Re: [rcu] [ INFO: suspicious RCU usage. ]
From: Paul E. McKenney
Date: Tue Feb 03 2015 - 11:27:28 EST
On Tue, Feb 03, 2015 at 11:01:42AM +0100, Krzysztof Kozlowski wrote:
> On sob, 2015-01-31 at 18:59 -0800, Fengguang Wu wrote:
> > Greetings,
> >
> > 0day kernel testing robot got the below dmesg and the first bad commit is
> >
> > git://git.kernel.org/pub/scm/linux/kernel/git/paulmck/linux-rcu.git revert-c418b8035fac0cc7d242e5de126cec1006a34bed-dd2b39be8eee9d175c7842c30e405a5cbe50095a
>
> On next-20150203 I hit similar error on ARM/Exynos4412 (Trats2 board)
> while suspending to RAM:
Yep, you are not supposed to be using RCU on offline CPUs, and RCU recently
got more picky about that. This could cause failures in any environment
where CPUs could get delayed by more than one jiffy, which includes pretty
much all virtualized environements.
> [ 30.986262] PM: Syncing filesystems ... done.
> [ 30.994661] PM: Preparing system for mem sleep
> [ 31.002064] Freezing user space processes ... (elapsed 0.002 seconds) done.
> [ 31.008629] Freezing remaining freezable tasks ... (elapsed 0.001 seconds) done.
> [ 31.016325] PM: Entering mem sleep
> [ 31.016338] Suspending console(s) (use no_console_suspend to debug)
> [ 31.051009] random: nonblocking pool is initialized
> [ 31.085811] wake enabled for irq 102
> [ 31.086964] wake enabled for irq 123
> [ 31.086972] wake enabled for irq 124
> [ 31.090409] PM: suspend of devices complete after 59.684 msecs
> [ 31.090524] CAM_ISP_CORE_1.2V: No configuration
> [ 31.090534] VMEM_VDDF_3.0V: No configuration
> [ 31.090543] VCC_SUB_2.0V: No configuration
> [ 31.090552] VCC_SUB_1.35V: No configuration
> [ 31.090562] VMEM_1.2V_AP: No configuration
> [ 31.090587] MOTOR_VCC_3.0V: No configuration
> [ 31.090596] LCD_VCC_3.3V: No configuration
> [ 31.090605] TSP_VDD_1.8V: No configuration
> [ 31.090614] TSP_AVDD_3.3V: No configuration
> [ 31.090623] VMEM_VDD_2.8V: No configuration
> [ 31.090631] VTF_2.8V: No configuration
> [ 31.090640] VDDQ_PRE_1.8V: No configuration
> [ 31.090649] VT_CAM_1.8V: No configuration
> [ 31.090658] CAM_ISP_SEN_IO_1.8V: No configuration
> [ 31.090667] CAM_SENSOR_CORE_1.2V: No configuration
> [ 31.090677] VHSIC_1.8V: No configuration
> [ 31.090685] VHSIC_1.0V: No configuration
> [ 31.090694] VABB2_1.95V: No configuration
> [ 31.090703] NFC_AVDD_1.8V: No configuration
> [ 31.090712] VUOTG_3.0V: No configuration
> [ 31.090721] VABB1_1.95V: No configuration
> [ 31.090730] VMIPI_1.8V: No configuration
> [ 31.090739] CAM_ISP_MIPI_1.2V: No configuration
> [ 31.090747] VMIPI_1.0V: No configuration
> [ 31.090756] VPLL_1.0V_AP: No configuration
> [ 31.090765] VMPLL_1.0V_AP: No configuration
> [ 31.090773] VCC_1.8V_IO: No configuration
> [ 31.090782] VCC_2.8V_AP: No configuration
> [ 31.090791] VCC_1.8V_AP: No configuration
> [ 31.090800] VM1M2_1.2V_AP: No configuration
> [ 31.090809] VALIVE_1.0V_AP: No configuration
> [ 31.100297] PM: late suspend of devices complete after 9.445 msecs
> [ 31.108891] PM: noirq suspend of devices complete after 8.577 msecs
> [ 31.109052] Disabling non-boot CPUs ...
> [ 31.113921]
> [ 31.113925] ===============================
> [ 31.113928] [ INFO: suspicious RCU usage. ]
> [ 31.113935] 3.19.0-rc7-next-20150203 #1914 Not tainted
> [ 31.113938] -------------------------------
> [ 31.113943] kernel/sched/fair.c:4740 suspicious rcu_dereference_check() usage!
> [ 31.113946]
> [ 31.113946] other info that might help us debug this:
> [ 31.113946]
> [ 31.113952]
> [ 31.113952] RCU used illegally from offline CPU!
> [ 31.113952] rcu_scheduler_active = 1, debug_locks = 0
> [ 31.113957] 3 locks held by swapper/1/0:
> [ 31.113988] #0: ((cpu_died).wait.lock){......}, at: [<c005a114>] complete+0x14/0x44
> [ 31.114012] #1: (&p->pi_lock){-.-.-.}, at: [<c004a790>] try_to_wake_up+0x28/0x300
> [ 31.114035] #2: (rcu_read_lock){......}, at: [<c004f1b8>] select_task_rq_fair+0x5c/0xa04
> [ 31.114038]
> [ 31.114038] stack backtrace:
> [ 31.114046] CPU: 1 PID: 0 Comm: swapper/1 Not tainted 3.19.0-rc7-next-20150203 #1914
> [ 31.114050] Hardware name: SAMSUNG EXYNOS (Flattened Device Tree)
> [ 31.114076] [<c0014ce4>] (unwind_backtrace) from [<c0011c30>] (show_stack+0x10/0x14)
> [ 31.114091] [<c0011c30>] (show_stack) from [<c04dc048>] (dump_stack+0x70/0xbc)
> [ 31.114105] [<c04dc048>] (dump_stack) from [<c004f83c>] (select_task_rq_fair+0x6e0/0xa04)
> [ 31.114118] [<c004f83c>] (select_task_rq_fair) from [<c004a83c>] (try_to_wake_up+0xd4/0x300)
> [ 31.114129] [<c004a83c>] (try_to_wake_up) from [<c00598a0>] (__wake_up_common+0x4c/0x80)
> [ 31.114140] [<c00598a0>] (__wake_up_common) from [<c00598e8>] (__wake_up_locked+0x14/0x1c)
> [ 31.114150] [<c00598e8>] (__wake_up_locked) from [<c005a134>] (complete+0x34/0x44)
> [ 31.114167] [<c005a134>] (complete) from [<c04d6ca4>] (cpu_die+0x24/0x84)
> [ 31.114179] [<c04d6ca4>] (cpu_die) from [<c005a508>] (cpu_startup_entry+0x328/0x358)
And so you no longer get to invoke complete() from the CPU going offline
out of the idle loop.
How would you like to handle this? One approach would be to make __cpu_die()
poll with appropriate duty cycle. Or is there some ARM-specific approach
that could work here?
Another thing I could do would be to have an arch-specific Kconfig
variable that made ARM responsible for informing RCU that the CPU
was departing, which would allow a call to as follows to be placed
immediately after the complete():
rcu_cpu_notify(NULL, CPU_DYING_IDLE, (void *)(long)smp_processor_id());
Note: This absolutely requires that the rcu_cpu_notify() -always-
be allowed to execute!!! This will not work if there is -any- possibility
of __cpu_die() powering off the outgoing CPU before the call to
rcu_cpu_notify() returns.
Thoughts?
Thanx, Paul
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