Update Sansa Clip install instructions in the manual.
[kugel-rb.git] / tools / mr500.c
blob00cf17e26b191702d542d298b2e06b79d2e7a340
1 /***************************************************************************
2 * __________ __ ___.
3 * Open \______ \ ____ ____ | | _\_ |__ _______ ___
4 * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
5 * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
6 * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
7 * \/ \/ \/ \/ \/
9 * Copyright (C) 2009 by Karl Kurbjun
10 * based on work by Shirour:
11 * http://www.mrobe.org/forum/viewtopic.php?f=6&t=2176
12 * $Id$
14 * All files in this archive are subject to the GNU General Public License.
15 * See the file COPYING in the source tree root for full license agreement.
17 * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
18 * KIND, either express or implied.
20 ****************************************************************************/
22 #include <stdio.h>
23 #include <string.h>
24 #include <stdlib.h>
25 #include <fcntl.h>
26 #include <errno.h>
27 #include <unistd.h>
28 #include <inttypes.h>
29 #include <sys/stat.h>
30 #include "mr500.h"
32 /* Notes about firmware:
33 * These notes are based on the work and observations of Shirour on the M:Robe
34 * forums.
36 * The firmware for the M:Robe has basic encryption on it. The data is XORed
37 * and scrambled. The mr500_save_data function provides an implemenation of the
38 * encryption/decryption.
40 * When a firmware update is done the "{#4F494D4346575550#}" folder is stored
41 * in the system folder on the player. The "{#4F494D4346575550#}" should only
42 * contain the encrypted N5002-BD.BIN file. At the end of a firmware update
43 * the "{#4F494D4346575550#}" folder and it's contents are removed from the
44 * player.
46 * An interesting note is that the name "{#4F494D4346575550#}" is actually the
47 * Hex representation of the magic text found at the beginning of the firmware
48 * image "OIMCFWUP".
51 /* These two arrays are used for descrambling or scrambling the data */
52 int decrypt_array[16]={2, 0, 3, 1, 5, 7, 4, 6, 11, 10, 9, 8, 14, 12, 13, 15};
53 int encrypt_array[16];
55 /* mr500_patch_file: This function modifies the specified file with the patches
56 * struct.
58 * Parameters:
59 * filename: text filename
60 * patches: pointer to structure array of patches
61 * num_patches: number of patches to apply (applied in reverse order)
63 * Returns:
64 * Returns 0 if there was no error, -1 if there was an error
66 int mr500_patch_file(char *filename, struct patch_single *patches,
67 int num_patches) {
68 int fdo;
69 int ret=0;
70 uint32_t endian_int;
72 /* Open the file write only. */
73 fdo = open(filename, O_WRONLY);
75 if(fdo<0) {
76 ret=-1;
79 while(num_patches--) {
80 /* seek to patch offset */
81 if(lseek(fdo, patches[num_patches].offset, SEEK_SET)
82 != patches[num_patches].offset) {
83 ret=-1;
84 break;
87 /* Make sure patch is written in little endian format */
88 endian_int = htole32(patches[num_patches].value);
90 /* Write the patch value to the file */
91 if(write(fdo, (void *) &endian_int, sizeof(endian_int)) < 0) {
92 ret = -1;
93 break;
97 /* Close the file and check for errors */
98 if(close (fdo) < 0) {
99 ret = -1;
102 return ret;
105 /* mr500_save_header: This function saves the Olympus header to the firmware
106 * image. The values stored in the header are explained above. Note that this
107 * will truncate a file. The header is stored in little endian format.
109 * Parameters:
110 * filename: text filename
111 * header: pointer to header structure to be saved
113 * Returns:
114 * Returns 0 if there was no error, -1 if there was an error
116 int mr500_save_header(char *filename, struct olympus_header *header) {
117 int fdo;
118 int ret=0;
120 /* Temporary header used for storing the header in little endian. */
121 struct olympus_header save;
123 /* Open the file write only and truncate it. If it doesn't exist create. */
124 fdo = open(filename, O_WRONLY | O_CREAT | O_TRUNC, S_IRUSR | S_IWUSR);
126 if(fdo<0) {
127 ret=-1;
130 /* Header is stored at offset 0 (Not really needed) */
131 if(lseek(fdo, 0, SEEK_SET) != 0) {
132 ret=-1;
135 /* Convert header to Little Endian */
136 memcpy(&save.magic_name, &header->magic_name, 8*sizeof(int8_t));
137 save.unknown = htole32(header->unknown);
138 save.header_length = htole16(header->header_length);
139 save.flags = htole16(header->flags);
140 save.unknown_zeros = htole32(header->unknown_zeros);
141 save.image_length = htole32(header->image_length);
143 /* Write the header to the file */
144 if(write(fdo, (void *) &save, sizeof(save)) < 0) {
145 ret = -1;
148 /* Close the file and check for errors */
149 if(close (fdo) < 0) {
150 ret = -1;
153 return ret;
156 /* mr500_read_header: This function reads the Olympus header and converts it to
157 * the host endian format. The values stored in the header are explained above.
158 * The header is stored in little endian format.
160 * Parameters:
161 * filename: text filename
162 * header: pointer to header structure to store header read from file
164 * Returns:
165 * Returns 0 if there was no error, -1 if there was an error
167 int mr500_read_header(char *filename, struct olympus_header *header) {
168 int fdi;
169 int ret = 0;
171 /* Open the file read only */
172 fdi = open(filename, O_RDONLY);
174 if(fdi<0) {
175 ret=-1;
178 /* Header is stored at offset 0 (Not really needed) */
179 if(lseek(fdi, 0, SEEK_SET) != 0) {
180 ret=-1;
183 /* Read in the header */
184 if(read(fdi, (void *) header, sizeof(*header)) < 0) {
185 ret = -1;
188 /* Convert header to system endian */
189 header->unknown = le32toh(header->unknown);
190 header->header_length = le16toh(header->header_length);
191 header->flags = le16toh(header->flags);
192 header->unknown_zeros = le32toh(header->unknown_zeros);
193 header->image_length = le32toh(header->image_length);
195 /* Close the file and check for errors */
196 if(close (fdi) < 0) {
197 ret = -1;
200 return ret;
203 /* mr500_save_crc: This function saves the 'CRC' of the Olympus firmware image.
204 * Note that the 'CRC' must be calculated on the decrytped image. It is stored
205 * in little endian.
207 * Parameters:
208 * filename: text filename
209 * offset: Offset to store the 'CRC' (header size + data size)
210 * crc_value: pointer to crc value to save
212 * Returns:
213 * Returns 0 if there was no error, -1 if there was an error
215 int mr500_save_crc(char *filename, off_t offset, uint32_t *crc_value) {
216 int fdo;
217 int ret = 0;
218 uint32_t save_crc;
220 /* Open the file write only */
221 fdo = open(filename, O_WRONLY);
223 if(fdo<0) {
224 ret=-1;
227 /* Seek to offset and check for errors */
228 if(lseek(fdo, offset, SEEK_SET) != offset) {
229 ret=-1;
232 /* Convert 'CRC' to little endian from system native endian */
233 save_crc = htole32(*crc_value);
235 /* Write the 'CRC' and check for errors */
236 if(write(fdo, (void *) &save_crc, sizeof(unsigned int)) < 0) {
237 ret = -1;
240 /* Close the file and check for errors */
241 if(close (fdo) < 0) {
242 ret = -1;
245 return ret;
248 /* mr500_read_crc: This function reads the 'CRC' of the Olympus firmware image.
249 * Note that the 'CRC' is calculated on the decrytped values. It is stored
250 * in little endian.
252 * Parameters:
253 * filename: text filename
254 * offset: Offset to read the 'CRC' (header size + data size)
255 * crc_value: pointer to crc value to save
257 * Returns:
258 * Returns 0 if there was no error, -1 if there was an error
260 int mr500_read_crc(char *filename, off_t offset, uint32_t *crc_value) {
261 int fdi;
262 int ret = 0;
264 /* Open the file read only */
265 fdi = open(filename, O_RDONLY);
267 if(fdi<0) {
268 ret = -1;
271 /* Seek to offset and check for errors */
272 if(lseek(fdi, offset, SEEK_SET) != offset) {
273 ret=-1;
276 /* Read in the 'CRC' */
277 if(read(fdi, (void *) crc_value, sizeof(uint32_t)) < 0) {
278 ret = -1;
281 /* Convert the 'CRC' from little endian to system native format */
282 *crc_value = le32toh(*crc_value);
284 /* Close the file and check for errors */
285 if(close (fdi) < 0) {
286 ret = -1;
289 return ret;
292 /* mr500_calculate_crc: This function calculates the 'CRC' of the Olympus
293 * firmware image. Note that the 'CRC' must be calculated on decrytped values.
294 * It is stored in little endian.
296 * Parameters:
297 * filename: text filename
298 * offset: Offset to the start of the data (header size)
299 * length: Length of data to calculate
300 * crc_value: pointer to crc value to save
302 * Returns:
303 * Returns 0 if there was no error, -1 if there was an error
305 int mr500_calculate_crc( char *filename, off_t offset, unsigned int length,
306 uint32_t *crc_value){
307 uint32_t temp;
308 int fdi;
309 int ret = 0;
311 /* Open the file read only */
312 fdi = open(filename, O_RDONLY);
314 if(fdi<0) {
315 ret = -1;
318 /* Seek to offset and check for errors */
319 if(lseek(fdi, offset, SEEK_SET) != offset) {
320 ret=-1;
323 /* Initialize the crc_value to make sure this starts at 0 */
324 *crc_value = 0;
325 /* Run this loop till the entire sum is created */
326 do {
327 /* Read an integer at a time */
328 if(read(fdi, &temp, sizeof(uint32_t)) < 0) {
329 ret = -1;
330 break;
333 /* Keep summing the values */
334 *crc_value+=temp;
335 } while (length-=4);
337 /* Close the file and check for errors */
338 if(close (fdi) < 0) {
339 ret = -1;
342 return ret;
345 /* mr500_save_data: This function encypts or decrypts the Olympus firmware
346 * image based on the dictionary passed to it.
348 * Parameters:
349 * source_filename: text filename where data is read from
350 * dest_filename: text filename where data is written to
351 * offset: Offset to the start of the data (header size)
352 * length: Length of data to modify
353 * dictionary: pointer to dictionary used for scrambling
355 * Returns:
356 * Returns 0 if there was no error, -1 if there was an error
358 int mr500_save_data(
359 char *source_filename, char *dest_filename, off_t offset,
360 unsigned int length, int* dictionary) {
361 int fdi, fdo;
362 int ret = 0;
363 int i;
365 /* read_count stores the number of bytes actually read */
366 int read_count;
368 /* read_request stores the number of bytes to be requested */
369 int read_request;
371 /* These two buffers are used for reading data and scrambling or
372 * descrambling
374 int8_t buffer_original[16];
375 int8_t buffer_modified[16];
377 /* Open input read only, output write only */
378 fdi = open(source_filename, O_RDONLY);
379 fdo = open(dest_filename, O_WRONLY);
381 /* If there was an error loading the files set ret appropriately */
382 if(fdi<0 || fdo < 0) {
383 ret = -1;
386 /* Input file: Seek to offset and check for errors */
387 if(lseek(fdi, offset, SEEK_SET) != offset) {
388 ret=-1;
391 /* Output file: Seek to offset and check for errors */
392 if(lseek(fdo, offset, SEEK_SET) != offset) {
393 ret=-1;
396 /* Run this loop till size is 0 */
397 do {
398 /* Choose the amount of data to read - normally in 16 byte chunks, but
399 * when the end of the file is near may be less.
401 if( length > sizeof(buffer_original)){
402 read_request = sizeof(buffer_original);
403 } else {
404 read_request = length;
407 /* Read in the data */
408 read_count = read(fdi, (void *) &buffer_original, read_request);
410 /* If there was an error set the flag and break */
411 if(read_count < 0) {
412 ret = -1;
413 break;
416 for(i=0; i<read_count; i++) {
417 /* XOR all of the bits to de/encrypt them */
418 buffer_original[i] ^= 0xFF;
419 /* Handle byte scrambling */
420 buffer_modified[dictionary[i]] = buffer_original[i];
423 /* write the data: If there was an error set the flag and break */
424 if(write(fdo, (void *) &buffer_modified, read_count) < 0) {
425 ret = -1;
426 break;
428 } while (length -= read_count);
430 /* Close the files and check for errors */
431 if(close (fdi) < 0) {
432 ret = -1;
434 if(close (fdo) < 0) {
435 ret = -1;
438 return ret;
441 /* mr500_init: This function initializes the encryption array
443 * Parameters:
444 * None
446 * Returns:
447 * Returns 0
449 int mr500_init(void) {
450 int i;
451 /* Initialize the encryption array */
452 for(i=0; i<16; i++) {
453 encrypt_array[decrypt_array[i]]=i;
455 return 0;