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|
// SPDX-License-Identifier: GPL-2.0
/*
* bcachefs journalling code, for btree insertions
*
* Copyright 2012 Google, Inc.
*/
#include "bcachefs.h"
#include "alloc_foreground.h"
#include "bkey_methods.h"
#include "btree_gc.h"
#include "buckets.h"
#include "journal.h"
#include "journal_io.h"
#include "journal_reclaim.h"
#include "journal_seq_blacklist.h"
#include "super-io.h"
#include "trace.h"
static u64 last_unwritten_seq(struct journal *j)
{
union journal_res_state s = READ_ONCE(j->reservations);
lockdep_assert_held(&j->lock);
return journal_cur_seq(j) - s.prev_buf_unwritten;
}
static inline bool journal_seq_unwritten(struct journal *j, u64 seq)
{
return seq >= last_unwritten_seq(j);
}
static bool __journal_entry_is_open(union journal_res_state state)
{
return state.cur_entry_offset < JOURNAL_ENTRY_CLOSED_VAL;
}
static bool journal_entry_is_open(struct journal *j)
{
return __journal_entry_is_open(j->reservations);
}
static inline struct journal_buf *
journal_seq_to_buf(struct journal *j, u64 seq)
{
struct journal_buf *buf = NULL;
EBUG_ON(seq > journal_cur_seq(j));
EBUG_ON(seq == journal_cur_seq(j) &&
j->reservations.cur_entry_offset == JOURNAL_ENTRY_CLOSED_VAL);
if (journal_seq_unwritten(j, seq)) {
buf = j->buf + (seq & 1);
EBUG_ON(le64_to_cpu(buf->data->seq) != seq);
}
return buf;
}
static void journal_pin_new_entry(struct journal *j, int count)
{
struct journal_entry_pin_list *p;
/*
* The fifo_push() needs to happen at the same time as j->seq is
* incremented for journal_last_seq() to be calculated correctly
*/
atomic64_inc(&j->seq);
p = fifo_push_ref(&j->pin);
INIT_LIST_HEAD(&p->list);
INIT_LIST_HEAD(&p->flushed);
atomic_set(&p->count, count);
p->devs.nr = 0;
}
static void bch2_journal_buf_init(struct journal *j)
{
struct journal_buf *buf = journal_cur_buf(j);
bkey_extent_init(&buf->key);
memset(buf->has_inode, 0, sizeof(buf->has_inode));
memset(buf->data, 0, sizeof(*buf->data));
buf->data->seq = cpu_to_le64(journal_cur_seq(j));
buf->data->u64s = 0;
}
void bch2_journal_halt(struct journal *j)
{
union journal_res_state old, new;
u64 v = atomic64_read(&j->reservations.counter);
do {
old.v = new.v = v;
if (old.cur_entry_offset == JOURNAL_ENTRY_ERROR_VAL)
return;
new.cur_entry_offset = JOURNAL_ENTRY_ERROR_VAL;
} while ((v = atomic64_cmpxchg(&j->reservations.counter,
old.v, new.v)) != old.v);
j->err_seq = journal_cur_seq(j);
journal_wake(j);
closure_wake_up(&journal_cur_buf(j)->wait);
}
/* journal entry close/open: */
void __bch2_journal_buf_put(struct journal *j, bool need_write_just_set)
{
if (!need_write_just_set &&
test_bit(JOURNAL_NEED_WRITE, &j->flags))
bch2_time_stats_update(j->delay_time,
j->need_write_time);
clear_bit(JOURNAL_NEED_WRITE, &j->flags);
closure_call(&j->io, bch2_journal_write, system_highpri_wq, NULL);
}
/*
* Returns true if journal entry is now closed:
*/
static bool __journal_entry_close(struct journal *j)
{
struct bch_fs *c = container_of(j, struct bch_fs, journal);
struct journal_buf *buf = journal_cur_buf(j);
union journal_res_state old, new;
u64 v = atomic64_read(&j->reservations.counter);
bool set_need_write = false;
unsigned sectors;
lockdep_assert_held(&j->lock);
do {
old.v = new.v = v;
if (old.cur_entry_offset == JOURNAL_ENTRY_CLOSED_VAL)
return true;
if (old.cur_entry_offset == JOURNAL_ENTRY_ERROR_VAL) {
/* this entry will never be written: */
closure_wake_up(&buf->wait);
return true;
}
if (!test_bit(JOURNAL_NEED_WRITE, &j->flags)) {
set_bit(JOURNAL_NEED_WRITE, &j->flags);
j->need_write_time = local_clock();
set_need_write = true;
}
if (new.prev_buf_unwritten)
return false;
new.cur_entry_offset = JOURNAL_ENTRY_CLOSED_VAL;
new.idx++;
new.prev_buf_unwritten = 1;
BUG_ON(journal_state_count(new, new.idx));
} while ((v = atomic64_cmpxchg(&j->reservations.counter,
old.v, new.v)) != old.v);
buf->data->u64s = cpu_to_le32(old.cur_entry_offset);
sectors = vstruct_blocks_plus(buf->data, c->block_bits,
buf->u64s_reserved) << c->block_bits;
BUG_ON(sectors > buf->sectors);
buf->sectors = sectors;
/*
* We have to set last_seq here, _before_ opening a new journal entry:
*
* A threads may replace an old pin with a new pin on their current
* journal reservation - the expectation being that the journal will
* contain either what the old pin protected or what the new pin
* protects.
*
* After the old pin is dropped journal_last_seq() won't include the old
* pin, so we can only write the updated last_seq on the entry that
* contains whatever the new pin protects.
*
* Restated, we can _not_ update last_seq for a given entry if there
* could be a newer entry open with reservations/pins that have been
* taken against it.
*
* Hence, we want update/set last_seq on the current journal entry right
* before we open a new one:
*/
buf->data->last_seq = cpu_to_le64(journal_last_seq(j));
journal_pin_new_entry(j, 1);
bch2_journal_buf_init(j);
cancel_delayed_work(&j->write_work);
bch2_journal_space_available(j);
bch2_journal_buf_put(j, old.idx, set_need_write);
return true;
}
static bool journal_entry_close(struct journal *j)
{
bool ret;
spin_lock(&j->lock);
ret = __journal_entry_close(j);
spin_unlock(&j->lock);
return ret;
}
/*
* should _only_ called from journal_res_get() - when we actually want a
* journal reservation - journal entry is open means journal is dirty:
*
* returns:
* 0: success
* -ENOSPC: journal currently full, must invoke reclaim
* -EAGAIN: journal blocked, must wait
* -EROFS: insufficient rw devices or journal error
*/
static int journal_entry_open(struct journal *j)
{
struct journal_buf *buf = journal_cur_buf(j);
union journal_res_state old, new;
int u64s;
u64 v;
lockdep_assert_held(&j->lock);
BUG_ON(journal_entry_is_open(j));
if (j->blocked)
return -EAGAIN;
if (j->cur_entry_error)
return j->cur_entry_error;
BUG_ON(!j->cur_entry_sectors);
buf->u64s_reserved = j->entry_u64s_reserved;
buf->disk_sectors = j->cur_entry_sectors;
buf->sectors = min(buf->disk_sectors, buf->buf_size >> 9);
u64s = (int) (buf->sectors << 9) / sizeof(u64) -
journal_entry_overhead(j);
u64s = clamp_t(int, u64s, 0, JOURNAL_ENTRY_CLOSED_VAL - 1);
if (u64s <= le32_to_cpu(buf->data->u64s))
return -ENOSPC;
/*
* Must be set before marking the journal entry as open:
*/
j->cur_entry_u64s = u64s;
v = atomic64_read(&j->reservations.counter);
do {
old.v = new.v = v;
if (old.cur_entry_offset == JOURNAL_ENTRY_ERROR_VAL)
return -EROFS;
/* Handle any already added entries */
new.cur_entry_offset = le32_to_cpu(buf->data->u64s);
EBUG_ON(journal_state_count(new, new.idx));
journal_state_inc(&new);
} while ((v = atomic64_cmpxchg(&j->reservations.counter,
old.v, new.v)) != old.v);
if (j->res_get_blocked_start)
bch2_time_stats_update(j->blocked_time,
j->res_get_blocked_start);
j->res_get_blocked_start = 0;
mod_delayed_work(system_freezable_wq,
&j->write_work,
msecs_to_jiffies(j->write_delay_ms));
journal_wake(j);
return 0;
}
static bool journal_quiesced(struct journal *j)
{
union journal_res_state state = READ_ONCE(j->reservations);
bool ret = !state.prev_buf_unwritten && !__journal_entry_is_open(state);
if (!ret)
journal_entry_close(j);
return ret;
}
static void journal_quiesce(struct journal *j)
{
wait_event(j->wait, journal_quiesced(j));
}
static void journal_write_work(struct work_struct *work)
{
struct journal *j = container_of(work, struct journal, write_work.work);
journal_entry_close(j);
}
/*
* Given an inode number, if that inode number has data in the journal that
* hasn't yet been flushed, return the journal sequence number that needs to be
* flushed:
*/
u64 bch2_inode_journal_seq(struct journal *j, u64 inode)
{
size_t h = hash_64(inode, ilog2(sizeof(j->buf[0].has_inode) * 8));
u64 seq = 0;
if (!test_bit(h, j->buf[0].has_inode) &&
!test_bit(h, j->buf[1].has_inode))
return 0;
spin_lock(&j->lock);
if (test_bit(h, journal_cur_buf(j)->has_inode))
seq = journal_cur_seq(j);
else if (test_bit(h, journal_prev_buf(j)->has_inode))
seq = journal_cur_seq(j) - 1;
spin_unlock(&j->lock);
return seq;
}
void bch2_journal_set_has_inum(struct journal *j, u64 inode, u64 seq)
{
size_t h = hash_64(inode, ilog2(sizeof(j->buf[0].has_inode) * 8));
struct journal_buf *buf;
spin_lock(&j->lock);
if ((buf = journal_seq_to_buf(j, seq)))
set_bit(h, buf->has_inode);
spin_unlock(&j->lock);
}
static int __journal_res_get(struct journal *j, struct journal_res *res,
unsigned flags)
{
struct bch_fs *c = container_of(j, struct bch_fs, journal);
struct journal_buf *buf;
bool can_discard;
int ret;
retry:
if (journal_res_get_fast(j, res, flags))
return 0;
if (bch2_journal_error(j))
return -EROFS;
spin_lock(&j->lock);
/*
* Recheck after taking the lock, so we don't race with another thread
* that just did journal_entry_open() and call journal_entry_close()
* unnecessarily
*/
if (journal_res_get_fast(j, res, flags)) {
spin_unlock(&j->lock);
return 0;
}
if (!(flags & JOURNAL_RES_GET_RESERVED) &&
!test_bit(JOURNAL_MAY_GET_UNRESERVED, &j->flags)) {
/*
* Don't want to close current journal entry, just need to
* invoke reclaim:
*/
ret = -ENOSPC;
goto unlock;
}
/*
* If we couldn't get a reservation because the current buf filled up,
* and we had room for a bigger entry on disk, signal that we want to
* realloc the journal bufs:
*/
buf = journal_cur_buf(j);
if (journal_entry_is_open(j) &&
buf->buf_size >> 9 < buf->disk_sectors &&
buf->buf_size < JOURNAL_ENTRY_SIZE_MAX)
j->buf_size_want = max(j->buf_size_want, buf->buf_size << 1);
if (journal_entry_is_open(j) &&
!__journal_entry_close(j)) {
/*
* We failed to get a reservation on the current open journal
* entry because it's full, and we can't close it because
* there's still a previous one in flight:
*/
trace_journal_entry_full(c);
ret = -EAGAIN;
} else {
ret = journal_entry_open(j);
}
unlock:
if ((ret == -EAGAIN || ret == -ENOSPC) &&
!j->res_get_blocked_start)
j->res_get_blocked_start = local_clock() ?: 1;
can_discard = j->can_discard;
spin_unlock(&j->lock);
if (!ret)
goto retry;
if (ret == -ENOSPC) {
if (WARN_ONCE(!can_discard && (flags & JOURNAL_RES_GET_RESERVED),
"JOURNAL_RES_GET_RESERVED set but journal full")) {
char *buf;
buf = kmalloc(4096, GFP_NOFS);
if (buf) {
bch2_journal_debug_to_text(&_PBUF(buf, 4096), j);
pr_err("\n%s", buf);
kfree(buf);
}
}
/*
* Journal is full - can't rely on reclaim from work item due to
* freezing:
*/
trace_journal_full(c);
if (!(flags & JOURNAL_RES_GET_NONBLOCK)) {
if (can_discard) {
bch2_journal_do_discards(j);
goto retry;
}
if (mutex_trylock(&j->reclaim_lock)) {
bch2_journal_reclaim(j);
mutex_unlock(&j->reclaim_lock);
}
}
ret = -EAGAIN;
}
return ret;
}
/*
* Essentially the entry function to the journaling code. When bcachefs is doing
* a btree insert, it calls this function to get the current journal write.
* Journal write is the structure used set up journal writes. The calling
* function will then add its keys to the structure, queuing them for the next
* write.
*
* To ensure forward progress, the current task must not be holding any
* btree node write locks.
*/
int bch2_journal_res_get_slowpath(struct journal *j, struct journal_res *res,
unsigned flags)
{
int ret;
closure_wait_event(&j->async_wait,
(ret = __journal_res_get(j, res, flags)) != -EAGAIN ||
(flags & JOURNAL_RES_GET_NONBLOCK));
return ret;
}
/* journal_preres: */
static bool journal_preres_available(struct journal *j,
struct journal_preres *res,
unsigned new_u64s,
unsigned flags)
{
bool ret = bch2_journal_preres_get_fast(j, res, new_u64s, flags);
if (!ret)
bch2_journal_reclaim_work(&j->reclaim_work.work);
return ret;
}
int __bch2_journal_preres_get(struct journal *j,
struct journal_preres *res,
unsigned new_u64s,
unsigned flags)
{
int ret;
closure_wait_event(&j->preres_wait,
(ret = bch2_journal_error(j)) ||
journal_preres_available(j, res, new_u64s, flags));
return ret;
}
/* journal_entry_res: */
void bch2_journal_entry_res_resize(struct journal *j,
struct journal_entry_res *res,
unsigned new_u64s)
{
union journal_res_state state;
int d = new_u64s - res->u64s;
spin_lock(&j->lock);
j->entry_u64s_reserved += d;
if (d <= 0)
goto out;
j->cur_entry_u64s = max_t(int, 0, j->cur_entry_u64s - d);
smp_mb();
state = READ_ONCE(j->reservations);
if (state.cur_entry_offset < JOURNAL_ENTRY_CLOSED_VAL &&
state.cur_entry_offset > j->cur_entry_u64s) {
j->cur_entry_u64s += d;
/*
* Not enough room in current journal entry, have to flush it:
*/
__journal_entry_close(j);
} else {
journal_cur_buf(j)->u64s_reserved += d;
}
out:
spin_unlock(&j->lock);
res->u64s += d;
}
/* journal flushing: */
/**
* bch2_journal_flush_seq_async - wait for a journal entry to be written
*
* like bch2_journal_wait_on_seq, except that it triggers a write immediately if
* necessary
*/
int bch2_journal_flush_seq_async(struct journal *j, u64 seq,
struct closure *parent)
{
struct journal_buf *buf;
int ret = 0;
spin_lock(&j->lock);
if (seq <= j->err_seq) {
ret = -EIO;
goto out;
}
if (seq <= j->seq_ondisk) {
ret = 1;
goto out;
}
if (parent &&
(buf = journal_seq_to_buf(j, seq)))
if (!closure_wait(&buf->wait, parent))
BUG();
if (seq == journal_cur_seq(j))
__journal_entry_close(j);
out:
spin_unlock(&j->lock);
return ret;
}
int bch2_journal_flush_seq(struct journal *j, u64 seq)
{
u64 start_time = local_clock();
int ret, ret2;
ret = wait_event_killable(j->wait, (ret2 = bch2_journal_flush_seq_async(j, seq, NULL)));
bch2_time_stats_update(j->flush_seq_time, start_time);
return ret ?: ret2 < 0 ? ret2 : 0;
}
int bch2_journal_meta(struct journal *j)
{
struct journal_res res;
int ret;
memset(&res, 0, sizeof(res));
ret = bch2_journal_res_get(j, &res, jset_u64s(0), 0);
if (ret)
return ret;
bch2_journal_res_put(j, &res);
return bch2_journal_flush_seq(j, res.seq);
}
/*
* bch2_journal_flush_async - if there is an open journal entry, or a journal
* still being written, write it and wait for the write to complete
*/
void bch2_journal_flush_async(struct journal *j, struct closure *parent)
{
u64 seq, journal_seq;
spin_lock(&j->lock);
journal_seq = journal_cur_seq(j);
if (journal_entry_is_open(j)) {
seq = journal_seq;
} else if (journal_seq) {
seq = journal_seq - 1;
} else {
spin_unlock(&j->lock);
return;
}
spin_unlock(&j->lock);
bch2_journal_flush_seq_async(j, seq, parent);
}
int bch2_journal_flush(struct journal *j)
{
u64 seq, journal_seq;
spin_lock(&j->lock);
journal_seq = journal_cur_seq(j);
if (journal_entry_is_open(j)) {
seq = journal_seq;
} else if (journal_seq) {
seq = journal_seq - 1;
} else {
spin_unlock(&j->lock);
return 0;
}
spin_unlock(&j->lock);
return bch2_journal_flush_seq(j, seq);
}
/* block/unlock the journal: */
void bch2_journal_unblock(struct journal *j)
{
spin_lock(&j->lock);
j->blocked--;
spin_unlock(&j->lock);
journal_wake(j);
}
void bch2_journal_block(struct journal *j)
{
spin_lock(&j->lock);
j->blocked++;
spin_unlock(&j->lock);
journal_quiesce(j);
}
/* allocate journal on a device: */
static int __bch2_set_nr_journal_buckets(struct bch_dev *ca, unsigned nr,
bool new_fs, struct closure *cl)
{
struct bch_fs *c = ca->fs;
struct journal_device *ja = &ca->journal;
struct bch_sb_field_journal *journal_buckets;
u64 *new_bucket_seq = NULL, *new_buckets = NULL;
int ret = 0;
/* don't handle reducing nr of buckets yet: */
if (nr <= ja->nr)
return 0;
ret = -ENOMEM;
new_buckets = kzalloc(nr * sizeof(u64), GFP_KERNEL);
new_bucket_seq = kzalloc(nr * sizeof(u64), GFP_KERNEL);
if (!new_buckets || !new_bucket_seq)
goto err;
journal_buckets = bch2_sb_resize_journal(&ca->disk_sb,
nr + sizeof(*journal_buckets) / sizeof(u64));
if (!journal_buckets)
goto err;
/*
* We may be called from the device add path, before the new device has
* actually been added to the running filesystem:
*/
if (c)
spin_lock(&c->journal.lock);
memcpy(new_buckets, ja->buckets, ja->nr * sizeof(u64));
memcpy(new_bucket_seq, ja->bucket_seq, ja->nr * sizeof(u64));
swap(new_buckets, ja->buckets);
swap(new_bucket_seq, ja->bucket_seq);
if (c)
spin_unlock(&c->journal.lock);
while (ja->nr < nr) {
struct open_bucket *ob = NULL;
unsigned pos;
long bucket;
if (new_fs) {
bucket = bch2_bucket_alloc_new_fs(ca);
if (bucket < 0) {
ret = -ENOSPC;
goto err;
}
} else {
ob = bch2_bucket_alloc(c, ca, RESERVE_ALLOC,
false, cl);
if (IS_ERR(ob)) {
ret = cl ? -EAGAIN : -ENOSPC;
goto err;
}
bucket = sector_to_bucket(ca, ob->ptr.offset);
}
if (c) {
percpu_down_read(&c->mark_lock);
spin_lock(&c->journal.lock);
}
pos = ja->nr ? (ja->cur_idx + 1) % ja->nr : 0;
__array_insert_item(ja->buckets, ja->nr, pos);
__array_insert_item(ja->bucket_seq, ja->nr, pos);
__array_insert_item(journal_buckets->buckets, ja->nr, pos);
ja->nr++;
ja->buckets[pos] = bucket;
ja->bucket_seq[pos] = 0;
journal_buckets->buckets[pos] = cpu_to_le64(bucket);
if (pos <= ja->discard_idx)
ja->discard_idx = (ja->discard_idx + 1) % ja->nr;
if (pos <= ja->dirty_idx_ondisk)
ja->dirty_idx_ondisk = (ja->dirty_idx_ondisk + 1) % ja->nr;
if (pos <= ja->dirty_idx)
ja->dirty_idx = (ja->dirty_idx + 1) % ja->nr;
if (pos <= ja->cur_idx)
ja->cur_idx = (ja->cur_idx + 1) % ja->nr;
bch2_mark_metadata_bucket(c, ca, bucket, BCH_DATA_journal,
ca->mi.bucket_size,
gc_phase(GC_PHASE_SB),
0);
if (c) {
spin_unlock(&c->journal.lock);
percpu_up_read(&c->mark_lock);
}
if (!new_fs)
bch2_open_bucket_put(c, ob);
}
ret = 0;
err:
kfree(new_bucket_seq);
kfree(new_buckets);
return ret;
}
/*
* Allocate more journal space at runtime - not currently making use if it, but
* the code works:
*/
int bch2_set_nr_journal_buckets(struct bch_fs *c, struct bch_dev *ca,
unsigned nr)
{
struct journal_device *ja = &ca->journal;
struct closure cl;
unsigned current_nr;
int ret;
closure_init_stack(&cl);
do {
struct disk_reservation disk_res = { 0, 0 };
closure_sync(&cl);
mutex_lock(&c->sb_lock);
current_nr = ja->nr;
/*
* note: journal buckets aren't really counted as _sectors_ used yet, so
* we don't need the disk reservation to avoid the BUG_ON() in buckets.c
* when space used goes up without a reservation - but we do need the
* reservation to ensure we'll actually be able to allocate:
*/
if (bch2_disk_reservation_get(c, &disk_res,
bucket_to_sector(ca, nr - ja->nr), 1, 0)) {
mutex_unlock(&c->sb_lock);
return -ENOSPC;
}
ret = __bch2_set_nr_journal_buckets(ca, nr, false, &cl);
bch2_disk_reservation_put(c, &disk_res);
if (ja->nr != current_nr)
bch2_write_super(c);
mutex_unlock(&c->sb_lock);
} while (ret == -EAGAIN);
return ret;
}
int bch2_dev_journal_alloc(struct bch_dev *ca)
{
unsigned nr;
if (dynamic_fault("bcachefs:add:journal_alloc"))
return -ENOMEM;
/*
* clamp journal size to 1024 buckets or 512MB (in sectors), whichever
* is smaller:
*/
nr = clamp_t(unsigned, ca->mi.nbuckets >> 8,
BCH_JOURNAL_BUCKETS_MIN,
min(1 << 10,
(1 << 20) / ca->mi.bucket_size));
return __bch2_set_nr_journal_buckets(ca, nr, true, NULL);
}
/* startup/shutdown: */
static bool bch2_journal_writing_to_device(struct journal *j, unsigned dev_idx)
{
union journal_res_state state;
struct journal_buf *w;
bool ret;
spin_lock(&j->lock);
state = READ_ONCE(j->reservations);
w = j->buf + !state.idx;
ret = state.prev_buf_unwritten &&
bch2_bkey_has_device(bkey_i_to_s_c(&w->key), dev_idx);
spin_unlock(&j->lock);
return ret;
}
void bch2_dev_journal_stop(struct journal *j, struct bch_dev *ca)
{
wait_event(j->wait, !bch2_journal_writing_to_device(j, ca->dev_idx));
}
void bch2_fs_journal_stop(struct journal *j)
{
bch2_journal_flush_all_pins(j);
wait_event(j->wait, journal_entry_close(j));
/*
* Always write a new journal entry, to make sure the clock hands are up
* to date (and match the superblock)
*/
bch2_journal_meta(j);
journal_quiesce(j);
BUG_ON(!bch2_journal_error(j) &&
(journal_entry_is_open(j) ||
j->last_empty_seq + 1 != journal_cur_seq(j)));
cancel_delayed_work_sync(&j->write_work);
cancel_delayed_work_sync(&j->reclaim_work);
}
int bch2_fs_journal_start(struct journal *j, u64 cur_seq,
struct list_head *journal_entries)
{
struct bch_fs *c = container_of(j, struct bch_fs, journal);
struct journal_entry_pin_list *p;
struct journal_replay *i;
u64 last_seq = cur_seq, nr, seq;
if (!list_empty(journal_entries))
last_seq = le64_to_cpu(list_last_entry(journal_entries,
struct journal_replay, list)->j.last_seq);
nr = cur_seq - last_seq;
if (nr + 1 > j->pin.size) {
free_fifo(&j->pin);
init_fifo(&j->pin, roundup_pow_of_two(nr + 1), GFP_KERNEL);
if (!j->pin.data) {
bch_err(c, "error reallocating journal fifo (%llu open entries)", nr);
return -ENOMEM;
}
}
j->replay_journal_seq = last_seq;
j->replay_journal_seq_end = cur_seq;
j->last_seq_ondisk = last_seq;
j->pin.front = last_seq;
j->pin.back = cur_seq;
atomic64_set(&j->seq, cur_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, 1);
p->devs.nr = 0;
}
list_for_each_entry(i, journal_entries, list) {
seq = le64_to_cpu(i->j.seq);
BUG_ON(seq >= cur_seq);
if (seq < last_seq)
continue;
journal_seq_pin(j, seq)->devs = i->devs;
}
spin_lock(&j->lock);
set_bit(JOURNAL_STARTED, &j->flags);
journal_pin_new_entry(j, 1);
j->reservations.idx = journal_cur_seq(j);
bch2_journal_buf_init(j);
c->last_bucket_seq_cleanup = journal_cur_seq(j);
bch2_journal_space_available(j);
spin_unlock(&j->lock);
return 0;
}
/* init/exit: */
void bch2_dev_journal_exit(struct bch_dev *ca)
{
kfree(ca->journal.bio);
kfree(ca->journal.buckets);
kfree(ca->journal.bucket_seq);
ca->journal.bio = NULL;
ca->journal.buckets = NULL;
ca->journal.bucket_seq = NULL;
}
int bch2_dev_journal_init(struct bch_dev *ca, struct bch_sb *sb)
{
struct journal_device *ja = &ca->journal;
struct bch_sb_field_journal *journal_buckets =
bch2_sb_get_journal(sb);
unsigned i, nr_bvecs;
ja->nr = bch2_nr_journal_buckets(journal_buckets);
ja->bucket_seq = kcalloc(ja->nr, sizeof(u64), GFP_KERNEL);
if (!ja->bucket_seq)
return -ENOMEM;
nr_bvecs = DIV_ROUND_UP(JOURNAL_ENTRY_SIZE_MAX, PAGE_SIZE);
ca->journal.bio = bio_kmalloc(nr_bvecs, GFP_KERNEL);
if (!ca->journal.bio)
return -ENOMEM;
bio_init(ca->journal.bio, NULL, ca->journal.bio->bi_inline_vecs, nr_bvecs, 0);
ja->buckets = kcalloc(ja->nr, sizeof(u64), GFP_KERNEL);
if (!ja->buckets)
return -ENOMEM;
for (i = 0; i < ja->nr; i++)
ja->buckets[i] = le64_to_cpu(journal_buckets->buckets[i]);
return 0;
}
void bch2_fs_journal_exit(struct journal *j)
{
kvpfree(j->buf[1].data, j->buf[1].buf_size);
kvpfree(j->buf[0].data, j->buf[0].buf_size);
free_fifo(&j->pin);
}
int bch2_fs_journal_init(struct journal *j)
{
struct bch_fs *c = container_of(j, struct bch_fs, journal);
static struct lock_class_key res_key;
int ret = 0;
pr_verbose_init(c->opts, "");
spin_lock_init(&j->lock);
spin_lock_init(&j->err_lock);
init_waitqueue_head(&j->wait);
INIT_DELAYED_WORK(&j->write_work, journal_write_work);
INIT_DELAYED_WORK(&j->reclaim_work, bch2_journal_reclaim_work);
init_waitqueue_head(&j->pin_flush_wait);
mutex_init(&j->reclaim_lock);
mutex_init(&j->discard_lock);
lockdep_init_map(&j->res_map, "journal res", &res_key, 0);
j->buf[0].buf_size = JOURNAL_ENTRY_SIZE_MIN;
j->buf[1].buf_size = JOURNAL_ENTRY_SIZE_MIN;
j->write_delay_ms = 1000;
j->reclaim_delay_ms = 100;
/* Btree roots: */
j->entry_u64s_reserved +=
BTREE_ID_NR * (JSET_KEYS_U64s + BKEY_EXTENT_U64s_MAX);
atomic64_set(&j->reservations.counter,
((union journal_res_state)
{ .cur_entry_offset = JOURNAL_ENTRY_CLOSED_VAL }).v);
if (!(init_fifo(&j->pin, JOURNAL_PIN, GFP_KERNEL)) ||
!(j->buf[0].data = kvpmalloc(j->buf[0].buf_size, GFP_KERNEL)) ||
!(j->buf[1].data = kvpmalloc(j->buf[1].buf_size, GFP_KERNEL))) {
ret = -ENOMEM;
goto out;
}
j->pin.front = j->pin.back = 1;
out:
pr_verbose_init(c->opts, "ret %i", ret);
return ret;
}
/* debug: */
void bch2_journal_debug_to_text(struct printbuf *out, struct journal *j)
{
struct bch_fs *c = container_of(j, struct bch_fs, journal);
union journal_res_state s;
struct bch_dev *ca;
unsigned iter;
rcu_read_lock();
spin_lock(&j->lock);
s = READ_ONCE(j->reservations);
pr_buf(out,
"active journal entries:\t%llu\n"
"seq:\t\t\t%llu\n"
"last_seq:\t\t%llu\n"
"last_seq_ondisk:\t%llu\n"
"prereserved:\t\t%u/%u\n"
"current entry sectors:\t%u\n"
"current entry:\t\t",
fifo_used(&j->pin),
journal_cur_seq(j),
journal_last_seq(j),
j->last_seq_ondisk,
j->prereserved.reserved,
j->prereserved.remaining,
j->cur_entry_sectors);
switch (s.cur_entry_offset) {
case JOURNAL_ENTRY_ERROR_VAL:
pr_buf(out, "error\n");
break;
case JOURNAL_ENTRY_CLOSED_VAL:
pr_buf(out, "closed\n");
break;
default:
pr_buf(out, "%u/%u\n",
s.cur_entry_offset,
j->cur_entry_u64s);
break;
}
pr_buf(out,
"current entry refs:\t%u\n"
"prev entry unwritten:\t",
journal_state_count(s, s.idx));
if (s.prev_buf_unwritten)
pr_buf(out, "yes, ref %u sectors %u\n",
journal_state_count(s, !s.idx),
journal_prev_buf(j)->sectors);
else
pr_buf(out, "no\n");
pr_buf(out,
"need write:\t\t%i\n"
"replay done:\t\t%i\n",
test_bit(JOURNAL_NEED_WRITE, &j->flags),
test_bit(JOURNAL_REPLAY_DONE, &j->flags));
for_each_member_device_rcu(ca, c, iter,
&c->rw_devs[BCH_DATA_journal]) {
struct journal_device *ja = &ca->journal;
if (!ja->nr)
continue;
pr_buf(out,
"dev %u:\n"
"\tnr\t\t%u\n"
"\tavailable\t%u:%u\n"
"\tdiscard_idx\t\t%u\n"
"\tdirty_idx_ondisk\t%u (seq %llu)\n"
"\tdirty_idx\t\t%u (seq %llu)\n"
"\tcur_idx\t\t%u (seq %llu)\n",
iter, ja->nr,
bch2_journal_dev_buckets_available(j, ja, journal_space_discarded),
ja->sectors_free,
ja->discard_idx,
ja->dirty_idx_ondisk, ja->bucket_seq[ja->dirty_idx_ondisk],
ja->dirty_idx, ja->bucket_seq[ja->dirty_idx],
ja->cur_idx, ja->bucket_seq[ja->cur_idx]);
}
spin_unlock(&j->lock);
rcu_read_unlock();
}
void bch2_journal_pins_to_text(struct printbuf *out, struct journal *j)
{
struct journal_entry_pin_list *pin_list;
struct journal_entry_pin *pin;
u64 i;
spin_lock(&j->lock);
fifo_for_each_entry_ptr(pin_list, &j->pin, i) {
pr_buf(out, "%llu: count %u\n",
i, atomic_read(&pin_list->count));
list_for_each_entry(pin, &pin_list->list, list)
pr_buf(out, "\t%px %ps\n",
pin, pin->flush);
if (!list_empty(&pin_list->flushed))
pr_buf(out, "flushed:\n");
list_for_each_entry(pin, &pin_list->flushed, list)
pr_buf(out, "\t%px %ps\n",
pin, pin->flush);
}
spin_unlock(&j->lock);
}
|