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|
// SPDX-License-Identifier: GPL-2.0
#include "bcachefs.h"
#include "alloc.h"
#include "btree_gc.h"
#include "btree_update.h"
#include "buckets.h"
#include "checksum.h"
#include "error.h"
#include "journal.h"
#include "journal_io.h"
#include "journal_reclaim.h"
#include "journal_seq_blacklist.h"
#include "replicas.h"
#include "trace.h"
struct journal_list {
struct closure cl;
struct mutex lock;
struct list_head *head;
int ret;
};
#define JOURNAL_ENTRY_ADD_OK 0
#define JOURNAL_ENTRY_ADD_OUT_OF_RANGE 5
/*
* Given a journal entry we just read, add it to the list of journal entries to
* be replayed:
*/
static int journal_entry_add(struct bch_fs *c, struct bch_dev *ca,
struct journal_list *jlist, struct jset *j)
{
struct journal_replay *i, *pos;
struct list_head *where;
size_t bytes = vstruct_bytes(j);
__le64 last_seq;
int ret;
last_seq = !list_empty(jlist->head)
? list_last_entry(jlist->head, struct journal_replay,
list)->j.last_seq
: 0;
/* Is this entry older than the range we need? */
if (le64_to_cpu(j->seq) < le64_to_cpu(last_seq)) {
ret = JOURNAL_ENTRY_ADD_OUT_OF_RANGE;
goto out;
}
/* Drop entries we don't need anymore */
list_for_each_entry_safe(i, pos, jlist->head, list) {
if (le64_to_cpu(i->j.seq) >= le64_to_cpu(j->last_seq))
break;
list_del(&i->list);
kvpfree(i, offsetof(struct journal_replay, j) +
vstruct_bytes(&i->j));
}
list_for_each_entry_reverse(i, jlist->head, list) {
/* Duplicate? */
if (le64_to_cpu(j->seq) == le64_to_cpu(i->j.seq)) {
fsck_err_on(bytes != vstruct_bytes(&i->j) ||
memcmp(j, &i->j, bytes), c,
"found duplicate but non identical journal entries (seq %llu)",
le64_to_cpu(j->seq));
goto found;
}
if (le64_to_cpu(j->seq) > le64_to_cpu(i->j.seq)) {
where = &i->list;
goto add;
}
}
where = jlist->head;
add:
i = kvpmalloc(offsetof(struct journal_replay, j) + bytes, GFP_KERNEL);
if (!i) {
ret = -ENOMEM;
goto out;
}
list_add(&i->list, where);
i->devs.nr = 0;
unsafe_memcpy(&i->j, j, bytes, "embedded variable length struct");
found:
if (!bch2_dev_list_has_dev(i->devs, ca->dev_idx))
bch2_dev_list_add_dev(&i->devs, ca->dev_idx);
else
fsck_err_on(1, c, "duplicate journal entries on same device");
ret = JOURNAL_ENTRY_ADD_OK;
out:
fsck_err:
return ret;
}
static struct nonce journal_nonce(const struct jset *jset)
{
return (struct nonce) {{
[0] = 0,
[1] = ((__le32 *) &jset->seq)[0],
[2] = ((__le32 *) &jset->seq)[1],
[3] = BCH_NONCE_JOURNAL,
}};
}
/* this fills in a range with empty jset_entries: */
static void journal_entry_null_range(void *start, void *end)
{
struct jset_entry *entry;
for (entry = start; entry != end; entry = vstruct_next(entry))
memset(entry, 0, sizeof(*entry));
}
#define JOURNAL_ENTRY_REREAD 5
#define JOURNAL_ENTRY_NONE 6
#define JOURNAL_ENTRY_BAD 7
#define journal_entry_err(c, msg, ...) \
({ \
switch (write) { \
case READ: \
mustfix_fsck_err(c, msg, ##__VA_ARGS__); \
break; \
case WRITE: \
bch_err(c, "corrupt metadata before write:\n" \
msg, ##__VA_ARGS__); \
if (bch2_fs_inconsistent(c)) { \
ret = BCH_FSCK_ERRORS_NOT_FIXED; \
goto fsck_err; \
} \
break; \
} \
true; \
})
#define journal_entry_err_on(cond, c, msg, ...) \
((cond) ? journal_entry_err(c, msg, ##__VA_ARGS__) : false)
static int journal_validate_key(struct bch_fs *c, struct jset *jset,
struct jset_entry *entry,
struct bkey_i *k, enum bkey_type key_type,
const char *type, int write)
{
void *next = vstruct_next(entry);
const char *invalid;
char buf[160];
int ret = 0;
if (journal_entry_err_on(!k->k.u64s, c,
"invalid %s in journal: k->u64s 0", type)) {
entry->u64s = cpu_to_le16((u64 *) k - entry->_data);
journal_entry_null_range(vstruct_next(entry), next);
return 0;
}
if (journal_entry_err_on((void *) bkey_next(k) >
(void *) vstruct_next(entry), c,
"invalid %s in journal: extends past end of journal entry",
type)) {
entry->u64s = cpu_to_le16((u64 *) k - entry->_data);
journal_entry_null_range(vstruct_next(entry), next);
return 0;
}
if (journal_entry_err_on(k->k.format != KEY_FORMAT_CURRENT, c,
"invalid %s in journal: bad format %u",
type, k->k.format)) {
le16_add_cpu(&entry->u64s, -k->k.u64s);
memmove(k, bkey_next(k), next - (void *) bkey_next(k));
journal_entry_null_range(vstruct_next(entry), next);
return 0;
}
if (JSET_BIG_ENDIAN(jset) != CPU_BIG_ENDIAN)
bch2_bkey_swab(key_type, NULL, bkey_to_packed(k));
invalid = bch2_bkey_invalid(c, key_type, bkey_i_to_s_c(k));
if (invalid) {
bch2_bkey_val_to_text(c, key_type, buf, sizeof(buf),
bkey_i_to_s_c(k));
mustfix_fsck_err(c, "invalid %s in journal: %s\n%s",
type, invalid, buf);
le16_add_cpu(&entry->u64s, -k->k.u64s);
memmove(k, bkey_next(k), next - (void *) bkey_next(k));
journal_entry_null_range(vstruct_next(entry), next);
return 0;
}
fsck_err:
return ret;
}
static int journal_entry_validate_btree_keys(struct bch_fs *c,
struct jset *jset,
struct jset_entry *entry,
int write)
{
struct bkey_i *k;
vstruct_for_each(entry, k) {
int ret = journal_validate_key(c, jset, entry, k,
bkey_type(entry->level,
entry->btree_id),
"key", write);
if (ret)
return ret;
}
return 0;
}
static int journal_entry_validate_btree_root(struct bch_fs *c,
struct jset *jset,
struct jset_entry *entry,
int write)
{
struct bkey_i *k = entry->start;
int ret = 0;
if (journal_entry_err_on(!entry->u64s ||
le16_to_cpu(entry->u64s) != k->k.u64s, c,
"invalid btree root journal entry: wrong number of keys")) {
void *next = vstruct_next(entry);
/*
* we don't want to null out this jset_entry,
* just the contents, so that later we can tell
* we were _supposed_ to have a btree root
*/
entry->u64s = 0;
journal_entry_null_range(vstruct_next(entry), next);
return 0;
}
return journal_validate_key(c, jset, entry, k, BKEY_TYPE_BTREE,
"btree root", write);
fsck_err:
return ret;
}
static int journal_entry_validate_prio_ptrs(struct bch_fs *c,
struct jset *jset,
struct jset_entry *entry,
int write)
{
/* obsolete, don't care: */
return 0;
}
static int journal_entry_validate_blacklist(struct bch_fs *c,
struct jset *jset,
struct jset_entry *entry,
int write)
{
int ret = 0;
if (journal_entry_err_on(le16_to_cpu(entry->u64s) != 1, c,
"invalid journal seq blacklist entry: bad size")) {
journal_entry_null_range(entry, vstruct_next(entry));
}
fsck_err:
return ret;
}
static int journal_entry_validate_blacklist_v2(struct bch_fs *c,
struct jset *jset,
struct jset_entry *entry,
int write)
{
struct jset_entry_blacklist_v2 *bl_entry;
int ret = 0;
if (journal_entry_err_on(le16_to_cpu(entry->u64s) != 2, c,
"invalid journal seq blacklist entry: bad size")) {
journal_entry_null_range(entry, vstruct_next(entry));
}
bl_entry = container_of(entry, struct jset_entry_blacklist_v2, entry);
if (journal_entry_err_on(le64_to_cpu(bl_entry->start) >
le64_to_cpu(bl_entry->end), c,
"invalid journal seq blacklist entry: start > end")) {
journal_entry_null_range(entry, vstruct_next(entry));
}
fsck_err:
return ret;
}
struct jset_entry_ops {
int (*validate)(struct bch_fs *, struct jset *,
struct jset_entry *, int);
};
static const struct jset_entry_ops bch2_jset_entry_ops[] = {
#define x(f, nr) \
[BCH_JSET_ENTRY_##f] = (struct jset_entry_ops) { \
.validate = journal_entry_validate_##f, \
},
BCH_JSET_ENTRY_TYPES()
#undef x
};
static int journal_entry_validate(struct bch_fs *c, struct jset *jset,
struct jset_entry *entry, int write)
{
int ret = 0;
if (entry->type >= BCH_JSET_ENTRY_NR) {
journal_entry_err(c, "invalid journal entry type %u",
entry->type);
journal_entry_null_range(entry, vstruct_next(entry));
return 0;
}
ret = bch2_jset_entry_ops[entry->type].validate(c, jset, entry, write);
fsck_err:
return ret;
}
static int jset_validate_entries(struct bch_fs *c, struct jset *jset,
int write)
{
struct jset_entry *entry;
int ret = 0;
vstruct_for_each(jset, entry) {
if (journal_entry_err_on(vstruct_next(entry) >
vstruct_last(jset), c,
"journal entry extends past end of jset")) {
jset->u64s = cpu_to_le32((u64 *) entry - jset->_data);
break;
}
ret = journal_entry_validate(c, jset, entry, write);
if (ret)
break;
}
fsck_err:
return ret;
}
static int jset_validate(struct bch_fs *c,
struct jset *jset, u64 sector,
unsigned bucket_sectors_left,
unsigned sectors_read,
int write)
{
size_t bytes = vstruct_bytes(jset);
struct bch_csum csum;
int ret = 0;
if (le64_to_cpu(jset->magic) != jset_magic(c))
return JOURNAL_ENTRY_NONE;
if (le32_to_cpu(jset->version) != BCACHE_JSET_VERSION) {
bch_err(c, "unknown journal entry version %u",
le32_to_cpu(jset->version));
return BCH_FSCK_UNKNOWN_VERSION;
}
if (journal_entry_err_on(bytes > bucket_sectors_left << 9, c,
"journal entry too big (%zu bytes), sector %lluu",
bytes, sector)) {
/* XXX: note we might have missing journal entries */
return JOURNAL_ENTRY_BAD;
}
if (bytes > sectors_read << 9)
return JOURNAL_ENTRY_REREAD;
if (fsck_err_on(!bch2_checksum_type_valid(c, JSET_CSUM_TYPE(jset)), c,
"journal entry with unknown csum type %llu sector %lluu",
JSET_CSUM_TYPE(jset), sector))
return JOURNAL_ENTRY_BAD;
csum = csum_vstruct(c, JSET_CSUM_TYPE(jset), journal_nonce(jset), jset);
if (journal_entry_err_on(bch2_crc_cmp(csum, jset->csum), c,
"journal checksum bad, sector %llu", sector)) {
/* XXX: retry IO, when we start retrying checksum errors */
/* XXX: note we might have missing journal entries */
return JOURNAL_ENTRY_BAD;
}
bch2_encrypt(c, JSET_CSUM_TYPE(jset), journal_nonce(jset),
jset->encrypted_start,
vstruct_end(jset) - (void *) jset->encrypted_start);
if (journal_entry_err_on(le64_to_cpu(jset->last_seq) > le64_to_cpu(jset->seq), c,
"invalid journal entry: last_seq > seq"))
jset->last_seq = jset->seq;
return 0;
fsck_err:
return ret;
}
struct journal_read_buf {
void *data;
size_t size;
};
static int journal_read_buf_realloc(struct journal_read_buf *b,
size_t new_size)
{
void *n;
/* the bios are sized for this many pages, max: */
if (new_size > JOURNAL_ENTRY_SIZE_MAX)
return -ENOMEM;
new_size = roundup_pow_of_two(new_size);
n = kvpmalloc(new_size, GFP_KERNEL);
if (!n)
return -ENOMEM;
kvpfree(b->data, b->size);
b->data = n;
b->size = new_size;
return 0;
}
static int journal_read_bucket(struct bch_dev *ca,
struct journal_read_buf *buf,
struct journal_list *jlist,
unsigned bucket, u64 *seq, bool *entries_found)
{
struct bch_fs *c = ca->fs;
struct journal_device *ja = &ca->journal;
struct bio *bio = ja->bio;
struct jset *j = NULL;
unsigned sectors, sectors_read = 0;
u64 offset = bucket_to_sector(ca, ja->buckets[bucket]),
end = offset + ca->mi.bucket_size;
bool saw_bad = false;
int ret = 0;
pr_debug("reading %u", bucket);
while (offset < end) {
if (!sectors_read) {
reread: sectors_read = min_t(unsigned,
end - offset, buf->size >> 9);
bio_reset(bio, ca->disk_sb.bdev, REQ_OP_READ);
bio->bi_iter.bi_sector = offset;
bio->bi_iter.bi_size = sectors_read << 9;
bch2_bio_map(bio, buf->data);
ret = submit_bio_wait(bio);
if (bch2_dev_io_err_on(ret, ca,
"journal read from sector %llu",
offset) ||
bch2_meta_read_fault("journal"))
return -EIO;
j = buf->data;
}
ret = jset_validate(c, j, offset,
end - offset, sectors_read,
READ);
switch (ret) {
case BCH_FSCK_OK:
break;
case JOURNAL_ENTRY_REREAD:
if (vstruct_bytes(j) > buf->size) {
ret = journal_read_buf_realloc(buf,
vstruct_bytes(j));
if (ret)
return ret;
}
goto reread;
case JOURNAL_ENTRY_NONE:
if (!saw_bad)
return 0;
sectors = c->opts.block_size;
goto next_block;
case JOURNAL_ENTRY_BAD:
saw_bad = true;
sectors = c->opts.block_size;
goto next_block;
default:
return ret;
}
/*
* This happens sometimes if we don't have discards on -
* when we've partially overwritten a bucket with new
* journal entries. We don't need the rest of the
* bucket:
*/
if (le64_to_cpu(j->seq) < ja->bucket_seq[bucket])
return 0;
ja->bucket_seq[bucket] = le64_to_cpu(j->seq);
mutex_lock(&jlist->lock);
ret = journal_entry_add(c, ca, jlist, j);
mutex_unlock(&jlist->lock);
switch (ret) {
case JOURNAL_ENTRY_ADD_OK:
*entries_found = true;
break;
case JOURNAL_ENTRY_ADD_OUT_OF_RANGE:
break;
default:
return ret;
}
if (le64_to_cpu(j->seq) > *seq)
*seq = le64_to_cpu(j->seq);
sectors = vstruct_sectors(j, c->block_bits);
next_block:
pr_debug("next");
offset += sectors;
sectors_read -= sectors;
j = ((void *) j) + (sectors << 9);
}
return 0;
}
static void bch2_journal_read_device(struct closure *cl)
{
#define read_bucket(b) \
({ \
bool entries_found = false; \
ret = journal_read_bucket(ca, &buf, jlist, b, &seq, \
&entries_found); \
if (ret) \
goto err; \
__set_bit(b, bitmap); \
entries_found; \
})
struct journal_device *ja =
container_of(cl, struct journal_device, read);
struct bch_dev *ca = container_of(ja, struct bch_dev, journal);
struct journal_list *jlist =
container_of(cl->parent, struct journal_list, cl);
struct request_queue *q = bdev_get_queue(ca->disk_sb.bdev);
struct journal_read_buf buf = { NULL, 0 };
unsigned long *bitmap;
unsigned i, l, r;
u64 seq = 0;
int ret;
if (!ja->nr)
goto out;
bitmap = kcalloc(BITS_TO_LONGS(ja->nr), ja->nr, GFP_KERNEL);
if (!bitmap) {
ret = -ENOMEM;
goto err;
}
ret = journal_read_buf_realloc(&buf, PAGE_SIZE);
if (ret)
goto err;
pr_debug("%u journal buckets", ja->nr);
/*
* If the device supports discard but not secure discard, we can't do
* the fancy fibonacci hash/binary search because the live journal
* entries might not form a contiguous range:
*/
for (i = 0; i < ja->nr; i++)
read_bucket(i);
goto search_done;
if (!blk_queue_nonrot(q))
goto linear_scan;
/*
* Read journal buckets ordered by golden ratio hash to quickly
* find a sequence of buckets with valid journal entries
*/
for (i = 0; i < ja->nr; i++) {
l = (i * 2654435769U) % ja->nr;
if (test_bit(l, bitmap))
break;
if (read_bucket(l))
goto bsearch;
}
/*
* If that fails, check all the buckets we haven't checked
* already
*/
pr_debug("falling back to linear search");
linear_scan:
for (l = find_first_zero_bit(bitmap, ja->nr);
l < ja->nr;
l = find_next_zero_bit(bitmap, ja->nr, l + 1))
if (read_bucket(l))
goto bsearch;
/* no journal entries on this device? */
if (l == ja->nr)
goto out;
bsearch:
/* Binary search */
r = find_next_bit(bitmap, ja->nr, l + 1);
pr_debug("starting binary search, l %u r %u", l, r);
while (l + 1 < r) {
unsigned m = (l + r) >> 1;
u64 cur_seq = seq;
read_bucket(m);
if (cur_seq != seq)
l = m;
else
r = m;
}
search_done:
/*
* Find the journal bucket with the highest sequence number:
*
* If there's duplicate journal entries in multiple buckets (which
* definitely isn't supposed to happen, but...) - make sure to start
* cur_idx at the last of those buckets, so we don't deadlock trying to
* allocate
*/
seq = 0;
for (i = 0; i < ja->nr; i++)
if (ja->bucket_seq[i] >= seq &&
ja->bucket_seq[i] != ja->bucket_seq[(i + 1) % ja->nr]) {
/*
* When journal_next_bucket() goes to allocate for
* the first time, it'll use the bucket after
* ja->cur_idx
*/
ja->cur_idx = i;
seq = ja->bucket_seq[i];
}
/*
* Set last_idx to indicate the entire journal is full and needs to be
* reclaimed - journal reclaim will immediately reclaim whatever isn't
* pinned when it first runs:
*/
ja->last_idx = (ja->cur_idx + 1) % ja->nr;
/*
* Read buckets in reverse order until we stop finding more journal
* entries:
*/
for (i = (ja->cur_idx + ja->nr - 1) % ja->nr;
i != ja->cur_idx;
i = (i + ja->nr - 1) % ja->nr)
if (!test_bit(i, bitmap) &&
!read_bucket(i))
break;
out:
kvpfree(buf.data, buf.size);
kfree(bitmap);
percpu_ref_put(&ca->io_ref);
closure_return(cl);
return;
err:
mutex_lock(&jlist->lock);
jlist->ret = ret;
mutex_unlock(&jlist->lock);
goto out;
#undef read_bucket
}
void bch2_journal_entries_free(struct list_head *list)
{
while (!list_empty(list)) {
struct journal_replay *i =
list_first_entry(list, struct journal_replay, list);
list_del(&i->list);
kvpfree(i, offsetof(struct journal_replay, j) +
vstruct_bytes(&i->j));
}
}
int bch2_journal_set_seq(struct bch_fs *c, u64 last_seq, u64 end_seq)
{
struct journal *j = &c->journal;
struct journal_entry_pin_list *p;
u64 seq, nr = end_seq - last_seq + 1;
if (nr > j->pin.size) {
free_fifo(&j->pin);
init_fifo(&j->pin, roundup_pow_of_two(nr), GFP_KERNEL);
if (!j->pin.data) {
bch_err(c, "error reallocating journal fifo (%llu open entries)", nr);
return -ENOMEM;
}
}
atomic64_set(&j->seq, end_seq);
j->last_seq_ondisk = last_seq;
j->pin.front = last_seq;
j->pin.back = end_seq + 1;
fifo_for_each_entry_ptr(p, &j->pin, seq) {
INIT_LIST_HEAD(&p->list);
INIT_LIST_HEAD(&p->flushed);
atomic_set(&p->count, 0);
p->devs.nr = 0;
}
return 0;
}
int bch2_journal_read(struct bch_fs *c, struct list_head *list)
{
struct journal *j = &c->journal;
struct journal_list jlist;
struct journal_replay *i;
struct journal_entry_pin_list *p;
struct bch_dev *ca;
u64 cur_seq, end_seq;
unsigned iter;
size_t keys = 0, entries = 0;
bool degraded = false;
int ret = 0;
closure_init_stack(&jlist.cl);
mutex_init(&jlist.lock);
jlist.head = list;
jlist.ret = 0;
for_each_member_device(ca, c, iter) {
if (!(bch2_dev_has_data(c, ca) & (1 << BCH_DATA_JOURNAL)))
continue;
if ((ca->mi.state == BCH_MEMBER_STATE_RW ||
ca->mi.state == BCH_MEMBER_STATE_RO) &&
percpu_ref_tryget(&ca->io_ref))
closure_call(&ca->journal.read,
bch2_journal_read_device,
system_unbound_wq,
&jlist.cl);
else
degraded = true;
}
closure_sync(&jlist.cl);
if (jlist.ret)
return jlist.ret;
if (list_empty(list)){
bch_err(c, "no journal entries found");
return BCH_FSCK_REPAIR_IMPOSSIBLE;
}
list_for_each_entry(i, list, list) {
ret = jset_validate_entries(c, &i->j, READ);
if (ret)
goto fsck_err;
/*
* If we're mounting in degraded mode - if we didn't read all
* the devices - this is wrong:
*/
if (!degraded &&
(test_bit(BCH_FS_REBUILD_REPLICAS, &c->flags) ||
fsck_err_on(!bch2_replicas_marked(c, BCH_DATA_JOURNAL,
i->devs), c,
"superblock not marked as containing replicas (type %u)",
BCH_DATA_JOURNAL))) {
ret = bch2_mark_replicas(c, BCH_DATA_JOURNAL, i->devs);
if (ret)
return ret;
}
}
i = list_last_entry(list, struct journal_replay, list);
ret = bch2_journal_set_seq(c,
le64_to_cpu(i->j.last_seq),
le64_to_cpu(i->j.seq));
if (ret)
return ret;
mutex_lock(&j->blacklist_lock);
list_for_each_entry(i, list, list) {
p = journal_seq_pin(j, le64_to_cpu(i->j.seq));
atomic_set(&p->count, 1);
p->devs = i->devs;
if (bch2_journal_seq_blacklist_read(j, i)) {
mutex_unlock(&j->blacklist_lock);
return -ENOMEM;
}
}
mutex_unlock(&j->blacklist_lock);
cur_seq = journal_last_seq(j);
end_seq = le64_to_cpu(list_last_entry(list,
struct journal_replay, list)->j.seq);
list_for_each_entry(i, list, list) {
struct jset_entry *entry;
struct bkey_i *k, *_n;
bool blacklisted;
mutex_lock(&j->blacklist_lock);
while (cur_seq < le64_to_cpu(i->j.seq) &&
bch2_journal_seq_blacklist_find(j, cur_seq))
cur_seq++;
blacklisted = bch2_journal_seq_blacklist_find(j,
le64_to_cpu(i->j.seq));
mutex_unlock(&j->blacklist_lock);
fsck_err_on(blacklisted, c,
"found blacklisted journal entry %llu",
le64_to_cpu(i->j.seq));
fsck_err_on(le64_to_cpu(i->j.seq) != cur_seq, c,
"journal entries %llu-%llu missing! (replaying %llu-%llu)",
cur_seq, le64_to_cpu(i->j.seq) - 1,
journal_last_seq(j), end_seq);
cur_seq = le64_to_cpu(i->j.seq) + 1;
for_each_jset_key(k, _n, entry, &i->j)
keys++;
entries++;
}
bch_info(c, "journal read done, %zu keys in %zu entries, seq %llu",
keys, entries, journal_cur_seq(j));
fsck_err:
return ret;
}
/* journal replay: */
int bch2_journal_mark(struct bch_fs *c, struct list_head *list)
{
struct bkey_i *k, *n;
struct jset_entry *j;
struct journal_replay *r;
int ret;
list_for_each_entry(r, list, list)
for_each_jset_key(k, n, j, &r->j) {
enum bkey_type type = bkey_type(j->level, j->btree_id);
struct bkey_s_c k_s_c = bkey_i_to_s_c(k);
if (btree_type_has_ptrs(type)) {
ret = bch2_btree_mark_key_initial(c, type, k_s_c);
if (ret)
return ret;
}
}
return 0;
}
int bch2_journal_replay(struct bch_fs *c, struct list_head *list)
{
struct journal *j = &c->journal;
struct journal_entry_pin_list *pin_list;
struct bkey_i *k, *_n;
struct jset_entry *entry;
struct journal_replay *i, *n;
int ret = 0;
list_for_each_entry_safe(i, n, list, list) {
j->replay_journal_seq = le64_to_cpu(i->j.seq);
for_each_jset_key(k, _n, entry, &i->j) {
if (entry->btree_id == BTREE_ID_ALLOC) {
/*
* allocation code handles replay for
* BTREE_ID_ALLOC keys:
*/
ret = bch2_alloc_replay_key(c, k->k.p);
} else {
/*
* We might cause compressed extents to be
* split, so we need to pass in a
* disk_reservation:
*/
struct disk_reservation disk_res =
bch2_disk_reservation_init(c, 0);
ret = bch2_btree_insert(c, entry->btree_id, k,
&disk_res, NULL,
BTREE_INSERT_NOFAIL|
BTREE_INSERT_JOURNAL_REPLAY);
}
if (ret) {
bch_err(c, "journal replay: error %d while replaying key",
ret);
goto err;
}
cond_resched();
}
pin_list = journal_seq_pin(j, j->replay_journal_seq);
if (atomic_dec_and_test(&pin_list->count))
journal_wake(j);
}
j->replay_journal_seq = 0;
bch2_journal_set_replay_done(j);
bch2_journal_flush_all_pins(j);
ret = bch2_journal_error(j);
err:
bch2_journal_entries_free(list);
return ret;
}
/* journal write: */
static void bch2_journal_add_btree_root(struct journal_buf *buf,
enum btree_id id, struct bkey_i *k,
unsigned level)
{
struct jset_entry *entry;
entry = bch2_journal_add_entry_noreservation(buf, k->k.u64s);
entry->type = BCH_JSET_ENTRY_btree_root;
entry->btree_id = id;
entry->level = level;
memcpy_u64s(entry->_data, k, k->k.u64s);
}
static unsigned journal_dev_buckets_available(struct journal *j,
struct bch_dev *ca)
{
struct journal_device *ja = &ca->journal;
unsigned next = (ja->cur_idx + 1) % ja->nr;
unsigned available = (ja->last_idx + ja->nr - next) % ja->nr;
/*
* Hack to avoid a deadlock during journal replay:
* journal replay might require setting a new btree
* root, which requires writing another journal entry -
* thus, if the journal is full (and this happens when
* replaying the first journal bucket's entries) we're
* screwed.
*
* So don't let the journal fill up unless we're in
* replay:
*/
if (test_bit(JOURNAL_REPLAY_DONE, &j->flags))
available = max((int) available - 2, 0);
/*
* Don't use the last bucket unless writing the new last_seq
* will make another bucket available:
*/
if (ja->bucket_seq[ja->last_idx] >= journal_last_seq(j))
available = max((int) available - 1, 0);
return available;
}
/* returns number of sectors available for next journal entry: */
int bch2_journal_entry_sectors(struct journal *j)
{
struct bch_fs *c = container_of(j, struct bch_fs, journal);
struct bch_dev *ca;
struct bkey_s_extent e = bkey_i_to_s_extent(&j->key);
unsigned sectors_available = UINT_MAX;
unsigned i, nr_online = 0, nr_devs = 0;
lockdep_assert_held(&j->lock);
rcu_read_lock();
for_each_member_device_rcu(ca, c, i,
&c->rw_devs[BCH_DATA_JOURNAL]) {
struct journal_device *ja = &ca->journal;
unsigned buckets_required = 0;
if (!ja->nr)
continue;
sectors_available = min_t(unsigned, sectors_available,
ca->mi.bucket_size);
/*
* Note that we don't allocate the space for a journal entry
* until we write it out - thus, if we haven't started the write
* for the previous entry we have to make sure we have space for
* it too:
*/
if (bch2_extent_has_device(e.c, ca->dev_idx)) {
if (j->prev_buf_sectors > ja->sectors_free)
buckets_required++;
if (j->prev_buf_sectors + sectors_available >
ja->sectors_free)
buckets_required++;
} else {
if (j->prev_buf_sectors + sectors_available >
ca->mi.bucket_size)
buckets_required++;
buckets_required++;
}
if (journal_dev_buckets_available(j, ca) >= buckets_required)
nr_devs++;
nr_online++;
}
rcu_read_unlock();
if (nr_online < c->opts.metadata_replicas_required)
return -EROFS;
if (nr_devs < min_t(unsigned, nr_online, c->opts.metadata_replicas))
return 0;
return sectors_available;
}
/**
* journal_next_bucket - move on to the next journal bucket if possible
*/
static int journal_write_alloc(struct journal *j, struct journal_buf *w,
unsigned sectors)
{
struct bch_fs *c = container_of(j, struct bch_fs, journal);
struct bkey_s_extent e;
struct bch_extent_ptr *ptr;
struct journal_device *ja;
struct bch_dev *ca;
struct dev_alloc_list devs_sorted;
unsigned i, replicas, replicas_want =
READ_ONCE(c->opts.metadata_replicas);
spin_lock(&j->lock);
e = bkey_i_to_s_extent(&j->key);
/*
* Drop any pointers to devices that have been removed, are no longer
* empty, or filled up their current journal bucket:
*
* Note that a device may have had a small amount of free space (perhaps
* one sector) that wasn't enough for the smallest possible journal
* entry - that's why we drop pointers to devices <= current free space,
* i.e. whichever device was limiting the current journal entry size.
*/
extent_for_each_ptr_backwards(e, ptr) {
ca = bch_dev_bkey_exists(c, ptr->dev);
if (ca->mi.state != BCH_MEMBER_STATE_RW ||
ca->journal.sectors_free <= sectors)
__bch2_extent_drop_ptr(e, ptr);
else
ca->journal.sectors_free -= sectors;
}
replicas = bch2_extent_nr_ptrs(e.c);
rcu_read_lock();
devs_sorted = bch2_wp_alloc_list(c, &j->wp,
&c->rw_devs[BCH_DATA_JOURNAL]);
for (i = 0; i < devs_sorted.nr; i++) {
ca = rcu_dereference(c->devs[devs_sorted.devs[i]]);
if (!ca)
continue;
if (!ca->mi.durability)
continue;
ja = &ca->journal;
if (!ja->nr)
continue;
if (replicas >= replicas_want)
break;
/*
* Check that we can use this device, and aren't already using
* it:
*/
if (bch2_extent_has_device(e.c, ca->dev_idx) ||
!journal_dev_buckets_available(j, ca) ||
sectors > ca->mi.bucket_size)
continue;
j->wp.next_alloc[ca->dev_idx] += U32_MAX;
bch2_wp_rescale(c, ca, &j->wp);
ja->sectors_free = ca->mi.bucket_size - sectors;
ja->cur_idx = (ja->cur_idx + 1) % ja->nr;
ja->bucket_seq[ja->cur_idx] = le64_to_cpu(w->data->seq);
extent_ptr_append(bkey_i_to_extent(&j->key),
(struct bch_extent_ptr) {
.offset = bucket_to_sector(ca,
ja->buckets[ja->cur_idx]),
.dev = ca->dev_idx,
});
replicas += ca->mi.durability;
}
rcu_read_unlock();
j->prev_buf_sectors = 0;
bkey_copy(&w->key, &j->key);
spin_unlock(&j->lock);
if (replicas < c->opts.metadata_replicas_required)
return -EROFS;
BUG_ON(!replicas);
return 0;
}
static void journal_write_compact(struct jset *jset)
{
struct jset_entry *i, *next, *prev = NULL;
/*
* Simple compaction, dropping empty jset_entries (from journal
* reservations that weren't fully used) and merging jset_entries that
* can be.
*
* If we wanted to be really fancy here, we could sort all the keys in
* the jset and drop keys that were overwritten - probably not worth it:
*/
vstruct_for_each_safe(jset, i, next) {
unsigned u64s = le16_to_cpu(i->u64s);
/* Empty entry: */
if (!u64s)
continue;
/* Can we merge with previous entry? */
if (prev &&
i->btree_id == prev->btree_id &&
i->level == prev->level &&
i->type == prev->type &&
i->type == BCH_JSET_ENTRY_btree_keys &&
le16_to_cpu(prev->u64s) + u64s <= U16_MAX) {
memmove_u64s_down(vstruct_next(prev),
i->_data,
u64s);
le16_add_cpu(&prev->u64s, u64s);
continue;
}
/* Couldn't merge, move i into new position (after prev): */
prev = prev ? vstruct_next(prev) : jset->start;
if (i != prev)
memmove_u64s_down(prev, i, jset_u64s(u64s));
}
prev = prev ? vstruct_next(prev) : jset->start;
jset->u64s = cpu_to_le32((u64 *) prev - jset->_data);
}
static void journal_buf_realloc(struct journal *j, struct journal_buf *buf)
{
/* we aren't holding j->lock: */
unsigned new_size = READ_ONCE(j->buf_size_want);
void *new_buf;
if (buf->size >= new_size)
return;
new_buf = kvpmalloc(new_size, GFP_NOIO|__GFP_NOWARN);
if (!new_buf)
return;
memcpy(new_buf, buf->data, buf->size);
kvpfree(buf->data, buf->size);
buf->data = new_buf;
buf->size = new_size;
}
static void journal_write_done(struct closure *cl)
{
struct journal *j = container_of(cl, struct journal, io);
struct bch_fs *c = container_of(j, struct bch_fs, journal);
struct journal_buf *w = journal_prev_buf(j);
struct bch_devs_list devs =
bch2_extent_devs(bkey_i_to_s_c_extent(&w->key));
u64 seq = le64_to_cpu(w->data->seq);
u64 last_seq = le64_to_cpu(w->data->last_seq);
bch2_time_stats_update(j->write_time, j->write_start_time);
if (!devs.nr) {
bch_err(c, "unable to write journal to sufficient devices");
goto err;
}
if (bch2_mark_replicas(c, BCH_DATA_JOURNAL, devs))
goto err;
spin_lock(&j->lock);
j->seq_ondisk = seq;
j->last_seq_ondisk = last_seq;
if (seq >= j->pin.front)
journal_seq_pin(j, seq)->devs = devs;
/*
* Updating last_seq_ondisk may let bch2_journal_reclaim_work() discard
* more buckets:
*
* Must come before signaling write completion, for
* bch2_fs_journal_stop():
*/
mod_delayed_work(system_freezable_wq, &j->reclaim_work, 0);
out:
/* also must come before signalling write completion: */
closure_debug_destroy(cl);
BUG_ON(!j->reservations.prev_buf_unwritten);
atomic64_sub(((union journal_res_state) { .prev_buf_unwritten = 1 }).v,
&j->reservations.counter);
closure_wake_up(&w->wait);
journal_wake(j);
if (test_bit(JOURNAL_NEED_WRITE, &j->flags))
mod_delayed_work(system_freezable_wq, &j->write_work, 0);
spin_unlock(&j->lock);
return;
err:
bch2_fatal_error(c);
bch2_journal_halt(j);
spin_lock(&j->lock);
goto out;
}
static void journal_write_endio(struct bio *bio)
{
struct bch_dev *ca = bio->bi_private;
struct journal *j = &ca->fs->journal;
if (bch2_dev_io_err_on(bio->bi_status, ca, "journal write") ||
bch2_meta_write_fault("journal")) {
struct journal_buf *w = journal_prev_buf(j);
unsigned long flags;
spin_lock_irqsave(&j->err_lock, flags);
bch2_extent_drop_device(bkey_i_to_s_extent(&w->key), ca->dev_idx);
spin_unlock_irqrestore(&j->err_lock, flags);
}
closure_put(&j->io);
percpu_ref_put(&ca->io_ref);
}
void bch2_journal_write(struct closure *cl)
{
struct journal *j = container_of(cl, struct journal, io);
struct bch_fs *c = container_of(j, struct bch_fs, journal);
struct bch_dev *ca;
struct journal_buf *w = journal_prev_buf(j);
struct jset *jset;
struct bio *bio;
struct bch_extent_ptr *ptr;
unsigned i, sectors, bytes;
journal_buf_realloc(j, w);
jset = w->data;
j->write_start_time = local_clock();
mutex_lock(&c->btree_root_lock);
for (i = 0; i < BTREE_ID_NR; i++) {
struct btree_root *r = &c->btree_roots[i];
if (r->alive)
bch2_journal_add_btree_root(w, i, &r->key, r->level);
}
c->btree_roots_dirty = false;
mutex_unlock(&c->btree_root_lock);
journal_write_compact(jset);
jset->read_clock = cpu_to_le16(c->bucket_clock[READ].hand);
jset->write_clock = cpu_to_le16(c->bucket_clock[WRITE].hand);
jset->magic = cpu_to_le64(jset_magic(c));
jset->version = cpu_to_le32(BCACHE_JSET_VERSION);
SET_JSET_BIG_ENDIAN(jset, CPU_BIG_ENDIAN);
SET_JSET_CSUM_TYPE(jset, bch2_meta_checksum_type(c));
if (bch2_csum_type_is_encryption(JSET_CSUM_TYPE(jset)) &&
jset_validate_entries(c, jset, WRITE))
goto err;
bch2_encrypt(c, JSET_CSUM_TYPE(jset), journal_nonce(jset),
jset->encrypted_start,
vstruct_end(jset) - (void *) jset->encrypted_start);
jset->csum = csum_vstruct(c, JSET_CSUM_TYPE(jset),
journal_nonce(jset), jset);
if (!bch2_csum_type_is_encryption(JSET_CSUM_TYPE(jset)) &&
jset_validate_entries(c, jset, WRITE))
goto err;
sectors = vstruct_sectors(jset, c->block_bits);
BUG_ON(sectors > j->prev_buf_sectors);
bytes = vstruct_bytes(w->data);
memset((void *) w->data + bytes, 0, (sectors << 9) - bytes);
if (journal_write_alloc(j, w, sectors)) {
bch2_journal_halt(j);
bch_err(c, "Unable to allocate journal write");
bch2_fatal_error(c);
continue_at(cl, journal_write_done, system_highpri_wq);
return;
}
/*
* XXX: we really should just disable the entire journal in nochanges
* mode
*/
if (c->opts.nochanges)
goto no_io;
extent_for_each_ptr(bkey_i_to_s_extent(&w->key), ptr) {
ca = bch_dev_bkey_exists(c, ptr->dev);
if (!percpu_ref_tryget(&ca->io_ref)) {
/* XXX: fix this */
bch_err(c, "missing device for journal write\n");
continue;
}
this_cpu_add(ca->io_done->sectors[WRITE][BCH_DATA_JOURNAL],
sectors);
bio = ca->journal.bio;
bio_reset(bio, ca->disk_sb.bdev,
REQ_OP_WRITE|REQ_SYNC|REQ_META|REQ_PREFLUSH|REQ_FUA);
bio->bi_iter.bi_sector = ptr->offset;
bio->bi_iter.bi_size = sectors << 9;
bio->bi_end_io = journal_write_endio;
bio->bi_private = ca;
bch2_bio_map(bio, jset);
trace_journal_write(bio);
closure_bio_submit(bio, cl);
ca->journal.bucket_seq[ca->journal.cur_idx] = le64_to_cpu(w->data->seq);
}
for_each_rw_member(ca, c, i)
if (journal_flushes_device(ca) &&
!bch2_extent_has_device(bkey_i_to_s_c_extent(&w->key), i)) {
percpu_ref_get(&ca->io_ref);
bio = ca->journal.bio;
bio_reset(bio, ca->disk_sb.bdev, REQ_OP_FLUSH);
bio->bi_end_io = journal_write_endio;
bio->bi_private = ca;
closure_bio_submit(bio, cl);
}
no_io:
extent_for_each_ptr(bkey_i_to_s_extent(&j->key), ptr)
ptr->offset += sectors;
bch2_bucket_seq_cleanup(c);
continue_at(cl, journal_write_done, system_highpri_wq);
return;
err:
bch2_inconsistent_error(c);
continue_at(cl, journal_write_done, system_highpri_wq);
}
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