xref: /linux/drivers/platform/x86/amd/pmf/cnqf.c (revision 2612e3bbc0386368a850140a6c9b990cd496a5ec)
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * AMD Platform Management Framework Driver
4  *
5  * Copyright (c) 2022, Advanced Micro Devices, Inc.
6  * All Rights Reserved.
7  *
8  * Author: Shyam Sundar S K <Shyam-sundar.S-k@amd.com>
9  */
10 
11 #include <linux/workqueue.h>
12 #include "pmf.h"
13 
14 static struct cnqf_config config_store;
15 
16 #ifdef CONFIG_AMD_PMF_DEBUG
17 static const char *state_as_str_cnqf(unsigned int state)
18 {
19 	switch (state) {
20 	case APMF_CNQF_TURBO:
21 		return "turbo";
22 	case APMF_CNQF_PERFORMANCE:
23 		return "performance";
24 	case APMF_CNQF_BALANCE:
25 		return "balance";
26 	case APMF_CNQF_QUIET:
27 		return "quiet";
28 	default:
29 		return "Unknown CnQF State";
30 	}
31 }
32 
33 static void amd_pmf_cnqf_dump_defaults(struct apmf_dyn_slider_output *data, int idx)
34 {
35 	int i;
36 
37 	pr_debug("Dynamic Slider %s Defaults - BEGIN\n", idx ? "DC" : "AC");
38 	pr_debug("size: %u\n", data->size);
39 	pr_debug("flags: 0x%x\n", data->flags);
40 
41 	/* Time constants */
42 	pr_debug("t_perf_to_turbo: %u ms\n", data->t_perf_to_turbo);
43 	pr_debug("t_balanced_to_perf: %u ms\n", data->t_balanced_to_perf);
44 	pr_debug("t_quiet_to_balanced: %u ms\n", data->t_quiet_to_balanced);
45 	pr_debug("t_balanced_to_quiet: %u ms\n", data->t_balanced_to_quiet);
46 	pr_debug("t_perf_to_balanced: %u ms\n", data->t_perf_to_balanced);
47 	pr_debug("t_turbo_to_perf: %u ms\n", data->t_turbo_to_perf);
48 
49 	for (i = 0 ; i < CNQF_MODE_MAX ; i++) {
50 		pr_debug("pfloor_%s: %u mW\n", state_as_str_cnqf(i), data->ps[i].pfloor);
51 		pr_debug("fppt_%s: %u mW\n", state_as_str_cnqf(i), data->ps[i].fppt);
52 		pr_debug("sppt_%s: %u mW\n", state_as_str_cnqf(i), data->ps[i].sppt);
53 		pr_debug("sppt_apuonly_%s: %u mW\n",
54 			 state_as_str_cnqf(i), data->ps[i].sppt_apu_only);
55 		pr_debug("spl_%s: %u mW\n", state_as_str_cnqf(i), data->ps[i].spl);
56 		pr_debug("stt_minlimit_%s: %u mW\n",
57 			 state_as_str_cnqf(i), data->ps[i].stt_min_limit);
58 		pr_debug("stt_skintemp_apu_%s: %u C\n", state_as_str_cnqf(i),
59 			 data->ps[i].stt_skintemp[STT_TEMP_APU]);
60 		pr_debug("stt_skintemp_hs2_%s: %u C\n", state_as_str_cnqf(i),
61 			 data->ps[i].stt_skintemp[STT_TEMP_HS2]);
62 		pr_debug("fan_id_%s: %u\n", state_as_str_cnqf(i), data->ps[i].fan_id);
63 	}
64 
65 	pr_debug("Dynamic Slider %s Defaults - END\n", idx ? "DC" : "AC");
66 }
67 #else
68 static void amd_pmf_cnqf_dump_defaults(struct apmf_dyn_slider_output *data, int idx) {}
69 #endif
70 
71 static int amd_pmf_set_cnqf(struct amd_pmf_dev *dev, int src, int idx,
72 			    struct cnqf_config *table)
73 {
74 	struct power_table_control *pc;
75 
76 	pc = &config_store.mode_set[src][idx].power_control;
77 
78 	amd_pmf_send_cmd(dev, SET_SPL, false, pc->spl, NULL);
79 	amd_pmf_send_cmd(dev, SET_FPPT, false, pc->fppt, NULL);
80 	amd_pmf_send_cmd(dev, SET_SPPT, false, pc->sppt, NULL);
81 	amd_pmf_send_cmd(dev, SET_SPPT_APU_ONLY, false, pc->sppt_apu_only, NULL);
82 	amd_pmf_send_cmd(dev, SET_STT_MIN_LIMIT, false, pc->stt_min, NULL);
83 	amd_pmf_send_cmd(dev, SET_STT_LIMIT_APU, false, pc->stt_skin_temp[STT_TEMP_APU],
84 			 NULL);
85 	amd_pmf_send_cmd(dev, SET_STT_LIMIT_HS2, false, pc->stt_skin_temp[STT_TEMP_HS2],
86 			 NULL);
87 
88 	if (is_apmf_func_supported(dev, APMF_FUNC_SET_FAN_IDX))
89 		apmf_update_fan_idx(dev,
90 				    config_store.mode_set[src][idx].fan_control.manual,
91 				    config_store.mode_set[src][idx].fan_control.fan_id);
92 
93 	return 0;
94 }
95 
96 static void amd_pmf_update_power_threshold(int src)
97 {
98 	struct cnqf_mode_settings *ts;
99 	struct cnqf_tran_params *tp;
100 
101 	tp = &config_store.trans_param[src][CNQF_TRANSITION_TO_QUIET];
102 	ts = &config_store.mode_set[src][CNQF_MODE_BALANCE];
103 	tp->power_threshold = ts->power_floor;
104 
105 	tp = &config_store.trans_param[src][CNQF_TRANSITION_TO_TURBO];
106 	ts = &config_store.mode_set[src][CNQF_MODE_PERFORMANCE];
107 	tp->power_threshold = ts->power_floor;
108 
109 	tp = &config_store.trans_param[src][CNQF_TRANSITION_FROM_BALANCE_TO_PERFORMANCE];
110 	ts = &config_store.mode_set[src][CNQF_MODE_BALANCE];
111 	tp->power_threshold = ts->power_floor;
112 
113 	tp = &config_store.trans_param[src][CNQF_TRANSITION_FROM_PERFORMANCE_TO_BALANCE];
114 	ts = &config_store.mode_set[src][CNQF_MODE_PERFORMANCE];
115 	tp->power_threshold = ts->power_floor;
116 
117 	tp = &config_store.trans_param[src][CNQF_TRANSITION_FROM_QUIET_TO_BALANCE];
118 	ts = &config_store.mode_set[src][CNQF_MODE_QUIET];
119 	tp->power_threshold = ts->power_floor;
120 
121 	tp = &config_store.trans_param[src][CNQF_TRANSITION_FROM_TURBO_TO_PERFORMANCE];
122 	ts = &config_store.mode_set[src][CNQF_MODE_TURBO];
123 	tp->power_threshold = ts->power_floor;
124 }
125 
126 static const char *state_as_str(unsigned int state)
127 {
128 	switch (state) {
129 	case CNQF_MODE_QUIET:
130 		return "QUIET";
131 	case CNQF_MODE_BALANCE:
132 		return "BALANCED";
133 	case CNQF_MODE_TURBO:
134 		return "TURBO";
135 	case CNQF_MODE_PERFORMANCE:
136 		return "PERFORMANCE";
137 	default:
138 		return "Unknown CnQF mode";
139 	}
140 }
141 
142 static int amd_pmf_cnqf_get_power_source(struct amd_pmf_dev *dev)
143 {
144 	if (is_apmf_func_supported(dev, APMF_FUNC_DYN_SLIDER_AC) &&
145 	    is_apmf_func_supported(dev, APMF_FUNC_DYN_SLIDER_DC))
146 		return amd_pmf_get_power_source();
147 	else if (is_apmf_func_supported(dev, APMF_FUNC_DYN_SLIDER_DC))
148 		return POWER_SOURCE_DC;
149 	else
150 		return POWER_SOURCE_AC;
151 }
152 
153 int amd_pmf_trans_cnqf(struct amd_pmf_dev *dev, int socket_power, ktime_t time_lapsed_ms)
154 {
155 	struct cnqf_tran_params *tp;
156 	int src, i, j;
157 	u32 avg_power = 0;
158 
159 	src = amd_pmf_cnqf_get_power_source(dev);
160 
161 	if (is_pprof_balanced(dev)) {
162 		amd_pmf_set_cnqf(dev, src, config_store.current_mode, NULL);
163 	} else {
164 		/*
165 		 * Return from here if the platform_profile is not balanced
166 		 * so that preference is given to user mode selection, rather
167 		 * than enforcing CnQF to run all the time (if enabled)
168 		 */
169 		return -EINVAL;
170 	}
171 
172 	for (i = 0; i < CNQF_TRANSITION_MAX; i++) {
173 		config_store.trans_param[src][i].timer += time_lapsed_ms;
174 		config_store.trans_param[src][i].total_power += socket_power;
175 		config_store.trans_param[src][i].count++;
176 
177 		tp = &config_store.trans_param[src][i];
178 
179 #ifdef CONFIG_AMD_PMF_DEBUG
180 		dev_dbg(dev->dev, "avg_power: %u mW total_power: %u mW count: %u timer: %u ms\n",
181 			avg_power, config_store.trans_param[src][i].total_power,
182 			config_store.trans_param[src][i].count,
183 			config_store.trans_param[src][i].timer);
184 #endif
185 		if (tp->timer >= tp->time_constant && tp->count) {
186 			avg_power = tp->total_power / tp->count;
187 
188 			/* Reset the indices */
189 			tp->timer = 0;
190 			tp->total_power = 0;
191 			tp->count = 0;
192 
193 			if ((tp->shifting_up && avg_power >= tp->power_threshold) ||
194 			    (!tp->shifting_up && avg_power <= tp->power_threshold)) {
195 				tp->priority = true;
196 			} else {
197 				tp->priority = false;
198 			}
199 		}
200 	}
201 
202 	dev_dbg(dev->dev, "[CNQF] Avg power: %u mW socket power: %u mW mode:%s\n",
203 		avg_power, socket_power, state_as_str(config_store.current_mode));
204 
205 #ifdef CONFIG_AMD_PMF_DEBUG
206 	dev_dbg(dev->dev, "[CNQF] priority1: %u priority2: %u priority3: %u\n",
207 		config_store.trans_param[src][0].priority,
208 		config_store.trans_param[src][1].priority,
209 		config_store.trans_param[src][2].priority);
210 
211 	dev_dbg(dev->dev, "[CNQF] priority4: %u priority5: %u priority6: %u\n",
212 		config_store.trans_param[src][3].priority,
213 		config_store.trans_param[src][4].priority,
214 		config_store.trans_param[src][5].priority);
215 #endif
216 
217 	for (j = 0; j < CNQF_TRANSITION_MAX; j++) {
218 		/* apply the highest priority */
219 		if (config_store.trans_param[src][j].priority) {
220 			if (config_store.current_mode !=
221 			    config_store.trans_param[src][j].target_mode) {
222 				config_store.current_mode =
223 						config_store.trans_param[src][j].target_mode;
224 				dev_dbg(dev->dev, "Moving to Mode :%s\n",
225 					state_as_str(config_store.current_mode));
226 				amd_pmf_set_cnqf(dev, src,
227 						 config_store.current_mode, NULL);
228 			}
229 			break;
230 		}
231 	}
232 	return 0;
233 }
234 
235 static void amd_pmf_update_trans_data(int idx, struct apmf_dyn_slider_output *out)
236 {
237 	struct cnqf_tran_params *tp;
238 
239 	tp = &config_store.trans_param[idx][CNQF_TRANSITION_TO_QUIET];
240 	tp->time_constant = out->t_balanced_to_quiet;
241 	tp->target_mode = CNQF_MODE_QUIET;
242 	tp->shifting_up = false;
243 
244 	tp = &config_store.trans_param[idx][CNQF_TRANSITION_FROM_BALANCE_TO_PERFORMANCE];
245 	tp->time_constant = out->t_balanced_to_perf;
246 	tp->target_mode = CNQF_MODE_PERFORMANCE;
247 	tp->shifting_up = true;
248 
249 	tp = &config_store.trans_param[idx][CNQF_TRANSITION_FROM_QUIET_TO_BALANCE];
250 	tp->time_constant = out->t_quiet_to_balanced;
251 	tp->target_mode = CNQF_MODE_BALANCE;
252 	tp->shifting_up = true;
253 
254 	tp = &config_store.trans_param[idx][CNQF_TRANSITION_FROM_PERFORMANCE_TO_BALANCE];
255 	tp->time_constant = out->t_perf_to_balanced;
256 	tp->target_mode = CNQF_MODE_BALANCE;
257 	tp->shifting_up = false;
258 
259 	tp = &config_store.trans_param[idx][CNQF_TRANSITION_FROM_TURBO_TO_PERFORMANCE];
260 	tp->time_constant = out->t_turbo_to_perf;
261 	tp->target_mode = CNQF_MODE_PERFORMANCE;
262 	tp->shifting_up = false;
263 
264 	tp = &config_store.trans_param[idx][CNQF_TRANSITION_TO_TURBO];
265 	tp->time_constant = out->t_perf_to_turbo;
266 	tp->target_mode = CNQF_MODE_TURBO;
267 	tp->shifting_up = true;
268 }
269 
270 static void amd_pmf_update_mode_set(int idx, struct apmf_dyn_slider_output *out)
271 {
272 	struct cnqf_mode_settings *ms;
273 
274 	/* Quiet Mode */
275 	ms = &config_store.mode_set[idx][CNQF_MODE_QUIET];
276 	ms->power_floor = out->ps[APMF_CNQF_QUIET].pfloor;
277 	ms->power_control.fppt = out->ps[APMF_CNQF_QUIET].fppt;
278 	ms->power_control.sppt = out->ps[APMF_CNQF_QUIET].sppt;
279 	ms->power_control.sppt_apu_only = out->ps[APMF_CNQF_QUIET].sppt_apu_only;
280 	ms->power_control.spl = out->ps[APMF_CNQF_QUIET].spl;
281 	ms->power_control.stt_min = out->ps[APMF_CNQF_QUIET].stt_min_limit;
282 	ms->power_control.stt_skin_temp[STT_TEMP_APU] =
283 		out->ps[APMF_CNQF_QUIET].stt_skintemp[STT_TEMP_APU];
284 	ms->power_control.stt_skin_temp[STT_TEMP_HS2] =
285 		out->ps[APMF_CNQF_QUIET].stt_skintemp[STT_TEMP_HS2];
286 	ms->fan_control.fan_id = out->ps[APMF_CNQF_QUIET].fan_id;
287 
288 	/* Balance Mode */
289 	ms = &config_store.mode_set[idx][CNQF_MODE_BALANCE];
290 	ms->power_floor = out->ps[APMF_CNQF_BALANCE].pfloor;
291 	ms->power_control.fppt = out->ps[APMF_CNQF_BALANCE].fppt;
292 	ms->power_control.sppt = out->ps[APMF_CNQF_BALANCE].sppt;
293 	ms->power_control.sppt_apu_only = out->ps[APMF_CNQF_BALANCE].sppt_apu_only;
294 	ms->power_control.spl = out->ps[APMF_CNQF_BALANCE].spl;
295 	ms->power_control.stt_min = out->ps[APMF_CNQF_BALANCE].stt_min_limit;
296 	ms->power_control.stt_skin_temp[STT_TEMP_APU] =
297 		out->ps[APMF_CNQF_BALANCE].stt_skintemp[STT_TEMP_APU];
298 	ms->power_control.stt_skin_temp[STT_TEMP_HS2] =
299 		out->ps[APMF_CNQF_BALANCE].stt_skintemp[STT_TEMP_HS2];
300 	ms->fan_control.fan_id = out->ps[APMF_CNQF_BALANCE].fan_id;
301 
302 	/* Performance Mode */
303 	ms = &config_store.mode_set[idx][CNQF_MODE_PERFORMANCE];
304 	ms->power_floor = out->ps[APMF_CNQF_PERFORMANCE].pfloor;
305 	ms->power_control.fppt = out->ps[APMF_CNQF_PERFORMANCE].fppt;
306 	ms->power_control.sppt = out->ps[APMF_CNQF_PERFORMANCE].sppt;
307 	ms->power_control.sppt_apu_only = out->ps[APMF_CNQF_PERFORMANCE].sppt_apu_only;
308 	ms->power_control.spl = out->ps[APMF_CNQF_PERFORMANCE].spl;
309 	ms->power_control.stt_min = out->ps[APMF_CNQF_PERFORMANCE].stt_min_limit;
310 	ms->power_control.stt_skin_temp[STT_TEMP_APU] =
311 		out->ps[APMF_CNQF_PERFORMANCE].stt_skintemp[STT_TEMP_APU];
312 	ms->power_control.stt_skin_temp[STT_TEMP_HS2] =
313 		out->ps[APMF_CNQF_PERFORMANCE].stt_skintemp[STT_TEMP_HS2];
314 	ms->fan_control.fan_id = out->ps[APMF_CNQF_PERFORMANCE].fan_id;
315 
316 	/* Turbo Mode */
317 	ms = &config_store.mode_set[idx][CNQF_MODE_TURBO];
318 	ms->power_floor = out->ps[APMF_CNQF_TURBO].pfloor;
319 	ms->power_control.fppt = out->ps[APMF_CNQF_TURBO].fppt;
320 	ms->power_control.sppt = out->ps[APMF_CNQF_TURBO].sppt;
321 	ms->power_control.sppt_apu_only = out->ps[APMF_CNQF_TURBO].sppt_apu_only;
322 	ms->power_control.spl = out->ps[APMF_CNQF_TURBO].spl;
323 	ms->power_control.stt_min = out->ps[APMF_CNQF_TURBO].stt_min_limit;
324 	ms->power_control.stt_skin_temp[STT_TEMP_APU] =
325 		out->ps[APMF_CNQF_TURBO].stt_skintemp[STT_TEMP_APU];
326 	ms->power_control.stt_skin_temp[STT_TEMP_HS2] =
327 		out->ps[APMF_CNQF_TURBO].stt_skintemp[STT_TEMP_HS2];
328 	ms->fan_control.fan_id = out->ps[APMF_CNQF_TURBO].fan_id;
329 }
330 
331 static int amd_pmf_check_flags(struct amd_pmf_dev *dev)
332 {
333 	struct apmf_dyn_slider_output out = {};
334 
335 	if (is_apmf_func_supported(dev, APMF_FUNC_DYN_SLIDER_AC))
336 		apmf_get_dyn_slider_def_ac(dev, &out);
337 	else if (is_apmf_func_supported(dev, APMF_FUNC_DYN_SLIDER_DC))
338 		apmf_get_dyn_slider_def_dc(dev, &out);
339 
340 	return out.flags;
341 }
342 
343 static int amd_pmf_load_defaults_cnqf(struct amd_pmf_dev *dev)
344 {
345 	struct apmf_dyn_slider_output out;
346 	int i, j, ret;
347 
348 	for (i = 0; i < POWER_SOURCE_MAX; i++) {
349 		if (!is_apmf_func_supported(dev, APMF_FUNC_DYN_SLIDER_AC + i))
350 			continue;
351 
352 		if (i == POWER_SOURCE_AC)
353 			ret = apmf_get_dyn_slider_def_ac(dev, &out);
354 		else
355 			ret = apmf_get_dyn_slider_def_dc(dev, &out);
356 		if (ret) {
357 			dev_err(dev->dev, "APMF apmf_get_dyn_slider_def_dc failed :%d\n", ret);
358 			return ret;
359 		}
360 
361 		amd_pmf_cnqf_dump_defaults(&out, i);
362 		amd_pmf_update_mode_set(i, &out);
363 		amd_pmf_update_trans_data(i, &out);
364 		amd_pmf_update_power_threshold(i);
365 
366 		for (j = 0; j < CNQF_MODE_MAX; j++) {
367 			if (config_store.mode_set[i][j].fan_control.fan_id == FAN_INDEX_AUTO)
368 				config_store.mode_set[i][j].fan_control.manual = false;
369 			else
370 				config_store.mode_set[i][j].fan_control.manual = true;
371 		}
372 	}
373 
374 	/* set to initial default values */
375 	config_store.current_mode = CNQF_MODE_BALANCE;
376 
377 	return 0;
378 }
379 
380 static ssize_t cnqf_enable_store(struct device *dev,
381 				 struct device_attribute *attr,
382 				 const char *buf, size_t count)
383 {
384 	struct amd_pmf_dev *pdev = dev_get_drvdata(dev);
385 	int result, src;
386 	bool input;
387 
388 	result = kstrtobool(buf, &input);
389 	if (result)
390 		return result;
391 
392 	src = amd_pmf_cnqf_get_power_source(pdev);
393 	pdev->cnqf_enabled = input;
394 
395 	if (pdev->cnqf_enabled && is_pprof_balanced(pdev)) {
396 		amd_pmf_set_cnqf(pdev, src, config_store.current_mode, NULL);
397 	} else {
398 		if (is_apmf_func_supported(pdev, APMF_FUNC_STATIC_SLIDER_GRANULAR))
399 			amd_pmf_set_sps_power_limits(pdev);
400 	}
401 
402 	dev_dbg(pdev->dev, "Received CnQF %s\n", input ? "on" : "off");
403 	return count;
404 }
405 
406 static ssize_t cnqf_enable_show(struct device *dev,
407 				struct device_attribute *attr,
408 				char *buf)
409 {
410 	struct amd_pmf_dev *pdev = dev_get_drvdata(dev);
411 
412 	return sysfs_emit(buf, "%s\n", pdev->cnqf_enabled ? "on" : "off");
413 }
414 
415 static DEVICE_ATTR_RW(cnqf_enable);
416 
417 static umode_t cnqf_feature_is_visible(struct kobject *kobj,
418 				       struct attribute *attr, int n)
419 {
420 	struct device *dev = kobj_to_dev(kobj);
421 	struct amd_pmf_dev *pdev = dev_get_drvdata(dev);
422 
423 	return pdev->cnqf_supported ? attr->mode : 0;
424 }
425 
426 static struct attribute *cnqf_feature_attrs[] = {
427 	&dev_attr_cnqf_enable.attr,
428 	NULL
429 };
430 
431 const struct attribute_group cnqf_feature_attribute_group = {
432 	.is_visible = cnqf_feature_is_visible,
433 	.attrs = cnqf_feature_attrs,
434 };
435 
436 void amd_pmf_deinit_cnqf(struct amd_pmf_dev *dev)
437 {
438 	cancel_delayed_work_sync(&dev->work_buffer);
439 }
440 
441 int amd_pmf_init_cnqf(struct amd_pmf_dev *dev)
442 {
443 	int ret, src;
444 
445 	/*
446 	 * Note the caller of this function has already checked that both
447 	 * APMF_FUNC_DYN_SLIDER_AC and APMF_FUNC_DYN_SLIDER_DC are supported.
448 	 */
449 
450 	ret = amd_pmf_load_defaults_cnqf(dev);
451 	if (ret < 0)
452 		return ret;
453 
454 	amd_pmf_init_metrics_table(dev);
455 
456 	dev->cnqf_supported = true;
457 	dev->cnqf_enabled = amd_pmf_check_flags(dev);
458 
459 	/* update the thermal for CnQF */
460 	if (dev->cnqf_enabled && is_pprof_balanced(dev)) {
461 		src = amd_pmf_cnqf_get_power_source(dev);
462 		amd_pmf_set_cnqf(dev, src, config_store.current_mode, NULL);
463 	}
464 
465 	return 0;
466 }
467