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MINI2440: General update
[qemu/mini2440.git] / hw / bt-hci.c
bloba5902b03fd27983c6ee869b4551c79da02dd1ee8
1 /*
2 * QEMU Bluetooth HCI logic.
3 *
4 * Copyright (C) 2007 OpenMoko, Inc.
5 * Copyright (C) 2008 Andrzej Zaborowski <balrog@zabor.org>
6 *
7 * This program is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU General Public License as
9 * published by the Free Software Foundation; either version 2 of
10 * the License, or (at your option) any later version.
11 *
12 * This program is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License
18 * along with this program; if not, write to the Free Software
19 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
20 * MA 02110-1301 USA
21 */
22
23 #include "qemu-common.h"
24 #include "qemu-timer.h"
25 #include "usb.h"
26 #include "net.h"
27 #include "bt.h"
28
29 struct bt_hci_s {
30 uint8_t *(*evt_packet)(void *opaque);
31 void (*evt_submit)(void *opaque, int len);
32 void *opaque;
33 uint8_t evt_buf[256];
34
35 uint8_t acl_buf[4096];
36 int acl_len;
37
38 uint16_t asb_handle;
39 uint16_t psb_handle;
40
41 int last_cmd; /* Note: Always little-endian */
42
43 struct bt_device_s *conn_req_host;
44
45 struct {
46 int inquire;
47 int periodic;
48 int responses_left;
49 int responses;
50 QEMUTimer *inquiry_done;
51 QEMUTimer *inquiry_next;
52 int inquiry_length;
53 int inquiry_period;
54 int inquiry_mode;
55
56 #define HCI_HANDLE_OFFSET 0x20
57 #define HCI_HANDLES_MAX 0x10
58 struct bt_hci_master_link_s {
59 struct bt_link_s *link;
60 void (*lmp_acl_data)(struct bt_link_s *link,
61 const uint8_t *data, int start, int len);
62 QEMUTimer *acl_mode_timer;
63 } handle[HCI_HANDLES_MAX];
64 uint32_t role_bmp;
65 int last_handle;
66 int connecting;
67 bdaddr_t awaiting_bdaddr[HCI_HANDLES_MAX];
68 } lm;
69
70 uint8_t event_mask[8];
71 uint16_t voice_setting; /* Notw: Always little-endian */
72 uint16_t conn_accept_tout;
73 QEMUTimer *conn_accept_timer;
74
75 struct HCIInfo info;
76 struct bt_device_s device;
77 };
78
79 #define DEFAULT_RSSI_DBM 20
80
81 #define hci_from_info(ptr) container_of((ptr), struct bt_hci_s, info)
82 #define hci_from_device(ptr) container_of((ptr), struct bt_hci_s, device)
83
84 struct bt_hci_link_s {
85 struct bt_link_s btlink;
86 uint16_t handle; /* Local */
87 };
88
89 /* LMP layer emulation */
90 #if 0
91 static void bt_submit_lmp(struct bt_device_s *bt, int length, uint8_t *data)
92 {
93 int resp, resplen, error, op, tr;
94 uint8_t respdata[17];
95
96 if (length < 1)
97 return;
98
99 tr = *data & 1;
100 op = *(data ++) >> 1;
101 resp = LMP_ACCEPTED;
102 resplen = 2;
103 respdata[1] = op;
104 error = 0;
105 length --;
106
107 if (op >= 0x7c) { /* Extended opcode */
108 op |= *(data ++) << 8;
109 resp = LMP_ACCEPTED_EXT;
110 resplen = 4;
111 respdata[0] = op >> 8;
112 respdata[1] = op & 0xff;
113 length --;
114 }
115
116 switch (op) {
117 case LMP_ACCEPTED:
118 /* data[0] Op code
119 */
120 if (length < 1) {
121 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
122 goto not_accepted;
123 }
124 resp = 0;
125 break;
126
127 case LMP_ACCEPTED_EXT:
128 /* data[0] Escape op code
129 * data[1] Extended op code
130 */
131 if (length < 2) {
132 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
133 goto not_accepted;
134 }
135 resp = 0;
136 break;
137
138 case LMP_NOT_ACCEPTED:
139 /* data[0] Op code
140 * data[1] Error code
141 */
142 if (length < 2) {
143 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
144 goto not_accepted;
145 }
146 resp = 0;
147 break;
148
149 case LMP_NOT_ACCEPTED_EXT:
150 /* data[0] Op code
151 * data[1] Extended op code
152 * data[2] Error code
153 */
154 if (length < 3) {
155 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
156 goto not_accepted;
157 }
158 resp = 0;
159 break;
160
161 case LMP_HOST_CONNECTION_REQ:
162 break;
163
164 case LMP_SETUP_COMPLETE:
165 resp = LMP_SETUP_COMPLETE;
166 resplen = 1;
167 bt->setup = 1;
168 break;
169
170 case LMP_DETACH:
171 /* data[0] Error code
172 */
173 if (length < 1) {
174 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
175 goto not_accepted;
176 }
177 bt->setup = 0;
178 resp = 0;
179 break;
180
181 case LMP_SUPERVISION_TIMEOUT:
182 /* data[0,1] Supervision timeout
183 */
184 if (length < 2) {
185 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
186 goto not_accepted;
187 }
188 resp = 0;
189 break;
190
191 case LMP_QUALITY_OF_SERVICE:
192 resp = 0;
193 /* Fall through */
194 case LMP_QOS_REQ:
195 /* data[0,1] Poll interval
196 * data[2] N(BC)
197 */
198 if (length < 3) {
199 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
200 goto not_accepted;
201 }
202 break;
203
204 case LMP_MAX_SLOT:
205 resp = 0;
206 /* Fall through */
207 case LMP_MAX_SLOT_REQ:
208 /* data[0] Max slots
209 */
210 if (length < 1) {
211 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
212 goto not_accepted;
213 }
214 break;
215
216 case LMP_AU_RAND:
217 case LMP_IN_RAND:
218 case LMP_COMB_KEY:
219 /* data[0-15] Random number
220 */
221 if (length < 16) {
222 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
223 goto not_accepted;
224 }
225 if (op == LMP_AU_RAND) {
226 if (bt->key_present) {
227 resp = LMP_SRES;
228 resplen = 5;
229 /* XXX: [Part H] Section 6.1 on page 801 */
230 } else {
231 error = HCI_PIN_OR_KEY_MISSING;
232 goto not_accepted;
233 }
234 } else if (op == LMP_IN_RAND) {
235 error = HCI_PAIRING_NOT_ALLOWED;
236 goto not_accepted;
237 } else {
238 /* XXX: [Part H] Section 3.2 on page 779 */
239 resp = LMP_UNIT_KEY;
240 resplen = 17;
241 memcpy(respdata + 1, bt->key, 16);
242
243 error = HCI_UNIT_LINK_KEY_USED;
244 goto not_accepted;
245 }
246 break;
247
248 case LMP_UNIT_KEY:
249 /* data[0-15] Key
250 */
251 if (length < 16) {
252 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
253 goto not_accepted;
254 }
255 memcpy(bt->key, data, 16);
256 bt->key_present = 1;
257 break;
258
259 case LMP_SRES:
260 /* data[0-3] Authentication response
261 */
262 if (length < 4) {
263 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
264 goto not_accepted;
265 }
266 break;
267
268 case LMP_CLKOFFSET_REQ:
269 resp = LMP_CLKOFFSET_RES;
270 resplen = 3;
271 respdata[1] = 0x33;
272 respdata[2] = 0x33;
273 break;
274
275 case LMP_CLKOFFSET_RES:
276 /* data[0,1] Clock offset
277 * (Slave to master only)
278 */
279 if (length < 2) {
280 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
281 goto not_accepted;
282 }
283 break;
284
285 case LMP_VERSION_REQ:
286 case LMP_VERSION_RES:
287 /* data[0] VersNr
288 * data[1,2] CompId
289 * data[3,4] SubVersNr
290 */
291 if (length < 5) {
292 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
293 goto not_accepted;
294 }
295 if (op == LMP_VERSION_REQ) {
296 resp = LMP_VERSION_RES;
297 resplen = 6;
298 respdata[1] = 0x20;
299 respdata[2] = 0xff;
300 respdata[3] = 0xff;
301 respdata[4] = 0xff;
302 respdata[5] = 0xff;
303 } else
304 resp = 0;
305 break;
306
307 case LMP_FEATURES_REQ:
308 case LMP_FEATURES_RES:
309 /* data[0-7] Features
310 */
311 if (length < 8) {
312 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
313 goto not_accepted;
314 }
315 if (op == LMP_FEATURES_REQ) {
316 resp = LMP_FEATURES_RES;
317 resplen = 9;
318 respdata[1] = (bt->lmp_caps >> 0) & 0xff;
319 respdata[2] = (bt->lmp_caps >> 8) & 0xff;
320 respdata[3] = (bt->lmp_caps >> 16) & 0xff;
321 respdata[4] = (bt->lmp_caps >> 24) & 0xff;
322 respdata[5] = (bt->lmp_caps >> 32) & 0xff;
323 respdata[6] = (bt->lmp_caps >> 40) & 0xff;
324 respdata[7] = (bt->lmp_caps >> 48) & 0xff;
325 respdata[8] = (bt->lmp_caps >> 56) & 0xff;
326 } else
327 resp = 0;
328 break;
329
330 case LMP_NAME_REQ:
331 /* data[0] Name offset
332 */
333 if (length < 1) {
334 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
335 goto not_accepted;
336 }
337 resp = LMP_NAME_RES;
338 resplen = 17;
339 respdata[1] = data[0];
340 respdata[2] = strlen(bt->lmp_name);
341 memset(respdata + 3, 0x00, 14);
342 if (respdata[2] > respdata[1])
343 memcpy(respdata + 3, bt->lmp_name + respdata[1],
344 respdata[2] - respdata[1]);
345 break;
346
347 case LMP_NAME_RES:
348 /* data[0] Name offset
349 * data[1] Name length
350 * data[2-15] Name fragment
351 */
352 if (length < 16) {
353 error = HCI_UNSUPPORTED_LMP_PARAMETER_VALUE;
354 goto not_accepted;
355 }
356 resp = 0;
357 break;
358
359 default:
360 error = HCI_UNKNOWN_LMP_PDU;
361 /* Fall through */
362 not_accepted:
363 if (op >> 8) {
364 resp = LMP_NOT_ACCEPTED_EXT;
365 resplen = 5;
366 respdata[0] = op >> 8;
367 respdata[1] = op & 0xff;
368 respdata[2] = error;
369 } else {
370 resp = LMP_NOT_ACCEPTED;
371 resplen = 3;
372 respdata[0] = op & 0xff;
373 respdata[1] = error;
374 }
375 }
376
377 if (resp == 0)
378 return;
379
380 if (resp >> 8) {
381 respdata[0] = resp >> 8;
382 respdata[1] = resp & 0xff;
383 } else
384 respdata[0] = resp & 0xff;
385
386 respdata[0] <<= 1;
387 respdata[0] |= tr;
388 }
389
390 static void bt_submit_raw_acl(struct bt_piconet_s *net, int length, uint8_t *data)
391 {
392 struct bt_device_s *slave;
393 if (length < 1)
394 return;
395
396 slave = 0;
397 #if 0
398 slave = net->slave;
399 #endif
400
401 switch (data[0] & 3) {
402 case LLID_ACLC:
403 bt_submit_lmp(slave, length - 1, data + 1);
404 break;
405 case LLID_ACLU_START:
406 #if 0
407 bt_sumbit_l2cap(slave, length - 1, data + 1, (data[0] >> 2) & 1);
408 breka;
409 #endif
410 default:
411 case LLID_ACLU_CONT:
412 break;
413 }
414 }
415 #endif
416
417 /* HCI layer emulation */
418
419 /* Note: we could ignore endiannes because unswapped handles will still
420 * be valid as connection identifiers for the guest - they don't have to
421 * be continuously allocated. We do it though, to preserve similar
422 * behaviour between hosts. Some things, like the BD_ADDR cannot be
423 * preserved though (for example if a real hci is used). */
424 #ifdef WORDS_BIGENDIAN
425 # define HNDL(raw) bswap16(raw)
426 #else
427 # define HNDL(raw) (raw)
428 #endif
429
430 static const uint8_t bt_event_reserved_mask[8] = {
431 0xff, 0x9f, 0xfb, 0xff, 0x07, 0x18, 0x00, 0x00,
432 };
433
434 static inline uint8_t *bt_hci_event_start(struct bt_hci_s *hci,
435 int evt, int len)
436 {
437 uint8_t *packet, mask;
438 int mask_byte;
439
440 if (len > 255) {
441 fprintf(stderr, "%s: HCI event params too long (%ib)\n",
442 __FUNCTION__, len);
443 exit(-1);
444 }
445
446 mask_byte = (evt - 1) >> 3;
447 mask = 1 << ((evt - 1) & 3);
448 if (mask & bt_event_reserved_mask[mask_byte] & ~hci->event_mask[mask_byte])
449 return NULL;
450
451 packet = hci->evt_packet(hci->opaque);
452 packet[0] = evt;
453 packet[1] = len;
454
455 return &packet[2];
456 }
457
458 static inline void bt_hci_event(struct bt_hci_s *hci, int evt,
459 void *params, int len)
460 {
461 uint8_t *packet = bt_hci_event_start(hci, evt, len);
462
463 if (!packet)
464 return;
465
466 if (len)
467 memcpy(packet, params, len);
468
469 hci->evt_submit(hci->opaque, len + 2);
470 }
471
472 static inline void bt_hci_event_status(struct bt_hci_s *hci, int status)
473 {
474 evt_cmd_status params = {
475 .status = status,
476 .ncmd = 1,
477 .opcode = hci->last_cmd,
478 };
479
480 bt_hci_event(hci, EVT_CMD_STATUS, &params, EVT_CMD_STATUS_SIZE);
481 }
482
483 static inline void bt_hci_event_complete(struct bt_hci_s *hci,
484 void *ret, int len)
485 {
486 uint8_t *packet = bt_hci_event_start(hci, EVT_CMD_COMPLETE,
487 len + EVT_CMD_COMPLETE_SIZE);
488 evt_cmd_complete *params = (evt_cmd_complete *) packet;
489
490 if (!packet)
491 return;
492
493 params->ncmd = 1;
494 params->opcode = hci->last_cmd;
495 if (len)
496 memcpy(&packet[EVT_CMD_COMPLETE_SIZE], ret, len);
497
498 hci->evt_submit(hci->opaque, len + EVT_CMD_COMPLETE_SIZE + 2);
499 }
500
501 static void bt_hci_inquiry_done(void *opaque)
502 {
503 struct bt_hci_s *hci = (struct bt_hci_s *) opaque;
504 uint8_t status = HCI_SUCCESS;
505
506 if (!hci->lm.periodic)
507 hci->lm.inquire = 0;
508
509 /* The specification is inconsistent about this one. Page 565 reads
510 * "The event parameters of Inquiry Complete event will have a summary
511 * of the result from the Inquiry process, which reports the number of
512 * nearby Bluetooth devices that responded [so hci->responses].", but
513 * Event Parameters (see page 729) has only Status. */
514 bt_hci_event(hci, EVT_INQUIRY_COMPLETE, &status, 1);
515 }
516
517 static void bt_hci_inquiry_result_standard(struct bt_hci_s *hci,
518 struct bt_device_s *slave)
519 {
520 inquiry_info params = {
521 .num_responses = 1,
522 .bdaddr = BAINIT(&slave->bd_addr),
523 .pscan_rep_mode = 0x00, /* R0 */
524 .pscan_period_mode = 0x00, /* P0 - deprecated */
525 .pscan_mode = 0x00, /* Standard scan - deprecated */
526 .dev_class[0] = slave->class[0],
527 .dev_class[1] = slave->class[1],
528 .dev_class[2] = slave->class[2],
529 /* TODO: return the clkoff *differenece* */
530 .clock_offset = slave->clkoff, /* Note: no swapping */
531 };
532
533 bt_hci_event(hci, EVT_INQUIRY_RESULT, &params, INQUIRY_INFO_SIZE);
534 }
535
536 static void bt_hci_inquiry_result_with_rssi(struct bt_hci_s *hci,
537 struct bt_device_s *slave)
538 {
539 inquiry_info_with_rssi params = {
540 .num_responses = 1,
541 .bdaddr = BAINIT(&slave->bd_addr),
542 .pscan_rep_mode = 0x00, /* R0 */
543 .pscan_period_mode = 0x00, /* P0 - deprecated */
544 .dev_class[0] = slave->class[0],
545 .dev_class[1] = slave->class[1],
546 .dev_class[2] = slave->class[2],
547 /* TODO: return the clkoff *differenece* */
548 .clock_offset = slave->clkoff, /* Note: no swapping */
549 .rssi = DEFAULT_RSSI_DBM,
550 };
551
552 bt_hci_event(hci, EVT_INQUIRY_RESULT_WITH_RSSI,
553 &params, INQUIRY_INFO_WITH_RSSI_SIZE);
554 }
555
556 static void bt_hci_inquiry_result(struct bt_hci_s *hci,
557 struct bt_device_s *slave)
558 {
559 if (!slave->inquiry_scan || !hci->lm.responses_left)
560 return;
561
562 hci->lm.responses_left --;
563 hci->lm.responses ++;
564
565 switch (hci->lm.inquiry_mode) {
566 case 0x00:
567 bt_hci_inquiry_result_standard(hci, slave);
568 return;
569 case 0x01:
570 bt_hci_inquiry_result_with_rssi(hci, slave);
571 return;
572 default:
573 fprintf(stderr, "%s: bad inquiry mode %02x\n", __FUNCTION__,
574 hci->lm.inquiry_mode);
575 exit(-1);
576 }
577 }
578
579 static void bt_hci_mod_timer_1280ms(QEMUTimer *timer, int period)
580 {
581 qemu_mod_timer(timer, qemu_get_clock(vm_clock) +
582 muldiv64(period << 7, ticks_per_sec, 100));
583 }
584
585 static void bt_hci_inquiry_start(struct bt_hci_s *hci, int length)
586 {
587 struct bt_device_s *slave;
588
589 hci->lm.inquiry_length = length;
590 for (slave = hci->device.net->slave; slave; slave = slave->next)
591 /* Don't uncover ourselves. */
592 if (slave != &hci->device)
593 bt_hci_inquiry_result(hci, slave);
594
595 /* TODO: register for a callback on a new device's addition to the
596 * scatternet so that if it's added before inquiry_length expires,
597 * an Inquiry Result is generated immediately. Alternatively re-loop
598 * through the devices on the inquiry_length expiration and report
599 * devices not seen before. */
600 if (hci->lm.responses_left)
601 bt_hci_mod_timer_1280ms(hci->lm.inquiry_done, hci->lm.inquiry_length);
602 else
603 bt_hci_inquiry_done(hci);
604
605 if (hci->lm.periodic)
606 bt_hci_mod_timer_1280ms(hci->lm.inquiry_next, hci->lm.inquiry_period);
607 }
608
609 static void bt_hci_inquiry_next(void *opaque)
610 {
611 struct bt_hci_s *hci = (struct bt_hci_s *) opaque;
612
613 hci->lm.responses_left += hci->lm.responses;
614 hci->lm.responses = 0;
615 bt_hci_inquiry_start(hci, hci->lm.inquiry_length);
616 }
617
618 static inline int bt_hci_handle_bad(struct bt_hci_s *hci, uint16_t handle)
619 {
620 return !(handle & HCI_HANDLE_OFFSET) ||
621 handle >= (HCI_HANDLE_OFFSET | HCI_HANDLES_MAX) ||
622 !hci->lm.handle[handle & ~HCI_HANDLE_OFFSET].link;
623 }
624
625 static inline int bt_hci_role_master(struct bt_hci_s *hci, uint16_t handle)
626 {
627 return !!(hci->lm.role_bmp & (1 << (handle & ~HCI_HANDLE_OFFSET)));
628 }
629
630 static inline struct bt_device_s *bt_hci_remote_dev(struct bt_hci_s *hci,
631 uint16_t handle)
632 {
633 struct bt_link_s *link = hci->lm.handle[handle & ~HCI_HANDLE_OFFSET].link;
634
635 return bt_hci_role_master(hci, handle) ? link->slave : link->host;
636 }
637
638 static void bt_hci_mode_tick(void *opaque);
639 static void bt_hci_lmp_link_establish(struct bt_hci_s *hci,
640 struct bt_link_s *link, int master)
641 {
642 hci->lm.handle[hci->lm.last_handle].link = link;
643
644 if (master) {
645 /* We are the master side of an ACL link */
646 hci->lm.role_bmp |= 1 << hci->lm.last_handle;
647
648 hci->lm.handle[hci->lm.last_handle].lmp_acl_data =
649 link->slave->lmp_acl_data;
650 } else {
651 /* We are the slave side of an ACL link */
652 hci->lm.role_bmp &= ~(1 << hci->lm.last_handle);
653
654 hci->lm.handle[hci->lm.last_handle].lmp_acl_data =
655 link->host->lmp_acl_resp;
656 }
657
658 /* Mode */
659 if (master) {
660 link->acl_mode = acl_active;
661 hci->lm.handle[hci->lm.last_handle].acl_mode_timer =
662 qemu_new_timer(vm_clock, bt_hci_mode_tick, link);
663 }
664 }
665
666 static void bt_hci_lmp_link_teardown(struct bt_hci_s *hci, uint16_t handle)
667 {
668 handle &= ~HCI_HANDLE_OFFSET;
669 hci->lm.handle[handle].link = NULL;
670
671 if (bt_hci_role_master(hci, handle)) {
672 qemu_del_timer(hci->lm.handle[handle].acl_mode_timer);
673 qemu_free_timer(hci->lm.handle[handle].acl_mode_timer);
674 }
675 }
676
677 static int bt_hci_connect(struct bt_hci_s *hci, bdaddr_t *bdaddr)
678 {
679 struct bt_device_s *slave;
680 struct bt_link_s link;
681
682 for (slave = hci->device.net->slave; slave; slave = slave->next)
683 if (slave->page_scan && !bacmp(&slave->bd_addr, bdaddr))
684 break;
685 if (!slave || slave == &hci->device)
686 return -ENODEV;
687
688 bacpy(&hci->lm.awaiting_bdaddr[hci->lm.connecting ++], &slave->bd_addr);
689
690 link.slave = slave;
691 link.host = &hci->device;
692 link.slave->lmp_connection_request(&link); /* Always last */
693
694 return 0;
695 }
696
697 static void bt_hci_connection_reject(struct bt_hci_s *hci,
698 struct bt_device_s *host, uint8_t because)
699 {
700 struct bt_link_s link = {
701 .slave = &hci->device,
702 .host = host,
703 /* Rest uninitialised */
704 };
705
706 host->reject_reason = because;
707 host->lmp_connection_complete(&link);
708 }
709
710 static void bt_hci_connection_reject_event(struct bt_hci_s *hci,
711 bdaddr_t *bdaddr)
712 {
713 evt_conn_complete params;
714
715 params.status = HCI_NO_CONNECTION;
716 params.handle = 0;
717 bacpy(&params.bdaddr, bdaddr);
718 params.link_type = ACL_LINK;
719 params.encr_mode = 0x00; /* Encryption not required */
720 bt_hci_event(hci, EVT_CONN_COMPLETE, &params, EVT_CONN_COMPLETE_SIZE);
721 }
722
723 static void bt_hci_connection_accept(struct bt_hci_s *hci,
724 struct bt_device_s *host)
725 {
726 struct bt_hci_link_s *link = qemu_mallocz(sizeof(struct bt_hci_link_s));
727 evt_conn_complete params;
728 uint16_t handle;
729 uint8_t status = HCI_SUCCESS;
730 int tries = HCI_HANDLES_MAX;
731
732 /* Make a connection handle */
733 do {
734 while (hci->lm.handle[++ hci->lm.last_handle].link && -- tries)
735 hci->lm.last_handle &= HCI_HANDLES_MAX - 1;
736 handle = hci->lm.last_handle | HCI_HANDLE_OFFSET;
737 } while ((handle == hci->asb_handle || handle == hci->psb_handle) &&
738 tries);
739
740 if (!tries) {
741 qemu_free(link);
742 bt_hci_connection_reject(hci, host, HCI_REJECTED_LIMITED_RESOURCES);
743 status = HCI_NO_CONNECTION;
744 goto complete;
745 }
746
747 link->btlink.slave = &hci->device;
748 link->btlink.host = host;
749 link->handle = handle;
750
751 /* Link established */
752 bt_hci_lmp_link_establish(hci, &link->btlink, 0);
753
754 complete:
755 params.status = status;
756 params.handle = HNDL(handle);
757 bacpy(&params.bdaddr, &host->bd_addr);
758 params.link_type = ACL_LINK;
759 params.encr_mode = 0x00; /* Encryption not required */
760 bt_hci_event(hci, EVT_CONN_COMPLETE, &params, EVT_CONN_COMPLETE_SIZE);
761
762 /* Neets to be done at the very end because it can trigger a (nested)
763 * disconnected, in case the other and had cancelled the request
764 * locally. */
765 if (status == HCI_SUCCESS) {
766 host->reject_reason = 0;
767 host->lmp_connection_complete(&link->btlink);
768 }
769 }
770
771 static void bt_hci_lmp_connection_request(struct bt_link_s *link)
772 {
773 struct bt_hci_s *hci = hci_from_device(link->slave);
774 evt_conn_request params;
775
776 if (hci->conn_req_host) {
777 bt_hci_connection_reject(hci, link->host,
778 HCI_REJECTED_LIMITED_RESOURCES);
779 return;
780 }
781 hci->conn_req_host = link->host;
782 /* TODO: if masked and auto-accept, then auto-accept,
783 * if masked and not auto-accept, then auto-reject */
784 /* TODO: kick the hci->conn_accept_timer, timeout after
785 * hci->conn_accept_tout * 0.625 msec */
786
787 bacpy(&params.bdaddr, &link->host->bd_addr);
788 memcpy(&params.dev_class, &link->host->class, sizeof(params.dev_class));
789 params.link_type = ACL_LINK;
790 bt_hci_event(hci, EVT_CONN_REQUEST, &params, EVT_CONN_REQUEST_SIZE);
791 return;
792 }
793
794 static void bt_hci_conn_accept_timeout(void *opaque)
795 {
796 struct bt_hci_s *hci = (struct bt_hci_s *) opaque;
797
798 if (!hci->conn_req_host)
799 /* Already accepted or rejected. If the other end cancelled the
800 * connection request then we still have to reject or accept it
801 * and then we'll get a disconnect. */
802 return;
803
804 /* TODO */
805 }
806
807 /* Remove from the list of devices which we wanted to connect to and
808 * are awaiting a response from. If the callback sees a response from
809 * a device which is not on the list it will assume it's a connection
810 * that's been cancelled by the host in the meantime and immediately
811 * try to detach the link and send a Connection Complete. */
812 static int bt_hci_lmp_connection_ready(struct bt_hci_s *hci,
813 bdaddr_t *bdaddr)
814 {
815 int i;
816
817 for (i = 0; i < hci->lm.connecting; i ++)
818 if (!bacmp(&hci->lm.awaiting_bdaddr[i], bdaddr)) {
819 if (i < -- hci->lm.connecting)
820 bacpy(&hci->lm.awaiting_bdaddr[i],
821 &hci->lm.awaiting_bdaddr[hci->lm.connecting]);
822 return 0;
823 }
824
825 return 1;
826 }
827
828 static void bt_hci_lmp_connection_complete(struct bt_link_s *link)
829 {
830 struct bt_hci_s *hci = hci_from_device(link->host);
831 evt_conn_complete params;
832 uint16_t handle;
833 uint8_t status = HCI_SUCCESS;
834 int tries = HCI_HANDLES_MAX;
835
836 if (bt_hci_lmp_connection_ready(hci, &link->slave->bd_addr)) {
837 if (!hci->device.reject_reason)
838 link->slave->lmp_disconnect_slave(link);
839 handle = 0;
840 status = HCI_NO_CONNECTION;
841 goto complete;
842 }
843
844 if (hci->device.reject_reason) {
845 handle = 0;
846 status = hci->device.reject_reason;
847 goto complete;
848 }
849
850 /* Make a connection handle */
851 do {
852 while (hci->lm.handle[++ hci->lm.last_handle].link && -- tries)
853 hci->lm.last_handle &= HCI_HANDLES_MAX - 1;
854 handle = hci->lm.last_handle | HCI_HANDLE_OFFSET;
855 } while ((handle == hci->asb_handle || handle == hci->psb_handle) &&
856 tries);
857
858 if (!tries) {
859 link->slave->lmp_disconnect_slave(link);
860 status = HCI_NO_CONNECTION;
861 goto complete;
862 }
863
864 /* Link established */
865 link->handle = handle;
866 bt_hci_lmp_link_establish(hci, link, 1);
867
868 complete:
869 params.status = status;
870 params.handle = HNDL(handle);
871 params.link_type = ACL_LINK;
872 bacpy(&params.bdaddr, &link->slave->bd_addr);
873 params.encr_mode = 0x00; /* Encryption not required */
874 bt_hci_event(hci, EVT_CONN_COMPLETE, &params, EVT_CONN_COMPLETE_SIZE);
875 }
876
877 static void bt_hci_disconnect(struct bt_hci_s *hci,
878 uint16_t handle, int reason)
879 {
880 struct bt_link_s *btlink =
881 hci->lm.handle[handle & ~HCI_HANDLE_OFFSET].link;
882 struct bt_hci_link_s *link;
883 evt_disconn_complete params;
884
885 if (bt_hci_role_master(hci, handle)) {
886 btlink->slave->reject_reason = reason;
887 btlink->slave->lmp_disconnect_slave(btlink);
888 /* The link pointer is invalid from now on */
889
890 goto complete;
891 }
892
893 btlink->host->reject_reason = reason;
894 btlink->host->lmp_disconnect_master(btlink);
895
896 /* We are the slave, we get to clean this burden */
897 link = (struct bt_hci_link_s *) btlink;
898 qemu_free(link);
899
900 complete:
901 bt_hci_lmp_link_teardown(hci, handle);
902
903 params.status = HCI_SUCCESS;
904 params.handle = HNDL(handle);
905 params.reason = HCI_CONNECTION_TERMINATED;
906 bt_hci_event(hci, EVT_DISCONN_COMPLETE,
907 &params, EVT_DISCONN_COMPLETE_SIZE);
908 }
909
910 /* TODO: use only one function */
911 static void bt_hci_lmp_disconnect_host(struct bt_link_s *link)
912 {
913 struct bt_hci_s *hci = hci_from_device(link->host);
914 uint16_t handle = link->handle;
915 evt_disconn_complete params;
916
917 bt_hci_lmp_link_teardown(hci, handle);
918
919 params.status = HCI_SUCCESS;
920 params.handle = HNDL(handle);
921 params.reason = hci->device.reject_reason;
922 bt_hci_event(hci, EVT_DISCONN_COMPLETE,
923 &params, EVT_DISCONN_COMPLETE_SIZE);
924 }
925
926 static void bt_hci_lmp_disconnect_slave(struct bt_link_s *btlink)
927 {
928 struct bt_hci_link_s *link = (struct bt_hci_link_s *) btlink;
929 struct bt_hci_s *hci = hci_from_device(btlink->slave);
930 uint16_t handle = link->handle;
931 evt_disconn_complete params;
932
933 qemu_free(link);
934
935 bt_hci_lmp_link_teardown(hci, handle);
936
937 params.status = HCI_SUCCESS;
938 params.handle = HNDL(handle);
939 params.reason = hci->device.reject_reason;
940 bt_hci_event(hci, EVT_DISCONN_COMPLETE,
941 &params, EVT_DISCONN_COMPLETE_SIZE);
942 }
943
944 static int bt_hci_name_req(struct bt_hci_s *hci, bdaddr_t *bdaddr)
945 {
946 struct bt_device_s *slave;
947 evt_remote_name_req_complete params;
948 int len;
949
950 for (slave = hci->device.net->slave; slave; slave = slave->next)
951 if (slave->page_scan && !bacmp(&slave->bd_addr, bdaddr))
952 break;
953 if (!slave)
954 return -ENODEV;
955
956 bt_hci_event_status(hci, HCI_SUCCESS);
957
958 params.status = HCI_SUCCESS;
959 bacpy(&params.bdaddr, &slave->bd_addr);
960 len = snprintf(params.name, sizeof(params.name),
961 "%s", slave->lmp_name ?: "");
962 memset(params.name + len, 0, sizeof(params.name) - len);
963 bt_hci_event(hci, EVT_REMOTE_NAME_REQ_COMPLETE,
964 &params, EVT_REMOTE_NAME_REQ_COMPLETE_SIZE);
965
966 return 0;
967 }
968
969 static int bt_hci_features_req(struct bt_hci_s *hci, uint16_t handle)
970 {
971 struct bt_device_s *slave;
972 evt_read_remote_features_complete params;
973
974 if (bt_hci_handle_bad(hci, handle))
975 return -ENODEV;
976
977 slave = bt_hci_remote_dev(hci, handle);
978
979 bt_hci_event_status(hci, HCI_SUCCESS);
980
981 params.status = HCI_SUCCESS;
982 params.handle = HNDL(handle);
983 params.features[0] = (slave->lmp_caps >> 0) & 0xff;
984 params.features[1] = (slave->lmp_caps >> 8) & 0xff;
985 params.features[2] = (slave->lmp_caps >> 16) & 0xff;
986 params.features[3] = (slave->lmp_caps >> 24) & 0xff;
987 params.features[4] = (slave->lmp_caps >> 32) & 0xff;
988 params.features[5] = (slave->lmp_caps >> 40) & 0xff;
989 params.features[6] = (slave->lmp_caps >> 48) & 0xff;
990 params.features[7] = (slave->lmp_caps >> 56) & 0xff;
991 bt_hci_event(hci, EVT_READ_REMOTE_FEATURES_COMPLETE,
992 &params, EVT_READ_REMOTE_FEATURES_COMPLETE_SIZE);
993
994 return 0;
995 }
996
997 static int bt_hci_version_req(struct bt_hci_s *hci, uint16_t handle)
998 {
999 struct bt_device_s *slave;
1000 evt_read_remote_version_complete params;
1001
1002 if (bt_hci_handle_bad(hci, handle))
1003 return -ENODEV;
1004
1005 slave = bt_hci_remote_dev(hci, handle);
1006
1007 bt_hci_event_status(hci, HCI_SUCCESS);
1008
1009 params.status = HCI_SUCCESS;
1010 params.handle = HNDL(handle);
1011 params.lmp_ver = 0x03;
1012 params.manufacturer = cpu_to_le16(0xa000);
1013 params.lmp_subver = cpu_to_le16(0xa607);
1014 bt_hci_event(hci, EVT_READ_REMOTE_VERSION_COMPLETE,
1015 &params, EVT_READ_REMOTE_VERSION_COMPLETE_SIZE);
1016
1017 return 0;
1018 }
1019
1020 static int bt_hci_clkoffset_req(struct bt_hci_s *hci, uint16_t handle)
1021 {
1022 struct bt_device_s *slave;
1023 evt_read_clock_offset_complete params;
1024
1025 if (bt_hci_handle_bad(hci, handle))
1026 return -ENODEV;
1027
1028 slave = bt_hci_remote_dev(hci, handle);
1029
1030 bt_hci_event_status(hci, HCI_SUCCESS);
1031
1032 params.status = HCI_SUCCESS;
1033 params.handle = HNDL(handle);
1034 /* TODO: return the clkoff *differenece* */
1035 params.clock_offset = slave->clkoff; /* Note: no swapping */
1036 bt_hci_event(hci, EVT_READ_CLOCK_OFFSET_COMPLETE,
1037 &params, EVT_READ_CLOCK_OFFSET_COMPLETE_SIZE);
1038
1039 return 0;
1040 }
1041
1042 static void bt_hci_event_mode(struct bt_hci_s *hci, struct bt_link_s *link,
1043 uint16_t handle)
1044 {
1045 evt_mode_change params = {
1046 .status = HCI_SUCCESS,
1047 .handle = HNDL(handle),
1048 .mode = link->acl_mode,
1049 .interval = cpu_to_le16(link->acl_interval),
1050 };
1051
1052 bt_hci_event(hci, EVT_MODE_CHANGE, &params, EVT_MODE_CHANGE_SIZE);
1053 }
1054
1055 static void bt_hci_lmp_mode_change_master(struct bt_hci_s *hci,
1056 struct bt_link_s *link, int mode, uint16_t interval)
1057 {
1058 link->acl_mode = mode;
1059 link->acl_interval = interval;
1060
1061 bt_hci_event_mode(hci, link, link->handle);
1062
1063 link->slave->lmp_mode_change(link);
1064 }
1065
1066 static void bt_hci_lmp_mode_change_slave(struct bt_link_s *btlink)
1067 {
1068 struct bt_hci_link_s *link = (struct bt_hci_link_s *) btlink;
1069 struct bt_hci_s *hci = hci_from_device(btlink->slave);
1070
1071 bt_hci_event_mode(hci, btlink, link->handle);
1072 }
1073
1074 static int bt_hci_mode_change(struct bt_hci_s *hci, uint16_t handle,
1075 int interval, int mode)
1076 {
1077 struct bt_hci_master_link_s *link;
1078
1079 if (bt_hci_handle_bad(hci, handle) || !bt_hci_role_master(hci, handle))
1080 return -ENODEV;
1081
1082 link = &hci->lm.handle[handle & ~HCI_HANDLE_OFFSET];
1083 if (link->link->acl_mode != acl_active) {
1084 bt_hci_event_status(hci, HCI_COMMAND_DISALLOWED);
1085 return 0;
1086 }
1087
1088 bt_hci_event_status(hci, HCI_SUCCESS);
1089
1090 qemu_mod_timer(link->acl_mode_timer, qemu_get_clock(vm_clock) +
1091 muldiv64(interval * 625, ticks_per_sec, 1000000));
1092 bt_hci_lmp_mode_change_master(hci, link->link, mode, interval);
1093
1094 return 0;
1095 }
1096
1097 static int bt_hci_mode_cancel(struct bt_hci_s *hci, uint16_t handle, int mode)
1098 {
1099 struct bt_hci_master_link_s *link;
1100
1101 if (bt_hci_handle_bad(hci, handle) || !bt_hci_role_master(hci, handle))
1102 return -ENODEV;
1103
1104 link = &hci->lm.handle[handle & ~HCI_HANDLE_OFFSET];
1105 if (link->link->acl_mode != mode) {
1106 bt_hci_event_status(hci, HCI_COMMAND_DISALLOWED);
1107
1108 return 0;
1109 }
1110
1111 bt_hci_event_status(hci, HCI_SUCCESS);
1112
1113 qemu_del_timer(link->acl_mode_timer);
1114 bt_hci_lmp_mode_change_master(hci, link->link, acl_active, 0);
1115
1116 return 0;
1117 }
1118
1119 static void bt_hci_mode_tick(void *opaque)
1120 {
1121 struct bt_link_s *link = opaque;
1122 struct bt_hci_s *hci = hci_from_device(link->host);
1123
1124 bt_hci_lmp_mode_change_master(hci, link, acl_active, 0);
1125 }
1126
1127 static void bt_hci_reset(struct bt_hci_s *hci)
1128 {
1129 hci->acl_len = 0;
1130 hci->last_cmd = 0;
1131 hci->lm.connecting = 0;
1132
1133 hci->event_mask[0] = 0xff;
1134 hci->event_mask[1] = 0xff;
1135 hci->event_mask[2] = 0xff;
1136 hci->event_mask[3] = 0xff;
1137 hci->event_mask[4] = 0xff;
1138 hci->event_mask[5] = 0x1f;
1139 hci->event_mask[6] = 0x00;
1140 hci->event_mask[7] = 0x00;
1141 hci->device.inquiry_scan = 0;
1142 hci->device.page_scan = 0;
1143 if (hci->device.lmp_name)
1144 qemu_free((void *) hci->device.lmp_name);
1145 hci->device.lmp_name = NULL;
1146 hci->device.class[0] = 0x00;
1147 hci->device.class[1] = 0x00;
1148 hci->device.class[2] = 0x00;
1149 hci->voice_setting = 0x0000;
1150 hci->conn_accept_tout = 0x1f40;
1151 hci->lm.inquiry_mode = 0x00;
1152
1153 hci->psb_handle = 0x000;
1154 hci->asb_handle = 0x000;
1155
1156 /* XXX: qemu_del_timer(sl->acl_mode_timer); for all links */
1157 qemu_del_timer(hci->lm.inquiry_done);
1158 qemu_del_timer(hci->lm.inquiry_next);
1159 qemu_del_timer(hci->conn_accept_timer);
1160 }
1161
1162 static void bt_hci_read_local_version_rp(struct bt_hci_s *hci)
1163 {
1164 read_local_version_rp lv = {
1165 .status = HCI_SUCCESS,
1166 .hci_ver = 0x03,
1167 .hci_rev = cpu_to_le16(0xa607),
1168 .lmp_ver = 0x03,
1169 .manufacturer = cpu_to_le16(0xa000),
1170 .lmp_subver = cpu_to_le16(0xa607),
1171 };
1172
1173 bt_hci_event_complete(hci, &lv, READ_LOCAL_VERSION_RP_SIZE);
1174 }
1175
1176 static void bt_hci_read_local_commands_rp(struct bt_hci_s *hci)
1177 {
1178 read_local_commands_rp lc = {
1179 .status = HCI_SUCCESS,
1180 .commands = {
1181 /* Keep updated! */
1182 /* Also, keep in sync with hci->device.lmp_caps in bt_new_hci */
1183 0xbf, 0x80, 0xf9, 0x03, 0xb2, 0xc0, 0x03, 0xc3,
1184 0x00, 0x0f, 0x80, 0x00, 0xc0, 0x00, 0xe8, 0x13,
1185 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1186 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1187 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1188 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1189 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1190 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1191 },
1192 };
1193
1194 bt_hci_event_complete(hci, &lc, READ_LOCAL_COMMANDS_RP_SIZE);
1195 }
1196
1197 static void bt_hci_read_local_features_rp(struct bt_hci_s *hci)
1198 {
1199 read_local_features_rp lf = {
1200 .status = HCI_SUCCESS,
1201 .features = {
1202 (hci->device.lmp_caps >> 0) & 0xff,
1203 (hci->device.lmp_caps >> 8) & 0xff,
1204 (hci->device.lmp_caps >> 16) & 0xff,
1205 (hci->device.lmp_caps >> 24) & 0xff,
1206 (hci->device.lmp_caps >> 32) & 0xff,
1207 (hci->device.lmp_caps >> 40) & 0xff,
1208 (hci->device.lmp_caps >> 48) & 0xff,
1209 (hci->device.lmp_caps >> 56) & 0xff,
1210 },
1211 };
1212
1213 bt_hci_event_complete(hci, &lf, READ_LOCAL_FEATURES_RP_SIZE);
1214 }
1215
1216 static void bt_hci_read_local_ext_features_rp(struct bt_hci_s *hci, int page)
1217 {
1218 read_local_ext_features_rp lef = {
1219 .status = HCI_SUCCESS,
1220 .page_num = page,
1221 .max_page_num = 0x00,
1222 .features = {
1223 /* Keep updated! */
1224 0x5f, 0x35, 0x85, 0x7e, 0x9b, 0x19, 0x00, 0x80,
1225 },
1226 };
1227 if (page)
1228 memset(lef.features, 0, sizeof(lef.features));
1229
1230 bt_hci_event_complete(hci, &lef, READ_LOCAL_EXT_FEATURES_RP_SIZE);
1231 }
1232
1233 static void bt_hci_read_buffer_size_rp(struct bt_hci_s *hci)
1234 {
1235 read_buffer_size_rp bs = {
1236 /* This can be made configurable, for one standard USB dongle HCI
1237 * the four values are cpu_to_le16(0x0180), 0x40,
1238 * cpu_to_le16(0x0008), cpu_to_le16(0x0008). */
1239 .status = HCI_SUCCESS,
1240 .acl_mtu = cpu_to_le16(0x0200),
1241 .sco_mtu = 0,
1242 .acl_max_pkt = cpu_to_le16(0x0001),
1243 .sco_max_pkt = cpu_to_le16(0x0000),
1244 };
1245
1246 bt_hci_event_complete(hci, &bs, READ_BUFFER_SIZE_RP_SIZE);
1247 }
1248
1249 /* Deprecated in V2.0 (page 661) */
1250 static void bt_hci_read_country_code_rp(struct bt_hci_s *hci)
1251 {
1252 read_country_code_rp cc ={
1253 .status = HCI_SUCCESS,
1254 .country_code = 0x00, /* North America & Europe^1 and Japan */
1255 };
1256
1257 bt_hci_event_complete(hci, &cc, READ_COUNTRY_CODE_RP_SIZE);
1258
1259 /* ^1. Except France, sorry */
1260 }
1261
1262 static void bt_hci_read_bd_addr_rp(struct bt_hci_s *hci)
1263 {
1264 read_bd_addr_rp ba = {
1265 .status = HCI_SUCCESS,
1266 .bdaddr = BAINIT(&hci->device.bd_addr),
1267 };
1268
1269 bt_hci_event_complete(hci, &ba, READ_BD_ADDR_RP_SIZE);
1270 }
1271
1272 static int bt_hci_link_quality_rp(struct bt_hci_s *hci, uint16_t handle)
1273 {
1274 read_link_quality_rp lq = {
1275 .status = HCI_SUCCESS,
1276 .handle = HNDL(handle),
1277 .link_quality = 0xff,
1278 };
1279
1280 if (bt_hci_handle_bad(hci, handle))
1281 lq.status = HCI_NO_CONNECTION;
1282
1283 bt_hci_event_complete(hci, &lq, READ_LINK_QUALITY_RP_SIZE);
1284 return 0;
1285 }
1286
1287 /* Generate a Command Complete event with only the Status parameter */
1288 static inline void bt_hci_event_complete_status(struct bt_hci_s *hci,
1289 uint8_t status)
1290 {
1291 bt_hci_event_complete(hci, &status, 1);
1292 }
1293
1294 static inline void bt_hci_event_complete_conn_cancel(struct bt_hci_s *hci,
1295 uint8_t status, bdaddr_t *bd_addr)
1296 {
1297 create_conn_cancel_rp params = {
1298 .status = status,
1299 .bdaddr = BAINIT(bd_addr),
1300 };
1301
1302 bt_hci_event_complete(hci, &params, CREATE_CONN_CANCEL_RP_SIZE);
1303 }
1304
1305 static inline void bt_hci_event_auth_complete(struct bt_hci_s *hci,
1306 uint16_t handle)
1307 {
1308 evt_auth_complete params = {
1309 .status = HCI_SUCCESS,
1310 .handle = HNDL(handle),
1311 };
1312
1313 bt_hci_event(hci, EVT_AUTH_COMPLETE, &params, EVT_AUTH_COMPLETE_SIZE);
1314 }
1315
1316 static inline void bt_hci_event_encrypt_change(struct bt_hci_s *hci,
1317 uint16_t handle, uint8_t mode)
1318 {
1319 evt_encrypt_change params = {
1320 .status = HCI_SUCCESS,
1321 .handle = HNDL(handle),
1322 .encrypt = mode,
1323 };
1324
1325 bt_hci_event(hci, EVT_ENCRYPT_CHANGE, &params, EVT_ENCRYPT_CHANGE_SIZE);
1326 }
1327
1328 static inline void bt_hci_event_complete_name_cancel(struct bt_hci_s *hci,
1329 bdaddr_t *bd_addr)
1330 {
1331 remote_name_req_cancel_rp params = {
1332 .status = HCI_INVALID_PARAMETERS,
1333 .bdaddr = BAINIT(bd_addr),
1334 };
1335
1336 bt_hci_event_complete(hci, &params, REMOTE_NAME_REQ_CANCEL_RP_SIZE);
1337 }
1338
1339 static inline void bt_hci_event_read_remote_ext_features(struct bt_hci_s *hci,
1340 uint16_t handle)
1341 {
1342 evt_read_remote_ext_features_complete params = {
1343 .status = HCI_UNSUPPORTED_FEATURE,
1344 .handle = HNDL(handle),
1345 /* Rest uninitialised */
1346 };
1347
1348 bt_hci_event(hci, EVT_READ_REMOTE_EXT_FEATURES_COMPLETE,
1349 &params, EVT_READ_REMOTE_EXT_FEATURES_COMPLETE_SIZE);
1350 }
1351
1352 static inline void bt_hci_event_complete_lmp_handle(struct bt_hci_s *hci,
1353 uint16_t handle)
1354 {
1355 read_lmp_handle_rp params = {
1356 .status = HCI_NO_CONNECTION,
1357 .handle = HNDL(handle),
1358 .reserved = 0,
1359 /* Rest uninitialised */
1360 };
1361
1362 bt_hci_event_complete(hci, &params, READ_LMP_HANDLE_RP_SIZE);
1363 }
1364
1365 static inline void bt_hci_event_complete_role_discovery(struct bt_hci_s *hci,
1366 int status, uint16_t handle, int master)
1367 {
1368 role_discovery_rp params = {
1369 .status = status,
1370 .handle = HNDL(handle),
1371 .role = master ? 0x00 : 0x01,
1372 };
1373
1374 bt_hci_event_complete(hci, &params, ROLE_DISCOVERY_RP_SIZE);
1375 }
1376
1377 static inline void bt_hci_event_complete_flush(struct bt_hci_s *hci,
1378 int status, uint16_t handle)
1379 {
1380 flush_rp params = {
1381 .status = status,
1382 .handle = HNDL(handle),
1383 };
1384
1385 bt_hci_event_complete(hci, &params, FLUSH_RP_SIZE);
1386 }
1387
1388 static inline void bt_hci_event_complete_read_local_name(struct bt_hci_s *hci)
1389 {
1390 read_local_name_rp params;
1391 params.status = HCI_SUCCESS;
1392 memset(params.name, 0, sizeof(params.name));
1393 if (hci->device.lmp_name)
1394 strncpy(params.name, hci->device.lmp_name, sizeof(params.name));
1395
1396 bt_hci_event_complete(hci, &params, READ_LOCAL_NAME_RP_SIZE);
1397 }
1398
1399 static inline void bt_hci_event_complete_read_conn_accept_timeout(
1400 struct bt_hci_s *hci)
1401 {
1402 read_conn_accept_timeout_rp params = {
1403 .status = HCI_SUCCESS,
1404 .timeout = cpu_to_le16(hci->conn_accept_tout),
1405 };
1406
1407 bt_hci_event_complete(hci, &params, READ_CONN_ACCEPT_TIMEOUT_RP_SIZE);
1408 }
1409
1410 static inline void bt_hci_event_complete_read_scan_enable(struct bt_hci_s *hci)
1411 {
1412 read_scan_enable_rp params = {
1413 .status = HCI_SUCCESS,
1414 .enable =
1415 (hci->device.inquiry_scan ? SCAN_INQUIRY : 0) |
1416 (hci->device.page_scan ? SCAN_PAGE : 0),
1417 };
1418
1419 bt_hci_event_complete(hci, &params, READ_SCAN_ENABLE_RP_SIZE);
1420 }
1421
1422 static inline void bt_hci_event_complete_read_local_class(struct bt_hci_s *hci)
1423 {
1424 read_class_of_dev_rp params;
1425
1426 params.status = HCI_SUCCESS;
1427 memcpy(params.dev_class, hci->device.class, sizeof(params.dev_class));
1428
1429 bt_hci_event_complete(hci, &params, READ_CLASS_OF_DEV_RP_SIZE);
1430 }
1431
1432 static inline void bt_hci_event_complete_voice_setting(struct bt_hci_s *hci)
1433 {
1434 read_voice_setting_rp params = {
1435 .status = HCI_SUCCESS,
1436 .voice_setting = hci->voice_setting, /* Note: no swapping */
1437 };
1438
1439 bt_hci_event_complete(hci, &params, READ_VOICE_SETTING_RP_SIZE);
1440 }
1441
1442 static inline void bt_hci_event_complete_read_inquiry_mode(
1443 struct bt_hci_s *hci)
1444 {
1445 read_inquiry_mode_rp params = {
1446 .status = HCI_SUCCESS,
1447 .mode = hci->lm.inquiry_mode,
1448 };
1449
1450 bt_hci_event_complete(hci, &params, READ_INQUIRY_MODE_RP_SIZE);
1451 }
1452
1453 static inline void bt_hci_event_num_comp_pkts(struct bt_hci_s *hci,
1454 uint16_t handle, int packets)
1455 {
1456 uint16_t buf[EVT_NUM_COMP_PKTS_SIZE(1) / 2 + 1];
1457 evt_num_comp_pkts *params = (void *) ((uint8_t *) buf + 1);
1458
1459 params->num_hndl = 1;
1460 params->connection->handle = HNDL(handle);
1461 params->connection->num_packets = cpu_to_le16(packets);
1462
1463 bt_hci_event(hci, EVT_NUM_COMP_PKTS, params, EVT_NUM_COMP_PKTS_SIZE(1));
1464 }
1465
1466 static void bt_submit_hci(struct HCIInfo *info,
1467 const uint8_t *data, int length)
1468 {
1469 struct bt_hci_s *hci = hci_from_info(info);
1470 uint16_t cmd;
1471 int paramlen, i;
1472
1473 if (length < HCI_COMMAND_HDR_SIZE)
1474 goto short_hci;
1475
1476 memcpy(&hci->last_cmd, data, 2);
1477
1478 cmd = (data[1] << 8) | data[0];
1479 paramlen = data[2];
1480 if (cmd_opcode_ogf(cmd) == 0 || cmd_opcode_ocf(cmd) == 0) /* NOP */
1481 return;
1482
1483 data += HCI_COMMAND_HDR_SIZE;
1484 length -= HCI_COMMAND_HDR_SIZE;
1485
1486 if (paramlen > length)
1487 return;
1488
1489 #define PARAM(cmd, param) (((cmd##_cp *) data)->param)
1490 #define PARAM16(cmd, param) le16_to_cpup(&PARAM(cmd, param))
1491 #define PARAMHANDLE(cmd) HNDL(PARAM(cmd, handle))
1492 #define LENGTH_CHECK(cmd) if (length < sizeof(cmd##_cp)) goto short_hci
1493 /* Note: the supported commands bitmask in bt_hci_read_local_commands_rp
1494 * needs to be updated every time a command is implemented here! */
1495 switch (cmd) {
1496 case cmd_opcode_pack(OGF_LINK_CTL, OCF_INQUIRY):
1497 LENGTH_CHECK(inquiry);
1498
1499 if (PARAM(inquiry, length) < 1) {
1500 bt_hci_event_complete_status(hci, HCI_INVALID_PARAMETERS);
1501 break;
1502 }
1503
1504 hci->lm.inquire = 1;
1505 hci->lm.periodic = 0;
1506 hci->lm.responses_left = PARAM(inquiry, num_rsp) ?: INT_MAX;
1507 hci->lm.responses = 0;
1508 bt_hci_event_status(hci, HCI_SUCCESS);
1509 bt_hci_inquiry_start(hci, PARAM(inquiry, length));
1510 break;
1511
1512 case cmd_opcode_pack(OGF_LINK_CTL, OCF_INQUIRY_CANCEL):
1513 if (!hci->lm.inquire || hci->lm.periodic) {
1514 fprintf(stderr, "%s: Inquiry Cancel should only be issued after "
1515 "the Inquiry command has been issued, a Command "
1516 "Status event has been received for the Inquiry "
1517 "command, and before the Inquiry Complete event "
1518 "occurs", __FUNCTION__);
1519 bt_hci_event_complete_status(hci, HCI_COMMAND_DISALLOWED);
1520 break;
1521 }
1522
1523 hci->lm.inquire = 0;
1524 qemu_del_timer(hci->lm.inquiry_done);
1525 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1526 break;
1527
1528 case cmd_opcode_pack(OGF_LINK_CTL, OCF_PERIODIC_INQUIRY):
1529 LENGTH_CHECK(periodic_inquiry);
1530
1531 if (!(PARAM(periodic_inquiry, length) <
1532 PARAM16(periodic_inquiry, min_period) &&
1533 PARAM16(periodic_inquiry, min_period) <
1534 PARAM16(periodic_inquiry, max_period)) ||
1535 PARAM(periodic_inquiry, length) < 1 ||
1536 PARAM16(periodic_inquiry, min_period) < 2 ||
1537 PARAM16(periodic_inquiry, max_period) < 3) {
1538 bt_hci_event_complete_status(hci, HCI_INVALID_PARAMETERS);
1539 break;
1540 }
1541
1542 hci->lm.inquire = 1;
1543 hci->lm.periodic = 1;
1544 hci->lm.responses_left = PARAM(periodic_inquiry, num_rsp);
1545 hci->lm.responses = 0;
1546 hci->lm.inquiry_period = PARAM16(periodic_inquiry, max_period);
1547 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1548 bt_hci_inquiry_start(hci, PARAM(periodic_inquiry, length));
1549 break;
1550
1551 case cmd_opcode_pack(OGF_LINK_CTL, OCF_EXIT_PERIODIC_INQUIRY):
1552 if (!hci->lm.inquire || !hci->lm.periodic) {
1553 fprintf(stderr, "%s: Inquiry Cancel should only be issued after "
1554 "the Inquiry command has been issued, a Command "
1555 "Status event has been received for the Inquiry "
1556 "command, and before the Inquiry Complete event "
1557 "occurs", __FUNCTION__);
1558 bt_hci_event_complete_status(hci, HCI_COMMAND_DISALLOWED);
1559 break;
1560 }
1561 hci->lm.inquire = 0;
1562 qemu_del_timer(hci->lm.inquiry_done);
1563 qemu_del_timer(hci->lm.inquiry_next);
1564 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1565 break;
1566
1567 case cmd_opcode_pack(OGF_LINK_CTL, OCF_CREATE_CONN):
1568 LENGTH_CHECK(create_conn);
1569
1570 if (hci->lm.connecting >= HCI_HANDLES_MAX) {
1571 bt_hci_event_status(hci, HCI_REJECTED_LIMITED_RESOURCES);
1572 break;
1573 }
1574 bt_hci_event_status(hci, HCI_SUCCESS);
1575
1576 if (bt_hci_connect(hci, &PARAM(create_conn, bdaddr)))
1577 bt_hci_connection_reject_event(hci, &PARAM(create_conn, bdaddr));
1578 break;
1579
1580 case cmd_opcode_pack(OGF_LINK_CTL, OCF_DISCONNECT):
1581 LENGTH_CHECK(disconnect);
1582
1583 if (bt_hci_handle_bad(hci, PARAMHANDLE(disconnect))) {
1584 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1585 break;
1586 }
1587
1588 bt_hci_event_status(hci, HCI_SUCCESS);
1589 bt_hci_disconnect(hci, PARAMHANDLE(disconnect),
1590 PARAM(disconnect, reason));
1591 break;
1592
1593 case cmd_opcode_pack(OGF_LINK_CTL, OCF_CREATE_CONN_CANCEL):
1594 LENGTH_CHECK(create_conn_cancel);
1595
1596 if (bt_hci_lmp_connection_ready(hci,
1597 &PARAM(create_conn_cancel, bdaddr))) {
1598 for (i = 0; i < HCI_HANDLES_MAX; i ++)
1599 if (bt_hci_role_master(hci, i) && hci->lm.handle[i].link &&
1600 !bacmp(&hci->lm.handle[i].link->slave->bd_addr,
1601 &PARAM(create_conn_cancel, bdaddr)))
1602 break;
1603
1604 bt_hci_event_complete_conn_cancel(hci, i < HCI_HANDLES_MAX ?
1605 HCI_ACL_CONNECTION_EXISTS : HCI_NO_CONNECTION,
1606 &PARAM(create_conn_cancel, bdaddr));
1607 } else
1608 bt_hci_event_complete_conn_cancel(hci, HCI_SUCCESS,
1609 &PARAM(create_conn_cancel, bdaddr));
1610 break;
1611
1612 case cmd_opcode_pack(OGF_LINK_CTL, OCF_ACCEPT_CONN_REQ):
1613 LENGTH_CHECK(accept_conn_req);
1614
1615 if (!hci->conn_req_host ||
1616 bacmp(&PARAM(accept_conn_req, bdaddr),
1617 &hci->conn_req_host->bd_addr)) {
1618 bt_hci_event_status(hci, HCI_INVALID_PARAMETERS);
1619 break;
1620 }
1621
1622 bt_hci_event_status(hci, HCI_SUCCESS);
1623 bt_hci_connection_accept(hci, hci->conn_req_host);
1624 hci->conn_req_host = NULL;
1625 break;
1626
1627 case cmd_opcode_pack(OGF_LINK_CTL, OCF_REJECT_CONN_REQ):
1628 LENGTH_CHECK(reject_conn_req);
1629
1630 if (!hci->conn_req_host ||
1631 bacmp(&PARAM(reject_conn_req, bdaddr),
1632 &hci->conn_req_host->bd_addr)) {
1633 bt_hci_event_status(hci, HCI_INVALID_PARAMETERS);
1634 break;
1635 }
1636
1637 bt_hci_event_status(hci, HCI_SUCCESS);
1638 bt_hci_connection_reject(hci, hci->conn_req_host,
1639 PARAM(reject_conn_req, reason));
1640 bt_hci_connection_reject_event(hci, &hci->conn_req_host->bd_addr);
1641 hci->conn_req_host = NULL;
1642 break;
1643
1644 case cmd_opcode_pack(OGF_LINK_CTL, OCF_AUTH_REQUESTED):
1645 LENGTH_CHECK(auth_requested);
1646
1647 if (bt_hci_handle_bad(hci, PARAMHANDLE(auth_requested)))
1648 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1649 else {
1650 bt_hci_event_status(hci, HCI_SUCCESS);
1651 bt_hci_event_auth_complete(hci, PARAMHANDLE(auth_requested));
1652 }
1653 break;
1654
1655 case cmd_opcode_pack(OGF_LINK_CTL, OCF_SET_CONN_ENCRYPT):
1656 LENGTH_CHECK(set_conn_encrypt);
1657
1658 if (bt_hci_handle_bad(hci, PARAMHANDLE(set_conn_encrypt)))
1659 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1660 else {
1661 bt_hci_event_status(hci, HCI_SUCCESS);
1662 bt_hci_event_encrypt_change(hci,
1663 PARAMHANDLE(set_conn_encrypt),
1664 PARAM(set_conn_encrypt, encrypt));
1665 }
1666 break;
1667
1668 case cmd_opcode_pack(OGF_LINK_CTL, OCF_REMOTE_NAME_REQ):
1669 LENGTH_CHECK(remote_name_req);
1670
1671 if (bt_hci_name_req(hci, &PARAM(remote_name_req, bdaddr)))
1672 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1673 break;
1674
1675 case cmd_opcode_pack(OGF_LINK_CTL, OCF_REMOTE_NAME_REQ_CANCEL):
1676 LENGTH_CHECK(remote_name_req_cancel);
1677
1678 bt_hci_event_complete_name_cancel(hci,
1679 &PARAM(remote_name_req_cancel, bdaddr));
1680 break;
1681
1682 case cmd_opcode_pack(OGF_LINK_CTL, OCF_READ_REMOTE_FEATURES):
1683 LENGTH_CHECK(read_remote_features);
1684
1685 if (bt_hci_features_req(hci, PARAMHANDLE(read_remote_features)))
1686 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1687 break;
1688
1689 case cmd_opcode_pack(OGF_LINK_CTL, OCF_READ_REMOTE_EXT_FEATURES):
1690 LENGTH_CHECK(read_remote_ext_features);
1691
1692 if (bt_hci_handle_bad(hci, PARAMHANDLE(read_remote_ext_features)))
1693 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1694 else {
1695 bt_hci_event_status(hci, HCI_SUCCESS);
1696 bt_hci_event_read_remote_ext_features(hci,
1697 PARAMHANDLE(read_remote_ext_features));
1698 }
1699 break;
1700
1701 case cmd_opcode_pack(OGF_LINK_CTL, OCF_READ_REMOTE_VERSION):
1702 LENGTH_CHECK(read_remote_version);
1703
1704 if (bt_hci_version_req(hci, PARAMHANDLE(read_remote_version)))
1705 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1706 break;
1707
1708 case cmd_opcode_pack(OGF_LINK_CTL, OCF_READ_CLOCK_OFFSET):
1709 LENGTH_CHECK(read_clock_offset);
1710
1711 if (bt_hci_clkoffset_req(hci, PARAMHANDLE(read_clock_offset)))
1712 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1713 break;
1714
1715 case cmd_opcode_pack(OGF_LINK_CTL, OCF_READ_LMP_HANDLE):
1716 LENGTH_CHECK(read_lmp_handle);
1717
1718 /* TODO: */
1719 bt_hci_event_complete_lmp_handle(hci, PARAMHANDLE(read_lmp_handle));
1720 break;
1721
1722 case cmd_opcode_pack(OGF_LINK_POLICY, OCF_HOLD_MODE):
1723 LENGTH_CHECK(hold_mode);
1724
1725 if (PARAM16(hold_mode, min_interval) >
1726 PARAM16(hold_mode, max_interval) ||
1727 PARAM16(hold_mode, min_interval) < 0x0002 ||
1728 PARAM16(hold_mode, max_interval) > 0xff00 ||
1729 (PARAM16(hold_mode, min_interval) & 1) ||
1730 (PARAM16(hold_mode, max_interval) & 1)) {
1731 bt_hci_event_status(hci, HCI_INVALID_PARAMETERS);
1732 break;
1733 }
1734
1735 if (bt_hci_mode_change(hci, PARAMHANDLE(hold_mode),
1736 PARAM16(hold_mode, max_interval),
1737 acl_hold))
1738 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1739 break;
1740
1741 case cmd_opcode_pack(OGF_LINK_POLICY, OCF_PARK_MODE):
1742 LENGTH_CHECK(park_mode);
1743
1744 if (PARAM16(park_mode, min_interval) >
1745 PARAM16(park_mode, max_interval) ||
1746 PARAM16(park_mode, min_interval) < 0x000e ||
1747 (PARAM16(park_mode, min_interval) & 1) ||
1748 (PARAM16(park_mode, max_interval) & 1)) {
1749 bt_hci_event_status(hci, HCI_INVALID_PARAMETERS);
1750 break;
1751 }
1752
1753 if (bt_hci_mode_change(hci, PARAMHANDLE(park_mode),
1754 PARAM16(park_mode, max_interval),
1755 acl_parked))
1756 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1757 break;
1758
1759 case cmd_opcode_pack(OGF_LINK_POLICY, OCF_EXIT_PARK_MODE):
1760 LENGTH_CHECK(exit_park_mode);
1761
1762 if (bt_hci_mode_cancel(hci, PARAMHANDLE(exit_park_mode),
1763 acl_parked))
1764 bt_hci_event_status(hci, HCI_NO_CONNECTION);
1765 break;
1766
1767 case cmd_opcode_pack(OGF_LINK_POLICY, OCF_ROLE_DISCOVERY):
1768 LENGTH_CHECK(role_discovery);
1769
1770 if (bt_hci_handle_bad(hci, PARAMHANDLE(role_discovery)))
1771 bt_hci_event_complete_role_discovery(hci,
1772 HCI_NO_CONNECTION, PARAMHANDLE(role_discovery), 0);
1773 else
1774 bt_hci_event_complete_role_discovery(hci,
1775 HCI_SUCCESS, PARAMHANDLE(role_discovery),
1776 bt_hci_role_master(hci,
1777 PARAMHANDLE(role_discovery)));
1778 break;
1779
1780 case cmd_opcode_pack(OGF_HOST_CTL, OCF_SET_EVENT_MASK):
1781 LENGTH_CHECK(set_event_mask);
1782
1783 memcpy(hci->event_mask, PARAM(set_event_mask, mask), 8);
1784 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1785 break;
1786
1787 case cmd_opcode_pack(OGF_HOST_CTL, OCF_RESET):
1788 bt_hci_reset(hci);
1789 bt_hci_event_status(hci, HCI_SUCCESS);
1790 break;
1791
1792 case cmd_opcode_pack(OGF_HOST_CTL, OCF_SET_EVENT_FLT):
1793 if (length >= 1 && PARAM(set_event_flt, flt_type) == FLT_CLEAR_ALL)
1794 /* No length check */;
1795 else
1796 LENGTH_CHECK(set_event_flt);
1797
1798 /* Filters are not implemented */
1799 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1800 break;
1801
1802 case cmd_opcode_pack(OGF_HOST_CTL, OCF_FLUSH):
1803 LENGTH_CHECK(flush);
1804
1805 if (bt_hci_handle_bad(hci, PARAMHANDLE(flush)))
1806 bt_hci_event_complete_flush(hci,
1807 HCI_NO_CONNECTION, PARAMHANDLE(flush));
1808 else {
1809 /* TODO: ordering? */
1810 bt_hci_event(hci, EVT_FLUSH_OCCURRED,
1811 &PARAM(flush, handle),
1812 EVT_FLUSH_OCCURRED_SIZE);
1813 bt_hci_event_complete_flush(hci,
1814 HCI_SUCCESS, PARAMHANDLE(flush));
1815 }
1816 break;
1817
1818 case cmd_opcode_pack(OGF_HOST_CTL, OCF_CHANGE_LOCAL_NAME):
1819 LENGTH_CHECK(change_local_name);
1820
1821 if (hci->device.lmp_name)
1822 qemu_free((void *) hci->device.lmp_name);
1823 hci->device.lmp_name = qemu_strndup(PARAM(change_local_name, name),
1824 sizeof(PARAM(change_local_name, name)));
1825 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1826 break;
1827
1828 case cmd_opcode_pack(OGF_HOST_CTL, OCF_READ_LOCAL_NAME):
1829 bt_hci_event_complete_read_local_name(hci);
1830 break;
1831
1832 case cmd_opcode_pack(OGF_HOST_CTL, OCF_READ_CONN_ACCEPT_TIMEOUT):
1833 bt_hci_event_complete_read_conn_accept_timeout(hci);
1834 break;
1835
1836 case cmd_opcode_pack(OGF_HOST_CTL, OCF_WRITE_CONN_ACCEPT_TIMEOUT):
1837 /* TODO */
1838 LENGTH_CHECK(write_conn_accept_timeout);
1839
1840 if (PARAM16(write_conn_accept_timeout, timeout) < 0x0001 ||
1841 PARAM16(write_conn_accept_timeout, timeout) > 0xb540) {
1842 bt_hci_event_complete_status(hci, HCI_INVALID_PARAMETERS);
1843 break;
1844 }
1845
1846 hci->conn_accept_tout = PARAM16(write_conn_accept_timeout, timeout);
1847 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1848 break;
1849
1850 case cmd_opcode_pack(OGF_HOST_CTL, OCF_READ_SCAN_ENABLE):
1851 bt_hci_event_complete_read_scan_enable(hci);
1852 break;
1853
1854 case cmd_opcode_pack(OGF_HOST_CTL, OCF_WRITE_SCAN_ENABLE):
1855 LENGTH_CHECK(write_scan_enable);
1856
1857 /* TODO: check that the remaining bits are all 0 */
1858 hci->device.inquiry_scan =
1859 !!(PARAM(write_scan_enable, scan_enable) & SCAN_INQUIRY);
1860 hci->device.page_scan =
1861 !!(PARAM(write_scan_enable, scan_enable) & SCAN_PAGE);
1862 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1863 break;
1864
1865 case cmd_opcode_pack(OGF_HOST_CTL, OCF_READ_CLASS_OF_DEV):
1866 bt_hci_event_complete_read_local_class(hci);
1867 break;
1868
1869 case cmd_opcode_pack(OGF_HOST_CTL, OCF_WRITE_CLASS_OF_DEV):
1870 LENGTH_CHECK(write_class_of_dev);
1871
1872 memcpy(hci->device.class, PARAM(write_class_of_dev, dev_class),
1873 sizeof(PARAM(write_class_of_dev, dev_class)));
1874 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1875 break;
1876
1877 case cmd_opcode_pack(OGF_HOST_CTL, OCF_READ_VOICE_SETTING):
1878 bt_hci_event_complete_voice_setting(hci);
1879 break;
1880
1881 case cmd_opcode_pack(OGF_HOST_CTL, OCF_WRITE_VOICE_SETTING):
1882 LENGTH_CHECK(write_voice_setting);
1883
1884 hci->voice_setting = PARAM(write_voice_setting, voice_setting);
1885 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1886 break;
1887
1888 case cmd_opcode_pack(OGF_HOST_CTL, OCF_HOST_NUMBER_OF_COMPLETED_PACKETS):
1889 if (length < data[0] * 2 + 1)
1890 goto short_hci;
1891
1892 for (i = 0; i < data[0]; i ++)
1893 if (bt_hci_handle_bad(hci,
1894 data[i * 2 + 1] | (data[i * 2 + 2] << 8)))
1895 bt_hci_event_complete_status(hci, HCI_INVALID_PARAMETERS);
1896 break;
1897
1898 case cmd_opcode_pack(OGF_HOST_CTL, OCF_READ_INQUIRY_MODE):
1899 /* Only if (local_features[3] & 0x40) && (local_commands[12] & 0x40)
1900 * else
1901 * goto unknown_command */
1902 bt_hci_event_complete_read_inquiry_mode(hci);
1903 break;
1904
1905 case cmd_opcode_pack(OGF_HOST_CTL, OCF_WRITE_INQUIRY_MODE):
1906 /* Only if (local_features[3] & 0x40) && (local_commands[12] & 0x80)
1907 * else
1908 * goto unknown_command */
1909 LENGTH_CHECK(write_inquiry_mode);
1910
1911 if (PARAM(write_inquiry_mode, mode) > 0x01) {
1912 bt_hci_event_complete_status(hci, HCI_INVALID_PARAMETERS);
1913 break;
1914 }
1915
1916 hci->lm.inquiry_mode = PARAM(write_inquiry_mode, mode);
1917 bt_hci_event_complete_status(hci, HCI_SUCCESS);
1918 break;
1919
1920 case cmd_opcode_pack(OGF_INFO_PARAM, OCF_READ_LOCAL_VERSION):
1921 bt_hci_read_local_version_rp(hci);
1922 break;
1923
1924 case cmd_opcode_pack(OGF_INFO_PARAM, OCF_READ_LOCAL_COMMANDS):
1925 bt_hci_read_local_commands_rp(hci);
1926 break;
1927
1928 case cmd_opcode_pack(OGF_INFO_PARAM, OCF_READ_LOCAL_FEATURES):
1929 bt_hci_read_local_features_rp(hci);
1930 break;
1931
1932 case cmd_opcode_pack(OGF_INFO_PARAM, OCF_READ_LOCAL_EXT_FEATURES):
1933 LENGTH_CHECK(read_local_ext_features);
1934
1935 bt_hci_read_local_ext_features_rp(hci,
1936 PARAM(read_local_ext_features, page_num));
1937 break;
1938
1939 case cmd_opcode_pack(OGF_INFO_PARAM, OCF_READ_BUFFER_SIZE):
1940 bt_hci_read_buffer_size_rp(hci);
1941 break;
1942
1943 case cmd_opcode_pack(OGF_INFO_PARAM, OCF_READ_COUNTRY_CODE):
1944 bt_hci_read_country_code_rp(hci);
1945 break;
1946
1947 case cmd_opcode_pack(OGF_INFO_PARAM, OCF_READ_BD_ADDR):
1948 bt_hci_read_bd_addr_rp(hci);
1949 break;
1950
1951 case cmd_opcode_pack(OGF_STATUS_PARAM, OCF_READ_LINK_QUALITY):
1952 LENGTH_CHECK(read_link_quality);
1953
1954 bt_hci_link_quality_rp(hci, PARAMHANDLE(read_link_quality));
1955 break;
1956
1957 default:
1958 bt_hci_event_status(hci, HCI_UNKNOWN_COMMAND);
1959 break;
1960
1961 short_hci:
1962 fprintf(stderr, "%s: HCI packet too short (%iB)\n",
1963 __FUNCTION__, length);
1964 bt_hci_event_status(hci, HCI_INVALID_PARAMETERS);
1965 break;
1966 }
1967 }
1968
1969 /* We could perform fragmentation here, we can't do "recombination" because
1970 * at this layer the length of the payload is not know ahead, so we only
1971 * know that a packet contained the last fragment of the SDU when the next
1972 * SDU starts. */
1973 static inline void bt_hci_lmp_acl_data(struct bt_hci_s *hci, uint16_t handle,
1974 const uint8_t *data, int start, int len)
1975 {
1976 struct hci_acl_hdr *pkt = (void *) hci->acl_buf;
1977
1978 /* TODO: packet flags */
1979 /* TODO: avoid memcpy'ing */
1980
1981 if (len + HCI_ACL_HDR_SIZE > sizeof(hci->acl_buf)) {
1982 fprintf(stderr, "%s: can't take ACL packets %i bytes long\n",
1983 __FUNCTION__, len);
1984 return;
1985 }
1986 memcpy(hci->acl_buf + HCI_ACL_HDR_SIZE, data, len);
1987
1988 pkt->handle = cpu_to_le16(
1989 acl_handle_pack(handle, start ? ACL_START : ACL_CONT));
1990 pkt->dlen = cpu_to_le16(len);
1991 hci->info.acl_recv(hci->info.opaque,
1992 hci->acl_buf, len + HCI_ACL_HDR_SIZE);
1993 }
1994
1995 static void bt_hci_lmp_acl_data_slave(struct bt_link_s *btlink,
1996 const uint8_t *data, int start, int len)
1997 {
1998 struct bt_hci_link_s *link = (struct bt_hci_link_s *) btlink;
1999
2000 bt_hci_lmp_acl_data(hci_from_device(btlink->slave),
2001 link->handle, data, start, len);
2002 }
2003
2004 static void bt_hci_lmp_acl_data_host(struct bt_link_s *link,
2005 const uint8_t *data, int start, int len)
2006 {
2007 bt_hci_lmp_acl_data(hci_from_device(link->host),
2008 link->handle, data, start, len);
2009 }
2010
2011 static void bt_submit_acl(struct HCIInfo *info,
2012 const uint8_t *data, int length)
2013 {
2014 struct bt_hci_s *hci = hci_from_info(info);
2015 uint16_t handle;
2016 int datalen, flags;
2017 struct bt_link_s *link;
2018
2019 if (length < HCI_ACL_HDR_SIZE) {
2020 fprintf(stderr, "%s: ACL packet too short (%iB)\n",
2021 __FUNCTION__, length);
2022 return;
2023 }
2024
2025 handle = acl_handle((data[1] << 8) | data[0]);
2026 flags = acl_flags((data[1] << 8) | data[0]);
2027 datalen = (data[3] << 8) | data[2];
2028 data += HCI_ACL_HDR_SIZE;
2029 length -= HCI_ACL_HDR_SIZE;
2030
2031 if (bt_hci_handle_bad(hci, handle)) {
2032 fprintf(stderr, "%s: invalid ACL handle %03x\n",
2033 __FUNCTION__, handle);
2034 /* TODO: signal an error */
2035 return;
2036 }
2037 handle &= ~HCI_HANDLE_OFFSET;
2038
2039 if (datalen > length) {
2040 fprintf(stderr, "%s: ACL packet too short (%iB < %iB)\n",
2041 __FUNCTION__, length, datalen);
2042 return;
2043 }
2044
2045 link = hci->lm.handle[handle].link;
2046
2047 if ((flags & ~3) == ACL_ACTIVE_BCAST) {
2048 if (!hci->asb_handle)
2049 hci->asb_handle = handle;
2050 else if (handle != hci->asb_handle) {
2051 fprintf(stderr, "%s: Bad handle %03x in Active Slave Broadcast\n",
2052 __FUNCTION__, handle);
2053 /* TODO: signal an error */
2054 return;
2055 }
2056
2057 /* TODO */
2058 }
2059
2060 if ((flags & ~3) == ACL_PICO_BCAST) {
2061 if (!hci->psb_handle)
2062 hci->psb_handle = handle;
2063 else if (handle != hci->psb_handle) {
2064 fprintf(stderr, "%s: Bad handle %03x in Parked Slave Broadcast\n",
2065 __FUNCTION__, handle);
2066 /* TODO: signal an error */
2067 return;
2068 }
2069
2070 /* TODO */
2071 }
2072
2073 /* TODO: increase counter and send EVT_NUM_COMP_PKTS */
2074 bt_hci_event_num_comp_pkts(hci, handle | HCI_HANDLE_OFFSET, 1);
2075
2076 /* Do this last as it can trigger further events even in this HCI */
2077 hci->lm.handle[handle].lmp_acl_data(link, data,
2078 (flags & 3) == ACL_START, length);
2079 }
2080
2081 static void bt_submit_sco(struct HCIInfo *info,
2082 const uint8_t *data, int length)
2083 {
2084 struct bt_hci_s *hci = hci_from_info(info);
2085 struct bt_link_s *link;
2086 uint16_t handle;
2087 int datalen;
2088
2089 if (length < 3)
2090 return;
2091
2092 handle = acl_handle((data[1] << 8) | data[0]);
2093 datalen = data[2];
2094 data += 3;
2095 length -= 3;
2096
2097 if (bt_hci_handle_bad(hci, handle)) {
2098 fprintf(stderr, "%s: invalid SCO handle %03x\n",
2099 __FUNCTION__, handle);
2100 return;
2101 }
2102 handle &= ~HCI_HANDLE_OFFSET;
2103
2104 if (datalen > length) {
2105 fprintf(stderr, "%s: SCO packet too short (%iB < %iB)\n",
2106 __FUNCTION__, length, datalen);
2107 return;
2108 }
2109
2110 link = hci->lm.handle[handle].link;
2111 /* TODO */
2112
2113 /* TODO: increase counter and send EVT_NUM_COMP_PKTS if synchronous
2114 * Flow Control is enabled.
2115 * (See Read/Write_Synchronous_Flow_Control_Enable on page 513 and
2116 * page 514.) */
2117 }
2118
2119 static uint8_t *bt_hci_evt_packet(void *opaque)
2120 {
2121 /* TODO: allocate a packet from upper layer */
2122 struct bt_hci_s *s = opaque;
2123
2124 return s->evt_buf;
2125 }
2126
2127 static void bt_hci_evt_submit(void *opaque, int len)
2128 {
2129 /* TODO: notify upper layer */
2130 struct bt_hci_s *s = opaque;
2131
2132 s->info.evt_recv(s->info.opaque, s->evt_buf, len);
2133 }
2134
2135 static int bt_hci_bdaddr_set(struct HCIInfo *info, const uint8_t *bd_addr)
2136 {
2137 struct bt_hci_s *hci = hci_from_info(info);
2138
2139 bacpy(&hci->device.bd_addr, (const bdaddr_t *) bd_addr);
2140 return 0;
2141 }
2142
2143 static void bt_hci_done(struct HCIInfo *info);
2144 static void bt_hci_destroy(struct bt_device_s *dev)
2145 {
2146 struct bt_hci_s *hci = hci_from_device(dev);
2147
2148 bt_hci_done(&hci->info);
2149 }
2150
2151 struct HCIInfo *bt_new_hci(struct bt_scatternet_s *net)
2152 {
2153 struct bt_hci_s *s = qemu_mallocz(sizeof(struct bt_hci_s));
2154
2155 s->lm.inquiry_done = qemu_new_timer(vm_clock, bt_hci_inquiry_done, s);
2156 s->lm.inquiry_next = qemu_new_timer(vm_clock, bt_hci_inquiry_next, s);
2157 s->conn_accept_timer =
2158 qemu_new_timer(vm_clock, bt_hci_conn_accept_timeout, s);
2159
2160 s->evt_packet = bt_hci_evt_packet;
2161 s->evt_submit = bt_hci_evt_submit;
2162 s->opaque = s;
2163
2164 bt_device_init(&s->device, net);
2165 s->device.lmp_connection_request = bt_hci_lmp_connection_request;
2166 s->device.lmp_connection_complete = bt_hci_lmp_connection_complete;
2167 s->device.lmp_disconnect_master = bt_hci_lmp_disconnect_host;
2168 s->device.lmp_disconnect_slave = bt_hci_lmp_disconnect_slave;
2169 s->device.lmp_acl_data = bt_hci_lmp_acl_data_slave;
2170 s->device.lmp_acl_resp = bt_hci_lmp_acl_data_host;
2171 s->device.lmp_mode_change = bt_hci_lmp_mode_change_slave;
2172
2173 /* Keep updated! */
2174 /* Also keep in sync with supported commands bitmask in
2175 * bt_hci_read_local_commands_rp */
2176 s->device.lmp_caps = 0x8000199b7e85355fll;
2177
2178 bt_hci_reset(s);
2179
2180 s->info.cmd_send = bt_submit_hci;
2181 s->info.sco_send = bt_submit_sco;
2182 s->info.acl_send = bt_submit_acl;
2183 s->info.bdaddr_set = bt_hci_bdaddr_set;
2184
2185 s->device.handle_destroy = bt_hci_destroy;
2186
2187 return &s->info;
2188 }
2189
2190 static void bt_hci_done(struct HCIInfo *info)
2191 {
2192 struct bt_hci_s *hci = hci_from_info(info);
2193 int handle;
2194
2195 bt_device_done(&hci->device);
2196
2197 if (hci->device.lmp_name)
2198 qemu_free((void *) hci->device.lmp_name);
2199
2200 /* Be gentle and send DISCONNECT to all connected peers and those
2201 * currently waiting for us to accept or reject a connection request.
2202 * This frees the links. */
2203 if (hci->conn_req_host) {
2204 bt_hci_connection_reject(hci,
2205 hci->conn_req_host, HCI_OE_POWER_OFF);
2206 return;
2207 }
2208
2209 for (handle = HCI_HANDLE_OFFSET;
2210 handle < (HCI_HANDLE_OFFSET | HCI_HANDLES_MAX); handle ++)
2211 if (!bt_hci_handle_bad(hci, handle))
2212 bt_hci_disconnect(hci, handle, HCI_OE_POWER_OFF);
2213
2214 /* TODO: this is not enough actually, there may be slaves from whom
2215 * we have requested a connection who will soon (or not) respond with
2216 * an accept or a reject, so we should also check if hci->lm.connecting
2217 * is non-zero and if so, avoid freeing the hci but otherwise disappear
2218 * from all qemu social life (e.g. stop scanning and request to be
2219 * removed from s->device.net) and arrange for
2220 * s->device.lmp_connection_complete to free the remaining bits once
2221 * hci->lm.awaiting_bdaddr[] is empty. */
2222
2223 qemu_free_timer(hci->lm.inquiry_done);
2224 qemu_free_timer(hci->lm.inquiry_next);
2225 qemu_free_timer(hci->conn_accept_timer);
2226
2227 qemu_free(hci);
2228 }
Samsung s3c2440 and arm920t support for the mini2440 dev board