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diff --git a/Documentation/trace/timerlat-tracer.rst b/Documentation/trace/timerlat-tracer.rst new file mode 100644 index 000000000000..c7cbb557aee7 --- /dev/null +++ b/Documentation/trace/timerlat-tracer.rst @@ -0,0 +1,181 @@ +############### +Timerlat tracer +############### + +The timerlat tracer aims to help the preemptive kernel developers to +find souces of wakeup latencies of real-time threads. Like cyclictest, +the tracer sets a periodic timer that wakes up a thread. The thread then +computes a *wakeup latency* value as the difference between the *current +time* and the *absolute time* that the timer was set to expire. The main +goal of timerlat is tracing in such a way to help kernel developers. + +Usage +----- + +Write the ASCII text "timerlat" into the current_tracer file of the +tracing system (generally mounted at /sys/kernel/tracing). + +For example:: + + [root@f32 ~]# cd /sys/kernel/tracing/ + [root@f32 tracing]# echo timerlat > current_tracer + +It is possible to follow the trace by reading the trace trace file:: + + [root@f32 tracing]# cat trace + # tracer: timerlat + # + # _-----=> irqs-off + # / _----=> need-resched + # | / _---=> hardirq/softirq + # || / _--=> preempt-depth + # || / + # |||| ACTIVATION + # TASK-PID CPU# |||| TIMESTAMP ID CONTEXT LATENCY + # | | | |||| | | | | + <idle>-0 [000] d.h1 54.029328: #1 context irq timer_latency 932 ns + <...>-867 [000] .... 54.029339: #1 context thread timer_latency 11700 ns + <idle>-0 [001] dNh1 54.029346: #1 context irq timer_latency 2833 ns + <...>-868 [001] .... 54.029353: #1 context thread timer_latency 9820 ns + <idle>-0 [000] d.h1 54.030328: #2 context irq timer_latency 769 ns + <...>-867 [000] .... 54.030330: #2 context thread timer_latency 3070 ns + <idle>-0 [001] d.h1 54.030344: #2 context irq timer_latency 935 ns + <...>-868 [001] .... 54.030347: #2 context thread timer_latency 4351 ns + + +The tracer creates a per-cpu kernel thread with real-time priority that +prints two lines at every activation. The first is the *timer latency* +observed at the *hardirq* context before the activation of the thread. +The second is the *timer latency* observed by the thread. The ACTIVATION +ID field serves to relate the *irq* execution to its respective *thread* +execution. + +The *irq*/*thread* splitting is important to clarify at which context +the unexpected high value is coming from. The *irq* context can be +delayed by hardware related actions, such as SMIs, NMIs, IRQs +or by a thread masking interrupts. Once the timer happens, the delay +can also be influenced by blocking caused by threads. For example, by +postponing the scheduler execution via preempt_disable(), by the +scheduler execution, or by masking interrupts. Threads can +also be delayed by the interference from other threads and IRQs. + +Tracer options +--------------------- + +The timerlat tracer is built on top of osnoise tracer. +So its configuration is also done in the osnoise/ config +directory. The timerlat configs are: + + - cpus: CPUs at which a timerlat thread will execute. + - timerlat_period_us: the period of the timerlat thread. + - osnoise/stop_tracing_us: stop the system tracing if a + timer latency at the *irq* context higher than the configured + value happens. Writing 0 disables this option. + - stop_tracing_total_us: stop the system tracing if a + timer latency at the *thread* context higher than the configured + value happens. Writing 0 disables this option. + - print_stack: save the stack of the IRQ ocurrence, and print + it afte the *thread context* event". + +timerlat and osnoise +---------------------------- + +The timerlat can also take advantage of the osnoise: traceevents. +For example:: + + [root@f32 ~]# cd /sys/kernel/tracing/ + [root@f32 tracing]# echo timerlat > current_tracer + [root@f32 tracing]# echo 1 > events/osnoise/enable + [root@f32 tracing]# echo 25 > osnoise/stop_tracing_total_us + [root@f32 tracing]# tail -10 trace + cc1-87882 [005] d..h... 548.771078: #402268 context irq timer_latency 13585 ns + cc1-87882 [005] dNLh1.. 548.771082: irq_noise: local_timer:236 start 548.771077442 duration 7597 ns + cc1-87882 [005] dNLh2.. 548.771099: irq_noise: qxl:21 start 548.771085017 duration 7139 ns + cc1-87882 [005] d...3.. 548.771102: thread_noise: cc1:87882 start 548.771078243 duration 9909 ns + timerlat/5-1035 [005] ....... 548.771104: #402268 context thread timer_latency 39960 ns + +In this case, the root cause of the timer latency does not point to a +single cause, but to multiple ones. Firstly, the timer IRQ was delayed +for 13 us, which may point to a long IRQ disabled section (see IRQ +stacktrace section). Then the timer interrupt that wakes up the timerlat +thread took 7597 ns, and the qxl:21 device IRQ took 7139 ns. Finally, +the cc1 thread noise took 9909 ns of time before the context switch. +Such pieces of evidence are useful for the developer to use other +tracing methods to figure out how to debug and optimize the system. + +It is worth mentioning that the *duration* values reported +by the osnoise: events are *net* values. For example, the +thread_noise does not include the duration of the overhead caused +by the IRQ execution (which indeed accounted for 12736 ns). But +the values reported by the timerlat tracer (timerlat_latency) +are *gross* values. + +The art below illustrates a CPU timeline and how the timerlat tracer +observes it at the top and the osnoise: events at the bottom. Each "-" +in the timelines means circa 1 us, and the time moves ==>:: + + External timer irq thread + clock latency latency + event 13585 ns 39960 ns + | ^ ^ + v | | + |-------------| | + |-------------+-------------------------| + ^ ^ + ======================================================================== + [tmr irq] [dev irq] + [another thread...^ v..^ v.......][timerlat/ thread] <-- CPU timeline + ========================================================================= + |-------| |-------| + |--^ v-------| + | | | + | | + thread_noise: 9909 ns + | +-> irq_noise: 6139 ns + +-> irq_noise: 7597 ns + +IRQ stacktrace +--------------------------- + +The osnoise/print_stack option is helpful for the cases in which a thread +noise causes the major factor for the timer latency, because of preempt or +irq disabled. For example:: + + [root@f32 tracing]# echo 500 > osnoise/stop_tracing_total_us + [root@f32 tracing]# echo 500 > osnoise/print_stack + [root@f32 tracing]# echo timerlat > current_tracer + [root@f32 tracing]# tail -21 per_cpu/cpu7/trace + insmod-1026 [007] dN.h1.. 200.201948: irq_noise: local_timer:236 start 200.201939376 duration 7872 ns + insmod-1026 [007] d..h1.. 200.202587: #29800 context irq timer_latency 1616 ns + insmod-1026 [007] dN.h2.. 200.202598: irq_noise: local_timer:236 start 200.202586162 duration 11855 ns + insmod-1026 [007] dN.h3.. 200.202947: irq_noise: local_timer:236 start 200.202939174 duration 7318 ns + insmod-1026 [007] d...3.. 200.203444: thread_noise: insmod:1026 start 200.202586933 duration 838681 ns + timerlat/7-1001 [007] ....... 200.203445: #29800 context thread timer_latency 859978 ns + timerlat/7-1001 [007] ....1.. 200.203446: <stack trace> + => timerlat_irq + => __hrtimer_run_queues + => hrtimer_interrupt + => __sysvec_apic_timer_interrupt + => asm_call_irq_on_stack + => sysvec_apic_timer_interrupt + => asm_sysvec_apic_timer_interrupt + => delay_tsc + => dummy_load_1ms_pd_init + => do_one_initcall + => do_init_module + => __do_sys_finit_module + => do_syscall_64 + => entry_SYSCALL_64_after_hwframe + +In this case, it is possible to see that the thread added the highest +contribution to the *timer latency* and the stack trace, saved during +the timerlat IRQ handler, points to a function named +dummy_load_1ms_pd_init, which had the following code (on purpose):: + + static int __init dummy_load_1ms_pd_init(void) + { + preempt_disable(); + mdelay(1); + preempt_enable(); + return 0; + + } |