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192.168.1.100 / T108 / c2023d5d03be91dbb983606f0ec5e9e4ea36c8c2 / . / marvell / linux / include / trace / events / timer.h
blob: 2409e3e140e9722fa264d978a7b54f49d1f04db0 [file] [log] [blame]
b.liue9582032025-04-17 19:18:16 +0800[diff] [blame]1/* SPDX-License-Identifier: GPL-2.0 */
2#undef TRACE_SYSTEM
3#define TRACE_SYSTEM timer
4
5#if !defined(_TRACE_TIMER_H) || defined(TRACE_HEADER_MULTI_READ)
6#define _TRACE_TIMER_H
7
8#include <linux/tracepoint.h>
9#include <linux/hrtimer.h>
10#include <linux/timer.h>
11
12DECLARE_EVENT_CLASS(timer_class,
13
14 TP_PROTO(struct timer_list *timer),
15
16 TP_ARGS(timer),
17
18 TP_STRUCT__entry(
19 __field( void *, timer )
20 ),
21
22 TP_fast_assign(
23 __entry->timer = timer;
24 ),
25
26 TP_printk("timer=%p", __entry->timer)
27);
28
29/**
30 * timer_init - called when the timer is initialized
31 * @timer: pointer to struct timer_list
32 */
33DEFINE_EVENT(timer_class, timer_init,
34
35 TP_PROTO(struct timer_list *timer),
36
37 TP_ARGS(timer)
38);
39
40#define decode_timer_flags(flags) \
41 __print_flags(flags, "|", \
42 { TIMER_MIGRATING, "M" }, \
43 { TIMER_DEFERRABLE, "D" }, \
44 { TIMER_PINNED, "P" }, \
45 { TIMER_IRQSAFE, "I" })
46
47/**
48 * timer_start - called when the timer is started
49 * @timer: pointer to struct timer_list
50 * @expires: the timers expiry time
51 */
52TRACE_EVENT(timer_start,
53
54 TP_PROTO(struct timer_list *timer,
55 unsigned long expires,
56 unsigned int flags),
57
58 TP_ARGS(timer, expires, flags),
59
60 TP_STRUCT__entry(
61 __field( void *, timer )
62 __field( void *, function )
63 __field( unsigned long, expires )
64 __field( unsigned long, now )
65 __field( unsigned int, flags )
66 ),
67
68 TP_fast_assign(
69 __entry->timer = timer;
70 __entry->function = timer->function;
71 __entry->expires = expires;
72 __entry->now = jiffies;
73 __entry->flags = flags;
74 ),
75
76 TP_printk("timer=%p function=%ps expires=%lu [timeout=%ld] cpu=%u idx=%u flags=%s",
77 __entry->timer, __entry->function, __entry->expires,
78 (long)__entry->expires - __entry->now,
79 __entry->flags & TIMER_CPUMASK,
80 __entry->flags >> TIMER_ARRAYSHIFT,
81 decode_timer_flags(__entry->flags & TIMER_TRACE_FLAGMASK))
82);
83
84/**
85 * timer_expire_entry - called immediately before the timer callback
86 * @timer: pointer to struct timer_list
87 *
88 * Allows to determine the timer latency.
89 */
90TRACE_EVENT(timer_expire_entry,
91
92 TP_PROTO(struct timer_list *timer, unsigned long baseclk),
93
94 TP_ARGS(timer, baseclk),
95
96 TP_STRUCT__entry(
97 __field( void *, timer )
98 __field( unsigned long, now )
99 __field( void *, function)
100 __field( unsigned long, baseclk )
101 ),
102
103 TP_fast_assign(
104 __entry->timer = timer;
105 __entry->now = jiffies;
106 __entry->function = timer->function;
107 __entry->baseclk = baseclk;
108 ),
109
110 TP_printk("timer=%p function=%ps now=%lu baseclk=%lu",
111 __entry->timer, __entry->function, __entry->now,
112 __entry->baseclk)
113);
114
115/**
116 * timer_expire_exit - called immediately after the timer callback returns
117 * @timer: pointer to struct timer_list
118 *
119 * When used in combination with the timer_expire_entry tracepoint we can
120 * determine the runtime of the timer callback function.
121 *
122 * NOTE: Do NOT derefernce timer in TP_fast_assign. The pointer might
123 * be invalid. We solely track the pointer.
124 */
125DEFINE_EVENT(timer_class, timer_expire_exit,
126
127 TP_PROTO(struct timer_list *timer),
128
129 TP_ARGS(timer)
130);
131
132/**
133 * timer_cancel - called when the timer is canceled
134 * @timer: pointer to struct timer_list
135 */
136DEFINE_EVENT(timer_class, timer_cancel,
137
138 TP_PROTO(struct timer_list *timer),
139
140 TP_ARGS(timer)
141);
142
143#define decode_clockid(type) \
144 __print_symbolic(type, \
145 { CLOCK_REALTIME, "CLOCK_REALTIME" }, \
146 { CLOCK_MONOTONIC, "CLOCK_MONOTONIC" }, \
147 { CLOCK_BOOTTIME, "CLOCK_BOOTTIME" }, \
148 { CLOCK_TAI, "CLOCK_TAI" })
149
150#define decode_hrtimer_mode(mode) \
151 __print_symbolic(mode, \
152 { HRTIMER_MODE_ABS, "ABS" }, \
153 { HRTIMER_MODE_REL, "REL" }, \
154 { HRTIMER_MODE_ABS_PINNED, "ABS|PINNED" }, \
155 { HRTIMER_MODE_REL_PINNED, "REL|PINNED" }, \
156 { HRTIMER_MODE_ABS_SOFT, "ABS|SOFT" }, \
157 { HRTIMER_MODE_REL_SOFT, "REL|SOFT" }, \
158 { HRTIMER_MODE_ABS_PINNED_SOFT, "ABS|PINNED|SOFT" }, \
159 { HRTIMER_MODE_REL_PINNED_SOFT, "REL|PINNED|SOFT" }, \
160 { HRTIMER_MODE_ABS_HARD, "ABS|HARD" }, \
161 { HRTIMER_MODE_REL_HARD, "REL|HARD" }, \
162 { HRTIMER_MODE_ABS_PINNED_HARD, "ABS|PINNED|HARD" }, \
163 { HRTIMER_MODE_REL_PINNED_HARD, "REL|PINNED|HARD" })
164
165/**
166 * hrtimer_init - called when the hrtimer is initialized
167 * @hrtimer: pointer to struct hrtimer
168 * @clockid: the hrtimers clock
169 * @mode: the hrtimers mode
170 */
171TRACE_EVENT(hrtimer_init,
172
173 TP_PROTO(struct hrtimer *hrtimer, clockid_t clockid,
174 enum hrtimer_mode mode),
175
176 TP_ARGS(hrtimer, clockid, mode),
177
178 TP_STRUCT__entry(
179 __field( void *, hrtimer )
180 __field( clockid_t, clockid )
181 __field( enum hrtimer_mode, mode )
182 ),
183
184 TP_fast_assign(
185 __entry->hrtimer = hrtimer;
186 __entry->clockid = clockid;
187 __entry->mode = mode;
188 ),
189
190 TP_printk("hrtimer=%p clockid=%s mode=%s", __entry->hrtimer,
191 decode_clockid(__entry->clockid),
192 decode_hrtimer_mode(__entry->mode))
193);
194
195/**
196 * hrtimer_start - called when the hrtimer is started
197 * @hrtimer: pointer to struct hrtimer
198 */
199TRACE_EVENT(hrtimer_start,
200
201 TP_PROTO(struct hrtimer *hrtimer, enum hrtimer_mode mode),
202
203 TP_ARGS(hrtimer, mode),
204
205 TP_STRUCT__entry(
206 __field( void *, hrtimer )
207 __field( void *, function )
208 __field( s64, expires )
209 __field( s64, softexpires )
210 __field( enum hrtimer_mode, mode )
211 ),
212
213 TP_fast_assign(
214 __entry->hrtimer = hrtimer;
215 __entry->function = hrtimer->function;
216 __entry->expires = hrtimer_get_expires(hrtimer);
217 __entry->softexpires = hrtimer_get_softexpires(hrtimer);
218 __entry->mode = mode;
219 ),
220
221 TP_printk("hrtimer=%p function=%ps expires=%llu softexpires=%llu "
222 "mode=%s", __entry->hrtimer, __entry->function,
223 (unsigned long long) __entry->expires,
224 (unsigned long long) __entry->softexpires,
225 decode_hrtimer_mode(__entry->mode))
226);
227
228/**
229 * hrtimer_expire_entry - called immediately before the hrtimer callback
230 * @hrtimer: pointer to struct hrtimer
231 * @now: pointer to variable which contains current time of the
232 * timers base.
233 *
234 * Allows to determine the timer latency.
235 */
236TRACE_EVENT(hrtimer_expire_entry,
237
238 TP_PROTO(struct hrtimer *hrtimer, ktime_t *now),
239
240 TP_ARGS(hrtimer, now),
241
242 TP_STRUCT__entry(
243 __field( void *, hrtimer )
244 __field( s64, now )
245 __field( void *, function)
246 ),
247
248 TP_fast_assign(
249 __entry->hrtimer = hrtimer;
250 __entry->now = *now;
251 __entry->function = hrtimer->function;
252 ),
253
254 TP_printk("hrtimer=%p function=%ps now=%llu",
255 __entry->hrtimer, __entry->function,
256 (unsigned long long) __entry->now)
257);
258
259DECLARE_EVENT_CLASS(hrtimer_class,
260
261 TP_PROTO(struct hrtimer *hrtimer),
262
263 TP_ARGS(hrtimer),
264
265 TP_STRUCT__entry(
266 __field( void *, hrtimer )
267 ),
268
269 TP_fast_assign(
270 __entry->hrtimer = hrtimer;
271 ),
272
273 TP_printk("hrtimer=%p", __entry->hrtimer)
274);
275
276/**
277 * hrtimer_expire_exit - called immediately after the hrtimer callback returns
278 * @hrtimer: pointer to struct hrtimer
279 *
280 * When used in combination with the hrtimer_expire_entry tracepoint we can
281 * determine the runtime of the callback function.
282 */
283DEFINE_EVENT(hrtimer_class, hrtimer_expire_exit,
284
285 TP_PROTO(struct hrtimer *hrtimer),
286
287 TP_ARGS(hrtimer)
288);
289
290/**
291 * hrtimer_cancel - called when the hrtimer is canceled
292 * @hrtimer: pointer to struct hrtimer
293 */
294DEFINE_EVENT(hrtimer_class, hrtimer_cancel,
295
296 TP_PROTO(struct hrtimer *hrtimer),
297
298 TP_ARGS(hrtimer)
299);
300
301/**
302 * itimer_state - called when itimer is started or canceled
303 * @which: name of the interval timer
304 * @value: the itimers value, itimer is canceled if value->it_value is
305 * zero, otherwise it is started
306 * @expires: the itimers expiry time
307 */
308TRACE_EVENT(itimer_state,
309
310 TP_PROTO(int which, const struct itimerspec64 *const value,
311 unsigned long long expires),
312
313 TP_ARGS(which, value, expires),
314
315 TP_STRUCT__entry(
316 __field( int, which )
317 __field( unsigned long long, expires )
318 __field( long, value_sec )
319 __field( long, value_nsec )
320 __field( long, interval_sec )
321 __field( long, interval_nsec )
322 ),
323
324 TP_fast_assign(
325 __entry->which = which;
326 __entry->expires = expires;
327 __entry->value_sec = value->it_value.tv_sec;
328 __entry->value_nsec = value->it_value.tv_nsec;
329 __entry->interval_sec = value->it_interval.tv_sec;
330 __entry->interval_nsec = value->it_interval.tv_nsec;
331 ),
332
333 TP_printk("which=%d expires=%llu it_value=%ld.%06ld it_interval=%ld.%06ld",
334 __entry->which, __entry->expires,
335 __entry->value_sec, __entry->value_nsec / NSEC_PER_USEC,
336 __entry->interval_sec, __entry->interval_nsec / NSEC_PER_USEC)
337);
338
339/**
340 * itimer_expire - called when itimer expires
341 * @which: type of the interval timer
342 * @pid: pid of the process which owns the timer
343 * @now: current time, used to calculate the latency of itimer
344 */
345TRACE_EVENT(itimer_expire,
346
347 TP_PROTO(int which, struct pid *pid, unsigned long long now),
348
349 TP_ARGS(which, pid, now),
350
351 TP_STRUCT__entry(
352 __field( int , which )
353 __field( pid_t, pid )
354 __field( unsigned long long, now )
355 ),
356
357 TP_fast_assign(
358 __entry->which = which;
359 __entry->now = now;
360 __entry->pid = pid_nr(pid);
361 ),
362
363 TP_printk("which=%d pid=%d now=%llu", __entry->which,
364 (int) __entry->pid, __entry->now)
365);
366
367#ifdef CONFIG_NO_HZ_COMMON
368
369#define TICK_DEP_NAMES \
370 tick_dep_mask_name(NONE) \
371 tick_dep_name(POSIX_TIMER) \
372 tick_dep_name(PERF_EVENTS) \
373 tick_dep_name(SCHED) \
374 tick_dep_name(CLOCK_UNSTABLE) \
375 tick_dep_name_end(RCU)
376
377#undef tick_dep_name
378#undef tick_dep_mask_name
379#undef tick_dep_name_end
380
381/* The MASK will convert to their bits and they need to be processed too */
382#define tick_dep_name(sdep) TRACE_DEFINE_ENUM(TICK_DEP_BIT_##sdep); \
383 TRACE_DEFINE_ENUM(TICK_DEP_MASK_##sdep);
384#define tick_dep_name_end(sdep) TRACE_DEFINE_ENUM(TICK_DEP_BIT_##sdep); \
385 TRACE_DEFINE_ENUM(TICK_DEP_MASK_##sdep);
386/* NONE only has a mask defined for it */
387#define tick_dep_mask_name(sdep) TRACE_DEFINE_ENUM(TICK_DEP_MASK_##sdep);
388
389TICK_DEP_NAMES
390
391#undef tick_dep_name
392#undef tick_dep_mask_name
393#undef tick_dep_name_end
394
395#define tick_dep_name(sdep) { TICK_DEP_MASK_##sdep, #sdep },
396#define tick_dep_mask_name(sdep) { TICK_DEP_MASK_##sdep, #sdep },
397#define tick_dep_name_end(sdep) { TICK_DEP_MASK_##sdep, #sdep }
398
399#define show_tick_dep_name(val) \
400 __print_symbolic(val, TICK_DEP_NAMES)
401
402TRACE_EVENT(tick_stop,
403
404 TP_PROTO(int success, int dependency),
405
406 TP_ARGS(success, dependency),
407
408 TP_STRUCT__entry(
409 __field( int , success )
410 __field( int , dependency )
411 ),
412
413 TP_fast_assign(
414 __entry->success = success;
415 __entry->dependency = dependency;
416 ),
417
418 TP_printk("success=%d dependency=%s", __entry->success, \
419 show_tick_dep_name(__entry->dependency))
420);
421#endif
422
423#endif /* _TRACE_TIMER_H */
424
425/* This part must be outside protection */
426#include <trace/define_trace.h>