1 /*-
2 * Copyright (c) 2015-2016 Landon Fuller <landon@landonf.org>
3 * Copyright (c) 2017 The FreeBSD Foundation
4 * All rights reserved.
5 *
6 * Portions of this software were developed by Landon Fuller
7 * under sponsorship from the FreeBSD Foundation.
8 *
9 * Redistribution and use in source and binary forms, with or without
10 * modification, are permitted provided that the following conditions
11 * are met:
12 * 1. Redistributions of source code must retain the above copyright
13 * notice, this list of conditions and the following disclaimer,
14 * without modification.
15 * 2. Redistributions in binary form must reproduce at minimum a disclaimer
16 * similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any
17 * redistribution must be conditioned upon including a substantially
18 * similar Disclaimer requirement for further binary redistribution.
19 *
20 * NO WARRANTY
21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
22 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
23 * LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY
24 * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
25 * THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY,
26 * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
27 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
28 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
29 * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
30 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
31 * THE POSSIBILITY OF SUCH DAMAGES.
32 */
33
34 #include <sys/cdefs.h>
35 #include <sys/param.h>
36 #include <sys/bus.h>
37 #include <sys/kernel.h>
38 #include <sys/limits.h>
39 #include <sys/systm.h>
40
41 #include <machine/bus.h>
42 #include <machine/resource.h>
43
44 #include <dev/bhnd/bhndvar.h>
45
46 #include "sibareg.h"
47 #include "sibavar.h"
48
49 static int siba_register_interrupts(device_t dev, device_t child,
50 struct siba_devinfo *dinfo);
51 static int siba_append_dinfo_region(struct siba_devinfo *dinfo,
52 uint8_t addridx, uint32_t base, uint32_t size,
53 uint32_t bus_reserved);
54
55 /**
56 * Map a siba(4) OCP vendor code to its corresponding JEDEC JEP-106 vendor
57 * code.
58 *
59 * @param ocp_vendor An OCP vendor code.
60 * @return The BHND_MFGID constant corresponding to @p ocp_vendor, or
61 * BHND_MFGID_INVALID if the OCP vendor is unknown.
62 */
63 uint16_t
siba_get_bhnd_mfgid(uint16_t ocp_vendor)64 siba_get_bhnd_mfgid(uint16_t ocp_vendor)
65 {
66 switch (ocp_vendor) {
67 case OCP_VENDOR_BCM:
68 return (BHND_MFGID_BCM);
69 default:
70 return (BHND_MFGID_INVALID);
71 }
72 }
73
74 /**
75 * Allocate and return a new empty device info structure.
76 *
77 * @param bus The requesting bus device.
78 *
79 * @retval NULL if allocation failed.
80 */
81 struct siba_devinfo *
siba_alloc_dinfo(device_t bus)82 siba_alloc_dinfo(device_t bus)
83 {
84 struct siba_devinfo *dinfo;
85
86 dinfo = malloc(sizeof(struct siba_devinfo), M_BHND, M_NOWAIT|M_ZERO);
87 if (dinfo == NULL)
88 return NULL;
89
90 for (u_int i = 0; i < nitems(dinfo->cfg); i++) {
91 dinfo->cfg[i] = ((struct siba_cfg_block){
92 .cb_base = 0,
93 .cb_size = 0,
94 .cb_rid = -1,
95 });
96 dinfo->cfg_res[i] = NULL;
97 dinfo->cfg_rid[i] = -1;
98 }
99
100 resource_list_init(&dinfo->resources);
101
102 dinfo->pmu_state = SIBA_PMU_NONE;
103
104 dinfo->intr = (struct siba_intr) {
105 .mapped = false,
106 .rid = -1
107 };
108
109 return dinfo;
110 }
111
112 /**
113 * Initialize a device info structure previously allocated via
114 * siba_alloc_dinfo, copying the provided core id.
115 *
116 * @param dev The requesting bus device.
117 * @param child The siba child device.
118 * @param dinfo The device info instance.
119 * @param core Device core info.
120 *
121 * @retval 0 success
122 * @retval non-zero initialization failed.
123 */
124 int
siba_init_dinfo(device_t dev,device_t child,struct siba_devinfo * dinfo,const struct siba_core_id * core_id)125 siba_init_dinfo(device_t dev, device_t child, struct siba_devinfo *dinfo,
126 const struct siba_core_id *core_id)
127 {
128 int error;
129
130 dinfo->core_id = *core_id;
131
132 /* Register all address space mappings */
133 for (uint8_t i = 0; i < core_id->num_admatch; i++) {
134 uint32_t bus_reserved;
135
136 /* If this is the device's core/enumeration addrespace,
137 * reserve the Sonics configuration register blocks for the
138 * use of our bus. */
139 bus_reserved = 0;
140 if (i == SIBA_CORE_ADDRSPACE)
141 bus_reserved = core_id->num_cfg_blocks * SIBA_CFG_SIZE;
142
143 /* Append the region info */
144 error = siba_append_dinfo_region(dinfo, i,
145 core_id->admatch[i].am_base, core_id->admatch[i].am_size,
146 bus_reserved);
147 if (error)
148 return (error);
149 }
150
151 /* Register all interrupt(s) */
152 if ((error = siba_register_interrupts(dev, child, dinfo)))
153 return (error);
154
155 return (0);
156 }
157
158 /**
159 * Register and map all interrupts for @p dinfo.
160 *
161 * @param dev The siba bus device.
162 * @param child The siba child device.
163 * @param dinfo The device info instance on which to register all interrupt
164 * entries.
165 */
166 static int
siba_register_interrupts(device_t dev,device_t child,struct siba_devinfo * dinfo)167 siba_register_interrupts(device_t dev, device_t child,
168 struct siba_devinfo *dinfo)
169 {
170 int error;
171
172 /* Is backplane interrupt distribution enabled for this core? */
173 if (!dinfo->core_id.intr_en)
174 return (0);
175
176 /* Have one interrupt */
177 dinfo->intr.mapped = false;
178 dinfo->intr.irq = 0;
179 dinfo->intr.rid = -1;
180
181 /* Map the interrupt */
182 error = BHND_BUS_MAP_INTR(dev, child, 0 /* single intr is always 0 */,
183 &dinfo->intr.irq);
184 if (error) {
185 device_printf(dev, "failed mapping interrupt line for core %u: "
186 "%d\n", dinfo->core_id.core_info.core_idx, error);
187 return (error);
188 }
189 dinfo->intr.mapped = true;
190
191 /* Update the resource list */
192 dinfo->intr.rid = resource_list_add_next(&dinfo->resources, SYS_RES_IRQ,
193 dinfo->intr.irq, dinfo->intr.irq, 1);
194
195 return (0);
196 }
197
198 /**
199 * Map an addrspace index to its corresponding bhnd(4) BHND_PORT_DEVICE port
200 * number.
201 *
202 * @param addrspace Address space index.
203 */
204 u_int
siba_addrspace_device_port(u_int addrspace)205 siba_addrspace_device_port(u_int addrspace)
206 {
207 /* The first addrspace is always mapped to device0; the remainder
208 * are mapped to device1 */
209 if (addrspace == 0)
210 return (0);
211 else
212 return (1);
213 }
214
215 /**
216 * Map an addrspace index to its corresponding bhnd(4) BHND_PORT_DEVICE port
217 * region number.
218 *
219 * @param addrspace Address space index.
220 */
221 u_int
siba_addrspace_device_region(u_int addrspace)222 siba_addrspace_device_region(u_int addrspace)
223 {
224 /* The first addrspace is always mapped to device0.0; the remainder
225 * are mapped to device1.0 + (n - 1) */
226 if (addrspace == 0)
227 return (0);
228 else
229 return (addrspace - 1);
230 }
231
232 /**
233 * Map an config block index to its corresponding bhnd(4) BHND_PORT_AGENT port
234 * number.
235 *
236 * @param cfg Config block index.
237 */
238 u_int
siba_cfg_agent_port(u_int cfg)239 siba_cfg_agent_port(u_int cfg)
240 {
241 /* Always agent0 */
242 return (0);
243 }
244
245 /**
246 * Map an config block index to its corresponding bhnd(4) BHND_PORT_AGENT port
247 * region number.
248 *
249 * @param cfg Config block index.
250 */
251 u_int
siba_cfg_agent_region(u_int cfg)252 siba_cfg_agent_region(u_int cfg)
253 {
254 /* Always agent0.<idx> */
255 return (cfg);
256 }
257
258 /**
259 * Return the number of bhnd(4) ports to advertise for the given
260 * @p core_id and @p port_type.
261 *
262 * Refer to the siba_addrspace_index() and siba_cfg_index() functions for
263 * information on siba's mapping of bhnd(4) port and region identifiers.
264 *
265 * @param core_id The siba core info.
266 * @param port_type The bhnd(4) port type.
267 */
268 u_int
siba_port_count(struct siba_core_id * core_id,bhnd_port_type port_type)269 siba_port_count(struct siba_core_id *core_id, bhnd_port_type port_type)
270 {
271 switch (port_type) {
272 case BHND_PORT_DEVICE:
273 /* 0, 1, or 2 ports */
274 return (min(core_id->num_admatch, 2));
275
276 case BHND_PORT_AGENT:
277 /* One agent port maps all configuration blocks */
278 if (core_id->num_cfg_blocks > 0)
279 return (1);
280
281 /* Do not advertise an agent port if there are no configuration
282 * register blocks */
283 return (0);
284
285 default:
286 return (0);
287 }
288 }
289
290 /**
291 * Return true if @p port of @p port_type is defined by @p core_id, false
292 * otherwise.
293 *
294 * @param core_id The siba core info.
295 * @param port_type The bhnd(4) port type.
296 * @param port The bhnd(4) port number.
297 */
298 bool
siba_is_port_valid(struct siba_core_id * core_id,bhnd_port_type port_type,u_int port)299 siba_is_port_valid(struct siba_core_id *core_id, bhnd_port_type port_type,
300 u_int port)
301 {
302 /* Verify the index against the port count */
303 if (siba_port_count(core_id, port_type) <= port)
304 return (false);
305
306 return (true);
307 }
308
309 /**
310 * Return the number of bhnd(4) regions to advertise for @p core_id on the
311 * @p port of @p port_type.
312 *
313 * @param core_id The siba core info.
314 * @param port_type The bhnd(4) port type.
315 */
316 u_int
siba_port_region_count(struct siba_core_id * core_id,bhnd_port_type port_type,u_int port)317 siba_port_region_count(struct siba_core_id *core_id, bhnd_port_type port_type,
318 u_int port)
319 {
320 /* The port must exist */
321 if (!siba_is_port_valid(core_id, port_type, port))
322 return (0);
323
324 switch (port_type) {
325 case BHND_PORT_DEVICE:
326 /* The first address space, if any, is mapped to device0.0 */
327 if (port == 0)
328 return (min(core_id->num_admatch, 1));
329
330 /* All remaining address spaces are mapped to device0.(n - 1) */
331 if (port == 1 && core_id->num_admatch >= 2)
332 return (core_id->num_admatch - 1);
333
334 break;
335
336 case BHND_PORT_AGENT:
337 /* All config blocks are mapped to a single port */
338 if (port == 0)
339 return (core_id->num_cfg_blocks);
340
341 break;
342
343 default:
344 break;
345 }
346
347 /* Validated above */
348 panic("siba_is_port_valid() returned true for unknown %s.%u port",
349 bhnd_port_type_name(port_type), port);
350
351 }
352
353 /**
354 * Map a bhnd(4) type/port/region triplet to its associated config block index,
355 * if any.
356 *
357 * We map config registers to port/region identifiers as follows:
358 *
359 * [port].[region] [cfg register block]
360 * agent0.0 0
361 * agent0.1 1
362 *
363 * @param port_type The bhnd(4) port type.
364 * @param port The bhnd(4) port number.
365 * @param region The bhnd(4) port region.
366 * @param addridx On success, the corresponding addrspace index.
367 *
368 * @retval 0 success
369 * @retval ENOENT if the given type/port/region cannot be mapped to a
370 * siba config register block.
371 */
372 int
siba_cfg_index(struct siba_core_id * core_id,bhnd_port_type port_type,u_int port,u_int region,u_int * cfgidx)373 siba_cfg_index(struct siba_core_id *core_id, bhnd_port_type port_type,
374 u_int port, u_int region, u_int *cfgidx)
375 {
376 /* Config blocks are mapped to agent ports */
377 if (port_type != BHND_PORT_AGENT)
378 return (ENOENT);
379
380 /* Port must be valid */
381 if (!siba_is_port_valid(core_id, port_type, port))
382 return (ENOENT);
383
384 if (region >= core_id->num_cfg_blocks)
385 return (ENOENT);
386
387 if (region >= SIBA_MAX_CFG)
388 return (ENOENT);
389
390 /* Found */
391 *cfgidx = region;
392 return (0);
393 }
394
395 /**
396 * Map an bhnd(4) type/port/region triplet to its associated config block
397 * entry, if any.
398 *
399 * The only supported port type is BHND_PORT_DEVICE.
400 *
401 * @param dinfo The device info to search for a matching address space.
402 * @param type The bhnd(4) port type.
403 * @param port The bhnd(4) port number.
404 * @param region The bhnd(4) port region.
405 */
406 struct siba_cfg_block *
siba_find_cfg_block(struct siba_devinfo * dinfo,bhnd_port_type type,u_int port,u_int region)407 siba_find_cfg_block(struct siba_devinfo *dinfo, bhnd_port_type type, u_int port,
408 u_int region)
409 {
410 u_int cfgidx;
411 int error;
412
413 /* Map to addrspace index */
414 error = siba_cfg_index(&dinfo->core_id, type, port, region, &cfgidx);
415 if (error)
416 return (NULL);
417
418 /* Found */
419 return (&dinfo->cfg[cfgidx]);
420 }
421
422 /**
423 * Map a bhnd(4) type/port/region triplet to its associated address space
424 * index, if any.
425 *
426 * For compatibility with bcma(4), we map address spaces to port/region
427 * identifiers as follows:
428 *
429 * [port.region] [admatch index]
430 * device0.0 0
431 * device1.0 1
432 * device1.1 2
433 * device1.2 3
434 *
435 * @param core_id The siba core info.
436 * @param port_type The bhnd(4) port type.
437 * @param port The bhnd(4) port number.
438 * @param region The bhnd(4) port region.
439 * @param addridx On success, the corresponding addrspace index.
440 *
441 * @retval 0 success
442 * @retval ENOENT if the given type/port/region cannot be mapped to a
443 * siba address space.
444 */
445 int
siba_addrspace_index(struct siba_core_id * core_id,bhnd_port_type port_type,u_int port,u_int region,u_int * addridx)446 siba_addrspace_index(struct siba_core_id *core_id, bhnd_port_type port_type,
447 u_int port, u_int region, u_int *addridx)
448 {
449 u_int idx;
450
451 /* Address spaces are always device ports */
452 if (port_type != BHND_PORT_DEVICE)
453 return (ENOENT);
454
455 /* Port must be valid */
456 if (!siba_is_port_valid(core_id, port_type, port))
457 return (ENOENT);
458
459 if (port == 0)
460 idx = region;
461 else if (port == 1)
462 idx = region + 1;
463 else
464 return (ENOENT);
465
466 if (idx >= core_id->num_admatch)
467 return (ENOENT);
468
469 /* Found */
470 *addridx = idx;
471 return (0);
472 }
473
474 /**
475 * Map an bhnd(4) type/port/region triplet to its associated address space
476 * entry, if any.
477 *
478 * The only supported port type is BHND_PORT_DEVICE.
479 *
480 * @param dinfo The device info to search for a matching address space.
481 * @param type The bhnd(4) port type.
482 * @param port The bhnd(4) port number.
483 * @param region The bhnd(4) port region.
484 */
485 struct siba_addrspace *
siba_find_addrspace(struct siba_devinfo * dinfo,bhnd_port_type type,u_int port,u_int region)486 siba_find_addrspace(struct siba_devinfo *dinfo, bhnd_port_type type, u_int port,
487 u_int region)
488 {
489 u_int addridx;
490 int error;
491
492 /* Map to addrspace index */
493 error = siba_addrspace_index(&dinfo->core_id, type, port, region,
494 &addridx);
495 if (error)
496 return (NULL);
497
498 /* Found */
499 if (addridx >= SIBA_MAX_ADDRSPACE)
500 return (NULL);
501
502 return (&dinfo->addrspace[addridx]);
503 }
504
505 /**
506 * Append an address space entry to @p dinfo.
507 *
508 * @param dinfo The device info entry to update.
509 * @param addridx The address space index.
510 * @param base The mapping's base address.
511 * @param size The mapping size.
512 * @param bus_reserved Number of bytes to reserve in @p size for bus use
513 * when registering the resource list entry. This is used to reserve bus
514 * access to the core's SIBA_CFG* register blocks.
515 *
516 * @retval 0 success
517 * @retval non-zero An error occurred appending the entry.
518 */
519 static int
siba_append_dinfo_region(struct siba_devinfo * dinfo,uint8_t addridx,uint32_t base,uint32_t size,uint32_t bus_reserved)520 siba_append_dinfo_region(struct siba_devinfo *dinfo, uint8_t addridx,
521 uint32_t base, uint32_t size, uint32_t bus_reserved)
522 {
523 struct siba_addrspace *sa;
524 rman_res_t r_size;
525
526 /* Verify that base + size will not overflow */
527 if (size > 0 && UINT32_MAX - (size - 1) < base)
528 return (ERANGE);
529
530 /* Verify that size - bus_reserved will not underflow */
531 if (size < bus_reserved)
532 return (ERANGE);
533
534 /* Must not be 0-length */
535 if (size == 0)
536 return (EINVAL);
537
538 /* Must not exceed addrspace array size */
539 if (addridx >= nitems(dinfo->addrspace))
540 return (EINVAL);
541
542 /* Initialize new addrspace entry */
543 sa = &dinfo->addrspace[addridx];
544 sa->sa_base = base;
545 sa->sa_size = size;
546 sa->sa_bus_reserved = bus_reserved;
547
548 /* Populate the resource list */
549 r_size = size - bus_reserved;
550 sa->sa_rid = resource_list_add_next(&dinfo->resources, SYS_RES_MEMORY,
551 base, base + (r_size - 1), r_size);
552
553 return (0);
554 }
555
556 /**
557 * Deallocate the given device info structure and any associated resources.
558 *
559 * @param dev The requesting bus device.
560 * @param child The siba child device.
561 * @param dinfo Device info associated with @p child to be deallocated.
562 */
563 void
siba_free_dinfo(device_t dev,device_t child,struct siba_devinfo * dinfo)564 siba_free_dinfo(device_t dev, device_t child, struct siba_devinfo *dinfo)
565 {
566 resource_list_free(&dinfo->resources);
567
568 /* Free all mapped configuration blocks */
569 for (u_int i = 0; i < nitems(dinfo->cfg); i++) {
570 if (dinfo->cfg_res[i] == NULL)
571 continue;
572
573 bhnd_release_resource(dev, SYS_RES_MEMORY, dinfo->cfg_rid[i],
574 dinfo->cfg_res[i]);
575
576 dinfo->cfg_res[i] = NULL;
577 dinfo->cfg_rid[i] = -1;
578 }
579
580 /* Unmap the core's interrupt */
581 if (dinfo->core_id.intr_en && dinfo->intr.mapped) {
582 BHND_BUS_UNMAP_INTR(dev, child, dinfo->intr.irq);
583 dinfo->intr.mapped = false;
584 }
585
586 free(dinfo, M_BHND);
587 }
588
589 /**
590 * Return the core-enumeration-relative offset for the @p addrspace
591 * SIBA_R0_ADMATCH* register.
592 *
593 * @param addrspace The address space index.
594 *
595 * @retval non-zero success
596 * @retval 0 the given @p addrspace index is not supported.
597 */
598 u_int
siba_admatch_offset(uint8_t addrspace)599 siba_admatch_offset(uint8_t addrspace)
600 {
601 switch (addrspace) {
602 case 0:
603 return SB0_REG_ABS(SIBA_CFG0_ADMATCH0);
604 case 1:
605 return SB0_REG_ABS(SIBA_CFG0_ADMATCH1);
606 case 2:
607 return SB0_REG_ABS(SIBA_CFG0_ADMATCH2);
608 case 3:
609 return SB0_REG_ABS(SIBA_CFG0_ADMATCH3);
610 default:
611 return (0);
612 }
613 }
614
615 /**
616 * Parse a SIBA_R0_ADMATCH* register.
617 *
618 * @param addrspace The address space index.
619 * @param am The address match register value to be parsed.
620 * @param[out] admatch The parsed address match descriptor
621 *
622 * @retval 0 success
623 * @retval non-zero a parse error occurred.
624 */
625 int
siba_parse_admatch(uint32_t am,struct siba_admatch * admatch)626 siba_parse_admatch(uint32_t am, struct siba_admatch *admatch)
627 {
628 u_int am_type;
629
630 /* Extract the base address and size */
631 am_type = SIBA_REG_GET(am, AM_TYPE);
632 switch (am_type) {
633 case 0:
634 /* Type 0 entries are always enabled, and do not support
635 * negative matching */
636 admatch->am_base = am & SIBA_AM_BASE0_MASK;
637 admatch->am_size = 1 << (SIBA_REG_GET(am, AM_ADINT0) + 1);
638 admatch->am_enabled = true;
639 admatch->am_negative = false;
640 break;
641 case 1:
642 admatch->am_base = am & SIBA_AM_BASE1_MASK;
643 admatch->am_size = 1 << (SIBA_REG_GET(am, AM_ADINT1) + 1);
644 admatch->am_enabled = ((am & SIBA_AM_ADEN) != 0);
645 admatch->am_negative = ((am & SIBA_AM_ADNEG) != 0);
646 break;
647 case 2:
648 admatch->am_base = am & SIBA_AM_BASE2_MASK;
649 admatch->am_size = 1 << (SIBA_REG_GET(am, AM_ADINT2) + 1);
650 admatch->am_enabled = ((am & SIBA_AM_ADEN) != 0);
651 admatch->am_negative = ((am & SIBA_AM_ADNEG) != 0);
652 break;
653 default:
654 return (EINVAL);
655 }
656
657 return (0);
658 }
659
660 /**
661 * Write @p value to @p dev's CFG0 target/initiator state register, performing
662 * required read-back and waiting for completion.
663 *
664 * @param dev The siba(4) child device.
665 * @param reg The CFG0 state register to write (e.g. SIBA_CFG0_TMSTATELOW,
666 * SIBA_CFG0_IMSTATE)
667 * @param value The value to write to @p reg.
668 * @param mask The mask of bits to be included from @p value.
669 */
670 void
siba_write_target_state(device_t dev,struct siba_devinfo * dinfo,bus_size_t reg,uint32_t value,uint32_t mask)671 siba_write_target_state(device_t dev, struct siba_devinfo *dinfo,
672 bus_size_t reg, uint32_t value, uint32_t mask)
673 {
674 struct bhnd_resource *r;
675 uint32_t rval;
676
677 r = dinfo->cfg_res[0];
678
679 KASSERT(r != NULL, ("%s missing CFG0 mapping",
680 device_get_nameunit(dev)));
681 KASSERT(reg <= SIBA_CFG_SIZE-4, ("%s invalid CFG0 register offset %#jx",
682 device_get_nameunit(dev), (uintmax_t)reg));
683
684 rval = bhnd_bus_read_4(r, reg);
685 rval &= ~mask;
686 rval |= (value & mask);
687
688 bhnd_bus_write_4(r, reg, rval);
689 bhnd_bus_read_4(r, reg); /* read-back */
690 DELAY(1);
691 }
692
693 /**
694 * Spin for up to @p usec waiting for @p dev's CFG0 target/initiator state
695 * register value to be equal to @p value after applying @p mask bits to both
696 * values.
697 *
698 * @param dev The siba(4) child device to wait on.
699 * @param dinfo The @p dev's device info
700 * @param reg The state register to read (e.g. SIBA_CFG0_TMSTATEHIGH,
701 * SIBA_CFG0_IMSTATE)
702 * @param value The value against which @p reg will be compared.
703 * @param mask The mask to be applied when comparing @p value with @p reg.
704 * @param usec The maximum number of microseconds to wait for completion.
705 *
706 * @retval 0 if SIBA_TMH_BUSY is cleared prior to the @p usec timeout.
707 * @retval ENODEV if SIBA_CFG0 is not mapped by @p dinfo.
708 * @retval ETIMEDOUT if a timeout occurs.
709 */
710 int
siba_wait_target_state(device_t dev,struct siba_devinfo * dinfo,bus_size_t reg,uint32_t value,uint32_t mask,u_int usec)711 siba_wait_target_state(device_t dev, struct siba_devinfo *dinfo, bus_size_t reg,
712 uint32_t value, uint32_t mask, u_int usec)
713 {
714 struct bhnd_resource *r;
715 uint32_t rval;
716
717 if ((r = dinfo->cfg_res[0]) == NULL)
718 return (ENODEV);
719
720 value &= mask;
721 for (int i = 0; i < usec; i += 10) {
722 rval = bhnd_bus_read_4(r, reg);
723 if ((rval & mask) == value)
724 return (0);
725
726 DELAY(10);
727 }
728
729 return (ETIMEDOUT);
730 }
731