blob: be5dc0e07d9bcab8707efb4631e1fc22b80bad7c [file] [log] [blame]
Tom Rini10e47792018-05-06 17:58:06 -04001// SPDX-License-Identifier: GPL-2.0+
Mario Six10d14492017-01-11 16:01:00 +01002/*
3 * Copyright (C) 2015-2016 Reinhard Pfau <reinhard.pfau@gdsys.cc>
Mario Six10d14492017-01-11 16:01:00 +01004 */
5
6#include <config.h>
7#include <common.h>
8#include <errno.h>
9#include <asm/io.h>
10#include <asm/arch/cpu.h>
11#include <asm/arch/efuse.h>
12#include <asm/arch/soc.h>
Pali Rohár2662d2c2022-09-22 13:43:45 +020013#include <asm/gpio.h>
Simon Glass4dcacfc2020-05-10 11:40:13 -060014#include <linux/bitops.h>
Simon Glassdbd79542020-05-10 11:40:11 -060015#include <linux/delay.h>
Mario Six10d14492017-01-11 16:01:00 +010016#include <linux/mbus.h>
17
18#if defined(CONFIG_MVEBU_EFUSE_FAKE)
19#define DRY_RUN
20#else
21#undef DRY_RUN
22#endif
23
24#define MBUS_EFUSE_BASE 0xF6000000
25#define MBUS_EFUSE_SIZE BIT(20)
26
27#define MVEBU_EFUSE_CONTROL (MVEBU_REGISTER(0xE4008))
28
29enum {
30 MVEBU_EFUSE_CTRL_PROGRAM_ENABLE = (1 << 31),
Pali Rohárdf1da732022-04-06 14:18:18 +020031 MVEBU_EFUSE_LD1_SELECT = (1 << 6),
Mario Six10d14492017-01-11 16:01:00 +010032};
33
34struct mvebu_hd_efuse {
35 u32 bits_31_0;
36 u32 bits_63_32;
37 u32 bit64;
38 u32 reserved0;
39};
40
41#ifndef DRY_RUN
42static struct mvebu_hd_efuse *efuses =
43 (struct mvebu_hd_efuse *)(MBUS_EFUSE_BASE + 0xF9000);
Pali Rohárdf1da732022-04-06 14:18:18 +020044static u32 *ld_efuses = (void *)MBUS_EFUSE_BASE + 0xF8F00;
Mario Six10d14492017-01-11 16:01:00 +010045#else
46static struct mvebu_hd_efuse efuses[EFUSE_LINE_MAX + 1];
Pali Rohárdf1da732022-04-06 14:18:18 +020047static u32 ld_efuses[EFUSE_LD_WORDS];
Mario Six10d14492017-01-11 16:01:00 +010048#endif
49
50static int efuse_initialised;
51
52static struct mvebu_hd_efuse *get_efuse_line(int nr)
53{
54 if (nr < 0 || nr > 63 || !efuse_initialised)
55 return NULL;
56
57 return efuses + nr;
58}
59
Pali Rohár2662d2c2022-09-22 13:43:45 +020060#ifndef DRY_RUN
61static int vhv_gpio;
62#endif
63
64static int enable_efuse_program(void)
Mario Six10d14492017-01-11 16:01:00 +010065{
66#ifndef DRY_RUN
Pali Rohár2662d2c2022-09-22 13:43:45 +020067 if (CONFIG_MVEBU_EFUSE_VHV_GPIO[0]) {
68 if (gpio_lookup_name(CONFIG_MVEBU_EFUSE_VHV_GPIO, NULL, NULL, &vhv_gpio)) {
69 printf("Error: VHV gpio lookup failed\n");
70 return -EOPNOTSUPP;
71 }
72 if (gpio_request(vhv_gpio, CONFIG_MVEBU_EFUSE_VHV_GPIO)) {
73 printf("Error: VHV gpio request failed\n");
74 return -EOPNOTSUPP;
75 }
76 if (gpio_direction_output(vhv_gpio,
77 IS_ENABLED(CONFIG_MVEBU_EFUSE_VHV_GPIO_ACTIVE_LOW) ? 0 : 1)) {
78 printf("Error: VHV gpio enable failed\n");
79 return -EINVAL;
80 }
81 mdelay(5); /* Wait for the VHV power to stabilize */
82 }
83
Mario Six10d14492017-01-11 16:01:00 +010084 setbits_le32(MVEBU_EFUSE_CONTROL, MVEBU_EFUSE_CTRL_PROGRAM_ENABLE);
85#endif
Pali Rohár2662d2c2022-09-22 13:43:45 +020086
87 return 0;
Mario Six10d14492017-01-11 16:01:00 +010088}
89
90static void disable_efuse_program(void)
91{
92#ifndef DRY_RUN
93 clrbits_le32(MVEBU_EFUSE_CONTROL, MVEBU_EFUSE_CTRL_PROGRAM_ENABLE);
Pali Rohár2662d2c2022-09-22 13:43:45 +020094
95 if (CONFIG_MVEBU_EFUSE_VHV_GPIO[0]) {
96 if (gpio_direction_output(vhv_gpio,
97 IS_ENABLED(CONFIG_MVEBU_EFUSE_VHV_GPIO_ACTIVE_LOW) ? 1 : 0))
98 printf("Error: VHV gpio disable failed\n");
99 gpio_free(vhv_gpio);
100 vhv_gpio = 0;
101 }
Mario Six10d14492017-01-11 16:01:00 +0100102#endif
103}
104
105static int do_prog_efuse(struct mvebu_hd_efuse *efuse,
106 struct efuse_val *new_val, u32 mask0, u32 mask1)
107{
108 struct efuse_val val;
109
110 val.dwords.d[0] = readl(&efuse->bits_31_0);
111 val.dwords.d[1] = readl(&efuse->bits_63_32);
112 val.lock = readl(&efuse->bit64);
113
114 if (val.lock & 1)
115 return -EPERM;
116
117 val.dwords.d[0] |= (new_val->dwords.d[0] & mask0);
118 val.dwords.d[1] |= (new_val->dwords.d[1] & mask1);
119 val.lock |= new_val->lock;
120
121 writel(val.dwords.d[0], &efuse->bits_31_0);
122 mdelay(1);
123 writel(val.dwords.d[1], &efuse->bits_63_32);
124 mdelay(1);
125 writel(val.lock, &efuse->bit64);
126 mdelay(5);
127
128 return 0;
129}
130
131static int prog_efuse(int nr, struct efuse_val *new_val, u32 mask0, u32 mask1)
132{
133 struct mvebu_hd_efuse *efuse;
134 int res = 0;
135
136 res = mvebu_efuse_init_hw();
137 if (res)
138 return res;
139
140 efuse = get_efuse_line(nr);
141 if (!efuse)
142 return -ENODEV;
143
144 if (!new_val)
145 return -EINVAL;
146
147 /* only write a fuse line with lock bit */
148 if (!new_val->lock)
149 return -EINVAL;
150
151 /* according to specs ECC protection bits must be 0 on write */
152 if (new_val->bytes.d[7] & 0xFE)
153 return -EINVAL;
154
155 if (!new_val->dwords.d[0] && !new_val->dwords.d[1] && (mask0 | mask1))
156 return 0;
157
Pali Rohár2662d2c2022-09-22 13:43:45 +0200158 res = enable_efuse_program();
159 if (res)
160 return res;
Mario Six10d14492017-01-11 16:01:00 +0100161
162 res = do_prog_efuse(efuse, new_val, mask0, mask1);
163
164 disable_efuse_program();
165
166 return res;
167}
168
Pali Rohár666252d2022-09-22 13:43:44 +0200169int mvebu_prog_ld_efuse(int ld1, u32 word, u32 val)
170{
171 int i, res;
172 u32 line[EFUSE_LD_WORDS];
173
174 res = mvebu_efuse_init_hw();
175 if (res)
176 return res;
177
178 mvebu_read_ld_efuse(ld1, line);
179
180 /* check if lock bit is already programmed */
181 if (line[EFUSE_LD_WORDS - 1])
182 return -EPERM;
183
184 /* check if word is valid */
185 if (word >= EFUSE_LD_WORDS)
186 return -EINVAL;
187
188 /* check if there is some bit for programming */
189 if (val == (line[word] & val))
190 return 0;
191
Pali Rohár2662d2c2022-09-22 13:43:45 +0200192 res = enable_efuse_program();
193 if (res)
194 return res;
Pali Rohár666252d2022-09-22 13:43:44 +0200195
196 mvebu_read_ld_efuse(ld1, line);
197 line[word] |= val;
198
199 for (i = 0; i < EFUSE_LD_WORDS; i++) {
200 writel(line[i], ld_efuses + i);
201 mdelay(1);
202 }
203
204 mdelay(5);
205
206 disable_efuse_program();
207
208 return 0;
209}
210
Mario Six10d14492017-01-11 16:01:00 +0100211int mvebu_efuse_init_hw(void)
212{
213 int ret;
214
215 if (efuse_initialised)
216 return 0;
217
218 ret = mvebu_mbus_add_window_by_id(
219 CPU_TARGET_SATA23_DFX, 0xA, MBUS_EFUSE_BASE, MBUS_EFUSE_SIZE);
220
221 if (ret)
222 return ret;
223
224 efuse_initialised = 1;
225
226 return 0;
227}
228
229int mvebu_read_efuse(int nr, struct efuse_val *val)
230{
231 struct mvebu_hd_efuse *efuse;
232 int res;
233
234 res = mvebu_efuse_init_hw();
235 if (res)
236 return res;
237
238 efuse = get_efuse_line(nr);
239 if (!efuse)
240 return -ENODEV;
241
242 if (!val)
243 return -EINVAL;
244
245 val->dwords.d[0] = readl(&efuse->bits_31_0);
246 val->dwords.d[1] = readl(&efuse->bits_63_32);
247 val->lock = readl(&efuse->bit64);
248 return 0;
249}
250
Pali Rohárdf1da732022-04-06 14:18:18 +0200251void mvebu_read_ld_efuse(int ld1, u32 *line)
252{
253 int i;
254
255#ifndef DRY_RUN
256 if (ld1)
257 setbits_le32(MVEBU_EFUSE_CONTROL, MVEBU_EFUSE_LD1_SELECT);
258 else
259 clrbits_le32(MVEBU_EFUSE_CONTROL, MVEBU_EFUSE_LD1_SELECT);
260#endif
261
262 for (i = 0; i < EFUSE_LD_WORDS; i++)
263 line[i] = readl(ld_efuses + i);
264}
265
Mario Six10d14492017-01-11 16:01:00 +0100266int mvebu_write_efuse(int nr, struct efuse_val *val)
267{
268 return prog_efuse(nr, val, ~0, ~0);
269}
270
271int mvebu_lock_efuse(int nr)
272{
273 struct efuse_val val = {
274 .lock = 1,
275 };
276
277 return prog_efuse(nr, &val, 0, 0);
278}
279
280/*
281 * wrapper funcs providing the fuse API
282 *
283 * we use the following mapping:
284 * "bank" -> eFuse line
285 * "word" -> 0: bits 0-31
286 * 1: bits 32-63
287 * 2: bit 64 (lock)
288 */
289
290static struct efuse_val prog_val;
291static int valid_prog_words;
292
293int fuse_read(u32 bank, u32 word, u32 *val)
294{
295 struct efuse_val fuse_line;
Pali Rohárdf1da732022-04-06 14:18:18 +0200296 u32 ld_line[EFUSE_LD_WORDS];
Mario Six10d14492017-01-11 16:01:00 +0100297 int res;
298
Pali Rohárdf1da732022-04-06 14:18:18 +0200299 if ((bank == EFUSE_LD0_LINE || bank == EFUSE_LD1_LINE) && word < EFUSE_LD_WORDS) {
300 res = mvebu_efuse_init_hw();
301 if (res)
302 return res;
303 mvebu_read_ld_efuse(bank == EFUSE_LD1_LINE, ld_line);
304 *val = ld_line[word];
305 return 0;
306 }
307
Mario Six10d14492017-01-11 16:01:00 +0100308 if (bank < EFUSE_LINE_MIN || bank > EFUSE_LINE_MAX || word > 2)
309 return -EINVAL;
310
311 res = mvebu_read_efuse(bank, &fuse_line);
312 if (res)
313 return res;
314
315 if (word < 2)
316 *val = fuse_line.dwords.d[word];
317 else
318 *val = fuse_line.lock;
319
320 return res;
321}
322
323int fuse_sense(u32 bank, u32 word, u32 *val)
324{
325 /* not supported */
326 return -ENOSYS;
327}
328
329int fuse_prog(u32 bank, u32 word, u32 val)
330{
331 int res = 0;
332
Pali Rohár666252d2022-09-22 13:43:44 +0200333 if (bank == EFUSE_LD0_LINE || bank == EFUSE_LD1_LINE)
334 return mvebu_prog_ld_efuse(bank == EFUSE_LD1_LINE, word, val);
335
Mario Six10d14492017-01-11 16:01:00 +0100336 /*
337 * NOTE: Fuse line should be written as whole.
338 * So how can we do that with this API?
339 * For now: remember values for word == 0 and word == 1 and write the
340 * whole line when word == 2.
341 * This implies that we always require all 3 fuse prog cmds (one for
342 * for each word) to write a single fuse line.
343 * Exception is a single write to word 2 which will lock the fuse line.
344 *
345 * Hope that will be OK.
346 */
347
348 if (bank < EFUSE_LINE_MIN || bank > EFUSE_LINE_MAX || word > 2)
349 return -EINVAL;
350
351 if (word < 2) {
352 prog_val.dwords.d[word] = val;
353 valid_prog_words |= (1 << word);
354 } else if ((valid_prog_words & 3) == 0 && val) {
355 res = mvebu_lock_efuse(bank);
356 valid_prog_words = 0;
357 } else if ((valid_prog_words & 3) != 3 || !val) {
358 res = -EINVAL;
359 } else {
360 prog_val.lock = val != 0;
361 res = mvebu_write_efuse(bank, &prog_val);
362 valid_prog_words = 0;
363 }
364
365 return res;
366}
367
368int fuse_override(u32 bank, u32 word, u32 val)
369{
370 /* not supported */
371 return -ENOSYS;
372}