On Fri, Oct 18, 2019 at 08:17:44AM +0800, Qu Wenruo wrote: > > + * Required semantics: > > + * > > + * - reader/writer exclusion > > + * - writer/writer exclusion > > + * - reader/reader sharing > > + * - spinning lock semantics > > + * - blocking lock semantics > > + * - try-lock semantics for readers and writers > > + * - one level nesting, allowing read lock to be taken by the same thread > > that > > + * already has write lock > > Any example about this scenario? IIRC there is only one user of nested lock. > Although we know it exists for a long time, I guess it would be better > trying to remove such call sites?
It could make a few things easier on the locking side, but I don't know how much intrusive it would be in the scenario where it happens. The stacktrace is quite long so some sort of propagation of the locked context would have to happen. > > > + * > > + * The extent buffer locks (also called tree locks) manage access to eb > > data. > > One of my concern related to "access to eb data" is, to access some > member, we don't really need any lock at all. > > Some members should never change during the lifespan of an eb. E.g. > bytenr, transid. Ok, so the paragraph can be more specific that the locking concerns the b-tree data, ie. item keys and the corresponding item data. > Some code is already taking advantage of this, like tree-checker > checking the transid without holding a lock. > Not sure if we should take use of this. > > > + * We want concurrency of many readers and safe updates. The underlying > > locking > > + * is done by read-write spinlock and the blocking part is implemented > > using > > + * counters and wait queues. > > + * > > + * spinning semantics - the low-level rwlock is held so all other threads > > that > > + * want to take it are spinning on it. > > + * > > + * blocking semantics - the low-level rwlock is not held but the counter > > + * denotes how many times the blocking lock was held; > > + * sleeping is possible > > What about an example/state machine of all read/write and > spinning/blocking combination? The sate machine is really trivial, either use just the spinning locks or at some point do set lock blocking and unblock/unlock at the end. The main difference is whether the rwlock is held or not. A few more words about that are in https://github.com/btrfs/btrfs-dev-docs/blob/master/extent-buffer-locking.txt
