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Subjectdeadlock due to circular dependency between threads
Hi all,

I am working on a platform, which is using the Linux version 4.4. I have
observed a DEADLOCK between couple of threads and looking for
suggestions/comments.
Here is my understanding from the call stacks of these blocked tasks.

0) CPU3 is getting hot plugged from a kthread and which is running on
core5.
1) Cpu hot plug flow needs to flush the work items on hot plugging CPU3,
with a high priority worker from the corresponding CPU’s(cpu3) worker
pool.
2) There are no high priority workers on the CPU3 worker pool, so
create_worker was initiated to create high priority kernel
thread/worker.
3) This thread creation should be done by kthreadd demon, but kthreadd
demon have got stuck in some other thread creation. At this point of
time kthreadd creating a thread and updating cgroup settings and waiting
on rw semaphore of cgroup subsystem.
4) Cgroup readwrite semaphore is taken by "init" thread and waiting on
cpuset mutex lock. init task is updating cgroup's based on userspace
request.
5) Cpuset mutex lock is taken by "kworker:5/1" and it is waiting for
cpuhotplug lock.
Cpuhotplug mutex is taken by "ABC_XYZ" hotplugging thread. DEADLOCK!!!!!

circular dependency between threads:-
"kthread_XYZ" ==> "kthreadd" ==> "init" ==> "kworker/5:1" ==>
"kthread_XYZ"


PID: 910 TASK: ffffffc0ee8dd780 CPU: 5 COMMAND: "ABC_XYZ"
#0 [ffffffc0ee9cb900] __switch_to at ffffff800808553c
#1 [ffffffc0ee9cb930] __schedule at ffffff8008d76aa0
#2 [ffffffc0ee9cb990] schedule at ffffff8008d76e04
#3 [ffffffc0ee9cb9b0] schedule_timeout at ffffff8008d7953c
#4 [ffffffc0ee9cba60] wait_for_common at ffffff8008d77888
#5 [ffffffc0ee9cbaf0] wait_for_completion at ffffff8008d778dc
#6 [ffffffc0ee9cbb00] flush_work at ffffff80080b3850
#7 [ffffffc0ee9cbb80] workqueue_cpu_down_callback at ffffff80080b5360
#8 [ffffffc0ee9cbbc0] notifier_call_chain at ffffff80080b9c4c
#9 [ffffffc0ee9cbc00] __raw_notifier_call_chain at ffffff80080b9cb8
#10 [ffffffc0ee9cbc10] __cpu_notify at ffffff800809eb50
#11 [ffffffc0ee9cbc20] _cpu_down at ffffff800809ee84
#12 [ffffffc0ee9cbca0] cpu_down at ffffff800809f124
#13 [ffffffc0ee9cbcd0] cpu_subsys_offline at ffffff800856b768
#14 [ffffffc0ee9cbce0] device_offline at ffffff8008567040
#15 [ffffffc0ee9cbd10] update_offline_cores at ffffff8008d74b54
#16 [ffffffc0ee9cbda0] do_hotplug at ffffff8008d75358
#17 [ffffffc0ee9cbe20] kthread at ffffff80080b8e3c



PID: 2 TASK: ffffffc0f9660c80 CPU: 4 COMMAND: "kthreadd"
#0 [ffffffc0f9683bf0] __switch_to at ffffff800808553c
#1 [ffffffc0f9683c20] __schedule at ffffff8008d76aa0
#2 [ffffffc0f9683c80] schedule at ffffff8008d76e04
#3 [ffffffc0f9683ca0] rwsem_down_read_failed at ffffff8008d79144
#4 [ffffffc0f9683cf0] __percpu_down_read at ffffff80080edc4c
#5 [ffffffc0f9683d10] copy_process at ffffff800809cecc
#6 [ffffffc0f9683df0] _do_fork at ffffff800809d5a0
#7 [ffffffc0f9683e50] kernel_thread at ffffff800809d89c
#8 [ffffffc0f9683e60] kthreadd at ffffff80080b9714


PID: 898 TASK: ffffffc0ee910000 CPU: 0 COMMAND: "init"
#0 [ffffffc06fd93980] __switch_to at ffffff800808553c
#1 [ffffffc06fd939b0] __schedule at ffffff8008d76aa0
#2 [ffffffc06fd93a10] schedule at ffffff8008d76e04
#3 [ffffffc06fd93a30] schedule_preempt_disabled at ffffff8008d7714c
#4 [ffffffc06fd93a50] __mutex_lock_slowpath at ffffff8008d78684
#5 [ffffffc06fd93ab0] mutex_lock at ffffff8008d78714
#6 [ffffffc06fd93ad0] cpuset_can_attach at ffffff800812d490
#7 [ffffffc06fd93b20] cgroup_taskset_migrate at ffffff8008129194
#8 [ffffffc06fd93b70] cgroup_migrate at ffffff8008129454
#9 [ffffffc06fd93bf0] cgroup_attach_task at ffffff800812950c
#10 [ffffffc06fd93c50] __cgroup_procs_write at ffffff8008129884
#11 [ffffffc06fd93d10] cgroup_tasks_write at ffffff800812993c
#12 [ffffffc06fd93d20] cgroup_file_write at ffffff8008125078
#13 [ffffffc06fd93d70] kernfs_fop_write at ffffff800820bef4
#14 [ffffffc06fd93db0] __vfs_write at ffffff80081ac6f4
#15 [ffffffc06fd93e30] vfs_write at ffffff80081acf28
#16 [ffffffc06fd93e70] sys_write at ffffff80081ad6d8
#17 [ffffffc06fd93ed0] el0_svc_naked at ffffff800808462



PID: 66 TASK: ffffffc020dc7080 CPU: 5 COMMAND: "kworker/5:1"
#0 [ffffffc0f7ff3a90] __switch_to at ffffff800808553c
#1 [ffffffc0f7ff3ac0] __schedule at ffffff8008d76aa0
#2 [ffffffc0f7ff3b20] schedule at ffffff8008d76e04
#3 [ffffffc0f7ff3b40] schedule_preempt_disabled at ffffff8008d7714c
#4 [ffffffc0f7ff3b60] __mutex_lock_slowpath at ffffff8008d78684
#5 [ffffffc0f7ff3bc0] mutex_lock at ffffff8008d78714
#6 [ffffffc0f7ff3be0] get_online_cpus at ffffff800809e9bc
#7 [ffffffc0f7ff3c00] rebuild_sched_domains_locked at ffffff800812c960
#8 [ffffffc0f7ff3cb0] rebuild_sched_domains at ffffff800812e7bc
#9 [ffffffc0f7ff3cd0] cpuset_hotplug_workfn at ffffff800812eca8
#10 [ffffffc0f7ff3d70] process_one_work at ffffff80080b3cec
#11 [ffffffc0f7ff3dc0] worker_thread at ffffff80080b4700
#12 [ffffffc0f7ff3e20] kthread at ffffff80080b8e3c

I think, we can avoid this DEADLOCK with following sequence change.
Currently "kworker/5:1" thread which is executing the
cpuset_hotplug_workfn work function and this work item is queued as part
of hotplug notifier.
Can we change the cpuset_hotplug_workfn to take cpuhotplug mutex lock
first and then cpuset_mutex later?

I am testing with below change to reorder of these locks to avoid dead
locks and looking for suggestions/inputs.

diff --git a/kernel/cpuset.c b/kernel/cpuset.c
index 29c7240..c3cde38 100644
--- a/kernel/cpuset.c
+++ b/kernel/cpuset.c
@@ -846,6 +846,22 @@ void rebuild_sched_domains(void)
mutex_unlock(&cpuset_mutex);
}

+void rebuild_sched_domains_unlocked(void)
+{
+ struct sched_domain_attr *attr;
+ cpumask_var_t *doms;
+ int ndoms;
+
+ if (!cpumask_equal(top_cpuset.effective_cpus, cpu_active_mask))
+ return;
+
+ /* Generate domain masks and attrs */
+ ndoms = generate_sched_domains(&doms, &attr);
+
+ /* Have scheduler rebuild the domains */
+ partition_sched_domains(ndoms, doms, attr);
+}
+
/**
* update_tasks_cpumask - Update the cpumasks of tasks in the cpuset.
* @cs: the cpuset in which each task's cpus_allowed mask needs to be
changed
@@ -2316,6 +2332,7 @@ static void cpuset_hotplug_workfn(struct
work_struct *work)
bool cpus_updated, mems_updated;
bool on_dfl = cgroup_subsys_on_dfl(cpuset_cgrp_subsys);

+ get_online_cpus();
mutex_lock(&cpuset_mutex);

/* fetch the available cpus/mems and find out which changed how
*/
@@ -2366,9 +2383,13 @@ static void cpuset_hotplug_workfn(struct
work_struct *work)
rcu_read_unlock();
}

+ mutex_lock(&cpuset_mutex);
/* rebuild sched domains if cpus_allowed has changed */
if (cpus_updated)
- rebuild_sched_domains();
+ rebuild_sched_domains_unlocked();
+
+ mutex_unlock(&cpuset_mutex);
+ put_online_cpus();
}


-Thanks, Prasad
--
The Qualcomm Innovation Center, Inc. is a member of the Code Aurora
Forum,
Linux Foundation Collaborative Project
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