bcache: make bch_btree_check() to be multithreaded
When registering a cache device, bch_btree_check() is called to check all btree nodes, to make sure the btree is consistent and not corrupted. bch_btree_check() is recursively executed in a single thread, when there are a lot of data cached and the btree is huge, it may take very long time to check all the btree nodes. In my testing, I observed it took around 50 minutes to finish bch_btree_check(). When checking the bcache btree nodes, the cache set is not running yet, and indeed the whole tree is in read-only state, it is safe to create multiple threads to check the btree in parallel. This patch tries to create multiple threads, and each thread tries to one-by-one check the sub-tree indexed by a key from the btree root node. The parallel thread number depends on how many keys in the btree root node. At most BCH_BTR_CHKTHREAD_MAX (64) threads can be created, but in practice is should be min(cpu-number/2, root-node-keys-number). Signed-off-by: Coly Li <colyli@suse.de> Cc: Christoph Hellwig <hch@infradead.org> Signed-off-by: Jens Axboe <axboe@kernel.dk>
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@ -1897,13 +1897,176 @@ static int bch_btree_check_recurse(struct btree *b, struct btree_op *op)
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return ret;
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}
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static int bch_btree_check_thread(void *arg)
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{
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int ret;
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struct btree_check_info *info = arg;
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struct btree_check_state *check_state = info->state;
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struct cache_set *c = check_state->c;
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struct btree_iter iter;
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struct bkey *k, *p;
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int cur_idx, prev_idx, skip_nr;
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int i, n;
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k = p = NULL;
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i = n = 0;
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cur_idx = prev_idx = 0;
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ret = 0;
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/* root node keys are checked before thread created */
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bch_btree_iter_init(&c->root->keys, &iter, NULL);
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k = bch_btree_iter_next_filter(&iter, &c->root->keys, bch_ptr_bad);
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BUG_ON(!k);
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p = k;
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while (k) {
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/*
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* Fetch a root node key index, skip the keys which
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* should be fetched by other threads, then check the
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* sub-tree indexed by the fetched key.
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*/
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spin_lock(&check_state->idx_lock);
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cur_idx = check_state->key_idx;
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check_state->key_idx++;
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spin_unlock(&check_state->idx_lock);
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skip_nr = cur_idx - prev_idx;
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while (skip_nr) {
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k = bch_btree_iter_next_filter(&iter,
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&c->root->keys,
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bch_ptr_bad);
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if (k)
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p = k;
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else {
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/*
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* No more keys to check in root node,
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* current checking threads are enough,
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* stop creating more.
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*/
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atomic_set(&check_state->enough, 1);
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/* Update check_state->enough earlier */
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smp_mb();
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goto out;
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}
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skip_nr--;
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cond_resched();
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}
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if (p) {
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struct btree_op op;
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btree_node_prefetch(c->root, p);
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c->gc_stats.nodes++;
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bch_btree_op_init(&op, 0);
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ret = bcache_btree(check_recurse, p, c->root, &op);
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if (ret)
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goto out;
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}
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p = NULL;
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prev_idx = cur_idx;
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cond_resched();
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}
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out:
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info->result = ret;
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/* update check_state->started among all CPUs */
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smp_mb();
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if (atomic_dec_and_test(&check_state->started))
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wake_up(&check_state->wait);
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return ret;
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}
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static int bch_btree_chkthread_nr(void)
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{
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int n = num_online_cpus()/2;
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if (n == 0)
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n = 1;
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else if (n > BCH_BTR_CHKTHREAD_MAX)
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n = BCH_BTR_CHKTHREAD_MAX;
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return n;
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}
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int bch_btree_check(struct cache_set *c)
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{
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struct btree_op op;
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int ret = 0;
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int i;
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struct bkey *k = NULL;
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struct btree_iter iter;
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struct btree_check_state *check_state;
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char name[32];
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bch_btree_op_init(&op, SHRT_MAX);
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/* check and mark root node keys */
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for_each_key_filter(&c->root->keys, k, &iter, bch_ptr_invalid)
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bch_initial_mark_key(c, c->root->level, k);
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return bcache_btree_root(check_recurse, c, &op);
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bch_initial_mark_key(c, c->root->level + 1, &c->root->key);
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if (c->root->level == 0)
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return 0;
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check_state = kzalloc(sizeof(struct btree_check_state), GFP_KERNEL);
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if (!check_state)
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return -ENOMEM;
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check_state->c = c;
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check_state->total_threads = bch_btree_chkthread_nr();
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check_state->key_idx = 0;
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spin_lock_init(&check_state->idx_lock);
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atomic_set(&check_state->started, 0);
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atomic_set(&check_state->enough, 0);
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init_waitqueue_head(&check_state->wait);
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/*
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* Run multiple threads to check btree nodes in parallel,
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* if check_state->enough is non-zero, it means current
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* running check threads are enough, unncessary to create
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* more.
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*/
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for (i = 0; i < check_state->total_threads; i++) {
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/* fetch latest check_state->enough earlier */
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smp_mb();
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if (atomic_read(&check_state->enough))
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break;
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check_state->infos[i].result = 0;
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check_state->infos[i].state = check_state;
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snprintf(name, sizeof(name), "bch_btrchk[%u]", i);
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atomic_inc(&check_state->started);
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check_state->infos[i].thread =
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kthread_run(bch_btree_check_thread,
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&check_state->infos[i],
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name);
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if (IS_ERR(check_state->infos[i].thread)) {
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pr_err("fails to run thread bch_btrchk[%d]", i);
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for (--i; i >= 0; i--)
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kthread_stop(check_state->infos[i].thread);
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ret = -ENOMEM;
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goto out;
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}
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}
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wait_event_interruptible(check_state->wait,
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atomic_read(&check_state->started) == 0 ||
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test_bit(CACHE_SET_IO_DISABLE, &c->flags));
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for (i = 0; i < check_state->total_threads; i++) {
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if (check_state->infos[i].result) {
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ret = check_state->infos[i].result;
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goto out;
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}
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}
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out:
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kfree(check_state);
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return ret;
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}
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void bch_initial_gc_finish(struct cache_set *c)
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@ -145,6 +145,9 @@ struct btree {
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struct bio *bio;
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};
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#define BTREE_FLAG(flag) \
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static inline bool btree_node_ ## flag(struct btree *b) \
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{ return test_bit(BTREE_NODE_ ## flag, &b->flags); } \
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@ -216,6 +219,25 @@ struct btree_op {
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unsigned int insert_collision:1;
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};
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struct btree_check_state;
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struct btree_check_info {
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struct btree_check_state *state;
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struct task_struct *thread;
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int result;
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};
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#define BCH_BTR_CHKTHREAD_MAX 64
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struct btree_check_state {
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struct cache_set *c;
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int total_threads;
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int key_idx;
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spinlock_t idx_lock;
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atomic_t started;
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atomic_t enough;
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wait_queue_head_t wait;
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struct btree_check_info infos[BCH_BTR_CHKTHREAD_MAX];
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};
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static inline void bch_btree_op_init(struct btree_op *op, int write_lock_level)
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{
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memset(op, 0, sizeof(struct btree_op));
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