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path: root/fs/bcachefs/extents.c
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// SPDX-License-Identifier: GPL-2.0
/*
 * Copyright (C) 2010 Kent Overstreet <kent.overstreet@gmail.com>
 *
 * Code for managing the extent btree and dynamically updating the writeback
 * dirty sector count.
 */

#include "bcachefs.h"
#include "bkey_methods.h"
#include "btree_gc.h"
#include "btree_io.h"
#include "btree_iter.h"
#include "buckets.h"
#include "checksum.h"
#include "debug.h"
#include "disk_groups.h"
#include "error.h"
#include "extents.h"
#include "inode.h"
#include "journal.h"
#include "replicas.h"
#include "super.h"
#include "super-io.h"
#include "trace.h"
#include "util.h"

static union bch_extent_entry *__bch2_bkey_drop_ptr(struct bkey_s, struct bch_extent_ptr *);

static unsigned bch2_crc_field_size_max[] = {
	[BCH_EXTENT_ENTRY_crc32] = CRC32_SIZE_MAX,
	[BCH_EXTENT_ENTRY_crc64] = CRC64_SIZE_MAX,
	[BCH_EXTENT_ENTRY_crc128] = CRC128_SIZE_MAX,
};

static void bch2_extent_crc_pack(union bch_extent_crc *,
				 struct bch_extent_crc_unpacked,
				 enum bch_extent_entry_type);

static struct bch_dev_io_failures *dev_io_failures(struct bch_io_failures *f,
						   unsigned dev)
{
	struct bch_dev_io_failures *i;

	for (i = f->devs; i < f->devs + f->nr; i++)
		if (i->dev == dev)
			return i;

	return NULL;
}

void bch2_mark_io_failure(struct bch_io_failures *failed,
			  struct extent_ptr_decoded *p)
{
	struct bch_dev_io_failures *f = dev_io_failures(failed, p->ptr.dev);

	if (!f) {
		BUG_ON(failed->nr >= ARRAY_SIZE(failed->devs));

		f = &failed->devs[failed->nr++];
		f->dev		= p->ptr.dev;
		f->idx		= p->idx;
		f->nr_failed	= 1;
		f->nr_retries	= 0;
	} else if (p->idx != f->idx) {
		f->idx		= p->idx;
		f->nr_failed	= 1;
		f->nr_retries	= 0;
	} else {
		f->nr_failed++;
	}
}

/*
 * returns true if p1 is better than p2:
 */
static inline bool ptr_better(struct bch_fs *c,
			      const struct extent_ptr_decoded p1,
			      const struct extent_ptr_decoded p2)
{
	if (likely(!p1.idx && !p2.idx)) {
		struct bch_dev *dev1 = bch_dev_bkey_exists(c, p1.ptr.dev);
		struct bch_dev *dev2 = bch_dev_bkey_exists(c, p2.ptr.dev);

		u64 l1 = atomic64_read(&dev1->cur_latency[READ]);
		u64 l2 = atomic64_read(&dev2->cur_latency[READ]);

		/* Pick at random, biased in favor of the faster device: */

		return bch2_rand_range(l1 + l2) > l1;
	}

	if (bch2_force_reconstruct_read)
		return p1.idx > p2.idx;

	return p1.idx < p2.idx;
}

/*
 * This picks a non-stale pointer, preferably from a device other than @avoid.
 * Avoid can be NULL, meaning pick any. If there are no non-stale pointers to
 * other devices, it will still pick a pointer from avoid.
 */
int bch2_bkey_pick_read_device(struct bch_fs *c, struct bkey_s_c k,
			       struct bch_io_failures *failed,
			       struct extent_ptr_decoded *pick)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct extent_ptr_decoded p;
	struct bch_dev_io_failures *f;
	struct bch_dev *ca;
	int ret = 0;

	if (k.k->type == KEY_TYPE_error)
		return -EIO;

	bkey_for_each_ptr_decode(k.k, ptrs, p, entry) {
		ca = bch_dev_bkey_exists(c, p.ptr.dev);

		/*
		 * If there are any dirty pointers it's an error if we can't
		 * read:
		 */
		if (!ret && !p.ptr.cached)
			ret = -EIO;

		if (p.ptr.cached && ptr_stale(ca, &p.ptr))
			continue;

		f = failed ? dev_io_failures(failed, p.ptr.dev) : NULL;
		if (f)
			p.idx = f->nr_failed < f->nr_retries
				? f->idx
				: f->idx + 1;

		if (!p.idx &&
		    !bch2_dev_is_readable(ca))
			p.idx++;

		if (bch2_force_reconstruct_read &&
		    !p.idx && p.has_ec)
			p.idx++;

		if (p.idx >= (unsigned) p.has_ec + 1)
			continue;

		if (ret > 0 && !ptr_better(c, p, *pick))
			continue;

		*pick = p;
		ret = 1;
	}

	return ret;
}

/* KEY_TYPE_btree_ptr: */

int bch2_btree_ptr_invalid(const struct bch_fs *c, struct bkey_s_c k,
			   int rw, struct printbuf *err)
{
	if (bkey_val_u64s(k.k) > BCH_REPLICAS_MAX) {
		prt_printf(err, "value too big (%zu > %u)",
		       bkey_val_u64s(k.k), BCH_REPLICAS_MAX);
		return -BCH_ERR_invalid_bkey;
	}

	return bch2_bkey_ptrs_invalid(c, k, rw, err);
}

void bch2_btree_ptr_to_text(struct printbuf *out, struct bch_fs *c,
			    struct bkey_s_c k)
{
	bch2_bkey_ptrs_to_text(out, c, k);
}

int bch2_btree_ptr_v2_invalid(const struct bch_fs *c, struct bkey_s_c k,
			      int rw, struct printbuf *err)
{
	struct bkey_s_c_btree_ptr_v2 bp = bkey_s_c_to_btree_ptr_v2(k);

	if (bkey_val_bytes(k.k) <= sizeof(*bp.v)) {
		prt_printf(err, "value too small (%zu <= %zu)",
		       bkey_val_bytes(k.k), sizeof(*bp.v));
		return -BCH_ERR_invalid_bkey;
	}

	if (bkey_val_u64s(k.k) > BKEY_BTREE_PTR_VAL_U64s_MAX) {
		prt_printf(err, "value too big (%zu > %zu)",
		       bkey_val_u64s(k.k), BKEY_BTREE_PTR_VAL_U64s_MAX);
		return -BCH_ERR_invalid_bkey;
	}

	if (c->sb.version < bcachefs_metadata_version_snapshot &&
	    bp.v->min_key.snapshot) {
		prt_printf(err, "invalid min_key.snapshot (%u != 0)",
		       bp.v->min_key.snapshot);
		return -BCH_ERR_invalid_bkey;
	}

	return bch2_bkey_ptrs_invalid(c, k, rw, err);
}

void bch2_btree_ptr_v2_to_text(struct printbuf *out, struct bch_fs *c,
			       struct bkey_s_c k)
{
	struct bkey_s_c_btree_ptr_v2 bp = bkey_s_c_to_btree_ptr_v2(k);

	prt_printf(out, "seq %llx written %u min_key %s",
	       le64_to_cpu(bp.v->seq),
	       le16_to_cpu(bp.v->sectors_written),
	       BTREE_PTR_RANGE_UPDATED(bp.v) ? "R " : "");

	bch2_bpos_to_text(out, bp.v->min_key);
	prt_printf(out, " ");
	bch2_bkey_ptrs_to_text(out, c, k);
}

void bch2_btree_ptr_v2_compat(enum btree_id btree_id, unsigned version,
			      unsigned big_endian, int write,
			      struct bkey_s k)
{
	struct bkey_s_btree_ptr_v2 bp = bkey_s_to_btree_ptr_v2(k);

	compat_bpos(0, btree_id, version, big_endian, write, &bp.v->min_key);

	if (version < bcachefs_metadata_version_inode_btree_change &&
	    btree_node_type_is_extents(btree_id) &&
	    !bkey_eq(bp.v->min_key, POS_MIN))
		bp.v->min_key = write
			? bpos_nosnap_predecessor(bp.v->min_key)
			: bpos_nosnap_successor(bp.v->min_key);
}

/* KEY_TYPE_extent: */

bool bch2_extent_merge(struct bch_fs *c, struct bkey_s l, struct bkey_s_c r)
{
	struct bkey_ptrs   l_ptrs = bch2_bkey_ptrs(l);
	struct bkey_ptrs_c r_ptrs = bch2_bkey_ptrs_c(r);
	union bch_extent_entry *en_l;
	const union bch_extent_entry *en_r;
	struct extent_ptr_decoded lp, rp;
	bool use_right_ptr;
	struct bch_dev *ca;

	en_l = l_ptrs.start;
	en_r = r_ptrs.start;
	while (en_l < l_ptrs.end && en_r < r_ptrs.end) {
		if (extent_entry_type(en_l) != extent_entry_type(en_r))
			return false;

		en_l = extent_entry_next(en_l);
		en_r = extent_entry_next(en_r);
	}

	if (en_l < l_ptrs.end || en_r < r_ptrs.end)
		return false;

	en_l = l_ptrs.start;
	en_r = r_ptrs.start;
	lp.crc = bch2_extent_crc_unpack(l.k, NULL);
	rp.crc = bch2_extent_crc_unpack(r.k, NULL);

	while (__bkey_ptr_next_decode(l.k, l_ptrs.end, lp, en_l) &&
	       __bkey_ptr_next_decode(r.k, r_ptrs.end, rp, en_r)) {
		if (lp.ptr.offset + lp.crc.offset + lp.crc.live_size !=
		    rp.ptr.offset + rp.crc.offset ||
		    lp.ptr.dev			!= rp.ptr.dev ||
		    lp.ptr.gen			!= rp.ptr.gen ||
		    lp.has_ec			!= rp.has_ec)
			return false;

		/* Extents may not straddle buckets: */
		ca = bch_dev_bkey_exists(c, lp.ptr.dev);
		if (PTR_BUCKET_NR(ca, &lp.ptr) != PTR_BUCKET_NR(ca, &rp.ptr))
			return false;

		if (lp.has_ec			!= rp.has_ec ||
		    (lp.has_ec &&
		     (lp.ec.block		!= rp.ec.block ||
		      lp.ec.redundancy		!= rp.ec.redundancy ||
		      lp.ec.idx			!= rp.ec.idx)))
			return false;

		if (lp.crc.compression_type	!= rp.crc.compression_type ||
		    lp.crc.nonce		!= rp.crc.nonce)
			return false;

		if (lp.crc.offset + lp.crc.live_size + rp.crc.live_size <=
		    lp.crc.uncompressed_size) {
			/* can use left extent's crc entry */
		} else if (lp.crc.live_size <= rp.crc.offset) {
			/* can use right extent's crc entry */
		} else {
			/* check if checksums can be merged: */
			if (lp.crc.csum_type		!= rp.crc.csum_type ||
			    lp.crc.nonce		!= rp.crc.nonce ||
			    crc_is_compressed(lp.crc) ||
			    !bch2_checksum_mergeable(lp.crc.csum_type))
				return false;

			if (lp.crc.offset + lp.crc.live_size != lp.crc.compressed_size ||
			    rp.crc.offset)
				return false;

			if (lp.crc.csum_type &&
			    lp.crc.uncompressed_size +
			    rp.crc.uncompressed_size > (c->opts.encoded_extent_max >> 9))
				return false;
		}

		en_l = extent_entry_next(en_l);
		en_r = extent_entry_next(en_r);
	}

	en_l = l_ptrs.start;
	en_r = r_ptrs.start;
	while (en_l < l_ptrs.end && en_r < r_ptrs.end) {
		if (extent_entry_is_crc(en_l)) {
			struct bch_extent_crc_unpacked crc_l = bch2_extent_crc_unpack(l.k, entry_to_crc(en_l));
			struct bch_extent_crc_unpacked crc_r = bch2_extent_crc_unpack(r.k, entry_to_crc(en_r));

			if (crc_l.uncompressed_size + crc_r.uncompressed_size >
			    bch2_crc_field_size_max[extent_entry_type(en_l)])
				return false;
		}

		en_l = extent_entry_next(en_l);
		en_r = extent_entry_next(en_r);
	}

	use_right_ptr = false;
	en_l = l_ptrs.start;
	en_r = r_ptrs.start;
	while (en_l < l_ptrs.end) {
		if (extent_entry_type(en_l) == BCH_EXTENT_ENTRY_ptr &&
		    use_right_ptr)
			en_l->ptr = en_r->ptr;

		if (extent_entry_is_crc(en_l)) {
			struct bch_extent_crc_unpacked crc_l =
				bch2_extent_crc_unpack(l.k, entry_to_crc(en_l));
			struct bch_extent_crc_unpacked crc_r =
				bch2_extent_crc_unpack(r.k, entry_to_crc(en_r));

			use_right_ptr = false;

			if (crc_l.offset + crc_l.live_size + crc_r.live_size <=
			    crc_l.uncompressed_size) {
				/* can use left extent's crc entry */
			} else if (crc_l.live_size <= crc_r.offset) {
				/* can use right extent's crc entry */
				crc_r.offset -= crc_l.live_size;
				bch2_extent_crc_pack(entry_to_crc(en_l), crc_r,
						     extent_entry_type(en_l));
				use_right_ptr = true;
			} else {
				crc_l.csum = bch2_checksum_merge(crc_l.csum_type,
								 crc_l.csum,
								 crc_r.csum,
								 crc_r.uncompressed_size << 9);

				crc_l.uncompressed_size	+= crc_r.uncompressed_size;
				crc_l.compressed_size	+= crc_r.compressed_size;
				bch2_extent_crc_pack(entry_to_crc(en_l), crc_l,
						     extent_entry_type(en_l));
			}
		}

		en_l = extent_entry_next(en_l);
		en_r = extent_entry_next(en_r);
	}

	bch2_key_resize(l.k, l.k->size + r.k->size);
	return true;
}

/* KEY_TYPE_reservation: */

int bch2_reservation_invalid(const struct bch_fs *c, struct bkey_s_c k,
			     int rw, struct printbuf *err)
{
	struct bkey_s_c_reservation r = bkey_s_c_to_reservation(k);

	if (bkey_val_bytes(k.k) != sizeof(struct bch_reservation)) {
		prt_printf(err, "incorrect value size (%zu != %zu)",
		       bkey_val_bytes(k.k), sizeof(*r.v));
		return -BCH_ERR_invalid_bkey;
	}

	if (!r.v->nr_replicas || r.v->nr_replicas > BCH_REPLICAS_MAX) {
		prt_printf(err, "invalid nr_replicas (%u)",
		       r.v->nr_replicas);
		return -BCH_ERR_invalid_bkey;
	}

	return 0;
}

void bch2_reservation_to_text(struct printbuf *out, struct bch_fs *c,
			      struct bkey_s_c k)
{
	struct bkey_s_c_reservation r = bkey_s_c_to_reservation(k);

	prt_printf(out, "generation %u replicas %u",
	       le32_to_cpu(r.v->generation),
	       r.v->nr_replicas);
}

bool bch2_reservation_merge(struct bch_fs *c, struct bkey_s _l, struct bkey_s_c _r)
{
	struct bkey_s_reservation l = bkey_s_to_reservation(_l);
	struct bkey_s_c_reservation r = bkey_s_c_to_reservation(_r);

	if (l.v->generation != r.v->generation ||
	    l.v->nr_replicas != r.v->nr_replicas)
		return false;

	bch2_key_resize(l.k, l.k->size + r.k->size);
	return true;
}

/* Extent checksum entries: */

/* returns true if not equal */
static inline bool bch2_crc_unpacked_cmp(struct bch_extent_crc_unpacked l,
					 struct bch_extent_crc_unpacked r)
{
	return (l.csum_type		!= r.csum_type ||
		l.compression_type	!= r.compression_type ||
		l.compressed_size	!= r.compressed_size ||
		l.uncompressed_size	!= r.uncompressed_size ||
		l.offset		!= r.offset ||
		l.live_size		!= r.live_size ||
		l.nonce			!= r.nonce ||
		bch2_crc_cmp(l.csum, r.csum));
}

static inline bool can_narrow_crc(struct bch_extent_crc_unpacked u,
				  struct bch_extent_crc_unpacked n)
{
	return !crc_is_compressed(u) &&
		u.csum_type &&
		u.uncompressed_size > u.live_size &&
		bch2_csum_type_is_encryption(u.csum_type) ==
		bch2_csum_type_is_encryption(n.csum_type);
}

bool bch2_can_narrow_extent_crcs(struct bkey_s_c k,
				 struct bch_extent_crc_unpacked n)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	struct bch_extent_crc_unpacked crc;
	const union bch_extent_entry *i;

	if (!n.csum_type)
		return false;

	bkey_for_each_crc(k.k, ptrs, crc, i)
		if (can_narrow_crc(crc, n))
			return true;

	return false;
}

/*
 * We're writing another replica for this extent, so while we've got the data in
 * memory we'll be computing a new checksum for the currently live data.
 *
 * If there are other replicas we aren't moving, and they are checksummed but
 * not compressed, we can modify them to point to only the data that is
 * currently live (so that readers won't have to bounce) while we've got the
 * checksum we need:
 */
bool bch2_bkey_narrow_crcs(struct bkey_i *k, struct bch_extent_crc_unpacked n)
{
	struct bkey_ptrs ptrs = bch2_bkey_ptrs(bkey_i_to_s(k));
	struct bch_extent_crc_unpacked u;
	struct extent_ptr_decoded p;
	union bch_extent_entry *i;
	bool ret = false;

	/* Find a checksum entry that covers only live data: */
	if (!n.csum_type) {
		bkey_for_each_crc(&k->k, ptrs, u, i)
			if (!crc_is_compressed(u) &&
			    u.csum_type &&
			    u.live_size == u.uncompressed_size) {
				n = u;
				goto found;
			}
		return false;
	}
found:
	BUG_ON(crc_is_compressed(n));
	BUG_ON(n.offset);
	BUG_ON(n.live_size != k->k.size);

restart_narrow_pointers:
	ptrs = bch2_bkey_ptrs(bkey_i_to_s(k));

	bkey_for_each_ptr_decode(&k->k, ptrs, p, i)
		if (can_narrow_crc(p.crc, n)) {
			__bch2_bkey_drop_ptr(bkey_i_to_s(k), &i->ptr);
			p.ptr.offset += p.crc.offset;
			p.crc = n;
			bch2_extent_ptr_decoded_append(k, &p);
			ret = true;
			goto restart_narrow_pointers;
		}

	return ret;
}

static void bch2_extent_crc_pack(union bch_extent_crc *dst,
				 struct bch_extent_crc_unpacked src,
				 enum bch_extent_entry_type type)
{
#define set_common_fields(_dst, _src)					\
		_dst.type		= 1 << type;			\
		_dst.csum_type		= _src.csum_type,		\
		_dst.compression_type	= _src.compression_type,	\
		_dst._compressed_size	= _src.compressed_size - 1,	\
		_dst._uncompressed_size	= _src.uncompressed_size - 1,	\
		_dst.offset		= _src.offset

	switch (type) {
	case BCH_EXTENT_ENTRY_crc32:
		set_common_fields(dst->crc32, src);
		dst->crc32.csum	 = *((__le32 *) &src.csum.lo);
		break;
	case BCH_EXTENT_ENTRY_crc64:
		set_common_fields(dst->crc64, src);
		dst->crc64.nonce	= src.nonce;
		dst->crc64.csum_lo	= src.csum.lo;
		dst->crc64.csum_hi	= *((__le16 *) &src.csum.hi);
		break;
	case BCH_EXTENT_ENTRY_crc128:
		set_common_fields(dst->crc128, src);
		dst->crc128.nonce	= src.nonce;
		dst->crc128.csum	= src.csum;
		break;
	default:
		BUG();
	}
#undef set_common_fields
}

void bch2_extent_crc_append(struct bkey_i *k,
			    struct bch_extent_crc_unpacked new)
{
	struct bkey_ptrs ptrs = bch2_bkey_ptrs(bkey_i_to_s(k));
	union bch_extent_crc *crc = (void *) ptrs.end;
	enum bch_extent_entry_type type;

	if (bch_crc_bytes[new.csum_type]	<= 4 &&
	    new.uncompressed_size		<= CRC32_SIZE_MAX &&
	    new.nonce				<= CRC32_NONCE_MAX)
		type = BCH_EXTENT_ENTRY_crc32;
	else if (bch_crc_bytes[new.csum_type]	<= 10 &&
		   new.uncompressed_size	<= CRC64_SIZE_MAX &&
		   new.nonce			<= CRC64_NONCE_MAX)
		type = BCH_EXTENT_ENTRY_crc64;
	else if (bch_crc_bytes[new.csum_type]	<= 16 &&
		   new.uncompressed_size	<= CRC128_SIZE_MAX &&
		   new.nonce			<= CRC128_NONCE_MAX)
		type = BCH_EXTENT_ENTRY_crc128;
	else
		BUG();

	bch2_extent_crc_pack(crc, new, type);

	k->k.u64s += extent_entry_u64s(ptrs.end);

	EBUG_ON(bkey_val_u64s(&k->k) > BKEY_EXTENT_VAL_U64s_MAX);
}

/* Generic code for keys with pointers: */

unsigned bch2_bkey_nr_ptrs(struct bkey_s_c k)
{
	return bch2_bkey_devs(k).nr;
}

unsigned bch2_bkey_nr_ptrs_allocated(struct bkey_s_c k)
{
	return k.k->type == KEY_TYPE_reservation
		? bkey_s_c_to_reservation(k).v->nr_replicas
		: bch2_bkey_dirty_devs(k).nr;
}

unsigned bch2_bkey_nr_ptrs_fully_allocated(struct bkey_s_c k)
{
	unsigned ret = 0;

	if (k.k->type == KEY_TYPE_reservation) {
		ret = bkey_s_c_to_reservation(k).v->nr_replicas;
	} else {
		struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
		const union bch_extent_entry *entry;
		struct extent_ptr_decoded p;

		bkey_for_each_ptr_decode(k.k, ptrs, p, entry)
			ret += !p.ptr.cached && !crc_is_compressed(p.crc);
	}

	return ret;
}

unsigned bch2_bkey_sectors_compressed(struct bkey_s_c k)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct extent_ptr_decoded p;
	unsigned ret = 0;

	bkey_for_each_ptr_decode(k.k, ptrs, p, entry)
		if (!p.ptr.cached && crc_is_compressed(p.crc))
			ret += p.crc.compressed_size;

	return ret;
}

bool bch2_bkey_is_incompressible(struct bkey_s_c k)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct bch_extent_crc_unpacked crc;

	bkey_for_each_crc(k.k, ptrs, crc, entry)
		if (crc.compression_type == BCH_COMPRESSION_TYPE_incompressible)
			return true;
	return false;
}

unsigned bch2_bkey_replicas(struct bch_fs *c, struct bkey_s_c k)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct extent_ptr_decoded p = { 0 };
	unsigned replicas = 0;

	bkey_for_each_ptr_decode(k.k, ptrs, p, entry) {
		if (p.ptr.cached)
			continue;

		if (p.has_ec)
			replicas += p.ec.redundancy;

		replicas++;

	}

	return replicas;
}

static unsigned bch2_extent_ptr_durability(struct bch_fs *c,
					   struct extent_ptr_decoded p)
{
	unsigned durability = 0;
	struct bch_dev *ca;

	if (p.ptr.cached)
		return 0;

	ca = bch_dev_bkey_exists(c, p.ptr.dev);

	if (ca->mi.state != BCH_MEMBER_STATE_failed)
		durability = max_t(unsigned, durability, ca->mi.durability);

	if (p.has_ec)
		durability += p.ec.redundancy;

	return durability;
}

unsigned bch2_bkey_durability(struct bch_fs *c, struct bkey_s_c k)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct extent_ptr_decoded p;
	unsigned durability = 0;

	bkey_for_each_ptr_decode(k.k, ptrs, p, entry)
		durability += bch2_extent_ptr_durability(c, p);

	return durability;
}

void bch2_bkey_extent_entry_drop(struct bkey_i *k, union bch_extent_entry *entry)
{
	union bch_extent_entry *end = bkey_val_end(bkey_i_to_s(k));
	union bch_extent_entry *next = extent_entry_next(entry);

	memmove_u64s(entry, next, (u64 *) end - (u64 *) next);
	k->k.u64s -= extent_entry_u64s(entry);
}

static inline void __extent_entry_insert(struct bkey_i *k,
					 union bch_extent_entry *dst,
					 union bch_extent_entry *new)
{
	union bch_extent_entry *end = bkey_val_end(bkey_i_to_s(k));

	memmove_u64s_up_small((u64 *) dst + extent_entry_u64s(new),
			      dst, (u64 *) end - (u64 *) dst);
	k->k.u64s += extent_entry_u64s(new);
	memcpy_u64s_small(dst, new, extent_entry_u64s(new));
}

void bch2_extent_ptr_decoded_append(struct bkey_i *k,
				    struct extent_ptr_decoded *p)
{
	struct bkey_ptrs ptrs = bch2_bkey_ptrs(bkey_i_to_s(k));
	struct bch_extent_crc_unpacked crc =
		bch2_extent_crc_unpack(&k->k, NULL);
	union bch_extent_entry *pos;

	if (!bch2_crc_unpacked_cmp(crc, p->crc)) {
		pos = ptrs.start;
		goto found;
	}

	bkey_for_each_crc(&k->k, ptrs, crc, pos)
		if (!bch2_crc_unpacked_cmp(crc, p->crc)) {
			pos = extent_entry_next(pos);
			goto found;
		}

	bch2_extent_crc_append(k, p->crc);
	pos = bkey_val_end(bkey_i_to_s(k));
found:
	p->ptr.type = 1 << BCH_EXTENT_ENTRY_ptr;
	__extent_entry_insert(k, pos, to_entry(&p->ptr));

	if (p->has_ec) {
		p->ec.type = 1 << BCH_EXTENT_ENTRY_stripe_ptr;
		__extent_entry_insert(k, pos, to_entry(&p->ec));
	}
}

static union bch_extent_entry *extent_entry_prev(struct bkey_ptrs ptrs,
					  union bch_extent_entry *entry)
{
	union bch_extent_entry *i = ptrs.start;

	if (i == entry)
		return NULL;

	while (extent_entry_next(i) != entry)
		i = extent_entry_next(i);
	return i;
}

static void extent_entry_drop(struct bkey_s k, union bch_extent_entry *entry)
{
	union bch_extent_entry *next = extent_entry_next(entry);

	/* stripes have ptrs, but their layout doesn't work with this code */
	BUG_ON(k.k->type == KEY_TYPE_stripe);

	memmove_u64s_down(entry, next,
			  (u64 *) bkey_val_end(k) - (u64 *) next);
	k.k->u64s -= (u64 *) next - (u64 *) entry;
}

/*
 * Returns pointer to the next entry after the one being dropped:
 */
static union bch_extent_entry *__bch2_bkey_drop_ptr(struct bkey_s k,
					   struct bch_extent_ptr *ptr)
{
	struct bkey_ptrs ptrs = bch2_bkey_ptrs(k);
	union bch_extent_entry *entry = to_entry(ptr), *next;
	union bch_extent_entry *ret = entry;
	bool drop_crc = true;

	EBUG_ON(ptr < &ptrs.start->ptr ||
		ptr >= &ptrs.end->ptr);
	EBUG_ON(ptr->type != 1 << BCH_EXTENT_ENTRY_ptr);

	for (next = extent_entry_next(entry);
	     next != ptrs.end;
	     next = extent_entry_next(next)) {
		if (extent_entry_is_crc(next)) {
			break;
		} else if (extent_entry_is_ptr(next)) {
			drop_crc = false;
			break;
		}
	}

	extent_entry_drop(k, entry);

	while ((entry = extent_entry_prev(ptrs, entry))) {
		if (extent_entry_is_ptr(entry))
			break;

		if ((extent_entry_is_crc(entry) && drop_crc) ||
		    extent_entry_is_stripe_ptr(entry)) {
			ret = (void *) ret - extent_entry_bytes(entry);
			extent_entry_drop(k, entry);
		}
	}

	return ret;
}

union bch_extent_entry *bch2_bkey_drop_ptr(struct bkey_s k,
					   struct bch_extent_ptr *ptr)
{
	bool have_dirty = bch2_bkey_dirty_devs(k.s_c).nr;
	union bch_extent_entry *ret =
		__bch2_bkey_drop_ptr(k, ptr);

	/*
	 * If we deleted all the dirty pointers and there's still cached
	 * pointers, we could set the cached pointers to dirty if they're not
	 * stale - but to do that correctly we'd need to grab an open_bucket
	 * reference so that we don't race with bucket reuse:
	 */
	if (have_dirty &&
	    !bch2_bkey_dirty_devs(k.s_c).nr) {
		k.k->type = KEY_TYPE_error;
		set_bkey_val_u64s(k.k, 0);
		ret = NULL;
	} else if (!bch2_bkey_nr_ptrs(k.s_c)) {
		k.k->type = KEY_TYPE_deleted;
		set_bkey_val_u64s(k.k, 0);
		ret = NULL;
	}

	return ret;
}

void bch2_bkey_drop_device(struct bkey_s k, unsigned dev)
{
	struct bch_extent_ptr *ptr;

	bch2_bkey_drop_ptrs(k, ptr, ptr->dev == dev);
}

void bch2_bkey_drop_device_noerror(struct bkey_s k, unsigned dev)
{
	struct bch_extent_ptr *ptr = (void *) bch2_bkey_has_device(k.s_c, dev);

	if (ptr)
		__bch2_bkey_drop_ptr(k, ptr);
}

const struct bch_extent_ptr *
bch2_bkey_has_device(struct bkey_s_c k, unsigned dev)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const struct bch_extent_ptr *ptr;

	bkey_for_each_ptr(ptrs, ptr)
		if (ptr->dev == dev)
			return ptr;

	return NULL;
}

bool bch2_bkey_has_target(struct bch_fs *c, struct bkey_s_c k, unsigned target)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const struct bch_extent_ptr *ptr;

	bkey_for_each_ptr(ptrs, ptr)
		if (bch2_dev_in_target(c, ptr->dev, target) &&
		    (!ptr->cached ||
		     !ptr_stale(bch_dev_bkey_exists(c, ptr->dev), ptr)))
			return true;

	return false;
}

bool bch2_bkey_matches_ptr(struct bch_fs *c, struct bkey_s_c k,
			   struct bch_extent_ptr m, u64 offset)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct extent_ptr_decoded p;

	bkey_for_each_ptr_decode(k.k, ptrs, p, entry)
		if (p.ptr.dev	== m.dev &&
		    p.ptr.gen	== m.gen &&
		    (s64) p.ptr.offset + p.crc.offset - bkey_start_offset(k.k) ==
		    (s64) m.offset  - offset)
			return true;

	return false;
}

/*
 * Returns true if two extents refer to the same data:
 */
bool bch2_extents_match(struct bkey_s_c k1, struct bkey_s_c k2)
{
	struct bkey_ptrs_c ptrs1 = bch2_bkey_ptrs_c(k1);
	struct bkey_ptrs_c ptrs2 = bch2_bkey_ptrs_c(k2);
	const union bch_extent_entry *entry1, *entry2;
	struct extent_ptr_decoded p1, p2;

	bkey_for_each_ptr_decode(k1.k, ptrs1, p1, entry1)
		bkey_for_each_ptr_decode(k2.k, ptrs2, p2, entry2)
			if (p1.ptr.dev		== p2.ptr.dev &&
			    p1.ptr.gen		== p2.ptr.gen &&
			    (s64) p1.ptr.offset + p1.crc.offset - bkey_start_offset(k1.k) ==
			    (s64) p2.ptr.offset + p2.crc.offset - bkey_start_offset(k2.k))
				return true;

	return false;
}

bool bch2_extent_has_ptr(struct bkey_s_c k1, struct extent_ptr_decoded p1,
			 struct bkey_s_c k2)
{
	struct bkey_ptrs_c ptrs2 = bch2_bkey_ptrs_c(k2);
	const union bch_extent_entry *entry2;
	struct extent_ptr_decoded p2;

	bkey_for_each_ptr_decode(k2.k, ptrs2, p2, entry2)
		if (p1.ptr.dev		== p2.ptr.dev &&
		    p1.ptr.gen		== p2.ptr.gen &&
		    (s64) p1.ptr.offset + p1.crc.offset - bkey_start_offset(k1.k) ==
		    (s64) p2.ptr.offset + p2.crc.offset - bkey_start_offset(k2.k))
			return true;

	return false;
}

/*
 * bch_extent_normalize - clean up an extent, dropping stale pointers etc.
 *
 * Returns true if @k should be dropped entirely
 *
 * For existing keys, only called when btree nodes are being rewritten, not when
 * they're merely being compacted/resorted in memory.
 */
bool bch2_extent_normalize(struct bch_fs *c, struct bkey_s k)
{
	struct bch_extent_ptr *ptr;

	bch2_bkey_drop_ptrs(k, ptr,
		ptr->cached &&
		ptr_stale(bch_dev_bkey_exists(c, ptr->dev), ptr));

	return bkey_deleted(k.k);
}

void bch2_bkey_ptrs_to_text(struct printbuf *out, struct bch_fs *c,
			    struct bkey_s_c k)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct bch_extent_crc_unpacked crc;
	const struct bch_extent_ptr *ptr;
	const struct bch_extent_stripe_ptr *ec;
	struct bch_dev *ca;
	bool first = true;

	bkey_extent_entry_for_each(ptrs, entry) {
		if (!first)
			prt_printf(out, " ");

		switch (__extent_entry_type(entry)) {
		case BCH_EXTENT_ENTRY_ptr:
			ptr = entry_to_ptr(entry);
			ca = c && ptr->dev < c->sb.nr_devices && c->devs[ptr->dev]
				? bch_dev_bkey_exists(c, ptr->dev)
				: NULL;

			if (!ca) {
				prt_printf(out, "ptr: %u:%llu gen %u%s", ptr->dev,
				       (u64) ptr->offset, ptr->gen,
				       ptr->cached ? " cached" : "");
			} else {
				u32 offset;
				u64 b = sector_to_bucket_and_offset(ca, ptr->offset, &offset);

				prt_printf(out, "ptr: %u:%llu:%u gen %u%s", ptr->dev,
				       b, offset, ptr->gen,
				       ptr->cached ? " cached" : "");

				if (ca && ptr_stale(ca, ptr))
					prt_printf(out, " stale");
			}
			break;
		case BCH_EXTENT_ENTRY_crc32:
		case BCH_EXTENT_ENTRY_crc64:
		case BCH_EXTENT_ENTRY_crc128:
			crc = bch2_extent_crc_unpack(k.k, entry_to_crc(entry));

			prt_printf(out, "crc: c_size %u size %u offset %u nonce %u csum %s compress %s",
			       crc.compressed_size,
			       crc.uncompressed_size,
			       crc.offset, crc.nonce,
			       bch2_csum_types[crc.csum_type],
			       bch2_compression_types[crc.compression_type]);
			break;
		case BCH_EXTENT_ENTRY_stripe_ptr:
			ec = &entry->stripe_ptr;

			prt_printf(out, "ec: idx %llu block %u",
			       (u64) ec->idx, ec->block);
			break;
		default:
			prt_printf(out, "(invalid extent entry %.16llx)", *((u64 *) entry));
			return;
		}

		first = false;
	}
}

static int extent_ptr_invalid(const struct bch_fs *c,
			      struct bkey_s_c k,
			      const struct bch_extent_ptr *ptr,
			      unsigned size_ondisk,
			      bool metadata,
			      struct printbuf *err)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const struct bch_extent_ptr *ptr2;
	u64 bucket;
	u32 bucket_offset;
	struct bch_dev *ca;

	if (!bch2_dev_exists2(c, ptr->dev)) {
		prt_printf(err, "pointer to invalid device (%u)", ptr->dev);
		return -BCH_ERR_invalid_bkey;
	}

	ca = bch_dev_bkey_exists(c, ptr->dev);
	bkey_for_each_ptr(ptrs, ptr2)
		if (ptr != ptr2 && ptr->dev == ptr2->dev) {
			prt_printf(err, "multiple pointers to same device (%u)", ptr->dev);
			return -BCH_ERR_invalid_bkey;
		}

	bucket = sector_to_bucket_and_offset(ca, ptr->offset, &bucket_offset);

	if (bucket >= ca->mi.nbuckets) {
		prt_printf(err, "pointer past last bucket (%llu > %llu)",
		       bucket, ca->mi.nbuckets);
		return -BCH_ERR_invalid_bkey;
	}

	if (ptr->offset < bucket_to_sector(ca, ca->mi.first_bucket)) {
		prt_printf(err, "pointer before first bucket (%llu < %u)",
		       bucket, ca->mi.first_bucket);
		return -BCH_ERR_invalid_bkey;
	}

	if (bucket_offset + size_ondisk > ca->mi.bucket_size) {
		prt_printf(err, "pointer spans multiple buckets (%u + %u > %u)",
		       bucket_offset, size_ondisk, ca->mi.bucket_size);
		return -BCH_ERR_invalid_bkey;
	}

	return 0;
}

int bch2_bkey_ptrs_invalid(const struct bch_fs *c, struct bkey_s_c k,
			   int rw, struct printbuf *err)
{
	struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
	const union bch_extent_entry *entry;
	struct bch_extent_crc_unpacked crc;
	unsigned size_ondisk = k.k->size;
	unsigned nonce = UINT_MAX;
	unsigned nr_ptrs = 0;
	int ret;

	if (bkey_is_btree_ptr(k.k))
		size_ondisk = btree_sectors(c);

	bkey_extent_entry_for_each(ptrs, entry) {
		if (__extent_entry_type(entry) >= BCH_EXTENT_ENTRY_MAX) {
			prt_printf(err, "invalid extent entry type (got %u, max %u)",
			       __extent_entry_type(entry), BCH_EXTENT_ENTRY_MAX);
			return -BCH_ERR_invalid_bkey;
		}

		if (bkey_is_btree_ptr(k.k) &&
		    !extent_entry_is_ptr(entry)) {
			prt_printf(err, "has non ptr field");
			return -BCH_ERR_invalid_bkey;
		}

		switch (extent_entry_type(entry)) {
		case BCH_EXTENT_ENTRY_ptr:
			ret = extent_ptr_invalid(c, k, &entry->ptr, size_ondisk,
						 false, err);
			if (ret)
				return ret;
			nr_ptrs++;
			break;
		case BCH_EXTENT_ENTRY_crc32:
		case BCH_EXTENT_ENTRY_crc64:
		case BCH_EXTENT_ENTRY_crc128:
			crc = bch2_extent_crc_unpack(k.k, entry_to_crc(entry));

			if (crc.offset + crc.live_size >
			    crc.uncompressed_size) {
				prt_printf(err, "checksum offset + key size > uncompressed size");
				return -BCH_ERR_invalid_bkey;
			}

			size_ondisk = crc.compressed_size;

			if (!bch2_checksum_type_valid(c, crc.csum_type)) {
				prt_printf(err, "invalid checksum type");
				return -BCH_ERR_invalid_bkey;
			}

			if (crc.compression_type >= BCH_COMPRESSION_TYPE_NR) {
				prt_printf(err, "invalid compression type");
				return -BCH_ERR_invalid_bkey;
			}

			if (bch2_csum_type_is_encryption(crc.csum_type)) {
				if (nonce == UINT_MAX)
					nonce = crc.offset + crc.nonce;
				else if (nonce != crc.offset + crc.nonce) {
					prt_printf(err, "incorrect nonce");
					return -BCH_ERR_invalid_bkey;
				}
			}
			break;
		case BCH_EXTENT_ENTRY_stripe_ptr:
			break;
		}
	}

	if (nr_ptrs >= BCH_BKEY_PTRS_MAX) {
		prt_str(err, "too many ptrs");
		return -BCH_ERR_invalid_bkey;
	}

	return 0;
}

void bch2_ptr_swab(struct bkey_s k)
{
	struct bkey_ptrs ptrs = bch2_bkey_ptrs(k);
	union bch_extent_entry *entry;
	u64 *d;

	for (d =  (u64 *) ptrs.start;
	     d != (u64 *) ptrs.end;
	     d++)
		*d = swab64(*d);

	for (entry = ptrs.start;
	     entry < ptrs.end;
	     entry = extent_entry_next(entry)) {
		switch (extent_entry_type(entry)) {
		case BCH_EXTENT_ENTRY_ptr:
			break;
		case BCH_EXTENT_ENTRY_crc32:
			entry->crc32.csum = swab32(entry->crc32.csum);
			break;
		case BCH_EXTENT_ENTRY_crc64:
			entry->crc64.csum_hi = swab16(entry->crc64.csum_hi);
			entry->crc64.csum_lo = swab64(entry->crc64.csum_lo);
			break;
		case BCH_EXTENT_ENTRY_crc128:
			entry->crc128.csum.hi = (__force __le64)
				swab64((__force u64) entry->crc128.csum.hi);
			entry->crc128.csum.lo = (__force __le64)
				swab64((__force u64) entry->crc128.csum.lo);
			break;
		case BCH_EXTENT_ENTRY_stripe_ptr:
			break;
		}
	}
}

/* Generic extent code: */

int bch2_cut_front_s(struct bpos where, struct bkey_s k)
{
	unsigned new_val_u64s = bkey_val_u64s(k.k);
	int val_u64s_delta;
	u64 sub;

	if (bkey_le(where, bkey_start_pos(k.k)))
		return 0;

	EBUG_ON(bkey_gt(where, k.k->p));

	sub = where.offset - bkey_start_offset(k.k);

	k.k->size -= sub;

	if (!k.k->size) {
		k.k->type = KEY_TYPE_deleted;
		new_val_u64s = 0;
	}

	switch (k.k->type) {
	case KEY_TYPE_extent:
	case KEY_TYPE_reflink_v: {
		struct bkey_ptrs ptrs = bch2_bkey_ptrs(k);
		union bch_extent_entry *entry;
		bool seen_crc = false;

		bkey_extent_entry_for_each(ptrs, entry) {
			switch (extent_entry_type(entry)) {
			case BCH_EXTENT_ENTRY_ptr:
				if (!seen_crc)
					entry->ptr.offset += sub;
				break;
			case BCH_EXTENT_ENTRY_crc32:
				entry->crc32.offset += sub;
				break;
			case BCH_EXTENT_ENTRY_crc64:
				entry->crc64.offset += sub;
				break;
			case BCH_EXTENT_ENTRY_crc128:
				entry->crc128.offset += sub;
				break;
			case BCH_EXTENT_ENTRY_stripe_ptr:
				break;
			}

			if (extent_entry_is_crc(entry))
				seen_crc = true;
		}

		break;
	}
	case KEY_TYPE_reflink_p: {
		struct bkey_s_reflink_p p = bkey_s_to_reflink_p(k);

		le64_add_cpu(&p.v->idx, sub);
		break;
	}
	case KEY_TYPE_inline_data:
	case KEY_TYPE_indirect_inline_data: {
		void *p = bkey_inline_data_p(k);
		unsigned bytes = bkey_inline_data_bytes(k.k);

		sub = min_t(u64, sub << 9, bytes);

		memmove(p, p + sub, bytes - sub);

		new_val_u64s -= sub >> 3;
		break;
	}
	}

	val_u64s_delta = bkey_val_u64s(k.k) - new_val_u64s;
	BUG_ON(val_u64s_delta < 0);

	set_bkey_val_u64s(k.k, new_val_u64s);
	memset(bkey_val_end(k), 0, val_u64s_delta * sizeof(u64));
	return -val_u64s_delta;
}

int bch2_cut_back_s(struct bpos where, struct bkey_s k)
{
	unsigned new_val_u64s = bkey_val_u64s(k.k);
	int val_u64s_delta;
	u64 len = 0;

	if (bkey_ge(where, k.k->p))
		return 0;

	EBUG_ON(bkey_lt(where, bkey_start_pos(k.k)));

	len = where.offset - bkey_start_offset(k.k);

	k.k->p.offset = where.offset;
	k.k->size = len;

	if (!len) {
		k.k->type = KEY_TYPE_deleted;
		new_val_u64s = 0;
	}

	switch (k.k->type) {
	case KEY_TYPE_inline_data:
	case KEY_TYPE_indirect_inline_data:
		new_val_u64s = (bkey_inline_data_offset(k.k) +
				min(bkey_inline_data_bytes(k.k), k.k->size << 9)) >> 3;
		break;
	}

	val_u64s_delta = bkey_val_u64s(k.k) - new_val_u64s;
	BUG_ON(val_u64s_delta < 0);

	set_bkey_val_u64s(k.k, new_val_u64s);
	memset(bkey_val_end(k), 0, val_u64s_delta * sizeof(u64));
	return -val_u64s_delta;
}