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1 /******************************************************************************
2  *
3  *  Copyright 2005-2012 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 <string.h>
19 
20 #include "bt_target.h"
21 #if (BTA_HH_INCLUDED == TRUE)
22 
23 #include "bta_hh_int.h"
24 #include "btif/include/btif_storage.h"
25 #include "device/include/interop.h"
26 #include "osi/include/osi.h"
27 
28 /* if SSR max latency is not defined by remote device, set the default value
29    as half of the link supervision timeout */
30 #define BTA_HH_GET_DEF_SSR_MAX_LAT(x) ((x) >> 1)
31 
32 /*****************************************************************************
33  *  Constants
34  ****************************************************************************/
35 #define BTA_HH_KB_CTRL_MASK 0x11
36 #define BTA_HH_KB_SHIFT_MASK 0x22
37 #define BTA_HH_KB_ALT_MASK 0x44
38 #define BTA_HH_KB_GUI_MASK 0x88
39 
40 #define BTA_HH_KB_CAPS_LOCK 0x39 /* caps lock */
41 #define BTA_HH_KB_NUM_LOCK 0x53  /* num lock */
42 
43 #define BTA_HH_MAX_RPT_CHARS 8
44 
45 static const uint8_t bta_hh_mod_key_mask[BTA_HH_MOD_MAX_KEY] = {
46     BTA_HH_KB_CTRL_MASK, BTA_HH_KB_SHIFT_MASK, BTA_HH_KB_ALT_MASK,
47     BTA_HH_KB_GUI_MASK};
48 
49 /*******************************************************************************
50  *
51  * Function         bta_hh_find_cb
52  *
53  * Description      Find best available control block according to BD address.
54  *
55  *
56  * Returns          void
57  *
58  ******************************************************************************/
bta_hh_find_cb(const RawAddress & bda)59 uint8_t bta_hh_find_cb(const RawAddress& bda) {
60   uint8_t xx;
61 
62   /* See how many active devices there are. */
63   for (xx = 0; xx < BTA_HH_MAX_DEVICE; xx++) {
64     /* check if any active/known devices is a match */
65     if ((bda == bta_hh_cb.kdev[xx].addr && !bda.IsEmpty())) {
66 #if (BTA_HH_DEBUG == TRUE)
67       APPL_TRACE_DEBUG("found kdev_cb[%d] hid_handle = %d ", xx,
68                        bta_hh_cb.kdev[xx].hid_handle)
69 #endif
70       return xx;
71     }
72 #if (BTA_HH_DEBUG == TRUE)
73     else
74       APPL_TRACE_DEBUG("in_use ? [%d] kdev[%d].hid_handle = %d state = [%d]",
75                        bta_hh_cb.kdev[xx].in_use, xx,
76                        bta_hh_cb.kdev[xx].hid_handle, bta_hh_cb.kdev[xx].state);
77 #endif
78   }
79 
80   /* if no active device match, find a spot for it */
81   for (xx = 0; xx < BTA_HH_MAX_DEVICE; xx++) {
82     if (!bta_hh_cb.kdev[xx].in_use) {
83       bta_hh_cb.kdev[xx].addr = bda;
84       break;
85     }
86   }
87 /* If device list full, report BTA_HH_IDX_INVALID */
88 #if (BTA_HH_DEBUG == TRUE)
89   APPL_TRACE_DEBUG("bta_hh_find_cb:: index = %d while max = %d", xx,
90                    BTA_HH_MAX_DEVICE);
91 #endif
92 
93   if (xx == BTA_HH_MAX_DEVICE) xx = BTA_HH_IDX_INVALID;
94 
95   return xx;
96 }
97 
98 /*******************************************************************************
99  *
100  * Function         bta_hh_clean_up_kdev
101  *
102  * Description      Clean up device control block when device is removed from
103  *                  manitainace list, and update control block index map.
104  *
105  * Returns          void
106  *
107  ******************************************************************************/
bta_hh_clean_up_kdev(tBTA_HH_DEV_CB * p_cb)108 void bta_hh_clean_up_kdev(tBTA_HH_DEV_CB* p_cb) {
109   uint8_t index;
110 
111   if (p_cb->hid_handle != BTA_HH_INVALID_HANDLE) {
112 #if (BTA_HH_LE_INCLUDED == TRUE)
113     if (p_cb->is_le_device)
114       bta_hh_cb.le_cb_index[BTA_HH_GET_LE_CB_IDX(p_cb->hid_handle)] =
115           BTA_HH_IDX_INVALID;
116     else
117 #endif
118       bta_hh_cb.cb_index[p_cb->hid_handle] = BTA_HH_IDX_INVALID;
119   }
120 
121   /* reset device control block */
122   index = p_cb->index; /* Preserve index for this control block */
123 
124   /* Free buffer for report descriptor info */
125   osi_free_and_reset((void**)&p_cb->dscp_info.descriptor.dsc_list);
126 
127   memset(p_cb, 0, sizeof(tBTA_HH_DEV_CB)); /* Reset control block */
128 
129   p_cb->index = index; /* Restore index for this control block */
130   p_cb->state = BTA_HH_IDLE_ST;
131   p_cb->hid_handle = BTA_HH_INVALID_HANDLE;
132 }
133 /*******************************************************************************
134  *
135  * Function         bta_hh_update_di_info
136  *
137  * Description      Maintain a known device list for BTA HH.
138  *
139  * Returns          void
140  *
141  ******************************************************************************/
bta_hh_update_di_info(tBTA_HH_DEV_CB * p_cb,uint16_t vendor_id,uint16_t product_id,uint16_t version,uint8_t flag)142 void bta_hh_update_di_info(tBTA_HH_DEV_CB* p_cb, uint16_t vendor_id,
143                            uint16_t product_id, uint16_t version,
144 #if (BTA_HH_LE_INCLUDED == TRUE)
145                            uint8_t flag)
146 #else
147                            UNUSED_ATTR uint8_t flag)
148 #endif
149 {
150 #if (BTA_HH_DEBUG == TRUE)
151   APPL_TRACE_DEBUG("vendor_id = 0x%2x product_id = 0x%2x version = 0x%2x",
152                    vendor_id, product_id, version);
153 #endif
154   p_cb->dscp_info.vendor_id = vendor_id;
155   p_cb->dscp_info.product_id = product_id;
156   p_cb->dscp_info.version = version;
157 #if (BTA_HH_LE_INCLUDED == TRUE)
158   p_cb->dscp_info.flag = flag;
159 #endif
160 }
161 /*******************************************************************************
162  *
163  * Function         bta_hh_add_device_to_list
164  *
165  * Description      Maintain a known device list for BTA HH.
166  *
167  * Returns          void
168  *
169  ******************************************************************************/
bta_hh_add_device_to_list(tBTA_HH_DEV_CB * p_cb,uint8_t handle,uint16_t attr_mask,tHID_DEV_DSCP_INFO * p_dscp_info,uint8_t sub_class,uint16_t ssr_max_latency,uint16_t ssr_min_tout,uint8_t app_id)170 void bta_hh_add_device_to_list(tBTA_HH_DEV_CB* p_cb, uint8_t handle,
171                                uint16_t attr_mask,
172                                tHID_DEV_DSCP_INFO* p_dscp_info,
173                                uint8_t sub_class, uint16_t ssr_max_latency,
174                                uint16_t ssr_min_tout, uint8_t app_id) {
175 #if (BTA_HH_DEBUG == TRUE)
176   APPL_TRACE_DEBUG("subclass = 0x%2x", sub_class);
177 #endif
178 
179   p_cb->hid_handle = handle;
180   p_cb->in_use = true;
181   p_cb->attr_mask = attr_mask;
182 
183   p_cb->sub_class = sub_class;
184   p_cb->app_id = app_id;
185 
186   p_cb->dscp_info.ssr_max_latency = ssr_max_latency;
187   p_cb->dscp_info.ssr_min_tout = ssr_min_tout;
188 
189   /* store report descriptor info */
190   if (p_dscp_info) {
191     osi_free_and_reset((void**)&p_cb->dscp_info.descriptor.dsc_list);
192 
193     if (p_dscp_info->dl_len) {
194       p_cb->dscp_info.descriptor.dsc_list =
195           (uint8_t*)osi_malloc(p_dscp_info->dl_len);
196       p_cb->dscp_info.descriptor.dl_len = p_dscp_info->dl_len;
197       memcpy(p_cb->dscp_info.descriptor.dsc_list, p_dscp_info->dsc_list,
198              p_dscp_info->dl_len);
199     }
200   }
201 }
202 
203 /*******************************************************************************
204  *
205  * Function         bta_hh_tod_spt
206  *
207  * Description      Check to see if this type of device is supported
208  *
209  * Returns
210  *
211  ******************************************************************************/
bta_hh_tod_spt(tBTA_HH_DEV_CB * p_cb,uint8_t sub_class)212 bool bta_hh_tod_spt(tBTA_HH_DEV_CB* p_cb, uint8_t sub_class) {
213   uint8_t xx;
214   uint8_t cod = (sub_class >> 2); /* lower two bits are reserved */
215 
216   for (xx = 0; xx < p_bta_hh_cfg->max_devt_spt; xx++) {
217     if (cod == (uint8_t)p_bta_hh_cfg->p_devt_list[xx].tod) {
218       p_cb->app_id = p_bta_hh_cfg->p_devt_list[xx].app_id;
219 #if (BTA_HH_DEBUG == TRUE)
220       APPL_TRACE_EVENT("bta_hh_tod_spt sub_class:0x%x supported", sub_class);
221 #endif
222       return true;
223     }
224   }
225 #if (BTA_HH_DEBUG == TRUE)
226   APPL_TRACE_EVENT("bta_hh_tod_spt sub_class:0x%x NOT supported", sub_class);
227 #endif
228   return false;
229 }
230 
231 /*******************************************************************************
232  *
233  * Function         bta_hh_parse_keybd_rpt
234  *
235  * Description      This utility function parse a boot mode keyboard report.
236  *
237  * Returns          void
238  *
239  ******************************************************************************/
bta_hh_parse_keybd_rpt(tBTA_HH_BOOT_RPT * p_kb_data,uint8_t * p_report,uint16_t report_len)240 void bta_hh_parse_keybd_rpt(tBTA_HH_BOOT_RPT* p_kb_data, uint8_t* p_report,
241                             uint16_t report_len) {
242   tBTA_HH_KB_CB* p_kb = &bta_hh_cb.kb_cb;
243   tBTA_HH_KEYBD_RPT* p_data = &p_kb_data->data_rpt.keybd_rpt;
244 
245   uint8_t this_char, ctl_shift;
246   uint16_t xx, yy, key_idx = 0;
247   uint8_t this_report[BTA_HH_MAX_RPT_CHARS];
248 
249 #if (BTA_HH_DEBUG == TRUE)
250   APPL_TRACE_DEBUG("bta_hh_parse_keybd_rpt:  (report=%p, report_len=%d) called",
251                    p_report, report_len);
252 #endif
253 
254   if (report_len < 2) return;
255 
256   ctl_shift = *p_report++;
257   report_len--;
258 
259   if (report_len > BTA_HH_MAX_RPT_CHARS) report_len = BTA_HH_MAX_RPT_CHARS;
260 
261   memset(this_report, 0, BTA_HH_MAX_RPT_CHARS);
262   memset(p_data, 0, sizeof(tBTA_HH_KEYBD_RPT));
263   memcpy(this_report, p_report, report_len);
264 
265   /* Take care of shift, control, GUI and alt, modifier keys  */
266   for (xx = 0; xx < BTA_HH_MOD_MAX_KEY; xx++) {
267     if (ctl_shift & bta_hh_mod_key_mask[xx]) {
268       APPL_TRACE_DEBUG("Mod Key[%02x] pressed", bta_hh_mod_key_mask[xx]);
269       p_kb->mod_key[xx] = true;
270     } else if (p_kb->mod_key[xx]) {
271       p_kb->mod_key[xx] = false;
272     }
273     /* control key flag is set */
274     p_data->mod_key[xx] = p_kb->mod_key[xx];
275   }
276 
277   /***************************************************************************/
278   /*  First step is to remove all characters we saw in the last report       */
279   /***************************************************************************/
280   for (xx = 0; xx < report_len; xx++) {
281     for (yy = 0; yy < BTA_HH_MAX_RPT_CHARS; yy++) {
282       if (this_report[xx] == p_kb->last_report[yy]) {
283         this_report[xx] = 0;
284       }
285     }
286   }
287   /***************************************************************************/
288   /*  Now, process all the characters in the report, up to 6 keycodes        */
289   /***************************************************************************/
290   for (xx = 0; xx < report_len; xx++) {
291 #if (BTA_HH_DEBUG == TRUE)
292     APPL_TRACE_DEBUG("this_char = %02x", this_report[xx]);
293 #endif
294     this_char = this_report[xx];
295     if (this_char == 0) continue;
296     /* take the key code as the report data */
297     if (this_report[xx] == BTA_HH_KB_CAPS_LOCK)
298       p_kb->caps_lock = p_kb->caps_lock ? false : true;
299     else if (this_report[xx] == BTA_HH_KB_NUM_LOCK)
300       p_kb->num_lock = p_kb->num_lock ? false : true;
301     else
302       p_data->this_char[key_idx++] = this_char;
303 
304 #if (BTA_HH_DEBUG == TRUE)
305     APPL_TRACE_DEBUG("found keycode %02x ", this_report[xx]);
306 #endif
307     p_data->caps_lock = p_kb->caps_lock;
308     p_data->num_lock = p_kb->num_lock;
309   }
310 
311   memset(p_kb->last_report, 0, BTA_HH_MAX_RPT_CHARS);
312   memcpy(p_kb->last_report, p_report, report_len);
313 
314   return;
315 }
316 
317 /*******************************************************************************
318  *
319  * Function         bta_hh_parse_mice_rpt
320  *
321  * Description      This utility function parse a boot mode mouse report.
322  *
323  * Returns          void
324  *
325  ******************************************************************************/
bta_hh_parse_mice_rpt(tBTA_HH_BOOT_RPT * p_mice_data,uint8_t * p_report,uint16_t report_len)326 void bta_hh_parse_mice_rpt(tBTA_HH_BOOT_RPT* p_mice_data, uint8_t* p_report,
327                            uint16_t report_len) {
328   tBTA_HH_MICE_RPT* p_data = &p_mice_data->data_rpt.mice_rpt;
329 #if (BTA_HH_DEBUG == TRUE)
330   uint8_t xx;
331 
332   APPL_TRACE_DEBUG(
333       "bta_hh_parse_mice_rpt:  bta_keybd_rpt_rcvd(report=%p, \
334                 report_len=%d) called",
335       p_report, report_len);
336 #endif
337 
338   if (report_len < 3) return;
339 
340   if (report_len > BTA_HH_MAX_RPT_CHARS) report_len = BTA_HH_MAX_RPT_CHARS;
341 
342 #if (BTA_HH_DEBUG == TRUE)
343   for (xx = 0; xx < report_len; xx++) {
344     APPL_TRACE_DEBUG("this_char = %02x", p_report[xx]);
345   }
346 #endif
347 
348   /* only first bytes lower 3 bits valid */
349   p_data->mouse_button = (p_report[0] & 0x07);
350 
351   /* x displacement */
352   p_data->delta_x = p_report[1];
353 
354   /* y displacement */
355   p_data->delta_y = p_report[2];
356 
357 #if (BTA_HH_DEBUG == TRUE)
358   APPL_TRACE_DEBUG("mice button: 0x%2x", p_data->mouse_button);
359   APPL_TRACE_DEBUG("mice move: x = %d y = %d", p_data->delta_x,
360                    p_data->delta_y);
361 #endif
362 
363   return;
364 }
365 
366 /*******************************************************************************
367  *
368  * Function         bta_hh_read_ssr_param
369  *
370  * Description      Read the SSR Parameter for the remote device
371  *
372  * Returns          tBTA_HH_STATUS  operation status
373  *
374  ******************************************************************************/
bta_hh_read_ssr_param(const RawAddress & bd_addr,uint16_t * p_max_ssr_lat,uint16_t * p_min_ssr_tout)375 tBTA_HH_STATUS bta_hh_read_ssr_param(const RawAddress& bd_addr,
376                                      uint16_t* p_max_ssr_lat,
377                                      uint16_t* p_min_ssr_tout) {
378   tBTA_HH_STATUS status = BTA_HH_ERR;
379   tBTA_HH_CB* p_cb = &bta_hh_cb;
380   uint8_t i;
381   uint16_t ssr_max_latency;
382   for (i = 0; i < BTA_HH_MAX_KNOWN; i++) {
383     if (p_cb->kdev[i].addr == bd_addr) {
384       /* if remote device does not have HIDSSRHostMaxLatency attribute in SDP,
385       set SSR max latency default value here.  */
386       if (p_cb->kdev[i].dscp_info.ssr_max_latency == HID_SSR_PARAM_INVALID) {
387         /* The default is calculated as half of link supervision timeout.*/
388 
389         BTM_GetLinkSuperTout(p_cb->kdev[i].addr, &ssr_max_latency);
390         ssr_max_latency = BTA_HH_GET_DEF_SSR_MAX_LAT(ssr_max_latency);
391 
392         /* per 1.1 spec, if the newly calculated max latency is greater than
393         BTA_HH_SSR_MAX_LATENCY_DEF which is 500ms, use
394         BTA_HH_SSR_MAX_LATENCY_DEF */
395         if (ssr_max_latency > BTA_HH_SSR_MAX_LATENCY_DEF)
396           ssr_max_latency = BTA_HH_SSR_MAX_LATENCY_DEF;
397 
398         char remote_name[BTM_MAX_REM_BD_NAME_LEN] = "";
399         if (btif_storage_get_stored_remote_name(bd_addr, remote_name)) {
400           if (interop_match_name(INTEROP_HID_HOST_LIMIT_SNIFF_INTERVAL,
401                                  remote_name)) {
402             if (ssr_max_latency > 18 /* slots * 0.625ms */) {
403               ssr_max_latency = 18;
404             }
405           }
406         }
407 
408         *p_max_ssr_lat = ssr_max_latency;
409       } else
410         *p_max_ssr_lat = p_cb->kdev[i].dscp_info.ssr_max_latency;
411 
412       if (p_cb->kdev[i].dscp_info.ssr_min_tout == HID_SSR_PARAM_INVALID)
413         *p_min_ssr_tout = BTA_HH_SSR_MIN_TOUT_DEF;
414       else
415         *p_min_ssr_tout = p_cb->kdev[i].dscp_info.ssr_min_tout;
416 
417       status = BTA_HH_OK;
418 
419       break;
420     }
421   }
422 
423   return status;
424 }
425 
426 /*******************************************************************************
427  *
428  * Function         bta_hh_cleanup_disable
429  *
430  * Description      when disable finished, cleanup control block and send
431  *                  callback
432  *
433  *
434  * Returns          void
435  *
436  ******************************************************************************/
bta_hh_cleanup_disable(tBTA_HH_STATUS status)437 void bta_hh_cleanup_disable(tBTA_HH_STATUS status) {
438   uint8_t xx;
439   /* free buffer in CB holding report descriptors */
440   for (xx = 0; xx < BTA_HH_MAX_DEVICE; xx++) {
441     osi_free_and_reset(
442         (void**)&bta_hh_cb.kdev[xx].dscp_info.descriptor.dsc_list);
443   }
444 
445   if (bta_hh_cb.p_disc_db) {
446     /* Cancel SDP if it had been started. */
447     (void)SDP_CancelServiceSearch (bta_hh_cb.p_disc_db);
448     osi_free_and_reset((void**)&bta_hh_cb.p_disc_db);
449   }
450 
451   if (bta_hh_cb.p_cback) {
452     tBTA_HH bta_hh;
453     bta_hh.status = status;
454     (*bta_hh_cb.p_cback)(BTA_HH_DISABLE_EVT, &bta_hh);
455     /* all connections are down, no waiting for diconnect */
456     memset(&bta_hh_cb, 0, sizeof(tBTA_HH_CB));
457   }
458 }
459 
460 /*******************************************************************************
461  *
462  * Function         bta_hh_dev_handle_to_cb_idx
463  *
464  * Description      convert a HID device handle to the device control block
465  *                  index.
466  *
467  *
468  * Returns          uint8_t: index of the device control block.
469  *
470  ******************************************************************************/
bta_hh_dev_handle_to_cb_idx(uint8_t dev_handle)471 uint8_t bta_hh_dev_handle_to_cb_idx(uint8_t dev_handle) {
472   uint8_t index = BTA_HH_IDX_INVALID;
473 
474 #if (BTA_HH_LE_INCLUDED == TRUE)
475   if (BTA_HH_IS_LE_DEV_HDL(dev_handle)) {
476     if (BTA_HH_IS_LE_DEV_HDL_VALID(dev_handle))
477       index = bta_hh_cb.le_cb_index[BTA_HH_GET_LE_CB_IDX(dev_handle)];
478 #if (BTA_HH_DEBUG == TRUE)
479     APPL_TRACE_DEBUG("bta_hh_dev_handle_to_cb_idx dev_handle = %d index = %d",
480                      dev_handle, index);
481 #endif
482   } else
483 #endif
484       /* regular HID device checking */
485       if (dev_handle < BTA_HH_MAX_KNOWN)
486     index = bta_hh_cb.cb_index[dev_handle];
487 
488   return index;
489 }
490 #if (BTA_HH_DEBUG == TRUE)
491 /*******************************************************************************
492  *
493  * Function         bta_hh_trace_dev_db
494  *
495  * Description      Check to see if this type of device is supported
496  *
497  * Returns
498  *
499  ******************************************************************************/
bta_hh_trace_dev_db(void)500 void bta_hh_trace_dev_db(void) {
501   uint8_t xx;
502 
503   APPL_TRACE_DEBUG("bta_hh_trace_dev_db:: Device DB list********************");
504 
505   for (xx = 0; xx < BTA_HH_MAX_DEVICE; xx++) {
506     APPL_TRACE_DEBUG("kdev[%d] in_use[%d]  handle[%d] ", xx,
507                      bta_hh_cb.kdev[xx].in_use, bta_hh_cb.kdev[xx].hid_handle);
508 
509     APPL_TRACE_DEBUG(
510         "\t\t\t attr_mask[%04x] state [%d] sub_class[%02x] index = %d",
511         bta_hh_cb.kdev[xx].attr_mask, bta_hh_cb.kdev[xx].state,
512         bta_hh_cb.kdev[xx].sub_class, bta_hh_cb.kdev[xx].index);
513   }
514   APPL_TRACE_DEBUG("*********************************************************");
515 }
516 #endif
517 #endif /* HL_INCLUDED */
518