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a3da1d95 GE |
1 | /*************************************************************************** |
2 | ftdi.c - description | |
3 | ------------------- | |
4 | begin : Fri Apr 4 2003 | |
8a987aa2 | 5 | copyright : (C) 2003-2011 by Intra2net AG and the libftdi developers |
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 | ***************************************************************************/ | |
d9f0cce7 | 16 | |
b5ec1820 TJ |
17 | /** |
18 | \mainpage libftdi API documentation | |
19 | ||
ad397a4b | 20 | Library to talk to FTDI chips. You find the latest versions of libftdi at |
1bfc403c | 21 | http://www.intra2net.com/en/developer/libftdi/ |
b5ec1820 | 22 | |
ad397a4b TJ |
23 | The library is easy to use. Have a look at this short example: |
24 | \include simple.c | |
25 | ||
26 | More examples can be found in the "examples" directory. | |
b5ec1820 TJ |
27 | */ |
28 | /** \addtogroup libftdi */ | |
29 | /* @{ */ | |
30 | ||
579b006f | 31 | #include <libusb.h> |
a8f46ddc | 32 | #include <string.h> |
d2f10023 | 33 | #include <errno.h> |
b56d5a64 | 34 | #include <stdio.h> |
579b006f | 35 | #include <stdlib.h> |
0e302db6 | 36 | |
98452d97 | 37 | #include "ftdi.h" |
a3da1d95 | 38 | |
21abaf2e | 39 | #define ftdi_error_return(code, str) do { \ |
2f73e59f | 40 | ftdi->error_str = str; \ |
21abaf2e | 41 | return code; \ |
d2f10023 | 42 | } while(0); |
c3d95b87 | 43 | |
99650502 UB |
44 | #define ftdi_error_return_free_device_list(code, str, devs) do { \ |
45 | libusb_free_device_list(devs,1); \ | |
46 | ftdi->error_str = str; \ | |
47 | return code; \ | |
48 | } while(0); | |
49 | ||
418aaa72 | 50 | |
f3f81007 TJ |
51 | /** |
52 | Internal function to close usb device pointer. | |
53 | Sets ftdi->usb_dev to NULL. | |
54 | \internal | |
55 | ||
56 | \param ftdi pointer to ftdi_context | |
57 | ||
579b006f | 58 | \retval none |
f3f81007 | 59 | */ |
579b006f | 60 | static void ftdi_usb_close_internal (struct ftdi_context *ftdi) |
dff4fdb0 | 61 | { |
22a1b5c1 | 62 | if (ftdi && ftdi->usb_dev) |
dff4fdb0 | 63 | { |
56ac0383 TJ |
64 | libusb_close (ftdi->usb_dev); |
65 | ftdi->usb_dev = NULL; | |
dff4fdb0 | 66 | } |
dff4fdb0 | 67 | } |
c3d95b87 | 68 | |
1941414d TJ |
69 | /** |
70 | Initializes a ftdi_context. | |
4837f98a | 71 | |
1941414d | 72 | \param ftdi pointer to ftdi_context |
4837f98a | 73 | |
1941414d TJ |
74 | \retval 0: all fine |
75 | \retval -1: couldn't allocate read buffer | |
a35aa9bd | 76 | \retval -2: couldn't allocate struct buffer |
3a284749 | 77 | \retval -3: libusb_init() failed |
1941414d TJ |
78 | |
79 | \remark This should be called before all functions | |
948f9ada | 80 | */ |
a8f46ddc TJ |
81 | int ftdi_init(struct ftdi_context *ftdi) |
82 | { | |
a35aa9bd | 83 | struct ftdi_eeprom* eeprom = (struct ftdi_eeprom *)malloc(sizeof(struct ftdi_eeprom)); |
02212d8e | 84 | ftdi->usb_ctx = NULL; |
98452d97 | 85 | ftdi->usb_dev = NULL; |
545820ce TJ |
86 | ftdi->usb_read_timeout = 5000; |
87 | ftdi->usb_write_timeout = 5000; | |
a3da1d95 | 88 | |
53ad271d | 89 | ftdi->type = TYPE_BM; /* chip type */ |
a3da1d95 | 90 | ftdi->baudrate = -1; |
418aaa72 | 91 | ftdi->bitbang_enabled = 0; /* 0: normal mode 1: any of the bitbang modes enabled */ |
a3da1d95 | 92 | |
948f9ada TJ |
93 | ftdi->readbuffer = NULL; |
94 | ftdi->readbuffer_offset = 0; | |
95 | ftdi->readbuffer_remaining = 0; | |
96 | ftdi->writebuffer_chunksize = 4096; | |
e2f12a4f | 97 | ftdi->max_packet_size = 0; |
3a284749 TJ |
98 | ftdi->error_str = NULL; |
99 | ftdi->module_detach_mode = AUTO_DETACH_SIO_MODULE; | |
100 | ||
101 | if (libusb_init(&ftdi->usb_ctx) < 0) | |
102 | ftdi_error_return(-3, "libusb_init() failed"); | |
948f9ada | 103 | |
ac0af8ec | 104 | ftdi_set_interface(ftdi, INTERFACE_ANY); |
418aaa72 | 105 | ftdi->bitbang_mode = 1; /* when bitbang is enabled this holds the number of the mode */ |
53ad271d | 106 | |
a35aa9bd UB |
107 | if (eeprom == 0) |
108 | ftdi_error_return(-2, "Can't malloc struct ftdi_eeprom"); | |
b4d19dea | 109 | memset(eeprom, 0, sizeof(struct ftdi_eeprom)); |
a35aa9bd | 110 | ftdi->eeprom = eeprom; |
c201f80f | 111 | |
1c733d33 TJ |
112 | /* All fine. Now allocate the readbuffer */ |
113 | return ftdi_read_data_set_chunksize(ftdi, 4096); | |
948f9ada | 114 | } |
4837f98a | 115 | |
1941414d | 116 | /** |
cef378aa TJ |
117 | Allocate and initialize a new ftdi_context |
118 | ||
119 | \return a pointer to a new ftdi_context, or NULL on failure | |
120 | */ | |
672ac008 | 121 | struct ftdi_context *ftdi_new(void) |
cef378aa TJ |
122 | { |
123 | struct ftdi_context * ftdi = (struct ftdi_context *)malloc(sizeof(struct ftdi_context)); | |
124 | ||
22d12cda TJ |
125 | if (ftdi == NULL) |
126 | { | |
cef378aa TJ |
127 | return NULL; |
128 | } | |
129 | ||
22d12cda TJ |
130 | if (ftdi_init(ftdi) != 0) |
131 | { | |
cef378aa | 132 | free(ftdi); |
cdf448f6 | 133 | return NULL; |
cef378aa TJ |
134 | } |
135 | ||
136 | return ftdi; | |
137 | } | |
138 | ||
139 | /** | |
1941414d TJ |
140 | Open selected channels on a chip, otherwise use first channel. |
141 | ||
142 | \param ftdi pointer to ftdi_context | |
f9d69895 | 143 | \param interface Interface to use for FT2232C/2232H/4232H chips. |
1941414d TJ |
144 | |
145 | \retval 0: all fine | |
146 | \retval -1: unknown interface | |
22a1b5c1 | 147 | \retval -2: USB device unavailable |
c4446c36 | 148 | */ |
0ce2f5fa | 149 | int ftdi_set_interface(struct ftdi_context *ftdi, enum ftdi_interface interface) |
c4446c36 | 150 | { |
1971c26d | 151 | if (ftdi == NULL) |
22a1b5c1 TJ |
152 | ftdi_error_return(-2, "USB device unavailable"); |
153 | ||
22d12cda TJ |
154 | switch (interface) |
155 | { | |
156 | case INTERFACE_ANY: | |
157 | case INTERFACE_A: | |
ac0af8ec VY |
158 | ftdi->interface = 0; |
159 | ftdi->index = INTERFACE_A; | |
160 | ftdi->in_ep = 0x02; | |
161 | ftdi->out_ep = 0x81; | |
22d12cda TJ |
162 | break; |
163 | case INTERFACE_B: | |
164 | ftdi->interface = 1; | |
165 | ftdi->index = INTERFACE_B; | |
166 | ftdi->in_ep = 0x04; | |
167 | ftdi->out_ep = 0x83; | |
168 | break; | |
f9d69895 AH |
169 | case INTERFACE_C: |
170 | ftdi->interface = 2; | |
171 | ftdi->index = INTERFACE_C; | |
172 | ftdi->in_ep = 0x06; | |
173 | ftdi->out_ep = 0x85; | |
174 | break; | |
175 | case INTERFACE_D: | |
176 | ftdi->interface = 3; | |
177 | ftdi->index = INTERFACE_D; | |
178 | ftdi->in_ep = 0x08; | |
179 | ftdi->out_ep = 0x87; | |
180 | break; | |
22d12cda TJ |
181 | default: |
182 | ftdi_error_return(-1, "Unknown interface"); | |
c4446c36 TJ |
183 | } |
184 | return 0; | |
185 | } | |
948f9ada | 186 | |
1941414d TJ |
187 | /** |
188 | Deinitializes a ftdi_context. | |
4837f98a | 189 | |
1941414d | 190 | \param ftdi pointer to ftdi_context |
4837f98a | 191 | */ |
a8f46ddc TJ |
192 | void ftdi_deinit(struct ftdi_context *ftdi) |
193 | { | |
22a1b5c1 TJ |
194 | if (ftdi == NULL) |
195 | return; | |
196 | ||
f3f81007 | 197 | ftdi_usb_close_internal (ftdi); |
dff4fdb0 | 198 | |
22d12cda TJ |
199 | if (ftdi->readbuffer != NULL) |
200 | { | |
d9f0cce7 TJ |
201 | free(ftdi->readbuffer); |
202 | ftdi->readbuffer = NULL; | |
948f9ada | 203 | } |
a35aa9bd UB |
204 | |
205 | if (ftdi->eeprom != NULL) | |
206 | { | |
74e8e79d UB |
207 | if (ftdi->eeprom->manufacturer != 0) |
208 | { | |
209 | free(ftdi->eeprom->manufacturer); | |
210 | ftdi->eeprom->manufacturer = 0; | |
211 | } | |
212 | if (ftdi->eeprom->product != 0) | |
213 | { | |
214 | free(ftdi->eeprom->product); | |
215 | ftdi->eeprom->product = 0; | |
216 | } | |
217 | if (ftdi->eeprom->serial != 0) | |
218 | { | |
219 | free(ftdi->eeprom->serial); | |
220 | ftdi->eeprom->serial = 0; | |
221 | } | |
a35aa9bd UB |
222 | free(ftdi->eeprom); |
223 | ftdi->eeprom = NULL; | |
224 | } | |
3a284749 TJ |
225 | |
226 | if (ftdi->usb_ctx) | |
227 | { | |
228 | libusb_exit(ftdi->usb_ctx); | |
229 | ftdi->usb_ctx = NULL; | |
230 | } | |
a3da1d95 GE |
231 | } |
232 | ||
1941414d | 233 | /** |
cef378aa TJ |
234 | Deinitialize and free an ftdi_context. |
235 | ||
236 | \param ftdi pointer to ftdi_context | |
237 | */ | |
238 | void ftdi_free(struct ftdi_context *ftdi) | |
239 | { | |
240 | ftdi_deinit(ftdi); | |
241 | free(ftdi); | |
242 | } | |
243 | ||
244 | /** | |
1941414d TJ |
245 | Use an already open libusb device. |
246 | ||
247 | \param ftdi pointer to ftdi_context | |
579b006f | 248 | \param usb libusb libusb_device_handle to use |
4837f98a | 249 | */ |
579b006f | 250 | void ftdi_set_usbdev (struct ftdi_context *ftdi, libusb_device_handle *usb) |
a8f46ddc | 251 | { |
22a1b5c1 TJ |
252 | if (ftdi == NULL) |
253 | return; | |
254 | ||
98452d97 TJ |
255 | ftdi->usb_dev = usb; |
256 | } | |
257 | ||
258 | ||
1941414d TJ |
259 | /** |
260 | Finds all ftdi devices on the usb bus. Creates a new ftdi_device_list which | |
261 | needs to be deallocated by ftdi_list_free() after use. | |
262 | ||
263 | \param ftdi pointer to ftdi_context | |
264 | \param devlist Pointer where to store list of found devices | |
265 | \param vendor Vendor ID to search for | |
266 | \param product Product ID to search for | |
edb82cbf | 267 | |
1941414d | 268 | \retval >0: number of devices found |
1941414d | 269 | \retval -3: out of memory |
579b006f JZ |
270 | \retval -5: libusb_get_device_list() failed |
271 | \retval -6: libusb_get_device_descriptor() failed | |
edb82cbf | 272 | */ |
d2f10023 | 273 | int ftdi_usb_find_all(struct ftdi_context *ftdi, struct ftdi_device_list **devlist, int vendor, int product) |
edb82cbf TJ |
274 | { |
275 | struct ftdi_device_list **curdev; | |
579b006f JZ |
276 | libusb_device *dev; |
277 | libusb_device **devs; | |
edb82cbf | 278 | int count = 0; |
579b006f JZ |
279 | int i = 0; |
280 | ||
02212d8e | 281 | if (libusb_get_device_list(ftdi->usb_ctx, &devs) < 0) |
579b006f | 282 | ftdi_error_return(-5, "libusb_get_device_list() failed"); |
edb82cbf TJ |
283 | |
284 | curdev = devlist; | |
6db32169 | 285 | *curdev = NULL; |
579b006f JZ |
286 | |
287 | while ((dev = devs[i++]) != NULL) | |
22d12cda | 288 | { |
579b006f | 289 | struct libusb_device_descriptor desc; |
d2f10023 | 290 | |
579b006f | 291 | if (libusb_get_device_descriptor(dev, &desc) < 0) |
77377af7 | 292 | ftdi_error_return_free_device_list(-6, "libusb_get_device_descriptor() failed", devs); |
edb82cbf | 293 | |
579b006f JZ |
294 | if (desc.idVendor == vendor && desc.idProduct == product) |
295 | { | |
296 | *curdev = (struct ftdi_device_list*)malloc(sizeof(struct ftdi_device_list)); | |
297 | if (!*curdev) | |
77377af7 | 298 | ftdi_error_return_free_device_list(-3, "out of memory", devs); |
56ac0383 | 299 | |
579b006f JZ |
300 | (*curdev)->next = NULL; |
301 | (*curdev)->dev = dev; | |
302 | ||
303 | curdev = &(*curdev)->next; | |
304 | count++; | |
edb82cbf TJ |
305 | } |
306 | } | |
77377af7 | 307 | libusb_free_device_list(devs,1); |
edb82cbf TJ |
308 | return count; |
309 | } | |
310 | ||
1941414d TJ |
311 | /** |
312 | Frees a usb device list. | |
edb82cbf | 313 | |
1941414d | 314 | \param devlist USB device list created by ftdi_usb_find_all() |
edb82cbf | 315 | */ |
d2f10023 | 316 | void ftdi_list_free(struct ftdi_device_list **devlist) |
edb82cbf | 317 | { |
6db32169 TJ |
318 | struct ftdi_device_list *curdev, *next; |
319 | ||
22d12cda TJ |
320 | for (curdev = *devlist; curdev != NULL;) |
321 | { | |
6db32169 TJ |
322 | next = curdev->next; |
323 | free(curdev); | |
324 | curdev = next; | |
edb82cbf TJ |
325 | } |
326 | ||
6db32169 | 327 | *devlist = NULL; |
edb82cbf TJ |
328 | } |
329 | ||
1941414d | 330 | /** |
cef378aa TJ |
331 | Frees a usb device list. |
332 | ||
333 | \param devlist USB device list created by ftdi_usb_find_all() | |
334 | */ | |
335 | void ftdi_list_free2(struct ftdi_device_list *devlist) | |
336 | { | |
337 | ftdi_list_free(&devlist); | |
338 | } | |
339 | ||
340 | /** | |
474786c0 TJ |
341 | Return device ID strings from the usb device. |
342 | ||
343 | The parameters manufacturer, description and serial may be NULL | |
344 | or pointer to buffers to store the fetched strings. | |
345 | ||
898c34dd TJ |
346 | \note Use this function only in combination with ftdi_usb_find_all() |
347 | as it closes the internal "usb_dev" after use. | |
348 | ||
474786c0 TJ |
349 | \param ftdi pointer to ftdi_context |
350 | \param dev libusb usb_dev to use | |
351 | \param manufacturer Store manufacturer string here if not NULL | |
352 | \param mnf_len Buffer size of manufacturer string | |
353 | \param description Store product description string here if not NULL | |
354 | \param desc_len Buffer size of product description string | |
355 | \param serial Store serial string here if not NULL | |
356 | \param serial_len Buffer size of serial string | |
357 | ||
358 | \retval 0: all fine | |
359 | \retval -1: wrong arguments | |
360 | \retval -4: unable to open device | |
361 | \retval -7: get product manufacturer failed | |
362 | \retval -8: get product description failed | |
363 | \retval -9: get serial number failed | |
579b006f | 364 | \retval -11: libusb_get_device_descriptor() failed |
474786c0 | 365 | */ |
579b006f | 366 | int ftdi_usb_get_strings(struct ftdi_context * ftdi, struct libusb_device * dev, |
22d12cda | 367 | char * manufacturer, int mnf_len, char * description, int desc_len, char * serial, int serial_len) |
474786c0 | 368 | { |
579b006f JZ |
369 | struct libusb_device_descriptor desc; |
370 | ||
474786c0 TJ |
371 | if ((ftdi==NULL) || (dev==NULL)) |
372 | return -1; | |
373 | ||
579b006f JZ |
374 | if (libusb_open(dev, &ftdi->usb_dev) < 0) |
375 | ftdi_error_return(-4, "libusb_open() failed"); | |
376 | ||
377 | if (libusb_get_device_descriptor(dev, &desc) < 0) | |
378 | ftdi_error_return(-11, "libusb_get_device_descriptor() failed"); | |
474786c0 | 379 | |
22d12cda TJ |
380 | if (manufacturer != NULL) |
381 | { | |
579b006f | 382 | if (libusb_get_string_descriptor_ascii(ftdi->usb_dev, desc.iManufacturer, (unsigned char *)manufacturer, mnf_len) < 0) |
22d12cda | 383 | { |
f3f81007 | 384 | ftdi_usb_close_internal (ftdi); |
579b006f | 385 | ftdi_error_return(-7, "libusb_get_string_descriptor_ascii() failed"); |
474786c0 TJ |
386 | } |
387 | } | |
388 | ||
22d12cda TJ |
389 | if (description != NULL) |
390 | { | |
579b006f | 391 | if (libusb_get_string_descriptor_ascii(ftdi->usb_dev, desc.iProduct, (unsigned char *)description, desc_len) < 0) |
22d12cda | 392 | { |
f3f81007 | 393 | ftdi_usb_close_internal (ftdi); |
579b006f | 394 | ftdi_error_return(-8, "libusb_get_string_descriptor_ascii() failed"); |
474786c0 TJ |
395 | } |
396 | } | |
397 | ||
22d12cda TJ |
398 | if (serial != NULL) |
399 | { | |
579b006f | 400 | if (libusb_get_string_descriptor_ascii(ftdi->usb_dev, desc.iSerialNumber, (unsigned char *)serial, serial_len) < 0) |
22d12cda | 401 | { |
f3f81007 | 402 | ftdi_usb_close_internal (ftdi); |
579b006f | 403 | ftdi_error_return(-9, "libusb_get_string_descriptor_ascii() failed"); |
474786c0 TJ |
404 | } |
405 | } | |
406 | ||
579b006f | 407 | ftdi_usb_close_internal (ftdi); |
474786c0 TJ |
408 | |
409 | return 0; | |
410 | } | |
411 | ||
412 | /** | |
e2f12a4f TJ |
413 | * Internal function to determine the maximum packet size. |
414 | * \param ftdi pointer to ftdi_context | |
415 | * \param dev libusb usb_dev to use | |
416 | * \retval Maximum packet size for this device | |
417 | */ | |
579b006f | 418 | static unsigned int _ftdi_determine_max_packet_size(struct ftdi_context *ftdi, libusb_device *dev) |
e2f12a4f | 419 | { |
579b006f JZ |
420 | struct libusb_device_descriptor desc; |
421 | struct libusb_config_descriptor *config0; | |
e2f12a4f TJ |
422 | unsigned int packet_size; |
423 | ||
22a1b5c1 TJ |
424 | // Sanity check |
425 | if (ftdi == NULL || dev == NULL) | |
426 | return 64; | |
427 | ||
e2f12a4f TJ |
428 | // Determine maximum packet size. Init with default value. |
429 | // New hi-speed devices from FTDI use a packet size of 512 bytes | |
430 | // but could be connected to a normal speed USB hub -> 64 bytes packet size. | |
c7e4c09e | 431 | if (ftdi->type == TYPE_2232H || ftdi->type == TYPE_4232H || ftdi->type == TYPE_232H ) |
e2f12a4f TJ |
432 | packet_size = 512; |
433 | else | |
434 | packet_size = 64; | |
435 | ||
579b006f JZ |
436 | if (libusb_get_device_descriptor(dev, &desc) < 0) |
437 | return packet_size; | |
438 | ||
439 | if (libusb_get_config_descriptor(dev, 0, &config0) < 0) | |
440 | return packet_size; | |
e2f12a4f | 441 | |
579b006f JZ |
442 | if (desc.bNumConfigurations > 0) |
443 | { | |
444 | if (ftdi->interface < config0->bNumInterfaces) | |
e2f12a4f | 445 | { |
579b006f | 446 | struct libusb_interface interface = config0->interface[ftdi->interface]; |
e2f12a4f TJ |
447 | if (interface.num_altsetting > 0) |
448 | { | |
579b006f | 449 | struct libusb_interface_descriptor descriptor = interface.altsetting[0]; |
e2f12a4f TJ |
450 | if (descriptor.bNumEndpoints > 0) |
451 | { | |
452 | packet_size = descriptor.endpoint[0].wMaxPacketSize; | |
453 | } | |
454 | } | |
455 | } | |
456 | } | |
457 | ||
579b006f | 458 | libusb_free_config_descriptor (config0); |
e2f12a4f TJ |
459 | return packet_size; |
460 | } | |
461 | ||
462 | /** | |
418aaa72 | 463 | Opens a ftdi device given by an usb_device. |
7b18bef6 | 464 | |
1941414d TJ |
465 | \param ftdi pointer to ftdi_context |
466 | \param dev libusb usb_dev to use | |
467 | ||
468 | \retval 0: all fine | |
23b1798d | 469 | \retval -3: unable to config device |
1941414d TJ |
470 | \retval -4: unable to open device |
471 | \retval -5: unable to claim device | |
472 | \retval -6: reset failed | |
473 | \retval -7: set baudrate failed | |
22a1b5c1 | 474 | \retval -8: ftdi context invalid |
579b006f JZ |
475 | \retval -9: libusb_get_device_descriptor() failed |
476 | \retval -10: libusb_get_config_descriptor() failed | |
e375e6cb | 477 | \retval -11: libusb_detach_kernel_driver() failed |
579b006f | 478 | \retval -12: libusb_get_configuration() failed |
7b18bef6 | 479 | */ |
579b006f | 480 | int ftdi_usb_open_dev(struct ftdi_context *ftdi, libusb_device *dev) |
7b18bef6 | 481 | { |
579b006f JZ |
482 | struct libusb_device_descriptor desc; |
483 | struct libusb_config_descriptor *config0; | |
43aee24f | 484 | int cfg, cfg0, detach_errno = 0; |
579b006f | 485 | |
22a1b5c1 TJ |
486 | if (ftdi == NULL) |
487 | ftdi_error_return(-8, "ftdi context invalid"); | |
488 | ||
579b006f JZ |
489 | if (libusb_open(dev, &ftdi->usb_dev) < 0) |
490 | ftdi_error_return(-4, "libusb_open() failed"); | |
491 | ||
492 | if (libusb_get_device_descriptor(dev, &desc) < 0) | |
493 | ftdi_error_return(-9, "libusb_get_device_descriptor() failed"); | |
494 | ||
495 | if (libusb_get_config_descriptor(dev, 0, &config0) < 0) | |
496 | ftdi_error_return(-10, "libusb_get_config_descriptor() failed"); | |
497 | cfg0 = config0->bConfigurationValue; | |
498 | libusb_free_config_descriptor (config0); | |
d2f10023 | 499 | |
22592e17 | 500 | // Try to detach ftdi_sio kernel module. |
22592e17 TJ |
501 | // |
502 | // The return code is kept in a separate variable and only parsed | |
503 | // if usb_set_configuration() or usb_claim_interface() fails as the | |
504 | // detach operation might be denied and everything still works fine. | |
505 | // Likely scenario is a static ftdi_sio kernel module. | |
a3d86bdb TJ |
506 | if (ftdi->module_detach_mode == AUTO_DETACH_SIO_MODULE) |
507 | { | |
508 | if (libusb_detach_kernel_driver(ftdi->usb_dev, ftdi->interface) !=0) | |
509 | detach_errno = errno; | |
510 | } | |
d2f10023 | 511 | |
579b006f JZ |
512 | if (libusb_get_configuration (ftdi->usb_dev, &cfg) < 0) |
513 | ftdi_error_return(-12, "libusb_get_configuration () failed"); | |
b57aedfd GE |
514 | // set configuration (needed especially for windows) |
515 | // tolerate EBUSY: one device with one configuration, but two interfaces | |
516 | // and libftdi sessions to both interfaces (e.g. FT2232) | |
579b006f | 517 | if (desc.bNumConfigurations > 0 && cfg != cfg0) |
b57aedfd | 518 | { |
579b006f | 519 | if (libusb_set_configuration(ftdi->usb_dev, cfg0) < 0) |
22d12cda | 520 | { |
a56ba2bd | 521 | ftdi_usb_close_internal (ftdi); |
56ac0383 | 522 | if (detach_errno == EPERM) |
43aee24f UB |
523 | { |
524 | ftdi_error_return(-8, "inappropriate permissions on device!"); | |
525 | } | |
526 | else | |
527 | { | |
c16b162d | 528 | ftdi_error_return(-3, "unable to set usb configuration. Make sure the default FTDI driver is not in use"); |
43aee24f | 529 | } |
23b1798d TJ |
530 | } |
531 | } | |
532 | ||
579b006f | 533 | if (libusb_claim_interface(ftdi->usb_dev, ftdi->interface) < 0) |
22d12cda | 534 | { |
f3f81007 | 535 | ftdi_usb_close_internal (ftdi); |
56ac0383 | 536 | if (detach_errno == EPERM) |
43aee24f UB |
537 | { |
538 | ftdi_error_return(-8, "inappropriate permissions on device!"); | |
539 | } | |
540 | else | |
541 | { | |
c16b162d | 542 | ftdi_error_return(-5, "unable to claim usb device. Make sure the default FTDI driver is not in use"); |
43aee24f | 543 | } |
7b18bef6 TJ |
544 | } |
545 | ||
22d12cda TJ |
546 | if (ftdi_usb_reset (ftdi) != 0) |
547 | { | |
f3f81007 | 548 | ftdi_usb_close_internal (ftdi); |
7b18bef6 TJ |
549 | ftdi_error_return(-6, "ftdi_usb_reset failed"); |
550 | } | |
551 | ||
7b18bef6 TJ |
552 | // Try to guess chip type |
553 | // Bug in the BM type chips: bcdDevice is 0x200 for serial == 0 | |
579b006f | 554 | if (desc.bcdDevice == 0x400 || (desc.bcdDevice == 0x200 |
56ac0383 | 555 | && desc.iSerialNumber == 0)) |
7b18bef6 | 556 | ftdi->type = TYPE_BM; |
579b006f | 557 | else if (desc.bcdDevice == 0x200) |
7b18bef6 | 558 | ftdi->type = TYPE_AM; |
579b006f | 559 | else if (desc.bcdDevice == 0x500) |
7b18bef6 | 560 | ftdi->type = TYPE_2232C; |
579b006f | 561 | else if (desc.bcdDevice == 0x600) |
cb6250fa | 562 | ftdi->type = TYPE_R; |
579b006f | 563 | else if (desc.bcdDevice == 0x700) |
0beb9686 | 564 | ftdi->type = TYPE_2232H; |
579b006f | 565 | else if (desc.bcdDevice == 0x800) |
0beb9686 | 566 | ftdi->type = TYPE_4232H; |
c7e4c09e UB |
567 | else if (desc.bcdDevice == 0x900) |
568 | ftdi->type = TYPE_232H; | |
7b18bef6 | 569 | |
e2f12a4f TJ |
570 | // Determine maximum packet size |
571 | ftdi->max_packet_size = _ftdi_determine_max_packet_size(ftdi, dev); | |
572 | ||
ef6f4838 TE |
573 | if (ftdi_set_baudrate (ftdi, 9600) != 0) |
574 | { | |
575 | ftdi_usb_close_internal (ftdi); | |
576 | ftdi_error_return(-7, "set baudrate failed"); | |
577 | } | |
578 | ||
7b18bef6 TJ |
579 | ftdi_error_return(0, "all fine"); |
580 | } | |
581 | ||
1941414d TJ |
582 | /** |
583 | Opens the first device with a given vendor and product ids. | |
584 | ||
585 | \param ftdi pointer to ftdi_context | |
586 | \param vendor Vendor ID | |
587 | \param product Product ID | |
588 | ||
9bec2387 | 589 | \retval same as ftdi_usb_open_desc() |
1941414d | 590 | */ |
edb82cbf TJ |
591 | int ftdi_usb_open(struct ftdi_context *ftdi, int vendor, int product) |
592 | { | |
593 | return ftdi_usb_open_desc(ftdi, vendor, product, NULL, NULL); | |
594 | } | |
595 | ||
1941414d TJ |
596 | /** |
597 | Opens the first device with a given, vendor id, product id, | |
598 | description and serial. | |
599 | ||
600 | \param ftdi pointer to ftdi_context | |
601 | \param vendor Vendor ID | |
602 | \param product Product ID | |
603 | \param description Description to search for. Use NULL if not needed. | |
604 | \param serial Serial to search for. Use NULL if not needed. | |
605 | ||
606 | \retval 0: all fine | |
1941414d TJ |
607 | \retval -3: usb device not found |
608 | \retval -4: unable to open device | |
609 | \retval -5: unable to claim device | |
610 | \retval -6: reset failed | |
611 | \retval -7: set baudrate failed | |
612 | \retval -8: get product description failed | |
613 | \retval -9: get serial number failed | |
579b006f JZ |
614 | \retval -12: libusb_get_device_list() failed |
615 | \retval -13: libusb_get_device_descriptor() failed | |
a3da1d95 | 616 | */ |
04e1ea0a | 617 | int ftdi_usb_open_desc(struct ftdi_context *ftdi, int vendor, int product, |
a8f46ddc TJ |
618 | const char* description, const char* serial) |
619 | { | |
5ebbdab9 GE |
620 | return ftdi_usb_open_desc_index(ftdi,vendor,product,description,serial,0); |
621 | } | |
622 | ||
623 | /** | |
624 | Opens the index-th device with a given, vendor id, product id, | |
625 | description and serial. | |
626 | ||
627 | \param ftdi pointer to ftdi_context | |
628 | \param vendor Vendor ID | |
629 | \param product Product ID | |
630 | \param description Description to search for. Use NULL if not needed. | |
631 | \param serial Serial to search for. Use NULL if not needed. | |
632 | \param index Number of matching device to open if there are more than one, starts with 0. | |
633 | ||
634 | \retval 0: all fine | |
635 | \retval -1: usb_find_busses() failed | |
636 | \retval -2: usb_find_devices() failed | |
637 | \retval -3: usb device not found | |
638 | \retval -4: unable to open device | |
639 | \retval -5: unable to claim device | |
640 | \retval -6: reset failed | |
641 | \retval -7: set baudrate failed | |
642 | \retval -8: get product description failed | |
643 | \retval -9: get serial number failed | |
644 | \retval -10: unable to close device | |
22a1b5c1 | 645 | \retval -11: ftdi context invalid |
5ebbdab9 GE |
646 | */ |
647 | int ftdi_usb_open_desc_index(struct ftdi_context *ftdi, int vendor, int product, | |
56ac0383 | 648 | const char* description, const char* serial, unsigned int index) |
5ebbdab9 | 649 | { |
579b006f JZ |
650 | libusb_device *dev; |
651 | libusb_device **devs; | |
c3d95b87 | 652 | char string[256]; |
579b006f | 653 | int i = 0; |
98452d97 | 654 | |
22a1b5c1 TJ |
655 | if (ftdi == NULL) |
656 | ftdi_error_return(-11, "ftdi context invalid"); | |
657 | ||
02212d8e | 658 | if (libusb_get_device_list(ftdi->usb_ctx, &devs) < 0) |
99650502 UB |
659 | ftdi_error_return(-12, "libusb_get_device_list() failed"); |
660 | ||
579b006f | 661 | while ((dev = devs[i++]) != NULL) |
22d12cda | 662 | { |
579b006f | 663 | struct libusb_device_descriptor desc; |
99650502 | 664 | int res; |
579b006f JZ |
665 | |
666 | if (libusb_get_device_descriptor(dev, &desc) < 0) | |
99650502 | 667 | ftdi_error_return_free_device_list(-13, "libusb_get_device_descriptor() failed", devs); |
579b006f JZ |
668 | |
669 | if (desc.idVendor == vendor && desc.idProduct == product) | |
22d12cda | 670 | { |
579b006f | 671 | if (libusb_open(dev, &ftdi->usb_dev) < 0) |
99650502 | 672 | ftdi_error_return_free_device_list(-4, "usb_open() failed", devs); |
c3d95b87 | 673 | |
579b006f JZ |
674 | if (description != NULL) |
675 | { | |
676 | if (libusb_get_string_descriptor_ascii(ftdi->usb_dev, desc.iProduct, (unsigned char *)string, sizeof(string)) < 0) | |
22d12cda | 677 | { |
d4afae5f | 678 | ftdi_usb_close_internal (ftdi); |
99650502 | 679 | ftdi_error_return_free_device_list(-8, "unable to fetch product description", devs); |
a8f46ddc | 680 | } |
579b006f | 681 | if (strncmp(string, description, sizeof(string)) != 0) |
22d12cda | 682 | { |
d4afae5f | 683 | ftdi_usb_close_internal (ftdi); |
579b006f | 684 | continue; |
a8f46ddc | 685 | } |
579b006f JZ |
686 | } |
687 | if (serial != NULL) | |
688 | { | |
689 | if (libusb_get_string_descriptor_ascii(ftdi->usb_dev, desc.iSerialNumber, (unsigned char *)string, sizeof(string)) < 0) | |
690 | { | |
691 | ftdi_usb_close_internal (ftdi); | |
99650502 | 692 | ftdi_error_return_free_device_list(-9, "unable to fetch serial number", devs); |
579b006f JZ |
693 | } |
694 | if (strncmp(string, serial, sizeof(string)) != 0) | |
695 | { | |
696 | ftdi_usb_close_internal (ftdi); | |
697 | continue; | |
698 | } | |
699 | } | |
98452d97 | 700 | |
579b006f | 701 | ftdi_usb_close_internal (ftdi); |
d2f10023 | 702 | |
56ac0383 TJ |
703 | if (index > 0) |
704 | { | |
705 | index--; | |
706 | continue; | |
707 | } | |
5ebbdab9 | 708 | |
99650502 UB |
709 | res = ftdi_usb_open_dev(ftdi, dev); |
710 | libusb_free_device_list(devs,1); | |
711 | return res; | |
98452d97 | 712 | } |
98452d97 | 713 | } |
a3da1d95 | 714 | |
98452d97 | 715 | // device not found |
99650502 | 716 | ftdi_error_return_free_device_list(-3, "device not found", devs); |
a3da1d95 GE |
717 | } |
718 | ||
1941414d | 719 | /** |
5ebbdab9 GE |
720 | Opens the ftdi-device described by a description-string. |
721 | Intended to be used for parsing a device-description given as commandline argument. | |
722 | ||
723 | \param ftdi pointer to ftdi_context | |
724 | \param description NULL-terminated description-string, using this format: | |
725 | \li <tt>d:\<devicenode></tt> path of bus and device-node (e.g. "003/001") within usb device tree (usually at /proc/bus/usb/) | |
726 | \li <tt>i:\<vendor>:\<product></tt> first device with given vendor and product id, ids can be decimal, octal (preceded by "0") or hex (preceded by "0x") | |
727 | \li <tt>i:\<vendor>:\<product>:\<index></tt> as above with index being the number of the device (starting with 0) if there are more than one | |
728 | \li <tt>s:\<vendor>:\<product>:\<serial></tt> first device with given vendor id, product id and serial string | |
729 | ||
730 | \note The description format may be extended in later versions. | |
731 | ||
732 | \retval 0: all fine | |
579b006f | 733 | \retval -2: libusb_get_device_list() failed |
5ebbdab9 GE |
734 | \retval -3: usb device not found |
735 | \retval -4: unable to open device | |
736 | \retval -5: unable to claim device | |
737 | \retval -6: reset failed | |
738 | \retval -7: set baudrate failed | |
739 | \retval -8: get product description failed | |
740 | \retval -9: get serial number failed | |
741 | \retval -10: unable to close device | |
742 | \retval -11: illegal description format | |
22a1b5c1 | 743 | \retval -12: ftdi context invalid |
5ebbdab9 GE |
744 | */ |
745 | int ftdi_usb_open_string(struct ftdi_context *ftdi, const char* description) | |
746 | { | |
22a1b5c1 TJ |
747 | if (ftdi == NULL) |
748 | ftdi_error_return(-12, "ftdi context invalid"); | |
749 | ||
5ebbdab9 GE |
750 | if (description[0] == 0 || description[1] != ':') |
751 | ftdi_error_return(-11, "illegal description format"); | |
752 | ||
753 | if (description[0] == 'd') | |
754 | { | |
579b006f JZ |
755 | libusb_device *dev; |
756 | libusb_device **devs; | |
56ac0383 TJ |
757 | unsigned int bus_number, device_address; |
758 | int i = 0; | |
579b006f | 759 | |
56ac0383 TJ |
760 | if (libusb_get_device_list(ftdi->usb_ctx, &devs) < 0) |
761 | ftdi_error_return(-2, "libusb_get_device_list() failed"); | |
5ebbdab9 | 762 | |
579b006f JZ |
763 | /* XXX: This doesn't handle symlinks/odd paths/etc... */ |
764 | if (sscanf (description + 2, "%u/%u", &bus_number, &device_address) != 2) | |
56ac0383 | 765 | ftdi_error_return_free_device_list(-11, "illegal description format", devs); |
5ebbdab9 | 766 | |
56ac0383 | 767 | while ((dev = devs[i++]) != NULL) |
5ebbdab9 | 768 | { |
99650502 | 769 | int ret; |
56ac0383 TJ |
770 | if (bus_number == libusb_get_bus_number (dev) |
771 | && device_address == libusb_get_device_address (dev)) | |
99650502 UB |
772 | { |
773 | ret = ftdi_usb_open_dev(ftdi, dev); | |
774 | libusb_free_device_list(devs,1); | |
775 | return ret; | |
776 | } | |
5ebbdab9 GE |
777 | } |
778 | ||
779 | // device not found | |
99650502 | 780 | ftdi_error_return_free_device_list(-3, "device not found", devs); |
5ebbdab9 GE |
781 | } |
782 | else if (description[0] == 'i' || description[0] == 's') | |
783 | { | |
784 | unsigned int vendor; | |
785 | unsigned int product; | |
786 | unsigned int index=0; | |
0e6cf62b | 787 | const char *serial=NULL; |
5ebbdab9 GE |
788 | const char *startp, *endp; |
789 | ||
790 | errno=0; | |
791 | startp=description+2; | |
792 | vendor=strtoul((char*)startp,(char**)&endp,0); | |
793 | if (*endp != ':' || endp == startp || errno != 0) | |
794 | ftdi_error_return(-11, "illegal description format"); | |
795 | ||
796 | startp=endp+1; | |
797 | product=strtoul((char*)startp,(char**)&endp,0); | |
798 | if (endp == startp || errno != 0) | |
799 | ftdi_error_return(-11, "illegal description format"); | |
800 | ||
801 | if (description[0] == 'i' && *endp != 0) | |
802 | { | |
803 | /* optional index field in i-mode */ | |
804 | if (*endp != ':') | |
805 | ftdi_error_return(-11, "illegal description format"); | |
806 | ||
807 | startp=endp+1; | |
808 | index=strtoul((char*)startp,(char**)&endp,0); | |
809 | if (*endp != 0 || endp == startp || errno != 0) | |
810 | ftdi_error_return(-11, "illegal description format"); | |
811 | } | |
812 | if (description[0] == 's') | |
813 | { | |
814 | if (*endp != ':') | |
815 | ftdi_error_return(-11, "illegal description format"); | |
816 | ||
817 | /* rest of the description is the serial */ | |
818 | serial=endp+1; | |
819 | } | |
820 | ||
821 | return ftdi_usb_open_desc_index(ftdi, vendor, product, NULL, serial, index); | |
822 | } | |
823 | else | |
824 | { | |
825 | ftdi_error_return(-11, "illegal description format"); | |
826 | } | |
827 | } | |
828 | ||
829 | /** | |
1941414d | 830 | Resets the ftdi device. |
a3da1d95 | 831 | |
1941414d TJ |
832 | \param ftdi pointer to ftdi_context |
833 | ||
834 | \retval 0: all fine | |
835 | \retval -1: FTDI reset failed | |
22a1b5c1 | 836 | \retval -2: USB device unavailable |
4837f98a | 837 | */ |
edb82cbf | 838 | int ftdi_usb_reset(struct ftdi_context *ftdi) |
a8f46ddc | 839 | { |
22a1b5c1 TJ |
840 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
841 | ftdi_error_return(-2, "USB device unavailable"); | |
842 | ||
579b006f JZ |
843 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
844 | SIO_RESET_REQUEST, SIO_RESET_SIO, | |
845 | ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) | |
22d12cda | 846 | ftdi_error_return(-1,"FTDI reset failed"); |
c3d95b87 | 847 | |
545820ce | 848 | // Invalidate data in the readbuffer |
bfcee05b TJ |
849 | ftdi->readbuffer_offset = 0; |
850 | ftdi->readbuffer_remaining = 0; | |
851 | ||
a3da1d95 GE |
852 | return 0; |
853 | } | |
854 | ||
1941414d | 855 | /** |
1189b11a | 856 | Clears the read buffer on the chip and the internal read buffer. |
1941414d TJ |
857 | |
858 | \param ftdi pointer to ftdi_context | |
4837f98a | 859 | |
1941414d | 860 | \retval 0: all fine |
1189b11a | 861 | \retval -1: read buffer purge failed |
22a1b5c1 | 862 | \retval -2: USB device unavailable |
4837f98a | 863 | */ |
1189b11a | 864 | int ftdi_usb_purge_rx_buffer(struct ftdi_context *ftdi) |
a8f46ddc | 865 | { |
22a1b5c1 TJ |
866 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
867 | ftdi_error_return(-2, "USB device unavailable"); | |
868 | ||
579b006f JZ |
869 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
870 | SIO_RESET_REQUEST, SIO_RESET_PURGE_RX, | |
871 | ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) | |
c3d95b87 TJ |
872 | ftdi_error_return(-1, "FTDI purge of RX buffer failed"); |
873 | ||
545820ce | 874 | // Invalidate data in the readbuffer |
bfcee05b TJ |
875 | ftdi->readbuffer_offset = 0; |
876 | ftdi->readbuffer_remaining = 0; | |
a60be878 | 877 | |
1189b11a TJ |
878 | return 0; |
879 | } | |
880 | ||
881 | /** | |
882 | Clears the write buffer on the chip. | |
883 | ||
884 | \param ftdi pointer to ftdi_context | |
885 | ||
886 | \retval 0: all fine | |
887 | \retval -1: write buffer purge failed | |
22a1b5c1 | 888 | \retval -2: USB device unavailable |
1189b11a TJ |
889 | */ |
890 | int ftdi_usb_purge_tx_buffer(struct ftdi_context *ftdi) | |
891 | { | |
22a1b5c1 TJ |
892 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
893 | ftdi_error_return(-2, "USB device unavailable"); | |
894 | ||
579b006f JZ |
895 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
896 | SIO_RESET_REQUEST, SIO_RESET_PURGE_TX, | |
897 | ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) | |
1189b11a TJ |
898 | ftdi_error_return(-1, "FTDI purge of TX buffer failed"); |
899 | ||
900 | return 0; | |
901 | } | |
902 | ||
903 | /** | |
904 | Clears the buffers on the chip and the internal read buffer. | |
905 | ||
906 | \param ftdi pointer to ftdi_context | |
907 | ||
908 | \retval 0: all fine | |
909 | \retval -1: read buffer purge failed | |
910 | \retval -2: write buffer purge failed | |
22a1b5c1 | 911 | \retval -3: USB device unavailable |
1189b11a TJ |
912 | */ |
913 | int ftdi_usb_purge_buffers(struct ftdi_context *ftdi) | |
914 | { | |
915 | int result; | |
916 | ||
22a1b5c1 TJ |
917 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
918 | ftdi_error_return(-3, "USB device unavailable"); | |
919 | ||
1189b11a | 920 | result = ftdi_usb_purge_rx_buffer(ftdi); |
5a2b51cb | 921 | if (result < 0) |
1189b11a TJ |
922 | return -1; |
923 | ||
924 | result = ftdi_usb_purge_tx_buffer(ftdi); | |
5a2b51cb | 925 | if (result < 0) |
1189b11a | 926 | return -2; |
545820ce | 927 | |
a60be878 TJ |
928 | return 0; |
929 | } | |
a3da1d95 | 930 | |
f3f81007 TJ |
931 | |
932 | ||
1941414d TJ |
933 | /** |
934 | Closes the ftdi device. Call ftdi_deinit() if you're cleaning up. | |
935 | ||
936 | \param ftdi pointer to ftdi_context | |
937 | ||
938 | \retval 0: all fine | |
939 | \retval -1: usb_release failed | |
22a1b5c1 | 940 | \retval -3: ftdi context invalid |
a3da1d95 | 941 | */ |
a8f46ddc TJ |
942 | int ftdi_usb_close(struct ftdi_context *ftdi) |
943 | { | |
a3da1d95 GE |
944 | int rtn = 0; |
945 | ||
22a1b5c1 TJ |
946 | if (ftdi == NULL) |
947 | ftdi_error_return(-3, "ftdi context invalid"); | |
948 | ||
dff4fdb0 | 949 | if (ftdi->usb_dev != NULL) |
579b006f | 950 | if (libusb_release_interface(ftdi->usb_dev, ftdi->interface) < 0) |
dff4fdb0 | 951 | rtn = -1; |
98452d97 | 952 | |
579b006f | 953 | ftdi_usb_close_internal (ftdi); |
98452d97 | 954 | |
a3da1d95 GE |
955 | return rtn; |
956 | } | |
957 | ||
418aaa72 | 958 | /** |
53ad271d TJ |
959 | ftdi_convert_baudrate returns nearest supported baud rate to that requested. |
960 | Function is only used internally | |
b5ec1820 | 961 | \internal |
53ad271d | 962 | */ |
0126d22e | 963 | static int ftdi_convert_baudrate(int baudrate, struct ftdi_context *ftdi, |
a8f46ddc TJ |
964 | unsigned short *value, unsigned short *index) |
965 | { | |
53ad271d TJ |
966 | static const char am_adjust_up[8] = {0, 0, 0, 1, 0, 3, 2, 1}; |
967 | static const char am_adjust_dn[8] = {0, 0, 0, 1, 0, 1, 2, 3}; | |
968 | static const char frac_code[8] = {0, 3, 2, 4, 1, 5, 6, 7}; | |
969 | int divisor, best_divisor, best_baud, best_baud_diff; | |
970 | unsigned long encoded_divisor; | |
971 | int i; | |
972 | ||
22d12cda TJ |
973 | if (baudrate <= 0) |
974 | { | |
53ad271d TJ |
975 | // Return error |
976 | return -1; | |
977 | } | |
978 | ||
979 | divisor = 24000000 / baudrate; | |
980 | ||
22d12cda TJ |
981 | if (ftdi->type == TYPE_AM) |
982 | { | |
53ad271d TJ |
983 | // Round down to supported fraction (AM only) |
984 | divisor -= am_adjust_dn[divisor & 7]; | |
985 | } | |
986 | ||
987 | // Try this divisor and the one above it (because division rounds down) | |
988 | best_divisor = 0; | |
989 | best_baud = 0; | |
990 | best_baud_diff = 0; | |
22d12cda TJ |
991 | for (i = 0; i < 2; i++) |
992 | { | |
53ad271d TJ |
993 | int try_divisor = divisor + i; |
994 | int baud_estimate; | |
995 | int baud_diff; | |
996 | ||
997 | // Round up to supported divisor value | |
22d12cda TJ |
998 | if (try_divisor <= 8) |
999 | { | |
53ad271d TJ |
1000 | // Round up to minimum supported divisor |
1001 | try_divisor = 8; | |
22d12cda TJ |
1002 | } |
1003 | else if (ftdi->type != TYPE_AM && try_divisor < 12) | |
1004 | { | |
53ad271d TJ |
1005 | // BM doesn't support divisors 9 through 11 inclusive |
1006 | try_divisor = 12; | |
22d12cda TJ |
1007 | } |
1008 | else if (divisor < 16) | |
1009 | { | |
53ad271d TJ |
1010 | // AM doesn't support divisors 9 through 15 inclusive |
1011 | try_divisor = 16; | |
22d12cda TJ |
1012 | } |
1013 | else | |
1014 | { | |
1015 | if (ftdi->type == TYPE_AM) | |
1016 | { | |
53ad271d TJ |
1017 | // Round up to supported fraction (AM only) |
1018 | try_divisor += am_adjust_up[try_divisor & 7]; | |
22d12cda TJ |
1019 | if (try_divisor > 0x1FFF8) |
1020 | { | |
53ad271d TJ |
1021 | // Round down to maximum supported divisor value (for AM) |
1022 | try_divisor = 0x1FFF8; | |
1023 | } | |
22d12cda TJ |
1024 | } |
1025 | else | |
1026 | { | |
1027 | if (try_divisor > 0x1FFFF) | |
1028 | { | |
53ad271d TJ |
1029 | // Round down to maximum supported divisor value (for BM) |
1030 | try_divisor = 0x1FFFF; | |
1031 | } | |
1032 | } | |
1033 | } | |
1034 | // Get estimated baud rate (to nearest integer) | |
1035 | baud_estimate = (24000000 + (try_divisor / 2)) / try_divisor; | |
1036 | // Get absolute difference from requested baud rate | |
22d12cda TJ |
1037 | if (baud_estimate < baudrate) |
1038 | { | |
53ad271d | 1039 | baud_diff = baudrate - baud_estimate; |
22d12cda TJ |
1040 | } |
1041 | else | |
1042 | { | |
53ad271d TJ |
1043 | baud_diff = baud_estimate - baudrate; |
1044 | } | |
22d12cda TJ |
1045 | if (i == 0 || baud_diff < best_baud_diff) |
1046 | { | |
53ad271d TJ |
1047 | // Closest to requested baud rate so far |
1048 | best_divisor = try_divisor; | |
1049 | best_baud = baud_estimate; | |
1050 | best_baud_diff = baud_diff; | |
22d12cda TJ |
1051 | if (baud_diff == 0) |
1052 | { | |
53ad271d TJ |
1053 | // Spot on! No point trying |
1054 | break; | |
1055 | } | |
1056 | } | |
1057 | } | |
1058 | // Encode the best divisor value | |
1059 | encoded_divisor = (best_divisor >> 3) | (frac_code[best_divisor & 7] << 14); | |
1060 | // Deal with special cases for encoded value | |
22d12cda TJ |
1061 | if (encoded_divisor == 1) |
1062 | { | |
4837f98a | 1063 | encoded_divisor = 0; // 3000000 baud |
22d12cda TJ |
1064 | } |
1065 | else if (encoded_divisor == 0x4001) | |
1066 | { | |
4837f98a | 1067 | encoded_divisor = 1; // 2000000 baud (BM only) |
53ad271d TJ |
1068 | } |
1069 | // Split into "value" and "index" values | |
1070 | *value = (unsigned short)(encoded_divisor & 0xFFFF); | |
1416eb14 | 1071 | if (ftdi->type == TYPE_2232C || ftdi->type == TYPE_2232H || ftdi->type == TYPE_4232H) |
22d12cda | 1072 | { |
0126d22e TJ |
1073 | *index = (unsigned short)(encoded_divisor >> 8); |
1074 | *index &= 0xFF00; | |
a9c57c05 | 1075 | *index |= ftdi->index; |
0126d22e TJ |
1076 | } |
1077 | else | |
1078 | *index = (unsigned short)(encoded_divisor >> 16); | |
c3d95b87 | 1079 | |
53ad271d TJ |
1080 | // Return the nearest baud rate |
1081 | return best_baud; | |
1082 | } | |
1083 | ||
1941414d | 1084 | /** |
9bec2387 | 1085 | Sets the chip baud rate |
1941414d TJ |
1086 | |
1087 | \param ftdi pointer to ftdi_context | |
9bec2387 | 1088 | \param baudrate baud rate to set |
1941414d TJ |
1089 | |
1090 | \retval 0: all fine | |
1091 | \retval -1: invalid baudrate | |
1092 | \retval -2: setting baudrate failed | |
22a1b5c1 | 1093 | \retval -3: USB device unavailable |
a3da1d95 | 1094 | */ |
a8f46ddc TJ |
1095 | int ftdi_set_baudrate(struct ftdi_context *ftdi, int baudrate) |
1096 | { | |
53ad271d TJ |
1097 | unsigned short value, index; |
1098 | int actual_baudrate; | |
a3da1d95 | 1099 | |
22a1b5c1 TJ |
1100 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1101 | ftdi_error_return(-3, "USB device unavailable"); | |
1102 | ||
22d12cda TJ |
1103 | if (ftdi->bitbang_enabled) |
1104 | { | |
a3da1d95 GE |
1105 | baudrate = baudrate*4; |
1106 | } | |
1107 | ||
25707904 | 1108 | actual_baudrate = ftdi_convert_baudrate(baudrate, ftdi, &value, &index); |
c3d95b87 TJ |
1109 | if (actual_baudrate <= 0) |
1110 | ftdi_error_return (-1, "Silly baudrate <= 0."); | |
a3da1d95 | 1111 | |
53ad271d TJ |
1112 | // Check within tolerance (about 5%) |
1113 | if ((actual_baudrate * 2 < baudrate /* Catch overflows */ ) | |
1114 | || ((actual_baudrate < baudrate) | |
1115 | ? (actual_baudrate * 21 < baudrate * 20) | |
c3d95b87 TJ |
1116 | : (baudrate * 21 < actual_baudrate * 20))) |
1117 | ftdi_error_return (-1, "Unsupported baudrate. Note: bitbang baudrates are automatically multiplied by 4"); | |
545820ce | 1118 | |
579b006f JZ |
1119 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
1120 | SIO_SET_BAUDRATE_REQUEST, value, | |
1121 | index, NULL, 0, ftdi->usb_write_timeout) < 0) | |
c3d95b87 | 1122 | ftdi_error_return (-2, "Setting new baudrate failed"); |
a3da1d95 GE |
1123 | |
1124 | ftdi->baudrate = baudrate; | |
1125 | return 0; | |
1126 | } | |
1127 | ||
1941414d | 1128 | /** |
6c32e222 TJ |
1129 | Set (RS232) line characteristics. |
1130 | The break type can only be set via ftdi_set_line_property2() | |
1131 | and defaults to "off". | |
4837f98a | 1132 | |
1941414d TJ |
1133 | \param ftdi pointer to ftdi_context |
1134 | \param bits Number of bits | |
1135 | \param sbit Number of stop bits | |
1136 | \param parity Parity mode | |
1137 | ||
1138 | \retval 0: all fine | |
1139 | \retval -1: Setting line property failed | |
2f73e59f TJ |
1140 | */ |
1141 | int ftdi_set_line_property(struct ftdi_context *ftdi, enum ftdi_bits_type bits, | |
d2f10023 | 1142 | enum ftdi_stopbits_type sbit, enum ftdi_parity_type parity) |
2f73e59f | 1143 | { |
6c32e222 TJ |
1144 | return ftdi_set_line_property2(ftdi, bits, sbit, parity, BREAK_OFF); |
1145 | } | |
1146 | ||
1147 | /** | |
1148 | Set (RS232) line characteristics | |
1149 | ||
1150 | \param ftdi pointer to ftdi_context | |
1151 | \param bits Number of bits | |
1152 | \param sbit Number of stop bits | |
1153 | \param parity Parity mode | |
1154 | \param break_type Break type | |
1155 | ||
1156 | \retval 0: all fine | |
1157 | \retval -1: Setting line property failed | |
22a1b5c1 | 1158 | \retval -2: USB device unavailable |
6c32e222 TJ |
1159 | */ |
1160 | int ftdi_set_line_property2(struct ftdi_context *ftdi, enum ftdi_bits_type bits, | |
22d12cda TJ |
1161 | enum ftdi_stopbits_type sbit, enum ftdi_parity_type parity, |
1162 | enum ftdi_break_type break_type) | |
6c32e222 | 1163 | { |
2f73e59f TJ |
1164 | unsigned short value = bits; |
1165 | ||
22a1b5c1 TJ |
1166 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1167 | ftdi_error_return(-2, "USB device unavailable"); | |
1168 | ||
22d12cda TJ |
1169 | switch (parity) |
1170 | { | |
1171 | case NONE: | |
1172 | value |= (0x00 << 8); | |
1173 | break; | |
1174 | case ODD: | |
1175 | value |= (0x01 << 8); | |
1176 | break; | |
1177 | case EVEN: | |
1178 | value |= (0x02 << 8); | |
1179 | break; | |
1180 | case MARK: | |
1181 | value |= (0x03 << 8); | |
1182 | break; | |
1183 | case SPACE: | |
1184 | value |= (0x04 << 8); | |
1185 | break; | |
2f73e59f | 1186 | } |
d2f10023 | 1187 | |
22d12cda TJ |
1188 | switch (sbit) |
1189 | { | |
1190 | case STOP_BIT_1: | |
1191 | value |= (0x00 << 11); | |
1192 | break; | |
1193 | case STOP_BIT_15: | |
1194 | value |= (0x01 << 11); | |
1195 | break; | |
1196 | case STOP_BIT_2: | |
1197 | value |= (0x02 << 11); | |
1198 | break; | |
2f73e59f | 1199 | } |
d2f10023 | 1200 | |
22d12cda TJ |
1201 | switch (break_type) |
1202 | { | |
1203 | case BREAK_OFF: | |
1204 | value |= (0x00 << 14); | |
1205 | break; | |
1206 | case BREAK_ON: | |
1207 | value |= (0x01 << 14); | |
1208 | break; | |
6c32e222 TJ |
1209 | } |
1210 | ||
579b006f JZ |
1211 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
1212 | SIO_SET_DATA_REQUEST, value, | |
1213 | ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) | |
2f73e59f | 1214 | ftdi_error_return (-1, "Setting new line property failed"); |
d2f10023 | 1215 | |
2f73e59f TJ |
1216 | return 0; |
1217 | } | |
a3da1d95 | 1218 | |
1941414d TJ |
1219 | /** |
1220 | Writes data in chunks (see ftdi_write_data_set_chunksize()) to the chip | |
1221 | ||
1222 | \param ftdi pointer to ftdi_context | |
1223 | \param buf Buffer with the data | |
1224 | \param size Size of the buffer | |
1225 | ||
22a1b5c1 | 1226 | \retval -666: USB device unavailable |
1941414d TJ |
1227 | \retval <0: error code from usb_bulk_write() |
1228 | \retval >0: number of bytes written | |
1229 | */ | |
a8f46ddc TJ |
1230 | int ftdi_write_data(struct ftdi_context *ftdi, unsigned char *buf, int size) |
1231 | { | |
a3da1d95 | 1232 | int offset = 0; |
579b006f | 1233 | int actual_length; |
c3d95b87 | 1234 | |
22a1b5c1 TJ |
1235 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1236 | ftdi_error_return(-666, "USB device unavailable"); | |
1237 | ||
22d12cda TJ |
1238 | while (offset < size) |
1239 | { | |
948f9ada | 1240 | int write_size = ftdi->writebuffer_chunksize; |
a3da1d95 GE |
1241 | |
1242 | if (offset+write_size > size) | |
1243 | write_size = size-offset; | |
1244 | ||
579b006f JZ |
1245 | if (libusb_bulk_transfer(ftdi->usb_dev, ftdi->in_ep, buf+offset, write_size, &actual_length, ftdi->usb_write_timeout) < 0) |
1246 | ftdi_error_return(-1, "usb bulk write failed"); | |
a3da1d95 | 1247 | |
579b006f | 1248 | offset += actual_length; |
a3da1d95 GE |
1249 | } |
1250 | ||
579b006f | 1251 | return offset; |
a3da1d95 GE |
1252 | } |
1253 | ||
579b006f | 1254 | static void ftdi_read_data_cb(struct libusb_transfer *transfer) |
22d12cda | 1255 | { |
579b006f JZ |
1256 | struct ftdi_transfer_control *tc = (struct ftdi_transfer_control *) transfer->user_data; |
1257 | struct ftdi_context *ftdi = tc->ftdi; | |
1258 | int packet_size, actual_length, num_of_chunks, chunk_remains, i, ret; | |
4c9e3812 | 1259 | |
b1139150 | 1260 | packet_size = ftdi->max_packet_size; |
579b006f JZ |
1261 | |
1262 | actual_length = transfer->actual_length; | |
1263 | ||
1264 | if (actual_length > 2) | |
1265 | { | |
1266 | // skip FTDI status bytes. | |
1267 | // Maybe stored in the future to enable modem use | |
1268 | num_of_chunks = actual_length / packet_size; | |
1269 | chunk_remains = actual_length % packet_size; | |
1270 | //printf("actual_length = %X, num_of_chunks = %X, chunk_remains = %X, readbuffer_offset = %X\n", actual_length, num_of_chunks, chunk_remains, ftdi->readbuffer_offset); | |
1271 | ||
1272 | ftdi->readbuffer_offset += 2; | |
1273 | actual_length -= 2; | |
1274 | ||
1275 | if (actual_length > packet_size - 2) | |
1276 | { | |
1277 | for (i = 1; i < num_of_chunks; i++) | |
56ac0383 TJ |
1278 | memmove (ftdi->readbuffer+ftdi->readbuffer_offset+(packet_size - 2)*i, |
1279 | ftdi->readbuffer+ftdi->readbuffer_offset+packet_size*i, | |
1280 | packet_size - 2); | |
579b006f JZ |
1281 | if (chunk_remains > 2) |
1282 | { | |
1283 | memmove (ftdi->readbuffer+ftdi->readbuffer_offset+(packet_size - 2)*i, | |
1284 | ftdi->readbuffer+ftdi->readbuffer_offset+packet_size*i, | |
1285 | chunk_remains-2); | |
1286 | actual_length -= 2*num_of_chunks; | |
1287 | } | |
1288 | else | |
56ac0383 | 1289 | actual_length -= 2*(num_of_chunks-1)+chunk_remains; |
579b006f JZ |
1290 | } |
1291 | ||
1292 | if (actual_length > 0) | |
1293 | { | |
1294 | // data still fits in buf? | |
1295 | if (tc->offset + actual_length <= tc->size) | |
1296 | { | |
1297 | memcpy (tc->buf + tc->offset, ftdi->readbuffer + ftdi->readbuffer_offset, actual_length); | |
1298 | //printf("buf[0] = %X, buf[1] = %X\n", buf[0], buf[1]); | |
1299 | tc->offset += actual_length; | |
1300 | ||
1301 | ftdi->readbuffer_offset = 0; | |
1302 | ftdi->readbuffer_remaining = 0; | |
1303 | ||
1304 | /* Did we read exactly the right amount of bytes? */ | |
1305 | if (tc->offset == tc->size) | |
1306 | { | |
1307 | //printf("read_data exact rem %d offset %d\n", | |
1308 | //ftdi->readbuffer_remaining, offset); | |
1309 | tc->completed = 1; | |
1310 | return; | |
1311 | } | |
1312 | } | |
1313 | else | |
1314 | { | |
1315 | // only copy part of the data or size <= readbuffer_chunksize | |
1316 | int part_size = tc->size - tc->offset; | |
1317 | memcpy (tc->buf + tc->offset, ftdi->readbuffer + ftdi->readbuffer_offset, part_size); | |
1318 | tc->offset += part_size; | |
1319 | ||
1320 | ftdi->readbuffer_offset += part_size; | |
1321 | ftdi->readbuffer_remaining = actual_length - part_size; | |
1322 | ||
1323 | /* printf("Returning part: %d - size: %d - offset: %d - actual_length: %d - remaining: %d\n", | |
1324 | part_size, size, offset, actual_length, ftdi->readbuffer_remaining); */ | |
1325 | tc->completed = 1; | |
1326 | return; | |
1327 | } | |
1328 | } | |
1329 | } | |
1330 | ret = libusb_submit_transfer (transfer); | |
1331 | if (ret < 0) | |
1332 | tc->completed = 1; | |
1333 | } | |
1334 | ||
1335 | ||
1336 | static void ftdi_write_data_cb(struct libusb_transfer *transfer) | |
7cc9950e | 1337 | { |
579b006f JZ |
1338 | struct ftdi_transfer_control *tc = (struct ftdi_transfer_control *) transfer->user_data; |
1339 | struct ftdi_context *ftdi = tc->ftdi; | |
56ac0383 | 1340 | |
90ef163e | 1341 | tc->offset += transfer->actual_length; |
56ac0383 | 1342 | |
579b006f | 1343 | if (tc->offset == tc->size) |
22d12cda | 1344 | { |
579b006f | 1345 | tc->completed = 1; |
7cc9950e | 1346 | } |
579b006f JZ |
1347 | else |
1348 | { | |
1349 | int write_size = ftdi->writebuffer_chunksize; | |
1350 | int ret; | |
7cc9950e | 1351 | |
579b006f JZ |
1352 | if (tc->offset + write_size > tc->size) |
1353 | write_size = tc->size - tc->offset; | |
1354 | ||
1355 | transfer->length = write_size; | |
1356 | transfer->buffer = tc->buf + tc->offset; | |
1357 | ret = libusb_submit_transfer (transfer); | |
1358 | if (ret < 0) | |
1359 | tc->completed = 1; | |
1360 | } | |
7cc9950e GE |
1361 | } |
1362 | ||
579b006f | 1363 | |
84f85aaa | 1364 | /** |
579b006f JZ |
1365 | Writes data to the chip. Does not wait for completion of the transfer |
1366 | nor does it make sure that the transfer was successful. | |
1367 | ||
249888c8 | 1368 | Use libusb 1.0 asynchronous API. |
84f85aaa GE |
1369 | |
1370 | \param ftdi pointer to ftdi_context | |
579b006f JZ |
1371 | \param buf Buffer with the data |
1372 | \param size Size of the buffer | |
84f85aaa | 1373 | |
579b006f JZ |
1374 | \retval NULL: Some error happens when submit transfer |
1375 | \retval !NULL: Pointer to a ftdi_transfer_control | |
c201f80f | 1376 | */ |
579b006f JZ |
1377 | |
1378 | struct ftdi_transfer_control *ftdi_write_data_submit(struct ftdi_context *ftdi, unsigned char *buf, int size) | |
7cc9950e | 1379 | { |
579b006f | 1380 | struct ftdi_transfer_control *tc; |
5e77e870 | 1381 | struct libusb_transfer *transfer; |
579b006f | 1382 | int write_size, ret; |
22d12cda | 1383 | |
22a1b5c1 | 1384 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
22a1b5c1 | 1385 | return NULL; |
22a1b5c1 | 1386 | |
579b006f | 1387 | tc = (struct ftdi_transfer_control *) malloc (sizeof (*tc)); |
5e77e870 TJ |
1388 | if (!tc) |
1389 | return NULL; | |
22d12cda | 1390 | |
5e77e870 TJ |
1391 | transfer = libusb_alloc_transfer(0); |
1392 | if (!transfer) | |
1393 | { | |
1394 | free(tc); | |
579b006f | 1395 | return NULL; |
5e77e870 | 1396 | } |
22d12cda | 1397 | |
579b006f JZ |
1398 | tc->ftdi = ftdi; |
1399 | tc->completed = 0; | |
1400 | tc->buf = buf; | |
1401 | tc->size = size; | |
1402 | tc->offset = 0; | |
7cc9950e | 1403 | |
579b006f | 1404 | if (size < ftdi->writebuffer_chunksize) |
56ac0383 | 1405 | write_size = size; |
579b006f | 1406 | else |
56ac0383 | 1407 | write_size = ftdi->writebuffer_chunksize; |
22d12cda | 1408 | |
90ef163e YSL |
1409 | libusb_fill_bulk_transfer(transfer, ftdi->usb_dev, ftdi->in_ep, buf, |
1410 | write_size, ftdi_write_data_cb, tc, | |
1411 | ftdi->usb_write_timeout); | |
579b006f | 1412 | transfer->type = LIBUSB_TRANSFER_TYPE_BULK; |
7cc9950e | 1413 | |
579b006f JZ |
1414 | ret = libusb_submit_transfer(transfer); |
1415 | if (ret < 0) | |
1416 | { | |
1417 | libusb_free_transfer(transfer); | |
5e77e870 | 1418 | free(tc); |
579b006f | 1419 | return NULL; |
7cc9950e | 1420 | } |
579b006f JZ |
1421 | tc->transfer = transfer; |
1422 | ||
1423 | return tc; | |
7cc9950e GE |
1424 | } |
1425 | ||
1426 | /** | |
579b006f JZ |
1427 | Reads data from the chip. Does not wait for completion of the transfer |
1428 | nor does it make sure that the transfer was successful. | |
1429 | ||
249888c8 | 1430 | Use libusb 1.0 asynchronous API. |
7cc9950e GE |
1431 | |
1432 | \param ftdi pointer to ftdi_context | |
579b006f JZ |
1433 | \param buf Buffer with the data |
1434 | \param size Size of the buffer | |
4c9e3812 | 1435 | |
579b006f JZ |
1436 | \retval NULL: Some error happens when submit transfer |
1437 | \retval !NULL: Pointer to a ftdi_transfer_control | |
4c9e3812 | 1438 | */ |
579b006f JZ |
1439 | |
1440 | struct ftdi_transfer_control *ftdi_read_data_submit(struct ftdi_context *ftdi, unsigned char *buf, int size) | |
4c9e3812 | 1441 | { |
579b006f JZ |
1442 | struct ftdi_transfer_control *tc; |
1443 | struct libusb_transfer *transfer; | |
1444 | int ret; | |
22d12cda | 1445 | |
22a1b5c1 TJ |
1446 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1447 | return NULL; | |
1448 | ||
579b006f JZ |
1449 | tc = (struct ftdi_transfer_control *) malloc (sizeof (*tc)); |
1450 | if (!tc) | |
1451 | return NULL; | |
1452 | ||
1453 | tc->ftdi = ftdi; | |
1454 | tc->buf = buf; | |
1455 | tc->size = size; | |
1456 | ||
1457 | if (size <= ftdi->readbuffer_remaining) | |
7cc9950e | 1458 | { |
579b006f | 1459 | memcpy (buf, ftdi->readbuffer+ftdi->readbuffer_offset, size); |
7cc9950e | 1460 | |
579b006f JZ |
1461 | // Fix offsets |
1462 | ftdi->readbuffer_remaining -= size; | |
1463 | ftdi->readbuffer_offset += size; | |
7cc9950e | 1464 | |
579b006f | 1465 | /* printf("Returning bytes from buffer: %d - remaining: %d\n", size, ftdi->readbuffer_remaining); */ |
22d12cda | 1466 | |
579b006f JZ |
1467 | tc->completed = 1; |
1468 | tc->offset = size; | |
1469 | tc->transfer = NULL; | |
1470 | return tc; | |
1471 | } | |
4c9e3812 | 1472 | |
579b006f JZ |
1473 | tc->completed = 0; |
1474 | if (ftdi->readbuffer_remaining != 0) | |
1475 | { | |
1476 | memcpy (buf, ftdi->readbuffer+ftdi->readbuffer_offset, ftdi->readbuffer_remaining); | |
22d12cda | 1477 | |
579b006f JZ |
1478 | tc->offset = ftdi->readbuffer_remaining; |
1479 | } | |
1480 | else | |
1481 | tc->offset = 0; | |
22d12cda | 1482 | |
579b006f JZ |
1483 | transfer = libusb_alloc_transfer(0); |
1484 | if (!transfer) | |
1485 | { | |
1486 | free (tc); | |
1487 | return NULL; | |
1488 | } | |
22d12cda | 1489 | |
579b006f JZ |
1490 | ftdi->readbuffer_remaining = 0; |
1491 | ftdi->readbuffer_offset = 0; | |
1492 | ||
1493 | libusb_fill_bulk_transfer(transfer, ftdi->usb_dev, ftdi->out_ep, ftdi->readbuffer, ftdi->readbuffer_chunksize, ftdi_read_data_cb, tc, ftdi->usb_read_timeout); | |
1494 | transfer->type = LIBUSB_TRANSFER_TYPE_BULK; | |
1495 | ||
1496 | ret = libusb_submit_transfer(transfer); | |
1497 | if (ret < 0) | |
1498 | { | |
1499 | libusb_free_transfer(transfer); | |
1500 | free (tc); | |
1501 | return NULL; | |
22d12cda | 1502 | } |
579b006f JZ |
1503 | tc->transfer = transfer; |
1504 | ||
1505 | return tc; | |
4c9e3812 GE |
1506 | } |
1507 | ||
1508 | /** | |
579b006f | 1509 | Wait for completion of the transfer. |
4c9e3812 | 1510 | |
249888c8 | 1511 | Use libusb 1.0 asynchronous API. |
4c9e3812 | 1512 | |
579b006f | 1513 | \param tc pointer to ftdi_transfer_control |
4c9e3812 | 1514 | |
579b006f JZ |
1515 | \retval < 0: Some error happens |
1516 | \retval >= 0: Data size transferred | |
4c9e3812 | 1517 | */ |
579b006f JZ |
1518 | |
1519 | int ftdi_transfer_data_done(struct ftdi_transfer_control *tc) | |
4c9e3812 GE |
1520 | { |
1521 | int ret; | |
4c9e3812 | 1522 | |
579b006f | 1523 | while (!tc->completed) |
22d12cda | 1524 | { |
29b1dfd9 | 1525 | ret = libusb_handle_events(tc->ftdi->usb_ctx); |
4c9e3812 | 1526 | if (ret < 0) |
579b006f JZ |
1527 | { |
1528 | if (ret == LIBUSB_ERROR_INTERRUPTED) | |
1529 | continue; | |
1530 | libusb_cancel_transfer(tc->transfer); | |
1531 | while (!tc->completed) | |
29b1dfd9 | 1532 | if (libusb_handle_events(tc->ftdi->usb_ctx) < 0) |
579b006f JZ |
1533 | break; |
1534 | libusb_free_transfer(tc->transfer); | |
1535 | free (tc); | |
579b006f JZ |
1536 | return ret; |
1537 | } | |
4c9e3812 GE |
1538 | } |
1539 | ||
90ef163e YSL |
1540 | ret = tc->offset; |
1541 | /** | |
1542 | * tc->transfer could be NULL if "(size <= ftdi->readbuffer_remaining)" | |
ef15fab5 | 1543 | * at ftdi_read_data_submit(). Therefore, we need to check it here. |
90ef163e | 1544 | **/ |
ef15fab5 TJ |
1545 | if (tc->transfer) |
1546 | { | |
1547 | if (tc->transfer->status != LIBUSB_TRANSFER_COMPLETED) | |
1548 | ret = -1; | |
1549 | libusb_free_transfer(tc->transfer); | |
90ef163e | 1550 | } |
579b006f JZ |
1551 | free(tc); |
1552 | return ret; | |
4c9e3812 | 1553 | } |
579b006f | 1554 | |
1941414d TJ |
1555 | /** |
1556 | Configure write buffer chunk size. | |
1557 | Default is 4096. | |
1558 | ||
1559 | \param ftdi pointer to ftdi_context | |
1560 | \param chunksize Chunk size | |
a3da1d95 | 1561 | |
1941414d | 1562 | \retval 0: all fine |
22a1b5c1 | 1563 | \retval -1: ftdi context invalid |
1941414d | 1564 | */ |
a8f46ddc TJ |
1565 | int ftdi_write_data_set_chunksize(struct ftdi_context *ftdi, unsigned int chunksize) |
1566 | { | |
22a1b5c1 TJ |
1567 | if (ftdi == NULL) |
1568 | ftdi_error_return(-1, "ftdi context invalid"); | |
1569 | ||
948f9ada TJ |
1570 | ftdi->writebuffer_chunksize = chunksize; |
1571 | return 0; | |
1572 | } | |
1573 | ||
1941414d TJ |
1574 | /** |
1575 | Get write buffer chunk size. | |
1576 | ||
1577 | \param ftdi pointer to ftdi_context | |
1578 | \param chunksize Pointer to store chunk size in | |
948f9ada | 1579 | |
1941414d | 1580 | \retval 0: all fine |
22a1b5c1 | 1581 | \retval -1: ftdi context invalid |
1941414d | 1582 | */ |
a8f46ddc TJ |
1583 | int ftdi_write_data_get_chunksize(struct ftdi_context *ftdi, unsigned int *chunksize) |
1584 | { | |
22a1b5c1 TJ |
1585 | if (ftdi == NULL) |
1586 | ftdi_error_return(-1, "ftdi context invalid"); | |
1587 | ||
948f9ada TJ |
1588 | *chunksize = ftdi->writebuffer_chunksize; |
1589 | return 0; | |
1590 | } | |
cbabb7d3 | 1591 | |
1941414d TJ |
1592 | /** |
1593 | Reads data in chunks (see ftdi_read_data_set_chunksize()) from the chip. | |
1594 | ||
1595 | Automatically strips the two modem status bytes transfered during every read. | |
948f9ada | 1596 | |
1941414d TJ |
1597 | \param ftdi pointer to ftdi_context |
1598 | \param buf Buffer to store data in | |
1599 | \param size Size of the buffer | |
1600 | ||
22a1b5c1 | 1601 | \retval -666: USB device unavailable |
579b006f | 1602 | \retval <0: error code from libusb_bulk_transfer() |
d77b0e94 | 1603 | \retval 0: no data was available |
1941414d TJ |
1604 | \retval >0: number of bytes read |
1605 | ||
1941414d | 1606 | */ |
a8f46ddc TJ |
1607 | int ftdi_read_data(struct ftdi_context *ftdi, unsigned char *buf, int size) |
1608 | { | |
579b006f | 1609 | int offset = 0, ret, i, num_of_chunks, chunk_remains; |
e2f12a4f | 1610 | int packet_size = ftdi->max_packet_size; |
579b006f | 1611 | int actual_length = 1; |
f2f00cb5 | 1612 | |
22a1b5c1 TJ |
1613 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1614 | ftdi_error_return(-666, "USB device unavailable"); | |
1615 | ||
e2f12a4f TJ |
1616 | // Packet size sanity check (avoid division by zero) |
1617 | if (packet_size == 0) | |
1618 | ftdi_error_return(-1, "max_packet_size is bogus (zero)"); | |
d9f0cce7 | 1619 | |
948f9ada | 1620 | // everything we want is still in the readbuffer? |
22d12cda TJ |
1621 | if (size <= ftdi->readbuffer_remaining) |
1622 | { | |
d9f0cce7 TJ |
1623 | memcpy (buf, ftdi->readbuffer+ftdi->readbuffer_offset, size); |
1624 | ||
1625 | // Fix offsets | |
1626 | ftdi->readbuffer_remaining -= size; | |
1627 | ftdi->readbuffer_offset += size; | |
1628 | ||
545820ce | 1629 | /* printf("Returning bytes from buffer: %d - remaining: %d\n", size, ftdi->readbuffer_remaining); */ |
d9f0cce7 TJ |
1630 | |
1631 | return size; | |
979a145c | 1632 | } |
948f9ada | 1633 | // something still in the readbuffer, but not enough to satisfy 'size'? |
22d12cda TJ |
1634 | if (ftdi->readbuffer_remaining != 0) |
1635 | { | |
d9f0cce7 | 1636 | memcpy (buf, ftdi->readbuffer+ftdi->readbuffer_offset, ftdi->readbuffer_remaining); |
979a145c | 1637 | |
d9f0cce7 TJ |
1638 | // Fix offset |
1639 | offset += ftdi->readbuffer_remaining; | |
948f9ada | 1640 | } |
948f9ada | 1641 | // do the actual USB read |
579b006f | 1642 | while (offset < size && actual_length > 0) |
22d12cda | 1643 | { |
d9f0cce7 TJ |
1644 | ftdi->readbuffer_remaining = 0; |
1645 | ftdi->readbuffer_offset = 0; | |
98452d97 | 1646 | /* returns how much received */ |
579b006f | 1647 | ret = libusb_bulk_transfer (ftdi->usb_dev, ftdi->out_ep, ftdi->readbuffer, ftdi->readbuffer_chunksize, &actual_length, ftdi->usb_read_timeout); |
c3d95b87 TJ |
1648 | if (ret < 0) |
1649 | ftdi_error_return(ret, "usb bulk read failed"); | |
98452d97 | 1650 | |
579b006f | 1651 | if (actual_length > 2) |
22d12cda | 1652 | { |
d9f0cce7 TJ |
1653 | // skip FTDI status bytes. |
1654 | // Maybe stored in the future to enable modem use | |
579b006f JZ |
1655 | num_of_chunks = actual_length / packet_size; |
1656 | chunk_remains = actual_length % packet_size; | |
1657 | //printf("actual_length = %X, num_of_chunks = %X, chunk_remains = %X, readbuffer_offset = %X\n", actual_length, num_of_chunks, chunk_remains, ftdi->readbuffer_offset); | |
1c733d33 | 1658 | |
d9f0cce7 | 1659 | ftdi->readbuffer_offset += 2; |
579b006f | 1660 | actual_length -= 2; |
1c733d33 | 1661 | |
579b006f | 1662 | if (actual_length > packet_size - 2) |
22d12cda | 1663 | { |
1c733d33 | 1664 | for (i = 1; i < num_of_chunks; i++) |
f2f00cb5 DC |
1665 | memmove (ftdi->readbuffer+ftdi->readbuffer_offset+(packet_size - 2)*i, |
1666 | ftdi->readbuffer+ftdi->readbuffer_offset+packet_size*i, | |
1667 | packet_size - 2); | |
22d12cda TJ |
1668 | if (chunk_remains > 2) |
1669 | { | |
f2f00cb5 DC |
1670 | memmove (ftdi->readbuffer+ftdi->readbuffer_offset+(packet_size - 2)*i, |
1671 | ftdi->readbuffer+ftdi->readbuffer_offset+packet_size*i, | |
1c733d33 | 1672 | chunk_remains-2); |
579b006f | 1673 | actual_length -= 2*num_of_chunks; |
22d12cda TJ |
1674 | } |
1675 | else | |
579b006f | 1676 | actual_length -= 2*(num_of_chunks-1)+chunk_remains; |
1c733d33 | 1677 | } |
22d12cda | 1678 | } |
579b006f | 1679 | else if (actual_length <= 2) |
22d12cda | 1680 | { |
d9f0cce7 TJ |
1681 | // no more data to read? |
1682 | return offset; | |
1683 | } | |
579b006f | 1684 | if (actual_length > 0) |
22d12cda | 1685 | { |
d9f0cce7 | 1686 | // data still fits in buf? |
579b006f | 1687 | if (offset+actual_length <= size) |
22d12cda | 1688 | { |
579b006f | 1689 | memcpy (buf+offset, ftdi->readbuffer+ftdi->readbuffer_offset, actual_length); |
545820ce | 1690 | //printf("buf[0] = %X, buf[1] = %X\n", buf[0], buf[1]); |
579b006f | 1691 | offset += actual_length; |
d9f0cce7 | 1692 | |
53ad271d | 1693 | /* Did we read exactly the right amount of bytes? */ |
d9f0cce7 | 1694 | if (offset == size) |
c4446c36 TJ |
1695 | //printf("read_data exact rem %d offset %d\n", |
1696 | //ftdi->readbuffer_remaining, offset); | |
d9f0cce7 | 1697 | return offset; |
22d12cda TJ |
1698 | } |
1699 | else | |
1700 | { | |
d9f0cce7 TJ |
1701 | // only copy part of the data or size <= readbuffer_chunksize |
1702 | int part_size = size-offset; | |
1703 | memcpy (buf+offset, ftdi->readbuffer+ftdi->readbuffer_offset, part_size); | |
98452d97 | 1704 | |
d9f0cce7 | 1705 | ftdi->readbuffer_offset += part_size; |
579b006f | 1706 | ftdi->readbuffer_remaining = actual_length-part_size; |
d9f0cce7 TJ |
1707 | offset += part_size; |
1708 | ||
579b006f JZ |
1709 | /* printf("Returning part: %d - size: %d - offset: %d - actual_length: %d - remaining: %d\n", |
1710 | part_size, size, offset, actual_length, ftdi->readbuffer_remaining); */ | |
d9f0cce7 TJ |
1711 | |
1712 | return offset; | |
1713 | } | |
1714 | } | |
cbabb7d3 | 1715 | } |
948f9ada | 1716 | // never reached |
29c4af7f | 1717 | return -127; |
a3da1d95 GE |
1718 | } |
1719 | ||
1941414d TJ |
1720 | /** |
1721 | Configure read buffer chunk size. | |
1722 | Default is 4096. | |
1723 | ||
1724 | Automatically reallocates the buffer. | |
a3da1d95 | 1725 | |
1941414d TJ |
1726 | \param ftdi pointer to ftdi_context |
1727 | \param chunksize Chunk size | |
1728 | ||
1729 | \retval 0: all fine | |
22a1b5c1 | 1730 | \retval -1: ftdi context invalid |
1941414d | 1731 | */ |
a8f46ddc TJ |
1732 | int ftdi_read_data_set_chunksize(struct ftdi_context *ftdi, unsigned int chunksize) |
1733 | { | |
29c4af7f TJ |
1734 | unsigned char *new_buf; |
1735 | ||
22a1b5c1 TJ |
1736 | if (ftdi == NULL) |
1737 | ftdi_error_return(-1, "ftdi context invalid"); | |
1738 | ||
948f9ada TJ |
1739 | // Invalidate all remaining data |
1740 | ftdi->readbuffer_offset = 0; | |
1741 | ftdi->readbuffer_remaining = 0; | |
8de6eea4 JZ |
1742 | #ifdef __linux__ |
1743 | /* We can't set readbuffer_chunksize larger than MAX_BULK_BUFFER_LENGTH, | |
1744 | which is defined in libusb-1.0. Otherwise, each USB read request will | |
2e685a1f | 1745 | be divided into multiple URBs. This will cause issues on Linux kernel |
8de6eea4 JZ |
1746 | older than 2.6.32. */ |
1747 | if (chunksize > 16384) | |
1748 | chunksize = 16384; | |
1749 | #endif | |
948f9ada | 1750 | |
c3d95b87 TJ |
1751 | if ((new_buf = (unsigned char *)realloc(ftdi->readbuffer, chunksize)) == NULL) |
1752 | ftdi_error_return(-1, "out of memory for readbuffer"); | |
d9f0cce7 | 1753 | |
948f9ada TJ |
1754 | ftdi->readbuffer = new_buf; |
1755 | ftdi->readbuffer_chunksize = chunksize; | |
1756 | ||
1757 | return 0; | |
1758 | } | |
1759 | ||
1941414d TJ |
1760 | /** |
1761 | Get read buffer chunk size. | |
948f9ada | 1762 | |
1941414d TJ |
1763 | \param ftdi pointer to ftdi_context |
1764 | \param chunksize Pointer to store chunk size in | |
1765 | ||
1766 | \retval 0: all fine | |
22a1b5c1 | 1767 | \retval -1: FTDI context invalid |
1941414d | 1768 | */ |
a8f46ddc TJ |
1769 | int ftdi_read_data_get_chunksize(struct ftdi_context *ftdi, unsigned int *chunksize) |
1770 | { | |
22a1b5c1 TJ |
1771 | if (ftdi == NULL) |
1772 | ftdi_error_return(-1, "FTDI context invalid"); | |
1773 | ||
948f9ada TJ |
1774 | *chunksize = ftdi->readbuffer_chunksize; |
1775 | return 0; | |
1776 | } | |
1777 | ||
1778 | ||
1941414d TJ |
1779 | /** |
1780 | Enable bitbang mode. | |
948f9ada | 1781 | |
fd282db3 | 1782 | \deprecated use \ref ftdi_set_bitmode with mode BITMODE_BITBANG instead |
1941414d TJ |
1783 | |
1784 | \param ftdi pointer to ftdi_context | |
1785 | \param bitmask Bitmask to configure lines. | |
1786 | HIGH/ON value configures a line as output. | |
1787 | ||
1788 | \retval 0: all fine | |
1789 | \retval -1: can't enable bitbang mode | |
22a1b5c1 | 1790 | \retval -2: USB device unavailable |
1941414d | 1791 | */ |
a8f46ddc TJ |
1792 | int ftdi_enable_bitbang(struct ftdi_context *ftdi, unsigned char bitmask) |
1793 | { | |
a3da1d95 GE |
1794 | unsigned short usb_val; |
1795 | ||
22a1b5c1 TJ |
1796 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1797 | ftdi_error_return(-2, "USB device unavailable"); | |
1798 | ||
d9f0cce7 | 1799 | usb_val = bitmask; // low byte: bitmask |
3119537f TJ |
1800 | /* FT2232C: Set bitbang_mode to 2 to enable SPI */ |
1801 | usb_val |= (ftdi->bitbang_mode << 8); | |
1802 | ||
579b006f JZ |
1803 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
1804 | SIO_SET_BITMODE_REQUEST, usb_val, ftdi->index, | |
1805 | NULL, 0, ftdi->usb_write_timeout) < 0) | |
c3d95b87 TJ |
1806 | ftdi_error_return(-1, "unable to enter bitbang mode. Perhaps not a BM type chip?"); |
1807 | ||
a3da1d95 GE |
1808 | ftdi->bitbang_enabled = 1; |
1809 | return 0; | |
1810 | } | |
1811 | ||
1941414d TJ |
1812 | /** |
1813 | Disable bitbang mode. | |
a3da1d95 | 1814 | |
1941414d TJ |
1815 | \param ftdi pointer to ftdi_context |
1816 | ||
1817 | \retval 0: all fine | |
1818 | \retval -1: can't disable bitbang mode | |
22a1b5c1 | 1819 | \retval -2: USB device unavailable |
1941414d | 1820 | */ |
a8f46ddc TJ |
1821 | int ftdi_disable_bitbang(struct ftdi_context *ftdi) |
1822 | { | |
22a1b5c1 TJ |
1823 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1824 | ftdi_error_return(-2, "USB device unavailable"); | |
1825 | ||
579b006f | 1826 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, SIO_SET_BITMODE_REQUEST, 0, ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) |
c3d95b87 | 1827 | ftdi_error_return(-1, "unable to leave bitbang mode. Perhaps not a BM type chip?"); |
a3da1d95 GE |
1828 | |
1829 | ftdi->bitbang_enabled = 0; | |
1830 | return 0; | |
1831 | } | |
1832 | ||
1941414d | 1833 | /** |
418aaa72 | 1834 | Enable/disable bitbang modes. |
a3da1d95 | 1835 | |
1941414d TJ |
1836 | \param ftdi pointer to ftdi_context |
1837 | \param bitmask Bitmask to configure lines. | |
1838 | HIGH/ON value configures a line as output. | |
fd282db3 | 1839 | \param mode Bitbang mode: use the values defined in \ref ftdi_mpsse_mode |
1941414d TJ |
1840 | |
1841 | \retval 0: all fine | |
1842 | \retval -1: can't enable bitbang mode | |
22a1b5c1 | 1843 | \retval -2: USB device unavailable |
1941414d | 1844 | */ |
c4446c36 TJ |
1845 | int ftdi_set_bitmode(struct ftdi_context *ftdi, unsigned char bitmask, unsigned char mode) |
1846 | { | |
1847 | unsigned short usb_val; | |
1848 | ||
22a1b5c1 TJ |
1849 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1850 | ftdi_error_return(-2, "USB device unavailable"); | |
1851 | ||
c4446c36 TJ |
1852 | usb_val = bitmask; // low byte: bitmask |
1853 | usb_val |= (mode << 8); | |
579b006f JZ |
1854 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, SIO_SET_BITMODE_REQUEST, usb_val, ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) |
1855 | ftdi_error_return(-1, "unable to configure bitbang mode. Perhaps not a 2232C type chip?"); | |
c4446c36 TJ |
1856 | |
1857 | ftdi->bitbang_mode = mode; | |
418aaa72 | 1858 | ftdi->bitbang_enabled = (mode == BITMODE_RESET) ? 0 : 1; |
c4446c36 TJ |
1859 | return 0; |
1860 | } | |
1861 | ||
1941414d | 1862 | /** |
418aaa72 | 1863 | Directly read pin state, circumventing the read buffer. Useful for bitbang mode. |
1941414d TJ |
1864 | |
1865 | \param ftdi pointer to ftdi_context | |
1866 | \param pins Pointer to store pins into | |
1867 | ||
1868 | \retval 0: all fine | |
1869 | \retval -1: read pins failed | |
22a1b5c1 | 1870 | \retval -2: USB device unavailable |
1941414d | 1871 | */ |
a8f46ddc TJ |
1872 | int ftdi_read_pins(struct ftdi_context *ftdi, unsigned char *pins) |
1873 | { | |
22a1b5c1 TJ |
1874 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1875 | ftdi_error_return(-2, "USB device unavailable"); | |
1876 | ||
579b006f | 1877 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_IN_REQTYPE, SIO_READ_PINS_REQUEST, 0, ftdi->index, (unsigned char *)pins, 1, ftdi->usb_read_timeout) != 1) |
c3d95b87 | 1878 | ftdi_error_return(-1, "read pins failed"); |
a3da1d95 | 1879 | |
a3da1d95 GE |
1880 | return 0; |
1881 | } | |
1882 | ||
1941414d TJ |
1883 | /** |
1884 | Set latency timer | |
1885 | ||
1886 | The FTDI chip keeps data in the internal buffer for a specific | |
1887 | amount of time if the buffer is not full yet to decrease | |
1888 | load on the usb bus. | |
a3da1d95 | 1889 | |
1941414d TJ |
1890 | \param ftdi pointer to ftdi_context |
1891 | \param latency Value between 1 and 255 | |
1892 | ||
1893 | \retval 0: all fine | |
1894 | \retval -1: latency out of range | |
1895 | \retval -2: unable to set latency timer | |
22a1b5c1 | 1896 | \retval -3: USB device unavailable |
1941414d | 1897 | */ |
a8f46ddc TJ |
1898 | int ftdi_set_latency_timer(struct ftdi_context *ftdi, unsigned char latency) |
1899 | { | |
a3da1d95 GE |
1900 | unsigned short usb_val; |
1901 | ||
c3d95b87 TJ |
1902 | if (latency < 1) |
1903 | ftdi_error_return(-1, "latency out of range. Only valid for 1-255"); | |
a3da1d95 | 1904 | |
22a1b5c1 TJ |
1905 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1906 | ftdi_error_return(-3, "USB device unavailable"); | |
1907 | ||
d79d2e68 | 1908 | usb_val = latency; |
579b006f | 1909 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, SIO_SET_LATENCY_TIMER_REQUEST, usb_val, ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) |
c3d95b87 TJ |
1910 | ftdi_error_return(-2, "unable to set latency timer"); |
1911 | ||
a3da1d95 GE |
1912 | return 0; |
1913 | } | |
1914 | ||
1941414d TJ |
1915 | /** |
1916 | Get latency timer | |
a3da1d95 | 1917 | |
1941414d TJ |
1918 | \param ftdi pointer to ftdi_context |
1919 | \param latency Pointer to store latency value in | |
1920 | ||
1921 | \retval 0: all fine | |
1922 | \retval -1: unable to get latency timer | |
22a1b5c1 | 1923 | \retval -2: USB device unavailable |
1941414d | 1924 | */ |
a8f46ddc TJ |
1925 | int ftdi_get_latency_timer(struct ftdi_context *ftdi, unsigned char *latency) |
1926 | { | |
a3da1d95 | 1927 | unsigned short usb_val; |
22a1b5c1 TJ |
1928 | |
1929 | if (ftdi == NULL || ftdi->usb_dev == NULL) | |
1930 | ftdi_error_return(-2, "USB device unavailable"); | |
1931 | ||
579b006f | 1932 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_IN_REQTYPE, SIO_GET_LATENCY_TIMER_REQUEST, 0, ftdi->index, (unsigned char *)&usb_val, 1, ftdi->usb_read_timeout) != 1) |
c3d95b87 | 1933 | ftdi_error_return(-1, "reading latency timer failed"); |
a3da1d95 GE |
1934 | |
1935 | *latency = (unsigned char)usb_val; | |
1936 | return 0; | |
1937 | } | |
1938 | ||
1941414d | 1939 | /** |
1189b11a TJ |
1940 | Poll modem status information |
1941 | ||
1942 | This function allows the retrieve the two status bytes of the device. | |
1943 | The device sends these bytes also as a header for each read access | |
1944 | where they are discarded by ftdi_read_data(). The chip generates | |
1945 | the two stripped status bytes in the absence of data every 40 ms. | |
1946 | ||
1947 | Layout of the first byte: | |
1948 | - B0..B3 - must be 0 | |
1949 | - B4 Clear to send (CTS) | |
1950 | 0 = inactive | |
1951 | 1 = active | |
1952 | - B5 Data set ready (DTS) | |
1953 | 0 = inactive | |
1954 | 1 = active | |
1955 | - B6 Ring indicator (RI) | |
1956 | 0 = inactive | |
1957 | 1 = active | |
1958 | - B7 Receive line signal detect (RLSD) | |
1959 | 0 = inactive | |
1960 | 1 = active | |
1961 | ||
1962 | Layout of the second byte: | |
1963 | - B0 Data ready (DR) | |
1964 | - B1 Overrun error (OE) | |
1965 | - B2 Parity error (PE) | |
1966 | - B3 Framing error (FE) | |
1967 | - B4 Break interrupt (BI) | |
1968 | - B5 Transmitter holding register (THRE) | |
1969 | - B6 Transmitter empty (TEMT) | |
1970 | - B7 Error in RCVR FIFO | |
1971 | ||
1972 | \param ftdi pointer to ftdi_context | |
1973 | \param status Pointer to store status information in. Must be two bytes. | |
1974 | ||
1975 | \retval 0: all fine | |
1976 | \retval -1: unable to retrieve status information | |
22a1b5c1 | 1977 | \retval -2: USB device unavailable |
1189b11a TJ |
1978 | */ |
1979 | int ftdi_poll_modem_status(struct ftdi_context *ftdi, unsigned short *status) | |
1980 | { | |
1981 | char usb_val[2]; | |
1982 | ||
22a1b5c1 TJ |
1983 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
1984 | ftdi_error_return(-2, "USB device unavailable"); | |
1985 | ||
579b006f | 1986 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_IN_REQTYPE, SIO_POLL_MODEM_STATUS_REQUEST, 0, ftdi->index, (unsigned char *)usb_val, 2, ftdi->usb_read_timeout) != 2) |
1189b11a TJ |
1987 | ftdi_error_return(-1, "getting modem status failed"); |
1988 | ||
dc09eaa8 | 1989 | *status = (usb_val[1] << 8) | (usb_val[0] & 0xFF); |
1189b11a TJ |
1990 | |
1991 | return 0; | |
1992 | } | |
1993 | ||
a7fb8440 TJ |
1994 | /** |
1995 | Set flowcontrol for ftdi chip | |
1996 | ||
1997 | \param ftdi pointer to ftdi_context | |
22d12cda TJ |
1998 | \param flowctrl flow control to use. should be |
1999 | SIO_DISABLE_FLOW_CTRL, SIO_RTS_CTS_HS, SIO_DTR_DSR_HS or SIO_XON_XOFF_HS | |
a7fb8440 TJ |
2000 | |
2001 | \retval 0: all fine | |
2002 | \retval -1: set flow control failed | |
22a1b5c1 | 2003 | \retval -2: USB device unavailable |
a7fb8440 TJ |
2004 | */ |
2005 | int ftdi_setflowctrl(struct ftdi_context *ftdi, int flowctrl) | |
2006 | { | |
22a1b5c1 TJ |
2007 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
2008 | ftdi_error_return(-2, "USB device unavailable"); | |
2009 | ||
579b006f JZ |
2010 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
2011 | SIO_SET_FLOW_CTRL_REQUEST, 0, (flowctrl | ftdi->index), | |
2012 | NULL, 0, ftdi->usb_write_timeout) < 0) | |
a7fb8440 TJ |
2013 | ftdi_error_return(-1, "set flow control failed"); |
2014 | ||
2015 | return 0; | |
2016 | } | |
2017 | ||
2018 | /** | |
2019 | Set dtr line | |
2020 | ||
2021 | \param ftdi pointer to ftdi_context | |
2022 | \param state state to set line to (1 or 0) | |
2023 | ||
2024 | \retval 0: all fine | |
2025 | \retval -1: set dtr failed | |
22a1b5c1 | 2026 | \retval -2: USB device unavailable |
a7fb8440 TJ |
2027 | */ |
2028 | int ftdi_setdtr(struct ftdi_context *ftdi, int state) | |
2029 | { | |
2030 | unsigned short usb_val; | |
2031 | ||
22a1b5c1 TJ |
2032 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
2033 | ftdi_error_return(-2, "USB device unavailable"); | |
2034 | ||
a7fb8440 TJ |
2035 | if (state) |
2036 | usb_val = SIO_SET_DTR_HIGH; | |
2037 | else | |
2038 | usb_val = SIO_SET_DTR_LOW; | |
2039 | ||
579b006f JZ |
2040 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
2041 | SIO_SET_MODEM_CTRL_REQUEST, usb_val, ftdi->index, | |
2042 | NULL, 0, ftdi->usb_write_timeout) < 0) | |
a7fb8440 TJ |
2043 | ftdi_error_return(-1, "set dtr failed"); |
2044 | ||
2045 | return 0; | |
2046 | } | |
2047 | ||
2048 | /** | |
2049 | Set rts line | |
2050 | ||
2051 | \param ftdi pointer to ftdi_context | |
2052 | \param state state to set line to (1 or 0) | |
2053 | ||
2054 | \retval 0: all fine | |
22a1b5c1 TJ |
2055 | \retval -1: set rts failed |
2056 | \retval -2: USB device unavailable | |
a7fb8440 TJ |
2057 | */ |
2058 | int ftdi_setrts(struct ftdi_context *ftdi, int state) | |
2059 | { | |
2060 | unsigned short usb_val; | |
2061 | ||
22a1b5c1 TJ |
2062 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
2063 | ftdi_error_return(-2, "USB device unavailable"); | |
2064 | ||
a7fb8440 TJ |
2065 | if (state) |
2066 | usb_val = SIO_SET_RTS_HIGH; | |
2067 | else | |
2068 | usb_val = SIO_SET_RTS_LOW; | |
2069 | ||
579b006f JZ |
2070 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
2071 | SIO_SET_MODEM_CTRL_REQUEST, usb_val, ftdi->index, | |
2072 | NULL, 0, ftdi->usb_write_timeout) < 0) | |
a7fb8440 TJ |
2073 | ftdi_error_return(-1, "set of rts failed"); |
2074 | ||
2075 | return 0; | |
2076 | } | |
2077 | ||
1189b11a | 2078 | /** |
22a1b5c1 | 2079 | Set dtr and rts line in one pass |
9ecfef2a | 2080 | |
22a1b5c1 TJ |
2081 | \param ftdi pointer to ftdi_context |
2082 | \param dtr DTR state to set line to (1 or 0) | |
2083 | \param rts RTS state to set line to (1 or 0) | |
9ecfef2a | 2084 | |
22a1b5c1 TJ |
2085 | \retval 0: all fine |
2086 | \retval -1: set dtr/rts failed | |
2087 | \retval -2: USB device unavailable | |
9ecfef2a TJ |
2088 | */ |
2089 | int ftdi_setdtr_rts(struct ftdi_context *ftdi, int dtr, int rts) | |
2090 | { | |
2091 | unsigned short usb_val; | |
2092 | ||
22a1b5c1 TJ |
2093 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
2094 | ftdi_error_return(-2, "USB device unavailable"); | |
2095 | ||
9ecfef2a | 2096 | if (dtr) |
22d12cda | 2097 | usb_val = SIO_SET_DTR_HIGH; |
9ecfef2a | 2098 | else |
22d12cda | 2099 | usb_val = SIO_SET_DTR_LOW; |
9ecfef2a TJ |
2100 | |
2101 | if (rts) | |
22d12cda | 2102 | usb_val |= SIO_SET_RTS_HIGH; |
9ecfef2a | 2103 | else |
22d12cda | 2104 | usb_val |= SIO_SET_RTS_LOW; |
9ecfef2a | 2105 | |
579b006f JZ |
2106 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
2107 | SIO_SET_MODEM_CTRL_REQUEST, usb_val, ftdi->index, | |
2108 | NULL, 0, ftdi->usb_write_timeout) < 0) | |
22d12cda | 2109 | ftdi_error_return(-1, "set of rts/dtr failed"); |
9ecfef2a TJ |
2110 | |
2111 | return 0; | |
2112 | } | |
2113 | ||
2114 | /** | |
1189b11a TJ |
2115 | Set the special event character |
2116 | ||
2117 | \param ftdi pointer to ftdi_context | |
2118 | \param eventch Event character | |
2119 | \param enable 0 to disable the event character, non-zero otherwise | |
2120 | ||
2121 | \retval 0: all fine | |
2122 | \retval -1: unable to set event character | |
22a1b5c1 | 2123 | \retval -2: USB device unavailable |
1189b11a TJ |
2124 | */ |
2125 | int ftdi_set_event_char(struct ftdi_context *ftdi, | |
22d12cda | 2126 | unsigned char eventch, unsigned char enable) |
1189b11a TJ |
2127 | { |
2128 | unsigned short usb_val; | |
2129 | ||
22a1b5c1 TJ |
2130 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
2131 | ftdi_error_return(-2, "USB device unavailable"); | |
2132 | ||
1189b11a TJ |
2133 | usb_val = eventch; |
2134 | if (enable) | |
2135 | usb_val |= 1 << 8; | |
2136 | ||
579b006f | 2137 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, SIO_SET_EVENT_CHAR_REQUEST, usb_val, ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) |
1189b11a TJ |
2138 | ftdi_error_return(-1, "setting event character failed"); |
2139 | ||
2140 | return 0; | |
2141 | } | |
2142 | ||
2143 | /** | |
2144 | Set error character | |
2145 | ||
2146 | \param ftdi pointer to ftdi_context | |
2147 | \param errorch Error character | |
2148 | \param enable 0 to disable the error character, non-zero otherwise | |
2149 | ||
2150 | \retval 0: all fine | |
2151 | \retval -1: unable to set error character | |
22a1b5c1 | 2152 | \retval -2: USB device unavailable |
1189b11a TJ |
2153 | */ |
2154 | int ftdi_set_error_char(struct ftdi_context *ftdi, | |
22d12cda | 2155 | unsigned char errorch, unsigned char enable) |
1189b11a TJ |
2156 | { |
2157 | unsigned short usb_val; | |
2158 | ||
22a1b5c1 TJ |
2159 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
2160 | ftdi_error_return(-2, "USB device unavailable"); | |
2161 | ||
1189b11a TJ |
2162 | usb_val = errorch; |
2163 | if (enable) | |
2164 | usb_val |= 1 << 8; | |
2165 | ||
579b006f | 2166 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, SIO_SET_ERROR_CHAR_REQUEST, usb_val, ftdi->index, NULL, 0, ftdi->usb_write_timeout) < 0) |
1189b11a TJ |
2167 | ftdi_error_return(-1, "setting error character failed"); |
2168 | ||
2169 | return 0; | |
2170 | } | |
2171 | ||
2172 | /** | |
1941414d | 2173 | Init eeprom with default values. |
a35aa9bd | 2174 | \param ftdi pointer to ftdi_context |
f14f84d3 UB |
2175 | \param manufacturer String to use as Manufacturer |
2176 | \param product String to use as Product description | |
2177 | \param serial String to use as Serial number description | |
4e74064b | 2178 | |
f14f84d3 UB |
2179 | \retval 0: all fine |
2180 | \retval -1: No struct ftdi_context | |
2181 | \retval -2: No struct ftdi_eeprom | |
1941414d | 2182 | */ |
f14f84d3 | 2183 | int ftdi_eeprom_initdefaults(struct ftdi_context *ftdi, char * manufacturer, |
56ac0383 | 2184 | char * product, char * serial) |
a8f46ddc | 2185 | { |
c0a96aed | 2186 | struct ftdi_eeprom *eeprom; |
f505134f | 2187 | |
c0a96aed | 2188 | if (ftdi == NULL) |
f14f84d3 | 2189 | ftdi_error_return(-1, "No struct ftdi_context"); |
c0a96aed UB |
2190 | |
2191 | if (ftdi->eeprom == NULL) | |
56ac0383 | 2192 | ftdi_error_return(-2,"No struct ftdi_eeprom"); |
22a1b5c1 | 2193 | |
c0a96aed | 2194 | eeprom = ftdi->eeprom; |
a02587d5 | 2195 | memset(eeprom, 0, sizeof(struct ftdi_eeprom)); |
c0a96aed | 2196 | |
f396dbad | 2197 | eeprom->vendor_id = 0x0403; |
a02587d5 | 2198 | eeprom->use_serial = USE_SERIAL_NUM; |
56ac0383 TJ |
2199 | if ((ftdi->type == TYPE_AM) || (ftdi->type == TYPE_BM) || |
2200 | (ftdi->type == TYPE_R)) | |
a02587d5 | 2201 | eeprom->product_id = 0x6001; |
c7e4c09e UB |
2202 | else if (ftdi->type == TYPE_4232H) |
2203 | eeprom->product_id = 0x6011; | |
2204 | else if (ftdi->type == TYPE_232H) | |
2205 | eeprom->product_id = 0x6014; | |
a02587d5 UB |
2206 | else |
2207 | eeprom->product_id = 0x6010; | |
b1859923 UB |
2208 | if (ftdi->type == TYPE_AM) |
2209 | eeprom->usb_version = 0x0101; | |
2210 | else | |
2211 | eeprom->usb_version = 0x0200; | |
a886436a | 2212 | eeprom->max_power = 100; |
d9f0cce7 | 2213 | |
74e8e79d UB |
2214 | if (eeprom->manufacturer) |
2215 | free (eeprom->manufacturer); | |
b8aa7b35 | 2216 | eeprom->manufacturer = NULL; |
74e8e79d UB |
2217 | if (manufacturer) |
2218 | { | |
2219 | eeprom->manufacturer = malloc(strlen(manufacturer)+1); | |
2220 | if (eeprom->manufacturer) | |
2221 | strcpy(eeprom->manufacturer, manufacturer); | |
2222 | } | |
2223 | ||
2224 | if (eeprom->product) | |
2225 | free (eeprom->product); | |
b8aa7b35 | 2226 | eeprom->product = NULL; |
10771971 | 2227 | if(product) |
74e8e79d UB |
2228 | { |
2229 | eeprom->product = malloc(strlen(product)+1); | |
2230 | if (eeprom->product) | |
2231 | strcpy(eeprom->product, product); | |
2232 | } | |
2233 | ||
2234 | if (eeprom->serial) | |
2235 | free (eeprom->serial); | |
b8aa7b35 | 2236 | eeprom->serial = NULL; |
74e8e79d UB |
2237 | if (serial) |
2238 | { | |
2239 | eeprom->serial = malloc(strlen(serial)+1); | |
2240 | if (eeprom->serial) | |
2241 | strcpy(eeprom->serial, serial); | |
2242 | } | |
2243 | ||
c201f80f | 2244 | |
56ac0383 | 2245 | if (ftdi->type == TYPE_R) |
a4980043 | 2246 | { |
a886436a | 2247 | eeprom->max_power = 90; |
a02587d5 | 2248 | eeprom->size = 0x80; |
a4980043 UB |
2249 | eeprom->cbus_function[0] = CBUS_TXLED; |
2250 | eeprom->cbus_function[1] = CBUS_RXLED; | |
2251 | eeprom->cbus_function[2] = CBUS_TXDEN; | |
2252 | eeprom->cbus_function[3] = CBUS_PWREN; | |
2253 | eeprom->cbus_function[4] = CBUS_SLEEP; | |
2254 | } | |
a02587d5 | 2255 | else |
263d3ba0 UB |
2256 | { |
2257 | if(ftdi->type == TYPE_232H) | |
2258 | { | |
2259 | int i; | |
2260 | for (i=0; i<10; i++) | |
2261 | eeprom->cbus_function[i] = CBUSH_TRISTATE; | |
2262 | } | |
a02587d5 | 2263 | eeprom->size = -1; |
263d3ba0 | 2264 | } |
f14f84d3 | 2265 | return 0; |
b8aa7b35 | 2266 | } |
263d3ba0 UB |
2267 | /*FTD2XX doesn't check for values not fitting in the ACBUS Signal oprtions*/ |
2268 | void set_ft232h_cbus(struct ftdi_eeprom *eeprom, unsigned char * output) | |
2269 | { | |
2270 | int i; | |
2271 | for(i=0; i<5;i++) | |
2272 | { | |
2273 | int mode_low, mode_high; | |
2274 | if (eeprom->cbus_function[2*i]> CBUSH_CLK7_5) | |
2275 | mode_low = CBUSH_TRISTATE; | |
2276 | else | |
2277 | mode_low = eeprom->cbus_function[2*i]; | |
2278 | if (eeprom->cbus_function[2*i+1]> CBUSH_CLK7_5) | |
2279 | mode_high = CBUSH_TRISTATE; | |
2280 | else | |
2281 | mode_high = eeprom->cbus_function[2*i]; | |
b8aa7b35 | 2282 | |
263d3ba0 UB |
2283 | output[0x18+i] = mode_high <<4 | mode_low; |
2284 | } | |
2285 | } | |
1941414d | 2286 | /** |
a35aa9bd | 2287 | Build binary buffer from ftdi_eeprom structure. |
22a1b5c1 | 2288 | Output is suitable for ftdi_write_eeprom(). |
b8aa7b35 | 2289 | |
a35aa9bd | 2290 | \param ftdi pointer to ftdi_context |
1941414d | 2291 | |
516ebfb1 | 2292 | \retval >=0: size of eeprom user area in bytes |
22a1b5c1 | 2293 | \retval -1: eeprom size (128 bytes) exceeded by custom strings |
2c1e2bde TJ |
2294 | \retval -2: Invalid eeprom or ftdi pointer |
2295 | \retval -3: Invalid cbus function setting (FIXME: Not in the code?) | |
2296 | \retval -4: Chip doesn't support invert (FIXME: Not in the code?) | |
2297 | \retval -5: Chip doesn't support high current drive (FIXME: Not in the code?) | |
2b9a3c82 | 2298 | \retval -6: No connected EEPROM or EEPROM Type unknown |
b8aa7b35 | 2299 | */ |
a35aa9bd | 2300 | int ftdi_eeprom_build(struct ftdi_context *ftdi) |
a8f46ddc | 2301 | { |
e2bbd9af | 2302 | unsigned char i, j, eeprom_size_mask; |
b8aa7b35 TJ |
2303 | unsigned short checksum, value; |
2304 | unsigned char manufacturer_size = 0, product_size = 0, serial_size = 0; | |
516ebfb1 | 2305 | int user_area_size; |
c0a96aed | 2306 | struct ftdi_eeprom *eeprom; |
a35aa9bd | 2307 | unsigned char * output; |
b8aa7b35 | 2308 | |
c0a96aed | 2309 | if (ftdi == NULL) |
cc9c9d58 | 2310 | ftdi_error_return(-2,"No context"); |
c0a96aed | 2311 | if (ftdi->eeprom == NULL) |
cc9c9d58 | 2312 | ftdi_error_return(-2,"No eeprom structure"); |
c0a96aed UB |
2313 | |
2314 | eeprom= ftdi->eeprom; | |
a35aa9bd | 2315 | output = eeprom->buf; |
22a1b5c1 | 2316 | |
56ac0383 | 2317 | if (eeprom->chip == -1) |
2c1e2bde | 2318 | ftdi_error_return(-6,"No connected EEPROM or EEPROM type unknown"); |
2b9a3c82 | 2319 | |
f75bf139 UB |
2320 | if ((eeprom->chip == 0x56) || (eeprom->chip == 0x66)) |
2321 | eeprom->size = 0x100; | |
2322 | else | |
2323 | eeprom->size = 0x80; | |
2324 | ||
b8aa7b35 | 2325 | if (eeprom->manufacturer != NULL) |
d9f0cce7 | 2326 | manufacturer_size = strlen(eeprom->manufacturer); |
b8aa7b35 | 2327 | if (eeprom->product != NULL) |
d9f0cce7 | 2328 | product_size = strlen(eeprom->product); |
b8aa7b35 | 2329 | if (eeprom->serial != NULL) |
d9f0cce7 | 2330 | serial_size = strlen(eeprom->serial); |
b8aa7b35 | 2331 | |
814710ba TJ |
2332 | // eeprom size check |
2333 | switch (ftdi->type) | |
2334 | { | |
2335 | case TYPE_AM: | |
2336 | case TYPE_BM: | |
2337 | user_area_size = 96; // base size for strings (total of 48 characters) | |
2338 | break; | |
2339 | case TYPE_2232C: | |
56ac0383 TJ |
2340 | user_area_size = 90; // two extra config bytes and 4 bytes PnP stuff |
2341 | break; | |
814710ba | 2342 | case TYPE_R: |
56ac0383 TJ |
2343 | user_area_size = 88; // four extra config bytes + 4 bytes PnP stuff |
2344 | break; | |
814710ba TJ |
2345 | case TYPE_2232H: // six extra config bytes + 4 bytes PnP stuff |
2346 | case TYPE_4232H: | |
56ac0383 | 2347 | user_area_size = 86; |
118c4561 | 2348 | break; |
2c1e2bde TJ |
2349 | default: |
2350 | user_area_size = 0; | |
56ac0383 | 2351 | break; |
665cda04 UB |
2352 | } |
2353 | user_area_size -= (manufacturer_size + product_size + serial_size) * 2; | |
814710ba | 2354 | |
516ebfb1 TJ |
2355 | if (user_area_size < 0) |
2356 | ftdi_error_return(-1,"eeprom size exceeded"); | |
b8aa7b35 TJ |
2357 | |
2358 | // empty eeprom | |
a35aa9bd | 2359 | memset (ftdi->eeprom->buf, 0, FTDI_MAX_EEPROM_SIZE); |
b8aa7b35 | 2360 | |
93738c79 UB |
2361 | // Bytes and Bits set for all Types |
2362 | ||
b8aa7b35 TJ |
2363 | // Addr 02: Vendor ID |
2364 | output[0x02] = eeprom->vendor_id; | |
2365 | output[0x03] = eeprom->vendor_id >> 8; | |
2366 | ||
2367 | // Addr 04: Product ID | |
2368 | output[0x04] = eeprom->product_id; | |
2369 | output[0x05] = eeprom->product_id >> 8; | |
2370 | ||
2371 | // Addr 06: Device release number (0400h for BM features) | |
2372 | output[0x06] = 0x00; | |
814710ba TJ |
2373 | switch (ftdi->type) |
2374 | { | |
f505134f HK |
2375 | case TYPE_AM: |
2376 | output[0x07] = 0x02; | |
2377 | break; | |
2378 | case TYPE_BM: | |
2379 | output[0x07] = 0x04; | |
2380 | break; | |
2381 | case TYPE_2232C: | |
2382 | output[0x07] = 0x05; | |
2383 | break; | |
2384 | case TYPE_R: | |
2385 | output[0x07] = 0x06; | |
2386 | break; | |
56ac0383 | 2387 | case TYPE_2232H: |
6123f7ab UB |
2388 | output[0x07] = 0x07; |
2389 | break; | |
56ac0383 | 2390 | case TYPE_4232H: |
6123f7ab UB |
2391 | output[0x07] = 0x08; |
2392 | break; | |
c7e4c09e UB |
2393 | case TYPE_232H: |
2394 | output[0x07] = 0x09; | |
2395 | break; | |
f505134f HK |
2396 | default: |
2397 | output[0x07] = 0x00; | |
2398 | } | |
b8aa7b35 TJ |
2399 | |
2400 | // Addr 08: Config descriptor | |
8fae3e8e TJ |
2401 | // Bit 7: always 1 |
2402 | // Bit 6: 1 if this device is self powered, 0 if bus powered | |
2403 | // Bit 5: 1 if this device uses remote wakeup | |
37186e34 | 2404 | // Bit 4-0: reserved - 0 |
5a1dcd55 | 2405 | j = 0x80; |
b8aa7b35 | 2406 | if (eeprom->self_powered == 1) |
5a1dcd55 | 2407 | j |= 0x40; |
b8aa7b35 | 2408 | if (eeprom->remote_wakeup == 1) |
5a1dcd55 | 2409 | j |= 0x20; |
b8aa7b35 TJ |
2410 | output[0x08] = j; |
2411 | ||
2412 | // Addr 09: Max power consumption: max power = value * 2 mA | |
bb5ec68a | 2413 | output[0x09] = eeprom->max_power>>1; |
d9f0cce7 | 2414 | |
56ac0383 | 2415 | if (ftdi->type != TYPE_AM) |
93738c79 UB |
2416 | { |
2417 | // Addr 0A: Chip configuration | |
2418 | // Bit 7: 0 - reserved | |
2419 | // Bit 6: 0 - reserved | |
2420 | // Bit 5: 0 - reserved | |
56ac0383 | 2421 | // Bit 4: 1 - Change USB version |
93738c79 UB |
2422 | // Bit 3: 1 - Use the serial number string |
2423 | // Bit 2: 1 - Enable suspend pull downs for lower power | |
2424 | // Bit 1: 1 - Out EndPoint is Isochronous | |
2425 | // Bit 0: 1 - In EndPoint is Isochronous | |
2426 | // | |
2427 | j = 0; | |
2428 | if (eeprom->in_is_isochronous == 1) | |
2429 | j = j | 1; | |
2430 | if (eeprom->out_is_isochronous == 1) | |
2431 | j = j | 2; | |
2432 | output[0x0A] = j; | |
2433 | } | |
f505134f | 2434 | |
b8aa7b35 | 2435 | // Dynamic content |
93738c79 UB |
2436 | // Strings start at 0x94 (TYPE_AM, TYPE_BM) |
2437 | // 0x96 (TYPE_2232C), 0x98 (TYPE_R) and 0x9a (TYPE_x232H) | |
c7e4c09e | 2438 | // 0xa0 (TYPE_232H) |
93738c79 | 2439 | i = 0; |
56ac0383 TJ |
2440 | switch (ftdi->type) |
2441 | { | |
c7e4c09e UB |
2442 | case TYPE_232H: |
2443 | i += 2; | |
56ac0383 TJ |
2444 | case TYPE_2232H: |
2445 | case TYPE_4232H: | |
2446 | i += 2; | |
2447 | case TYPE_R: | |
2448 | i += 2; | |
2449 | case TYPE_2232C: | |
2450 | i += 2; | |
2451 | case TYPE_AM: | |
2452 | case TYPE_BM: | |
2453 | i += 0x94; | |
f505134f | 2454 | } |
93738c79 | 2455 | /* Wrap around 0x80 for 128 byte EEPROMS (Internale and 93x46) */ |
e2bbd9af | 2456 | eeprom_size_mask = eeprom->size -1; |
c201f80f | 2457 | |
93738c79 UB |
2458 | // Addr 0E: Offset of the manufacturer string + 0x80, calculated later |
2459 | // Addr 0F: Length of manufacturer string | |
22d12cda | 2460 | // Output manufacturer |
93738c79 | 2461 | output[0x0E] = i; // calculate offset |
e2bbd9af TJ |
2462 | output[i & eeprom_size_mask] = manufacturer_size*2 + 2, i++; |
2463 | output[i & eeprom_size_mask] = 0x03, i++; // type: string | |
22d12cda TJ |
2464 | for (j = 0; j < manufacturer_size; j++) |
2465 | { | |
e2bbd9af TJ |
2466 | output[i & eeprom_size_mask] = eeprom->manufacturer[j], i++; |
2467 | output[i & eeprom_size_mask] = 0x00, i++; | |
b8aa7b35 | 2468 | } |
93738c79 | 2469 | output[0x0F] = manufacturer_size*2 + 2; |
b8aa7b35 | 2470 | |
93738c79 UB |
2471 | // Addr 10: Offset of the product string + 0x80, calculated later |
2472 | // Addr 11: Length of product string | |
c201f80f | 2473 | output[0x10] = i | 0x80; // calculate offset |
e2bbd9af TJ |
2474 | output[i & eeprom_size_mask] = product_size*2 + 2, i++; |
2475 | output[i & eeprom_size_mask] = 0x03, i++; | |
22d12cda TJ |
2476 | for (j = 0; j < product_size; j++) |
2477 | { | |
e2bbd9af TJ |
2478 | output[i & eeprom_size_mask] = eeprom->product[j], i++; |
2479 | output[i & eeprom_size_mask] = 0x00, i++; | |
b8aa7b35 | 2480 | } |
93738c79 | 2481 | output[0x11] = product_size*2 + 2; |
37186e34 | 2482 | |
93738c79 UB |
2483 | // Addr 12: Offset of the serial string + 0x80, calculated later |
2484 | // Addr 13: Length of serial string | |
c201f80f | 2485 | output[0x12] = i | 0x80; // calculate offset |
e2bbd9af TJ |
2486 | output[i & eeprom_size_mask] = serial_size*2 + 2, i++; |
2487 | output[i & eeprom_size_mask] = 0x03, i++; | |
22d12cda TJ |
2488 | for (j = 0; j < serial_size; j++) |
2489 | { | |
e2bbd9af TJ |
2490 | output[i & eeprom_size_mask] = eeprom->serial[j], i++; |
2491 | output[i & eeprom_size_mask] = 0x00, i++; | |
b8aa7b35 | 2492 | } |
c2700d6d TJ |
2493 | |
2494 | // Legacy port name and PnP fields for FT2232 and newer chips | |
2495 | if (ftdi->type > TYPE_BM) | |
2496 | { | |
2497 | output[i & eeprom_size_mask] = 0x02; /* as seen when written with FTD2XX */ | |
2498 | i++; | |
2499 | output[i & eeprom_size_mask] = 0x03; /* as seen when written with FTD2XX */ | |
2500 | i++; | |
2501 | output[i & eeprom_size_mask] = eeprom->is_not_pnp; /* as seen when written with FTD2XX */ | |
2502 | i++; | |
2503 | } | |
802a949e | 2504 | |
93738c79 | 2505 | output[0x13] = serial_size*2 + 2; |
b8aa7b35 | 2506 | |
56ac0383 | 2507 | if (ftdi->type > TYPE_AM) /* use_serial not used in AM devices */ |
bf2f6ef7 UB |
2508 | { |
2509 | if (eeprom->use_serial == USE_SERIAL_NUM ) | |
2510 | output[0x0A] |= USE_SERIAL_NUM; | |
2511 | else | |
2512 | output[0x0A] &= ~USE_SERIAL_NUM; | |
2513 | } | |
3802140c UB |
2514 | |
2515 | /* Bytes and Bits specific to (some) types | |
2516 | Write linear, as this allows easier fixing*/ | |
56ac0383 TJ |
2517 | switch (ftdi->type) |
2518 | { | |
2519 | case TYPE_AM: | |
2520 | break; | |
2521 | case TYPE_BM: | |
2522 | output[0x0C] = eeprom->usb_version & 0xff; | |
2523 | output[0x0D] = (eeprom->usb_version>>8) & 0xff; | |
2524 | if (eeprom->use_usb_version == USE_USB_VERSION_BIT) | |
2525 | output[0x0A] |= USE_USB_VERSION_BIT; | |
2526 | else | |
2527 | output[0x0A] &= ~USE_USB_VERSION_BIT; | |
caec1294 | 2528 | |
56ac0383 TJ |
2529 | break; |
2530 | case TYPE_2232C: | |
3802140c | 2531 | |
26063bec | 2532 | output[0x00] = (eeprom->channel_a_type)?((1<<(eeprom->channel_a_type)) & 0x7):0; |
56ac0383 TJ |
2533 | if ( eeprom->channel_a_driver == DRIVER_VCP) |
2534 | output[0x00] |= DRIVER_VCP; | |
2535 | else | |
2536 | output[0x00] &= ~DRIVER_VCP; | |
4e74064b | 2537 | |
56ac0383 TJ |
2538 | if ( eeprom->high_current_a == HIGH_CURRENT_DRIVE) |
2539 | output[0x00] |= HIGH_CURRENT_DRIVE; | |
2540 | else | |
2541 | output[0x00] &= ~HIGH_CURRENT_DRIVE; | |
3802140c | 2542 | |
26063bec | 2543 | output[0x01] = (eeprom->channel_b_type)?((1<<(eeprom->channel_b_type)) & 0x7):0; |
56ac0383 TJ |
2544 | if ( eeprom->channel_b_driver == DRIVER_VCP) |
2545 | output[0x01] |= DRIVER_VCP; | |
2546 | else | |
2547 | output[0x01] &= ~DRIVER_VCP; | |
4e74064b | 2548 | |
56ac0383 TJ |
2549 | if ( eeprom->high_current_b == HIGH_CURRENT_DRIVE) |
2550 | output[0x01] |= HIGH_CURRENT_DRIVE; | |
2551 | else | |
2552 | output[0x01] &= ~HIGH_CURRENT_DRIVE; | |
3802140c | 2553 | |
56ac0383 TJ |
2554 | if (eeprom->in_is_isochronous == 1) |
2555 | output[0x0A] |= 0x1; | |
2556 | else | |
2557 | output[0x0A] &= ~0x1; | |
2558 | if (eeprom->out_is_isochronous == 1) | |
2559 | output[0x0A] |= 0x2; | |
2560 | else | |
2561 | output[0x0A] &= ~0x2; | |
2562 | if (eeprom->suspend_pull_downs == 1) | |
2563 | output[0x0A] |= 0x4; | |
2564 | else | |
2565 | output[0x0A] &= ~0x4; | |
2566 | if (eeprom->use_usb_version == USE_USB_VERSION_BIT) | |
2567 | output[0x0A] |= USE_USB_VERSION_BIT; | |
2568 | else | |
2569 | output[0x0A] &= ~USE_USB_VERSION_BIT; | |
4e74064b | 2570 | |
56ac0383 TJ |
2571 | output[0x0C] = eeprom->usb_version & 0xff; |
2572 | output[0x0D] = (eeprom->usb_version>>8) & 0xff; | |
2573 | output[0x14] = eeprom->chip; | |
2574 | break; | |
2575 | case TYPE_R: | |
2576 | if (eeprom->high_current == HIGH_CURRENT_DRIVE_R) | |
2577 | output[0x00] |= HIGH_CURRENT_DRIVE_R; | |
2578 | output[0x01] = 0x40; /* Hard coded Endpoint Size*/ | |
4e74064b | 2579 | |
56ac0383 TJ |
2580 | if (eeprom->suspend_pull_downs == 1) |
2581 | output[0x0A] |= 0x4; | |
2582 | else | |
2583 | output[0x0A] &= ~0x4; | |
2584 | output[0x0B] = eeprom->invert; | |
2585 | output[0x0C] = eeprom->usb_version & 0xff; | |
2586 | output[0x0D] = (eeprom->usb_version>>8) & 0xff; | |
4e74064b | 2587 | |
56ac0383 TJ |
2588 | if (eeprom->cbus_function[0] > CBUS_BB) |
2589 | output[0x14] = CBUS_TXLED; | |
2590 | else | |
2591 | output[0x14] = eeprom->cbus_function[0]; | |
4e74064b | 2592 | |
56ac0383 TJ |
2593 | if (eeprom->cbus_function[1] > CBUS_BB) |
2594 | output[0x14] |= CBUS_RXLED<<4; | |
2595 | else | |
2596 | output[0x14] |= eeprom->cbus_function[1]<<4; | |
4e74064b | 2597 | |
56ac0383 TJ |
2598 | if (eeprom->cbus_function[2] > CBUS_BB) |
2599 | output[0x15] = CBUS_TXDEN; | |
2600 | else | |
2601 | output[0x15] = eeprom->cbus_function[2]; | |
4e74064b | 2602 | |
56ac0383 TJ |
2603 | if (eeprom->cbus_function[3] > CBUS_BB) |
2604 | output[0x15] |= CBUS_PWREN<<4; | |
2605 | else | |
2606 | output[0x15] |= eeprom->cbus_function[3]<<4; | |
4e74064b | 2607 | |
56ac0383 TJ |
2608 | if (eeprom->cbus_function[4] > CBUS_CLK6) |
2609 | output[0x16] = CBUS_SLEEP; | |
2610 | else | |
2611 | output[0x16] = eeprom->cbus_function[4]; | |
2612 | break; | |
2613 | case TYPE_2232H: | |
26063bec | 2614 | output[0x00] = (eeprom->channel_a_type)?((1<<(eeprom->channel_a_type)) & 0x7):0; |
56ac0383 TJ |
2615 | if ( eeprom->channel_a_driver == DRIVER_VCP) |
2616 | output[0x00] |= DRIVER_VCP; | |
2617 | else | |
2618 | output[0x00] &= ~DRIVER_VCP; | |
6e6a1c3f | 2619 | |
26063bec | 2620 | output[0x01] = (eeprom->channel_b_type)?((1<<(eeprom->channel_b_type)) & 0x7):0; |
56ac0383 TJ |
2621 | if ( eeprom->channel_b_driver == DRIVER_VCP) |
2622 | output[0x01] |= DRIVER_VCP; | |
2623 | else | |
2624 | output[0x01] &= ~DRIVER_VCP; | |
2625 | if (eeprom->suspend_dbus7 == SUSPEND_DBUS7_BIT) | |
2626 | output[0x01] |= SUSPEND_DBUS7_BIT; | |
2627 | else | |
2628 | output[0x01] &= ~SUSPEND_DBUS7_BIT; | |
2629 | ||
2630 | if (eeprom->suspend_pull_downs == 1) | |
2631 | output[0x0A] |= 0x4; | |
2632 | else | |
2633 | output[0x0A] &= ~0x4; | |
2634 | ||
2635 | if (eeprom->group0_drive > DRIVE_16MA) | |
2636 | output[0x0c] |= DRIVE_16MA; | |
2637 | else | |
2638 | output[0x0c] |= eeprom->group0_drive; | |
2639 | if (eeprom->group0_schmitt == IS_SCHMITT) | |
2640 | output[0x0c] |= IS_SCHMITT; | |
2641 | if (eeprom->group0_slew == SLOW_SLEW) | |
2642 | output[0x0c] |= SLOW_SLEW; | |
2643 | ||
2644 | if (eeprom->group1_drive > DRIVE_16MA) | |
2645 | output[0x0c] |= DRIVE_16MA<<4; | |
2646 | else | |
2647 | output[0x0c] |= eeprom->group1_drive<<4; | |
2648 | if (eeprom->group1_schmitt == IS_SCHMITT) | |
2649 | output[0x0c] |= IS_SCHMITT<<4; | |
2650 | if (eeprom->group1_slew == SLOW_SLEW) | |
2651 | output[0x0c] |= SLOW_SLEW<<4; | |
2652 | ||
2653 | if (eeprom->group2_drive > DRIVE_16MA) | |
2654 | output[0x0d] |= DRIVE_16MA; | |
2655 | else | |
2656 | output[0x0d] |= eeprom->group2_drive; | |
2657 | if (eeprom->group2_schmitt == IS_SCHMITT) | |
2658 | output[0x0d] |= IS_SCHMITT; | |
2659 | if (eeprom->group2_slew == SLOW_SLEW) | |
2660 | output[0x0d] |= SLOW_SLEW; | |
2661 | ||
2662 | if (eeprom->group3_drive > DRIVE_16MA) | |
2663 | output[0x0d] |= DRIVE_16MA<<4; | |
2664 | else | |
2665 | output[0x0d] |= eeprom->group3_drive<<4; | |
2666 | if (eeprom->group3_schmitt == IS_SCHMITT) | |
2667 | output[0x0d] |= IS_SCHMITT<<4; | |
2668 | if (eeprom->group3_slew == SLOW_SLEW) | |
2669 | output[0x0d] |= SLOW_SLEW<<4; | |
3802140c | 2670 | |
56ac0383 | 2671 | output[0x18] = eeprom->chip; |
3802140c | 2672 | |
56ac0383 TJ |
2673 | break; |
2674 | case TYPE_4232H: | |
c7e4c09e | 2675 | output[0x18] = eeprom->chip; |
56ac0383 | 2676 | fprintf(stderr,"FIXME: Build FT4232H specific EEPROM settings\n"); |
c7e4c09e UB |
2677 | break; |
2678 | case TYPE_232H: | |
26063bec | 2679 | output[0x00] = (eeprom->channel_a_type)?((1<<(eeprom->channel_a_type)) & 0xf):0; |
ac4a82a5 UB |
2680 | if ( eeprom->channel_a_driver == DRIVER_VCP) |
2681 | output[0x00] |= DRIVER_VCPH; | |
2682 | else | |
2683 | output[0x00] &= ~DRIVER_VCPH; | |
837a71d6 UB |
2684 | if (eeprom->powersave) |
2685 | output[0x01] |= POWER_SAVE_DISABLE_H; | |
2686 | else | |
2687 | output[0x01] &= ~POWER_SAVE_DISABLE_H; | |
18199b76 UB |
2688 | if (eeprom->clock_polarity) |
2689 | output[0x01] |= FT1284_CLK_IDLE_STATE; | |
2690 | else | |
2691 | output[0x01] &= ~FT1284_CLK_IDLE_STATE; | |
2692 | if (eeprom->data_order) | |
2693 | output[0x01] |= FT1284_DATA_LSB; | |
2694 | else | |
2695 | output[0x01] &= ~FT1284_DATA_LSB; | |
2696 | if (eeprom->flow_control) | |
2697 | output[0x01] |= FT1284_FLOW_CONTROL; | |
2698 | else | |
2699 | output[0x01] &= ~FT1284_FLOW_CONTROL; | |
91d7a201 UB |
2700 | if (eeprom->group0_drive > DRIVE_16MA) |
2701 | output[0x0c] |= DRIVE_16MA; | |
2702 | else | |
2703 | output[0x0c] |= eeprom->group0_drive; | |
2704 | if (eeprom->group0_schmitt == IS_SCHMITT) | |
2705 | output[0x0c] |= IS_SCHMITT; | |
2706 | if (eeprom->group0_slew == SLOW_SLEW) | |
2707 | output[0x0c] |= SLOW_SLEW; | |
2708 | ||
2709 | if (eeprom->group1_drive > DRIVE_16MA) | |
2710 | output[0x0d] |= DRIVE_16MA; | |
2711 | else | |
2712 | output[0x0d] |= eeprom->group1_drive; | |
2713 | if (eeprom->group1_schmitt == IS_SCHMITT) | |
2714 | output[0x0d] |= IS_SCHMITT; | |
2715 | if (eeprom->group1_slew == SLOW_SLEW) | |
2716 | output[0x0d] |= SLOW_SLEW; | |
2717 | ||
263d3ba0 UB |
2718 | set_ft232h_cbus(eeprom, output); |
2719 | ||
c7e4c09e UB |
2720 | output[0x1e] = eeprom->chip; |
2721 | fprintf(stderr,"FIXME: Build FT232H specific EEPROM settings\n"); | |
2722 | break; | |
2723 | ||
3802140c UB |
2724 | } |
2725 | ||
cbf65673 | 2726 | // calculate checksum |
b8aa7b35 | 2727 | checksum = 0xAAAA; |
d9f0cce7 | 2728 | |
22d12cda TJ |
2729 | for (i = 0; i < eeprom->size/2-1; i++) |
2730 | { | |
d9f0cce7 TJ |
2731 | value = output[i*2]; |
2732 | value += output[(i*2)+1] << 8; | |
b8aa7b35 | 2733 | |
d9f0cce7 TJ |
2734 | checksum = value^checksum; |
2735 | checksum = (checksum << 1) | (checksum >> 15); | |
b8aa7b35 TJ |
2736 | } |
2737 | ||
c201f80f TJ |
2738 | output[eeprom->size-2] = checksum; |
2739 | output[eeprom->size-1] = checksum >> 8; | |
b8aa7b35 | 2740 | |
516ebfb1 | 2741 | return user_area_size; |
b8aa7b35 | 2742 | } |
0fc2170c UB |
2743 | /* FTD2XX doesn't allow to set multiple bits in the interface mode bitfield*/ |
2744 | unsigned char bit2type(unsigned char bits) | |
2745 | { | |
2746 | switch (bits) | |
2747 | { | |
2748 | case 0: return 0; | |
2749 | case 1: return 1; | |
2750 | case 2: return 2; | |
2751 | case 4: return 3; | |
2752 | case 8: return 4; | |
2753 | default: | |
2754 | fprintf(stderr," Unexpected value %d for Hardware Interface type\n", | |
2755 | bits); | |
2756 | } | |
2757 | return 0; | |
2758 | } | |
b8aa7b35 | 2759 | |
4af1d1bb MK |
2760 | /** |
2761 | Decode binary EEPROM image into an ftdi_eeprom structure. | |
2762 | ||
a35aa9bd UB |
2763 | \param ftdi pointer to ftdi_context |
2764 | \param verbose Decode EEPROM on stdout | |
56ac0383 | 2765 | |
4af1d1bb MK |
2766 | \retval 0: all fine |
2767 | \retval -1: something went wrong | |
2768 | ||
2769 | FIXME: How to pass size? How to handle size field in ftdi_eeprom? | |
2770 | FIXME: Strings are malloc'ed here and should be freed somewhere | |
2771 | */ | |
a35aa9bd | 2772 | int ftdi_eeprom_decode(struct ftdi_context *ftdi, int verbose) |
b56d5a64 MK |
2773 | { |
2774 | unsigned char i, j; | |
2775 | unsigned short checksum, eeprom_checksum, value; | |
2776 | unsigned char manufacturer_size = 0, product_size = 0, serial_size = 0; | |
f2cd9fd5 | 2777 | int eeprom_size; |
c0a96aed | 2778 | struct ftdi_eeprom *eeprom; |
a35aa9bd | 2779 | unsigned char *buf = ftdi->eeprom->buf; |
38801bf8 | 2780 | int release; |
22a1b5c1 | 2781 | |
c0a96aed | 2782 | if (ftdi == NULL) |
cc9c9d58 | 2783 | ftdi_error_return(-1,"No context"); |
c0a96aed | 2784 | if (ftdi->eeprom == NULL) |
6cd4f922 | 2785 | ftdi_error_return(-1,"No eeprom structure"); |
56ac0383 | 2786 | |
c0a96aed | 2787 | eeprom = ftdi->eeprom; |
a35aa9bd | 2788 | eeprom_size = eeprom->size; |
b56d5a64 | 2789 | |
b56d5a64 MK |
2790 | // Addr 02: Vendor ID |
2791 | eeprom->vendor_id = buf[0x02] + (buf[0x03] << 8); | |
2792 | ||
2793 | // Addr 04: Product ID | |
2794 | eeprom->product_id = buf[0x04] + (buf[0x05] << 8); | |
22d12cda | 2795 | |
38801bf8 | 2796 | release = buf[0x06] + (buf[0x07]<<8); |
b56d5a64 MK |
2797 | |
2798 | // Addr 08: Config descriptor | |
2799 | // Bit 7: always 1 | |
2800 | // Bit 6: 1 if this device is self powered, 0 if bus powered | |
2801 | // Bit 5: 1 if this device uses remote wakeup | |
f6ef2983 | 2802 | eeprom->self_powered = buf[0x08] & 0x40; |
814710ba | 2803 | eeprom->remote_wakeup = buf[0x08] & 0x20; |
b56d5a64 MK |
2804 | |
2805 | // Addr 09: Max power consumption: max power = value * 2 mA | |
2806 | eeprom->max_power = buf[0x09]; | |
2807 | ||
2808 | // Addr 0A: Chip configuration | |
2809 | // Bit 7: 0 - reserved | |
2810 | // Bit 6: 0 - reserved | |
2811 | // Bit 5: 0 - reserved | |
caec1294 | 2812 | // Bit 4: 1 - Change USB version on BM and 2232C |
b56d5a64 MK |
2813 | // Bit 3: 1 - Use the serial number string |
2814 | // Bit 2: 1 - Enable suspend pull downs for lower power | |
2815 | // Bit 1: 1 - Out EndPoint is Isochronous | |
2816 | // Bit 0: 1 - In EndPoint is Isochronous | |
2817 | // | |
8d3fe5c9 UB |
2818 | eeprom->in_is_isochronous = buf[0x0A]&0x01; |
2819 | eeprom->out_is_isochronous = buf[0x0A]&0x02; | |
2820 | eeprom->suspend_pull_downs = buf[0x0A]&0x04; | |
a02587d5 | 2821 | eeprom->use_serial = buf[0x0A] & USE_SERIAL_NUM; |
caec1294 | 2822 | eeprom->use_usb_version = buf[0x0A] & USE_USB_VERSION_BIT; |
b56d5a64 | 2823 | |
b1859923 | 2824 | // Addr 0C: USB version low byte when 0x0A |
56ac0383 | 2825 | // Addr 0D: USB version high byte when 0x0A |
b1859923 | 2826 | eeprom->usb_version = buf[0x0C] + (buf[0x0D] << 8); |
b56d5a64 MK |
2827 | |
2828 | // Addr 0E: Offset of the manufacturer string + 0x80, calculated later | |
2829 | // Addr 0F: Length of manufacturer string | |
2830 | manufacturer_size = buf[0x0F]/2; | |
56ac0383 | 2831 | if (eeprom->manufacturer) |
74e8e79d | 2832 | free(eeprom->manufacturer); |
56ac0383 | 2833 | if (manufacturer_size > 0) |
acc1fa05 UB |
2834 | { |
2835 | eeprom->manufacturer = malloc(manufacturer_size); | |
2836 | if (eeprom->manufacturer) | |
2837 | { | |
2838 | // Decode manufacturer | |
84ec032f | 2839 | i = buf[0x0E] & (eeprom_size -1); // offset |
acc1fa05 UB |
2840 | for (j=0;j<manufacturer_size-1;j++) |
2841 | { | |
2842 | eeprom->manufacturer[j] = buf[2*j+i+2]; | |
2843 | } | |
2844 | eeprom->manufacturer[j] = '\0'; | |
2845 | } | |
2846 | } | |
b56d5a64 MK |
2847 | else eeprom->manufacturer = NULL; |
2848 | ||
2849 | // Addr 10: Offset of the product string + 0x80, calculated later | |
2850 | // Addr 11: Length of product string | |
56ac0383 | 2851 | if (eeprom->product) |
74e8e79d | 2852 | free(eeprom->product); |
b56d5a64 | 2853 | product_size = buf[0x11]/2; |
acc1fa05 UB |
2854 | if (product_size > 0) |
2855 | { | |
2856 | eeprom->product = malloc(product_size); | |
56ac0383 | 2857 | if (eeprom->product) |
acc1fa05 UB |
2858 | { |
2859 | // Decode product name | |
84ec032f | 2860 | i = buf[0x10] & (eeprom_size -1); // offset |
acc1fa05 UB |
2861 | for (j=0;j<product_size-1;j++) |
2862 | { | |
2863 | eeprom->product[j] = buf[2*j+i+2]; | |
2864 | } | |
2865 | eeprom->product[j] = '\0'; | |
2866 | } | |
2867 | } | |
b56d5a64 MK |
2868 | else eeprom->product = NULL; |
2869 | ||
2870 | // Addr 12: Offset of the serial string + 0x80, calculated later | |
2871 | // Addr 13: Length of serial string | |
56ac0383 | 2872 | if (eeprom->serial) |
74e8e79d | 2873 | free(eeprom->serial); |
b56d5a64 | 2874 | serial_size = buf[0x13]/2; |
acc1fa05 UB |
2875 | if (serial_size > 0) |
2876 | { | |
2877 | eeprom->serial = malloc(serial_size); | |
56ac0383 | 2878 | if (eeprom->serial) |
acc1fa05 UB |
2879 | { |
2880 | // Decode serial | |
84ec032f | 2881 | i = buf[0x12] & (eeprom_size -1); // offset |
acc1fa05 UB |
2882 | for (j=0;j<serial_size-1;j++) |
2883 | { | |
2884 | eeprom->serial[j] = buf[2*j+i+2]; | |
2885 | } | |
2886 | eeprom->serial[j] = '\0'; | |
2887 | } | |
2888 | } | |
b56d5a64 MK |
2889 | else eeprom->serial = NULL; |
2890 | ||
b56d5a64 MK |
2891 | // verify checksum |
2892 | checksum = 0xAAAA; | |
2893 | ||
22d12cda TJ |
2894 | for (i = 0; i < eeprom_size/2-1; i++) |
2895 | { | |
b56d5a64 MK |
2896 | value = buf[i*2]; |
2897 | value += buf[(i*2)+1] << 8; | |
2898 | ||
2899 | checksum = value^checksum; | |
2900 | checksum = (checksum << 1) | (checksum >> 15); | |
2901 | } | |
2902 | ||
2903 | eeprom_checksum = buf[eeprom_size-2] + (buf[eeprom_size-1] << 8); | |
2904 | ||
22d12cda TJ |
2905 | if (eeprom_checksum != checksum) |
2906 | { | |
2907 | fprintf(stderr, "Checksum Error: %04x %04x\n", checksum, eeprom_checksum); | |
cc9c9d58 | 2908 | ftdi_error_return(-1,"EEPROM checksum error"); |
4af1d1bb MK |
2909 | } |
2910 | ||
eb498cff | 2911 | eeprom->channel_a_type = 0; |
aa099f46 | 2912 | if ((ftdi->type == TYPE_AM) || (ftdi->type == TYPE_BM)) |
f6ef2983 | 2913 | { |
6cd4f922 | 2914 | eeprom->chip = -1; |
f6ef2983 | 2915 | } |
56ac0383 | 2916 | else if (ftdi->type == TYPE_2232C) |
f6ef2983 | 2917 | { |
0fc2170c | 2918 | eeprom->channel_a_type = bit2type(buf[0x00] & 0x7); |
2cde7c52 UB |
2919 | eeprom->channel_a_driver = buf[0x00] & DRIVER_VCP; |
2920 | eeprom->high_current_a = buf[0x00] & HIGH_CURRENT_DRIVE; | |
2921 | eeprom->channel_b_type = buf[0x01] & 0x7; | |
2922 | eeprom->channel_b_driver = buf[0x01] & DRIVER_VCP; | |
2923 | eeprom->high_current_b = buf[0x01] & HIGH_CURRENT_DRIVE; | |
6cd4f922 | 2924 | eeprom->chip = buf[0x14]; |
065edc58 | 2925 | } |
56ac0383 | 2926 | else if (ftdi->type == TYPE_R) |
564b2716 | 2927 | { |
2cde7c52 UB |
2928 | /* TYPE_R flags D2XX, not VCP as all others*/ |
2929 | eeprom->channel_a_driver = (~buf[0x00]) & DRIVER_VCP; | |
2930 | eeprom->high_current = buf[0x00] & HIGH_CURRENT_DRIVE_R; | |
56ac0383 TJ |
2931 | if ( (buf[0x01]&0x40) != 0x40) |
2932 | fprintf(stderr, | |
2933 | "TYPE_R EEPROM byte[0x01] Bit 6 unexpected Endpoint size." | |
2934 | " If this happened with the\n" | |
2935 | " EEPROM programmed by FTDI tools, please report " | |
2936 | "to libftdi@developer.intra2net.com\n"); | |
2cde7c52 | 2937 | |
6cd4f922 | 2938 | eeprom->chip = buf[0x16]; |
cecb9cb2 UB |
2939 | // Addr 0B: Invert data lines |
2940 | // Works only on FT232R, not FT245R, but no way to distinguish | |
07851949 UB |
2941 | eeprom->invert = buf[0x0B]; |
2942 | // Addr 14: CBUS function: CBUS0, CBUS1 | |
2943 | // Addr 15: CBUS function: CBUS2, CBUS3 | |
2944 | // Addr 16: CBUS function: CBUS5 | |
2945 | eeprom->cbus_function[0] = buf[0x14] & 0x0f; | |
2946 | eeprom->cbus_function[1] = (buf[0x14] >> 4) & 0x0f; | |
2947 | eeprom->cbus_function[2] = buf[0x15] & 0x0f; | |
2948 | eeprom->cbus_function[3] = (buf[0x15] >> 4) & 0x0f; | |
2949 | eeprom->cbus_function[4] = buf[0x16] & 0x0f; | |
564b2716 | 2950 | } |
56ac0383 | 2951 | else if ((ftdi->type == TYPE_2232H) ||(ftdi->type == TYPE_4232H)) |
db099ec5 | 2952 | { |
0fc2170c | 2953 | eeprom->channel_a_type = bit2type(buf[0x00] & 0x7); |
2cde7c52 UB |
2954 | eeprom->channel_a_driver = buf[0x00] & DRIVER_VCP; |
2955 | eeprom->channel_b_type = buf[0x01] & 0x7; | |
2956 | eeprom->channel_b_driver = buf[0x01] & DRIVER_VCP; | |
2957 | ||
56ac0383 | 2958 | if (ftdi->type == TYPE_2232H) |
ec0dcd3f | 2959 | eeprom->suspend_dbus7 = buf[0x01] & SUSPEND_DBUS7_BIT; |
2cde7c52 | 2960 | |
6cd4f922 | 2961 | eeprom->chip = buf[0x18]; |
db099ec5 UB |
2962 | eeprom->group0_drive = buf[0x0c] & DRIVE_16MA; |
2963 | eeprom->group0_schmitt = buf[0x0c] & IS_SCHMITT; | |
2964 | eeprom->group0_slew = buf[0x0c] & SLOW_SLEW; | |
2965 | eeprom->group1_drive = (buf[0x0c] >> 4) & 0x3; | |
2966 | eeprom->group1_schmitt = (buf[0x0c] >> 4) & IS_SCHMITT; | |
2967 | eeprom->group1_slew = (buf[0x0c] >> 4) & SLOW_SLEW; | |
2968 | eeprom->group2_drive = buf[0x0d] & DRIVE_16MA; | |
2969 | eeprom->group2_schmitt = buf[0x0d] & IS_SCHMITT; | |
2970 | eeprom->group2_slew = buf[0x0d] & SLOW_SLEW; | |
2971 | eeprom->group3_drive = (buf[0x0d] >> 4) & DRIVE_16MA; | |
2972 | eeprom->group3_schmitt = (buf[0x0d] >> 4) & IS_SCHMITT; | |
2973 | eeprom->group3_slew = (buf[0x0d] >> 4) & SLOW_SLEW; | |
947d9552 | 2974 | } |
c7e4c09e UB |
2975 | else if (ftdi->type == TYPE_232H) |
2976 | { | |
263d3ba0 UB |
2977 | int i; |
2978 | ||
ac4a82a5 UB |
2979 | eeprom->channel_a_type = buf[0x00] & 0xf; |
2980 | eeprom->channel_a_driver = (buf[0x00] & DRIVER_VCPH)?DRIVER_VCP:0; | |
18199b76 UB |
2981 | eeprom->clock_polarity = buf[0x01] & FT1284_CLK_IDLE_STATE; |
2982 | eeprom->data_order = buf[0x01] & FT1284_DATA_LSB; | |
2983 | eeprom->flow_control = buf[0x01] & FT1284_FLOW_CONTROL; | |
837a71d6 | 2984 | eeprom->powersave = buf[0x01] & POWER_SAVE_DISABLE_H; |
91d7a201 UB |
2985 | eeprom->group0_drive = buf[0x0c] & DRIVE_16MA; |
2986 | eeprom->group0_schmitt = buf[0x0c] & IS_SCHMITT; | |
2987 | eeprom->group0_slew = buf[0x0c] & SLOW_SLEW; | |
2988 | eeprom->group1_drive = buf[0x0d] & DRIVE_16MA; | |
2989 | eeprom->group1_schmitt = buf[0x0d] & IS_SCHMITT; | |
2990 | eeprom->group1_slew = buf[0x0d] & SLOW_SLEW; | |
2991 | ||
263d3ba0 UB |
2992 | for(i=0; i<5; i++) |
2993 | { | |
2994 | eeprom->cbus_function[2*i ] = buf[0x18+i] & 0x0f; | |
2995 | eeprom->cbus_function[2*i+1] = (buf[0x18+i] >> 4) & 0x0f; | |
2996 | } | |
c7e4c09e UB |
2997 | eeprom->chip = buf[0x1e]; |
2998 | /*FIXME: Decipher more values*/ | |
2999 | } | |
56ac0383 TJ |
3000 | |
3001 | if (verbose) | |
f6ef2983 | 3002 | { |
0fc2170c | 3003 | char *channel_mode[] = {"UART","245","CPU", "OPTO", "FT1284"}; |
f6ef2983 UB |
3004 | fprintf(stdout, "VID: 0x%04x\n",eeprom->vendor_id); |
3005 | fprintf(stdout, "PID: 0x%04x\n",eeprom->product_id); | |
38801bf8 | 3006 | fprintf(stdout, "Release: 0x%04x\n",release); |
f6ef2983 | 3007 | |
56ac0383 | 3008 | if (eeprom->self_powered) |
f6ef2983 UB |
3009 | fprintf(stdout, "Self-Powered%s", (eeprom->remote_wakeup)?", USB Remote Wake Up\n":"\n"); |
3010 | else | |
1cd815ad | 3011 | fprintf(stdout, "Bus Powered: %3d mA%s", eeprom->max_power * 2, |
f6ef2983 | 3012 | (eeprom->remote_wakeup)?" USB Remote Wake Up\n":"\n"); |
56ac0383 | 3013 | if (eeprom->manufacturer) |
f6ef2983 | 3014 | fprintf(stdout, "Manufacturer: %s\n",eeprom->manufacturer); |
56ac0383 | 3015 | if (eeprom->product) |
f6ef2983 | 3016 | fprintf(stdout, "Product: %s\n",eeprom->product); |
56ac0383 | 3017 | if (eeprom->serial) |
f6ef2983 | 3018 | fprintf(stdout, "Serial: %s\n",eeprom->serial); |
e107f509 | 3019 | fprintf(stdout, "Checksum : %04x\n", checksum); |
6cd4f922 UB |
3020 | if (ftdi->type == TYPE_R) |
3021 | fprintf(stdout, "Internal EEPROM\n"); | |
3022 | else if (eeprom->chip >= 0x46) | |
3023 | fprintf(stdout, "Attached EEPROM: 93x%02x\n", eeprom->chip); | |
56ac0383 TJ |
3024 | if (eeprom->suspend_dbus7) |
3025 | fprintf(stdout, "Suspend on DBUS7\n"); | |
3026 | if (eeprom->suspend_pull_downs) | |
fb9bfdd1 | 3027 | fprintf(stdout, "Pull IO pins low during suspend\n"); |
837a71d6 UB |
3028 | if(eeprom->powersave) |
3029 | { | |
3030 | if(ftdi->type >= TYPE_232H) | |
3031 | fprintf(stdout,"Enter low power state on ACBUS7\n"); | |
3032 | } | |
56ac0383 | 3033 | if (eeprom->remote_wakeup) |
fb9bfdd1 | 3034 | fprintf(stdout, "Enable Remote Wake Up\n"); |
802a949e | 3035 | fprintf(stdout, "PNP: %d\n",(eeprom->is_not_pnp)?0:1); |
db099ec5 | 3036 | if (ftdi->type >= TYPE_2232C) |
56ac0383 | 3037 | fprintf(stdout,"Channel A has Mode %s%s%s\n", |
e107f509 | 3038 | channel_mode[eeprom->channel_a_type], |
2cde7c52 UB |
3039 | (eeprom->channel_a_driver)?" VCP":"", |
3040 | (eeprom->high_current_a)?" High Current IO":""); | |
18199b76 UB |
3041 | if (ftdi->type >= TYPE_232H) |
3042 | { | |
3043 | fprintf(stdout,"FT1284 Mode Clock is idle %s, %s first, %sFlow Control\n", | |
3044 | (eeprom->clock_polarity)?"HIGH":"LOW", | |
3045 | (eeprom->data_order)?"LSB":"MSB", | |
3046 | (eeprom->flow_control)?"":"No "); | |
3047 | } | |
c7e4c09e | 3048 | if ((ftdi->type >= TYPE_2232C) && (ftdi->type != TYPE_R) && (ftdi->type != TYPE_232H)) |
56ac0383 | 3049 | fprintf(stdout,"Channel B has Mode %s%s%s\n", |
e107f509 | 3050 | channel_mode[eeprom->channel_b_type], |
2cde7c52 UB |
3051 | (eeprom->channel_b_driver)?" VCP":"", |
3052 | (eeprom->high_current_b)?" High Current IO":""); | |
caec1294 | 3053 | if (((ftdi->type == TYPE_BM) || (ftdi->type == TYPE_2232C)) && |
56ac0383 | 3054 | eeprom->use_usb_version == USE_USB_VERSION_BIT) |
caec1294 UB |
3055 | fprintf(stdout,"Use explicit USB Version %04x\n",eeprom->usb_version); |
3056 | ||
56ac0383 | 3057 | if ((ftdi->type == TYPE_2232H) || (ftdi->type == TYPE_4232H)) |
db099ec5 UB |
3058 | { |
3059 | fprintf(stdout,"%s has %d mA drive%s%s\n", | |
3060 | (ftdi->type == TYPE_2232H)?"AL":"A", | |
3061 | (eeprom->group0_drive+1) *4, | |
3062 | (eeprom->group0_schmitt)?" Schmitt Input":"", | |
3063 | (eeprom->group0_slew)?" Slow Slew":""); | |
3064 | fprintf(stdout,"%s has %d mA drive%s%s\n", | |
3065 | (ftdi->type == TYPE_2232H)?"AH":"B", | |
3066 | (eeprom->group1_drive+1) *4, | |
3067 | (eeprom->group1_schmitt)?" Schmitt Input":"", | |
3068 | (eeprom->group1_slew)?" Slow Slew":""); | |
3069 | fprintf(stdout,"%s has %d mA drive%s%s\n", | |
3070 | (ftdi->type == TYPE_2232H)?"BL":"C", | |
3071 | (eeprom->group2_drive+1) *4, | |
3072 | (eeprom->group2_schmitt)?" Schmitt Input":"", | |
3073 | (eeprom->group2_slew)?" Slow Slew":""); | |
3074 | fprintf(stdout,"%s has %d mA drive%s%s\n", | |
3075 | (ftdi->type == TYPE_2232H)?"BH":"D", | |
3076 | (eeprom->group3_drive+1) *4, | |
3077 | (eeprom->group3_schmitt)?" Schmitt Input":"", | |
3078 | (eeprom->group3_slew)?" Slow Slew":""); | |
3079 | } | |
91d7a201 UB |
3080 | else if (ftdi->type == TYPE_232H) |
3081 | { | |
263d3ba0 UB |
3082 | int i; |
3083 | char *cbush_mux[] = {"TRISTATE","RXLED","TXLED", "TXRXLED","PWREN", | |
3084 | "SLEEP","DRIVE_0","DRIVE_1","IOMODE","TXDEN", | |
3085 | "CLK30","CLK15","CLK7_5" | |
3086 | }; | |
91d7a201 UB |
3087 | fprintf(stdout,"ACBUS has %d mA drive%s%s\n", |
3088 | (eeprom->group0_drive+1) *4, | |
3089 | (eeprom->group0_schmitt)?" Schmitt Input":"", | |
3090 | (eeprom->group0_slew)?" Slow Slew":""); | |
3091 | fprintf(stdout,"ADBUS has %d mA drive%s%s\n", | |
3092 | (eeprom->group1_drive+1) *4, | |
3093 | (eeprom->group1_schmitt)?" Schmitt Input":"", | |
3094 | (eeprom->group1_slew)?" Slow Slew":""); | |
263d3ba0 UB |
3095 | for (i=0; i<10; i++) |
3096 | { | |
3097 | if (eeprom->cbus_function[i]<= CBUSH_CLK7_5 ) | |
3098 | fprintf(stdout,"C%d Function: %s\n", i, | |
3099 | cbush_mux[eeprom->cbus_function[i]]); | |
3100 | } | |
3101 | ||
91d7a201 UB |
3102 | } |
3103 | ||
a4980043 UB |
3104 | if (ftdi->type == TYPE_R) |
3105 | { | |
3106 | char *cbus_mux[] = {"TXDEN","PWREN","RXLED", "TXLED","TX+RXLED", | |
13f00d3c | 3107 | "SLEEP","CLK48","CLK24","CLK12","CLK6", |
56ac0383 TJ |
3108 | "IOMODE","BB_WR","BB_RD" |
3109 | }; | |
13f00d3c | 3110 | char *cbus_BB[] = {"RXF","TXE","RD", "WR"}; |
56ac0383 TJ |
3111 | |
3112 | if (eeprom->invert) | |
3113 | { | |
a4980043 UB |
3114 | char *r_bits[] = {"TXD","RXD","RTS", "CTS","DTR","DSR","DCD","RI"}; |
3115 | fprintf(stdout,"Inverted bits:"); | |
3116 | for (i=0; i<8; i++) | |
56ac0383 | 3117 | if ((eeprom->invert & (1<<i)) == (1<<i)) |
a4980043 UB |
3118 | fprintf(stdout," %s",r_bits[i]); |
3119 | fprintf(stdout,"\n"); | |
3120 | } | |
56ac0383 | 3121 | for (i=0; i<5; i++) |
a4980043 | 3122 | { |
56ac0383 | 3123 | if (eeprom->cbus_function[i]<CBUS_BB) |
a4980043 UB |
3124 | fprintf(stdout,"C%d Function: %s\n", i, |
3125 | cbus_mux[eeprom->cbus_function[i]]); | |
3126 | else | |
17431287 | 3127 | { |
598b2334 UB |
3128 | if (i < 4) |
3129 | /* Running MPROG show that C0..3 have fixed function Synchronous | |
3130 | Bit Bang mode */ | |
3131 | fprintf(stdout,"C%d BB Function: %s\n", i, | |
3132 | cbus_BB[i]); | |
3133 | else | |
3134 | fprintf(stdout, "Unknown CBUS mode. Might be special mode?\n"); | |
17431287 | 3135 | } |
a4980043 UB |
3136 | } |
3137 | } | |
f6ef2983 | 3138 | } |
4af1d1bb | 3139 | return 0; |
b56d5a64 MK |
3140 | } |
3141 | ||
1941414d | 3142 | /** |
44ef02bd UB |
3143 | Get a value from the decoded EEPROM structure |
3144 | ||
735e81ea TJ |
3145 | \param ftdi pointer to ftdi_context |
3146 | \param value_name Enum of the value to query | |
3147 | \param value Pointer to store read value | |
44ef02bd | 3148 | |
735e81ea TJ |
3149 | \retval 0: all fine |
3150 | \retval -1: Value doesn't exist | |
44ef02bd UB |
3151 | */ |
3152 | int ftdi_get_eeprom_value(struct ftdi_context *ftdi, enum ftdi_eeprom_value value_name, int* value) | |
3153 | { | |
3154 | switch (value_name) | |
3155 | { | |
56ac0383 TJ |
3156 | case VENDOR_ID: |
3157 | *value = ftdi->eeprom->vendor_id; | |
3158 | break; | |
3159 | case PRODUCT_ID: | |
3160 | *value = ftdi->eeprom->product_id; | |
3161 | break; | |
3162 | case SELF_POWERED: | |
3163 | *value = ftdi->eeprom->self_powered; | |
3164 | break; | |
3165 | case REMOTE_WAKEUP: | |
3166 | *value = ftdi->eeprom->remote_wakeup; | |
3167 | break; | |
3168 | case IS_NOT_PNP: | |
3169 | *value = ftdi->eeprom->is_not_pnp; | |
3170 | break; | |
3171 | case SUSPEND_DBUS7: | |
3172 | *value = ftdi->eeprom->suspend_dbus7; | |
3173 | break; | |
3174 | case IN_IS_ISOCHRONOUS: | |
3175 | *value = ftdi->eeprom->in_is_isochronous; | |
3176 | break; | |
3177 | case SUSPEND_PULL_DOWNS: | |
3178 | *value = ftdi->eeprom->suspend_pull_downs; | |
3179 | break; | |
3180 | case USE_SERIAL: | |
3181 | *value = ftdi->eeprom->use_serial; | |
3182 | break; | |
3183 | case USB_VERSION: | |
3184 | *value = ftdi->eeprom->usb_version; | |
3185 | break; | |
3186 | case MAX_POWER: | |
3187 | *value = ftdi->eeprom->max_power; | |
3188 | break; | |
3189 | case CHANNEL_A_TYPE: | |
3190 | *value = ftdi->eeprom->channel_a_type; | |
3191 | break; | |
3192 | case CHANNEL_B_TYPE: | |
3193 | *value = ftdi->eeprom->channel_b_type; | |
3194 | break; | |
3195 | case CHANNEL_A_DRIVER: | |
3196 | *value = ftdi->eeprom->channel_a_driver; | |
3197 | break; | |
3198 | case CHANNEL_B_DRIVER: | |
3199 | *value = ftdi->eeprom->channel_b_driver; | |
3200 | break; | |
3201 | case CBUS_FUNCTION_0: | |
3202 | *value = ftdi->eeprom->cbus_function[0]; | |
3203 | break; | |
3204 | case CBUS_FUNCTION_1: | |
3205 | *value = ftdi->eeprom->cbus_function[1]; | |
3206 | break; | |
3207 | case CBUS_FUNCTION_2: | |
3208 | *value = ftdi->eeprom->cbus_function[2]; | |
3209 | break; | |
3210 | case CBUS_FUNCTION_3: | |
3211 | *value = ftdi->eeprom->cbus_function[3]; | |
3212 | break; | |
3213 | case CBUS_FUNCTION_4: | |
3214 | *value = ftdi->eeprom->cbus_function[4]; | |
3215 | break; | |
263d3ba0 UB |
3216 | case CBUS_FUNCTION_5: |
3217 | *value = ftdi->eeprom->cbus_function[5]; | |
3218 | break; | |
3219 | case CBUS_FUNCTION_6: | |
3220 | *value = ftdi->eeprom->cbus_function[6]; | |
3221 | break; | |
3222 | case CBUS_FUNCTION_7: | |
3223 | *value = ftdi->eeprom->cbus_function[7]; | |
3224 | break; | |
3225 | case CBUS_FUNCTION_8: | |
3226 | *value = ftdi->eeprom->cbus_function[8]; | |
3227 | break; | |
3228 | case CBUS_FUNCTION_9: | |
3229 | *value = ftdi->eeprom->cbus_function[8]; | |
3230 | break; | |
56ac0383 TJ |
3231 | case HIGH_CURRENT: |
3232 | *value = ftdi->eeprom->high_current; | |
3233 | break; | |
3234 | case HIGH_CURRENT_A: | |
3235 | *value = ftdi->eeprom->high_current_a; | |
3236 | break; | |
3237 | case HIGH_CURRENT_B: | |
3238 | *value = ftdi->eeprom->high_current_b; | |
3239 | break; | |
3240 | case INVERT: | |
3241 | *value = ftdi->eeprom->invert; | |
3242 | break; | |
3243 | case GROUP0_DRIVE: | |
3244 | *value = ftdi->eeprom->group0_drive; | |
3245 | break; | |
3246 | case GROUP0_SCHMITT: | |
3247 | *value = ftdi->eeprom->group0_schmitt; | |
3248 | break; | |
3249 | case GROUP0_SLEW: | |
3250 | *value = ftdi->eeprom->group0_slew; | |
3251 | break; | |
3252 | case GROUP1_DRIVE: | |
3253 | *value = ftdi->eeprom->group1_drive; | |
3254 | break; | |
3255 | case GROUP1_SCHMITT: | |
3256 | *value = ftdi->eeprom->group1_schmitt; | |
3257 | break; | |
3258 | case GROUP1_SLEW: | |
3259 | *value = ftdi->eeprom->group1_slew; | |
3260 | break; | |
3261 | case GROUP2_DRIVE: | |
3262 | *value = ftdi->eeprom->group2_drive; | |
3263 | break; | |
3264 | case GROUP2_SCHMITT: | |
3265 | *value = ftdi->eeprom->group2_schmitt; | |
3266 | break; | |
3267 | case GROUP2_SLEW: | |
3268 | *value = ftdi->eeprom->group2_slew; | |
3269 | break; | |
3270 | case GROUP3_DRIVE: | |
3271 | *value = ftdi->eeprom->group3_drive; | |
3272 | break; | |
3273 | case GROUP3_SCHMITT: | |
3274 | *value = ftdi->eeprom->group3_schmitt; | |
3275 | break; | |
3276 | case GROUP3_SLEW: | |
3277 | *value = ftdi->eeprom->group3_slew; | |
3278 | break; | |
837a71d6 UB |
3279 | case POWER_SAVE: |
3280 | *value = ftdi->eeprom->powersave; | |
3281 | break; | |
18199b76 UB |
3282 | case CLOCK_POLARITY: |
3283 | *value = ftdi->eeprom->clock_polarity; | |
3284 | break; | |
3285 | case DATA_ORDER: | |
3286 | *value = ftdi->eeprom->data_order; | |
3287 | break; | |
3288 | case FLOW_CONTROL: | |
3289 | *value = ftdi->eeprom->flow_control; | |
3290 | break; | |
3291 | case CHIP_TYPE: | |
56ac0383 TJ |
3292 | *value = ftdi->eeprom->chip; |
3293 | break; | |
3294 | case CHIP_SIZE: | |
3295 | *value = ftdi->eeprom->size; | |
3296 | break; | |
3297 | default: | |
3298 | ftdi_error_return(-1, "Request for unknown EEPROM value"); | |
44ef02bd UB |
3299 | } |
3300 | return 0; | |
3301 | } | |
3302 | ||
3303 | /** | |
3304 | Set a value in the decoded EEPROM Structure | |
3305 | No parameter checking is performed | |
3306 | ||
735e81ea | 3307 | \param ftdi pointer to ftdi_context |
545f9df9 | 3308 | \param value_name Enum of the value to set |
735e81ea | 3309 | \param value to set |
44ef02bd | 3310 | |
735e81ea TJ |
3311 | \retval 0: all fine |
3312 | \retval -1: Value doesn't exist | |
3313 | \retval -2: Value not user settable | |
44ef02bd UB |
3314 | */ |
3315 | int ftdi_set_eeprom_value(struct ftdi_context *ftdi, enum ftdi_eeprom_value value_name, int value) | |
3316 | { | |
3317 | switch (value_name) | |
3318 | { | |
56ac0383 TJ |
3319 | case VENDOR_ID: |
3320 | ftdi->eeprom->vendor_id = value; | |
3321 | break; | |
3322 | case PRODUCT_ID: | |
3323 | ftdi->eeprom->product_id = value; | |
3324 | break; | |
3325 | case SELF_POWERED: | |
3326 | ftdi->eeprom->self_powered = value; | |
3327 | break; | |
3328 | case REMOTE_WAKEUP: | |
3329 | ftdi->eeprom->remote_wakeup = value; | |
3330 | break; | |
3331 | case IS_NOT_PNP: | |
3332 | ftdi->eeprom->is_not_pnp = value; | |
3333 | break; | |
3334 | case SUSPEND_DBUS7: | |
3335 | ftdi->eeprom->suspend_dbus7 = value; | |
3336 | break; | |
3337 | case IN_IS_ISOCHRONOUS: | |
3338 | ftdi->eeprom->in_is_isochronous = value; | |
3339 | break; | |
3340 | case SUSPEND_PULL_DOWNS: | |
3341 | ftdi->eeprom->suspend_pull_downs = value; | |
3342 | break; | |
3343 | case USE_SERIAL: | |
3344 | ftdi->eeprom->use_serial = value; | |
3345 | break; | |
3346 | case USB_VERSION: | |
3347 | ftdi->eeprom->usb_version = value; | |
3348 | break; | |
3349 | case MAX_POWER: | |
3350 | ftdi->eeprom->max_power = value; | |
3351 | break; | |
3352 | case CHANNEL_A_TYPE: | |
3353 | ftdi->eeprom->channel_a_type = value; | |
3354 | break; | |
3355 | case CHANNEL_B_TYPE: | |
3356 | ftdi->eeprom->channel_b_type = value; | |
3357 | break; | |
3358 | case CHANNEL_A_DRIVER: | |
3359 | ftdi->eeprom->channel_a_driver = value; | |
3360 | break; | |
3361 | case CHANNEL_B_DRIVER: | |
3362 | ftdi->eeprom->channel_b_driver = value; | |
3363 | break; | |
3364 | case CBUS_FUNCTION_0: | |
3365 | ftdi->eeprom->cbus_function[0] = value; | |
3366 | break; | |
3367 | case CBUS_FUNCTION_1: | |
3368 | ftdi->eeprom->cbus_function[1] = value; | |
3369 | break; | |
3370 | case CBUS_FUNCTION_2: | |
3371 | ftdi->eeprom->cbus_function[2] = value; | |
3372 | break; | |
3373 | case CBUS_FUNCTION_3: | |
3374 | ftdi->eeprom->cbus_function[3] = value; | |
3375 | break; | |
3376 | case CBUS_FUNCTION_4: | |
3377 | ftdi->eeprom->cbus_function[4] = value; | |
3378 | break; | |
263d3ba0 UB |
3379 | case CBUS_FUNCTION_5: |
3380 | ftdi->eeprom->cbus_function[5] = value; | |
3381 | break; | |
3382 | case CBUS_FUNCTION_6: | |
3383 | ftdi->eeprom->cbus_function[6] = value; | |
3384 | break; | |
3385 | case CBUS_FUNCTION_7: | |
3386 | ftdi->eeprom->cbus_function[7] = value; | |
3387 | break; | |
3388 | case CBUS_FUNCTION_8: | |
3389 | ftdi->eeprom->cbus_function[8] = value; | |
3390 | break; | |
3391 | case CBUS_FUNCTION_9: | |
3392 | ftdi->eeprom->cbus_function[9] = value; | |
3393 | break; | |
56ac0383 TJ |
3394 | case HIGH_CURRENT: |
3395 | ftdi->eeprom->high_current = value; | |
3396 | break; | |
3397 | case HIGH_CURRENT_A: | |
3398 | ftdi->eeprom->high_current_a = value; | |
3399 | break; | |
3400 | case HIGH_CURRENT_B: | |
3401 | ftdi->eeprom->high_current_b = value; | |
3402 | break; | |
3403 | case INVERT: | |
3404 | ftdi->eeprom->invert = value; | |
3405 | break; | |
3406 | case GROUP0_DRIVE: | |
3407 | ftdi->eeprom->group0_drive = value; | |
3408 | break; | |
3409 | case GROUP0_SCHMITT: | |
3410 | ftdi->eeprom->group0_schmitt = value; | |
3411 | break; | |
3412 | case GROUP0_SLEW: | |
3413 | ftdi->eeprom->group0_slew = value; | |
3414 | break; | |
3415 | case GROUP1_DRIVE: | |
3416 | ftdi->eeprom->group1_drive = value; | |
3417 | break; | |
3418 | case GROUP1_SCHMITT: | |
3419 | ftdi->eeprom->group1_schmitt = value; | |
3420 | break; | |
3421 | case GROUP1_SLEW: | |
3422 | ftdi->eeprom->group1_slew = value; | |
3423 | break; | |
3424 | case GROUP2_DRIVE: | |
3425 | ftdi->eeprom->group2_drive = value; | |
3426 | break; | |
3427 | case GROUP2_SCHMITT: | |
3428 | ftdi->eeprom->group2_schmitt = value; | |
3429 | break; | |
3430 | case GROUP2_SLEW: | |
3431 | ftdi->eeprom->group2_slew = value; | |
3432 | break; | |
3433 | case GROUP3_DRIVE: | |
3434 | ftdi->eeprom->group3_drive = value; | |
3435 | break; | |
3436 | case GROUP3_SCHMITT: | |
3437 | ftdi->eeprom->group3_schmitt = value; | |
3438 | break; | |
3439 | case GROUP3_SLEW: | |
3440 | ftdi->eeprom->group3_slew = value; | |
3441 | break; | |
3442 | case CHIP_TYPE: | |
3443 | ftdi->eeprom->chip = value; | |
3444 | break; | |
837a71d6 UB |
3445 | case POWER_SAVE: |
3446 | ftdi->eeprom->powersave = value; | |
3447 | break; | |
18199b76 UB |
3448 | case CLOCK_POLARITY: |
3449 | ftdi->eeprom->clock_polarity = value; | |
3450 | break; | |
3451 | case DATA_ORDER: | |
3452 | ftdi->eeprom->data_order = value; | |
3453 | break; | |
3454 | case FLOW_CONTROL: | |
3455 | ftdi->eeprom->flow_control = value; | |
3456 | break; | |
56ac0383 TJ |
3457 | case CHIP_SIZE: |
3458 | ftdi_error_return(-2, "EEPROM Value can't be changed"); | |
3459 | default : | |
3460 | ftdi_error_return(-1, "Request to unknown EEPROM value"); | |
44ef02bd UB |
3461 | } |
3462 | return 0; | |
3463 | } | |
3464 | ||
3465 | /** Get the read-only buffer to the binary EEPROM content | |
3466 | ||
3467 | \param ftdi pointer to ftdi_context | |
735e81ea | 3468 | \param buf buffer to receive EEPROM content |
44ef02bd UB |
3469 | \param size Size of receiving buffer |
3470 | ||
3471 | \retval 0: All fine | |
3472 | \retval -1: struct ftdi_contxt or ftdi_eeprom missing | |
200bd3ed | 3473 | \retval -2: Not enough room to store eeprom |
44ef02bd | 3474 | */ |
56ac0383 TJ |
3475 | int ftdi_get_eeprom_buf(struct ftdi_context *ftdi, unsigned char * buf, int size) |
3476 | { | |
3477 | if (!ftdi || !(ftdi->eeprom)) | |
3478 | ftdi_error_return(-1, "No appropriate structure"); | |
b95e4654 | 3479 | |
200bd3ed TJ |
3480 | if (!buf || size < ftdi->eeprom->size) |
3481 | ftdi_error_return(-1, "Not enough room to store eeprom"); | |
3482 | ||
b95e4654 TJ |
3483 | // Only copy up to FTDI_MAX_EEPROM_SIZE bytes |
3484 | if (size > FTDI_MAX_EEPROM_SIZE) | |
3485 | size = FTDI_MAX_EEPROM_SIZE; | |
3486 | ||
56ac0383 | 3487 | memcpy(buf, ftdi->eeprom->buf, size); |
b95e4654 | 3488 | |
56ac0383 TJ |
3489 | return 0; |
3490 | } | |
44ef02bd UB |
3491 | |
3492 | /** | |
c1c70e13 OS |
3493 | Read eeprom location |
3494 | ||
3495 | \param ftdi pointer to ftdi_context | |
3496 | \param eeprom_addr Address of eeprom location to be read | |
3497 | \param eeprom_val Pointer to store read eeprom location | |
3498 | ||
3499 | \retval 0: all fine | |
3500 | \retval -1: read failed | |
22a1b5c1 | 3501 | \retval -2: USB device unavailable |
c1c70e13 OS |
3502 | */ |
3503 | int ftdi_read_eeprom_location (struct ftdi_context *ftdi, int eeprom_addr, unsigned short *eeprom_val) | |
3504 | { | |
22a1b5c1 TJ |
3505 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
3506 | ftdi_error_return(-2, "USB device unavailable"); | |
3507 | ||
97c6b5f6 | 3508 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_IN_REQTYPE, SIO_READ_EEPROM_REQUEST, 0, eeprom_addr, (unsigned char *)eeprom_val, 2, ftdi->usb_read_timeout) != 2) |
c1c70e13 OS |
3509 | ftdi_error_return(-1, "reading eeprom failed"); |
3510 | ||
3511 | return 0; | |
3512 | } | |
3513 | ||
3514 | /** | |
1941414d TJ |
3515 | Read eeprom |
3516 | ||
3517 | \param ftdi pointer to ftdi_context | |
b8aa7b35 | 3518 | |
1941414d TJ |
3519 | \retval 0: all fine |
3520 | \retval -1: read failed | |
22a1b5c1 | 3521 | \retval -2: USB device unavailable |
1941414d | 3522 | */ |
a35aa9bd | 3523 | int ftdi_read_eeprom(struct ftdi_context *ftdi) |
a8f46ddc | 3524 | { |
a3da1d95 | 3525 | int i; |
a35aa9bd | 3526 | unsigned char *buf; |
a3da1d95 | 3527 | |
22a1b5c1 TJ |
3528 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
3529 | ftdi_error_return(-2, "USB device unavailable"); | |
a35aa9bd | 3530 | buf = ftdi->eeprom->buf; |
22a1b5c1 | 3531 | |
2d543486 | 3532 | for (i = 0; i < FTDI_MAX_EEPROM_SIZE/2; i++) |
22d12cda | 3533 | { |
a35aa9bd | 3534 | if (libusb_control_transfer( |
56ac0383 TJ |
3535 | ftdi->usb_dev, FTDI_DEVICE_IN_REQTYPE,SIO_READ_EEPROM_REQUEST, 0, i, |
3536 | buf+(i*2), 2, ftdi->usb_read_timeout) != 2) | |
c3d95b87 | 3537 | ftdi_error_return(-1, "reading eeprom failed"); |
a3da1d95 GE |
3538 | } |
3539 | ||
2d543486 | 3540 | if (ftdi->type == TYPE_R) |
a35aa9bd | 3541 | ftdi->eeprom->size = 0x80; |
56ac0383 | 3542 | /* Guesses size of eeprom by comparing halves |
2d543486 | 3543 | - will not work with blank eeprom */ |
a35aa9bd | 3544 | else if (strrchr((const char *)buf, 0xff) == ((const char *)buf +FTDI_MAX_EEPROM_SIZE -1)) |
2d543486 | 3545 | ftdi->eeprom->size = -1; |
56ac0383 | 3546 | else if (memcmp(buf,&buf[0x80],0x80) == 0) |
2d543486 | 3547 | ftdi->eeprom->size = 0x80; |
56ac0383 | 3548 | else if (memcmp(buf,&buf[0x40],0x40) == 0) |
2d543486 UB |
3549 | ftdi->eeprom->size = 0x40; |
3550 | else | |
3551 | ftdi->eeprom->size = 0x100; | |
a3da1d95 GE |
3552 | return 0; |
3553 | } | |
3554 | ||
cb6250fa TJ |
3555 | /* |
3556 | ftdi_read_chipid_shift does the bitshift operation needed for the FTDIChip-ID | |
3557 | Function is only used internally | |
3558 | \internal | |
3559 | */ | |
3560 | static unsigned char ftdi_read_chipid_shift(unsigned char value) | |
3561 | { | |
3562 | return ((value & 1) << 1) | | |
22d12cda TJ |
3563 | ((value & 2) << 5) | |
3564 | ((value & 4) >> 2) | | |
3565 | ((value & 8) << 4) | | |
3566 | ((value & 16) >> 1) | | |
3567 | ((value & 32) >> 1) | | |
3568 | ((value & 64) >> 4) | | |
3569 | ((value & 128) >> 2); | |
cb6250fa TJ |
3570 | } |
3571 | ||
3572 | /** | |
3573 | Read the FTDIChip-ID from R-type devices | |
3574 | ||
3575 | \param ftdi pointer to ftdi_context | |
3576 | \param chipid Pointer to store FTDIChip-ID | |
3577 | ||
3578 | \retval 0: all fine | |
3579 | \retval -1: read failed | |
22a1b5c1 | 3580 | \retval -2: USB device unavailable |
cb6250fa TJ |
3581 | */ |
3582 | int ftdi_read_chipid(struct ftdi_context *ftdi, unsigned int *chipid) | |
3583 | { | |
c7eb3112 | 3584 | unsigned int a = 0, b = 0; |
cb6250fa | 3585 | |
22a1b5c1 TJ |
3586 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
3587 | ftdi_error_return(-2, "USB device unavailable"); | |
3588 | ||
579b006f | 3589 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_IN_REQTYPE, SIO_READ_EEPROM_REQUEST, 0, 0x43, (unsigned char *)&a, 2, ftdi->usb_read_timeout) == 2) |
cb6250fa TJ |
3590 | { |
3591 | a = a << 8 | a >> 8; | |
579b006f | 3592 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_IN_REQTYPE, SIO_READ_EEPROM_REQUEST, 0, 0x44, (unsigned char *)&b, 2, ftdi->usb_read_timeout) == 2) |
cb6250fa TJ |
3593 | { |
3594 | b = b << 8 | b >> 8; | |
5230676f | 3595 | a = (a << 16) | (b & 0xFFFF); |
912d50ca TJ |
3596 | a = ftdi_read_chipid_shift(a) | ftdi_read_chipid_shift(a>>8)<<8 |
3597 | | ftdi_read_chipid_shift(a>>16)<<16 | ftdi_read_chipid_shift(a>>24)<<24; | |
cb6250fa | 3598 | *chipid = a ^ 0xa5f0f7d1; |
c7eb3112 | 3599 | return 0; |
cb6250fa TJ |
3600 | } |
3601 | } | |
3602 | ||
c7eb3112 | 3603 | ftdi_error_return(-1, "read of FTDIChip-ID failed"); |
cb6250fa TJ |
3604 | } |
3605 | ||
1941414d | 3606 | /** |
c1c70e13 OS |
3607 | Write eeprom location |
3608 | ||
3609 | \param ftdi pointer to ftdi_context | |
3610 | \param eeprom_addr Address of eeprom location to be written | |
3611 | \param eeprom_val Value to be written | |
3612 | ||
3613 | \retval 0: all fine | |
a661e3e4 | 3614 | \retval -1: write failed |
22a1b5c1 | 3615 | \retval -2: USB device unavailable |
a661e3e4 UB |
3616 | \retval -3: Invalid access to checksum protected area below 0x80 |
3617 | \retval -4: Device can't access unprotected area | |
3618 | \retval -5: Reading chip type failed | |
c1c70e13 | 3619 | */ |
56ac0383 | 3620 | int ftdi_write_eeprom_location(struct ftdi_context *ftdi, int eeprom_addr, |
a661e3e4 | 3621 | unsigned short eeprom_val) |
c1c70e13 | 3622 | { |
a661e3e4 UB |
3623 | int chip_type_location; |
3624 | unsigned short chip_type; | |
3625 | ||
22a1b5c1 TJ |
3626 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
3627 | ftdi_error_return(-2, "USB device unavailable"); | |
3628 | ||
56ac0383 | 3629 | if (eeprom_addr <0x80) |
a661e3e4 UB |
3630 | ftdi_error_return(-2, "Invalid access to checksum protected area below 0x80"); |
3631 | ||
3632 | ||
3633 | switch (ftdi->type) | |
3634 | { | |
56ac0383 TJ |
3635 | case TYPE_BM: |
3636 | case TYPE_2232C: | |
3637 | chip_type_location = 0x14; | |
3638 | break; | |
3639 | case TYPE_2232H: | |
3640 | case TYPE_4232H: | |
3641 | chip_type_location = 0x18; | |
3642 | break; | |
c7e4c09e UB |
3643 | case TYPE_232H: |
3644 | chip_type_location = 0x1e; | |
3645 | break; | |
56ac0383 TJ |
3646 | default: |
3647 | ftdi_error_return(-4, "Device can't access unprotected area"); | |
a661e3e4 UB |
3648 | } |
3649 | ||
56ac0383 | 3650 | if (ftdi_read_eeprom_location( ftdi, chip_type_location>>1, &chip_type)) |
a661e3e4 | 3651 | ftdi_error_return(-5, "Reading failed failed"); |
56ac0383 TJ |
3652 | fprintf(stderr," loc 0x%04x val 0x%04x\n", chip_type_location,chip_type); |
3653 | if ((chip_type & 0xff) != 0x66) | |
a661e3e4 UB |
3654 | { |
3655 | ftdi_error_return(-6, "EEPROM is not of 93x66"); | |
3656 | } | |
3657 | ||
579b006f | 3658 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
56ac0383 TJ |
3659 | SIO_WRITE_EEPROM_REQUEST, eeprom_val, eeprom_addr, |
3660 | NULL, 0, ftdi->usb_write_timeout) != 0) | |
c1c70e13 OS |
3661 | ftdi_error_return(-1, "unable to write eeprom"); |
3662 | ||
3663 | return 0; | |
3664 | } | |
3665 | ||
3666 | /** | |
1941414d | 3667 | Write eeprom |
a3da1d95 | 3668 | |
1941414d | 3669 | \param ftdi pointer to ftdi_context |
56ac0383 | 3670 | |
1941414d TJ |
3671 | \retval 0: all fine |
3672 | \retval -1: read failed | |
22a1b5c1 | 3673 | \retval -2: USB device unavailable |
1941414d | 3674 | */ |
a35aa9bd | 3675 | int ftdi_write_eeprom(struct ftdi_context *ftdi) |
a8f46ddc | 3676 | { |
ba5329be | 3677 | unsigned short usb_val, status; |
e30da501 | 3678 | int i, ret; |
a35aa9bd | 3679 | unsigned char *eeprom; |
a3da1d95 | 3680 | |
22a1b5c1 TJ |
3681 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
3682 | ftdi_error_return(-2, "USB device unavailable"); | |
a35aa9bd | 3683 | eeprom = ftdi->eeprom->buf; |
22a1b5c1 | 3684 | |
ba5329be | 3685 | /* These commands were traced while running MProg */ |
e30da501 TJ |
3686 | if ((ret = ftdi_usb_reset(ftdi)) != 0) |
3687 | return ret; | |
3688 | if ((ret = ftdi_poll_modem_status(ftdi, &status)) != 0) | |
3689 | return ret; | |
3690 | if ((ret = ftdi_set_latency_timer(ftdi, 0x77)) != 0) | |
3691 | return ret; | |
ba5329be | 3692 | |
c0a96aed | 3693 | for (i = 0; i < ftdi->eeprom->size/2; i++) |
22d12cda | 3694 | { |
d9f0cce7 TJ |
3695 | usb_val = eeprom[i*2]; |
3696 | usb_val += eeprom[(i*2)+1] << 8; | |
579b006f JZ |
3697 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
3698 | SIO_WRITE_EEPROM_REQUEST, usb_val, i, | |
3699 | NULL, 0, ftdi->usb_write_timeout) < 0) | |
c3d95b87 | 3700 | ftdi_error_return(-1, "unable to write eeprom"); |
a3da1d95 GE |
3701 | } |
3702 | ||
3703 | return 0; | |
3704 | } | |
3705 | ||
1941414d TJ |
3706 | /** |
3707 | Erase eeprom | |
a3da1d95 | 3708 | |
a5e1bd8c MK |
3709 | This is not supported on FT232R/FT245R according to the MProg manual from FTDI. |
3710 | ||
1941414d TJ |
3711 | \param ftdi pointer to ftdi_context |
3712 | ||
3713 | \retval 0: all fine | |
3714 | \retval -1: erase failed | |
22a1b5c1 | 3715 | \retval -2: USB device unavailable |
99404ad5 UB |
3716 | \retval -3: Writing magic failed |
3717 | \retval -4: Read EEPROM failed | |
3718 | \retval -5: Unexpected EEPROM value | |
1941414d | 3719 | */ |
99404ad5 | 3720 | #define MAGIC 0x55aa |
a8f46ddc TJ |
3721 | int ftdi_erase_eeprom(struct ftdi_context *ftdi) |
3722 | { | |
99404ad5 | 3723 | unsigned short eeprom_value; |
22a1b5c1 TJ |
3724 | if (ftdi == NULL || ftdi->usb_dev == NULL) |
3725 | ftdi_error_return(-2, "USB device unavailable"); | |
3726 | ||
56ac0383 | 3727 | if (ftdi->type == TYPE_R) |
99404ad5 UB |
3728 | { |
3729 | ftdi->eeprom->chip = 0; | |
3730 | return 0; | |
3731 | } | |
3732 | ||
56ac0383 | 3733 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, SIO_ERASE_EEPROM_REQUEST, |
99404ad5 | 3734 | 0, 0, NULL, 0, ftdi->usb_write_timeout) < 0) |
c3d95b87 | 3735 | ftdi_error_return(-1, "unable to erase eeprom"); |
a3da1d95 | 3736 | |
56ac0383 | 3737 | |
99404ad5 UB |
3738 | /* detect chip type by writing 0x55AA as magic at word position 0xc0 |
3739 | Chip is 93x46 if magic is read at word position 0x00, as wraparound happens around 0x40 | |
3740 | Chip is 93x56 if magic is read at word position 0x40, as wraparound happens around 0x80 | |
3741 | Chip is 93x66 if magic is only read at word position 0xc0*/ | |
10186c1f | 3742 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, |
56ac0383 TJ |
3743 | SIO_WRITE_EEPROM_REQUEST, MAGIC, 0xc0, |
3744 | NULL, 0, ftdi->usb_write_timeout) != 0) | |
99404ad5 | 3745 | ftdi_error_return(-3, "Writing magic failed"); |
56ac0383 | 3746 | if (ftdi_read_eeprom_location( ftdi, 0x00, &eeprom_value)) |
99404ad5 | 3747 | ftdi_error_return(-4, "Reading failed failed"); |
56ac0383 | 3748 | if (eeprom_value == MAGIC) |
99404ad5 UB |
3749 | { |
3750 | ftdi->eeprom->chip = 0x46; | |
3751 | } | |
56ac0383 | 3752 | else |
99404ad5 | 3753 | { |
56ac0383 | 3754 | if (ftdi_read_eeprom_location( ftdi, 0x40, &eeprom_value)) |
99404ad5 | 3755 | ftdi_error_return(-4, "Reading failed failed"); |
56ac0383 | 3756 | if (eeprom_value == MAGIC) |
99404ad5 | 3757 | ftdi->eeprom->chip = 0x56; |
56ac0383 | 3758 | else |
99404ad5 | 3759 | { |
56ac0383 | 3760 | if (ftdi_read_eeprom_location( ftdi, 0xc0, &eeprom_value)) |
99404ad5 | 3761 | ftdi_error_return(-4, "Reading failed failed"); |
56ac0383 | 3762 | if (eeprom_value == MAGIC) |
99404ad5 UB |
3763 | ftdi->eeprom->chip = 0x66; |
3764 | else | |
3765 | { | |
3766 | ftdi->eeprom->chip = -1; | |
3767 | } | |
3768 | } | |
3769 | } | |
56ac0383 | 3770 | if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE, SIO_ERASE_EEPROM_REQUEST, |
99404ad5 UB |
3771 | 0, 0, NULL, 0, ftdi->usb_write_timeout) < 0) |
3772 | ftdi_error_return(-1, "unable to erase eeprom"); | |
a3da1d95 GE |
3773 | return 0; |
3774 | } | |
c3d95b87 | 3775 | |
1941414d TJ |
3776 | /** |
3777 | Get string representation for last error code | |
c3d95b87 | 3778 | |
1941414d TJ |
3779 | \param ftdi pointer to ftdi_context |
3780 | ||
3781 | \retval Pointer to error string | |
3782 | */ | |
c3d95b87 TJ |
3783 | char *ftdi_get_error_string (struct ftdi_context *ftdi) |
3784 | { | |
22a1b5c1 TJ |
3785 | if (ftdi == NULL) |
3786 | return ""; | |
3787 | ||
c3d95b87 TJ |
3788 | return ftdi->error_str; |
3789 | } | |
a01d31e2 | 3790 | |
b5ec1820 | 3791 | /* @} end of doxygen libftdi group */ |