On Tue, Oct 14, 2025 at 03:45:39PM +0200, Gabriele Monaco wrote: > On Tue, 2025-10-14 at 14:51 +0200, Thomas Weißschuh wrote: > > I can't follow here. lockdep can indicate problems, but it should not > > introduce > > problems on its own. So preventing the usage together with lockdep would be > > the > > proverbial head in the sand. If the tracepoints called by lockdep are an > > issue > > then we would just not call into lockdep in the first place. lockdep > > triggering > > these tracepoints should not be an issue in practice. I don't see a > > bulletproof > > way to prevent a tracepoint handler from calling another tracepoint, except > > maybe extending lockdep to also track that. > > Forget about it, you're right. This leads to not using lockdep inside reactors > in the first place. We could even have notrace versions of the lockdep calls > (I'm not sure lockdep itself needs them), but that's getting horrid.
I still don't understand why the tracepoints called from lockdep are worse then the ones called from the reactors themselves? Any solution should also apply to those. Especially as even the simplest printk reactor runs into the same issue. > Leaving for a moment concurrency quirks aside, a monitor that is reacting > should > be done for a while and can be marked as not monitoring before reacting, > instead > of after. > Trace handlers triggered in the same tracepoints should, in principle, be able > to tell they are not supposed to run. This at least stands for DA monitors, > but > the same idea could work on LTL as well. > > Of course this gets more complicated in practice, but perhaps suspending > monitors during reaction can be enough to allow these lockdep calls without > risking infinite loops. What would it mean to suspend a monitor? In my opinion we shouldn't sacrifice the accuracy of the monitors or the reliability of the reactors while trying to mitigate a theoretical problem. Thomas
