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Added tip in documentation on how to translate quirky syntax
[openocd.git] / src / jtag / core.c
1 /***************************************************************************
2 * Copyright (C) 2009 Zachary T Welch *
3 * zw@superlucidity.net *
4 * *
5 * Copyright (C) 2007,2008,2009 Øyvind Harboe *
6 * oyvind.harboe@zylin.com *
7 * *
8 * Copyright (C) 2009 SoftPLC Corporation *
9 * http://softplc.com *
10 * dick@softplc.com *
11 * *
12 * Copyright (C) 2005 by Dominic Rath *
13 * Dominic.Rath@gmx.de *
14 * *
15 * This program is free software; you can redistribute it and/or modify *
16 * it under the terms of the GNU General Public License as published by *
17 * the Free Software Foundation; either version 2 of the License, or *
18 * (at your option) any later version. *
19 * *
20 * This program is distributed in the hope that it will be useful, *
21 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
22 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
23 * GNU General Public License for more details. *
24 * *
25 * You should have received a copy of the GNU General Public License *
26 * along with this program; if not, write to the *
27 * Free Software Foundation, Inc., *
28 * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
29 ***************************************************************************/
30 #ifdef HAVE_CONFIG_H
31 #include "config.h"
32 #endif
33
34 #include "jtag.h"
35 #include "minidriver.h"
36 #include "interface.h"
37
38 #ifdef HAVE_STRINGS_H
39 #include <strings.h>
40 #endif
41
42
43 /// The number of JTAG queue flushes (for profiling and debugging purposes).
44 static int jtag_flush_queue_count;
45
46 static void jtag_add_scan_check(void (*jtag_add_scan)(int in_num_fields, const scan_field_t *in_fields, tap_state_t state),
47 int in_num_fields, scan_field_t *in_fields, tap_state_t state);
48
49 /**
50 * The jtag_error variable is set when an error occurs while executing
51 * the queue. Application code may set this using jtag_set_error(),
52 * when an error occurs during processing that should be reported during
53 * jtag_execute_queue().
54 *
55 * Tts value may be checked with jtag_get_error() and cleared with
56 * jtag_error_clear(). This value is returned (and cleared) by
57 * jtag_execute_queue().
58 */
59 static int jtag_error = ERROR_OK;
60
61 static const char *jtag_event_strings[] =
62 {
63 [JTAG_TRST_ASSERTED] = "TAP reset",
64 [JTAG_TAP_EVENT_SETUP] = "TAP setup",
65 [JTAG_TAP_EVENT_ENABLE] = "TAP enabled",
66 [JTAG_TAP_EVENT_DISABLE] = "TAP disabled",
67 };
68
69 /*
70 * JTAG adapters must initialize with TRST and SRST de-asserted
71 * (they're negative logic, so that means *high*). But some
72 * hardware doesn't necessarily work that way ... so set things
73 * up so that jtag_init() always forces that state.
74 */
75 static int jtag_trst = -1;
76 static int jtag_srst = -1;
77
78 /**
79 * List all TAPs that have been created.
80 */
81 static jtag_tap_t *__jtag_all_taps = NULL;
82 /**
83 * The number of TAPs in the __jtag_all_taps list, used to track the
84 * assigned chain position to new TAPs
85 */
86 static unsigned jtag_num_taps = 0;
87
88 static enum reset_types jtag_reset_config = RESET_NONE;
89 static tap_state_t cmd_queue_end_state = TAP_RESET;
90 tap_state_t cmd_queue_cur_state = TAP_RESET;
91
92 static bool jtag_verify_capture_ir = true;
93 static int jtag_verify = 1;
94
95 /* how long the OpenOCD should wait before attempting JTAG communication after reset lines deasserted (in ms) */
96 static int jtag_nsrst_delay = 0; /* default to no nSRST delay */
97 static int jtag_ntrst_delay = 0; /* default to no nTRST delay */
98 static int jtag_nsrst_assert_width = 0; /* width of assertion */
99 static int jtag_ntrst_assert_width = 0; /* width of assertion */
100
101 typedef struct jtag_event_callback_s
102 {
103 jtag_event_handler_t callback;
104 void* priv;
105 struct jtag_event_callback_s* next;
106 } jtag_event_callback_t;
107
108 /* callbacks to inform high-level handlers about JTAG state changes */
109 static jtag_event_callback_t *jtag_event_callbacks;
110
111 /* speed in kHz*/
112 static int speed_khz = 0;
113 /* speed to fallback to when RCLK is requested but not supported */
114 static int rclk_fallback_speed_khz = 0;
115 static enum {CLOCK_MODE_SPEED, CLOCK_MODE_KHZ, CLOCK_MODE_RCLK} clock_mode;
116 static int jtag_speed = 0;
117
118 static struct jtag_interface_s *jtag = NULL;
119
120 /* configuration */
121 jtag_interface_t *jtag_interface = NULL;
122
123 void jtag_set_error(int error)
124 {
125 if ((error == ERROR_OK) || (jtag_error != ERROR_OK))
126 return;
127 jtag_error = error;
128 }
129 int jtag_get_error(void)
130 {
131 return jtag_error;
132 }
133 int jtag_error_clear(void)
134 {
135 int temp = jtag_error;
136 jtag_error = ERROR_OK;
137 return temp;
138 }
139
140 /************/
141
142 static bool jtag_poll = 1;
143
144 bool is_jtag_poll_safe(void)
145 {
146 /* Polling can be disabled explicitly with set_enabled(false).
147 * It is also implicitly disabled while TRST is active and
148 * while SRST is gating the JTAG clock.
149 */
150 if (!jtag_poll || jtag_trst != 0)
151 return false;
152 return jtag_srst == 0 || (jtag_reset_config & RESET_SRST_NO_GATING);
153 }
154
155 bool jtag_poll_get_enabled(void)
156 {
157 return jtag_poll;
158 }
159
160 void jtag_poll_set_enabled(bool value)
161 {
162 jtag_poll = value;
163 }
164
165 /************/
166
167 jtag_tap_t *jtag_all_taps(void)
168 {
169 return __jtag_all_taps;
170 };
171
172 unsigned jtag_tap_count(void)
173 {
174 return jtag_num_taps;
175 }
176
177 unsigned jtag_tap_count_enabled(void)
178 {
179 jtag_tap_t *t = jtag_all_taps();
180 unsigned n = 0;
181 while (t)
182 {
183 if (t->enabled)
184 n++;
185 t = t->next_tap;
186 }
187 return n;
188 }
189
190 /// Append a new TAP to the chain of all taps.
191 void jtag_tap_add(struct jtag_tap_s *t)
192 {
193 t->abs_chain_position = jtag_num_taps++;
194
195 jtag_tap_t **tap = &__jtag_all_taps;
196 while (*tap != NULL)
197 tap = &(*tap)->next_tap;
198 *tap = t;
199 }
200
201 /* returns a pointer to the n-th device in the scan chain */
202 static inline jtag_tap_t *jtag_tap_by_position(unsigned n)
203 {
204 jtag_tap_t *t = jtag_all_taps();
205
206 while (t && n-- > 0)
207 t = t->next_tap;
208
209 return t;
210 }
211
212 jtag_tap_t *jtag_tap_by_string(const char *s)
213 {
214 /* try by name first */
215 jtag_tap_t *t = jtag_all_taps();
216
217 while (t)
218 {
219 if (0 == strcmp(t->dotted_name, s))
220 return t;
221 t = t->next_tap;
222 }
223
224 /* no tap found by name, so try to parse the name as a number */
225 unsigned n;
226 if (parse_uint(s, &n) != ERROR_OK)
227 return NULL;
228
229 /* FIXME remove this numeric fallback code late June 2010, along
230 * with all info in the User's Guide that TAPs have numeric IDs.
231 * Also update "scan_chain" output to not display the numbers.
232 */
233 t = jtag_tap_by_position(n);
234 if (t)
235 LOG_WARNING("Specify TAP '%s' by name, not number %u",
236 t->dotted_name, n);
237
238 return t;
239 }
240
241 jtag_tap_t *jtag_tap_by_jim_obj(Jim_Interp *interp, Jim_Obj *o)
242 {
243 const char *cp = Jim_GetString(o, NULL);
244 jtag_tap_t *t = cp ? jtag_tap_by_string(cp) : NULL;
245 if (NULL == cp)
246 cp = "(unknown)";
247 if (NULL == t)
248 Jim_SetResult_sprintf(interp, "Tap '%s' could not be found", cp);
249 return t;
250 }
251
252 jtag_tap_t* jtag_tap_next_enabled(jtag_tap_t* p)
253 {
254 p = p ? p->next_tap : jtag_all_taps();
255 while (p)
256 {
257 if (p->enabled)
258 return p;
259 p = p->next_tap;
260 }
261 return NULL;
262 }
263
264 const char *jtag_tap_name(const jtag_tap_t *tap)
265 {
266 return (tap == NULL) ? "(unknown)" : tap->dotted_name;
267 }
268
269
270 int jtag_register_event_callback(jtag_event_handler_t callback, void *priv)
271 {
272 jtag_event_callback_t **callbacks_p = &jtag_event_callbacks;
273
274 if (callback == NULL)
275 {
276 return ERROR_INVALID_ARGUMENTS;
277 }
278
279 if (*callbacks_p)
280 {
281 while ((*callbacks_p)->next)
282 callbacks_p = &((*callbacks_p)->next);
283 callbacks_p = &((*callbacks_p)->next);
284 }
285
286 (*callbacks_p) = malloc(sizeof(jtag_event_callback_t));
287 (*callbacks_p)->callback = callback;
288 (*callbacks_p)->priv = priv;
289 (*callbacks_p)->next = NULL;
290
291 return ERROR_OK;
292 }
293
294 int jtag_unregister_event_callback(jtag_event_handler_t callback, void *priv)
295 {
296 jtag_event_callback_t **callbacks_p;
297 jtag_event_callback_t **next;
298
299 if (callback == NULL)
300 {
301 return ERROR_INVALID_ARGUMENTS;
302 }
303
304 for (callbacks_p = &jtag_event_callbacks;
305 *callbacks_p != NULL;
306 callbacks_p = next)
307 {
308 next = &((*callbacks_p)->next);
309
310 if ((*callbacks_p)->priv != priv)
311 continue;
312
313 if ((*callbacks_p)->callback == callback)
314 {
315 free(*callbacks_p);
316 *callbacks_p = *next;
317 }
318 }
319
320 return ERROR_OK;
321 }
322
323 int jtag_call_event_callbacks(enum jtag_event event)
324 {
325 jtag_event_callback_t *callback = jtag_event_callbacks;
326
327 LOG_DEBUG("jtag event: %s", jtag_event_strings[event]);
328
329 while (callback)
330 {
331 jtag_event_callback_t *next;
332
333 /* callback may remove itself */
334 next = callback->next;
335 callback->callback(event, callback->priv);
336 callback = next;
337 }
338
339 return ERROR_OK;
340 }
341
342 static void jtag_checks(void)
343 {
344 assert(jtag_trst == 0);
345 }
346
347 static void jtag_prelude(tap_state_t state)
348 {
349 jtag_checks();
350
351 assert(state != TAP_INVALID);
352
353 cmd_queue_cur_state = state;
354 }
355
356 void jtag_alloc_in_value32(scan_field_t *field)
357 {
358 interface_jtag_alloc_in_value32(field);
359 }
360
361 void jtag_add_ir_scan_noverify(int in_count, const scan_field_t *in_fields,
362 tap_state_t state)
363 {
364 jtag_prelude(state);
365
366 int retval = interface_jtag_add_ir_scan(in_count, in_fields, state);
367 jtag_set_error(retval);
368 }
369
370
371 void jtag_add_ir_scan(int in_num_fields, scan_field_t *in_fields, tap_state_t state)
372 {
373 assert(state != TAP_RESET);
374
375 if (jtag_verify && jtag_verify_capture_ir)
376 {
377 /* 8 x 32 bit id's is enough for all invocations */
378
379 for (int j = 0; j < in_num_fields; j++)
380 {
381 /* if we are to run a verification of the ir scan, we need to get the input back.
382 * We may have to allocate space if the caller didn't ask for the input back.
383 */
384 in_fields[j].check_value = in_fields[j].tap->expected;
385 in_fields[j].check_mask = in_fields[j].tap->expected_mask;
386 }
387 jtag_add_scan_check(jtag_add_ir_scan_noverify, in_num_fields, in_fields, state);
388 } else
389 {
390 jtag_add_ir_scan_noverify(in_num_fields, in_fields, state);
391 }
392 }
393
394 void jtag_add_plain_ir_scan(int in_num_fields, const scan_field_t *in_fields,
395 tap_state_t state)
396 {
397 assert(state != TAP_RESET);
398
399 jtag_prelude(state);
400
401 int retval = interface_jtag_add_plain_ir_scan(
402 in_num_fields, in_fields, state);
403 jtag_set_error(retval);
404 }
405
406 void jtag_add_callback(jtag_callback1_t f, jtag_callback_data_t data0)
407 {
408 interface_jtag_add_callback(f, data0);
409 }
410
411 void jtag_add_callback4(jtag_callback_t f, jtag_callback_data_t data0,
412 jtag_callback_data_t data1, jtag_callback_data_t data2,
413 jtag_callback_data_t data3)
414 {
415 interface_jtag_add_callback4(f, data0, data1, data2, data3);
416 }
417
418 static int jtag_check_value_inner(uint8_t *captured, uint8_t *in_check_value,
419 uint8_t *in_check_mask, int num_bits);
420
421 static int jtag_check_value_mask_callback(jtag_callback_data_t data0, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3)
422 {
423 return jtag_check_value_inner((uint8_t *)data0, (uint8_t *)data1, (uint8_t *)data2, (int)data3);
424 }
425
426 static void jtag_add_scan_check(void (*jtag_add_scan)(int in_num_fields, const scan_field_t *in_fields, tap_state_t state),
427 int in_num_fields, scan_field_t *in_fields, tap_state_t state)
428 {
429 for (int i = 0; i < in_num_fields; i++)
430 {
431 struct scan_field_s *field = &in_fields[i];
432 field->allocated = 0;
433 field->modified = 0;
434 if (field->check_value || field->in_value)
435 continue;
436 interface_jtag_add_scan_check_alloc(field);
437 field->modified = 1;
438 }
439
440 jtag_add_scan(in_num_fields, in_fields, state);
441
442 for (int i = 0; i < in_num_fields; i++)
443 {
444 if ((in_fields[i].check_value != NULL) && (in_fields[i].in_value != NULL))
445 {
446 /* this is synchronous for a minidriver */
447 jtag_add_callback4(jtag_check_value_mask_callback, (jtag_callback_data_t)in_fields[i].in_value,
448 (jtag_callback_data_t)in_fields[i].check_value,
449 (jtag_callback_data_t)in_fields[i].check_mask,
450 (jtag_callback_data_t)in_fields[i].num_bits);
451 }
452 if (in_fields[i].allocated)
453 {
454 free(in_fields[i].in_value);
455 }
456 if (in_fields[i].modified)
457 {
458 in_fields[i].in_value = NULL;
459 }
460 }
461 }
462
463 void jtag_add_dr_scan_check(int in_num_fields, scan_field_t *in_fields, tap_state_t state)
464 {
465 if (jtag_verify)
466 {
467 jtag_add_scan_check(jtag_add_dr_scan, in_num_fields, in_fields, state);
468 } else
469 {
470 jtag_add_dr_scan(in_num_fields, in_fields, state);
471 }
472 }
473
474
475 void jtag_add_dr_scan(int in_num_fields, const scan_field_t *in_fields,
476 tap_state_t state)
477 {
478 assert(state != TAP_RESET);
479
480 jtag_prelude(state);
481
482 int retval;
483 retval = interface_jtag_add_dr_scan(in_num_fields, in_fields, state);
484 jtag_set_error(retval);
485 }
486
487 void jtag_add_plain_dr_scan(int in_num_fields, const scan_field_t *in_fields,
488 tap_state_t state)
489 {
490 assert(state != TAP_RESET);
491
492 jtag_prelude(state);
493
494 int retval;
495 retval = interface_jtag_add_plain_dr_scan(in_num_fields, in_fields, state);
496 jtag_set_error(retval);
497 }
498
499 void jtag_add_dr_out(jtag_tap_t* tap,
500 int num_fields, const int* num_bits, const uint32_t* value,
501 tap_state_t end_state)
502 {
503 assert(end_state != TAP_RESET);
504 assert(end_state != TAP_INVALID);
505
506 cmd_queue_cur_state = end_state;
507
508 interface_jtag_add_dr_out(tap,
509 num_fields, num_bits, value,
510 end_state);
511 }
512
513 void jtag_add_tlr(void)
514 {
515 jtag_prelude(TAP_RESET);
516 jtag_set_error(interface_jtag_add_tlr());
517
518 /* NOTE: order here matches TRST path in jtag_add_reset() */
519 jtag_call_event_callbacks(JTAG_TRST_ASSERTED);
520 jtag_notify_event(JTAG_TRST_ASSERTED);
521 }
522
523 void jtag_add_pathmove(int num_states, const tap_state_t *path)
524 {
525 tap_state_t cur_state = cmd_queue_cur_state;
526
527 /* the last state has to be a stable state */
528 if (!tap_is_state_stable(path[num_states - 1]))
529 {
530 LOG_ERROR("BUG: TAP path doesn't finish in a stable state");
531 jtag_set_error(ERROR_JTAG_NOT_STABLE_STATE);
532 return;
533 }
534
535 for (int i = 0; i < num_states; i++)
536 {
537 if (path[i] == TAP_RESET)
538 {
539 LOG_ERROR("BUG: TAP_RESET is not a valid state for pathmove sequences");
540 jtag_set_error(ERROR_JTAG_STATE_INVALID);
541 return;
542 }
543
544 if (tap_state_transition(cur_state, true) != path[i]
545 && tap_state_transition(cur_state, false) != path[i])
546 {
547 LOG_ERROR("BUG: %s -> %s isn't a valid TAP transition",
548 tap_state_name(cur_state), tap_state_name(path[i]));
549 jtag_set_error(ERROR_JTAG_TRANSITION_INVALID);
550 return;
551 }
552 cur_state = path[i];
553 }
554
555 jtag_checks();
556
557 jtag_set_error(interface_jtag_add_pathmove(num_states, path));
558 cmd_queue_cur_state = path[num_states - 1];
559 }
560
561 int jtag_add_statemove(tap_state_t goal_state)
562 {
563 tap_state_t cur_state = cmd_queue_cur_state;
564
565 LOG_DEBUG("cur_state=%s goal_state=%s",
566 tap_state_name(cur_state),
567 tap_state_name(goal_state));
568
569
570 if (goal_state == cur_state)
571 ; /* nothing to do */
572 else if (goal_state == TAP_RESET)
573 {
574 jtag_add_tlr();
575 }
576 else if (tap_is_state_stable(cur_state) && tap_is_state_stable(goal_state))
577 {
578 unsigned tms_bits = tap_get_tms_path(cur_state, goal_state);
579 unsigned tms_count = tap_get_tms_path_len(cur_state, goal_state);
580 tap_state_t moves[8];
581 assert(tms_count < DIM(moves));
582
583 for (unsigned i = 0; i < tms_count; i++, tms_bits >>= 1)
584 {
585 bool bit = tms_bits & 1;
586
587 cur_state = tap_state_transition(cur_state, bit);
588 moves[i] = cur_state;
589 }
590
591 jtag_add_pathmove(tms_count, moves);
592 }
593 else if (tap_state_transition(cur_state, true) == goal_state
594 || tap_state_transition(cur_state, false) == goal_state)
595 {
596 jtag_add_pathmove(1, &goal_state);
597 }
598
599 else
600 return ERROR_FAIL;
601
602 return ERROR_OK;
603 }
604
605 void jtag_add_runtest(int num_cycles, tap_state_t state)
606 {
607 jtag_prelude(state);
608 jtag_set_error(interface_jtag_add_runtest(num_cycles, state));
609 }
610
611
612 void jtag_add_clocks(int num_cycles)
613 {
614 if (!tap_is_state_stable(cmd_queue_cur_state))
615 {
616 LOG_ERROR("jtag_add_clocks() called with TAP in unstable state \"%s\"",
617 tap_state_name(cmd_queue_cur_state));
618 jtag_set_error(ERROR_JTAG_NOT_STABLE_STATE);
619 return;
620 }
621
622 if (num_cycles > 0)
623 {
624 jtag_checks();
625 jtag_set_error(interface_jtag_add_clocks(num_cycles));
626 }
627 }
628
629 void jtag_add_reset(int req_tlr_or_trst, int req_srst)
630 {
631 int trst_with_tlr = 0;
632 int new_srst = 0;
633 int new_trst = 0;
634
635 /* Without SRST, we must use target-specific JTAG operations
636 * on each target; callers should not be requesting SRST when
637 * that signal doesn't exist.
638 *
639 * RESET_SRST_PULLS_TRST is a board or chip level quirk, which
640 * can kick in even if the JTAG adapter can't drive TRST.
641 */
642 if (req_srst) {
643 if (!(jtag_reset_config & RESET_HAS_SRST)) {
644 LOG_ERROR("BUG: can't assert SRST");
645 jtag_set_error(ERROR_FAIL);
646 return;
647 }
648 if ((jtag_reset_config & RESET_SRST_PULLS_TRST) != 0
649 && !req_tlr_or_trst) {
650 LOG_ERROR("BUG: can't assert only SRST");
651 jtag_set_error(ERROR_FAIL);
652 return;
653 }
654 new_srst = 1;
655 }
656
657 /* JTAG reset (entry to TAP_RESET state) can always be achieved
658 * using TCK and TMS; that may go through a TAP_{IR,DR}UPDATE
659 * state first. TRST accelerates it, and bypasses those states.
660 *
661 * RESET_TRST_PULLS_SRST is a board or chip level quirk, which
662 * can kick in even if the JTAG adapter can't drive SRST.
663 */
664 if (req_tlr_or_trst) {
665 if (!(jtag_reset_config & RESET_HAS_TRST))
666 trst_with_tlr = 1;
667 else if ((jtag_reset_config & RESET_TRST_PULLS_SRST) != 0
668 && !req_srst)
669 trst_with_tlr = 1;
670 else
671 new_trst = 1;
672 }
673
674 /* Maybe change TRST and/or SRST signal state */
675 if (jtag_srst != new_srst || jtag_trst != new_trst) {
676 int retval;
677
678 retval = interface_jtag_add_reset(new_trst, new_srst);
679 if (retval != ERROR_OK)
680 jtag_set_error(retval);
681 else
682 retval = jtag_execute_queue();
683
684 if (retval != ERROR_OK) {
685 LOG_ERROR("TRST/SRST error %d", retval);
686 return;
687 }
688 }
689
690 /* SRST resets everything hooked up to that signal */
691 if (jtag_srst != new_srst) {
692 jtag_srst = new_srst;
693 if (jtag_srst)
694 {
695 LOG_DEBUG("SRST line asserted");
696 if (jtag_nsrst_assert_width)
697 jtag_add_sleep(jtag_nsrst_assert_width * 1000);
698 }
699 else {
700 LOG_DEBUG("SRST line released");
701 if (jtag_nsrst_delay)
702 jtag_add_sleep(jtag_nsrst_delay * 1000);
703 }
704 }
705
706 /* Maybe enter the JTAG TAP_RESET state ...
707 * - using only TMS, TCK, and the JTAG state machine
708 * - or else more directly, using TRST
709 *
710 * TAP_RESET should be invisible to non-debug parts of the system.
711 */
712 if (trst_with_tlr) {
713 LOG_DEBUG("JTAG reset with TLR instead of TRST");
714 jtag_set_end_state(TAP_RESET);
715 jtag_add_tlr();
716
717 } else if (jtag_trst != new_trst) {
718 jtag_trst = new_trst;
719 if (jtag_trst) {
720 LOG_DEBUG("TRST line asserted");
721 tap_set_state(TAP_RESET);
722 if (jtag_ntrst_assert_width)
723 jtag_add_sleep(jtag_ntrst_assert_width * 1000);
724 } else {
725 LOG_DEBUG("TRST line released");
726 if (jtag_ntrst_delay)
727 jtag_add_sleep(jtag_ntrst_delay * 1000);
728
729 /* We just asserted nTRST, so we're now in TAP_RESET.
730 * Inform possible listeners about this, now that
731 * JTAG instructions and data can be shifted. This
732 * sequence must match jtag_add_tlr().
733 */
734 jtag_call_event_callbacks(JTAG_TRST_ASSERTED);
735 jtag_notify_event(JTAG_TRST_ASSERTED);
736 }
737 }
738 }
739
740 tap_state_t jtag_set_end_state(tap_state_t state)
741 {
742 if ((state == TAP_DRSHIFT)||(state == TAP_IRSHIFT))
743 {
744 LOG_ERROR("BUG: TAP_DRSHIFT/IRSHIFT can't be end state. Calling code should use a larger scan field");
745 }
746
747 if (state != TAP_INVALID)
748 cmd_queue_end_state = state;
749 return cmd_queue_end_state;
750 }
751
752 tap_state_t jtag_get_end_state(void)
753 {
754 return cmd_queue_end_state;
755 }
756
757 void jtag_add_sleep(uint32_t us)
758 {
759 /// @todo Here, keep_alive() appears to be a layering violation!!!
760 keep_alive();
761 jtag_set_error(interface_jtag_add_sleep(us));
762 }
763
764 static int jtag_check_value_inner(uint8_t *captured, uint8_t *in_check_value,
765 uint8_t *in_check_mask, int num_bits)
766 {
767 int retval = ERROR_OK;
768
769 int compare_failed = 0;
770
771 if (in_check_mask)
772 compare_failed = buf_cmp_mask(captured, in_check_value, in_check_mask, num_bits);
773 else
774 compare_failed = buf_cmp(captured, in_check_value, num_bits);
775
776 if (compare_failed) {
777 char *captured_str, *in_check_value_str;
778 int bits = (num_bits > DEBUG_JTAG_IOZ)
779 ? DEBUG_JTAG_IOZ
780 : num_bits;
781
782 /* NOTE: we've lost diagnostic context here -- 'which tap' */
783
784 captured_str = buf_to_str(captured, bits, 16);
785 in_check_value_str = buf_to_str(in_check_value, bits, 16);
786
787 LOG_WARNING("Bad value '%s' captured during DR or IR scan:",
788 captured_str);
789 LOG_WARNING(" check_value: 0x%s", in_check_value_str);
790
791 free(captured_str);
792 free(in_check_value_str);
793
794 if (in_check_mask) {
795 char *in_check_mask_str;
796
797 in_check_mask_str = buf_to_str(in_check_mask, bits, 16);
798 LOG_WARNING(" check_mask: 0x%s", in_check_mask_str);
799 free(in_check_mask_str);
800 }
801
802 retval = ERROR_JTAG_QUEUE_FAILED;
803 }
804 return retval;
805 }
806
807 void jtag_check_value_mask(scan_field_t *field, uint8_t *value, uint8_t *mask)
808 {
809 assert(field->in_value != NULL);
810
811 if (value == NULL)
812 {
813 /* no checking to do */
814 return;
815 }
816
817 jtag_execute_queue_noclear();
818
819 int retval = jtag_check_value_inner(field->in_value, value, mask, field->num_bits);
820 jtag_set_error(retval);
821 }
822
823
824
825 int default_interface_jtag_execute_queue(void)
826 {
827 if (NULL == jtag)
828 {
829 LOG_ERROR("No JTAG interface configured yet. "
830 "Issue 'init' command in startup scripts "
831 "before communicating with targets.");
832 return ERROR_FAIL;
833 }
834
835 return jtag->execute_queue();
836 }
837
838 void jtag_execute_queue_noclear(void)
839 {
840 jtag_flush_queue_count++;
841 jtag_set_error(interface_jtag_execute_queue());
842 }
843
844 int jtag_get_flush_queue_count(void)
845 {
846 return jtag_flush_queue_count;
847 }
848
849 int jtag_execute_queue(void)
850 {
851 jtag_execute_queue_noclear();
852 return jtag_error_clear();
853 }
854
855 static int jtag_reset_callback(enum jtag_event event, void *priv)
856 {
857 jtag_tap_t *tap = priv;
858
859 if (event == JTAG_TRST_ASSERTED)
860 {
861 tap->enabled = !tap->disabled_after_reset;
862
863 /* current instruction is either BYPASS or IDCODE */
864 buf_set_ones(tap->cur_instr, tap->ir_length);
865 tap->bypass = 1;
866 }
867
868 return ERROR_OK;
869 }
870
871 void jtag_sleep(uint32_t us)
872 {
873 alive_sleep(us/1000);
874 }
875
876 /* Maximum number of enabled JTAG devices we expect in the scan chain,
877 * plus one (to detect garbage at the end). Devices that don't support
878 * IDCODE take up fewer bits, possibly allowing a few more devices.
879 */
880 #define JTAG_MAX_CHAIN_SIZE 20
881
882 #define EXTRACT_MFG(X) (((X) & 0xffe) >> 1)
883 #define EXTRACT_PART(X) (((X) & 0xffff000) >> 12)
884 #define EXTRACT_VER(X) (((X) & 0xf0000000) >> 28)
885
886 /* A reserved manufacturer ID is used in END_OF_CHAIN_FLAG, so we
887 * know that no valid TAP will have it as an IDCODE value.
888 */
889 #define END_OF_CHAIN_FLAG 0x000000ff
890
891 static int jtag_examine_chain_execute(uint8_t *idcode_buffer, unsigned num_idcode)
892 {
893 scan_field_t field = {
894 .tap = NULL,
895 .num_bits = num_idcode * 32,
896 .out_value = idcode_buffer,
897 .in_value = idcode_buffer,
898 };
899
900 // initialize to the end of chain ID value
901 for (unsigned i = 0; i < JTAG_MAX_CHAIN_SIZE; i++)
902 buf_set_u32(idcode_buffer, i * 32, 32, END_OF_CHAIN_FLAG);
903
904 jtag_add_plain_dr_scan(1, &field, TAP_DRPAUSE);
905 jtag_add_tlr();
906 return jtag_execute_queue();
907 }
908
909 static bool jtag_examine_chain_check(uint8_t *idcodes, unsigned count)
910 {
911 uint8_t zero_check = 0x0;
912 uint8_t one_check = 0xff;
913
914 for (unsigned i = 0; i < count * 4; i++)
915 {
916 zero_check |= idcodes[i];
917 one_check &= idcodes[i];
918 }
919
920 /* if there wasn't a single non-zero bit or if all bits were one,
921 * the scan is not valid. We wrote a mix of both values; either
922 *
923 * - There's a hardware issue (almost certainly):
924 * + all-zeroes can mean a target stuck in JTAG reset
925 * + all-ones tends to mean no target
926 * - The scan chain is WAY longer than we can handle, *AND* either
927 * + there are several hundreds of TAPs in bypass, or
928 * + at least a few dozen TAPs all have an all-ones IDCODE
929 */
930 if (zero_check == 0x00 || one_check == 0xff)
931 {
932 LOG_ERROR("JTAG scan chain interrogation failed: all %s",
933 (zero_check == 0x00) ? "zeroes" : "ones");
934 LOG_ERROR("Check JTAG interface, timings, target power, etc.");
935 return false;
936 }
937 return true;
938 }
939
940 static void jtag_examine_chain_display(enum log_levels level, const char *msg,
941 const char *name, uint32_t idcode)
942 {
943 log_printf_lf(level, __FILE__, __LINE__, __FUNCTION__,
944 "JTAG tap: %s %16.16s: 0x%08x "
945 "(mfg: 0x%3.3x, part: 0x%4.4x, ver: 0x%1.1x)",
946 name, msg,
947 (unsigned int)idcode,
948 (unsigned int)EXTRACT_MFG(idcode),
949 (unsigned int)EXTRACT_PART(idcode),
950 (unsigned int)EXTRACT_VER(idcode));
951 }
952
953 static bool jtag_idcode_is_final(uint32_t idcode)
954 {
955 /*
956 * Some devices, such as AVR8, will output all 1's instead
957 * of TDI input value at end of chain. Allow those values
958 * instead of failing.
959 */
960 return idcode == END_OF_CHAIN_FLAG || idcode == 0xFFFFFFFF;
961 }
962
963 /**
964 * This helper checks that remaining bits in the examined chain data are
965 * all as expected, but a single JTAG device requires only 64 bits to be
966 * read back correctly. This can help identify and diagnose problems
967 * with the JTAG chain earlier, gives more helpful/explicit error messages.
968 * Returns TRUE iff garbage was found.
969 */
970 static bool jtag_examine_chain_end(uint8_t *idcodes, unsigned count, unsigned max)
971 {
972 bool triggered = false;
973 for (; count < max - 31; count += 32)
974 {
975 uint32_t idcode = buf_get_u32(idcodes, count, 32);
976 // do not trigger the warning if the data looks good
977 if (!triggered && jtag_idcode_is_final(idcode))
978 continue;
979 LOG_WARNING("Unexpected idcode after end of chain: %d 0x%08x",
980 count, (unsigned int)idcode);
981 triggered = true;
982 }
983 return triggered;
984 }
985
986 static bool jtag_examine_chain_match_tap(const struct jtag_tap_s *tap)
987 {
988 /* ignore expected BYPASS codes; warn otherwise */
989 if (0 == tap->expected_ids_cnt && !tap->idcode)
990 return true;
991
992 /* Loop over the expected identification codes and test for a match */
993 uint8_t ii;
994 for (ii = 0; ii < tap->expected_ids_cnt; ii++)
995 {
996 if (tap->idcode == tap->expected_ids[ii])
997 return true;
998
999 /* treat "-expected-id 0" as a "don't-warn" wildcard */
1000 if (0 == tap->expected_ids[ii])
1001 return true;
1002 }
1003
1004 /* If none of the expected ids matched, warn */
1005 jtag_examine_chain_display(LOG_LVL_WARNING, "UNEXPECTED",
1006 tap->dotted_name, tap->idcode);
1007 for (ii = 0; ii < tap->expected_ids_cnt; ii++)
1008 {
1009 char msg[32];
1010 snprintf(msg, sizeof(msg), "expected %hhu of %hhu",
1011 ii + 1, tap->expected_ids_cnt);
1012 jtag_examine_chain_display(LOG_LVL_ERROR, msg,
1013 tap->dotted_name, tap->expected_ids[ii]);
1014 }
1015 return false;
1016 }
1017
1018 /* Try to examine chain layout according to IEEE 1149.1 §12
1019 * This is called a "blind interrogation" of the scan chain.
1020 */
1021 static int jtag_examine_chain(void)
1022 {
1023 uint8_t idcode_buffer[JTAG_MAX_CHAIN_SIZE * 4];
1024 unsigned bit_count;
1025 int retval;
1026
1027 /* DR scan to collect BYPASS or IDCODE register contents.
1028 * Then make sure the scan data has both ones and zeroes.
1029 */
1030 retval = jtag_examine_chain_execute(idcode_buffer, JTAG_MAX_CHAIN_SIZE);
1031 if (retval != ERROR_OK)
1032 return retval;
1033 if (!jtag_examine_chain_check(idcode_buffer, JTAG_MAX_CHAIN_SIZE))
1034 return ERROR_JTAG_INIT_FAILED;
1035
1036 /* point at the 1st tap */
1037 jtag_tap_t *tap = jtag_tap_next_enabled(NULL);
1038 if (tap == NULL)
1039 {
1040 LOG_ERROR("JTAG: No taps enabled?");
1041 return ERROR_JTAG_INIT_FAILED;
1042 }
1043
1044 for (bit_count = 0;
1045 tap && bit_count < (JTAG_MAX_CHAIN_SIZE * 32) - 31;
1046 tap = jtag_tap_next_enabled(tap))
1047 {
1048 uint32_t idcode = buf_get_u32(idcode_buffer, bit_count, 32);
1049
1050 if ((idcode & 1) == 0)
1051 {
1052 /* Zero for LSB indicates a device in bypass */
1053 LOG_WARNING("TAP %s does not have IDCODE",
1054 tap->dotted_name);
1055 idcode = 0;
1056 tap->hasidcode = false;
1057
1058 bit_count += 1;
1059 }
1060 else
1061 {
1062 /* Friendly devices support IDCODE */
1063 tap->hasidcode = true;
1064 jtag_examine_chain_display(LOG_LVL_INFO,
1065 "tap/device found",
1066 tap->dotted_name, idcode);
1067
1068 bit_count += 32;
1069 }
1070 tap->idcode = idcode;
1071
1072 /* ensure the TAP ID matches what was expected */
1073 if (!jtag_examine_chain_match_tap(tap))
1074 retval = ERROR_JTAG_INIT_SOFT_FAIL;
1075 }
1076
1077 /* Fail if too many TAPs were enabled for us to verify them all. */
1078 if (tap) {
1079 LOG_ERROR("Too many TAPs enabled; '%s' ignored.",
1080 tap->dotted_name);
1081 return ERROR_JTAG_INIT_FAILED;
1082 }
1083
1084 /* After those IDCODE or BYPASS register values should be
1085 * only the data we fed into the scan chain.
1086 */
1087 if (jtag_examine_chain_end(idcode_buffer, bit_count,
1088 8 * sizeof(idcode_buffer))) {
1089 LOG_ERROR("double-check your JTAG setup (interface, "
1090 "speed, missing TAPs, ...)");
1091 return ERROR_JTAG_INIT_FAILED;
1092 }
1093
1094 /* Return success or, for backwards compatibility if only
1095 * some IDCODE values mismatched, a soft/continuable fault.
1096 */
1097 return retval;
1098 }
1099
1100 /*
1101 * Validate the date loaded by entry to the Capture-IR state, to help
1102 * find errors related to scan chain configuration (wrong IR lengths)
1103 * or communication.
1104 *
1105 * Entry state can be anything. On non-error exit, all TAPs are in
1106 * bypass mode. On error exits, the scan chain is reset.
1107 */
1108 static int jtag_validate_ircapture(void)
1109 {
1110 jtag_tap_t *tap;
1111 int total_ir_length = 0;
1112 uint8_t *ir_test = NULL;
1113 scan_field_t field;
1114 int val;
1115 int chain_pos = 0;
1116 int retval;
1117
1118 for (tap = NULL, total_ir_length = 0;
1119 (tap = jtag_tap_next_enabled(tap)) != NULL;
1120 total_ir_length += tap->ir_length)
1121 continue;
1122
1123 /* increase length to add 2 bit sentinel after scan */
1124 total_ir_length += 2;
1125
1126 ir_test = malloc(CEIL(total_ir_length, 8));
1127 if (ir_test == NULL)
1128 return ERROR_FAIL;
1129
1130 /* after this scan, all TAPs will capture BYPASS instructions */
1131 buf_set_ones(ir_test, total_ir_length);
1132
1133 field.tap = NULL;
1134 field.num_bits = total_ir_length;
1135 field.out_value = ir_test;
1136 field.in_value = ir_test;
1137
1138 jtag_add_plain_ir_scan(1, &field, TAP_IDLE);
1139
1140 LOG_DEBUG("IR capture validation scan");
1141 retval = jtag_execute_queue();
1142 if (retval != ERROR_OK)
1143 goto done;
1144
1145 tap = NULL;
1146 chain_pos = 0;
1147
1148 for (;;) {
1149 tap = jtag_tap_next_enabled(tap);
1150 if (tap == NULL) {
1151 break;
1152 }
1153
1154 /* Validate the two LSBs, which must be 01 per JTAG spec.
1155 *
1156 * Or ... more bits could be provided by TAP declaration.
1157 * Plus, some taps (notably in i.MX series chips) violate
1158 * this part of the JTAG spec, so their capture mask/value
1159 * attributes might disable this test.
1160 */
1161 val = buf_get_u32(ir_test, chain_pos, tap->ir_length);
1162 if ((val & tap->ir_capture_mask) != tap->ir_capture_value) {
1163 LOG_ERROR("%s: IR capture error; saw 0x%0*x not 0x%0*x",
1164 jtag_tap_name(tap),
1165 (tap->ir_length + 7) / tap->ir_length,
1166 val,
1167 (tap->ir_length + 7) / tap->ir_length,
1168 tap->ir_capture_value);
1169
1170 retval = ERROR_JTAG_INIT_FAILED;
1171 goto done;
1172 }
1173 LOG_DEBUG("%s: IR capture 0x%0*x", jtag_tap_name(tap),
1174 (tap->ir_length + 7) / tap->ir_length, val);
1175 chain_pos += tap->ir_length;
1176 }
1177
1178 /* verify the '11' sentinel we wrote is returned at the end */
1179 val = buf_get_u32(ir_test, chain_pos, 2);
1180 if (val != 0x3)
1181 {
1182 char *cbuf = buf_to_str(ir_test, total_ir_length, 16);
1183
1184 LOG_ERROR("IR capture error at bit %d, saw 0x%s not 0x...3",
1185 chain_pos, cbuf);
1186 free(cbuf);
1187 retval = ERROR_JTAG_INIT_FAILED;
1188 }
1189
1190 done:
1191 free(ir_test);
1192 if (retval != ERROR_OK) {
1193 jtag_add_tlr();
1194 jtag_execute_queue();
1195 }
1196 return retval;
1197 }
1198
1199
1200 void jtag_tap_init(jtag_tap_t *tap)
1201 {
1202 assert(0 != tap->ir_length);
1203
1204 /// @todo fix, this allocates one byte per bit for all three fields!
1205 tap->expected = malloc(tap->ir_length);
1206 tap->expected_mask = malloc(tap->ir_length);
1207 tap->cur_instr = malloc(tap->ir_length);
1208
1209 /// @todo cope sanely with ir_length bigger than 32 bits
1210 buf_set_u32(tap->expected, 0, tap->ir_length, tap->ir_capture_value);
1211 buf_set_u32(tap->expected_mask, 0, tap->ir_length, tap->ir_capture_mask);
1212 buf_set_ones(tap->cur_instr, tap->ir_length);
1213
1214 // place TAP in bypass mode
1215 tap->bypass = 1;
1216 // register the reset callback for the TAP
1217 jtag_register_event_callback(&jtag_reset_callback, tap);
1218
1219 LOG_DEBUG("Created Tap: %s @ abs position %d, "
1220 "irlen %d, capture: 0x%x mask: 0x%x", tap->dotted_name,
1221 tap->abs_chain_position, tap->ir_length,
1222 (unsigned) tap->ir_capture_value,
1223 (unsigned) tap->ir_capture_mask);
1224 jtag_tap_add(tap);
1225 }
1226
1227 void jtag_tap_free(jtag_tap_t *tap)
1228 {
1229 jtag_unregister_event_callback(&jtag_reset_callback, tap);
1230
1231 /// @todo is anything missing? no memory leaks please
1232 free((void *)tap->expected);
1233 free((void *)tap->expected_ids);
1234 free((void *)tap->chip);
1235 free((void *)tap->tapname);
1236 free((void *)tap->dotted_name);
1237 free(tap);
1238 }
1239
1240 int jtag_interface_init(struct command_context_s *cmd_ctx)
1241 {
1242 if (jtag)
1243 return ERROR_OK;
1244
1245 if (!jtag_interface)
1246 {
1247 /* nothing was previously specified by "interface" command */
1248 LOG_ERROR("JTAG interface has to be specified, see \"interface\" command");
1249 return ERROR_JTAG_INVALID_INTERFACE;
1250 }
1251
1252 jtag = jtag_interface;
1253 if (jtag_interface->init() != ERROR_OK)
1254 {
1255 jtag = NULL;
1256 return ERROR_JTAG_INIT_FAILED;
1257 }
1258
1259 int requested_khz = jtag_get_speed_khz();
1260 int actual_khz = requested_khz;
1261 int retval = jtag_get_speed_readable(&actual_khz);
1262 if (ERROR_OK != retval)
1263 LOG_INFO("interface specific clock speed value %d", jtag_get_speed());
1264 else if (actual_khz)
1265 {
1266 if ((CLOCK_MODE_RCLK == clock_mode)
1267 || ((CLOCK_MODE_KHZ == clock_mode) && !requested_khz))
1268 {
1269 LOG_INFO("RCLK (adaptive clock speed) not supported - fallback to %d kHz"
1270 , actual_khz);
1271 }
1272 else
1273 LOG_INFO("clock speed %d kHz", actual_khz);
1274 }
1275 else
1276 LOG_INFO("RCLK (adaptive clock speed)");
1277
1278 return ERROR_OK;
1279 }
1280
1281 int jtag_init_inner(struct command_context_s *cmd_ctx)
1282 {
1283 jtag_tap_t *tap;
1284 int retval;
1285 bool issue_setup = true;
1286
1287 LOG_DEBUG("Init JTAG chain");
1288
1289 tap = jtag_tap_next_enabled(NULL);
1290 if (tap == NULL) {
1291 LOG_ERROR("There are no enabled taps?");
1292 return ERROR_JTAG_INIT_FAILED;
1293 }
1294
1295 jtag_add_tlr();
1296 if ((retval = jtag_execute_queue()) != ERROR_OK)
1297 return retval;
1298
1299 /* Examine DR values first. This discovers problems which will
1300 * prevent communication ... hardware issues like TDO stuck, or
1301 * configuring the wrong number of (enabled) TAPs.
1302 */
1303 retval = jtag_examine_chain();
1304 switch (retval) {
1305 case ERROR_OK:
1306 /* complete success */
1307 break;
1308 case ERROR_JTAG_INIT_SOFT_FAIL:
1309 /* For backward compatibility reasons, try coping with
1310 * configuration errors involving only ID mismatches.
1311 * We might be able to talk to the devices.
1312 */
1313 LOG_ERROR("Trying to use configured scan chain anyway...");
1314 issue_setup = false;
1315 break;
1316 default:
1317 /* some hard error; already issued diagnostics */
1318 return retval;
1319 }
1320
1321 /* Now look at IR values. Problems here will prevent real
1322 * communication. They mostly mean that the IR length is
1323 * wrong ... or that the IR capture value is wrong. (The
1324 * latter is uncommon, but easily worked around: provide
1325 * ircapture/irmask values during TAP setup.)
1326 */
1327 retval = jtag_validate_ircapture();
1328 if (retval != ERROR_OK)
1329 return retval;
1330
1331 if (issue_setup)
1332 jtag_notify_event(JTAG_TAP_EVENT_SETUP);
1333 else
1334 LOG_WARNING("Bypassing JTAG setup events due to errors");
1335
1336
1337 return ERROR_OK;
1338 }
1339
1340 int jtag_interface_quit(void)
1341 {
1342 if (!jtag || !jtag->quit)
1343 return ERROR_OK;
1344
1345 // close the JTAG interface
1346 int result = jtag->quit();
1347 if (ERROR_OK != result)
1348 LOG_ERROR("failed: %d", result);
1349
1350 return ERROR_OK;
1351 }
1352
1353
1354 int jtag_init_reset(struct command_context_s *cmd_ctx)
1355 {
1356 int retval;
1357
1358 if ((retval = jtag_interface_init(cmd_ctx)) != ERROR_OK)
1359 return retval;
1360
1361 LOG_DEBUG("Trying to bring the JTAG controller to life by asserting TRST / TLR");
1362
1363 /* Reset can happen after a power cycle.
1364 *
1365 * Ideally we would only assert TRST or run TLR before the target reset.
1366 *
1367 * However w/srst_pulls_trst, trst is asserted together with the target
1368 * reset whether we want it or not.
1369 *
1370 * NB! Some targets have JTAG circuitry disabled until a
1371 * trst & srst has been asserted.
1372 *
1373 * NB! here we assume nsrst/ntrst delay are sufficient!
1374 *
1375 * NB! order matters!!!! srst *can* disconnect JTAG circuitry
1376 *
1377 */
1378 jtag_add_reset(1, 0); /* TAP_RESET, using TMS+TCK or TRST */
1379 if (jtag_reset_config & RESET_HAS_SRST)
1380 {
1381 jtag_add_reset(1, 1);
1382 if ((jtag_reset_config & RESET_SRST_PULLS_TRST) == 0)
1383 jtag_add_reset(0, 1);
1384 }
1385 jtag_add_reset(0, 0);
1386 if ((retval = jtag_execute_queue()) != ERROR_OK)
1387 return retval;
1388
1389 /* Check that we can communication on the JTAG chain + eventually we want to
1390 * be able to perform enumeration only after OpenOCD has started
1391 * telnet and GDB server
1392 *
1393 * That would allow users to more easily perform any magic they need to before
1394 * reset happens.
1395 */
1396 return jtag_init_inner(cmd_ctx);
1397 }
1398
1399 int jtag_init(struct command_context_s *cmd_ctx)
1400 {
1401 int retval;
1402
1403 if ((retval = jtag_interface_init(cmd_ctx)) != ERROR_OK)
1404 return retval;
1405
1406 /* guard against oddball hardware: force resets to be inactive */
1407 jtag_add_reset(0, 0);
1408 if ((retval = jtag_execute_queue()) != ERROR_OK)
1409 return retval;
1410
1411 if (Jim_Eval_Named(interp, "jtag_init", __FILE__, __LINE__) != JIM_OK)
1412 return ERROR_FAIL;
1413
1414 return ERROR_OK;
1415 }
1416
1417 unsigned jtag_get_speed_khz(void)
1418 {
1419 return speed_khz;
1420 }
1421
1422 static int jtag_khz_to_speed(unsigned khz, int* speed)
1423 {
1424 LOG_DEBUG("convert khz to interface specific speed value");
1425 speed_khz = khz;
1426 if (jtag != NULL)
1427 {
1428 LOG_DEBUG("have interface set up");
1429 int speed_div1;
1430 int retval = jtag->khz(jtag_get_speed_khz(), &speed_div1);
1431 if (ERROR_OK != retval)
1432 {
1433 return retval;
1434 }
1435 *speed = speed_div1;
1436 }
1437 return ERROR_OK;
1438 }
1439
1440 static int jtag_rclk_to_speed(unsigned fallback_speed_khz, int* speed)
1441 {
1442 int retval = jtag_khz_to_speed(0, speed);
1443 if ((ERROR_OK != retval) && fallback_speed_khz)
1444 {
1445 LOG_DEBUG("trying fallback speed...");
1446 retval = jtag_khz_to_speed(fallback_speed_khz, speed);
1447 }
1448 return retval;
1449 }
1450
1451 static int jtag_set_speed(int speed)
1452 {
1453 jtag_speed = speed;
1454 /* this command can be called during CONFIG,
1455 * in which case jtag isn't initialized */
1456 return jtag ? jtag->speed(speed) : ERROR_OK;
1457 }
1458
1459 int jtag_config_speed(int speed)
1460 {
1461 LOG_DEBUG("handle jtag speed");
1462 clock_mode = CLOCK_MODE_SPEED;
1463 return jtag_set_speed(speed);
1464 }
1465
1466 int jtag_config_khz(unsigned khz)
1467 {
1468 LOG_DEBUG("handle jtag khz");
1469 clock_mode = CLOCK_MODE_KHZ;
1470 int speed = 0;
1471 int retval = jtag_khz_to_speed(khz, &speed);
1472 return (ERROR_OK != retval) ? retval : jtag_set_speed(speed);
1473 }
1474
1475 int jtag_config_rclk(unsigned fallback_speed_khz)
1476 {
1477 LOG_DEBUG("handle jtag rclk");
1478 clock_mode = CLOCK_MODE_RCLK;
1479 rclk_fallback_speed_khz = fallback_speed_khz;
1480 int speed = 0;
1481 int retval = jtag_rclk_to_speed(fallback_speed_khz, &speed);
1482 return (ERROR_OK != retval) ? retval : jtag_set_speed(speed);
1483 }
1484
1485 int jtag_get_speed(void)
1486 {
1487 int speed;
1488 switch(clock_mode)
1489 {
1490 case CLOCK_MODE_SPEED:
1491 speed = jtag_speed;
1492 break;
1493 case CLOCK_MODE_KHZ:
1494 jtag_khz_to_speed(jtag_get_speed_khz(), &speed);
1495 break;
1496 case CLOCK_MODE_RCLK:
1497 jtag_rclk_to_speed(rclk_fallback_speed_khz, &speed);
1498 break;
1499 default:
1500 LOG_ERROR("BUG: unknown jtag clock mode");
1501 speed = 0;
1502 break;
1503 }
1504 return speed;
1505 }
1506
1507 int jtag_get_speed_readable(int *khz)
1508 {
1509 return jtag ? jtag->speed_div(jtag_get_speed(), khz) : ERROR_OK;
1510 }
1511
1512 void jtag_set_verify(bool enable)
1513 {
1514 jtag_verify = enable;
1515 }
1516
1517 bool jtag_will_verify()
1518 {
1519 return jtag_verify;
1520 }
1521
1522 void jtag_set_verify_capture_ir(bool enable)
1523 {
1524 jtag_verify_capture_ir = enable;
1525 }
1526
1527 bool jtag_will_verify_capture_ir()
1528 {
1529 return jtag_verify_capture_ir;
1530 }
1531
1532 int jtag_power_dropout(int *dropout)
1533 {
1534 return jtag->power_dropout(dropout);
1535 }
1536
1537 int jtag_srst_asserted(int *srst_asserted)
1538 {
1539 return jtag->srst_asserted(srst_asserted);
1540 }
1541
1542 enum reset_types jtag_get_reset_config(void)
1543 {
1544 return jtag_reset_config;
1545 }
1546 void jtag_set_reset_config(enum reset_types type)
1547 {
1548 jtag_reset_config = type;
1549 }
1550
1551 int jtag_get_trst(void)
1552 {
1553 return jtag_trst;
1554 }
1555 int jtag_get_srst(void)
1556 {
1557 return jtag_srst;
1558 }
1559
1560 void jtag_set_nsrst_delay(unsigned delay)
1561 {
1562 jtag_nsrst_delay = delay;
1563 }
1564 unsigned jtag_get_nsrst_delay(void)
1565 {
1566 return jtag_nsrst_delay;
1567 }
1568 void jtag_set_ntrst_delay(unsigned delay)
1569 {
1570 jtag_ntrst_delay = delay;
1571 }
1572 unsigned jtag_get_ntrst_delay(void)
1573 {
1574 return jtag_ntrst_delay;
1575 }
1576
1577
1578 void jtag_set_nsrst_assert_width(unsigned delay)
1579 {
1580 jtag_nsrst_assert_width = delay;
1581 }
1582 unsigned jtag_get_nsrst_assert_width(void)
1583 {
1584 return jtag_nsrst_assert_width;
1585 }
1586 void jtag_set_ntrst_assert_width(unsigned delay)
1587 {
1588 jtag_ntrst_assert_width = delay;
1589 }
1590 unsigned jtag_get_ntrst_assert_width(void)
1591 {
1592 return jtag_ntrst_assert_width;
1593 }
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