On Thu, Feb 02, 2012 at 08:07:51PM -0800, Josh Triplett wrote: > On Thu, Feb 02, 2012 at 09:13:42AM -0800, Paul E. McKenney wrote: > > On Wed, Feb 01, 2012 at 06:03:56PM -0800, Josh Triplett wrote: > > > On Wed, Feb 01, 2012 at 11:41:32AM -0800, Paul E. McKenney wrote: > > > > Currently, a given CPU is permitted to remain in dyntick-idle mode > > > > indefinitely if it has only lazy RCU callbacks queued. This is vulnerable > > > > to corner cases in NUMA systems, so limit the time to six seconds by > > > > default. (Currently controlled by a cpp macro.) > > > > > > I wonder: should this scale with the number of callbacks, or do we not > > > want to make estimates about memory usage based on that? > > > > Interesting. Which way would you scale it? ;-) > > Heh, I'd figured "don't wait too long if you have a giant pile of > callbacks", but I can see how the other direction could make sense as > well. :) ;-) > > > Interestingly, with kfree_rcu, we actually know at callback queuing time > > > *exactly* how much memory we'll get back by calling the callback, and we > > > could sum up those numbers. > > > > We can indeed calculate for kfree_rcu(), but we won't be able to for > > call_rcu_lazy(), which is my current approach for cases where you cannot > > use kfree_rcu() due to (for example) freeing up a linked structure. > > A very large fraction of the call_rcu()s in the kernel could become > > call_rcu_lazy(). > > So, doing anything other than freeing memory makes a callback non-lazy? > Based on that, I'd find it at least somewhat surprising if any of the > current callers of call_rcu (other than synchronize_rcu() and similar) > had non-lazy callbacks. Yep! But the caller has to tell me. Something like 90% of the call_rcu()s could be call_rcu_lazy(), but there are a significant number that wake someone up, manipulate a reference counter that someone else is paying attention to, etc. > > At some point in the future, it might make sense to tie into the > > low-memory notifier, which could potentially allow the longer timeout > > to be omitted. > > Exactly the kind of thing that made me wonder about tracking the actual > amount of memory to free. Still seems like a potentially useful > statistic to track on its own. There is the qlen statistic in the debugfs tracing, tracked on a per-CPU basis. But unless it is kfree_rcu(), I have no way to tell how much memory a given callback frees. > > My current guess is that the recent change allowing idle CPUs to > > exhaust their callback lists will make this kind of fine-tuning > > unnecessary, but we will see! > > Good point; given that fix, idle CPUs should never need to wake up for > callbacks at all. Here is hoping! ;-) Thanx, Paul -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majordomo@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/