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1 /******************************************************************************
2  *
3  *  Copyright (C) 2010-2013 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 
19 
20 /******************************************************************************
21  *
22  *  This file contains functions that interface with the NFC NCI transport.
23  *  On the receive side, it routes events to the appropriate handler
24  *  (callback). On the transmit side, it manages the command transmission.
25  *
26  ******************************************************************************/
27 #include <string.h>
28 #include "gki.h"
29 #include "nfc_target.h"
30 #include "bt_types.h"
31 #include "hcidefs.h"
32 
33 #if (NFC_INCLUDED == TRUE)
34 #include "nfc_hal_api.h"
35 #include "nfc_api.h"
36 #include "nfc_int.h"
37 #include "nci_hmsgs.h"
38 #include "rw_int.h"
39 #include "ce_int.h"
40 
41 
42 #if (NFC_RW_ONLY == FALSE)
43 #include "ce_api.h"
44 #include "ce_int.h"
45 #include "llcp_int.h"
46 
47 /* NFC mandates support for at least one logical connection;
48  * Update max_conn to the NFCC capability on InitRsp */
49 #define NFC_SET_MAX_CONN_DEFAULT()    {nfc_cb.max_conn = 1;}
50 
51 #else /* NFC_RW_ONLY */
52 #define ce_init()
53 #define llcp_init()
54 
55 #define NFC_SET_MAX_CONN_DEFAULT()
56 
57 #endif /* NFC_RW_ONLY */
58 /****************************************************************************
59 ** Declarations
60 ****************************************************************************/
61 #if NFC_DYNAMIC_MEMORY == FALSE
62 tNFC_CB nfc_cb;
63 #endif
64 
65 #if (NFC_RW_ONLY == FALSE)
66 #define NFC_NUM_INTERFACE_MAP   2
67 #else
68 #define NFC_NUM_INTERFACE_MAP   1
69 #endif
70 
71 static const tNCI_DISCOVER_MAPS nfc_interface_mapping[NFC_NUM_INTERFACE_MAP] =
72 {
73     /* Protocols that use Frame Interface do not need to be included in the interface mapping */
74     {
75         NCI_PROTOCOL_ISO_DEP,
76         NCI_INTERFACE_MODE_POLL_N_LISTEN,
77         NCI_INTERFACE_ISO_DEP
78     }
79 #if (NFC_RW_ONLY == FALSE)
80     ,
81     /* this can not be set here due to 2079xB0 NFCC issues */
82     {
83         NCI_PROTOCOL_NFC_DEP,
84         NCI_INTERFACE_MODE_POLL_N_LISTEN,
85         NCI_INTERFACE_NFC_DEP
86     }
87 #endif
88 };
89 
90 
91 #if (BT_TRACE_VERBOSE == TRUE)
92 /*******************************************************************************
93 **
94 ** Function         nfc_state_name
95 **
96 ** Description      This function returns the state name.
97 **
98 ** NOTE             conditionally compiled to save memory.
99 **
100 ** Returns          pointer to the name
101 **
102 *******************************************************************************/
nfc_state_name(UINT8 state)103 static char *nfc_state_name (UINT8 state)
104 {
105     switch (state)
106     {
107     case NFC_STATE_NONE:
108         return ("NONE");
109     case NFC_STATE_W4_HAL_OPEN:
110         return ("W4_HAL_OPEN");
111     case NFC_STATE_CORE_INIT:
112         return ("CORE_INIT");
113     case NFC_STATE_W4_POST_INIT_CPLT:
114         return ("W4_POST_INIT_CPLT");
115     case NFC_STATE_IDLE:
116         return ("IDLE");
117     case NFC_STATE_OPEN:
118         return ("OPEN");
119     case NFC_STATE_CLOSING:
120         return ("CLOSING");
121     case NFC_STATE_W4_HAL_CLOSE:
122         return ("W4_HAL_CLOSE");
123     case NFC_STATE_NFCC_POWER_OFF_SLEEP:
124         return ("NFCC_POWER_OFF_SLEEP");
125     default:
126         return ("???? UNKNOWN STATE");
127     }
128 }
129 
130 /*******************************************************************************
131 **
132 ** Function         nfc_hal_event_name
133 **
134 ** Description      This function returns the HAL event name.
135 **
136 ** NOTE             conditionally compiled to save memory.
137 **
138 ** Returns          pointer to the name
139 **
140 *******************************************************************************/
nfc_hal_event_name(UINT8 event)141 static char *nfc_hal_event_name (UINT8 event)
142 {
143     switch (event)
144     {
145     case HAL_NFC_OPEN_CPLT_EVT:
146         return ("HAL_NFC_OPEN_CPLT_EVT");
147 
148     case HAL_NFC_CLOSE_CPLT_EVT:
149         return ("HAL_NFC_CLOSE_CPLT_EVT");
150 
151     case HAL_NFC_POST_INIT_CPLT_EVT:
152         return ("HAL_NFC_POST_INIT_CPLT_EVT");
153 
154     case HAL_NFC_PRE_DISCOVER_CPLT_EVT:
155         return ("HAL_NFC_PRE_DISCOVER_CPLT_EVT");
156 
157     case HAL_NFC_REQUEST_CONTROL_EVT:
158         return ("HAL_NFC_REQUEST_CONTROL_EVT");
159 
160     case HAL_NFC_RELEASE_CONTROL_EVT:
161         return ("HAL_NFC_RELEASE_CONTROL_EVT");
162 
163     case HAL_NFC_ERROR_EVT:
164         return ("HAL_NFC_ERROR_EVT");
165 
166     default:
167         return ("???? UNKNOWN EVENT");
168     }
169 }
170 #endif /* BT_TRACE_VERBOSE == TRUE */
171 
172 /*******************************************************************************
173 **
174 ** Function         nfc_main_notify_enable_status
175 **
176 ** Description      Notify status of Enable/PowerOffSleep/PowerCycle
177 **
178 *******************************************************************************/
nfc_main_notify_enable_status(tNFC_STATUS nfc_status)179 static void nfc_main_notify_enable_status (tNFC_STATUS nfc_status)
180 {
181     tNFC_RESPONSE   evt_data;
182 
183     evt_data.status = nfc_status;
184 
185     if (nfc_cb.p_resp_cback)
186     {
187         /* if getting out of PowerOffSleep mode or restarting NFCC */
188         if (nfc_cb.flags & (NFC_FL_RESTARTING|NFC_FL_POWER_CYCLE_NFCC))
189         {
190             nfc_cb.flags &= ~(NFC_FL_RESTARTING|NFC_FL_POWER_CYCLE_NFCC);
191             if (nfc_status != NFC_STATUS_OK)
192             {
193                 nfc_cb.flags |= NFC_FL_POWER_OFF_SLEEP;
194             }
195             (*nfc_cb.p_resp_cback) (NFC_NFCC_RESTART_REVT, &evt_data);
196         }
197         else
198         {
199             (*nfc_cb.p_resp_cback) (NFC_ENABLE_REVT, &evt_data);
200         }
201     }
202 }
203 
204 
205 
206 /*******************************************************************************
207 **
208 ** Function         nfc_enabled
209 **
210 ** Description      NFCC enabled, proceed with stack start up.
211 **
212 ** Returns          void
213 **
214 *******************************************************************************/
nfc_enabled(tNFC_STATUS nfc_status,BT_HDR * p_init_rsp_msg)215 void nfc_enabled (tNFC_STATUS nfc_status, BT_HDR *p_init_rsp_msg)
216 {
217     tNFC_RESPONSE evt_data;
218     tNFC_CONN_CB  *p_cb = &nfc_cb.conn_cb[NFC_RF_CONN_ID];
219     UINT8   *p;
220     UINT8   num_interfaces = 0, xx;
221     int     yy = 0;
222 
223     memset (&evt_data, 0, sizeof (tNFC_RESPONSE));
224 
225     if (nfc_status == NCI_STATUS_OK)
226     {
227         nfc_set_state (NFC_STATE_IDLE);
228 
229         p = (UINT8 *) (p_init_rsp_msg + 1) + p_init_rsp_msg->offset + NCI_MSG_HDR_SIZE + 1;
230         /* we currently only support NCI of the same version.
231         * We may need to change this, when we support multiple version of NFCC */
232         evt_data.enable.nci_version = NCI_VERSION;
233         STREAM_TO_UINT32 (evt_data.enable.nci_features, p);
234         STREAM_TO_UINT8 (num_interfaces, p);
235 
236         evt_data.enable.nci_interfaces = 0;
237         for (xx = 0; xx < num_interfaces; xx++)
238         {
239             if ((*p) <= NCI_INTERFACE_MAX)
240                 evt_data.enable.nci_interfaces |= (1 << (*p));
241             else if (((*p) > NCI_INTERFACE_FIRST_VS) && (yy < NFC_NFCC_MAX_NUM_VS_INTERFACE))
242             {
243                 /* save the VS RF interface in control block, if there's still room */
244                 nfc_cb.vs_interface[yy++] = *p;
245             }
246             p++;
247         }
248         nfc_cb.nci_interfaces    = evt_data.enable.nci_interfaces;
249         memcpy (evt_data.enable.vs_interface, nfc_cb.vs_interface, NFC_NFCC_MAX_NUM_VS_INTERFACE);
250         evt_data.enable.max_conn = *p++;
251         STREAM_TO_UINT16 (evt_data.enable.max_ce_table, p);
252 #if (NFC_RW_ONLY == FALSE)
253         nfc_cb.max_ce_table          = evt_data.enable.max_ce_table;
254         nfc_cb.nci_features          = evt_data.enable.nci_features;
255         nfc_cb.max_conn              = evt_data.enable.max_conn;
256 #endif
257         nfc_cb.nci_ctrl_size         = *p++; /* Max Control Packet Payload Length */
258         p_cb->init_credits           = p_cb->num_buff = 0;
259         STREAM_TO_UINT16 (evt_data.enable.max_param_size, p);
260         nfc_set_conn_id (p_cb, NFC_RF_CONN_ID);
261         evt_data.enable.manufacture_id   = *p++;
262         STREAM_TO_ARRAY (evt_data.enable.nfcc_info, p, NFC_NFCC_INFO_LEN);
263         NFC_DiscoveryMap (nfc_cb.num_disc_maps, (tNCI_DISCOVER_MAPS *) nfc_cb.p_disc_maps, NULL);
264     }
265     /* else not successful. the buffers will be freed in nfc_free_conn_cb () */
266     else
267     {
268         if (nfc_cb.flags & NFC_FL_RESTARTING)
269         {
270             nfc_set_state (NFC_STATE_NFCC_POWER_OFF_SLEEP);
271         }
272         else
273         {
274             nfc_free_conn_cb (p_cb);
275 
276             /* if NFCC didn't respond to CORE_RESET or CORE_INIT */
277             if (nfc_cb.nfc_state == NFC_STATE_CORE_INIT)
278             {
279                 /* report status after closing HAL */
280                 nfc_cb.p_hal->close ();
281                 return;
282             }
283             else
284                 nfc_set_state (NFC_STATE_NONE);
285         }
286     }
287 
288     nfc_main_notify_enable_status (nfc_status);
289 }
290 
291 /*******************************************************************************
292 **
293 ** Function         nfc_set_state
294 **
295 ** Description      Set the state of NFC stack
296 **
297 ** Returns          void
298 **
299 *******************************************************************************/
nfc_set_state(tNFC_STATE nfc_state)300 void nfc_set_state (tNFC_STATE nfc_state)
301 {
302 #if (BT_TRACE_VERBOSE == TRUE)
303     NFC_TRACE_DEBUG4 ("nfc_set_state %d (%s)->%d (%s)", nfc_cb.nfc_state, nfc_state_name (nfc_cb.nfc_state), nfc_state, nfc_state_name (nfc_state));
304 #else
305     NFC_TRACE_DEBUG2 ("nfc_set_state %d->%d", nfc_cb.nfc_state, nfc_state);
306 #endif
307     nfc_cb.nfc_state = nfc_state;
308 }
309 
310 /*******************************************************************************
311 **
312 ** Function         nfc_gen_cleanup
313 **
314 ** Description      Clean up for both going into low power mode and disabling NFC
315 **
316 *******************************************************************************/
nfc_gen_cleanup(void)317 void nfc_gen_cleanup (void)
318 {
319     nfc_cb.flags  &= ~NFC_FL_DEACTIVATING;
320 
321     /* the HAL pre-discover is still active - clear the pending flag/free the buffer */
322     if (nfc_cb.flags & NFC_FL_DISCOVER_PENDING)
323     {
324         nfc_cb.flags &= ~NFC_FL_DISCOVER_PENDING;
325         GKI_freebuf (nfc_cb.p_disc_pending);
326         nfc_cb.p_disc_pending = NULL;
327     }
328 
329     nfc_cb.flags &= ~(NFC_FL_CONTROL_REQUESTED | NFC_FL_CONTROL_GRANTED | NFC_FL_HAL_REQUESTED);
330 
331     nfc_stop_timer (&nfc_cb.deactivate_timer);
332 
333     /* Reset the connection control blocks */
334     nfc_reset_all_conn_cbs ();
335 
336     if (nfc_cb.p_nci_init_rsp)
337     {
338         GKI_freebuf (nfc_cb.p_nci_init_rsp);
339         nfc_cb.p_nci_init_rsp = NULL;
340     }
341 
342     /* clear any pending CMD/RSP */
343     nfc_main_flush_cmd_queue ();
344 }
345 
346 /*******************************************************************************
347 **
348 ** Function         nfc_main_handle_hal_evt
349 **
350 ** Description      Handle BT_EVT_TO_NFC_MSGS
351 **
352 *******************************************************************************/
nfc_main_handle_hal_evt(tNFC_HAL_EVT_MSG * p_msg)353 void nfc_main_handle_hal_evt (tNFC_HAL_EVT_MSG *p_msg)
354 {
355     UINT8  *ps;
356 
357     NFC_TRACE_DEBUG1 ("nfc_main_handle_hal_evt(): HAL event=0x%x", p_msg->hal_evt);
358 
359     switch (p_msg->hal_evt)
360     {
361     case HAL_NFC_OPEN_CPLT_EVT: /* only for failure case */
362         nfc_enabled (NFC_STATUS_FAILED, NULL);
363         break;
364 
365     case HAL_NFC_CLOSE_CPLT_EVT:
366         if (nfc_cb.p_resp_cback)
367         {
368             if (nfc_cb.nfc_state == NFC_STATE_W4_HAL_CLOSE)
369             {
370                 if (nfc_cb.flags & NFC_FL_POWER_OFF_SLEEP)
371                 {
372                     nfc_cb.flags &= ~NFC_FL_POWER_OFF_SLEEP;
373                     nfc_set_state (NFC_STATE_NFCC_POWER_OFF_SLEEP);
374                     (*nfc_cb.p_resp_cback) (NFC_NFCC_POWER_OFF_REVT, NULL);
375                 }
376                 else
377                 {
378                     nfc_set_state (NFC_STATE_NONE);
379                     (*nfc_cb.p_resp_cback) (NFC_DISABLE_REVT, NULL);
380                     nfc_cb.p_resp_cback = NULL;
381                 }
382             }
383             else
384             {
385                 /* found error during initialization */
386                 nfc_set_state (NFC_STATE_NONE);
387                 nfc_main_notify_enable_status (NFC_STATUS_FAILED);
388             }
389         }
390         break;
391 
392     case HAL_NFC_POST_INIT_CPLT_EVT:
393         if (nfc_cb.p_nci_init_rsp)
394         {
395             /*
396             ** if NFC_Disable() is called before receiving HAL_NFC_POST_INIT_CPLT_EVT,
397             ** then wait for HAL_NFC_CLOSE_CPLT_EVT.
398             */
399             if (nfc_cb.nfc_state == NFC_STATE_W4_POST_INIT_CPLT)
400             {
401                 if (p_msg->status == HAL_NFC_STATUS_OK)
402                 {
403                     nfc_enabled (NCI_STATUS_OK, nfc_cb.p_nci_init_rsp);
404                 }
405                 else /* if post initailization failed */
406                 {
407                     nfc_enabled (NCI_STATUS_FAILED, NULL);
408                 }
409             }
410 
411             GKI_freebuf (nfc_cb.p_nci_init_rsp);
412             nfc_cb.p_nci_init_rsp = NULL;
413         }
414         break;
415 
416     case HAL_NFC_PRE_DISCOVER_CPLT_EVT:
417         /* restore the command window, no matter if the discover command is still pending */
418         nfc_cb.nci_cmd_window = NCI_MAX_CMD_WINDOW;
419         nfc_cb.flags         &= ~NFC_FL_CONTROL_GRANTED;
420         if (nfc_cb.flags & NFC_FL_DISCOVER_PENDING)
421         {
422             /* issue the discovery command now, if it is still pending */
423             nfc_cb.flags &= ~NFC_FL_DISCOVER_PENDING;
424             ps            = (UINT8 *)nfc_cb.p_disc_pending;
425             nci_snd_discover_cmd (*ps, (tNFC_DISCOVER_PARAMS *)(ps + 1));
426             GKI_freebuf (nfc_cb.p_disc_pending);
427             nfc_cb.p_disc_pending = NULL;
428         }
429         else
430         {
431             /* check if there's other pending commands */
432             nfc_ncif_check_cmd_queue (NULL);
433         }
434 
435         if (p_msg->status == HAL_NFC_STATUS_ERR_CMD_TIMEOUT)
436             nfc_ncif_event_status (NFC_NFCC_TIMEOUT_REVT, NFC_STATUS_HW_TIMEOUT);
437         break;
438 
439     case HAL_NFC_REQUEST_CONTROL_EVT:
440         nfc_cb.flags    |= NFC_FL_CONTROL_REQUESTED;
441         nfc_cb.flags    |= NFC_FL_HAL_REQUESTED;
442         nfc_ncif_check_cmd_queue (NULL);
443         break;
444 
445     case HAL_NFC_RELEASE_CONTROL_EVT:
446         if (nfc_cb.flags & NFC_FL_CONTROL_GRANTED)
447         {
448             nfc_cb.flags &= ~NFC_FL_CONTROL_GRANTED;
449             nfc_cb.nci_cmd_window = NCI_MAX_CMD_WINDOW;
450             nfc_ncif_check_cmd_queue (NULL);
451 
452             if (p_msg->status == HAL_NFC_STATUS_ERR_CMD_TIMEOUT)
453                 nfc_ncif_event_status (NFC_NFCC_TIMEOUT_REVT, NFC_STATUS_HW_TIMEOUT);
454         }
455         break;
456 
457     case HAL_NFC_ERROR_EVT:
458         switch (p_msg->status)
459         {
460         case HAL_NFC_STATUS_ERR_TRANSPORT:
461             /* Notify app of transport error */
462             if (nfc_cb.p_resp_cback)
463             {
464                 (*nfc_cb.p_resp_cback) (NFC_NFCC_TRANSPORT_ERR_REVT, NULL);
465 
466                 /* if enabling NFC, notify upper layer of failure after closing HAL */
467                 if (nfc_cb.nfc_state < NFC_STATE_IDLE)
468                 {
469                     nfc_enabled (NFC_STATUS_FAILED, NULL);
470                 }
471             }
472             break;
473 
474         case HAL_NFC_STATUS_ERR_CMD_TIMEOUT:
475             nfc_ncif_event_status (NFC_NFCC_TIMEOUT_REVT, NFC_STATUS_HW_TIMEOUT);
476 
477             /* if enabling NFC, notify upper layer of failure after closing HAL */
478             if (nfc_cb.nfc_state < NFC_STATE_IDLE)
479             {
480                 nfc_enabled (NFC_STATUS_FAILED, NULL);
481                 return;
482             }
483             break;
484 
485         default:
486             break;
487         }
488         break;
489 
490     default:
491         NFC_TRACE_ERROR1 ("nfc_main_handle_hal_evt (): unhandled event (0x%x).", p_msg->hal_evt);
492         break;
493     }
494 }
495 
496 
497 /*******************************************************************************
498 **
499 ** Function         nfc_main_flush_cmd_queue
500 **
501 ** Description      This function is called when setting power off sleep state.
502 **
503 ** Returns          void
504 **
505 *******************************************************************************/
nfc_main_flush_cmd_queue(void)506 void nfc_main_flush_cmd_queue (void)
507 {
508     BT_HDR *p_msg;
509 
510     NFC_TRACE_DEBUG0 ("nfc_main_flush_cmd_queue ()");
511 
512     /* initialize command window */
513     nfc_cb.nci_cmd_window = NCI_MAX_CMD_WINDOW;
514 
515     /* Stop command-pending timer */
516     nfc_stop_timer(&nfc_cb.nci_wait_rsp_timer);
517 
518     /* dequeue and free buffer */
519     while ((p_msg = (BT_HDR *)GKI_dequeue (&nfc_cb.nci_cmd_xmit_q)) != NULL)
520     {
521         GKI_freebuf (p_msg);
522     }
523 }
524 
525 /*******************************************************************************
526 **
527 ** Function         nfc_main_post_hal_evt
528 **
529 ** Description      This function posts HAL event to NFC_TASK
530 **
531 ** Returns          void
532 **
533 *******************************************************************************/
nfc_main_post_hal_evt(UINT8 hal_evt,tHAL_NFC_STATUS status)534 void nfc_main_post_hal_evt (UINT8 hal_evt, tHAL_NFC_STATUS status)
535 {
536     tNFC_HAL_EVT_MSG *p_msg;
537 
538     if ((p_msg = (tNFC_HAL_EVT_MSG *) GKI_getbuf (sizeof(tNFC_HAL_EVT_MSG))) != NULL)
539     {
540         /* Initialize BT_HDR */
541         p_msg->hdr.len    = 0;
542         p_msg->hdr.event  = BT_EVT_TO_NFC_MSGS;
543         p_msg->hdr.offset = 0;
544         p_msg->hdr.layer_specific = 0;
545         p_msg->hal_evt = hal_evt;
546         p_msg->status  = status;
547         GKI_send_msg (NFC_TASK, NFC_MBOX_ID, p_msg);
548     }
549     else
550     {
551         NFC_TRACE_ERROR0 ("nfc_main_post_hal_evt (): No buffer");
552     }
553 }
554 
555 
556 /*******************************************************************************
557 **
558 ** Function         nfc_main_hal_cback
559 **
560 ** Description      HAL event handler
561 **
562 ** Returns          void
563 **
564 *******************************************************************************/
nfc_main_hal_cback(UINT8 event,tHAL_NFC_STATUS status)565 static void nfc_main_hal_cback(UINT8 event, tHAL_NFC_STATUS status)
566 {
567 #if (BT_TRACE_VERBOSE == TRUE)
568     NFC_TRACE_DEBUG3 ("nfc_main_hal_cback event: %s(0x%x), status=%d",
569                        nfc_hal_event_name (event), event, status);
570 #else
571     NFC_TRACE_DEBUG2 ("nfc_main_hal_cback event: 0x%x, status=%d", event, status);
572 #endif
573 
574     switch (event)
575     {
576     case HAL_NFC_OPEN_CPLT_EVT:
577         /*
578         ** if NFC_Disable() is called before receiving HAL_NFC_OPEN_CPLT_EVT,
579         ** then wait for HAL_NFC_CLOSE_CPLT_EVT.
580         */
581         if (nfc_cb.nfc_state == NFC_STATE_W4_HAL_OPEN)
582         {
583             if (status == HAL_NFC_STATUS_OK)
584             {
585                 /* Notify NFC_TASK that NCI tranport is initialized */
586                 GKI_send_event (NFC_TASK, NFC_TASK_EVT_TRANSPORT_READY);
587             }
588             else
589             {
590                 nfc_main_post_hal_evt (event, status);
591             }
592         }
593         break;
594 
595     case HAL_NFC_CLOSE_CPLT_EVT:
596     case HAL_NFC_POST_INIT_CPLT_EVT:
597     case HAL_NFC_PRE_DISCOVER_CPLT_EVT:
598     case HAL_NFC_REQUEST_CONTROL_EVT:
599     case HAL_NFC_RELEASE_CONTROL_EVT:
600     case HAL_NFC_ERROR_EVT:
601         nfc_main_post_hal_evt (event, status);
602         break;
603 
604     default:
605         NFC_TRACE_DEBUG1 ("nfc_main_hal_cback unhandled event %x", event);
606         break;
607     }
608 }
609 
610 /*******************************************************************************
611 **
612 ** Function         nfc_main_hal_data_cback
613 **
614 ** Description      HAL data event handler
615 **
616 ** Returns          void
617 **
618 *******************************************************************************/
nfc_main_hal_data_cback(UINT16 data_len,UINT8 * p_data)619 static void nfc_main_hal_data_cback(UINT16 data_len, UINT8   *p_data)
620 {
621     BT_HDR *p_msg;
622 
623     /* ignore all data while shutting down NFCC */
624     if (nfc_cb.nfc_state == NFC_STATE_W4_HAL_CLOSE)
625     {
626         return;
627     }
628 
629     if (p_data)
630     {
631         if ((p_msg = (BT_HDR *) GKI_getpoolbuf (NFC_NCI_POOL_ID)) != NULL)
632         {
633             /* Initialize BT_HDR */
634             p_msg->len    = data_len;
635             p_msg->event  = BT_EVT_TO_NFC_NCI;
636             p_msg->offset = NFC_RECEIVE_MSGS_OFFSET;
637 
638             /* no need to check length, it always less than pool size */
639             memcpy ((UINT8 *)(p_msg + 1) + p_msg->offset, p_data, p_msg->len);
640 
641             GKI_send_msg (NFC_TASK, NFC_MBOX_ID, p_msg);
642         }
643         else
644         {
645             NFC_TRACE_ERROR0 ("nfc_main_hal_data_cback (): No buffer");
646         }
647     }
648 }
649 
650 /*******************************************************************************
651 **
652 ** Function         NFC_Enable
653 **
654 ** Description      This function enables NFC. Prior to calling NFC_Enable:
655 **                  - the NFCC must be powered up, and ready to receive commands.
656 **                  - GKI must be enabled
657 **                  - NFC_TASK must be started
658 **                  - NCIT_TASK must be started (if using dedicated NCI transport)
659 **
660 **                  This function opens the NCI transport (if applicable),
661 **                  resets the NFC controller, and initializes the NFC subsystems.
662 **
663 **                  When the NFC startup procedure is completed, an
664 **                  NFC_ENABLE_REVT is returned to the application using the
665 **                  tNFC_RESPONSE_CBACK.
666 **
667 ** Returns          tNFC_STATUS
668 **
669 *******************************************************************************/
NFC_Enable(tNFC_RESPONSE_CBACK * p_cback)670 tNFC_STATUS NFC_Enable (tNFC_RESPONSE_CBACK *p_cback)
671 {
672     NFC_TRACE_API0 ("NFC_Enable ()");
673 
674     /* Validate callback */
675     if (!p_cback)
676     {
677         return (NFC_STATUS_INVALID_PARAM);
678     }
679     nfc_cb.p_resp_cback = p_cback;
680 
681     /* Open HAL transport. */
682     nfc_set_state (NFC_STATE_W4_HAL_OPEN);
683     nfc_cb.p_hal->open (nfc_main_hal_cback, nfc_main_hal_data_cback);
684 
685     return (NFC_STATUS_OK);
686 }
687 
688 /*******************************************************************************
689 **
690 ** Function         NFC_Disable
691 **
692 ** Description      This function performs clean up routines for shutting down
693 **                  NFC and closes the NCI transport (if using dedicated NCI
694 **                  transport).
695 **
696 **                  When the NFC shutdown procedure is completed, an
697 **                  NFC_DISABLED_REVT is returned to the application using the
698 **                  tNFC_RESPONSE_CBACK.
699 **
700 ** Returns          nothing
701 **
702 *******************************************************************************/
NFC_Disable(void)703 void NFC_Disable (void)
704 {
705     NFC_TRACE_API1 ("NFC_Disable (): nfc_state = %d", nfc_cb.nfc_state);
706 
707     if ((nfc_cb.nfc_state == NFC_STATE_NONE) || (nfc_cb.nfc_state == NFC_STATE_NFCC_POWER_OFF_SLEEP))
708     {
709         nfc_set_state (NFC_STATE_NONE);
710         if (nfc_cb.p_resp_cback)
711         {
712             (*nfc_cb.p_resp_cback) (NFC_DISABLE_REVT, NULL);
713             nfc_cb.p_resp_cback = NULL;
714         }
715         return;
716     }
717 
718     /* Close transport and clean up */
719     nfc_task_shutdown_nfcc ();
720 }
721 
722 /*******************************************************************************
723 **
724 ** Function         NFC_Init
725 **
726 ** Description      This function initializes control block for NFC
727 **
728 ** Returns          nothing
729 **
730 *******************************************************************************/
NFC_Init(tHAL_NFC_ENTRY * p_hal_entry_tbl)731 void NFC_Init (tHAL_NFC_ENTRY *p_hal_entry_tbl)
732 {
733     int xx;
734 
735     /* Clear nfc control block */
736     memset (&nfc_cb, 0, sizeof (tNFC_CB));
737 
738     /* Reset the nfc control block */
739     for (xx = 0; xx < NCI_MAX_CONN_CBS; xx++)
740     {
741         nfc_cb.conn_cb[xx].conn_id = NFC_ILLEGAL_CONN_ID;
742     }
743 
744     /* NCI init */
745     nfc_cb.p_hal            = p_hal_entry_tbl;
746     nfc_cb.nfc_state        = NFC_STATE_NONE;
747     nfc_cb.nci_cmd_window   = NCI_MAX_CMD_WINDOW;
748     nfc_cb.nci_wait_rsp_tout= NFC_CMD_CMPL_TIMEOUT;
749     nfc_cb.p_disc_maps      = nfc_interface_mapping;
750     nfc_cb.num_disc_maps    = NFC_NUM_INTERFACE_MAP;
751     nfc_cb.trace_level      = NFC_INITIAL_TRACE_LEVEL;
752     nfc_cb.nci_ctrl_size    = NCI_CTRL_INIT_SIZE;
753 
754     rw_init ();
755     ce_init ();
756     llcp_init ();
757     NFC_SET_MAX_CONN_DEFAULT ();
758 }
759 
760 /*******************************************************************************
761 **
762 ** Function         NFC_GetLmrtSize
763 **
764 ** Description      Called by application wto query the Listen Mode Routing
765 **                  Table size supported by NFCC
766 **
767 ** Returns          Listen Mode Routing Table size
768 **
769 *******************************************************************************/
NFC_GetLmrtSize(void)770 UINT16 NFC_GetLmrtSize (void)
771 {
772     UINT16 size = 0;
773 #if (NFC_RW_ONLY == FALSE)
774     size = nfc_cb.max_ce_table;
775 #endif
776     return size;
777 }
778 
779 
780 /*******************************************************************************
781 **
782 ** Function         NFC_SetConfig
783 **
784 ** Description      This function is called to send the configuration parameter
785 **                  TLV to NFCC. The response from NFCC is reported by
786 **                  tNFC_RESPONSE_CBACK as NFC_SET_CONFIG_REVT.
787 **
788 ** Parameters       tlv_size - the length of p_param_tlvs.
789 **                  p_param_tlvs - the parameter ID/Len/Value list
790 **
791 ** Returns          tNFC_STATUS
792 **
793 *******************************************************************************/
NFC_SetConfig(UINT8 tlv_size,UINT8 * p_param_tlvs)794 tNFC_STATUS NFC_SetConfig (UINT8     tlv_size,
795                            UINT8    *p_param_tlvs)
796 {
797     return nci_snd_core_set_config (p_param_tlvs, tlv_size);
798 }
799 
800 /*******************************************************************************
801 **
802 ** Function         NFC_GetConfig
803 **
804 ** Description      This function is called to retrieve the parameter TLV from NFCC.
805 **                  The response from NFCC is reported by tNFC_RESPONSE_CBACK
806 **                  as NFC_GET_CONFIG_REVT.
807 **
808 ** Parameters       num_ids - the number of parameter IDs
809 **                  p_param_ids - the parameter ID list.
810 **
811 ** Returns          tNFC_STATUS
812 **
813 *******************************************************************************/
NFC_GetConfig(UINT8 num_ids,UINT8 * p_param_ids)814 tNFC_STATUS NFC_GetConfig (UINT8     num_ids,
815                            UINT8    *p_param_ids)
816 {
817     return nci_snd_core_get_config (p_param_ids, num_ids);
818 }
819 
820 /*******************************************************************************
821 **
822 ** Function         NFC_DiscoveryMap
823 **
824 ** Description      This function is called to set the discovery interface mapping.
825 **                  The response from NFCC is reported by tNFC_DISCOVER_CBACK as.
826 **                  NFC_MAP_DEVT.
827 **
828 ** Parameters       num - the number of items in p_params.
829 **                  p_maps - the discovery interface mappings
830 **                  p_cback - the discovery callback function
831 **
832 ** Returns          tNFC_STATUS
833 **
834 *******************************************************************************/
NFC_DiscoveryMap(UINT8 num,tNFC_DISCOVER_MAPS * p_maps,tNFC_DISCOVER_CBACK * p_cback)835 tNFC_STATUS NFC_DiscoveryMap (UINT8 num, tNFC_DISCOVER_MAPS *p_maps,
836                                         tNFC_DISCOVER_CBACK *p_cback)
837 {
838     UINT8   num_disc_maps = num;
839     UINT8   xx, yy, num_intf, intf_mask;
840     tNFC_DISCOVER_MAPS  max_maps[NFC_NFCC_MAX_NUM_VS_INTERFACE + NCI_INTERFACE_MAX];
841     BOOLEAN is_supported;
842 
843     nfc_cb.p_discv_cback = p_cback;
844     num_intf             = 0;
845     NFC_TRACE_DEBUG1 ("nci_interfaces supported by NFCC: 0x%x", nfc_cb.nci_interfaces);
846     for (xx = 0; xx < num_disc_maps; xx++)
847     {
848         is_supported = FALSE;
849         if (p_maps[xx].intf_type > NCI_INTERFACE_MAX)
850         {
851             for (yy = 0; yy < NFC_NFCC_MAX_NUM_VS_INTERFACE; yy++)
852             {
853                 if (nfc_cb.vs_interface[yy] == p_maps[xx].intf_type)
854                     is_supported    = TRUE;
855             }
856             NFC_TRACE_DEBUG3 ("[%d]: vs intf_type:0x%x is_supported:%d", xx, p_maps[xx].intf_type, is_supported);
857         }
858         else
859         {
860             intf_mask = (1 << (p_maps[xx].intf_type));
861             if (intf_mask & nfc_cb.nci_interfaces)
862             {
863                 is_supported    = TRUE;
864             }
865             NFC_TRACE_DEBUG4 ("[%d]: intf_type:%d intf_mask: 0x%x is_supported:%d", xx, p_maps[xx].intf_type, intf_mask, is_supported);
866         }
867         if (is_supported)
868             memcpy (&max_maps[num_intf++], &p_maps[xx], sizeof (tNFC_DISCOVER_MAPS));
869         else
870         {
871             NFC_TRACE_WARNING1 ("NFC_DiscoveryMap interface=0x%x is not supported by NFCC", p_maps[xx].intf_type);
872         }
873     }
874 
875     return nci_snd_discover_map_cmd (num_intf, (tNCI_DISCOVER_MAPS *) max_maps);
876 }
877 
878 /*******************************************************************************
879 **
880 ** Function         NFC_DiscoveryStart
881 **
882 ** Description      This function is called to start Polling and/or Listening.
883 **                  The response from NFCC is reported by tNFC_DISCOVER_CBACK as.
884 **                  NFC_START_DEVT. The notification from NFCC is reported by
885 **                  tNFC_DISCOVER_CBACK as NFC_RESULT_DEVT.
886 **
887 ** Parameters       num_params - the number of items in p_params.
888 **                  p_params - the discovery parameters
889 **                  p_cback - the discovery callback function
890 **
891 ** Returns          tNFC_STATUS
892 **
893 *******************************************************************************/
NFC_DiscoveryStart(UINT8 num_params,tNFC_DISCOVER_PARAMS * p_params,tNFC_DISCOVER_CBACK * p_cback)894 tNFC_STATUS NFC_DiscoveryStart (UINT8                 num_params,
895                                 tNFC_DISCOVER_PARAMS *p_params,
896                                 tNFC_DISCOVER_CBACK  *p_cback)
897 {
898     UINT8   *p;
899     int     params_size;
900     tNFC_STATUS status = NFC_STATUS_NO_BUFFERS;
901 
902     NFC_TRACE_API0 ("NFC_DiscoveryStart");
903     if (nfc_cb.p_disc_pending)
904     {
905         NFC_TRACE_ERROR0 ("There's pending NFC_DiscoveryStart");
906         status = NFC_STATUS_BUSY;
907     }
908     else
909     {
910         nfc_cb.p_discv_cback = p_cback;
911         nfc_cb.flags        |= NFC_FL_DISCOVER_PENDING;
912         nfc_cb.flags        |= NFC_FL_CONTROL_REQUESTED;
913         params_size          = sizeof (tNFC_DISCOVER_PARAMS) * num_params;
914         nfc_cb.p_disc_pending = GKI_getbuf ((UINT16)(BT_HDR_SIZE + 1 + params_size));
915         if (nfc_cb.p_disc_pending)
916         {
917             p       = (UINT8 *)nfc_cb.p_disc_pending;
918             *p++    = num_params;
919             memcpy (p, p_params, params_size);
920             status = NFC_STATUS_CMD_STARTED;
921             nfc_ncif_check_cmd_queue (NULL);
922         }
923     }
924 
925     NFC_TRACE_API1 ("NFC_DiscoveryStart status: 0x%x", status);
926     return status;
927 }
928 
929 /*******************************************************************************
930 **
931 ** Function         NFC_DiscoverySelect
932 **
933 ** Description      If tNFC_DISCOVER_CBACK reports status=NFC_MULTIPLE_PROT,
934 **                  the application needs to use this function to select the
935 **                  the logical endpoint to continue. The response from NFCC is
936 **                  reported by tNFC_DISCOVER_CBACK as NFC_SELECT_DEVT.
937 **
938 ** Parameters       rf_disc_id - The ID identifies the remote device.
939 **                  protocol - the logical endpoint on the remote devide
940 **                  rf_interface - the RF interface to communicate with NFCC
941 **
942 ** Returns          tNFC_STATUS
943 **
944 *******************************************************************************/
NFC_DiscoverySelect(UINT8 rf_disc_id,UINT8 protocol,UINT8 rf_interface)945 tNFC_STATUS NFC_DiscoverySelect (UINT8    rf_disc_id,
946                                  UINT8    protocol,
947                                  UINT8    rf_interface)
948 {
949     return nci_snd_discover_select_cmd (rf_disc_id, protocol, rf_interface);
950 }
951 
952 /*******************************************************************************
953 **
954 ** Function         NFC_ConnCreate
955 **
956 ** Description      This function is called to create a logical connection with
957 **                  NFCC for data exchange.
958 **
959 ** Parameters       dest_type - the destination type
960 **                  id   - the NFCEE ID or RF Discovery ID .
961 **                  protocol   - the protocol.
962 **                  p_cback - the connection callback function
963 **
964 ** Returns          tNFC_STATUS
965 **
966 *******************************************************************************/
NFC_ConnCreate(UINT8 dest_type,UINT8 id,UINT8 protocol,tNFC_CONN_CBACK * p_cback)967 tNFC_STATUS NFC_ConnCreate (UINT8            dest_type,
968                             UINT8            id,
969                             UINT8            protocol,
970                             tNFC_CONN_CBACK *p_cback)
971 {
972     tNFC_STATUS     status = NFC_STATUS_FAILED;
973     tNFC_CONN_CB    *p_cb;
974     UINT8           num_tlv=0, tlv_size=0;
975     UINT8           param_tlvs[4], *pp;
976 
977     p_cb = nfc_alloc_conn_cb (p_cback);
978     if (p_cb)
979     {
980         p_cb->id = id;
981         pp = param_tlvs;
982         if (dest_type == NCI_DEST_TYPE_NFCEE)
983         {
984             num_tlv = 1;
985             UINT8_TO_STREAM (pp, NCI_CON_CREATE_TAG_NFCEE_VAL);
986             UINT8_TO_STREAM (pp, 2);
987             UINT8_TO_STREAM (pp, id);
988             UINT8_TO_STREAM (pp, protocol);
989             tlv_size = 4;
990         }
991         else if (dest_type == NCI_DEST_TYPE_REMOTE)
992         {
993             num_tlv = 1;
994             UINT8_TO_STREAM (pp, NCI_CON_CREATE_TAG_RF_DISC_ID);
995             UINT8_TO_STREAM (pp, 1);
996             UINT8_TO_STREAM (pp, id);
997             tlv_size = 3;
998         }
999         else if (dest_type == NCI_DEST_TYPE_NFCC)
1000         {
1001             p_cb->id = NFC_TEST_ID;
1002         }
1003         /* Add handling of NCI_DEST_TYPE_REMOTE when more RF interface definitions are added */
1004         p_cb->act_protocol = protocol;
1005         p_cb->p_cback = p_cback;
1006         status = nci_snd_core_conn_create (dest_type, num_tlv, tlv_size, param_tlvs);
1007         if (status == NFC_STATUS_FAILED)
1008             nfc_free_conn_cb (p_cb);
1009     }
1010     return status;
1011 }
1012 
1013 /*******************************************************************************
1014 **
1015 ** Function         NFC_ConnClose
1016 **
1017 ** Description      This function is called to close a logical connection with
1018 **                  NFCC.
1019 **
1020 ** Parameters       conn_id - the connection id.
1021 **
1022 ** Returns          tNFC_STATUS
1023 **
1024 *******************************************************************************/
NFC_ConnClose(UINT8 conn_id)1025 tNFC_STATUS NFC_ConnClose (UINT8 conn_id)
1026 {
1027     tNFC_CONN_CB *p_cb = nfc_find_conn_cb_by_conn_id (conn_id);
1028     tNFC_STATUS     status = NFC_STATUS_FAILED;
1029 
1030     if (p_cb)
1031     {
1032         status = nci_snd_core_conn_close (conn_id);
1033     }
1034     return status;
1035 }
1036 
1037 /*******************************************************************************
1038 **
1039 ** Function         NFC_SetStaticRfCback
1040 **
1041 ** Description      This function is called to update the data callback function
1042 **                  to receive the data for the given connection id.
1043 **
1044 ** Parameters       p_cback - the connection callback function
1045 **
1046 ** Returns          Nothing
1047 **
1048 *******************************************************************************/
NFC_SetStaticRfCback(tNFC_CONN_CBACK * p_cback)1049 void NFC_SetStaticRfCback (tNFC_CONN_CBACK    *p_cback)
1050 {
1051     tNFC_CONN_CB * p_cb = &nfc_cb.conn_cb[NFC_RF_CONN_ID];
1052 
1053     p_cb->p_cback = p_cback;
1054     /* just in case DH has received NCI data before the data callback is set
1055      * check if there's any data event to report on this connection id */
1056     nfc_data_event (p_cb);
1057 }
1058 
1059 /*******************************************************************************
1060 **
1061 ** Function         NFC_SendData
1062 **
1063 ** Description      This function is called to send the given data packet
1064 **                  to the connection identified by the given connection id.
1065 **
1066 ** Parameters       conn_id - the connection id.
1067 **                  p_data - the data packet.
1068 **                  p_data->offset must be >= NCI_MSG_OFFSET_SIZE + NCI_DATA_HDR_SIZE
1069 **                  The data payload starts at ((UINT8 *) (p_data + 1) + p_data->offset)
1070 **
1071 ** Returns          tNFC_STATUS
1072 **
1073 *******************************************************************************/
NFC_SendData(UINT8 conn_id,BT_HDR * p_data)1074 tNFC_STATUS NFC_SendData (UINT8       conn_id,
1075                           BT_HDR     *p_data)
1076 {
1077     tNFC_STATUS     status = NFC_STATUS_FAILED;
1078     tNFC_CONN_CB *p_cb = nfc_find_conn_cb_by_conn_id (conn_id);
1079 
1080     if (p_cb && p_data && p_data->offset >= NCI_MSG_OFFSET_SIZE + NCI_DATA_HDR_SIZE)
1081     {
1082         status = nfc_ncif_send_data (p_cb, p_data);
1083     }
1084 
1085     if (status != NFC_STATUS_OK)
1086         GKI_freebuf (p_data);
1087 
1088     return status;
1089 }
1090 
1091 /*******************************************************************************
1092 **
1093 ** Function         NFC_FlushData
1094 **
1095 ** Description      This function is called to discard the tx data queue of
1096 **                  the given connection id.
1097 **
1098 ** Parameters       conn_id - the connection id.
1099 **
1100 ** Returns          tNFC_STATUS
1101 **
1102 *******************************************************************************/
NFC_FlushData(UINT8 conn_id)1103 tNFC_STATUS NFC_FlushData (UINT8       conn_id)
1104 {
1105     tNFC_STATUS     status = NFC_STATUS_FAILED;
1106     tNFC_CONN_CB    *p_cb = nfc_find_conn_cb_by_conn_id (conn_id);
1107     void            *p_buf;
1108 
1109     if (p_cb)
1110     {
1111         status  = NFC_STATUS_OK;
1112         while ((p_buf = GKI_dequeue (&p_cb->tx_q)) != NULL)
1113             GKI_freebuf (p_buf);
1114     }
1115 
1116     return status;
1117 }
1118 
1119 /*******************************************************************************
1120 **
1121 ** Function         NFC_Deactivate
1122 **
1123 ** Description      This function is called to stop the discovery process or
1124 **                  put the listen device in sleep mode or terminate the NFC link.
1125 **
1126 **                  The response from NFCC is reported by tNFC_DISCOVER_CBACK
1127 **                  as NFC_DEACTIVATE_DEVT.
1128 **
1129 ** Parameters       deactivate_type - NFC_DEACTIVATE_TYPE_IDLE, to IDLE mode.
1130 **                                    NFC_DEACTIVATE_TYPE_SLEEP to SLEEP mode.
1131 **                                    NFC_DEACTIVATE_TYPE_SLEEP_AF to SLEEP_AF mode.
1132 **
1133 ** Returns          tNFC_STATUS
1134 **
1135 *******************************************************************************/
NFC_Deactivate(tNFC_DEACT_TYPE deactivate_type)1136 tNFC_STATUS NFC_Deactivate (tNFC_DEACT_TYPE deactivate_type)
1137 {
1138     tNFC_CONN_CB * p_cb = &nfc_cb.conn_cb[NFC_RF_CONN_ID];
1139     tNFC_STATUS  status = NFC_STATUS_OK;
1140 
1141 #if (BT_TRACE_VERBOSE == TRUE)
1142     NFC_TRACE_API3 ("NFC_Deactivate %d (%s) deactivate_type:%d", nfc_cb.nfc_state, nfc_state_name (nfc_cb.nfc_state), deactivate_type);
1143 #else
1144     NFC_TRACE_API2 ("NFC_Deactivate %d deactivate_type:%d", nfc_cb.nfc_state, deactivate_type);
1145 #endif
1146 
1147     if (nfc_cb.flags & NFC_FL_DISCOVER_PENDING)
1148     {
1149         /* the HAL pre-discover is still active - clear the pending flag */
1150         nfc_cb.flags &= ~NFC_FL_DISCOVER_PENDING;
1151         if (!(nfc_cb.flags & NFC_FL_HAL_REQUESTED))
1152         {
1153             /* if HAL did not request for control, clear this bit now */
1154             nfc_cb.flags &= ~NFC_FL_CONTROL_REQUESTED;
1155         }
1156         GKI_freebuf (nfc_cb.p_disc_pending);
1157         nfc_cb.p_disc_pending = NULL;
1158         return NFC_STATUS_OK;
1159     }
1160 
1161     if (nfc_cb.nfc_state == NFC_STATE_OPEN)
1162     {
1163         nfc_set_state (NFC_STATE_CLOSING);
1164         NFC_TRACE_DEBUG3 ( "act_protocol %d credits:%d/%d", p_cb->act_protocol, p_cb->init_credits, p_cb->num_buff);
1165         if ((p_cb->act_protocol == NCI_PROTOCOL_NFC_DEP) &&
1166             (p_cb->init_credits != p_cb->num_buff))
1167         {
1168             nfc_cb.flags           |= NFC_FL_DEACTIVATING;
1169             nfc_cb.deactivate_timer.param = (TIMER_PARAM_TYPE) deactivate_type;
1170             nfc_start_timer (&nfc_cb.deactivate_timer , (UINT16) (NFC_TTYPE_WAIT_2_DEACTIVATE), NFC_DEACTIVATE_TIMEOUT);
1171             return status;
1172         }
1173     }
1174 
1175     status = nci_snd_deactivate_cmd (deactivate_type);
1176     return status;
1177 }
1178 
1179 /*******************************************************************************
1180 **
1181 ** Function         NFC_UpdateRFCommParams
1182 **
1183 ** Description      This function is called to update RF Communication parameters
1184 **                  once the Frame RF Interface has been activated.
1185 **
1186 **                  The response from NFCC is reported by tNFC_RESPONSE_CBACK
1187 **                  as NFC_RF_COMM_PARAMS_UPDATE_REVT.
1188 **
1189 ** Returns          tNFC_STATUS
1190 **
1191 *******************************************************************************/
NFC_UpdateRFCommParams(tNFC_RF_COMM_PARAMS * p_params)1192 tNFC_STATUS NFC_UpdateRFCommParams (tNFC_RF_COMM_PARAMS *p_params)
1193 {
1194     UINT8 tlvs[12];
1195     UINT8 *p = tlvs;
1196     UINT8 data_exch_config;
1197 
1198     /* RF Technology and Mode */
1199     if (p_params->include_rf_tech_mode)
1200     {
1201         UINT8_TO_STREAM (p, NCI_RF_PARAM_ID_TECH_N_MODE);
1202         UINT8_TO_STREAM (p, 1);
1203         UINT8_TO_STREAM (p, p_params->rf_tech_n_mode);
1204     }
1205 
1206     /* Transmit Bit Rate */
1207     if (p_params->include_tx_bit_rate)
1208     {
1209         UINT8_TO_STREAM (p, NCI_RF_PARAM_ID_TX_BIT_RATE);
1210         UINT8_TO_STREAM (p, 1);
1211         UINT8_TO_STREAM (p, p_params->tx_bit_rate);
1212     }
1213 
1214     /* Receive Bit Rate */
1215     if (p_params->include_tx_bit_rate)
1216     {
1217         UINT8_TO_STREAM (p, NCI_RF_PARAM_ID_RX_BIT_RATE);
1218         UINT8_TO_STREAM (p, 1);
1219         UINT8_TO_STREAM (p, p_params->rx_bit_rate);
1220     }
1221 
1222     /* NFC-B Data Exchange Configuration */
1223     if (p_params->include_nfc_b_config)
1224     {
1225         UINT8_TO_STREAM (p, NCI_RF_PARAM_ID_B_DATA_EX_PARAM);
1226         UINT8_TO_STREAM (p, 1);
1227 
1228         data_exch_config =  (p_params->min_tr0 & 0x03) << 6;          /* b7b6 : Mininum TR0 */
1229         data_exch_config |= (p_params->min_tr1 & 0x03) << 4;          /* b5b4 : Mininum TR1 */
1230         data_exch_config |= (p_params->suppression_eos & 0x01) << 3;  /* b3 :   Suppression of EoS */
1231         data_exch_config |= (p_params->suppression_sos & 0x01) << 2;  /* b2 :   Suppression of SoS */
1232         data_exch_config |= (p_params->min_tr2 & 0x03);               /* b1b0 : Mininum TR2 */
1233 
1234         UINT8_TO_STREAM (p, data_exch_config);
1235     }
1236 
1237     return nci_snd_parameter_update_cmd (tlvs, (UINT8) (p - tlvs));
1238 }
1239 
1240 /*******************************************************************************
1241 **
1242 ** Function         NFC_SetPowerOffSleep
1243 **
1244 ** Description      This function closes/opens transport and turns off/on NFCC.
1245 **
1246 ** Returns          tNFC_STATUS
1247 **
1248 *******************************************************************************/
NFC_SetPowerOffSleep(BOOLEAN enable)1249 tNFC_STATUS NFC_SetPowerOffSleep (BOOLEAN enable)
1250 {
1251     NFC_TRACE_API1 ("NFC_SetPowerOffSleep () enable = %d", enable);
1252 
1253     if (  (enable == FALSE)
1254         &&(nfc_cb.nfc_state == NFC_STATE_NFCC_POWER_OFF_SLEEP)  )
1255     {
1256         nfc_cb.flags |= NFC_FL_RESTARTING;
1257 
1258         /* open transport */
1259         nfc_set_state (NFC_STATE_W4_HAL_OPEN);
1260         nfc_cb.p_hal->open (nfc_main_hal_cback, nfc_main_hal_data_cback);
1261 
1262         return NFC_STATUS_OK;
1263     }
1264     else if (  (enable == TRUE)
1265              &&(nfc_cb.nfc_state == NFC_STATE_IDLE)  )
1266     {
1267         /* close transport to turn off NFCC and clean up */
1268         nfc_cb.flags |= NFC_FL_POWER_OFF_SLEEP;
1269         nfc_task_shutdown_nfcc ();
1270 
1271         return NFC_STATUS_OK;
1272     }
1273 
1274     NFC_TRACE_ERROR1 ("NFC_SetPowerOffSleep () invalid state = %d", nfc_cb.nfc_state);
1275     return NFC_STATUS_FAILED;
1276 }
1277 
1278 /*******************************************************************************
1279 **
1280 ** Function         NFC_PowerCycleNFCC
1281 **
1282 ** Description      This function turns off and then on NFCC.
1283 **
1284 ** Returns          tNFC_STATUS
1285 **
1286 *******************************************************************************/
NFC_PowerCycleNFCC(void)1287 tNFC_STATUS NFC_PowerCycleNFCC (void)
1288 {
1289     NFC_TRACE_API0 ("NFC_PowerCycleNFCC ()");
1290 
1291     if (nfc_cb.nfc_state == NFC_STATE_IDLE)
1292     {
1293         /* power cycle NFCC */
1294         nfc_cb.flags |= NFC_FL_POWER_CYCLE_NFCC;
1295         nfc_task_shutdown_nfcc ();
1296 
1297         return NFC_STATUS_OK;
1298     }
1299 
1300     NFC_TRACE_ERROR1 ("NFC_PowerCycleNFCC () invalid state = %d", nfc_cb.nfc_state);
1301     return NFC_STATUS_FAILED;
1302 }
1303 
1304 
1305 /*******************************************************************************
1306 **
1307 ** Function         NFC_SetTraceLevel
1308 **
1309 ** Description      This function sets the trace level for NFC.  If called with
1310 **                  a value of 0xFF, it simply returns the current trace level.
1311 **
1312 ** Returns          The new or current trace level
1313 **
1314 *******************************************************************************/
NFC_SetTraceLevel(UINT8 new_level)1315 UINT8 NFC_SetTraceLevel (UINT8 new_level)
1316 {
1317     NFC_TRACE_API1 ("NFC_SetTraceLevel () new_level = %d", new_level);
1318 
1319     if (new_level != 0xFF)
1320         nfc_cb.trace_level = new_level;
1321 
1322     return (nfc_cb.trace_level);
1323 }
1324 
1325 
1326 #endif /* NFC_INCLUDED == TRUE */
1327