tjh.dev / kernel
Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
kernel os linux
fork atom
kernel / drivers / gpu / drm / amd / display / dc / dce / dce_clock_source.c
at v6.19 1873 lines 60 kB view raw
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 62static 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 */ 136static 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 */ 195static 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 251static 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 293static 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 396static 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 475static 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 537static 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 568static 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 601static 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 633static 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 649static 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 714static 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 760static 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 798static 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 844static 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 918static 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 965static 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 and dp 980 if (clock_source->ctx->dc->clk_mgr->dp_dto_source_clock_in_khz != 0 && 981 dc_is_dp_signal(pix_clk_params->signal_type) && 982 encoding == DP_8b_10b_ENCODING) 983 dp_dto_ref_khz = clock_source->ctx->dc->clk_mgr->dp_dto_source_clock_in_khz; 984 985 // For these signal types Driver to program DP_DTO without calling VBIOS Command table 986 if (dc_is_dp_signal(pix_clk_params->signal_type) || dc_is_virtual_signal(pix_clk_params->signal_type)) { 987 if (e) { 988 /* Set DTO values: phase = target clock, modulo = reference clock*/ 989 REG_WRITE(PHASE[inst], e->target_pixel_rate_khz * e->mult_factor); 990 REG_WRITE(MODULO[inst], dp_dto_ref_khz * e->div_factor); 991 } else { 992 /* Set DTO values: phase = target clock, modulo = reference clock*/ 993 REG_WRITE(PHASE[inst], pll_settings->actual_pix_clk_100hz * 100); 994 REG_WRITE(MODULO[inst], dp_dto_ref_khz * 1000); 995 } 996 /* Enable DTO */ 997 if (clk_src->cs_mask->PIPE0_DTO_SRC_SEL) 998 if (encoding == DP_128b_132b_ENCODING) 999 REG_UPDATE_2(PIXEL_RATE_CNTL[inst], 1000 DP_DTO0_ENABLE, 1, 1001 PIPE0_DTO_SRC_SEL, 2); 1002 else 1003 REG_UPDATE_2(PIXEL_RATE_CNTL[inst], 1004 DP_DTO0_ENABLE, 1, 1005 PIPE0_DTO_SRC_SEL, 1); 1006 else 1007 REG_UPDATE(PIXEL_RATE_CNTL[inst], 1008 DP_DTO0_ENABLE, 1); 1009 } else { 1010 1011 if (clk_src->cs_mask->PIPE0_DTO_SRC_SEL) 1012 REG_UPDATE(PIXEL_RATE_CNTL[inst], 1013 PIPE0_DTO_SRC_SEL, 0); 1014 1015 /*ATOMBIOS expects pixel rate adjusted by deep color ratio)*/ 1016 bp_pc_params.controller_id = pix_clk_params->controller_id; 1017 bp_pc_params.pll_id = clock_source->id; 1018 bp_pc_params.target_pixel_clock_100hz = pll_settings->actual_pix_clk_100hz; 1019 bp_pc_params.encoder_object_id = pix_clk_params->encoder_object_id; 1020 bp_pc_params.signal_type = pix_clk_params->signal_type; 1021 1022 // Make sure we send the correct color depth to DMUB for HDMI 1023 if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A) { 1024 switch (pix_clk_params->color_depth) { 1025 case COLOR_DEPTH_888: 1026 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24; 1027 break; 1028 case COLOR_DEPTH_101010: 1029 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_30; 1030 break; 1031 case COLOR_DEPTH_121212: 1032 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_36; 1033 break; 1034 case COLOR_DEPTH_161616: 1035 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_48; 1036 break; 1037 default: 1038 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24; 1039 break; 1040 } 1041 bp_pc_params.color_depth = bp_pc_colour_depth; 1042 } 1043 1044 if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO) { 1045 bp_pc_params.flags.SET_GENLOCK_REF_DIV_SRC = 1046 pll_settings->use_external_clk; 1047 bp_pc_params.flags.SET_XTALIN_REF_SRC = 1048 !pll_settings->use_external_clk; 1049 if (pix_clk_params->flags.SUPPORT_YCBCR420) { 1050 bp_pc_params.flags.SUPPORT_YUV_420 = 1; 1051 } 1052 } 1053 if (clk_src->bios->funcs->set_pixel_clock( 1054 clk_src->bios, &bp_pc_params) != BP_RESULT_OK) 1055 return false; 1056 /* Resync deep color DTO */ 1057 if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO) 1058 dce112_program_pixel_clk_resync(clk_src, 1059 pix_clk_params->signal_type, 1060 pix_clk_params->color_depth, 1061 pix_clk_params->flags.SUPPORT_YCBCR420); 1062 } 1063 1064 return true; 1065} 1066 1067static bool dcn401_program_pix_clk( 1068 struct clock_source *clock_source, 1069 struct pixel_clk_params *pix_clk_params, 1070 enum dp_link_encoding encoding, 1071 struct pll_settings *pll_settings) 1072{ 1073 struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source); 1074 unsigned int inst = pix_clk_params->controller_id - CONTROLLER_ID_D0; 1075 const struct pixel_rate_range_table_entry *e = 1076 look_up_in_video_optimized_rate_tlb(pix_clk_params->requested_pix_clk_100hz / 10); 1077 struct bp_pixel_clock_parameters bp_pc_params = {0}; 1078 enum transmitter_color_depth bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24; 1079 struct dp_dto_params dto_params = { 0 }; 1080 1081 dto_params.otg_inst = inst; 1082 dto_params.signal = pix_clk_params->signal_type; 1083 1084 // all but TMDS gets Driver to program DP_DTO without calling VBIOS Command table 1085 if (!dc_is_tmds_signal(pix_clk_params->signal_type)) { 1086 long long dtbclk_p_src_clk_khz; 1087 1088 dtbclk_p_src_clk_khz = clock_source->ctx->dc->clk_mgr->dprefclk_khz; 1089 dto_params.clk_src = DPREFCLK; 1090 1091 if (e) { 1092 dto_params.pixclk_hz = e->target_pixel_rate_khz; 1093 dto_params.pixclk_hz *= e->mult_factor; 1094 dto_params.refclk_hz = dtbclk_p_src_clk_khz; 1095 dto_params.refclk_hz *= e->div_factor; 1096 } else { 1097 dto_params.pixclk_hz = pix_clk_params->requested_pix_clk_100hz; 1098 dto_params.pixclk_hz *= 100; 1099 dto_params.refclk_hz = dtbclk_p_src_clk_khz; 1100 dto_params.refclk_hz *= 1000; 1101 } 1102 1103 /* enable DP DTO */ 1104 clock_source->ctx->dc->res_pool->dccg->funcs->set_dp_dto( 1105 clock_source->ctx->dc->res_pool->dccg, 1106 &dto_params); 1107 1108 } else { 1109 if (pll_settings->actual_pix_clk_100hz > 6000000UL) 1110 return false; 1111 1112 /* disables DP DTO when provided with TMDS signal type */ 1113 clock_source->ctx->dc->res_pool->dccg->funcs->set_dp_dto( 1114 clock_source->ctx->dc->res_pool->dccg, 1115 &dto_params); 1116 1117 /*ATOMBIOS expects pixel rate adjusted by deep color ratio)*/ 1118 bp_pc_params.controller_id = pix_clk_params->controller_id; 1119 bp_pc_params.pll_id = clock_source->id; 1120 bp_pc_params.target_pixel_clock_100hz = pll_settings->actual_pix_clk_100hz; 1121 bp_pc_params.encoder_object_id = pix_clk_params->encoder_object_id; 1122 bp_pc_params.signal_type = pix_clk_params->signal_type; 1123 1124 // Make sure we send the correct color depth to DMUB for HDMI 1125 if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A) { 1126 switch (pix_clk_params->color_depth) { 1127 case COLOR_DEPTH_888: 1128 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24; 1129 break; 1130 case COLOR_DEPTH_101010: 1131 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_30; 1132 break; 1133 case COLOR_DEPTH_121212: 1134 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_36; 1135 break; 1136 case COLOR_DEPTH_161616: 1137 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_48; 1138 break; 1139 default: 1140 bp_pc_colour_depth = TRANSMITTER_COLOR_DEPTH_24; 1141 break; 1142 } 1143 bp_pc_params.color_depth = bp_pc_colour_depth; 1144 } 1145 1146 if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO) { 1147 bp_pc_params.flags.SET_GENLOCK_REF_DIV_SRC = 1148 pll_settings->use_external_clk; 1149 bp_pc_params.flags.SET_XTALIN_REF_SRC = 1150 !pll_settings->use_external_clk; 1151 if (pix_clk_params->flags.SUPPORT_YCBCR420) { 1152 bp_pc_params.flags.SUPPORT_YUV_420 = 1; 1153 } 1154 } 1155 if (clk_src->bios->funcs->set_pixel_clock( 1156 clk_src->bios, &bp_pc_params) != BP_RESULT_OK) 1157 return false; 1158 /* Resync deep color DTO */ 1159 if (clock_source->id != CLOCK_SOURCE_ID_DP_DTO) 1160 dce112_program_pixel_clk_resync(clk_src, 1161 pix_clk_params->signal_type, 1162 pix_clk_params->color_depth, 1163 pix_clk_params->flags.SUPPORT_YCBCR420); 1164 } 1165 1166 return true; 1167} 1168 1169static bool dce110_clock_source_power_down( 1170 struct clock_source *clk_src) 1171{ 1172 struct dce110_clk_src *dce110_clk_src = TO_DCE110_CLK_SRC(clk_src); 1173 enum bp_result bp_result; 1174 struct bp_pixel_clock_parameters bp_pixel_clock_params = {0}; 1175 1176 if (clk_src->dp_clk_src) 1177 return true; 1178 1179 /* If Pixel Clock is 0 it means Power Down Pll*/ 1180 bp_pixel_clock_params.controller_id = CONTROLLER_ID_UNDEFINED; 1181 bp_pixel_clock_params.pll_id = clk_src->id; 1182 bp_pixel_clock_params.flags.FORCE_PROGRAMMING_OF_PLL = 1; 1183 1184 /*Call ASICControl to process ATOMBIOS Exec table*/ 1185 bp_result = dce110_clk_src->bios->funcs->set_pixel_clock( 1186 dce110_clk_src->bios, 1187 &bp_pixel_clock_params); 1188 1189 return bp_result == BP_RESULT_OK; 1190} 1191 1192static bool get_pixel_clk_frequency_100hz( 1193 const struct clock_source *clock_source, 1194 unsigned int inst, 1195 unsigned int *pixel_clk_khz) 1196{ 1197 struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source); 1198 unsigned int clock_hz = 0; 1199 unsigned int modulo_hz = 0; 1200 unsigned int dp_dto_ref_khz = clock_source->ctx->dc->clk_mgr->dprefclk_khz; 1201 1202 if (clock_source->id == CLOCK_SOURCE_ID_DP_DTO) { 1203 clock_hz = REG_READ(PHASE[inst]); 1204 1205 if (clock_source->ctx->dc->hwss.enable_vblanks_synchronization && 1206 clock_source->ctx->dc->config.vblank_alignment_max_frame_time_diff > 0) { 1207 /* NOTE: In case VBLANK syncronization is enabled, MODULO may 1208 * not be programmed equal to DPREFCLK 1209 */ 1210 modulo_hz = REG_READ(MODULO[inst]); 1211 if (modulo_hz) 1212 *pixel_clk_khz = div_u64((uint64_t)clock_hz* 1213 dp_dto_ref_khz*10, 1214 modulo_hz); 1215 else 1216 *pixel_clk_khz = 0; 1217 } else { 1218 /* NOTE: There is agreement with VBIOS here that MODULO is 1219 * programmed equal to DPREFCLK, in which case PHASE will be 1220 * equivalent to pixel clock. 1221 */ 1222 *pixel_clk_khz = clock_hz / 100; 1223 } 1224 return true; 1225 } 1226 1227 return false; 1228} 1229 1230/* this table is use to find *1.001 and /1.001 pixel rates from non-precise pixel rate */ 1231const struct pixel_rate_range_table_entry video_optimized_pixel_rates[] = { 1232 // /1.001 rates 1233 {25170, 25180, 25200, 1000, 1001}, //25.2MHz -> 25.17 1234 {59340, 59350, 59400, 1000, 1001}, //59.4Mhz -> 59.340 1235 {74170, 74180, 74250, 1000, 1001}, //74.25Mhz -> 74.1758 1236 {89910, 90000, 90000, 1000, 1001}, //90Mhz -> 89.91 1237 {125870, 125880, 126000, 1000, 1001}, //126Mhz -> 125.87 1238 {148350, 148360, 148500, 1000, 1001}, //148.5Mhz -> 148.3516 1239 {167830, 167840, 168000, 1000, 1001}, //168Mhz -> 167.83 1240 {222520, 222530, 222750, 1000, 1001}, //222.75Mhz -> 222.527 1241 {257140, 257150, 257400, 1000, 1001}, //257.4Mhz -> 257.1429 1242 {296700, 296710, 297000, 1000, 1001}, //297Mhz -> 296.7033 1243 {342850, 342860, 343200, 1000, 1001}, //343.2Mhz -> 342.857 1244 {395600, 395610, 396000, 1000, 1001}, //396Mhz -> 395.6 1245 {409090, 409100, 409500, 1000, 1001}, //409.5Mhz -> 409.091 1246 {445050, 445060, 445500, 1000, 1001}, //445.5Mhz -> 445.055 1247 {467530, 467540, 468000, 1000, 1001}, //468Mhz -> 467.5325 1248 {519230, 519240, 519750, 1000, 1001}, //519.75Mhz -> 519.231 1249 {525970, 525980, 526500, 1000, 1001}, //526.5Mhz -> 525.974 1250 {545450, 545460, 546000, 1000, 1001}, //546Mhz -> 545.455 1251 {593400, 593410, 594000, 1000, 1001}, //594Mhz -> 593.4066 1252 {623370, 623380, 624000, 1000, 1001}, //624Mhz -> 623.377 1253 {692300, 692310, 693000, 1000, 1001}, //693Mhz -> 692.308 1254 {701290, 701300, 702000, 1000, 1001}, //702Mhz -> 701.2987 1255 {791200, 791210, 792000, 1000, 1001}, //792Mhz -> 791.209 1256 {890100, 890110, 891000, 1000, 1001}, //891Mhz -> 890.1099 1257 {1186810, 1186820, 1188000, 1000, 1001},//1188Mhz -> 1186.8131 1258 1259 // *1.001 rates 1260 {27020, 27030, 27000, 1001, 1000}, //27Mhz 1261 {54050, 54060, 54000, 1001, 1000}, //54Mhz 1262 {108100, 108110, 108000, 1001, 1000},//108Mhz 1263}; 1264 1265const struct pixel_rate_range_table_entry *look_up_in_video_optimized_rate_tlb( 1266 unsigned int pixel_rate_khz) 1267{ 1268 int i; 1269 1270 for (i = 0; i < NUM_ELEMENTS(video_optimized_pixel_rates); i++) { 1271 const struct pixel_rate_range_table_entry *e = &video_optimized_pixel_rates[i]; 1272 1273 if (e->range_min_khz <= pixel_rate_khz && pixel_rate_khz <= e->range_max_khz) { 1274 return e; 1275 } 1276 } 1277 1278 return NULL; 1279} 1280 1281static bool dcn20_program_pix_clk( 1282 struct clock_source *clock_source, 1283 struct pixel_clk_params *pix_clk_params, 1284 enum dp_link_encoding encoding, 1285 struct pll_settings *pll_settings) 1286{ 1287 struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source); 1288 unsigned int inst = pix_clk_params->controller_id - CONTROLLER_ID_D0; 1289 1290 dce112_program_pix_clk(clock_source, pix_clk_params, encoding, pll_settings); 1291 1292 if (clock_source->ctx->dc->hwss.enable_vblanks_synchronization && 1293 clock_source->ctx->dc->config.vblank_alignment_max_frame_time_diff > 0) { 1294 /* NOTE: In case VBLANK syncronization is enabled, 1295 * we need to set modulo to default DPREFCLK first 1296 * dce112_program_pix_clk does not set default DPREFCLK 1297 */ 1298 REG_WRITE(MODULO[inst], 1299 clock_source->ctx->dc->clk_mgr->dprefclk_khz*1000); 1300 } 1301 return true; 1302} 1303 1304static bool dcn20_override_dp_pix_clk( 1305 struct clock_source *clock_source, 1306 unsigned int inst, 1307 unsigned int pixel_clk, 1308 unsigned int ref_clk) 1309{ 1310 struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source); 1311 1312 REG_UPDATE(PIXEL_RATE_CNTL[inst], DP_DTO0_ENABLE, 0); 1313 REG_WRITE(PHASE[inst], pixel_clk); 1314 REG_WRITE(MODULO[inst], ref_clk); 1315 REG_UPDATE(PIXEL_RATE_CNTL[inst], DP_DTO0_ENABLE, 1); 1316 return true; 1317} 1318 1319static const struct clock_source_funcs dcn20_clk_src_funcs = { 1320 .cs_power_down = dce110_clock_source_power_down, 1321 .program_pix_clk = dcn20_program_pix_clk, 1322 .get_pix_clk_dividers = dce112_get_pix_clk_dividers, 1323 .get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz, 1324 .override_dp_pix_clk = dcn20_override_dp_pix_clk 1325}; 1326 1327static bool dcn3_program_pix_clk( 1328 struct clock_source *clock_source, 1329 struct pixel_clk_params *pix_clk_params, 1330 enum dp_link_encoding encoding, 1331 struct pll_settings *pll_settings) 1332{ 1333 struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(clock_source); 1334 unsigned int inst = pix_clk_params->controller_id - CONTROLLER_ID_D0; 1335 unsigned int dp_dto_ref_khz = clock_source->ctx->dc->clk_mgr->dprefclk_khz; 1336 const struct pixel_rate_range_table_entry *e = 1337 look_up_in_video_optimized_rate_tlb(pix_clk_params->requested_pix_clk_100hz / 10); 1338 1339 // For these signal types Driver to program DP_DTO without calling VBIOS Command table 1340 if (dc_is_dp_signal(pix_clk_params->signal_type)) { 1341 if (e) { 1342 /* Set DTO values: phase = target clock, modulo = reference clock*/ 1343 REG_WRITE(PHASE[inst], e->target_pixel_rate_khz * e->mult_factor); 1344 REG_WRITE(MODULO[inst], dp_dto_ref_khz * e->div_factor); 1345 } else { 1346 /* Set DTO values: phase = target clock, modulo = reference clock*/ 1347 REG_WRITE(PHASE[inst], pll_settings->actual_pix_clk_100hz * 100); 1348 REG_WRITE(MODULO[inst], dp_dto_ref_khz * 1000); 1349 } 1350 /* Enable DTO */ 1351 if (clk_src->cs_mask->PIPE0_DTO_SRC_SEL) 1352 REG_UPDATE_2(PIXEL_RATE_CNTL[inst], 1353 DP_DTO0_ENABLE, 1, 1354 PIPE0_DTO_SRC_SEL, 1); 1355 else 1356 REG_UPDATE(PIXEL_RATE_CNTL[inst], 1357 DP_DTO0_ENABLE, 1); 1358 } else 1359 // For other signal types(HDMI_TYPE_A, DVI) Driver still to call VBIOS Command table 1360 dce112_program_pix_clk(clock_source, pix_clk_params, encoding, pll_settings); 1361 1362 return true; 1363} 1364 1365static uint32_t dcn3_get_pix_clk_dividers( 1366 struct clock_source *cs, 1367 struct pixel_clk_params *pix_clk_params, 1368 struct pll_settings *pll_settings) 1369{ 1370 unsigned long long actual_pix_clk_100Hz = pix_clk_params ? pix_clk_params->requested_pix_clk_100hz : 0; 1371 struct dce110_clk_src *clk_src = TO_DCE110_CLK_SRC(cs); 1372 1373 DC_LOGGER_INIT(); 1374 1375 if (pix_clk_params == NULL || pll_settings == NULL 1376 || pix_clk_params->requested_pix_clk_100hz == 0) { 1377 DC_LOG_ERROR( 1378 "%s: Invalid parameters!!\n", __func__); 1379 return -1; 1380 } 1381 1382 memset(pll_settings, 0, sizeof(*pll_settings)); 1383 /* Adjust for HDMI Type A deep color */ 1384 if (pix_clk_params->signal_type == SIGNAL_TYPE_HDMI_TYPE_A) { 1385 switch (pix_clk_params->color_depth) { 1386 case COLOR_DEPTH_101010: 1387 actual_pix_clk_100Hz = (actual_pix_clk_100Hz * 5) >> 2; 1388 break; 1389 case COLOR_DEPTH_121212: 1390 actual_pix_clk_100Hz = (actual_pix_clk_100Hz * 6) >> 2; 1391 break; 1392 case COLOR_DEPTH_161616: 1393 actual_pix_clk_100Hz = actual_pix_clk_100Hz * 2; 1394 break; 1395 default: 1396 break; 1397 } 1398 } 1399 pll_settings->actual_pix_clk_100hz = (unsigned int) actual_pix_clk_100Hz; 1400 pll_settings->adjusted_pix_clk_100hz = (unsigned int) actual_pix_clk_100Hz; 1401 pll_settings->calculated_pix_clk_100hz = (unsigned int) actual_pix_clk_100Hz; 1402 1403 return 0; 1404} 1405 1406static const struct clock_source_funcs dcn3_clk_src_funcs = { 1407 .cs_power_down = dce110_clock_source_power_down, 1408 .program_pix_clk = dcn3_program_pix_clk, 1409 .get_pix_clk_dividers = dcn3_get_pix_clk_dividers, 1410 .get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz 1411}; 1412 1413static const struct clock_source_funcs dcn31_clk_src_funcs = { 1414 .cs_power_down = dce110_clock_source_power_down, 1415 .program_pix_clk = dcn31_program_pix_clk, 1416 .get_pix_clk_dividers = dcn3_get_pix_clk_dividers, 1417 .get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz 1418}; 1419 1420static const struct clock_source_funcs dcn401_clk_src_funcs = { 1421 .cs_power_down = dce110_clock_source_power_down, 1422 .program_pix_clk = dcn401_program_pix_clk, 1423 .get_pix_clk_dividers = dcn3_get_pix_clk_dividers, 1424 .get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz 1425}; 1426 1427/*****************************************/ 1428/* Constructor */ 1429/*****************************************/ 1430 1431static const struct clock_source_funcs dce112_clk_src_funcs = { 1432 .cs_power_down = dce110_clock_source_power_down, 1433 .program_pix_clk = dce112_program_pix_clk, 1434 .get_pix_clk_dividers = dce112_get_pix_clk_dividers, 1435 .get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz 1436}; 1437static const struct clock_source_funcs dce110_clk_src_funcs = { 1438 .cs_power_down = dce110_clock_source_power_down, 1439 .program_pix_clk = dce110_program_pix_clk, 1440 .get_pix_clk_dividers = dce110_get_pix_clk_dividers, 1441 .get_pixel_clk_frequency_100hz = get_pixel_clk_frequency_100hz 1442}; 1443 1444 1445static void get_ss_info_from_atombios( 1446 struct dce110_clk_src *clk_src, 1447 enum as_signal_type as_signal, 1448 struct spread_spectrum_data *spread_spectrum_data[], 1449 uint32_t *ss_entries_num) 1450{ 1451 enum bp_result bp_result = BP_RESULT_FAILURE; 1452 struct spread_spectrum_info *ss_info; 1453 struct spread_spectrum_data *ss_data; 1454 struct spread_spectrum_info *ss_info_cur; 1455 struct spread_spectrum_data *ss_data_cur; 1456 uint32_t i; 1457 DC_LOGGER_INIT(); 1458 if (ss_entries_num == NULL) { 1459 DC_LOG_SYNC( 1460 "Invalid entry !!!\n"); 1461 return; 1462 } 1463 if (spread_spectrum_data == NULL) { 1464 DC_LOG_SYNC( 1465 "Invalid array pointer!!!\n"); 1466 return; 1467 } 1468 1469 spread_spectrum_data[0] = NULL; 1470 *ss_entries_num = 0; 1471 1472 *ss_entries_num = clk_src->bios->funcs->get_ss_entry_number( 1473 clk_src->bios, 1474 as_signal); 1475 1476 if (*ss_entries_num == 0) 1477 return; 1478 1479 ss_info = kcalloc(*ss_entries_num, 1480 sizeof(struct spread_spectrum_info), 1481 GFP_KERNEL); 1482 ss_info_cur = ss_info; 1483 if (ss_info == NULL) 1484 return; 1485 1486 ss_data = kcalloc(*ss_entries_num, 1487 sizeof(struct spread_spectrum_data), 1488 GFP_KERNEL); 1489 if (ss_data == NULL) 1490 goto out_free_info; 1491 1492 for (i = 0, ss_info_cur = ss_info; 1493 i < (*ss_entries_num); 1494 ++i, ++ss_info_cur) { 1495 1496 bp_result = clk_src->bios->funcs->get_spread_spectrum_info( 1497 clk_src->bios, 1498 as_signal, 1499 i, 1500 ss_info_cur); 1501 1502 if (bp_result != BP_RESULT_OK) 1503 goto out_free_data; 1504 } 1505 1506 for (i = 0, ss_info_cur = ss_info, ss_data_cur = ss_data; 1507 i < (*ss_entries_num); 1508 ++i, ++ss_info_cur, ++ss_data_cur) { 1509 1510 if (ss_info_cur->type.STEP_AND_DELAY_INFO != false) { 1511 DC_LOG_SYNC( 1512 "Invalid ATOMBIOS SS Table!!!\n"); 1513 goto out_free_data; 1514 } 1515 1516 /* for HDMI check SS percentage, 1517 * if it is > 6 (0.06%), the ATOMBIOS table info is invalid*/ 1518 if (as_signal == AS_SIGNAL_TYPE_HDMI 1519 && ss_info_cur->spread_spectrum_percentage > 6){ 1520 /* invalid input, do nothing */ 1521 DC_LOG_SYNC( 1522 "Invalid SS percentage "); 1523 DC_LOG_SYNC( 1524 "for HDMI in ATOMBIOS info Table!!!\n"); 1525 continue; 1526 } 1527 if (ss_info_cur->spread_percentage_divider == 1000) { 1528 /* Keep previous precision from ATOMBIOS for these 1529 * in case new precision set by ATOMBIOS for these 1530 * (otherwise all code in DCE specific classes 1531 * for all previous ASICs would need 1532 * to be updated for SS calculations, 1533 * Audio SS compensation and DP DTO SS compensation 1534 * which assumes fixed SS percentage Divider = 100)*/ 1535 ss_info_cur->spread_spectrum_percentage /= 10; 1536 ss_info_cur->spread_percentage_divider = 100; 1537 } 1538 1539 ss_data_cur->freq_range_khz = ss_info_cur->target_clock_range; 1540 ss_data_cur->percentage = 1541 ss_info_cur->spread_spectrum_percentage; 1542 ss_data_cur->percentage_divider = 1543 ss_info_cur->spread_percentage_divider; 1544 ss_data_cur->modulation_freq_hz = 1545 ss_info_cur->spread_spectrum_range; 1546 1547 if (ss_info_cur->type.CENTER_MODE) 1548 ss_data_cur->flags.CENTER_SPREAD = 1; 1549 1550 if (ss_info_cur->type.EXTERNAL) 1551 ss_data_cur->flags.EXTERNAL_SS = 1; 1552 1553 } 1554 1555 *spread_spectrum_data = ss_data; 1556 kfree(ss_info); 1557 return; 1558 1559out_free_data: 1560 kfree(ss_data); 1561 *ss_entries_num = 0; 1562out_free_info: 1563 kfree(ss_info); 1564} 1565 1566static void ss_info_from_atombios_create( 1567 struct dce110_clk_src *clk_src) 1568{ 1569 get_ss_info_from_atombios( 1570 clk_src, 1571 AS_SIGNAL_TYPE_DISPLAY_PORT, 1572 &clk_src->dp_ss_params, 1573 &clk_src->dp_ss_params_cnt); 1574 get_ss_info_from_atombios( 1575 clk_src, 1576 AS_SIGNAL_TYPE_HDMI, 1577 &clk_src->hdmi_ss_params, 1578 &clk_src->hdmi_ss_params_cnt); 1579 get_ss_info_from_atombios( 1580 clk_src, 1581 AS_SIGNAL_TYPE_DVI, 1582 &clk_src->dvi_ss_params, 1583 &clk_src->dvi_ss_params_cnt); 1584 get_ss_info_from_atombios( 1585 clk_src, 1586 AS_SIGNAL_TYPE_LVDS, 1587 &clk_src->lvds_ss_params, 1588 &clk_src->lvds_ss_params_cnt); 1589} 1590 1591static bool calc_pll_max_vco_construct( 1592 struct calc_pll_clock_source *calc_pll_cs, 1593 struct calc_pll_clock_source_init_data *init_data) 1594{ 1595 uint32_t i; 1596 struct dc_firmware_info *fw_info; 1597 if (calc_pll_cs == NULL || 1598 init_data == NULL || 1599 init_data->bp == NULL) 1600 return false; 1601 1602 if (!init_data->bp->fw_info_valid) 1603 return false; 1604 1605 fw_info = &init_data->bp->fw_info; 1606 calc_pll_cs->ctx = init_data->ctx; 1607 calc_pll_cs->ref_freq_khz = fw_info->pll_info.crystal_frequency; 1608 calc_pll_cs->min_vco_khz = 1609 fw_info->pll_info.min_output_pxl_clk_pll_frequency; 1610 calc_pll_cs->max_vco_khz = 1611 fw_info->pll_info.max_output_pxl_clk_pll_frequency; 1612 1613 if (init_data->max_override_input_pxl_clk_pll_freq_khz != 0) 1614 calc_pll_cs->max_pll_input_freq_khz = 1615 init_data->max_override_input_pxl_clk_pll_freq_khz; 1616 else 1617 calc_pll_cs->max_pll_input_freq_khz = 1618 fw_info->pll_info.max_input_pxl_clk_pll_frequency; 1619 1620 if (init_data->min_override_input_pxl_clk_pll_freq_khz != 0) 1621 calc_pll_cs->min_pll_input_freq_khz = 1622 init_data->min_override_input_pxl_clk_pll_freq_khz; 1623 else 1624 calc_pll_cs->min_pll_input_freq_khz = 1625 fw_info->pll_info.min_input_pxl_clk_pll_frequency; 1626 1627 calc_pll_cs->min_pix_clock_pll_post_divider = 1628 init_data->min_pix_clk_pll_post_divider; 1629 calc_pll_cs->max_pix_clock_pll_post_divider = 1630 init_data->max_pix_clk_pll_post_divider; 1631 calc_pll_cs->min_pll_ref_divider = 1632 init_data->min_pll_ref_divider; 1633 calc_pll_cs->max_pll_ref_divider = 1634 init_data->max_pll_ref_divider; 1635 1636 if (init_data->num_fract_fb_divider_decimal_point == 0 || 1637 init_data->num_fract_fb_divider_decimal_point_precision > 1638 init_data->num_fract_fb_divider_decimal_point) { 1639 DC_LOG_ERROR( 1640 "The dec point num or precision is incorrect!"); 1641 return false; 1642 } 1643 if (init_data->num_fract_fb_divider_decimal_point_precision == 0) { 1644 DC_LOG_ERROR( 1645 "Incorrect fract feedback divider precision num!"); 1646 return false; 1647 } 1648 1649 calc_pll_cs->fract_fb_divider_decimal_points_num = 1650 init_data->num_fract_fb_divider_decimal_point; 1651 calc_pll_cs->fract_fb_divider_precision = 1652 init_data->num_fract_fb_divider_decimal_point_precision; 1653 calc_pll_cs->fract_fb_divider_factor = 1; 1654 for (i = 0; i < calc_pll_cs->fract_fb_divider_decimal_points_num; ++i) 1655 calc_pll_cs->fract_fb_divider_factor *= 10; 1656 1657 calc_pll_cs->fract_fb_divider_precision_factor = 1; 1658 for ( 1659 i = 0; 1660 i < (calc_pll_cs->fract_fb_divider_decimal_points_num - 1661 calc_pll_cs->fract_fb_divider_precision); 1662 ++i) 1663 calc_pll_cs->fract_fb_divider_precision_factor *= 10; 1664 1665 return true; 1666} 1667 1668bool dce110_clk_src_construct( 1669 struct dce110_clk_src *clk_src, 1670 struct dc_context *ctx, 1671 struct dc_bios *bios, 1672 enum clock_source_id id, 1673 const struct dce110_clk_src_regs *regs, 1674 const struct dce110_clk_src_shift *cs_shift, 1675 const struct dce110_clk_src_mask *cs_mask) 1676{ 1677 struct calc_pll_clock_source_init_data calc_pll_cs_init_data_hdmi; 1678 struct calc_pll_clock_source_init_data calc_pll_cs_init_data; 1679 1680 clk_src->base.ctx = ctx; 1681 clk_src->bios = bios; 1682 clk_src->base.id = id; 1683 clk_src->base.funcs = &dce110_clk_src_funcs; 1684 1685 clk_src->regs = regs; 1686 clk_src->cs_shift = cs_shift; 1687 clk_src->cs_mask = cs_mask; 1688 1689 if (!clk_src->bios->fw_info_valid) { 1690 ASSERT_CRITICAL(false); 1691 goto unexpected_failure; 1692 } 1693 1694 clk_src->ext_clk_khz = clk_src->bios->fw_info.external_clock_source_frequency_for_dp; 1695 1696 /* structure normally used with PLL ranges from ATOMBIOS; DS on by default */ 1697 calc_pll_cs_init_data.bp = bios; 1698 calc_pll_cs_init_data.min_pix_clk_pll_post_divider = 1; 1699 calc_pll_cs_init_data.max_pix_clk_pll_post_divider = 1700 clk_src->cs_mask->PLL_POST_DIV_PIXCLK; 1701 calc_pll_cs_init_data.min_pll_ref_divider = 1; 1702 calc_pll_cs_init_data.max_pll_ref_divider = clk_src->cs_mask->PLL_REF_DIV; 1703 /* when 0 use minInputPxlClkPLLFrequencyInKHz from firmwareInfo*/ 1704 calc_pll_cs_init_data.min_override_input_pxl_clk_pll_freq_khz = 0; 1705 /* when 0 use maxInputPxlClkPLLFrequencyInKHz from firmwareInfo*/ 1706 calc_pll_cs_init_data.max_override_input_pxl_clk_pll_freq_khz = 0; 1707 /*numberOfFractFBDividerDecimalPoints*/ 1708 calc_pll_cs_init_data.num_fract_fb_divider_decimal_point = 1709 FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM; 1710 /*number of decimal point to round off for fractional feedback divider value*/ 1711 calc_pll_cs_init_data.num_fract_fb_divider_decimal_point_precision = 1712 FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM; 1713 calc_pll_cs_init_data.ctx = ctx; 1714 1715 /*structure for HDMI, no SS or SS% <= 0.06% for 27 MHz Ref clock */ 1716 calc_pll_cs_init_data_hdmi.bp = bios; 1717 calc_pll_cs_init_data_hdmi.min_pix_clk_pll_post_divider = 1; 1718 calc_pll_cs_init_data_hdmi.max_pix_clk_pll_post_divider = 1719 clk_src->cs_mask->PLL_POST_DIV_PIXCLK; 1720 calc_pll_cs_init_data_hdmi.min_pll_ref_divider = 1; 1721 calc_pll_cs_init_data_hdmi.max_pll_ref_divider = clk_src->cs_mask->PLL_REF_DIV; 1722 /* when 0 use minInputPxlClkPLLFrequencyInKHz from firmwareInfo*/ 1723 calc_pll_cs_init_data_hdmi.min_override_input_pxl_clk_pll_freq_khz = 13500; 1724 /* when 0 use maxInputPxlClkPLLFrequencyInKHz from firmwareInfo*/ 1725 calc_pll_cs_init_data_hdmi.max_override_input_pxl_clk_pll_freq_khz = 27000; 1726 /*numberOfFractFBDividerDecimalPoints*/ 1727 calc_pll_cs_init_data_hdmi.num_fract_fb_divider_decimal_point = 1728 FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM; 1729 /*number of decimal point to round off for fractional feedback divider value*/ 1730 calc_pll_cs_init_data_hdmi.num_fract_fb_divider_decimal_point_precision = 1731 FRACT_FB_DIVIDER_DEC_POINTS_MAX_NUM; 1732 calc_pll_cs_init_data_hdmi.ctx = ctx; 1733 1734 clk_src->ref_freq_khz = clk_src->bios->fw_info.pll_info.crystal_frequency; 1735 1736 if (clk_src->base.id == CLOCK_SOURCE_ID_EXTERNAL) 1737 return true; 1738 1739 /* PLL only from here on */ 1740 ss_info_from_atombios_create(clk_src); 1741 1742 if (!calc_pll_max_vco_construct( 1743 &clk_src->calc_pll, 1744 &calc_pll_cs_init_data)) { 1745 ASSERT_CRITICAL(false); 1746 goto unexpected_failure; 1747 } 1748 1749 1750 calc_pll_cs_init_data_hdmi. 1751 min_override_input_pxl_clk_pll_freq_khz = clk_src->ref_freq_khz/2; 1752 calc_pll_cs_init_data_hdmi. 1753 max_override_input_pxl_clk_pll_freq_khz = clk_src->ref_freq_khz; 1754 1755 1756 if (!calc_pll_max_vco_construct( 1757 &clk_src->calc_pll_hdmi, &calc_pll_cs_init_data_hdmi)) { 1758 ASSERT_CRITICAL(false); 1759 goto unexpected_failure; 1760 } 1761 1762 return true; 1763 1764unexpected_failure: 1765 return false; 1766} 1767 1768bool dce112_clk_src_construct( 1769 struct dce110_clk_src *clk_src, 1770 struct dc_context *ctx, 1771 struct dc_bios *bios, 1772 enum clock_source_id id, 1773 const struct dce110_clk_src_regs *regs, 1774 const struct dce110_clk_src_shift *cs_shift, 1775 const struct dce110_clk_src_mask *cs_mask) 1776{ 1777 clk_src->base.ctx = ctx; 1778 clk_src->bios = bios; 1779 clk_src->base.id = id; 1780 clk_src->base.funcs = &dce112_clk_src_funcs; 1781 1782 clk_src->regs = regs; 1783 clk_src->cs_shift = cs_shift; 1784 clk_src->cs_mask = cs_mask; 1785 1786 if (!clk_src->bios->fw_info_valid) { 1787 ASSERT_CRITICAL(false); 1788 return false; 1789 } 1790 1791 clk_src->ext_clk_khz = clk_src->bios->fw_info.external_clock_source_frequency_for_dp; 1792 1793 return true; 1794} 1795 1796bool dcn20_clk_src_construct( 1797 struct dce110_clk_src *clk_src, 1798 struct dc_context *ctx, 1799 struct dc_bios *bios, 1800 enum clock_source_id id, 1801 const struct dce110_clk_src_regs *regs, 1802 const struct dce110_clk_src_shift *cs_shift, 1803 const struct dce110_clk_src_mask *cs_mask) 1804{ 1805 bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask); 1806 1807 clk_src->base.funcs = &dcn20_clk_src_funcs; 1808 1809 return ret; 1810} 1811 1812bool dcn3_clk_src_construct( 1813 struct dce110_clk_src *clk_src, 1814 struct dc_context *ctx, 1815 struct dc_bios *bios, 1816 enum clock_source_id id, 1817 const struct dce110_clk_src_regs *regs, 1818 const struct dce110_clk_src_shift *cs_shift, 1819 const struct dce110_clk_src_mask *cs_mask) 1820{ 1821 bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask); 1822 1823 clk_src->base.funcs = &dcn3_clk_src_funcs; 1824 1825 return ret; 1826} 1827 1828bool dcn31_clk_src_construct( 1829 struct dce110_clk_src *clk_src, 1830 struct dc_context *ctx, 1831 struct dc_bios *bios, 1832 enum clock_source_id id, 1833 const struct dce110_clk_src_regs *regs, 1834 const struct dce110_clk_src_shift *cs_shift, 1835 const struct dce110_clk_src_mask *cs_mask) 1836{ 1837 bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask); 1838 1839 clk_src->base.funcs = &dcn31_clk_src_funcs; 1840 1841 return ret; 1842} 1843 1844bool dcn401_clk_src_construct( 1845 struct dce110_clk_src *clk_src, 1846 struct dc_context *ctx, 1847 struct dc_bios *bios, 1848 enum clock_source_id id, 1849 const struct dce110_clk_src_regs *regs, 1850 const struct dce110_clk_src_shift *cs_shift, 1851 const struct dce110_clk_src_mask *cs_mask) 1852{ 1853 bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask); 1854 1855 clk_src->base.funcs = &dcn401_clk_src_funcs; 1856 1857 return ret; 1858} 1859bool dcn301_clk_src_construct( 1860 struct dce110_clk_src *clk_src, 1861 struct dc_context *ctx, 1862 struct dc_bios *bios, 1863 enum clock_source_id id, 1864 const struct dce110_clk_src_regs *regs, 1865 const struct dce110_clk_src_shift *cs_shift, 1866 const struct dce110_clk_src_mask *cs_mask) 1867{ 1868 bool ret = dce112_clk_src_construct(clk_src, ctx, bios, id, regs, cs_shift, cs_mask); 1869 1870 clk_src->base.funcs = &dcn3_clk_src_funcs; 1871 1872 return ret; 1873}