1 /*
2  * Copyright 2012-15 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 
28 
29 #include "dc_types.h"
30 #include "core_types.h"
31 
32 #include "include/grph_object_id.h"
33 #include "include/logger_interface.h"
34 
35 #include "dce_clock_source.h"
36 #include "clk_mgr.h"
37 #include "dccg.h"
38 
39 #include "reg_helper.h"
40 
41 #define REG(reg)\
42 	(clk_src->regs->reg)
43 
44 #define CTX \
45 	clk_src->base.ctx
46 
47 #define DC_LOGGER \
48 	calc_pll_cs->ctx->logger
49 #define DC_LOGGER_INIT() \
50 	struct calc_pll_clock_source *calc_pll_cs = &clk_src->calc_pll
51 
52 #undef FN
53 #define FN(reg_name, field_name) \
54 	clk_src->cs_shift->field_name, clk_src->cs_mask->field_name
55 
56 #define FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM 6
57 #define CALC_PLL_CLK_SRC_ERR_TOLERANCE 1
58 #define MAX_PLL_CALC_ERROR 0xFFFFFFFF
59 
60 #define NUM_ELEMENTS(a) (sizeof(a) / sizeof((a)[0]))
61 
get_ss_data_entry(struct dce110_clk_src * clk_src,enum signal_type signal,uint32_t pix_clk_khz)62 static const struct spread_spectrum_data *get_ss_data_entry(
63 		struct dce110_clk_src *clk_src,
64 		enum signal_type signal,
65 		uint32_t pix_clk_khz)
66 {
67 
68 	uint32_t entrys_num;
69 	uint32_t i;
70 	struct spread_spectrum_data *ss_parm = NULL;
71 	struct spread_spectrum_data *ret = NULL;
72 
73 	switch (signal) {
74 	case SIGNAL_TYPE_DVI_SINGLE_LINK:
75 	case SIGNAL_TYPE_DVI_DUAL_LINK:
76 		ss_parm = clk_src->dvi_ss_params;
77 		entrys_num = clk_src->dvi_ss_params_cnt;
78 		break;
79 
80 	case SIGNAL_TYPE_HDMI_TYPE_A:
81 		ss_parm = clk_src->hdmi_ss_params;
82 		entrys_num = clk_src->hdmi_ss_params_cnt;
83 		break;
84 
85 	case SIGNAL_TYPE_LVDS:
86 		ss_parm = clk_src->lvds_ss_params;
87 		entrys_num = clk_src->lvds_ss_params_cnt;
88 		break;
89 
90 	case SIGNAL_TYPE_DISPLAY_PORT:
91 	case SIGNAL_TYPE_DISPLAY_PORT_MST:
92 	case SIGNAL_TYPE_EDP:
93 	case SIGNAL_TYPE_VIRTUAL:
94 		ss_parm = clk_src->dp_ss_params;
95 		entrys_num = clk_src->dp_ss_params_cnt;
96 		break;
97 
98 	default:
99 		ss_parm = NULL;
100 		entrys_num = 0;
101 		break;
102 	}
103 
104 	if (ss_parm == NULL)
105 		return ret;
106 
107 	for (i = 0; i < entrys_num; ++i, ++ss_parm) {
108 		if (ss_parm->freq_range_khz >= pix_clk_khz) {
109 			ret = ss_parm;
110 			break;
111 		}
112 	}
113 
114 	return ret;
115 }
116 
117 /**
118  * calculate_fb_and_fractional_fb_divider - Calculates feedback and fractional
119  *                                          feedback dividers values
120  *
121  * @calc_pll_cs:	    Pointer to clock source information
122  * @target_pix_clk_100hz:   Desired frequency in 100 Hz
123  * @ref_divider:            Reference divider (already known)
124  * @post_divider:           Post Divider (already known)
125  * @feedback_divider_param: Pointer where to store
126  *			    calculated feedback divider value
127  * @fract_feedback_divider_param: Pointer where to store
128  *			    calculated fract feedback divider value
129  *
130  * return:
131  * It fills the locations pointed by feedback_divider_param
132  *					and fract_feedback_divider_param
133  * It returns	- true if feedback divider not 0
134  *		- false should never happen)
135  */
calculate_fb_and_fractional_fb_divider(struct calc_pll_clock_source * calc_pll_cs,uint32_t target_pix_clk_100hz,uint32_t ref_divider,uint32_t post_divider,uint32_t * feedback_divider_param,uint32_t * fract_feedback_divider_param)136 static bool calculate_fb_and_fractional_fb_divider(
137 		struct calc_pll_clock_source *calc_pll_cs,
138 		uint32_t target_pix_clk_100hz,
139 		uint32_t ref_divider,
140 		uint32_t post_divider,
141 		uint32_t *feedback_divider_param,
142 		uint32_t *fract_feedback_divider_param)
143 {
144 	uint64_t feedback_divider;
145 
146 	feedback_divider =
147 		(uint64_t)target_pix_clk_100hz * ref_divider * post_divider;
148 	feedback_divider *= 10;
149 	/* additional factor, since we divide by 10 afterwards */
150 	feedback_divider *= (uint64_t)(calc_pll_cs->fract_fb_divider_factor);
151 	feedback_divider = div_u64(feedback_divider, calc_pll_cs->ref_freq_khz * 10ull);
152 
153 /*Round to the number of precision
154  * The following code replace the old code (ullfeedbackDivider + 5)/10
155  * for example if the difference between the number
156  * of fractional feedback decimal point and the fractional FB Divider precision
157  * is 2 then the equation becomes (ullfeedbackDivider + 5*100) / (10*100))*/
158 
159 	feedback_divider += 5ULL *
160 			    calc_pll_cs->fract_fb_divider_precision_factor;
161 	feedback_divider =
162 		div_u64(feedback_divider,
163 			calc_pll_cs->fract_fb_divider_precision_factor * 10);
164 	feedback_divider *= (uint64_t)
165 			(calc_pll_cs->fract_fb_divider_precision_factor);
166 
167 	*feedback_divider_param =
168 		div_u64_rem(
169 			feedback_divider,
170 			calc_pll_cs->fract_fb_divider_factor,
171 			fract_feedback_divider_param);
172 
173 	if (*feedback_divider_param != 0)
174 		return true;
175 	return false;
176 }
177 
178 /**
179  * calc_fb_divider_checking_tolerance - Calculates Feedback and
180  *                                      Fractional Feedback divider values
181  *		                        for passed Reference and Post divider,
182  *                                      checking for tolerance.
183  * @calc_pll_cs:	Pointer to clock source information
184  * @pll_settings:	Pointer to PLL settings
185  * @ref_divider:	Reference divider (already known)
186  * @post_divider:	Post Divider (already known)
187  * @tolerance:		Tolerance for Calculated Pixel Clock to be within
188  *
189  * return:
190  *  It fills the PLLSettings structure with PLL Dividers values
191  *  if calculated values are within required tolerance
192  *  It returns	- true if error is within tolerance
193  *		- false if error is not within tolerance
194  */
calc_fb_divider_checking_tolerance(struct calc_pll_clock_source * calc_pll_cs,struct pll_settings * pll_settings,uint32_t ref_divider,uint32_t post_divider,uint32_t tolerance)195 static bool calc_fb_divider_checking_tolerance(
196 		struct calc_pll_clock_source *calc_pll_cs,
197 		struct pll_settings *pll_settings,
198 		uint32_t ref_divider,
199 		uint32_t post_divider,
200 		uint32_t tolerance)
201 {
202 	uint32_t feedback_divider;
203 	uint32_t fract_feedback_divider;
204 	uint32_t actual_calculated_clock_100hz;
205 	uint32_t abs_err;
206 	uint64_t actual_calc_clk_100hz;
207 
208 	calculate_fb_and_fractional_fb_divider(
209 			calc_pll_cs,
210 			pll_settings->adjusted_pix_clk_100hz,
211 			ref_divider,
212 			post_divider,
213 			&feedback_divider,
214 			&fract_feedback_divider);
215 
216 	/*Actual calculated value*/
217 	actual_calc_clk_100hz = (uint64_t)feedback_divider *
218 					calc_pll_cs->fract_fb_divider_factor +
219 							fract_feedback_divider;
220 	actual_calc_clk_100hz *= (uint64_t)calc_pll_cs->ref_freq_khz * 10;
221 	actual_calc_clk_100hz =
222 		div_u64(actual_calc_clk_100hz,
223 			ref_divider * post_divider *
224 				calc_pll_cs->fract_fb_divider_factor);
225 
226 	actual_calculated_clock_100hz = (uint32_t)(actual_calc_clk_100hz);
227 
228 	abs_err = (actual_calculated_clock_100hz >
229 					pll_settings->adjusted_pix_clk_100hz)
230 			? actual_calculated_clock_100hz -
231 					pll_settings->adjusted_pix_clk_100hz
232 			: pll_settings->adjusted_pix_clk_100hz -
233 						actual_calculated_clock_100hz;
234 
235 	if (abs_err <= tolerance) {
236 		/*found good values*/
237 		pll_settings->reference_freq = calc_pll_cs->ref_freq_khz;
238 		pll_settings->reference_divider = ref_divider;
239 		pll_settings->feedback_divider = feedback_divider;
240 		pll_settings->fract_feedback_divider = fract_feedback_divider;
241 		pll_settings->pix_clk_post_divider = post_divider;
242 		pll_settings->calculated_pix_clk_100hz =
243 			actual_calculated_clock_100hz;
244 		pll_settings->vco_freq =
245 			div_u64((u64)actual_calculated_clock_100hz * post_divider, 10);
246 		return true;
247 	}
248 	return false;
249 }
250 
calc_pll_dividers_in_range(struct calc_pll_clock_source * calc_pll_cs,struct pll_settings * pll_settings,uint32_t min_ref_divider,uint32_t max_ref_divider,uint32_t min_post_divider,uint32_t max_post_divider,uint32_t err_tolerance)251 static bool calc_pll_dividers_in_range(
252 		struct calc_pll_clock_source *calc_pll_cs,
253 		struct pll_settings *pll_settings,
254 		uint32_t min_ref_divider,
255 		uint32_t max_ref_divider,
256 		uint32_t min_post_divider,
257 		uint32_t max_post_divider,
258 		uint32_t err_tolerance)
259 {
260 	uint32_t ref_divider;
261 	uint32_t post_divider;
262 	uint32_t tolerance;
263 
264 /* This is err_tolerance / 10000 = 0.0025 - acceptable error of 0.25%
265  * This is errorTolerance / 10000 = 0.0001 - acceptable error of 0.01%*/
266 	tolerance = (pll_settings->adjusted_pix_clk_100hz * err_tolerance) /
267 									100000;
268 	if (tolerance < CALC_PLL_CLK_SRC_ERR_TOLERANCE)
269 		tolerance = CALC_PLL_CLK_SRC_ERR_TOLERANCE;
270 
271 	for (
272 			post_divider = max_post_divider;
273 			post_divider >= min_post_divider;
274 			--post_divider) {
275 		for (
276 				ref_divider = min_ref_divider;
277 				ref_divider <= max_ref_divider;
278 				++ref_divider) {
279 			if (calc_fb_divider_checking_tolerance(
280 					calc_pll_cs,
281 					pll_settings,
282 					ref_divider,
283 					post_divider,
284 					tolerance)) {
285 				return true;
286 			}
287 		}
288 	}
289 
290 	return false;
291 }
292 
calculate_pixel_clock_pll_dividers(struct calc_pll_clock_source * calc_pll_cs,struct pll_settings * pll_settings)293 static uint32_t calculate_pixel_clock_pll_dividers(
294 		struct calc_pll_clock_source *calc_pll_cs,
295 		struct pll_settings *pll_settings)
296 {
297 	uint32_t err_tolerance;
298 	uint32_t min_post_divider;
299 	uint32_t max_post_divider;
300 	uint32_t min_ref_divider;
301 	uint32_t max_ref_divider;
302 
303 	if (pll_settings->adjusted_pix_clk_100hz == 0) {
304 		DC_LOG_ERROR(
305 			"%s Bad requested pixel clock", __func__);
306 		return MAX_PLL_CALC_ERROR;
307 	}
308 
309 /* 1) Find Post divider ranges */
310 	if (pll_settings->pix_clk_post_divider) {
311 		min_post_divider = pll_settings->pix_clk_post_divider;
312 		max_post_divider = pll_settings->pix_clk_post_divider;
313 	} else {
314 		min_post_divider = calc_pll_cs->min_pix_clock_pll_post_divider;
315 		if (min_post_divider * pll_settings->adjusted_pix_clk_100hz <
316 						calc_pll_cs->min_vco_khz * 10) {
317 			min_post_divider = calc_pll_cs->min_vco_khz * 10 /
318 					pll_settings->adjusted_pix_clk_100hz;
319 			if ((min_post_divider *
320 					pll_settings->adjusted_pix_clk_100hz) <
321 						calc_pll_cs->min_vco_khz * 10)
322 				min_post_divider++;
323 		}
324 
325 		max_post_divider = calc_pll_cs->max_pix_clock_pll_post_divider;
326 		if (max_post_divider * pll_settings->adjusted_pix_clk_100hz
327 				> calc_pll_cs->max_vco_khz * 10)
328 			max_post_divider = calc_pll_cs->max_vco_khz * 10 /
329 					pll_settings->adjusted_pix_clk_100hz;
330 	}
331 
332 /* 2) Find Reference divider ranges
333  * When SS is enabled, or for Display Port even without SS,
334  * pll_settings->referenceDivider is not zero.
335  * So calculate PPLL FB and fractional FB divider
336  * using the passed reference divider*/
337 
338 	if (pll_settings->reference_divider) {
339 		min_ref_divider = pll_settings->reference_divider;
340 		max_ref_divider = pll_settings->reference_divider;
341 	} else {
342 		min_ref_divider = ((calc_pll_cs->ref_freq_khz
343 				/ calc_pll_cs->max_pll_input_freq_khz)
344 				> calc_pll_cs->min_pll_ref_divider)
345 			? calc_pll_cs->ref_freq_khz
346 					/ calc_pll_cs->max_pll_input_freq_khz
347 			: calc_pll_cs->min_pll_ref_divider;
348 
349 		max_ref_divider = ((calc_pll_cs->ref_freq_khz
350 				/ calc_pll_cs->min_pll_input_freq_khz)
351 				< calc_pll_cs->max_pll_ref_divider)
352 			? calc_pll_cs->ref_freq_khz /
353 					calc_pll_cs->min_pll_input_freq_khz
354 			: calc_pll_cs->max_pll_ref_divider;
355 	}
356 
357 /* If some parameters are invalid we could have scenario when  "min">"max"
358  * which produced endless loop later.
359  * We should investigate why we get the wrong parameters.
360  * But to follow the similar logic when "adjustedPixelClock" is set to be 0
361  * it is better to return here than cause system hang/watchdog timeout later.
362  *  ## SVS Wed 15 Jul 2009 */
363 
364 	if (min_post_divider > max_post_divider) {
365 		DC_LOG_ERROR(
366 			"%s Post divider range is invalid", __func__);
367 		return MAX_PLL_CALC_ERROR;
368 	}
369 
370 	if (min_ref_divider > max_ref_divider) {
371 		DC_LOG_ERROR(
372 			"%s Reference divider range is invalid", __func__);
373 		return MAX_PLL_CALC_ERROR;
374 	}
375 
376 /* 3) Try to find PLL dividers given ranges
377  * starting with minimal error tolerance.
378  * Increase error tolerance until PLL dividers found*/
379 	err_tolerance = MAX_PLL_CALC_ERROR;
380 
381 	while (!calc_pll_dividers_in_range(
382 			calc_pll_cs,
383 			pll_settings,
384 			min_ref_divider,
385 			max_ref_divider,
386 			min_post_divider,
387 			max_post_divider,
388 			err_tolerance))
389 		err_tolerance += (err_tolerance > 10)
390 				? (err_tolerance / 10)
391 				: 1;
392 
393 	return err_tolerance;
394 }
395 
pll_adjust_pix_clk(struct dce110_clk_src * clk_src,struct pixel_clk_params * pix_clk_params,struct pll_settings * pll_settings)396 static bool pll_adjust_pix_clk(
397 		struct dce110_clk_src *clk_src,
398 		struct pixel_clk_params *pix_clk_params,
399 		struct pll_settings *pll_settings)
400 {
401 	uint32_t actual_pix_clk_100hz = 0;
402 	uint32_t requested_clk_100hz = 0;
403 	struct bp_adjust_pixel_clock_parameters bp_adjust_pixel_clock_params = {
404 							0 };
405 	enum bp_result bp_result;
406 	switch (pix_clk_params->signal_type) {
407 	case SIGNAL_TYPE_HDMI_TYPE_A: {
408 		requested_clk_100hz = pix_clk_params->requested_pix_clk_100hz;
409 		if (pix_clk_params->pixel_encoding != PIXEL_ENCODING_YCBCR422) {
410 			switch (pix_clk_params->color_depth) {
411 			case COLOR_DEPTH_101010:
412 				requested_clk_100hz = (requested_clk_100hz * 5) >> 2;
413 				break; /* x1.25*/
414 			case COLOR_DEPTH_121212:
415 				requested_clk_100hz = (requested_clk_100hz * 6) >> 2;
416 				break; /* x1.5*/
417 			case COLOR_DEPTH_161616:
418 				requested_clk_100hz = requested_clk_100hz * 2;
419 				break; /* x2.0*/
420 			default:
421 				break;
422 			}
423 		}
424 		actual_pix_clk_100hz = requested_clk_100hz;
425 	}
426 		break;
427 
428 	case SIGNAL_TYPE_DISPLAY_PORT:
429 	case SIGNAL_TYPE_DISPLAY_PORT_MST:
430 	case SIGNAL_TYPE_EDP:
431 		requested_clk_100hz = pix_clk_params->requested_sym_clk * 10;
432 		actual_pix_clk_100hz = pix_clk_params->requested_pix_clk_100hz;
433 		break;
434 
435 	default:
436 		requested_clk_100hz = pix_clk_params->requested_pix_clk_100hz;
437 		actual_pix_clk_100hz = pix_clk_params->requested_pix_clk_100hz;
438 		break;
439 	}
440 
441 	bp_adjust_pixel_clock_params.pixel_clock = requested_clk_100hz / 10;
442 	bp_adjust_pixel_clock_params.
443 		encoder_object_id = pix_clk_params->encoder_object_id;
444 	bp_adjust_pixel_clock_params.signal_type = pix_clk_params->signal_type;
445 	bp_adjust_pixel_clock_params.
446 		ss_enable = pix_clk_params->flags.ENABLE_SS;
447 	bp_result = clk_src->bios->funcs->adjust_pixel_clock(
448 			clk_src->bios, &bp_adjust_pixel_clock_params);
449 	if (bp_result == BP_RESULT_OK) {
450 		pll_settings->actual_pix_clk_100hz = actual_pix_clk_100hz;
451 		pll_settings->adjusted_pix_clk_100hz =
452 			bp_adjust_pixel_clock_params.adjusted_pixel_clock * 10;
453 		pll_settings->reference_divider =
454 			bp_adjust_pixel_clock_params.reference_divider;
455 		pll_settings->pix_clk_post_divider =
456 			bp_adjust_pixel_clock_params.pixel_clock_post_divider;
457 
458 		return true;
459 	}
460 
461 	return false;
462 }
463 
464 /*
465  * Calculate PLL Dividers for given Clock Value.
466  * First will call VBIOS Adjust Exec table to check if requested Pixel clock
467  * will be Adjusted based on usage.
468  * Then it will calculate PLL Dividers for this Adjusted clock using preferred
469  * method (Maximum VCO frequency).
470  *
471  * \return
472  *     Calculation error in units of 0.01%
473  */
474 
dce110_get_pix_clk_dividers_helper(struct dce110_clk_src * clk_src,struct pll_settings * pll_settings,struct pixel_clk_params * pix_clk_params)475 static uint32_t dce110_get_pix_clk_dividers_helper (
476 		struct dce110_clk_src *clk_src,
477 		struct pll_settings *pll_settings,
478 		struct pixel_clk_params *pix_clk_params)
479 {
480 	uint32_t field = 0;
481 	uint32_t pll_calc_error = MAX_PLL_CALC_ERROR;
482 	DC_LOGGER_INIT();
483 	/* Check if reference clock is external (not pcie/xtalin)
484 	* HW Dce80 spec:
485 	* 00 - PCIE_REFCLK, 01 - XTALIN,    02 - GENERICA,    03 - GENERICB
486 	* 04 - HSYNCA,      05 - GENLK_CLK, 06 - PCIE_REFCLK, 07 - DVOCLK0 */
487 	REG_GET(PLL_CNTL, PLL_REF_DIV_SRC, &field);
488 	pll_settings->use_external_clk = (field > 1);
489 
490 	/* VBIOS by default enables DP SS (spread on IDCLK) for DCE 8.0 always
491 	 * (we do not care any more from SI for some older DP Sink which
492 	 * does not report SS support, no known issues) */
493 	if ((pix_clk_params->flags.ENABLE_SS) ||
494 			(dc_is_dp_signal(pix_clk_params->signal_type))) {
495 
496 		const struct spread_spectrum_data *ss_data = get_ss_data_entry(
497 					clk_src,
498 					pix_clk_params->signal_type,
499 					pll_settings->adjusted_pix_clk_100hz / 10);
500 
501 		if (NULL != ss_data)
502 			pll_settings->ss_percentage = ss_data->percentage;
503 	}
504 
505 	/* Check VBIOS AdjustPixelClock Exec table */
506 	if (!pll_adjust_pix_clk(clk_src, pix_clk_params, pll_settings)) {
507 		/* Should never happen, ASSERT and fill up values to be able
508 		 * to continue. */
509 		DC_LOG_ERROR(
510 			"%s: Failed to adjust pixel clock!!", __func__);
511 		pll_settings->actual_pix_clk_100hz =
512 				pix_clk_params->requested_pix_clk_100hz;
513 		pll_settings->adjusted_pix_clk_100hz =
514 				pix_clk_params->requested_pix_clk_100hz;
515 
516 		if (dc_is_dp_signal(pix_clk_params->signal_type))
517 			pll_settings->adjusted_pix_clk_100hz = 1000000;
518 	}
519 
520 	/* Calculate Dividers */
521 	if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A)
522 		/*Calculate Dividers by HDMI object, no SS case or SS case */
523 		pll_calc_error =
524 			calculate_pixel_clock_pll_dividers(
525 					&clk_src->calc_pll_hdmi,
526 					pll_settings);
527 	else
528 		/*Calculate Dividers by default object, no SS case or SS case */
529 		pll_calc_error =
530 			calculate_pixel_clock_pll_dividers(
531 					&clk_src->calc_pll,
532 					pll_settings);
533 
534 	return pll_calc_error;
535 }
536 
dce112_get_pix_clk_dividers_helper(struct dce110_clk_src * clk_src,struct pll_settings * pll_settings,struct pixel_clk_params * pix_clk_params)537 static void dce112_get_pix_clk_dividers_helper (
538 		struct dce110_clk_src *clk_src,
539 		struct pll_settings *pll_settings,
540 		struct pixel_clk_params *pix_clk_params)
541 {
542 	uint32_t actual_pixel_clock_100hz;
543 
544 	actual_pixel_clock_100hz = pix_clk_params->requested_pix_clk_100hz;
545 	/* Calculate Dividers */
546 	if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A) {
547 		switch (pix_clk_params->color_depth) {
548 		case COLOR_DEPTH_101010:
549 			actual_pixel_clock_100hz = (actual_pixel_clock_100hz * 5) >> 2;
550 			actual_pixel_clock_100hz -= actual_pixel_clock_100hz % 10;
551 			break;
552 		case COLOR_DEPTH_121212:
553 			actual_pixel_clock_100hz = (actual_pixel_clock_100hz * 6) >> 2;
554 			actual_pixel_clock_100hz -= actual_pixel_clock_100hz % 10;
555 			break;
556 		case COLOR_DEPTH_161616:
557 			actual_pixel_clock_100hz = actual_pixel_clock_100hz * 2;
558 			break;
559 		default:
560 			break;
561 		}
562 	}
563 	pll_settings->actual_pix_clk_100hz = actual_pixel_clock_100hz;
564 	pll_settings->adjusted_pix_clk_100hz = actual_pixel_clock_100hz;
565 	pll_settings->calculated_pix_clk_100hz = pix_clk_params->requested_pix_clk_100hz;
566 }
567 
dce110_get_pix_clk_dividers(struct clock_source * cs,struct pixel_clk_params * pix_clk_params,struct pll_settings * pll_settings)568 static uint32_t dce110_get_pix_clk_dividers(
569 		struct clock_source *cs,
570 		struct pixel_clk_params *pix_clk_params,
571 		struct pll_settings *pll_settings)
572 {
573 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(cs);
574 	uint32_t pll_calc_error = MAX_PLL_CALC_ERROR;
575 	DC_LOGGER_INIT();
576 
577 	if (pix_clk_params == NULL || pll_settings == NULL
578 			|| pix_clk_params->requested_pix_clk_100hz == 0) {
579 		DC_LOG_ERROR(
580 			"%s: Invalid parameters!!\n", __func__);
581 		return pll_calc_error;
582 	}
583 
584 	memset(pll_settings, 0, sizeof(*pll_settings));
585 
586 	if (cs->id == CLOCK_SOURCE_ID_DP_DTO ||
587 			cs->id == CLOCK_SOURCE_ID_EXTERNAL) {
588 		pll_settings->adjusted_pix_clk_100hz = clk_src->ext_clk_khz * 10;
589 		pll_settings->calculated_pix_clk_100hz = clk_src->ext_clk_khz * 10;
590 		pll_settings->actual_pix_clk_100hz =
591 					pix_clk_params->requested_pix_clk_100hz;
592 		return 0;
593 	}
594 
595 	pll_calc_error = dce110_get_pix_clk_dividers_helper(clk_src,
596 			pll_settings, pix_clk_params);
597 
598 	return pll_calc_error;
599 }
600 
dce112_get_pix_clk_dividers(struct clock_source * cs,struct pixel_clk_params * pix_clk_params,struct pll_settings * pll_settings)601 static uint32_t dce112_get_pix_clk_dividers(
602 		struct clock_source *cs,
603 		struct pixel_clk_params *pix_clk_params,
604 		struct pll_settings *pll_settings)
605 {
606 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(cs);
607 	DC_LOGGER_INIT();
608 
609 	if (pix_clk_params == NULL || pll_settings == NULL
610 			|| pix_clk_params->requested_pix_clk_100hz == 0) {
611 		DC_LOG_ERROR(
612 			"%s: Invalid parameters!!\n", __func__);
613 		return -1;
614 	}
615 
616 	memset(pll_settings, 0, sizeof(*pll_settings));
617 
618 	if (cs->id == CLOCK_SOURCE_ID_DP_DTO ||
619 			cs->id == CLOCK_SOURCE_ID_EXTERNAL) {
620 		pll_settings->adjusted_pix_clk_100hz = clk_src->ext_clk_khz * 10;
621 		pll_settings->calculated_pix_clk_100hz = clk_src->ext_clk_khz * 10;
622 		pll_settings->actual_pix_clk_100hz =
623 					pix_clk_params->requested_pix_clk_100hz;
624 		return -1;
625 	}
626 
627 	dce112_get_pix_clk_dividers_helper(clk_src,
628 			pll_settings, pix_clk_params);
629 
630 	return 0;
631 }
632 
disable_spread_spectrum(struct dce110_clk_src * clk_src)633 static bool disable_spread_spectrum(struct dce110_clk_src *clk_src)
634 {
635 	enum bp_result result;
636 	struct bp_spread_spectrum_parameters bp_ss_params = {0};
637 
638 	bp_ss_params.pll_id = clk_src->base.id;
639 
640 	/*Call ASICControl to process ATOMBIOS Exec table*/
641 	result = clk_src->bios->funcs->enable_spread_spectrum_on_ppll(
642 			clk_src->bios,
643 			&bp_ss_params,
644 			false);
645 
646 	return result == BP_RESULT_OK;
647 }
648 
calculate_ss(const struct pll_settings * pll_settings,const struct spread_spectrum_data * ss_data,struct delta_sigma_data * ds_data)649 static bool calculate_ss(
650 		const struct pll_settings *pll_settings,
651 		const struct spread_spectrum_data *ss_data,
652 		struct delta_sigma_data *ds_data)
653 {
654 	struct fixed31_32 fb_div;
655 	struct fixed31_32 ss_amount;
656 	struct fixed31_32 ss_nslip_amount;
657 	struct fixed31_32 ss_ds_frac_amount;
658 	struct fixed31_32 ss_step_size;
659 	struct fixed31_32 modulation_time;
660 
661 	if (ds_data == NULL)
662 		return false;
663 	if (ss_data == NULL)
664 		return false;
665 	if (ss_data->percentage == 0)
666 		return false;
667 	if (pll_settings == NULL)
668 		return false;
669 
670 	memset(ds_data, 0, sizeof(struct delta_sigma_data));
671 
672 	/* compute SS_AMOUNT_FBDIV & SS_AMOUNT_NFRAC_SLIP & SS_AMOUNT_DSFRAC*/
673 	/* 6 decimal point support in fractional feedback divider */
674 	fb_div  = dc_fixpt_from_fraction(
675 		pll_settings->fract_feedback_divider, 1000000);
676 	fb_div = dc_fixpt_add_int(fb_div, pll_settings->feedback_divider);
677 
678 	ds_data->ds_frac_amount = 0;
679 	/*spreadSpectrumPercentage is in the unit of .01%,
680 	 * so have to divided by 100 * 100*/
681 	ss_amount = dc_fixpt_mul(
682 		fb_div, dc_fixpt_from_fraction(ss_data->percentage,
683 					100 * (long long)ss_data->percentage_divider));
684 	ds_data->feedback_amount = dc_fixpt_floor(ss_amount);
685 
686 	ss_nslip_amount = dc_fixpt_sub(ss_amount,
687 		dc_fixpt_from_int(ds_data->feedback_amount));
688 	ss_nslip_amount = dc_fixpt_mul_int(ss_nslip_amount, 10);
689 	ds_data->nfrac_amount = dc_fixpt_floor(ss_nslip_amount);
690 
691 	ss_ds_frac_amount = dc_fixpt_sub(ss_nslip_amount,
692 		dc_fixpt_from_int(ds_data->nfrac_amount));
693 	ss_ds_frac_amount = dc_fixpt_mul_int(ss_ds_frac_amount, 65536);
694 	ds_data->ds_frac_amount = dc_fixpt_floor(ss_ds_frac_amount);
695 
696 	/* compute SS_STEP_SIZE_DSFRAC */
697 	modulation_time = dc_fixpt_from_fraction(
698 		pll_settings->reference_freq * (uint64_t)1000,
699 		pll_settings->reference_divider * (uint64_t)ss_data->modulation_freq_hz);
700 
701 	if (ss_data->flags.CENTER_SPREAD)
702 		modulation_time = dc_fixpt_div_int(modulation_time, 4);
703 	else
704 		modulation_time = dc_fixpt_div_int(modulation_time, 2);
705 
706 	ss_step_size = dc_fixpt_div(ss_amount, modulation_time);
707 	/* SS_STEP_SIZE_DSFRAC_DEC = Int(SS_STEP_SIZE * 2 ^ 16 * 10)*/
708 	ss_step_size = dc_fixpt_mul_int(ss_step_size, 65536 * 10);
709 	ds_data->ds_frac_size =  dc_fixpt_floor(ss_step_size);
710 
711 	return true;
712 }
713 
enable_spread_spectrum(struct dce110_clk_src * clk_src,enum signal_type signal,struct pll_settings * pll_settings)714 static bool enable_spread_spectrum(
715 		struct dce110_clk_src *clk_src,
716 		enum signal_type signal, struct pll_settings *pll_settings)
717 {
718 	struct bp_spread_spectrum_parameters bp_params = {0};
719 	struct delta_sigma_data d_s_data;
720 	const struct spread_spectrum_data *ss_data = NULL;
721 
722 	ss_data = get_ss_data_entry(
723 			clk_src,
724 			signal,
725 			pll_settings->calculated_pix_clk_100hz / 10);
726 
727 /* Pixel clock PLL has been programmed to generate desired pixel clock,
728  * now enable SS on pixel clock */
729 /* TODO is it OK to return true not doing anything ??*/
730 	if (ss_data != NULL && pll_settings->ss_percentage != 0) {
731 		if (calculate_ss(pll_settings, ss_data, &d_s_data)) {
732 			bp_params.ds.feedback_amount =
733 					d_s_data.feedback_amount;
734 			bp_params.ds.nfrac_amount =
735 					d_s_data.nfrac_amount;
736 			bp_params.ds.ds_frac_size = d_s_data.ds_frac_size;
737 			bp_params.ds_frac_amount =
738 					d_s_data.ds_frac_amount;
739 			bp_params.flags.DS_TYPE = 1;
740 			bp_params.pll_id = clk_src->base.id;
741 			bp_params.percentage = ss_data->percentage;
742 			if (ss_data->flags.CENTER_SPREAD)
743 				bp_params.flags.CENTER_SPREAD = 1;
744 			if (ss_data->flags.EXTERNAL_SS)
745 				bp_params.flags.EXTERNAL_SS = 1;
746 
747 			if (BP_RESULT_OK !=
748 				clk_src->bios->funcs->
749 					enable_spread_spectrum_on_ppll(
750 							clk_src->bios,
751 							&bp_params,
752 							true))
753 				return false;
754 		} else
755 			return false;
756 	}
757 	return true;
758 }
759 
dce110_program_pixel_clk_resync(struct dce110_clk_src * clk_src,enum signal_type signal_type,enum dc_color_depth colordepth)760 static void dce110_program_pixel_clk_resync(
761 		struct dce110_clk_src *clk_src,
762 		enum signal_type signal_type,
763 		enum dc_color_depth colordepth)
764 {
765 	REG_UPDATE(RESYNC_CNTL,
766 			DCCG_DEEP_COLOR_CNTL1, 0);
767 	/*
768 	 24 bit mode: TMDS clock = 1.0 x pixel clock  (1:1)
769 	 30 bit mode: TMDS clock = 1.25 x pixel clock (5:4)
770 	 36 bit mode: TMDS clock = 1.5 x pixel clock  (3:2)
771 	 48 bit mode: TMDS clock = 2 x pixel clock    (2:1)
772 	 */
773 	if (signal_type != SIGNAL_TYPE_HDMI_TYPE_A)
774 		return;
775 
776 	switch (colordepth) {
777 	case COLOR_DEPTH_888:
778 		REG_UPDATE(RESYNC_CNTL,
779 				DCCG_DEEP_COLOR_CNTL1, 0);
780 		break;
781 	case COLOR_DEPTH_101010:
782 		REG_UPDATE(RESYNC_CNTL,
783 				DCCG_DEEP_COLOR_CNTL1, 1);
784 		break;
785 	case COLOR_DEPTH_121212:
786 		REG_UPDATE(RESYNC_CNTL,
787 				DCCG_DEEP_COLOR_CNTL1, 2);
788 		break;
789 	case COLOR_DEPTH_161616:
790 		REG_UPDATE(RESYNC_CNTL,
791 				DCCG_DEEP_COLOR_CNTL1, 3);
792 		break;
793 	default:
794 		break;
795 	}
796 }
797 
dce112_program_pixel_clk_resync(struct dce110_clk_src * clk_src,enum signal_type signal_type,enum dc_color_depth colordepth,bool enable_ycbcr420)798 static void dce112_program_pixel_clk_resync(
799 		struct dce110_clk_src *clk_src,
800 		enum signal_type signal_type,
801 		enum dc_color_depth colordepth,
802 		bool enable_ycbcr420)
803 {
804 	uint32_t deep_color_cntl = 0;
805 	uint32_t double_rate_enable = 0;
806 
807 	/*
808 	 24 bit mode: TMDS clock = 1.0 x pixel clock  (1:1)
809 	 30 bit mode: TMDS clock = 1.25 x pixel clock (5:4)
810 	 36 bit mode: TMDS clock = 1.5 x pixel clock  (3:2)
811 	 48 bit mode: TMDS clock = 2 x pixel clock    (2:1)
812 	 */
813 	if (signal_type == SIGNAL_TYPE_HDMI_TYPE_A) {
814 		double_rate_enable = enable_ycbcr420 ? 1 : 0;
815 
816 		switch (colordepth) {
817 		case COLOR_DEPTH_888:
818 			deep_color_cntl = 0;
819 			break;
820 		case COLOR_DEPTH_101010:
821 			deep_color_cntl = 1;
822 			break;
823 		case COLOR_DEPTH_121212:
824 			deep_color_cntl = 2;
825 			break;
826 		case COLOR_DEPTH_161616:
827 			deep_color_cntl = 3;
828 			break;
829 		default:
830 			break;
831 		}
832 	}
833 
834 	if (clk_src->cs_mask->PHYPLLA_PIXCLK_DOUBLE_RATE_ENABLE)
835 		REG_UPDATE_2(PIXCLK_RESYNC_CNTL,
836 				PHYPLLA_DCCG_DEEP_COLOR_CNTL, deep_color_cntl,
837 				PHYPLLA_PIXCLK_DOUBLE_RATE_ENABLE, double_rate_enable);
838 	else
839 		REG_UPDATE(PIXCLK_RESYNC_CNTL,
840 				PHYPLLA_DCCG_DEEP_COLOR_CNTL, deep_color_cntl);
841 
842 }
843 
dce110_program_pix_clk(struct clock_source * clock_source,struct pixel_clk_params * pix_clk_params,enum dp_link_encoding encoding,struct pll_settings * pll_settings)844 static bool dce110_program_pix_clk(
845 		struct clock_source *clock_source,
846 		struct pixel_clk_params *pix_clk_params,
847 		enum dp_link_encoding encoding,
848 		struct pll_settings *pll_settings)
849 {
850 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
851 	struct bp_pixel_clock_parameters bp_pc_params = {0};
852 
853 	/* First disable SS
854 	 * ATOMBIOS will enable by default SS on PLL for DP,
855 	 * do not disable it here
856 	 */
857 	if (clock_source->id != CLOCK_SOURCE_ID_EXTERNAL &&
858 			!dc_is_dp_signal(pix_clk_params->signal_type) &&
859 			clock_source->ctx->dce_version <= DCE_VERSION_11_0)
860 		disable_spread_spectrum(clk_src);
861 
862 	/*ATOMBIOS expects pixel rate adjusted by deep color ratio)*/
863 	bp_pc_params.controller_id = pix_clk_params->controller_id;
864 	bp_pc_params.pll_id = clock_source->id;
865 	bp_pc_params.target_pixel_clock_100hz = pll_settings->actual_pix_clk_100hz;
866 	bp_pc_params.encoder_object_id = pix_clk_params->encoder_object_id;
867 	bp_pc_params.signal_type = pix_clk_params->signal_type;
868 
869 	bp_pc_params.reference_divider = pll_settings->reference_divider;
870 	bp_pc_params.feedback_divider = pll_settings->feedback_divider;
871 	bp_pc_params.fractional_feedback_divider =
872 			pll_settings->fract_feedback_divider;
873 	bp_pc_params.pixel_clock_post_divider =
874 			pll_settings->pix_clk_post_divider;
875 	bp_pc_params.flags.SET_EXTERNAL_REF_DIV_SRC =
876 					pll_settings->use_external_clk;
877 
878 	switch (pix_clk_params->color_depth) {
879 	case COLOR_DEPTH_101010:
880 		bp_pc_params.color_depth = TRANSMITTER_COLOR_DEPTH_30;
881 		break;
882 	case COLOR_DEPTH_121212:
883 		bp_pc_params.color_depth = TRANSMITTER_COLOR_DEPTH_36;
884 		break;
885 	case COLOR_DEPTH_161616:
886 		bp_pc_params.color_depth = TRANSMITTER_COLOR_DEPTH_48;
887 		break;
888 	default:
889 		break;
890 	}
891 
892 	if (clk_src->bios->funcs->set_pixel_clock(
893 			clk_src->bios, &bp_pc_params) != BP_RESULT_OK)
894 		return false;
895 	/* Enable SS
896 	 * ATOMBIOS will enable by default SS for DP on PLL ( DP ID clock),
897 	 * based on HW display PLL team, SS control settings should be programmed
898 	 * during PLL Reset, but they do not have effect
899 	 * until SS_EN is asserted.*/
900 	if (clock_source->id != CLOCK_SOURCE_ID_EXTERNAL
901 			&& !dc_is_dp_signal(pix_clk_params->signal_type)) {
902 
903 		if (pix_clk_params->flags.ENABLE_SS)
904 			if (!enable_spread_spectrum(clk_src,
905 							pix_clk_params->signal_type,
906 							pll_settings))
907 				return false;
908 
909 		/* Resync deep color DTO */
910 		dce110_program_pixel_clk_resync(clk_src,
911 					pix_clk_params->signal_type,
912 					pix_clk_params->color_depth);
913 	}
914 
915 	return true;
916 }
917 
dce112_program_pix_clk(struct clock_source * clock_source,struct pixel_clk_params * pix_clk_params,enum dp_link_encoding encoding,struct pll_settings * pll_settings)918 static bool dce112_program_pix_clk(
919 		struct clock_source *clock_source,
920 		struct pixel_clk_params *pix_clk_params,
921 		enum dp_link_encoding encoding,
922 		struct pll_settings *pll_settings)
923 {
924 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
925 	struct bp_pixel_clock_parameters bp_pc_params = {0};
926 
927 	/* First disable SS
928 	 * ATOMBIOS will enable by default SS on PLL for DP,
929 	 * do not disable it here
930 	 */
931 	if (clock_source->id != CLOCK_SOURCE_ID_EXTERNAL &&
932 			!dc_is_dp_signal(pix_clk_params->signal_type) &&
933 			clock_source->ctx->dce_version <= DCE_VERSION_11_0)
934 		disable_spread_spectrum(clk_src);
935 
936 	/*ATOMBIOS expects pixel rate adjusted by deep color ratio)*/
937 	bp_pc_params.controller_id = pix_clk_params->controller_id;
938 	bp_pc_params.pll_id = clock_source->id;
939 	bp_pc_params.target_pixel_clock_100hz = pll_settings->actual_pix_clk_100hz;
940 	bp_pc_params.encoder_object_id = pix_clk_params->encoder_object_id;
941 	bp_pc_params.signal_type = pix_clk_params->signal_type;
942 
943 	if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO) {
944 		bp_pc_params.flags.SET_GENLOCK_REF_DIV_SRC =
945 						pll_settings->use_external_clk;
946 		bp_pc_params.flags.SET_XTALIN_REF_SRC =
947 						!pll_settings->use_external_clk;
948 		if (pix_clk_params->flags.SUPPORT_YCBCR420) {
949 			bp_pc_params.flags.SUPPORT_YUV_420 = 1;
950 		}
951 	}
952 	if (clk_src->bios->funcs->set_pixel_clock(
953 			clk_src->bios, &bp_pc_params) != BP_RESULT_OK)
954 		return false;
955 	/* Resync deep color DTO */
956 	if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO)
957 		dce112_program_pixel_clk_resync(clk_src,
958 					pix_clk_params->signal_type,
959 					pix_clk_params->color_depth,
960 					pix_clk_params->flags.SUPPORT_YCBCR420);
961 
962 	return true;
963 }
964 
dcn31_program_pix_clk(struct clock_source * clock_source,struct pixel_clk_params * pix_clk_params,enum dp_link_encoding encoding,struct pll_settings * pll_settings)965 static bool dcn31_program_pix_clk(
966 		struct clock_source *clock_source,
967 		struct pixel_clk_params *pix_clk_params,
968 		enum dp_link_encoding encoding,
969 		struct pll_settings *pll_settings)
970 {
971 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
972 	unsigned int inst = pix_clk_params->controller_id - CONTROLLER_ID_D0;
973 	unsigned int dp_dto_ref_khz = clock_source->ctx->dc->clk_mgr->dprefclk_khz;
974 	const struct pixel_rate_range_table_entry *e =
975 			look_up_in_video_optimized_rate_tlb(pix_clk_params->requested_pix_clk_100hz / 10);
976 	struct bp_pixel_clock_parameters bp_pc_params = {0};
977 	enum transmitter_color_depth bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24;
978 
979 	// Apply ssed(spread spectrum) dpref clock for edp only.
980 	if (clock_source->ctx->dc->clk_mgr->dp_dto_source_clock_in_khz != 0
981 		&& pix_clk_params->signal_type == SIGNAL_TYPE_EDP
982 		&& encoding == DP_8b_10b_ENCODING)
983 		dp_dto_ref_khz = clock_source->ctx->dc->clk_mgr->dp_dto_source_clock_in_khz;
984 	// For these signal types Driver to program DP_DTO without calling VBIOS Command table
985 	if (dc_is_dp_signal(pix_clk_params->signal_type) || dc_is_virtual_signal(pix_clk_params->signal_type)) {
986 		if (e) {
987 			/* Set DTO values: phase = target clock, modulo = reference clock*/
988 			REG_WRITE(PHASE[inst], e->target_pixel_rate_khz * e->mult_factor);
989 			REG_WRITE(MODULO[inst], dp_dto_ref_khz * e->div_factor);
990 		} else {
991 			/* Set DTO values: phase = target clock, modulo = reference clock*/
992 			REG_WRITE(PHASE[inst], pll_settings->actual_pix_clk_100hz * 100);
993 			REG_WRITE(MODULO[inst], dp_dto_ref_khz * 1000);
994 		}
995 		/* Enable DTO */
996 		if (clk_src->cs_mask->PIPE0_DTO_SRC_SEL)
997 			if (encoding == DP_128b_132b_ENCODING)
998 				REG_UPDATE_2(PIXEL_RATE_CNTL[inst],
999 						DP_DTO0_ENABLE, 1,
1000 						PIPE0_DTO_SRC_SEL, 2);
1001 			else
1002 				REG_UPDATE_2(PIXEL_RATE_CNTL[inst],
1003 						DP_DTO0_ENABLE, 1,
1004 						PIPE0_DTO_SRC_SEL, 1);
1005 		else
1006 			REG_UPDATE(PIXEL_RATE_CNTL[inst],
1007 					DP_DTO0_ENABLE, 1);
1008 	} else {
1009 
1010 		if (clk_src->cs_mask->PIPE0_DTO_SRC_SEL)
1011 			REG_UPDATE(PIXEL_RATE_CNTL[inst],
1012 					PIPE0_DTO_SRC_SEL, 0);
1013 
1014 		/*ATOMBIOS expects pixel rate adjusted by deep color ratio)*/
1015 		bp_pc_params.controller_id = pix_clk_params->controller_id;
1016 		bp_pc_params.pll_id = clock_source->id;
1017 		bp_pc_params.target_pixel_clock_100hz = pll_settings->actual_pix_clk_100hz;
1018 		bp_pc_params.encoder_object_id = pix_clk_params->encoder_object_id;
1019 		bp_pc_params.signal_type = pix_clk_params->signal_type;
1020 
1021 		// Make sure we send the correct color depth to DMUB for HDMI
1022 		if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A) {
1023 			switch (pix_clk_params->color_depth) {
1024 			case COLOR_DEPTH_888:
1025 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24;
1026 				break;
1027 			case COLOR_DEPTH_101010:
1028 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_30;
1029 				break;
1030 			case COLOR_DEPTH_121212:
1031 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_36;
1032 				break;
1033 			case COLOR_DEPTH_161616:
1034 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_48;
1035 				break;
1036 			default:
1037 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24;
1038 				break;
1039 			}
1040 			bp_pc_params.color_depth = bp_pc_colour_depth;
1041 		}
1042 
1043 		if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO) {
1044 			bp_pc_params.flags.SET_GENLOCK_REF_DIV_SRC =
1045 							pll_settings->use_external_clk;
1046 			bp_pc_params.flags.SET_XTALIN_REF_SRC =
1047 							!pll_settings->use_external_clk;
1048 			if (pix_clk_params->flags.SUPPORT_YCBCR420) {
1049 				bp_pc_params.flags.SUPPORT_YUV_420 = 1;
1050 			}
1051 		}
1052 		if (clk_src->bios->funcs->set_pixel_clock(
1053 				clk_src->bios, &bp_pc_params) != BP_RESULT_OK)
1054 			return false;
1055 		/* Resync deep color DTO */
1056 		if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO)
1057 			dce112_program_pixel_clk_resync(clk_src,
1058 						pix_clk_params->signal_type,
1059 						pix_clk_params->color_depth,
1060 						pix_clk_params->flags.SUPPORT_YCBCR420);
1061 	}
1062 
1063 	return true;
1064 }
1065 
dcn401_program_pix_clk(struct clock_source * clock_source,struct pixel_clk_params * pix_clk_params,enum dp_link_encoding encoding,struct pll_settings * pll_settings)1066 static bool dcn401_program_pix_clk(
1067 		struct clock_source *clock_source,
1068 		struct pixel_clk_params *pix_clk_params,
1069 		enum dp_link_encoding encoding,
1070 		struct pll_settings *pll_settings)
1071 {
1072 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
1073 	unsigned int inst = pix_clk_params->controller_id - CONTROLLER_ID_D0;
1074 	const struct pixel_rate_range_table_entry *e =
1075 			look_up_in_video_optimized_rate_tlb(pix_clk_params->requested_pix_clk_100hz / 10);
1076 	struct bp_pixel_clock_parameters bp_pc_params = {0};
1077 	enum transmitter_color_depth bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24;
1078 	struct dp_dto_params dto_params = { 0 };
1079 
1080 	dto_params.otg_inst = inst;
1081 	dto_params.signal = pix_clk_params->signal_type;
1082 
1083 	// all but TMDS gets Driver to program DP_DTO without calling VBIOS Command table
1084 	if (!dc_is_tmds_signal(pix_clk_params->signal_type)) {
1085 		long long dtbclk_p_src_clk_khz;
1086 
1087 		dtbclk_p_src_clk_khz = clock_source->ctx->dc->clk_mgr->dprefclk_khz;
1088 		dto_params.clk_src = DPREFCLK;
1089 
1090 		if (e) {
1091 			dto_params.pixclk_hz = e->target_pixel_rate_khz;
1092 			dto_params.pixclk_hz *= e->mult_factor;
1093 			dto_params.refclk_hz = dtbclk_p_src_clk_khz;
1094 			dto_params.refclk_hz *= e->div_factor;
1095 		} else {
1096 			dto_params.pixclk_hz = pix_clk_params->requested_pix_clk_100hz;
1097 			dto_params.pixclk_hz *= 100;
1098 			dto_params.refclk_hz = dtbclk_p_src_clk_khz;
1099 			dto_params.refclk_hz *= 1000;
1100 		}
1101 
1102 		/* enable DP DTO */
1103 		clock_source->ctx->dc->res_pool->dccg->funcs->set_dp_dto(
1104 				clock_source->ctx->dc->res_pool->dccg,
1105 				&dto_params);
1106 
1107 	} else {
1108 		/* disables DP DTO when provided with TMDS signal type */
1109 		clock_source->ctx->dc->res_pool->dccg->funcs->set_dp_dto(
1110 				clock_source->ctx->dc->res_pool->dccg,
1111 				&dto_params);
1112 
1113 		/*ATOMBIOS expects pixel rate adjusted by deep color ratio)*/
1114 		bp_pc_params.controller_id = pix_clk_params->controller_id;
1115 		bp_pc_params.pll_id = clock_source->id;
1116 		bp_pc_params.target_pixel_clock_100hz = pll_settings->actual_pix_clk_100hz;
1117 		bp_pc_params.encoder_object_id = pix_clk_params->encoder_object_id;
1118 		bp_pc_params.signal_type = pix_clk_params->signal_type;
1119 
1120 		// Make sure we send the correct color depth to DMUB for HDMI
1121 		if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A) {
1122 			switch (pix_clk_params->color_depth) {
1123 			case COLOR_DEPTH_888:
1124 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24;
1125 				break;
1126 			case COLOR_DEPTH_101010:
1127 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_30;
1128 				break;
1129 			case COLOR_DEPTH_121212:
1130 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_36;
1131 				break;
1132 			case COLOR_DEPTH_161616:
1133 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_48;
1134 				break;
1135 			default:
1136 				bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24;
1137 				break;
1138 			}
1139 			bp_pc_params.color_depth = bp_pc_colour_depth;
1140 		}
1141 
1142 		if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO) {
1143 			bp_pc_params.flags.SET_GENLOCK_REF_DIV_SRC =
1144 							pll_settings->use_external_clk;
1145 			bp_pc_params.flags.SET_XTALIN_REF_SRC =
1146 							!pll_settings->use_external_clk;
1147 			if (pix_clk_params->flags.SUPPORT_YCBCR420) {
1148 				bp_pc_params.flags.SUPPORT_YUV_420 = 1;
1149 			}
1150 		}
1151 		if (clk_src->bios->funcs->set_pixel_clock(
1152 				clk_src->bios, &bp_pc_params) != BP_RESULT_OK)
1153 			return false;
1154 		/* Resync deep color DTO */
1155 		if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO)
1156 			dce112_program_pixel_clk_resync(clk_src,
1157 						pix_clk_params->signal_type,
1158 						pix_clk_params->color_depth,
1159 						pix_clk_params->flags.SUPPORT_YCBCR420);
1160 	}
1161 
1162 	return true;
1163 }
1164 
dce110_clock_source_power_down(struct clock_source * clk_src)1165 static bool dce110_clock_source_power_down(
1166 		struct clock_source *clk_src)
1167 {
1168 	struct dce110_clk_src *dce110_clk_src = TO_DCE110_CLK_SRC(clk_src);
1169 	enum bp_result bp_result;
1170 	struct bp_pixel_clock_parameters bp_pixel_clock_params = {0};
1171 
1172 	if (clk_src->dp_clk_src)
1173 		return true;
1174 
1175 	/* If Pixel Clock is 0 it means Power Down Pll*/
1176 	bp_pixel_clock_params.controller_id = CONTROLLER_ID_UNDEFINED;
1177 	bp_pixel_clock_params.pll_id = clk_src->id;
1178 	bp_pixel_clock_params.flags.FORCE_PROGRAMMING_OF_PLL = 1;
1179 
1180 	/*Call ASICControl to process ATOMBIOS Exec table*/
1181 	bp_result = dce110_clk_src->bios->funcs->set_pixel_clock(
1182 			dce110_clk_src->bios,
1183 			&bp_pixel_clock_params);
1184 
1185 	return bp_result == BP_RESULT_OK;
1186 }
1187 
get_pixel_clk_frequency_100hz(const struct clock_source * clock_source,unsigned int inst,unsigned int * pixel_clk_khz)1188 static bool get_pixel_clk_frequency_100hz(
1189 		const struct clock_source *clock_source,
1190 		unsigned int inst,
1191 		unsigned int *pixel_clk_khz)
1192 {
1193 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
1194 	unsigned int clock_hz = 0;
1195 	unsigned int modulo_hz = 0;
1196 	unsigned int dp_dto_ref_khz = clock_source->ctx->dc->clk_mgr->dprefclk_khz;
1197 
1198 	if (clock_source->id == CLOCK_SOURCE_ID_DP_DTO) {
1199 		clock_hz = REG_READ(PHASE[inst]);
1200 
1201 		if (clock_source->ctx->dc->hwss.enable_vblanks_synchronization &&
1202 			clock_source->ctx->dc->config.vblank_alignment_max_frame_time_diff > 0) {
1203 			/* NOTE: In case VBLANK syncronization is enabled, MODULO may
1204 			 * not be programmed equal to DPREFCLK
1205 			 */
1206 			modulo_hz = REG_READ(MODULO[inst]);
1207 			if (modulo_hz)
1208 				*pixel_clk_khz = div_u64((uint64_t)clock_hz*
1209 					dp_dto_ref_khz*10,
1210 					modulo_hz);
1211 			else
1212 				*pixel_clk_khz = 0;
1213 		} else {
1214 			/* NOTE: There is agreement with VBIOS here that MODULO is
1215 			 * programmed equal to DPREFCLK, in which case PHASE will be
1216 			 * equivalent to pixel clock.
1217 			 */
1218 			*pixel_clk_khz = clock_hz / 100;
1219 		}
1220 		return true;
1221 	}
1222 
1223 	return false;
1224 }
1225 
1226 /* this table is use to find *1.001 and /1.001 pixel rates from non-precise pixel rate */
1227 const struct pixel_rate_range_table_entry video_optimized_pixel_rates[] = {
1228 	// /1.001 rates
1229 	{25170, 25180, 25200, 1000, 1001},	//25.2MHz   ->   25.17
1230 	{59340, 59350, 59400, 1000, 1001},	//59.4Mhz   ->   59.340
1231 	{74170, 74180, 74250, 1000, 1001},	//74.25Mhz  ->   74.1758
1232 	{89910, 90000, 90000, 1000, 1001},	//90Mhz     ->   89.91
1233 	{125870, 125880, 126000, 1000, 1001},	//126Mhz    ->  125.87
1234 	{148350, 148360, 148500, 1000, 1001},	//148.5Mhz  ->  148.3516
1235 	{167830, 167840, 168000, 1000, 1001},	//168Mhz    ->  167.83
1236 	{222520, 222530, 222750, 1000, 1001},	//222.75Mhz ->  222.527
1237 	{257140, 257150, 257400, 1000, 1001},	//257.4Mhz  ->  257.1429
1238 	{296700, 296710, 297000, 1000, 1001},	//297Mhz    ->  296.7033
1239 	{342850, 342860, 343200, 1000, 1001},	//343.2Mhz  ->  342.857
1240 	{395600, 395610, 396000, 1000, 1001},	//396Mhz    ->  395.6
1241 	{409090, 409100, 409500, 1000, 1001},	//409.5Mhz  ->  409.091
1242 	{445050, 445060, 445500, 1000, 1001},	//445.5Mhz  ->  445.055
1243 	{467530, 467540, 468000, 1000, 1001},	//468Mhz    ->  467.5325
1244 	{519230, 519240, 519750, 1000, 1001},	//519.75Mhz ->  519.231
1245 	{525970, 525980, 526500, 1000, 1001},	//526.5Mhz  ->  525.974
1246 	{545450, 545460, 546000, 1000, 1001},	//546Mhz    ->  545.455
1247 	{593400, 593410, 594000, 1000, 1001},	//594Mhz    ->  593.4066
1248 	{623370, 623380, 624000, 1000, 1001},	//624Mhz    ->  623.377
1249 	{692300, 692310, 693000, 1000, 1001},	//693Mhz    ->  692.308
1250 	{701290, 701300, 702000, 1000, 1001},	//702Mhz    ->  701.2987
1251 	{791200, 791210, 792000, 1000, 1001},	//792Mhz    ->  791.209
1252 	{890100, 890110, 891000, 1000, 1001},	//891Mhz    ->  890.1099
1253 	{1186810, 1186820, 1188000, 1000, 1001},//1188Mhz   -> 1186.8131
1254 
1255 	// *1.001 rates
1256 	{27020, 27030, 27000, 1001, 1000}, //27Mhz
1257 	{54050, 54060, 54000, 1001, 1000}, //54Mhz
1258 	{108100, 108110, 108000, 1001, 1000},//108Mhz
1259 };
1260 
look_up_in_video_optimized_rate_tlb(unsigned int pixel_rate_khz)1261 const struct pixel_rate_range_table_entry *look_up_in_video_optimized_rate_tlb(
1262 		unsigned int pixel_rate_khz)
1263 {
1264 	int i;
1265 
1266 	for (i = 0; i < NUM_ELEMENTS(video_optimized_pixel_rates); i++) {
1267 		const struct pixel_rate_range_table_entry *e = &video_optimized_pixel_rates[i];
1268 
1269 		if (e->range_min_khz <= pixel_rate_khz && pixel_rate_khz <= e->range_max_khz) {
1270 			return e;
1271 		}
1272 	}
1273 
1274 	return NULL;
1275 }
1276 
dcn20_program_pix_clk(struct clock_source * clock_source,struct pixel_clk_params * pix_clk_params,enum dp_link_encoding encoding,struct pll_settings * pll_settings)1277 static bool dcn20_program_pix_clk(
1278 		struct clock_source *clock_source,
1279 		struct pixel_clk_params *pix_clk_params,
1280 		enum dp_link_encoding encoding,
1281 		struct pll_settings *pll_settings)
1282 {
1283 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
1284 	unsigned int inst = pix_clk_params->controller_id - CONTROLLER_ID_D0;
1285 
1286 	dce112_program_pix_clk(clock_source, pix_clk_params, encoding, pll_settings);
1287 
1288 	if (clock_source->ctx->dc->hwss.enable_vblanks_synchronization &&
1289 			clock_source->ctx->dc->config.vblank_alignment_max_frame_time_diff > 0) {
1290 		/* NOTE: In case VBLANK syncronization is enabled,
1291 		 * we need to set modulo to default DPREFCLK first
1292 		 * dce112_program_pix_clk does not set default DPREFCLK
1293 		 */
1294 		REG_WRITE(MODULO[inst],
1295 			clock_source->ctx->dc->clk_mgr->dprefclk_khz*1000);
1296 	}
1297 	return true;
1298 }
1299 
dcn20_override_dp_pix_clk(struct clock_source * clock_source,unsigned int inst,unsigned int pixel_clk,unsigned int ref_clk)1300 static bool dcn20_override_dp_pix_clk(
1301 		struct clock_source *clock_source,
1302 		unsigned int inst,
1303 		unsigned int pixel_clk,
1304 		unsigned int ref_clk)
1305 {
1306 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
1307 
1308 	REG_UPDATE(PIXEL_RATE_CNTL[inst], DP_DTO0_ENABLE, 0);
1309 	REG_WRITE(PHASE[inst], pixel_clk);
1310 	REG_WRITE(MODULO[inst], ref_clk);
1311 	REG_UPDATE(PIXEL_RATE_CNTL[inst], DP_DTO0_ENABLE, 1);
1312 	return true;
1313 }
1314 
1315 static const struct clock_source_funcs dcn20_clk_src_funcs = {
1316 	.cs_power_down = dce110_clock_source_power_down,
1317 	.program_pix_clk = dcn20_program_pix_clk,
1318 	.get_pix_clk_dividers = dce112_get_pix_clk_dividers,
1319 	.get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz,
1320 	.override_dp_pix_clk = dcn20_override_dp_pix_clk
1321 };
1322 
dcn3_program_pix_clk(struct clock_source * clock_source,struct pixel_clk_params * pix_clk_params,enum dp_link_encoding encoding,struct pll_settings * pll_settings)1323 static bool dcn3_program_pix_clk(
1324 		struct clock_source *clock_source,
1325 		struct pixel_clk_params *pix_clk_params,
1326 		enum dp_link_encoding encoding,
1327 		struct pll_settings *pll_settings)
1328 {
1329 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source);
1330 	unsigned int inst = pix_clk_params->controller_id - CONTROLLER_ID_D0;
1331 	unsigned int dp_dto_ref_khz = clock_source->ctx->dc->clk_mgr->dprefclk_khz;
1332 	const struct pixel_rate_range_table_entry *e =
1333 			look_up_in_video_optimized_rate_tlb(pix_clk_params->requested_pix_clk_100hz / 10);
1334 
1335 	// For these signal types Driver to program DP_DTO without calling VBIOS Command table
1336 	if (dc_is_dp_signal(pix_clk_params->signal_type)) {
1337 		if (e) {
1338 			/* Set DTO values: phase = target clock, modulo = reference clock*/
1339 			REG_WRITE(PHASE[inst], e->target_pixel_rate_khz * e->mult_factor);
1340 			REG_WRITE(MODULO[inst], dp_dto_ref_khz * e->div_factor);
1341 		} else {
1342 			/* Set DTO values: phase = target clock, modulo = reference clock*/
1343 			REG_WRITE(PHASE[inst], pll_settings->actual_pix_clk_100hz * 100);
1344 			REG_WRITE(MODULO[inst], dp_dto_ref_khz * 1000);
1345 		}
1346 		/* Enable DTO */
1347 		if (clk_src->cs_mask->PIPE0_DTO_SRC_SEL)
1348 			REG_UPDATE_2(PIXEL_RATE_CNTL[inst],
1349 					DP_DTO0_ENABLE, 1,
1350 					PIPE0_DTO_SRC_SEL, 1);
1351 		else
1352 			REG_UPDATE(PIXEL_RATE_CNTL[inst],
1353 					DP_DTO0_ENABLE, 1);
1354 	} else
1355 		// For other signal types(HDMI_TYPE_A, DVI) Driver still to call VBIOS Command table
1356 		dce112_program_pix_clk(clock_source, pix_clk_params, encoding, pll_settings);
1357 
1358 	return true;
1359 }
1360 
dcn3_get_pix_clk_dividers(struct clock_source * cs,struct pixel_clk_params * pix_clk_params,struct pll_settings * pll_settings)1361 static uint32_t dcn3_get_pix_clk_dividers(
1362 		struct clock_source *cs,
1363 		struct pixel_clk_params *pix_clk_params,
1364 		struct pll_settings *pll_settings)
1365 {
1366 	unsigned long long actual_pix_clk_100Hz = pix_clk_params ? pix_clk_params->requested_pix_clk_100hz : 0;
1367 	struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(cs);
1368 
1369 	DC_LOGGER_INIT();
1370 
1371 	if (pix_clk_params == NULL || pll_settings == NULL
1372 			|| pix_clk_params->requested_pix_clk_100hz == 0) {
1373 		DC_LOG_ERROR(
1374 			"%s: Invalid parameters!!\n", __func__);
1375 		return -1;
1376 	}
1377 
1378 	memset(pll_settings, 0, sizeof(*pll_settings));
1379 	/* Adjust for HDMI Type A deep color */
1380 	if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A) {
1381 		switch (pix_clk_params->color_depth) {
1382 		case COLOR_DEPTH_101010:
1383 			actual_pix_clk_100Hz = (actual_pix_clk_100Hz * 5) >> 2;
1384 			break;
1385 		case COLOR_DEPTH_121212:
1386 			actual_pix_clk_100Hz = (actual_pix_clk_100Hz * 6) >> 2;
1387 			break;
1388 		case COLOR_DEPTH_161616:
1389 			actual_pix_clk_100Hz = actual_pix_clk_100Hz * 2;
1390 			break;
1391 		default:
1392 			break;
1393 		}
1394 	}
1395 	pll_settings->actual_pix_clk_100hz = (unsigned int) actual_pix_clk_100Hz;
1396 	pll_settings->adjusted_pix_clk_100hz = (unsigned int) actual_pix_clk_100Hz;
1397 	pll_settings->calculated_pix_clk_100hz = (unsigned int) actual_pix_clk_100Hz;
1398 
1399 	return 0;
1400 }
1401 
1402 static const struct clock_source_funcs dcn3_clk_src_funcs = {
1403 	.cs_power_down = dce110_clock_source_power_down,
1404 	.program_pix_clk = dcn3_program_pix_clk,
1405 	.get_pix_clk_dividers = dcn3_get_pix_clk_dividers,
1406 	.get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz
1407 };
1408 
1409 static const struct clock_source_funcs dcn31_clk_src_funcs = {
1410 	.cs_power_down = dce110_clock_source_power_down,
1411 	.program_pix_clk = dcn31_program_pix_clk,
1412 	.get_pix_clk_dividers = dcn3_get_pix_clk_dividers,
1413 	.get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz
1414 };
1415 
1416 static const struct clock_source_funcs dcn401_clk_src_funcs = {
1417 	.cs_power_down = dce110_clock_source_power_down,
1418 	.program_pix_clk = dcn401_program_pix_clk,
1419 	.get_pix_clk_dividers = dcn3_get_pix_clk_dividers,
1420 	.get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz
1421 };
1422 
1423 /*****************************************/
1424 /* Constructor                           */
1425 /*****************************************/
1426 
1427 static const struct clock_source_funcs dce112_clk_src_funcs = {
1428 	.cs_power_down = dce110_clock_source_power_down,
1429 	.program_pix_clk = dce112_program_pix_clk,
1430 	.get_pix_clk_dividers = dce112_get_pix_clk_dividers,
1431 	.get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz
1432 };
1433 static const struct clock_source_funcs dce110_clk_src_funcs = {
1434 	.cs_power_down = dce110_clock_source_power_down,
1435 	.program_pix_clk = dce110_program_pix_clk,
1436 	.get_pix_clk_dividers = dce110_get_pix_clk_dividers,
1437 	.get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz
1438 };
1439 
1440 
get_ss_info_from_atombios(struct dce110_clk_src * clk_src,enum as_signal_type as_signal,struct spread_spectrum_data * spread_spectrum_data[],uint32_t * ss_entries_num)1441 static void get_ss_info_from_atombios(
1442 		struct dce110_clk_src *clk_src,
1443 		enum as_signal_type as_signal,
1444 		struct spread_spectrum_data *spread_spectrum_data[],
1445 		uint32_t *ss_entries_num)
1446 {
1447 	enum bp_result bp_result = BP_RESULT_FAILURE;
1448 	struct spread_spectrum_info *ss_info;
1449 	struct spread_spectrum_data *ss_data;
1450 	struct spread_spectrum_info *ss_info_cur;
1451 	struct spread_spectrum_data *ss_data_cur;
1452 	uint32_t i;
1453 	DC_LOGGER_INIT();
1454 	if (ss_entries_num == NULL) {
1455 		DC_LOG_SYNC(
1456 			"Invalid entry !!!\n");
1457 		return;
1458 	}
1459 	if (spread_spectrum_data == NULL) {
1460 		DC_LOG_SYNC(
1461 			"Invalid array pointer!!!\n");
1462 		return;
1463 	}
1464 
1465 	spread_spectrum_data[0] = NULL;
1466 	*ss_entries_num = 0;
1467 
1468 	*ss_entries_num = clk_src->bios->funcs->get_ss_entry_number(
1469 			clk_src->bios,
1470 			as_signal);
1471 
1472 	if (*ss_entries_num == 0)
1473 		return;
1474 
1475 	ss_info = kcalloc(*ss_entries_num,
1476 			  sizeof(struct spread_spectrum_info),
1477 			  GFP_KERNEL);
1478 	ss_info_cur = ss_info;
1479 	if (ss_info == NULL)
1480 		return;
1481 
1482 	ss_data = kcalloc(*ss_entries_num,
1483 			  sizeof(struct spread_spectrum_data),
1484 			  GFP_KERNEL);
1485 	if (ss_data == NULL)
1486 		goto out_free_info;
1487 
1488 	for (i = 0, ss_info_cur = ss_info;
1489 		i < (*ss_entries_num);
1490 		++i, ++ss_info_cur) {
1491 
1492 		bp_result = clk_src->bios->funcs->get_spread_spectrum_info(
1493 				clk_src->bios,
1494 				as_signal,
1495 				i,
1496 				ss_info_cur);
1497 
1498 		if (bp_result != BP_RESULT_OK)
1499 			goto out_free_data;
1500 	}
1501 
1502 	for (i = 0, ss_info_cur = ss_info, ss_data_cur = ss_data;
1503 		i < (*ss_entries_num);
1504 		++i, ++ss_info_cur, ++ss_data_cur) {
1505 
1506 		if (ss_info_cur->type.STEP_AND_DELAY_INFO != false) {
1507 			DC_LOG_SYNC(
1508 				"Invalid ATOMBIOS SS Table!!!\n");
1509 			goto out_free_data;
1510 		}
1511 
1512 		/* for HDMI check SS percentage,
1513 		 * if it is > 6 (0.06%), the ATOMBIOS table info is invalid*/
1514 		if (as_signal == AS_SIGNAL_TYPE_HDMI
1515 				&& ss_info_cur->spread_spectrum_percentage > 6){
1516 			/* invalid input, do nothing */
1517 			DC_LOG_SYNC(
1518 				"Invalid SS percentage ");
1519 			DC_LOG_SYNC(
1520 				"for HDMI in ATOMBIOS info Table!!!\n");
1521 			continue;
1522 		}
1523 		if (ss_info_cur->spread_percentage_divider == 1000) {
1524 			/* Keep previous precision from ATOMBIOS for these
1525 			* in case new precision set by ATOMBIOS for these
1526 			* (otherwise all code in DCE specific classes
1527 			* for all previous ASICs would need
1528 			* to be updated for SS calculations,
1529 			* Audio SS compensation and DP DTO SS compensation
1530 			* which assumes fixed SS percentage Divider = 100)*/
1531 			ss_info_cur->spread_spectrum_percentage /= 10;
1532 			ss_info_cur->spread_percentage_divider = 100;
1533 		}
1534 
1535 		ss_data_cur->freq_range_khz = ss_info_cur->target_clock_range;
1536 		ss_data_cur->percentage =
1537 				ss_info_cur->spread_spectrum_percentage;
1538 		ss_data_cur->percentage_divider =
1539 				ss_info_cur->spread_percentage_divider;
1540 		ss_data_cur->modulation_freq_hz =
1541 				ss_info_cur->spread_spectrum_range;
1542 
1543 		if (ss_info_cur->type.CENTER_MODE)
1544 			ss_data_cur->flags.CENTER_SPREAD = 1;
1545 
1546 		if (ss_info_cur->type.EXTERNAL)
1547 			ss_data_cur->flags.EXTERNAL_SS = 1;
1548 
1549 	}
1550 
1551 	*spread_spectrum_data = ss_data;
1552 	kfree(ss_info);
1553 	return;
1554 
1555 out_free_data:
1556 	kfree(ss_data);
1557 	*ss_entries_num = 0;
1558 out_free_info:
1559 	kfree(ss_info);
1560 }
1561 
ss_info_from_atombios_create(struct dce110_clk_src * clk_src)1562 static void ss_info_from_atombios_create(
1563 	struct dce110_clk_src *clk_src)
1564 {
1565 	get_ss_info_from_atombios(
1566 		clk_src,
1567 		AS_SIGNAL_TYPE_DISPLAY_PORT,
1568 		&clk_src->dp_ss_params,
1569 		&clk_src->dp_ss_params_cnt);
1570 	get_ss_info_from_atombios(
1571 		clk_src,
1572 		AS_SIGNAL_TYPE_HDMI,
1573 		&clk_src->hdmi_ss_params,
1574 		&clk_src->hdmi_ss_params_cnt);
1575 	get_ss_info_from_atombios(
1576 		clk_src,
1577 		AS_SIGNAL_TYPE_DVI,
1578 		&clk_src->dvi_ss_params,
1579 		&clk_src->dvi_ss_params_cnt);
1580 	get_ss_info_from_atombios(
1581 		clk_src,
1582 		AS_SIGNAL_TYPE_LVDS,
1583 		&clk_src->lvds_ss_params,
1584 		&clk_src->lvds_ss_params_cnt);
1585 }
1586 
calc_pll_max_vco_construct(struct calc_pll_clock_source * calc_pll_cs,struct calc_pll_clock_source_init_data * init_data)1587 static bool calc_pll_max_vco_construct(
1588 			struct calc_pll_clock_source *calc_pll_cs,
1589 			struct calc_pll_clock_source_init_data *init_data)
1590 {
1591 	uint32_t i;
1592 	struct dc_firmware_info *fw_info;
1593 	if (calc_pll_cs == NULL ||
1594 			init_data == NULL ||
1595 			init_data->bp == NULL)
1596 		return false;
1597 
1598 	if (!init_data->bp->fw_info_valid)
1599 		return false;
1600 
1601 	fw_info = &init_data->bp->fw_info;
1602 	calc_pll_cs->ctx = init_data->ctx;
1603 	calc_pll_cs->ref_freq_khz = fw_info->pll_info.crystal_frequency;
1604 	calc_pll_cs->min_vco_khz =
1605 			fw_info->pll_info.min_output_pxl_clk_pll_frequency;
1606 	calc_pll_cs->max_vco_khz =
1607 			fw_info->pll_info.max_output_pxl_clk_pll_frequency;
1608 
1609 	if (init_data->max_override_input_pxl_clk_pll_freq_khz != 0)
1610 		calc_pll_cs->max_pll_input_freq_khz =
1611 			init_data->max_override_input_pxl_clk_pll_freq_khz;
1612 	else
1613 		calc_pll_cs->max_pll_input_freq_khz =
1614 			fw_info->pll_info.max_input_pxl_clk_pll_frequency;
1615 
1616 	if (init_data->min_override_input_pxl_clk_pll_freq_khz != 0)
1617 		calc_pll_cs->min_pll_input_freq_khz =
1618 			init_data->min_override_input_pxl_clk_pll_freq_khz;
1619 	else
1620 		calc_pll_cs->min_pll_input_freq_khz =
1621 			fw_info->pll_info.min_input_pxl_clk_pll_frequency;
1622 
1623 	calc_pll_cs->min_pix_clock_pll_post_divider =
1624 			init_data->min_pix_clk_pll_post_divider;
1625 	calc_pll_cs->max_pix_clock_pll_post_divider =
1626 			init_data->max_pix_clk_pll_post_divider;
1627 	calc_pll_cs->min_pll_ref_divider =
1628 			init_data->min_pll_ref_divider;
1629 	calc_pll_cs->max_pll_ref_divider =
1630 			init_data->max_pll_ref_divider;
1631 
1632 	if (init_data->num_fract_fb_divider_decimal_point == 0 ||
1633 		init_data->num_fract_fb_divider_decimal_point_precision >
1634 				init_data->num_fract_fb_divider_decimal_point) {
1635 		DC_LOG_ERROR(
1636 			"The dec point num or precision is incorrect!");
1637 		return false;
1638 	}
1639 	if (init_data->num_fract_fb_divider_decimal_point_precision == 0) {
1640 		DC_LOG_ERROR(
1641 			"Incorrect fract feedback divider precision num!");
1642 		return false;
1643 	}
1644 
1645 	calc_pll_cs->fract_fb_divider_decimal_points_num =
1646 				init_data->num_fract_fb_divider_decimal_point;
1647 	calc_pll_cs->fract_fb_divider_precision =
1648 			init_data->num_fract_fb_divider_decimal_point_precision;
1649 	calc_pll_cs->fract_fb_divider_factor = 1;
1650 	for (i = 0; i < calc_pll_cs->fract_fb_divider_decimal_points_num; ++i)
1651 		calc_pll_cs->fract_fb_divider_factor *= 10;
1652 
1653 	calc_pll_cs->fract_fb_divider_precision_factor = 1;
1654 	for (
1655 		i = 0;
1656 		i < (calc_pll_cs->fract_fb_divider_decimal_points_num -
1657 				calc_pll_cs->fract_fb_divider_precision);
1658 		++i)
1659 		calc_pll_cs->fract_fb_divider_precision_factor *= 10;
1660 
1661 	return true;
1662 }
1663 
dce110_clk_src_construct(struct dce110_clk_src * clk_src,struct dc_context * ctx,struct dc_bios * bios,enum clock_source_id id,const struct dce110_clk_src_regs * regs,const struct dce110_clk_src_shift * cs_shift,const struct dce110_clk_src_mask * cs_mask)1664 bool dce110_clk_src_construct(
1665 	struct dce110_clk_src *clk_src,
1666 	struct dc_context *ctx,
1667 	struct dc_bios *bios,
1668 	enum clock_source_id id,
1669 	const struct dce110_clk_src_regs *regs,
1670 	const struct dce110_clk_src_shift *cs_shift,
1671 	const struct dce110_clk_src_mask *cs_mask)
1672 {
1673 	struct calc_pll_clock_source_init_data calc_pll_cs_init_data_hdmi;
1674 	struct calc_pll_clock_source_init_data calc_pll_cs_init_data;
1675 
1676 	clk_src->base.ctx = ctx;
1677 	clk_src->bios = bios;
1678 	clk_src->base.id = id;
1679 	clk_src->base.funcs = &dce110_clk_src_funcs;
1680 
1681 	clk_src->regs = regs;
1682 	clk_src->cs_shift = cs_shift;
1683 	clk_src->cs_mask = cs_mask;
1684 
1685 	if (!clk_src->bios->fw_info_valid) {
1686 		ASSERT_CRITICAL(false);
1687 		goto unexpected_failure;
1688 	}
1689 
1690 	clk_src->ext_clk_khz = clk_src->bios->fw_info.external_clock_source_frequency_for_dp;
1691 
1692 	/* structure normally used with PLL ranges from ATOMBIOS; DS on by default */
1693 	calc_pll_cs_init_data.bp = bios;
1694 	calc_pll_cs_init_data.min_pix_clk_pll_post_divider = 1;
1695 	calc_pll_cs_init_data.max_pix_clk_pll_post_divider =
1696 			clk_src->cs_mask->PLL_POST_DIV_PIXCLK;
1697 	calc_pll_cs_init_data.min_pll_ref_divider =	1;
1698 	calc_pll_cs_init_data.max_pll_ref_divider =	clk_src->cs_mask->PLL_REF_DIV;
1699 	/* when 0 use minInputPxlClkPLLFrequencyInKHz from firmwareInfo*/
1700 	calc_pll_cs_init_data.min_override_input_pxl_clk_pll_freq_khz =	0;
1701 	/* when 0 use maxInputPxlClkPLLFrequencyInKHz from firmwareInfo*/
1702 	calc_pll_cs_init_data.max_override_input_pxl_clk_pll_freq_khz =	0;
1703 	/*numberOfFractFBDividerDecimalPoints*/
1704 	calc_pll_cs_init_data.num_fract_fb_divider_decimal_point =
1705 			FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM;
1706 	/*number of decimal point to round off for fractional feedback divider value*/
1707 	calc_pll_cs_init_data.num_fract_fb_divider_decimal_point_precision =
1708 			FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM;
1709 	calc_pll_cs_init_data.ctx =	ctx;
1710 
1711 	/*structure for HDMI, no SS or SS% <= 0.06% for 27 MHz Ref clock */
1712 	calc_pll_cs_init_data_hdmi.bp = bios;
1713 	calc_pll_cs_init_data_hdmi.min_pix_clk_pll_post_divider = 1;
1714 	calc_pll_cs_init_data_hdmi.max_pix_clk_pll_post_divider =
1715 			clk_src->cs_mask->PLL_POST_DIV_PIXCLK;
1716 	calc_pll_cs_init_data_hdmi.min_pll_ref_divider = 1;
1717 	calc_pll_cs_init_data_hdmi.max_pll_ref_divider = clk_src->cs_mask->PLL_REF_DIV;
1718 	/* when 0 use minInputPxlClkPLLFrequencyInKHz from firmwareInfo*/
1719 	calc_pll_cs_init_data_hdmi.min_override_input_pxl_clk_pll_freq_khz = 13500;
1720 	/* when 0 use maxInputPxlClkPLLFrequencyInKHz from firmwareInfo*/
1721 	calc_pll_cs_init_data_hdmi.max_override_input_pxl_clk_pll_freq_khz = 27000;
1722 	/*numberOfFractFBDividerDecimalPoints*/
1723 	calc_pll_cs_init_data_hdmi.num_fract_fb_divider_decimal_point =
1724 			FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM;
1725 	/*number of decimal point to round off for fractional feedback divider value*/
1726 	calc_pll_cs_init_data_hdmi.num_fract_fb_divider_decimal_point_precision =
1727 			FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM;
1728 	calc_pll_cs_init_data_hdmi.ctx = ctx;
1729 
1730 	clk_src->ref_freq_khz = clk_src->bios->fw_info.pll_info.crystal_frequency;
1731 
1732 	if (clk_src->base.id == CLOCK_SOURCE_ID_EXTERNAL)
1733 		return true;
1734 
1735 	/* PLL only from here on */
1736 	ss_info_from_atombios_create(clk_src);
1737 
1738 	if (!calc_pll_max_vco_construct(
1739 			&clk_src->calc_pll,
1740 			&calc_pll_cs_init_data)) {
1741 		ASSERT_CRITICAL(false);
1742 		goto unexpected_failure;
1743 	}
1744 
1745 
1746 	calc_pll_cs_init_data_hdmi.
1747 			min_override_input_pxl_clk_pll_freq_khz = clk_src->ref_freq_khz/2;
1748 	calc_pll_cs_init_data_hdmi.
1749 			max_override_input_pxl_clk_pll_freq_khz = clk_src->ref_freq_khz;
1750 
1751 
1752 	if (!calc_pll_max_vco_construct(
1753 			&clk_src->calc_pll_hdmi, &calc_pll_cs_init_data_hdmi)) {
1754 		ASSERT_CRITICAL(false);
1755 		goto unexpected_failure;
1756 	}
1757 
1758 	return true;
1759 
1760 unexpected_failure:
1761 	return false;
1762 }
1763 
dce112_clk_src_construct(struct dce110_clk_src * clk_src,struct dc_context * ctx,struct dc_bios * bios,enum clock_source_id id,const struct dce110_clk_src_regs * regs,const struct dce110_clk_src_shift * cs_shift,const struct dce110_clk_src_mask * cs_mask)1764 bool dce112_clk_src_construct(
1765 	struct dce110_clk_src *clk_src,
1766 	struct dc_context *ctx,
1767 	struct dc_bios *bios,
1768 	enum clock_source_id id,
1769 	const struct dce110_clk_src_regs *regs,
1770 	const struct dce110_clk_src_shift *cs_shift,
1771 	const struct dce110_clk_src_mask *cs_mask)
1772 {
1773 	clk_src->base.ctx = ctx;
1774 	clk_src->bios = bios;
1775 	clk_src->base.id = id;
1776 	clk_src->base.funcs = &dce112_clk_src_funcs;
1777 
1778 	clk_src->regs = regs;
1779 	clk_src->cs_shift = cs_shift;
1780 	clk_src->cs_mask = cs_mask;
1781 
1782 	if (!clk_src->bios->fw_info_valid) {
1783 		ASSERT_CRITICAL(false);
1784 		return false;
1785 	}
1786 
1787 	clk_src->ext_clk_khz = clk_src->bios->fw_info.external_clock_source_frequency_for_dp;
1788 
1789 	return true;
1790 }
1791 
dcn20_clk_src_construct(struct dce110_clk_src * clk_src,struct dc_context * ctx,struct dc_bios * bios,enum clock_source_id id,const struct dce110_clk_src_regs * regs,const struct dce110_clk_src_shift * cs_shift,const struct dce110_clk_src_mask * cs_mask)1792 bool dcn20_clk_src_construct(
1793 	struct dce110_clk_src *clk_src,
1794 	struct dc_context *ctx,
1795 	struct dc_bios *bios,
1796 	enum clock_source_id id,
1797 	const struct dce110_clk_src_regs *regs,
1798 	const struct dce110_clk_src_shift *cs_shift,
1799 	const struct dce110_clk_src_mask *cs_mask)
1800 {
1801 	bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask);
1802 
1803 	clk_src->base.funcs = &dcn20_clk_src_funcs;
1804 
1805 	return ret;
1806 }
1807 
dcn3_clk_src_construct(struct dce110_clk_src * clk_src,struct dc_context * ctx,struct dc_bios * bios,enum clock_source_id id,const struct dce110_clk_src_regs * regs,const struct dce110_clk_src_shift * cs_shift,const struct dce110_clk_src_mask * cs_mask)1808 bool dcn3_clk_src_construct(
1809 	struct dce110_clk_src *clk_src,
1810 	struct dc_context *ctx,
1811 	struct dc_bios *bios,
1812 	enum clock_source_id id,
1813 	const struct dce110_clk_src_regs *regs,
1814 	const struct dce110_clk_src_shift *cs_shift,
1815 	const struct dce110_clk_src_mask *cs_mask)
1816 {
1817 	bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask);
1818 
1819 	clk_src->base.funcs = &dcn3_clk_src_funcs;
1820 
1821 	return ret;
1822 }
1823 
dcn31_clk_src_construct(struct dce110_clk_src * clk_src,struct dc_context * ctx,struct dc_bios * bios,enum clock_source_id id,const struct dce110_clk_src_regs * regs,const struct dce110_clk_src_shift * cs_shift,const struct dce110_clk_src_mask * cs_mask)1824 bool dcn31_clk_src_construct(
1825 	struct dce110_clk_src *clk_src,
1826 	struct dc_context *ctx,
1827 	struct dc_bios *bios,
1828 	enum clock_source_id id,
1829 	const struct dce110_clk_src_regs *regs,
1830 	const struct dce110_clk_src_shift *cs_shift,
1831 	const struct dce110_clk_src_mask *cs_mask)
1832 {
1833 	bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask);
1834 
1835 	clk_src->base.funcs = &dcn31_clk_src_funcs;
1836 
1837 	return ret;
1838 }
1839 
dcn401_clk_src_construct(struct dce110_clk_src * clk_src,struct dc_context * ctx,struct dc_bios * bios,enum clock_source_id id,const struct dce110_clk_src_regs * regs,const struct dce110_clk_src_shift * cs_shift,const struct dce110_clk_src_mask * cs_mask)1840 bool dcn401_clk_src_construct(
1841 	struct dce110_clk_src *clk_src,
1842 	struct dc_context *ctx,
1843 	struct dc_bios *bios,
1844 	enum clock_source_id id,
1845 	const struct dce110_clk_src_regs *regs,
1846 	const struct dce110_clk_src_shift *cs_shift,
1847 	const struct dce110_clk_src_mask *cs_mask)
1848 {
1849 	bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask);
1850 
1851 	clk_src->base.funcs = &dcn401_clk_src_funcs;
1852 
1853 	return ret;
1854 }
dcn301_clk_src_construct(struct dce110_clk_src * clk_src,struct dc_context * ctx,struct dc_bios * bios,enum clock_source_id id,const struct dce110_clk_src_regs * regs,const struct dce110_clk_src_shift * cs_shift,const struct dce110_clk_src_mask * cs_mask)1855 bool dcn301_clk_src_construct(
1856 	struct dce110_clk_src *clk_src,
1857 	struct dc_context *ctx,
1858 	struct dc_bios *bios,
1859 	enum clock_source_id id,
1860 	const struct dce110_clk_src_regs *regs,
1861 	const struct dce110_clk_src_shift *cs_shift,
1862 	const struct dce110_clk_src_mask *cs_mask)
1863 {
1864 	bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask);
1865 
1866 	clk_src->base.funcs = &dcn3_clk_src_funcs;
1867 
1868 	return ret;
1869 }
1870