xref: /linux/drivers/gpu/drm/amd/display/dc/dce/dce_dmcu.c (revision dec1c62e91ba268ab2a6e339d4d7a59287d5eba1)
1 /*
2  * Copyright 2012-16 Advanced Micro Devices, Inc.
3  *
4  * Permission is hereby granted, free of charge, to any person obtaining a
5  * copy of this software and associated documentation files (the "Software"),
6  * to deal in the Software without restriction, including without limitation
7  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8  * and/or sell copies of the Software, and to permit persons to whom the
9  * Software is furnished to do so, subject to the following conditions:
10  *
11  * The above copyright notice and this permission notice shall be included in
12  * all copies or substantial portions of the Software.
13  *
14  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
17  * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
18  * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
19  * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
20  * OTHER DEALINGS IN THE SOFTWARE.
21  *
22  * Authors: AMD
23  *
24  */
25 
26 #include <linux/delay.h>
27 #include <linux/slab.h>
28 
29 #include "core_types.h"
30 #include "link_encoder.h"
31 #include "dce_dmcu.h"
32 #include "dm_services.h"
33 #include "reg_helper.h"
34 #include "fixed31_32.h"
35 #include "dc.h"
36 
37 #define TO_DCE_DMCU(dmcu)\
38 	container_of(dmcu, struct dce_dmcu, base)
39 
40 #define REG(reg) \
41 	(dmcu_dce->regs->reg)
42 
43 #undef FN
44 #define FN(reg_name, field_name) \
45 	dmcu_dce->dmcu_shift->field_name, dmcu_dce->dmcu_mask->field_name
46 
47 #define CTX \
48 	dmcu_dce->base.ctx
49 
50 /* PSR related commands */
51 #define PSR_ENABLE 0x20
52 #define PSR_EXIT 0x21
53 #define PSR_SET 0x23
54 #define PSR_SET_WAITLOOP 0x31
55 #define MCP_INIT_DMCU 0x88
56 #define MCP_INIT_IRAM 0x89
57 #define MCP_SYNC_PHY_LOCK 0x90
58 #define MCP_SYNC_PHY_UNLOCK 0x91
59 #define MCP_BL_SET_PWM_FRAC 0x6A  /* Enable or disable Fractional PWM */
60 #define CRC_WIN_NOTIFY 0x92
61 #define CRC_STOP_UPDATE 0x93
62 #define MCP_SEND_EDID_CEA 0xA0
63 #define EDID_CEA_CMD_ACK 1
64 #define EDID_CEA_CMD_NACK 2
65 #define MASTER_COMM_CNTL_REG__MASTER_COMM_INTERRUPT_MASK   0x00000001L
66 
67 // PSP FW version
68 #define mmMP0_SMN_C2PMSG_58				0x1607A
69 
70 //Register access policy version
71 #define mmMP0_SMN_C2PMSG_91				0x1609B
72 
73 static const uint32_t abm_gain_stepsize = 0x0060;
74 
75 static bool dce_dmcu_init(struct dmcu *dmcu)
76 {
77 	// Do nothing
78 	return true;
79 }
80 
81 static bool dce_dmcu_load_iram(struct dmcu *dmcu,
82 		unsigned int start_offset,
83 		const char *src,
84 		unsigned int bytes)
85 {
86 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
87 	unsigned int count = 0;
88 
89 	/* Enable write access to IRAM */
90 	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
91 			IRAM_HOST_ACCESS_EN, 1,
92 			IRAM_WR_ADDR_AUTO_INC, 1);
93 
94 	REG_WAIT(DCI_MEM_PWR_STATUS, DMCU_IRAM_MEM_PWR_STATE, 0, 2, 10);
95 
96 	REG_WRITE(DMCU_IRAM_WR_CTRL, start_offset);
97 
98 	for (count = 0; count < bytes; count++)
99 		REG_WRITE(DMCU_IRAM_WR_DATA, src[count]);
100 
101 	/* Disable write access to IRAM to allow dynamic sleep state */
102 	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
103 			IRAM_HOST_ACCESS_EN, 0,
104 			IRAM_WR_ADDR_AUTO_INC, 0);
105 
106 	return true;
107 }
108 
109 static void dce_get_dmcu_psr_state(struct dmcu *dmcu, enum dc_psr_state *state)
110 {
111 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
112 
113 	uint32_t psr_state_offset = 0xf0;
114 
115 	/* Enable write access to IRAM */
116 	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, 1);
117 
118 	REG_WAIT(DCI_MEM_PWR_STATUS, DMCU_IRAM_MEM_PWR_STATE, 0, 2, 10);
119 
120 	/* Write address to IRAM_RD_ADDR in DMCU_IRAM_RD_CTRL */
121 	REG_WRITE(DMCU_IRAM_RD_CTRL, psr_state_offset);
122 
123 	/* Read data from IRAM_RD_DATA in DMCU_IRAM_RD_DATA*/
124 	*state = (enum dc_psr_state)REG_READ(DMCU_IRAM_RD_DATA);
125 
126 	/* Disable write access to IRAM after finished using IRAM
127 	 * in order to allow dynamic sleep state
128 	 */
129 	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, 0);
130 }
131 
132 static void dce_dmcu_set_psr_enable(struct dmcu *dmcu, bool enable, bool wait)
133 {
134 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
135 	unsigned int dmcu_max_retry_on_wait_reg_ready = 801;
136 	unsigned int dmcu_wait_reg_ready_interval = 100;
137 
138 	unsigned int retryCount;
139 	enum dc_psr_state state = PSR_STATE0;
140 
141 	/* waitDMCUReadyForCmd */
142 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0,
143 				dmcu_wait_reg_ready_interval,
144 				dmcu_max_retry_on_wait_reg_ready);
145 
146 	/* setDMCUParam_Cmd */
147 	if (enable)
148 		REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
149 				PSR_ENABLE);
150 	else
151 		REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
152 				PSR_EXIT);
153 
154 	/* notifyDMCUMsg */
155 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
156 	if (wait == true) {
157 		for (retryCount = 0; retryCount <= 100; retryCount++) {
158 			dce_get_dmcu_psr_state(dmcu, &state);
159 			if (enable) {
160 				if (state != PSR_STATE0)
161 					break;
162 			} else {
163 				if (state == PSR_STATE0)
164 					break;
165 			}
166 			udelay(10);
167 		}
168 	}
169 }
170 
171 static bool dce_dmcu_setup_psr(struct dmcu *dmcu,
172 		struct dc_link *link,
173 		struct psr_context *psr_context)
174 {
175 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
176 
177 	unsigned int dmcu_max_retry_on_wait_reg_ready = 801;
178 	unsigned int dmcu_wait_reg_ready_interval = 100;
179 
180 	union dce_dmcu_psr_config_data_reg1 masterCmdData1;
181 	union dce_dmcu_psr_config_data_reg2 masterCmdData2;
182 	union dce_dmcu_psr_config_data_reg3 masterCmdData3;
183 
184 	link->link_enc->funcs->psr_program_dp_dphy_fast_training(link->link_enc,
185 			psr_context->psrExitLinkTrainingRequired);
186 
187 	/* Enable static screen interrupts for PSR supported display */
188 	/* Disable the interrupt coming from other displays. */
189 	REG_UPDATE_4(DMCU_INTERRUPT_TO_UC_EN_MASK,
190 			STATIC_SCREEN1_INT_TO_UC_EN, 0,
191 			STATIC_SCREEN2_INT_TO_UC_EN, 0,
192 			STATIC_SCREEN3_INT_TO_UC_EN, 0,
193 			STATIC_SCREEN4_INT_TO_UC_EN, 0);
194 
195 	switch (psr_context->controllerId) {
196 	/* Driver uses case 1 for unconfigured */
197 	case 1:
198 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
199 				STATIC_SCREEN1_INT_TO_UC_EN, 1);
200 		break;
201 	case 2:
202 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
203 				STATIC_SCREEN2_INT_TO_UC_EN, 1);
204 		break;
205 	case 3:
206 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
207 				STATIC_SCREEN3_INT_TO_UC_EN, 1);
208 		break;
209 	case 4:
210 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
211 				STATIC_SCREEN4_INT_TO_UC_EN, 1);
212 		break;
213 	case 5:
214 		/* CZ/NL only has 4 CRTC!!
215 		 * really valid.
216 		 * There is no interrupt enable mask for these instances.
217 		 */
218 		break;
219 	case 6:
220 		/* CZ/NL only has 4 CRTC!!
221 		 * These are here because they are defined in HW regspec,
222 		 * but not really valid. There is no interrupt enable mask
223 		 * for these instances.
224 		 */
225 		break;
226 	default:
227 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
228 				STATIC_SCREEN1_INT_TO_UC_EN, 1);
229 		break;
230 	}
231 
232 	link->link_enc->funcs->psr_program_secondary_packet(link->link_enc,
233 			psr_context->sdpTransmitLineNumDeadline);
234 
235 	/* waitDMCUReadyForCmd */
236 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0,
237 					dmcu_wait_reg_ready_interval,
238 					dmcu_max_retry_on_wait_reg_ready);
239 
240 	/* setDMCUParam_PSRHostConfigData */
241 	masterCmdData1.u32All = 0;
242 	masterCmdData1.bits.timehyst_frames = psr_context->timehyst_frames;
243 	masterCmdData1.bits.hyst_lines = psr_context->hyst_lines;
244 	masterCmdData1.bits.rfb_update_auto_en =
245 			psr_context->rfb_update_auto_en;
246 	masterCmdData1.bits.dp_port_num = psr_context->transmitterId;
247 	masterCmdData1.bits.dcp_sel = psr_context->controllerId;
248 	masterCmdData1.bits.phy_type  = psr_context->phyType;
249 	masterCmdData1.bits.frame_cap_ind =
250 			psr_context->psrFrameCaptureIndicationReq;
251 	masterCmdData1.bits.aux_chan = psr_context->channel;
252 	masterCmdData1.bits.aux_repeat = psr_context->aux_repeats;
253 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
254 					masterCmdData1.u32All);
255 
256 	masterCmdData2.u32All = 0;
257 	masterCmdData2.bits.dig_fe = psr_context->engineId;
258 	masterCmdData2.bits.dig_be = psr_context->transmitterId;
259 	masterCmdData2.bits.skip_wait_for_pll_lock =
260 			psr_context->skipPsrWaitForPllLock;
261 	masterCmdData2.bits.frame_delay = psr_context->frame_delay;
262 	masterCmdData2.bits.smu_phy_id = psr_context->smuPhyId;
263 	masterCmdData2.bits.num_of_controllers =
264 			psr_context->numberOfControllers;
265 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG2),
266 			masterCmdData2.u32All);
267 
268 	masterCmdData3.u32All = 0;
269 	masterCmdData3.bits.psr_level = psr_context->psr_level.u32all;
270 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG3),
271 			masterCmdData3.u32All);
272 
273 	/* setDMCUParam_Cmd */
274 	REG_UPDATE(MASTER_COMM_CMD_REG,
275 			MASTER_COMM_CMD_REG_BYTE0, PSR_SET);
276 
277 	/* notifyDMCUMsg */
278 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
279 
280 	return true;
281 }
282 
283 static bool dce_is_dmcu_initialized(struct dmcu *dmcu)
284 {
285 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
286 	unsigned int dmcu_uc_reset;
287 
288 	/* microcontroller is not running */
289 	REG_GET(DMCU_STATUS, UC_IN_RESET, &dmcu_uc_reset);
290 
291 	/* DMCU is not running */
292 	if (dmcu_uc_reset)
293 		return false;
294 
295 	return true;
296 }
297 
298 static void dce_psr_wait_loop(
299 	struct dmcu *dmcu,
300 	unsigned int wait_loop_number)
301 {
302 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
303 	union dce_dmcu_psr_config_data_wait_loop_reg1 masterCmdData1;
304 
305 	if (dmcu->cached_wait_loop_number == wait_loop_number)
306 		return;
307 
308 	/* DMCU is not running */
309 	if (!dce_is_dmcu_initialized(dmcu))
310 		return;
311 
312 	/* waitDMCUReadyForCmd */
313 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
314 
315 	masterCmdData1.u32 = 0;
316 	masterCmdData1.bits.wait_loop = wait_loop_number;
317 	dmcu->cached_wait_loop_number = wait_loop_number;
318 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1), masterCmdData1.u32);
319 
320 	/* setDMCUParam_Cmd */
321 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, PSR_SET_WAITLOOP);
322 
323 	/* notifyDMCUMsg */
324 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
325 }
326 
327 static void dce_get_psr_wait_loop(
328 		struct dmcu *dmcu, unsigned int *psr_wait_loop_number)
329 {
330 	*psr_wait_loop_number = dmcu->cached_wait_loop_number;
331 	return;
332 }
333 
334 static void dcn10_get_dmcu_version(struct dmcu *dmcu)
335 {
336 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
337 	uint32_t dmcu_version_offset = 0xf1;
338 
339 	/* Enable write access to IRAM */
340 	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
341 			IRAM_HOST_ACCESS_EN, 1,
342 			IRAM_RD_ADDR_AUTO_INC, 1);
343 
344 	REG_WAIT(DMU_MEM_PWR_CNTL, DMCU_IRAM_MEM_PWR_STATE, 0, 2, 10);
345 
346 	/* Write address to IRAM_RD_ADDR and read from DATA register */
347 	REG_WRITE(DMCU_IRAM_RD_CTRL, dmcu_version_offset);
348 	dmcu->dmcu_version.interface_version = REG_READ(DMCU_IRAM_RD_DATA);
349 	dmcu->dmcu_version.abm_version = REG_READ(DMCU_IRAM_RD_DATA);
350 	dmcu->dmcu_version.psr_version = REG_READ(DMCU_IRAM_RD_DATA);
351 	dmcu->dmcu_version.build_version = ((REG_READ(DMCU_IRAM_RD_DATA) << 8) |
352 						REG_READ(DMCU_IRAM_RD_DATA));
353 
354 	/* Disable write access to IRAM to allow dynamic sleep state */
355 	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
356 			IRAM_HOST_ACCESS_EN, 0,
357 			IRAM_RD_ADDR_AUTO_INC, 0);
358 }
359 
360 static void dcn10_dmcu_enable_fractional_pwm(struct dmcu *dmcu,
361 		uint32_t fractional_pwm)
362 {
363 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
364 
365 	/* Wait until microcontroller is ready to process interrupt */
366 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 100, 800);
367 
368 	/* Set PWM fractional enable/disable */
369 	REG_WRITE(MASTER_COMM_DATA_REG1, fractional_pwm);
370 
371 	/* Set command to enable or disable fractional PWM microcontroller */
372 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
373 			MCP_BL_SET_PWM_FRAC);
374 
375 	/* Notify microcontroller of new command */
376 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
377 
378 	/* Ensure command has been executed before continuing */
379 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 100, 800);
380 }
381 
382 static bool dcn10_dmcu_init(struct dmcu *dmcu)
383 {
384 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
385 	const struct dc_config *config = &dmcu->ctx->dc->config;
386 	bool status = false;
387 	struct dc_context *ctx = dmcu->ctx;
388 	unsigned int i;
389 	//  5 4 3 2 1 0
390 	//  F E D C B A - bit 0 is A, bit 5 is F
391 	unsigned int tx_interrupt_mask = 0;
392 
393 	PERF_TRACE();
394 	/*  Definition of DC_DMCU_SCRATCH
395 	 *  0 : firmare not loaded
396 	 *  1 : PSP load DMCU FW but not initialized
397 	 *  2 : Firmware already initialized
398 	 */
399 	dmcu->dmcu_state = REG_READ(DC_DMCU_SCRATCH);
400 
401 	for (i = 0; i < ctx->dc->link_count; i++) {
402 		if (ctx->dc->links[i]->link_enc->features.flags.bits.DP_IS_USB_C) {
403 			if (ctx->dc->links[i]->link_enc->transmitter >= TRANSMITTER_UNIPHY_A &&
404 					ctx->dc->links[i]->link_enc->transmitter <= TRANSMITTER_UNIPHY_F) {
405 				tx_interrupt_mask |= 1 << ctx->dc->links[i]->link_enc->transmitter;
406 			}
407 		}
408 	}
409 
410 	switch (dmcu->dmcu_state) {
411 	case DMCU_UNLOADED:
412 		status = false;
413 		break;
414 	case DMCU_LOADED_UNINITIALIZED:
415 		/* Wait until microcontroller is ready to process interrupt */
416 		REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 100, 800);
417 
418 		/* Set initialized ramping boundary value */
419 		REG_WRITE(MASTER_COMM_DATA_REG1, 0xFFFF);
420 
421 		/* Set backlight ramping stepsize */
422 		REG_WRITE(MASTER_COMM_DATA_REG2, abm_gain_stepsize);
423 
424 		REG_WRITE(MASTER_COMM_DATA_REG3, tx_interrupt_mask);
425 
426 		/* Set command to initialize microcontroller */
427 		REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
428 			MCP_INIT_DMCU);
429 
430 		/* Notify microcontroller of new command */
431 		REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
432 
433 		/* Ensure command has been executed before continuing */
434 		REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 100, 800);
435 
436 		// Check state is initialized
437 		dmcu->dmcu_state = REG_READ(DC_DMCU_SCRATCH);
438 
439 		// If microcontroller is not in running state, fail
440 		if (dmcu->dmcu_state == DMCU_RUNNING) {
441 			/* Retrieve and cache the DMCU firmware version. */
442 			dcn10_get_dmcu_version(dmcu);
443 
444 			/* Initialize DMCU to use fractional PWM or not */
445 			dcn10_dmcu_enable_fractional_pwm(dmcu,
446 				(config->disable_fractional_pwm == false) ? 1 : 0);
447 			status = true;
448 		} else {
449 			status = false;
450 		}
451 
452 		break;
453 	case DMCU_RUNNING:
454 		status = true;
455 		break;
456 	default:
457 		status = false;
458 		break;
459 	}
460 
461 	PERF_TRACE();
462 	return status;
463 }
464 
465 static bool dcn21_dmcu_init(struct dmcu *dmcu)
466 {
467 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
468 	uint32_t dmcub_psp_version = REG_READ(DMCUB_SCRATCH15);
469 
470 	if (dmcu->auto_load_dmcu && dmcub_psp_version == 0) {
471 		return false;
472 	}
473 
474 	return dcn10_dmcu_init(dmcu);
475 }
476 
477 static bool dcn10_dmcu_load_iram(struct dmcu *dmcu,
478 		unsigned int start_offset,
479 		const char *src,
480 		unsigned int bytes)
481 {
482 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
483 	unsigned int count = 0;
484 
485 	/* If microcontroller is not running, do nothing */
486 	if (dmcu->dmcu_state != DMCU_RUNNING)
487 		return false;
488 
489 	/* Enable write access to IRAM */
490 	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
491 			IRAM_HOST_ACCESS_EN, 1,
492 			IRAM_WR_ADDR_AUTO_INC, 1);
493 
494 	REG_WAIT(DMU_MEM_PWR_CNTL, DMCU_IRAM_MEM_PWR_STATE, 0, 2, 10);
495 
496 	REG_WRITE(DMCU_IRAM_WR_CTRL, start_offset);
497 
498 	for (count = 0; count < bytes; count++)
499 		REG_WRITE(DMCU_IRAM_WR_DATA, src[count]);
500 
501 	/* Disable write access to IRAM to allow dynamic sleep state */
502 	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
503 			IRAM_HOST_ACCESS_EN, 0,
504 			IRAM_WR_ADDR_AUTO_INC, 0);
505 
506 	/* Wait until microcontroller is ready to process interrupt */
507 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 100, 800);
508 
509 	/* Set command to signal IRAM is loaded and to initialize IRAM */
510 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
511 			MCP_INIT_IRAM);
512 
513 	/* Notify microcontroller of new command */
514 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
515 
516 	/* Ensure command has been executed before continuing */
517 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 100, 800);
518 
519 	return true;
520 }
521 
522 static void dcn10_get_dmcu_psr_state(struct dmcu *dmcu, enum dc_psr_state *state)
523 {
524 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
525 
526 	uint32_t psr_state_offset = 0xf0;
527 
528 	/* If microcontroller is not running, do nothing */
529 	if (dmcu->dmcu_state != DMCU_RUNNING)
530 		return;
531 
532 	/* Enable write access to IRAM */
533 	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, 1);
534 
535 	REG_WAIT(DMU_MEM_PWR_CNTL, DMCU_IRAM_MEM_PWR_STATE, 0, 2, 10);
536 
537 	/* Write address to IRAM_RD_ADDR in DMCU_IRAM_RD_CTRL */
538 	REG_WRITE(DMCU_IRAM_RD_CTRL, psr_state_offset);
539 
540 	/* Read data from IRAM_RD_DATA in DMCU_IRAM_RD_DATA*/
541 	*state = (enum dc_psr_state)REG_READ(DMCU_IRAM_RD_DATA);
542 
543 	/* Disable write access to IRAM after finished using IRAM
544 	 * in order to allow dynamic sleep state
545 	 */
546 	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, 0);
547 }
548 
549 static void dcn10_dmcu_set_psr_enable(struct dmcu *dmcu, bool enable, bool wait)
550 {
551 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
552 	unsigned int dmcu_max_retry_on_wait_reg_ready = 801;
553 	unsigned int dmcu_wait_reg_ready_interval = 100;
554 
555 	unsigned int retryCount;
556 	enum dc_psr_state state = PSR_STATE0;
557 
558 	/* If microcontroller is not running, do nothing */
559 	if (dmcu->dmcu_state != DMCU_RUNNING)
560 		return;
561 
562 	/* waitDMCUReadyForCmd */
563 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0,
564 				dmcu_wait_reg_ready_interval,
565 				dmcu_max_retry_on_wait_reg_ready);
566 
567 	/* setDMCUParam_Cmd */
568 	if (enable)
569 		REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
570 				PSR_ENABLE);
571 	else
572 		REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
573 				PSR_EXIT);
574 
575 	/* notifyDMCUMsg */
576 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
577 
578 	/* Below loops 1000 x 500us = 500 ms.
579 	 *  Exit PSR may need to wait 1-2 frames to power up. Timeout after at
580 	 *  least a few frames. Should never hit the max retry assert below.
581 	 */
582 	if (wait == true) {
583 		for (retryCount = 0; retryCount <= 1000; retryCount++) {
584 			dcn10_get_dmcu_psr_state(dmcu, &state);
585 			if (enable) {
586 				if (state != PSR_STATE0)
587 					break;
588 			} else {
589 				if (state == PSR_STATE0)
590 					break;
591 			}
592 			udelay(500);
593 		}
594 
595 		/* assert if max retry hit */
596 		if (retryCount >= 1000)
597 			ASSERT(0);
598 	}
599 }
600 
601 static bool dcn10_dmcu_setup_psr(struct dmcu *dmcu,
602 		struct dc_link *link,
603 		struct psr_context *psr_context)
604 {
605 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
606 
607 	unsigned int dmcu_max_retry_on_wait_reg_ready = 801;
608 	unsigned int dmcu_wait_reg_ready_interval = 100;
609 
610 	union dce_dmcu_psr_config_data_reg1 masterCmdData1;
611 	union dce_dmcu_psr_config_data_reg2 masterCmdData2;
612 	union dce_dmcu_psr_config_data_reg3 masterCmdData3;
613 
614 	/* If microcontroller is not running, do nothing */
615 	if (dmcu->dmcu_state != DMCU_RUNNING)
616 		return false;
617 
618 	link->link_enc->funcs->psr_program_dp_dphy_fast_training(link->link_enc,
619 			psr_context->psrExitLinkTrainingRequired);
620 
621 	/* Enable static screen interrupts for PSR supported display */
622 	/* Disable the interrupt coming from other displays. */
623 	REG_UPDATE_4(DMCU_INTERRUPT_TO_UC_EN_MASK,
624 			STATIC_SCREEN1_INT_TO_UC_EN, 0,
625 			STATIC_SCREEN2_INT_TO_UC_EN, 0,
626 			STATIC_SCREEN3_INT_TO_UC_EN, 0,
627 			STATIC_SCREEN4_INT_TO_UC_EN, 0);
628 
629 	switch (psr_context->controllerId) {
630 	/* Driver uses case 1 for unconfigured */
631 	case 1:
632 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
633 				STATIC_SCREEN1_INT_TO_UC_EN, 1);
634 		break;
635 	case 2:
636 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
637 				STATIC_SCREEN2_INT_TO_UC_EN, 1);
638 		break;
639 	case 3:
640 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
641 				STATIC_SCREEN3_INT_TO_UC_EN, 1);
642 		break;
643 	case 4:
644 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
645 				STATIC_SCREEN4_INT_TO_UC_EN, 1);
646 		break;
647 	case 5:
648 		/* CZ/NL only has 4 CRTC!!
649 		 * really valid.
650 		 * There is no interrupt enable mask for these instances.
651 		 */
652 		break;
653 	case 6:
654 		/* CZ/NL only has 4 CRTC!!
655 		 * These are here because they are defined in HW regspec,
656 		 * but not really valid. There is no interrupt enable mask
657 		 * for these instances.
658 		 */
659 		break;
660 	default:
661 		REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
662 				STATIC_SCREEN1_INT_TO_UC_EN, 1);
663 		break;
664 	}
665 
666 	link->link_enc->funcs->psr_program_secondary_packet(link->link_enc,
667 			psr_context->sdpTransmitLineNumDeadline);
668 
669 	if (psr_context->allow_smu_optimizations)
670 		REG_UPDATE(SMU_INTERRUPT_CONTROL, DC_SMU_INT_ENABLE, 1);
671 
672 	/* waitDMCUReadyForCmd */
673 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0,
674 			dmcu_wait_reg_ready_interval,
675 			dmcu_max_retry_on_wait_reg_ready);
676 
677 	/* setDMCUParam_PSRHostConfigData */
678 	masterCmdData1.u32All = 0;
679 	masterCmdData1.bits.timehyst_frames = psr_context->timehyst_frames;
680 	masterCmdData1.bits.hyst_lines = psr_context->hyst_lines;
681 	masterCmdData1.bits.rfb_update_auto_en =
682 			psr_context->rfb_update_auto_en;
683 	masterCmdData1.bits.dp_port_num = psr_context->transmitterId;
684 	masterCmdData1.bits.dcp_sel = psr_context->controllerId;
685 	masterCmdData1.bits.phy_type  = psr_context->phyType;
686 	masterCmdData1.bits.frame_cap_ind =
687 			psr_context->psrFrameCaptureIndicationReq;
688 	masterCmdData1.bits.aux_chan = psr_context->channel;
689 	masterCmdData1.bits.aux_repeat = psr_context->aux_repeats;
690 	masterCmdData1.bits.allow_smu_optimizations = psr_context->allow_smu_optimizations;
691 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
692 					masterCmdData1.u32All);
693 
694 	masterCmdData2.u32All = 0;
695 	masterCmdData2.bits.dig_fe = psr_context->engineId;
696 	masterCmdData2.bits.dig_be = psr_context->transmitterId;
697 	masterCmdData2.bits.skip_wait_for_pll_lock =
698 			psr_context->skipPsrWaitForPllLock;
699 	masterCmdData2.bits.frame_delay = psr_context->frame_delay;
700 	masterCmdData2.bits.smu_phy_id = psr_context->smuPhyId;
701 	masterCmdData2.bits.num_of_controllers =
702 			psr_context->numberOfControllers;
703 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG2),
704 			masterCmdData2.u32All);
705 
706 	masterCmdData3.u32All = 0;
707 	masterCmdData3.bits.psr_level = psr_context->psr_level.u32all;
708 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG3),
709 			masterCmdData3.u32All);
710 
711 
712 	/* setDMCUParam_Cmd */
713 	REG_UPDATE(MASTER_COMM_CMD_REG,
714 			MASTER_COMM_CMD_REG_BYTE0, PSR_SET);
715 
716 	/* notifyDMCUMsg */
717 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
718 
719 	/* waitDMCUReadyForCmd */
720 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
721 
722 	return true;
723 }
724 
725 static void dcn10_psr_wait_loop(
726 	struct dmcu *dmcu,
727 	unsigned int wait_loop_number)
728 {
729 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
730 	union dce_dmcu_psr_config_data_wait_loop_reg1 masterCmdData1;
731 
732 	/* If microcontroller is not running, do nothing */
733 	if (dmcu->dmcu_state != DMCU_RUNNING)
734 		return;
735 
736 	if (wait_loop_number != 0) {
737 	/* waitDMCUReadyForCmd */
738 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
739 
740 	masterCmdData1.u32 = 0;
741 	masterCmdData1.bits.wait_loop = wait_loop_number;
742 	dmcu->cached_wait_loop_number = wait_loop_number;
743 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1), masterCmdData1.u32);
744 
745 	/* setDMCUParam_Cmd */
746 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, PSR_SET_WAITLOOP);
747 
748 	/* notifyDMCUMsg */
749 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
750 	}
751 }
752 
753 static void dcn10_get_psr_wait_loop(
754 		struct dmcu *dmcu, unsigned int *psr_wait_loop_number)
755 {
756 	*psr_wait_loop_number = dmcu->cached_wait_loop_number;
757 	return;
758 }
759 
760 static bool dcn10_is_dmcu_initialized(struct dmcu *dmcu)
761 {
762 	/* microcontroller is not running */
763 	if (dmcu->dmcu_state != DMCU_RUNNING)
764 		return false;
765 	return true;
766 }
767 
768 
769 
770 static bool dcn20_lock_phy(struct dmcu *dmcu)
771 {
772 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
773 
774 	/* If microcontroller is not running, do nothing */
775 	if (dmcu->dmcu_state != DMCU_RUNNING)
776 		return false;
777 
778 	/* waitDMCUReadyForCmd */
779 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
780 
781 	/* setDMCUParam_Cmd */
782 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, MCP_SYNC_PHY_LOCK);
783 
784 	/* notifyDMCUMsg */
785 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
786 
787 	/* waitDMCUReadyForCmd */
788 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
789 
790 	return true;
791 }
792 
793 static bool dcn20_unlock_phy(struct dmcu *dmcu)
794 {
795 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
796 
797 	/* If microcontroller is not running, do nothing */
798 	if (dmcu->dmcu_state != DMCU_RUNNING)
799 		return false;
800 
801 	/* waitDMCUReadyForCmd */
802 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
803 
804 	/* setDMCUParam_Cmd */
805 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, MCP_SYNC_PHY_UNLOCK);
806 
807 	/* notifyDMCUMsg */
808 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
809 
810 	/* waitDMCUReadyForCmd */
811 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
812 
813 	return true;
814 }
815 
816 static bool dcn10_send_edid_cea(struct dmcu *dmcu,
817 		int offset,
818 		int total_length,
819 		uint8_t *data,
820 		int length)
821 {
822 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
823 	uint32_t header, data1, data2;
824 
825 	/* If microcontroller is not running, do nothing */
826 	if (dmcu->dmcu_state != DMCU_RUNNING)
827 		return false;
828 
829 	if (length > 8 || length <= 0)
830 		return false;
831 
832 	header = ((uint32_t)offset & 0xFFFF) << 16 | (total_length & 0xFFFF);
833 	data1 = (((uint32_t)data[0]) << 24) | (((uint32_t)data[1]) << 16) |
834 		(((uint32_t)data[2]) << 8) | ((uint32_t)data[3]);
835 	data2 = (((uint32_t)data[4]) << 24) | (((uint32_t)data[5]) << 16) |
836 		(((uint32_t)data[6]) << 8) | ((uint32_t)data[7]);
837 
838 	/* waitDMCUReadyForCmd */
839 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
840 
841 	/* setDMCUParam_Cmd */
842 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, MCP_SEND_EDID_CEA);
843 
844 	REG_WRITE(MASTER_COMM_DATA_REG1, header);
845 	REG_WRITE(MASTER_COMM_DATA_REG2, data1);
846 	REG_WRITE(MASTER_COMM_DATA_REG3, data2);
847 
848 	/* notifyDMCUMsg */
849 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
850 
851 	/* waitDMCUReadyForCmd */
852 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0, 1, 10000);
853 
854 	return true;
855 }
856 
857 static bool dcn10_get_scp_results(struct dmcu *dmcu,
858 		uint32_t *cmd,
859 		uint32_t *data1,
860 		uint32_t *data2,
861 		uint32_t *data3)
862 {
863 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
864 
865 	/* If microcontroller is not running, do nothing */
866 	if (dmcu->dmcu_state != DMCU_RUNNING)
867 		return false;
868 
869 	*cmd = REG_READ(SLAVE_COMM_CMD_REG);
870 	*data1 =  REG_READ(SLAVE_COMM_DATA_REG1);
871 	*data2 =  REG_READ(SLAVE_COMM_DATA_REG2);
872 	*data3 =  REG_READ(SLAVE_COMM_DATA_REG3);
873 
874 	/* clear SCP interrupt */
875 	REG_UPDATE(SLAVE_COMM_CNTL_REG, SLAVE_COMM_INTERRUPT, 0);
876 
877 	return true;
878 }
879 
880 static bool dcn10_recv_amd_vsdb(struct dmcu *dmcu,
881 		int *version,
882 		int *min_frame_rate,
883 		int *max_frame_rate)
884 {
885 	uint32_t data[4];
886 	int cmd, ack, len;
887 
888 	if (!dcn10_get_scp_results(dmcu, &data[0], &data[1], &data[2], &data[3]))
889 		return false;
890 
891 	cmd = data[0] & 0x3FF;
892 	len = (data[0] >> 10) & 0x3F;
893 	ack = data[1];
894 
895 	if (cmd != MCP_SEND_EDID_CEA || ack != EDID_CEA_CMD_ACK || len != 12)
896 		return false;
897 
898 	if ((data[2] & 0xFF)) {
899 		*version = (data[2] >> 8) & 0xFF;
900 		*min_frame_rate = (data[3] >> 16) & 0xFFFF;
901 		*max_frame_rate = data[3] & 0xFFFF;
902 		return true;
903 	}
904 
905 	return false;
906 }
907 
908 static bool dcn10_recv_edid_cea_ack(struct dmcu *dmcu, int *offset)
909 {
910 	uint32_t data[4];
911 	int cmd, ack;
912 
913 	if (!dcn10_get_scp_results(dmcu,
914 				&data[0], &data[1], &data[2], &data[3]))
915 		return false;
916 
917 	cmd = data[0] & 0x3FF;
918 	ack = data[1];
919 
920 	if (cmd != MCP_SEND_EDID_CEA)
921 		return false;
922 
923 	if (ack == EDID_CEA_CMD_ACK)
924 		return true;
925 
926 	*offset = data[2]; /* nack */
927 	return false;
928 }
929 
930 
931 #if defined(CONFIG_DRM_AMD_SECURE_DISPLAY)
932 static void dcn10_forward_crc_window(struct dmcu *dmcu,
933 					struct crc_region *crc_win,
934 					struct otg_phy_mux *mux_mapping)
935 {
936 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
937 	unsigned int dmcu_max_retry_on_wait_reg_ready = 801;
938 	unsigned int dmcu_wait_reg_ready_interval = 100;
939 	unsigned int crc_start = 0, crc_end = 0, otg_phy_mux = 0;
940 
941 	/* If microcontroller is not running, do nothing */
942 	if (dmcu->dmcu_state != DMCU_RUNNING)
943 		return;
944 
945 	if (!crc_win)
946 		return;
947 
948 	/* waitDMCUReadyForCmd */
949 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0,
950 				dmcu_wait_reg_ready_interval,
951 				dmcu_max_retry_on_wait_reg_ready);
952 
953 	/* build up nitification data */
954 	crc_start = (((unsigned int) crc_win->x_start) << 16) | crc_win->y_start;
955 	crc_end = (((unsigned int) crc_win->x_end) << 16) | crc_win->y_end;
956 	otg_phy_mux =
957 		(((unsigned int) mux_mapping->otg_output_num) << 16) | mux_mapping->phy_output_num;
958 
959 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
960 					crc_start);
961 
962 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG2),
963 			crc_end);
964 
965 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG3),
966 			otg_phy_mux);
967 
968 	/* setDMCUParam_Cmd */
969 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
970 				CRC_WIN_NOTIFY);
971 
972 	/* notifyDMCUMsg */
973 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
974 }
975 
976 static void dcn10_stop_crc_win_update(struct dmcu *dmcu,
977 					struct otg_phy_mux *mux_mapping)
978 {
979 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
980 	unsigned int dmcu_max_retry_on_wait_reg_ready = 801;
981 	unsigned int dmcu_wait_reg_ready_interval = 100;
982 	unsigned int otg_phy_mux = 0;
983 
984 	/* If microcontroller is not running, do nothing */
985 	if (dmcu->dmcu_state != DMCU_RUNNING)
986 		return;
987 
988 	/* waitDMCUReadyForCmd */
989 	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 0,
990 				dmcu_wait_reg_ready_interval,
991 				dmcu_max_retry_on_wait_reg_ready);
992 
993 	/* build up nitification data */
994 	otg_phy_mux =
995 		(((unsigned int) mux_mapping->otg_output_num) << 16) | mux_mapping->phy_output_num;
996 
997 	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
998 					otg_phy_mux);
999 
1000 	/* setDMCUParam_Cmd */
1001 	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
1002 				CRC_STOP_UPDATE);
1003 
1004 	/* notifyDMCUMsg */
1005 	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, 1);
1006 }
1007 #endif
1008 
1009 static const struct dmcu_funcs dce_funcs = {
1010 	.dmcu_init = dce_dmcu_init,
1011 	.load_iram = dce_dmcu_load_iram,
1012 	.set_psr_enable = dce_dmcu_set_psr_enable,
1013 	.setup_psr = dce_dmcu_setup_psr,
1014 	.get_psr_state = dce_get_dmcu_psr_state,
1015 	.set_psr_wait_loop = dce_psr_wait_loop,
1016 	.get_psr_wait_loop = dce_get_psr_wait_loop,
1017 	.is_dmcu_initialized = dce_is_dmcu_initialized
1018 };
1019 
1020 static const struct dmcu_funcs dcn10_funcs = {
1021 	.dmcu_init = dcn10_dmcu_init,
1022 	.load_iram = dcn10_dmcu_load_iram,
1023 	.set_psr_enable = dcn10_dmcu_set_psr_enable,
1024 	.setup_psr = dcn10_dmcu_setup_psr,
1025 	.get_psr_state = dcn10_get_dmcu_psr_state,
1026 	.set_psr_wait_loop = dcn10_psr_wait_loop,
1027 	.get_psr_wait_loop = dcn10_get_psr_wait_loop,
1028 	.send_edid_cea = dcn10_send_edid_cea,
1029 	.recv_amd_vsdb = dcn10_recv_amd_vsdb,
1030 	.recv_edid_cea_ack = dcn10_recv_edid_cea_ack,
1031 #if defined(CONFIG_DRM_AMD_SECURE_DISPLAY)
1032 	.forward_crc_window = dcn10_forward_crc_window,
1033 	.stop_crc_win_update = dcn10_stop_crc_win_update,
1034 #endif
1035 	.is_dmcu_initialized = dcn10_is_dmcu_initialized
1036 };
1037 
1038 static const struct dmcu_funcs dcn20_funcs = {
1039 	.dmcu_init = dcn10_dmcu_init,
1040 	.load_iram = dcn10_dmcu_load_iram,
1041 	.set_psr_enable = dcn10_dmcu_set_psr_enable,
1042 	.setup_psr = dcn10_dmcu_setup_psr,
1043 	.get_psr_state = dcn10_get_dmcu_psr_state,
1044 	.set_psr_wait_loop = dcn10_psr_wait_loop,
1045 	.get_psr_wait_loop = dcn10_get_psr_wait_loop,
1046 	.is_dmcu_initialized = dcn10_is_dmcu_initialized,
1047 	.lock_phy = dcn20_lock_phy,
1048 	.unlock_phy = dcn20_unlock_phy
1049 };
1050 
1051 static const struct dmcu_funcs dcn21_funcs = {
1052 	.dmcu_init = dcn21_dmcu_init,
1053 	.load_iram = dcn10_dmcu_load_iram,
1054 	.set_psr_enable = dcn10_dmcu_set_psr_enable,
1055 	.setup_psr = dcn10_dmcu_setup_psr,
1056 	.get_psr_state = dcn10_get_dmcu_psr_state,
1057 	.set_psr_wait_loop = dcn10_psr_wait_loop,
1058 	.get_psr_wait_loop = dcn10_get_psr_wait_loop,
1059 	.is_dmcu_initialized = dcn10_is_dmcu_initialized,
1060 	.lock_phy = dcn20_lock_phy,
1061 	.unlock_phy = dcn20_unlock_phy
1062 };
1063 
1064 static void dce_dmcu_construct(
1065 	struct dce_dmcu *dmcu_dce,
1066 	struct dc_context *ctx,
1067 	const struct dce_dmcu_registers *regs,
1068 	const struct dce_dmcu_shift *dmcu_shift,
1069 	const struct dce_dmcu_mask *dmcu_mask)
1070 {
1071 	struct dmcu *base = &dmcu_dce->base;
1072 
1073 	base->ctx = ctx;
1074 	base->funcs = &dce_funcs;
1075 	base->cached_wait_loop_number = 0;
1076 
1077 	dmcu_dce->regs = regs;
1078 	dmcu_dce->dmcu_shift = dmcu_shift;
1079 	dmcu_dce->dmcu_mask = dmcu_mask;
1080 }
1081 
1082 static void dcn21_dmcu_construct(
1083 		struct dce_dmcu *dmcu_dce,
1084 		struct dc_context *ctx,
1085 		const struct dce_dmcu_registers *regs,
1086 		const struct dce_dmcu_shift *dmcu_shift,
1087 		const struct dce_dmcu_mask *dmcu_mask)
1088 {
1089 	uint32_t psp_version = 0;
1090 
1091 	dce_dmcu_construct(dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1092 
1093 	if (!IS_FPGA_MAXIMUS_DC(ctx->dce_environment)) {
1094 		psp_version = dm_read_reg(ctx, mmMP0_SMN_C2PMSG_58);
1095 		dmcu_dce->base.auto_load_dmcu = ((psp_version & 0x00FF00FF) > 0x00110029);
1096 		dmcu_dce->base.psp_version = psp_version;
1097 	}
1098 }
1099 
1100 struct dmcu *dce_dmcu_create(
1101 	struct dc_context *ctx,
1102 	const struct dce_dmcu_registers *regs,
1103 	const struct dce_dmcu_shift *dmcu_shift,
1104 	const struct dce_dmcu_mask *dmcu_mask)
1105 {
1106 	struct dce_dmcu *dmcu_dce = kzalloc(sizeof(*dmcu_dce), GFP_KERNEL);
1107 
1108 	if (dmcu_dce == NULL) {
1109 		BREAK_TO_DEBUGGER();
1110 		return NULL;
1111 	}
1112 
1113 	dce_dmcu_construct(
1114 		dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1115 
1116 	dmcu_dce->base.funcs = &dce_funcs;
1117 
1118 	return &dmcu_dce->base;
1119 }
1120 
1121 struct dmcu *dcn10_dmcu_create(
1122 	struct dc_context *ctx,
1123 	const struct dce_dmcu_registers *regs,
1124 	const struct dce_dmcu_shift *dmcu_shift,
1125 	const struct dce_dmcu_mask *dmcu_mask)
1126 {
1127 	struct dce_dmcu *dmcu_dce = kzalloc(sizeof(*dmcu_dce), GFP_ATOMIC);
1128 
1129 	if (dmcu_dce == NULL) {
1130 		BREAK_TO_DEBUGGER();
1131 		return NULL;
1132 	}
1133 
1134 	dce_dmcu_construct(
1135 		dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1136 
1137 	dmcu_dce->base.funcs = &dcn10_funcs;
1138 
1139 	return &dmcu_dce->base;
1140 }
1141 
1142 struct dmcu *dcn20_dmcu_create(
1143 	struct dc_context *ctx,
1144 	const struct dce_dmcu_registers *regs,
1145 	const struct dce_dmcu_shift *dmcu_shift,
1146 	const struct dce_dmcu_mask *dmcu_mask)
1147 {
1148 	struct dce_dmcu *dmcu_dce = kzalloc(sizeof(*dmcu_dce), GFP_ATOMIC);
1149 
1150 	if (dmcu_dce == NULL) {
1151 		BREAK_TO_DEBUGGER();
1152 		return NULL;
1153 	}
1154 
1155 	dce_dmcu_construct(
1156 		dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1157 
1158 	dmcu_dce->base.funcs = &dcn20_funcs;
1159 
1160 	return &dmcu_dce->base;
1161 }
1162 
1163 struct dmcu *dcn21_dmcu_create(
1164 	struct dc_context *ctx,
1165 	const struct dce_dmcu_registers *regs,
1166 	const struct dce_dmcu_shift *dmcu_shift,
1167 	const struct dce_dmcu_mask *dmcu_mask)
1168 {
1169 	struct dce_dmcu *dmcu_dce = kzalloc(sizeof(*dmcu_dce), GFP_ATOMIC);
1170 
1171 	if (dmcu_dce == NULL) {
1172 		BREAK_TO_DEBUGGER();
1173 		return NULL;
1174 	}
1175 
1176 	dcn21_dmcu_construct(
1177 		dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1178 
1179 	dmcu_dce->base.funcs = &dcn21_funcs;
1180 
1181 	return &dmcu_dce->base;
1182 }
1183 
1184 void dce_dmcu_destroy(struct dmcu **dmcu)
1185 {
1186 	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(*dmcu);
1187 
1188 	kfree(dmcu_dce);
1189 	*dmcu = NULL;
1190 }
1191