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1/* SPDX-License-Identifier: GPL-2.0-only */
2/*
3 * Copyright © 2022 Intel Corporation
4 */
5
6#undef TRACE_SYSTEM
7#define TRACE_SYSTEM xe
8
9#if !defined(_XE_TRACE_H_) || defined(TRACE_HEADER_MULTI_READ)
10#define _XE_TRACE_H_
11
12#include <linux/tracepoint.h>
13#include <linux/types.h>
14
15#include "xe_bo.h"
16#include "xe_bo_types.h"
17#include "xe_exec_queue_types.h"
18#include "xe_gpu_scheduler_types.h"
19#include "xe_gt_tlb_invalidation_types.h"
20#include "xe_gt_types.h"
21#include "xe_guc_exec_queue_types.h"
22#include "xe_sched_job.h"
23#include "xe_vm.h"
24
25DECLARE_EVENT_CLASS(xe_gt_tlb_invalidation_fence,
26 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
27 TP_ARGS(fence),
28
29 TP_STRUCT__entry(
30 __field(struct xe_gt_tlb_invalidation_fence *, fence)
31 __field(int, seqno)
32 ),
33
34 TP_fast_assign(
35 __entry->fence = fence;
36 __entry->seqno = fence->seqno;
37 ),
38
39 TP_printk("fence=%p, seqno=%d",
40 __entry->fence, __entry->seqno)
41);
42
43DEFINE_EVENT(xe_gt_tlb_invalidation_fence, xe_gt_tlb_invalidation_fence_create,
44 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
45 TP_ARGS(fence)
46);
47
48DEFINE_EVENT(xe_gt_tlb_invalidation_fence,
49 xe_gt_tlb_invalidation_fence_work_func,
50 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
51 TP_ARGS(fence)
52);
53
54DEFINE_EVENT(xe_gt_tlb_invalidation_fence, xe_gt_tlb_invalidation_fence_cb,
55 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
56 TP_ARGS(fence)
57);
58
59DEFINE_EVENT(xe_gt_tlb_invalidation_fence, xe_gt_tlb_invalidation_fence_send,
60 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
61 TP_ARGS(fence)
62);
63
64DEFINE_EVENT(xe_gt_tlb_invalidation_fence, xe_gt_tlb_invalidation_fence_recv,
65 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
66 TP_ARGS(fence)
67);
68
69DEFINE_EVENT(xe_gt_tlb_invalidation_fence, xe_gt_tlb_invalidation_fence_signal,
70 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
71 TP_ARGS(fence)
72);
73
74DEFINE_EVENT(xe_gt_tlb_invalidation_fence, xe_gt_tlb_invalidation_fence_timeout,
75 TP_PROTO(struct xe_gt_tlb_invalidation_fence *fence),
76 TP_ARGS(fence)
77);
78
79DECLARE_EVENT_CLASS(xe_bo,
80 TP_PROTO(struct xe_bo *bo),
81 TP_ARGS(bo),
82
83 TP_STRUCT__entry(
84 __field(size_t, size)
85 __field(u32, flags)
86 __field(struct xe_vm *, vm)
87 ),
88
89 TP_fast_assign(
90 __entry->size = bo->size;
91 __entry->flags = bo->flags;
92 __entry->vm = bo->vm;
93 ),
94
95 TP_printk("size=%zu, flags=0x%02x, vm=%p",
96 __entry->size, __entry->flags, __entry->vm)
97);
98
99DEFINE_EVENT(xe_bo, xe_bo_cpu_fault,
100 TP_PROTO(struct xe_bo *bo),
101 TP_ARGS(bo)
102);
103
104TRACE_EVENT(xe_bo_move,
105 TP_PROTO(struct xe_bo *bo, uint32_t new_placement, uint32_t old_placement,
106 bool move_lacks_source),
107 TP_ARGS(bo, new_placement, old_placement, move_lacks_source),
108 TP_STRUCT__entry(
109 __field(struct xe_bo *, bo)
110 __field(size_t, size)
111 __field(u32, new_placement)
112 __field(u32, old_placement)
113 __array(char, device_id, 12)
114 __field(bool, move_lacks_source)
115 ),
116
117 TP_fast_assign(
118 __entry->bo = bo;
119 __entry->size = bo->size;
120 __entry->new_placement = new_placement;
121 __entry->old_placement = old_placement;
122 strscpy(__entry->device_id, dev_name(xe_bo_device(__entry->bo)->drm.dev), 12);
123 __entry->move_lacks_source = move_lacks_source;
124 ),
125 TP_printk("move_lacks_source:%s, migrate object %p [size %zu] from %s to %s device_id:%s",
126 __entry->move_lacks_source ? "yes" : "no", __entry->bo, __entry->size,
127 xe_mem_type_to_name[__entry->old_placement],
128 xe_mem_type_to_name[__entry->new_placement], __entry->device_id)
129);
130
131DECLARE_EVENT_CLASS(xe_exec_queue,
132 TP_PROTO(struct xe_exec_queue *q),
133 TP_ARGS(q),
134
135 TP_STRUCT__entry(
136 __field(enum xe_engine_class, class)
137 __field(u32, logical_mask)
138 __field(u8, gt_id)
139 __field(u16, width)
140 __field(u16, guc_id)
141 __field(u32, guc_state)
142 __field(u32, flags)
143 ),
144
145 TP_fast_assign(
146 __entry->class = q->class;
147 __entry->logical_mask = q->logical_mask;
148 __entry->gt_id = q->gt->info.id;
149 __entry->width = q->width;
150 __entry->guc_id = q->guc->id;
151 __entry->guc_state = atomic_read(&q->guc->state);
152 __entry->flags = q->flags;
153 ),
154
155 TP_printk("%d:0x%x, gt=%d, width=%d, guc_id=%d, guc_state=0x%x, flags=0x%x",
156 __entry->class, __entry->logical_mask,
157 __entry->gt_id, __entry->width, __entry->guc_id,
158 __entry->guc_state, __entry->flags)
159);
160
161DEFINE_EVENT(xe_exec_queue, xe_exec_queue_create,
162 TP_PROTO(struct xe_exec_queue *q),
163 TP_ARGS(q)
164);
165
166DEFINE_EVENT(xe_exec_queue, xe_exec_queue_supress_resume,
167 TP_PROTO(struct xe_exec_queue *q),
168 TP_ARGS(q)
169);
170
171DEFINE_EVENT(xe_exec_queue, xe_exec_queue_submit,
172 TP_PROTO(struct xe_exec_queue *q),
173 TP_ARGS(q)
174);
175
176DEFINE_EVENT(xe_exec_queue, xe_exec_queue_scheduling_enable,
177 TP_PROTO(struct xe_exec_queue *q),
178 TP_ARGS(q)
179);
180
181DEFINE_EVENT(xe_exec_queue, xe_exec_queue_scheduling_disable,
182 TP_PROTO(struct xe_exec_queue *q),
183 TP_ARGS(q)
184);
185
186DEFINE_EVENT(xe_exec_queue, xe_exec_queue_scheduling_done,
187 TP_PROTO(struct xe_exec_queue *q),
188 TP_ARGS(q)
189);
190
191DEFINE_EVENT(xe_exec_queue, xe_exec_queue_register,
192 TP_PROTO(struct xe_exec_queue *q),
193 TP_ARGS(q)
194);
195
196DEFINE_EVENT(xe_exec_queue, xe_exec_queue_deregister,
197 TP_PROTO(struct xe_exec_queue *q),
198 TP_ARGS(q)
199);
200
201DEFINE_EVENT(xe_exec_queue, xe_exec_queue_deregister_done,
202 TP_PROTO(struct xe_exec_queue *q),
203 TP_ARGS(q)
204);
205
206DEFINE_EVENT(xe_exec_queue, xe_exec_queue_close,
207 TP_PROTO(struct xe_exec_queue *q),
208 TP_ARGS(q)
209);
210
211DEFINE_EVENT(xe_exec_queue, xe_exec_queue_kill,
212 TP_PROTO(struct xe_exec_queue *q),
213 TP_ARGS(q)
214);
215
216DEFINE_EVENT(xe_exec_queue, xe_exec_queue_cleanup_entity,
217 TP_PROTO(struct xe_exec_queue *q),
218 TP_ARGS(q)
219);
220
221DEFINE_EVENT(xe_exec_queue, xe_exec_queue_destroy,
222 TP_PROTO(struct xe_exec_queue *q),
223 TP_ARGS(q)
224);
225
226DEFINE_EVENT(xe_exec_queue, xe_exec_queue_reset,
227 TP_PROTO(struct xe_exec_queue *q),
228 TP_ARGS(q)
229);
230
231DEFINE_EVENT(xe_exec_queue, xe_exec_queue_memory_cat_error,
232 TP_PROTO(struct xe_exec_queue *q),
233 TP_ARGS(q)
234);
235
236DEFINE_EVENT(xe_exec_queue, xe_exec_queue_stop,
237 TP_PROTO(struct xe_exec_queue *q),
238 TP_ARGS(q)
239);
240
241DEFINE_EVENT(xe_exec_queue, xe_exec_queue_resubmit,
242 TP_PROTO(struct xe_exec_queue *q),
243 TP_ARGS(q)
244);
245
246DEFINE_EVENT(xe_exec_queue, xe_exec_queue_lr_cleanup,
247 TP_PROTO(struct xe_exec_queue *q),
248 TP_ARGS(q)
249);
250
251DECLARE_EVENT_CLASS(xe_sched_job,
252 TP_PROTO(struct xe_sched_job *job),
253 TP_ARGS(job),
254
255 TP_STRUCT__entry(
256 __field(u32, seqno)
257 __field(u16, guc_id)
258 __field(u32, guc_state)
259 __field(u32, flags)
260 __field(int, error)
261 __field(u64, fence)
262 __field(u64, batch_addr)
263 ),
264
265 TP_fast_assign(
266 __entry->seqno = xe_sched_job_seqno(job);
267 __entry->guc_id = job->q->guc->id;
268 __entry->guc_state =
269 atomic_read(&job->q->guc->state);
270 __entry->flags = job->q->flags;
271 __entry->error = job->fence->error;
272 __entry->fence = (unsigned long)job->fence;
273 __entry->batch_addr = (u64)job->batch_addr[0];
274 ),
275
276 TP_printk("fence=0x%016llx, seqno=%u, guc_id=%d, batch_addr=0x%012llx, guc_state=0x%x, flags=0x%x, error=%d",
277 __entry->fence, __entry->seqno, __entry->guc_id,
278 __entry->batch_addr, __entry->guc_state,
279 __entry->flags, __entry->error)
280);
281
282DEFINE_EVENT(xe_sched_job, xe_sched_job_create,
283 TP_PROTO(struct xe_sched_job *job),
284 TP_ARGS(job)
285);
286
287DEFINE_EVENT(xe_sched_job, xe_sched_job_exec,
288 TP_PROTO(struct xe_sched_job *job),
289 TP_ARGS(job)
290);
291
292DEFINE_EVENT(xe_sched_job, xe_sched_job_run,
293 TP_PROTO(struct xe_sched_job *job),
294 TP_ARGS(job)
295);
296
297DEFINE_EVENT(xe_sched_job, xe_sched_job_free,
298 TP_PROTO(struct xe_sched_job *job),
299 TP_ARGS(job)
300);
301
302DEFINE_EVENT(xe_sched_job, xe_sched_job_timedout,
303 TP_PROTO(struct xe_sched_job *job),
304 TP_ARGS(job)
305);
306
307DEFINE_EVENT(xe_sched_job, xe_sched_job_set_error,
308 TP_PROTO(struct xe_sched_job *job),
309 TP_ARGS(job)
310);
311
312DEFINE_EVENT(xe_sched_job, xe_sched_job_ban,
313 TP_PROTO(struct xe_sched_job *job),
314 TP_ARGS(job)
315);
316
317DECLARE_EVENT_CLASS(xe_sched_msg,
318 TP_PROTO(struct xe_sched_msg *msg),
319 TP_ARGS(msg),
320
321 TP_STRUCT__entry(
322 __field(u32, opcode)
323 __field(u16, guc_id)
324 ),
325
326 TP_fast_assign(
327 __entry->opcode = msg->opcode;
328 __entry->guc_id =
329 ((struct xe_exec_queue *)msg->private_data)->guc->id;
330 ),
331
332 TP_printk("guc_id=%d, opcode=%u", __entry->guc_id,
333 __entry->opcode)
334);
335
336DEFINE_EVENT(xe_sched_msg, xe_sched_msg_add,
337 TP_PROTO(struct xe_sched_msg *msg),
338 TP_ARGS(msg)
339);
340
341DEFINE_EVENT(xe_sched_msg, xe_sched_msg_recv,
342 TP_PROTO(struct xe_sched_msg *msg),
343 TP_ARGS(msg)
344);
345
346DECLARE_EVENT_CLASS(xe_hw_fence,
347 TP_PROTO(struct xe_hw_fence *fence),
348 TP_ARGS(fence),
349
350 TP_STRUCT__entry(
351 __field(u64, ctx)
352 __field(u32, seqno)
353 __field(struct xe_hw_fence *, fence)
354 ),
355
356 TP_fast_assign(
357 __entry->ctx = fence->dma.context;
358 __entry->seqno = fence->dma.seqno;
359 __entry->fence = fence;
360 ),
361
362 TP_printk("ctx=0x%016llx, fence=%p, seqno=%u",
363 __entry->ctx, __entry->fence, __entry->seqno)
364);
365
366DEFINE_EVENT(xe_hw_fence, xe_hw_fence_create,
367 TP_PROTO(struct xe_hw_fence *fence),
368 TP_ARGS(fence)
369);
370
371DEFINE_EVENT(xe_hw_fence, xe_hw_fence_signal,
372 TP_PROTO(struct xe_hw_fence *fence),
373 TP_ARGS(fence)
374);
375
376DEFINE_EVENT(xe_hw_fence, xe_hw_fence_try_signal,
377 TP_PROTO(struct xe_hw_fence *fence),
378 TP_ARGS(fence)
379);
380
381DEFINE_EVENT(xe_hw_fence, xe_hw_fence_free,
382 TP_PROTO(struct xe_hw_fence *fence),
383 TP_ARGS(fence)
384);
385
386DECLARE_EVENT_CLASS(xe_vma,
387 TP_PROTO(struct xe_vma *vma),
388 TP_ARGS(vma),
389
390 TP_STRUCT__entry(
391 __field(struct xe_vma *, vma)
392 __field(u32, asid)
393 __field(u64, start)
394 __field(u64, end)
395 __field(u64, ptr)
396 ),
397
398 TP_fast_assign(
399 __entry->vma = vma;
400 __entry->asid = xe_vma_vm(vma)->usm.asid;
401 __entry->start = xe_vma_start(vma);
402 __entry->end = xe_vma_end(vma) - 1;
403 __entry->ptr = xe_vma_userptr(vma);
404 ),
405
406 TP_printk("vma=%p, asid=0x%05x, start=0x%012llx, end=0x%012llx, userptr=0x%012llx,",
407 __entry->vma, __entry->asid, __entry->start,
408 __entry->end, __entry->ptr)
409)
410
411DEFINE_EVENT(xe_vma, xe_vma_flush,
412 TP_PROTO(struct xe_vma *vma),
413 TP_ARGS(vma)
414);
415
416DEFINE_EVENT(xe_vma, xe_vma_pagefault,
417 TP_PROTO(struct xe_vma *vma),
418 TP_ARGS(vma)
419);
420
421DEFINE_EVENT(xe_vma, xe_vma_acc,
422 TP_PROTO(struct xe_vma *vma),
423 TP_ARGS(vma)
424);
425
426DEFINE_EVENT(xe_vma, xe_vma_fail,
427 TP_PROTO(struct xe_vma *vma),
428 TP_ARGS(vma)
429);
430
431DEFINE_EVENT(xe_vma, xe_vma_bind,
432 TP_PROTO(struct xe_vma *vma),
433 TP_ARGS(vma)
434);
435
436DEFINE_EVENT(xe_vma, xe_vma_pf_bind,
437 TP_PROTO(struct xe_vma *vma),
438 TP_ARGS(vma)
439);
440
441DEFINE_EVENT(xe_vma, xe_vma_unbind,
442 TP_PROTO(struct xe_vma *vma),
443 TP_ARGS(vma)
444);
445
446DEFINE_EVENT(xe_vma, xe_vma_userptr_rebind_worker,
447 TP_PROTO(struct xe_vma *vma),
448 TP_ARGS(vma)
449);
450
451DEFINE_EVENT(xe_vma, xe_vma_userptr_rebind_exec,
452 TP_PROTO(struct xe_vma *vma),
453 TP_ARGS(vma)
454);
455
456DEFINE_EVENT(xe_vma, xe_vma_rebind_worker,
457 TP_PROTO(struct xe_vma *vma),
458 TP_ARGS(vma)
459);
460
461DEFINE_EVENT(xe_vma, xe_vma_rebind_exec,
462 TP_PROTO(struct xe_vma *vma),
463 TP_ARGS(vma)
464);
465
466DEFINE_EVENT(xe_vma, xe_vma_userptr_invalidate,
467 TP_PROTO(struct xe_vma *vma),
468 TP_ARGS(vma)
469);
470
471DEFINE_EVENT(xe_vma, xe_vma_usm_invalidate,
472 TP_PROTO(struct xe_vma *vma),
473 TP_ARGS(vma)
474);
475
476DEFINE_EVENT(xe_vma, xe_vma_evict,
477 TP_PROTO(struct xe_vma *vma),
478 TP_ARGS(vma)
479);
480
481DEFINE_EVENT(xe_vma, xe_vma_userptr_invalidate_complete,
482 TP_PROTO(struct xe_vma *vma),
483 TP_ARGS(vma)
484);
485
486DECLARE_EVENT_CLASS(xe_vm,
487 TP_PROTO(struct xe_vm *vm),
488 TP_ARGS(vm),
489
490 TP_STRUCT__entry(
491 __field(struct xe_vm *, vm)
492 __field(u32, asid)
493 ),
494
495 TP_fast_assign(
496 __entry->vm = vm;
497 __entry->asid = vm->usm.asid;
498 ),
499
500 TP_printk("vm=%p, asid=0x%05x", __entry->vm,
501 __entry->asid)
502);
503
504DEFINE_EVENT(xe_vm, xe_vm_kill,
505 TP_PROTO(struct xe_vm *vm),
506 TP_ARGS(vm)
507);
508
509DEFINE_EVENT(xe_vm, xe_vm_create,
510 TP_PROTO(struct xe_vm *vm),
511 TP_ARGS(vm)
512);
513
514DEFINE_EVENT(xe_vm, xe_vm_free,
515 TP_PROTO(struct xe_vm *vm),
516 TP_ARGS(vm)
517);
518
519DEFINE_EVENT(xe_vm, xe_vm_cpu_bind,
520 TP_PROTO(struct xe_vm *vm),
521 TP_ARGS(vm)
522);
523
524DEFINE_EVENT(xe_vm, xe_vm_restart,
525 TP_PROTO(struct xe_vm *vm),
526 TP_ARGS(vm)
527);
528
529DEFINE_EVENT(xe_vm, xe_vm_rebind_worker_enter,
530 TP_PROTO(struct xe_vm *vm),
531 TP_ARGS(vm)
532);
533
534DEFINE_EVENT(xe_vm, xe_vm_rebind_worker_retry,
535 TP_PROTO(struct xe_vm *vm),
536 TP_ARGS(vm)
537);
538
539DEFINE_EVENT(xe_vm, xe_vm_rebind_worker_exit,
540 TP_PROTO(struct xe_vm *vm),
541 TP_ARGS(vm)
542);
543
544/* GuC */
545DECLARE_EVENT_CLASS(xe_guc_ct_flow_control,
546 TP_PROTO(u32 _head, u32 _tail, u32 size, u32 space, u32 len),
547 TP_ARGS(_head, _tail, size, space, len),
548
549 TP_STRUCT__entry(
550 __field(u32, _head)
551 __field(u32, _tail)
552 __field(u32, size)
553 __field(u32, space)
554 __field(u32, len)
555 ),
556
557 TP_fast_assign(
558 __entry->_head = _head;
559 __entry->_tail = _tail;
560 __entry->size = size;
561 __entry->space = space;
562 __entry->len = len;
563 ),
564
565 TP_printk("h2g flow control: head=%u, tail=%u, size=%u, space=%u, len=%u",
566 __entry->_head, __entry->_tail, __entry->size,
567 __entry->space, __entry->len)
568);
569
570DEFINE_EVENT(xe_guc_ct_flow_control, xe_guc_ct_h2g_flow_control,
571 TP_PROTO(u32 _head, u32 _tail, u32 size, u32 space, u32 len),
572 TP_ARGS(_head, _tail, size, space, len)
573);
574
575DEFINE_EVENT_PRINT(xe_guc_ct_flow_control, xe_guc_ct_g2h_flow_control,
576 TP_PROTO(u32 _head, u32 _tail, u32 size, u32 space, u32 len),
577 TP_ARGS(_head, _tail, size, space, len),
578
579 TP_printk("g2h flow control: head=%u, tail=%u, size=%u, space=%u, len=%u",
580 __entry->_head, __entry->_tail, __entry->size,
581 __entry->space, __entry->len)
582);
583
584DECLARE_EVENT_CLASS(xe_guc_ctb,
585 TP_PROTO(u8 gt_id, u32 action, u32 len, u32 _head, u32 tail),
586 TP_ARGS(gt_id, action, len, _head, tail),
587
588 TP_STRUCT__entry(
589 __field(u8, gt_id)
590 __field(u32, action)
591 __field(u32, len)
592 __field(u32, tail)
593 __field(u32, _head)
594 ),
595
596 TP_fast_assign(
597 __entry->gt_id = gt_id;
598 __entry->action = action;
599 __entry->len = len;
600 __entry->tail = tail;
601 __entry->_head = _head;
602 ),
603
604 TP_printk("gt%d: H2G CTB: action=0x%x, len=%d, tail=%d, head=%d\n",
605 __entry->gt_id, __entry->action, __entry->len,
606 __entry->tail, __entry->_head)
607);
608
609DEFINE_EVENT(xe_guc_ctb, xe_guc_ctb_h2g,
610 TP_PROTO(u8 gt_id, u32 action, u32 len, u32 _head, u32 tail),
611 TP_ARGS(gt_id, action, len, _head, tail)
612);
613
614DEFINE_EVENT_PRINT(xe_guc_ctb, xe_guc_ctb_g2h,
615 TP_PROTO(u8 gt_id, u32 action, u32 len, u32 _head, u32 tail),
616 TP_ARGS(gt_id, action, len, _head, tail),
617
618 TP_printk("gt%d: G2H CTB: action=0x%x, len=%d, tail=%d, head=%d\n",
619 __entry->gt_id, __entry->action, __entry->len,
620 __entry->tail, __entry->_head)
621
622);
623
624#endif
625
626/* This part must be outside protection */
627#undef TRACE_INCLUDE_PATH
628#undef TRACE_INCLUDE_FILE
629#define TRACE_INCLUDE_PATH ../../drivers/gpu/drm/xe
630#define TRACE_INCLUDE_FILE xe_trace
631#include <trace/define_trace.h>