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Linux kernel mirror (for testing)
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1/*
2 * Copyright 2022 Advanced Micro Devices, Inc.
3 *
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
10 *
11 * The above copyright notice and this permission notice shall be included in
12 * all copies or substantial portions of the Software.
13 *
14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
17 * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
18 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
20 * OTHER DEALINGS IN THE SOFTWARE.
21 *
22 */
23
24#ifndef __MES_API_DEF_H__
25#define __MES_API_DEF_H__
26
27#pragma pack(push, 4)
28
29#define MES_API_VERSION 1
30
31/* Driver submits one API(cmd) as a single Frame and this command size is same
32 * for all API to ease the debugging and parsing of ring buffer.
33 */
34enum { API_FRAME_SIZE_IN_DWORDS = 64 };
35
36/* To avoid command in scheduler context to be overwritten whenenver mutilple
37 * interrupts come in, this creates another queue.
38 */
39enum { API_NUMBER_OF_COMMAND_MAX = 32 };
40
41enum MES_API_TYPE {
42 MES_API_TYPE_SCHEDULER = 1,
43 MES_API_TYPE_MAX
44};
45
46enum MES_SCH_API_OPCODE {
47 MES_SCH_API_SET_HW_RSRC = 0,
48 MES_SCH_API_SET_SCHEDULING_CONFIG = 1, /* agreegated db, quantums, etc */
49 MES_SCH_API_ADD_QUEUE = 2,
50 MES_SCH_API_REMOVE_QUEUE = 3,
51 MES_SCH_API_PERFORM_YIELD = 4,
52 MES_SCH_API_SET_GANG_PRIORITY_LEVEL = 5,
53 MES_SCH_API_SUSPEND = 6,
54 MES_SCH_API_RESUME = 7,
55 MES_SCH_API_RESET = 8,
56 MES_SCH_API_SET_LOG_BUFFER = 9,
57 MES_SCH_API_CHANGE_GANG_PRORITY = 10,
58 MES_SCH_API_QUERY_SCHEDULER_STATUS = 11,
59 MES_SCH_API_PROGRAM_GDS = 12,
60 MES_SCH_API_SET_DEBUG_VMID = 13,
61 MES_SCH_API_MISC = 14,
62 MES_SCH_API_UPDATE_ROOT_PAGE_TABLE = 15,
63 MES_SCH_API_AMD_LOG = 16,
64 MES_SCH_API_MAX = 0xFF
65};
66
67union MES_API_HEADER {
68 struct {
69 uint32_t type : 4; /* 0 - Invalid; 1 - Scheduling; 2 - TBD */
70 uint32_t opcode : 8;
71 uint32_t dwsize : 8; /* including header */
72 uint32_t reserved : 12;
73 };
74
75 uint32_t u32All;
76};
77
78enum MES_AMD_PRIORITY_LEVEL {
79 AMD_PRIORITY_LEVEL_LOW = 0,
80 AMD_PRIORITY_LEVEL_NORMAL = 1,
81 AMD_PRIORITY_LEVEL_MEDIUM = 2,
82 AMD_PRIORITY_LEVEL_HIGH = 3,
83 AMD_PRIORITY_LEVEL_REALTIME = 4,
84 AMD_PRIORITY_NUM_LEVELS
85};
86
87enum MES_QUEUE_TYPE {
88 MES_QUEUE_TYPE_GFX,
89 MES_QUEUE_TYPE_COMPUTE,
90 MES_QUEUE_TYPE_SDMA,
91 MES_QUEUE_TYPE_MAX,
92};
93
94struct MES_API_STATUS {
95 uint64_t api_completion_fence_addr;
96 uint64_t api_completion_fence_value;
97};
98
99enum { MAX_COMPUTE_PIPES = 8 };
100enum { MAX_GFX_PIPES = 2 };
101enum { MAX_SDMA_PIPES = 2 };
102
103enum { MAX_COMPUTE_HQD_PER_PIPE = 8 };
104enum { MAX_GFX_HQD_PER_PIPE = 8 };
105enum { MAX_SDMA_HQD_PER_PIPE = 10 };
106enum { MAX_SDMA_HQD_PER_PIPE_11_0 = 8 };
107
108enum { MAX_QUEUES_IN_A_GANG = 8 };
109
110enum VM_HUB_TYPE {
111 VM_HUB_TYPE_GC = 0,
112 VM_HUB_TYPE_MM = 1,
113 VM_HUB_TYPE_MAX,
114};
115
116enum { VMID_INVALID = 0xffff };
117
118enum { MAX_VMID_GCHUB = 16 };
119enum { MAX_VMID_MMHUB = 16 };
120
121enum SET_DEBUG_VMID_OPERATIONS {
122 DEBUG_VMID_OP_PROGRAM = 0,
123 DEBUG_VMID_OP_ALLOCATE = 1,
124 DEBUG_VMID_OP_RELEASE = 2
125};
126
127enum MES_LOG_OPERATION {
128 MES_LOG_OPERATION_CONTEXT_STATE_CHANGE = 0,
129 MES_LOG_OPERATION_QUEUE_NEW_WORK = 1,
130 MES_LOG_OPERATION_QUEUE_UNWAIT_SYNC_OBJECT = 2,
131 MES_LOG_OPERATION_QUEUE_NO_MORE_WORK = 3,
132 MES_LOG_OPERATION_QUEUE_WAIT_SYNC_OBJECT = 4,
133 MES_LOG_OPERATION_QUEUE_INVALID = 0xF,
134};
135
136enum MES_LOG_CONTEXT_STATE {
137 MES_LOG_CONTEXT_STATE_IDLE = 0,
138 MES_LOG_CONTEXT_STATE_RUNNING = 1,
139 MES_LOG_CONTEXT_STATE_READY = 2,
140 MES_LOG_CONTEXT_STATE_READY_STANDBY = 3,
141 MES_LOG_CONTEXT_STATE_INVALID = 0xF,
142};
143
144struct MES_LOG_CONTEXT_STATE_CHANGE {
145 void *h_context;
146 enum MES_LOG_CONTEXT_STATE new_context_state;
147};
148
149struct MES_LOG_QUEUE_NEW_WORK {
150 uint64_t h_queue;
151 uint64_t reserved;
152};
153
154struct MES_LOG_QUEUE_UNWAIT_SYNC_OBJECT {
155 uint64_t h_queue;
156 uint64_t h_sync_object;
157};
158
159struct MES_LOG_QUEUE_NO_MORE_WORK {
160 uint64_t h_queue;
161 uint64_t reserved;
162};
163
164struct MES_LOG_QUEUE_WAIT_SYNC_OBJECT {
165 uint64_t h_queue;
166 uint64_t h_sync_object;
167};
168
169struct MES_LOG_ENTRY_HEADER {
170 uint32_t first_free_entry_index;
171 uint32_t wraparound_count;
172 uint64_t number_of_entries;
173 uint64_t reserved[2];
174};
175
176struct MES_LOG_ENTRY_DATA {
177 uint64_t gpu_time_stamp;
178 uint32_t operation_type; /* operation_type is of MES_LOG_OPERATION type */
179 uint32_t reserved_operation_type_bits;
180 union {
181 struct MES_LOG_CONTEXT_STATE_CHANGE context_state_change;
182 struct MES_LOG_QUEUE_NEW_WORK queue_new_work;
183 struct MES_LOG_QUEUE_UNWAIT_SYNC_OBJECT queue_unwait_sync_object;
184 struct MES_LOG_QUEUE_NO_MORE_WORK queue_no_more_work;
185 struct MES_LOG_QUEUE_WAIT_SYNC_OBJECT queue_wait_sync_object;
186 uint64_t all[2];
187 };
188};
189
190struct MES_LOG_BUFFER {
191 struct MES_LOG_ENTRY_HEADER header;
192 struct MES_LOG_ENTRY_DATA entries[1];
193};
194
195enum MES_SWIP_TO_HWIP_DEF {
196 MES_MAX_HWIP_SEGMENT = 8,
197};
198
199union MESAPI_SET_HW_RESOURCES {
200 struct {
201 union MES_API_HEADER header;
202 uint32_t vmid_mask_mmhub;
203 uint32_t vmid_mask_gfxhub;
204 uint32_t gds_size;
205 uint32_t paging_vmid;
206 uint32_t compute_hqd_mask[MAX_COMPUTE_PIPES];
207 uint32_t gfx_hqd_mask[MAX_GFX_PIPES];
208 uint32_t sdma_hqd_mask[MAX_SDMA_PIPES];
209 uint32_t aggregated_doorbells[AMD_PRIORITY_NUM_LEVELS];
210 uint64_t g_sch_ctx_gpu_mc_ptr;
211 uint64_t query_status_fence_gpu_mc_ptr;
212 uint32_t gc_base[MES_MAX_HWIP_SEGMENT];
213 uint32_t mmhub_base[MES_MAX_HWIP_SEGMENT];
214 uint32_t osssys_base[MES_MAX_HWIP_SEGMENT];
215 struct MES_API_STATUS api_status;
216 union {
217 struct {
218 uint32_t disable_reset : 1;
219 uint32_t use_different_vmid_compute : 1;
220 uint32_t disable_mes_log : 1;
221 uint32_t apply_mmhub_pgvm_invalidate_ack_loss_wa : 1;
222 uint32_t apply_grbm_remote_register_dummy_read_wa : 1;
223 uint32_t second_gfx_pipe_enabled : 1;
224 uint32_t enable_level_process_quantum_check : 1;
225 uint32_t reserved : 25;
226 };
227 uint32_t uint32_t_all;
228 };
229 uint32_t oversubscription_timer;
230 uint64_t doorbell_info;
231 };
232
233 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
234};
235
236union MESAPI__ADD_QUEUE {
237 struct {
238 union MES_API_HEADER header;
239 uint32_t process_id;
240 uint64_t page_table_base_addr;
241 uint64_t process_va_start;
242 uint64_t process_va_end;
243 uint64_t process_quantum;
244 uint64_t process_context_addr;
245 uint64_t gang_quantum;
246 uint64_t gang_context_addr;
247 uint32_t inprocess_gang_priority;
248 enum MES_AMD_PRIORITY_LEVEL gang_global_priority_level;
249 uint32_t doorbell_offset;
250 uint64_t mqd_addr;
251 uint64_t wptr_addr;
252 uint64_t h_context;
253 uint64_t h_queue;
254 enum MES_QUEUE_TYPE queue_type;
255 uint32_t gds_base;
256 uint32_t gds_size;
257 uint32_t gws_base;
258 uint32_t gws_size;
259 uint32_t oa_mask;
260 uint64_t trap_handler_addr;
261 uint32_t vm_context_cntl;
262
263 struct {
264 uint32_t paging : 1;
265 uint32_t debug_vmid : 4;
266 uint32_t program_gds : 1;
267 uint32_t is_gang_suspended : 1;
268 uint32_t is_tmz_queue : 1;
269 uint32_t map_kiq_utility_queue : 1;
270 uint32_t is_kfd_process : 1;
271 uint32_t trap_en : 1;
272 uint32_t reserved : 21;
273 };
274 struct MES_API_STATUS api_status;
275 uint64_t tma_addr;
276 };
277
278 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
279};
280
281union MESAPI__REMOVE_QUEUE {
282 struct {
283 union MES_API_HEADER header;
284 uint32_t doorbell_offset;
285 uint64_t gang_context_addr;
286
287 struct {
288 uint32_t unmap_legacy_gfx_queue : 1;
289 uint32_t unmap_kiq_utility_queue : 1;
290 uint32_t preempt_legacy_gfx_queue : 1;
291 uint32_t unmap_legacy_queue : 1;
292 uint32_t reserved : 28;
293 };
294 struct MES_API_STATUS api_status;
295
296 uint32_t pipe_id;
297 uint32_t queue_id;
298
299 uint64_t tf_addr;
300 uint32_t tf_data;
301
302 enum MES_QUEUE_TYPE queue_type;
303 };
304
305 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
306};
307
308union MESAPI__SET_SCHEDULING_CONFIG {
309 struct {
310 union MES_API_HEADER header;
311 /* Grace period when preempting another priority band for this
312 * priority band. The value for idle priority band is ignored,
313 * as it never preempts other bands.
314 */
315 uint64_t grace_period_other_levels[AMD_PRIORITY_NUM_LEVELS];
316 /* Default quantum for scheduling across processes within
317 * a priority band.
318 */
319 uint64_t process_quantum_for_level[AMD_PRIORITY_NUM_LEVELS];
320 /* Default grace period for processes that preempt each other
321 * within a priority band.
322 */
323 uint64_t process_grace_period_same_level[AMD_PRIORITY_NUM_LEVELS];
324 /* For normal level this field specifies the target GPU
325 * percentage in situations when it's starved by the high level.
326 * Valid values are between 0 and 50, with the default being 10.
327 */
328 uint32_t normal_yield_percent;
329 struct MES_API_STATUS api_status;
330 };
331
332 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
333};
334
335union MESAPI__PERFORM_YIELD {
336 struct {
337 union MES_API_HEADER header;
338 uint32_t dummy;
339 struct MES_API_STATUS api_status;
340 };
341
342 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
343};
344
345union MESAPI__CHANGE_GANG_PRIORITY_LEVEL {
346 struct {
347 union MES_API_HEADER header;
348 uint32_t inprocess_gang_priority;
349 enum MES_AMD_PRIORITY_LEVEL gang_global_priority_level;
350 uint64_t gang_quantum;
351 uint64_t gang_context_addr;
352 struct MES_API_STATUS api_status;
353 };
354
355 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
356};
357
358union MESAPI__SUSPEND {
359 struct {
360 union MES_API_HEADER header;
361 /* false - suspend all gangs; true - specific gang */
362 struct {
363 uint32_t suspend_all_gangs : 1;
364 uint32_t reserved : 31;
365 };
366 /* gang_context_addr is valid only if suspend_all = false */
367 uint64_t gang_context_addr;
368
369 uint64_t suspend_fence_addr;
370 uint32_t suspend_fence_value;
371
372 struct MES_API_STATUS api_status;
373 };
374
375 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
376};
377
378union MESAPI__RESUME {
379 struct {
380 union MES_API_HEADER header;
381 /* false - resume all gangs; true - specified gang */
382 struct {
383 uint32_t resume_all_gangs : 1;
384 uint32_t reserved : 31;
385 };
386 /* valid only if resume_all_gangs = false */
387 uint64_t gang_context_addr;
388
389 struct MES_API_STATUS api_status;
390 };
391
392 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
393};
394
395union MESAPI__RESET {
396 struct {
397 union MES_API_HEADER header;
398
399 struct {
400 /* Only reset the queue given by doorbell_offset (not entire gang) */
401 uint32_t reset_queue_only : 1;
402 /* Hang detection first then reset any queues that are hung */
403 uint32_t hang_detect_then_reset : 1;
404 /* Only do hang detection (no reset) */
405 uint32_t hang_detect_only : 1;
406 /* Rest HP and LP kernel queues not managed by MES */
407 uint32_t reset_legacy_gfx : 1;
408 uint32_t reserved : 28;
409 };
410
411 uint64_t gang_context_addr;
412
413 /* valid only if reset_queue_only = true */
414 uint32_t doorbell_offset;
415
416 /* valid only if hang_detect_then_reset = true */
417 uint64_t doorbell_offset_addr;
418 enum MES_QUEUE_TYPE queue_type;
419
420 /* valid only if reset_legacy_gfx = true */
421 uint32_t pipe_id_lp;
422 uint32_t queue_id_lp;
423 uint32_t vmid_id_lp;
424 uint64_t mqd_mc_addr_lp;
425 uint32_t doorbell_offset_lp;
426 uint64_t wptr_addr_lp;
427
428 uint32_t pipe_id_hp;
429 uint32_t queue_id_hp;
430 uint32_t vmid_id_hp;
431 uint64_t mqd_mc_addr_hp;
432 uint32_t doorbell_offset_hp;
433 uint64_t wptr_addr_hp;
434
435 struct MES_API_STATUS api_status;
436 };
437
438 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
439};
440
441union MESAPI__SET_LOGGING_BUFFER {
442 struct {
443 union MES_API_HEADER header;
444 /* There are separate log buffers for each queue type */
445 enum MES_QUEUE_TYPE log_type;
446 /* Log buffer GPU Address */
447 uint64_t logging_buffer_addr;
448 /* number of entries in the log buffer */
449 uint32_t number_of_entries;
450 /* Entry index at which CPU interrupt needs to be signalled */
451 uint32_t interrupt_entry;
452
453 struct MES_API_STATUS api_status;
454 };
455
456 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
457};
458
459union MESAPI__QUERY_MES_STATUS {
460 struct {
461 union MES_API_HEADER header;
462 bool mes_healthy; /* 0 - not healthy, 1 - healthy */
463 struct MES_API_STATUS api_status;
464 };
465
466 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
467};
468
469union MESAPI__PROGRAM_GDS {
470 struct {
471 union MES_API_HEADER header;
472 uint64_t process_context_addr;
473 uint32_t gds_base;
474 uint32_t gds_size;
475 uint32_t gws_base;
476 uint32_t gws_size;
477 uint32_t oa_mask;
478 struct MES_API_STATUS api_status;
479 };
480
481 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
482};
483
484union MESAPI__SET_DEBUG_VMID {
485 struct {
486 union MES_API_HEADER header;
487 struct MES_API_STATUS api_status;
488 union {
489 struct {
490 uint32_t use_gds : 1;
491 uint32_t operation : 2;
492 uint32_t reserved : 29;
493 } flags;
494 uint32_t u32All;
495 };
496 uint32_t reserved;
497 uint32_t debug_vmid;
498 uint64_t process_context_addr;
499 uint64_t page_table_base_addr;
500 uint64_t process_va_start;
501 uint64_t process_va_end;
502 uint32_t gds_base;
503 uint32_t gds_size;
504 uint32_t gws_base;
505 uint32_t gws_size;
506 uint32_t oa_mask;
507
508 /* output addr of the acquired vmid value */
509 uint64_t output_addr;
510 };
511
512 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
513};
514
515enum MESAPI_MISC_OPCODE {
516 MESAPI_MISC__WRITE_REG,
517 MESAPI_MISC__INV_GART,
518 MESAPI_MISC__QUERY_STATUS,
519 MESAPI_MISC__READ_REG,
520 MESAPI_MISC__WAIT_REG_MEM,
521 MESAPI_MISC__MAX,
522};
523
524enum { MISC_DATA_MAX_SIZE_IN_DWORDS = 20 };
525
526struct WRITE_REG {
527 uint32_t reg_offset;
528 uint32_t reg_value;
529};
530
531struct READ_REG {
532 uint32_t reg_offset;
533 uint64_t buffer_addr;
534};
535
536enum WRM_OPERATION {
537 WRM_OPERATION__WAIT_REG_MEM,
538 WRM_OPERATION__WR_WAIT_WR_REG,
539 WRM_OPERATION__MAX,
540};
541
542struct WAIT_REG_MEM {
543 enum WRM_OPERATION op;
544 uint32_t reference;
545 uint32_t mask;
546 uint32_t reg_offset1;
547 uint32_t reg_offset2;
548};
549
550struct INV_GART {
551 uint64_t inv_range_va_start;
552 uint64_t inv_range_size;
553};
554
555struct QUERY_STATUS {
556 uint32_t context_id;
557};
558
559union MESAPI__MISC {
560 struct {
561 union MES_API_HEADER header;
562 enum MESAPI_MISC_OPCODE opcode;
563 struct MES_API_STATUS api_status;
564
565 union {
566 struct WRITE_REG write_reg;
567 struct INV_GART inv_gart;
568 struct QUERY_STATUS query_status;
569 struct READ_REG read_reg;
570 struct WAIT_REG_MEM wait_reg_mem;
571 uint32_t data[MISC_DATA_MAX_SIZE_IN_DWORDS];
572 };
573 };
574
575 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
576};
577
578union MESAPI__UPDATE_ROOT_PAGE_TABLE {
579 struct {
580 union MES_API_HEADER header;
581 uint64_t page_table_base_addr;
582 uint64_t process_context_addr;
583 struct MES_API_STATUS api_status;
584 };
585
586 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
587};
588
589union MESAPI_AMD_LOG {
590 struct {
591 union MES_API_HEADER header;
592 uint64_t p_buffer_memory;
593 uint64_t p_buffer_size_used;
594 struct MES_API_STATUS api_status;
595 };
596
597 uint32_t max_dwords_in_api[API_FRAME_SIZE_IN_DWORDS];
598};
599
600#pragma pack(pop)
601#endif