1 /*
2  * Copyright 2017 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  */
23 /*
24  * dc_helper.c
25  *
26  *  Created on: Aug 30, 2016
27  *      Author: agrodzov
28  */
29 
30 #include <linux/delay.h>
31 #include <linux/stdarg.h>
32 
33 #include "dm_services.h"
34 
35 #include "dc.h"
36 #include "dc_dmub_srv.h"
37 #include "reg_helper.h"
38 
39 #define DC_LOGGER \
40 	ctx->logger
41 
submit_dmub_read_modify_write(struct dc_reg_helper_state * offload,const struct dc_context * ctx)42 static inline void submit_dmub_read_modify_write(
43 	struct dc_reg_helper_state *offload,
44 	const struct dc_context *ctx)
45 {
46 	struct dmub_rb_cmd_read_modify_write *cmd_buf = &offload->cmd_data.read_modify_write;
47 
48 	offload->should_burst_write =
49 			(offload->same_addr_count == (DMUB_READ_MODIFY_WRITE_SEQ__MAX - 1));
50 	cmd_buf->header.payload_bytes =
51 			sizeof(struct dmub_cmd_read_modify_write_sequence) * offload->reg_seq_count;
52 
53 	dc_wake_and_execute_dmub_cmd(ctx, &offload->cmd_data, DM_DMUB_WAIT_TYPE_NO_WAIT);
54 
55 	memset(cmd_buf, 0, sizeof(*cmd_buf));
56 
57 	offload->reg_seq_count = 0;
58 	offload->same_addr_count = 0;
59 }
60 
submit_dmub_burst_write(struct dc_reg_helper_state * offload,const struct dc_context * ctx)61 static inline void submit_dmub_burst_write(
62 	struct dc_reg_helper_state *offload,
63 	const struct dc_context *ctx)
64 {
65 	struct dmub_rb_cmd_burst_write *cmd_buf = &offload->cmd_data.burst_write;
66 
67 	cmd_buf->header.payload_bytes =
68 			sizeof(uint32_t) * offload->reg_seq_count;
69 
70 	dc_wake_and_execute_dmub_cmd(ctx, &offload->cmd_data, DM_DMUB_WAIT_TYPE_NO_WAIT);
71 
72 	memset(cmd_buf, 0, sizeof(*cmd_buf));
73 
74 	offload->reg_seq_count = 0;
75 }
76 
submit_dmub_reg_wait(struct dc_reg_helper_state * offload,const struct dc_context * ctx)77 static inline void submit_dmub_reg_wait(
78 		struct dc_reg_helper_state *offload,
79 		const struct dc_context *ctx)
80 {
81 	struct dmub_rb_cmd_reg_wait *cmd_buf = &offload->cmd_data.reg_wait;
82 
83 	dc_wake_and_execute_dmub_cmd(ctx, &offload->cmd_data, DM_DMUB_WAIT_TYPE_NO_WAIT);
84 
85 	memset(cmd_buf, 0, sizeof(*cmd_buf));
86 	offload->reg_seq_count = 0;
87 }
88 
89 struct dc_reg_value_masks {
90 	uint32_t value;
91 	uint32_t mask;
92 };
93 
set_reg_field_value_masks(struct dc_reg_value_masks * field_value_mask,uint32_t value,uint32_t mask,uint8_t shift)94 static inline void set_reg_field_value_masks(
95 	struct dc_reg_value_masks *field_value_mask,
96 	uint32_t value,
97 	uint32_t mask,
98 	uint8_t shift)
99 {
100 	ASSERT(mask != 0);
101 
102 	field_value_mask->value = (field_value_mask->value & ~mask) | (mask & (value << shift));
103 	field_value_mask->mask = field_value_mask->mask | mask;
104 }
105 
set_reg_field_values(struct dc_reg_value_masks * field_value_mask,uint32_t addr,int n,uint8_t shift1,uint32_t mask1,uint32_t field_value1,va_list ap)106 static void set_reg_field_values(struct dc_reg_value_masks *field_value_mask,
107 		uint32_t addr, int n,
108 		uint8_t shift1, uint32_t mask1, uint32_t field_value1,
109 		va_list ap)
110 {
111 	uint32_t shift, mask, field_value;
112 	int i = 1;
113 
114 	/* gather all bits value/mask getting updated in this register */
115 	set_reg_field_value_masks(field_value_mask,
116 			field_value1, mask1, shift1);
117 
118 	while (i < n) {
119 		shift = va_arg(ap, uint32_t);
120 		mask = va_arg(ap, uint32_t);
121 		field_value = va_arg(ap, uint32_t);
122 
123 		set_reg_field_value_masks(field_value_mask,
124 				field_value, mask, shift);
125 		i++;
126 	}
127 }
128 
dmub_flush_buffer_execute(struct dc_reg_helper_state * offload,const struct dc_context * ctx)129 static void dmub_flush_buffer_execute(
130 		struct dc_reg_helper_state *offload,
131 		const struct dc_context *ctx)
132 {
133 	submit_dmub_read_modify_write(offload, ctx);
134 }
135 
dmub_flush_burst_write_buffer_execute(struct dc_reg_helper_state * offload,const struct dc_context * ctx)136 static void dmub_flush_burst_write_buffer_execute(
137 		struct dc_reg_helper_state *offload,
138 		const struct dc_context *ctx)
139 {
140 	submit_dmub_burst_write(offload, ctx);
141 }
142 
dmub_reg_value_burst_set_pack(const struct dc_context * ctx,uint32_t addr,uint32_t reg_val)143 static bool dmub_reg_value_burst_set_pack(const struct dc_context *ctx, uint32_t addr,
144 		uint32_t reg_val)
145 {
146 	struct dc_reg_helper_state *offload = &ctx->dmub_srv->reg_helper_offload;
147 	struct dmub_rb_cmd_burst_write *cmd_buf = &offload->cmd_data.burst_write;
148 
149 	/* flush command if buffer is full */
150 	if (offload->reg_seq_count == DMUB_BURST_WRITE_VALUES__MAX)
151 		dmub_flush_burst_write_buffer_execute(offload, ctx);
152 
153 	if (offload->cmd_data.cmd_common.header.type == DMUB_CMD__REG_SEQ_BURST_WRITE &&
154 			addr != cmd_buf->addr) {
155 		dmub_flush_burst_write_buffer_execute(offload, ctx);
156 		return false;
157 	}
158 
159 	cmd_buf->header.type = DMUB_CMD__REG_SEQ_BURST_WRITE;
160 	cmd_buf->header.sub_type = 0;
161 	cmd_buf->addr = addr;
162 	cmd_buf->write_values[offload->reg_seq_count] = reg_val;
163 	offload->reg_seq_count++;
164 
165 	return true;
166 }
167 
dmub_reg_value_pack(const struct dc_context * ctx,uint32_t addr,struct dc_reg_value_masks * field_value_mask)168 static uint32_t dmub_reg_value_pack(const struct dc_context *ctx, uint32_t addr,
169 		struct dc_reg_value_masks *field_value_mask)
170 {
171 	struct dc_reg_helper_state *offload = &ctx->dmub_srv->reg_helper_offload;
172 	struct dmub_rb_cmd_read_modify_write *cmd_buf = &offload->cmd_data.read_modify_write;
173 	struct dmub_cmd_read_modify_write_sequence *seq;
174 
175 	/* flush command if buffer is full */
176 	if (offload->cmd_data.cmd_common.header.type != DMUB_CMD__REG_SEQ_BURST_WRITE &&
177 			offload->reg_seq_count == DMUB_READ_MODIFY_WRITE_SEQ__MAX)
178 		dmub_flush_buffer_execute(offload, ctx);
179 
180 	if (offload->should_burst_write) {
181 		if (dmub_reg_value_burst_set_pack(ctx, addr, field_value_mask->value))
182 			return field_value_mask->value;
183 		else
184 			offload->should_burst_write = false;
185 	}
186 
187 	/* pack commands */
188 	cmd_buf->header.type = DMUB_CMD__REG_SEQ_READ_MODIFY_WRITE;
189 	cmd_buf->header.sub_type = 0;
190 	seq = &cmd_buf->seq[offload->reg_seq_count];
191 
192 	if (offload->reg_seq_count) {
193 		if (cmd_buf->seq[offload->reg_seq_count - 1].addr == addr)
194 			offload->same_addr_count++;
195 		else
196 			offload->same_addr_count = 0;
197 	}
198 
199 	seq->addr = addr;
200 	seq->modify_mask = field_value_mask->mask;
201 	seq->modify_value = field_value_mask->value;
202 	offload->reg_seq_count++;
203 
204 	return field_value_mask->value;
205 }
206 
dmub_reg_wait_done_pack(const struct dc_context * ctx,uint32_t addr,uint32_t mask,uint32_t shift,uint32_t condition_value,uint32_t time_out_us)207 static void dmub_reg_wait_done_pack(const struct dc_context *ctx, uint32_t addr,
208 		uint32_t mask, uint32_t shift, uint32_t condition_value, uint32_t time_out_us)
209 {
210 	struct dc_reg_helper_state *offload = &ctx->dmub_srv->reg_helper_offload;
211 	struct dmub_rb_cmd_reg_wait *cmd_buf = &offload->cmd_data.reg_wait;
212 
213 	cmd_buf->header.type = DMUB_CMD__REG_REG_WAIT;
214 	cmd_buf->header.sub_type = 0;
215 	cmd_buf->reg_wait.addr = addr;
216 	cmd_buf->reg_wait.condition_field_value = mask & (condition_value << shift);
217 	cmd_buf->reg_wait.mask = mask;
218 	cmd_buf->reg_wait.time_out_us = time_out_us;
219 }
220 
generic_reg_update_ex(const struct dc_context * ctx,uint32_t addr,int n,uint8_t shift1,uint32_t mask1,uint32_t field_value1,...)221 uint32_t generic_reg_update_ex(const struct dc_context *ctx,
222 		uint32_t addr, int n,
223 		uint8_t shift1, uint32_t mask1, uint32_t field_value1,
224 		...)
225 {
226 	struct dc_reg_value_masks field_value_mask = {0};
227 	uint32_t reg_val;
228 	va_list ap;
229 
230 	va_start(ap, field_value1);
231 
232 	set_reg_field_values(&field_value_mask, addr, n, shift1, mask1,
233 			field_value1, ap);
234 
235 	va_end(ap);
236 
237 	if (ctx->dmub_srv &&
238 	    ctx->dmub_srv->reg_helper_offload.gather_in_progress)
239 		return dmub_reg_value_pack(ctx, addr, &field_value_mask);
240 		/* todo: return void so we can decouple code running in driver from register states */
241 
242 	/* mmio write directly */
243 	reg_val = dm_read_reg(ctx, addr);
244 	reg_val = (reg_val & ~field_value_mask.mask) | field_value_mask.value;
245 	dm_write_reg(ctx, addr, reg_val);
246 	return reg_val;
247 }
248 
generic_reg_set_ex(const struct dc_context * ctx,uint32_t addr,uint32_t reg_val,int n,uint8_t shift1,uint32_t mask1,uint32_t field_value1,...)249 uint32_t generic_reg_set_ex(const struct dc_context *ctx,
250 		uint32_t addr, uint32_t reg_val, int n,
251 		uint8_t shift1, uint32_t mask1, uint32_t field_value1,
252 		...)
253 {
254 	struct dc_reg_value_masks field_value_mask = {0};
255 	va_list ap;
256 
257 	va_start(ap, field_value1);
258 
259 	set_reg_field_values(&field_value_mask, addr, n, shift1, mask1,
260 			field_value1, ap);
261 
262 	va_end(ap);
263 
264 	/* mmio write directly */
265 	reg_val = (reg_val & ~field_value_mask.mask) | field_value_mask.value;
266 
267 	if (ctx->dmub_srv &&
268 	    ctx->dmub_srv->reg_helper_offload.gather_in_progress) {
269 		return dmub_reg_value_burst_set_pack(ctx, addr, reg_val);
270 		/* todo: return void so we can decouple code running in driver from register states */
271 	}
272 
273 	dm_write_reg(ctx, addr, reg_val);
274 	return reg_val;
275 }
276 
generic_reg_get(const struct dc_context * ctx,uint32_t addr,uint8_t shift,uint32_t mask,uint32_t * field_value)277 uint32_t generic_reg_get(const struct dc_context *ctx, uint32_t addr,
278 		uint8_t shift, uint32_t mask, uint32_t *field_value)
279 {
280 	uint32_t reg_val = dm_read_reg(ctx, addr);
281 	*field_value = get_reg_field_value_ex(reg_val, mask, shift);
282 	return reg_val;
283 }
284 
generic_reg_get2(const struct dc_context * ctx,uint32_t addr,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,uint8_t shift2,uint32_t mask2,uint32_t * field_value2)285 uint32_t generic_reg_get2(const struct dc_context *ctx, uint32_t addr,
286 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
287 		uint8_t shift2, uint32_t mask2, uint32_t *field_value2)
288 {
289 	uint32_t reg_val = dm_read_reg(ctx, addr);
290 	*field_value1 = get_reg_field_value_ex(reg_val, mask1, shift1);
291 	*field_value2 = get_reg_field_value_ex(reg_val, mask2, shift2);
292 	return reg_val;
293 }
294 
generic_reg_get3(const struct dc_context * ctx,uint32_t addr,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,uint8_t shift2,uint32_t mask2,uint32_t * field_value2,uint8_t shift3,uint32_t mask3,uint32_t * field_value3)295 uint32_t generic_reg_get3(const struct dc_context *ctx, uint32_t addr,
296 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
297 		uint8_t shift2, uint32_t mask2, uint32_t *field_value2,
298 		uint8_t shift3, uint32_t mask3, uint32_t *field_value3)
299 {
300 	uint32_t reg_val = dm_read_reg(ctx, addr);
301 	*field_value1 = get_reg_field_value_ex(reg_val, mask1, shift1);
302 	*field_value2 = get_reg_field_value_ex(reg_val, mask2, shift2);
303 	*field_value3 = get_reg_field_value_ex(reg_val, mask3, shift3);
304 	return reg_val;
305 }
306 
generic_reg_get4(const struct dc_context * ctx,uint32_t addr,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,uint8_t shift2,uint32_t mask2,uint32_t * field_value2,uint8_t shift3,uint32_t mask3,uint32_t * field_value3,uint8_t shift4,uint32_t mask4,uint32_t * field_value4)307 uint32_t generic_reg_get4(const struct dc_context *ctx, uint32_t addr,
308 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
309 		uint8_t shift2, uint32_t mask2, uint32_t *field_value2,
310 		uint8_t shift3, uint32_t mask3, uint32_t *field_value3,
311 		uint8_t shift4, uint32_t mask4, uint32_t *field_value4)
312 {
313 	uint32_t reg_val = dm_read_reg(ctx, addr);
314 	*field_value1 = get_reg_field_value_ex(reg_val, mask1, shift1);
315 	*field_value2 = get_reg_field_value_ex(reg_val, mask2, shift2);
316 	*field_value3 = get_reg_field_value_ex(reg_val, mask3, shift3);
317 	*field_value4 = get_reg_field_value_ex(reg_val, mask4, shift4);
318 	return reg_val;
319 }
320 
generic_reg_get5(const struct dc_context * ctx,uint32_t addr,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,uint8_t shift2,uint32_t mask2,uint32_t * field_value2,uint8_t shift3,uint32_t mask3,uint32_t * field_value3,uint8_t shift4,uint32_t mask4,uint32_t * field_value4,uint8_t shift5,uint32_t mask5,uint32_t * field_value5)321 uint32_t generic_reg_get5(const struct dc_context *ctx, uint32_t addr,
322 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
323 		uint8_t shift2, uint32_t mask2, uint32_t *field_value2,
324 		uint8_t shift3, uint32_t mask3, uint32_t *field_value3,
325 		uint8_t shift4, uint32_t mask4, uint32_t *field_value4,
326 		uint8_t shift5, uint32_t mask5, uint32_t *field_value5)
327 {
328 	uint32_t reg_val = dm_read_reg(ctx, addr);
329 	*field_value1 = get_reg_field_value_ex(reg_val, mask1, shift1);
330 	*field_value2 = get_reg_field_value_ex(reg_val, mask2, shift2);
331 	*field_value3 = get_reg_field_value_ex(reg_val, mask3, shift3);
332 	*field_value4 = get_reg_field_value_ex(reg_val, mask4, shift4);
333 	*field_value5 = get_reg_field_value_ex(reg_val, mask5, shift5);
334 	return reg_val;
335 }
336 
generic_reg_get6(const struct dc_context * ctx,uint32_t addr,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,uint8_t shift2,uint32_t mask2,uint32_t * field_value2,uint8_t shift3,uint32_t mask3,uint32_t * field_value3,uint8_t shift4,uint32_t mask4,uint32_t * field_value4,uint8_t shift5,uint32_t mask5,uint32_t * field_value5,uint8_t shift6,uint32_t mask6,uint32_t * field_value6)337 uint32_t generic_reg_get6(const struct dc_context *ctx, uint32_t addr,
338 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
339 		uint8_t shift2, uint32_t mask2, uint32_t *field_value2,
340 		uint8_t shift3, uint32_t mask3, uint32_t *field_value3,
341 		uint8_t shift4, uint32_t mask4, uint32_t *field_value4,
342 		uint8_t shift5, uint32_t mask5, uint32_t *field_value5,
343 		uint8_t shift6, uint32_t mask6, uint32_t *field_value6)
344 {
345 	uint32_t reg_val = dm_read_reg(ctx, addr);
346 	*field_value1 = get_reg_field_value_ex(reg_val, mask1, shift1);
347 	*field_value2 = get_reg_field_value_ex(reg_val, mask2, shift2);
348 	*field_value3 = get_reg_field_value_ex(reg_val, mask3, shift3);
349 	*field_value4 = get_reg_field_value_ex(reg_val, mask4, shift4);
350 	*field_value5 = get_reg_field_value_ex(reg_val, mask5, shift5);
351 	*field_value6 = get_reg_field_value_ex(reg_val, mask6, shift6);
352 	return reg_val;
353 }
354 
generic_reg_get7(const struct dc_context * ctx,uint32_t addr,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,uint8_t shift2,uint32_t mask2,uint32_t * field_value2,uint8_t shift3,uint32_t mask3,uint32_t * field_value3,uint8_t shift4,uint32_t mask4,uint32_t * field_value4,uint8_t shift5,uint32_t mask5,uint32_t * field_value5,uint8_t shift6,uint32_t mask6,uint32_t * field_value6,uint8_t shift7,uint32_t mask7,uint32_t * field_value7)355 uint32_t generic_reg_get7(const struct dc_context *ctx, uint32_t addr,
356 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
357 		uint8_t shift2, uint32_t mask2, uint32_t *field_value2,
358 		uint8_t shift3, uint32_t mask3, uint32_t *field_value3,
359 		uint8_t shift4, uint32_t mask4, uint32_t *field_value4,
360 		uint8_t shift5, uint32_t mask5, uint32_t *field_value5,
361 		uint8_t shift6, uint32_t mask6, uint32_t *field_value6,
362 		uint8_t shift7, uint32_t mask7, uint32_t *field_value7)
363 {
364 	uint32_t reg_val = dm_read_reg(ctx, addr);
365 	*field_value1 = get_reg_field_value_ex(reg_val, mask1, shift1);
366 	*field_value2 = get_reg_field_value_ex(reg_val, mask2, shift2);
367 	*field_value3 = get_reg_field_value_ex(reg_val, mask3, shift3);
368 	*field_value4 = get_reg_field_value_ex(reg_val, mask4, shift4);
369 	*field_value5 = get_reg_field_value_ex(reg_val, mask5, shift5);
370 	*field_value6 = get_reg_field_value_ex(reg_val, mask6, shift6);
371 	*field_value7 = get_reg_field_value_ex(reg_val, mask7, shift7);
372 	return reg_val;
373 }
374 
generic_reg_get8(const struct dc_context * ctx,uint32_t addr,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,uint8_t shift2,uint32_t mask2,uint32_t * field_value2,uint8_t shift3,uint32_t mask3,uint32_t * field_value3,uint8_t shift4,uint32_t mask4,uint32_t * field_value4,uint8_t shift5,uint32_t mask5,uint32_t * field_value5,uint8_t shift6,uint32_t mask6,uint32_t * field_value6,uint8_t shift7,uint32_t mask7,uint32_t * field_value7,uint8_t shift8,uint32_t mask8,uint32_t * field_value8)375 uint32_t generic_reg_get8(const struct dc_context *ctx, uint32_t addr,
376 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
377 		uint8_t shift2, uint32_t mask2, uint32_t *field_value2,
378 		uint8_t shift3, uint32_t mask3, uint32_t *field_value3,
379 		uint8_t shift4, uint32_t mask4, uint32_t *field_value4,
380 		uint8_t shift5, uint32_t mask5, uint32_t *field_value5,
381 		uint8_t shift6, uint32_t mask6, uint32_t *field_value6,
382 		uint8_t shift7, uint32_t mask7, uint32_t *field_value7,
383 		uint8_t shift8, uint32_t mask8, uint32_t *field_value8)
384 {
385 	uint32_t reg_val = dm_read_reg(ctx, addr);
386 	*field_value1 = get_reg_field_value_ex(reg_val, mask1, shift1);
387 	*field_value2 = get_reg_field_value_ex(reg_val, mask2, shift2);
388 	*field_value3 = get_reg_field_value_ex(reg_val, mask3, shift3);
389 	*field_value4 = get_reg_field_value_ex(reg_val, mask4, shift4);
390 	*field_value5 = get_reg_field_value_ex(reg_val, mask5, shift5);
391 	*field_value6 = get_reg_field_value_ex(reg_val, mask6, shift6);
392 	*field_value7 = get_reg_field_value_ex(reg_val, mask7, shift7);
393 	*field_value8 = get_reg_field_value_ex(reg_val, mask8, shift8);
394 	return reg_val;
395 }
396 /* note:  va version of this is pretty bad idea, since there is a output parameter pass by pointer
397  * compiler won't be able to check for size match and is prone to stack corruption type of bugs
398 
399 uint32_t generic_reg_get(const struct dc_context *ctx,
400 		uint32_t addr, int n, ...)
401 {
402 	uint32_t shift, mask;
403 	uint32_t *field_value;
404 	uint32_t reg_val;
405 	int i = 0;
406 
407 	reg_val = dm_read_reg(ctx, addr);
408 
409 	va_list ap;
410 	va_start(ap, n);
411 
412 	while (i < n) {
413 		shift = va_arg(ap, uint32_t);
414 		mask = va_arg(ap, uint32_t);
415 		field_value = va_arg(ap, uint32_t *);
416 
417 		*field_value = get_reg_field_value_ex(reg_val, mask, shift);
418 		i++;
419 	}
420 
421 	va_end(ap);
422 
423 	return reg_val;
424 }
425 */
426 
generic_reg_wait(const struct dc_context * ctx,uint32_t addr,uint32_t shift,uint32_t mask,uint32_t condition_value,unsigned int delay_between_poll_us,unsigned int time_out_num_tries,const char * func_name,int line)427 void generic_reg_wait(const struct dc_context *ctx,
428 	uint32_t addr, uint32_t shift, uint32_t mask, uint32_t condition_value,
429 	unsigned int delay_between_poll_us, unsigned int time_out_num_tries,
430 	const char *func_name, int line)
431 {
432 	uint32_t field_value;
433 	uint32_t reg_val;
434 	int i;
435 
436 	if (ctx->dmub_srv &&
437 	    ctx->dmub_srv->reg_helper_offload.gather_in_progress) {
438 		dmub_reg_wait_done_pack(ctx, addr, mask, shift, condition_value,
439 				delay_between_poll_us * time_out_num_tries);
440 		return;
441 	}
442 
443 	/*
444 	 * Something is terribly wrong if time out is > 3000ms.
445 	 * 3000ms is the maximum time needed for SMU to pass values back.
446 	 * This value comes from experiments.
447 	 *
448 	 */
449 	ASSERT(delay_between_poll_us * time_out_num_tries <= 3000000);
450 
451 	for (i = 0; i <= time_out_num_tries; i++) {
452 		if (i) {
453 			if (delay_between_poll_us >= 1000)
454 				msleep(delay_between_poll_us/1000);
455 			else if (delay_between_poll_us > 0)
456 				udelay(delay_between_poll_us);
457 		}
458 
459 		reg_val = dm_read_reg(ctx, addr);
460 
461 		field_value = get_reg_field_value_ex(reg_val, mask, shift);
462 
463 		if (field_value == condition_value) {
464 			if (i * delay_between_poll_us > 1000)
465 				DC_LOG_DC("REG_WAIT taking a while: %dms in %s line:%d\n",
466 						delay_between_poll_us * i / 1000,
467 						func_name, line);
468 			return;
469 		}
470 	}
471 
472 	DC_LOG_WARNING("REG_WAIT timeout %dus * %d tries - %s line:%d\n",
473 			delay_between_poll_us, time_out_num_tries,
474 			func_name, line);
475 
476 	BREAK_TO_DEBUGGER();
477 }
478 
generic_write_indirect_reg(const struct dc_context * ctx,uint32_t addr_index,uint32_t addr_data,uint32_t index,uint32_t data)479 void generic_write_indirect_reg(const struct dc_context *ctx,
480 		uint32_t addr_index, uint32_t addr_data,
481 		uint32_t index, uint32_t data)
482 {
483 	dm_write_reg(ctx, addr_index, index);
484 	dm_write_reg(ctx, addr_data, data);
485 }
486 
generic_read_indirect_reg(const struct dc_context * ctx,uint32_t addr_index,uint32_t addr_data,uint32_t index)487 uint32_t generic_read_indirect_reg(const struct dc_context *ctx,
488 		uint32_t addr_index, uint32_t addr_data,
489 		uint32_t index)
490 {
491 	uint32_t value = 0;
492 
493 	// when reg read, there should not be any offload.
494 	if (ctx->dmub_srv &&
495 	    ctx->dmub_srv->reg_helper_offload.gather_in_progress) {
496 		ASSERT(false);
497 	}
498 
499 	dm_write_reg(ctx, addr_index, index);
500 	value = dm_read_reg(ctx, addr_data);
501 
502 	return value;
503 }
504 
generic_indirect_reg_get(const struct dc_context * ctx,uint32_t addr_index,uint32_t addr_data,uint32_t index,int n,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,...)505 uint32_t generic_indirect_reg_get(const struct dc_context *ctx,
506 		uint32_t addr_index, uint32_t addr_data,
507 		uint32_t index, int n,
508 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
509 		...)
510 {
511 	uint32_t shift, mask, *field_value;
512 	uint32_t value = 0;
513 	int i = 1;
514 
515 	va_list ap;
516 
517 	va_start(ap, field_value1);
518 
519 	value = generic_read_indirect_reg(ctx, addr_index, addr_data, index);
520 	*field_value1 = get_reg_field_value_ex(value, mask1, shift1);
521 
522 	while (i < n) {
523 		shift = va_arg(ap, uint32_t);
524 		mask = va_arg(ap, uint32_t);
525 		field_value = va_arg(ap, uint32_t *);
526 
527 		*field_value = get_reg_field_value_ex(value, mask, shift);
528 		i++;
529 	}
530 
531 	va_end(ap);
532 
533 	return value;
534 }
535 
generic_indirect_reg_update_ex(const struct dc_context * ctx,uint32_t addr_index,uint32_t addr_data,uint32_t index,uint32_t reg_val,int n,uint8_t shift1,uint32_t mask1,uint32_t field_value1,...)536 uint32_t generic_indirect_reg_update_ex(const struct dc_context *ctx,
537 		uint32_t addr_index, uint32_t addr_data,
538 		uint32_t index, uint32_t reg_val, int n,
539 		uint8_t shift1, uint32_t mask1, uint32_t field_value1,
540 		...)
541 {
542 	uint32_t shift, mask, field_value;
543 	int i = 1;
544 
545 	va_list ap;
546 
547 	va_start(ap, field_value1);
548 
549 	reg_val = set_reg_field_value_ex(reg_val, field_value1, mask1, shift1);
550 
551 	while (i < n) {
552 		shift = va_arg(ap, uint32_t);
553 		mask = va_arg(ap, uint32_t);
554 		field_value = va_arg(ap, uint32_t);
555 
556 		reg_val = set_reg_field_value_ex(reg_val, field_value, mask, shift);
557 		i++;
558 	}
559 
560 	generic_write_indirect_reg(ctx, addr_index, addr_data, index, reg_val);
561 	va_end(ap);
562 
563 	return reg_val;
564 }
565 
566 
generic_indirect_reg_update_ex_sync(const struct dc_context * ctx,uint32_t index,uint32_t reg_val,int n,uint8_t shift1,uint32_t mask1,uint32_t field_value1,...)567 uint32_t generic_indirect_reg_update_ex_sync(const struct dc_context *ctx,
568 		uint32_t index, uint32_t reg_val, int n,
569 		uint8_t shift1, uint32_t mask1, uint32_t field_value1,
570 		...)
571 {
572 	uint32_t shift, mask, field_value;
573 	int i = 1;
574 
575 	va_list ap;
576 
577 	va_start(ap, field_value1);
578 
579 	reg_val = set_reg_field_value_ex(reg_val, field_value1, mask1, shift1);
580 
581 	while (i < n) {
582 		shift = va_arg(ap, uint32_t);
583 		mask = va_arg(ap, uint32_t);
584 		field_value = va_arg(ap, uint32_t);
585 
586 		reg_val = set_reg_field_value_ex(reg_val, field_value, mask, shift);
587 		i++;
588 	}
589 
590 	dm_write_index_reg(ctx, CGS_IND_REG__PCIE, index, reg_val);
591 	va_end(ap);
592 
593 	return reg_val;
594 }
595 
generic_indirect_reg_get_sync(const struct dc_context * ctx,uint32_t index,int n,uint8_t shift1,uint32_t mask1,uint32_t * field_value1,...)596 uint32_t generic_indirect_reg_get_sync(const struct dc_context *ctx,
597 		uint32_t index, int n,
598 		uint8_t shift1, uint32_t mask1, uint32_t *field_value1,
599 		...)
600 {
601 	uint32_t shift, mask, *field_value;
602 	uint32_t value = 0;
603 	int i = 1;
604 
605 	va_list ap;
606 
607 	va_start(ap, field_value1);
608 
609 	value = dm_read_index_reg(ctx, CGS_IND_REG__PCIE, index);
610 	*field_value1 = get_reg_field_value_ex(value, mask1, shift1);
611 
612 	while (i < n) {
613 		shift = va_arg(ap, uint32_t);
614 		mask = va_arg(ap, uint32_t);
615 		field_value = va_arg(ap, uint32_t *);
616 
617 		*field_value = get_reg_field_value_ex(value, mask, shift);
618 		i++;
619 	}
620 
621 	va_end(ap);
622 
623 	return value;
624 }
625 
reg_sequence_start_gather(const struct dc_context * ctx)626 void reg_sequence_start_gather(const struct dc_context *ctx)
627 {
628 	/* if reg sequence is supported and enabled, set flag to
629 	 * indicate we want to have REG_SET, REG_UPDATE macro build
630 	 * reg sequence command buffer rather than MMIO directly.
631 	 */
632 
633 	if (ctx->dmub_srv && ctx->dc->debug.dmub_offload_enabled) {
634 		struct dc_reg_helper_state *offload =
635 			&ctx->dmub_srv->reg_helper_offload;
636 
637 		/* caller sequence mismatch.  need to debug caller.  offload will not work!!! */
638 		ASSERT(!offload->gather_in_progress);
639 
640 		offload->gather_in_progress = true;
641 	}
642 }
643 
reg_sequence_start_execute(const struct dc_context * ctx)644 void reg_sequence_start_execute(const struct dc_context *ctx)
645 {
646 	struct dc_reg_helper_state *offload;
647 
648 	if (!ctx->dmub_srv)
649 		return;
650 
651 	offload = &ctx->dmub_srv->reg_helper_offload;
652 
653 	if (offload && offload->gather_in_progress) {
654 		offload->gather_in_progress = false;
655 		offload->should_burst_write = false;
656 		switch (offload->cmd_data.cmd_common.header.type) {
657 		case DMUB_CMD__REG_SEQ_READ_MODIFY_WRITE:
658 			submit_dmub_read_modify_write(offload, ctx);
659 			break;
660 		case DMUB_CMD__REG_REG_WAIT:
661 			submit_dmub_reg_wait(offload, ctx);
662 			break;
663 		case DMUB_CMD__REG_SEQ_BURST_WRITE:
664 			submit_dmub_burst_write(offload, ctx);
665 			break;
666 		default:
667 			return;
668 		}
669 	}
670 }
671 
reg_sequence_wait_done(const struct dc_context * ctx)672 void reg_sequence_wait_done(const struct dc_context *ctx)
673 {
674 	/* callback to DM to poll for last submission done*/
675 	struct dc_reg_helper_state *offload;
676 
677 	if (!ctx->dmub_srv)
678 		return;
679 
680 	offload = &ctx->dmub_srv->reg_helper_offload;
681 
682 	if (offload &&
683 	    ctx->dc->debug.dmub_offload_enabled &&
684 	    !ctx->dc->debug.dmcub_emulation) {
685 		dc_dmub_srv_wait_idle(ctx->dmub_srv);
686 	}
687 }
688 
dce_version_to_string(const int version)689 char *dce_version_to_string(const int version)
690 {
691 	switch (version) {
692 	case DCE_VERSION_8_0:
693 		return "DCE 8.0";
694 	case DCE_VERSION_8_1:
695 		return "DCE 8.1";
696 	case DCE_VERSION_8_3:
697 		return "DCE 8.3";
698 	case DCE_VERSION_10_0:
699 		return "DCE 10.0";
700 	case DCE_VERSION_11_0:
701 		return "DCE 11.0";
702 	case DCE_VERSION_11_2:
703 		return "DCE 11.2";
704 	case DCE_VERSION_11_22:
705 		return "DCE 11.22";
706 	case DCE_VERSION_12_0:
707 		return "DCE 12.0";
708 	case DCE_VERSION_12_1:
709 		return "DCE 12.1";
710 	case DCN_VERSION_1_0:
711 		return "DCN 1.0";
712 	case DCN_VERSION_1_01:
713 		return "DCN 1.0.1";
714 	case DCN_VERSION_2_0:
715 		return "DCN 2.0";
716 	case DCN_VERSION_2_1:
717 		return "DCN 2.1";
718 	case DCN_VERSION_2_01:
719 		return "DCN 2.0.1";
720 	case DCN_VERSION_3_0:
721 		return "DCN 3.0";
722 	case DCN_VERSION_3_01:
723 		return "DCN 3.0.1";
724 	case DCN_VERSION_3_02:
725 		return "DCN 3.0.2";
726 	case DCN_VERSION_3_03:
727 		return "DCN 3.0.3";
728 	case DCN_VERSION_3_1:
729 		return "DCN 3.1";
730 	case DCN_VERSION_3_14:
731 		return "DCN 3.1.4";
732 	case DCN_VERSION_3_15:
733 		return "DCN 3.1.5";
734 	case DCN_VERSION_3_16:
735 		return "DCN 3.1.6";
736 	case DCN_VERSION_3_2:
737 		return "DCN 3.2";
738 	case DCN_VERSION_3_21:
739 		return "DCN 3.2.1";
740 	case DCN_VERSION_3_5:
741 		return "DCN 3.5";
742 	case DCN_VERSION_3_51:
743 		return "DCN 3.5.1";
744 	case DCN_VERSION_4_01:
745 		return "DCN 4.0.1";
746 	default:
747 		return "Unknown";
748 	}
749 }
750