dce_dmcu.c source code [linux/drivers/gpu/drm/amd/display/dc/dce/dce_dmcu.c]

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 "core_types.h"
27	#include "link_encoder.h"
28	#include "dce_dmcu.h"
29	#include "dm_services.h"
30	#include "reg_helper.h"
31	#include "fixed31_32.h"
32	#include "dc.h"
33
34	#define TO_DCE_DMCU(dmcu)\
35	container_of(dmcu, struct dce_dmcu, base)
36
37	#define REG(reg) \
38	(dmcu_dce->regs->reg)
39
40	#undef FN
41	#define FN(reg_name, field_name) \
42	dmcu_dce->dmcu_shift->field_name, dmcu_dce->dmcu_mask->field_name
43
44	#define CTX \
45	dmcu_dce->base.ctx
46
47	/ PSR related commands /
48	#define PSR_ENABLE 0x20
49	#define PSR_EXIT 0x21
50	#define PSR_SET 0x23
51	#define PSR_SET_WAITLOOP 0x31
52	#define MCP_INIT_DMCU 0x88
53	#define MCP_INIT_IRAM 0x89
54	#define MCP_SYNC_PHY_LOCK 0x90
55	#define MCP_SYNC_PHY_UNLOCK 0x91
56	#define MCP_BL_SET_PWM_FRAC 0x6A /* Enable or disable Fractional PWM */
57	#define CRC_WIN_NOTIFY 0x92
58	#define CRC_STOP_UPDATE 0x93
59	#define MCP_SEND_EDID_CEA 0xA0
60	#define EDID_CEA_CMD_ACK 1
61	#define EDID_CEA_CMD_NACK 2
62	#define MASTER_COMM_CNTL_REG__MASTER_COMM_INTERRUPT_MASK 0x00000001L
63
64	// PSP FW version
65	#define mmMP0_SMN_C2PMSG_58 0x1607A
66
67	//Register access policy version
68	#define mmMP0_SMN_C2PMSG_91 0x1609B
69
70	static const uint32_t abm_gain_stepsize = `0x0060`;
71
72	static bool dce_dmcu_init(struct dmcu *dmcu)
73	{
74	// Do nothing
75	return true;
76	}
77
78	static bool dce_dmcu_load_iram(struct dmcu *dmcu,
79	unsigned int start_offset,
80	const char *src,
81	unsigned int bytes)
82	{
83	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
84	unsigned int count = `0`;
85
86	/ Enable write access to IRAM /
87	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
88	IRAM_HOST_ACCESS_EN, `1`,
89	IRAM_WR_ADDR_AUTO_INC, `1`);
90
91	REG_WAIT(DCI_MEM_PWR_STATUS, DMCU_IRAM_MEM_PWR_STATE, `0`, `2`, `10`);
92
93	REG_WRITE(DMCU_IRAM_WR_CTRL, start_offset);
94
95	for (count = `0`; count < bytes; count++)
96	REG_WRITE(DMCU_IRAM_WR_DATA, src[count]);
97
98	/ Disable write access to IRAM to allow dynamic sleep state /
99	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
100	IRAM_HOST_ACCESS_EN, `0`,
101	IRAM_WR_ADDR_AUTO_INC, `0`);
102
103	return true;
104	}
105
106	static void dce_get_dmcu_psr_state(struct dmcu dmcu, enum* dc_psr_state *state)
107	{
108	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
109
110	uint32_t psr_state_offset = `0xf0`;
111
112	/ Enable write access to IRAM /
113	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, `1`);
114
115	REG_WAIT(DCI_MEM_PWR_STATUS, DMCU_IRAM_MEM_PWR_STATE, `0`, `2`, `10`);
116
117	/ Write address to IRAM_RD_ADDR in DMCU_IRAM_RD_CTRL /
118	REG_WRITE(DMCU_IRAM_RD_CTRL, psr_state_offset);
119
120	/ Read data from IRAM_RD_DATA in DMCU_IRAM_RD_DATA/
121	state = (enum* dc_psr_state)REG_READ(DMCU_IRAM_RD_DATA);
122
123	/ Disable write access to IRAM after finished using IRAM*
124	* in order to allow dynamic sleep state
125	*/
126	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, `0`);
127	}
128
129	static void dce_dmcu_set_psr_enable(struct dmcu *dmcu, bool enable, bool wait)
130	{
131	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
132	unsigned int dmcu_max_retry_on_wait_reg_ready = `801`;
133	unsigned int dmcu_wait_reg_ready_interval = `100`;
134
135	unsigned int retryCount;
136	enum dc_psr_state state = PSR_STATE0;
137
138	/ waitDMCUReadyForCmd /
139	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`,
140	dmcu_wait_reg_ready_interval,
141	dmcu_max_retry_on_wait_reg_ready);
142
143	/ setDMCUParam_Cmd /
144	if (enable)
145	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
146	PSR_ENABLE);
147	else
148	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
149	PSR_EXIT);
150
151	/ notifyDMCUMsg /
152	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
153	if (wait == true) {
154	for (retryCount = `0`; retryCount <= `100`; retryCount++) {
155	dce_get_dmcu_psr_state(dmcu, state: &state);
156	if (enable) {
157	if (state != PSR_STATE0)
158	break;
159	} else {
160	if (state == PSR_STATE0)
161	break;
162	}
163	udelay(`10`);
164	}
165	}
166	}
167
168	static bool dce_dmcu_setup_psr(struct dmcu *dmcu,
169	struct dc_link *link,
170	struct psr_context *psr_context)
171	{
172	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
173
174	unsigned int dmcu_max_retry_on_wait_reg_ready = `801`;
175	unsigned int dmcu_wait_reg_ready_interval = `100`;
176
177	union dce_dmcu_psr_config_data_reg1 masterCmdData1;
178	union dce_dmcu_psr_config_data_reg2 masterCmdData2;
179	union dce_dmcu_psr_config_data_reg3 masterCmdData3;
180
181	link->link_enc->funcs->psr_program_dp_dphy_fast_training(link->link_enc,
182	psr_context->psrExitLinkTrainingRequired);
183
184	/ Enable static screen interrupts for PSR supported display /
185	/ Disable the interrupt coming from other displays. /
186	REG_UPDATE_4(DMCU_INTERRUPT_TO_UC_EN_MASK,
187	STATIC_SCREEN1_INT_TO_UC_EN, `0`,
188	STATIC_SCREEN2_INT_TO_UC_EN, `0`,
189	STATIC_SCREEN3_INT_TO_UC_EN, `0`,
190	STATIC_SCREEN4_INT_TO_UC_EN, `0`);
191
192	switch (psr_context->controllerId) {
193	/ Driver uses case 1 for unconfigured /
194	case `1`:
195	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
196	STATIC_SCREEN1_INT_TO_UC_EN, `1`);
197	break;
198	case `2`:
199	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
200	STATIC_SCREEN2_INT_TO_UC_EN, `1`);
201	break;
202	case `3`:
203	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
204	STATIC_SCREEN3_INT_TO_UC_EN, `1`);
205	break;
206	case `4`:
207	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
208	STATIC_SCREEN4_INT_TO_UC_EN, `1`);
209	break;
210	case `5`:
211	/ CZ/NL only has 4 CRTC!!*
212	* really valid.
213	* There is no interrupt enable mask for these instances.
214	*/
215	break;
216	case `6`:
217	/ CZ/NL only has 4 CRTC!!*
218	* These are here because they are defined in HW regspec,
219	* but not really valid. There is no interrupt enable mask
220	* for these instances.
221	*/
222	break;
223	default:
224	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
225	STATIC_SCREEN1_INT_TO_UC_EN, `1`);
226	break;
227	}
228
229	link->link_enc->funcs->psr_program_secondary_packet(link->link_enc,
230	psr_context->sdpTransmitLineNumDeadline);
231
232	/ waitDMCUReadyForCmd /
233	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`,
234	dmcu_wait_reg_ready_interval,
235	dmcu_max_retry_on_wait_reg_ready);
236
237	/ setDMCUParam_PSRHostConfigData /
238	masterCmdData1.u32All = `0`;
239	masterCmdData1.bits.timehyst_frames = psr_context->timehyst_frames;
240	masterCmdData1.bits.hyst_lines = psr_context->hyst_lines;
241	masterCmdData1.bits.rfb_update_auto_en =
242	psr_context->rfb_update_auto_en;
243	masterCmdData1.bits.dp_port_num = psr_context->transmitterId;
244	masterCmdData1.bits.dcp_sel = psr_context->controllerId;
245	masterCmdData1.bits.phy_type = psr_context->phyType;
246	masterCmdData1.bits.frame_cap_ind =
247	psr_context->psrFrameCaptureIndicationReq;
248	masterCmdData1.bits.aux_chan = psr_context->channel;
249	masterCmdData1.bits.aux_repeat = psr_context->aux_repeats;
250	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
251	masterCmdData1.u32All);
252
253	masterCmdData2.u32All = `0`;
254	masterCmdData2.bits.dig_fe = psr_context->engineId;
255	masterCmdData2.bits.dig_be = psr_context->transmitterId;
256	masterCmdData2.bits.skip_wait_for_pll_lock =
257	psr_context->skipPsrWaitForPllLock;
258	masterCmdData2.bits.frame_delay = psr_context->frame_delay;
259	masterCmdData2.bits.smu_phy_id = psr_context->smuPhyId;
260	masterCmdData2.bits.num_of_controllers =
261	psr_context->numberOfControllers;
262	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG2),
263	masterCmdData2.u32All);
264
265	masterCmdData3.u32All = `0`;
266	masterCmdData3.bits.psr_level = psr_context->psr_level.u32all;
267	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG3),
268	masterCmdData3.u32All);
269
270	/ setDMCUParam_Cmd /
271	REG_UPDATE(MASTER_COMM_CMD_REG,
272	MASTER_COMM_CMD_REG_BYTE0, PSR_SET);
273
274	/ notifyDMCUMsg /
275	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
276
277	return true;
278	}
279
280	static bool dce_is_dmcu_initialized(struct dmcu *dmcu)
281	{
282	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
283	unsigned int dmcu_uc_reset;
284
285	/ microcontroller is not running /
286	REG_GET(DMCU_STATUS, UC_IN_RESET, &dmcu_uc_reset);
287
288	/ DMCU is not running /
289	if (dmcu_uc_reset)
290	return false;
291
292	return true;
293	}
294
295	static void dce_psr_wait_loop(
296	struct dmcu *dmcu,
297	unsigned int wait_loop_number)
298	{
299	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
300	union dce_dmcu_psr_config_data_wait_loop_reg1 masterCmdData1;
301
302	if (dmcu->cached_wait_loop_number == wait_loop_number)
303	return;
304
305	/ DMCU is not running /
306	if (!dce_is_dmcu_initialized(dmcu))
307	return;
308
309	/ waitDMCUReadyForCmd /
310	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
311
312	masterCmdData1.u32 = `0`;
313	masterCmdData1.bits.wait_loop = wait_loop_number;
314	dmcu->cached_wait_loop_number = wait_loop_number;
315	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1), masterCmdData1.u32);
316
317	/ setDMCUParam_Cmd /
318	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, PSR_SET_WAITLOOP);
319
320	/ notifyDMCUMsg /
321	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
322	}
323
324	static void dce_get_psr_wait_loop(
325	struct dmcu dmcu, unsigned* int *psr_wait_loop_number)
326	{
327	*psr_wait_loop_number = dmcu->cached_wait_loop_number;
328	return;
329	}
330
331	static void dcn10_get_dmcu_version(struct dmcu *dmcu)
332	{
333	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
334	uint32_t dmcu_version_offset = `0xf1`;
335
336	/ Enable write access to IRAM /
337	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
338	IRAM_HOST_ACCESS_EN, `1`,
339	IRAM_RD_ADDR_AUTO_INC, `1`);
340
341	REG_WAIT(DMU_MEM_PWR_CNTL, DMCU_IRAM_MEM_PWR_STATE, `0`, `2`, `10`);
342
343	/ Write address to IRAM_RD_ADDR and read from DATA register /
344	REG_WRITE(DMCU_IRAM_RD_CTRL, dmcu_version_offset);
345	dmcu->dmcu_version.interface_version = REG_READ(DMCU_IRAM_RD_DATA);
346	dmcu->dmcu_version.abm_version = REG_READ(DMCU_IRAM_RD_DATA);
347	dmcu->dmcu_version.psr_version = REG_READ(DMCU_IRAM_RD_DATA);
348	dmcu->dmcu_version.build_version = ((REG_READ(DMCU_IRAM_RD_DATA) << `8`) \|
349	REG_READ(DMCU_IRAM_RD_DATA));
350
351	/ Disable write access to IRAM to allow dynamic sleep state /
352	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
353	IRAM_HOST_ACCESS_EN, `0`,
354	IRAM_RD_ADDR_AUTO_INC, `0`);
355	}
356
357	static void dcn10_dmcu_enable_fractional_pwm(struct dmcu *dmcu,
358	uint32_t fractional_pwm)
359	{
360	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
361
362	/ Wait until microcontroller is ready to process interrupt /
363	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `100`, `800`);
364
365	/ Set PWM fractional enable/disable /
366	REG_WRITE(MASTER_COMM_DATA_REG1, fractional_pwm);
367
368	/ Set command to enable or disable fractional PWM microcontroller /
369	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
370	MCP_BL_SET_PWM_FRAC);
371
372	/ Notify microcontroller of new command /
373	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
374
375	/ Ensure command has been executed before continuing /
376	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `100`, `800`);
377	}
378
379	static bool dcn10_dmcu_init(struct dmcu *dmcu)
380	{
381	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
382	const struct dc_config *config = &dmcu->ctx->dc->config;
383	bool status = false;
384	struct dc_context *ctx = dmcu->ctx;
385	unsigned int i;
386	// 5 4 3 2 1 0
387	// F E D C B A - bit 0 is A, bit 5 is F
388	unsigned int tx_interrupt_mask = `0`;
389
390	PERF_TRACE();
391	/ Definition of DC_DMCU_SCRATCH*
392	* 0 : firmare not loaded
393	* 1 : PSP load DMCU FW but not initialized
394	* 2 : Firmware already initialized
395	*/
396	dmcu->dmcu_state = REG_READ(DC_DMCU_SCRATCH);
397
398	for (i = `0`; i < ctx->dc->link_count; i++) {
399	if (ctx->dc->links[i]->link_enc->features.flags.bits.DP_IS_USB_C) {
400	if (ctx->dc->links[i]->link_enc->transmitter >= TRANSMITTER_UNIPHY_A &&
401	ctx->dc->links[i]->link_enc->transmitter <= TRANSMITTER_UNIPHY_F) {
402	tx_interrupt_mask \|= `1` << ctx->dc->links[i]->link_enc->transmitter;
403	}
404	}
405	}
406
407	switch (dmcu->dmcu_state) {
408	case DMCU_UNLOADED:
409	status = false;
410	break;
411	case DMCU_LOADED_UNINITIALIZED:
412	/ Wait until microcontroller is ready to process interrupt /
413	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `100`, `800`);
414
415	/ Set initialized ramping boundary value /
416	REG_WRITE(MASTER_COMM_DATA_REG1, `0xFFFF`);
417
418	/ Set backlight ramping stepsize /
419	REG_WRITE(MASTER_COMM_DATA_REG2, abm_gain_stepsize);
420
421	REG_WRITE(MASTER_COMM_DATA_REG3, tx_interrupt_mask);
422
423	/ Set command to initialize microcontroller /
424	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
425	MCP_INIT_DMCU);
426
427	/ Notify microcontroller of new command /
428	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
429
430	/ Ensure command has been executed before continuing /
431	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `100`, `800`);
432
433	// Check state is initialized
434	dmcu->dmcu_state = REG_READ(DC_DMCU_SCRATCH);
435
436	// If microcontroller is not in running state, fail
437	if (dmcu->dmcu_state == DMCU_RUNNING) {
438	/ Retrieve and cache the DMCU firmware version. /
439	dcn10_get_dmcu_version(dmcu);
440
441	/ Initialize DMCU to use fractional PWM or not /
442	dcn10_dmcu_enable_fractional_pwm(dmcu,
443	fractional_pwm: (config->disable_fractional_pwm == false) ? `1` : `0`);
444	status = true;
445	} else {
446	status = false;
447	}
448
449	break;
450	case DMCU_RUNNING:
451	status = true;
452	break;
453	default:
454	status = false;
455	break;
456	}
457
458	PERF_TRACE();
459	return status;
460	}
461
462	static bool dcn21_dmcu_init(struct dmcu *dmcu)
463	{
464	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
465	uint32_t dmcub_psp_version = REG_READ(DMCUB_SCRATCH15);
466
467	if (dmcu->auto_load_dmcu && dmcub_psp_version == `0`) {
468	return false;
469	}
470
471	return dcn10_dmcu_init(dmcu);
472	}
473
474	static bool dcn10_dmcu_load_iram(struct dmcu *dmcu,
475	unsigned int start_offset,
476	const char *src,
477	unsigned int bytes)
478	{
479	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
480	unsigned int count = `0`;
481
482	/ If microcontroller is not running, do nothing /
483	if (dmcu->dmcu_state != DMCU_RUNNING)
484	return false;
485
486	/ Enable write access to IRAM /
487	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
488	IRAM_HOST_ACCESS_EN, `1`,
489	IRAM_WR_ADDR_AUTO_INC, `1`);
490
491	REG_WAIT(DMU_MEM_PWR_CNTL, DMCU_IRAM_MEM_PWR_STATE, `0`, `2`, `10`);
492
493	REG_WRITE(DMCU_IRAM_WR_CTRL, start_offset);
494
495	for (count = `0`; count < bytes; count++)
496	REG_WRITE(DMCU_IRAM_WR_DATA, src[count]);
497
498	/ Disable write access to IRAM to allow dynamic sleep state /
499	REG_UPDATE_2(DMCU_RAM_ACCESS_CTRL,
500	IRAM_HOST_ACCESS_EN, `0`,
501	IRAM_WR_ADDR_AUTO_INC, `0`);
502
503	/ Wait until microcontroller is ready to process interrupt /
504	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `100`, `800`);
505
506	/ Set command to signal IRAM is loaded and to initialize IRAM /
507	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
508	MCP_INIT_IRAM);
509
510	/ Notify microcontroller of new command /
511	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
512
513	/ Ensure command has been executed before continuing /
514	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `100`, `800`);
515
516	return true;
517	}
518
519	static void dcn10_get_dmcu_psr_state(struct dmcu dmcu, enum* dc_psr_state *state)
520	{
521	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
522
523	uint32_t psr_state_offset = `0xf0`;
524
525	/ If microcontroller is not running, do nothing /
526	if (dmcu->dmcu_state != DMCU_RUNNING)
527	return;
528
529	/ Enable write access to IRAM /
530	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, `1`);
531
532	REG_WAIT(DMU_MEM_PWR_CNTL, DMCU_IRAM_MEM_PWR_STATE, `0`, `2`, `10`);
533
534	/ Write address to IRAM_RD_ADDR in DMCU_IRAM_RD_CTRL /
535	REG_WRITE(DMCU_IRAM_RD_CTRL, psr_state_offset);
536
537	/ Read data from IRAM_RD_DATA in DMCU_IRAM_RD_DATA/
538	state = (enum* dc_psr_state)REG_READ(DMCU_IRAM_RD_DATA);
539
540	/ Disable write access to IRAM after finished using IRAM*
541	* in order to allow dynamic sleep state
542	*/
543	REG_UPDATE(DMCU_RAM_ACCESS_CTRL, IRAM_HOST_ACCESS_EN, `0`);
544	}
545
546	static void dcn10_dmcu_set_psr_enable(struct dmcu *dmcu, bool enable, bool wait)
547	{
548	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
549	unsigned int dmcu_max_retry_on_wait_reg_ready = `801`;
550	unsigned int dmcu_wait_reg_ready_interval = `100`;
551
552	unsigned int retryCount;
553	enum dc_psr_state state = PSR_STATE0;
554
555	/ If microcontroller is not running, do nothing /
556	if (dmcu->dmcu_state != DMCU_RUNNING)
557	return;
558
559	/ waitDMCUReadyForCmd /
560	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`,
561	dmcu_wait_reg_ready_interval,
562	dmcu_max_retry_on_wait_reg_ready);
563
564	/ setDMCUParam_Cmd /
565	if (enable)
566	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
567	PSR_ENABLE);
568	else
569	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
570	PSR_EXIT);
571
572	/ notifyDMCUMsg /
573	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
574
575	/ Below loops 1000 x 500us = 500 ms.*
576	* Exit PSR may need to wait 1-2 frames to power up. Timeout after at
577	* least a few frames. Should never hit the max retry assert below.
578	*/
579	if (wait == true) {
580	for (retryCount = `0`; retryCount <= `1000`; retryCount++) {
581	dcn10_get_dmcu_psr_state(dmcu, state: &state);
582	if (enable) {
583	if (state != PSR_STATE0)
584	break;
585	} else {
586	if (state == PSR_STATE0)
587	break;
588	}
589	/ must not be fsleep - this can be called from high irq levels /
590	udelay(`500`);
591	}
592
593	/ assert if max retry hit /
594	if (retryCount >= `1000`)
595	ASSERT(`0`);
596	}
597	}
598
599	static bool dcn10_dmcu_setup_psr(struct dmcu *dmcu,
600	struct dc_link *link,
601	struct psr_context *psr_context)
602	{
603	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
604
605	unsigned int dmcu_max_retry_on_wait_reg_ready = `801`;
606	unsigned int dmcu_wait_reg_ready_interval = `100`;
607
608	union dce_dmcu_psr_config_data_reg1 masterCmdData1;
609	union dce_dmcu_psr_config_data_reg2 masterCmdData2;
610	union dce_dmcu_psr_config_data_reg3 masterCmdData3;
611
612	/ If microcontroller is not running, do nothing /
613	if (dmcu->dmcu_state != DMCU_RUNNING)
614	return false;
615
616	link->link_enc->funcs->psr_program_dp_dphy_fast_training(link->link_enc,
617	psr_context->psrExitLinkTrainingRequired);
618
619	/ Enable static screen interrupts for PSR supported display /
620	/ Disable the interrupt coming from other displays. /
621	REG_UPDATE_4(DMCU_INTERRUPT_TO_UC_EN_MASK,
622	STATIC_SCREEN1_INT_TO_UC_EN, `0`,
623	STATIC_SCREEN2_INT_TO_UC_EN, `0`,
624	STATIC_SCREEN3_INT_TO_UC_EN, `0`,
625	STATIC_SCREEN4_INT_TO_UC_EN, `0`);
626
627	switch (psr_context->controllerId) {
628	/ Driver uses case 1 for unconfigured /
629	case `1`:
630	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
631	STATIC_SCREEN1_INT_TO_UC_EN, `1`);
632	break;
633	case `2`:
634	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
635	STATIC_SCREEN2_INT_TO_UC_EN, `1`);
636	break;
637	case `3`:
638	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
639	STATIC_SCREEN3_INT_TO_UC_EN, `1`);
640	break;
641	case `4`:
642	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
643	STATIC_SCREEN4_INT_TO_UC_EN, `1`);
644	break;
645	case `5`:
646	/ CZ/NL only has 4 CRTC!!*
647	* really valid.
648	* There is no interrupt enable mask for these instances.
649	*/
650	break;
651	case `6`:
652	/ CZ/NL only has 4 CRTC!!*
653	* These are here because they are defined in HW regspec,
654	* but not really valid. There is no interrupt enable mask
655	* for these instances.
656	*/
657	break;
658	default:
659	REG_UPDATE(DMCU_INTERRUPT_TO_UC_EN_MASK,
660	STATIC_SCREEN1_INT_TO_UC_EN, `1`);
661	break;
662	}
663
664	link->link_enc->funcs->psr_program_secondary_packet(link->link_enc,
665	psr_context->sdpTransmitLineNumDeadline);
666
667	if (psr_context->allow_smu_optimizations)
668	REG_UPDATE(SMU_INTERRUPT_CONTROL, DC_SMU_INT_ENABLE, `1`);
669
670	/ waitDMCUReadyForCmd /
671	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`,
672	dmcu_wait_reg_ready_interval,
673	dmcu_max_retry_on_wait_reg_ready);
674
675	/ setDMCUParam_PSRHostConfigData /
676	masterCmdData1.u32All = `0`;
677	masterCmdData1.bits.timehyst_frames = psr_context->timehyst_frames;
678	masterCmdData1.bits.hyst_lines = psr_context->hyst_lines;
679	masterCmdData1.bits.rfb_update_auto_en =
680	psr_context->rfb_update_auto_en;
681	masterCmdData1.bits.dp_port_num = psr_context->transmitterId;
682	masterCmdData1.bits.dcp_sel = psr_context->controllerId;
683	masterCmdData1.bits.phy_type = psr_context->phyType;
684	masterCmdData1.bits.frame_cap_ind =
685	psr_context->psrFrameCaptureIndicationReq;
686	masterCmdData1.bits.aux_chan = psr_context->channel;
687	masterCmdData1.bits.aux_repeat = psr_context->aux_repeats;
688	masterCmdData1.bits.allow_smu_optimizations = psr_context->allow_smu_optimizations;
689	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
690	masterCmdData1.u32All);
691
692	masterCmdData2.u32All = `0`;
693	masterCmdData2.bits.dig_fe = psr_context->engineId;
694	masterCmdData2.bits.dig_be = psr_context->transmitterId;
695	masterCmdData2.bits.skip_wait_for_pll_lock =
696	psr_context->skipPsrWaitForPllLock;
697	masterCmdData2.bits.frame_delay = psr_context->frame_delay;
698	masterCmdData2.bits.smu_phy_id = psr_context->smuPhyId;
699	masterCmdData2.bits.num_of_controllers =
700	psr_context->numberOfControllers;
701	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG2),
702	masterCmdData2.u32All);
703
704	masterCmdData3.u32All = `0`;
705	masterCmdData3.bits.psr_level = psr_context->psr_level.u32all;
706	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG3),
707	masterCmdData3.u32All);
708
709
710	/ setDMCUParam_Cmd /
711	REG_UPDATE(MASTER_COMM_CMD_REG,
712	MASTER_COMM_CMD_REG_BYTE0, PSR_SET);
713
714	/ notifyDMCUMsg /
715	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
716
717	/ waitDMCUReadyForCmd /
718	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
719
720	return true;
721	}
722
723	static void dcn10_psr_wait_loop(
724	struct dmcu *dmcu,
725	unsigned int wait_loop_number)
726	{
727	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
728	union dce_dmcu_psr_config_data_wait_loop_reg1 masterCmdData1;
729
730	/ If microcontroller is not running, do nothing /
731	if (dmcu->dmcu_state != DMCU_RUNNING)
732	return;
733
734	if (wait_loop_number != `0`) {
735	/ waitDMCUReadyForCmd /
736	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
737
738	masterCmdData1.u32 = `0`;
739	masterCmdData1.bits.wait_loop = wait_loop_number;
740	dmcu->cached_wait_loop_number = wait_loop_number;
741	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1), masterCmdData1.u32);
742
743	/ setDMCUParam_Cmd /
744	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, PSR_SET_WAITLOOP);
745
746	/ notifyDMCUMsg /
747	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
748	}
749	}
750
751	static void dcn10_get_psr_wait_loop(
752	struct dmcu dmcu, unsigned* int *psr_wait_loop_number)
753	{
754	*psr_wait_loop_number = dmcu->cached_wait_loop_number;
755	return;
756	}
757
758	static bool dcn10_is_dmcu_initialized(struct dmcu *dmcu)
759	{
760	/ microcontroller is not running /
761	if (dmcu->dmcu_state != DMCU_RUNNING)
762	return false;
763	return true;
764	}
765
766
767
768	static bool dcn20_lock_phy(struct dmcu *dmcu)
769	{
770	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
771
772	/ If microcontroller is not running, do nothing /
773	if (dmcu->dmcu_state != DMCU_RUNNING)
774	return false;
775
776	/ waitDMCUReadyForCmd /
777	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
778
779	/ setDMCUParam_Cmd /
780	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, MCP_SYNC_PHY_LOCK);
781
782	/ notifyDMCUMsg /
783	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
784
785	/ waitDMCUReadyForCmd /
786	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
787
788	return true;
789	}
790
791	static bool dcn20_unlock_phy(struct dmcu *dmcu)
792	{
793	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
794
795	/ If microcontroller is not running, do nothing /
796	if (dmcu->dmcu_state != DMCU_RUNNING)
797	return false;
798
799	/ waitDMCUReadyForCmd /
800	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
801
802	/ setDMCUParam_Cmd /
803	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, MCP_SYNC_PHY_UNLOCK);
804
805	/ notifyDMCUMsg /
806	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
807
808	/ waitDMCUReadyForCmd /
809	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
810
811	return true;
812	}
813
814	static bool dcn10_send_edid_cea(struct dmcu *dmcu,
815	int offset,
816	int total_length,
817	uint8_t *data,
818	int length)
819	{
820	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
821	uint32_t header, data1, data2;
822
823	/ If microcontroller is not running, do nothing /
824	if (dmcu->dmcu_state != DMCU_RUNNING)
825	return false;
826
827	if (length > `8` \|\| length <= `0`)
828	return false;
829
830	header = ((uint32_t)offset & `0xFFFF`) << `16` \| (total_length & `0xFFFF`);
831	data1 = (((uint32_t)data[`0`]) << `24`) \| (((uint32_t)data[`1`]) << `16`) \|
832	(((uint32_t)data[`2`]) << `8`) \| ((uint32_t)data[`3`]);
833	data2 = (((uint32_t)data[`4`]) << `24`) \| (((uint32_t)data[`5`]) << `16`) \|
834	(((uint32_t)data[`6`]) << `8`) \| ((uint32_t)data[`7`]);
835
836	/ waitDMCUReadyForCmd /
837	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
838
839	/ setDMCUParam_Cmd /
840	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0, MCP_SEND_EDID_CEA);
841
842	REG_WRITE(MASTER_COMM_DATA_REG1, header);
843	REG_WRITE(MASTER_COMM_DATA_REG2, data1);
844	REG_WRITE(MASTER_COMM_DATA_REG3, data2);
845
846	/ notifyDMCUMsg /
847	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
848
849	/ waitDMCUReadyForCmd /
850	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`, `1`, `10000`);
851
852	return true;
853	}
854
855	static bool dcn10_get_scp_results(struct dmcu *dmcu,
856	uint32_t *cmd,
857	uint32_t *data1,
858	uint32_t *data2,
859	uint32_t *data3)
860	{
861	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
862
863	/ If microcontroller is not running, do nothing /
864	if (dmcu->dmcu_state != DMCU_RUNNING)
865	return false;
866
867	*cmd = REG_READ(SLAVE_COMM_CMD_REG);
868	*data1 = REG_READ(SLAVE_COMM_DATA_REG1);
869	*data2 = REG_READ(SLAVE_COMM_DATA_REG2);
870	*data3 = REG_READ(SLAVE_COMM_DATA_REG3);
871
872	/ clear SCP interrupt /
873	REG_UPDATE(SLAVE_COMM_CNTL_REG, SLAVE_COMM_INTERRUPT, `0`);
874
875	return true;
876	}
877
878	static bool dcn10_recv_amd_vsdb(struct dmcu *dmcu,
879	int *version,
880	int *min_frame_rate,
881	int *max_frame_rate)
882	{
883	uint32_t data[`4`];
884	int cmd, ack, len;
885
886	if (!dcn10_get_scp_results(dmcu, cmd: &data[`0`], data1: &data[`1`], data2: &data[`2`], data3: &data[`3`]))
887	return false;
888
889	cmd = data[`0`] & `0x3FF`;
890	len = (data[`0`] >> `10`) & `0x3F`;
891	ack = data[`1`];
892
893	if (cmd != MCP_SEND_EDID_CEA \|\| ack != EDID_CEA_CMD_ACK \|\| len != `12`)
894	return false;
895
896	if ((data[`2`] & `0xFF`)) {
897	*version = (data[`2`] >> `8`) & `0xFF`;
898	*min_frame_rate = (data[`3`] >> `16`) & `0xFFFF`;
899	*max_frame_rate = data[`3`] & `0xFFFF`;
900	return true;
901	}
902
903	return false;
904	}
905
906	static bool dcn10_recv_edid_cea_ack(struct dmcu dmcu, int* *offset)
907	{
908	uint32_t data[`4`];
909	int cmd, ack;
910
911	if (!dcn10_get_scp_results(dmcu,
912	cmd: &data[`0`], data1: &data[`1`], data2: &data[`2`], data3: &data[`3`]))
913	return false;
914
915	cmd = data[`0`] & `0x3FF`;
916	ack = data[`1`];
917
918	if (cmd != MCP_SEND_EDID_CEA)
919	return false;
920
921	if (ack == EDID_CEA_CMD_ACK)
922	return true;
923
924	offset = data[`2`]; /* nack /
925	return false;
926	}
927
928
929	#if defined(CONFIG_DRM_AMD_SECURE_DISPLAY)
930	static void dcn10_forward_crc_window(struct dmcu *dmcu,
931	struct rect *rect,
932	struct otg_phy_mux *mux_mapping)
933	{
934	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
935	unsigned int dmcu_max_retry_on_wait_reg_ready = `801`;
936	unsigned int dmcu_wait_reg_ready_interval = `100`;
937	unsigned int crc_start = `0`, crc_end = `0`, otg_phy_mux = `0`;
938	int x_start, y_start, x_end, y_end;
939
940	/ If microcontroller is not running, do nothing /
941	if (dmcu->dmcu_state != DMCU_RUNNING)
942	return;
943
944	if (!rect)
945	return;
946
947	/ waitDMCUReadyForCmd /
948	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`,
949	dmcu_wait_reg_ready_interval,
950	dmcu_max_retry_on_wait_reg_ready);
951
952	x_start = rect->x;
953	y_start = rect->y;
954	x_end = x_start + rect->width;
955	y_end = y_start + rect->height;
956
957	/ build up nitification data /
958	crc_start = (((unsigned int) x_start) << `16`) \| y_start;
959	crc_end = (((unsigned int) x_end) << `16`) \| y_end;
960	otg_phy_mux =
961	(((unsigned int) mux_mapping->otg_output_num) << `16`) \| mux_mapping->phy_output_num;
962
963	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
964	crc_start);
965
966	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG2),
967	crc_end);
968
969	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG3),
970	otg_phy_mux);
971
972	/ setDMCUParam_Cmd /
973	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
974	CRC_WIN_NOTIFY);
975
976	/ notifyDMCUMsg /
977	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
978	}
979
980	static void dcn10_stop_crc_win_update(struct dmcu *dmcu,
981	struct otg_phy_mux *mux_mapping)
982	{
983	struct dce_dmcu *dmcu_dce = TO_DCE_DMCU(dmcu);
984	unsigned int dmcu_max_retry_on_wait_reg_ready = `801`;
985	unsigned int dmcu_wait_reg_ready_interval = `100`;
986	unsigned int otg_phy_mux = `0`;
987
988	/ If microcontroller is not running, do nothing /
989	if (dmcu->dmcu_state != DMCU_RUNNING)
990	return;
991
992	/ waitDMCUReadyForCmd /
993	REG_WAIT(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `0`,
994	dmcu_wait_reg_ready_interval,
995	dmcu_max_retry_on_wait_reg_ready);
996
997	/ build up nitification data /
998	otg_phy_mux =
999	(((unsigned int) mux_mapping->otg_output_num) << `16`) \| mux_mapping->phy_output_num;
1000
1001	dm_write_reg(dmcu->ctx, REG(MASTER_COMM_DATA_REG1),
1002	otg_phy_mux);
1003
1004	/ setDMCUParam_Cmd /
1005	REG_UPDATE(MASTER_COMM_CMD_REG, MASTER_COMM_CMD_REG_BYTE0,
1006	CRC_STOP_UPDATE);
1007
1008	/ notifyDMCUMsg /
1009	REG_UPDATE(MASTER_COMM_CNTL_REG, MASTER_COMM_INTERRUPT, `1`);
1010	}
1011	#endif
1012
1013	static const struct dmcu_funcs dce_funcs = {
1014	.dmcu_init = dce_dmcu_init,
1015	.load_iram = dce_dmcu_load_iram,
1016	.set_psr_enable = dce_dmcu_set_psr_enable,
1017	.setup_psr = dce_dmcu_setup_psr,
1018	.get_psr_state = dce_get_dmcu_psr_state,
1019	.set_psr_wait_loop = dce_psr_wait_loop,
1020	.get_psr_wait_loop = dce_get_psr_wait_loop,
1021	.is_dmcu_initialized = dce_is_dmcu_initialized
1022	};
1023
1024	static const struct dmcu_funcs dcn10_funcs = {
1025	.dmcu_init = dcn10_dmcu_init,
1026	.load_iram = dcn10_dmcu_load_iram,
1027	.set_psr_enable = dcn10_dmcu_set_psr_enable,
1028	.setup_psr = dcn10_dmcu_setup_psr,
1029	.get_psr_state = dcn10_get_dmcu_psr_state,
1030	.set_psr_wait_loop = dcn10_psr_wait_loop,
1031	.get_psr_wait_loop = dcn10_get_psr_wait_loop,
1032	.send_edid_cea = dcn10_send_edid_cea,
1033	.recv_amd_vsdb = dcn10_recv_amd_vsdb,
1034	.recv_edid_cea_ack = dcn10_recv_edid_cea_ack,
1035	#if defined(CONFIG_DRM_AMD_SECURE_DISPLAY)
1036	.forward_crc_window = dcn10_forward_crc_window,
1037	.stop_crc_win_update = dcn10_stop_crc_win_update,
1038	#endif
1039	.is_dmcu_initialized = dcn10_is_dmcu_initialized
1040	};
1041
1042	static const struct dmcu_funcs dcn20_funcs = {
1043	.dmcu_init = dcn10_dmcu_init,
1044	.load_iram = dcn10_dmcu_load_iram,
1045	.set_psr_enable = dcn10_dmcu_set_psr_enable,
1046	.setup_psr = dcn10_dmcu_setup_psr,
1047	.get_psr_state = dcn10_get_dmcu_psr_state,
1048	.set_psr_wait_loop = dcn10_psr_wait_loop,
1049	.get_psr_wait_loop = dcn10_get_psr_wait_loop,
1050	.is_dmcu_initialized = dcn10_is_dmcu_initialized,
1051	.lock_phy = dcn20_lock_phy,
1052	.unlock_phy = dcn20_unlock_phy
1053	};
1054
1055	static const struct dmcu_funcs dcn21_funcs = {
1056	.dmcu_init = dcn21_dmcu_init,
1057	.load_iram = dcn10_dmcu_load_iram,
1058	.set_psr_enable = dcn10_dmcu_set_psr_enable,
1059	.setup_psr = dcn10_dmcu_setup_psr,
1060	.get_psr_state = dcn10_get_dmcu_psr_state,
1061	.set_psr_wait_loop = dcn10_psr_wait_loop,
1062	.get_psr_wait_loop = dcn10_get_psr_wait_loop,
1063	.is_dmcu_initialized = dcn10_is_dmcu_initialized,
1064	.lock_phy = dcn20_lock_phy,
1065	.unlock_phy = dcn20_unlock_phy
1066	};
1067
1068	static void dce_dmcu_construct(
1069	struct dce_dmcu *dmcu_dce,
1070	struct dc_context *ctx,
1071	const struct dce_dmcu_registers *regs,
1072	const struct dce_dmcu_shift *dmcu_shift,
1073	const struct dce_dmcu_mask *dmcu_mask)
1074	{
1075	struct dmcu *base = &dmcu_dce->base;
1076
1077	base->ctx = ctx;
1078	base->funcs = &dce_funcs;
1079	base->cached_wait_loop_number = `0`;
1080
1081	dmcu_dce->regs = regs;
1082	dmcu_dce->dmcu_shift = dmcu_shift;
1083	dmcu_dce->dmcu_mask = dmcu_mask;
1084	}
1085
1086	static void dcn21_dmcu_construct(
1087	struct dce_dmcu *dmcu_dce,
1088	struct dc_context *ctx,
1089	const struct dce_dmcu_registers *regs,
1090	const struct dce_dmcu_shift *dmcu_shift,
1091	const struct dce_dmcu_mask *dmcu_mask)
1092	{
1093	uint32_t psp_version = `0`;
1094
1095	dce_dmcu_construct(dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1096
1097	psp_version = dm_read_reg(ctx, mmMP0_SMN_C2PMSG_58);
1098	dmcu_dce->base.auto_load_dmcu = ((psp_version & `0x00FF00FF`) > `0x00110029`);
1099	dmcu_dce->base.psp_version = psp_version;
1100	}
1101
1102	struct dmcu *dce_dmcu_create(
1103	struct dc_context *ctx,
1104	const struct dce_dmcu_registers *regs,
1105	const struct dce_dmcu_shift *dmcu_shift,
1106	const struct dce_dmcu_mask *dmcu_mask)
1107	{
1108	struct dce_dmcu dmcu_dce = kzalloc(size: sizeof(dmcu_dce), GFP_KERNEL);
1109
1110	if (dmcu_dce == NULL) {
1111	BREAK_TO_DEBUGGER();
1112	return NULL;
1113	}
1114
1115	dce_dmcu_construct(
1116	dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1117
1118	dmcu_dce->base.funcs = &dce_funcs;
1119
1120	return &dmcu_dce->base;
1121	}
1122
1123	struct dmcu *dcn10_dmcu_create(
1124	struct dc_context *ctx,
1125	const struct dce_dmcu_registers *regs,
1126	const struct dce_dmcu_shift *dmcu_shift,
1127	const struct dce_dmcu_mask *dmcu_mask)
1128	{
1129	struct dce_dmcu dmcu_dce = kzalloc(size: sizeof(dmcu_dce), GFP_ATOMIC);
1130
1131	if (dmcu_dce == NULL) {
1132	BREAK_TO_DEBUGGER();
1133	return NULL;
1134	}
1135
1136	dce_dmcu_construct(
1137	dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1138
1139	dmcu_dce->base.funcs = &dcn10_funcs;
1140
1141	return &dmcu_dce->base;
1142	}
1143
1144	struct dmcu *dcn20_dmcu_create(
1145	struct dc_context *ctx,
1146	const struct dce_dmcu_registers *regs,
1147	const struct dce_dmcu_shift *dmcu_shift,
1148	const struct dce_dmcu_mask *dmcu_mask)
1149	{
1150	struct dce_dmcu dmcu_dce = kzalloc(size: sizeof(dmcu_dce), GFP_ATOMIC);
1151
1152	if (dmcu_dce == NULL) {
1153	BREAK_TO_DEBUGGER();
1154	return NULL;
1155	}
1156
1157	dce_dmcu_construct(
1158	dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1159
1160	dmcu_dce->base.funcs = &dcn20_funcs;
1161
1162	return &dmcu_dce->base;
1163	}
1164
1165	struct dmcu *dcn21_dmcu_create(
1166	struct dc_context *ctx,
1167	const struct dce_dmcu_registers *regs,
1168	const struct dce_dmcu_shift *dmcu_shift,
1169	const struct dce_dmcu_mask *dmcu_mask)
1170	{
1171	struct dce_dmcu dmcu_dce = kzalloc(size: sizeof(dmcu_dce), GFP_ATOMIC);
1172
1173	if (dmcu_dce == NULL) {
1174	BREAK_TO_DEBUGGER();
1175	return NULL;
1176	}
1177
1178	dcn21_dmcu_construct(
1179	dmcu_dce, ctx, regs, dmcu_shift, dmcu_mask);
1180
1181	dmcu_dce->base.funcs = &dcn21_funcs;
1182
1183	return &dmcu_dce->base;
1184	}
1185
1186	void dce_dmcu_destroy(struct dmcu **dmcu)
1187	{
1188	struct dce_dmcu dmcu_dce = TO_DCE_DMCU(dmcu);
1189
1190	kfree(objp: dmcu_dce);
1191	*dmcu = NULL;
1192	}
1193

source code of linux/drivers/gpu/drm/amd/display/dc/dce/dce_dmcu.c