Am 22.03.2024 um 10:50 hat Fiona Ebner geschrieben: > The old_bs variable in bdrv_next() is currently determined by looking > at the old block backend. However, if the block graph changes before > the next bdrv_next() call, it might be that the associated BDS is not > the same that was referenced previously. In that case, the wrong BDS > is unreferenced, leading to an assertion failure later: > > > bdrv_unref: Assertion `bs->refcnt > 0' failed.
Your change makes sense, but in theory it shouldn't make a difference. The real bug is in the caller, you can't allow graph modifications while iterating the list of nodes. Even if it doesn't crash (like after your patch), you don't have any guarantee that you will have seen every node that exists that the end - and maybe not even that you don't get the same node twice. > In particular, this can happen in the context of bdrv_flush_all(), > when polling for bdrv_co_flush() in the generated co-wrapper leads to > a graph change (for example with a stream block job [0]). The whole locking around this case is a bit tricky and would deserve some cleanup. The basic rule for bdrv_next() callers is that they need to hold the graph reader lock as long as they are iterating the graph, otherwise it's not safe. This implies that the ref/unref pairs in it should never make a difference either - which is important, because at least releasing the last reference is forbidden while holding the graph lock. I intended to remove the ref/unref for bdrv_next(), but I didn't because I realised that the callers need to be audited first that they really obey the rules. You found one that would be problematic. The thing that bdrv_flush_all() gets wrong is that it promises to follow the graph lock rules with GRAPH_RDLOCK_GUARD_MAINLOOP(), but then calls something that polls. The compiler can't catch this because bdrv_flush() is a co_wrapper_mixed_bdrv_rdlock. The behaviour for these functions is: - If called outside of coroutine context, they are GRAPH_UNLOCKED - If called in coroutine context, they are GRAPH_RDLOCK We should probably try harder to get rid of the mixed functions, because a synchronous co_wrapper_bdrv_rdlock could actually be marked GRAPH_UNLOCKED in the code and then the compiler could catch this case. The fix for bdrv_flush_all() is probably to make it bdrv_co_flush_all() with a coroutine wrapper so that the graph lock is held for the whole function. Then calling bdrv_co_flush() while iterating the list is safe and doesn't allow concurrent graph modifications. Kevin