> > + if (cpus_equal(*cpus, t->cpus_allowed)) > > + continue; > > ... > > + for (q = tasks; q < p; q++) { > > + set_cpus_allowed(*q, *cpus); > > + put_task_struct(*q); > > + } > > + } > > +} > > Yet by not doing any locking here to prevent a cpu from being > hot-unplugged, you can race and allow the hot-unplug event to happen > before calling set_cpus_allowed(). That makes this entire function a > no-op with set_cpus_allowed() returning -EINVAL for every call, which > isn't caught, and no error is reported to userspace. > > Now all the tasks in the cpuset have an inconsistent state with respect to > their p->cpuset->cpus_allowed, because that was already updated in > update_cpumask(). My solution may be worse than that. Because set_cpus_allowed() will fail if asked to set a non-overlapping cpumask, my solution could never terminate. If asked to set a cpusets cpus to something that went off line right then, this I'd guess this code could keep looping forever, looking for cpumasks that didn't match, and then not noticing that it was failing to set them so as they would match. ... it needs work ... or the alternative solution from Paul M. -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <pj@xxxxxxx> 1.925.600.0401 _______________________________________________ Containers mailing list Containers@xxxxxxxxxxxxxxxxxxxxxxxxxx https://lists.linux-foundation.org/mailman/listinfo/containers