1 /******************************************************************************
2 *
3 * Copyright (C) 1999-2012 Broadcom Corporation
4 *
5 * Licensed under the Apache License, Version 2.0 (the "License");
6 * you may not use this file except in compliance with the License.
7 * You may obtain a copy of the License at:
8 *
9 * http://www.apache.org/licenses/LICENSE-2.0
10 *
11 * Unless required by applicable law or agreed to in writing, software
12 * distributed under the License is distributed on an "AS IS" BASIS,
13 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14 * See the License for the specific language governing permissions and
15 * limitations under the License.
16 *
17 ******************************************************************************/
18 #include <android-base/stringprintf.h>
19 #include <base/logging.h>
20 #include "gki_int.h"
21
22 #if (GKI_NUM_TOTAL_BUF_POOLS > 16)
23 #error Number of pools out of range (16 Max)!
24 #endif
25
26 #if (BTU_STACK_LITE_ENABLED == FALSE)
27 static void gki_add_to_pool_list(uint8_t pool_id);
28 static void gki_remove_from_pool_list(uint8_t pool_id);
29 #endif /* BTU_STACK_LITE_ENABLED == FALSE */
30
31 using android::base::StringPrintf;
32
33 /*******************************************************************************
34 **
35 ** Function gki_init_free_queue
36 **
37 ** Description Internal function called at startup to initialize a free
38 ** queue. It is called once for each free queue.
39 **
40 ** Returns void
41 **
42 *******************************************************************************/
gki_init_free_queue(uint8_t id,uint16_t size,uint16_t total,void * p_mem)43 static void gki_init_free_queue(uint8_t id, uint16_t size, uint16_t total,
44 void* p_mem) {
45 uint16_t i;
46 uint16_t act_size;
47 BUFFER_HDR_T* hdr;
48 BUFFER_HDR_T* hdr1 = nullptr;
49 uint32_t* magic;
50 int32_t tempsize = size;
51 tGKI_COM_CB* p_cb = &gki_cb.com;
52
53 /* Ensure an even number of longwords */
54 tempsize = (int32_t)ALIGN_POOL(size);
55 act_size = (uint16_t)(tempsize + BUFFER_PADDING_SIZE);
56
57 /* Remember pool start and end addresses */
58 if (p_mem) {
59 p_cb->pool_start[id] = (uint8_t*)p_mem;
60 p_cb->pool_end[id] = (uint8_t*)p_mem + (act_size * total);
61 }
62
63 p_cb->pool_size[id] = act_size;
64
65 p_cb->freeq[id].size = (uint16_t)tempsize;
66 p_cb->freeq[id].total = total;
67 p_cb->freeq[id].cur_cnt = 0;
68 p_cb->freeq[id].max_cnt = 0;
69
70 /* Initialize index table */
71 if (p_mem) {
72 hdr = (BUFFER_HDR_T*)p_mem;
73 p_cb->freeq[id].p_first = hdr;
74 for (i = 0; i < total; i++) {
75 hdr->task_id = GKI_INVALID_TASK;
76 hdr->q_id = id;
77 hdr->status = BUF_STATUS_FREE;
78 magic = (uint32_t*)((uint8_t*)hdr + BUFFER_HDR_SIZE + tempsize);
79 *magic = MAGIC_NO;
80 hdr1 = hdr;
81 hdr = (BUFFER_HDR_T*)((uint8_t*)hdr + act_size);
82 hdr1->p_next = hdr;
83 }
84 if (hdr1 != nullptr) hdr = hdr1;
85 hdr->p_next = nullptr;
86 p_cb->freeq[id].p_last = hdr;
87 }
88 return;
89 }
90
gki_alloc_free_queue(uint8_t id)91 static bool gki_alloc_free_queue(uint8_t id) {
92 FREE_QUEUE_T* Q;
93 tGKI_COM_CB* p_cb = &gki_cb.com;
94
95 Q = &p_cb->freeq[p_cb->pool_list[id]];
96
97 if (Q->p_first == nullptr) {
98 void* p_mem = GKI_os_malloc((Q->size + BUFFER_PADDING_SIZE) * Q->total);
99 if (p_mem) {
100 // re-initialize the queue with allocated memory
101 gki_init_free_queue(id, Q->size, Q->total, p_mem);
102 return true;
103 }
104 GKI_exception(GKI_ERROR_BUF_SIZE_TOOBIG,
105 "gki_alloc_free_queue: Not enough memory");
106 }
107 return false;
108 }
109
110 /*******************************************************************************
111 **
112 ** Function gki_buffer_init
113 **
114 ** Description Called once internally by GKI at startup to initialize all
115 ** buffers and free buffer pools.
116 **
117 ** Returns void
118 **
119 *******************************************************************************/
gki_buffer_init(void)120 void gki_buffer_init(void) {
121 uint8_t i, tt, mb;
122 tGKI_COM_CB* p_cb = &gki_cb.com;
123
124 /* Initialize mailboxes */
125 for (tt = 0; tt < GKI_MAX_TASKS; tt++) {
126 for (mb = 0; mb < NUM_TASK_MBOX; mb++) {
127 p_cb->OSTaskQFirst[tt][mb] = nullptr;
128 p_cb->OSTaskQLast[tt][mb] = nullptr;
129 }
130 }
131
132 for (tt = 0; tt < GKI_NUM_TOTAL_BUF_POOLS; tt++) {
133 p_cb->pool_start[tt] = nullptr;
134 p_cb->pool_end[tt] = nullptr;
135 p_cb->pool_size[tt] = 0;
136
137 p_cb->freeq[tt].p_first = nullptr;
138 p_cb->freeq[tt].p_last = nullptr;
139 p_cb->freeq[tt].size = 0;
140 p_cb->freeq[tt].total = 0;
141 p_cb->freeq[tt].cur_cnt = 0;
142 p_cb->freeq[tt].max_cnt = 0;
143 }
144
145 /* Use default from target.h */
146 p_cb->pool_access_mask = GKI_DEF_BUFPOOL_PERM_MASK;
147
148 #if (GKI_NUM_FIXED_BUF_POOLS > 0)
149 gki_init_free_queue(0, GKI_BUF0_SIZE, GKI_BUF0_MAX, p_cb->bufpool0);
150 #endif
151
152 #if (GKI_NUM_FIXED_BUF_POOLS > 1)
153 gki_init_free_queue(1, GKI_BUF1_SIZE, GKI_BUF1_MAX, p_cb->bufpool1);
154 #endif
155
156 #if (GKI_NUM_FIXED_BUF_POOLS > 2)
157 gki_init_free_queue(2, GKI_BUF2_SIZE, GKI_BUF2_MAX, p_cb->bufpool2);
158 #endif
159
160 #if (GKI_NUM_FIXED_BUF_POOLS > 3)
161 gki_init_free_queue(3, GKI_BUF3_SIZE, GKI_BUF3_MAX, p_cb->bufpool3);
162 #endif
163
164 #if (GKI_NUM_FIXED_BUF_POOLS > 4)
165 gki_init_free_queue(4, GKI_BUF4_SIZE, GKI_BUF4_MAX, p_cb->bufpool4);
166 #endif
167
168 #if (GKI_NUM_FIXED_BUF_POOLS > 5)
169 gki_init_free_queue(5, GKI_BUF5_SIZE, GKI_BUF5_MAX, p_cb->bufpool5);
170 #endif
171
172 #if (GKI_NUM_FIXED_BUF_POOLS > 6)
173 gki_init_free_queue(6, GKI_BUF6_SIZE, GKI_BUF6_MAX, p_cb->bufpool6);
174 #endif
175
176 #if (GKI_NUM_FIXED_BUF_POOLS > 7)
177 gki_init_free_queue(7, GKI_BUF7_SIZE, GKI_BUF7_MAX, p_cb->bufpool7);
178 #endif
179
180 #if (GKI_NUM_FIXED_BUF_POOLS > 8)
181 gki_init_free_queue(8, GKI_BUF8_SIZE, GKI_BUF8_MAX, p_cb->bufpool8);
182 #endif
183
184 #if (GKI_NUM_FIXED_BUF_POOLS > 9)
185 gki_init_free_queue(9, GKI_BUF9_SIZE, GKI_BUF9_MAX, p_cb->bufpool9);
186 #endif
187
188 #if (GKI_NUM_FIXED_BUF_POOLS > 10)
189 gki_init_free_queue(10, GKI_BUF10_SIZE, GKI_BUF10_MAX, p_cb->bufpool10);
190 #endif
191
192 #if (GKI_NUM_FIXED_BUF_POOLS > 11)
193 gki_init_free_queue(11, GKI_BUF11_SIZE, GKI_BUF11_MAX, p_cb->bufpool11);
194 #endif
195
196 #if (GKI_NUM_FIXED_BUF_POOLS > 12)
197 gki_init_free_queue(12, GKI_BUF12_SIZE, GKI_BUF12_MAX, p_cb->bufpool12);
198 #endif
199
200 #if (GKI_NUM_FIXED_BUF_POOLS > 13)
201 gki_init_free_queue(13, GKI_BUF13_SIZE, GKI_BUF13_MAX, p_cb->bufpool13);
202 #endif
203
204 #if (GKI_NUM_FIXED_BUF_POOLS > 14)
205 gki_init_free_queue(14, GKI_BUF14_SIZE, GKI_BUF14_MAX, p_cb->bufpool14);
206 #endif
207
208 #if (GKI_NUM_FIXED_BUF_POOLS > 15)
209 gki_init_free_queue(15, GKI_BUF15_SIZE, GKI_BUF15_MAX, p_cb->bufpool15);
210 #endif
211
212 /* add pools to the pool_list which is arranged in the order of size */
213 for (i = 0; i < GKI_NUM_FIXED_BUF_POOLS; i++) {
214 p_cb->pool_list[i] = i;
215 }
216
217 p_cb->curr_total_no_of_pools = GKI_NUM_FIXED_BUF_POOLS;
218
219 return;
220 }
221
222 /*******************************************************************************
223 **
224 ** Function GKI_init_q
225 **
226 ** Description Called by an application to initialize a buffer queue.
227 **
228 ** Returns void
229 **
230 *******************************************************************************/
GKI_init_q(BUFFER_Q * p_q)231 void GKI_init_q(BUFFER_Q* p_q) {
232 p_q->p_first = p_q->p_last = nullptr;
233 p_q->count = 0;
234
235 return;
236 }
237
238 /*******************************************************************************
239 **
240 ** Function GKI_getbuf
241 **
242 ** Description Called by an application to get a free buffer which
243 ** is of size greater or equal to the requested size.
244 **
245 ** Note: This routine only takes buffers from public pools.
246 ** It will not use any buffers from pools
247 ** marked GKI_RESTRICTED_POOL.
248 **
249 ** Parameters size - (input) number of bytes needed.
250 **
251 ** Returns A pointer to the buffer, or NULL if none available
252 **
253 *******************************************************************************/
GKI_getbuf(uint16_t size)254 void* GKI_getbuf(uint16_t size) {
255 BUFFER_HDR_T* p_hdr;
256
257 #ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
258 if (size == 0) {
259 LOG(ERROR) << StringPrintf("getbuf: Size is zero");
260 abort();
261 }
262
263 size_t total_sz = size + sizeof(BUFFER_HDR_T);
264 p_hdr = (BUFFER_HDR_T*)GKI_os_malloc(total_sz);
265 if (!p_hdr) {
266 LOG(ERROR) << StringPrintf("unable to allocate buffer!!!!!");
267 abort();
268 }
269
270 memset(p_hdr, 0, total_sz);
271
272 p_hdr->task_id = GKI_get_taskid();
273 p_hdr->status = BUF_STATUS_UNLINKED;
274 p_hdr->p_next = nullptr;
275 p_hdr->Type = 0;
276
277 p_hdr->q_id = 0;
278 p_hdr->size = size;
279
280 UNUSED(gki_alloc_free_queue);
281
282 return (void*)((uint8_t*)p_hdr + BUFFER_HDR_SIZE);
283 #else
284 uint8_t i;
285 FREE_QUEUE_T* Q;
286 tGKI_COM_CB* p_cb = &gki_cb.com;
287
288 if (size == 0) {
289 GKI_exception(GKI_ERROR_BUF_SIZE_ZERO, "getbuf: Size is zero");
290 return (nullptr);
291 }
292
293 /* Find the first buffer pool that is public that can hold the desired size */
294 for (i = 0; i < p_cb->curr_total_no_of_pools; i++) {
295 if (size <= p_cb->freeq[p_cb->pool_list[i]].size) break;
296 }
297
298 if (i == p_cb->curr_total_no_of_pools) {
299 GKI_exception(GKI_ERROR_BUF_SIZE_TOOBIG, "getbuf: Size is too big");
300 return (nullptr);
301 }
302
303 /* Make sure the buffers aren't disturbed til finished with allocation */
304 GKI_disable();
305
306 /* search the public buffer pools that are big enough to hold the size
307 * until a free buffer is found */
308 for (; i < p_cb->curr_total_no_of_pools; i++) {
309 /* Only look at PUBLIC buffer pools (bypass RESTRICTED pools) */
310 if (((uint16_t)1 << p_cb->pool_list[i]) & p_cb->pool_access_mask) continue;
311
312 Q = &p_cb->freeq[p_cb->pool_list[i]];
313 if (Q->cur_cnt < Q->total) {
314 if (Q->p_first == nullptr && gki_alloc_free_queue(i) != true) {
315 LOG(ERROR) << StringPrintf("out of buffer");
316 GKI_enable();
317 return nullptr;
318 }
319
320 if (Q->p_first == nullptr) {
321 /* gki_alloc_free_queue() failed to alloc memory */
322 LOG(ERROR) << StringPrintf("fail alloc free queue");
323 GKI_enable();
324 return nullptr;
325 }
326
327 p_hdr = Q->p_first;
328 Q->p_first = p_hdr->p_next;
329
330 if (!Q->p_first) Q->p_last = nullptr;
331
332 if (++Q->cur_cnt > Q->max_cnt) Q->max_cnt = Q->cur_cnt;
333
334 GKI_enable();
335
336 p_hdr->task_id = GKI_get_taskid();
337
338 p_hdr->status = BUF_STATUS_UNLINKED;
339 p_hdr->p_next = nullptr;
340 p_hdr->Type = 0;
341 return ((void*)((uint8_t*)p_hdr + BUFFER_HDR_SIZE));
342 }
343 }
344
345 LOG(ERROR) << StringPrintf("unable to allocate buffer!!!!!");
346
347 GKI_enable();
348
349 return (nullptr);
350 #endif
351 }
352
353 /*******************************************************************************
354 **
355 ** Function GKI_getpoolbuf
356 **
357 ** Description Called by an application to get a free buffer from
358 ** a specific buffer pool.
359 **
360 ** Note: If there are no more buffers available from the pool,
361 ** the public buffers are searched for an available
362 ** buffer.
363 **
364 ** Parameters pool_id - (input) pool ID to get a buffer out of.
365 **
366 ** Returns A pointer to the buffer, or NULL if none available
367 **
368 *******************************************************************************/
GKI_getpoolbuf(uint8_t pool_id)369 void* GKI_getpoolbuf(uint8_t pool_id) {
370 #ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
371 uint16_t size = 0;
372 switch (pool_id) {
373 // NFC_NCI_POOL_ID, NFC_RW_POOL_ID and NFC_CE_POOL_ID are all redefined to
374 // GKI_POOL_ID_2.
375 case GKI_POOL_ID_2:
376 size = GKI_BUF2_SIZE;
377 break;
378
379 // LLCP_POOL_ID, GKI_MAX_BUF_SIZE_POOL_ID are redefined to GKI_POOL_ID_3.
380 case GKI_POOL_ID_3:
381 size = GKI_BUF3_SIZE;
382 break;
383
384 default:
385 LOG(ERROR) << StringPrintf("Unknown pool ID: %d", pool_id);
386 abort();
387 break;
388 }
389
390 return GKI_getbuf(size);
391 #else
392 FREE_QUEUE_T* Q;
393 BUFFER_HDR_T* p_hdr;
394 tGKI_COM_CB* p_cb = &gki_cb.com;
395
396 if (pool_id >= GKI_NUM_TOTAL_BUF_POOLS) return (nullptr);
397
398 /* Make sure the buffers aren't disturbed til finished with allocation */
399 GKI_disable();
400
401 Q = &p_cb->freeq[pool_id];
402 if (Q->cur_cnt < Q->total) {
403 if (Q->p_first == nullptr && gki_alloc_free_queue(pool_id) != true) return nullptr;
404
405 if (Q->p_first == nullptr) {
406 /* gki_alloc_free_queue() failed to alloc memory */
407 LOG(ERROR) << StringPrintf("fail alloc free queue");
408 return nullptr;
409 }
410
411 p_hdr = Q->p_first;
412 Q->p_first = p_hdr->p_next;
413
414 if (!Q->p_first) Q->p_last = nullptr;
415
416 if (++Q->cur_cnt > Q->max_cnt) Q->max_cnt = Q->cur_cnt;
417
418 GKI_enable();
419
420 p_hdr->task_id = GKI_get_taskid();
421
422 p_hdr->status = BUF_STATUS_UNLINKED;
423 p_hdr->p_next = nullptr;
424 p_hdr->Type = 0;
425
426 return ((void*)((uint8_t*)p_hdr + BUFFER_HDR_SIZE));
427 }
428
429 /* If here, no buffers in the specified pool */
430 GKI_enable();
431
432 /* try for free buffers in public pools */
433 return (GKI_getbuf(p_cb->freeq[pool_id].size));
434 #endif
435 }
436
437 /*******************************************************************************
438 **
439 ** Function GKI_freebuf
440 **
441 ** Description Called by an application to return a buffer to the free
442 ** pool.
443 **
444 ** Parameters p_buf - (input) address of the beginning of a buffer.
445 **
446 ** Returns void
447 **
448 *******************************************************************************/
GKI_freebuf(void * p_buf)449 void GKI_freebuf(void* p_buf) {
450 BUFFER_HDR_T* p_hdr;
451
452 #ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
453 p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
454
455 if (p_hdr->status != BUF_STATUS_UNLINKED) {
456 GKI_exception(GKI_ERROR_FREEBUF_BUF_LINKED, "Freeing Linked Buf");
457 return;
458 }
459
460 if (p_hdr->q_id >= GKI_NUM_TOTAL_BUF_POOLS) {
461 GKI_exception(GKI_ERROR_FREEBUF_BAD_QID, "Bad Buf QId");
462 return;
463 }
464
465 GKI_os_free(p_hdr);
466 #else
467 FREE_QUEUE_T* Q;
468
469 #if (GKI_ENABLE_BUF_CORRUPTION_CHECK == TRUE)
470 if (!p_buf || gki_chk_buf_damage(p_buf)) {
471 GKI_exception(GKI_ERROR_BUF_CORRUPTED, "Free - Buf Corrupted");
472 return;
473 }
474 #endif
475
476 p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
477
478 if (p_hdr->status != BUF_STATUS_UNLINKED) {
479 GKI_exception(GKI_ERROR_FREEBUF_BUF_LINKED, "Freeing Linked Buf");
480 return;
481 }
482
483 if (p_hdr->q_id >= GKI_NUM_TOTAL_BUF_POOLS) {
484 GKI_exception(GKI_ERROR_FREEBUF_BAD_QID, "Bad Buf QId");
485 return;
486 }
487
488 GKI_disable();
489
490 /*
491 ** Release the buffer
492 */
493 Q = &gki_cb.com.freeq[p_hdr->q_id];
494 if (Q->p_last)
495 Q->p_last->p_next = p_hdr;
496 else
497 Q->p_first = p_hdr;
498
499 Q->p_last = p_hdr;
500 p_hdr->p_next = nullptr;
501 p_hdr->status = BUF_STATUS_FREE;
502 p_hdr->task_id = GKI_INVALID_TASK;
503 if (Q->cur_cnt > 0) Q->cur_cnt--;
504
505 GKI_enable();
506 #endif
507 }
508
509 /*******************************************************************************
510 **
511 ** Function GKI_get_buf_size
512 **
513 ** Description Called by an application to get the size of a buffer.
514 **
515 ** Parameters p_buf - (input) address of the beginning of a buffer.
516 **
517 ** Returns the size of the buffer
518 **
519 *******************************************************************************/
GKI_get_buf_size(void * p_buf)520 uint16_t GKI_get_buf_size(void* p_buf) {
521 BUFFER_HDR_T* p_hdr;
522
523 p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
524
525 #ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
526 return p_hdr->size;
527 #else
528 if ((uintptr_t)p_hdr & 1) return (0);
529
530 if (p_hdr->q_id < GKI_NUM_TOTAL_BUF_POOLS) {
531 return (gki_cb.com.freeq[p_hdr->q_id].size);
532 }
533
534 return (0);
535 #endif
536 }
537
538 /*******************************************************************************
539 **
540 ** Function gki_chk_buf_damage
541 **
542 ** Description Called internally by OSS to check for buffer corruption.
543 **
544 ** Returns TRUE if there is a problem, else FALSE
545 **
546 *******************************************************************************/
gki_chk_buf_damage(void * p_buf)547 bool gki_chk_buf_damage(void* p_buf) {
548 #if (GKI_ENABLE_BUF_CORRUPTION_CHECK == TRUE)
549
550 uint32_t* magic;
551 magic = (uint32_t*)((uint8_t*)p_buf + GKI_get_buf_size(p_buf));
552
553 if ((uintptr_t)magic & 1) return true;
554
555 if (*magic == MAGIC_NO) return false;
556
557 return true;
558
559 #else
560 UNUSED(p_buf);
561 return false;
562
563 #endif
564 }
565
566 /*******************************************************************************
567 **
568 ** Function GKI_send_msg
569 **
570 ** Description Called by applications to send a buffer to a task
571 **
572 ** Returns Nothing
573 **
574 *******************************************************************************/
GKI_send_msg(uint8_t task_id,uint8_t mbox,void * msg)575 void GKI_send_msg(uint8_t task_id, uint8_t mbox, void* msg) {
576 BUFFER_HDR_T* p_hdr;
577 tGKI_COM_CB* p_cb = &gki_cb.com;
578
579 /* If task non-existant or not started, drop buffer */
580 if ((task_id >= GKI_MAX_TASKS) || (mbox >= NUM_TASK_MBOX) ||
581 (p_cb->OSRdyTbl[task_id] == TASK_DEAD)) {
582 GKI_exception(GKI_ERROR_SEND_MSG_BAD_DEST, "Sending to unknown dest");
583 GKI_freebuf(msg);
584 return;
585 }
586
587 #if (GKI_ENABLE_BUF_CORRUPTION_CHECK == TRUE)
588 if (gki_chk_buf_damage(msg)) {
589 GKI_exception(GKI_ERROR_BUF_CORRUPTED, "Send - Buffer corrupted");
590 return;
591 }
592 #endif
593
594 p_hdr = (BUFFER_HDR_T*)((uint8_t*)msg - BUFFER_HDR_SIZE);
595
596 if (p_hdr->status != BUF_STATUS_UNLINKED) {
597 GKI_exception(GKI_ERROR_SEND_MSG_BUF_LINKED, "Send - buffer linked");
598 return;
599 }
600
601 GKI_disable();
602
603 if (p_cb->OSTaskQFirst[task_id][mbox])
604 p_cb->OSTaskQLast[task_id][mbox]->p_next = p_hdr;
605 else
606 p_cb->OSTaskQFirst[task_id][mbox] = p_hdr;
607
608 p_cb->OSTaskQLast[task_id][mbox] = p_hdr;
609
610 p_hdr->p_next = nullptr;
611 p_hdr->status = BUF_STATUS_QUEUED;
612 p_hdr->task_id = task_id;
613
614 GKI_enable();
615
616 GKI_send_event(task_id, (uint16_t)EVENT_MASK(mbox));
617
618 return;
619 }
620
621 /*******************************************************************************
622 **
623 ** Function GKI_read_mbox
624 **
625 ** Description Called by applications to read a buffer from one of
626 ** the task mailboxes. A task can only read its own mailbox.
627 **
628 ** Parameters: mbox - (input) mailbox ID to read (0, 1, 2, or 3)
629 **
630 ** Returns NULL if the mailbox was empty, else the address of a buffer
631 **
632 *******************************************************************************/
GKI_read_mbox(uint8_t mbox)633 void* GKI_read_mbox(uint8_t mbox) {
634 uint8_t task_id = GKI_get_taskid();
635 void* p_buf = nullptr;
636 BUFFER_HDR_T* p_hdr;
637
638 if ((task_id >= GKI_MAX_TASKS) || (mbox >= NUM_TASK_MBOX)) return (nullptr);
639
640 GKI_disable();
641
642 if (gki_cb.com.OSTaskQFirst[task_id][mbox]) {
643 p_hdr = gki_cb.com.OSTaskQFirst[task_id][mbox];
644 gki_cb.com.OSTaskQFirst[task_id][mbox] = p_hdr->p_next;
645
646 p_hdr->p_next = nullptr;
647 p_hdr->status = BUF_STATUS_UNLINKED;
648
649 p_buf = (uint8_t*)p_hdr + BUFFER_HDR_SIZE;
650 }
651
652 GKI_enable();
653
654 return (p_buf);
655 }
656
657 /*******************************************************************************
658 **
659 ** Function GKI_enqueue
660 **
661 ** Description Enqueue a buffer at the tail of the queue
662 **
663 ** Parameters: p_q - (input) pointer to a queue.
664 ** p_buf - (input) address of the buffer to enqueue
665 **
666 ** Returns void
667 **
668 *******************************************************************************/
GKI_enqueue(BUFFER_Q * p_q,void * p_buf)669 void GKI_enqueue(BUFFER_Q* p_q, void* p_buf) {
670 BUFFER_HDR_T* p_hdr;
671
672 #if (GKI_ENABLE_BUF_CORRUPTION_CHECK == TRUE)
673 if (gki_chk_buf_damage(p_buf)) {
674 GKI_exception(GKI_ERROR_BUF_CORRUPTED, "Enqueue - Buffer corrupted");
675 return;
676 }
677 #endif
678
679 p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
680
681 if (p_hdr->status != BUF_STATUS_UNLINKED) {
682 GKI_exception(GKI_ERROR_ENQUEUE_BUF_LINKED, "Eneueue - buf already linked");
683 return;
684 }
685
686 GKI_disable();
687
688 /* Since the queue is exposed (C vs C++), keep the pointers in exposed format
689 */
690 if (p_q->p_first) {
691 BUFFER_HDR_T* p_last_hdr =
692 (BUFFER_HDR_T*)((uint8_t*)p_q->p_last - BUFFER_HDR_SIZE);
693 p_last_hdr->p_next = p_hdr;
694 } else
695 p_q->p_first = p_buf;
696
697 p_q->p_last = p_buf;
698 p_q->count++;
699
700 p_hdr->p_next = nullptr;
701 p_hdr->status = BUF_STATUS_QUEUED;
702
703 GKI_enable();
704
705 return;
706 }
707
708 /*******************************************************************************
709 **
710 ** Function GKI_enqueue_head
711 **
712 ** Description Enqueue a buffer at the head of the queue
713 **
714 ** Parameters: p_q - (input) pointer to a queue.
715 ** p_buf - (input) address of the buffer to enqueue
716 **
717 ** Returns void
718 **
719 *******************************************************************************/
GKI_enqueue_head(BUFFER_Q * p_q,void * p_buf)720 void GKI_enqueue_head(BUFFER_Q* p_q, void* p_buf) {
721 BUFFER_HDR_T* p_hdr;
722
723 #if (GKI_ENABLE_BUF_CORRUPTION_CHECK == TRUE)
724 if (gki_chk_buf_damage(p_buf)) {
725 GKI_exception(GKI_ERROR_BUF_CORRUPTED, "Enqueue - Buffer corrupted");
726 return;
727 }
728 #endif
729
730 p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
731
732 if (p_hdr->status != BUF_STATUS_UNLINKED) {
733 GKI_exception(GKI_ERROR_ENQUEUE_BUF_LINKED,
734 "Eneueue head - buf already linked");
735 return;
736 }
737
738 GKI_disable();
739
740 if (p_q->p_first) {
741 p_hdr->p_next = (BUFFER_HDR_T*)((uint8_t*)p_q->p_first - BUFFER_HDR_SIZE);
742 p_q->p_first = p_buf;
743 } else {
744 p_q->p_first = p_buf;
745 p_q->p_last = p_buf;
746 p_hdr->p_next = nullptr;
747 }
748 p_q->count++;
749
750 p_hdr->status = BUF_STATUS_QUEUED;
751
752 GKI_enable();
753
754 return;
755 }
756
757 /*******************************************************************************
758 **
759 ** Function GKI_dequeue
760 **
761 ** Description Dequeues a buffer from the head of a queue
762 **
763 ** Parameters: p_q - (input) pointer to a queue.
764 **
765 ** Returns NULL if queue is empty, else buffer
766 **
767 *******************************************************************************/
GKI_dequeue(BUFFER_Q * p_q)768 void* GKI_dequeue(BUFFER_Q* p_q) {
769 BUFFER_HDR_T* p_hdr;
770
771 GKI_disable();
772
773 if (!p_q || !p_q->count) {
774 GKI_enable();
775 return (nullptr);
776 }
777
778 p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_q->p_first - BUFFER_HDR_SIZE);
779
780 /* Keep buffers such that GKI header is invisible
781 */
782 if (p_hdr->p_next)
783 p_q->p_first = ((uint8_t*)p_hdr->p_next + BUFFER_HDR_SIZE);
784 else {
785 p_q->p_first = nullptr;
786 p_q->p_last = nullptr;
787 }
788
789 p_q->count--;
790
791 p_hdr->p_next = nullptr;
792 p_hdr->status = BUF_STATUS_UNLINKED;
793
794 GKI_enable();
795
796 return ((uint8_t*)p_hdr + BUFFER_HDR_SIZE);
797 }
798
799 /*******************************************************************************
800 **
801 ** Function GKI_remove_from_queue
802 **
803 ** Description Dequeue a buffer from the middle of the queue
804 **
805 ** Parameters: p_q - (input) pointer to a queue.
806 ** p_buf - (input) address of the buffer to enqueue
807 **
808 ** Returns NULL if queue is empty, else buffer
809 **
810 *******************************************************************************/
GKI_remove_from_queue(BUFFER_Q * p_q,void * p_buf)811 void* GKI_remove_from_queue(BUFFER_Q* p_q, void* p_buf) {
812 BUFFER_HDR_T* p_prev;
813 BUFFER_HDR_T* p_buf_hdr;
814
815 GKI_disable();
816
817 if (p_buf == p_q->p_first) {
818 GKI_enable();
819 return (GKI_dequeue(p_q));
820 }
821
822 p_buf_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
823 p_prev = (BUFFER_HDR_T*)((uint8_t*)p_q->p_first - BUFFER_HDR_SIZE);
824
825 for (; p_prev; p_prev = p_prev->p_next) {
826 /* If the previous points to this one, move the pointers around */
827 if (p_prev->p_next == p_buf_hdr) {
828 p_prev->p_next = p_buf_hdr->p_next;
829
830 /* If we are removing the last guy in the queue, update p_last */
831 if (p_buf == p_q->p_last) p_q->p_last = p_prev + 1;
832
833 /* One less in the queue */
834 p_q->count--;
835
836 /* The buffer is now unlinked */
837 p_buf_hdr->p_next = nullptr;
838 p_buf_hdr->status = BUF_STATUS_UNLINKED;
839
840 GKI_enable();
841 return (p_buf);
842 }
843 }
844
845 GKI_enable();
846 return (nullptr);
847 }
848
849 /*******************************************************************************
850 **
851 ** Function GKI_getfirst
852 **
853 ** Description Return a pointer to the first buffer in a queue
854 **
855 ** Parameters: p_q - (input) pointer to a queue.
856 **
857 ** Returns NULL if queue is empty, else buffer address
858 **
859 *******************************************************************************/
GKI_getfirst(BUFFER_Q * p_q)860 void* GKI_getfirst(BUFFER_Q* p_q) { return (p_q->p_first); }
861
862 /*******************************************************************************
863 **
864 ** Function GKI_getlast
865 **
866 ** Description Return a pointer to the last buffer in a queue
867 **
868 ** Parameters: p_q - (input) pointer to a queue.
869 **
870 ** Returns NULL if queue is empty, else buffer address
871 **
872 *******************************************************************************/
GKI_getlast(BUFFER_Q * p_q)873 void* GKI_getlast(BUFFER_Q* p_q) { return (p_q->p_last); }
874
875 /*******************************************************************************
876 **
877 ** Function GKI_getnext
878 **
879 ** Description Return a pointer to the next buffer in a queue
880 **
881 ** Parameters: p_buf - (input) pointer to the buffer to find the next one
882 ** from.
883 **
884 ** Returns NULL if no more buffers in the queue, else next buffer
885 ** address
886 **
887 *******************************************************************************/
GKI_getnext(void * p_buf)888 void* GKI_getnext(void* p_buf) {
889 BUFFER_HDR_T* p_hdr;
890
891 p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
892
893 if (p_hdr->p_next)
894 return ((uint8_t*)p_hdr->p_next + BUFFER_HDR_SIZE);
895 else
896 return (nullptr);
897 }
898
899 /*******************************************************************************
900 **
901 ** Function GKI_queue_is_empty
902 **
903 ** Description Check the status of a queue.
904 **
905 ** Parameters: p_q - (input) pointer to a queue.
906 **
907 ** Returns TRUE if queue is empty, else FALSE
908 **
909 *******************************************************************************/
GKI_queue_is_empty(BUFFER_Q * p_q)910 bool GKI_queue_is_empty(BUFFER_Q* p_q) { return ((bool)(p_q->count == 0)); }
911
912 /*******************************************************************************
913 **
914 ** Function GKI_find_buf_start
915 **
916 ** Description This function is called with an address inside a buffer,
917 ** and returns the start address ofthe buffer.
918 **
919 ** The buffer should be one allocated from one of GKI's pools.
920 **
921 ** Parameters: p_user_area - (input) address of anywhere in a GKI buffer.
922 **
923 ** Returns void * - Address of the beginning of the specified buffer if
924 ** successful, otherwise NULL if unsuccessful
925 **
926 *******************************************************************************/
GKI_find_buf_start(void * p_user_area)927 void* GKI_find_buf_start(void* p_user_area) {
928 uint16_t xx, size;
929 uint32_t yy;
930 tGKI_COM_CB* p_cb = &gki_cb.com;
931 uint8_t* p_ua = (uint8_t*)p_user_area;
932
933 for (xx = 0; xx < GKI_NUM_TOTAL_BUF_POOLS; xx++) {
934 if ((p_ua > p_cb->pool_start[xx]) && (p_ua < p_cb->pool_end[xx])) {
935 yy = (uint32_t)(p_ua - p_cb->pool_start[xx]);
936
937 size = p_cb->pool_size[xx];
938
939 yy = (yy / size) * size;
940
941 return ((void*)(p_cb->pool_start[xx] + yy + sizeof(BUFFER_HDR_T)));
942 }
943 }
944
945 /* If here, invalid address - not in one of our buffers */
946 GKI_exception(GKI_ERROR_BUF_SIZE_ZERO, "GKI_get_buf_start:: bad addr");
947
948 return (nullptr);
949 }
950
951 /********************************************************
952 * The following functions are not needed for light stack
953 *********************************************************/
954 #ifndef BTU_STACK_LITE_ENABLED
955 #define BTU_STACK_LITE_ENABLED FALSE
956 #endif
957
958 #if (BTU_STACK_LITE_ENABLED == FALSE)
959
960 /*******************************************************************************
961 **
962 ** Function GKI_set_pool_permission
963 **
964 ** Description This function is called to set or change the permissions for
965 ** the specified pool ID.
966 **
967 ** Parameters pool_id - (input) pool ID to be set or changed
968 ** permission - (input) GKI_PUBLIC_POOL or GKI_RESTRICTED_POOL
969 **
970 ** Returns GKI_SUCCESS if successful
971 ** GKI_INVALID_POOL if unsuccessful
972 **
973 *******************************************************************************/
GKI_set_pool_permission(uint8_t pool_id,uint8_t permission)974 uint8_t GKI_set_pool_permission(uint8_t pool_id, uint8_t permission) {
975 tGKI_COM_CB* p_cb = &gki_cb.com;
976
977 if (pool_id < GKI_NUM_TOTAL_BUF_POOLS) {
978 if (permission == GKI_RESTRICTED_POOL)
979 p_cb->pool_access_mask =
980 (uint16_t)(p_cb->pool_access_mask | (1 << pool_id));
981
982 else /* mark the pool as public */
983 p_cb->pool_access_mask =
984 (uint16_t)(p_cb->pool_access_mask & ~(1 << pool_id));
985
986 return (GKI_SUCCESS);
987 } else
988 return (GKI_INVALID_POOL);
989 }
990
991 /*******************************************************************************
992 **
993 ** Function gki_add_to_pool_list
994 **
995 ** Description Adds pool to the pool list which is arranged in the
996 ** order of size
997 **
998 ** Returns void
999 **
1000 *******************************************************************************/
gki_add_to_pool_list(uint8_t pool_id)1001 static void gki_add_to_pool_list(uint8_t pool_id) {
1002 int32_t i, j;
1003 tGKI_COM_CB* p_cb = &gki_cb.com;
1004
1005 /* Find the position where the specified pool should be inserted into the list
1006 */
1007 for (i = 0; i < p_cb->curr_total_no_of_pools; i++) {
1008 if (p_cb->freeq[pool_id].size <= p_cb->freeq[p_cb->pool_list[i]].size)
1009 break;
1010 }
1011
1012 /* Insert the new buffer pool ID into the list of pools */
1013 for (j = p_cb->curr_total_no_of_pools; j > i; j--) {
1014 p_cb->pool_list[j] = p_cb->pool_list[j - 1];
1015 }
1016
1017 p_cb->pool_list[i] = pool_id;
1018
1019 return;
1020 }
1021
1022 /*******************************************************************************
1023 **
1024 ** Function gki_remove_from_pool_list
1025 **
1026 ** Description Removes pool from the pool list. Called when a pool is
1027 ** deleted
1028 **
1029 ** Returns void
1030 **
1031 *******************************************************************************/
gki_remove_from_pool_list(uint8_t pool_id)1032 static void gki_remove_from_pool_list(uint8_t pool_id) {
1033 tGKI_COM_CB* p_cb = &gki_cb.com;
1034 uint8_t i;
1035
1036 for (i = 0; i < p_cb->curr_total_no_of_pools; i++) {
1037 if (pool_id == p_cb->pool_list[i]) break;
1038 }
1039
1040 while (i < (p_cb->curr_total_no_of_pools - 1)) {
1041 p_cb->pool_list[i] = p_cb->pool_list[i + 1];
1042 i++;
1043 }
1044
1045 return;
1046 }
1047
1048 /*******************************************************************************
1049 **
1050 ** Function GKI_poolcount
1051 **
1052 ** Description Called by an application to get the total number of buffers
1053 ** in the specified buffer pool.
1054 **
1055 ** Parameters pool_id - (input) pool ID to get the free count of.
1056 **
1057 ** Returns the total number of buffers in the pool
1058 **
1059 *******************************************************************************/
GKI_poolcount(uint8_t pool_id)1060 uint16_t GKI_poolcount(uint8_t pool_id) {
1061 if (pool_id >= GKI_NUM_TOTAL_BUF_POOLS) return (0);
1062
1063 return (gki_cb.com.freeq[pool_id].total);
1064 }
1065
1066 /*******************************************************************************
1067 **
1068 ** Function GKI_poolfreecount
1069 **
1070 ** Description Called by an application to get the number of free buffers
1071 ** in the specified buffer pool.
1072 **
1073 ** Parameters pool_id - (input) pool ID to get the free count of.
1074 **
1075 ** Returns the number of free buffers in the pool
1076 **
1077 *******************************************************************************/
GKI_poolfreecount(uint8_t pool_id)1078 uint16_t GKI_poolfreecount(uint8_t pool_id) {
1079 FREE_QUEUE_T* Q;
1080
1081 if (pool_id >= GKI_NUM_TOTAL_BUF_POOLS) return (0);
1082
1083 Q = &gki_cb.com.freeq[pool_id];
1084
1085 return ((uint16_t)(Q->total - Q->cur_cnt));
1086 }
1087
1088 /*******************************************************************************
1089 **
1090 ** Function GKI_change_buf_owner
1091 **
1092 ** Description Called to change the task ownership of a buffer.
1093 **
1094 ** Parameters: p_buf - (input) pointer to the buffer
1095 ** task_id - (input) task id to change ownership to
1096 **
1097 ** Returns void
1098 **
1099 *******************************************************************************/
GKI_change_buf_owner(void * p_buf,uint8_t task_id)1100 void GKI_change_buf_owner(void* p_buf, uint8_t task_id) {
1101 BUFFER_HDR_T* p_hdr = (BUFFER_HDR_T*)((uint8_t*)p_buf - BUFFER_HDR_SIZE);
1102
1103 p_hdr->task_id = task_id;
1104
1105 return;
1106 }
1107
1108 #if (GKI_SEND_MSG_FROM_ISR == TRUE)
1109 /*******************************************************************************
1110 **
1111 ** Function GKI_isend_msg
1112 **
1113 ** Description Called from interrupt context to send a buffer to a task
1114 **
1115 ** Returns Nothing
1116 **
1117 *******************************************************************************/
GKI_isend_msg(uint8_t task_id,uint8_t mbox,void * msg)1118 void GKI_isend_msg(uint8_t task_id, uint8_t mbox, void* msg) {
1119 BUFFER_HDR_T* p_hdr;
1120 tGKI_COM_CB* p_cb = &gki_cb.com;
1121
1122 /* If task non-existant or not started, drop buffer */
1123 if ((task_id >= GKI_MAX_TASKS) || (mbox >= NUM_TASK_MBOX) ||
1124 (p_cb->OSRdyTbl[task_id] == TASK_DEAD)) {
1125 GKI_exception(GKI_ERROR_SEND_MSG_BAD_DEST, "Sending to unknown dest");
1126 GKI_freebuf(msg);
1127 return;
1128 }
1129
1130 #if (GKI_ENABLE_BUF_CORRUPTION_CHECK == TRUE)
1131 if (gki_chk_buf_damage(msg)) {
1132 GKI_exception(GKI_ERROR_BUF_CORRUPTED, "Send - Buffer corrupted");
1133 return;
1134 }
1135 #endif
1136
1137 #if (GKI_ENABLE_OWNER_CHECK == TRUE)
1138 if (gki_chk_buf_owner(msg)) {
1139 GKI_exception(GKI_ERROR_NOT_BUF_OWNER, "Send by non-owner");
1140 return;
1141 }
1142 #endif
1143
1144 p_hdr = (BUFFER_HDR_T*)((uint8_t*)msg - BUFFER_HDR_SIZE);
1145
1146 if (p_hdr->status != BUF_STATUS_UNLINKED) {
1147 GKI_exception(GKI_ERROR_SEND_MSG_BUF_LINKED, "Send - buffer linked");
1148 return;
1149 }
1150
1151 if (p_cb->OSTaskQFirst[task_id][mbox])
1152 p_cb->OSTaskQLast[task_id][mbox]->p_next = p_hdr;
1153 else
1154 p_cb->OSTaskQFirst[task_id][mbox] = p_hdr;
1155
1156 p_cb->OSTaskQLast[task_id][mbox] = p_hdr;
1157
1158 p_hdr->p_next = NULL;
1159 p_hdr->status = BUF_STATUS_QUEUED;
1160 p_hdr->task_id = task_id;
1161
1162 GKI_isend_event(task_id, (uint16_t)EVENT_MASK(mbox));
1163
1164 return;
1165 }
1166 #endif
1167
1168 /*******************************************************************************
1169 **
1170 ** Function GKI_create_pool
1171 **
1172 ** Description Called by applications to create a buffer pool.
1173 **
1174 ** Parameters: size - (input) length (in bytes) of each buffer in the pool
1175 ** count - (input) number of buffers to allocate for the pool
1176 ** permission - (input) restricted or public access?
1177 ** (GKI_PUBLIC_POOL or GKI_RESTRICTED_POOL)
1178 ** p_mem_pool - (input) pointer to an OS memory pool, NULL if
1179 ** not provided
1180 **
1181 ** Returns the buffer pool ID, which should be used in calls to
1182 ** GKI_getpoolbuf(). If a pool could not be created, this
1183 ** function returns 0xff.
1184 **
1185 *******************************************************************************/
GKI_create_pool(uint16_t size,uint16_t count,uint8_t permission,void * p_mem_pool)1186 uint8_t GKI_create_pool(uint16_t size, uint16_t count, uint8_t permission,
1187 void* p_mem_pool) {
1188 uint8_t xx;
1189 uint32_t mem_needed;
1190 int32_t tempsize = size;
1191 tGKI_COM_CB* p_cb = &gki_cb.com;
1192
1193 /* First make sure the size of each pool has a valid size with room for the
1194 * header info */
1195 if (size > MAX_USER_BUF_SIZE) return (GKI_INVALID_POOL);
1196
1197 /* First, look for an unused pool */
1198 for (xx = 0; xx < GKI_NUM_TOTAL_BUF_POOLS; xx++) {
1199 if (!p_cb->pool_start[xx]) break;
1200 }
1201
1202 if (xx == GKI_NUM_TOTAL_BUF_POOLS) return (GKI_INVALID_POOL);
1203
1204 /* Ensure an even number of longwords */
1205 tempsize = (int32_t)ALIGN_POOL(size);
1206
1207 mem_needed = (tempsize + BUFFER_PADDING_SIZE) * count;
1208
1209 if (!p_mem_pool) p_mem_pool = GKI_os_malloc(mem_needed);
1210
1211 if (p_mem_pool) {
1212 /* Initialize the new pool */
1213 gki_init_free_queue(xx, size, count, p_mem_pool);
1214 gki_add_to_pool_list(xx);
1215 (void)GKI_set_pool_permission(xx, permission);
1216 p_cb->curr_total_no_of_pools++;
1217
1218 return (xx);
1219 } else
1220 return (GKI_INVALID_POOL);
1221 }
1222
1223 /*******************************************************************************
1224 **
1225 ** Function GKI_delete_pool
1226 **
1227 ** Description Called by applications to delete a buffer pool. The
1228 ** function calls the operating specific function to free the
1229 ** actual memory. An exception is generated if an error is
1230 ** detected.
1231 **
1232 ** Parameters: pool_id - (input) Id of the poll being deleted.
1233 **
1234 ** Returns void
1235 **
1236 *******************************************************************************/
GKI_delete_pool(uint8_t pool_id)1237 void GKI_delete_pool(uint8_t pool_id) {
1238 FREE_QUEUE_T* Q;
1239 tGKI_COM_CB* p_cb = &gki_cb.com;
1240
1241 if ((pool_id >= GKI_NUM_TOTAL_BUF_POOLS) || (!p_cb->pool_start[pool_id]))
1242 return;
1243
1244 GKI_disable();
1245 Q = &p_cb->freeq[pool_id];
1246
1247 if (!Q->cur_cnt) {
1248 Q->size = 0;
1249 Q->total = 0;
1250 Q->cur_cnt = 0;
1251 Q->max_cnt = 0;
1252 Q->p_first = nullptr;
1253 Q->p_last = nullptr;
1254
1255 GKI_os_free(p_cb->pool_start[pool_id]);
1256
1257 p_cb->pool_start[pool_id] = nullptr;
1258 p_cb->pool_end[pool_id] = nullptr;
1259 p_cb->pool_size[pool_id] = 0;
1260
1261 gki_remove_from_pool_list(pool_id);
1262 p_cb->curr_total_no_of_pools--;
1263 } else
1264 GKI_exception(GKI_ERROR_DELETE_POOL_BAD_QID, "Deleting bad pool");
1265
1266 GKI_enable();
1267
1268 return;
1269 }
1270
1271 #endif /* BTU_STACK_LITE_ENABLED == FALSE */
1272
1273 /*******************************************************************************
1274 **
1275 ** Function GKI_get_pool_bufsize
1276 **
1277 ** Description Called by an application to get the size of buffers in a
1278 ** pool
1279 **
1280 ** Parameters Pool ID.
1281 **
1282 ** Returns the size of buffers in the pool
1283 **
1284 *******************************************************************************/
GKI_get_pool_bufsize(uint8_t pool_id)1285 uint16_t GKI_get_pool_bufsize(uint8_t pool_id) {
1286 if (pool_id < GKI_NUM_TOTAL_BUF_POOLS)
1287 return (gki_cb.com.freeq[pool_id].size);
1288
1289 return (0);
1290 }
1291
1292 /*******************************************************************************
1293 **
1294 ** Function GKI_poolutilization
1295 **
1296 ** Description Called by an application to get the buffer utilization
1297 ** in the specified buffer pool.
1298 **
1299 ** Parameters pool_id - (input) pool ID to get the free count of.
1300 **
1301 ** Returns % of buffers used from 0 to 100
1302 **
1303 *******************************************************************************/
GKI_poolutilization(uint8_t pool_id)1304 uint16_t GKI_poolutilization(uint8_t pool_id) {
1305 FREE_QUEUE_T* Q;
1306
1307 if (pool_id >= GKI_NUM_TOTAL_BUF_POOLS) return (100);
1308
1309 Q = &gki_cb.com.freeq[pool_id];
1310
1311 if (Q->total == 0) return (100);
1312
1313 return ((Q->cur_cnt * 100) / Q->total);
1314 }
1315