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1 /* SPDX-License-Identifier: MIT */
2 /*
3  * Copyright © 2019 Intel Corporation
4  */
5 
6 #ifndef __INTEL_ENGINE_TYPES__
7 #define __INTEL_ENGINE_TYPES__
8 
9 #include <linux/average.h>
10 #include <linux/hashtable.h>
11 #include <linux/irq_work.h>
12 #include <linux/kref.h>
13 #include <linux/list.h>
14 #include <linux/llist.h>
15 #include <linux/rbtree.h>
16 #include <linux/timer.h>
17 #include <linux/types.h>
18 #include <linux/workqueue.h>
19 
20 #include "i915_gem.h"
21 #include "i915_pmu.h"
22 #include "i915_priolist_types.h"
23 #include "i915_selftest.h"
24 #include "intel_sseu.h"
25 #include "intel_timeline_types.h"
26 #include "intel_uncore.h"
27 #include "intel_wakeref.h"
28 #include "intel_workarounds_types.h"
29 
30 /* HW Engine class + instance */
31 #define RENDER_CLASS		0
32 #define VIDEO_DECODE_CLASS	1
33 #define VIDEO_ENHANCEMENT_CLASS	2
34 #define COPY_ENGINE_CLASS	3
35 #define OTHER_CLASS		4
36 #define MAX_ENGINE_CLASS	4
37 #define MAX_ENGINE_INSTANCE	7
38 
39 #define I915_MAX_SLICES	3
40 #define I915_MAX_SUBSLICES 8
41 
42 #define I915_CMD_HASH_ORDER 9
43 
44 struct dma_fence;
45 struct drm_i915_gem_object;
46 struct drm_i915_reg_table;
47 struct i915_gem_context;
48 struct i915_request;
49 struct i915_sched_attr;
50 struct i915_sched_engine;
51 struct intel_gt;
52 struct intel_ring;
53 struct intel_uncore;
54 struct intel_breadcrumbs;
55 
56 typedef u32 intel_engine_mask_t;
57 #define ALL_ENGINES ((intel_engine_mask_t)~0ul)
58 
59 struct intel_hw_status_page {
60 	struct list_head timelines;
61 	struct i915_vma *vma;
62 	u32 *addr;
63 };
64 
65 struct intel_instdone {
66 	u32 instdone;
67 	/* The following exist only in the RCS engine */
68 	u32 slice_common;
69 	u32 slice_common_extra[2];
70 	u32 sampler[I915_MAX_SLICES][I915_MAX_SUBSLICES];
71 	u32 row[I915_MAX_SLICES][I915_MAX_SUBSLICES];
72 };
73 
74 /*
75  * we use a single page to load ctx workarounds so all of these
76  * values are referred in terms of dwords
77  *
78  * struct i915_wa_ctx_bb:
79  *  offset: specifies batch starting position, also helpful in case
80  *    if we want to have multiple batches at different offsets based on
81  *    some criteria. It is not a requirement at the moment but provides
82  *    an option for future use.
83  *  size: size of the batch in DWORDS
84  */
85 struct i915_ctx_workarounds {
86 	struct i915_wa_ctx_bb {
87 		u32 offset;
88 		u32 size;
89 	} indirect_ctx, per_ctx;
90 	struct i915_vma *vma;
91 };
92 
93 #define I915_MAX_VCS	8
94 #define I915_MAX_VECS	4
95 
96 /*
97  * Engine IDs definitions.
98  * Keep instances of the same type engine together.
99  */
100 enum intel_engine_id {
101 	RCS0 = 0,
102 	BCS0,
103 	VCS0,
104 	VCS1,
105 	VCS2,
106 	VCS3,
107 	VCS4,
108 	VCS5,
109 	VCS6,
110 	VCS7,
111 #define _VCS(n) (VCS0 + (n))
112 	VECS0,
113 	VECS1,
114 	VECS2,
115 	VECS3,
116 #define _VECS(n) (VECS0 + (n))
117 	I915_NUM_ENGINES
118 #define INVALID_ENGINE ((enum intel_engine_id)-1)
119 };
120 
121 /* A simple estimator for the round-trip latency of an engine */
122 DECLARE_EWMA(_engine_latency, 6, 4)
123 
124 struct st_preempt_hang {
125 	struct completion completion;
126 	unsigned int count;
127 };
128 
129 /**
130  * struct intel_engine_execlists - execlist submission queue and port state
131  *
132  * The struct intel_engine_execlists represents the combined logical state of
133  * driver and the hardware state for execlist mode of submission.
134  */
135 struct intel_engine_execlists {
136 	/**
137 	 * @timer: kick the current context if its timeslice expires
138 	 */
139 	struct timer_list timer;
140 
141 	/**
142 	 * @preempt: reset the current context if it fails to give way
143 	 */
144 	struct timer_list preempt;
145 
146 	/**
147 	 * @preempt_target: active request at the time of the preemption request
148 	 *
149 	 * We force a preemption to occur if the pending contexts have not
150 	 * been promoted to active upon receipt of the CS ack event within
151 	 * the timeout. This timeout maybe chosen based on the target,
152 	 * using a very short timeout if the context is no longer schedulable.
153 	 * That short timeout may not be applicable to other contexts, so
154 	 * if a context switch should happen within before the preemption
155 	 * timeout, we may shoot early at an innocent context. To prevent this,
156 	 * we record which context was active at the time of the preemption
157 	 * request and only reset that context upon the timeout.
158 	 */
159 	const struct i915_request *preempt_target;
160 
161 	/**
162 	 * @ccid: identifier for contexts submitted to this engine
163 	 */
164 	u32 ccid;
165 
166 	/**
167 	 * @yield: CCID at the time of the last semaphore-wait interrupt.
168 	 *
169 	 * Instead of leaving a semaphore busy-spinning on an engine, we would
170 	 * like to switch to another ready context, i.e. yielding the semaphore
171 	 * timeslice.
172 	 */
173 	u32 yield;
174 
175 	/**
176 	 * @error_interrupt: CS Master EIR
177 	 *
178 	 * The CS generates an interrupt when it detects an error. We capture
179 	 * the first error interrupt, record the EIR and schedule the tasklet.
180 	 * In the tasklet, we process the pending CS events to ensure we have
181 	 * the guilty request, and then reset the engine.
182 	 *
183 	 * Low 16b are used by HW, with the upper 16b used as the enabling mask.
184 	 * Reserve the upper 16b for tracking internal errors.
185 	 */
186 	u32 error_interrupt;
187 #define ERROR_CSB	BIT(31)
188 #define ERROR_PREEMPT	BIT(30)
189 
190 	/**
191 	 * @reset_ccid: Active CCID [EXECLISTS_STATUS_HI] at the time of reset
192 	 */
193 	u32 reset_ccid;
194 
195 	/**
196 	 * @submit_reg: gen-specific execlist submission register
197 	 * set to the ExecList Submission Port (elsp) register pre-Gen11 and to
198 	 * the ExecList Submission Queue Contents register array for Gen11+
199 	 */
200 	u32 __iomem *submit_reg;
201 
202 	/**
203 	 * @ctrl_reg: the enhanced execlists control register, used to load the
204 	 * submit queue on the HW and to request preemptions to idle
205 	 */
206 	u32 __iomem *ctrl_reg;
207 
208 #define EXECLIST_MAX_PORTS 2
209 	/**
210 	 * @active: the currently known context executing on HW
211 	 */
212 	struct i915_request * const *active;
213 	/**
214 	 * @inflight: the set of contexts submitted and acknowleged by HW
215 	 *
216 	 * The set of inflight contexts is managed by reading CS events
217 	 * from the HW. On a context-switch event (not preemption), we
218 	 * know the HW has transitioned from port0 to port1, and we
219 	 * advance our inflight/active tracking accordingly.
220 	 */
221 	struct i915_request *inflight[EXECLIST_MAX_PORTS + 1 /* sentinel */];
222 	/**
223 	 * @pending: the next set of contexts submitted to ELSP
224 	 *
225 	 * We store the array of contexts that we submit to HW (via ELSP) and
226 	 * promote them to the inflight array once HW has signaled the
227 	 * preemption or idle-to-active event.
228 	 */
229 	struct i915_request *pending[EXECLIST_MAX_PORTS + 1];
230 
231 	/**
232 	 * @port_mask: number of execlist ports - 1
233 	 */
234 	unsigned int port_mask;
235 
236 	/**
237 	 * @virtual: Queue of requets on a virtual engine, sorted by priority.
238 	 * Each RB entry is a struct i915_priolist containing a list of requests
239 	 * of the same priority.
240 	 */
241 	struct rb_root_cached virtual;
242 
243 	/**
244 	 * @csb_write: control register for Context Switch buffer
245 	 *
246 	 * Note this register may be either mmio or HWSP shadow.
247 	 */
248 	u32 *csb_write;
249 
250 	/**
251 	 * @csb_status: status array for Context Switch buffer
252 	 *
253 	 * Note these register may be either mmio or HWSP shadow.
254 	 */
255 	u64 *csb_status;
256 
257 	/**
258 	 * @csb_size: context status buffer FIFO size
259 	 */
260 	u8 csb_size;
261 
262 	/**
263 	 * @csb_head: context status buffer head
264 	 */
265 	u8 csb_head;
266 
267 	I915_SELFTEST_DECLARE(struct st_preempt_hang preempt_hang;)
268 };
269 
270 #define INTEL_ENGINE_CS_MAX_NAME 8
271 
272 struct intel_engine_cs {
273 	struct drm_i915_private *i915;
274 	struct intel_gt *gt;
275 	struct intel_uncore *uncore;
276 	char name[INTEL_ENGINE_CS_MAX_NAME];
277 
278 	enum intel_engine_id id;
279 	enum intel_engine_id legacy_idx;
280 
281 	unsigned int guc_id;
282 
283 	intel_engine_mask_t mask;
284 
285 	u8 class;
286 	u8 instance;
287 
288 	u16 uabi_class;
289 	u16 uabi_instance;
290 
291 	u32 uabi_capabilities;
292 	u32 context_size;
293 	u32 mmio_base;
294 
295 	/*
296 	 * Some w/a require forcewake to be held (which prevents RC6) while
297 	 * a particular engine is active. If so, we set fw_domain to which
298 	 * domains need to be held for the duration of request activity,
299 	 * and 0 if none. We try to limit the duration of the hold as much
300 	 * as possible.
301 	 */
302 	enum forcewake_domains fw_domain;
303 	unsigned int fw_active;
304 
305 	unsigned long context_tag;
306 
307 	struct rb_node uabi_node;
308 
309 	struct intel_sseu sseu;
310 
311 	struct i915_sched_engine *sched_engine;
312 
313 	/* keep a request in reserve for a [pm] barrier under oom */
314 	struct i915_request *request_pool;
315 
316 	struct intel_context *hung_ce;
317 
318 	struct llist_head barrier_tasks;
319 
320 	struct intel_context *kernel_context; /* pinned */
321 
322 	/**
323 	 * pinned_contexts_list: List of pinned contexts. This list is only
324 	 * assumed to be manipulated during driver load- or unload time and
325 	 * does therefore not have any additional protection.
326 	 */
327 	struct list_head pinned_contexts_list;
328 
329 	intel_engine_mask_t saturated; /* submitting semaphores too late? */
330 
331 	struct {
332 		struct delayed_work work;
333 		struct i915_request *systole;
334 		unsigned long blocked;
335 	} heartbeat;
336 
337 	unsigned long serial;
338 
339 	unsigned long wakeref_serial;
340 	struct intel_wakeref wakeref;
341 	struct file *default_state;
342 
343 	struct {
344 		struct intel_ring *ring;
345 		struct intel_timeline *timeline;
346 	} legacy;
347 
348 	/*
349 	 * We track the average duration of the idle pulse on parking the
350 	 * engine to keep an estimate of the how the fast the engine is
351 	 * under ideal conditions.
352 	 */
353 	struct ewma__engine_latency latency;
354 
355 	/* Keep track of all the seqno used, a trail of breadcrumbs */
356 	struct intel_breadcrumbs *breadcrumbs;
357 
358 	struct intel_engine_pmu {
359 		/**
360 		 * @enable: Bitmask of enable sample events on this engine.
361 		 *
362 		 * Bits correspond to sample event types, for instance
363 		 * I915_SAMPLE_QUEUED is bit 0 etc.
364 		 */
365 		u32 enable;
366 		/**
367 		 * @enable_count: Reference count for the enabled samplers.
368 		 *
369 		 * Index number corresponds to @enum drm_i915_pmu_engine_sample.
370 		 */
371 		unsigned int enable_count[I915_ENGINE_SAMPLE_COUNT];
372 		/**
373 		 * @sample: Counter values for sampling events.
374 		 *
375 		 * Our internal timer stores the current counters in this field.
376 		 *
377 		 * Index number corresponds to @enum drm_i915_pmu_engine_sample.
378 		 */
379 		struct i915_pmu_sample sample[I915_ENGINE_SAMPLE_COUNT];
380 	} pmu;
381 
382 	struct intel_hw_status_page status_page;
383 	struct i915_ctx_workarounds wa_ctx;
384 	struct i915_wa_list ctx_wa_list;
385 	struct i915_wa_list wa_list;
386 	struct i915_wa_list whitelist;
387 
388 	u32             irq_keep_mask; /* always keep these interrupts */
389 	u32		irq_enable_mask; /* bitmask to enable ring interrupt */
390 	void		(*irq_enable)(struct intel_engine_cs *engine);
391 	void		(*irq_disable)(struct intel_engine_cs *engine);
392 	void		(*irq_handler)(struct intel_engine_cs *engine, u16 iir);
393 
394 	void		(*sanitize)(struct intel_engine_cs *engine);
395 	int		(*resume)(struct intel_engine_cs *engine);
396 
397 	struct {
398 		void (*prepare)(struct intel_engine_cs *engine);
399 
400 		void (*rewind)(struct intel_engine_cs *engine, bool stalled);
401 		void (*cancel)(struct intel_engine_cs *engine);
402 
403 		void (*finish)(struct intel_engine_cs *engine);
404 	} reset;
405 
406 	void		(*park)(struct intel_engine_cs *engine);
407 	void		(*unpark)(struct intel_engine_cs *engine);
408 
409 	void		(*bump_serial)(struct intel_engine_cs *engine);
410 
411 	void		(*set_default_submission)(struct intel_engine_cs *engine);
412 
413 	const struct intel_context_ops *cops;
414 
415 	int		(*request_alloc)(struct i915_request *rq);
416 
417 	int		(*emit_flush)(struct i915_request *request, u32 mode);
418 #define EMIT_INVALIDATE	BIT(0)
419 #define EMIT_FLUSH	BIT(1)
420 #define EMIT_BARRIER	(EMIT_INVALIDATE | EMIT_FLUSH)
421 	int		(*emit_bb_start)(struct i915_request *rq,
422 					 u64 offset, u32 length,
423 					 unsigned int dispatch_flags);
424 #define I915_DISPATCH_SECURE BIT(0)
425 #define I915_DISPATCH_PINNED BIT(1)
426 	int		 (*emit_init_breadcrumb)(struct i915_request *rq);
427 	u32		*(*emit_fini_breadcrumb)(struct i915_request *rq,
428 						 u32 *cs);
429 	unsigned int	emit_fini_breadcrumb_dw;
430 
431 	/* Pass the request to the hardware queue (e.g. directly into
432 	 * the legacy ringbuffer or to the end of an execlist).
433 	 *
434 	 * This is called from an atomic context with irqs disabled; must
435 	 * be irq safe.
436 	 */
437 	void		(*submit_request)(struct i915_request *rq);
438 
439 	void		(*release)(struct intel_engine_cs *engine);
440 
441 	/*
442 	 * Add / remove request from engine active tracking
443 	 */
444 	void		(*add_active_request)(struct i915_request *rq);
445 	void		(*remove_active_request)(struct i915_request *rq);
446 
447 	struct intel_engine_execlists execlists;
448 
449 	/*
450 	 * Keep track of completed timelines on this engine for early
451 	 * retirement with the goal of quickly enabling powersaving as
452 	 * soon as the engine is idle.
453 	 */
454 	struct intel_timeline *retire;
455 	struct work_struct retire_work;
456 
457 	/* status_notifier: list of callbacks for context-switch changes */
458 	struct atomic_notifier_head context_status_notifier;
459 
460 #define I915_ENGINE_USING_CMD_PARSER BIT(0)
461 #define I915_ENGINE_SUPPORTS_STATS   BIT(1)
462 #define I915_ENGINE_HAS_PREEMPTION   BIT(2)
463 #define I915_ENGINE_HAS_SEMAPHORES   BIT(3)
464 #define I915_ENGINE_HAS_TIMESLICES   BIT(4)
465 #define I915_ENGINE_IS_VIRTUAL       BIT(5)
466 #define I915_ENGINE_HAS_RELATIVE_MMIO BIT(6)
467 #define I915_ENGINE_REQUIRES_CMD_PARSER BIT(7)
468 #define I915_ENGINE_WANT_FORCED_PREEMPTION BIT(8)
469 	unsigned int flags;
470 
471 	/*
472 	 * Table of commands the command parser needs to know about
473 	 * for this engine.
474 	 */
475 	DECLARE_HASHTABLE(cmd_hash, I915_CMD_HASH_ORDER);
476 
477 	/*
478 	 * Table of registers allowed in commands that read/write registers.
479 	 */
480 	const struct drm_i915_reg_table *reg_tables;
481 	int reg_table_count;
482 
483 	/*
484 	 * Returns the bitmask for the length field of the specified command.
485 	 * Return 0 for an unrecognized/invalid command.
486 	 *
487 	 * If the command parser finds an entry for a command in the engine's
488 	 * cmd_tables, it gets the command's length based on the table entry.
489 	 * If not, it calls this function to determine the per-engine length
490 	 * field encoding for the command (i.e. different opcode ranges use
491 	 * certain bits to encode the command length in the header).
492 	 */
493 	u32 (*get_cmd_length_mask)(u32 cmd_header);
494 
495 	struct {
496 		/**
497 		 * @active: Number of contexts currently scheduled in.
498 		 */
499 		unsigned int active;
500 
501 		/**
502 		 * @lock: Lock protecting the below fields.
503 		 */
504 		seqcount_t lock;
505 
506 		/**
507 		 * @total: Total time this engine was busy.
508 		 *
509 		 * Accumulated time not counting the most recent block in cases
510 		 * where engine is currently busy (active > 0).
511 		 */
512 		ktime_t total;
513 
514 		/**
515 		 * @start: Timestamp of the last idle to active transition.
516 		 *
517 		 * Idle is defined as active == 0, active is active > 0.
518 		 */
519 		ktime_t start;
520 
521 		/**
522 		 * @rps: Utilisation at last RPS sampling.
523 		 */
524 		ktime_t rps;
525 	} stats;
526 
527 	struct {
528 		unsigned long heartbeat_interval_ms;
529 		unsigned long max_busywait_duration_ns;
530 		unsigned long preempt_timeout_ms;
531 		unsigned long stop_timeout_ms;
532 		unsigned long timeslice_duration_ms;
533 	} props, defaults;
534 
535 	I915_SELFTEST_DECLARE(struct fault_attr reset_timeout);
536 };
537 
538 static inline bool
intel_engine_using_cmd_parser(const struct intel_engine_cs * engine)539 intel_engine_using_cmd_parser(const struct intel_engine_cs *engine)
540 {
541 	return engine->flags & I915_ENGINE_USING_CMD_PARSER;
542 }
543 
544 static inline bool
intel_engine_requires_cmd_parser(const struct intel_engine_cs * engine)545 intel_engine_requires_cmd_parser(const struct intel_engine_cs *engine)
546 {
547 	return engine->flags & I915_ENGINE_REQUIRES_CMD_PARSER;
548 }
549 
550 static inline bool
intel_engine_supports_stats(const struct intel_engine_cs * engine)551 intel_engine_supports_stats(const struct intel_engine_cs *engine)
552 {
553 	return engine->flags & I915_ENGINE_SUPPORTS_STATS;
554 }
555 
556 static inline bool
intel_engine_has_preemption(const struct intel_engine_cs * engine)557 intel_engine_has_preemption(const struct intel_engine_cs *engine)
558 {
559 	return engine->flags & I915_ENGINE_HAS_PREEMPTION;
560 }
561 
562 static inline bool
intel_engine_has_semaphores(const struct intel_engine_cs * engine)563 intel_engine_has_semaphores(const struct intel_engine_cs *engine)
564 {
565 	return engine->flags & I915_ENGINE_HAS_SEMAPHORES;
566 }
567 
568 static inline bool
intel_engine_has_timeslices(const struct intel_engine_cs * engine)569 intel_engine_has_timeslices(const struct intel_engine_cs *engine)
570 {
571 	if (!IS_ACTIVE(CONFIG_DRM_I915_TIMESLICE_DURATION))
572 		return false;
573 
574 	return engine->flags & I915_ENGINE_HAS_TIMESLICES;
575 }
576 
577 static inline bool
intel_engine_is_virtual(const struct intel_engine_cs * engine)578 intel_engine_is_virtual(const struct intel_engine_cs *engine)
579 {
580 	return engine->flags & I915_ENGINE_IS_VIRTUAL;
581 }
582 
583 static inline bool
intel_engine_has_relative_mmio(const struct intel_engine_cs * const engine)584 intel_engine_has_relative_mmio(const struct intel_engine_cs * const engine)
585 {
586 	return engine->flags & I915_ENGINE_HAS_RELATIVE_MMIO;
587 }
588 
589 #define instdone_has_slice(dev_priv___, sseu___, slice___) \
590 	((GRAPHICS_VER(dev_priv___) == 7 ? 1 : ((sseu___)->slice_mask)) & BIT(slice___))
591 
592 #define instdone_has_subslice(dev_priv__, sseu__, slice__, subslice__) \
593 	(GRAPHICS_VER(dev_priv__) == 7 ? (1 & BIT(subslice__)) : \
594 	 intel_sseu_has_subslice(sseu__, 0, subslice__))
595 
596 #define for_each_instdone_slice_subslice(dev_priv_, sseu_, slice_, subslice_) \
597 	for ((slice_) = 0, (subslice_) = 0; (slice_) < I915_MAX_SLICES; \
598 	     (subslice_) = ((subslice_) + 1) % I915_MAX_SUBSLICES, \
599 	     (slice_) += ((subslice_) == 0)) \
600 		for_each_if((instdone_has_slice(dev_priv_, sseu_, slice_)) && \
601 			    (instdone_has_subslice(dev_priv_, sseu_, slice_, \
602 						    subslice_)))
603 #endif /* __INTEL_ENGINE_TYPES_H__ */
604