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Linux/Documentation/trace/timerlat-tracer.rst

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Diff markup

Differences between /Documentation/trace/timerlat-tracer.rst (Version linux-6.12-rc7) and /Documentation/trace/timerlat-tracer.rst (Version linux-4.14.336)


  1 ###############                                   
  2 Timerlat tracer                                   
  3 ###############                                   
  4                                                   
  5 The timerlat tracer aims to help the preemptiv    
  6 find sources of wakeup latencies of real-time     
  7 the tracer sets a periodic timer that wakes up    
  8 computes a *wakeup latency* value as the diffe    
  9 time* and the *absolute time* that the timer w    
 10 goal of timerlat is tracing in such a way to h    
 11                                                   
 12 Usage                                             
 13 -----                                             
 14                                                   
 15 Write the ASCII text "timerlat" into the curre    
 16 tracing system (generally mounted at /sys/kern    
 17                                                   
 18 For example::                                     
 19                                                   
 20         [root@f32 ~]# cd /sys/kernel/tracing/     
 21         [root@f32 tracing]# echo timerlat > cu    
 22                                                   
 23 It is possible to follow the trace by reading     
 24                                                   
 25   [root@f32 tracing]# cat trace                   
 26   # tracer: timerlat                              
 27   #                                               
 28   #                              _-----=> irqs    
 29   #                             / _----=> need    
 30   #                            | / _---=> hard    
 31   #                            || / _--=> pree    
 32   #                            || /               
 33   #                            ||||               
 34   #         TASK-PID      CPU# ||||   TIMESTAM    
 35   #            | |         |   ||||      |        
 36           <idle>-0       [000] d.h1    54.0293    
 37            <...>-867     [000] ....    54.0293    
 38           <idle>-0       [001] dNh1    54.0293    
 39            <...>-868     [001] ....    54.0293    
 40           <idle>-0       [000] d.h1    54.0303    
 41            <...>-867     [000] ....    54.0303    
 42           <idle>-0       [001] d.h1    54.0303    
 43            <...>-868     [001] ....    54.0303    
 44                                                   
 45                                                   
 46 The tracer creates a per-cpu kernel thread wit    
 47 prints two lines at every activation. The firs    
 48 observed at the *hardirq* context before the a    
 49 The second is the *timer latency* observed by     
 50 ID field serves to relate the *irq* execution     
 51 execution.                                        
 52                                                   
 53 The *irq*/*thread* splitting is important to c    
 54 the unexpected high value is coming from. The     
 55 delayed by hardware-related actions, such as S    
 56 or by thread masking interrupts. Once the time    
 57 can also be influenced by blocking caused by t    
 58 postponing the scheduler execution via preempt    
 59 execution, or masking interrupts. Threads can     
 60 interference from other threads and IRQs.         
 61                                                   
 62 Tracer options                                    
 63 ---------------------                             
 64                                                   
 65 The timerlat tracer is built on top of osnoise    
 66 So its configuration is also done in the osnoi    
 67 directory. The timerlat configs are:              
 68                                                   
 69  - cpus: CPUs at which a timerlat thread will     
 70  - timerlat_period_us: the period of the timer    
 71  - stop_tracing_us: stop the system tracing if    
 72    timer latency at the *irq* context higher t    
 73    value happens. Writing 0 disables this opti    
 74  - stop_tracing_total_us: stop the system trac    
 75    timer latency at the *thread* context is hi    
 76    value happens. Writing 0 disables this opti    
 77  - print_stack: save the stack of the IRQ occu    
 78    after the *thread context* event, or at the    
 79    is hit.                                        
 80                                                   
 81 timerlat and osnoise                              
 82 ----------------------------                      
 83                                                   
 84 The timerlat can also take advantage of the os    
 85 For example::                                     
 86                                                   
 87         [root@f32 ~]# cd /sys/kernel/tracing/     
 88         [root@f32 tracing]# echo timerlat > cu    
 89         [root@f32 tracing]# echo 1 > events/os    
 90         [root@f32 tracing]# echo 25 > osnoise/    
 91         [root@f32 tracing]# tail -10 trace        
 92              cc1-87882   [005] d..h...   548.7    
 93              cc1-87882   [005] dNLh1..   548.7    
 94              cc1-87882   [005] dNLh2..   548.7    
 95              cc1-87882   [005] d...3..   548.7    
 96       timerlat/5-1035    [005] .......   548.7    
 97                                                   
 98 In this case, the root cause of the timer late    
 99 single cause but to multiple ones. Firstly, th    
100 for 13 us, which may point to a long IRQ disab    
101 stacktrace section). Then the timer interrupt     
102 thread took 7597 ns, and the qxl:21 device IRQ    
103 the cc1 thread noise took 9909 ns of time befo    
104 Such pieces of evidence are useful for the dev    
105 tracing methods to figure out how to debug and    
106                                                   
107 It is worth mentioning that the *duration* val    
108 by the osnoise: events are *net* values. For e    
109 thread_noise does not include the duration of     
110 by the IRQ execution (which indeed accounted f    
111 the values reported by the timerlat tracer (ti    
112 are *gross* values.                               
113                                                   
114 The art below illustrates a CPU timeline and h    
115 observes it at the top and the osnoise: events    
116 in the timelines means circa 1 us, and the tim    
117                                                   
118       External     timer irq                      
119        clock        latency                       
120        event        13585 ns                      
121          |             ^                          
122          v             |                          
123          |-------------|                          
124          |-------------+----------------------    
125                        ^                          
126   ============================================    
127                     [tmr irq]  [dev irq]          
128   [another thread...^       v..^       v......    
129   ============================================    
130                     |-------|  |-------|          
131                             |--^       v------    
132                             |          |          
133                             |          |          
134                             |          +-> irq    
135                             +-> irq_noise: 759    
136                                                   
137 IRQ stacktrace                                    
138 ---------------------------                       
139                                                   
140 The osnoise/print_stack option is helpful for     
141 noise causes the major factor for the timer la    
142 irq disabled. For example::                       
143                                                   
144         [root@f32 tracing]# echo 500 > osnoise    
145         [root@f32 tracing]# echo 500 > osnoise    
146         [root@f32 tracing]# echo timerlat > cu    
147         [root@f32 tracing]# tail -21 per_cpu/c    
148           insmod-1026    [007] dN.h1..   200.2    
149           insmod-1026    [007] d..h1..   200.2    
150           insmod-1026    [007] dN.h2..   200.2    
151           insmod-1026    [007] dN.h3..   200.2    
152           insmod-1026    [007] d...3..   200.2    
153       timerlat/7-1001    [007] .......   200.2    
154       timerlat/7-1001    [007] ....1..   200.2    
155   => timerlat_irq                                 
156   => __hrtimer_run_queues                         
157   => hrtimer_interrupt                            
158   => __sysvec_apic_timer_interrupt                
159   => asm_call_irq_on_stack                        
160   => sysvec_apic_timer_interrupt                  
161   => asm_sysvec_apic_timer_interrupt              
162   => delay_tsc                                    
163   => dummy_load_1ms_pd_init                       
164   => do_one_initcall                              
165   => do_init_module                               
166   => __do_sys_finit_module                        
167   => do_syscall_64                                
168   => entry_SYSCALL_64_after_hwframe               
169                                                   
170 In this case, it is possible to see that the t    
171 contribution to the *timer latency* and the st    
172 the timerlat IRQ handler, points to a function    
173 dummy_load_1ms_pd_init, which had the followin    
174                                                   
175         static int __init dummy_load_1ms_pd_in    
176         {                                         
177                 preempt_disable();                
178                 mdelay(1);                        
179                 preempt_enable();                 
180                 return 0;                         
181                                                   
182         }                                         
183                                                   
184 User-space interface                              
185 ---------------------------                       
186                                                   
187 Timerlat allows user-space threads to use time    
188 measure scheduling latency. This interface is     
189 file descriptor inside $tracing_dir/osnoise/pe    
190                                                   
191 This interface is accessible under the followi    
192                                                   
193  - timerlat tracer is enable                      
194  - osnoise workload option is set to NO_OSNOIS    
195  - The user-space thread is affined to a singl    
196  - The thread opens the file associated with i    
197  - Only one thread can access the file at a ti    
198                                                   
199 The open() syscall will fail if any of these c    
200 After opening the file descriptor, the user sp    
201                                                   
202 The read() system call will run a timerlat cod    
203 timer in the future and wait for it as the reg    
204                                                   
205 When the timer IRQ fires, the timerlat IRQ wil    
206 IRQ latency and wake up the thread waiting in     
207 scheduled and report the thread latency via tr    
208 thread.                                           
209                                                   
210 The difference from the in-kernel timerlat is     
211 the timer, timerlat will return to the read()     
212 the user can run any code.                        
213                                                   
214 If the application rereads the file timerlat f    
215 will report the return from user-space latency    
216 latency. If this is the end of the work, it ca    
217 response time for the request.                    
218                                                   
219 After reporting the total latency, timerlat wi    
220 a timer, and go to sleep for the following act    
221                                                   
222 If at any time one of the conditions is broken    
223 while in user space, or the timerlat tracer is    
224 signal will be sent to the user-space thread.     
225                                                   
226 Here is an basic example of user-space code fo    
227                                                   
228  int main(void)                                   
229  {                                                
230         char buffer[1024];                        
231         int timerlat_fd;                          
232         int retval;                               
233         long cpu = 0;   /* place in CPU 0 */      
234         cpu_set_t set;                            
235                                                   
236         CPU_ZERO(&set);                           
237         CPU_SET(cpu, &set);                       
238                                                   
239         if (sched_setaffinity(gettid(), sizeof    
240                 return 1;                         
241                                                   
242         snprintf(buffer, sizeof(buffer),          
243                 "/sys/kernel/tracing/osnoise/p    
244                 cpu);                             
245                                                   
246         timerlat_fd = open(buffer, O_RDONLY);     
247         if (timerlat_fd < 0) {                    
248                 printf("error opening %s: %s\n    
249                 exit(1);                          
250         }                                         
251                                                   
252         for (;;) {                                
253                 retval = read(timerlat_fd, buf    
254                 if (retval < 0)                   
255                         break;                    
256         }                                         
257                                                   
258         close(timerlat_fd);                       
259         exit(0);                                  
260  }                                                
                                                      

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