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a3da1d95 GE |
1 | /*************************************************************************** |
2 | ftdi.c - description | |
3 | ------------------- | |
4 | begin : Fri Apr 4 2003 | |
5 | copyright : (C) 2003 by Intra2net AG | |
5fdb1cb1 | 6 | email : opensource@intra2net.com |
a3da1d95 GE |
7 | ***************************************************************************/ |
8 | ||
9 | /*************************************************************************** | |
10 | * * | |
11 | * This program is free software; you can redistribute it and/or modify * | |
12 | * it under the terms of the GNU Lesser General Public License * | |
13 | * version 2.1 as published by the Free Software Foundation; * | |
14 | * * | |
15 | ***************************************************************************/ | |
16 | ||
17 | #include <usb.h> | |
18 | ||
19 | #include "ftdi.h" | |
20 | ||
948f9ada TJ |
21 | /* ftdi_init return codes: |
22 | 0: all fine | |
6d9aa99f | 23 | -1: couldn't allocate read buffer |
948f9ada | 24 | */ |
a3da1d95 GE |
25 | int ftdi_init(struct ftdi_context *ftdi) { |
26 | ftdi->usb_dev = NULL; | |
27 | ftdi->usb_timeout = 5000; | |
28 | ||
29 | ftdi->baudrate = -1; | |
30 | ftdi->bitbang_enabled = 0; | |
31 | ||
948f9ada TJ |
32 | ftdi->readbuffer = NULL; |
33 | ftdi->readbuffer_offset = 0; | |
34 | ftdi->readbuffer_remaining = 0; | |
35 | ftdi->writebuffer_chunksize = 4096; | |
36 | ||
a3da1d95 GE |
37 | ftdi->error_str = NULL; |
38 | ||
948f9ada TJ |
39 | // all fine. Now allocate the readbuffer |
40 | return ftdi_read_data_set_chunksize(ftdi, 4096); | |
41 | } | |
42 | ||
43 | ||
44 | void ftdi_deinit(struct ftdi_context *ftdi) { | |
45 | if (ftdi->readbuffer != NULL) { | |
46 | free(ftdi->readbuffer); | |
47 | ftdi->readbuffer = NULL; | |
48 | } | |
a3da1d95 GE |
49 | } |
50 | ||
51 | ||
52 | void ftdi_set_usbdev (struct ftdi_context *ftdi, usb_dev_handle *usb) { | |
53 | ftdi->usb_dev = usb; | |
54 | } | |
55 | ||
56 | ||
57 | /* ftdi_usb_open return codes: | |
58 | 0: all fine | |
59 | -1: usb_find_busses() failed | |
60 | -2: usb_find_devices() failed | |
61 | -3: usb device not found | |
62 | -4: unable to open device | |
63 | -5: unable to claim device | |
64 | -6: reset failed | |
65 | -7: set baudrate failed | |
66 | */ | |
67 | int ftdi_usb_open(struct ftdi_context *ftdi, int vendor, int product) { | |
68 | struct usb_bus *bus; | |
69 | struct usb_device *dev; | |
70 | ||
71 | usb_init(); | |
72 | ||
73 | if (usb_find_busses() < 0) { | |
74 | ftdi->error_str = "usb_find_busses() failed"; | |
75 | return -1; | |
76 | } | |
77 | ||
78 | if (usb_find_devices() < 0) { | |
79 | ftdi->error_str = "usb_find_devices() failed"; | |
80 | return -2; | |
81 | } | |
82 | ||
83 | for (bus = usb_busses; bus; bus = bus->next) { | |
84 | for (dev = bus->devices; dev; dev = dev->next) { | |
85 | if (dev->descriptor.idVendor == vendor && dev->descriptor.idProduct == product) { | |
86 | ftdi->usb_dev = usb_open(dev); | |
87 | if (ftdi->usb_dev) { | |
88 | if (usb_claim_interface(ftdi->usb_dev, 0) != 0) { | |
89 | ftdi->error_str = "unable to claim usb device. You can still use it though..."; | |
90 | return -5; | |
91 | } | |
92 | ||
93 | if (ftdi_usb_reset (ftdi) != 0) | |
94 | return -6; | |
95 | ||
96 | if (ftdi_set_baudrate (ftdi, 9600) != 0) | |
97 | return -7; | |
98 | ||
99 | return 0; | |
100 | } else { | |
101 | ftdi->error_str = "usb_open() failed"; | |
102 | return -4; | |
103 | } | |
104 | } | |
105 | } | |
106 | ||
107 | } | |
108 | ||
109 | // device not found | |
110 | return -3; | |
111 | } | |
112 | ||
113 | ||
114 | int ftdi_usb_reset(struct ftdi_context *ftdi) { | |
115 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0, 0, 0, NULL, 0, ftdi->usb_timeout) != 0) { | |
116 | ftdi->error_str = "FTDI reset failed"; | |
117 | return -1; | |
118 | } | |
119 | ||
120 | return 0; | |
121 | } | |
122 | ||
a60be878 TJ |
123 | int ftdi_usb_purge_buffers(struct ftdi_context *ftdi) { |
124 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0, 1, 0, NULL, 0, ftdi->usb_timeout) != 0) { | |
125 | ftdi->error_str = "FTDI purge of RX buffer failed"; | |
126 | return -1; | |
127 | } | |
128 | ||
129 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0, 2, 0, NULL, 0, ftdi->usb_timeout) != 0) { | |
130 | ftdi->error_str = "FTDI purge of TX buffer failed"; | |
131 | return -1; | |
132 | } | |
133 | ||
134 | return 0; | |
135 | } | |
a3da1d95 GE |
136 | |
137 | /* ftdi_usb_close return codes | |
138 | 0: all fine | |
139 | -1: usb_release failed | |
140 | -2: usb_close failed | |
141 | */ | |
142 | int ftdi_usb_close(struct ftdi_context *ftdi) { | |
143 | int rtn = 0; | |
144 | ||
145 | if (usb_release_interface(ftdi->usb_dev, 0) != 0) | |
146 | rtn = -1; | |
147 | ||
148 | if (usb_close (ftdi->usb_dev) != 0) | |
149 | rtn = -2; | |
150 | ||
151 | return rtn; | |
152 | } | |
153 | ||
154 | ||
155 | /* | |
156 | ftdi_set_baudrate return codes: | |
157 | 0: all fine | |
158 | -1: invalid baudrate | |
159 | -2: setting baudrate failed | |
160 | */ | |
161 | int ftdi_set_baudrate(struct ftdi_context *ftdi, int baudrate) { | |
162 | unsigned short ftdi_baudrate; | |
163 | ||
164 | if (ftdi->bitbang_enabled) { | |
165 | baudrate = baudrate*4; | |
166 | } | |
167 | ||
168 | switch (baudrate) { | |
169 | case 300: | |
170 | ftdi_baudrate = 0x2710; | |
171 | break; | |
172 | case 600: | |
173 | ftdi_baudrate = 0x1388; | |
174 | break; | |
175 | case 1200: | |
176 | ftdi_baudrate = 0x09C4; | |
177 | break; | |
178 | case 2400: | |
179 | ftdi_baudrate = 0x04E2; | |
180 | break; | |
181 | case 4800: | |
182 | ftdi_baudrate = 0x0271; | |
183 | break; | |
184 | case 9600: | |
185 | ftdi_baudrate = 0x4138; | |
186 | break; | |
187 | case 19200: | |
188 | ftdi_baudrate = 0x809C; | |
189 | break; | |
190 | case 38400: | |
191 | ftdi_baudrate = 0xC04E; | |
192 | break; | |
193 | case 57600: | |
194 | ftdi_baudrate = 0x0034; | |
195 | break; | |
196 | case 115200: | |
197 | ftdi_baudrate = 0x001A; | |
198 | break; | |
199 | case 230400: | |
200 | ftdi_baudrate = 0x000D; | |
201 | break; | |
202 | case 460800: | |
203 | ftdi_baudrate = 0x4006; | |
204 | break; | |
205 | case 921600: | |
206 | ftdi_baudrate = 0x8003; | |
207 | break; | |
208 | default: | |
209 | ftdi->error_str = "Unknown baudrate. Note: bitbang baudrates are automatically multiplied by 4"; | |
210 | return -1; | |
211 | } | |
212 | ||
213 | if (usb_control_msg(ftdi->usb_dev, 0x40, 3, ftdi_baudrate, 0, NULL, 0, ftdi->usb_timeout) != 0) { | |
214 | ftdi->error_str = "Setting new baudrate failed"; | |
215 | return -2; | |
216 | } | |
217 | ||
218 | ftdi->baudrate = baudrate; | |
219 | return 0; | |
220 | } | |
221 | ||
222 | ||
be5d7eec | 223 | int ftdi_write_data(struct ftdi_context *ftdi, unsigned char *buf, int size) { |
a3da1d95 GE |
224 | int ret; |
225 | int offset = 0; | |
226 | while (offset < size) { | |
948f9ada | 227 | int write_size = ftdi->writebuffer_chunksize; |
a3da1d95 GE |
228 | |
229 | if (offset+write_size > size) | |
230 | write_size = size-offset; | |
231 | ||
232 | ret=usb_bulk_write(ftdi->usb_dev, 2, buf+offset, write_size, ftdi->usb_timeout); | |
cbabb7d3 TJ |
233 | if (ret == -1) { |
234 | ftdi->error_str = "bulk write failed"; | |
a3da1d95 | 235 | return -1; |
cbabb7d3 | 236 | } |
a3da1d95 GE |
237 | |
238 | offset += write_size; | |
239 | } | |
240 | ||
241 | return 0; | |
242 | } | |
243 | ||
244 | ||
948f9ada TJ |
245 | int ftdi_write_data_set_chunksize(struct ftdi_context *ftdi, unsigned int chunksize) { |
246 | ftdi->writebuffer_chunksize = chunksize; | |
247 | return 0; | |
248 | } | |
249 | ||
250 | ||
251 | int ftdi_write_data_get_chunksize(struct ftdi_context *ftdi, unsigned int *chunksize) { | |
252 | *chunksize = ftdi->writebuffer_chunksize; | |
253 | return 0; | |
254 | } | |
cbabb7d3 | 255 | |
948f9ada TJ |
256 | |
257 | int ftdi_read_data(struct ftdi_context *ftdi, unsigned char *buf, int size) { | |
258 | int offset = 0, ret = 1; | |
259 | ||
260 | // everything we want is still in the readbuffer? | |
261 | if (size <= ftdi->readbuffer_remaining) { | |
262 | memcpy (buf, ftdi->readbuffer+ftdi->readbuffer_offset, size); | |
263 | ||
264 | // Fix offsets | |
265 | ftdi->readbuffer_remaining -= size; | |
266 | ftdi->readbuffer_offset += size; | |
267 | ||
268 | // printf("Returning bytes from buffer: %d - remaining: %d\n", size, ftdi->readbuffer_remaining); | |
269 | ||
270 | return size; | |
979a145c | 271 | } |
948f9ada TJ |
272 | |
273 | // something still in the readbuffer, but not enough to satisfy 'size'? | |
274 | if (ftdi->readbuffer_remaining != 0) { | |
275 | memcpy (buf, ftdi->readbuffer+ftdi->readbuffer_offset, ftdi->readbuffer_remaining); | |
979a145c | 276 | |
948f9ada TJ |
277 | // printf("Got bytes from buffer: %d\n", ftdi->readbuffer_remaining); |
278 | ||
4ece2c24 | 279 | // Fix offset |
948f9ada | 280 | offset += ftdi->readbuffer_remaining; |
948f9ada TJ |
281 | } |
282 | ||
283 | // do the actual USB read | |
cbabb7d3 | 284 | while (offset < size && ret > 0) { |
948f9ada TJ |
285 | ftdi->readbuffer_remaining = 0; |
286 | ftdi->readbuffer_offset = 0; | |
287 | ret = usb_bulk_read (ftdi->usb_dev, 0x81, ftdi->readbuffer, ftdi->readbuffer_chunksize, ftdi->usb_timeout); | |
cbabb7d3 TJ |
288 | |
289 | if (ret == -1) { | |
290 | ftdi->error_str = "bulk read failed"; | |
291 | return -1; | |
292 | } | |
293 | ||
948f9ada TJ |
294 | if (ret > 2) { |
295 | // skip FTDI status bytes. | |
296 | // Maybe stored in the future to enable modem use | |
297 | ftdi->readbuffer_offset += 2; | |
298 | ret -= 2; | |
299 | } else if (ret <= 2) { | |
300 | // no more data to read? | |
301 | return offset; | |
302 | } | |
303 | ||
304 | if (ret > 0) { | |
305 | // data still fits in buf? | |
306 | if (offset+ret <= size) { | |
307 | memcpy (buf+offset, ftdi->readbuffer+ftdi->readbuffer_offset, ret); | |
308 | offset += ret; | |
309 | ||
310 | if (offset == size) | |
311 | return offset; | |
312 | } else { | |
313 | // only copy part of the data or size <= readbuffer_chunksize | |
314 | int part_size = size-offset; | |
315 | memcpy (buf+offset, ftdi->readbuffer+ftdi->readbuffer_offset, part_size); | |
316 | ||
317 | ftdi->readbuffer_offset += part_size; | |
318 | ftdi->readbuffer_remaining = ret-part_size; | |
4ece2c24 | 319 | offset += part_size; |
948f9ada TJ |
320 | |
321 | // printf("Returning part: %d - size: %d - offset: %d - ret: %d - remaining: %d\n", part_size, size, offset, ret, ftdi->readbuffer_remaining); | |
322 | ||
4ece2c24 | 323 | return offset; |
948f9ada TJ |
324 | } |
325 | } | |
cbabb7d3 TJ |
326 | } |
327 | ||
948f9ada TJ |
328 | // never reached |
329 | return -2; | |
a3da1d95 GE |
330 | } |
331 | ||
332 | ||
948f9ada TJ |
333 | int ftdi_read_data_set_chunksize(struct ftdi_context *ftdi, unsigned int chunksize) { |
334 | // Invalidate all remaining data | |
335 | ftdi->readbuffer_offset = 0; | |
336 | ftdi->readbuffer_remaining = 0; | |
337 | ||
338 | unsigned char *new_buf; | |
339 | if ((new_buf = (unsigned char *)realloc(ftdi->readbuffer, chunksize)) == NULL) { | |
340 | ftdi->error_str = "out of memory for readbuffer"; | |
341 | return -1; | |
342 | } | |
343 | ||
344 | ftdi->readbuffer = new_buf; | |
345 | ftdi->readbuffer_chunksize = chunksize; | |
346 | ||
347 | return 0; | |
348 | } | |
349 | ||
350 | ||
351 | int ftdi_readt_data_get_chunksize(struct ftdi_context *ftdi, unsigned int *chunksize) { | |
352 | *chunksize = ftdi->readbuffer_chunksize; | |
353 | return 0; | |
354 | } | |
355 | ||
356 | ||
357 | ||
a3da1d95 GE |
358 | int ftdi_enable_bitbang(struct ftdi_context *ftdi, unsigned char bitmask) { |
359 | unsigned short usb_val; | |
360 | ||
361 | usb_val = bitmask; // low byte: bitmask | |
362 | usb_val += 1 << 8; // high byte: enable flag | |
363 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0x0B, usb_val, 0, NULL, 0, ftdi->usb_timeout) != 0) { | |
364 | ftdi->error_str = "Unable to enter bitbang mode. Perhaps not a BM type chip?"; | |
365 | return -1; | |
366 | } | |
367 | ||
368 | ftdi->bitbang_enabled = 1; | |
369 | return 0; | |
370 | } | |
371 | ||
372 | ||
373 | int ftdi_disable_bitbang(struct ftdi_context *ftdi) { | |
374 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0x0B, 0, 0, NULL, 0, ftdi->usb_timeout) != 0) { | |
375 | ftdi->error_str = "Unable to leave bitbang mode. Perhaps not a BM type chip?"; | |
376 | return -1; | |
377 | } | |
378 | ||
379 | ftdi->bitbang_enabled = 0; | |
380 | return 0; | |
381 | } | |
382 | ||
383 | ||
384 | int ftdi_read_pins(struct ftdi_context *ftdi, unsigned char *pins) { | |
385 | unsigned short usb_val; | |
386 | if (usb_control_msg(ftdi->usb_dev, 0xC0, 0x0C, 0, 0, (char *)&usb_val, 1, ftdi->usb_timeout) != 1) { | |
387 | ftdi->error_str = "Read pins failed"; | |
388 | return -1; | |
389 | } | |
390 | ||
391 | *pins = (unsigned char)usb_val; | |
392 | return 0; | |
393 | } | |
394 | ||
395 | ||
396 | int ftdi_set_latency_timer(struct ftdi_context *ftdi, unsigned char latency) { | |
397 | unsigned short usb_val; | |
398 | ||
399 | if (latency < 1) { | |
400 | ftdi->error_str = "Latency out of range. Only valid for 1-255"; | |
401 | return -1; | |
402 | } | |
403 | ||
d79d2e68 | 404 | usb_val = latency; |
a3da1d95 GE |
405 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0x09, usb_val, 0, NULL, 0, ftdi->usb_timeout) != 0) { |
406 | ftdi->error_str = "Unable to set latency timer"; | |
407 | return -2; | |
408 | } | |
409 | return 0; | |
410 | } | |
411 | ||
412 | ||
413 | int ftdi_get_latency_timer(struct ftdi_context *ftdi, unsigned char *latency) { | |
414 | unsigned short usb_val; | |
f14c8bc6 | 415 | if (usb_control_msg(ftdi->usb_dev, 0xC0, 0x0A, 0, 0, (char *)&usb_val, 1, ftdi->usb_timeout) != 1) { |
a3da1d95 GE |
416 | ftdi->error_str = "Reading latency timer failed"; |
417 | return -1; | |
418 | } | |
419 | ||
420 | *latency = (unsigned char)usb_val; | |
421 | return 0; | |
422 | } | |
423 | ||
424 | ||
b8aa7b35 TJ |
425 | void ftdi_eeprom_initdefaults(struct ftdi_eeprom *eeprom) { |
426 | eeprom->vendor_id = 0403; | |
427 | eeprom->product_id = 6001; | |
428 | ||
429 | eeprom->self_powered = 1; | |
430 | eeprom->remote_wakeup = 1; | |
431 | eeprom->BM_type_chip = 1; | |
432 | ||
433 | eeprom->in_is_isochronous = 0; | |
434 | eeprom->out_is_isochronous = 0; | |
435 | eeprom->suspend_pull_downs = 0; | |
436 | ||
437 | eeprom->use_serial = 0; | |
438 | eeprom->change_usb_version = 0; | |
439 | eeprom->usb_version = 200; | |
440 | eeprom->max_power = 0; | |
441 | ||
442 | eeprom->manufacturer = NULL; | |
443 | eeprom->product = NULL; | |
444 | eeprom->serial = NULL; | |
445 | } | |
446 | ||
447 | ||
448 | /* | |
449 | ftdi_eeprom_build return codes: | |
8ed61121 | 450 | positive value: used eeprom size |
b8aa7b35 TJ |
451 | -1: eeprom size (128 bytes) exceeded by custom strings |
452 | */ | |
453 | int ftdi_eeprom_build(struct ftdi_eeprom *eeprom, unsigned char *output) { | |
454 | unsigned char i, j; | |
455 | unsigned short checksum, value; | |
456 | unsigned char manufacturer_size = 0, product_size = 0, serial_size = 0; | |
457 | int size_check; | |
458 | ||
459 | if (eeprom->manufacturer != NULL) | |
460 | manufacturer_size = strlen(eeprom->manufacturer); | |
461 | if (eeprom->product != NULL) | |
462 | product_size = strlen(eeprom->product); | |
463 | if (eeprom->serial != NULL) | |
464 | serial_size = strlen(eeprom->serial); | |
465 | ||
466 | size_check = 128; // eeprom is 128 bytes | |
467 | size_check -= 28; // 28 are always in use (fixed) | |
468 | size_check -= manufacturer_size*2; | |
469 | size_check -= product_size*2; | |
470 | size_check -= serial_size*2; | |
471 | ||
472 | // eeprom size exceeded? | |
473 | if (size_check < 0) | |
474 | return (-1); | |
475 | ||
476 | // empty eeprom | |
477 | memset (output, 0, 128); | |
478 | ||
479 | // Addr 00: Stay 00 00 | |
480 | // Addr 02: Vendor ID | |
481 | output[0x02] = eeprom->vendor_id; | |
482 | output[0x03] = eeprom->vendor_id >> 8; | |
483 | ||
484 | // Addr 04: Product ID | |
485 | output[0x04] = eeprom->product_id; | |
486 | output[0x05] = eeprom->product_id >> 8; | |
487 | ||
488 | // Addr 06: Device release number (0400h for BM features) | |
489 | output[0x06] = 0x00; | |
490 | ||
491 | if (eeprom->BM_type_chip == 1) | |
492 | output[0x07] = 0x04; | |
493 | else | |
494 | output[0x07] = 0x02; | |
495 | ||
496 | // Addr 08: Config descriptor | |
497 | // Bit 1: remote wakeup if 1 | |
498 | // Bit 0: self powered if 1 | |
499 | // | |
500 | j = 0; | |
501 | if (eeprom->self_powered == 1) | |
502 | j = j | 1; | |
503 | if (eeprom->remote_wakeup == 1) | |
504 | j = j | 2; | |
505 | output[0x08] = j; | |
506 | ||
507 | // Addr 09: Max power consumption: max power = value * 2 mA | |
508 | output[0x09] = eeprom->max_power;; | |
509 | ||
510 | // Addr 0A: Chip configuration | |
511 | // Bit 7: 0 - reserved | |
512 | // Bit 6: 0 - reserved | |
513 | // Bit 5: 0 - reserved | |
514 | // Bit 4: 1 - Change USB version | |
515 | // Bit 3: 1 - Use the serial number string | |
516 | // Bit 2: 1 - Enable suspend pull downs for lower power | |
517 | // Bit 1: 1 - Out EndPoint is Isochronous | |
518 | // Bit 0: 1 - In EndPoint is Isochronous | |
519 | // | |
520 | j = 0; | |
521 | if (eeprom->in_is_isochronous == 1) | |
522 | j = j | 1; | |
523 | if (eeprom->out_is_isochronous == 1) | |
524 | j = j | 2; | |
525 | if (eeprom->suspend_pull_downs == 1) | |
526 | j = j | 4; | |
527 | if (eeprom->use_serial == 1) | |
528 | j = j | 8; | |
529 | if (eeprom->change_usb_version == 1) | |
530 | j = j | 16; | |
531 | output[0x0A] = j; | |
532 | ||
533 | // Addr 0B: reserved | |
534 | output[0x0B] = 0x00; | |
535 | ||
536 | // Addr 0C: USB version low byte when 0x0A bit 4 is set | |
537 | // Addr 0D: USB version high byte when 0x0A bit 4 is set | |
538 | if (eeprom->change_usb_version == 1) { | |
539 | output[0x0C] = eeprom->usb_version; | |
540 | output[0x0D] = eeprom->usb_version >> 8; | |
541 | } | |
542 | ||
543 | ||
544 | // Addr 0E: Offset of the manufacturer string + 0x80 | |
545 | output[0x0E] = 0x14 + 0x80; | |
546 | ||
547 | // Addr 0F: Length of manufacturer string | |
548 | output[0x0F] = manufacturer_size*2 + 2; | |
549 | ||
550 | // Addr 10: Offset of the product string + 0x80, calculated later | |
551 | // Addr 11: Length of product string | |
552 | output[0x11] = product_size*2 + 2; | |
553 | ||
554 | // Addr 12: Offset of the serial string + 0x80, calculated later | |
555 | // Addr 13: Length of serial string | |
556 | output[0x13] = serial_size*2 + 2; | |
557 | ||
558 | // Dynamic content | |
a862ddcf | 559 | output[0x14] = manufacturer_size*2 + 2; |
b8aa7b35 TJ |
560 | output[0x15] = 0x03; // type: string |
561 | ||
562 | i = 0x16, j = 0; | |
563 | ||
564 | // Output manufacturer | |
565 | for (j = 0; j < manufacturer_size; j++) { | |
566 | output[i] = eeprom->manufacturer[j], i++; | |
567 | output[i] = 0x00, i++; | |
568 | } | |
569 | ||
570 | // Output product name | |
571 | output[0x10] = i + 0x80; // calculate offset | |
572 | output[i] = product_size*2 + 2, i++; | |
573 | output[i] = 0x03, i++; | |
574 | for (j = 0; j < product_size; j++) { | |
575 | output[i] = eeprom->product[j], i++; | |
576 | output[i] = 0x00, i++; | |
577 | } | |
578 | ||
579 | // Output serial | |
580 | output[0x12] = i + 0x80; // calculate offset | |
581 | output[i] = serial_size*2 + 2, i++; | |
582 | output[i] = 0x03, i++; | |
583 | for (j = 0; j < serial_size; j++) { | |
584 | output[i] = eeprom->serial[j], i++; | |
585 | output[i] = 0x00, i++; | |
586 | } | |
587 | ||
588 | // calculate checksum | |
589 | checksum = 0xAAAA; | |
590 | ||
591 | for (i = 0; i < 63; i++) { | |
592 | value = output[i*2]; | |
593 | value += output[(i*2)+1] << 8; | |
594 | ||
595 | checksum = value^checksum; | |
596 | checksum = (checksum << 1) | (checksum >> 15); | |
597 | } | |
598 | ||
599 | output[0x7E] = checksum; | |
600 | output[0x7F] = checksum >> 8; | |
601 | ||
8ed61121 | 602 | return size_check; |
b8aa7b35 TJ |
603 | } |
604 | ||
605 | ||
be5d7eec | 606 | int ftdi_read_eeprom(struct ftdi_context *ftdi, unsigned char *eeprom) { |
a3da1d95 GE |
607 | int i; |
608 | ||
609 | for (i = 0; i < 64; i++) { | |
610 | if (usb_control_msg(ftdi->usb_dev, 0xC0, 0x90, 0, i, eeprom+(i*2), 2, ftdi->usb_timeout) != 2) { | |
611 | ftdi->error_str = "Reading eeprom failed"; | |
612 | return -1; | |
613 | } | |
614 | } | |
615 | ||
616 | return 0; | |
617 | } | |
618 | ||
619 | ||
be5d7eec | 620 | int ftdi_write_eeprom(struct ftdi_context *ftdi, unsigned char *eeprom) { |
a3da1d95 GE |
621 | unsigned short usb_val; |
622 | int i; | |
623 | ||
624 | for (i = 0; i < 64; i++) { | |
625 | usb_val = eeprom[i*2]; | |
626 | usb_val += eeprom[(i*2)+1] << 8; | |
627 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0x91, usb_val, i, NULL, 0, ftdi->usb_timeout) != 0) { | |
628 | ftdi->error_str = "Unable to write eeprom"; | |
629 | return -1; | |
630 | } | |
631 | } | |
632 | ||
633 | return 0; | |
634 | } | |
635 | ||
636 | ||
637 | int ftdi_erase_eeprom(struct ftdi_context *ftdi) { | |
638 | if (usb_control_msg(ftdi->usb_dev, 0x40, 0x92, 0, 0, NULL, 0, ftdi->usb_timeout) != 0) { | |
639 | ftdi->error_str = "Unable to erase eeprom"; | |
640 | return -1; | |
641 | } | |
642 | ||
643 | return 0; | |
644 | } |