buildman: Implement an option to exclude boards from the build
[platform/kernel/u-boot.git] / tools / mxsboot.c
1 /*
2  * Freescale i.MX28 image generator
3  *
4  * Copyright (C) 2011 Marek Vasut <marek.vasut@gmail.com>
5  * on behalf of DENX Software Engineering GmbH
6  *
7  * SPDX-License-Identifier:     GPL-2.0+
8  */
9
10 #include <fcntl.h>
11 #include <sys/stat.h>
12 #include <sys/types.h>
13 #include <unistd.h>
14
15 #include "compiler.h"
16
17 /*
18  * Default BCB layout.
19  *
20  * TWEAK this if you have blown any OCOTP fuses.
21  */
22 #define STRIDE_PAGES            64
23 #define STRIDE_COUNT            4
24
25 /*
26  * Layout for 256Mb big NAND with 2048b page size, 64b OOB size and
27  * 128kb erase size.
28  *
29  * TWEAK this if you have different kind of NAND chip.
30  */
31 static uint32_t nand_writesize = 2048;
32 static uint32_t nand_oobsize = 64;
33 static uint32_t nand_erasesize = 128 * 1024;
34
35 /*
36  * Sector on which the SigmaTel boot partition (0x53) starts.
37  */
38 static uint32_t sd_sector = 2048;
39
40 /*
41  * Each of the U-Boot bootstreams is at maximum 1MB big.
42  *
43  * TWEAK this if, for some wild reason, you need to boot bigger image.
44  */
45 #define MAX_BOOTSTREAM_SIZE     (1 * 1024 * 1024)
46
47 /* i.MX28 NAND controller-specific constants. DO NOT TWEAK! */
48 #define MXS_NAND_DMA_DESCRIPTOR_COUNT           4
49 #define MXS_NAND_CHUNK_DATA_CHUNK_SIZE          512
50 #define MXS_NAND_METADATA_SIZE                  10
51 #define MXS_NAND_COMMAND_BUFFER_SIZE            32
52
53 struct mx28_nand_fcb {
54         uint32_t                checksum;
55         uint32_t                fingerprint;
56         uint32_t                version;
57         struct {
58                 uint8_t                 data_setup;
59                 uint8_t                 data_hold;
60                 uint8_t                 address_setup;
61                 uint8_t                 dsample_time;
62                 uint8_t                 nand_timing_state;
63                 uint8_t                 rea;
64                 uint8_t                 rloh;
65                 uint8_t                 rhoh;
66         }                       timing;
67         uint32_t                page_data_size;
68         uint32_t                total_page_size;
69         uint32_t                sectors_per_block;
70         uint32_t                number_of_nands;                /* Ignored */
71         uint32_t                total_internal_die;             /* Ignored */
72         uint32_t                cell_type;                      /* Ignored */
73         uint32_t                ecc_block_n_ecc_type;
74         uint32_t                ecc_block_0_size;
75         uint32_t                ecc_block_n_size;
76         uint32_t                ecc_block_0_ecc_type;
77         uint32_t                metadata_bytes;
78         uint32_t                num_ecc_blocks_per_page;
79         uint32_t                ecc_block_n_ecc_level_sdk;      /* Ignored */
80         uint32_t                ecc_block_0_size_sdk;           /* Ignored */
81         uint32_t                ecc_block_n_size_sdk;           /* Ignored */
82         uint32_t                ecc_block_0_ecc_level_sdk;      /* Ignored */
83         uint32_t                num_ecc_blocks_per_page_sdk;    /* Ignored */
84         uint32_t                metadata_bytes_sdk;             /* Ignored */
85         uint32_t                erase_threshold;
86         uint32_t                boot_patch;
87         uint32_t                patch_sectors;
88         uint32_t                firmware1_starting_sector;
89         uint32_t                firmware2_starting_sector;
90         uint32_t                sectors_in_firmware1;
91         uint32_t                sectors_in_firmware2;
92         uint32_t                dbbt_search_area_start_address;
93         uint32_t                badblock_marker_byte;
94         uint32_t                badblock_marker_start_bit;
95         uint32_t                bb_marker_physical_offset;
96 };
97
98 struct mx28_nand_dbbt {
99         uint32_t                checksum;
100         uint32_t                fingerprint;
101         uint32_t                version;
102         uint32_t                number_bb;
103         uint32_t                number_2k_pages_bb;
104 };
105
106 struct mx28_nand_bbt {
107         uint32_t                nand;
108         uint32_t                number_bb;
109         uint32_t                badblock[510];
110 };
111
112 struct mx28_sd_drive_info {
113         uint32_t                chip_num;
114         uint32_t                drive_type;
115         uint32_t                tag;
116         uint32_t                first_sector_number;
117         uint32_t                sector_count;
118 };
119
120 struct mx28_sd_config_block {
121         uint32_t                        signature;
122         uint32_t                        primary_boot_tag;
123         uint32_t                        secondary_boot_tag;
124         uint32_t                        num_copies;
125         struct mx28_sd_drive_info       drv_info[1];
126 };
127
128 static inline uint32_t mx28_nand_ecc_size_in_bits(uint32_t ecc_strength)
129 {
130         return ecc_strength * 13;
131 }
132
133 static inline uint32_t mx28_nand_get_ecc_strength(uint32_t page_data_size,
134                                                 uint32_t page_oob_size)
135 {
136         if (page_data_size == 2048)
137                 return 8;
138
139         if (page_data_size == 4096) {
140                 if (page_oob_size == 128)
141                         return 8;
142
143                 if (page_oob_size == 218)
144                         return 16;
145         }
146
147         return 0;
148 }
149
150 static inline uint32_t mx28_nand_get_mark_offset(uint32_t page_data_size,
151                                                 uint32_t ecc_strength)
152 {
153         uint32_t chunk_data_size_in_bits;
154         uint32_t chunk_ecc_size_in_bits;
155         uint32_t chunk_total_size_in_bits;
156         uint32_t block_mark_chunk_number;
157         uint32_t block_mark_chunk_bit_offset;
158         uint32_t block_mark_bit_offset;
159
160         chunk_data_size_in_bits = MXS_NAND_CHUNK_DATA_CHUNK_SIZE * 8;
161         chunk_ecc_size_in_bits  = mx28_nand_ecc_size_in_bits(ecc_strength);
162
163         chunk_total_size_in_bits =
164                         chunk_data_size_in_bits + chunk_ecc_size_in_bits;
165
166         /* Compute the bit offset of the block mark within the physical page. */
167         block_mark_bit_offset = page_data_size * 8;
168
169         /* Subtract the metadata bits. */
170         block_mark_bit_offset -= MXS_NAND_METADATA_SIZE * 8;
171
172         /*
173          * Compute the chunk number (starting at zero) in which the block mark
174          * appears.
175          */
176         block_mark_chunk_number =
177                         block_mark_bit_offset / chunk_total_size_in_bits;
178
179         /*
180          * Compute the bit offset of the block mark within its chunk, and
181          * validate it.
182          */
183         block_mark_chunk_bit_offset = block_mark_bit_offset -
184                         (block_mark_chunk_number * chunk_total_size_in_bits);
185
186         if (block_mark_chunk_bit_offset > chunk_data_size_in_bits)
187                 return 1;
188
189         /*
190          * Now that we know the chunk number in which the block mark appears,
191          * we can subtract all the ECC bits that appear before it.
192          */
193         block_mark_bit_offset -=
194                 block_mark_chunk_number * chunk_ecc_size_in_bits;
195
196         return block_mark_bit_offset;
197 }
198
199 static inline uint32_t mx28_nand_mark_byte_offset(void)
200 {
201         uint32_t ecc_strength;
202         ecc_strength = mx28_nand_get_ecc_strength(nand_writesize, nand_oobsize);
203         return mx28_nand_get_mark_offset(nand_writesize, ecc_strength) >> 3;
204 }
205
206 static inline uint32_t mx28_nand_mark_bit_offset(void)
207 {
208         uint32_t ecc_strength;
209         ecc_strength = mx28_nand_get_ecc_strength(nand_writesize, nand_oobsize);
210         return mx28_nand_get_mark_offset(nand_writesize, ecc_strength) & 0x7;
211 }
212
213 static uint32_t mx28_nand_block_csum(uint8_t *block, uint32_t size)
214 {
215         uint32_t csum = 0;
216         int i;
217
218         for (i = 0; i < size; i++)
219                 csum += block[i];
220
221         return csum ^ 0xffffffff;
222 }
223
224 static struct mx28_nand_fcb *mx28_nand_get_fcb(uint32_t size)
225 {
226         struct mx28_nand_fcb *fcb;
227         uint32_t bcb_size_bytes;
228         uint32_t stride_size_bytes;
229         uint32_t bootstream_size_pages;
230         uint32_t fw1_start_page;
231         uint32_t fw2_start_page;
232
233         fcb = malloc(nand_writesize);
234         if (!fcb) {
235                 printf("MX28 NAND: Unable to allocate FCB\n");
236                 return NULL;
237         }
238
239         memset(fcb, 0, nand_writesize);
240
241         fcb->fingerprint =                      0x20424346;
242         fcb->version =                          0x01000000;
243
244         /*
245          * FIXME: These here are default values as found in kobs-ng. We should
246          * probably retrieve the data from NAND or something.
247          */
248         fcb->timing.data_setup =                80;
249         fcb->timing.data_hold =                 60;
250         fcb->timing.address_setup =             25;
251         fcb->timing.dsample_time =              6;
252
253         fcb->page_data_size =           nand_writesize;
254         fcb->total_page_size =          nand_writesize + nand_oobsize;
255         fcb->sectors_per_block =        nand_erasesize / nand_writesize;
256
257         fcb->num_ecc_blocks_per_page =  (nand_writesize / 512) - 1;
258         fcb->ecc_block_0_size =         512;
259         fcb->ecc_block_n_size =         512;
260         fcb->metadata_bytes =           10;
261
262         if (nand_writesize == 2048) {
263                 fcb->ecc_block_n_ecc_type =             4;
264                 fcb->ecc_block_0_ecc_type =             4;
265         } else if (nand_writesize == 4096) {
266                 if (nand_oobsize == 128) {
267                         fcb->ecc_block_n_ecc_type =     4;
268                         fcb->ecc_block_0_ecc_type =     4;
269                 } else if (nand_oobsize == 218) {
270                         fcb->ecc_block_n_ecc_type =     8;
271                         fcb->ecc_block_0_ecc_type =     8;
272                 }
273         }
274
275         if (fcb->ecc_block_n_ecc_type == 0) {
276                 printf("MX28 NAND: Unsupported NAND geometry\n");
277                 goto err;
278         }
279
280         fcb->boot_patch =                       0;
281         fcb->patch_sectors =                    0;
282
283         fcb->badblock_marker_byte =     mx28_nand_mark_byte_offset();
284         fcb->badblock_marker_start_bit = mx28_nand_mark_bit_offset();
285         fcb->bb_marker_physical_offset = nand_writesize;
286
287         stride_size_bytes = STRIDE_PAGES * nand_writesize;
288         bcb_size_bytes = stride_size_bytes * STRIDE_COUNT;
289
290         bootstream_size_pages = (size + (nand_writesize - 1)) /
291                                         nand_writesize;
292
293         fw1_start_page = 2 * bcb_size_bytes / nand_writesize;
294         fw2_start_page = (2 * bcb_size_bytes + MAX_BOOTSTREAM_SIZE) /
295                                 nand_writesize;
296
297         fcb->firmware1_starting_sector =        fw1_start_page;
298         fcb->firmware2_starting_sector =        fw2_start_page;
299         fcb->sectors_in_firmware1 =             bootstream_size_pages;
300         fcb->sectors_in_firmware2 =             bootstream_size_pages;
301
302         fcb->dbbt_search_area_start_address =   STRIDE_PAGES * STRIDE_COUNT;
303
304         return fcb;
305
306 err:
307         free(fcb);
308         return NULL;
309 }
310
311 static struct mx28_nand_dbbt *mx28_nand_get_dbbt(void)
312 {
313         struct mx28_nand_dbbt *dbbt;
314
315         dbbt = malloc(nand_writesize);
316         if (!dbbt) {
317                 printf("MX28 NAND: Unable to allocate DBBT\n");
318                 return NULL;
319         }
320
321         memset(dbbt, 0, nand_writesize);
322
323         dbbt->fingerprint       = 0x54424244;
324         dbbt->version           = 0x1;
325
326         return dbbt;
327 }
328
329 static inline uint8_t mx28_nand_parity_13_8(const uint8_t b)
330 {
331         uint32_t parity = 0, tmp;
332
333         tmp = ((b >> 6) ^ (b >> 5) ^ (b >> 3) ^ (b >> 2)) & 1;
334         parity |= tmp << 0;
335
336         tmp = ((b >> 7) ^ (b >> 5) ^ (b >> 4) ^ (b >> 2) ^ (b >> 1)) & 1;
337         parity |= tmp << 1;
338
339         tmp = ((b >> 7) ^ (b >> 6) ^ (b >> 5) ^ (b >> 1) ^ (b >> 0)) & 1;
340         parity |= tmp << 2;
341
342         tmp = ((b >> 7) ^ (b >> 4) ^ (b >> 3) ^ (b >> 0)) & 1;
343         parity |= tmp << 3;
344
345         tmp = ((b >> 6) ^ (b >> 4) ^ (b >> 3) ^
346                 (b >> 2) ^ (b >> 1) ^ (b >> 0)) & 1;
347         parity |= tmp << 4;
348
349         return parity;
350 }
351
352 static uint8_t *mx28_nand_fcb_block(struct mx28_nand_fcb *fcb)
353 {
354         uint8_t *block;
355         uint8_t *ecc;
356         int i;
357
358         block = malloc(nand_writesize + nand_oobsize);
359         if (!block) {
360                 printf("MX28 NAND: Unable to allocate FCB block\n");
361                 return NULL;
362         }
363
364         memset(block, 0, nand_writesize + nand_oobsize);
365
366         /* Update the FCB checksum */
367         fcb->checksum = mx28_nand_block_csum(((uint8_t *)fcb) + 4, 508);
368
369         /* Figure 12-11. in iMX28RM, rev. 1, says FCB is at offset 12 */
370         memcpy(block + 12, fcb, sizeof(struct mx28_nand_fcb));
371
372         /* ECC is at offset 12 + 512 */
373         ecc = block + 12 + 512;
374
375         /* Compute the ECC parity */
376         for (i = 0; i < sizeof(struct mx28_nand_fcb); i++)
377                 ecc[i] = mx28_nand_parity_13_8(block[i + 12]);
378
379         return block;
380 }
381
382 static int mx28_nand_write_fcb(struct mx28_nand_fcb *fcb, uint8_t *buf)
383 {
384         uint32_t offset;
385         uint8_t *fcbblock;
386         int ret = 0;
387         int i;
388
389         fcbblock = mx28_nand_fcb_block(fcb);
390         if (!fcbblock)
391                 return -1;
392
393         for (i = 0; i < STRIDE_PAGES * STRIDE_COUNT; i += STRIDE_PAGES) {
394                 offset = i * nand_writesize;
395                 memcpy(buf + offset, fcbblock, nand_writesize + nand_oobsize);
396                 /* Mark the NAND page is OK. */
397                 buf[offset + nand_writesize] = 0xff;
398         }
399
400         free(fcbblock);
401         return ret;
402 }
403
404 static int mx28_nand_write_dbbt(struct mx28_nand_dbbt *dbbt, uint8_t *buf)
405 {
406         uint32_t offset;
407         int i = STRIDE_PAGES * STRIDE_COUNT;
408
409         for (; i < 2 * STRIDE_PAGES * STRIDE_COUNT; i += STRIDE_PAGES) {
410                 offset = i * nand_writesize;
411                 memcpy(buf + offset, dbbt, sizeof(struct mx28_nand_dbbt));
412         }
413
414         return 0;
415 }
416
417 static int mx28_nand_write_firmware(struct mx28_nand_fcb *fcb, int infd,
418                                     uint8_t *buf)
419 {
420         int ret;
421         off_t size;
422         uint32_t offset1, offset2;
423
424         size = lseek(infd, 0, SEEK_END);
425         lseek(infd, 0, SEEK_SET);
426
427         offset1 = fcb->firmware1_starting_sector * nand_writesize;
428         offset2 = fcb->firmware2_starting_sector * nand_writesize;
429
430         ret = read(infd, buf + offset1, size);
431         if (ret != size)
432                 return -1;
433
434         memcpy(buf + offset2, buf + offset1, size);
435
436         return 0;
437 }
438
439 static void usage(void)
440 {
441         printf(
442                 "Usage: mxsboot [ops] <type> <infile> <outfile>\n"
443                 "Augment BootStream file with a proper header for i.MX28 boot\n"
444                 "\n"
445                 "  <type>       type of image:\n"
446                 "                 \"nand\" for NAND image\n"
447                 "                 \"sd\" for SD image\n"
448                 "  <infile>     input file, the u-boot.sb bootstream\n"
449                 "  <outfile>    output file, the bootable image\n"
450                 "\n");
451         printf(
452                 "For NAND boot, these options are accepted:\n"
453                 "  -w <size>    NAND page size\n"
454                 "  -o <size>    NAND OOB size\n"
455                 "  -e <size>    NAND erase size\n"
456                 "\n"
457                 "For SD boot, these options are accepted:\n"
458                 "  -p <sector>  Sector where the SGTL partition starts\n"
459         );
460 }
461
462 static int mx28_create_nand_image(int infd, int outfd)
463 {
464         struct mx28_nand_fcb *fcb;
465         struct mx28_nand_dbbt *dbbt;
466         int ret = -1;
467         uint8_t *buf;
468         int size;
469         ssize_t wr_size;
470
471         size = nand_writesize * 512 + 2 * MAX_BOOTSTREAM_SIZE;
472
473         buf = malloc(size);
474         if (!buf) {
475                 printf("Can not allocate output buffer of %d bytes\n", size);
476                 goto err0;
477         }
478
479         memset(buf, 0, size);
480
481         fcb = mx28_nand_get_fcb(MAX_BOOTSTREAM_SIZE);
482         if (!fcb) {
483                 printf("Unable to compile FCB\n");
484                 goto err1;
485         }
486
487         dbbt = mx28_nand_get_dbbt();
488         if (!dbbt) {
489                 printf("Unable to compile DBBT\n");
490                 goto err2;
491         }
492
493         ret = mx28_nand_write_fcb(fcb, buf);
494         if (ret) {
495                 printf("Unable to write FCB to buffer\n");
496                 goto err3;
497         }
498
499         ret = mx28_nand_write_dbbt(dbbt, buf);
500         if (ret) {
501                 printf("Unable to write DBBT to buffer\n");
502                 goto err3;
503         }
504
505         ret = mx28_nand_write_firmware(fcb, infd, buf);
506         if (ret) {
507                 printf("Unable to write firmware to buffer\n");
508                 goto err3;
509         }
510
511         wr_size = write(outfd, buf, size);
512         if (wr_size != size) {
513                 ret = -1;
514                 goto err3;
515         }
516
517         ret = 0;
518
519 err3:
520         free(dbbt);
521 err2:
522         free(fcb);
523 err1:
524         free(buf);
525 err0:
526         return ret;
527 }
528
529 static int mx28_create_sd_image(int infd, int outfd)
530 {
531         int ret = -1;
532         uint32_t *buf;
533         int size;
534         off_t fsize;
535         ssize_t wr_size;
536         struct mx28_sd_config_block *cb;
537
538         fsize = lseek(infd, 0, SEEK_END);
539         lseek(infd, 0, SEEK_SET);
540         size = fsize + 4 * 512;
541
542         buf = malloc(size);
543         if (!buf) {
544                 printf("Can not allocate output buffer of %d bytes\n", size);
545                 goto err0;
546         }
547
548         ret = read(infd, (uint8_t *)buf + 4 * 512, fsize);
549         if (ret != fsize) {
550                 ret = -1;
551                 goto err1;
552         }
553
554         cb = (struct mx28_sd_config_block *)buf;
555
556         cb->signature = 0x00112233;
557         cb->primary_boot_tag = 0x1;
558         cb->secondary_boot_tag = 0x1;
559         cb->num_copies = 1;
560         cb->drv_info[0].chip_num = 0x0;
561         cb->drv_info[0].drive_type = 0x0;
562         cb->drv_info[0].tag = 0x1;
563         cb->drv_info[0].first_sector_number = sd_sector + 4;
564         cb->drv_info[0].sector_count = (size - 4) / 512;
565
566         wr_size = write(outfd, buf, size);
567         if (wr_size != size) {
568                 ret = -1;
569                 goto err1;
570         }
571
572         ret = 0;
573
574 err1:
575         free(buf);
576 err0:
577         return ret;
578 }
579
580 static int parse_ops(int argc, char **argv)
581 {
582         int i;
583         int tmp;
584         char *end;
585         enum param {
586                 PARAM_WRITE,
587                 PARAM_OOB,
588                 PARAM_ERASE,
589                 PARAM_PART,
590                 PARAM_SD,
591                 PARAM_NAND
592         };
593         int type;
594
595         if (argc < 4)
596                 return -1;
597
598         for (i = 1; i < argc; i++) {
599                 if (!strncmp(argv[i], "-w", 2))
600                         type = PARAM_WRITE;
601                 else if (!strncmp(argv[i], "-o", 2))
602                         type = PARAM_OOB;
603                 else if (!strncmp(argv[i], "-e", 2))
604                         type = PARAM_ERASE;
605                 else if (!strncmp(argv[i], "-p", 2))
606                         type = PARAM_PART;
607                 else    /* SD/MMC */
608                         break;
609
610                 tmp = strtol(argv[++i], &end, 10);
611                 if (tmp % 2)
612                         return -1;
613                 if (tmp <= 0)
614                         return -1;
615
616                 if (type == PARAM_WRITE)
617                         nand_writesize = tmp;
618                 if (type == PARAM_OOB)
619                         nand_oobsize = tmp;
620                 if (type == PARAM_ERASE)
621                         nand_erasesize = tmp;
622                 if (type == PARAM_PART)
623                         sd_sector = tmp;
624         }
625
626         if (strcmp(argv[i], "sd") && strcmp(argv[i], "nand"))
627                 return -1;
628
629         if (i + 3 != argc)
630                 return -1;
631
632         return i;
633 }
634
635 int main(int argc, char **argv)
636 {
637         int infd, outfd;
638         int ret = 0;
639         int offset;
640
641         offset = parse_ops(argc, argv);
642         if (offset < 0) {
643                 usage();
644                 ret = 1;
645                 goto err1;
646         }
647
648         infd = open(argv[offset + 1], O_RDONLY);
649         if (infd < 0) {
650                 printf("Input BootStream file can not be opened\n");
651                 ret = 2;
652                 goto err1;
653         }
654
655         outfd = open(argv[offset + 2], O_CREAT | O_TRUNC | O_WRONLY,
656                                         S_IRUSR | S_IWUSR);
657         if (outfd < 0) {
658                 printf("Output file can not be created\n");
659                 ret = 3;
660                 goto err2;
661         }
662
663         if (!strcmp(argv[offset], "sd"))
664                 ret = mx28_create_sd_image(infd, outfd);
665         else if (!strcmp(argv[offset], "nand"))
666                 ret = mx28_create_nand_image(infd, outfd);
667
668         close(outfd);
669 err2:
670         close(infd);
671 err1:
672         return ret;
673 }