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1 /*
2  * Copyright (c) 2019, MediaTek Inc. All rights reserved.
3  *
4  * SPDX-License-Identifier: BSD-3-Clause
5  */
6 
7 #include <assert.h>
8 #include <arch_helpers.h>
9 #include <cortex_a53.h>
10 #include <cortex_a73.h>
11 #include <common/debug.h>
12 #include <lib/mmio.h>
13 #include <platform_def.h>
14 #include <mcucfg.h>
15 #include <spm.h>
16 #include <drivers/delay_timer.h>
17 #include <mtspmc.h>
18 
19 #include "mtspmc_private.h"
20 
21 
set_retention(int cluster,int tick)22 static void set_retention(int cluster, int tick)
23 {
24 	uint64_t cpuectlr;
25 
26 	if (cluster)
27 		cpuectlr = read_a73_cpuectlr_el1();
28 	else
29 		cpuectlr = read_a53_cpuectlr_el1();
30 
31 	cpuectlr &= ~0x7ULL;
32 	cpuectlr |= tick & 0x7;
33 
34 	if (cluster)
35 		write_a73_cpuectlr_el1(cpuectlr);
36 	else
37 		write_a53_cpuectlr_el1(cpuectlr);
38 }
39 
spm_enable_cpu_auto_off(int cluster,int cpu)40 void spm_enable_cpu_auto_off(int cluster, int cpu)
41 {
42 	uintptr_t reg = per_cpu(cluster, cpu, MCUCFG_SPARK);
43 
44 	set_retention(cluster, 1);
45 	mmio_clrbits_32(reg, SW_NO_WAIT_Q);
46 }
47 
spm_disable_cpu_auto_off(int cluster,int cpu)48 void spm_disable_cpu_auto_off(int cluster, int cpu)
49 {
50 	uintptr_t reg = per_cpu(cluster, cpu, MCUCFG_SPARK);
51 
52 	mmio_setbits_32(reg, SW_NO_WAIT_Q);
53 	set_retention(cluster, 0);
54 }
55 
spm_set_cpu_power_off(int cluster,int cpu)56 void spm_set_cpu_power_off(int cluster, int cpu)
57 {
58 	mmio_clrbits_32(per_cpu(cluster, cpu, SPM_CPU_PWR), PWRCTRL_PWR_ON);
59 }
60 
spm_enable_cluster_auto_off(int cluster)61 void spm_enable_cluster_auto_off(int cluster)
62 {
63 	assert(cluster);
64 
65 	mmio_clrbits_32(MCUCFG_MP2_SPMC, SW_NO_WAIT_Q);
66 	mmio_clrbits_32(MCUCFG_MP2_COQ, BIT(0));
67 
68 	mmio_clrbits_32(SPM_SPMC_DORMANT_ENABLE, MP1_SPMC_SRAM_DORMANT_EN);
69 
70 	mmio_clrbits_32(per_cluster(cluster, SPM_CLUSTER_PWR), PWRCTRL_PWR_ON);
71 }
72 
mcucfg_set_bootaddr(int cluster,int cpu,uintptr_t bootaddr)73 void mcucfg_set_bootaddr(int cluster, int cpu, uintptr_t bootaddr)
74 {
75 	uintptr_t reg;
76 	const uintptr_t mp2_bootreg[] = {
77 			MCUCFG_MP2_RVADDR0, MCUCFG_MP2_RVADDR1,
78 			MCUCFG_MP2_RVADDR2, MCUCFG_MP2_RVADDR3 };
79 
80 	if (cluster) {
81 		assert(cpu >= 0 && cpu < 4);
82 		reg = mp2_bootreg[cpu];
83 	} else {
84 		reg = per_cpu(cluster, cpu, MCUCFG_BOOTADDR);
85 	}
86 
87 	mmio_write_32(reg, bootaddr);
88 }
89 
mcucfg_get_bootaddr(int cluster,int cpu)90 uintptr_t mcucfg_get_bootaddr(int cluster, int cpu)
91 {
92 	uintptr_t reg;
93 	const uintptr_t mp2_bootreg[] = {
94 			MCUCFG_MP2_RVADDR0, MCUCFG_MP2_RVADDR1,
95 			MCUCFG_MP2_RVADDR2, MCUCFG_MP2_RVADDR3 };
96 
97 	if (cluster) {
98 		assert(cpu >= 0 && cpu < 4);
99 		reg = mp2_bootreg[cpu];
100 	} else {
101 		reg = per_cpu(cluster, cpu, MCUCFG_BOOTADDR);
102 	}
103 
104 	return mmio_read_32(reg);
105 }
106 
mcucfg_init_archstate(int cluster,int cpu,int arm64)107 void mcucfg_init_archstate(int cluster, int cpu, int arm64)
108 {
109 	uintptr_t reg;
110 	int i;
111 
112 	reg = per_cluster(cluster, MCUCFG_INITARCH);
113 	i = cluster ? 16 : 12;
114 
115 	mmio_setbits_32(reg, (arm64 & 1) << (i + cpu));
116 }
117 
118 /**
119  * Return power state of specified subsystem
120  *
121  * @mask: mask to SPM_PWR_STATUS to query the power state
122  *        of one subsystem.
123  * RETURNS:
124  * 0 (the subsys was powered off)
125  * 1 (the subsys was powered on)
126  */
spm_get_powerstate(uint32_t mask)127 int spm_get_powerstate(uint32_t mask)
128 {
129 	return mmio_read_32(SPM_PWR_STATUS) & mask;
130 }
131 
spm_get_cluster_powerstate(int cluster)132 int spm_get_cluster_powerstate(int cluster)
133 {
134 	uint32_t mask;
135 
136 	mask = cluster ? PWR_STATUS_MP1_CPUTOP : PWR_STATUS_MP0_CPUTOP;
137 
138 	return spm_get_powerstate(mask);
139 }
140 
spm_get_cpu_powerstate(int cluster,int cpu)141 int spm_get_cpu_powerstate(int cluster, int cpu)
142 {
143 	uint32_t i;
144 
145 	/*
146 	 * a quick way to specify the mask of cpu[0-3]/cpu[4-7] in PWR_STATUS
147 	 * register which are the BITS[9:12](MP0_CPU0~3) and
148 	 * BITS[16:19](MP1_CPU0~3)
149 	 */
150 	i = (cluster) ? 16 : 9;
151 	i = 1 << (i + cpu);
152 
153 	return spm_get_powerstate(i);
154 }
155 
spmc_init(void)156 int spmc_init(void)
157 {
158 	/* enable SPM register control */
159 	mmio_write_32(SPM_POWERON_CONFIG_EN,
160 		      PROJECT_CODE | MD_BCLK_CG_EN | BCLK_CG_EN);
161 
162 #if SPMC_MODE == 1
163 	INFO("SPM: enable SPMC mode\n");
164 
165 	/* 0: SPMC mode  1: Legacy mode */
166 	mmio_write_32(SPM_BYPASS_SPMC, 0);
167 
168 	mmio_clrbits_32(per_cluster(0, SPM_CLUSTER_PWR), PWRCTRL_PWR_ON_2ND);
169 
170 	mmio_clrbits_32(per_cpu(0, 0, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
171 	mmio_clrbits_32(per_cpu(0, 1, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
172 	mmio_clrbits_32(per_cpu(0, 2, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
173 	mmio_clrbits_32(per_cpu(0, 3, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
174 
175 	mmio_setbits_32(per_cpu(0, 1, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
176 	mmio_setbits_32(per_cpu(0, 2, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
177 	mmio_setbits_32(per_cpu(0, 3, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
178 #endif
179 
180 	mmio_clrbits_32(per_cluster(1, SPM_CLUSTER_PWR), PWRCTRL_PWR_ON_2ND);
181 	mmio_setbits_32(per_cluster(1, SPM_CLUSTER_PWR), PWRCTRL_PWR_RST_B);
182 	mmio_clrbits_32(per_cluster(1, SPM_CLUSTER_PWR), PWRCTRL_PWR_CLK_DIS);
183 
184 	mmio_clrbits_32(per_cpu(1, 0, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
185 	mmio_clrbits_32(per_cpu(1, 1, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
186 	mmio_clrbits_32(per_cpu(1, 2, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
187 	mmio_clrbits_32(per_cpu(1, 3, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
188 
189 	mmio_setbits_32(per_cpu(1, 0, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
190 	mmio_setbits_32(per_cpu(1, 1, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
191 	mmio_setbits_32(per_cpu(1, 2, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
192 	mmio_setbits_32(per_cpu(1, 3, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
193 
194 	return 0;
195 }
196 
197 /**
198  * Power on a core with specified cluster and core index
199  *
200  * @cluster: the cluster ID of the CPU which to be powered on
201  * @cpu: the CPU ID of the CPU which to be powered on
202  */
spm_poweron_cpu(int cluster,int cpu)203 void spm_poweron_cpu(int cluster, int cpu)
204 {
205 	INFO("spmc: power on core %d.%d\n", cluster, cpu);
206 
207 	/* STA_POWER_ON */
208 	/* Start to turn on MP0_CPU0 */
209 
210 	/* Set PWR_RST_B = 1 */
211 	mmio_setbits_32(per_cpu(cluster, cpu, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
212 
213 	/* Set PWR_ON = 1 */
214 	mmio_setbits_32(per_cpu(cluster, cpu, SPM_CPU_PWR), PWRCTRL_PWR_ON);
215 
216 	/* Wait until MP0_CPU0_PWR_STA_MASK = 1 */
217 	while (!spm_get_cpu_powerstate(cluster, cpu))
218 		;
219 
220 	/* Finish to turn on MP0_CPU0 */
221 	INFO("spmc: power on core %d.%d successfully\n", cluster, cpu);
222 }
223 
224 /**
225  * Power off a core with specified cluster and core index
226  *
227  * @cluster: the cluster ID of the CPU which to be powered off
228  * @cpu: the CPU ID of the CPU which to be powered off
229  */
spm_poweroff_cpu(int cluster,int cpu)230 void spm_poweroff_cpu(int cluster, int cpu)
231 {
232 	INFO("spmc: power off core %d.%d\n", cluster, cpu);
233 
234 	/* Start to turn off MP0_CPU0 */
235 	/* Set PWR_ON_2ND = 0 */
236 	mmio_clrbits_32(per_cpu(cluster, cpu, SPM_CPU_PWR), PWRCTRL_PWR_ON_2ND);
237 
238 	/* Set PWR_ON = 0 */
239 	mmio_clrbits_32(per_cpu(cluster, cpu, SPM_CPU_PWR), PWRCTRL_PWR_ON);
240 
241 	/* Wait until MP0_CPU0_PWR_STA_MASK = 0 */
242 	while (spm_get_cpu_powerstate(cluster, cpu))
243 		;
244 
245 	/* Set PWR_RST_B = 0 */
246 	mmio_clrbits_32(per_cpu(cluster, cpu, SPM_CPU_PWR), PWRCTRL_PWR_RST_B);
247 
248 	/* Finish to turn off MP0_CPU0 */
249 	INFO("spmc: power off core %d.%d successfully\n", cluster, cpu);
250 }
251 
252 /**
253  * Power off a cluster with specified index
254  *
255  * @cluster: the cluster index which to be powered off
256  */
spm_poweroff_cluster(int cluster)257 void spm_poweroff_cluster(int cluster)
258 {
259 	uint32_t mask;
260 	uint32_t pwr_rst_ctl;
261 
262 	INFO("spmc: power off cluster %d\n", cluster);
263 
264 	/* Start to turn off MP0_CPUTOP */
265 	/* Set bus protect - step1 : 0 */
266 	mask = (cluster) ? MP1_CPUTOP_PROT_STEP1_0_MASK :
267 			   MP0_CPUTOP_PROT_STEP1_0_MASK;
268 	mmio_write_32(INFRA_TOPAXI_PROTECTEN_1_SET, mask);
269 
270 	while ((mmio_read_32(INFRA_TOPAXI_PROTECTEN_STA1_1) & mask) != mask)
271 		;
272 
273 	/* Set PWR_ON_2ND = 0 */
274 	mmio_clrbits_32(per_cluster(cluster, SPM_CLUSTER_PWR),
275 			PWRCTRL_PWR_ON_2ND);
276 
277 	/* SPMC_DORMANT_ENABLE[0]=0 */
278 	mask = (cluster) ? MP1_SPMC_SRAM_DORMANT_EN : MP0_SPMC_SRAM_DORMANT_EN;
279 	mmio_clrbits_32(SPM_SPMC_DORMANT_ENABLE, mask);
280 
281 	/* Set PWR_ON = 0" */
282 	mmio_clrbits_32(per_cluster(cluster, SPM_CLUSTER_PWR), PWRCTRL_PWR_ON);
283 
284 	/* Wait until MP0_CPUTOP_PWR_STA_MASK = 0 */
285 	while (spm_get_cluster_powerstate(cluster))
286 		;
287 
288 	/* NOTE
289 	 * Following flow only for BIG core cluster. It was from
290 	 * application note but not covered in mtcmos_ctrl.c
291 	 */
292 	if (cluster) {
293 		pwr_rst_ctl = mmio_read_32(MCUCFG_MP2_PWR_RST_CTL);
294 		mmio_write_32(MCUCFG_MP2_PWR_RST_CTL,
295 				(pwr_rst_ctl & ~SW_RST_B) | TOPAON_APB_MASK);
296 	}
297 
298 	/* CPU_EXT_BUCK_ISO[0]=1 */
299 	if (cluster)
300 		mmio_setbits_32(SPM_CPU_EXT_BUCK_ISO, MP1_EXT_BUCK_ISO);
301 
302 	/* Finish to turn off MP0_CPUTOP */
303 	INFO("spmc: power off cluster %d successfully\n", cluster);
304 }
305 
306 /**
307  * Power on a cluster with specified index
308  *
309  * @cluster: the cluster index which to be powered on
310  */
spm_poweron_cluster(int cluster)311 void spm_poweron_cluster(int cluster)
312 {
313 	uint32_t mask;
314 	uint32_t pwr_rst_ctl;
315 
316 	INFO("spmc: power on cluster %d\n", cluster);
317 
318 	/* Start to turn on MP1_CPUTOP */
319 
320 	/* NOTE
321 	 * Following flow only for BIG core cluster. It was from
322 	 * application note but not covered in mtcmos_ctrl.c
323 	 */
324 	if (cluster) {
325 		mmio_clrbits_32(MCUCFG_MP2_PWR_RST_CTL, SW_RST_B);
326 
327 		/* CPU_EXT_BUCK_ISO[1]=0 */
328 		/* Set mp<n>_vproc_ext_off to 0 to release vproc isolation control */
329 		mmio_clrbits_32(SPM_CPU_EXT_BUCK_ISO, MP1_EXT_BUCK_ISO);
330 
331 		/* NOTE
332 		 * Following flow only for BIG core cluster. It was from
333 		 * application note but not covered in mtcmos_ctrl.c
334 		 */
335 		pwr_rst_ctl = mmio_read_32(MCUCFG_MP2_PWR_RST_CTL);
336 		mmio_write_32(MCUCFG_MP2_PWR_RST_CTL,
337 				(pwr_rst_ctl | SW_RST_B) & ~TOPAON_APB_MASK);
338 	}
339 
340 	/* Set PWR_ON_2ND = 0 */
341 	mmio_clrbits_32(per_cluster(cluster, SPM_CLUSTER_PWR),
342 			PWRCTRL_PWR_ON_2ND);
343 
344 	/* Set PWR_RST_B = 1 */
345 	mmio_setbits_32(per_cluster(cluster, SPM_CLUSTER_PWR),
346 			PWRCTRL_PWR_RST_B);
347 
348 	/* Set PWR_CLK_DIS = 0 */
349 	mmio_clrbits_32(per_cluster(cluster, SPM_CLUSTER_PWR),
350 			PWRCTRL_PWR_CLK_DIS);
351 
352 	/* Set PWR_ON = 1 */
353 	mmio_setbits_32(per_cluster(cluster, SPM_CLUSTER_PWR), PWRCTRL_PWR_ON);
354 
355 	/* Wait until MP1_CPUTOP_PWR_STA_MASK = 1 */
356 	while (!spm_get_cluster_powerstate(cluster))
357 		;
358 
359 	/* Release bus protect - step1 : 0 */
360 	mask = (cluster) ? MP1_CPUTOP_PROT_STEP1_0_MASK :
361 			   MP0_CPUTOP_PROT_STEP1_0_MASK;
362 	mmio_write_32(INFRA_TOPAXI_PROTECTEN_1_CLR, mask);
363 
364 	/* Finish to turn on MP1_CPUTOP */
365 	INFO("spmc: power on cluster %d successfully\n", cluster);
366 }
367