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SubjectRe: [PATCH] cpufreq: Avoid leaving stale IRQ work items during CPU offline
On 11-12-19, 11:28, Rafael J. Wysocki wrote:
> From: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
>
> The scheduler code calling cpufreq_update_util() may run during CPU
> offline on the target CPU after the IRQ work lists have been flushed
> for it, so the target CPU should be prevented from running code that
> may queue up an IRQ work item on it at that point.
>
> Unfortunately, that may not be the case if dvfs_possible_from_any_cpu
> is set for at least one cpufreq policy in the system, because that
> allows the CPU going offline to run the utilization update callback
> of the cpufreq governor on behalf of another (online) CPU in some
> cases.
>
> If that happens, the cpufreq governor callback may queue up an IRQ
> work on the CPU running it, which is going offline, and the IRQ work
> will not be flushed after that point. Moreover, that IRQ work cannot
> be flushed until the "offlining" CPU goes back online, so if any
> other CPU calls irq_work_sync() to wait for the completion of that
> IRQ work, it will have to wait until the "offlining" CPU is back
> online and that may not happen forever. In particular, a system-wide
> deadlock may occur during CPU online as a result of that.
>
> The failing scenario is as follows. CPU0 is the boot CPU, so it
> creates a cpufreq policy and becomes the "leader" of it
> (policy->cpu). It cannot go offline, because it is the boot CPU.
> Next, other CPUs join the cpufreq policy as they go online and they
> leave it when they go offline. The last CPU to go offline, say CPU3,
> may queue up an IRQ work while running the governor callback on
> behalf of CPU0 after leaving the cpufreq policy because of the
> dvfs_possible_from_any_cpu effect described above. Then, CPU0 is
> the only online CPU in the system and the stale IRQ work is still
> queued on CPU3. When, say, CPU1 goes back online, it will run
> irq_work_sync() to wait for that IRQ work to complete and so it
> will wait for CPU3 to go back online (which may never happen even
> in principle), but (worse yet) CPU0 is waiting for CPU1 at that
> point too and a system-wide deadlock occurs.
>
> To address this problem notice that CPUs which cannot run cpufreq
> utilization update code for themselves (for example, because they
> have left the cpufreq policies that they belonged to), should also
> be prevented from running that code on behalf of the other CPUs that
> belong to a cpufreq policy with dvfs_possible_from_any_cpu set and so
> in that case the cpufreq_update_util_data pointer of the CPU running
> the code must not be NULL as well as for the CPU which is the target
> of the cpufreq utilization update in progress.
>
> Accordingly, change cpufreq_this_cpu_can_update() into a regular
> function in kernel/sched/cpufreq.c (instead of a static inline in a
> header file) and make it check the cpufreq_update_util_data pointer
> of the local CPU if dvfs_possible_from_any_cpu is set for the target
> cpufreq policy.
>
> Also update the schedutil governor to do the
> cpufreq_this_cpu_can_update() check in the non-fast-switch
> case too to avoid the stale IRQ work issues.
>
> Fixes: 99d14d0e16fa ("cpufreq: Process remote callbacks from any CPU if the platform permits")
> Link: https://lore.kernel.org/linux-pm/20191121093557.bycvdo4xyinbc5cb@vireshk-i7/
> Reported-by: Anson Huang <anson.huang@nxp.com>
> Cc: 4.14+ <stable@vger.kernel.org> # 4.14+
> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>

Acked-by: Viresh Kumar <viresh.kumar@linaro.org>

--
viresh

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