blob: c9e1ebf01a446103b893eb70bea1c6f8b4b1e9f5 [file] [log] [blame]
Sean Nelson14ba6682010-02-26 05:48:29 +00001/*
2 * This file is part of the flashrom project.
3 *
Carl-Daniel Hailfinger5824fbf2010-05-21 23:09:42 +00004 * Copyright (C) 2007, 2008, 2009, 2010 Carl-Daniel Hailfinger
Sean Nelson14ba6682010-02-26 05:48:29 +00005 * Copyright (C) 2008 coresystems GmbH
6 *
7 * This program is free software; you can redistribute it and/or modify
8 * it under the terms of the GNU General Public License as published by
9 * the Free Software Foundation; version 2 of the License.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
19 */
20
21/*
22 * Contains the common SPI chip driver functions
23 */
24
25#include <string.h>
26#include "flash.h"
27#include "flashchips.h"
28#include "chipdrivers.h"
Carl-Daniel Hailfinger5b997c32010-07-27 22:41:39 +000029#include "programmer.h"
Sean Nelson14ba6682010-02-26 05:48:29 +000030#include "spi.h"
31
32void spi_prettyprint_status_register(struct flashchip *flash);
33
34static int spi_rdid(unsigned char *readarr, int bytes)
35{
Mathias Krausea60faab2011-01-17 07:50:42 +000036 static const unsigned char cmd[JEDEC_RDID_OUTSIZE] = { JEDEC_RDID };
Sean Nelson14ba6682010-02-26 05:48:29 +000037 int ret;
38 int i;
39
40 ret = spi_send_command(sizeof(cmd), bytes, cmd, readarr);
41 if (ret)
42 return ret;
Sean Nelsoned479d22010-03-24 23:14:32 +000043 msg_cspew("RDID returned");
Sean Nelson14ba6682010-02-26 05:48:29 +000044 for (i = 0; i < bytes; i++)
Sean Nelsoned479d22010-03-24 23:14:32 +000045 msg_cspew(" 0x%02x", readarr[i]);
46 msg_cspew(". ");
Sean Nelson14ba6682010-02-26 05:48:29 +000047 return 0;
48}
49
50static int spi_rems(unsigned char *readarr)
51{
52 unsigned char cmd[JEDEC_REMS_OUTSIZE] = { JEDEC_REMS, 0, 0, 0 };
53 uint32_t readaddr;
54 int ret;
55
56 ret = spi_send_command(sizeof(cmd), JEDEC_REMS_INSIZE, cmd, readarr);
57 if (ret == SPI_INVALID_ADDRESS) {
58 /* Find the lowest even address allowed for reads. */
59 readaddr = (spi_get_valid_read_addr() + 1) & ~1;
60 cmd[1] = (readaddr >> 16) & 0xff,
61 cmd[2] = (readaddr >> 8) & 0xff,
62 cmd[3] = (readaddr >> 0) & 0xff,
63 ret = spi_send_command(sizeof(cmd), JEDEC_REMS_INSIZE, cmd, readarr);
64 }
65 if (ret)
66 return ret;
Sean Nelsoned479d22010-03-24 23:14:32 +000067 msg_cspew("REMS returned %02x %02x. ", readarr[0], readarr[1]);
Sean Nelson14ba6682010-02-26 05:48:29 +000068 return 0;
69}
70
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +000071static int spi_res(unsigned char *readarr, int bytes)
Sean Nelson14ba6682010-02-26 05:48:29 +000072{
73 unsigned char cmd[JEDEC_RES_OUTSIZE] = { JEDEC_RES, 0, 0, 0 };
74 uint32_t readaddr;
75 int ret;
Carl-Daniel Hailfinger8ae500e2010-06-20 10:39:33 +000076 int i;
Sean Nelson14ba6682010-02-26 05:48:29 +000077
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +000078 ret = spi_send_command(sizeof(cmd), bytes, cmd, readarr);
Sean Nelson14ba6682010-02-26 05:48:29 +000079 if (ret == SPI_INVALID_ADDRESS) {
80 /* Find the lowest even address allowed for reads. */
81 readaddr = (spi_get_valid_read_addr() + 1) & ~1;
82 cmd[1] = (readaddr >> 16) & 0xff,
83 cmd[2] = (readaddr >> 8) & 0xff,
84 cmd[3] = (readaddr >> 0) & 0xff,
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +000085 ret = spi_send_command(sizeof(cmd), bytes, cmd, readarr);
Sean Nelson14ba6682010-02-26 05:48:29 +000086 }
87 if (ret)
88 return ret;
Carl-Daniel Hailfinger8ae500e2010-06-20 10:39:33 +000089 msg_cspew("RES returned");
90 for (i = 0; i < bytes; i++)
91 msg_cspew(" 0x%02x", readarr[i]);
92 msg_cspew(". ");
Sean Nelson14ba6682010-02-26 05:48:29 +000093 return 0;
94}
95
96int spi_write_enable(void)
97{
Mathias Krausea60faab2011-01-17 07:50:42 +000098 static const unsigned char cmd[JEDEC_WREN_OUTSIZE] = { JEDEC_WREN };
Sean Nelson14ba6682010-02-26 05:48:29 +000099 int result;
100
101 /* Send WREN (Write Enable) */
102 result = spi_send_command(sizeof(cmd), 0, cmd, NULL);
103
104 if (result)
Sean Nelsoned479d22010-03-24 23:14:32 +0000105 msg_cerr("%s failed\n", __func__);
Sean Nelson14ba6682010-02-26 05:48:29 +0000106
107 return result;
108}
109
110int spi_write_disable(void)
111{
Mathias Krausea60faab2011-01-17 07:50:42 +0000112 static const unsigned char cmd[JEDEC_WRDI_OUTSIZE] = { JEDEC_WRDI };
Sean Nelson14ba6682010-02-26 05:48:29 +0000113
114 /* Send WRDI (Write Disable) */
115 return spi_send_command(sizeof(cmd), 0, cmd, NULL);
116}
117
118static int probe_spi_rdid_generic(struct flashchip *flash, int bytes)
119{
120 unsigned char readarr[4];
121 uint32_t id1;
122 uint32_t id2;
123
124 if (spi_rdid(readarr, bytes))
125 return 0;
126
127 if (!oddparity(readarr[0]))
Sean Nelsoned479d22010-03-24 23:14:32 +0000128 msg_cdbg("RDID byte 0 parity violation. ");
Sean Nelson14ba6682010-02-26 05:48:29 +0000129
Carl-Daniel Hailfinger8ae500e2010-06-20 10:39:33 +0000130 /* Check if this is a continuation vendor ID.
131 * FIXME: Handle continuation device IDs.
132 */
Sean Nelson14ba6682010-02-26 05:48:29 +0000133 if (readarr[0] == 0x7f) {
134 if (!oddparity(readarr[1]))
Sean Nelsoned479d22010-03-24 23:14:32 +0000135 msg_cdbg("RDID byte 1 parity violation. ");
Sean Nelson14ba6682010-02-26 05:48:29 +0000136 id1 = (readarr[0] << 8) | readarr[1];
137 id2 = readarr[2];
138 if (bytes > 3) {
139 id2 <<= 8;
140 id2 |= readarr[3];
141 }
142 } else {
143 id1 = readarr[0];
144 id2 = (readarr[1] << 8) | readarr[2];
145 }
146
Sean Nelsoned479d22010-03-24 23:14:32 +0000147 msg_cdbg("%s: id1 0x%02x, id2 0x%02x\n", __func__, id1, id2);
Sean Nelson14ba6682010-02-26 05:48:29 +0000148
149 if (id1 == flash->manufacture_id && id2 == flash->model_id) {
150 /* Print the status register to tell the
151 * user about possible write protection.
152 */
153 spi_prettyprint_status_register(flash);
154
155 return 1;
156 }
157
158 /* Test if this is a pure vendor match. */
159 if (id1 == flash->manufacture_id &&
160 GENERIC_DEVICE_ID == flash->model_id)
161 return 1;
162
163 /* Test if there is any vendor ID. */
164 if (GENERIC_MANUF_ID == flash->manufacture_id &&
165 id1 != 0xff)
166 return 1;
167
168 return 0;
169}
170
171int probe_spi_rdid(struct flashchip *flash)
172{
173 return probe_spi_rdid_generic(flash, 3);
174}
175
Sean Nelson14ba6682010-02-26 05:48:29 +0000176int probe_spi_rdid4(struct flashchip *flash)
177{
Carl-Daniel Hailfinger8ae500e2010-06-20 10:39:33 +0000178 /* Some SPI controllers do not support commands with writecnt=1 and
179 * readcnt=4.
180 */
Sean Nelson14ba6682010-02-26 05:48:29 +0000181 switch (spi_controller) {
Carl-Daniel Hailfinger71127722010-05-31 15:27:27 +0000182#if CONFIG_INTERNAL == 1
Carl-Daniel Hailfingercceafa22010-05-26 01:45:41 +0000183#if defined(__i386__) || defined(__x86_64__)
Carl-Daniel Hailfinger8ae500e2010-06-20 10:39:33 +0000184 case SPI_CONTROLLER_IT87XX:
Sean Nelson14ba6682010-02-26 05:48:29 +0000185 case SPI_CONTROLLER_WBSIO:
Carl-Daniel Hailfinger8ae500e2010-06-20 10:39:33 +0000186 msg_cinfo("4 byte RDID not supported on this SPI controller\n");
187 return 0;
188 break;
Sean Nelson14ba6682010-02-26 05:48:29 +0000189#endif
Carl-Daniel Hailfingercceafa22010-05-26 01:45:41 +0000190#endif
Sean Nelson14ba6682010-02-26 05:48:29 +0000191 default:
Carl-Daniel Hailfinger8ae500e2010-06-20 10:39:33 +0000192 return probe_spi_rdid_generic(flash, 4);
Sean Nelson14ba6682010-02-26 05:48:29 +0000193 }
194
195 return 0;
196}
197
198int probe_spi_rems(struct flashchip *flash)
199{
200 unsigned char readarr[JEDEC_REMS_INSIZE];
201 uint32_t id1, id2;
202
203 if (spi_rems(readarr))
204 return 0;
205
206 id1 = readarr[0];
207 id2 = readarr[1];
208
Sean Nelsoned479d22010-03-24 23:14:32 +0000209 msg_cdbg("%s: id1 0x%x, id2 0x%x\n", __func__, id1, id2);
Sean Nelson14ba6682010-02-26 05:48:29 +0000210
211 if (id1 == flash->manufacture_id && id2 == flash->model_id) {
212 /* Print the status register to tell the
213 * user about possible write protection.
214 */
215 spi_prettyprint_status_register(flash);
216
217 return 1;
218 }
219
220 /* Test if this is a pure vendor match. */
221 if (id1 == flash->manufacture_id &&
222 GENERIC_DEVICE_ID == flash->model_id)
223 return 1;
224
225 /* Test if there is any vendor ID. */
226 if (GENERIC_MANUF_ID == flash->manufacture_id &&
227 id1 != 0xff)
228 return 1;
229
230 return 0;
231}
232
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +0000233int probe_spi_res1(struct flashchip *flash)
Sean Nelson14ba6682010-02-26 05:48:29 +0000234{
Mathias Krausea60faab2011-01-17 07:50:42 +0000235 static const unsigned char allff[] = {0xff, 0xff, 0xff};
236 static const unsigned char all00[] = {0x00, 0x00, 0x00};
Sean Nelson14ba6682010-02-26 05:48:29 +0000237 unsigned char readarr[3];
238 uint32_t id2;
Sean Nelson14ba6682010-02-26 05:48:29 +0000239
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +0000240 /* We only want one-byte RES if RDID and REMS are unusable. */
241
Sean Nelson14ba6682010-02-26 05:48:29 +0000242 /* Check if RDID is usable and does not return 0xff 0xff 0xff or
243 * 0x00 0x00 0x00. In that case, RES is pointless.
244 */
245 if (!spi_rdid(readarr, 3) && memcmp(readarr, allff, 3) &&
246 memcmp(readarr, all00, 3)) {
247 msg_cdbg("Ignoring RES in favour of RDID.\n");
248 return 0;
249 }
250 /* Check if REMS is usable and does not return 0xff 0xff or
251 * 0x00 0x00. In that case, RES is pointless.
252 */
253 if (!spi_rems(readarr) && memcmp(readarr, allff, JEDEC_REMS_INSIZE) &&
254 memcmp(readarr, all00, JEDEC_REMS_INSIZE)) {
255 msg_cdbg("Ignoring RES in favour of REMS.\n");
256 return 0;
257 }
258
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +0000259 if (spi_res(readarr, 1))
Sean Nelson14ba6682010-02-26 05:48:29 +0000260 return 0;
261
Sean Nelson14ba6682010-02-26 05:48:29 +0000262 id2 = readarr[0];
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +0000263
Sean Nelsoned479d22010-03-24 23:14:32 +0000264 msg_cdbg("%s: id 0x%x\n", __func__, id2);
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +0000265
Sean Nelson14ba6682010-02-26 05:48:29 +0000266 if (id2 != flash->model_id)
267 return 0;
268
269 /* Print the status register to tell the
270 * user about possible write protection.
271 */
272 spi_prettyprint_status_register(flash);
273 return 1;
274}
275
Carl-Daniel Hailfingerdc1cda12010-05-28 17:07:57 +0000276int probe_spi_res2(struct flashchip *flash)
277{
278 unsigned char readarr[2];
279 uint32_t id1, id2;
280
281 if (spi_res(readarr, 2))
282 return 0;
283
284 id1 = readarr[0];
285 id2 = readarr[1];
286
287 msg_cdbg("%s: id1 0x%x, id2 0x%x\n", __func__, id1, id2);
288
289 if (id1 != flash->manufacture_id || id2 != flash->model_id)
290 return 0;
291
292 /* Print the status register to tell the
293 * user about possible write protection.
294 */
295 spi_prettyprint_status_register(flash);
296 return 1;
297}
298
Sean Nelson14ba6682010-02-26 05:48:29 +0000299uint8_t spi_read_status_register(void)
300{
Mathias Krausea60faab2011-01-17 07:50:42 +0000301 static const unsigned char cmd[JEDEC_RDSR_OUTSIZE] = { JEDEC_RDSR };
Sean Nelson14ba6682010-02-26 05:48:29 +0000302 /* FIXME: No workarounds for driver/hardware bugs in generic code. */
303 unsigned char readarr[2]; /* JEDEC_RDSR_INSIZE=1 but wbsio needs 2 */
304 int ret;
305
306 /* Read Status Register */
307 ret = spi_send_command(sizeof(cmd), sizeof(readarr), cmd, readarr);
308 if (ret)
Sean Nelsoned479d22010-03-24 23:14:32 +0000309 msg_cerr("RDSR failed!\n");
Sean Nelson14ba6682010-02-26 05:48:29 +0000310
311 return readarr[0];
312}
313
314/* Prettyprint the status register. Common definitions. */
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000315static void spi_prettyprint_status_register_welwip(uint8_t status)
316{
317 msg_cdbg("Chip status register: Write Enable Latch (WEL) is "
318 "%sset\n", (status & (1 << 1)) ? "" : "not ");
319 msg_cdbg("Chip status register: Write In Progress (WIP/BUSY) is "
320 "%sset\n", (status & (1 << 0)) ? "" : "not ");
321}
322
323/* Prettyprint the status register. Common definitions. */
324static void spi_prettyprint_status_register_common(uint8_t status)
Sean Nelson14ba6682010-02-26 05:48:29 +0000325{
Sean Nelsoned479d22010-03-24 23:14:32 +0000326 msg_cdbg("Chip status register: Bit 5 / Block Protect 3 (BP3) is "
Sean Nelson14ba6682010-02-26 05:48:29 +0000327 "%sset\n", (status & (1 << 5)) ? "" : "not ");
Sean Nelsoned479d22010-03-24 23:14:32 +0000328 msg_cdbg("Chip status register: Bit 4 / Block Protect 2 (BP2) is "
Sean Nelson14ba6682010-02-26 05:48:29 +0000329 "%sset\n", (status & (1 << 4)) ? "" : "not ");
Sean Nelsoned479d22010-03-24 23:14:32 +0000330 msg_cdbg("Chip status register: Bit 3 / Block Protect 1 (BP1) is "
Sean Nelson14ba6682010-02-26 05:48:29 +0000331 "%sset\n", (status & (1 << 3)) ? "" : "not ");
Sean Nelsoned479d22010-03-24 23:14:32 +0000332 msg_cdbg("Chip status register: Bit 2 / Block Protect 0 (BP0) is "
Sean Nelson14ba6682010-02-26 05:48:29 +0000333 "%sset\n", (status & (1 << 2)) ? "" : "not ");
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000334 spi_prettyprint_status_register_welwip(status);
Sean Nelson14ba6682010-02-26 05:48:29 +0000335}
336
337/* Prettyprint the status register. Works for
Daniel Lenskidf90d3a2010-07-22 11:44:38 +0000338 * AMIC A25L series
339 */
340void spi_prettyprint_status_register_amic_a25l(uint8_t status)
341{
342 msg_cdbg("Chip status register: Status Register Write Disable "
343 "(SRWD) is %sset\n", (status & (1 << 7)) ? "" : "not ");
344 spi_prettyprint_status_register_common(status);
345}
346
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000347/* Prettyprint the status register. Common definitions. */
348static void spi_prettyprint_status_register_at25_srplepewpp(uint8_t status)
349{
350 msg_cdbg("Chip status register: Sector Protection Register Lock (SRPL) "
351 "is %sset\n", (status & (1 << 7)) ? "" : "not ");
352 msg_cdbg("Chip status register: Bit 6 "
353 "is %sset\n", (status & (1 << 6)) ? "" : "not ");
354 msg_cdbg("Chip status register: Erase/Program Error (EPE) "
355 "is %sset\n", (status & (1 << 5)) ? "" : "not ");
356 msg_cdbg("Chip status register: WP# pin (WPP) "
357 "is %sactive\n", (status & (1 << 4)) ? "not " : "");
358}
359
360int spi_prettyprint_status_register_at25df(struct flashchip *flash)
361{
362 uint8_t status;
363
364 status = spi_read_status_register();
365 msg_cdbg("Chip status register is %02x\n", status);
366
367 spi_prettyprint_status_register_at25_srplepewpp(status);
368 msg_cdbg("Chip status register: Software Protection Status (SWP): ");
369 switch (status & (3 << 2)) {
370 case 0x0 << 2:
371 msg_cdbg("no sectors are protected\n");
372 break;
373 case 0x1 << 2:
374 msg_cdbg("some sectors are protected\n");
375 /* FIXME: Read individual Sector Protection Registers. */
376 break;
377 case 0x3 << 2:
378 msg_cdbg("all sectors are protected\n");
379 break;
380 default:
381 msg_cdbg("reserved for future use\n");
382 break;
383 }
384 spi_prettyprint_status_register_welwip(status);
385 return 0;
386}
387
388int spi_prettyprint_status_register_at25df_sec(struct flashchip *flash)
389{
390 /* FIXME: We should check the security lockdown. */
391 msg_cdbg("Ignoring security lockdown (if present)\n");
392 msg_cdbg("Ignoring status register byte 2\n");
393 return spi_prettyprint_status_register_at25df(flash);
394}
395
396int spi_prettyprint_status_register_at25f(struct flashchip *flash)
397{
398 uint8_t status;
399
400 status = spi_read_status_register();
401 msg_cdbg("Chip status register is %02x\n", status);
402
403 spi_prettyprint_status_register_at25_srplepewpp(status);
404 msg_cdbg("Chip status register: Bit 3 "
405 "is %sset\n", (status & (1 << 3)) ? "" : "not ");
406 msg_cdbg("Chip status register: Block Protect 0 (BP0) is "
407 "%sset, %s sectors are protected\n",
408 (status & (1 << 2)) ? "" : "not ",
409 (status & (1 << 2)) ? "all" : "no");
410 spi_prettyprint_status_register_welwip(status);
411 return 0;
412}
413
414int spi_prettyprint_status_register_at25fs010(struct flashchip *flash)
415{
416 uint8_t status;
417
418 status = spi_read_status_register();
419 msg_cdbg("Chip status register is %02x\n", status);
420
421 msg_cdbg("Chip status register: Status Register Write Protect (WPEN) "
422 "is %sset\n", (status & (1 << 7)) ? "" : "not ");
423 msg_cdbg("Chip status register: Bit 6 / Block Protect 4 (BP4) is "
424 "%sset\n", (status & (1 << 6)) ? "" : "not ");
425 msg_cdbg("Chip status register: Bit 5 / Block Protect 3 (BP3) is "
426 "%sset\n", (status & (1 << 5)) ? "" : "not ");
427 msg_cdbg("Chip status register: Bit 4 is "
428 "%sset\n", (status & (1 << 4)) ? "" : "not ");
429 msg_cdbg("Chip status register: Bit 3 / Block Protect 1 (BP1) is "
430 "%sset\n", (status & (1 << 3)) ? "" : "not ");
431 msg_cdbg("Chip status register: Bit 2 / Block Protect 0 (BP0) is "
432 "%sset\n", (status & (1 << 2)) ? "" : "not ");
433 /* FIXME: Pretty-print detailed sector protection status. */
434 spi_prettyprint_status_register_welwip(status);
435 return 0;
436}
437
438int spi_prettyprint_status_register_at25fs040(struct flashchip *flash)
439{
440 uint8_t status;
441
442 status = spi_read_status_register();
443 msg_cdbg("Chip status register is %02x\n", status);
444
445 msg_cdbg("Chip status register: Status Register Write Protect (WPEN) "
446 "is %sset\n", (status & (1 << 7)) ? "" : "not ");
447 msg_cdbg("Chip status register: Bit 6 / Block Protect 4 (BP4) is "
448 "%sset\n", (status & (1 << 6)) ? "" : "not ");
449 msg_cdbg("Chip status register: Bit 5 / Block Protect 3 (BP3) is "
450 "%sset\n", (status & (1 << 5)) ? "" : "not ");
451 msg_cdbg("Chip status register: Bit 4 / Block Protect 2 (BP2) is "
452 "%sset\n", (status & (1 << 4)) ? "" : "not ");
453 msg_cdbg("Chip status register: Bit 3 / Block Protect 1 (BP1) is "
454 "%sset\n", (status & (1 << 3)) ? "" : "not ");
455 msg_cdbg("Chip status register: Bit 2 / Block Protect 0 (BP0) is "
456 "%sset\n", (status & (1 << 2)) ? "" : "not ");
457 /* FIXME: Pretty-print detailed sector protection status. */
458 spi_prettyprint_status_register_welwip(status);
459 return 0;
460}
461
Daniel Lenskidf90d3a2010-07-22 11:44:38 +0000462/* Prettyprint the status register. Works for
Sean Nelson14ba6682010-02-26 05:48:29 +0000463 * ST M25P series
464 * MX MX25L series
465 */
466void spi_prettyprint_status_register_st_m25p(uint8_t status)
467{
Sean Nelsoned479d22010-03-24 23:14:32 +0000468 msg_cdbg("Chip status register: Status Register Write Disable "
Sean Nelson14ba6682010-02-26 05:48:29 +0000469 "(SRWD) is %sset\n", (status & (1 << 7)) ? "" : "not ");
Sean Nelsoned479d22010-03-24 23:14:32 +0000470 msg_cdbg("Chip status register: Bit 6 is "
Sean Nelson14ba6682010-02-26 05:48:29 +0000471 "%sset\n", (status & (1 << 6)) ? "" : "not ");
472 spi_prettyprint_status_register_common(status);
473}
474
475void spi_prettyprint_status_register_sst25(uint8_t status)
476{
Sean Nelsoned479d22010-03-24 23:14:32 +0000477 msg_cdbg("Chip status register: Block Protect Write Disable "
Sean Nelson14ba6682010-02-26 05:48:29 +0000478 "(BPL) is %sset\n", (status & (1 << 7)) ? "" : "not ");
Sean Nelsoned479d22010-03-24 23:14:32 +0000479 msg_cdbg("Chip status register: Auto Address Increment Programming "
Sean Nelson14ba6682010-02-26 05:48:29 +0000480 "(AAI) is %sset\n", (status & (1 << 6)) ? "" : "not ");
481 spi_prettyprint_status_register_common(status);
482}
483
484/* Prettyprint the status register. Works for
485 * SST 25VF016
486 */
487void spi_prettyprint_status_register_sst25vf016(uint8_t status)
488{
Mathias Krausea60faab2011-01-17 07:50:42 +0000489 static const char *const bpt[] = {
Sean Nelson14ba6682010-02-26 05:48:29 +0000490 "none",
491 "1F0000H-1FFFFFH",
492 "1E0000H-1FFFFFH",
493 "1C0000H-1FFFFFH",
494 "180000H-1FFFFFH",
495 "100000H-1FFFFFH",
496 "all", "all"
497 };
498 spi_prettyprint_status_register_sst25(status);
Sean Nelsoned479d22010-03-24 23:14:32 +0000499 msg_cdbg("Resulting block protection : %s\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000500 bpt[(status & 0x1c) >> 2]);
501}
502
503void spi_prettyprint_status_register_sst25vf040b(uint8_t status)
504{
Mathias Krausea60faab2011-01-17 07:50:42 +0000505 static const char *const bpt[] = {
Sean Nelson14ba6682010-02-26 05:48:29 +0000506 "none",
507 "0x70000-0x7ffff",
508 "0x60000-0x7ffff",
509 "0x40000-0x7ffff",
510 "all blocks", "all blocks", "all blocks", "all blocks"
511 };
512 spi_prettyprint_status_register_sst25(status);
Sean Nelsoned479d22010-03-24 23:14:32 +0000513 msg_cdbg("Resulting block protection : %s\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000514 bpt[(status & 0x1c) >> 2]);
515}
516
517void spi_prettyprint_status_register(struct flashchip *flash)
518{
519 uint8_t status;
520
521 status = spi_read_status_register();
Sean Nelsoned479d22010-03-24 23:14:32 +0000522 msg_cdbg("Chip status register is %02x\n", status);
Sean Nelson14ba6682010-02-26 05:48:29 +0000523 switch (flash->manufacture_id) {
Daniel Lenskidf90d3a2010-07-22 11:44:38 +0000524 case AMIC_ID:
525 if ((flash->model_id & 0xff00) == 0x2000)
526 spi_prettyprint_status_register_amic_a25l(status);
527 break;
Sean Nelson14ba6682010-02-26 05:48:29 +0000528 case ST_ID:
529 if (((flash->model_id & 0xff00) == 0x2000) ||
530 ((flash->model_id & 0xff00) == 0x2500))
531 spi_prettyprint_status_register_st_m25p(status);
532 break;
Mattias Mattsson6eabe282010-09-15 23:31:03 +0000533 case MACRONIX_ID:
Sean Nelson14ba6682010-02-26 05:48:29 +0000534 if ((flash->model_id & 0xff00) == 0x2000)
535 spi_prettyprint_status_register_st_m25p(status);
536 break;
537 case SST_ID:
538 switch (flash->model_id) {
539 case 0x2541:
540 spi_prettyprint_status_register_sst25vf016(status);
541 break;
542 case 0x8d:
543 case 0x258d:
544 spi_prettyprint_status_register_sst25vf040b(status);
545 break;
546 default:
547 spi_prettyprint_status_register_sst25(status);
548 break;
549 }
550 break;
551 }
552}
553
554int spi_chip_erase_60(struct flashchip *flash)
555{
556 int result;
557 struct spi_command cmds[] = {
558 {
559 .writecnt = JEDEC_WREN_OUTSIZE,
560 .writearr = (const unsigned char[]){ JEDEC_WREN },
561 .readcnt = 0,
562 .readarr = NULL,
563 }, {
564 .writecnt = JEDEC_CE_60_OUTSIZE,
565 .writearr = (const unsigned char[]){ JEDEC_CE_60 },
566 .readcnt = 0,
567 .readarr = NULL,
568 }, {
569 .writecnt = 0,
570 .writearr = NULL,
571 .readcnt = 0,
572 .readarr = NULL,
573 }};
574
Sean Nelson14ba6682010-02-26 05:48:29 +0000575 result = spi_send_multicommand(cmds);
576 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000577 msg_cerr("%s failed during command execution\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000578 __func__);
579 return result;
580 }
581 /* Wait until the Write-In-Progress bit is cleared.
582 * This usually takes 1-85 s, so wait in 1 s steps.
583 */
584 /* FIXME: We assume spi_read_status_register will never fail. */
585 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
586 programmer_delay(1000 * 1000);
587 if (check_erased_range(flash, 0, flash->total_size * 1024)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000588 msg_cerr("ERASE FAILED!\n");
Sean Nelson14ba6682010-02-26 05:48:29 +0000589 return -1;
590 }
591 return 0;
592}
593
594int spi_chip_erase_c7(struct flashchip *flash)
595{
596 int result;
597 struct spi_command cmds[] = {
598 {
599 .writecnt = JEDEC_WREN_OUTSIZE,
600 .writearr = (const unsigned char[]){ JEDEC_WREN },
601 .readcnt = 0,
602 .readarr = NULL,
603 }, {
604 .writecnt = JEDEC_CE_C7_OUTSIZE,
605 .writearr = (const unsigned char[]){ JEDEC_CE_C7 },
606 .readcnt = 0,
607 .readarr = NULL,
608 }, {
609 .writecnt = 0,
610 .writearr = NULL,
611 .readcnt = 0,
612 .readarr = NULL,
613 }};
614
Sean Nelson14ba6682010-02-26 05:48:29 +0000615 result = spi_send_multicommand(cmds);
616 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000617 msg_cerr("%s failed during command execution\n", __func__);
Sean Nelson14ba6682010-02-26 05:48:29 +0000618 return result;
619 }
620 /* Wait until the Write-In-Progress bit is cleared.
621 * This usually takes 1-85 s, so wait in 1 s steps.
622 */
623 /* FIXME: We assume spi_read_status_register will never fail. */
624 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
625 programmer_delay(1000 * 1000);
626 if (check_erased_range(flash, 0, flash->total_size * 1024)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000627 msg_cerr("ERASE FAILED!\n");
Sean Nelson14ba6682010-02-26 05:48:29 +0000628 return -1;
629 }
630 return 0;
631}
632
Sean Nelson14ba6682010-02-26 05:48:29 +0000633int spi_block_erase_52(struct flashchip *flash, unsigned int addr, unsigned int blocklen)
634{
635 int result;
636 struct spi_command cmds[] = {
637 {
638 .writecnt = JEDEC_WREN_OUTSIZE,
639 .writearr = (const unsigned char[]){ JEDEC_WREN },
640 .readcnt = 0,
641 .readarr = NULL,
642 }, {
643 .writecnt = JEDEC_BE_52_OUTSIZE,
644 .writearr = (const unsigned char[]){
645 JEDEC_BE_52,
646 (addr >> 16) & 0xff,
647 (addr >> 8) & 0xff,
648 (addr & 0xff)
649 },
650 .readcnt = 0,
651 .readarr = NULL,
652 }, {
653 .writecnt = 0,
654 .writearr = NULL,
655 .readcnt = 0,
656 .readarr = NULL,
657 }};
658
659 result = spi_send_multicommand(cmds);
660 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000661 msg_cerr("%s failed during command execution at address 0x%x\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000662 __func__, addr);
663 return result;
664 }
665 /* Wait until the Write-In-Progress bit is cleared.
666 * This usually takes 100-4000 ms, so wait in 100 ms steps.
667 */
668 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
669 programmer_delay(100 * 1000);
670 if (check_erased_range(flash, addr, blocklen)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000671 msg_cerr("ERASE FAILED!\n");
Sean Nelson14ba6682010-02-26 05:48:29 +0000672 return -1;
673 }
674 return 0;
675}
676
677/* Block size is usually
678 * 64k for Macronix
679 * 32k for SST
680 * 4-32k non-uniform for EON
681 */
682int spi_block_erase_d8(struct flashchip *flash, unsigned int addr, unsigned int blocklen)
683{
684 int result;
685 struct spi_command cmds[] = {
686 {
687 .writecnt = JEDEC_WREN_OUTSIZE,
688 .writearr = (const unsigned char[]){ JEDEC_WREN },
689 .readcnt = 0,
690 .readarr = NULL,
691 }, {
692 .writecnt = JEDEC_BE_D8_OUTSIZE,
693 .writearr = (const unsigned char[]){
694 JEDEC_BE_D8,
695 (addr >> 16) & 0xff,
696 (addr >> 8) & 0xff,
697 (addr & 0xff)
698 },
699 .readcnt = 0,
700 .readarr = NULL,
701 }, {
702 .writecnt = 0,
703 .writearr = NULL,
704 .readcnt = 0,
705 .readarr = NULL,
706 }};
707
708 result = spi_send_multicommand(cmds);
709 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000710 msg_cerr("%s failed during command execution at address 0x%x\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000711 __func__, addr);
712 return result;
713 }
714 /* Wait until the Write-In-Progress bit is cleared.
715 * This usually takes 100-4000 ms, so wait in 100 ms steps.
716 */
717 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
718 programmer_delay(100 * 1000);
719 if (check_erased_range(flash, addr, blocklen)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000720 msg_cerr("ERASE FAILED!\n");
Sean Nelson14ba6682010-02-26 05:48:29 +0000721 return -1;
722 }
723 return 0;
724}
725
726/* Block size is usually
727 * 4k for PMC
728 */
729int spi_block_erase_d7(struct flashchip *flash, unsigned int addr, unsigned int blocklen)
730{
731 int result;
732 struct spi_command cmds[] = {
733 {
734 .writecnt = JEDEC_WREN_OUTSIZE,
735 .writearr = (const unsigned char[]){ JEDEC_WREN },
736 .readcnt = 0,
737 .readarr = NULL,
738 }, {
739 .writecnt = JEDEC_BE_D7_OUTSIZE,
740 .writearr = (const unsigned char[]){
741 JEDEC_BE_D7,
742 (addr >> 16) & 0xff,
743 (addr >> 8) & 0xff,
744 (addr & 0xff)
745 },
746 .readcnt = 0,
747 .readarr = NULL,
748 }, {
749 .writecnt = 0,
750 .writearr = NULL,
751 .readcnt = 0,
752 .readarr = NULL,
753 }};
754
755 result = spi_send_multicommand(cmds);
756 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000757 msg_cerr("%s failed during command execution at address 0x%x\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000758 __func__, addr);
759 return result;
760 }
761 /* Wait until the Write-In-Progress bit is cleared.
762 * This usually takes 100-4000 ms, so wait in 100 ms steps.
763 */
764 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
765 programmer_delay(100 * 1000);
766 if (check_erased_range(flash, addr, blocklen)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000767 msg_cerr("ERASE FAILED!\n");
Sean Nelson14ba6682010-02-26 05:48:29 +0000768 return -1;
769 }
770 return 0;
771}
772
Sean Nelson14ba6682010-02-26 05:48:29 +0000773/* Sector size is usually 4k, though Macronix eliteflash has 64k */
774int spi_block_erase_20(struct flashchip *flash, unsigned int addr, unsigned int blocklen)
775{
776 int result;
777 struct spi_command cmds[] = {
778 {
779 .writecnt = JEDEC_WREN_OUTSIZE,
780 .writearr = (const unsigned char[]){ JEDEC_WREN },
781 .readcnt = 0,
782 .readarr = NULL,
783 }, {
784 .writecnt = JEDEC_SE_OUTSIZE,
785 .writearr = (const unsigned char[]){
786 JEDEC_SE,
787 (addr >> 16) & 0xff,
788 (addr >> 8) & 0xff,
789 (addr & 0xff)
790 },
791 .readcnt = 0,
792 .readarr = NULL,
793 }, {
794 .writecnt = 0,
795 .writearr = NULL,
796 .readcnt = 0,
797 .readarr = NULL,
798 }};
799
800 result = spi_send_multicommand(cmds);
801 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000802 msg_cerr("%s failed during command execution at address 0x%x\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000803 __func__, addr);
804 return result;
805 }
806 /* Wait until the Write-In-Progress bit is cleared.
807 * This usually takes 15-800 ms, so wait in 10 ms steps.
808 */
809 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
810 programmer_delay(10 * 1000);
811 if (check_erased_range(flash, addr, blocklen)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000812 msg_cerr("ERASE FAILED!\n");
Sean Nelson14ba6682010-02-26 05:48:29 +0000813 return -1;
814 }
815 return 0;
816}
817
818int spi_block_erase_60(struct flashchip *flash, unsigned int addr, unsigned int blocklen)
819{
820 if ((addr != 0) || (blocklen != flash->total_size * 1024)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000821 msg_cerr("%s called with incorrect arguments\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000822 __func__);
823 return -1;
824 }
825 return spi_chip_erase_60(flash);
826}
827
828int spi_block_erase_c7(struct flashchip *flash, unsigned int addr, unsigned int blocklen)
829{
830 if ((addr != 0) || (blocklen != flash->total_size * 1024)) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000831 msg_cerr("%s called with incorrect arguments\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000832 __func__);
833 return -1;
834 }
835 return spi_chip_erase_c7(flash);
836}
837
838int spi_write_status_enable(void)
839{
Mathias Krausea60faab2011-01-17 07:50:42 +0000840 static const unsigned char cmd[JEDEC_EWSR_OUTSIZE] = { JEDEC_EWSR };
Sean Nelson14ba6682010-02-26 05:48:29 +0000841 int result;
842
843 /* Send EWSR (Enable Write Status Register). */
844 result = spi_send_command(sizeof(cmd), JEDEC_EWSR_INSIZE, cmd, NULL);
845
846 if (result)
Sean Nelsoned479d22010-03-24 23:14:32 +0000847 msg_cerr("%s failed\n", __func__);
Sean Nelson14ba6682010-02-26 05:48:29 +0000848
849 return result;
850}
851
852/*
853 * This is according the SST25VF016 datasheet, who knows it is more
854 * generic that this...
855 */
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000856static int spi_write_status_register_ewsr(struct flashchip *flash, int status)
Sean Nelson14ba6682010-02-26 05:48:29 +0000857{
858 int result;
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000859 int i = 0;
Sean Nelson14ba6682010-02-26 05:48:29 +0000860 struct spi_command cmds[] = {
861 {
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000862 /* WRSR requires either EWSR or WREN depending on chip type. */
Sean Nelson14ba6682010-02-26 05:48:29 +0000863 .writecnt = JEDEC_EWSR_OUTSIZE,
864 .writearr = (const unsigned char[]){ JEDEC_EWSR },
865 .readcnt = 0,
866 .readarr = NULL,
867 }, {
868 .writecnt = JEDEC_WRSR_OUTSIZE,
869 .writearr = (const unsigned char[]){ JEDEC_WRSR, (unsigned char) status },
870 .readcnt = 0,
871 .readarr = NULL,
872 }, {
873 .writecnt = 0,
874 .writearr = NULL,
875 .readcnt = 0,
876 .readarr = NULL,
877 }};
878
879 result = spi_send_multicommand(cmds);
880 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000881 msg_cerr("%s failed during command execution\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000882 __func__);
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000883 /* No point in waiting for the command to complete if execution
884 * failed.
885 */
886 return result;
Sean Nelson14ba6682010-02-26 05:48:29 +0000887 }
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000888 /* WRSR performs a self-timed erase before the changes take effect.
889 * This may take 50-85 ms in most cases, and some chips apparently
890 * allow running RDSR only once. Therefore pick an initial delay of
891 * 100 ms, then wait in 10 ms steps until a total of 5 s have elapsed.
892 */
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000893 programmer_delay(100 * 1000);
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000894 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP) {
895 if (++i > 490) {
896 msg_cerr("Error: WIP bit after WRSR never cleared\n");
897 return TIMEOUT_ERROR;
898 }
899 programmer_delay(10 * 1000);
900 }
901 return 0;
Sean Nelson14ba6682010-02-26 05:48:29 +0000902}
903
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000904static int spi_write_status_register_wren(struct flashchip *flash, int status)
905{
906 int result;
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000907 int i = 0;
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000908 struct spi_command cmds[] = {
909 {
910 /* WRSR requires either EWSR or WREN depending on chip type. */
911 .writecnt = JEDEC_WREN_OUTSIZE,
912 .writearr = (const unsigned char[]){ JEDEC_WREN },
913 .readcnt = 0,
914 .readarr = NULL,
915 }, {
916 .writecnt = JEDEC_WRSR_OUTSIZE,
917 .writearr = (const unsigned char[]){ JEDEC_WRSR, (unsigned char) status },
918 .readcnt = 0,
919 .readarr = NULL,
920 }, {
921 .writecnt = 0,
922 .writearr = NULL,
923 .readcnt = 0,
924 .readarr = NULL,
925 }};
926
927 result = spi_send_multicommand(cmds);
928 if (result) {
929 msg_cerr("%s failed during command execution\n",
930 __func__);
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000931 /* No point in waiting for the command to complete if execution
932 * failed.
933 */
934 return result;
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000935 }
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000936 /* WRSR performs a self-timed erase before the changes take effect.
937 * This may take 50-85 ms in most cases, and some chips apparently
938 * allow running RDSR only once. Therefore pick an initial delay of
939 * 100 ms, then wait in 10 ms steps until a total of 5 s have elapsed.
940 */
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000941 programmer_delay(100 * 1000);
Carl-Daniel Hailfinger174f55b2010-10-08 00:37:55 +0000942 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP) {
943 if (++i > 490) {
944 msg_cerr("Error: WIP bit after WRSR never cleared\n");
945 return TIMEOUT_ERROR;
946 }
947 programmer_delay(10 * 1000);
948 }
949 return 0;
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +0000950}
951
952static int spi_write_status_register(struct flashchip *flash, int status)
953{
954 int ret = 1;
955
956 if (!(flash->feature_bits & (FEATURE_WRSR_WREN | FEATURE_WRSR_EWSR))) {
957 msg_cdbg("Missing status register write definition, assuming "
958 "EWSR is needed\n");
959 flash->feature_bits |= FEATURE_WRSR_EWSR;
960 }
961 if (flash->feature_bits & FEATURE_WRSR_WREN)
962 ret = spi_write_status_register_wren(flash, status);
963 if (ret && (flash->feature_bits & FEATURE_WRSR_EWSR))
964 ret = spi_write_status_register_ewsr(flash, status);
965 return ret;
966}
967
Sean Nelson14ba6682010-02-26 05:48:29 +0000968int spi_byte_program(int addr, uint8_t databyte)
969{
970 int result;
971 struct spi_command cmds[] = {
972 {
973 .writecnt = JEDEC_WREN_OUTSIZE,
974 .writearr = (const unsigned char[]){ JEDEC_WREN },
975 .readcnt = 0,
976 .readarr = NULL,
977 }, {
978 .writecnt = JEDEC_BYTE_PROGRAM_OUTSIZE,
979 .writearr = (const unsigned char[]){
980 JEDEC_BYTE_PROGRAM,
981 (addr >> 16) & 0xff,
982 (addr >> 8) & 0xff,
983 (addr & 0xff),
984 databyte
985 },
986 .readcnt = 0,
987 .readarr = NULL,
988 }, {
989 .writecnt = 0,
990 .writearr = NULL,
991 .readcnt = 0,
992 .readarr = NULL,
993 }};
994
995 result = spi_send_multicommand(cmds);
996 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +0000997 msg_cerr("%s failed during command execution at address 0x%x\n",
Sean Nelson14ba6682010-02-26 05:48:29 +0000998 __func__, addr);
999 }
1000 return result;
1001}
1002
1003int spi_nbyte_program(int addr, uint8_t *bytes, int len)
1004{
1005 int result;
1006 /* FIXME: Switch to malloc based on len unless that kills speed. */
1007 unsigned char cmd[JEDEC_BYTE_PROGRAM_OUTSIZE - 1 + 256] = {
1008 JEDEC_BYTE_PROGRAM,
1009 (addr >> 16) & 0xff,
1010 (addr >> 8) & 0xff,
1011 (addr >> 0) & 0xff,
1012 };
1013 struct spi_command cmds[] = {
1014 {
1015 .writecnt = JEDEC_WREN_OUTSIZE,
1016 .writearr = (const unsigned char[]){ JEDEC_WREN },
1017 .readcnt = 0,
1018 .readarr = NULL,
1019 }, {
1020 .writecnt = JEDEC_BYTE_PROGRAM_OUTSIZE - 1 + len,
1021 .writearr = cmd,
1022 .readcnt = 0,
1023 .readarr = NULL,
1024 }, {
1025 .writecnt = 0,
1026 .writearr = NULL,
1027 .readcnt = 0,
1028 .readarr = NULL,
1029 }};
1030
1031 if (!len) {
Sean Nelsoned479d22010-03-24 23:14:32 +00001032 msg_cerr("%s called for zero-length write\n", __func__);
Sean Nelson14ba6682010-02-26 05:48:29 +00001033 return 1;
1034 }
1035 if (len > 256) {
Sean Nelsoned479d22010-03-24 23:14:32 +00001036 msg_cerr("%s called for too long a write\n", __func__);
Sean Nelson14ba6682010-02-26 05:48:29 +00001037 return 1;
1038 }
1039
1040 memcpy(&cmd[4], bytes, len);
1041
1042 result = spi_send_multicommand(cmds);
1043 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +00001044 msg_cerr("%s failed during command execution at address 0x%x\n",
Sean Nelson14ba6682010-02-26 05:48:29 +00001045 __func__, addr);
1046 }
1047 return result;
1048}
1049
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +00001050/* A generic brute-force block protection disable works like this:
1051 * Write 0x00 to the status register. Check if any locks are still set (that
1052 * part is chip specific). Repeat once.
1053 */
Carl-Daniel Hailfinger29a1c662010-07-14 20:21:22 +00001054int spi_disable_blockprotect(struct flashchip *flash)
Sean Nelson14ba6682010-02-26 05:48:29 +00001055{
1056 uint8_t status;
1057 int result;
1058
1059 status = spi_read_status_register();
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +00001060 /* If block protection is disabled, stop here. */
1061 if ((status & 0x3c) == 0)
1062 return 0;
1063
1064 msg_cdbg("Some block protection in effect, disabling\n");
1065 result = spi_write_status_register(flash, status & ~0x3c);
1066 if (result) {
1067 msg_cerr("spi_write_status_register failed\n");
1068 return result;
1069 }
1070 status = spi_read_status_register();
Sean Nelson14ba6682010-02-26 05:48:29 +00001071 if ((status & 0x3c) != 0) {
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +00001072 msg_cerr("Block protection could not be disabled!\n");
1073 return 1;
1074 }
1075 return 0;
1076}
1077
1078int spi_disable_blockprotect_at25df(struct flashchip *flash)
1079{
1080 uint8_t status;
1081 int result;
1082
1083 status = spi_read_status_register();
1084 /* If block protection is disabled, stop here. */
1085 if ((status & (3 << 2)) == 0)
1086 return 0;
1087
1088 msg_cdbg("Some block protection in effect, disabling\n");
1089 if (status & (1 << 7)) {
1090 msg_cdbg("Need to disable Sector Protection Register Lock\n");
1091 if ((status & (1 << 4)) == 0) {
1092 msg_cerr("WP# pin is active, disabling "
1093 "write protection is impossible.\n");
1094 return 1;
1095 }
1096 /* All bits except bit 7 (SPRL) are readonly. */
1097 result = spi_write_status_register(flash, status & ~(1 << 7));
Sean Nelson14ba6682010-02-26 05:48:29 +00001098 if (result) {
Sean Nelsoned479d22010-03-24 23:14:32 +00001099 msg_cerr("spi_write_status_register failed\n");
Sean Nelson14ba6682010-02-26 05:48:29 +00001100 return result;
1101 }
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +00001102
1103 }
1104 /* Global unprotect. Make sure to mask SPRL as well. */
1105 result = spi_write_status_register(flash, status & ~0xbc);
1106 if (result) {
1107 msg_cerr("spi_write_status_register failed\n");
1108 return result;
1109 }
1110 status = spi_read_status_register();
1111 if ((status & (3 << 2)) != 0) {
1112 msg_cerr("Block protection could not be disabled!\n");
1113 return 1;
1114 }
1115 return 0;
1116}
1117
1118int spi_disable_blockprotect_at25df_sec(struct flashchip *flash)
1119{
1120 /* FIXME: We should check the security lockdown. */
1121 msg_cinfo("Ignoring security lockdown (if present)\n");
1122 return spi_disable_blockprotect_at25df(flash);
1123}
1124
1125int spi_disable_blockprotect_at25f(struct flashchip *flash)
1126{
1127 /* spi_disable_blockprotect_at25df is not really the right way to do
1128 * this, but the side effects of said function work here as well.
1129 */
1130 return spi_disable_blockprotect_at25df(flash);
1131}
1132
1133int spi_disable_blockprotect_at25fs010(struct flashchip *flash)
1134{
1135 uint8_t status;
1136 int result;
1137
1138 status = spi_read_status_register();
1139 /* If block protection is disabled, stop here. */
1140 if ((status & 0x6c) == 0)
1141 return 0;
1142
1143 msg_cdbg("Some block protection in effect, disabling\n");
1144 if (status & (1 << 7)) {
1145 msg_cdbg("Need to disable Status Register Write Protect\n");
1146 /* Clear bit 7 (WPEN). */
1147 result = spi_write_status_register(flash, status & ~(1 << 7));
1148 if (result) {
1149 msg_cerr("spi_write_status_register failed\n");
1150 return result;
Carl-Daniel Hailfinger29a1c662010-07-14 20:21:22 +00001151 }
Sean Nelson14ba6682010-02-26 05:48:29 +00001152 }
Carl-Daniel Hailfingerfd7075a2010-07-29 13:09:18 +00001153 /* Global unprotect. Make sure to mask WPEN as well. */
1154 result = spi_write_status_register(flash, status & ~0xec);
1155 if (result) {
1156 msg_cerr("spi_write_status_register failed\n");
1157 return result;
1158 }
1159 status = spi_read_status_register();
1160 if ((status & 0x6c) != 0) {
1161 msg_cerr("Block protection could not be disabled!\n");
1162 return 1;
1163 }
1164 return 0;
1165}
1166int spi_disable_blockprotect_at25fs040(struct flashchip *flash)
1167{
1168 uint8_t status;
1169 int result;
1170
1171 status = spi_read_status_register();
1172 /* If block protection is disabled, stop here. */
1173 if ((status & 0x7c) == 0)
1174 return 0;
1175
1176 msg_cdbg("Some block protection in effect, disabling\n");
1177 if (status & (1 << 7)) {
1178 msg_cdbg("Need to disable Status Register Write Protect\n");
1179 /* Clear bit 7 (WPEN). */
1180 result = spi_write_status_register(flash, status & ~(1 << 7));
1181 if (result) {
1182 msg_cerr("spi_write_status_register failed\n");
1183 return result;
1184 }
1185 }
1186 /* Global unprotect. Make sure to mask WPEN as well. */
1187 result = spi_write_status_register(flash, status & ~0xfc);
1188 if (result) {
1189 msg_cerr("spi_write_status_register failed\n");
1190 return result;
1191 }
1192 status = spi_read_status_register();
1193 if ((status & 0x7c) != 0) {
1194 msg_cerr("Block protection could not be disabled!\n");
1195 return 1;
1196 }
Sean Nelson14ba6682010-02-26 05:48:29 +00001197 return 0;
1198}
1199
1200int spi_nbyte_read(int address, uint8_t *bytes, int len)
1201{
1202 const unsigned char cmd[JEDEC_READ_OUTSIZE] = {
1203 JEDEC_READ,
1204 (address >> 16) & 0xff,
1205 (address >> 8) & 0xff,
1206 (address >> 0) & 0xff,
1207 };
1208
1209 /* Send Read */
1210 return spi_send_command(sizeof(cmd), len, cmd, bytes);
1211}
1212
1213/*
Carl-Daniel Hailfinger5824fbf2010-05-21 23:09:42 +00001214 * Read a part of the flash chip.
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001215 * FIXME: Use the chunk code from Michael Karcher instead.
Sean Nelson14ba6682010-02-26 05:48:29 +00001216 * Each page is read separately in chunks with a maximum size of chunksize.
1217 */
1218int spi_read_chunked(struct flashchip *flash, uint8_t *buf, int start, int len, int chunksize)
1219{
1220 int rc = 0;
1221 int i, j, starthere, lenhere;
1222 int page_size = flash->page_size;
1223 int toread;
1224
1225 /* Warning: This loop has a very unusual condition and body.
1226 * The loop needs to go through each page with at least one affected
1227 * byte. The lowest page number is (start / page_size) since that
1228 * division rounds down. The highest page number we want is the page
1229 * where the last byte of the range lives. That last byte has the
1230 * address (start + len - 1), thus the highest page number is
1231 * (start + len - 1) / page_size. Since we want to include that last
1232 * page as well, the loop condition uses <=.
1233 */
1234 for (i = start / page_size; i <= (start + len - 1) / page_size; i++) {
1235 /* Byte position of the first byte in the range in this page. */
1236 /* starthere is an offset to the base address of the chip. */
1237 starthere = max(start, i * page_size);
1238 /* Length of bytes in the range in this page. */
1239 lenhere = min(start + len, (i + 1) * page_size) - starthere;
1240 for (j = 0; j < lenhere; j += chunksize) {
1241 toread = min(chunksize, lenhere - j);
1242 rc = spi_nbyte_read(starthere + j, buf + starthere - start + j, toread);
1243 if (rc)
1244 break;
1245 }
1246 if (rc)
1247 break;
1248 }
1249
1250 return rc;
1251}
1252
1253/*
Carl-Daniel Hailfinger5824fbf2010-05-21 23:09:42 +00001254 * Write a part of the flash chip.
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001255 * FIXME: Use the chunk code from Michael Karcher instead.
Carl-Daniel Hailfinger5824fbf2010-05-21 23:09:42 +00001256 * Each page is written separately in chunks with a maximum size of chunksize.
1257 */
1258int spi_write_chunked(struct flashchip *flash, uint8_t *buf, int start, int len, int chunksize)
1259{
1260 int rc = 0;
1261 int i, j, starthere, lenhere;
1262 /* FIXME: page_size is the wrong variable. We need max_writechunk_size
1263 * in struct flashchip to do this properly. All chips using
1264 * spi_chip_write_256 have page_size set to max_writechunk_size, so
1265 * we're OK for now.
1266 */
1267 int page_size = flash->page_size;
1268 int towrite;
1269
1270 /* Warning: This loop has a very unusual condition and body.
1271 * The loop needs to go through each page with at least one affected
1272 * byte. The lowest page number is (start / page_size) since that
1273 * division rounds down. The highest page number we want is the page
1274 * where the last byte of the range lives. That last byte has the
1275 * address (start + len - 1), thus the highest page number is
1276 * (start + len - 1) / page_size. Since we want to include that last
1277 * page as well, the loop condition uses <=.
1278 */
1279 for (i = start / page_size; i <= (start + len - 1) / page_size; i++) {
1280 /* Byte position of the first byte in the range in this page. */
1281 /* starthere is an offset to the base address of the chip. */
1282 starthere = max(start, i * page_size);
1283 /* Length of bytes in the range in this page. */
1284 lenhere = min(start + len, (i + 1) * page_size) - starthere;
1285 for (j = 0; j < lenhere; j += chunksize) {
1286 towrite = min(chunksize, lenhere - j);
1287 rc = spi_nbyte_program(starthere + j, buf + starthere - start + j, towrite);
1288 if (rc)
1289 break;
1290 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
1291 programmer_delay(10);
1292 }
1293 if (rc)
1294 break;
1295 }
1296
1297 return rc;
1298}
1299
1300/*
Sean Nelson14ba6682010-02-26 05:48:29 +00001301 * Program chip using byte programming. (SLOW!)
1302 * This is for chips which can only handle one byte writes
1303 * and for chips where memory mapped programming is impossible
1304 * (e.g. due to size constraints in IT87* for over 512 kB)
1305 */
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001306/* real chunksize is 1, logical chunksize is 1 */
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001307int spi_chip_write_1(struct flashchip *flash, uint8_t *buf, int start, int len)
Sean Nelson14ba6682010-02-26 05:48:29 +00001308{
Sean Nelson14ba6682010-02-26 05:48:29 +00001309 int i, result = 0;
1310
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001311 for (i = start; i < start + len; i++) {
Carl-Daniel Hailfingerccfe0ac2010-10-27 22:07:11 +00001312 result = spi_byte_program(i, buf[i - start]);
Sean Nelson14ba6682010-02-26 05:48:29 +00001313 if (result)
1314 return 1;
1315 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
1316 programmer_delay(10);
1317 }
1318
1319 return 0;
1320}
1321
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001322int spi_aai_write(struct flashchip *flash, uint8_t *buf, int start, int len)
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001323{
1324 uint32_t pos = start;
Sean Nelson14ba6682010-02-26 05:48:29 +00001325 int result;
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001326 unsigned char cmd[JEDEC_AAI_WORD_PROGRAM_CONT_OUTSIZE] = {
1327 JEDEC_AAI_WORD_PROGRAM,
1328 };
1329 struct spi_command cmds[] = {
1330 {
1331 .writecnt = JEDEC_WREN_OUTSIZE,
1332 .writearr = (const unsigned char[]){ JEDEC_WREN },
1333 .readcnt = 0,
1334 .readarr = NULL,
1335 }, {
1336 .writecnt = JEDEC_AAI_WORD_PROGRAM_OUTSIZE,
1337 .writearr = (const unsigned char[]){
1338 JEDEC_AAI_WORD_PROGRAM,
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001339 (start >> 16) & 0xff,
1340 (start >> 8) & 0xff,
1341 (start & 0xff),
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001342 buf[0],
1343 buf[1]
1344 },
1345 .readcnt = 0,
1346 .readarr = NULL,
1347 }, {
1348 .writecnt = 0,
1349 .writearr = NULL,
1350 .readcnt = 0,
1351 .readarr = NULL,
1352 }};
Sean Nelson14ba6682010-02-26 05:48:29 +00001353
1354 switch (spi_controller) {
Carl-Daniel Hailfinger71127722010-05-31 15:27:27 +00001355#if CONFIG_INTERNAL == 1
Carl-Daniel Hailfingercceafa22010-05-26 01:45:41 +00001356#if defined(__i386__) || defined(__x86_64__)
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001357 case SPI_CONTROLLER_IT87XX:
Sean Nelson14ba6682010-02-26 05:48:29 +00001358 case SPI_CONTROLLER_WBSIO:
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001359 msg_perr("%s: impossible with this SPI controller,"
Sean Nelson14ba6682010-02-26 05:48:29 +00001360 " degrading to byte program\n", __func__);
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001361 return spi_chip_write_1(flash, buf, start, len);
Sean Nelson14ba6682010-02-26 05:48:29 +00001362#endif
Carl-Daniel Hailfingercceafa22010-05-26 01:45:41 +00001363#endif
Sean Nelson14ba6682010-02-26 05:48:29 +00001364 default:
1365 break;
1366 }
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001367
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001368 /* The even start address and even length requirements can be either
1369 * honored outside this function, or we can call spi_byte_program
1370 * for the first and/or last byte and use AAI for the rest.
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001371 * FIXME: Move this to generic code.
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001372 */
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001373 /* The data sheet requires a start address with the low bit cleared. */
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001374 if (start % 2) {
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001375 msg_cerr("%s: start address not even! Please report a bug at "
1376 "flashrom@flashrom.org\n", __func__);
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001377 if (spi_chip_write_1(flash, buf, start, start % 2))
1378 return SPI_GENERIC_ERROR;
1379 pos += start % 2;
Carl-Daniel Hailfingerccfe0ac2010-10-27 22:07:11 +00001380 cmds[1].writearr = (const unsigned char[]){
1381 JEDEC_AAI_WORD_PROGRAM,
1382 (pos >> 16) & 0xff,
1383 (pos >> 8) & 0xff,
1384 (pos & 0xff),
1385 buf[pos - start],
1386 buf[pos - start + 1]
1387 };
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001388 /* Do not return an error for now. */
1389 //return SPI_GENERIC_ERROR;
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001390 }
1391 /* The data sheet requires total AAI write length to be even. */
1392 if (len % 2) {
1393 msg_cerr("%s: total write length not even! Please report a "
1394 "bug at flashrom@flashrom.org\n", __func__);
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001395 /* Do not return an error for now. */
1396 //return SPI_GENERIC_ERROR;
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001397 }
1398
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001399
1400 result = spi_send_multicommand(cmds);
1401 if (result) {
1402 msg_cerr("%s failed during start command execution\n",
1403 __func__);
Carl-Daniel Hailfinger9a795d82010-07-14 16:19:05 +00001404 /* FIXME: Should we send WRDI here as well to make sure the chip
1405 * is not in AAI mode?
1406 */
Sean Nelson14ba6682010-02-26 05:48:29 +00001407 return result;
Sean Nelson14ba6682010-02-26 05:48:29 +00001408 }
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001409 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
1410 programmer_delay(10);
1411
1412 /* We already wrote 2 bytes in the multicommand step. */
1413 pos += 2;
1414
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001415 /* Are there at least two more bytes to write? */
1416 while (pos < start + len - 1) {
Carl-Daniel Hailfingerccfe0ac2010-10-27 22:07:11 +00001417 cmd[1] = buf[pos++ - start];
1418 cmd[2] = buf[pos++ - start];
Carl-Daniel Hailfinger9c62d112010-06-20 10:41:35 +00001419 spi_send_command(JEDEC_AAI_WORD_PROGRAM_CONT_OUTSIZE, 0, cmd, NULL);
1420 while (spi_read_status_register() & JEDEC_RDSR_BIT_WIP)
1421 programmer_delay(10);
1422 }
1423
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001424 /* Use WRDI to exit AAI mode. This needs to be done before issuing any
1425 * other non-AAI command.
1426 */
Sean Nelson14ba6682010-02-26 05:48:29 +00001427 spi_write_disable();
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001428
1429 /* Write remaining byte (if any). */
1430 if (pos < start + len) {
Carl-Daniel Hailfingerccfe0ac2010-10-27 22:07:11 +00001431 if (spi_chip_write_1(flash, buf + pos - start, pos, pos % 2))
Carl-Daniel Hailfinger75a58f92010-10-13 22:26:56 +00001432 return SPI_GENERIC_ERROR;
1433 pos += pos % 2;
1434 }
1435
Sean Nelson14ba6682010-02-26 05:48:29 +00001436 return 0;
1437}