8e5cfb55SZhao Lei			if (rbio->bbio->raid_map[failb] == RAID6_Q_STRIPE) {
8e5cfb55SZhao Lei				if (rbio->bbio->raid_map[faila] ==
8e5cfb55SZhao Lei				    RAID5_P_STRIPE) {
53b381b3SDavid Woodhouse					err = -EIO;
53b381b3SDavid Woodhouse					goto cleanup;
53b381b3SDavid Woodhouse				}
53b381b3SDavid Woodhouse				/*
53b381b3SDavid Woodhouse				 * otherwise we have one bad data stripe and
53b381b3SDavid Woodhouse				 * a good P stripe.  raid5!
53b381b3SDavid Woodhouse				 */
53b381b3SDavid Woodhouse				goto pstripe;
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse
8e5cfb55SZhao Lei			if (rbio->bbio->raid_map[failb] == RAID5_P_STRIPE) {
2c8cdd6eSMiao Xie				raid6_datap_recov(rbio->real_stripes,
53b381b3SDavid Woodhouse						  PAGE_SIZE, faila, pointers);
53b381b3SDavid Woodhouse			} else {
2c8cdd6eSMiao Xie				raid6_2data_recov(rbio->real_stripes,
53b381b3SDavid Woodhouse						  PAGE_SIZE, faila, failb,
53b381b3SDavid Woodhouse						  pointers);
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse		} else {
53b381b3SDavid Woodhouse			void *p;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/* rebuild from P stripe here (raid5 or raid6) */
53b381b3SDavid Woodhouse			BUG_ON(failb != -1);
53b381b3SDavid Woodhousepstripe:
53b381b3SDavid Woodhouse			/* Copy parity block into failed block to start with */
53b381b3SDavid Woodhouse			memcpy(pointers[faila],
53b381b3SDavid Woodhouse			       pointers[rbio->nr_data],
09cbfeafSKirill A. Shutemov			       PAGE_SIZE);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/* rearrange the pointer array */
53b381b3SDavid Woodhouse			p = pointers[faila];
53b381b3SDavid Woodhouse			for (stripe = faila; stripe < rbio->nr_data - 1; stripe++)
53b381b3SDavid Woodhouse				pointers[stripe] = pointers[stripe + 1];
53b381b3SDavid Woodhouse			pointers[rbio->nr_data - 1] = p;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/* xor in the rest */
09cbfeafSKirill A. Shutemov			run_xor(pointers, rbio->nr_data - 1, PAGE_SIZE);
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse		/* if we're doing this rebuild as part of an rmw, go through
53b381b3SDavid Woodhouse		 * and set all of our private rbio pages in the
53b381b3SDavid Woodhouse		 * failed stripes as uptodate.  This way finish_rmw will
53b381b3SDavid Woodhouse		 * know they can be trusted.  If this was a read reconstruction,
53b381b3SDavid Woodhouse		 * other endio functions will fiddle the uptodate bits
53b381b3SDavid Woodhouse		 */
1b94b556SMiao Xie		if (rbio->operation == BTRFS_RBIO_WRITE) {
915e2290SZhao Lei			for (i = 0;  i < rbio->stripe_npages; i++) {
53b381b3SDavid Woodhouse				if (faila != -1) {
53b381b3SDavid Woodhouse					page = rbio_stripe_page(rbio, faila, i);
53b381b3SDavid Woodhouse					SetPageUptodate(page);
53b381b3SDavid Woodhouse				}
53b381b3SDavid Woodhouse				if (failb != -1) {
53b381b3SDavid Woodhouse					page = rbio_stripe_page(rbio, failb, i);
53b381b3SDavid Woodhouse					SetPageUptodate(page);
53b381b3SDavid Woodhouse				}
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse		}
2c8cdd6eSMiao Xie		for (stripe = 0; stripe < rbio->real_stripes; stripe++) {
53b381b3SDavid Woodhouse			/*
53b381b3SDavid Woodhouse			 * if we're rebuilding a read, we have to use
53b381b3SDavid Woodhouse			 * pages from the bio list
53b381b3SDavid Woodhouse			 */
b4ee1782SOmar Sandoval			if ((rbio->operation == BTRFS_RBIO_READ_REBUILD ||
b4ee1782SOmar Sandoval			     rbio->operation == BTRFS_RBIO_REBUILD_MISSING) &&
53b381b3SDavid Woodhouse			    (stripe == faila || stripe == failb)) {
53b381b3SDavid Woodhouse				page = page_in_rbio(rbio, stripe, pagenr, 0);
53b381b3SDavid Woodhouse			} else {
53b381b3SDavid Woodhouse				page = rbio_stripe_page(rbio, stripe, pagenr);
53b381b3SDavid Woodhouse			}
53b381b3SDavid Woodhouse			kunmap(page);
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	err = 0;
53b381b3SDavid Woodhousecleanup:
53b381b3SDavid Woodhouse	kfree(pointers);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousecleanup_io:
1b94b556SMiao Xie	if (rbio->operation == BTRFS_RBIO_READ_REBUILD) {
6e9606d2SZhao Lei		if (err == 0)
4ae10b3aSChris Mason			cache_rbio_pages(rbio);
4ae10b3aSChris Mason		else
4ae10b3aSChris Mason			clear_bit(RBIO_CACHE_READY_BIT, &rbio->flags);
4ae10b3aSChris Mason
4246a0b6SChristoph Hellwig		rbio_orig_end_io(rbio, err);
b4ee1782SOmar Sandoval	} else if (rbio->operation == BTRFS_RBIO_REBUILD_MISSING) {
22365979SLinus Torvalds		rbio_orig_end_io(rbio, err);
53b381b3SDavid Woodhouse	} else if (err == 0) {
53b381b3SDavid Woodhouse		rbio->faila = -1;
53b381b3SDavid Woodhouse		rbio->failb = -1;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		if (rbio->operation == BTRFS_RBIO_WRITE)
53b381b3SDavid Woodhouse			finish_rmw(rbio);
5a6ac9eaSMiao Xie		else if (rbio->operation == BTRFS_RBIO_PARITY_SCRUB)
5a6ac9eaSMiao Xie			finish_parity_scrub(rbio, 0);
5a6ac9eaSMiao Xie		else
5a6ac9eaSMiao Xie			BUG();
53b381b3SDavid Woodhouse	} else {
4246a0b6SChristoph Hellwig		rbio_orig_end_io(rbio, err);
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * This is called only for stripes we've read from disk to
53b381b3SDavid Woodhouse * reconstruct the parity.
53b381b3SDavid Woodhouse */
4246a0b6SChristoph Hellwigstatic void raid_recover_end_io(struct bio *bio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio = bio->bi_private;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * we only read stripe pages off the disk, set them
53b381b3SDavid Woodhouse	 * up to date if there were no errors
53b381b3SDavid Woodhouse	 */
4246a0b6SChristoph Hellwig	if (bio->bi_error)
53b381b3SDavid Woodhouse		fail_bio_stripe(rbio, bio);
53b381b3SDavid Woodhouse	else
53b381b3SDavid Woodhouse		set_bio_pages_uptodate(bio);
53b381b3SDavid Woodhouse	bio_put(bio);
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	if (!atomic_dec_and_test(&rbio->stripes_pending))
53b381b3SDavid Woodhouse		return;
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	if (atomic_read(&rbio->error) > rbio->bbio->max_errors)
4246a0b6SChristoph Hellwig		rbio_orig_end_io(rbio, -EIO);
53b381b3SDavid Woodhouse	else
53b381b3SDavid Woodhouse		__raid_recover_end_io(rbio);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * reads everything we need off the disk to reconstruct
53b381b3SDavid Woodhouse * the parity. endio handlers trigger final reconstruction
53b381b3SDavid Woodhouse * when the IO is done.
53b381b3SDavid Woodhouse *
53b381b3SDavid Woodhouse * This is used both for reads from the higher layers and for
53b381b3SDavid Woodhouse * parity construction required to finish a rmw cycle.
53b381b3SDavid Woodhouse */
53b381b3SDavid Woodhousestatic int __raid56_parity_recover(struct btrfs_raid_bio *rbio)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	int bios_to_read = 0;
53b381b3SDavid Woodhouse	struct bio_list bio_list;
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse	int pagenr;
53b381b3SDavid Woodhouse	int stripe;
53b381b3SDavid Woodhouse	struct bio *bio;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bio_list_init(&bio_list);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	ret = alloc_rbio_pages(rbio);
53b381b3SDavid Woodhouse	if (ret)
53b381b3SDavid Woodhouse		goto cleanup;
53b381b3SDavid Woodhouse
b89e1b01SMiao Xie	atomic_set(&rbio->error, 0);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
4ae10b3aSChris Mason	 * read everything that hasn't failed.  Thanks to the
4ae10b3aSChris Mason	 * stripe cache, it is possible that some or all of these
4ae10b3aSChris Mason	 * pages are going to be uptodate.
53b381b3SDavid Woodhouse	 */
2c8cdd6eSMiao Xie	for (stripe = 0; stripe < rbio->real_stripes; stripe++) {
5588383eSLiu Bo		if (rbio->faila == stripe || rbio->failb == stripe) {
b89e1b01SMiao Xie			atomic_inc(&rbio->error);
53b381b3SDavid Woodhouse			continue;
5588383eSLiu Bo		}
53b381b3SDavid Woodhouse
915e2290SZhao Lei		for (pagenr = 0; pagenr < rbio->stripe_npages; pagenr++) {
53b381b3SDavid Woodhouse			struct page *p;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			/*
53b381b3SDavid Woodhouse			 * the rmw code may have already read this
53b381b3SDavid Woodhouse			 * page in
53b381b3SDavid Woodhouse			 */
53b381b3SDavid Woodhouse			p = rbio_stripe_page(rbio, stripe, pagenr);
53b381b3SDavid Woodhouse			if (PageUptodate(p))
53b381b3SDavid Woodhouse				continue;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse			ret = rbio_add_io_page(rbio, &bio_list,
53b381b3SDavid Woodhouse				       rbio_stripe_page(rbio, stripe, pagenr),
53b381b3SDavid Woodhouse				       stripe, pagenr, rbio->stripe_len);
53b381b3SDavid Woodhouse			if (ret < 0)
53b381b3SDavid Woodhouse				goto cleanup;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	bios_to_read = bio_list_size(&bio_list);
53b381b3SDavid Woodhouse	if (!bios_to_read) {
53b381b3SDavid Woodhouse		/*
53b381b3SDavid Woodhouse		 * we might have no bios to read just because the pages
53b381b3SDavid Woodhouse		 * were up to date, or we might have no bios to read because
53b381b3SDavid Woodhouse		 * the devices were gone.
53b381b3SDavid Woodhouse		 */
b89e1b01SMiao Xie		if (atomic_read(&rbio->error) <= rbio->bbio->max_errors) {
53b381b3SDavid Woodhouse			__raid_recover_end_io(rbio);
53b381b3SDavid Woodhouse			goto out;
53b381b3SDavid Woodhouse		} else {
53b381b3SDavid Woodhouse			goto cleanup;
53b381b3SDavid Woodhouse		}
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * the bbio may be freed once we submit the last bio.  Make sure
53b381b3SDavid Woodhouse	 * not to touch it after that
53b381b3SDavid Woodhouse	 */
b89e1b01SMiao Xie	atomic_set(&rbio->stripes_pending, bios_to_read);
53b381b3SDavid Woodhouse	while (1) {
53b381b3SDavid Woodhouse		bio = bio_list_pop(&bio_list);
53b381b3SDavid Woodhouse		if (!bio)
53b381b3SDavid Woodhouse			break;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse		bio->bi_private = rbio;
53b381b3SDavid Woodhouse		bio->bi_end_io = raid_recover_end_io;
37226b21SMike Christie		bio_set_op_attrs(bio, REQ_OP_READ, 0);
53b381b3SDavid Woodhouse
0b246afaSJeff Mahoney		btrfs_bio_wq_end_io(rbio->fs_info, bio, BTRFS_WQ_ENDIO_RAID56);
53b381b3SDavid Woodhouse
4e49ea4aSMike Christie		submit_bio(bio);
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouseout:
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousecleanup:
b4ee1782SOmar Sandoval	if (rbio->operation == BTRFS_RBIO_READ_REBUILD ||
b4ee1782SOmar Sandoval	    rbio->operation == BTRFS_RBIO_REBUILD_MISSING)
4246a0b6SChristoph Hellwig		rbio_orig_end_io(rbio, -EIO);
53b381b3SDavid Woodhouse	return -EIO;
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse/*
53b381b3SDavid Woodhouse * the main entry point for reads from the higher layers.  This
53b381b3SDavid Woodhouse * is really only called when the normal read path had a failure,
53b381b3SDavid Woodhouse * so we assume the bio they send down corresponds to a failed part
53b381b3SDavid Woodhouse * of the drive.
53b381b3SDavid Woodhouse */
2ff7e61eSJeff Mahoneyint raid56_parity_recover(struct btrfs_fs_info *fs_info, struct bio *bio,
8e5cfb55SZhao Lei			  struct btrfs_bio *bbio, u64 stripe_len,
8e5cfb55SZhao Lei			  int mirror_num, int generic_io)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio;
53b381b3SDavid Woodhouse	int ret;
53b381b3SDavid Woodhouse
2ff7e61eSJeff Mahoney	rbio = alloc_rbio(fs_info, bbio, stripe_len);
af8e2d1dSMiao Xie	if (IS_ERR(rbio)) {
6e9606d2SZhao Lei		if (generic_io)
6e9606d2SZhao Lei			btrfs_put_bbio(bbio);
53b381b3SDavid Woodhouse		return PTR_ERR(rbio);
af8e2d1dSMiao Xie	}
53b381b3SDavid Woodhouse
1b94b556SMiao Xie	rbio->operation = BTRFS_RBIO_READ_REBUILD;
53b381b3SDavid Woodhouse	bio_list_add(&rbio->bio_list, bio);
4f024f37SKent Overstreet	rbio->bio_list_bytes = bio->bi_iter.bi_size;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	rbio->faila = find_logical_bio_stripe(rbio, bio);
53b381b3SDavid Woodhouse	if (rbio->faila == -1) {
0b246afaSJeff Mahoney		btrfs_warn(fs_info,
e46a28caSLiu Bo	"%s could not find the bad stripe in raid56 so that we cannot recover any more (bio has logical %llu len %llu, bbio has map_type %llu)",
e46a28caSLiu Bo			   __func__, (u64)bio->bi_iter.bi_sector << 9,
e46a28caSLiu Bo			   (u64)bio->bi_iter.bi_size, bbio->map_type);
6e9606d2SZhao Lei		if (generic_io)
6e9606d2SZhao Lei			btrfs_put_bbio(bbio);
53b381b3SDavid Woodhouse		kfree(rbio);
53b381b3SDavid Woodhouse		return -EIO;
53b381b3SDavid Woodhouse	}
53b381b3SDavid Woodhouse
4245215dSMiao Xie	if (generic_io) {
0b246afaSJeff Mahoney		btrfs_bio_counter_inc_noblocked(fs_info);
4245215dSMiao Xie		rbio->generic_bio_cnt = 1;
4245215dSMiao Xie	} else {
6e9606d2SZhao Lei		btrfs_get_bbio(bbio);
4245215dSMiao Xie	}
4245215dSMiao Xie
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * reconstruct from the q stripe if they are
53b381b3SDavid Woodhouse	 * asking for mirror 3
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	if (mirror_num == 3)
2c8cdd6eSMiao Xie		rbio->failb = rbio->real_stripes - 2;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	ret = lock_stripe_add(rbio);
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * __raid56_parity_recover will end the bio with
53b381b3SDavid Woodhouse	 * any errors it hits.  We don't want to return
53b381b3SDavid Woodhouse	 * its error value up the stack because our caller
53b381b3SDavid Woodhouse	 * will end up calling bio_endio with any nonzero
53b381b3SDavid Woodhouse	 * return
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	if (ret == 0)
53b381b3SDavid Woodhouse		__raid56_parity_recover(rbio);
53b381b3SDavid Woodhouse	/*
53b381b3SDavid Woodhouse	 * our rbio has been added to the list of
53b381b3SDavid Woodhouse	 * rbios that will be handled after the
53b381b3SDavid Woodhouse	 * currently lock owner is done
53b381b3SDavid Woodhouse	 */
53b381b3SDavid Woodhouse	return 0;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic void rmw_work(struct btrfs_work *work)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	rbio = container_of(work, struct btrfs_raid_bio, work);
53b381b3SDavid Woodhouse	raid56_rmw_stripe(rbio);
53b381b3SDavid Woodhouse}
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhousestatic void read_rebuild_work(struct btrfs_work *work)
53b381b3SDavid Woodhouse{
53b381b3SDavid Woodhouse	struct btrfs_raid_bio *rbio;
53b381b3SDavid Woodhouse
53b381b3SDavid Woodhouse	rbio = container_of(work, struct btrfs_raid_bio, work);
53b381b3SDavid Woodhouse	__raid56_parity_recover(rbio);
53b381b3SDavid Woodhouse}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie/*
5a6ac9eaSMiao Xie * The following code is used to scrub/replace the parity stripe
5a6ac9eaSMiao Xie *
5a6ac9eaSMiao Xie * Note: We need make sure all the pages that add into the scrub/replace
5a6ac9eaSMiao Xie * raid bio are correct and not be changed during the scrub/replace. That
5a6ac9eaSMiao Xie * is those pages just hold metadata or file data with checksum.
5a6ac9eaSMiao Xie */
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiestruct btrfs_raid_bio *
2ff7e61eSJeff Mahoneyraid56_parity_alloc_scrub_rbio(struct btrfs_fs_info *fs_info, struct bio *bio,
8e5cfb55SZhao Lei			       struct btrfs_bio *bbio, u64 stripe_len,
8e5cfb55SZhao Lei			       struct btrfs_device *scrub_dev,
5a6ac9eaSMiao Xie			       unsigned long *dbitmap, int stripe_nsectors)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	struct btrfs_raid_bio *rbio;
5a6ac9eaSMiao Xie	int i;
5a6ac9eaSMiao Xie
2ff7e61eSJeff Mahoney	rbio = alloc_rbio(fs_info, bbio, stripe_len);
5a6ac9eaSMiao Xie	if (IS_ERR(rbio))
5a6ac9eaSMiao Xie		return NULL;
5a6ac9eaSMiao Xie	bio_list_add(&rbio->bio_list, bio);
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * This is a special bio which is used to hold the completion handler
5a6ac9eaSMiao Xie	 * and make the scrub rbio is similar to the other types
5a6ac9eaSMiao Xie	 */
5a6ac9eaSMiao Xie	ASSERT(!bio->bi_iter.bi_size);
5a6ac9eaSMiao Xie	rbio->operation = BTRFS_RBIO_PARITY_SCRUB;
5a6ac9eaSMiao Xie
2c8cdd6eSMiao Xie	for (i = 0; i < rbio->real_stripes; i++) {
5a6ac9eaSMiao Xie		if (bbio->stripes[i].dev == scrub_dev) {
5a6ac9eaSMiao Xie			rbio->scrubp = i;
5a6ac9eaSMiao Xie			break;
5a6ac9eaSMiao Xie		}
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	/* Now we just support the sectorsize equals to page size */
0b246afaSJeff Mahoney	ASSERT(fs_info->sectorsize == PAGE_SIZE);
5a6ac9eaSMiao Xie	ASSERT(rbio->stripe_npages == stripe_nsectors);
5a6ac9eaSMiao Xie	bitmap_copy(rbio->dbitmap, dbitmap, stripe_nsectors);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	return rbio;
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
b4ee1782SOmar Sandoval/* Used for both parity scrub and missing. */
b4ee1782SOmar Sandovalvoid raid56_add_scrub_pages(struct btrfs_raid_bio *rbio, struct page *page,
b4ee1782SOmar Sandoval			    u64 logical)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	int stripe_offset;
5a6ac9eaSMiao Xie	int index;
5a6ac9eaSMiao Xie
8e5cfb55SZhao Lei	ASSERT(logical >= rbio->bbio->raid_map[0]);
8e5cfb55SZhao Lei	ASSERT(logical + PAGE_SIZE <= rbio->bbio->raid_map[0] +
5a6ac9eaSMiao Xie				rbio->stripe_len * rbio->nr_data);
8e5cfb55SZhao Lei	stripe_offset = (int)(logical - rbio->bbio->raid_map[0]);
09cbfeafSKirill A. Shutemov	index = stripe_offset >> PAGE_SHIFT;
5a6ac9eaSMiao Xie	rbio->bio_pages[index] = page;
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie/*
5a6ac9eaSMiao Xie * We just scrub the parity that we have correct data on the same horizontal,
5a6ac9eaSMiao Xie * so we needn't allocate all pages for all the stripes.
5a6ac9eaSMiao Xie */
5a6ac9eaSMiao Xiestatic int alloc_rbio_essential_pages(struct btrfs_raid_bio *rbio)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	int i;
5a6ac9eaSMiao Xie	int bit;
5a6ac9eaSMiao Xie	int index;
5a6ac9eaSMiao Xie	struct page *page;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	for_each_set_bit(bit, rbio->dbitmap, rbio->stripe_npages) {
2c8cdd6eSMiao Xie		for (i = 0; i < rbio->real_stripes; i++) {
5a6ac9eaSMiao Xie			index = i * rbio->stripe_npages + bit;
5a6ac9eaSMiao Xie			if (rbio->stripe_pages[index])
5a6ac9eaSMiao Xie				continue;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie			page = alloc_page(GFP_NOFS | __GFP_HIGHMEM);
5a6ac9eaSMiao Xie			if (!page)
5a6ac9eaSMiao Xie				return -ENOMEM;
5a6ac9eaSMiao Xie			rbio->stripe_pages[index] = page;
5a6ac9eaSMiao Xie		}
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie	return 0;
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiestatic noinline void finish_parity_scrub(struct btrfs_raid_bio *rbio,
5a6ac9eaSMiao Xie					 int need_check)
5a6ac9eaSMiao Xie{
76035976SMiao Xie	struct btrfs_bio *bbio = rbio->bbio;
2c8cdd6eSMiao Xie	void *pointers[rbio->real_stripes];
76035976SMiao Xie	DECLARE_BITMAP(pbitmap, rbio->stripe_npages);
5a6ac9eaSMiao Xie	int nr_data = rbio->nr_data;
5a6ac9eaSMiao Xie	int stripe;
5a6ac9eaSMiao Xie	int pagenr;
5a6ac9eaSMiao Xie	int p_stripe = -1;
5a6ac9eaSMiao Xie	int q_stripe = -1;
5a6ac9eaSMiao Xie	struct page *p_page = NULL;
5a6ac9eaSMiao Xie	struct page *q_page = NULL;
5a6ac9eaSMiao Xie	struct bio_list bio_list;
5a6ac9eaSMiao Xie	struct bio *bio;
76035976SMiao Xie	int is_replace = 0;
5a6ac9eaSMiao Xie	int ret;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	bio_list_init(&bio_list);
5a6ac9eaSMiao Xie
2c8cdd6eSMiao Xie	if (rbio->real_stripes - rbio->nr_data == 1) {
2c8cdd6eSMiao Xie		p_stripe = rbio->real_stripes - 1;
2c8cdd6eSMiao Xie	} else if (rbio->real_stripes - rbio->nr_data == 2) {
2c8cdd6eSMiao Xie		p_stripe = rbio->real_stripes - 2;
2c8cdd6eSMiao Xie		q_stripe = rbio->real_stripes - 1;
5a6ac9eaSMiao Xie	} else {
5a6ac9eaSMiao Xie		BUG();
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
76035976SMiao Xie	if (bbio->num_tgtdevs && bbio->tgtdev_map[rbio->scrubp]) {
76035976SMiao Xie		is_replace = 1;
76035976SMiao Xie		bitmap_copy(pbitmap, rbio->dbitmap, rbio->stripe_npages);
76035976SMiao Xie	}
76035976SMiao Xie
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * Because the higher layers(scrubber) are unlikely to
5a6ac9eaSMiao Xie	 * use this area of the disk again soon, so don't cache
5a6ac9eaSMiao Xie	 * it.
5a6ac9eaSMiao Xie	 */
5a6ac9eaSMiao Xie	clear_bit(RBIO_CACHE_READY_BIT, &rbio->flags);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	if (!need_check)
5a6ac9eaSMiao Xie		goto writeback;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	p_page = alloc_page(GFP_NOFS | __GFP_HIGHMEM);
5a6ac9eaSMiao Xie	if (!p_page)
5a6ac9eaSMiao Xie		goto cleanup;
5a6ac9eaSMiao Xie	SetPageUptodate(p_page);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	if (q_stripe != -1) {
5a6ac9eaSMiao Xie		q_page = alloc_page(GFP_NOFS | __GFP_HIGHMEM);
5a6ac9eaSMiao Xie		if (!q_page) {
5a6ac9eaSMiao Xie			__free_page(p_page);
5a6ac9eaSMiao Xie			goto cleanup;
5a6ac9eaSMiao Xie		}
5a6ac9eaSMiao Xie		SetPageUptodate(q_page);
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	atomic_set(&rbio->error, 0);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	for_each_set_bit(pagenr, rbio->dbitmap, rbio->stripe_npages) {
5a6ac9eaSMiao Xie		struct page *p;
5a6ac9eaSMiao Xie		void *parity;
5a6ac9eaSMiao Xie		/* first collect one page from each data stripe */
5a6ac9eaSMiao Xie		for (stripe = 0; stripe < nr_data; stripe++) {
5a6ac9eaSMiao Xie			p = page_in_rbio(rbio, stripe, pagenr, 0);
5a6ac9eaSMiao Xie			pointers[stripe] = kmap(p);
5a6ac9eaSMiao Xie		}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		/* then add the parity stripe */
5a6ac9eaSMiao Xie		pointers[stripe++] = kmap(p_page);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		if (q_stripe != -1) {
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie			/*
5a6ac9eaSMiao Xie			 * raid6, add the qstripe and call the
5a6ac9eaSMiao Xie			 * library function to fill in our p/q
5a6ac9eaSMiao Xie			 */
5a6ac9eaSMiao Xie			pointers[stripe++] = kmap(q_page);
5a6ac9eaSMiao Xie
2c8cdd6eSMiao Xie			raid6_call.gen_syndrome(rbio->real_stripes, PAGE_SIZE,
5a6ac9eaSMiao Xie						pointers);
5a6ac9eaSMiao Xie		} else {
5a6ac9eaSMiao Xie			/* raid5 */
5a6ac9eaSMiao Xie			memcpy(pointers[nr_data], pointers[0], PAGE_SIZE);
09cbfeafSKirill A. Shutemov			run_xor(pointers + 1, nr_data - 1, PAGE_SIZE);
5a6ac9eaSMiao Xie		}
5a6ac9eaSMiao Xie
01327610SNicholas D Steeves		/* Check scrubbing parity and repair it */
5a6ac9eaSMiao Xie		p = rbio_stripe_page(rbio, rbio->scrubp, pagenr);
5a6ac9eaSMiao Xie		parity = kmap(p);
09cbfeafSKirill A. Shutemov		if (memcmp(parity, pointers[rbio->scrubp], PAGE_SIZE))
09cbfeafSKirill A. Shutemov			memcpy(parity, pointers[rbio->scrubp], PAGE_SIZE);
5a6ac9eaSMiao Xie		else
5a6ac9eaSMiao Xie			/* Parity is right, needn't writeback */
5a6ac9eaSMiao Xie			bitmap_clear(rbio->dbitmap, pagenr, 1);
5a6ac9eaSMiao Xie		kunmap(p);
5a6ac9eaSMiao Xie
2c8cdd6eSMiao Xie		for (stripe = 0; stripe < rbio->real_stripes; stripe++)
5a6ac9eaSMiao Xie			kunmap(page_in_rbio(rbio, stripe, pagenr, 0));
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	__free_page(p_page);
5a6ac9eaSMiao Xie	if (q_page)
5a6ac9eaSMiao Xie		__free_page(q_page);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiewriteback:
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * time to start writing.  Make bios for everything from the
5a6ac9eaSMiao Xie	 * higher layers (the bio_list in our rbio) and our p/q.  Ignore
5a6ac9eaSMiao Xie	 * everything else.
5a6ac9eaSMiao Xie	 */
5a6ac9eaSMiao Xie	for_each_set_bit(pagenr, rbio->dbitmap, rbio->stripe_npages) {
5a6ac9eaSMiao Xie		struct page *page;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		page = rbio_stripe_page(rbio, rbio->scrubp, pagenr);
5a6ac9eaSMiao Xie		ret = rbio_add_io_page(rbio, &bio_list,
5a6ac9eaSMiao Xie			       page, rbio->scrubp, pagenr, rbio->stripe_len);
5a6ac9eaSMiao Xie		if (ret)
5a6ac9eaSMiao Xie			goto cleanup;
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
76035976SMiao Xie	if (!is_replace)
76035976SMiao Xie		goto submit_write;
76035976SMiao Xie
76035976SMiao Xie	for_each_set_bit(pagenr, pbitmap, rbio->stripe_npages) {
76035976SMiao Xie		struct page *page;
76035976SMiao Xie
76035976SMiao Xie		page = rbio_stripe_page(rbio, rbio->scrubp, pagenr);
76035976SMiao Xie		ret = rbio_add_io_page(rbio, &bio_list, page,
76035976SMiao Xie				       bbio->tgtdev_map[rbio->scrubp],
76035976SMiao Xie				       pagenr, rbio->stripe_len);
76035976SMiao Xie		if (ret)
76035976SMiao Xie			goto cleanup;
76035976SMiao Xie	}
76035976SMiao Xie
76035976SMiao Xiesubmit_write:
5a6ac9eaSMiao Xie	nr_data = bio_list_size(&bio_list);
5a6ac9eaSMiao Xie	if (!nr_data) {
5a6ac9eaSMiao Xie		/* Every parity is right */
4246a0b6SChristoph Hellwig		rbio_orig_end_io(rbio, 0);
5a6ac9eaSMiao Xie		return;
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	atomic_set(&rbio->stripes_pending, nr_data);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	while (1) {
5a6ac9eaSMiao Xie		bio = bio_list_pop(&bio_list);
5a6ac9eaSMiao Xie		if (!bio)
5a6ac9eaSMiao Xie			break;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		bio->bi_private = rbio;
a6111d11SZhao Lei		bio->bi_end_io = raid_write_end_io;
37226b21SMike Christie		bio_set_op_attrs(bio, REQ_OP_WRITE, 0);
4e49ea4aSMike Christie
4e49ea4aSMike Christie		submit_bio(bio);
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie	return;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiecleanup:
4246a0b6SChristoph Hellwig	rbio_orig_end_io(rbio, -EIO);
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiestatic inline int is_data_stripe(struct btrfs_raid_bio *rbio, int stripe)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	if (stripe >= 0 && stripe < rbio->nr_data)
5a6ac9eaSMiao Xie		return 1;
5a6ac9eaSMiao Xie	return 0;
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie/*
5a6ac9eaSMiao Xie * While we're doing the parity check and repair, we could have errors
5a6ac9eaSMiao Xie * in reading pages off the disk.  This checks for errors and if we're
5a6ac9eaSMiao Xie * not able to read the page it'll trigger parity reconstruction.  The
5a6ac9eaSMiao Xie * parity scrub will be finished after we've reconstructed the failed
5a6ac9eaSMiao Xie * stripes
5a6ac9eaSMiao Xie */
5a6ac9eaSMiao Xiestatic void validate_rbio_for_parity_scrub(struct btrfs_raid_bio *rbio)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	if (atomic_read(&rbio->error) > rbio->bbio->max_errors)
5a6ac9eaSMiao Xie		goto cleanup;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	if (rbio->faila >= 0 || rbio->failb >= 0) {
5a6ac9eaSMiao Xie		int dfail = 0, failp = -1;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		if (is_data_stripe(rbio, rbio->faila))
5a6ac9eaSMiao Xie			dfail++;
5a6ac9eaSMiao Xie		else if (is_parity_stripe(rbio->faila))
5a6ac9eaSMiao Xie			failp = rbio->faila;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		if (is_data_stripe(rbio, rbio->failb))
5a6ac9eaSMiao Xie			dfail++;
5a6ac9eaSMiao Xie		else if (is_parity_stripe(rbio->failb))
5a6ac9eaSMiao Xie			failp = rbio->failb;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		/*
5a6ac9eaSMiao Xie		 * Because we can not use a scrubbing parity to repair
5a6ac9eaSMiao Xie		 * the data, so the capability of the repair is declined.
5a6ac9eaSMiao Xie		 * (In the case of RAID5, we can not repair anything)
5a6ac9eaSMiao Xie		 */
5a6ac9eaSMiao Xie		if (dfail > rbio->bbio->max_errors - 1)
5a6ac9eaSMiao Xie			goto cleanup;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		/*
5a6ac9eaSMiao Xie		 * If all data is good, only parity is correctly, just
5a6ac9eaSMiao Xie		 * repair the parity.
5a6ac9eaSMiao Xie		 */
5a6ac9eaSMiao Xie		if (dfail == 0) {
5a6ac9eaSMiao Xie			finish_parity_scrub(rbio, 0);
5a6ac9eaSMiao Xie			return;
5a6ac9eaSMiao Xie		}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		/*
5a6ac9eaSMiao Xie		 * Here means we got one corrupted data stripe and one
5a6ac9eaSMiao Xie		 * corrupted parity on RAID6, if the corrupted parity
01327610SNicholas D Steeves		 * is scrubbing parity, luckily, use the other one to repair
5a6ac9eaSMiao Xie		 * the data, or we can not repair the data stripe.
5a6ac9eaSMiao Xie		 */
5a6ac9eaSMiao Xie		if (failp != rbio->scrubp)
5a6ac9eaSMiao Xie			goto cleanup;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		__raid_recover_end_io(rbio);
5a6ac9eaSMiao Xie	} else {
5a6ac9eaSMiao Xie		finish_parity_scrub(rbio, 1);
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie	return;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiecleanup:
4246a0b6SChristoph Hellwig	rbio_orig_end_io(rbio, -EIO);
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie/*
5a6ac9eaSMiao Xie * end io for the read phase of the rmw cycle.  All the bios here are physical
5a6ac9eaSMiao Xie * stripe bios we've read from the disk so we can recalculate the parity of the
5a6ac9eaSMiao Xie * stripe.
5a6ac9eaSMiao Xie *
5a6ac9eaSMiao Xie * This will usually kick off finish_rmw once all the bios are read in, but it
5a6ac9eaSMiao Xie * may trigger parity reconstruction if we had any errors along the way
5a6ac9eaSMiao Xie */
4246a0b6SChristoph Hellwigstatic void raid56_parity_scrub_end_io(struct bio *bio)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	struct btrfs_raid_bio *rbio = bio->bi_private;
5a6ac9eaSMiao Xie
4246a0b6SChristoph Hellwig	if (bio->bi_error)
5a6ac9eaSMiao Xie		fail_bio_stripe(rbio, bio);
5a6ac9eaSMiao Xie	else
5a6ac9eaSMiao Xie		set_bio_pages_uptodate(bio);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	bio_put(bio);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	if (!atomic_dec_and_test(&rbio->stripes_pending))
5a6ac9eaSMiao Xie		return;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * this will normally call finish_rmw to start our write
5a6ac9eaSMiao Xie	 * but if there are any failed stripes we'll reconstruct
5a6ac9eaSMiao Xie	 * from parity first
5a6ac9eaSMiao Xie	 */
5a6ac9eaSMiao Xie	validate_rbio_for_parity_scrub(rbio);
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiestatic void raid56_parity_scrub_stripe(struct btrfs_raid_bio *rbio)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	int bios_to_read = 0;
5a6ac9eaSMiao Xie	struct bio_list bio_list;
5a6ac9eaSMiao Xie	int ret;
5a6ac9eaSMiao Xie	int pagenr;
5a6ac9eaSMiao Xie	int stripe;
5a6ac9eaSMiao Xie	struct bio *bio;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	ret = alloc_rbio_essential_pages(rbio);
5a6ac9eaSMiao Xie	if (ret)
5a6ac9eaSMiao Xie		goto cleanup;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	bio_list_init(&bio_list);
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	atomic_set(&rbio->error, 0);
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * build a list of bios to read all the missing parts of this
5a6ac9eaSMiao Xie	 * stripe
5a6ac9eaSMiao Xie	 */
2c8cdd6eSMiao Xie	for (stripe = 0; stripe < rbio->real_stripes; stripe++) {
5a6ac9eaSMiao Xie		for_each_set_bit(pagenr, rbio->dbitmap, rbio->stripe_npages) {
5a6ac9eaSMiao Xie			struct page *page;
5a6ac9eaSMiao Xie			/*
5a6ac9eaSMiao Xie			 * we want to find all the pages missing from
5a6ac9eaSMiao Xie			 * the rbio and read them from the disk.  If
5a6ac9eaSMiao Xie			 * page_in_rbio finds a page in the bio list
5a6ac9eaSMiao Xie			 * we don't need to read it off the stripe.
5a6ac9eaSMiao Xie			 */
5a6ac9eaSMiao Xie			page = page_in_rbio(rbio, stripe, pagenr, 1);
5a6ac9eaSMiao Xie			if (page)
5a6ac9eaSMiao Xie				continue;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie			page = rbio_stripe_page(rbio, stripe, pagenr);
5a6ac9eaSMiao Xie			/*
5a6ac9eaSMiao Xie			 * the bio cache may have handed us an uptodate
5a6ac9eaSMiao Xie			 * page.  If so, be happy and use it
5a6ac9eaSMiao Xie			 */
5a6ac9eaSMiao Xie			if (PageUptodate(page))
5a6ac9eaSMiao Xie				continue;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie			ret = rbio_add_io_page(rbio, &bio_list, page,
5a6ac9eaSMiao Xie				       stripe, pagenr, rbio->stripe_len);
5a6ac9eaSMiao Xie			if (ret)
5a6ac9eaSMiao Xie				goto cleanup;
5a6ac9eaSMiao Xie		}
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	bios_to_read = bio_list_size(&bio_list);
5a6ac9eaSMiao Xie	if (!bios_to_read) {
5a6ac9eaSMiao Xie		/*
5a6ac9eaSMiao Xie		 * this can happen if others have merged with
5a6ac9eaSMiao Xie		 * us, it means there is nothing left to read.
5a6ac9eaSMiao Xie		 * But if there are missing devices it may not be
5a6ac9eaSMiao Xie		 * safe to do the full stripe write yet.
5a6ac9eaSMiao Xie		 */
5a6ac9eaSMiao Xie		goto finish;
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	/*
5a6ac9eaSMiao Xie	 * the bbio may be freed once we submit the last bio.  Make sure
5a6ac9eaSMiao Xie	 * not to touch it after that
5a6ac9eaSMiao Xie	 */
5a6ac9eaSMiao Xie	atomic_set(&rbio->stripes_pending, bios_to_read);
5a6ac9eaSMiao Xie	while (1) {
5a6ac9eaSMiao Xie		bio = bio_list_pop(&bio_list);
5a6ac9eaSMiao Xie		if (!bio)
5a6ac9eaSMiao Xie			break;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie		bio->bi_private = rbio;
5a6ac9eaSMiao Xie		bio->bi_end_io = raid56_parity_scrub_end_io;
37226b21SMike Christie		bio_set_op_attrs(bio, REQ_OP_READ, 0);
5a6ac9eaSMiao Xie
0b246afaSJeff Mahoney		btrfs_bio_wq_end_io(rbio->fs_info, bio, BTRFS_WQ_ENDIO_RAID56);
5a6ac9eaSMiao Xie
4e49ea4aSMike Christie		submit_bio(bio);
5a6ac9eaSMiao Xie	}
5a6ac9eaSMiao Xie	/* the actual write will happen once the reads are done */
5a6ac9eaSMiao Xie	return;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiecleanup:
4246a0b6SChristoph Hellwig	rbio_orig_end_io(rbio, -EIO);
5a6ac9eaSMiao Xie	return;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiefinish:
5a6ac9eaSMiao Xie	validate_rbio_for_parity_scrub(rbio);
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiestatic void scrub_parity_work(struct btrfs_work *work)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	struct btrfs_raid_bio *rbio;
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xie	rbio = container_of(work, struct btrfs_raid_bio, work);
5a6ac9eaSMiao Xie	raid56_parity_scrub_stripe(rbio);
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xiestatic void async_scrub_parity(struct btrfs_raid_bio *rbio)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	btrfs_init_work(&rbio->work, btrfs_rmw_helper,
5a6ac9eaSMiao Xie			scrub_parity_work, NULL, NULL);
5a6ac9eaSMiao Xie
0b246afaSJeff Mahoney	btrfs_queue_work(rbio->fs_info->rmw_workers, &rbio->work);
5a6ac9eaSMiao Xie}
5a6ac9eaSMiao Xie
5a6ac9eaSMiao Xievoid raid56_parity_submit_scrub_rbio(struct btrfs_raid_bio *rbio)
5a6ac9eaSMiao Xie{
5a6ac9eaSMiao Xie	if (!lock_stripe_add(rbio))
5a6ac9eaSMiao Xie		async_scrub_parity(rbio);
5a6ac9eaSMiao Xie}
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandoval/* The following code is used for dev replace of a missing RAID 5/6 device. */
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandovalstruct btrfs_raid_bio *
2ff7e61eSJeff Mahoneyraid56_alloc_missing_rbio(struct btrfs_fs_info *fs_info, struct bio *bio,
b4ee1782SOmar Sandoval			  struct btrfs_bio *bbio, u64 length)
b4ee1782SOmar Sandoval{
b4ee1782SOmar Sandoval	struct btrfs_raid_bio *rbio;
b4ee1782SOmar Sandoval
2ff7e61eSJeff Mahoney	rbio = alloc_rbio(fs_info, bbio, length);
b4ee1782SOmar Sandoval	if (IS_ERR(rbio))
b4ee1782SOmar Sandoval		return NULL;
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandoval	rbio->operation = BTRFS_RBIO_REBUILD_MISSING;
b4ee1782SOmar Sandoval	bio_list_add(&rbio->bio_list, bio);
b4ee1782SOmar Sandoval	/*
b4ee1782SOmar Sandoval	 * This is a special bio which is used to hold the completion handler
b4ee1782SOmar Sandoval	 * and make the scrub rbio is similar to the other types
b4ee1782SOmar Sandoval	 */
b4ee1782SOmar Sandoval	ASSERT(!bio->bi_iter.bi_size);
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandoval	rbio->faila = find_logical_bio_stripe(rbio, bio);
b4ee1782SOmar Sandoval	if (rbio->faila == -1) {
b4ee1782SOmar Sandoval		BUG();
b4ee1782SOmar Sandoval		kfree(rbio);
b4ee1782SOmar Sandoval		return NULL;
b4ee1782SOmar Sandoval	}
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandoval	return rbio;
b4ee1782SOmar Sandoval}
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandovalstatic void missing_raid56_work(struct btrfs_work *work)
b4ee1782SOmar Sandoval{
b4ee1782SOmar Sandoval	struct btrfs_raid_bio *rbio;
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandoval	rbio = container_of(work, struct btrfs_raid_bio, work);
b4ee1782SOmar Sandoval	__raid56_parity_recover(rbio);
b4ee1782SOmar Sandoval}
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandovalstatic void async_missing_raid56(struct btrfs_raid_bio *rbio)
b4ee1782SOmar Sandoval{
b4ee1782SOmar Sandoval	btrfs_init_work(&rbio->work, btrfs_rmw_helper,
b4ee1782SOmar Sandoval			missing_raid56_work, NULL, NULL);
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandoval	btrfs_queue_work(rbio->fs_info->rmw_workers, &rbio->work);
b4ee1782SOmar Sandoval}
b4ee1782SOmar Sandoval
b4ee1782SOmar Sandovalvoid raid56_submit_missing_rbio(struct btrfs_raid_bio *rbio)
b4ee1782SOmar Sandoval{
b4ee1782SOmar Sandoval	if (!lock_stripe_add(rbio))
b4ee1782SOmar Sandoval		async_missing_raid56(rbio);
b4ee1782SOmar Sandoval}