blob: a2219ac6c4262fe2397d94fbabf6a3c92ee589a1 [file] [log] [blame]
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +03001/*
2 * This file is part of the flashrom project.
3 *
4 * Copyright (C) 2015 Paul Kocialkowski <contact@paulk.fr>
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
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
17#include <string.h>
18#include "flash.h"
Jacob Garber6c683632019-06-21 15:33:09 -060019#include "chipdrivers.h"
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +030020#include "ene.h"
21#include "edi.h"
22
23static unsigned int edi_read_buffer_length = EDI_READ_BUFFER_LENGTH_DEFAULT;
24
25static const struct ene_chip ene_kb9012 = {
26 .hwversion = ENE_KB9012_HWVERSION,
27 .ediid = ENE_KB9012_EDIID,
28};
29
30static void edi_write_cmd(unsigned char *cmd, unsigned short address, unsigned char data)
31{
32 cmd[0] = EDI_WRITE; /* EDI write command. */
33 cmd[1] = 0x00; /* Address is only 2 bytes. */
34 cmd[2] = (address >> 8) & 0xff; /* Address higher byte. */
35 cmd[3] = (address >> 0) & 0xff; /* Address lower byte. */
36 cmd[4] = data; /* Write data. */
37}
38
39static void edi_read_cmd(unsigned char *cmd, unsigned short address)
40{
41 cmd[0] = EDI_READ; /* EDI read command. */
42 cmd[1] = 0x00; /* Address is only 2 bytes. */
43 cmd[2] = (address >> 8) & 0xff; /* Address higher byte. */
44 cmd[3] = (address >> 0) & 0xff; /* Address lower byte. */
45}
46
47static int edi_write(struct flashctx *flash, unsigned short address, unsigned char data)
48{
49 unsigned char cmd[5];
50 int rc;
51
52 edi_write_cmd(cmd, address, data);
53
54 rc = spi_send_command(flash, sizeof(cmd), 0, cmd, NULL);
55 if (rc)
56 return -1;
57
58 return 0;
59}
60
61static int edi_read_byte(struct flashctx *flash, unsigned short address, unsigned char *data)
62{
63 unsigned char cmd[4];
64 unsigned char buffer[edi_read_buffer_length];
65 unsigned int index;
66 unsigned int i;
67 int rc;
68
69 edi_read_cmd(cmd, address);
70
71 rc = spi_send_command(flash, sizeof(cmd), sizeof(buffer), cmd, buffer);
72 if (rc)
73 return -1;
74
75 index = 0;
76
77 for (i = 0; i < sizeof(buffer); i++) {
78 index = i;
79
80 if (buffer[i] == EDI_NOT_READY)
81 continue;
82
83 if (buffer[i] == EDI_READY) {
84 if (i == (sizeof(buffer) - 1)) {
85 /*
86 * Buffer size was too small for receiving the value.
87 * This is as good as getting only EDI_NOT_READY.
88 */
89
90 buffer[i] = EDI_NOT_READY;
91 break;
92 }
93
94 *data = buffer[i + 1];
95 return 0;
96 }
97 }
98
99 if (buffer[index] == EDI_NOT_READY)
100 return -EDI_NOT_READY;
101
102 return -1;
103}
104
105static int edi_read(struct flashctx *flash, unsigned short address, unsigned char *data)
106{
107 int rc;
108
109 do {
110 rc = edi_read_byte(flash, address, data);
111 if (rc == -EDI_NOT_READY) {
112 /*
113 * Buffer size is increased, one step at a time,
114 * to hold more data if we only catch EDI_NOT_READY.
115 * Once CS is deasserted, no more data will be sent by the EC,
116 * so we cannot keep reading afterwards and have to start a new
117 * transaction with a longer buffer, to be safe.
118 */
119
120 if (edi_read_buffer_length < EDI_READ_BUFFER_LENGTH_MAX) {
121 msg_pwarn("%s: Retrying read with greater buffer length!\n", __func__);
122 edi_read_buffer_length++;
123 } else {
124 msg_perr("%s: Maximum buffer length reached and data still not ready!\n", __func__);
125 return -1;
126 }
127 } else if (rc < 0) {
128 return -1;
129 }
130 } while (rc == -EDI_NOT_READY);
131
132 return 0;
133}
134
135static int edi_disable(struct flashctx *flash)
136{
137 unsigned char cmd = EDI_DISABLE;
138 int rc;
139
140 rc = spi_send_command(flash, sizeof(cmd), 0, &cmd, NULL);
141 if (rc)
142 return -1;
143
144 return 0;
145}
146
147static int edi_chip_probe(struct flashctx *flash, const struct ene_chip *chip)
148{
149 unsigned char hwversion;
150 unsigned char ediid;
151 int rc;
152
153 rc = edi_read(flash, ENE_EC_HWVERSION, &hwversion);
Mike Banon3a826042018-01-15 01:09:16 +0300154 if (rc < 0) {
155 msg_cdbg("%s: reading hwversion failed\n", __func__);
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +0300156 return 0;
Mike Banon3a826042018-01-15 01:09:16 +0300157 }
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +0300158
159 rc = edi_read(flash, ENE_EC_EDIID, &ediid);
Mike Banon3a826042018-01-15 01:09:16 +0300160 if (rc < 0) {
161 msg_cdbg("%s: reading ediid failed\n", __func__);
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +0300162 return 0;
Mike Banon3a826042018-01-15 01:09:16 +0300163 }
164
165 msg_cdbg("%s: hwversion 0x%02x, ediid 0x%02x\n", __func__, hwversion, ediid);
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +0300166
167 if (chip->hwversion == hwversion && chip->ediid == ediid)
168 return 1;
169
170 return 0;
171}
172
173static int edi_spi_enable(struct flashctx *flash)
174{
175 unsigned char buffer;
176 int rc;
177
178 rc = edi_read(flash, ENE_XBI_EFCFG, &buffer);
179 if (rc < 0)
180 return -1;
181
182 buffer |= ENE_XBI_EFCFG_CMD_WE;
183
184 rc = edi_write(flash, ENE_XBI_EFCFG, buffer);
185 if (rc < 0)
186 return -1;
187
188 return 0;
189}
190
191static int edi_spi_disable(struct flashctx *flash)
192{
193 unsigned char buffer;
194 int rc;
195
196 rc = edi_read(flash, ENE_XBI_EFCFG, &buffer);
197 if (rc < 0)
198 return -1;
199
200 buffer &= ~ENE_XBI_EFCFG_CMD_WE;
201
202 rc = edi_write(flash, ENE_XBI_EFCFG, buffer);
203 if (rc < 0)
204 return -1;
205
206 return 0;
207}
208
209static int edi_spi_busy(struct flashctx *flash)
210{
211 unsigned char buffer;
212 int rc;
213
214 rc = edi_read(flash, ENE_XBI_EFCFG, &buffer);
215 if (rc < 0)
216 return -1;
217
218 return !!(buffer & ENE_XBI_EFCFG_BUSY);
219}
220
221static int edi_spi_address(struct flashctx *flash, unsigned int start, unsigned int address)
222{
223 int rc;
224
225 if ((address == start) || (((address - 1) & 0xff) != (address & 0xff))) {
226 rc = edi_write(flash, ENE_XBI_EFA0, ((address & 0xff) >> 0));
227 if (rc < 0)
228 return -1;
229 }
230
231 if ((address == start) || (((address - 1) & 0xff00) != (address & 0xff00))) {
232 rc = edi_write(flash, ENE_XBI_EFA1, ((address & 0xff00) >> 8));
233 if (rc < 0)
234 return -1;
235 }
236
237 if ((address == start) || (((address - 1) & 0xff0000) != (address & 0xff0000))) {
238 rc = edi_write(flash, ENE_XBI_EFA2, ((address & 0xff0000) >> 16));
239 if (rc < 0)
240 return -1;
241 }
242
243 return 0;
244}
245
246static int edi_8051_reset(struct flashctx *flash)
247{
248 unsigned char buffer;
249 int rc;
250
251 rc = edi_read(flash, ENE_EC_PXCFG, &buffer);
252 if (rc < 0)
253 return -1;
254
255 buffer |= ENE_EC_PXCFG_8051_RESET;
256
257 rc = edi_write(flash, ENE_EC_PXCFG, buffer);
258 if (rc < 0)
259 return -1;
260
261 return 0;
262}
263
264static int edi_8051_execute(struct flashctx *flash)
265{
266 unsigned char buffer;
267 int rc;
268
269 rc = edi_read(flash, ENE_EC_PXCFG, &buffer);
270 if (rc < 0)
271 return -1;
272
273 buffer &= ~ENE_EC_PXCFG_8051_RESET;
274
275 rc = edi_write(flash, ENE_EC_PXCFG, buffer);
276 if (rc < 0)
277 return -1;
278
279 return 0;
280}
281
282int edi_chip_block_erase(struct flashctx *flash, unsigned int page, unsigned int size)
283{
284 unsigned int timeout = 64;
285 int rc;
286
287 if (size != flash->chip->page_size) {
288 msg_perr("%s: Block erase size is not page size!\n", __func__);
289 return -1;
290 }
291
292 rc = edi_spi_enable(flash);
293 if (rc < 0) {
294 msg_perr("%s: Unable to enable SPI!\n", __func__);
295 return -1;
296 }
297
298 rc = edi_spi_address(flash, page, page);
299 if (rc < 0)
300 return -1;
301
302 rc = edi_write(flash, ENE_XBI_EFCMD, ENE_XBI_EFCMD_ERASE);
303 if (rc < 0)
304 return -1;
305
306 while (edi_spi_busy(flash) == 1 && timeout) {
307 programmer_delay(10);
308 timeout--;
309 }
310
311 if (!timeout) {
312 msg_perr("%s: Timed out waiting for SPI not busy!\n", __func__);
313 return -1;
314 }
315
316 rc = edi_spi_disable(flash);
317 if (rc < 0) {
318 msg_perr("%s: Unable to disable SPI!\n", __func__);
319 return -1;
320 }
321
322 return 0;
323}
324
325int edi_chip_write(struct flashctx *flash, const uint8_t *buf, unsigned int start, unsigned int len)
326{
327 unsigned int address = start;
328 unsigned int pages;
329 unsigned int timeout;
330 unsigned int i, j;
331 int rc;
332
333 if ((start % flash->chip->page_size) != 0) {
334 msg_perr("%s: Start address is not page-aligned!\n", __func__);
335 return -1;
336 }
337
338 if ((len % flash->chip->page_size) != 0) {
339 msg_perr("%s: Length is not page-aligned!\n", __func__);
340 return -1;
341 }
342
343 pages = len / flash->chip->page_size;
344
345 rc = edi_spi_enable(flash);
346 if (rc < 0) {
347 msg_perr("%s: Unable to enable SPI!\n", __func__);
348 return -1;
349 }
350
351 for (i = 0; i < pages; i++) {
352 timeout = 64;
353
354 /* Clear page buffer. */
355 rc = edi_write(flash, ENE_XBI_EFCMD, ENE_XBI_EFCMD_HVPL_CLEAR);
356 if (rc < 0)
357 return -1;
358
359 for (j = 0; j < flash->chip->page_size; j++) {
360 rc = edi_spi_address(flash, start, address);
361 if (rc < 0)
362 return -1;
363
364 rc = edi_write(flash, ENE_XBI_EFDAT, *buf);
365 if (rc < 0)
366 return -1;
367
368 rc = edi_write(flash, ENE_XBI_EFCMD, ENE_XBI_EFCMD_HVPL_LATCH);
369 if (rc < 0)
370 return -1;
371
372 buf++;
373 address++;
374 }
375
376 /* Program page buffer to flash. */
377 rc = edi_write(flash, ENE_XBI_EFCMD, ENE_XBI_EFCMD_PROGRAM);
378 if (rc < 0)
379 return -1;
380
381 while (edi_spi_busy(flash) == 1 && timeout) {
382 programmer_delay(10);
383 timeout--;
384 }
385
386 if (!timeout) {
387 msg_perr("%s: Timed out waiting for SPI not busy!\n", __func__);
388 return -1;
389 }
390 }
391
392 rc = edi_spi_disable(flash);
393 if (rc < 0) {
394 msg_perr("%s: Unable to disable SPI!\n", __func__);
395 return -1;
396 }
397
398 return 0;
399}
400
401int edi_chip_read(struct flashctx *flash, uint8_t *buf, unsigned int start, unsigned int len)
402{
403 unsigned int address = start;
404 unsigned int i;
405 unsigned int timeout;
406 int rc;
407
408 rc = edi_spi_enable(flash);
409 if (rc < 0) {
410 msg_perr("%s: Unable to enable SPI!\n", __func__);
411 return -1;
412 }
413
414 /*
415 * EDI brings such a drastic overhead that there is about no need to
416 * have any delay in between calls. The EDI protocol will handle wait
417 * I/O times on its own anyway.
418 */
419
420 for (i = 0; i < len; i++) {
421 timeout = 64;
422
423 rc = edi_spi_address(flash, start, address);
424 if (rc < 0)
425 return -1;
426
427 rc = edi_write(flash, ENE_XBI_EFCMD, ENE_XBI_EFCMD_READ);
428 if (rc < 0)
429 return -1;
430
431 do {
432 rc = edi_read(flash, ENE_XBI_EFDAT, buf);
433 if (rc == 0)
434 break;
435
436 /* Just in case. */
437 while (edi_spi_busy(flash) == 1 && timeout) {
438 programmer_delay(10);
439 timeout--;
440 }
441
442 if (!timeout) {
443 msg_perr("%s: Timed out waiting for SPI not busy!\n", __func__);
444 return -1;
445 }
446 } while (1);
447
448 buf++;
449 address++;
450 }
451
452 rc = edi_spi_disable(flash);
453 if (rc < 0) {
454 msg_perr("%s: Unable to disable SPI!\n", __func__);
455 return -1;
456 }
457
458 return 0;
459}
460
Jacob Garberbeeb8bc2019-06-21 15:24:17 -0600461static int edi_shutdown(void *data)
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +0300462{
463 struct flashctx *flash;
464 int rc;
465
466 if (data == NULL)
467 return -1;
468
469 flash = (struct flashctx *)data;
470
471 rc = edi_8051_execute(flash);
472 if (rc < 0) {
473 msg_perr("%s: Unable to execute 8051!\n", __func__);
474 return -1;
475 }
476
477 rc = edi_disable(flash);
478 if (rc < 0) {
479 msg_perr("%s: Unable to disable EDI!\n", __func__);
480 return -1;
481 }
482
483 return 0;
484}
485
486int edi_probe_kb9012(struct flashctx *flash)
487{
488 int probe;
489 int rc;
Paul Kocialkowskia590f482018-01-15 01:08:39 +0300490 unsigned char hwversion;
491
492 /*
493 * ENE chips enable EDI by detecting a clock frequency between 1 MHz and
494 * 8 MHz. In many cases, the chip won't be able to both detect the clock
495 * signal and serve the associated request at the same time.
496 *
497 * Thus, a dummy read has to be added to ensure that EDI is enabled and
498 * operational starting from the next request. This dummy read below
499 * draws the chip's attention and as result the chip enables its EDI.
500 */
501 edi_read(flash, ENE_EC_HWVERSION, &hwversion);
Paul Kocialkowski80ae14e2018-01-15 01:07:46 +0300502
503 probe = edi_chip_probe(flash, &ene_kb9012);
504 if (!probe)
505 return 0;
506
507 rc = edi_8051_reset(flash);
508 if (rc < 0) {
509 msg_perr("%s: Unable to reset 8051!\n", __func__);
510 return 0;
511 }
512
513 register_shutdown(edi_shutdown, (void *)flash);
514
515 return 1;
516}