1 // SPDX-License-Identifier: GPL-2.0-or-later
2 /*
3 * linux/drivers/spi/spi-loopback-test.c
4 *
5 * (c) Martin Sperl <kernel@martin.sperl.org>
6 *
7 * Loopback test driver to test several typical spi_message conditions
8 * that a spi_master driver may encounter
9 * this can also get used for regression testing
10 */
11
12 #include <linux/delay.h>
13 #include <linux/kernel.h>
14 #include <linux/ktime.h>
15 #include <linux/list.h>
16 #include <linux/list_sort.h>
17 #include <linux/module.h>
18 #include <linux/of_device.h>
19 #include <linux/printk.h>
20 #include <linux/vmalloc.h>
21 #include <linux/spi/spi.h>
22
23 #include "spi-test.h"
24
25 /* flag to only simulate transfers */
26 static int simulate_only;
27 module_param(simulate_only, int, 0);
28 MODULE_PARM_DESC(simulate_only, "if not 0 do not execute the spi message");
29
30 /* dump spi messages */
31 static int dump_messages;
32 module_param(dump_messages, int, 0);
33 MODULE_PARM_DESC(dump_messages,
34 "=1 dump the basic spi_message_structure, " \
35 "=2 dump the spi_message_structure including data, " \
36 "=3 dump the spi_message structure before and after execution");
37 /* the device is jumpered for loopback - enabling some rx_buf tests */
38 static int loopback;
39 module_param(loopback, int, 0);
40 MODULE_PARM_DESC(loopback,
41 "if set enable loopback mode, where the rx_buf " \
42 "is checked to match tx_buf after the spi_message " \
43 "is executed");
44
45 static int loop_req;
46 module_param(loop_req, int, 0);
47 MODULE_PARM_DESC(loop_req,
48 "if set controller will be asked to enable test loop mode. " \
49 "If controller supported it, MISO and MOSI will be connected");
50
51 static int no_cs;
52 module_param(no_cs, int, 0);
53 MODULE_PARM_DESC(no_cs,
54 "if set Chip Select (CS) will not be used");
55
56 /* run only a specific test */
57 static int run_only_test = -1;
58 module_param(run_only_test, int, 0);
59 MODULE_PARM_DESC(run_only_test,
60 "only run the test with this number (0-based !)");
61
62 /* use vmalloc'ed buffers */
63 static int use_vmalloc;
64 module_param(use_vmalloc, int, 0644);
65 MODULE_PARM_DESC(use_vmalloc,
66 "use vmalloc'ed buffers instead of kmalloc'ed");
67
68 /* check rx ranges */
69 static int check_ranges = 1;
70 module_param(check_ranges, int, 0644);
71 MODULE_PARM_DESC(check_ranges,
72 "checks rx_buffer pattern are valid");
73
74 /* the actual tests to execute */
75 static struct spi_test spi_tests[] = {
76 {
77 .description = "tx/rx-transfer - start of page",
78 .fill_option = FILL_COUNT_8,
79 .iterate_len = { ITERATE_MAX_LEN },
80 .iterate_tx_align = ITERATE_ALIGN,
81 .iterate_rx_align = ITERATE_ALIGN,
82 .transfer_count = 1,
83 .transfers = {
84 {
85 .tx_buf = TX(0),
86 .rx_buf = RX(0),
87 },
88 },
89 },
90 {
91 .description = "tx/rx-transfer - crossing PAGE_SIZE",
92 .fill_option = FILL_COUNT_8,
93 .iterate_len = { ITERATE_MAX_LEN },
94 .iterate_tx_align = ITERATE_ALIGN,
95 .iterate_rx_align = ITERATE_ALIGN,
96 .transfer_count = 1,
97 .transfers = {
98 {
99 .tx_buf = TX(PAGE_SIZE - 4),
100 .rx_buf = RX(PAGE_SIZE - 4),
101 },
102 },
103 },
104 {
105 .description = "tx-transfer - only",
106 .fill_option = FILL_COUNT_8,
107 .iterate_len = { ITERATE_MAX_LEN },
108 .iterate_tx_align = ITERATE_ALIGN,
109 .transfer_count = 1,
110 .transfers = {
111 {
112 .tx_buf = TX(0),
113 },
114 },
115 },
116 {
117 .description = "rx-transfer - only",
118 .fill_option = FILL_COUNT_8,
119 .iterate_len = { ITERATE_MAX_LEN },
120 .iterate_rx_align = ITERATE_ALIGN,
121 .transfer_count = 1,
122 .transfers = {
123 {
124 .rx_buf = RX(0),
125 },
126 },
127 },
128 {
129 .description = "two tx-transfers - alter both",
130 .fill_option = FILL_COUNT_8,
131 .iterate_len = { ITERATE_LEN },
132 .iterate_tx_align = ITERATE_ALIGN,
133 .iterate_transfer_mask = BIT(0) | BIT(1),
134 .transfer_count = 2,
135 .transfers = {
136 {
137 .tx_buf = TX(0),
138 },
139 {
140 /* this is why we cant use ITERATE_MAX_LEN */
141 .tx_buf = TX(SPI_TEST_MAX_SIZE_HALF),
142 },
143 },
144 },
145 {
146 .description = "two tx-transfers - alter first",
147 .fill_option = FILL_COUNT_8,
148 .iterate_len = { ITERATE_MAX_LEN },
149 .iterate_tx_align = ITERATE_ALIGN,
150 .iterate_transfer_mask = BIT(0),
151 .transfer_count = 2,
152 .transfers = {
153 {
154 .tx_buf = TX(64),
155 },
156 {
157 .len = 1,
158 .tx_buf = TX(0),
159 },
160 },
161 },
162 {
163 .description = "two tx-transfers - alter second",
164 .fill_option = FILL_COUNT_8,
165 .iterate_len = { ITERATE_MAX_LEN },
166 .iterate_tx_align = ITERATE_ALIGN,
167 .iterate_transfer_mask = BIT(1),
168 .transfer_count = 2,
169 .transfers = {
170 {
171 .len = 16,
172 .tx_buf = TX(0),
173 },
174 {
175 .tx_buf = TX(64),
176 },
177 },
178 },
179 {
180 .description = "two transfers tx then rx - alter both",
181 .fill_option = FILL_COUNT_8,
182 .iterate_len = { ITERATE_MAX_LEN },
183 .iterate_tx_align = ITERATE_ALIGN,
184 .iterate_transfer_mask = BIT(0) | BIT(1),
185 .transfer_count = 2,
186 .transfers = {
187 {
188 .tx_buf = TX(0),
189 },
190 {
191 .rx_buf = RX(0),
192 },
193 },
194 },
195 {
196 .description = "two transfers tx then rx - alter tx",
197 .fill_option = FILL_COUNT_8,
198 .iterate_len = { ITERATE_MAX_LEN },
199 .iterate_tx_align = ITERATE_ALIGN,
200 .iterate_transfer_mask = BIT(0),
201 .transfer_count = 2,
202 .transfers = {
203 {
204 .tx_buf = TX(0),
205 },
206 {
207 .len = 1,
208 .rx_buf = RX(0),
209 },
210 },
211 },
212 {
213 .description = "two transfers tx then rx - alter rx",
214 .fill_option = FILL_COUNT_8,
215 .iterate_len = { ITERATE_MAX_LEN },
216 .iterate_tx_align = ITERATE_ALIGN,
217 .iterate_transfer_mask = BIT(1),
218 .transfer_count = 2,
219 .transfers = {
220 {
221 .len = 1,
222 .tx_buf = TX(0),
223 },
224 {
225 .rx_buf = RX(0),
226 },
227 },
228 },
229 {
230 .description = "two tx+rx transfers - alter both",
231 .fill_option = FILL_COUNT_8,
232 .iterate_len = { ITERATE_LEN },
233 .iterate_tx_align = ITERATE_ALIGN,
234 .iterate_transfer_mask = BIT(0) | BIT(1),
235 .transfer_count = 2,
236 .transfers = {
237 {
238 .tx_buf = TX(0),
239 .rx_buf = RX(0),
240 },
241 {
242 /* making sure we align without overwrite
243 * the reason we can not use ITERATE_MAX_LEN
244 */
245 .tx_buf = TX(SPI_TEST_MAX_SIZE_HALF),
246 .rx_buf = RX(SPI_TEST_MAX_SIZE_HALF),
247 },
248 },
249 },
250 {
251 .description = "two tx+rx transfers - alter first",
252 .fill_option = FILL_COUNT_8,
253 .iterate_len = { ITERATE_MAX_LEN },
254 .iterate_tx_align = ITERATE_ALIGN,
255 .iterate_transfer_mask = BIT(0),
256 .transfer_count = 2,
257 .transfers = {
258 {
259 /* making sure we align without overwrite */
260 .tx_buf = TX(1024),
261 .rx_buf = RX(1024),
262 },
263 {
264 .len = 1,
265 /* making sure we align without overwrite */
266 .tx_buf = TX(0),
267 .rx_buf = RX(0),
268 },
269 },
270 },
271 {
272 .description = "two tx+rx transfers - alter second",
273 .fill_option = FILL_COUNT_8,
274 .iterate_len = { ITERATE_MAX_LEN },
275 .iterate_tx_align = ITERATE_ALIGN,
276 .iterate_transfer_mask = BIT(1),
277 .transfer_count = 2,
278 .transfers = {
279 {
280 .len = 1,
281 .tx_buf = TX(0),
282 .rx_buf = RX(0),
283 },
284 {
285 /* making sure we align without overwrite */
286 .tx_buf = TX(1024),
287 .rx_buf = RX(1024),
288 },
289 },
290 },
291 {
292 .description = "two tx+rx transfers - delay after transfer",
293 .fill_option = FILL_COUNT_8,
294 .iterate_len = { ITERATE_MAX_LEN },
295 .iterate_transfer_mask = BIT(0) | BIT(1),
296 .transfer_count = 2,
297 .transfers = {
298 {
299 .tx_buf = TX(0),
300 .rx_buf = RX(0),
301 .delay_usecs = 1000,
302 },
303 {
304 .tx_buf = TX(0),
305 .rx_buf = RX(0),
306 .delay_usecs = 1000,
307 },
308 },
309 },
310
311 { /* end of tests sequence */ }
312 };
313
spi_loopback_test_probe(struct spi_device * spi)314 static int spi_loopback_test_probe(struct spi_device *spi)
315 {
316 int ret;
317
318 if (loop_req || no_cs) {
319 spi->mode |= loop_req ? SPI_LOOP : 0;
320 spi->mode |= no_cs ? SPI_NO_CS : 0;
321 ret = spi_setup(spi);
322 if (ret) {
323 dev_err(&spi->dev, "SPI setup with SPI_LOOP or SPI_NO_CS failed (%d)\n",
324 ret);
325 return ret;
326 }
327 }
328
329 dev_info(&spi->dev, "Executing spi-loopback-tests\n");
330
331 ret = spi_test_run_tests(spi, spi_tests);
332
333 dev_info(&spi->dev, "Finished spi-loopback-tests with return: %i\n",
334 ret);
335
336 return ret;
337 }
338
339 /* non const match table to permit to change via a module parameter */
340 static struct of_device_id spi_loopback_test_of_match[] = {
341 { .compatible = "linux,spi-loopback-test", },
342 { }
343 };
344
345 /* allow to override the compatible string via a module_parameter */
346 module_param_string(compatible, spi_loopback_test_of_match[0].compatible,
347 sizeof(spi_loopback_test_of_match[0].compatible),
348 0000);
349
350 MODULE_DEVICE_TABLE(of, spi_loopback_test_of_match);
351
352 static struct spi_driver spi_loopback_test_driver = {
353 .driver = {
354 .name = "spi-loopback-test",
355 .owner = THIS_MODULE,
356 .of_match_table = spi_loopback_test_of_match,
357 },
358 .probe = spi_loopback_test_probe,
359 };
360
361 module_spi_driver(spi_loopback_test_driver);
362
363 MODULE_AUTHOR("Martin Sperl <kernel@martin.sperl.org>");
364 MODULE_DESCRIPTION("test spi_driver to check core functionality");
365 MODULE_LICENSE("GPL");
366
367 /*-------------------------------------------------------------------------*/
368
369 /* spi_test implementation */
370
371 #define RANGE_CHECK(ptr, plen, start, slen) \
372 ((ptr >= start) && (ptr + plen <= start + slen))
373
374 /* we allocate one page more, to allow for offsets */
375 #define SPI_TEST_MAX_SIZE_PLUS (SPI_TEST_MAX_SIZE + PAGE_SIZE)
376
spi_test_print_hex_dump(char * pre,const void * ptr,size_t len)377 static void spi_test_print_hex_dump(char *pre, const void *ptr, size_t len)
378 {
379 /* limit the hex_dump */
380 if (len < 1024) {
381 print_hex_dump(KERN_INFO, pre,
382 DUMP_PREFIX_OFFSET, 16, 1,
383 ptr, len, 0);
384 return;
385 }
386 /* print head */
387 print_hex_dump(KERN_INFO, pre,
388 DUMP_PREFIX_OFFSET, 16, 1,
389 ptr, 512, 0);
390 /* print tail */
391 pr_info("%s truncated - continuing at offset %04zx\n",
392 pre, len - 512);
393 print_hex_dump(KERN_INFO, pre,
394 DUMP_PREFIX_OFFSET, 16, 1,
395 ptr + (len - 512), 512, 0);
396 }
397
spi_test_dump_message(struct spi_device * spi,struct spi_message * msg,bool dump_data)398 static void spi_test_dump_message(struct spi_device *spi,
399 struct spi_message *msg,
400 bool dump_data)
401 {
402 struct spi_transfer *xfer;
403 int i;
404 u8 b;
405
406 dev_info(&spi->dev, " spi_msg@%pK\n", msg);
407 if (msg->status)
408 dev_info(&spi->dev, " status: %i\n",
409 msg->status);
410 dev_info(&spi->dev, " frame_length: %i\n",
411 msg->frame_length);
412 dev_info(&spi->dev, " actual_length: %i\n",
413 msg->actual_length);
414
415 list_for_each_entry(xfer, &msg->transfers, transfer_list) {
416 dev_info(&spi->dev, " spi_transfer@%pK\n", xfer);
417 dev_info(&spi->dev, " len: %i\n", xfer->len);
418 dev_info(&spi->dev, " tx_buf: %pK\n", xfer->tx_buf);
419 if (dump_data && xfer->tx_buf)
420 spi_test_print_hex_dump(" TX: ",
421 xfer->tx_buf,
422 xfer->len);
423
424 dev_info(&spi->dev, " rx_buf: %pK\n", xfer->rx_buf);
425 if (dump_data && xfer->rx_buf)
426 spi_test_print_hex_dump(" RX: ",
427 xfer->rx_buf,
428 xfer->len);
429 /* check for unwritten test pattern on rx_buf */
430 if (xfer->rx_buf) {
431 for (i = 0 ; i < xfer->len ; i++) {
432 b = ((u8 *)xfer->rx_buf)[xfer->len - 1 - i];
433 if (b != SPI_TEST_PATTERN_UNWRITTEN)
434 break;
435 }
436 if (i)
437 dev_info(&spi->dev,
438 " rx_buf filled with %02x starts at offset: %i\n",
439 SPI_TEST_PATTERN_UNWRITTEN,
440 xfer->len - i);
441 }
442 }
443 }
444
445 struct rx_ranges {
446 struct list_head list;
447 u8 *start;
448 u8 *end;
449 };
450
rx_ranges_cmp(void * priv,struct list_head * a,struct list_head * b)451 static int rx_ranges_cmp(void *priv, struct list_head *a, struct list_head *b)
452 {
453 struct rx_ranges *rx_a = list_entry(a, struct rx_ranges, list);
454 struct rx_ranges *rx_b = list_entry(b, struct rx_ranges, list);
455
456 if (rx_a->start > rx_b->start)
457 return 1;
458 if (rx_a->start < rx_b->start)
459 return -1;
460 return 0;
461 }
462
spi_check_rx_ranges(struct spi_device * spi,struct spi_message * msg,void * rx)463 static int spi_check_rx_ranges(struct spi_device *spi,
464 struct spi_message *msg,
465 void *rx)
466 {
467 struct spi_transfer *xfer;
468 struct rx_ranges ranges[SPI_TEST_MAX_TRANSFERS], *r;
469 int i = 0;
470 LIST_HEAD(ranges_list);
471 u8 *addr;
472 int ret = 0;
473
474 /* loop over all transfers to fill in the rx_ranges */
475 list_for_each_entry(xfer, &msg->transfers, transfer_list) {
476 /* if there is no rx, then no check is needed */
477 if (!xfer->rx_buf)
478 continue;
479 /* fill in the rx_range */
480 if (RANGE_CHECK(xfer->rx_buf, xfer->len,
481 rx, SPI_TEST_MAX_SIZE_PLUS)) {
482 ranges[i].start = xfer->rx_buf;
483 ranges[i].end = xfer->rx_buf + xfer->len;
484 list_add(&ranges[i].list, &ranges_list);
485 i++;
486 }
487 }
488
489 /* if no ranges, then we can return and avoid the checks...*/
490 if (!i)
491 return 0;
492
493 /* sort the list */
494 list_sort(NULL, &ranges_list, rx_ranges_cmp);
495
496 /* and iterate over all the rx addresses */
497 for (addr = rx; addr < (u8 *)rx + SPI_TEST_MAX_SIZE_PLUS; addr++) {
498 /* if we are the DO not write pattern,
499 * then continue with the loop...
500 */
501 if (*addr == SPI_TEST_PATTERN_DO_NOT_WRITE)
502 continue;
503
504 /* check if we are inside a range */
505 list_for_each_entry(r, &ranges_list, list) {
506 /* if so then set to end... */
507 if ((addr >= r->start) && (addr < r->end))
508 addr = r->end;
509 }
510 /* second test after a (hopefull) translation */
511 if (*addr == SPI_TEST_PATTERN_DO_NOT_WRITE)
512 continue;
513
514 /* if still not found then something has modified too much */
515 /* we could list the "closest" transfer here... */
516 dev_err(&spi->dev,
517 "loopback strangeness - rx changed outside of allowed range at: %pK\n",
518 addr);
519 /* do not return, only set ret,
520 * so that we list all addresses
521 */
522 ret = -ERANGE;
523 }
524
525 return ret;
526 }
527
spi_test_check_elapsed_time(struct spi_device * spi,struct spi_test * test)528 static int spi_test_check_elapsed_time(struct spi_device *spi,
529 struct spi_test *test)
530 {
531 int i;
532 unsigned long long estimated_time = 0;
533 unsigned long long delay_usecs = 0;
534
535 for (i = 0; i < test->transfer_count; i++) {
536 struct spi_transfer *xfer = test->transfers + i;
537 unsigned long long nbits = (unsigned long long)BITS_PER_BYTE *
538 xfer->len;
539
540 delay_usecs += xfer->delay_usecs;
541 if (!xfer->speed_hz)
542 continue;
543 estimated_time += div_u64(nbits * NSEC_PER_SEC, xfer->speed_hz);
544 }
545
546 estimated_time += delay_usecs * NSEC_PER_USEC;
547 if (test->elapsed_time < estimated_time) {
548 dev_err(&spi->dev,
549 "elapsed time %lld ns is shorter than minimum estimated time %lld ns\n",
550 test->elapsed_time, estimated_time);
551
552 return -EINVAL;
553 }
554
555 return 0;
556 }
557
spi_test_check_loopback_result(struct spi_device * spi,struct spi_message * msg,void * tx,void * rx)558 static int spi_test_check_loopback_result(struct spi_device *spi,
559 struct spi_message *msg,
560 void *tx, void *rx)
561 {
562 struct spi_transfer *xfer;
563 u8 rxb, txb;
564 size_t i;
565 int ret;
566
567 /* checks rx_buffer pattern are valid with loopback or without */
568 if (check_ranges) {
569 ret = spi_check_rx_ranges(spi, msg, rx);
570 if (ret)
571 return ret;
572 }
573
574 /* if we run without loopback, then return now */
575 if (!loopback)
576 return 0;
577
578 /* if applicable to transfer check that rx_buf is equal to tx_buf */
579 list_for_each_entry(xfer, &msg->transfers, transfer_list) {
580 /* if there is no rx, then no check is needed */
581 if (!xfer->len || !xfer->rx_buf)
582 continue;
583 /* so depending on tx_buf we need to handle things */
584 if (xfer->tx_buf) {
585 for (i = 0; i < xfer->len; i++) {
586 txb = ((u8 *)xfer->tx_buf)[i];
587 rxb = ((u8 *)xfer->rx_buf)[i];
588 if (txb != rxb)
589 goto mismatch_error;
590 }
591 } else {
592 /* first byte received */
593 txb = ((u8 *)xfer->rx_buf)[0];
594 /* first byte may be 0 or xff */
595 if (!((txb == 0) || (txb == 0xff))) {
596 dev_err(&spi->dev,
597 "loopback strangeness - we expect 0x00 or 0xff, but not 0x%02x\n",
598 txb);
599 return -EINVAL;
600 }
601 /* check that all bytes are identical */
602 for (i = 1; i < xfer->len; i++) {
603 rxb = ((u8 *)xfer->rx_buf)[i];
604 if (rxb != txb)
605 goto mismatch_error;
606 }
607 }
608 }
609
610 return 0;
611
612 mismatch_error:
613 dev_err(&spi->dev,
614 "loopback strangeness - transfer mismatch on byte %04zx - expected 0x%02x, but got 0x%02x\n",
615 i, txb, rxb);
616
617 return -EINVAL;
618 }
619
spi_test_translate(struct spi_device * spi,void ** ptr,size_t len,void * tx,void * rx)620 static int spi_test_translate(struct spi_device *spi,
621 void **ptr, size_t len,
622 void *tx, void *rx)
623 {
624 size_t off;
625
626 /* return on null */
627 if (!*ptr)
628 return 0;
629
630 /* in the MAX_SIZE_HALF case modify the pointer */
631 if (((size_t)*ptr) & SPI_TEST_MAX_SIZE_HALF)
632 /* move the pointer to the correct range */
633 *ptr += (SPI_TEST_MAX_SIZE_PLUS / 2) -
634 SPI_TEST_MAX_SIZE_HALF;
635
636 /* RX range
637 * - we check against MAX_SIZE_PLUS to allow for automated alignment
638 */
639 if (RANGE_CHECK(*ptr, len, RX(0), SPI_TEST_MAX_SIZE_PLUS)) {
640 off = *ptr - RX(0);
641 *ptr = rx + off;
642
643 return 0;
644 }
645
646 /* TX range */
647 if (RANGE_CHECK(*ptr, len, TX(0), SPI_TEST_MAX_SIZE_PLUS)) {
648 off = *ptr - TX(0);
649 *ptr = tx + off;
650
651 return 0;
652 }
653
654 dev_err(&spi->dev,
655 "PointerRange [%pK:%pK[ not in range [%pK:%pK[ or [%pK:%pK[\n",
656 *ptr, *ptr + len,
657 RX(0), RX(SPI_TEST_MAX_SIZE),
658 TX(0), TX(SPI_TEST_MAX_SIZE));
659
660 return -EINVAL;
661 }
662
spi_test_fill_pattern(struct spi_device * spi,struct spi_test * test)663 static int spi_test_fill_pattern(struct spi_device *spi,
664 struct spi_test *test)
665 {
666 struct spi_transfer *xfers = test->transfers;
667 u8 *tx_buf;
668 size_t count = 0;
669 int i, j;
670
671 #ifdef __BIG_ENDIAN
672 #define GET_VALUE_BYTE(value, index, bytes) \
673 (value >> (8 * (bytes - 1 - count % bytes)))
674 #else
675 #define GET_VALUE_BYTE(value, index, bytes) \
676 (value >> (8 * (count % bytes)))
677 #endif
678
679 /* fill all transfers with the pattern requested */
680 for (i = 0; i < test->transfer_count; i++) {
681 /* fill rx_buf with SPI_TEST_PATTERN_UNWRITTEN */
682 if (xfers[i].rx_buf)
683 memset(xfers[i].rx_buf, SPI_TEST_PATTERN_UNWRITTEN,
684 xfers[i].len);
685 /* if tx_buf is NULL then skip */
686 tx_buf = (u8 *)xfers[i].tx_buf;
687 if (!tx_buf)
688 continue;
689 /* modify all the transfers */
690 for (j = 0; j < xfers[i].len; j++, tx_buf++, count++) {
691 /* fill tx */
692 switch (test->fill_option) {
693 case FILL_MEMSET_8:
694 *tx_buf = test->fill_pattern;
695 break;
696 case FILL_MEMSET_16:
697 *tx_buf = GET_VALUE_BYTE(test->fill_pattern,
698 count, 2);
699 break;
700 case FILL_MEMSET_24:
701 *tx_buf = GET_VALUE_BYTE(test->fill_pattern,
702 count, 3);
703 break;
704 case FILL_MEMSET_32:
705 *tx_buf = GET_VALUE_BYTE(test->fill_pattern,
706 count, 4);
707 break;
708 case FILL_COUNT_8:
709 *tx_buf = count;
710 break;
711 case FILL_COUNT_16:
712 *tx_buf = GET_VALUE_BYTE(count, count, 2);
713 break;
714 case FILL_COUNT_24:
715 *tx_buf = GET_VALUE_BYTE(count, count, 3);
716 break;
717 case FILL_COUNT_32:
718 *tx_buf = GET_VALUE_BYTE(count, count, 4);
719 break;
720 case FILL_TRANSFER_BYTE_8:
721 *tx_buf = j;
722 break;
723 case FILL_TRANSFER_BYTE_16:
724 *tx_buf = GET_VALUE_BYTE(j, j, 2);
725 break;
726 case FILL_TRANSFER_BYTE_24:
727 *tx_buf = GET_VALUE_BYTE(j, j, 3);
728 break;
729 case FILL_TRANSFER_BYTE_32:
730 *tx_buf = GET_VALUE_BYTE(j, j, 4);
731 break;
732 case FILL_TRANSFER_NUM:
733 *tx_buf = i;
734 break;
735 default:
736 dev_err(&spi->dev,
737 "unsupported fill_option: %i\n",
738 test->fill_option);
739 return -EINVAL;
740 }
741 }
742 }
743
744 return 0;
745 }
746
_spi_test_run_iter(struct spi_device * spi,struct spi_test * test,void * tx,void * rx)747 static int _spi_test_run_iter(struct spi_device *spi,
748 struct spi_test *test,
749 void *tx, void *rx)
750 {
751 struct spi_message *msg = &test->msg;
752 struct spi_transfer *x;
753 int i, ret;
754
755 /* initialize message - zero-filled via static initialization */
756 spi_message_init_no_memset(msg);
757
758 /* fill rx with the DO_NOT_WRITE pattern */
759 memset(rx, SPI_TEST_PATTERN_DO_NOT_WRITE, SPI_TEST_MAX_SIZE_PLUS);
760
761 /* add the individual transfers */
762 for (i = 0; i < test->transfer_count; i++) {
763 x = &test->transfers[i];
764
765 /* patch the values of tx_buf */
766 ret = spi_test_translate(spi, (void **)&x->tx_buf, x->len,
767 (void *)tx, rx);
768 if (ret)
769 return ret;
770
771 /* patch the values of rx_buf */
772 ret = spi_test_translate(spi, &x->rx_buf, x->len,
773 (void *)tx, rx);
774 if (ret)
775 return ret;
776
777 /* and add it to the list */
778 spi_message_add_tail(x, msg);
779 }
780
781 /* fill in the transfer buffers with pattern */
782 ret = spi_test_fill_pattern(spi, test);
783 if (ret)
784 return ret;
785
786 /* and execute */
787 if (test->execute_msg)
788 ret = test->execute_msg(spi, test, tx, rx);
789 else
790 ret = spi_test_execute_msg(spi, test, tx, rx);
791
792 /* handle result */
793 if (ret == test->expected_return)
794 return 0;
795
796 dev_err(&spi->dev,
797 "test failed - test returned %i, but we expect %i\n",
798 ret, test->expected_return);
799
800 if (ret)
801 return ret;
802
803 /* if it is 0, as we expected something else,
804 * then return something special
805 */
806 return -EFAULT;
807 }
808
spi_test_run_iter(struct spi_device * spi,const struct spi_test * testtemplate,void * tx,void * rx,size_t len,size_t tx_off,size_t rx_off)809 static int spi_test_run_iter(struct spi_device *spi,
810 const struct spi_test *testtemplate,
811 void *tx, void *rx,
812 size_t len,
813 size_t tx_off,
814 size_t rx_off
815 )
816 {
817 struct spi_test test;
818 int i, tx_count, rx_count;
819
820 /* copy the test template to test */
821 memcpy(&test, testtemplate, sizeof(test));
822
823 /* if iterate_transfer_mask is not set,
824 * then set it to first transfer only
825 */
826 if (!(test.iterate_transfer_mask & (BIT(test.transfer_count) - 1)))
827 test.iterate_transfer_mask = 1;
828
829 /* count number of transfers with tx/rx_buf != NULL */
830 rx_count = tx_count = 0;
831 for (i = 0; i < test.transfer_count; i++) {
832 if (test.transfers[i].tx_buf)
833 tx_count++;
834 if (test.transfers[i].rx_buf)
835 rx_count++;
836 }
837
838 /* in some iteration cases warn and exit early,
839 * as there is nothing to do, that has not been tested already...
840 */
841 if (tx_off && (!tx_count)) {
842 dev_warn_once(&spi->dev,
843 "%s: iterate_tx_off configured with tx_buf==NULL - ignoring\n",
844 test.description);
845 return 0;
846 }
847 if (rx_off && (!rx_count)) {
848 dev_warn_once(&spi->dev,
849 "%s: iterate_rx_off configured with rx_buf==NULL - ignoring\n",
850 test.description);
851 return 0;
852 }
853
854 /* write out info */
855 if (!(len || tx_off || rx_off)) {
856 dev_info(&spi->dev, "Running test %s\n", test.description);
857 } else {
858 dev_info(&spi->dev,
859 " with iteration values: len = %zu, tx_off = %zu, rx_off = %zu\n",
860 len, tx_off, rx_off);
861 }
862
863 /* update in the values from iteration values */
864 for (i = 0; i < test.transfer_count; i++) {
865 /* only when bit in transfer mask is set */
866 if (!(test.iterate_transfer_mask & BIT(i)))
867 continue;
868 test.transfers[i].len = len;
869 if (test.transfers[i].tx_buf)
870 test.transfers[i].tx_buf += tx_off;
871 if (test.transfers[i].tx_buf)
872 test.transfers[i].rx_buf += rx_off;
873 }
874
875 /* and execute */
876 return _spi_test_run_iter(spi, &test, tx, rx);
877 }
878
879 /**
880 * spi_test_execute_msg - default implementation to run a test
881 *
882 * spi: @spi_device on which to run the @spi_message
883 * test: the test to execute, which already contains @msg
884 * tx: the tx buffer allocated for the test sequence
885 * rx: the rx buffer allocated for the test sequence
886 *
887 * Returns: error code of spi_sync as well as basic error checking
888 */
spi_test_execute_msg(struct spi_device * spi,struct spi_test * test,void * tx,void * rx)889 int spi_test_execute_msg(struct spi_device *spi, struct spi_test *test,
890 void *tx, void *rx)
891 {
892 struct spi_message *msg = &test->msg;
893 int ret = 0;
894 int i;
895
896 /* only if we do not simulate */
897 if (!simulate_only) {
898 ktime_t start;
899
900 /* dump the complete message before and after the transfer */
901 if (dump_messages == 3)
902 spi_test_dump_message(spi, msg, true);
903
904 start = ktime_get();
905 /* run spi message */
906 ret = spi_sync(spi, msg);
907 test->elapsed_time = ktime_to_ns(ktime_sub(ktime_get(), start));
908 if (ret == -ETIMEDOUT) {
909 dev_info(&spi->dev,
910 "spi-message timed out - rerunning...\n");
911 /* rerun after a few explicit schedules */
912 for (i = 0; i < 16; i++)
913 schedule();
914 ret = spi_sync(spi, msg);
915 }
916 if (ret) {
917 dev_err(&spi->dev,
918 "Failed to execute spi_message: %i\n",
919 ret);
920 goto exit;
921 }
922
923 /* do some extra error checks */
924 if (msg->frame_length != msg->actual_length) {
925 dev_err(&spi->dev,
926 "actual length differs from expected\n");
927 ret = -EIO;
928 goto exit;
929 }
930
931 /* run rx-buffer tests */
932 ret = spi_test_check_loopback_result(spi, msg, tx, rx);
933 if (ret)
934 goto exit;
935
936 ret = spi_test_check_elapsed_time(spi, test);
937 }
938
939 /* if requested or on error dump message (including data) */
940 exit:
941 if (dump_messages || ret)
942 spi_test_dump_message(spi, msg,
943 (dump_messages >= 2) || (ret));
944
945 return ret;
946 }
947 EXPORT_SYMBOL_GPL(spi_test_execute_msg);
948
949 /**
950 * spi_test_run_test - run an individual spi_test
951 * including all the relevant iterations on:
952 * length and buffer alignment
953 *
954 * spi: the spi_device to send the messages to
955 * test: the test which we need to execute
956 * tx: the tx buffer allocated for the test sequence
957 * rx: the rx buffer allocated for the test sequence
958 *
959 * Returns: status code of spi_sync or other failures
960 */
961
spi_test_run_test(struct spi_device * spi,const struct spi_test * test,void * tx,void * rx)962 int spi_test_run_test(struct spi_device *spi, const struct spi_test *test,
963 void *tx, void *rx)
964 {
965 int idx_len;
966 size_t len;
967 size_t tx_align, rx_align;
968 int ret;
969
970 /* test for transfer limits */
971 if (test->transfer_count >= SPI_TEST_MAX_TRANSFERS) {
972 dev_err(&spi->dev,
973 "%s: Exceeded max number of transfers with %i\n",
974 test->description, test->transfer_count);
975 return -E2BIG;
976 }
977
978 /* setting up some values in spi_message
979 * based on some settings in spi_master
980 * some of this can also get done in the run() method
981 */
982
983 /* iterate over all the iterable values using macros
984 * (to make it a bit more readable...
985 */
986 #define FOR_EACH_ALIGNMENT(var) \
987 for (var = 0; \
988 var < (test->iterate_##var ? \
989 (spi->master->dma_alignment ? \
990 spi->master->dma_alignment : \
991 test->iterate_##var) : \
992 1); \
993 var++)
994
995 for (idx_len = 0; idx_len < SPI_TEST_MAX_ITERATE &&
996 (len = test->iterate_len[idx_len]) != -1; idx_len++) {
997 FOR_EACH_ALIGNMENT(tx_align) {
998 FOR_EACH_ALIGNMENT(rx_align) {
999 /* and run the iteration */
1000 ret = spi_test_run_iter(spi, test,
1001 tx, rx,
1002 len,
1003 tx_align,
1004 rx_align);
1005 if (ret)
1006 return ret;
1007 }
1008 }
1009 }
1010
1011 return 0;
1012 }
1013 EXPORT_SYMBOL_GPL(spi_test_run_test);
1014
1015 /**
1016 * spi_test_run_tests - run an array of spi_messages tests
1017 * @spi: the spi device on which to run the tests
1018 * @tests: NULL-terminated array of @spi_test
1019 *
1020 * Returns: status errors as per @spi_test_run_test()
1021 */
1022
spi_test_run_tests(struct spi_device * spi,struct spi_test * tests)1023 int spi_test_run_tests(struct spi_device *spi,
1024 struct spi_test *tests)
1025 {
1026 char *rx = NULL, *tx = NULL;
1027 int ret = 0, count = 0;
1028 struct spi_test *test;
1029
1030 /* allocate rx/tx buffers of 128kB size without devm
1031 * in the hope that is on a page boundary
1032 */
1033 if (use_vmalloc)
1034 rx = vmalloc(SPI_TEST_MAX_SIZE_PLUS);
1035 else
1036 rx = kzalloc(SPI_TEST_MAX_SIZE_PLUS, GFP_KERNEL);
1037 if (!rx)
1038 return -ENOMEM;
1039
1040
1041 if (use_vmalloc)
1042 tx = vmalloc(SPI_TEST_MAX_SIZE_PLUS);
1043 else
1044 tx = kzalloc(SPI_TEST_MAX_SIZE_PLUS, GFP_KERNEL);
1045 if (!tx) {
1046 ret = -ENOMEM;
1047 goto err_tx;
1048 }
1049
1050 /* now run the individual tests in the table */
1051 for (test = tests, count = 0; test->description[0];
1052 test++, count++) {
1053 /* only run test if requested */
1054 if ((run_only_test > -1) && (count != run_only_test))
1055 continue;
1056 /* run custom implementation */
1057 if (test->run_test)
1058 ret = test->run_test(spi, test, tx, rx);
1059 else
1060 ret = spi_test_run_test(spi, test, tx, rx);
1061 if (ret)
1062 goto out;
1063 /* add some delays so that we can easily
1064 * detect the individual tests when using a logic analyzer
1065 * we also add scheduling to avoid potential spi_timeouts...
1066 */
1067 mdelay(100);
1068 schedule();
1069 }
1070
1071 out:
1072 kvfree(tx);
1073 err_tx:
1074 kvfree(rx);
1075 return ret;
1076 }
1077 EXPORT_SYMBOL_GPL(spi_test_run_tests);
1078