1TRACE-CMD-RECORD(1) libtracefs Manual TRACE-CMD-RECORD(1)
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6 trace-cmd-record - record a trace from the Ftrace Linux internal tracer
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9 trace-cmd record [OPTIONS] [command]
10
12 The trace-cmd(1) record command will set up the Ftrace Linux kernel
13 tracer to record the specified plugins or events that happen while the
14 command executes. If no command is given, then it will record until the
15 user hits Ctrl-C.
16
17 The record command of trace-cmd will set up the Ftrace tracer to start
18 tracing the various events or plugins that are given on the command
19 line. It will then create a number of tracing processes (one per CPU)
20 that will start recording from the kernel ring buffer straight into
21 temporary files. When the command is complete (or Ctrl-C is hit) all
22 the files will be combined into a trace.dat file that can later be read
23 (see trace-cmd-report(1)).
24
26 -p tracer
27 Specify a tracer. Tracers usually do more than just trace an event.
28 Common tracers are: function, function_graph, preemptirqsoff,
29 irqsoff, preemptoff and wakeup. A tracer must be supported by the
30 running kernel. To see a list of available tracers, see
31 trace-cmd-list(1).
32
33 -e event
34 Specify an event to trace. Various static trace points have been
35 added to the Linux kernel. They are grouped by subsystem where you
36 can enable all events of a given subsystem or specify specific
37 events to be enabled. The event is of the format
38 "subsystem:event-name". You can also just specify the subsystem
39 without the :event-name or the event-name without the "subsystem:".
40 Using "-e sched_switch" will enable the "sched_switch" event where
41 as, "-e sched" will enable all events under the "sched" subsystem.
42
43 The 'event' can also contain glob expressions. That is, "*stat*" will
44 select all events (or subsystems) that have the characters "stat" in their
45 names.
46
47 The keyword 'all' can be used to enable all events.
48
49 -a
50 Every event that is being recorded has its output format file saved
51 in the output file to be able to display it later. But if other
52 events are enabled in the trace without trace-cmd’s knowledge, the
53 formats of those events will not be recorded and trace-cmd report
54 will not be able to display them. If this is the case, then specify
55 the -a option and the format for all events in the system will be
56 saved.
57
58 -T
59 Enable a stacktrace on each event. For example:
60
61 <idle>-0 [003] 58549.289091: sched_switch: kworker/0:1:0 [120] R ==> trace-cmd:2603 [120]
62 <idle>-0 [003] 58549.289092: kernel_stack: <stack trace>
63 => schedule (ffffffff814b260e)
64 => cpu_idle (ffffffff8100a38c)
65 => start_secondary (ffffffff814ab828)
66
67 --func-stack
68 Enable a stack trace on all functions. Note this is only applicable
69 for the "function" plugin tracer, and will only take effect if the
70 -l option is used and succeeds in limiting functions. If the
71 function tracer is not filtered, and the stack trace is enabled,
72 you can live lock the machine.
73
74 -f filter
75 Specify a filter for the previous event. This must come after a -e.
76 This will filter what events get recorded based on the content of
77 the event. Filtering is passed to the kernel directly so what
78 filtering is allowed may depend on what version of the kernel you
79 have. Basically, it will let you use C notation to check if an
80 event should be processed or not.
81
82
83 .ft C
84 ==, >=, <=, >, <, &, |, && and ||
85 .ft
86
87
88 The above are usually safe to use to compare fields.
89
90 --no-filter
91 Do not filter out the trace-cmd threads. By default, the threads
92 are filtered out to not be traced by events. This option will have
93 the trace-cmd threads also be traced.
94
95 -R trigger
96 Specify a trigger for the previous event. This must come after a
97 -e. This will add a given trigger to the given event. To only
98 enable the trigger and not the event itself, then place the event
99 after the -v option.
100
101 See Documentation/trace/events.txt in the Linux kernel source for more
102 information on triggers.
103
104 -v
105 This will cause all events specified after it on the command line
106 to not be traced. This is useful for selecting a subsystem to be
107 traced but to leave out various events. For Example: "-e sched -v
108 -e "*stat\*"" will enable all events in the sched subsystem except
109 those that have "stat" in their names.
110
111 Note: the *-v* option was taken from the way grep(1) inverts the following
112 matches.
113
114 -F
115 This will filter only the executable that is given on the command
116 line. If no command is given, then it will filter itself (pretty
117 pointless). Using -F will let you trace only events that are caused
118 by the given command.
119
120 -P pid
121 Similar to -F but lets you specify a process ID to trace.
122
123 -c
124 Used with either -F (or -P if kernel supports it) to trace the
125 process' children too.
126
127 --user
128 Execute the specified command as given user.
129
130 -C clock
131 Set the trace clock to "clock".
132
133 Use trace-cmd(1) list -C to see what clocks are available.
134
135 -o output-file
136 By default, trace-cmd report will create a trace.dat file. You can
137 specify a different file to write to with the -o option.
138
139 -l function-name
140 This will limit the function and function_graph tracers to only
141 trace the given function name. More than one -l may be specified on
142 the command line to trace more than one function. This supports
143 both full regex(3) parsing, or basic glob parsing. If the filter
144 has only alphanumeric, _, *, ? and . characters, then it will be
145 parsed as a basic glob. to force it to be a regex, prefix the
146 filter with ^ or append it with $ and it will then be parsed as a
147 regex.
148
149 -g function-name
150 This option is for the function_graph plugin. It will graph the
151 given function. That is, it will only trace the function and all
152 functions that it calls. You can have more than one -g on the
153 command line.
154
155 -n function-name
156 This has the opposite effect of -l. The function given with the -n
157 option will not be traced. This takes precedence, that is, if you
158 include the same function for both -n and -l, it will not be
159 traced.
160
161 -d
162 Some tracer plugins enable the function tracer by default. Like the
163 latency tracers. This option prevents the function tracer from
164 being enabled at start up.
165
166 -D
167 The option -d will try to use the function-trace option to disable
168 the function tracer (if available), otherwise it defaults to the
169 proc file: /proc/sys/kernel/ftrace_enabled, but will not touch it
170 if the function-trace option is available. The -D option will
171 disable both the ftrace_enabled proc file as well as the
172 function-trace option if it exists.
173
174 Note, this disable function tracing for all users, which includes users
175 outside of ftrace tracers (stack_tracer, perf, etc).
176
177 -O option
178 Ftrace has various options that can be enabled or disabled. This
179 allows you to set them. Appending the text no to an option disables
180 it. For example: "-O nograph-time" will disable the "graph-time"
181 Ftrace option.
182
183 -s interval
184 The processes that trace-cmd creates to record from the ring buffer
185 need to wake up to do the recording. Setting the interval to zero
186 will cause the processes to wakeup every time new data is written
187 into the buffer. But since Ftrace is recording kernel activity, the
188 act of this processes going back to sleep may cause new events into
189 the ring buffer which will wake the process back up. This will
190 needlessly add extra data into the ring buffer.
191
192 The 'interval' metric is microseconds. The default is set to 1000 (1 ms).
193 This is the time each recording process will sleep before waking up to
194 record any new data that was written to the ring buffer.
195
196 -r priority
197 The priority to run the capture threads at. In a busy system the
198 trace capturing threads may be staved and events can be lost. This
199 increases the priority of those threads to the real time (FIFO)
200 priority. But use this option with care, it can also change the
201 behaviour of the system being traced.
202
203 -b size
204 This sets the ring buffer size to size kilobytes. Because the
205 Ftrace ring buffer is per CPU, this size is the size of each per
206 CPU ring buffer inside the kernel. Using "-b 10000" on a machine
207 with 4 CPUs will make Ftrace have a total buffer size of 40 Megs.
208
209 -B buffer-name
210 If the kernel supports multiple buffers, this will add a buffer
211 with the given name. If the buffer name already exists, that buffer
212 is just reset and will not be deleted at the end of record
213 execution. If the buffer is created, it will be removed at the end
214 of execution (unless the -k is set, or start command was used).
215
216 After a buffer name is stated, all events added after that will be
217 associated with that buffer. If no buffer is specified, or an event
218 is specified before a buffer name, it will be associated with the
219 main (toplevel) buffer.
220
221 trace-cmd record -e sched -B block -e block -B time -e timer sleep 1
222
223 The above is will enable all sched events in the main buffer. It will
224 then create a 'block' buffer instance and enable all block events within
225 that buffer. A 'time' buffer instance is created and all timer events
226 will be enabled for that event.
227
228 -m size
229 The max size in kilobytes that a per cpu buffer should be. Note,
230 due to rounding to page size, the number may not be totally
231 correct. Also, this is performed by switching between two buffers
232 that are half the given size thus the output may not be of the
233 given size even if much more was written.
234
235 Use this to prevent running out of diskspace for long runs.
236
237 -M cpumask
238 Set the cpumask for to trace. It only affects the last buffer
239 instance given. If supplied before any buffer instance, then it
240 affects the main buffer. The value supplied must be a hex number.
241
242 trace-cmd record -p function -M c -B events13 -e all -M 5
243
244 If the -M is left out, then the mask stays the same. To enable all
245 CPUs, pass in a value of '-1'.
246
247 -k
248 By default, when trace-cmd is finished tracing, it will reset the
249 buffers and disable all the tracing that it enabled. This option
250 keeps trace-cmd from disabling the tracer and reseting the buffer.
251 This option is useful for debugging trace-cmd.
252
253 Note: usually trace-cmd will set the "tracing_on" file back to what it
254 was before it was called. This option will leave that file set to zero.
255
256 -i
257 By default, if an event is listed that trace-cmd does not find, it
258 will exit with an error. This option will just ignore events that
259 are listed on the command line but are not found on the system.
260
261 -N host:port
262 If another machine is running "trace-cmd listen", this option is
263 used to have the data sent to that machine with UDP packets.
264 Instead of writing to an output file, the data is sent off to a
265 remote box. This is ideal for embedded machines with little
266 storage, or having a single machine that will keep all the data in
267 a single repository.
268
269 Note: This option is not supported with latency tracer plugins:
270 wakeup, wakeup_rt, irqsoff, preemptoff and preemptirqsoff
271
272 -t
273 This option is used with -N, when there’s a need to send the live
274 data with TCP packets instead of UDP. Although TCP is not nearly as
275 fast as sending the UDP packets, but it may be needed if the
276 network is not that reliable, the amount of data is not that
277 intensive, and a guarantee is needed that all traced information is
278 transfered successfully.
279
280 -q | --quiet
281 For use with recording an application. Suppresses normal output
282 (except for errors) to allow only the application’s output to be
283 displayed.
284
285 --date
286 With the --date option, "trace-cmd" will write timestamps into the
287 trace buffer after it has finished recording. It will then map the
288 timestamp to gettimeofday which will allow wall time output from
289 the timestamps reading the created trace.dat file.
290
291 --max-graph-depth depth
292 Set the maximum depth the function_graph tracer will trace into a
293 function. A value of one will only show where userspace enters the
294 kernel but not any functions called in the kernel. The default is
295 zero, which means no limit.
296
297 --cmdlines-size size
298 Set the number of entries the kernel tracing file "saved_cmdlines"
299 can contain. This file is a circular buffer which stores the
300 mapping between cmdlines and PIDs. If full, it leads to unresolved
301 cmdlines ("<...>") within the trace. The kernel default value is
302 128.
303
304 --module module
305 Filter a module’s name in function tracing. It is equivalent to
306 adding :mod:module after all other functions being filtered. If no
307 other function filter is listed, then all modules functions will be
308 filtered in the filter.
309
310 '--module snd' is equivalent to '-l :mod:snd'
311
312 '--module snd -l "*jack*"' is equivalent to '-l "*jack*:mod:snd"'
313
314 '--module snd -n "*"' is equivalent to '-n :mod:snd'
315
316 --proc-map
317 Save the traced process address map into the trace.dat file. The
318 traced processes can be specified using the option -P, or as a
319 given command.
320
321 --profile
322 With the --profile option, "trace-cmd" will enable tracing that can
323 be used with trace-cmd-report(1) --profile option. If a tracer -p
324 is not set, and function graph depth is supported by the kernel,
325 then the function_graph tracer will be enabled with a depth of one
326 (only show where userspace enters into the kernel). It will also
327 enable various tracepoints with stack tracing such that the report
328 can show where tasks have been blocked for the longest time.
329
330 See trace-cmd-profile(1) for more details and examples.
331
332 -G
333 Set interrupt (soft and hard) events as global (associated to CPU
334 instead of tasks). Only works for --profile.
335
336 -H event-hooks
337 Add custom event matching to connect any two events together. When
338 not used with --profile, it will save the parameter and this will
339 be used by trace-cmd report --profile, too. That is:
340
341 trace-cmd record -H hrtimer_expire_entry,hrtimer/hrtimer_expire_exit,hrtimer,sp
342 trace-cmd report --profile
343
344 Will profile hrtimer_expire_entry and hrtimer_expire_ext times.
345
346 See trace-cmd-profile(1) for format.
347
348 -S
349 (for --profile only) Only enable the tracer or events speficied on
350 the command line. With this option, the function_graph tracer is
351 not enabled, nor are any events (like sched_switch), unless they
352 are specifically specified on the command line (i.e. -p function -e
353 sched_switch -e sched_wakeup)
354
355 --ts-offset offset
356 Add an offset for the timestamp in the trace.dat file. This will
357 add a offset option into the trace.dat file such that a trace-cmd
358 report will offset all the timestamps of the events by the given
359 offset. The offset is in raw units. That is, if the event
360 timestamps are in nanoseconds the offset will also be in
361 nanoseconds even if the displayed units are in microseconds.
362
363 --tsync-interval
364 Set the loop interval, in ms, for timestamps synchronization with
365 guests: If a negative number is specified, timestamps
366 synchronization is disabled If 0 is specified, no loop is performed
367 - timestamps offset is calculated only twice," at the beginning and
368 at the end of the trace. Timestamps synchronization with guests
369 works only if there is support for VSOCK.\n"
370
371 --tsc2nsec
372 Convert the current clock to nanoseconds, using tsc multiplier and
373 shift from the Linux kernel’s perf interface. This option does not
374 change the trace clock, just assumes that the tsc multiplier and
375 shift are applicable for the selected clock. You may use the "-C
376 tsc2nsec" clock, if not sure what clock to select.
377
378 --stderr
379 Have output go to stderr instead of stdout, but the output of the
380 command executed will not be changed. This is useful if you want to
381 monitor the output of the command being executed, but not see the
382 output from trace-cmd.
383
384 --poll
385 Waiting for data to be available on the trace ring-buffers may
386 trigger IPIs. This might generate unacceptable trace noise when
387 tracing low latency or real time systems. The poll option forces
388 trace-cmd to use O_NONBLOCK. Traces are extracted by busy waiting,
389 which will hog the CPUs, so only use when really needed.
390
391 --name
392 Give a specific name for the current agent being processed. Used
393 after -A to give the guest being traced a name. Useful when using
394 the vsocket ID instead of a name of the guest.
395
396 --verbose[=level]
397 Set the log level. Supported log levels are "none", "critical",
398 "error", "warning", "info", "debug", "all" or their identifiers
399 "0", "1", "2", "3", "4", "5", "6". Setting the log level to
400 specific value enables all logs from that and all previous levels.
401 The level will default to "info" if one is not specified.
402
403 Example: enable all critical, error and warning logs
404
405 trace-cmd record --verbose=warning
406
407 --file-version
408 Desired version of the output file. Supported versions are 6 or 7.
409
410 --compression
411 Compression of the trace output file, one of these strings can be
412 passed:
413
414 'any' - auto select the best available compression algorithm
415
416 'none' - do not compress the trace file
417
418 'name' - the name of the desired compression algorithms. Available algorithms can be listed with
419 trace-cmd list -c
420
422 The basic way to trace all events:
423
424
425 .ft C
426 # trace-cmd record -e all ls > /dev/null
427 # trace-cmd report
428 trace-cmd-13541 [003] 106260.693809: filemap_fault: address=0x128122 offset=0xce
429 trace-cmd-13543 [001] 106260.693809: kmalloc: call_site=81128dd4 ptr=0xffff88003dd83800 bytes_req=768 bytes_alloc=1024 gfp_flags=GFP_KERNEL|GFP_ZERO
430 ls-13545 [002] 106260.693809: kfree: call_site=810a7abb ptr=0x0
431 ls-13545 [002] 106260.693818: sys_exit_write: 0x1
432 .ft
433
434
435 To use the function tracer with sched switch tracing:
436
437
438 .ft C
439 # trace-cmd record -p function -e sched_switch ls > /dev/null
440 # trace-cmd report
441 ls-13587 [002] 106467.860310: function: hrtick_start_fair <-- pick_next_task_fair
442 ls-13587 [002] 106467.860313: sched_switch: prev_comm=trace-cmd prev_pid=13587 prev_prio=120 prev_state=R ==> next_comm=trace-cmd next_pid=13583 next_prio=120
443 trace-cmd-13585 [001] 106467.860314: function: native_set_pte_at <-- __do_fault
444 trace-cmd-13586 [003] 106467.860314: function: up_read <-- do_page_fault
445 ls-13587 [002] 106467.860317: function: __phys_addr <-- schedule
446 trace-cmd-13585 [001] 106467.860318: function: _raw_spin_unlock <-- __do_fault
447 ls-13587 [002] 106467.860320: function: native_load_sp0 <-- __switch_to
448 trace-cmd-13586 [003] 106467.860322: function: down_read_trylock <-- do_page_fault
449 .ft
450
451
452 Here is a nice way to find what interrupts have the highest latency:
453
454
455 .ft C
456 # trace-cmd record -p function_graph -e irq_handler_entry -l do_IRQ sleep 10
457 # trace-cmd report
458 <idle>-0 [000] 157412.933969: funcgraph_entry: | do_IRQ() {
459 <idle>-0 [000] 157412.933974: irq_handler_entry: irq=48 name=eth0
460 <idle>-0 [000] 157412.934004: funcgraph_exit: + 36.358 us | }
461 <idle>-0 [000] 157413.895004: funcgraph_entry: | do_IRQ() {
462 <idle>-0 [000] 157413.895011: irq_handler_entry: irq=48 name=eth0
463 <idle>-0 [000] 157413.895026: funcgraph_exit: + 24.014 us | }
464 <idle>-0 [000] 157415.891762: funcgraph_entry: | do_IRQ() {
465 <idle>-0 [000] 157415.891769: irq_handler_entry: irq=48 name=eth0
466 <idle>-0 [000] 157415.891784: funcgraph_exit: + 22.928 us | }
467 <idle>-0 [000] 157415.934869: funcgraph_entry: | do_IRQ() {
468 <idle>-0 [000] 157415.934874: irq_handler_entry: irq=48 name=eth0
469 <idle>-0 [000] 157415.934906: funcgraph_exit: + 37.512 us | }
470 <idle>-0 [000] 157417.888373: funcgraph_entry: | do_IRQ() {
471 <idle>-0 [000] 157417.888381: irq_handler_entry: irq=48 name=eth0
472 <idle>-0 [000] 157417.888398: funcgraph_exit: + 25.943 us | }
473 .ft
474
475
476 An example of the profile:
477
478
479 .ft C
480 # trace-cmd record --profile sleep 1
481 # trace-cmd report --profile --comm sleep
482 task: sleep-21611
483 Event: sched_switch:R (1) Total: 99442 Avg: 99442 Max: 99442 Min:99442
484 <stack> 1 total:99442 min:99442 max:99442 avg=99442
485 => ftrace_raw_event_sched_switch (0xffffffff8105f812)
486 => __schedule (0xffffffff8150810a)
487 => preempt_schedule (0xffffffff8150842e)
488 => ___preempt_schedule (0xffffffff81273354)
489 => cpu_stop_queue_work (0xffffffff810b03c5)
490 => stop_one_cpu (0xffffffff810b063b)
491 => sched_exec (0xffffffff8106136d)
492 => do_execve_common.isra.27 (0xffffffff81148c89)
493 => do_execve (0xffffffff811490b0)
494 => SyS_execve (0xffffffff811492c4)
495 => return_to_handler (0xffffffff8150e3c8)
496 => stub_execve (0xffffffff8150c699)
497 Event: sched_switch:S (1) Total: 1000506680 Avg: 1000506680 Max: 1000506680 Min:1000506680
498 <stack> 1 total:1000506680 min:1000506680 max:1000506680 avg=1000506680
499 => ftrace_raw_event_sched_switch (0xffffffff8105f812)
500 => __schedule (0xffffffff8150810a)
501 => schedule (0xffffffff815084b8)
502 => do_nanosleep (0xffffffff8150b22c)
503 => hrtimer_nanosleep (0xffffffff8108d647)
504 => SyS_nanosleep (0xffffffff8108d72c)
505 => return_to_handler (0xffffffff8150e3c8)
506 => tracesys_phase2 (0xffffffff8150c304)
507 Event: sched_wakeup:21611 (1) Total: 30326 Avg: 30326 Max: 30326 Min:30326
508 <stack> 1 total:30326 min:30326 max:30326 avg=30326
509 => ftrace_raw_event_sched_wakeup_template (0xffffffff8105f653)
510 => ttwu_do_wakeup (0xffffffff810606eb)
511 => ttwu_do_activate.constprop.124 (0xffffffff810607c8)
512 => try_to_wake_up (0xffffffff8106340a)
513 .ft
514
515
517 trace-cmd(1), trace-cmd-report(1), trace-cmd-start(1),
518 trace-cmd-stop(1), trace-cmd-extract(1), trace-cmd-reset(1),
519 trace-cmd-split(1), trace-cmd-list(1), trace-cmd-listen(1),
520 trace-cmd-profile(1)
521
523 Written by Steven Rostedt, <rostedt@goodmis.org[1]>
524
526 https://git.kernel.org/pub/scm/utils/trace-cmd/trace-cmd.git/
527
529 Copyright (C) 2010 Red Hat, Inc. Free use of this software is granted
530 under the terms of the GNU Public License (GPL).
531
533 1. rostedt@goodmis.org
534 mailto:rostedt@goodmis.org
535
536
537
538libtracefs 04/15/2022 TRACE-CMD-RECORD(1)