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 19 /****************************************************************************** 20 * 21 * This file contains BTA HID Host internal definitions 22 * 23 ******************************************************************************/ 24 25 #ifndef BTA_HH_INT_H 26 #define BTA_HH_INT_H 27 28 #include "bta_hh_api.h" 29 #include "bta_sys.h" 30 #include "utl.h" 31 32 #if (BTA_HH_LE_INCLUDED == TRUE) 33 #include "bta_gatt_api.h" 34 #endif 35 36 /* can be moved to bta_api.h */ 37 #define BTA_HH_MAX_RPT_CHARS 8 38 39 /* state machine events, these events are handled by the state machine */ 40 enum { 41 BTA_HH_API_OPEN_EVT = BTA_SYS_EVT_START(BTA_ID_HH), 42 BTA_HH_API_CLOSE_EVT, 43 BTA_HH_INT_OPEN_EVT, 44 BTA_HH_INT_CLOSE_EVT, 45 BTA_HH_INT_DATA_EVT, 46 BTA_HH_INT_CTRL_DATA, 47 BTA_HH_INT_HANDSK_EVT, 48 BTA_HH_SDP_CMPL_EVT, 49 BTA_HH_API_WRITE_DEV_EVT, 50 BTA_HH_API_GET_DSCP_EVT, 51 BTA_HH_API_MAINT_DEV_EVT, 52 BTA_HH_OPEN_CMPL_EVT, 53 #if (BTA_HH_LE_INCLUDED == TRUE) 54 BTA_HH_GATT_CLOSE_EVT, 55 BTA_HH_GATT_OPEN_EVT, 56 BTA_HH_START_ENC_EVT, 57 BTA_HH_ENC_CMPL_EVT, 58 BTA_HH_GATT_ENC_CMPL_EVT, 59 #endif 60 61 /* not handled by execute state machine */ 62 BTA_HH_API_ENABLE_EVT, 63 BTA_HH_API_DISABLE_EVT, 64 BTA_HH_DISC_CMPL_EVT 65 }; 66 typedef uint16_t tBTA_HH_INT_EVT; /* HID host internal events */ 67 68 #define BTA_HH_INVALID_EVT (BTA_HH_DISC_CMPL_EVT + 1) 69 70 /* event used to map between BTE event and BTA event */ 71 #define BTA_HH_FST_TRANS_CB_EVT BTA_HH_GET_RPT_EVT 72 #define BTA_HH_FST_BTE_TRANS_EVT HID_TRANS_GET_REPORT 73 74 /* sub event code used for device maintainence API call */ 75 #define BTA_HH_ADD_DEV 0 76 #define BTA_HH_REMOVE_DEV 1 77 78 /* state machine states */ 79 enum { 80 BTA_HH_NULL_ST, 81 BTA_HH_IDLE_ST, 82 BTA_HH_W4_CONN_ST, 83 BTA_HH_CONN_ST 84 #if (BTA_HH_LE_INCLUDED == TRUE) 85 , 86 BTA_HH_W4_SEC 87 #endif 88 , 89 BTA_HH_INVALID_ST /* Used to check invalid states before executing SM function 90 */ 91 92 }; 93 typedef uint8_t tBTA_HH_STATE; 94 95 /* data structure used to send a command/data to HID device */ 96 typedef struct { 97 BT_HDR hdr; 98 uint8_t t_type; 99 uint8_t param; 100 uint8_t rpt_id; 101 #if (BTA_HH_LE_INCLUDED == TRUE) 102 uint8_t srvc_id; 103 #endif 104 uint16_t data; 105 BT_HDR* p_data; 106 } tBTA_HH_CMD_DATA; 107 108 /* data type for BTA_HH_API_ENABLE_EVT */ 109 typedef struct { 110 BT_HDR hdr; 111 uint8_t sec_mask; 112 uint8_t service_name[BTA_SERVICE_NAME_LEN + 1]; 113 tBTA_HH_CBACK* p_cback; 114 } tBTA_HH_API_ENABLE; 115 116 typedef struct { 117 BT_HDR hdr; 118 RawAddress bd_addr; 119 uint8_t sec_mask; 120 tBTA_HH_PROTO_MODE mode; 121 } tBTA_HH_API_CONN; 122 123 /* internal event data from BTE HID callback */ 124 typedef struct { 125 BT_HDR hdr; 126 RawAddress addr; 127 uint32_t data; 128 BT_HDR* p_data; 129 } tBTA_HH_CBACK_DATA; 130 131 typedef struct { 132 BT_HDR hdr; 133 RawAddress bda; 134 uint16_t attr_mask; 135 uint16_t sub_event; 136 uint8_t sub_class; 137 uint8_t app_id; 138 tBTA_HH_DEV_DSCP_INFO dscp_info; 139 } tBTA_HH_MAINT_DEV; 140 141 #if (BTA_HH_LE_INCLUDED == TRUE) 142 typedef struct { 143 BT_HDR hdr; 144 uint16_t conn_id; 145 tBTA_GATT_REASON reason; /* disconnect reason code, not useful when connect 146 event is reported */ 147 148 } tBTA_HH_LE_CLOSE; 149 150 typedef struct { 151 BT_HDR hdr; 152 uint16_t scan_int; 153 uint16_t scan_win; 154 } tBTA_HH_SCPP_UPDATE; 155 #endif 156 /* union of all event data types */ 157 typedef union { 158 BT_HDR hdr; 159 tBTA_HH_API_ENABLE api_enable; 160 tBTA_HH_API_CONN api_conn; 161 tBTA_HH_CMD_DATA api_sndcmd; 162 tBTA_HH_CBACK_DATA hid_cback; 163 tBTA_HH_STATUS status; 164 tBTA_HH_MAINT_DEV api_maintdev; 165 #if (BTA_HH_LE_INCLUDED == TRUE) 166 tBTA_HH_LE_CLOSE le_close; 167 tBTA_GATTC_OPEN le_open; 168 tBTA_HH_SCPP_UPDATE le_scpp_update; 169 tBTA_GATTC_ENC_CMPL_CB le_enc_cmpl; 170 #endif 171 } tBTA_HH_DATA; 172 173 #if (BTA_HH_LE_INCLUDED == TRUE) 174 typedef struct { 175 uint8_t index; 176 bool in_use; 177 uint8_t srvc_inst_id; 178 uint8_t char_inst_id; 179 tBTA_HH_RPT_TYPE rpt_type; 180 uint16_t uuid; 181 uint8_t rpt_id; 182 bool client_cfg_exist; 183 uint16_t client_cfg_value; 184 } tBTA_HH_LE_RPT; 185 186 #ifndef BTA_HH_LE_RPT_MAX 187 #define BTA_HH_LE_RPT_MAX 20 188 #endif 189 190 typedef struct { 191 bool in_use; 192 uint8_t srvc_inst_id; 193 tBTA_HH_LE_RPT report[BTA_HH_LE_RPT_MAX]; 194 195 uint16_t proto_mode_handle; 196 uint8_t control_point_handle; 197 198 uint8_t 199 incl_srvc_inst; /* assuming only one included service : battery service */ 200 uint8_t cur_expl_char_idx; /* currently discovering service index */ 201 uint8_t* rpt_map; 202 uint16_t ext_rpt_ref; 203 tBTA_HH_DEV_DESCR descriptor; 204 205 } tBTA_HH_LE_HID_SRVC; 206 207 /* convert a HID handle to the LE CB index */ 208 #define BTA_HH_GET_LE_CB_IDX(x) (((x) >> 4) - 1) 209 /* convert a GATT connection ID to HID device handle, it is the hi 4 bits of a 210 * uint8_t */ 211 #define BTA_HH_GET_LE_DEV_HDL(x) (uint8_t)(((x) + 1) << 4) 212 /* check to see if th edevice handle is a LE device handle */ 213 #define BTA_HH_IS_LE_DEV_HDL(x) ((x)&0xf0) 214 #define BTA_HH_IS_LE_DEV_HDL_VALID(x) (((x) >> 4) <= BTA_HH_LE_MAX_KNOWN) 215 #endif 216 217 /* device control block */ 218 typedef struct { 219 tBTA_HH_DEV_DSCP_INFO dscp_info; /* report descriptor and DI information */ 220 RawAddress addr; /* BD-Addr of the HID device */ 221 uint16_t attr_mask; /* attribute mask */ 222 uint16_t w4_evt; /* W4_handshake event name */ 223 uint8_t index; /* index number referenced to handle index */ 224 uint8_t sub_class; /* Cod sub class */ 225 uint8_t sec_mask; /* security mask */ 226 uint8_t app_id; /* application ID for this connection */ 227 uint8_t hid_handle; /* device handle : low 4 bits for regular HID: 228 HID_HOST_MAX_DEVICES can not exceed 15; 229 high 4 bits for LE HID: 230 GATT_MAX_PHY_CHANNEL can not exceed 15 */ 231 bool vp; /* virtually unplug flag */ 232 bool in_use; /* control block currently in use */ 233 bool incoming_conn; /* is incoming connection? */ 234 uint8_t incoming_hid_handle; /* temporary handle for incoming connection? */ 235 bool opened; /* true if device successfully opened HID connection */ 236 tBTA_HH_PROTO_MODE mode; /* protocol mode */ 237 tBTA_HH_STATE state; /* CB state */ 238 239 #if (BTA_HH_LE_INCLUDED == TRUE) 240 #define BTA_HH_LE_DISC_NONE 0x00 241 #define BTA_HH_LE_DISC_HIDS 0x01 242 #define BTA_HH_LE_DISC_DIS 0x02 243 #define BTA_HH_LE_DISC_SCPS 0x04 244 245 uint8_t disc_active; 246 tBTA_HH_STATUS status; 247 tBTA_GATT_REASON reason; 248 bool is_le_device; 249 tBTA_HH_LE_HID_SRVC hid_srvc; 250 uint16_t conn_id; 251 bool in_bg_conn; 252 uint8_t clt_cfg_idx; 253 uint16_t scan_refresh_char_handle; 254 bool scps_supported; 255 256 #define BTA_HH_LE_SCPS_NOTIFY_NONE 0 257 #define BTA_HH_LE_SCPS_NOTIFY_SPT 0x01 258 #define BTA_HH_LE_SCPS_NOTIFY_ENB 0x02 259 uint8_t scps_notify; /* scan refresh supported/notification enabled */ 260 #endif 261 262 bool security_pending; 263 } tBTA_HH_DEV_CB; 264 265 /* key board parsing control block */ 266 typedef struct { 267 bool mod_key[4]; /* ctrl, shift(upper), Alt, GUI */ 268 bool num_lock; 269 bool caps_lock; 270 uint8_t last_report[BTA_HH_MAX_RPT_CHARS]; 271 } tBTA_HH_KB_CB; 272 273 /****************************************************************************** 274 * Main Control Block 275 ******************************************************************************/ 276 typedef struct { 277 tBTA_HH_KB_CB kb_cb; /* key board control block, 278 suppose BTA will connect 279 to only one keyboard at 280 the same time */ 281 tBTA_HH_DEV_CB kdev[BTA_HH_MAX_DEVICE]; /* device control block */ 282 tBTA_HH_DEV_CB* p_cur; /* current device control 283 block idx, used in sdp */ 284 uint8_t cb_index[BTA_HH_MAX_KNOWN]; /* maintain a CB index 285 map to dev handle */ 286 #if (BTA_HH_LE_INCLUDED == TRUE) 287 uint8_t le_cb_index[BTA_HH_LE_MAX_KNOWN]; /* maintain a CB index map to LE dev 288 handle */ 289 tGATT_IF gatt_if; 290 #endif 291 tBTA_HH_CBACK* p_cback; /* Application callbacks */ 292 tSDP_DISCOVERY_DB* p_disc_db; 293 uint8_t trace_level; /* tracing level */ 294 uint8_t cnt_num; /* connected device number */ 295 bool w4_disable; /* w4 disable flag */ 296 } tBTA_HH_CB; 297 298 extern tBTA_HH_CB bta_hh_cb; 299 300 /* from bta_hh_cfg.c */ 301 extern tBTA_HH_CFG* p_bta_hh_cfg; 302 303 /***************************************************************************** 304 * Function prototypes 305 ****************************************************************************/ 306 extern bool bta_hh_hdl_event(BT_HDR* p_msg); 307 extern void bta_hh_sm_execute(tBTA_HH_DEV_CB* p_cb, uint16_t event, 308 tBTA_HH_DATA* p_data); 309 310 /* action functions */ 311 extern void bta_hh_api_disc_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 312 extern void bta_hh_open_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 313 extern void bta_hh_close_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 314 extern void bta_hh_data_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 315 extern void bta_hh_ctrl_dat_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 316 extern void bta_hh_start_sdp(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 317 extern void bta_hh_sdp_cmpl(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 318 extern void bta_hh_write_dev_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 319 extern void bta_hh_get_dscp_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 320 extern void bta_hh_handsk_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 321 extern void bta_hh_maint_dev_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 322 extern void bta_hh_open_cmpl_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 323 extern void bta_hh_open_failure(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 324 325 /* utility functions */ 326 extern uint8_t bta_hh_find_cb(const RawAddress& bda); 327 extern void bta_hh_parse_keybd_rpt(tBTA_HH_BOOT_RPT* p_kb_data, 328 uint8_t* p_report, uint16_t report_len); 329 extern void bta_hh_parse_mice_rpt(tBTA_HH_BOOT_RPT* p_kb_data, 330 uint8_t* p_report, uint16_t report_len); 331 extern bool bta_hh_tod_spt(tBTA_HH_DEV_CB* p_cb, uint8_t sub_class); 332 extern void bta_hh_clean_up_kdev(tBTA_HH_DEV_CB* p_cb); 333 334 extern void bta_hh_add_device_to_list(tBTA_HH_DEV_CB* p_cb, uint8_t handle, 335 uint16_t attr_mask, 336 tHID_DEV_DSCP_INFO* p_dscp_info, 337 uint8_t sub_class, uint16_t max_latency, 338 uint16_t min_tout, uint8_t app_id); 339 extern void bta_hh_update_di_info(tBTA_HH_DEV_CB* p_cb, uint16_t vendor_id, 340 uint16_t product_id, uint16_t version, 341 uint8_t flag); 342 extern void bta_hh_cleanup_disable(tBTA_HH_STATUS status); 343 344 extern uint8_t bta_hh_dev_handle_to_cb_idx(uint8_t dev_handle); 345 346 /* action functions used outside state machine */ 347 extern void bta_hh_api_enable(tBTA_HH_DATA* p_data); 348 extern void bta_hh_api_disable(void); 349 extern void bta_hh_disc_cmpl(void); 350 351 extern tBTA_HH_STATUS bta_hh_read_ssr_param(const RawAddress& bd_addr, 352 uint16_t* p_max_ssr_lat, 353 uint16_t* p_min_ssr_tout); 354 355 /* functions for LE HID */ 356 extern void bta_hh_le_enable(void); 357 extern bool bta_hh_le_is_hh_gatt_if(tGATT_IF client_if); 358 extern void bta_hh_le_deregister(void); 359 extern bool bta_hh_is_le_device(tBTA_HH_DEV_CB* p_cb, 360 const RawAddress& remote_bda); 361 extern void bta_hh_le_open_conn(tBTA_HH_DEV_CB* p_cb, 362 const RawAddress& remote_bda); 363 extern void bta_hh_le_api_disc_act(tBTA_HH_DEV_CB* p_cb); 364 extern void bta_hh_le_get_dscp_act(tBTA_HH_DEV_CB* p_cb); 365 extern void bta_hh_le_write_dev_act(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 366 extern uint8_t bta_hh_le_add_device(tBTA_HH_DEV_CB* p_cb, 367 tBTA_HH_MAINT_DEV* p_dev_info); 368 extern void bta_hh_le_remove_dev_bg_conn(tBTA_HH_DEV_CB* p_cb); 369 extern void bta_hh_le_open_fail(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 370 extern void bta_hh_gatt_open(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 371 extern void bta_hh_gatt_close(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_data); 372 extern void bta_hh_start_security(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_buf); 373 extern void bta_hh_start_srvc_discovery(tBTA_HH_DEV_CB* p_cb, 374 tBTA_HH_DATA* p_buf); 375 extern void bta_hh_start_security(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_buf); 376 extern void bta_hh_security_cmpl(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_buf); 377 extern void bta_hh_le_notify_enc_cmpl(tBTA_HH_DEV_CB* p_cb, 378 tBTA_HH_DATA* p_data); 379 extern void bta_hh_ci_load_rpt(tBTA_HH_DEV_CB* p_cb, tBTA_HH_DATA* p_buf); 380 381 #if (BTA_HH_DEBUG == TRUE) 382 extern void bta_hh_trace_dev_db(void); 383 #endif 384 385 #endif 386