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1/*
2 * Copyright 2016-2023 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 * Authors: AMD
23 *
24 */
25
26#include "dm_services.h"
27#include "dc.h"
28#include "mod_freesync.h"
29#include "core_types.h"
30
31#define MOD_FREESYNC_MAX_CONCURRENT_STREAMS 32
32
33#define MIN_REFRESH_RANGE 10
34/* Refresh rate ramp at a fixed rate of 65 Hz/second */
35#define STATIC_SCREEN_RAMP_DELTA_REFRESH_RATE_PER_FRAME ((1000 / 60) * 65)
36/* Number of elements in the render times cache array */
37#define RENDER_TIMES_MAX_COUNT 10
38/* Threshold to exit/exit BTR (to avoid frequent enter-exits at the lower limit) */
39#define BTR_MAX_MARGIN 2500
40/* Threshold to change BTR multiplier (to avoid frequent changes) */
41#define BTR_DRIFT_MARGIN 2000
42/* Threshold to exit fixed refresh rate */
43#define FIXED_REFRESH_EXIT_MARGIN_IN_HZ 1
44/* Number of consecutive frames to check before entering/exiting fixed refresh */
45#define FIXED_REFRESH_ENTER_FRAME_COUNT 5
46#define FIXED_REFRESH_EXIT_FRAME_COUNT 10
47/* Flip interval workaround constants */
48#define VSYNCS_BETWEEN_FLIP_THRESHOLD 2
49#define FREESYNC_CONSEC_FLIP_AFTER_VSYNC 5
50#define FREESYNC_VSYNC_TO_FLIP_DELTA_IN_US 500
51
52struct core_freesync {
53 struct mod_freesync public;
54 struct dc *dc;
55};
56
57#define MOD_FREESYNC_TO_CORE(mod_freesync)\
58 container_of(mod_freesync, struct core_freesync, public)
59
60struct mod_freesync *mod_freesync_create(struct dc *dc)
61{
62 struct core_freesync *core_freesync =
63 kzalloc(sizeof(struct core_freesync), GFP_KERNEL);
64
65 if (core_freesync == NULL)
66 goto fail_alloc_context;
67
68 if (dc == NULL)
69 goto fail_construct;
70
71 core_freesync->dc = dc;
72 return &core_freesync->public;
73
74fail_construct:
75 kfree(core_freesync);
76
77fail_alloc_context:
78 return NULL;
79}
80
81void mod_freesync_destroy(struct mod_freesync *mod_freesync)
82{
83 struct core_freesync *core_freesync = NULL;
84
85 if (mod_freesync == NULL)
86 return;
87 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
88 kfree(core_freesync);
89}
90
91#if 0 /* Unused currently */
92static unsigned int calc_refresh_in_uhz_from_duration(
93 unsigned int duration_in_ns)
94{
95 unsigned int refresh_in_uhz =
96 ((unsigned int)(div64_u64((1000000000ULL * 1000000),
97 duration_in_ns)));
98 return refresh_in_uhz;
99}
100#endif
101
102static unsigned int calc_duration_in_us_from_refresh_in_uhz(
103 unsigned int refresh_in_uhz)
104{
105 unsigned int duration_in_us =
106 ((unsigned int)(div64_u64((1000000000ULL * 1000),
107 refresh_in_uhz)));
108 return duration_in_us;
109}
110
111static unsigned int calc_duration_in_us_from_v_total(
112 const struct dc_stream_state *stream,
113 const struct mod_vrr_params *in_vrr,
114 unsigned int v_total)
115{
116 unsigned int duration_in_us =
117 (unsigned int)(div64_u64(((unsigned long long)(v_total)
118 * 10000) * stream->timing.h_total,
119 stream->timing.pix_clk_100hz));
120
121 return duration_in_us;
122}
123
124unsigned int mod_freesync_calc_v_total_from_refresh(
125 const struct dc_stream_state *stream,
126 unsigned int refresh_in_uhz)
127{
128 unsigned int v_total;
129 unsigned int frame_duration_in_ns;
130
131 frame_duration_in_ns =
132 ((unsigned int)(div64_u64((1000000000ULL * 1000000),
133 refresh_in_uhz)));
134
135 v_total = div64_u64(div64_u64(((unsigned long long)(
136 frame_duration_in_ns) * (stream->timing.pix_clk_100hz / 10)),
137 stream->timing.h_total), 1000000);
138
139 /* v_total cannot be less than nominal */
140 if (v_total < stream->timing.v_total) {
141 ASSERT(v_total < stream->timing.v_total);
142 v_total = stream->timing.v_total;
143 }
144
145 return v_total;
146}
147
148static unsigned int calc_v_total_from_duration(
149 const struct dc_stream_state *stream,
150 const struct mod_vrr_params *vrr,
151 unsigned int duration_in_us)
152{
153 unsigned int v_total = 0;
154
155 if (duration_in_us < vrr->min_duration_in_us)
156 duration_in_us = vrr->min_duration_in_us;
157
158 if (duration_in_us > vrr->max_duration_in_us)
159 duration_in_us = vrr->max_duration_in_us;
160
161 if (dc_is_hdmi_signal(stream->signal)) {
162 uint32_t h_total_up_scaled;
163
164 h_total_up_scaled = stream->timing.h_total * 10000;
165 v_total = div_u64((unsigned long long)duration_in_us
166 * stream->timing.pix_clk_100hz + (h_total_up_scaled - 1),
167 h_total_up_scaled);
168 } else {
169 v_total = div64_u64(div64_u64(((unsigned long long)(
170 duration_in_us) * (stream->timing.pix_clk_100hz / 10)),
171 stream->timing.h_total), 1000);
172 }
173
174 /* v_total cannot be less than nominal */
175 if (v_total < stream->timing.v_total) {
176 ASSERT(v_total < stream->timing.v_total);
177 v_total = stream->timing.v_total;
178 }
179
180 return v_total;
181}
182
183static void update_v_total_for_static_ramp(
184 struct core_freesync *core_freesync,
185 const struct dc_stream_state *stream,
186 struct mod_vrr_params *in_out_vrr)
187{
188 unsigned int v_total = 0;
189 unsigned int current_duration_in_us =
190 calc_duration_in_us_from_v_total(
191 stream, in_out_vrr,
192 in_out_vrr->adjust.v_total_max);
193 unsigned int target_duration_in_us =
194 calc_duration_in_us_from_refresh_in_uhz(
195 in_out_vrr->fixed.target_refresh_in_uhz);
196 bool ramp_direction_is_up = (current_duration_in_us >
197 target_duration_in_us) ? true : false;
198
199 /* Calculate ratio between new and current frame duration with 3 digit */
200 unsigned int frame_duration_ratio = div64_u64(1000000,
201 (1000 + div64_u64(((unsigned long long)(
202 STATIC_SCREEN_RAMP_DELTA_REFRESH_RATE_PER_FRAME) *
203 current_duration_in_us),
204 1000000)));
205
206 /* Calculate delta between new and current frame duration in us */
207 unsigned int frame_duration_delta = div64_u64(((unsigned long long)(
208 current_duration_in_us) *
209 (1000 - frame_duration_ratio)), 1000);
210
211 /* Adjust frame duration delta based on ratio between current and
212 * standard frame duration (frame duration at 60 Hz refresh rate).
213 */
214 unsigned int ramp_rate_interpolated = div64_u64(((unsigned long long)(
215 frame_duration_delta) * current_duration_in_us), 16666);
216
217 /* Going to a higher refresh rate (lower frame duration) */
218 if (ramp_direction_is_up) {
219 /* Reduce frame duration */
220 current_duration_in_us -= ramp_rate_interpolated;
221
222 /* Adjust for frame duration below min */
223 if (current_duration_in_us <= target_duration_in_us) {
224 in_out_vrr->fixed.ramping_active = false;
225 in_out_vrr->fixed.ramping_done = true;
226 current_duration_in_us =
227 calc_duration_in_us_from_refresh_in_uhz(
228 in_out_vrr->fixed.target_refresh_in_uhz);
229 }
230 /* Going to a lower refresh rate (larger frame duration) */
231 } else {
232 /* Increase frame duration */
233 current_duration_in_us += ramp_rate_interpolated;
234
235 /* Adjust for frame duration above max */
236 if (current_duration_in_us >= target_duration_in_us) {
237 in_out_vrr->fixed.ramping_active = false;
238 in_out_vrr->fixed.ramping_done = true;
239 current_duration_in_us =
240 calc_duration_in_us_from_refresh_in_uhz(
241 in_out_vrr->fixed.target_refresh_in_uhz);
242 }
243 }
244
245 v_total = div64_u64(div64_u64(((unsigned long long)(
246 current_duration_in_us) * (stream->timing.pix_clk_100hz / 10)),
247 stream->timing.h_total), 1000);
248
249 /* v_total cannot be less than nominal */
250 if (v_total < stream->timing.v_total)
251 v_total = stream->timing.v_total;
252
253 in_out_vrr->adjust.v_total_min = v_total;
254 in_out_vrr->adjust.v_total_max = v_total;
255}
256
257static void apply_below_the_range(struct core_freesync *core_freesync,
258 const struct dc_stream_state *stream,
259 unsigned int last_render_time_in_us,
260 struct mod_vrr_params *in_out_vrr)
261{
262 unsigned int inserted_frame_duration_in_us = 0;
263 unsigned int mid_point_frames_ceil = 0;
264 unsigned int mid_point_frames_floor = 0;
265 unsigned int frame_time_in_us = 0;
266 unsigned int delta_from_mid_point_in_us_1 = 0xFFFFFFFF;
267 unsigned int delta_from_mid_point_in_us_2 = 0xFFFFFFFF;
268 unsigned int frames_to_insert = 0;
269 unsigned int delta_from_mid_point_delta_in_us;
270 unsigned int max_render_time_in_us =
271 in_out_vrr->max_duration_in_us - in_out_vrr->btr.margin_in_us;
272
273 /* Program BTR */
274 if ((last_render_time_in_us + in_out_vrr->btr.margin_in_us / 2) < max_render_time_in_us) {
275 /* Exit Below the Range */
276 if (in_out_vrr->btr.btr_active) {
277 in_out_vrr->btr.frame_counter = 0;
278 in_out_vrr->btr.btr_active = false;
279 }
280 } else if (last_render_time_in_us > (max_render_time_in_us + in_out_vrr->btr.margin_in_us / 2)) {
281 /* Enter Below the Range */
282 if (!in_out_vrr->btr.btr_active)
283 in_out_vrr->btr.btr_active = true;
284 }
285
286 /* BTR set to "not active" so disengage */
287 if (!in_out_vrr->btr.btr_active) {
288 in_out_vrr->btr.inserted_duration_in_us = 0;
289 in_out_vrr->btr.frames_to_insert = 0;
290 in_out_vrr->btr.frame_counter = 0;
291
292 /* Restore FreeSync */
293 in_out_vrr->adjust.v_total_min =
294 mod_freesync_calc_v_total_from_refresh(stream,
295 in_out_vrr->max_refresh_in_uhz);
296 in_out_vrr->adjust.v_total_max =
297 mod_freesync_calc_v_total_from_refresh(stream,
298 in_out_vrr->min_refresh_in_uhz);
299 /* BTR set to "active" so engage */
300 } else {
301
302 /* Calculate number of midPoint frames that could fit within
303 * the render time interval - take ceil of this value
304 */
305 mid_point_frames_ceil = (last_render_time_in_us +
306 in_out_vrr->btr.mid_point_in_us - 1) /
307 in_out_vrr->btr.mid_point_in_us;
308
309 if (mid_point_frames_ceil > 0) {
310 frame_time_in_us = last_render_time_in_us /
311 mid_point_frames_ceil;
312 delta_from_mid_point_in_us_1 =
313 (in_out_vrr->btr.mid_point_in_us >
314 frame_time_in_us) ?
315 (in_out_vrr->btr.mid_point_in_us - frame_time_in_us) :
316 (frame_time_in_us - in_out_vrr->btr.mid_point_in_us);
317 }
318
319 /* Calculate number of midPoint frames that could fit within
320 * the render time interval - take floor of this value
321 */
322 mid_point_frames_floor = last_render_time_in_us /
323 in_out_vrr->btr.mid_point_in_us;
324
325 if (mid_point_frames_floor > 0) {
326
327 frame_time_in_us = last_render_time_in_us /
328 mid_point_frames_floor;
329 delta_from_mid_point_in_us_2 =
330 (in_out_vrr->btr.mid_point_in_us >
331 frame_time_in_us) ?
332 (in_out_vrr->btr.mid_point_in_us - frame_time_in_us) :
333 (frame_time_in_us - in_out_vrr->btr.mid_point_in_us);
334 }
335
336 /* Choose number of frames to insert based on how close it
337 * can get to the mid point of the variable range.
338 * - Delta for CEIL: delta_from_mid_point_in_us_1
339 * - Delta for FLOOR: delta_from_mid_point_in_us_2
340 */
341 if (mid_point_frames_ceil &&
342 (last_render_time_in_us / mid_point_frames_ceil) <
343 in_out_vrr->min_duration_in_us) {
344 /* Check for out of range.
345 * If using CEIL produces a value that is out of range,
346 * then we are forced to use FLOOR.
347 */
348 frames_to_insert = mid_point_frames_floor;
349 } else if (mid_point_frames_floor < 2) {
350 /* Check if FLOOR would result in non-LFC. In this case
351 * choose to use CEIL
352 */
353 frames_to_insert = mid_point_frames_ceil;
354 } else if (delta_from_mid_point_in_us_1 < delta_from_mid_point_in_us_2) {
355 /* If choosing CEIL results in a frame duration that is
356 * closer to the mid point of the range.
357 * Choose CEIL
358 */
359 frames_to_insert = mid_point_frames_ceil;
360 } else {
361 /* If choosing FLOOR results in a frame duration that is
362 * closer to the mid point of the range.
363 * Choose FLOOR
364 */
365 frames_to_insert = mid_point_frames_floor;
366 }
367
368 /* Prefer current frame multiplier when BTR is enabled unless it drifts
369 * too far from the midpoint
370 */
371 if (delta_from_mid_point_in_us_1 < delta_from_mid_point_in_us_2) {
372 delta_from_mid_point_delta_in_us = delta_from_mid_point_in_us_2 -
373 delta_from_mid_point_in_us_1;
374 } else {
375 delta_from_mid_point_delta_in_us = delta_from_mid_point_in_us_1 -
376 delta_from_mid_point_in_us_2;
377 }
378 if (in_out_vrr->btr.frames_to_insert != 0 &&
379 delta_from_mid_point_delta_in_us < BTR_DRIFT_MARGIN) {
380 if (((last_render_time_in_us / in_out_vrr->btr.frames_to_insert) <
381 max_render_time_in_us) &&
382 ((last_render_time_in_us / in_out_vrr->btr.frames_to_insert) >
383 in_out_vrr->min_duration_in_us))
384 frames_to_insert = in_out_vrr->btr.frames_to_insert;
385 }
386
387 /* Either we've calculated the number of frames to insert,
388 * or we need to insert min duration frames
389 */
390 if (frames_to_insert &&
391 (last_render_time_in_us / frames_to_insert) <
392 in_out_vrr->min_duration_in_us){
393 frames_to_insert -= (frames_to_insert > 1) ?
394 1 : 0;
395 }
396
397 if (frames_to_insert > 0)
398 inserted_frame_duration_in_us = last_render_time_in_us /
399 frames_to_insert;
400
401 if (inserted_frame_duration_in_us < in_out_vrr->min_duration_in_us)
402 inserted_frame_duration_in_us = in_out_vrr->min_duration_in_us;
403
404 /* Cache the calculated variables */
405 in_out_vrr->btr.inserted_duration_in_us =
406 inserted_frame_duration_in_us;
407 in_out_vrr->btr.frames_to_insert = frames_to_insert;
408 in_out_vrr->btr.frame_counter = frames_to_insert;
409 }
410}
411
412static void apply_fixed_refresh(struct core_freesync *core_freesync,
413 const struct dc_stream_state *stream,
414 unsigned int last_render_time_in_us,
415 struct mod_vrr_params *in_out_vrr)
416{
417 bool update = false;
418 unsigned int max_render_time_in_us = in_out_vrr->max_duration_in_us;
419
420 /* Compute the exit refresh rate and exit frame duration */
421 unsigned int exit_refresh_rate_in_milli_hz = ((1000000000/max_render_time_in_us)
422 + (1000*FIXED_REFRESH_EXIT_MARGIN_IN_HZ));
423 unsigned int exit_frame_duration_in_us = 1000000000/exit_refresh_rate_in_milli_hz;
424
425 if (last_render_time_in_us < exit_frame_duration_in_us) {
426 /* Exit Fixed Refresh mode */
427 if (in_out_vrr->fixed.fixed_active) {
428 in_out_vrr->fixed.frame_counter++;
429
430 if (in_out_vrr->fixed.frame_counter >
431 FIXED_REFRESH_EXIT_FRAME_COUNT) {
432 in_out_vrr->fixed.frame_counter = 0;
433 in_out_vrr->fixed.fixed_active = false;
434 in_out_vrr->fixed.target_refresh_in_uhz = 0;
435 update = true;
436 }
437 } else
438 in_out_vrr->fixed.frame_counter = 0;
439 } else if (last_render_time_in_us > max_render_time_in_us) {
440 /* Enter Fixed Refresh mode */
441 if (!in_out_vrr->fixed.fixed_active) {
442 in_out_vrr->fixed.frame_counter++;
443
444 if (in_out_vrr->fixed.frame_counter >
445 FIXED_REFRESH_ENTER_FRAME_COUNT) {
446 in_out_vrr->fixed.frame_counter = 0;
447 in_out_vrr->fixed.fixed_active = true;
448 in_out_vrr->fixed.target_refresh_in_uhz =
449 in_out_vrr->max_refresh_in_uhz;
450 update = true;
451 }
452 } else
453 in_out_vrr->fixed.frame_counter = 0;
454 }
455
456 if (update) {
457 if (in_out_vrr->fixed.fixed_active) {
458 in_out_vrr->adjust.v_total_min =
459 mod_freesync_calc_v_total_from_refresh(
460 stream, in_out_vrr->max_refresh_in_uhz);
461 in_out_vrr->adjust.v_total_max =
462 in_out_vrr->adjust.v_total_min;
463 } else {
464 in_out_vrr->adjust.v_total_min =
465 mod_freesync_calc_v_total_from_refresh(stream,
466 in_out_vrr->max_refresh_in_uhz);
467 in_out_vrr->adjust.v_total_max =
468 mod_freesync_calc_v_total_from_refresh(stream,
469 in_out_vrr->min_refresh_in_uhz);
470 }
471 }
472}
473
474static void determine_flip_interval_workaround_req(struct mod_vrr_params *in_vrr,
475 unsigned int curr_time_stamp_in_us)
476{
477 in_vrr->flip_interval.vsync_to_flip_in_us = curr_time_stamp_in_us -
478 in_vrr->flip_interval.v_update_timestamp_in_us;
479
480 /* Determine conditions for stopping workaround */
481 if (in_vrr->flip_interval.flip_interval_workaround_active &&
482 in_vrr->flip_interval.vsyncs_between_flip < VSYNCS_BETWEEN_FLIP_THRESHOLD &&
483 in_vrr->flip_interval.vsync_to_flip_in_us > FREESYNC_VSYNC_TO_FLIP_DELTA_IN_US) {
484 in_vrr->flip_interval.flip_interval_detect_counter = 0;
485 in_vrr->flip_interval.program_flip_interval_workaround = true;
486 in_vrr->flip_interval.flip_interval_workaround_active = false;
487 } else {
488 /* Determine conditions for starting workaround */
489 if (in_vrr->flip_interval.vsyncs_between_flip >= VSYNCS_BETWEEN_FLIP_THRESHOLD &&
490 in_vrr->flip_interval.vsync_to_flip_in_us < FREESYNC_VSYNC_TO_FLIP_DELTA_IN_US) {
491 /* Increase flip interval counter we have 2 vsyncs between flips and
492 * vsync to flip interval is less than 500us
493 */
494 in_vrr->flip_interval.flip_interval_detect_counter++;
495 if (in_vrr->flip_interval.flip_interval_detect_counter > FREESYNC_CONSEC_FLIP_AFTER_VSYNC) {
496 /* Start workaround if we detect 5 consecutive instances of the above case */
497 in_vrr->flip_interval.program_flip_interval_workaround = true;
498 in_vrr->flip_interval.flip_interval_workaround_active = true;
499 }
500 } else {
501 /* Reset the flip interval counter if we condition is no longer met */
502 in_vrr->flip_interval.flip_interval_detect_counter = 0;
503 }
504 }
505
506 in_vrr->flip_interval.vsyncs_between_flip = 0;
507}
508
509static bool vrr_settings_require_update(struct core_freesync *core_freesync,
510 struct mod_freesync_config *in_config,
511 unsigned int min_refresh_in_uhz,
512 unsigned int max_refresh_in_uhz,
513 struct mod_vrr_params *in_vrr)
514{
515 if (in_vrr->state != in_config->state) {
516 return true;
517 } else if (in_vrr->state == VRR_STATE_ACTIVE_FIXED &&
518 in_vrr->fixed.target_refresh_in_uhz !=
519 in_config->fixed_refresh_in_uhz) {
520 return true;
521 } else if (in_vrr->min_refresh_in_uhz != min_refresh_in_uhz) {
522 return true;
523 } else if (in_vrr->max_refresh_in_uhz != max_refresh_in_uhz) {
524 return true;
525 }
526
527 return false;
528}
529
530bool mod_freesync_get_vmin_vmax(struct mod_freesync *mod_freesync,
531 const struct dc_stream_state *stream,
532 unsigned int *vmin,
533 unsigned int *vmax)
534{
535 *vmin = stream->adjust.v_total_min;
536 *vmax = stream->adjust.v_total_max;
537
538 return true;
539}
540
541bool mod_freesync_get_v_position(struct mod_freesync *mod_freesync,
542 struct dc_stream_state *stream,
543 unsigned int *nom_v_pos,
544 unsigned int *v_pos)
545{
546 struct core_freesync *core_freesync = NULL;
547 struct crtc_position position;
548
549 if (mod_freesync == NULL)
550 return false;
551
552 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
553
554 if (dc_stream_get_crtc_position(core_freesync->dc, &stream, 1,
555 &position.vertical_count,
556 &position.nominal_vcount)) {
557
558 *nom_v_pos = position.nominal_vcount;
559 *v_pos = position.vertical_count;
560
561 return true;
562 }
563
564 return false;
565}
566
567static void build_vrr_infopacket_data_v1(const struct mod_vrr_params *vrr,
568 struct dc_info_packet *infopacket,
569 bool freesync_on_desktop)
570{
571 /* PB1 = 0x1A (24bit AMD IEEE OUI (0x00001A) - Byte 0) */
572 infopacket->sb[1] = 0x1A;
573
574 /* PB2 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 1) */
575 infopacket->sb[2] = 0x00;
576
577 /* PB3 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 2) */
578 infopacket->sb[3] = 0x00;
579
580 /* PB4 = Reserved */
581
582 /* PB5 = Reserved */
583
584 /* PB6 = [Bits 7:3 = Reserved] */
585
586 /* PB6 = [Bit 0 = FreeSync Supported] */
587 if (vrr->state != VRR_STATE_UNSUPPORTED)
588 infopacket->sb[6] |= 0x01;
589
590 /* PB6 = [Bit 1 = FreeSync Enabled] */
591 if (vrr->state != VRR_STATE_DISABLED &&
592 vrr->state != VRR_STATE_UNSUPPORTED)
593 infopacket->sb[6] |= 0x02;
594
595 if (freesync_on_desktop) {
596 /* PB6 = [Bit 2 = FreeSync Active] */
597 if (vrr->state != VRR_STATE_DISABLED &&
598 vrr->state != VRR_STATE_UNSUPPORTED)
599 infopacket->sb[6] |= 0x04;
600 } else {
601 if (vrr->state == VRR_STATE_ACTIVE_VARIABLE ||
602 vrr->state == VRR_STATE_ACTIVE_FIXED)
603 infopacket->sb[6] |= 0x04;
604 }
605
606 // For v1 & 2 infoframes program nominal if non-fs mode, otherwise full range
607 /* PB7 = FreeSync Minimum refresh rate (Hz) */
608 if (vrr->state == VRR_STATE_ACTIVE_VARIABLE ||
609 vrr->state == VRR_STATE_ACTIVE_FIXED) {
610 infopacket->sb[7] = (unsigned char)((vrr->min_refresh_in_uhz + 500000) / 1000000);
611 } else {
612 infopacket->sb[7] = (unsigned char)((vrr->max_refresh_in_uhz + 500000) / 1000000);
613 }
614
615 /* PB8 = FreeSync Maximum refresh rate (Hz)
616 * Note: We should never go above the field rate of the mode timing set.
617 */
618 infopacket->sb[8] = (unsigned char)((vrr->max_refresh_in_uhz + 500000) / 1000000);
619}
620
621static void build_vrr_infopacket_data_v3(const struct mod_vrr_params *vrr,
622 struct dc_info_packet *infopacket,
623 bool freesync_on_desktop)
624{
625 unsigned int min_refresh;
626 unsigned int max_refresh;
627 unsigned int fixed_refresh;
628 unsigned int min_programmed;
629
630 /* PB1 = 0x1A (24bit AMD IEEE OUI (0x00001A) - Byte 0) */
631 infopacket->sb[1] = 0x1A;
632
633 /* PB2 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 1) */
634 infopacket->sb[2] = 0x00;
635
636 /* PB3 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 2) */
637 infopacket->sb[3] = 0x00;
638
639 /* PB4 = Reserved */
640
641 /* PB5 = Reserved */
642
643 /* PB6 = [Bits 7:3 = Reserved] */
644
645 /* PB6 = [Bit 0 = FreeSync Supported] */
646 if (vrr->state != VRR_STATE_UNSUPPORTED)
647 infopacket->sb[6] |= 0x01;
648
649 /* PB6 = [Bit 1 = FreeSync Enabled] */
650 if (vrr->state != VRR_STATE_DISABLED &&
651 vrr->state != VRR_STATE_UNSUPPORTED)
652 infopacket->sb[6] |= 0x02;
653
654 /* PB6 = [Bit 2 = FreeSync Active] */
655 if (freesync_on_desktop) {
656 if (vrr->state != VRR_STATE_DISABLED &&
657 vrr->state != VRR_STATE_UNSUPPORTED)
658 infopacket->sb[6] |= 0x04;
659 } else {
660 if (vrr->state == VRR_STATE_ACTIVE_VARIABLE ||
661 vrr->state == VRR_STATE_ACTIVE_FIXED)
662 infopacket->sb[6] |= 0x04;
663 }
664
665 min_refresh = (vrr->min_refresh_in_uhz + 500000) / 1000000;
666 max_refresh = (vrr->max_refresh_in_uhz + 500000) / 1000000;
667 fixed_refresh = (vrr->fixed_refresh_in_uhz + 500000) / 1000000;
668
669 min_programmed = (vrr->state == VRR_STATE_ACTIVE_FIXED) ? fixed_refresh :
670 (vrr->state == VRR_STATE_ACTIVE_VARIABLE) ? min_refresh :
671 (vrr->state == VRR_STATE_INACTIVE) ? min_refresh :
672 max_refresh; // Non-fs case, program nominal range
673
674 /* PB7 = FreeSync Minimum refresh rate (Hz) */
675 infopacket->sb[7] = min_programmed & 0xFF;
676
677 /* PB8 = FreeSync Maximum refresh rate (Hz) */
678 infopacket->sb[8] = max_refresh & 0xFF;
679
680 /* PB11 : MSB FreeSync Minimum refresh rate [Hz] - bits 9:8 */
681 infopacket->sb[11] = (min_programmed >> 8) & 0x03;
682
683 /* PB12 : MSB FreeSync Maximum refresh rate [Hz] - bits 9:8 */
684 infopacket->sb[12] = (max_refresh >> 8) & 0x03;
685
686 /* PB16 : Reserved bits 7:1, FixedRate bit 0 */
687 infopacket->sb[16] = (vrr->state == VRR_STATE_ACTIVE_FIXED) ? 1 : 0;
688}
689
690static void build_vrr_infopacket_fs2_data(enum color_transfer_func app_tf,
691 struct dc_info_packet *infopacket)
692{
693 if (app_tf != TRANSFER_FUNC_UNKNOWN) {
694 infopacket->valid = true;
695
696 if (app_tf == TRANSFER_FUNC_PQ2084)
697 infopacket->sb[9] |= 0x20; // PB9 = [Bit 5 = PQ EOTF Active]
698 else {
699 infopacket->sb[6] |= 0x08; // PB6 = [Bit 3 = Native Color Active]
700 if (app_tf == TRANSFER_FUNC_GAMMA_22)
701 infopacket->sb[9] |= 0x04; // PB9 = [Bit 2 = Gamma 2.2 EOTF Active]
702 }
703 }
704}
705
706static void build_vrr_infopacket_header_v1(enum signal_type signal,
707 struct dc_info_packet *infopacket,
708 unsigned int *payload_size)
709{
710 if (dc_is_hdmi_signal(signal)) {
711
712 /* HEADER */
713
714 /* HB0 = Packet Type = 0x83 (Source Product
715 * Descriptor InfoFrame)
716 */
717 infopacket->hb0 = DC_HDMI_INFOFRAME_TYPE_SPD;
718
719 /* HB1 = Version = 0x01 */
720 infopacket->hb1 = 0x01;
721
722 /* HB2 = [Bits 7:5 = 0] [Bits 4:0 = Length = 0x08] */
723 infopacket->hb2 = 0x08;
724
725 *payload_size = 0x08;
726
727 } else if (dc_is_dp_signal(signal)) {
728
729 /* HEADER */
730
731 /* HB0 = Secondary-data Packet ID = 0 - Only non-zero
732 * when used to associate audio related info packets
733 */
734 infopacket->hb0 = 0x00;
735
736 /* HB1 = Packet Type = 0x83 (Source Product
737 * Descriptor InfoFrame)
738 */
739 infopacket->hb1 = DC_HDMI_INFOFRAME_TYPE_SPD;
740
741 /* HB2 = [Bits 7:0 = Least significant eight bits -
742 * For INFOFRAME, the value must be 1Bh]
743 */
744 infopacket->hb2 = 0x1B;
745
746 /* HB3 = [Bits 7:2 = INFOFRAME SDP Version Number = 0x1]
747 * [Bits 1:0 = Most significant two bits = 0x00]
748 */
749 infopacket->hb3 = 0x04;
750
751 *payload_size = 0x1B;
752 }
753}
754
755static void build_vrr_infopacket_header_v2(enum signal_type signal,
756 struct dc_info_packet *infopacket,
757 unsigned int *payload_size)
758{
759 if (dc_is_hdmi_signal(signal)) {
760
761 /* HEADER */
762
763 /* HB0 = Packet Type = 0x83 (Source Product
764 * Descriptor InfoFrame)
765 */
766 infopacket->hb0 = DC_HDMI_INFOFRAME_TYPE_SPD;
767
768 /* HB1 = Version = 0x02 */
769 infopacket->hb1 = 0x02;
770
771 /* HB2 = [Bits 7:5 = 0] [Bits 4:0 = Length = 0x09] */
772 infopacket->hb2 = 0x09;
773
774 *payload_size = 0x09;
775 } else if (dc_is_dp_signal(signal)) {
776
777 /* HEADER */
778
779 /* HB0 = Secondary-data Packet ID = 0 - Only non-zero
780 * when used to associate audio related info packets
781 */
782 infopacket->hb0 = 0x00;
783
784 /* HB1 = Packet Type = 0x83 (Source Product
785 * Descriptor InfoFrame)
786 */
787 infopacket->hb1 = DC_HDMI_INFOFRAME_TYPE_SPD;
788
789 /* HB2 = [Bits 7:0 = Least significant eight bits -
790 * For INFOFRAME, the value must be 1Bh]
791 */
792 infopacket->hb2 = 0x1B;
793
794 /* HB3 = [Bits 7:2 = INFOFRAME SDP Version Number = 0x2]
795 * [Bits 1:0 = Most significant two bits = 0x00]
796 */
797 infopacket->hb3 = 0x08;
798
799 *payload_size = 0x1B;
800 }
801}
802
803static void build_vrr_infopacket_header_v3(enum signal_type signal,
804 struct dc_info_packet *infopacket,
805 unsigned int *payload_size)
806{
807 unsigned char version;
808
809 version = 3;
810 if (dc_is_hdmi_signal(signal)) {
811
812 /* HEADER */
813
814 /* HB0 = Packet Type = 0x83 (Source Product
815 * Descriptor InfoFrame)
816 */
817 infopacket->hb0 = DC_HDMI_INFOFRAME_TYPE_SPD;
818
819 /* HB1 = Version = 0x03 */
820 infopacket->hb1 = version;
821
822 /* HB2 = [Bits 7:5 = 0] [Bits 4:0 = Length] */
823 infopacket->hb2 = 0x10;
824
825 *payload_size = 0x10;
826 } else if (dc_is_dp_signal(signal)) {
827
828 /* HEADER */
829
830 /* HB0 = Secondary-data Packet ID = 0 - Only non-zero
831 * when used to associate audio related info packets
832 */
833 infopacket->hb0 = 0x00;
834
835 /* HB1 = Packet Type = 0x83 (Source Product
836 * Descriptor InfoFrame)
837 */
838 infopacket->hb1 = DC_HDMI_INFOFRAME_TYPE_SPD;
839
840 /* HB2 = [Bits 7:0 = Least significant eight bits -
841 * For INFOFRAME, the value must be 1Bh]
842 */
843 infopacket->hb2 = 0x1B;
844
845 /* HB3 = [Bits 7:2 = INFOFRAME SDP Version Number = 0x2]
846 * [Bits 1:0 = Most significant two bits = 0x00]
847 */
848
849 infopacket->hb3 = (version & 0x3F) << 2;
850
851 *payload_size = 0x1B;
852 }
853}
854
855static void build_vrr_infopacket_checksum(unsigned int *payload_size,
856 struct dc_info_packet *infopacket)
857{
858 /* Calculate checksum */
859 unsigned int idx = 0;
860 unsigned char checksum = 0;
861
862 checksum += infopacket->hb0;
863 checksum += infopacket->hb1;
864 checksum += infopacket->hb2;
865 checksum += infopacket->hb3;
866
867 for (idx = 1; idx <= *payload_size; idx++)
868 checksum += infopacket->sb[idx];
869
870 /* PB0 = Checksum (one byte complement) */
871 infopacket->sb[0] = (unsigned char)(0x100 - checksum);
872
873 infopacket->valid = true;
874}
875
876static void build_vrr_infopacket_v1(enum signal_type signal,
877 const struct mod_vrr_params *vrr,
878 struct dc_info_packet *infopacket,
879 bool freesync_on_desktop)
880{
881 /* SPD info packet for FreeSync */
882 unsigned int payload_size = 0;
883
884 build_vrr_infopacket_header_v1(signal, infopacket, &payload_size);
885 build_vrr_infopacket_data_v1(vrr, infopacket, freesync_on_desktop);
886 build_vrr_infopacket_checksum(&payload_size, infopacket);
887
888 infopacket->valid = true;
889}
890
891static void build_vrr_infopacket_v2(enum signal_type signal,
892 const struct mod_vrr_params *vrr,
893 enum color_transfer_func app_tf,
894 struct dc_info_packet *infopacket,
895 bool freesync_on_desktop)
896{
897 unsigned int payload_size = 0;
898
899 build_vrr_infopacket_header_v2(signal, infopacket, &payload_size);
900 build_vrr_infopacket_data_v1(vrr, infopacket, freesync_on_desktop);
901
902 build_vrr_infopacket_fs2_data(app_tf, infopacket);
903
904 build_vrr_infopacket_checksum(&payload_size, infopacket);
905
906 infopacket->valid = true;
907}
908
909static void build_vrr_infopacket_v3(enum signal_type signal,
910 const struct mod_vrr_params *vrr,
911 enum color_transfer_func app_tf,
912 struct dc_info_packet *infopacket,
913 bool freesync_on_desktop)
914{
915 unsigned int payload_size = 0;
916
917 build_vrr_infopacket_header_v3(signal, infopacket, &payload_size);
918 build_vrr_infopacket_data_v3(vrr, infopacket, freesync_on_desktop);
919
920 build_vrr_infopacket_fs2_data(app_tf, infopacket);
921
922 build_vrr_infopacket_checksum(&payload_size, infopacket);
923
924 infopacket->valid = true;
925}
926
927static void build_vrr_infopacket_sdp_v1_3(enum vrr_packet_type packet_type,
928 struct dc_info_packet *infopacket)
929{
930 uint8_t idx = 0, size = 0;
931
932 size = ((packet_type == PACKET_TYPE_FS_V1) ? 0x08 :
933 (packet_type == PACKET_TYPE_FS_V3) ? 0x10 :
934 0x09);
935
936 for (idx = infopacket->hb2; idx > 1; idx--) // Data Byte Count: 0x1B
937 infopacket->sb[idx] = infopacket->sb[idx-1];
938
939 infopacket->sb[1] = size; // Length
940 infopacket->sb[0] = (infopacket->hb3 >> 2) & 0x3F;//Version
941 infopacket->hb3 = (0x13 << 2); // Header,SDP 1.3
942 infopacket->hb2 = 0x1D;
943}
944
945void mod_freesync_build_vrr_infopacket(struct mod_freesync *mod_freesync,
946 const struct dc_stream_state *stream,
947 const struct mod_vrr_params *vrr,
948 enum vrr_packet_type packet_type,
949 enum color_transfer_func app_tf,
950 struct dc_info_packet *infopacket,
951 bool pack_sdp_v1_3)
952{
953 /* SPD info packet for FreeSync
954 * VTEM info packet for HdmiVRR
955 * Check if Freesync is supported. Return if false. If true,
956 * set the corresponding bit in the info packet
957 */
958 if (!vrr->send_info_frame)
959 return;
960
961 switch (packet_type) {
962 case PACKET_TYPE_FS_V3:
963 build_vrr_infopacket_v3(stream->signal, vrr, app_tf, infopacket, stream->freesync_on_desktop);
964 break;
965 case PACKET_TYPE_FS_V2:
966 build_vrr_infopacket_v2(stream->signal, vrr, app_tf, infopacket, stream->freesync_on_desktop);
967 break;
968 case PACKET_TYPE_VRR:
969 case PACKET_TYPE_FS_V1:
970 default:
971 build_vrr_infopacket_v1(stream->signal, vrr, infopacket, stream->freesync_on_desktop);
972 }
973
974 if (true == pack_sdp_v1_3 &&
975 true == dc_is_dp_signal(stream->signal) &&
976 packet_type != PACKET_TYPE_VRR &&
977 packet_type != PACKET_TYPE_VTEM)
978 build_vrr_infopacket_sdp_v1_3(packet_type, infopacket);
979}
980
981void mod_freesync_build_vrr_params(struct mod_freesync *mod_freesync,
982 const struct dc_stream_state *stream,
983 struct mod_freesync_config *in_config,
984 struct mod_vrr_params *in_out_vrr)
985{
986 struct core_freesync *core_freesync = NULL;
987 unsigned long long nominal_field_rate_in_uhz = 0;
988 unsigned long long rounded_nominal_in_uhz = 0;
989 unsigned int refresh_range = 0;
990 unsigned long long min_refresh_in_uhz = 0;
991 unsigned long long max_refresh_in_uhz = 0;
992 unsigned long long min_hardware_refresh_in_uhz = 0;
993
994 if (mod_freesync == NULL)
995 return;
996
997 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
998
999 /* Calculate nominal field rate for stream */
1000 nominal_field_rate_in_uhz =
1001 mod_freesync_calc_nominal_field_rate(stream);
1002
1003 if (stream->ctx->dc->caps.max_v_total != 0 && stream->timing.h_total != 0) {
1004 min_hardware_refresh_in_uhz = div64_u64((stream->timing.pix_clk_100hz * 100000000ULL),
1005 (stream->timing.h_total * stream->ctx->dc->caps.max_v_total));
1006 }
1007 /* Limit minimum refresh rate to what can be supported by hardware */
1008 min_refresh_in_uhz = min_hardware_refresh_in_uhz > in_config->min_refresh_in_uhz ?
1009 min_hardware_refresh_in_uhz : in_config->min_refresh_in_uhz;
1010 max_refresh_in_uhz = in_config->max_refresh_in_uhz;
1011
1012 /* Full range may be larger than current video timing, so cap at nominal */
1013 if (max_refresh_in_uhz > nominal_field_rate_in_uhz)
1014 max_refresh_in_uhz = nominal_field_rate_in_uhz;
1015
1016 /* Full range may be larger than current video timing, so cap at nominal */
1017 if (min_refresh_in_uhz > max_refresh_in_uhz)
1018 min_refresh_in_uhz = max_refresh_in_uhz;
1019
1020 /* If a monitor reports exactly max refresh of 2x of min, enforce it on nominal */
1021 rounded_nominal_in_uhz =
1022 div_u64(nominal_field_rate_in_uhz + 50000, 100000) * 100000;
1023 if (in_config->max_refresh_in_uhz == (2 * in_config->min_refresh_in_uhz) &&
1024 in_config->max_refresh_in_uhz == rounded_nominal_in_uhz)
1025 min_refresh_in_uhz = div_u64(nominal_field_rate_in_uhz, 2);
1026
1027 if (!vrr_settings_require_update(core_freesync,
1028 in_config, (unsigned int)min_refresh_in_uhz, (unsigned int)max_refresh_in_uhz,
1029 in_out_vrr))
1030 return;
1031
1032 in_out_vrr->state = in_config->state;
1033 in_out_vrr->send_info_frame = in_config->vsif_supported;
1034
1035 if (in_config->state == VRR_STATE_UNSUPPORTED) {
1036 in_out_vrr->state = VRR_STATE_UNSUPPORTED;
1037 in_out_vrr->supported = false;
1038 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1039 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1040
1041 return;
1042
1043 } else {
1044 in_out_vrr->min_refresh_in_uhz = (unsigned int)min_refresh_in_uhz;
1045 in_out_vrr->max_duration_in_us =
1046 calc_duration_in_us_from_refresh_in_uhz(
1047 (unsigned int)min_refresh_in_uhz);
1048
1049 in_out_vrr->max_refresh_in_uhz = (unsigned int)max_refresh_in_uhz;
1050 in_out_vrr->min_duration_in_us =
1051 calc_duration_in_us_from_refresh_in_uhz(
1052 (unsigned int)max_refresh_in_uhz);
1053
1054 if (in_config->state == VRR_STATE_ACTIVE_FIXED)
1055 in_out_vrr->fixed_refresh_in_uhz = in_config->fixed_refresh_in_uhz;
1056 else
1057 in_out_vrr->fixed_refresh_in_uhz = 0;
1058
1059 refresh_range = div_u64(in_out_vrr->max_refresh_in_uhz + 500000, 1000000) -
1060+ div_u64(in_out_vrr->min_refresh_in_uhz + 500000, 1000000);
1061
1062 in_out_vrr->supported = true;
1063 }
1064
1065 in_out_vrr->fixed.ramping_active = in_config->ramping;
1066
1067 in_out_vrr->btr.btr_enabled = in_config->btr;
1068
1069 if (in_out_vrr->max_refresh_in_uhz < (2 * in_out_vrr->min_refresh_in_uhz))
1070 in_out_vrr->btr.btr_enabled = false;
1071 else {
1072 in_out_vrr->btr.margin_in_us = in_out_vrr->max_duration_in_us -
1073 2 * in_out_vrr->min_duration_in_us;
1074 if (in_out_vrr->btr.margin_in_us > BTR_MAX_MARGIN)
1075 in_out_vrr->btr.margin_in_us = BTR_MAX_MARGIN;
1076 }
1077
1078 in_out_vrr->btr.btr_active = false;
1079 in_out_vrr->btr.inserted_duration_in_us = 0;
1080 in_out_vrr->btr.frames_to_insert = 0;
1081 in_out_vrr->btr.frame_counter = 0;
1082 in_out_vrr->fixed.fixed_active = false;
1083 in_out_vrr->fixed.target_refresh_in_uhz = 0;
1084
1085 in_out_vrr->btr.mid_point_in_us =
1086 (in_out_vrr->min_duration_in_us +
1087 in_out_vrr->max_duration_in_us) / 2;
1088
1089 if (in_out_vrr->state == VRR_STATE_UNSUPPORTED) {
1090 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1091 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1092 } else if (in_out_vrr->state == VRR_STATE_DISABLED) {
1093 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1094 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1095 } else if (in_out_vrr->state == VRR_STATE_INACTIVE) {
1096 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1097 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1098 } else if (in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE &&
1099 refresh_range >= MIN_REFRESH_RANGE) {
1100
1101 in_out_vrr->adjust.v_total_min =
1102 mod_freesync_calc_v_total_from_refresh(stream,
1103 in_out_vrr->max_refresh_in_uhz);
1104 in_out_vrr->adjust.v_total_max =
1105 mod_freesync_calc_v_total_from_refresh(stream,
1106 in_out_vrr->min_refresh_in_uhz);
1107 } else if (in_out_vrr->state == VRR_STATE_ACTIVE_FIXED) {
1108 in_out_vrr->fixed.target_refresh_in_uhz =
1109 in_out_vrr->fixed_refresh_in_uhz;
1110 if (in_out_vrr->fixed.ramping_active &&
1111 in_out_vrr->fixed.fixed_active) {
1112 /* Do not update vtotals if ramping is already active
1113 * in order to continue ramp from current refresh.
1114 */
1115 in_out_vrr->fixed.fixed_active = true;
1116 } else {
1117 in_out_vrr->fixed.fixed_active = true;
1118 in_out_vrr->adjust.v_total_min =
1119 mod_freesync_calc_v_total_from_refresh(stream,
1120 in_out_vrr->fixed.target_refresh_in_uhz);
1121 in_out_vrr->adjust.v_total_max =
1122 in_out_vrr->adjust.v_total_min;
1123 }
1124 } else {
1125 in_out_vrr->state = VRR_STATE_INACTIVE;
1126 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1127 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1128 }
1129}
1130
1131void mod_freesync_handle_preflip(struct mod_freesync *mod_freesync,
1132 const struct dc_plane_state *plane,
1133 const struct dc_stream_state *stream,
1134 unsigned int curr_time_stamp_in_us,
1135 struct mod_vrr_params *in_out_vrr)
1136{
1137 struct core_freesync *core_freesync = NULL;
1138 unsigned int last_render_time_in_us = 0;
1139
1140 if (mod_freesync == NULL)
1141 return;
1142
1143 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
1144
1145 if (in_out_vrr->supported &&
1146 in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE) {
1147
1148 last_render_time_in_us = curr_time_stamp_in_us -
1149 plane->time.prev_update_time_in_us;
1150
1151 if (in_out_vrr->btr.btr_enabled) {
1152 apply_below_the_range(core_freesync,
1153 stream,
1154 last_render_time_in_us,
1155 in_out_vrr);
1156 } else {
1157 apply_fixed_refresh(core_freesync,
1158 stream,
1159 last_render_time_in_us,
1160 in_out_vrr);
1161 }
1162
1163 determine_flip_interval_workaround_req(in_out_vrr,
1164 curr_time_stamp_in_us);
1165
1166 }
1167}
1168
1169void mod_freesync_handle_v_update(struct mod_freesync *mod_freesync,
1170 const struct dc_stream_state *stream,
1171 struct mod_vrr_params *in_out_vrr)
1172{
1173 struct core_freesync *core_freesync = NULL;
1174 unsigned int cur_timestamp_in_us;
1175 unsigned long long cur_tick;
1176
1177 if ((mod_freesync == NULL) || (stream == NULL) || (in_out_vrr == NULL))
1178 return;
1179
1180 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
1181
1182 if (in_out_vrr->supported == false)
1183 return;
1184
1185 cur_tick = dm_get_timestamp(core_freesync->dc->ctx);
1186 cur_timestamp_in_us = (unsigned int)
1187 div_u64(dm_get_elapse_time_in_ns(core_freesync->dc->ctx, cur_tick, 0), 1000);
1188
1189 in_out_vrr->flip_interval.vsyncs_between_flip++;
1190 in_out_vrr->flip_interval.v_update_timestamp_in_us = cur_timestamp_in_us;
1191
1192 if (in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE &&
1193 (in_out_vrr->flip_interval.flip_interval_workaround_active ||
1194 (!in_out_vrr->flip_interval.flip_interval_workaround_active &&
1195 in_out_vrr->flip_interval.program_flip_interval_workaround))) {
1196 // set freesync vmin vmax to nominal for workaround
1197 in_out_vrr->adjust.v_total_min =
1198 mod_freesync_calc_v_total_from_refresh(
1199 stream, in_out_vrr->max_refresh_in_uhz);
1200 in_out_vrr->adjust.v_total_max =
1201 in_out_vrr->adjust.v_total_min;
1202 in_out_vrr->flip_interval.program_flip_interval_workaround = false;
1203 in_out_vrr->flip_interval.do_flip_interval_workaround_cleanup = true;
1204 return;
1205 }
1206
1207 if (in_out_vrr->state != VRR_STATE_ACTIVE_VARIABLE &&
1208 in_out_vrr->flip_interval.do_flip_interval_workaround_cleanup) {
1209 in_out_vrr->flip_interval.do_flip_interval_workaround_cleanup = false;
1210 in_out_vrr->flip_interval.flip_interval_detect_counter = 0;
1211 in_out_vrr->flip_interval.vsyncs_between_flip = 0;
1212 in_out_vrr->flip_interval.vsync_to_flip_in_us = 0;
1213 }
1214
1215 /* Below the Range Logic */
1216
1217 /* Only execute if in fullscreen mode */
1218 if (in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE &&
1219 in_out_vrr->btr.btr_active) {
1220 /* TODO: pass in flag for Pre-DCE12 ASIC
1221 * in order for frame variable duration to take affect,
1222 * it needs to be done one VSYNC early, which is at
1223 * frameCounter == 1.
1224 * For DCE12 and newer updates to V_TOTAL_MIN/MAX
1225 * will take affect on current frame
1226 */
1227 if (in_out_vrr->btr.frames_to_insert ==
1228 in_out_vrr->btr.frame_counter) {
1229 in_out_vrr->adjust.v_total_min =
1230 calc_v_total_from_duration(stream,
1231 in_out_vrr,
1232 in_out_vrr->btr.inserted_duration_in_us);
1233 in_out_vrr->adjust.v_total_max =
1234 in_out_vrr->adjust.v_total_min;
1235 }
1236
1237 if (in_out_vrr->btr.frame_counter > 0)
1238 in_out_vrr->btr.frame_counter--;
1239
1240 /* Restore FreeSync */
1241 if (in_out_vrr->btr.frame_counter == 0) {
1242 in_out_vrr->adjust.v_total_min =
1243 mod_freesync_calc_v_total_from_refresh(stream,
1244 in_out_vrr->max_refresh_in_uhz);
1245 in_out_vrr->adjust.v_total_max =
1246 mod_freesync_calc_v_total_from_refresh(stream,
1247 in_out_vrr->min_refresh_in_uhz);
1248 }
1249 }
1250
1251 /* If in fullscreen freesync mode or in video, do not program
1252 * static screen ramp values
1253 */
1254 if (in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE)
1255 in_out_vrr->fixed.ramping_active = false;
1256
1257 /* Gradual Static Screen Ramping Logic
1258 * Execute if ramp is active and user enabled freesync static screen
1259 */
1260 if (in_out_vrr->state == VRR_STATE_ACTIVE_FIXED &&
1261 in_out_vrr->fixed.ramping_active) {
1262 update_v_total_for_static_ramp(
1263 core_freesync, stream, in_out_vrr);
1264 }
1265}
1266
1267void mod_freesync_get_settings(struct mod_freesync *mod_freesync,
1268 const struct mod_vrr_params *vrr,
1269 unsigned int *v_total_min, unsigned int *v_total_max,
1270 unsigned int *event_triggers,
1271 unsigned int *window_min, unsigned int *window_max,
1272 unsigned int *lfc_mid_point_in_us,
1273 unsigned int *inserted_frames,
1274 unsigned int *inserted_duration_in_us)
1275{
1276 if (mod_freesync == NULL)
1277 return;
1278
1279 if (vrr->supported) {
1280 *v_total_min = vrr->adjust.v_total_min;
1281 *v_total_max = vrr->adjust.v_total_max;
1282 *event_triggers = 0;
1283 *lfc_mid_point_in_us = vrr->btr.mid_point_in_us;
1284 *inserted_frames = vrr->btr.frames_to_insert;
1285 *inserted_duration_in_us = vrr->btr.inserted_duration_in_us;
1286 }
1287}
1288
1289unsigned long long mod_freesync_calc_nominal_field_rate(
1290 const struct dc_stream_state *stream)
1291{
1292 unsigned long long nominal_field_rate_in_uhz = 0;
1293 unsigned int total = stream->timing.h_total * stream->timing.v_total;
1294
1295 /* Calculate nominal field rate for stream, rounded up to nearest integer */
1296 nominal_field_rate_in_uhz = stream->timing.pix_clk_100hz;
1297 nominal_field_rate_in_uhz *= 100000000ULL;
1298
1299 nominal_field_rate_in_uhz = div_u64(nominal_field_rate_in_uhz, total);
1300
1301 return nominal_field_rate_in_uhz;
1302}
1303
1304unsigned long long mod_freesync_calc_field_rate_from_timing(
1305 unsigned int vtotal, unsigned int htotal, unsigned int pix_clk)
1306{
1307 unsigned long long field_rate_in_uhz = 0;
1308 unsigned int total = htotal * vtotal;
1309
1310 /* Calculate nominal field rate for stream, rounded up to nearest integer */
1311 field_rate_in_uhz = pix_clk;
1312 field_rate_in_uhz *= 1000000ULL;
1313
1314 field_rate_in_uhz = div_u64(field_rate_in_uhz, total);
1315
1316 return field_rate_in_uhz;
1317}
1318
1319bool mod_freesync_get_freesync_enabled(struct mod_vrr_params *pVrr)
1320{
1321 return (pVrr->state != VRR_STATE_UNSUPPORTED) && (pVrr->state != VRR_STATE_DISABLED);
1322}
1323
1324bool mod_freesync_is_valid_range(uint32_t min_refresh_cap_in_uhz,
1325 uint32_t max_refresh_cap_in_uhz,
1326 uint32_t nominal_field_rate_in_uhz)
1327{
1328
1329 /* Typically nominal refresh calculated can have some fractional part.
1330 * Allow for some rounding error of actual video timing by taking floor
1331 * of caps and request. Round the nominal refresh rate.
1332 *
1333 * Dividing will convert everything to units in Hz although input
1334 * variable name is in uHz!
1335 *
1336 * Also note, this takes care of rounding error on the nominal refresh
1337 * so by rounding error we only expect it to be off by a small amount,
1338 * such as < 0.1 Hz. i.e. 143.9xxx or 144.1xxx.
1339 *
1340 * Example 1. Caps Min = 40 Hz, Max = 144 Hz
1341 * Request Min = 40 Hz, Max = 144 Hz
1342 * Nominal = 143.5x Hz rounded to 144 Hz
1343 * This function should allow this as valid request
1344 *
1345 * Example 2. Caps Min = 40 Hz, Max = 144 Hz
1346 * Request Min = 40 Hz, Max = 144 Hz
1347 * Nominal = 144.4x Hz rounded to 144 Hz
1348 * This function should allow this as valid request
1349 *
1350 * Example 3. Caps Min = 40 Hz, Max = 144 Hz
1351 * Request Min = 40 Hz, Max = 144 Hz
1352 * Nominal = 120.xx Hz rounded to 120 Hz
1353 * This function should return NOT valid since the requested
1354 * max is greater than current timing's nominal
1355 *
1356 * Example 4. Caps Min = 40 Hz, Max = 120 Hz
1357 * Request Min = 40 Hz, Max = 120 Hz
1358 * Nominal = 144.xx Hz rounded to 144 Hz
1359 * This function should return NOT valid since the nominal
1360 * is greater than the capability's max refresh
1361 */
1362 nominal_field_rate_in_uhz =
1363 div_u64(nominal_field_rate_in_uhz + 500000, 1000000);
1364 min_refresh_cap_in_uhz /= 1000000;
1365 max_refresh_cap_in_uhz /= 1000000;
1366
1367 /* Check nominal is within range */
1368 if (nominal_field_rate_in_uhz > max_refresh_cap_in_uhz ||
1369 nominal_field_rate_in_uhz < min_refresh_cap_in_uhz)
1370 return false;
1371
1372 /* If nominal is less than max, limit the max allowed refresh rate */
1373 if (nominal_field_rate_in_uhz < max_refresh_cap_in_uhz)
1374 max_refresh_cap_in_uhz = nominal_field_rate_in_uhz;
1375
1376 /* Check min is within range */
1377 if (min_refresh_cap_in_uhz > max_refresh_cap_in_uhz)
1378 return false;
1379
1380 /* For variable range, check for at least 10 Hz range */
1381 if (nominal_field_rate_in_uhz - min_refresh_cap_in_uhz < 10)
1382 return false;
1383
1384 return true;
1385}
1/*
2 * Copyright 2016 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 * Authors: AMD
23 *
24 */
25
26#include <linux/slab.h>
27
28#include "dm_services.h"
29#include "dc.h"
30#include "mod_freesync.h"
31#include "core_types.h"
32
33#define MOD_FREESYNC_MAX_CONCURRENT_STREAMS 32
34
35#define MIN_REFRESH_RANGE 10
36/* Refresh rate ramp at a fixed rate of 65 Hz/second */
37#define STATIC_SCREEN_RAMP_DELTA_REFRESH_RATE_PER_FRAME ((1000 / 60) * 65)
38/* Number of elements in the render times cache array */
39#define RENDER_TIMES_MAX_COUNT 10
40/* Threshold to exit/exit BTR (to avoid frequent enter-exits at the lower limit) */
41#define BTR_MAX_MARGIN 2500
42/* Threshold to change BTR multiplier (to avoid frequent changes) */
43#define BTR_DRIFT_MARGIN 2000
44/* Threshold to exit fixed refresh rate */
45#define FIXED_REFRESH_EXIT_MARGIN_IN_HZ 1
46/* Number of consecutive frames to check before entering/exiting fixed refresh */
47#define FIXED_REFRESH_ENTER_FRAME_COUNT 5
48#define FIXED_REFRESH_EXIT_FRAME_COUNT 10
49
50struct core_freesync {
51 struct mod_freesync public;
52 struct dc *dc;
53};
54
55#define MOD_FREESYNC_TO_CORE(mod_freesync)\
56 container_of(mod_freesync, struct core_freesync, public)
57
58struct mod_freesync *mod_freesync_create(struct dc *dc)
59{
60 struct core_freesync *core_freesync =
61 kzalloc(sizeof(struct core_freesync), GFP_KERNEL);
62
63 if (core_freesync == NULL)
64 goto fail_alloc_context;
65
66 if (dc == NULL)
67 goto fail_construct;
68
69 core_freesync->dc = dc;
70 return &core_freesync->public;
71
72fail_construct:
73 kfree(core_freesync);
74
75fail_alloc_context:
76 return NULL;
77}
78
79void mod_freesync_destroy(struct mod_freesync *mod_freesync)
80{
81 struct core_freesync *core_freesync = NULL;
82 if (mod_freesync == NULL)
83 return;
84 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
85 kfree(core_freesync);
86}
87
88#if 0 /* Unused currently */
89static unsigned int calc_refresh_in_uhz_from_duration(
90 unsigned int duration_in_ns)
91{
92 unsigned int refresh_in_uhz =
93 ((unsigned int)(div64_u64((1000000000ULL * 1000000),
94 duration_in_ns)));
95 return refresh_in_uhz;
96}
97#endif
98
99static unsigned int calc_duration_in_us_from_refresh_in_uhz(
100 unsigned int refresh_in_uhz)
101{
102 unsigned int duration_in_us =
103 ((unsigned int)(div64_u64((1000000000ULL * 1000),
104 refresh_in_uhz)));
105 return duration_in_us;
106}
107
108static unsigned int calc_duration_in_us_from_v_total(
109 const struct dc_stream_state *stream,
110 const struct mod_vrr_params *in_vrr,
111 unsigned int v_total)
112{
113 unsigned int duration_in_us =
114 (unsigned int)(div64_u64(((unsigned long long)(v_total)
115 * 10000) * stream->timing.h_total,
116 stream->timing.pix_clk_100hz));
117
118 return duration_in_us;
119}
120
121unsigned int mod_freesync_calc_v_total_from_refresh(
122 const struct dc_stream_state *stream,
123 unsigned int refresh_in_uhz)
124{
125 unsigned int v_total;
126 unsigned int frame_duration_in_ns;
127
128 frame_duration_in_ns =
129 ((unsigned int)(div64_u64((1000000000ULL * 1000000),
130 refresh_in_uhz)));
131
132 v_total = div64_u64(div64_u64(((unsigned long long)(
133 frame_duration_in_ns) * (stream->timing.pix_clk_100hz / 10)),
134 stream->timing.h_total), 1000000);
135
136 /* v_total cannot be less than nominal */
137 if (v_total < stream->timing.v_total) {
138 ASSERT(v_total < stream->timing.v_total);
139 v_total = stream->timing.v_total;
140 }
141
142 return v_total;
143}
144
145static unsigned int calc_v_total_from_duration(
146 const struct dc_stream_state *stream,
147 const struct mod_vrr_params *vrr,
148 unsigned int duration_in_us)
149{
150 unsigned int v_total = 0;
151
152 if (duration_in_us < vrr->min_duration_in_us)
153 duration_in_us = vrr->min_duration_in_us;
154
155 if (duration_in_us > vrr->max_duration_in_us)
156 duration_in_us = vrr->max_duration_in_us;
157
158 v_total = div64_u64(div64_u64(((unsigned long long)(
159 duration_in_us) * (stream->timing.pix_clk_100hz / 10)),
160 stream->timing.h_total), 1000);
161
162 /* v_total cannot be less than nominal */
163 if (v_total < stream->timing.v_total) {
164 ASSERT(v_total < stream->timing.v_total);
165 v_total = stream->timing.v_total;
166 }
167
168 return v_total;
169}
170
171static void update_v_total_for_static_ramp(
172 struct core_freesync *core_freesync,
173 const struct dc_stream_state *stream,
174 struct mod_vrr_params *in_out_vrr)
175{
176 unsigned int v_total = 0;
177 unsigned int current_duration_in_us =
178 calc_duration_in_us_from_v_total(
179 stream, in_out_vrr,
180 in_out_vrr->adjust.v_total_max);
181 unsigned int target_duration_in_us =
182 calc_duration_in_us_from_refresh_in_uhz(
183 in_out_vrr->fixed.target_refresh_in_uhz);
184 bool ramp_direction_is_up = (current_duration_in_us >
185 target_duration_in_us) ? true : false;
186
187 /* Calculate ratio between new and current frame duration with 3 digit */
188 unsigned int frame_duration_ratio = div64_u64(1000000,
189 (1000 + div64_u64(((unsigned long long)(
190 STATIC_SCREEN_RAMP_DELTA_REFRESH_RATE_PER_FRAME) *
191 current_duration_in_us),
192 1000000)));
193
194 /* Calculate delta between new and current frame duration in us */
195 unsigned int frame_duration_delta = div64_u64(((unsigned long long)(
196 current_duration_in_us) *
197 (1000 - frame_duration_ratio)), 1000);
198
199 /* Adjust frame duration delta based on ratio between current and
200 * standard frame duration (frame duration at 60 Hz refresh rate).
201 */
202 unsigned int ramp_rate_interpolated = div64_u64(((unsigned long long)(
203 frame_duration_delta) * current_duration_in_us), 16666);
204
205 /* Going to a higher refresh rate (lower frame duration) */
206 if (ramp_direction_is_up) {
207 /* Reduce frame duration */
208 current_duration_in_us -= ramp_rate_interpolated;
209
210 /* Adjust for frame duration below min */
211 if (current_duration_in_us <= target_duration_in_us) {
212 in_out_vrr->fixed.ramping_active = false;
213 in_out_vrr->fixed.ramping_done = true;
214 current_duration_in_us =
215 calc_duration_in_us_from_refresh_in_uhz(
216 in_out_vrr->fixed.target_refresh_in_uhz);
217 }
218 /* Going to a lower refresh rate (larger frame duration) */
219 } else {
220 /* Increase frame duration */
221 current_duration_in_us += ramp_rate_interpolated;
222
223 /* Adjust for frame duration above max */
224 if (current_duration_in_us >= target_duration_in_us) {
225 in_out_vrr->fixed.ramping_active = false;
226 in_out_vrr->fixed.ramping_done = true;
227 current_duration_in_us =
228 calc_duration_in_us_from_refresh_in_uhz(
229 in_out_vrr->fixed.target_refresh_in_uhz);
230 }
231 }
232
233 v_total = div64_u64(div64_u64(((unsigned long long)(
234 current_duration_in_us) * (stream->timing.pix_clk_100hz / 10)),
235 stream->timing.h_total), 1000);
236
237 /* v_total cannot be less than nominal */
238 if (v_total < stream->timing.v_total)
239 v_total = stream->timing.v_total;
240
241 in_out_vrr->adjust.v_total_min = v_total;
242 in_out_vrr->adjust.v_total_max = v_total;
243}
244
245static void apply_below_the_range(struct core_freesync *core_freesync,
246 const struct dc_stream_state *stream,
247 unsigned int last_render_time_in_us,
248 struct mod_vrr_params *in_out_vrr)
249{
250 unsigned int inserted_frame_duration_in_us = 0;
251 unsigned int mid_point_frames_ceil = 0;
252 unsigned int mid_point_frames_floor = 0;
253 unsigned int frame_time_in_us = 0;
254 unsigned int delta_from_mid_point_in_us_1 = 0xFFFFFFFF;
255 unsigned int delta_from_mid_point_in_us_2 = 0xFFFFFFFF;
256 unsigned int frames_to_insert = 0;
257 unsigned int delta_from_mid_point_delta_in_us;
258 unsigned int max_render_time_in_us =
259 in_out_vrr->max_duration_in_us - in_out_vrr->btr.margin_in_us;
260
261 /* Program BTR */
262 if ((last_render_time_in_us + in_out_vrr->btr.margin_in_us / 2) < max_render_time_in_us) {
263 /* Exit Below the Range */
264 if (in_out_vrr->btr.btr_active) {
265 in_out_vrr->btr.frame_counter = 0;
266 in_out_vrr->btr.btr_active = false;
267 }
268 } else if (last_render_time_in_us > (max_render_time_in_us + in_out_vrr->btr.margin_in_us / 2)) {
269 /* Enter Below the Range */
270 if (!in_out_vrr->btr.btr_active) {
271 in_out_vrr->btr.btr_active = true;
272 }
273 }
274
275 /* BTR set to "not active" so disengage */
276 if (!in_out_vrr->btr.btr_active) {
277 in_out_vrr->btr.inserted_duration_in_us = 0;
278 in_out_vrr->btr.frames_to_insert = 0;
279 in_out_vrr->btr.frame_counter = 0;
280
281 /* Restore FreeSync */
282 in_out_vrr->adjust.v_total_min =
283 mod_freesync_calc_v_total_from_refresh(stream,
284 in_out_vrr->max_refresh_in_uhz);
285 in_out_vrr->adjust.v_total_max =
286 mod_freesync_calc_v_total_from_refresh(stream,
287 in_out_vrr->min_refresh_in_uhz);
288 /* BTR set to "active" so engage */
289 } else {
290
291 /* Calculate number of midPoint frames that could fit within
292 * the render time interval - take ceil of this value
293 */
294 mid_point_frames_ceil = (last_render_time_in_us +
295 in_out_vrr->btr.mid_point_in_us - 1) /
296 in_out_vrr->btr.mid_point_in_us;
297
298 if (mid_point_frames_ceil > 0) {
299 frame_time_in_us = last_render_time_in_us /
300 mid_point_frames_ceil;
301 delta_from_mid_point_in_us_1 =
302 (in_out_vrr->btr.mid_point_in_us >
303 frame_time_in_us) ?
304 (in_out_vrr->btr.mid_point_in_us - frame_time_in_us) :
305 (frame_time_in_us - in_out_vrr->btr.mid_point_in_us);
306 }
307
308 /* Calculate number of midPoint frames that could fit within
309 * the render time interval - take floor of this value
310 */
311 mid_point_frames_floor = last_render_time_in_us /
312 in_out_vrr->btr.mid_point_in_us;
313
314 if (mid_point_frames_floor > 0) {
315
316 frame_time_in_us = last_render_time_in_us /
317 mid_point_frames_floor;
318 delta_from_mid_point_in_us_2 =
319 (in_out_vrr->btr.mid_point_in_us >
320 frame_time_in_us) ?
321 (in_out_vrr->btr.mid_point_in_us - frame_time_in_us) :
322 (frame_time_in_us - in_out_vrr->btr.mid_point_in_us);
323 }
324
325 /* Choose number of frames to insert based on how close it
326 * can get to the mid point of the variable range.
327 * - Delta for CEIL: delta_from_mid_point_in_us_1
328 * - Delta for FLOOR: delta_from_mid_point_in_us_2
329 */
330 if ((last_render_time_in_us / mid_point_frames_ceil) < in_out_vrr->min_duration_in_us) {
331 /* Check for out of range.
332 * If using CEIL produces a value that is out of range,
333 * then we are forced to use FLOOR.
334 */
335 frames_to_insert = mid_point_frames_floor;
336 } else if (mid_point_frames_floor < 2) {
337 /* Check if FLOOR would result in non-LFC. In this case
338 * choose to use CEIL
339 */
340 frames_to_insert = mid_point_frames_ceil;
341 } else if (delta_from_mid_point_in_us_1 < delta_from_mid_point_in_us_2) {
342 /* If choosing CEIL results in a frame duration that is
343 * closer to the mid point of the range.
344 * Choose CEIL
345 */
346 frames_to_insert = mid_point_frames_ceil;
347 } else {
348 /* If choosing FLOOR results in a frame duration that is
349 * closer to the mid point of the range.
350 * Choose FLOOR
351 */
352 frames_to_insert = mid_point_frames_floor;
353 }
354
355 /* Prefer current frame multiplier when BTR is enabled unless it drifts
356 * too far from the midpoint
357 */
358 if (delta_from_mid_point_in_us_1 < delta_from_mid_point_in_us_2) {
359 delta_from_mid_point_delta_in_us = delta_from_mid_point_in_us_2 -
360 delta_from_mid_point_in_us_1;
361 } else {
362 delta_from_mid_point_delta_in_us = delta_from_mid_point_in_us_1 -
363 delta_from_mid_point_in_us_2;
364 }
365 if (in_out_vrr->btr.frames_to_insert != 0 &&
366 delta_from_mid_point_delta_in_us < BTR_DRIFT_MARGIN) {
367 if (((last_render_time_in_us / in_out_vrr->btr.frames_to_insert) <
368 max_render_time_in_us) &&
369 ((last_render_time_in_us / in_out_vrr->btr.frames_to_insert) >
370 in_out_vrr->min_duration_in_us))
371 frames_to_insert = in_out_vrr->btr.frames_to_insert;
372 }
373
374 /* Either we've calculated the number of frames to insert,
375 * or we need to insert min duration frames
376 */
377 if (last_render_time_in_us / frames_to_insert <
378 in_out_vrr->min_duration_in_us){
379 frames_to_insert -= (frames_to_insert > 1) ?
380 1 : 0;
381 }
382
383 if (frames_to_insert > 0)
384 inserted_frame_duration_in_us = last_render_time_in_us /
385 frames_to_insert;
386
387 if (inserted_frame_duration_in_us < in_out_vrr->min_duration_in_us)
388 inserted_frame_duration_in_us = in_out_vrr->min_duration_in_us;
389
390 /* Cache the calculated variables */
391 in_out_vrr->btr.inserted_duration_in_us =
392 inserted_frame_duration_in_us;
393 in_out_vrr->btr.frames_to_insert = frames_to_insert;
394 in_out_vrr->btr.frame_counter = frames_to_insert;
395 }
396}
397
398static void apply_fixed_refresh(struct core_freesync *core_freesync,
399 const struct dc_stream_state *stream,
400 unsigned int last_render_time_in_us,
401 struct mod_vrr_params *in_out_vrr)
402{
403 bool update = false;
404 unsigned int max_render_time_in_us = in_out_vrr->max_duration_in_us;
405
406 /* Compute the exit refresh rate and exit frame duration */
407 unsigned int exit_refresh_rate_in_milli_hz = ((1000000000/max_render_time_in_us)
408 + (1000*FIXED_REFRESH_EXIT_MARGIN_IN_HZ));
409 unsigned int exit_frame_duration_in_us = 1000000000/exit_refresh_rate_in_milli_hz;
410
411 if (last_render_time_in_us < exit_frame_duration_in_us) {
412 /* Exit Fixed Refresh mode */
413 if (in_out_vrr->fixed.fixed_active) {
414 in_out_vrr->fixed.frame_counter++;
415
416 if (in_out_vrr->fixed.frame_counter >
417 FIXED_REFRESH_EXIT_FRAME_COUNT) {
418 in_out_vrr->fixed.frame_counter = 0;
419 in_out_vrr->fixed.fixed_active = false;
420 in_out_vrr->fixed.target_refresh_in_uhz = 0;
421 update = true;
422 }
423 } else
424 in_out_vrr->fixed.frame_counter = 0;
425 } else if (last_render_time_in_us > max_render_time_in_us) {
426 /* Enter Fixed Refresh mode */
427 if (!in_out_vrr->fixed.fixed_active) {
428 in_out_vrr->fixed.frame_counter++;
429
430 if (in_out_vrr->fixed.frame_counter >
431 FIXED_REFRESH_ENTER_FRAME_COUNT) {
432 in_out_vrr->fixed.frame_counter = 0;
433 in_out_vrr->fixed.fixed_active = true;
434 in_out_vrr->fixed.target_refresh_in_uhz =
435 in_out_vrr->max_refresh_in_uhz;
436 update = true;
437 }
438 } else
439 in_out_vrr->fixed.frame_counter = 0;
440 }
441
442 if (update) {
443 if (in_out_vrr->fixed.fixed_active) {
444 in_out_vrr->adjust.v_total_min =
445 mod_freesync_calc_v_total_from_refresh(
446 stream, in_out_vrr->max_refresh_in_uhz);
447 in_out_vrr->adjust.v_total_max =
448 in_out_vrr->adjust.v_total_min;
449 } else {
450 in_out_vrr->adjust.v_total_min =
451 mod_freesync_calc_v_total_from_refresh(stream,
452 in_out_vrr->max_refresh_in_uhz);
453 in_out_vrr->adjust.v_total_max =
454 mod_freesync_calc_v_total_from_refresh(stream,
455 in_out_vrr->min_refresh_in_uhz);
456 }
457 }
458}
459
460static bool vrr_settings_require_update(struct core_freesync *core_freesync,
461 struct mod_freesync_config *in_config,
462 unsigned int min_refresh_in_uhz,
463 unsigned int max_refresh_in_uhz,
464 struct mod_vrr_params *in_vrr)
465{
466 if (in_vrr->state != in_config->state) {
467 return true;
468 } else if (in_vrr->state == VRR_STATE_ACTIVE_FIXED &&
469 in_vrr->fixed.target_refresh_in_uhz !=
470 in_config->fixed_refresh_in_uhz) {
471 return true;
472 } else if (in_vrr->min_refresh_in_uhz != min_refresh_in_uhz) {
473 return true;
474 } else if (in_vrr->max_refresh_in_uhz != max_refresh_in_uhz) {
475 return true;
476 }
477
478 return false;
479}
480
481bool mod_freesync_get_vmin_vmax(struct mod_freesync *mod_freesync,
482 const struct dc_stream_state *stream,
483 unsigned int *vmin,
484 unsigned int *vmax)
485{
486 *vmin = stream->adjust.v_total_min;
487 *vmax = stream->adjust.v_total_max;
488
489 return true;
490}
491
492bool mod_freesync_get_v_position(struct mod_freesync *mod_freesync,
493 struct dc_stream_state *stream,
494 unsigned int *nom_v_pos,
495 unsigned int *v_pos)
496{
497 struct core_freesync *core_freesync = NULL;
498 struct crtc_position position;
499
500 if (mod_freesync == NULL)
501 return false;
502
503 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
504
505 if (dc_stream_get_crtc_position(core_freesync->dc, &stream, 1,
506 &position.vertical_count,
507 &position.nominal_vcount)) {
508
509 *nom_v_pos = position.nominal_vcount;
510 *v_pos = position.vertical_count;
511
512 return true;
513 }
514
515 return false;
516}
517
518static void build_vrr_infopacket_data_v1(const struct mod_vrr_params *vrr,
519 struct dc_info_packet *infopacket,
520 bool freesync_on_desktop)
521{
522 /* PB1 = 0x1A (24bit AMD IEEE OUI (0x00001A) - Byte 0) */
523 infopacket->sb[1] = 0x1A;
524
525 /* PB2 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 1) */
526 infopacket->sb[2] = 0x00;
527
528 /* PB3 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 2) */
529 infopacket->sb[3] = 0x00;
530
531 /* PB4 = Reserved */
532
533 /* PB5 = Reserved */
534
535 /* PB6 = [Bits 7:3 = Reserved] */
536
537 /* PB6 = [Bit 0 = FreeSync Supported] */
538 if (vrr->state != VRR_STATE_UNSUPPORTED)
539 infopacket->sb[6] |= 0x01;
540
541 /* PB6 = [Bit 1 = FreeSync Enabled] */
542 if (vrr->state != VRR_STATE_DISABLED &&
543 vrr->state != VRR_STATE_UNSUPPORTED)
544 infopacket->sb[6] |= 0x02;
545
546 if (freesync_on_desktop) {
547 /* PB6 = [Bit 2 = FreeSync Active] */
548 if (vrr->state != VRR_STATE_DISABLED &&
549 vrr->state != VRR_STATE_UNSUPPORTED)
550 infopacket->sb[6] |= 0x04;
551 } else {
552 if (vrr->state == VRR_STATE_ACTIVE_VARIABLE ||
553 vrr->state == VRR_STATE_ACTIVE_FIXED)
554 infopacket->sb[6] |= 0x04;
555 }
556
557 // For v1 & 2 infoframes program nominal if non-fs mode, otherwise full range
558 /* PB7 = FreeSync Minimum refresh rate (Hz) */
559 if (vrr->state == VRR_STATE_ACTIVE_VARIABLE ||
560 vrr->state == VRR_STATE_ACTIVE_FIXED) {
561 infopacket->sb[7] = (unsigned char)((vrr->min_refresh_in_uhz + 500000) / 1000000);
562 } else {
563 infopacket->sb[7] = (unsigned char)((vrr->max_refresh_in_uhz + 500000) / 1000000);
564 }
565
566 /* PB8 = FreeSync Maximum refresh rate (Hz)
567 * Note: We should never go above the field rate of the mode timing set.
568 */
569 infopacket->sb[8] = (unsigned char)((vrr->max_refresh_in_uhz + 500000) / 1000000);
570
571 /* FreeSync HDR */
572 infopacket->sb[9] = 0;
573 infopacket->sb[10] = 0;
574}
575
576static void build_vrr_infopacket_data_v3(const struct mod_vrr_params *vrr,
577 struct dc_info_packet *infopacket)
578{
579 unsigned int min_refresh;
580 unsigned int max_refresh;
581 unsigned int fixed_refresh;
582 unsigned int min_programmed;
583 unsigned int max_programmed;
584
585 /* PB1 = 0x1A (24bit AMD IEEE OUI (0x00001A) - Byte 0) */
586 infopacket->sb[1] = 0x1A;
587
588 /* PB2 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 1) */
589 infopacket->sb[2] = 0x00;
590
591 /* PB3 = 0x00 (24bit AMD IEEE OUI (0x00001A) - Byte 2) */
592 infopacket->sb[3] = 0x00;
593
594 /* PB4 = Reserved */
595
596 /* PB5 = Reserved */
597
598 /* PB6 = [Bits 7:3 = Reserved] */
599
600 /* PB6 = [Bit 0 = FreeSync Supported] */
601 if (vrr->state != VRR_STATE_UNSUPPORTED)
602 infopacket->sb[6] |= 0x01;
603
604 /* PB6 = [Bit 1 = FreeSync Enabled] */
605 if (vrr->state != VRR_STATE_DISABLED &&
606 vrr->state != VRR_STATE_UNSUPPORTED)
607 infopacket->sb[6] |= 0x02;
608
609 /* PB6 = [Bit 2 = FreeSync Active] */
610 if (vrr->state == VRR_STATE_ACTIVE_VARIABLE ||
611 vrr->state == VRR_STATE_ACTIVE_FIXED)
612 infopacket->sb[6] |= 0x04;
613
614 min_refresh = (vrr->min_refresh_in_uhz + 500000) / 1000000;
615 max_refresh = (vrr->max_refresh_in_uhz + 500000) / 1000000;
616 fixed_refresh = (vrr->fixed_refresh_in_uhz + 500000) / 1000000;
617
618 min_programmed = (vrr->state == VRR_STATE_ACTIVE_FIXED) ? fixed_refresh :
619 (vrr->state == VRR_STATE_ACTIVE_VARIABLE) ? min_refresh :
620 (vrr->state == VRR_STATE_INACTIVE) ? min_refresh :
621 max_refresh; // Non-fs case, program nominal range
622
623 max_programmed = (vrr->state == VRR_STATE_ACTIVE_FIXED) ? fixed_refresh :
624 (vrr->state == VRR_STATE_ACTIVE_VARIABLE) ? max_refresh :
625 max_refresh;// Non-fs case, program nominal range
626
627 /* PB7 = FreeSync Minimum refresh rate (Hz) */
628 infopacket->sb[7] = min_programmed & 0xFF;
629
630 /* PB8 = FreeSync Maximum refresh rate (Hz) */
631 infopacket->sb[8] = max_programmed & 0xFF;
632
633 /* PB11 : MSB FreeSync Minimum refresh rate [Hz] - bits 9:8 */
634 infopacket->sb[11] = (min_programmed >> 8) & 0x03;
635
636 /* PB12 : MSB FreeSync Maximum refresh rate [Hz] - bits 9:8 */
637 infopacket->sb[12] = (max_programmed >> 8) & 0x03;
638
639 /* PB16 : Reserved bits 7:1, FixedRate bit 0 */
640 infopacket->sb[16] = (vrr->state == VRR_STATE_ACTIVE_FIXED) ? 1 : 0;
641
642 //FreeSync HDR
643 infopacket->sb[9] = 0;
644 infopacket->sb[10] = 0;
645}
646
647static void build_vrr_infopacket_fs2_data(enum color_transfer_func app_tf,
648 struct dc_info_packet *infopacket)
649{
650 if (app_tf != TRANSFER_FUNC_UNKNOWN) {
651 infopacket->valid = true;
652
653 infopacket->sb[6] |= 0x08; // PB6 = [Bit 3 = Native Color Active]
654
655 if (app_tf == TRANSFER_FUNC_GAMMA_22) {
656 infopacket->sb[9] |= 0x04; // PB6 = [Bit 2 = Gamma 2.2 EOTF Active]
657 }
658 }
659}
660
661static void build_vrr_infopacket_header_v1(enum signal_type signal,
662 struct dc_info_packet *infopacket,
663 unsigned int *payload_size)
664{
665 if (dc_is_hdmi_signal(signal)) {
666
667 /* HEADER */
668
669 /* HB0 = Packet Type = 0x83 (Source Product
670 * Descriptor InfoFrame)
671 */
672 infopacket->hb0 = DC_HDMI_INFOFRAME_TYPE_SPD;
673
674 /* HB1 = Version = 0x01 */
675 infopacket->hb1 = 0x01;
676
677 /* HB2 = [Bits 7:5 = 0] [Bits 4:0 = Length = 0x08] */
678 infopacket->hb2 = 0x08;
679
680 *payload_size = 0x08;
681
682 } else if (dc_is_dp_signal(signal)) {
683
684 /* HEADER */
685
686 /* HB0 = Secondary-data Packet ID = 0 - Only non-zero
687 * when used to associate audio related info packets
688 */
689 infopacket->hb0 = 0x00;
690
691 /* HB1 = Packet Type = 0x83 (Source Product
692 * Descriptor InfoFrame)
693 */
694 infopacket->hb1 = DC_HDMI_INFOFRAME_TYPE_SPD;
695
696 /* HB2 = [Bits 7:0 = Least significant eight bits -
697 * For INFOFRAME, the value must be 1Bh]
698 */
699 infopacket->hb2 = 0x1B;
700
701 /* HB3 = [Bits 7:2 = INFOFRAME SDP Version Number = 0x1]
702 * [Bits 1:0 = Most significant two bits = 0x00]
703 */
704 infopacket->hb3 = 0x04;
705
706 *payload_size = 0x1B;
707 }
708}
709
710static void build_vrr_infopacket_header_v2(enum signal_type signal,
711 struct dc_info_packet *infopacket,
712 unsigned int *payload_size)
713{
714 if (dc_is_hdmi_signal(signal)) {
715
716 /* HEADER */
717
718 /* HB0 = Packet Type = 0x83 (Source Product
719 * Descriptor InfoFrame)
720 */
721 infopacket->hb0 = DC_HDMI_INFOFRAME_TYPE_SPD;
722
723 /* HB1 = Version = 0x02 */
724 infopacket->hb1 = 0x02;
725
726 /* HB2 = [Bits 7:5 = 0] [Bits 4:0 = Length = 0x09] */
727 infopacket->hb2 = 0x09;
728
729 *payload_size = 0x0A;
730
731 } else if (dc_is_dp_signal(signal)) {
732
733 /* HEADER */
734
735 /* HB0 = Secondary-data Packet ID = 0 - Only non-zero
736 * when used to associate audio related info packets
737 */
738 infopacket->hb0 = 0x00;
739
740 /* HB1 = Packet Type = 0x83 (Source Product
741 * Descriptor InfoFrame)
742 */
743 infopacket->hb1 = DC_HDMI_INFOFRAME_TYPE_SPD;
744
745 /* HB2 = [Bits 7:0 = Least significant eight bits -
746 * For INFOFRAME, the value must be 1Bh]
747 */
748 infopacket->hb2 = 0x1B;
749
750 /* HB3 = [Bits 7:2 = INFOFRAME SDP Version Number = 0x2]
751 * [Bits 1:0 = Most significant two bits = 0x00]
752 */
753 infopacket->hb3 = 0x08;
754
755 *payload_size = 0x1B;
756 }
757}
758
759static void build_vrr_infopacket_header_v3(enum signal_type signal,
760 struct dc_info_packet *infopacket,
761 unsigned int *payload_size)
762{
763 unsigned char version;
764
765 version = 3;
766 if (dc_is_hdmi_signal(signal)) {
767
768 /* HEADER */
769
770 /* HB0 = Packet Type = 0x83 (Source Product
771 * Descriptor InfoFrame)
772 */
773 infopacket->hb0 = DC_HDMI_INFOFRAME_TYPE_SPD;
774
775 /* HB1 = Version = 0x03 */
776 infopacket->hb1 = version;
777
778 /* HB2 = [Bits 7:5 = 0] [Bits 4:0 = Length] */
779 *payload_size = 0x10;
780 infopacket->hb2 = *payload_size - 1; //-1 for checksum
781
782 } else if (dc_is_dp_signal(signal)) {
783
784 /* HEADER */
785
786 /* HB0 = Secondary-data Packet ID = 0 - Only non-zero
787 * when used to associate audio related info packets
788 */
789 infopacket->hb0 = 0x00;
790
791 /* HB1 = Packet Type = 0x83 (Source Product
792 * Descriptor InfoFrame)
793 */
794 infopacket->hb1 = DC_HDMI_INFOFRAME_TYPE_SPD;
795
796 /* HB2 = [Bits 7:0 = Least significant eight bits -
797 * For INFOFRAME, the value must be 1Bh]
798 */
799 infopacket->hb2 = 0x1B;
800
801 /* HB3 = [Bits 7:2 = INFOFRAME SDP Version Number = 0x2]
802 * [Bits 1:0 = Most significant two bits = 0x00]
803 */
804
805 infopacket->hb3 = (version & 0x3F) << 2;
806
807 *payload_size = 0x1B;
808 }
809}
810
811static void build_vrr_infopacket_checksum(unsigned int *payload_size,
812 struct dc_info_packet *infopacket)
813{
814 /* Calculate checksum */
815 unsigned int idx = 0;
816 unsigned char checksum = 0;
817
818 checksum += infopacket->hb0;
819 checksum += infopacket->hb1;
820 checksum += infopacket->hb2;
821 checksum += infopacket->hb3;
822
823 for (idx = 1; idx <= *payload_size; idx++)
824 checksum += infopacket->sb[idx];
825
826 /* PB0 = Checksum (one byte complement) */
827 infopacket->sb[0] = (unsigned char)(0x100 - checksum);
828
829 infopacket->valid = true;
830}
831
832static void build_vrr_infopacket_v1(enum signal_type signal,
833 const struct mod_vrr_params *vrr,
834 struct dc_info_packet *infopacket,
835 bool freesync_on_desktop)
836{
837 /* SPD info packet for FreeSync */
838 unsigned int payload_size = 0;
839
840 build_vrr_infopacket_header_v1(signal, infopacket, &payload_size);
841 build_vrr_infopacket_data_v1(vrr, infopacket, freesync_on_desktop);
842 build_vrr_infopacket_checksum(&payload_size, infopacket);
843
844 infopacket->valid = true;
845}
846
847static void build_vrr_infopacket_v2(enum signal_type signal,
848 const struct mod_vrr_params *vrr,
849 enum color_transfer_func app_tf,
850 struct dc_info_packet *infopacket,
851 bool freesync_on_desktop)
852{
853 unsigned int payload_size = 0;
854
855 build_vrr_infopacket_header_v2(signal, infopacket, &payload_size);
856 build_vrr_infopacket_data_v1(vrr, infopacket, freesync_on_desktop);
857
858 build_vrr_infopacket_fs2_data(app_tf, infopacket);
859
860 build_vrr_infopacket_checksum(&payload_size, infopacket);
861
862 infopacket->valid = true;
863}
864#ifndef TRIM_FSFT
865static void build_vrr_infopacket_fast_transport_data(
866 bool ftActive,
867 unsigned int ftOutputRate,
868 struct dc_info_packet *infopacket)
869{
870 /* PB9 : bit7 - fast transport Active*/
871 unsigned char activeBit = (ftActive) ? 1 << 7 : 0;
872
873 infopacket->sb[1] &= ~activeBit; //clear bit
874 infopacket->sb[1] |= activeBit; //set bit
875
876 /* PB13 : Target Output Pixel Rate [kHz] - bits 7:0 */
877 infopacket->sb[13] = ftOutputRate & 0xFF;
878
879 /* PB14 : Target Output Pixel Rate [kHz] - bits 15:8 */
880 infopacket->sb[14] = (ftOutputRate >> 8) & 0xFF;
881
882 /* PB15 : Target Output Pixel Rate [kHz] - bits 23:16 */
883 infopacket->sb[15] = (ftOutputRate >> 16) & 0xFF;
884
885}
886#endif
887
888static void build_vrr_infopacket_v3(enum signal_type signal,
889 const struct mod_vrr_params *vrr,
890#ifndef TRIM_FSFT
891 bool ftActive, unsigned int ftOutputRate,
892#endif
893 enum color_transfer_func app_tf,
894 struct dc_info_packet *infopacket)
895{
896 unsigned int payload_size = 0;
897
898 build_vrr_infopacket_header_v3(signal, infopacket, &payload_size);
899 build_vrr_infopacket_data_v3(vrr, infopacket);
900
901 build_vrr_infopacket_fs2_data(app_tf, infopacket);
902
903#ifndef TRIM_FSFT
904 build_vrr_infopacket_fast_transport_data(
905 ftActive,
906 ftOutputRate,
907 infopacket);
908#endif
909
910 build_vrr_infopacket_checksum(&payload_size, infopacket);
911
912 infopacket->valid = true;
913}
914
915static void build_vrr_infopacket_sdp_v1_3(enum vrr_packet_type packet_type,
916 struct dc_info_packet *infopacket)
917{
918 uint8_t idx = 0, size = 0;
919
920 size = ((packet_type == PACKET_TYPE_FS_V1) ? 0x08 :
921 (packet_type == PACKET_TYPE_FS_V3) ? 0x10 :
922 0x09);
923
924 for (idx = infopacket->hb2; idx > 1; idx--) // Data Byte Count: 0x1B
925 infopacket->sb[idx] = infopacket->sb[idx-1];
926
927 infopacket->sb[1] = size; // Length
928 infopacket->sb[0] = (infopacket->hb3 >> 2) & 0x3F;//Version
929 infopacket->hb3 = (0x13 << 2); // Header,SDP 1.3
930 infopacket->hb2 = 0x1D;
931}
932
933void mod_freesync_build_vrr_infopacket(struct mod_freesync *mod_freesync,
934 const struct dc_stream_state *stream,
935 const struct mod_vrr_params *vrr,
936 enum vrr_packet_type packet_type,
937 enum color_transfer_func app_tf,
938 struct dc_info_packet *infopacket,
939 bool pack_sdp_v1_3)
940{
941 /* SPD info packet for FreeSync
942 * VTEM info packet for HdmiVRR
943 * Check if Freesync is supported. Return if false. If true,
944 * set the corresponding bit in the info packet
945 */
946 if (!vrr->send_info_frame)
947 return;
948
949 switch (packet_type) {
950 case PACKET_TYPE_FS_V3:
951#ifndef TRIM_FSFT
952 // always populate with pixel rate.
953 build_vrr_infopacket_v3(
954 stream->signal, vrr,
955 stream->timing.flags.FAST_TRANSPORT,
956 (stream->timing.flags.FAST_TRANSPORT) ?
957 stream->timing.fast_transport_output_rate_100hz :
958 stream->timing.pix_clk_100hz,
959 app_tf, infopacket);
960#else
961 build_vrr_infopacket_v3(stream->signal, vrr, app_tf, infopacket);
962#endif
963 break;
964 case PACKET_TYPE_FS_V2:
965 build_vrr_infopacket_v2(stream->signal, vrr, app_tf, infopacket, stream->freesync_on_desktop);
966 break;
967 case PACKET_TYPE_VRR:
968 case PACKET_TYPE_FS_V1:
969 default:
970 build_vrr_infopacket_v1(stream->signal, vrr, infopacket, stream->freesync_on_desktop);
971 }
972
973 if (true == pack_sdp_v1_3 &&
974 true == dc_is_dp_signal(stream->signal) &&
975 packet_type != PACKET_TYPE_VRR &&
976 packet_type != PACKET_TYPE_VTEM)
977 build_vrr_infopacket_sdp_v1_3(packet_type, infopacket);
978}
979
980void mod_freesync_build_vrr_params(struct mod_freesync *mod_freesync,
981 const struct dc_stream_state *stream,
982 struct mod_freesync_config *in_config,
983 struct mod_vrr_params *in_out_vrr)
984{
985 struct core_freesync *core_freesync = NULL;
986 unsigned long long nominal_field_rate_in_uhz = 0;
987 unsigned long long rounded_nominal_in_uhz = 0;
988 unsigned int refresh_range = 0;
989 unsigned long long min_refresh_in_uhz = 0;
990 unsigned long long max_refresh_in_uhz = 0;
991
992 if (mod_freesync == NULL)
993 return;
994
995 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
996
997 /* Calculate nominal field rate for stream */
998 nominal_field_rate_in_uhz =
999 mod_freesync_calc_nominal_field_rate(stream);
1000
1001 min_refresh_in_uhz = in_config->min_refresh_in_uhz;
1002 max_refresh_in_uhz = in_config->max_refresh_in_uhz;
1003
1004 /* Full range may be larger than current video timing, so cap at nominal */
1005 if (max_refresh_in_uhz > nominal_field_rate_in_uhz)
1006 max_refresh_in_uhz = nominal_field_rate_in_uhz;
1007
1008 /* Full range may be larger than current video timing, so cap at nominal */
1009 if (min_refresh_in_uhz > max_refresh_in_uhz)
1010 min_refresh_in_uhz = max_refresh_in_uhz;
1011
1012 /* If a monitor reports exactly max refresh of 2x of min, enforce it on nominal */
1013 rounded_nominal_in_uhz =
1014 div_u64(nominal_field_rate_in_uhz + 50000, 100000) * 100000;
1015 if (in_config->max_refresh_in_uhz == (2 * in_config->min_refresh_in_uhz) &&
1016 in_config->max_refresh_in_uhz == rounded_nominal_in_uhz)
1017 min_refresh_in_uhz = div_u64(nominal_field_rate_in_uhz, 2);
1018
1019 if (!vrr_settings_require_update(core_freesync,
1020 in_config, (unsigned int)min_refresh_in_uhz, (unsigned int)max_refresh_in_uhz,
1021 in_out_vrr))
1022 return;
1023
1024 in_out_vrr->state = in_config->state;
1025 in_out_vrr->send_info_frame = in_config->vsif_supported;
1026
1027 if (in_config->state == VRR_STATE_UNSUPPORTED) {
1028 in_out_vrr->state = VRR_STATE_UNSUPPORTED;
1029 in_out_vrr->supported = false;
1030 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1031 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1032
1033 return;
1034
1035 } else {
1036 in_out_vrr->min_refresh_in_uhz = (unsigned int)min_refresh_in_uhz;
1037 in_out_vrr->max_duration_in_us =
1038 calc_duration_in_us_from_refresh_in_uhz(
1039 (unsigned int)min_refresh_in_uhz);
1040
1041 in_out_vrr->max_refresh_in_uhz = (unsigned int)max_refresh_in_uhz;
1042 in_out_vrr->min_duration_in_us =
1043 calc_duration_in_us_from_refresh_in_uhz(
1044 (unsigned int)max_refresh_in_uhz);
1045
1046 if (in_config->state == VRR_STATE_ACTIVE_FIXED)
1047 in_out_vrr->fixed_refresh_in_uhz = in_config->fixed_refresh_in_uhz;
1048 else
1049 in_out_vrr->fixed_refresh_in_uhz = 0;
1050
1051 refresh_range = div_u64(in_out_vrr->max_refresh_in_uhz + 500000, 1000000) -
1052+ div_u64(in_out_vrr->min_refresh_in_uhz + 500000, 1000000);
1053
1054 in_out_vrr->supported = true;
1055 }
1056
1057 in_out_vrr->fixed.ramping_active = in_config->ramping;
1058
1059 in_out_vrr->btr.btr_enabled = in_config->btr;
1060
1061 if (in_out_vrr->max_refresh_in_uhz < (2 * in_out_vrr->min_refresh_in_uhz))
1062 in_out_vrr->btr.btr_enabled = false;
1063 else {
1064 in_out_vrr->btr.margin_in_us = in_out_vrr->max_duration_in_us -
1065 2 * in_out_vrr->min_duration_in_us;
1066 if (in_out_vrr->btr.margin_in_us > BTR_MAX_MARGIN)
1067 in_out_vrr->btr.margin_in_us = BTR_MAX_MARGIN;
1068 }
1069
1070 in_out_vrr->btr.btr_active = false;
1071 in_out_vrr->btr.inserted_duration_in_us = 0;
1072 in_out_vrr->btr.frames_to_insert = 0;
1073 in_out_vrr->btr.frame_counter = 0;
1074 in_out_vrr->fixed.fixed_active = false;
1075 in_out_vrr->fixed.target_refresh_in_uhz = 0;
1076
1077 in_out_vrr->btr.mid_point_in_us =
1078 (in_out_vrr->min_duration_in_us +
1079 in_out_vrr->max_duration_in_us) / 2;
1080
1081 if (in_out_vrr->state == VRR_STATE_UNSUPPORTED) {
1082 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1083 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1084 } else if (in_out_vrr->state == VRR_STATE_DISABLED) {
1085 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1086 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1087 } else if (in_out_vrr->state == VRR_STATE_INACTIVE) {
1088 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1089 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1090 } else if (in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE &&
1091 refresh_range >= MIN_REFRESH_RANGE) {
1092
1093 in_out_vrr->adjust.v_total_min =
1094 mod_freesync_calc_v_total_from_refresh(stream,
1095 in_out_vrr->max_refresh_in_uhz);
1096 in_out_vrr->adjust.v_total_max =
1097 mod_freesync_calc_v_total_from_refresh(stream,
1098 in_out_vrr->min_refresh_in_uhz);
1099 } else if (in_out_vrr->state == VRR_STATE_ACTIVE_FIXED) {
1100 in_out_vrr->fixed.target_refresh_in_uhz =
1101 in_out_vrr->fixed_refresh_in_uhz;
1102 if (in_out_vrr->fixed.ramping_active &&
1103 in_out_vrr->fixed.fixed_active) {
1104 /* Do not update vtotals if ramping is already active
1105 * in order to continue ramp from current refresh.
1106 */
1107 in_out_vrr->fixed.fixed_active = true;
1108 } else {
1109 in_out_vrr->fixed.fixed_active = true;
1110 in_out_vrr->adjust.v_total_min =
1111 mod_freesync_calc_v_total_from_refresh(stream,
1112 in_out_vrr->fixed.target_refresh_in_uhz);
1113 in_out_vrr->adjust.v_total_max =
1114 in_out_vrr->adjust.v_total_min;
1115 }
1116 } else {
1117 in_out_vrr->state = VRR_STATE_INACTIVE;
1118 in_out_vrr->adjust.v_total_min = stream->timing.v_total;
1119 in_out_vrr->adjust.v_total_max = stream->timing.v_total;
1120 }
1121}
1122
1123void mod_freesync_handle_preflip(struct mod_freesync *mod_freesync,
1124 const struct dc_plane_state *plane,
1125 const struct dc_stream_state *stream,
1126 unsigned int curr_time_stamp_in_us,
1127 struct mod_vrr_params *in_out_vrr)
1128{
1129 struct core_freesync *core_freesync = NULL;
1130 unsigned int last_render_time_in_us = 0;
1131 unsigned int average_render_time_in_us = 0;
1132
1133 if (mod_freesync == NULL)
1134 return;
1135
1136 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
1137
1138 if (in_out_vrr->supported &&
1139 in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE) {
1140 unsigned int i = 0;
1141 unsigned int oldest_index = plane->time.index + 1;
1142
1143 if (oldest_index >= DC_PLANE_UPDATE_TIMES_MAX)
1144 oldest_index = 0;
1145
1146 last_render_time_in_us = curr_time_stamp_in_us -
1147 plane->time.prev_update_time_in_us;
1148
1149 /* Sum off all entries except oldest one */
1150 for (i = 0; i < DC_PLANE_UPDATE_TIMES_MAX; i++) {
1151 average_render_time_in_us +=
1152 plane->time.time_elapsed_in_us[i];
1153 }
1154 average_render_time_in_us -=
1155 plane->time.time_elapsed_in_us[oldest_index];
1156
1157 /* Add render time for current flip */
1158 average_render_time_in_us += last_render_time_in_us;
1159 average_render_time_in_us /= DC_PLANE_UPDATE_TIMES_MAX;
1160
1161 if (in_out_vrr->btr.btr_enabled) {
1162 apply_below_the_range(core_freesync,
1163 stream,
1164 last_render_time_in_us,
1165 in_out_vrr);
1166 } else {
1167 apply_fixed_refresh(core_freesync,
1168 stream,
1169 last_render_time_in_us,
1170 in_out_vrr);
1171 }
1172
1173 }
1174}
1175
1176void mod_freesync_handle_v_update(struct mod_freesync *mod_freesync,
1177 const struct dc_stream_state *stream,
1178 struct mod_vrr_params *in_out_vrr)
1179{
1180 struct core_freesync *core_freesync = NULL;
1181
1182 if ((mod_freesync == NULL) || (stream == NULL) || (in_out_vrr == NULL))
1183 return;
1184
1185 core_freesync = MOD_FREESYNC_TO_CORE(mod_freesync);
1186
1187 if (in_out_vrr->supported == false)
1188 return;
1189
1190 /* Below the Range Logic */
1191
1192 /* Only execute if in fullscreen mode */
1193 if (in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE &&
1194 in_out_vrr->btr.btr_active) {
1195 /* TODO: pass in flag for Pre-DCE12 ASIC
1196 * in order for frame variable duration to take affect,
1197 * it needs to be done one VSYNC early, which is at
1198 * frameCounter == 1.
1199 * For DCE12 and newer updates to V_TOTAL_MIN/MAX
1200 * will take affect on current frame
1201 */
1202 if (in_out_vrr->btr.frames_to_insert ==
1203 in_out_vrr->btr.frame_counter) {
1204 in_out_vrr->adjust.v_total_min =
1205 calc_v_total_from_duration(stream,
1206 in_out_vrr,
1207 in_out_vrr->btr.inserted_duration_in_us);
1208 in_out_vrr->adjust.v_total_max =
1209 in_out_vrr->adjust.v_total_min;
1210 }
1211
1212 if (in_out_vrr->btr.frame_counter > 0)
1213 in_out_vrr->btr.frame_counter--;
1214
1215 /* Restore FreeSync */
1216 if (in_out_vrr->btr.frame_counter == 0) {
1217 in_out_vrr->adjust.v_total_min =
1218 mod_freesync_calc_v_total_from_refresh(stream,
1219 in_out_vrr->max_refresh_in_uhz);
1220 in_out_vrr->adjust.v_total_max =
1221 mod_freesync_calc_v_total_from_refresh(stream,
1222 in_out_vrr->min_refresh_in_uhz);
1223 }
1224 }
1225
1226 /* If in fullscreen freesync mode or in video, do not program
1227 * static screen ramp values
1228 */
1229 if (in_out_vrr->state == VRR_STATE_ACTIVE_VARIABLE)
1230 in_out_vrr->fixed.ramping_active = false;
1231
1232 /* Gradual Static Screen Ramping Logic
1233 * Execute if ramp is active and user enabled freesync static screen
1234 */
1235 if (in_out_vrr->state == VRR_STATE_ACTIVE_FIXED &&
1236 in_out_vrr->fixed.ramping_active) {
1237 update_v_total_for_static_ramp(
1238 core_freesync, stream, in_out_vrr);
1239 }
1240}
1241
1242void mod_freesync_get_settings(struct mod_freesync *mod_freesync,
1243 const struct mod_vrr_params *vrr,
1244 unsigned int *v_total_min, unsigned int *v_total_max,
1245 unsigned int *event_triggers,
1246 unsigned int *window_min, unsigned int *window_max,
1247 unsigned int *lfc_mid_point_in_us,
1248 unsigned int *inserted_frames,
1249 unsigned int *inserted_duration_in_us)
1250{
1251 if (mod_freesync == NULL)
1252 return;
1253
1254 if (vrr->supported) {
1255 *v_total_min = vrr->adjust.v_total_min;
1256 *v_total_max = vrr->adjust.v_total_max;
1257 *event_triggers = 0;
1258 *lfc_mid_point_in_us = vrr->btr.mid_point_in_us;
1259 *inserted_frames = vrr->btr.frames_to_insert;
1260 *inserted_duration_in_us = vrr->btr.inserted_duration_in_us;
1261 }
1262}
1263
1264unsigned long long mod_freesync_calc_nominal_field_rate(
1265 const struct dc_stream_state *stream)
1266{
1267 unsigned long long nominal_field_rate_in_uhz = 0;
1268 unsigned int total = stream->timing.h_total * stream->timing.v_total;
1269
1270 /* Calculate nominal field rate for stream, rounded up to nearest integer */
1271 nominal_field_rate_in_uhz = stream->timing.pix_clk_100hz;
1272 nominal_field_rate_in_uhz *= 100000000ULL;
1273
1274 nominal_field_rate_in_uhz = div_u64(nominal_field_rate_in_uhz, total);
1275
1276 return nominal_field_rate_in_uhz;
1277}
1278
1279unsigned long long mod_freesync_calc_field_rate_from_timing(
1280 unsigned int vtotal, unsigned int htotal, unsigned int pix_clk)
1281{
1282 unsigned long long field_rate_in_uhz = 0;
1283 unsigned int total = htotal * vtotal;
1284
1285 /* Calculate nominal field rate for stream, rounded up to nearest integer */
1286 field_rate_in_uhz = pix_clk;
1287 field_rate_in_uhz *= 1000000ULL;
1288
1289 field_rate_in_uhz = div_u64(field_rate_in_uhz, total);
1290
1291 return field_rate_in_uhz;
1292}
1293
1294bool mod_freesync_is_valid_range(uint32_t min_refresh_cap_in_uhz,
1295 uint32_t max_refresh_cap_in_uhz,
1296 uint32_t nominal_field_rate_in_uhz)
1297{
1298
1299 /* Typically nominal refresh calculated can have some fractional part.
1300 * Allow for some rounding error of actual video timing by taking floor
1301 * of caps and request. Round the nominal refresh rate.
1302 *
1303 * Dividing will convert everything to units in Hz although input
1304 * variable name is in uHz!
1305 *
1306 * Also note, this takes care of rounding error on the nominal refresh
1307 * so by rounding error we only expect it to be off by a small amount,
1308 * such as < 0.1 Hz. i.e. 143.9xxx or 144.1xxx.
1309 *
1310 * Example 1. Caps Min = 40 Hz, Max = 144 Hz
1311 * Request Min = 40 Hz, Max = 144 Hz
1312 * Nominal = 143.5x Hz rounded to 144 Hz
1313 * This function should allow this as valid request
1314 *
1315 * Example 2. Caps Min = 40 Hz, Max = 144 Hz
1316 * Request Min = 40 Hz, Max = 144 Hz
1317 * Nominal = 144.4x Hz rounded to 144 Hz
1318 * This function should allow this as valid request
1319 *
1320 * Example 3. Caps Min = 40 Hz, Max = 144 Hz
1321 * Request Min = 40 Hz, Max = 144 Hz
1322 * Nominal = 120.xx Hz rounded to 120 Hz
1323 * This function should return NOT valid since the requested
1324 * max is greater than current timing's nominal
1325 *
1326 * Example 4. Caps Min = 40 Hz, Max = 120 Hz
1327 * Request Min = 40 Hz, Max = 120 Hz
1328 * Nominal = 144.xx Hz rounded to 144 Hz
1329 * This function should return NOT valid since the nominal
1330 * is greater than the capability's max refresh
1331 */
1332 nominal_field_rate_in_uhz =
1333 div_u64(nominal_field_rate_in_uhz + 500000, 1000000);
1334 min_refresh_cap_in_uhz /= 1000000;
1335 max_refresh_cap_in_uhz /= 1000000;
1336
1337 /* Check nominal is within range */
1338 if (nominal_field_rate_in_uhz > max_refresh_cap_in_uhz ||
1339 nominal_field_rate_in_uhz < min_refresh_cap_in_uhz)
1340 return false;
1341
1342 /* If nominal is less than max, limit the max allowed refresh rate */
1343 if (nominal_field_rate_in_uhz < max_refresh_cap_in_uhz)
1344 max_refresh_cap_in_uhz = nominal_field_rate_in_uhz;
1345
1346 /* Check min is within range */
1347 if (min_refresh_cap_in_uhz > max_refresh_cap_in_uhz)
1348 return false;
1349
1350 /* For variable range, check for at least 10 Hz range */
1351 if (nominal_field_rate_in_uhz - min_refresh_cap_in_uhz < 10)
1352 return false;
1353
1354 return true;
1355}