提交 b113f984 编写于 作者: C Coly Li 提交者: Greg Kroah-Hartman

bcache: fix race in btree_flush_write()

[ Upstream commit 50a260e859964002dab162513a10f91ae9d3bcd3 ]

There is a race between mca_reap(), btree_node_free() and journal code
btree_flush_write(), which results very rare and strange deadlock or
panic and are very hard to reproduce.

Let me explain how the race happens. In btree_flush_write() one btree
node with oldest journal pin is selected, then it is flushed to cache
device, the select-and-flush is a two steps operation. Between these two
steps, there are something may happen inside the race window,
- The selected btree node was reaped by mca_reap() and allocated to
  other requesters for other btree node.
- The slected btree node was selected, flushed and released by mca
  shrink callback bch_mca_scan().
When btree_flush_write() tries to flush the selected btree node, firstly
b->write_lock is held by mutex_lock(). If the race happens and the
memory of selected btree node is allocated to other btree node, if that
btree node's write_lock is held already, a deadlock very probably
happens here. A worse case is the memory of the selected btree node is
released, then all references to this btree node (e.g. b->write_lock)
will trigger NULL pointer deference panic.

This race was introduced in commit cafe5635 ("bcache: A block layer
cache"), and enlarged by commit c4dc2497 ("bcache: fix high CPU
occupancy during journal"), which selected 128 btree nodes and flushed
them one-by-one in a quite long time period.

Such race is not easy to reproduce before. On a Lenovo SR650 server with
48 Xeon cores, and configure 1 NVMe SSD as cache device, a MD raid0
device assembled by 3 NVMe SSDs as backing device, this race can be
observed around every 10,000 times btree_flush_write() gets called. Both
deadlock and kernel panic all happened as aftermath of the race.

The idea of the fix is to add a btree flag BTREE_NODE_journal_flush. It
is set when selecting btree nodes, and cleared after btree nodes
flushed. Then when mca_reap() selects a btree node with this bit set,
this btree node will be skipped. Since mca_reap() only reaps btree node
without BTREE_NODE_journal_flush flag, such race is avoided.

Once corner case should be noticed, that is btree_node_free(). It might
be called in some error handling code path. For example the following
code piece from btree_split(),
        2149 err_free2:
        2150         bkey_put(b->c, &n2->key);
        2151         btree_node_free(n2);
        2152         rw_unlock(true, n2);
        2153 err_free1:
        2154         bkey_put(b->c, &n1->key);
        2155         btree_node_free(n1);
        2156         rw_unlock(true, n1);
At line 2151 and 2155, the btree node n2 and n1 are released without
mac_reap(), so BTREE_NODE_journal_flush also needs to be checked here.
If btree_node_free() is called directly in such error handling path,
and the selected btree node has BTREE_NODE_journal_flush bit set, just
delay for 1 us and retry again. In this case this btree node won't
be skipped, just retry until the BTREE_NODE_journal_flush bit cleared,
and free the btree node memory.

Fixes: cafe5635 ("bcache: A block layer cache")
Signed-off-by: NColy Li <colyli@suse.de>
Reported-and-tested-by: Nkbuild test robot <lkp@intel.com>
Cc: stable@vger.kernel.org
Signed-off-by: NJens Axboe <axboe@kernel.dk>
Signed-off-by: NSasha Levin <sashal@kernel.org>
上级 f73c35d9
......@@ -35,7 +35,7 @@
#include <linux/rcupdate.h>
#include <linux/sched/clock.h>
#include <linux/rculist.h>
#include <linux/delay.h>
#include <trace/events/bcache.h>
/*
......@@ -649,12 +649,25 @@ static int mca_reap(struct btree *b, unsigned int min_order, bool flush)
up(&b->io_mutex);
}
retry:
/*
* BTREE_NODE_dirty might be cleared in btree_flush_btree() by
* __bch_btree_node_write(). To avoid an extra flush, acquire
* b->write_lock before checking BTREE_NODE_dirty bit.
*/
mutex_lock(&b->write_lock);
/*
* If this btree node is selected in btree_flush_write() by journal
* code, delay and retry until the node is flushed by journal code
* and BTREE_NODE_journal_flush bit cleared by btree_flush_write().
*/
if (btree_node_journal_flush(b)) {
pr_debug("bnode %p is flushing by journal, retry", b);
mutex_unlock(&b->write_lock);
udelay(1);
goto retry;
}
if (btree_node_dirty(b))
__bch_btree_node_write(b, &cl);
mutex_unlock(&b->write_lock);
......@@ -1071,7 +1084,20 @@ static void btree_node_free(struct btree *b)
BUG_ON(b == b->c->root);
retry:
mutex_lock(&b->write_lock);
/*
* If the btree node is selected and flushing in btree_flush_write(),
* delay and retry until the BTREE_NODE_journal_flush bit cleared,
* then it is safe to free the btree node here. Otherwise this btree
* node will be in race condition.
*/
if (btree_node_journal_flush(b)) {
mutex_unlock(&b->write_lock);
pr_debug("bnode %p journal_flush set, retry", b);
udelay(1);
goto retry;
}
if (btree_node_dirty(b)) {
btree_complete_write(b, btree_current_write(b));
......
......@@ -158,11 +158,13 @@ enum btree_flags {
BTREE_NODE_io_error,
BTREE_NODE_dirty,
BTREE_NODE_write_idx,
BTREE_NODE_journal_flush,
};
BTREE_FLAG(io_error);
BTREE_FLAG(dirty);
BTREE_FLAG(write_idx);
BTREE_FLAG(journal_flush);
static inline struct btree_write *btree_current_write(struct btree *b)
{
......
......@@ -404,6 +404,7 @@ static void btree_flush_write(struct cache_set *c)
retry:
best = NULL;
mutex_lock(&c->bucket_lock);
for_each_cached_btree(b, c, i)
if (btree_current_write(b)->journal) {
if (!best)
......@@ -416,9 +417,14 @@ static void btree_flush_write(struct cache_set *c)
}
b = best;
if (b)
set_btree_node_journal_flush(b);
mutex_unlock(&c->bucket_lock);
if (b) {
mutex_lock(&b->write_lock);
if (!btree_current_write(b)->journal) {
clear_bit(BTREE_NODE_journal_flush, &b->flags);
mutex_unlock(&b->write_lock);
/* We raced */
atomic_long_inc(&c->retry_flush_write);
......@@ -426,6 +432,7 @@ static void btree_flush_write(struct cache_set *c)
}
__bch_btree_node_write(b, NULL);
clear_bit(BTREE_NODE_journal_flush, &b->flags);
mutex_unlock(&b->write_lock);
}
}
......
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