1 /* 2 * Copyright (C) 2014 BlueKitchen GmbH 3 * 4 * Redistribution and use in source and binary forms, with or without 5 * modification, are permitted provided that the following conditions 6 * are met: 7 * 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 3. Neither the name of the copyright holders nor the names of 14 * contributors may be used to endorse or promote products derived 15 * from this software without specific prior written permission. 16 * 4. Any redistribution, use, or modification is done solely for 17 * personal benefit and not for any commercial purpose or for 18 * monetary gain. 19 * 20 * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS 21 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 22 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 23 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BLUEKITCHEN 24 * GMBH OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 25 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 26 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 27 * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 28 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 29 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 30 * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 * SUCH DAMAGE. 32 * 33 * Please inquire about commercial licensing options at 34 * [email protected] 35 * 36 */ 37 38 /** 39 * @title Host Controler Interface (HCI) 40 * 41 */ 42 43 #ifndef HCI_H 44 #define HCI_H 45 46 #include "btstack_config.h" 47 48 #include "btstack_chipset.h" 49 #include "btstack_control.h" 50 #include "btstack_linked_list.h" 51 #include "btstack_util.h" 52 #include "hci_cmd.h" 53 #include "gap.h" 54 #include "hci_transport.h" 55 #include "btstack_run_loop.h" 56 57 #ifdef ENABLE_CLASSIC 58 #include "classic/btstack_link_key_db.h" 59 #endif 60 61 #ifdef ENABLE_BLE 62 #include "ble/att_db.h" 63 #endif 64 65 #ifdef HAVE_SCO_TRANSPORT 66 #include "btstack_sco_transport.h" 67 #endif 68 69 #include <stdint.h> 70 #include <stdlib.h> 71 #include <stdarg.h> 72 73 #if defined __cplusplus 74 extern "C" { 75 #endif 76 77 // packet buffer sizes 78 #define HCI_CMD_HEADER_SIZE 3 79 #define HCI_ACL_HEADER_SIZE 4 80 #define HCI_SCO_HEADER_SIZE 3 81 #define HCI_EVENT_HEADER_SIZE 2 82 #define HCI_ISO_HEADER_SIZE 4 83 84 #define HCI_EVENT_PAYLOAD_SIZE 255 85 #define HCI_CMD_PAYLOAD_SIZE 255 86 87 // default for ISO streams: 48_6_2 : 2 x 155 88 #ifndef HCI_ISO_PAYLOAD_SIZE 89 #define HCI_ISO_PAYLOAD_SIZE 310 90 #endif 91 92 // Max HCI Command LE payload size: 93 // 64 from LE Generate DHKey command 94 // 32 from LE Encrypt command 95 #if defined(ENABLE_LE_SECURE_CONNECTIONS) && !defined(ENABLE_MICRO_ECC_FOR_LE_SECURE_CONNECTIONS) 96 #define HCI_CMD_PAYLOAD_SIZE_LE 64 97 #else 98 #define HCI_CMD_PAYLOAD_SIZE_LE 32 99 #endif 100 101 // HCI_ACL_PAYLOAD_SIZE is configurable and defined in config.h 102 // addition byte in even to terminate remote name request with '\0' 103 #define HCI_EVENT_BUFFER_SIZE (HCI_EVENT_HEADER_SIZE + HCI_EVENT_PAYLOAD_SIZE + 1) 104 105 #ifdef ENABLE_CLASSIC 106 #define HCI_CMD_BUFFER_SIZE (HCI_CMD_HEADER_SIZE + HCI_CMD_PAYLOAD_SIZE) 107 #else 108 #define HCI_CMD_BUFFER_SIZE (HCI_CMD_HEADER_SIZE + HCI_CMD_PAYLOAD_SIZE_LE) 109 #endif 110 111 #define HCI_ACL_BUFFER_SIZE (HCI_ACL_HEADER_SIZE + HCI_ACL_PAYLOAD_SIZE) 112 113 // size of hci incoming buffer, big enough for event or acl packet without H4 packet type 114 #ifdef HCI_INCOMING_PACKET_BUFFER_SIZE 115 #if HCI_INCOMING_PACKET_BUFFER_SIZE < HCI_ACL_BUFFER_SIZE 116 #error HCI_INCOMING_PACKET_BUFFER_SIZE must be equal or larger than HCI_ACL_BUFFER_SIZE 117 #endif 118 #if HCI_INCOMING_PACKET_BUFFER_SIZE < HCI_EVENT_BUFFER_SIZE 119 #error HCI_INCOMING_PACKET_BUFFER_SIZE must be equal or larger than HCI_EVENT_BUFFER_SIZE 120 #endif 121 #else 122 #if HCI_ACL_BUFFER_SIZE > HCI_EVENT_BUFFER_SIZE 123 #define HCI_INCOMING_PACKET_BUFFER_SIZE HCI_ACL_BUFFER_SIZE 124 #else 125 #define HCI_INCOMING_PACKET_BUFFER_SIZE HCI_EVENT_BUFFER_SIZE 126 #endif 127 #endif 128 129 // size of hci outgoing buffer, big enough for command or acl packet without H4 packet type 130 #ifdef HCI_OUTGOING_PACKET_BUFFER_SIZE 131 #if HCI_OUTGOING_PACKET_BUFFER_SIZE < HCI_ACL_BUFFER_SIZE 132 #error HCI_OUTGOING_PACKET_BUFFER_SIZE must be equal or larger than HCI_ACL_BUFFER_SIZE 133 #endif 134 #if HCI_OUTGOING_PACKET_BUFFER_SIZE < HCI_CMD_BUFFER_SIZE 135 #error HCI_OUTGOING_PACKET_BUFFER_SIZE must be equal or larger than HCI_CMD_BUFFER_SIZE 136 #endif 137 #else 138 #if HCI_ACL_BUFFER_SIZE > HCI_CMD_BUFFER_SIZE 139 #define HCI_OUTGOING_PACKET_BUFFER_SIZE HCI_ACL_BUFFER_SIZE 140 #else 141 #define HCI_OUTGOING_PACKET_BUFFER_SIZE HCI_CMD_BUFFER_SIZE 142 #endif 143 #endif 144 145 // additional pre-buffer space for packets to Bluetooth module 146 // - H4 requires 1 byte for the packet type 147 // - h5 requires 4 bytes for H5 header 148 #ifndef HCI_OUTGOING_PRE_BUFFER_SIZE 149 #ifdef HAVE_HOST_CONTROLLER_API 150 #define HCI_OUTGOING_PRE_BUFFER_SIZE 0 151 #else 152 #ifdef ENABLE_H5 153 #define HCI_OUTGOING_PRE_BUFFER_SIZE 4 154 #else 155 #define HCI_OUTGOING_PRE_BUFFER_SIZE 1 156 #endif 157 #endif 158 #endif 159 160 // BNEP may uncompress the IP Header by 16 bytes, GATT Client requires two additional bytes for long characteristic reads 161 #ifndef HCI_INCOMING_PRE_BUFFER_SIZE 162 #ifdef ENABLE_CLASSIC 163 #define HCI_INCOMING_PRE_BUFFER_SIZE (16 - HCI_ACL_HEADER_SIZE - 4) 164 #else 165 #define HCI_INCOMING_PRE_BUFFER_SIZE 2 166 #endif 167 #endif 168 169 // 170 #define IS_COMMAND(packet, command) ( little_endian_read_16(packet,0) == command.opcode ) 171 172 // check if command complete event for given command 173 #define HCI_EVENT_IS_COMMAND_COMPLETE(event,cmd) ( (event[0] == HCI_EVENT_COMMAND_COMPLETE) && (little_endian_read_16(event,3) == cmd.opcode) ) 174 #define HCI_EVENT_IS_COMMAND_STATUS(event,cmd) ( (event[0] == HCI_EVENT_COMMAND_STATUS) && (little_endian_read_16(event,4) == cmd.opcode) ) 175 176 // Code+Len=2, Pkts+Opcode=3; total=5 177 #define OFFSET_OF_DATA_IN_COMMAND_COMPLETE 5 178 179 // ACL Packet 180 #define READ_ACL_CONNECTION_HANDLE( buffer ) ( little_endian_read_16(buffer,0) & 0x0fff) 181 #define READ_SCO_CONNECTION_HANDLE( buffer ) ( little_endian_read_16(buffer,0) & 0x0fff) 182 #define READ_ISO_CONNECTION_HANDLE( buffer ) ( little_endian_read_16(buffer,0) & 0x0fff) 183 #define READ_ACL_FLAGS( buffer ) ( buffer[1] >> 4 ) 184 #define READ_ACL_LENGTH( buffer ) (little_endian_read_16(buffer, 2)) 185 186 // Sneak peak into L2CAP Packet 187 #define READ_L2CAP_LENGTH(buffer) ( little_endian_read_16(buffer, 4)) 188 #define READ_L2CAP_CHANNEL_ID(buffer) ( little_endian_read_16(buffer, 6)) 189 190 /** 191 * LE connection parameter update state 192 */ 193 194 typedef enum { 195 CON_PARAMETER_UPDATE_NONE, 196 // L2CAP 197 CON_PARAMETER_UPDATE_SEND_REQUEST, 198 CON_PARAMETER_UPDATE_SEND_RESPONSE, 199 CON_PARAMETER_UPDATE_CHANGE_HCI_CON_PARAMETERS, 200 CON_PARAMETER_UPDATE_DENY, 201 // HCI - in respnose to HCI_SUBEVENT_LE_REMOTE_CONNECTION_PARAMETER_REQUEST 202 CON_PARAMETER_UPDATE_REPLY, 203 CON_PARAMETER_UPDATE_NEGATIVE_REPLY, 204 } le_con_parameter_update_state_t; 205 206 // Authentication flags 207 typedef enum { 208 AUTH_FLAG_NONE = 0x0000, 209 AUTH_FLAG_HANDLE_LINK_KEY_REQUEST = 0x0001, 210 AUTH_FLAG_DENY_PIN_CODE_REQUEST = 0x0002, 211 AUTH_FLAG_RECV_IO_CAPABILITIES_REQUEST = 0x0004, 212 AUTH_FLAG_RECV_IO_CAPABILITIES_RESPONSE = 0x0008, 213 AUTH_FLAG_SEND_IO_CAPABILITIES_REPLY = 0x0010, 214 AUTH_FLAG_SEND_IO_CAPABILITIES_NEGATIVE_REPLY = 0x0020, 215 AUTH_FLAG_SEND_USER_CONFIRM_REPLY = 0x0040, 216 AUTH_FLAG_SEND_USER_CONFIRM_NEGATIVE_REPLY = 0x0080, 217 AUTH_FLAG_SEND_USER_PASSKEY_REPLY = 0x0100, 218 219 // Classic OOB 220 AUTH_FLAG_SEND_REMOTE_OOB_DATA_REPLY = 0x0200, 221 222 // pairing status 223 AUTH_FLAG_LEGACY_PAIRING_ACTIVE = 0x0400, 224 AUTH_FLAG_SSP_PAIRING_ACTIVE = 0x0800, 225 AUTH_FLAG_PAIRING_ACTIVE_MASK = (AUTH_FLAG_LEGACY_PAIRING_ACTIVE | AUTH_FLAG_SSP_PAIRING_ACTIVE), 226 227 // connection status 228 AUTH_FLAG_CONNECTION_AUTHENTICATED = 0x1000, 229 AUTH_FLAG_CONNECTION_ENCRYPTED = 0x2000, 230 231 } hci_authentication_flags_t; 232 233 // GAP Connection Tasks 234 #define GAP_CONNECTION_TASK_WRITE_AUTOMATIC_FLUSH_TIMEOUT 0x0001u 235 #define GAP_CONNECTION_TASK_WRITE_SUPERVISION_TIMEOUT 0x0002u 236 #define GAP_CONNECTION_TASK_READ_RSSI 0x0004u 237 #define GAP_CONNECTION_TASK_LE_READ_REMOTE_FEATURES 0x0008u 238 239 /** 240 * Connection State 241 */ 242 typedef enum { 243 SEND_CREATE_CONNECTION = 0, 244 SENT_CREATE_CONNECTION, 245 RECEIVED_CONNECTION_REQUEST, 246 ACCEPTED_CONNECTION_REQUEST, 247 OPEN, 248 SEND_DISCONNECT, 249 SENT_DISCONNECT, 250 RECEIVED_DISCONNECTION_COMPLETE 251 } CONNECTION_STATE; 252 253 // bonding flags 254 enum { 255 // remote features 256 BONDING_REMOTE_FEATURES_QUERY_ACTIVE = 0x0001, 257 BONDING_REQUEST_REMOTE_FEATURES_PAGE_0 = 0x0002, 258 BONDING_REQUEST_REMOTE_FEATURES_PAGE_1 = 0x0004, 259 BONDING_REQUEST_REMOTE_FEATURES_PAGE_2 = 0x0008, 260 BONDING_RECEIVED_REMOTE_FEATURES = 0x0010, 261 BONDING_REMOTE_SUPPORTS_SSP_CONTROLLER = 0x0020, 262 BONDING_REMOTE_SUPPORTS_SSP_HOST = 0x0040, 263 BONDING_REMOTE_SUPPORTS_SC_CONTROLLER = 0x0080, 264 BONDING_REMOTE_SUPPORTS_SC_HOST = 0x0100, 265 // other 266 BONDING_DISCONNECT_SECURITY_BLOCK = 0x0200, 267 BONDING_DISCONNECT_DEDICATED_DONE = 0x0400, 268 BONDING_SEND_AUTHENTICATE_REQUEST = 0x0800, 269 BONDING_SENT_AUTHENTICATE_REQUEST = 0x1000, 270 BONDING_SEND_ENCRYPTION_REQUEST = 0x2000, 271 BONDING_SEND_READ_ENCRYPTION_KEY_SIZE = 0x4000, 272 BONDING_DEDICATED = 0x8000, 273 BONDING_DEDICATED_DEFER_DISCONNECT = 0x10000, 274 BONDING_EMIT_COMPLETE_ON_DISCONNECT = 0x20000, 275 }; 276 277 typedef enum { 278 BLUETOOTH_OFF = 1, 279 BLUETOOTH_ON, 280 BLUETOOTH_ACTIVE 281 } BLUETOOTH_STATE; 282 283 typedef enum { 284 LE_CONNECTING_IDLE, 285 LE_CONNECTING_CANCEL, 286 LE_CONNECTING_DIRECT, 287 LE_CONNECTING_WHITELIST, 288 } le_connecting_state_t; 289 290 #ifdef ENABLE_BLE 291 292 // 293 // SM internal types and globals 294 // 295 296 typedef enum { 297 298 // general states 299 SM_GENERAL_IDLE, 300 SM_GENERAL_SEND_PAIRING_FAILED, 301 SM_GENERAL_TIMEOUT, // no other security messages are exchanged 302 SM_GENERAL_REENCRYPTION_FAILED, 303 304 // Phase 1: Pairing Feature Exchange 305 SM_PH1_W4_USER_RESPONSE, 306 307 // Phase 2: Authenticating and Encrypting 308 309 // get random number for use as TK Passkey if we show it 310 SM_PH2_GET_RANDOM_TK, 311 SM_PH2_W4_RANDOM_TK, 312 313 // get local random number for confirm c1 314 SM_PH2_C1_GET_RANDOM_A, 315 SM_PH2_C1_W4_RANDOM_A, 316 SM_PH2_C1_GET_RANDOM_B, 317 SM_PH2_C1_W4_RANDOM_B, 318 319 // calculate confirm value for local side 320 SM_PH2_C1_GET_ENC_A, 321 SM_PH2_C1_W4_ENC_A, 322 323 // calculate confirm value for remote side 324 SM_PH2_C1_GET_ENC_C, 325 SM_PH2_C1_W4_ENC_C, 326 327 SM_PH2_C1_SEND_PAIRING_CONFIRM, 328 SM_PH2_SEND_PAIRING_RANDOM, 329 330 // calc STK 331 SM_PH2_CALC_STK, 332 SM_PH2_W4_STK, 333 334 SM_PH2_W4_CONNECTION_ENCRYPTED, 335 336 // Phase 3: Transport Specific Key Distribution 337 // calculate DHK, Y, EDIV, and LTK 338 SM_PH3_Y_GET_ENC, 339 SM_PH3_Y_W4_ENC, 340 SM_PH3_LTK_GET_ENC, 341 342 // exchange keys 343 SM_PH3_DISTRIBUTE_KEYS, 344 SM_PH3_RECEIVE_KEYS, 345 346 // Phase 4: re-establish previously distributed LTK 347 SM_PH4_W4_CONNECTION_ENCRYPTED, 348 349 // RESPONDER ROLE 350 SM_RESPONDER_IDLE, 351 SM_RESPONDER_SEND_SECURITY_REQUEST, 352 SM_RESPONDER_PH0_RECEIVED_LTK_REQUEST, 353 SM_RESPONDER_PH0_RECEIVED_LTK_W4_IRK, 354 SM_RESPONDER_PH0_SEND_LTK_REQUESTED_NEGATIVE_REPLY, 355 SM_RESPONDER_PH1_W4_PAIRING_REQUEST, 356 SM_RESPONDER_PH1_PAIRING_REQUEST_RECEIVED, 357 SM_RESPONDER_PH1_PAIRING_REQUEST_RECEIVED_W4_IRK, 358 SM_RESPONDER_PH1_SEND_PAIRING_RESPONSE, 359 SM_RESPONDER_PH1_W4_PAIRING_CONFIRM, 360 SM_RESPONDER_PH2_W4_PAIRING_RANDOM, 361 SM_RESPONDER_PH2_W4_LTK_REQUEST, 362 SM_RESPONDER_PH2_SEND_LTK_REPLY, 363 SM_RESPONDER_PH4_Y_W4_ENC, 364 SM_RESPONDER_PH4_SEND_LTK_REPLY, 365 366 // INITIATOR ROLE 367 SM_INITIATOR_CONNECTED, 368 SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST, 369 SM_INITIATOR_PH1_W4_PAIRING_RESPONSE, 370 SM_INITIATOR_PH2_W4_PAIRING_CONFIRM, 371 SM_INITIATOR_PH2_W4_PAIRING_RANDOM, 372 SM_INITIATOR_PH3_SEND_START_ENCRYPTION, 373 SM_INITIATOR_PH4_HAS_LTK, 374 375 // LE Secure Connections 376 SM_SC_RECEIVED_LTK_REQUEST, 377 SM_SC_SEND_PUBLIC_KEY_COMMAND, 378 SM_SC_W4_PUBLIC_KEY_COMMAND, 379 SM_SC_W4_LOCAL_NONCE, 380 SM_SC_W2_CMAC_FOR_CONFIRMATION, 381 SM_SC_W4_CMAC_FOR_CONFIRMATION, 382 SM_SC_SEND_CONFIRMATION, 383 SM_SC_W2_CMAC_FOR_CHECK_CONFIRMATION, 384 SM_SC_W4_CMAC_FOR_CHECK_CONFIRMATION, 385 SM_SC_W4_CONFIRMATION, 386 SM_SC_SEND_PAIRING_RANDOM, 387 SM_SC_W4_PAIRING_RANDOM, 388 SM_SC_W2_CALCULATE_G2, 389 SM_SC_W4_CALCULATE_G2, 390 SM_SC_W4_CALCULATE_DHKEY, 391 SM_SC_W2_CALCULATE_F5_SALT, 392 SM_SC_W4_CALCULATE_F5_SALT, 393 SM_SC_W2_CALCULATE_F5_MACKEY, 394 SM_SC_W4_CALCULATE_F5_MACKEY, 395 SM_SC_W2_CALCULATE_F5_LTK, 396 SM_SC_W4_CALCULATE_F5_LTK, 397 SM_SC_W2_CALCULATE_F6_FOR_DHKEY_CHECK, 398 SM_SC_W4_CALCULATE_F6_FOR_DHKEY_CHECK, 399 SM_SC_W2_CALCULATE_F6_TO_VERIFY_DHKEY_CHECK, 400 SM_SC_W4_CALCULATE_F6_TO_VERIFY_DHKEY_CHECK, 401 SM_SC_W4_USER_RESPONSE, 402 SM_SC_SEND_DHKEY_CHECK_COMMAND, 403 SM_SC_W4_DHKEY_CHECK_COMMAND, 404 SM_SC_W4_LTK_REQUEST_SC, 405 SM_SC_W2_CALCULATE_ILK_USING_H6, 406 SM_SC_W2_CALCULATE_ILK_USING_H7, 407 SM_SC_W4_CALCULATE_ILK, 408 SM_SC_W2_CALCULATE_BR_EDR_LINK_KEY, 409 SM_SC_W4_CALCULATE_BR_EDR_LINK_KEY, 410 411 // Classic 412 SM_BR_EDR_W4_ENCRYPTION_COMPLETE, 413 SM_BR_EDR_INITIATOR_W4_FIXED_CHANNEL_MASK, 414 SM_BR_EDR_INITIATOR_SEND_PAIRING_REQUEST, 415 SM_BR_EDR_INITIATOR_W4_PAIRING_RESPONSE, 416 SM_BR_EDR_RESPONDER_W4_PAIRING_REQUEST, 417 SM_BR_EDR_RESPONDER_PAIRING_REQUEST_RECEIVED, 418 SM_BR_EDR_DISTRIBUTE_KEYS, 419 SM_BR_EDR_RECEIVE_KEYS, 420 SM_BR_EDR_W2_CALCULATE_ILK_USING_H6, 421 SM_BR_EDR_W2_CALCULATE_ILK_USING_H7, 422 SM_BR_EDR_W4_CALCULATE_ILK, 423 SM_BR_EDR_W2_CALCULATE_LE_LTK, 424 SM_BR_EDR_W4_CALCULATE_LE_LTK, 425 } security_manager_state_t; 426 427 typedef enum { 428 IRK_LOOKUP_IDLE, 429 IRK_LOOKUP_W4_READY, 430 IRK_LOOKUP_STARTED, 431 IRK_LOOKUP_SUCCEEDED, 432 IRK_LOOKUP_FAILED 433 } irk_lookup_state_t; 434 435 typedef uint8_t sm_pairing_packet_t[7]; 436 437 // connection info available as long as connection exists 438 typedef struct sm_connection { 439 hci_con_handle_t sm_handle; 440 uint16_t sm_cid; 441 uint8_t sm_role; // 0 - IamMaster, 1 = IamSlave 442 uint8_t sm_security_request_received; 443 uint8_t sm_pairing_requested; 444 uint8_t sm_peer_addr_type; 445 bd_addr_t sm_peer_address; 446 uint8_t sm_own_addr_type; 447 bd_addr_t sm_own_address; 448 security_manager_state_t sm_engine_state; 449 irk_lookup_state_t sm_irk_lookup_state; 450 uint8_t sm_pairing_failed_reason; 451 uint8_t sm_connection_encrypted; 452 uint8_t sm_connection_authenticated; // [0..1] 453 uint8_t sm_connection_sc; 454 uint8_t sm_actual_encryption_key_size; 455 sm_pairing_packet_t sm_m_preq; // only used during c1 456 authorization_state_t sm_connection_authorization_state; 457 uint16_t sm_local_ediv; 458 uint8_t sm_local_rand[8]; 459 int sm_le_db_index; 460 bool sm_pairing_active; 461 bool sm_reencryption_active; 462 } sm_connection_t; 463 464 // 465 // ATT Server 466 // 467 468 // max ATT request matches L2CAP PDU -- allow to use smaller buffer 469 #ifndef ATT_REQUEST_BUFFER_SIZE 470 #define ATT_REQUEST_BUFFER_SIZE HCI_ACL_PAYLOAD_SIZE 471 #endif 472 473 typedef enum { 474 ATT_SERVER_IDLE, 475 ATT_SERVER_REQUEST_RECEIVED, 476 ATT_SERVER_W4_SIGNED_WRITE_VALIDATION, 477 ATT_SERVER_REQUEST_RECEIVED_AND_VALIDATED, 478 ATT_SERVER_RESPONSE_PENDING, 479 } att_server_state_t; 480 481 typedef enum { 482 ATT_BEARER_UNENHANCED_LE, 483 ATT_BEARER_UNENHANCED_CLASSIC, 484 ATT_BEARER_ENHANCED_LE, 485 ATT_BEARER_ENHANCED_CLASSIC 486 } att_bearer_type_t; 487 488 typedef struct { 489 att_server_state_t state; 490 491 uint8_t peer_addr_type; 492 bd_addr_t peer_address; 493 494 att_bearer_type_t bearer_type; 495 496 int ir_le_device_db_index; 497 uint8_t ir_lookup_active; 498 uint8_t pairing_active; 499 500 uint16_t value_indication_handle; 501 btstack_timer_source_t value_indication_timer; 502 503 btstack_linked_list_t notification_requests; 504 btstack_linked_list_t indication_requests; 505 506 #if defined(ENABLE_GATT_OVER_CLASSIC) || defined(ENABLE_GATT_OVER_EATT) 507 uint16_t l2cap_cid; 508 #endif 509 510 uint16_t request_size; 511 uint8_t request_buffer[ATT_REQUEST_BUFFER_SIZE]; 512 513 } att_server_t; 514 515 #endif 516 517 typedef enum { 518 L2CAP_INFORMATION_STATE_IDLE = 0, 519 L2CAP_INFORMATION_STATE_W2_SEND_EXTENDED_FEATURE_REQUEST, 520 L2CAP_INFORMATION_STATE_W4_EXTENDED_FEATURE_RESPONSE, 521 L2CAP_INFORMATION_STATE_W2_SEND_FIXED_CHANNELS_REQUEST, 522 L2CAP_INFORMATION_STATE_W4_FIXED_CHANNELS_RESPONSE, 523 L2CAP_INFORMATION_STATE_DONE 524 } l2cap_information_state_t; 525 526 typedef struct { 527 l2cap_information_state_t information_state; 528 uint16_t extended_feature_mask; 529 uint16_t fixed_channels_supported; // Core V5.3 - only first octet used 530 } l2cap_state_t; 531 532 // 533 typedef struct { 534 // linked list - assert: first field 535 btstack_linked_item_t item; 536 537 // remote side 538 bd_addr_t address; 539 540 // module handle 541 hci_con_handle_t con_handle; 542 543 // le public, le random, classic 544 bd_addr_type_t address_type; 545 546 // role: 0 - master, 1 - slave 547 hci_role_t role; 548 549 // connection state 550 CONNECTION_STATE state; 551 552 // bonding 553 uint32_t bonding_flags; 554 uint8_t bonding_status; 555 556 // encryption key size (in octets) 557 uint8_t encryption_key_size; 558 559 // requested security level 560 gap_security_level_t requested_security_level; 561 562 // link key and its type for Classic connections 563 // LTK and LTK valid flag for LE connections 564 link_key_t link_key; 565 link_key_type_t link_key_type; 566 567 #ifdef ENABLE_CLASSIC 568 // remote supported SCO packets based on remote supported features mask 569 uint16_t remote_supported_sco_packets; 570 571 // remote supported features 572 /* bit 0 - eSCO */ 573 /* bit 1 - extended features */ 574 uint8_t remote_supported_features[1]; 575 576 // IO Capabilities Response 577 uint8_t io_cap_response_auth_req; 578 uint8_t io_cap_response_io; 579 #ifdef ENABLE_CLASSIC_PAIRING_OOB 580 uint8_t io_cap_response_oob_data; 581 #endif 582 583 // connection mode, default ACL_CONNECTION_MODE_ACTIVE 584 uint8_t connection_mode; 585 586 // enter/exit sniff mode requests 587 uint16_t sniff_min_interval; // 0: idle, 0xffff exit sniff, else enter sniff 588 uint16_t sniff_max_interval; 589 uint16_t sniff_attempt; 590 uint16_t sniff_timeout; 591 592 // sniff subrating 593 uint16_t sniff_subrating_max_latency; // 0xffff = not set 594 uint16_t sniff_subrating_min_remote_timeout; 595 uint16_t sniff_subrating_min_local_timeout; 596 597 // QoS 598 hci_service_type_t qos_service_type; 599 uint32_t qos_token_rate; 600 uint32_t qos_peak_bandwidth; 601 uint32_t qos_latency; 602 uint32_t qos_delay_variation; 603 604 #ifdef ENABLE_SCO_OVER_HCI 605 // track SCO rx event 606 uint32_t sco_rx_ms; 607 uint8_t sco_rx_count; 608 uint8_t sco_rx_valid; 609 #endif 610 // generate sco can send now based on received packets, using timeout below 611 uint8_t sco_tx_ready; 612 613 // request role switch 614 hci_role_t request_role; 615 616 btstack_timer_source_t timeout_sco; 617 #endif /* ENABLE_CLASSIC */ 618 619 // authentication and other errands 620 uint16_t authentication_flags; 621 622 // gap connection tasks, see GAP_CONNECTION_TASK_x 623 uint16_t gap_connection_tasks; 624 625 btstack_timer_source_t timeout; 626 627 // timeout in system ticks (HAVE_EMBEDDED_TICK) or milliseconds (HAVE_EMBEDDED_TIME_MS) 628 uint32_t timestamp; 629 630 // ACL packet recombination - PRE_BUFFER + ACL Header + ACL payload 631 uint8_t acl_recombination_buffer[HCI_INCOMING_PRE_BUFFER_SIZE + 4 + HCI_ACL_BUFFER_SIZE]; 632 uint16_t acl_recombination_pos; 633 uint16_t acl_recombination_length; 634 635 636 // number packets sent to controller 637 uint8_t num_packets_sent; 638 639 #ifdef ENABLE_HCI_CONTROLLER_TO_HOST_FLOW_CONTROL 640 uint8_t num_packets_completed; 641 #endif 642 643 // LE Connection parameter update 644 le_con_parameter_update_state_t le_con_parameter_update_state; 645 uint8_t le_con_param_update_identifier; 646 uint16_t le_conn_interval_min; 647 uint16_t le_conn_interval_max; 648 uint16_t le_conn_latency; 649 uint16_t le_supervision_timeout; 650 651 #ifdef ENABLE_BLE 652 uint16_t le_connection_interval; 653 654 // LE PHY Update via set phy command 655 uint8_t le_phy_update_all_phys; // 0xff for idle 656 uint8_t le_phy_update_tx_phys; 657 uint8_t le_phy_update_rx_phys; 658 int8_t le_phy_update_phy_options; 659 660 // LE Security Manager 661 sm_connection_t sm_connection; 662 663 #ifdef ENABLE_LE_LIMIT_ACL_FRAGMENT_BY_MAX_OCTETS 664 uint16_t le_max_tx_octets; 665 #endif 666 667 // ATT Connection 668 att_connection_t att_connection; 669 670 // ATT Server 671 att_server_t att_server; 672 673 #ifdef ENABLE_LE_PERIODIC_ADVERTISING 674 hci_con_handle_t le_past_sync_handle; 675 uint16_t le_past_service_data; 676 #endif 677 678 #endif 679 680 l2cap_state_t l2cap_state; 681 682 #ifdef ENABLE_CLASSIC_PAIRING_OOB 683 const uint8_t * classic_oob_c_192; 684 const uint8_t * classic_oob_r_192; 685 const uint8_t * classic_oob_c_256; 686 const uint8_t * classic_oob_r_256; 687 #endif 688 689 } hci_connection_t; 690 691 #ifdef ENABLE_LE_ISOCHRONOUS_STREAMS 692 693 694 typedef enum { 695 HCI_ISO_TYPE_INVALID = 0, 696 HCI_ISO_TYPE_BIS, 697 HCI_ISO_TYPE_CIS, 698 } hci_iso_type_t; 699 700 #define HCI_ISO_GROUP_ID_SINGLE_CIS 0xfe 701 #define HCI_ISO_GROUP_ID_INVALID 0xff 702 703 typedef enum{ 704 HCI_ISO_STREAM_STATE_IDLE, 705 HCI_ISO_STREAM_W4_USER, 706 HCI_ISO_STREAM_W2_ACCEPT, 707 HCI_ISO_STREAM_W2_REJECT, 708 HCI_ISO_STREAM_STATE_REQUESTED, 709 HCI_ISO_STREAM_STATE_W4_ESTABLISHED, 710 HCI_ISO_STREAM_STATE_ESTABLISHED, 711 HCI_ISO_STREAM_STATE_W2_SETUP_ISO_INPUT, 712 HCI_ISO_STREAM_STATE_W4_ISO_SETUP_INPUT, 713 HCI_ISO_STREAM_STATE_W2_SETUP_ISO_OUTPUT, 714 HCI_ISO_STREAM_STATE_W4_ISO_SETUP_OUTPUT, 715 } hci_iso_stream_state_t; 716 717 typedef struct { 718 // linked list - assert: first field 719 btstack_linked_item_t item; 720 721 // state 722 hci_iso_stream_state_t state; 723 724 // iso type: bis or cis 725 hci_iso_type_t iso_type; 726 727 // group_id: big_handle or cig_id 728 uint8_t group_id; 729 730 // stream_id: bis_index or cis_id 731 uint8_t stream_id; 732 733 // only valid for HCI_ISO_TYPE_CIS 734 hci_con_handle_t cis_handle; 735 hci_con_handle_t acl_handle; 736 737 // connection info 738 uint16_t max_sdu_c_to_p; 739 uint16_t max_sdu_p_to_c; 740 741 // re-assembly buffer 742 uint16_t reassembly_pos; 743 uint8_t reassembly_buffer[HCI_ISO_PAYLOAD_SIZE]; 744 745 // number packets sent to controller 746 uint8_t num_packets_sent; 747 748 // packets to skip due to queuing them to late before 749 uint8_t num_packets_to_skip; 750 751 // request to send 752 bool can_send_now_requested; 753 754 // ready to send 755 bool emit_ready_to_send; 756 757 } hci_iso_stream_t; 758 #endif 759 760 /** 761 * HCI Initialization State Machine 762 */ 763 typedef enum hci_init_state{ 764 HCI_INIT_SEND_RESET = 0, 765 HCI_INIT_W4_SEND_RESET, 766 HCI_INIT_SEND_READ_LOCAL_VERSION_INFORMATION, 767 HCI_INIT_W4_SEND_READ_LOCAL_VERSION_INFORMATION, 768 769 #ifndef HAVE_HOST_CONTROLLER_API 770 HCI_INIT_SEND_READ_LOCAL_NAME, 771 HCI_INIT_W4_SEND_READ_LOCAL_NAME, 772 HCI_INIT_SEND_BAUD_CHANGE, 773 HCI_INIT_W4_SEND_BAUD_CHANGE, 774 HCI_INIT_CUSTOM_INIT, 775 HCI_INIT_W4_CUSTOM_INIT, 776 777 HCI_INIT_SEND_RESET_CSR_WARM_BOOT, 778 HCI_INIT_W4_CUSTOM_INIT_CSR_WARM_BOOT, 779 HCI_INIT_W4_CUSTOM_INIT_CSR_WARM_BOOT_LINK_RESET, 780 781 HCI_INIT_W4_CUSTOM_INIT_BCM_DELAY, 782 783 // Support for Pre-Init before HCI Reset 784 HCI_INIT_CUSTOM_PRE_INIT, 785 HCI_INIT_W4_CUSTOM_PRE_INIT, 786 #endif 787 788 HCI_INIT_READ_LOCAL_SUPPORTED_COMMANDS, 789 HCI_INIT_W4_READ_LOCAL_SUPPORTED_COMMANDS, 790 791 HCI_INIT_SEND_BAUD_CHANGE_BCM, 792 HCI_INIT_W4_SEND_BAUD_CHANGE_BCM, 793 794 HCI_INIT_SET_BD_ADDR, 795 HCI_INIT_W4_SET_BD_ADDR, 796 797 HCI_INIT_SEND_RESET_ST_WARM_BOOT, 798 HCI_INIT_W4_SEND_RESET_ST_WARM_BOOT, 799 800 HCI_INIT_READ_BD_ADDR, 801 HCI_INIT_W4_READ_BD_ADDR, 802 803 HCI_INIT_READ_BUFFER_SIZE, 804 HCI_INIT_W4_READ_BUFFER_SIZE, 805 HCI_INIT_READ_LOCAL_SUPPORTED_FEATURES, 806 HCI_INIT_W4_READ_LOCAL_SUPPORTED_FEATURES, 807 808 #ifdef ENABLE_HCI_CONTROLLER_TO_HOST_FLOW_CONTROL 809 HCI_INIT_HOST_BUFFER_SIZE, 810 HCI_INIT_W4_HOST_BUFFER_SIZE, 811 HCI_INIT_SET_CONTROLLER_TO_HOST_FLOW_CONTROL, 812 HCI_INIT_W4_SET_CONTROLLER_TO_HOST_FLOW_CONTROL, 813 #endif 814 815 HCI_INIT_SET_EVENT_MASK, 816 HCI_INIT_W4_SET_EVENT_MASK, 817 HCI_INIT_SET_EVENT_MASK_2, 818 HCI_INIT_W4_SET_EVENT_MASK_2, 819 820 #ifdef ENABLE_CLASSIC 821 HCI_INIT_WRITE_SIMPLE_PAIRING_MODE, 822 HCI_INIT_W4_WRITE_SIMPLE_PAIRING_MODE, 823 HCI_INIT_WRITE_INQUIRY_MODE, 824 HCI_INIT_W4_WRITE_INQUIRY_MODE, 825 HCI_INIT_WRITE_SECURE_CONNECTIONS_HOST_ENABLE, 826 HCI_INIT_W4_WRITE_SECURE_CONNECTIONS_HOST_ENABLE, 827 HCI_INIT_SET_MIN_ENCRYPTION_KEY_SIZE, 828 HCI_INIT_W4_SET_MIN_ENCRYPTION_KEY_SIZE, 829 830 #ifdef ENABLE_SCO_OVER_HCI 831 // SCO over HCI 832 HCI_INIT_WRITE_SYNCHRONOUS_FLOW_CONTROL_ENABLE, 833 HCI_INIT_W4_WRITE_SYNCHRONOUS_FLOW_CONTROL_ENABLE, 834 HCI_INIT_WRITE_DEFAULT_ERRONEOUS_DATA_REPORTING, 835 HCI_INIT_W4_WRITE_DEFAULT_ERRONEOUS_DATA_REPORTING, 836 #endif 837 838 #if defined(ENABLE_SCO_OVER_HCI) || defined(ENABLE_SCO_OVER_PCM) 839 // Broadcom SCO Routing and Configuration 840 HCI_INIT_BCM_WRITE_SCO_PCM_INT, 841 HCI_INIT_W4_BCM_WRITE_SCO_PCM_INT, 842 #endif 843 #ifdef ENABLE_SCO_OVER_PCM 844 HCI_INIT_BCM_WRITE_I2SPCM_INTERFACE_PARAM, 845 HCI_INIT_W4_BCM_WRITE_I2SPCM_INTERFACE_PARAM, 846 #endif 847 #endif 848 849 #ifdef ENABLE_BLE 850 HCI_INIT_LE_READ_BUFFER_SIZE, 851 HCI_INIT_W4_LE_READ_BUFFER_SIZE, 852 HCI_INIT_WRITE_LE_HOST_SUPPORTED, 853 HCI_INIT_W4_WRITE_LE_HOST_SUPPORTED, 854 HCI_INIT_LE_SET_EVENT_MASK, 855 HCI_INIT_W4_LE_SET_EVENT_MASK, 856 #endif 857 858 #ifdef ENABLE_LE_DATA_LENGTH_EXTENSION 859 HCI_INIT_LE_READ_MAX_DATA_LENGTH, 860 HCI_INIT_W4_LE_READ_MAX_DATA_LENGTH, 861 HCI_INIT_LE_WRITE_SUGGESTED_DATA_LENGTH, 862 HCI_INIT_W4_LE_WRITE_SUGGESTED_DATA_LENGTH, 863 #endif 864 865 #ifdef ENABLE_LE_CENTRAL 866 HCI_INIT_READ_WHITE_LIST_SIZE, 867 HCI_INIT_W4_READ_WHITE_LIST_SIZE, 868 #endif 869 870 #ifdef ENABLE_LE_PERIPHERAL 871 #ifdef ENABLE_LE_EXTENDED_ADVERTISING 872 HCI_INIT_LE_READ_MAX_ADV_DATA_LEN, 873 HCI_INIT_W4_LE_READ_MAX_ADV_DATA_LEN, 874 #endif 875 #endif 876 #ifdef ENABLE_LE_ISOCHRONOUS_STREAMS 877 HCI_INIT_LE_SET_HOST_FEATURE_CONNECTED_ISO_STREAMS, 878 HCI_INIT_W4_LE_SET_HOST_FEATURE_CONNECTED_ISO_STREAMS, 879 #endif 880 881 HCI_INIT_DONE, 882 883 HCI_FALLING_ASLEEP_DISCONNECT, 884 HCI_FALLING_ASLEEP_W4_WRITE_SCAN_ENABLE, 885 HCI_FALLING_ASLEEP_COMPLETE, 886 887 HCI_INIT_AFTER_SLEEP, 888 889 HCI_HALTING_CLASSIC_STOP, 890 HCI_HALTING_LE_ADV_STOP, 891 HCI_HALTING_LE_SCAN_STOP, 892 HCI_HALTING_DISCONNECT_ALL, 893 HCI_HALTING_W4_CLOSE_TIMER, 894 HCI_HALTING_CLOSE, 895 HCI_HALTING_CLOSE_DISCARDING_CONNECTIONS, 896 897 } hci_substate_t; 898 899 #define GAP_TASK_SET_LOCAL_NAME 0x01 900 #define GAP_TASK_SET_EIR_DATA 0x02 901 #define GAP_TASK_SET_CLASS_OF_DEVICE 0x04 902 #define GAP_TASK_SET_DEFAULT_LINK_POLICY 0x08 903 #define GAP_TASK_WRITE_SCAN_ENABLE 0x10 904 #define GAP_TASK_WRITE_PAGE_SCAN_ACTIVITY 0x20 905 #define GAP_TASK_WRITE_PAGE_SCAN_TYPE 0x40 906 #define GAP_TASK_WRITE_PAGE_TIMEOUT 0x80 907 #define GAP_TASK_WRITE_INQUIRY_SCAN_ACTIVITY 0x100 908 909 enum { 910 // Tasks 911 LE_ADVERTISEMENT_TASKS_SET_ADV_DATA = 1 << 0, 912 LE_ADVERTISEMENT_TASKS_SET_SCAN_DATA = 1 << 1, 913 LE_ADVERTISEMENT_TASKS_SET_PARAMS = 1 << 2, 914 LE_ADVERTISEMENT_TASKS_SET_PERIODIC_PARAMS = 1 << 3, 915 LE_ADVERTISEMENT_TASKS_SET_PERIODIC_DATA = 1 << 4, 916 LE_ADVERTISEMENT_TASKS_REMOVE_SET = 1 << 5, 917 LE_ADVERTISEMENT_TASKS_SET_ADDRESS = 1 << 6, 918 LE_ADVERTISEMENT_TASKS_SET_ADDRESS_SET_0 = 1 << 7, 919 }; 920 921 enum { 922 // State 923 LE_ADVERTISEMENT_STATE_PARAMS_SET = 1 << 0, 924 LE_ADVERTISEMENT_STATE_ACTIVE = 1 << 1, 925 LE_ADVERTISEMENT_STATE_ENABLED = 1 << 2, 926 LE_ADVERTISEMENT_STATE_PERIODIC_ACTIVE = 1 << 3, 927 LE_ADVERTISEMENT_STATE_PERIODIC_ENABLED = 1 << 4, 928 }; 929 930 enum { 931 LE_WHITELIST_ON_CONTROLLER = 1 << 0, 932 LE_WHITELIST_ADD_TO_CONTROLLER = 1 << 1, 933 LE_WHITELIST_REMOVE_FROM_CONTROLLER = 1 << 2, 934 }; 935 936 enum { 937 LE_PERIODIC_ADVERTISER_LIST_ENTRY_ON_CONTROLLER = 1 << 0, 938 LE_PERIODIC_ADVERTISER_LIST_ENTRY_ADD_TO_CONTROLLER = 1 << 1, 939 LE_PERIODIC_ADVERTISER_LIST_ENTRY_REMOVE_FROM_CONTROLLER = 1 << 2, 940 }; 941 942 typedef struct { 943 btstack_linked_item_t item; 944 bd_addr_t address; 945 bd_addr_type_t address_type; 946 uint8_t state; 947 } whitelist_entry_t; 948 949 typedef struct { 950 btstack_linked_item_t item; 951 bd_addr_t address; 952 bd_addr_type_t address_type; 953 uint8_t sid; 954 uint8_t state; 955 } periodic_advertiser_list_entry_t; 956 957 #define MAX_NUM_RESOLVING_LIST_ENTRIES 64 958 typedef enum { 959 LE_RESOLVING_LIST_SEND_ENABLE_ADDRESS_RESOLUTION, 960 LE_RESOLVING_LIST_READ_SIZE, 961 LE_RESOLVING_LIST_SEND_CLEAR, 962 LE_RESOLVING_LIST_UPDATES_ENTRIES, 963 LE_RESOLVING_LIST_DONE 964 } le_resolving_list_state_t; 965 966 /** 967 * main data structure 968 */ 969 typedef struct { 970 // transport component with configuration 971 const hci_transport_t * hci_transport; 972 const void * config; 973 974 // chipset driver 975 const btstack_chipset_t * chipset; 976 977 // chipset driver requires pre-init 978 bool chipset_pre_init; 979 980 // hardware power controller 981 const btstack_control_t * control; 982 983 #ifdef ENABLE_CLASSIC 984 /* link key db */ 985 const btstack_link_key_db_t * link_key_db; 986 #endif 987 988 // list of existing baseband connections 989 btstack_linked_list_t connections; 990 991 /* callback to L2CAP layer */ 992 btstack_packet_handler_t acl_packet_handler; 993 994 /* callback for SCO data */ 995 btstack_packet_handler_t sco_packet_handler; 996 997 /* callbacks for events */ 998 btstack_linked_list_t event_handlers; 999 1000 #ifdef ENABLE_CLASSIC 1001 /* callback for reject classic connection */ 1002 int (*gap_classic_accept_callback)(bd_addr_t addr, hci_link_type_t link_type); 1003 #endif 1004 1005 // hardware error callback 1006 void (*hardware_error_callback)(uint8_t error); 1007 1008 #ifdef ENABLE_LE_ISOCHRONOUS_STREAMS 1009 /* callback for ISO data */ 1010 btstack_packet_handler_t iso_packet_handler; 1011 1012 /* fragmentation for ISO data */ 1013 uint16_t iso_fragmentation_pos; 1014 uint16_t iso_fragmentation_total_size; 1015 bool iso_fragmentation_tx_active; 1016 1017 uint8_t iso_packets_to_queue; 1018 // group id and type of active operation 1019 hci_iso_type_t iso_active_operation_type; 1020 uint8_t iso_active_operation_group_id; 1021 1022 // list of iso streams 1023 btstack_linked_list_t iso_streams; 1024 1025 // list of BIGs and BIG Syncs 1026 btstack_linked_list_t le_audio_bigs; 1027 btstack_linked_list_t le_audio_big_syncs; 1028 1029 // list of CIGs 1030 btstack_linked_list_t le_audio_cigs; 1031 #endif 1032 1033 // basic configuration 1034 const char * local_name; 1035 const uint8_t * eir_data; 1036 uint32_t class_of_device; 1037 bd_addr_t local_bd_addr; 1038 uint16_t default_link_policy_settings; 1039 uint8_t allow_role_switch; 1040 uint8_t ssp_enable; 1041 uint8_t ssp_io_capability; 1042 uint8_t ssp_authentication_requirement; 1043 uint8_t ssp_auto_accept; 1044 bool secure_connections_enable; 1045 bool secure_connections_active; 1046 inquiry_mode_t inquiry_mode; 1047 1048 #ifdef ENABLE_CLASSIC 1049 /* GAP tasks, see GAP_TASK_* */ 1050 uint16_t gap_tasks_classic; 1051 1052 /* write page scan activity */ 1053 uint16_t new_page_scan_interval; 1054 uint16_t new_page_scan_window; 1055 1056 /* write page scan type */ 1057 uint8_t new_page_scan_type; 1058 1059 /* write page timeout */ 1060 uint16_t page_timeout; 1061 1062 // Errata-11838 mandates 7 bytes for GAP Security Level 1-3, we use 16 as default 1063 uint8_t gap_required_encyrption_key_size; 1064 1065 uint16_t link_supervision_timeout; 1066 uint16_t automatic_flush_timeout; 1067 1068 gap_security_level_t gap_security_level; 1069 gap_security_level_t gap_minimal_service_security_level; 1070 gap_security_mode_t gap_security_mode; 1071 1072 uint32_t inquiry_lap; // GAP_IAC_GENERAL_INQUIRY or GAP_IAC_LIMITED_INQUIRY 1073 uint16_t inquiry_scan_interval; 1074 uint16_t inquiry_scan_window; 1075 1076 bool gap_secure_connections_only_mode; 1077 #endif 1078 1079 // single buffer for HCI packet assembly + additional prebuffer for H4 drivers 1080 uint8_t * hci_packet_buffer; 1081 uint8_t hci_packet_buffer_data[HCI_OUTGOING_PRE_BUFFER_SIZE + HCI_OUTGOING_PACKET_BUFFER_SIZE]; 1082 bool hci_packet_buffer_reserved; 1083 uint16_t acl_fragmentation_pos; 1084 uint16_t acl_fragmentation_total_size; 1085 uint8_t acl_fragmentation_tx_active; 1086 1087 /* host to controller flow control */ 1088 uint8_t num_cmd_packets; 1089 uint8_t acl_packets_total_num; 1090 uint16_t acl_data_packet_length; 1091 uint8_t sco_packets_total_num; 1092 uint8_t sco_data_packet_length; 1093 uint8_t synchronous_flow_control_enabled; 1094 uint8_t le_acl_packets_total_num; 1095 uint16_t le_data_packets_length; 1096 uint8_t le_iso_packets_total_num; 1097 uint16_t le_iso_packets_length; 1098 uint8_t sco_waiting_for_can_send_now; 1099 bool sco_can_send_now; 1100 1101 /* local supported features */ 1102 uint8_t local_supported_features[8]; 1103 1104 /* local supported commands summary - complete info is 64 bytes */ 1105 uint32_t local_supported_commands; 1106 1107 /* bluetooth device information from hci read local version information */ 1108 // uint16_t hci_version; 1109 // uint16_t hci_revision; 1110 // uint16_t lmp_version; 1111 uint16_t manufacturer; 1112 // uint16_t lmp_subversion; 1113 1114 // usable ACL packet types given HCI_ACL_BUFFER_SIZE and local supported features 1115 uint16_t usable_packet_types_acl; 1116 1117 // usable SCO packet types given local supported features 1118 uint16_t usable_packet_types_sco; 1119 1120 /* hci state machine */ 1121 HCI_STATE state; 1122 hci_substate_t substate; 1123 btstack_timer_source_t timeout; 1124 btstack_chipset_result_t chipset_result; 1125 1126 uint16_t last_cmd_opcode; 1127 1128 uint8_t cmds_ready; 1129 1130 /* buffer for scan enable cmd - 0xff no change */ 1131 uint8_t new_scan_enable_value; 1132 1133 uint8_t discoverable; 1134 uint8_t connectable; 1135 uint8_t bondable; 1136 1137 uint8_t inquiry_state; // see hci.c for state defines 1138 uint16_t inquiry_max_period_length; 1139 uint16_t inquiry_min_period_length; 1140 1141 bd_addr_t remote_name_addr; 1142 uint16_t remote_name_clock_offset; 1143 uint8_t remote_name_page_scan_repetition_mode; 1144 uint8_t remote_name_state; // see hci.c for state defines 1145 1146 bd_addr_t gap_pairing_addr; 1147 uint8_t gap_pairing_state; // see hci.c for state defines 1148 uint8_t gap_pairing_pin_len; 1149 union { 1150 const uint8_t * gap_pairing_pin; 1151 uint32_t gap_pairing_passkey; 1152 } gap_pairing_input; 1153 1154 uint16_t sco_voice_setting; 1155 uint16_t sco_voice_setting_active; 1156 1157 uint8_t loopback_mode; 1158 1159 // buffer for single connection decline 1160 uint8_t decline_reason; 1161 bd_addr_t decline_addr; 1162 1163 #ifdef ENABLE_HCI_CONTROLLER_TO_HOST_FLOW_CONTROL 1164 uint8_t host_completed_packets; 1165 #endif 1166 1167 #ifdef ENABLE_BLE 1168 uint8_t le_own_addr_type; 1169 bd_addr_t le_random_address; 1170 uint8_t le_random_address_set; 1171 1172 // LE Whitelist Management 1173 uint8_t le_whitelist_capacity; 1174 btstack_linked_list_t le_whitelist; 1175 1176 // Connection parameters 1177 uint16_t le_connection_scan_interval; 1178 uint16_t le_connection_scan_window; 1179 uint16_t le_connection_interval_min; 1180 uint16_t le_connection_interval_max; 1181 uint16_t le_connection_latency; 1182 uint16_t le_supervision_timeout; 1183 uint16_t le_minimum_ce_length; 1184 uint16_t le_maximum_ce_length; 1185 #endif 1186 1187 #ifdef ENABLE_LE_CENTRAL 1188 bool le_scanning_enabled; 1189 bool le_scanning_active; 1190 1191 le_connecting_state_t le_connecting_state; 1192 le_connecting_state_t le_connecting_request; 1193 1194 bool le_scanning_param_update; 1195 uint8_t le_scan_filter_duplicates; 1196 uint8_t le_scan_type; 1197 uint8_t le_scan_filter_policy; 1198 uint8_t le_scan_phys; 1199 uint16_t le_scan_interval; 1200 uint16_t le_scan_window; 1201 1202 uint8_t le_connection_own_addr_type; 1203 uint8_t le_connection_phys; 1204 bd_addr_t le_connection_own_address; 1205 1206 #ifdef ENABLE_LE_EXTENDED_ADVERTISING 1207 btstack_linked_list_t le_periodic_advertiser_list; 1208 uint16_t le_periodic_terminate_sync_handle; 1209 1210 // Periodic Advertising Sync parameters 1211 uint8_t le_periodic_sync_options; 1212 uint8_t le_periodic_sync_advertising_sid; 1213 bd_addr_type_t le_periodic_sync_advertiser_address_type; 1214 bd_addr_t le_periodic_sync_advertiser_address; 1215 uint16_t le_periodic_sync_skip; 1216 uint16_t le_periodic_sync_timeout; 1217 uint8_t le_periodic_sync_cte_type; 1218 le_connecting_state_t le_periodic_sync_state; 1219 le_connecting_state_t le_periodic_sync_request; 1220 1221 // Periodic Advertising Sync Transfer (PAST) 1222 bool le_past_set_default_params; 1223 uint8_t le_past_mode; 1224 uint16_t le_past_skip; 1225 uint16_t le_past_sync_timeout; 1226 uint8_t le_past_cte_type; 1227 #endif 1228 #endif 1229 1230 le_connection_parameter_range_t le_connection_parameter_range; 1231 1232 // TODO: move LE_ADVERTISEMENT_TASKS_SET_ADDRESS flag which is used for both roles into 1233 // some generic gap_le variable 1234 uint8_t le_advertisements_todo; 1235 1236 #ifdef ENABLE_LE_PERIPHERAL 1237 uint8_t * le_advertisements_data; 1238 uint8_t le_advertisements_data_len; 1239 1240 uint8_t * le_scan_response_data; 1241 uint8_t le_scan_response_data_len; 1242 1243 uint16_t le_advertisements_interval_min; 1244 uint16_t le_advertisements_interval_max; 1245 uint8_t le_advertisements_type; 1246 uint8_t le_advertisements_direct_address_type; 1247 uint8_t le_advertisements_channel_map; 1248 uint8_t le_advertisements_filter_policy; 1249 bd_addr_t le_advertisements_direct_address; 1250 uint8_t le_advertisements_own_addr_type; 1251 bd_addr_t le_advertisements_own_address; 1252 1253 uint8_t le_advertisements_state; 1254 1255 bool le_advertisements_enabled_for_current_roles; 1256 uint8_t le_max_number_peripheral_connections; 1257 1258 #ifdef ENABLE_LE_EXTENDED_ADVERTISING 1259 btstack_linked_list_t le_advertising_sets; 1260 uint16_t le_maximum_advertising_data_length; 1261 uint8_t le_advertising_set_in_current_command; 1262 #endif 1263 #endif 1264 1265 #ifdef ENABLE_LE_DATA_LENGTH_EXTENSION 1266 // LE Data Length 1267 uint16_t le_supported_max_tx_octets; 1268 uint16_t le_supported_max_tx_time; 1269 #endif 1270 1271 // custom BD ADDR 1272 bd_addr_t custom_bd_addr; 1273 uint8_t custom_bd_addr_set; 1274 1275 #ifdef ENABLE_CLASSIC 1276 uint8_t master_slave_policy; 1277 #endif 1278 1279 // address and address_type of active create connection command (ACL, SCO, LE) 1280 bd_addr_t outgoing_addr; 1281 bd_addr_type_t outgoing_addr_type; 1282 1283 // LE Resolving List 1284 #ifdef ENABLE_LE_PRIVACY_ADDRESS_RESOLUTION 1285 le_privacy_mode_t le_privacy_mode; 1286 le_resolving_list_state_t le_resolving_list_state; 1287 uint16_t le_resolving_list_size; 1288 uint8_t le_resolving_list_add_entries[(MAX_NUM_RESOLVING_LIST_ENTRIES + 7) / 8]; 1289 uint8_t le_resolving_list_set_privacy_mode[(MAX_NUM_RESOLVING_LIST_ENTRIES + 7) / 8]; 1290 uint8_t le_resolving_list_remove_entries[(MAX_NUM_RESOLVING_LIST_ENTRIES + 7) / 8]; 1291 #endif 1292 1293 #ifdef ENABLE_CLASSIC_PAIRING_OOB 1294 bool classic_read_local_oob_data; 1295 hci_con_handle_t classic_oob_con_handle; 1296 #endif 1297 1298 #ifdef HAVE_SCO_TRANSPORT 1299 const btstack_sco_transport_t * sco_transport; 1300 #endif 1301 } hci_stack_t; 1302 1303 1304 /* API_START */ 1305 1306 1307 // HCI init and configuration 1308 1309 1310 /** 1311 * @brief Set up HCI. Needs to be called before any other function. 1312 */ 1313 void hci_init(const hci_transport_t *transport, const void *config); 1314 1315 /** 1316 * @brief Configure Bluetooth chipset driver. Has to be called before power on, or right after receiving the local version information. 1317 */ 1318 void hci_set_chipset(const btstack_chipset_t *chipset_driver); 1319 1320 /** 1321 * @brief Enable custom init for chipset driver to send HCI commands before HCI Reset 1322 */ 1323 void hci_enable_custom_pre_init(void); 1324 1325 /** 1326 * @brief Configure Bluetooth hardware control. Has to be called before power on. 1327 * @[aram hardware_control implementation 1328 */ 1329 void hci_set_control(const btstack_control_t *hardware_control); 1330 1331 #ifdef HAVE_SCO_TRANSPORT 1332 /** 1333 * @brief Set SCO Transport implementation for SCO over PCM mode 1334 * @param sco_transport that sends SCO over I2S or PCM interface 1335 */ 1336 void hci_set_sco_transport(const btstack_sco_transport_t *sco_transport); 1337 #endif 1338 1339 #ifdef ENABLE_CLASSIC 1340 /** 1341 * @brief Configure Bluetooth hardware control. Has to be called before power on. 1342 */ 1343 void hci_set_link_key_db(btstack_link_key_db_t const * link_key_db); 1344 #endif 1345 1346 /** 1347 * @brief Set callback for Bluetooth Hardware Error 1348 */ 1349 void hci_set_hardware_error_callback(void (*fn)(uint8_t error)); 1350 1351 /** 1352 * @brief Set Public BD ADDR - passed on to Bluetooth chipset during init if supported in bt_control_h 1353 */ 1354 void hci_set_bd_addr(bd_addr_t addr); 1355 1356 /** 1357 * @brief Configure Voice Setting for use with SCO data in HSP/HFP 1358 */ 1359 void hci_set_sco_voice_setting(uint16_t voice_setting); 1360 1361 /** 1362 * @brief Get SCO Voice Setting 1363 * @return current voice setting 1364 */ 1365 uint16_t hci_get_sco_voice_setting(void); 1366 1367 /** 1368 * @brief Set number of ISO packets to buffer for BIS/CIS 1369 * @param num_packets (default = 1) 1370 */ 1371 void hci_set_num_iso_packets_to_queue(uint8_t num_packets); 1372 1373 /** 1374 * @brief Set inquiry mode: standard, with RSSI, with RSSI + Extended Inquiry Results. Has to be called before power on. 1375 * @param inquriy_mode see bluetooth_defines.h 1376 */ 1377 void hci_set_inquiry_mode(inquiry_mode_t inquriy_mode); 1378 1379 /** 1380 * @brief Requests the change of BTstack power mode. 1381 * @param power_mode 1382 * @return 0 if success, otherwise error 1383 */ 1384 int hci_power_control(HCI_POWER_MODE power_mode); 1385 1386 /** 1387 * @brief Shutdown HCI 1388 */ 1389 void hci_close(void); 1390 1391 1392 // Callback registration 1393 1394 1395 /** 1396 * @brief Add event packet handler. 1397 */ 1398 void hci_add_event_handler(btstack_packet_callback_registration_t * callback_handler); 1399 1400 /** 1401 * @brief Remove event packet handler. 1402 */ 1403 void hci_remove_event_handler(btstack_packet_callback_registration_t * callback_handler); 1404 1405 /** 1406 * @brief Registers a packet handler for ACL data. Used by L2CAP 1407 */ 1408 void hci_register_acl_packet_handler(btstack_packet_handler_t handler); 1409 1410 /** 1411 * @brief Registers a packet handler for SCO data. Used for HSP and HFP profiles. 1412 */ 1413 void hci_register_sco_packet_handler(btstack_packet_handler_t handler); 1414 1415 /** 1416 * @brief Registers a packet handler for ISO data. Used for LE Audio profiles 1417 */ 1418 void hci_register_iso_packet_handler(btstack_packet_handler_t handler); 1419 1420 // Sending HCI Commands 1421 1422 /** 1423 * @brief Check if CMD packet can be sent to controller 1424 * @return true if command can be sent 1425 */ 1426 bool hci_can_send_command_packet_now(void); 1427 1428 /** 1429 * @brief Creates and sends HCI command packets based on a template and a list of parameters. Will return error if outgoing data buffer is occupied. 1430 * @return status 1431 */ 1432 uint8_t hci_send_cmd(const hci_cmd_t * cmd, ...); 1433 1434 1435 // Sending SCO Packets 1436 1437 /** @brief Get SCO packet length for current SCO Voice setting 1438 * @note Using SCO packets of the exact length is required for USB transfer 1439 * @return Length of SCO packets in bytes (not audio frames) incl. 3 byte header 1440 */ 1441 uint16_t hci_get_sco_packet_length(void); 1442 1443 /** 1444 * @brief Request emission of HCI_EVENT_SCO_CAN_SEND_NOW as soon as possible 1445 * @note HCI_EVENT_SCO_CAN_SEND_NOW might be emitted during call to this function 1446 * so packet handler should be ready to handle it 1447 */ 1448 void hci_request_sco_can_send_now_event(void); 1449 1450 /** 1451 * @brief Check HCI packet buffer and if SCO packet can be sent to controller 1452 * @return true if sco packet can be sent 1453 */ 1454 bool hci_can_send_sco_packet_now(void); 1455 1456 /** 1457 * @brief Check if SCO packet can be sent to controller 1458 * @return true if sco packet can be sent 1459 */ 1460 bool hci_can_send_prepared_sco_packet_now(void); 1461 1462 /** 1463 * @brief Send SCO packet prepared in HCI packet buffer 1464 */ 1465 uint8_t hci_send_sco_packet_buffer(int size); 1466 1467 /** 1468 * @brief Request emission of HCI_EVENT_BIS_CAN_SEND_NOW for all BIS as soon as possible 1469 * @param big_handle 1470 * @note HCI_EVENT_ISO_CAN_SEND_NOW might be emitted during call to this function 1471 * so packet handler should be ready to handle it 1472 */ 1473 uint8_t hci_request_bis_can_send_now_events(uint8_t big_handle); 1474 1475 /** 1476 * @brief Request emission of HCI_EVENT_CIS_CAN_SEND_NOW for CIS as soon as possible 1477 * @param cis_con_handle 1478 * @note HCI_EVENT_CIS_CAN_SEND_NOW might be emitted during call to this function 1479 * so packet handler should be ready to handle it 1480 */ 1481 uint8_t hci_request_cis_can_send_now_events(hci_con_handle_t cis_con_handle); 1482 1483 /** 1484 * @brief Send ISO packet prepared in HCI packet buffer 1485 */ 1486 uint8_t hci_send_iso_packet_buffer(uint16_t size); 1487 1488 /** 1489 * Reserves outgoing packet buffer. 1490 * @return true on success 1491 */ 1492 bool hci_reserve_packet_buffer(void); 1493 1494 /** 1495 * Get pointer for outgoing packet buffer 1496 */ 1497 uint8_t* hci_get_outgoing_packet_buffer(void); 1498 1499 /** 1500 * Release outgoing packet buffer\ 1501 * @note only called instead of hci_send_preparared 1502 */ 1503 void hci_release_packet_buffer(void); 1504 1505 /** 1506 * @brief Sets the master/slave policy 1507 * @param policy (0: attempt to become master, 1: let connecting device decide) 1508 */ 1509 void hci_set_master_slave_policy(uint8_t policy); 1510 1511 /* API_END */ 1512 1513 1514 /** 1515 * va_list version of hci_send_cmd, call hci_send_cmd_packet 1516 * @return status 1517 */ 1518 uint8_t hci_send_cmd_va_arg(const hci_cmd_t * cmd, va_list argptr); 1519 1520 /** 1521 * Get connection iterator. Only used by l2cap.c and sm.c 1522 */ 1523 void hci_connections_get_iterator(btstack_linked_list_iterator_t *it); 1524 1525 /** 1526 * Get internal hci_connection_t for given handle. Used by L2CAP, SM, daemon 1527 */ 1528 hci_connection_t * hci_connection_for_handle(hci_con_handle_t con_handle); 1529 1530 /** 1531 * Get internal hci_connection_t for given Bluetooth addres. Called by L2CAP 1532 */ 1533 hci_connection_t * hci_connection_for_bd_addr_and_type(const bd_addr_t addr, bd_addr_type_t addr_type); 1534 1535 /** 1536 * Check if outgoing packet buffer is reserved. Used for internal checks in l2cap.c 1537 * @return true if packet buffer is reserved 1538 */ 1539 bool hci_is_packet_buffer_reserved(void); 1540 1541 /** 1542 * Check hci packet buffer is free and a classic acl packet can be sent to controller 1543 * @return true if ACL Classic packet can be sent now 1544 */ 1545 bool hci_can_send_acl_classic_packet_now(void); 1546 1547 /** 1548 * Check hci packet buffer is free and an LE acl packet can be sent to controller 1549 * @return true if ACL LE packet can be sent now 1550 */ 1551 bool hci_can_send_acl_le_packet_now(void); 1552 1553 /** 1554 * Check hci packet buffer is free and an acl packet for the given handle can be sent to controller 1555 * @return true if ACL packet for con_handle can be sent now 1556 */ 1557 bool hci_can_send_acl_packet_now(hci_con_handle_t con_handle); 1558 1559 /** 1560 * Check if acl packet for the given handle can be sent to controller 1561 * @return true if ACL packet for con_handle can be sent now 1562 */ 1563 bool hci_can_send_prepared_acl_packet_now(hci_con_handle_t con_handle); 1564 1565 /** 1566 * Send acl packet prepared in hci packet buffer 1567 * @return status 1568 */ 1569 uint8_t hci_send_acl_packet_buffer(int size); 1570 1571 /** 1572 * Check if authentication is active. It delays automatic disconnect while no L2CAP connection 1573 * Called by l2cap. 1574 */ 1575 bool hci_authentication_active_for_handle(hci_con_handle_t handle); 1576 1577 /** 1578 * Get maximal ACL Classic data packet length based on used buffer size. Called by L2CAP 1579 */ 1580 uint16_t hci_max_acl_data_packet_length(void); 1581 1582 /** 1583 * Get supported ACL packet types. Already flipped for create connection. Called by L2CAP 1584 */ 1585 uint16_t hci_usable_acl_packet_types(void); 1586 1587 /** 1588 * Get supported SCO packet types. Not flipped. Called by HFP 1589 */ 1590 uint16_t hci_usable_sco_packet_types(void); 1591 1592 /** 1593 * Check if ACL packets marked as non flushable can be sent. Called by L2CAP 1594 */ 1595 bool hci_non_flushable_packet_boundary_flag_supported(void); 1596 1597 /** 1598 * Return current automatic flush timeout setting 1599 */ 1600 uint16_t hci_automatic_flush_timeout(void); 1601 1602 /** 1603 * Check if remote supported features query has completed 1604 */ 1605 bool hci_remote_features_available(hci_con_handle_t con_handle); 1606 1607 /** 1608 * Trigger remote supported features query 1609 */ 1610 void hci_remote_features_query(hci_con_handle_t con_handle); 1611 1612 /** 1613 * Check if extended SCO Link is supported 1614 */ 1615 bool hci_extended_sco_link_supported(void); 1616 1617 /** 1618 * Check if SSP is supported on both sides. Called by L2CAP 1619 */ 1620 bool gap_ssp_supported_on_both_sides(hci_con_handle_t handle); 1621 1622 /** 1623 * Disconn because of security block. Called by L2CAP 1624 */ 1625 void hci_disconnect_security_block(hci_con_handle_t con_handle); 1626 1627 /** 1628 * Query if remote side supports eSCO 1629 * @param con_handle 1630 */ 1631 bool hci_remote_esco_supported(hci_con_handle_t con_handle); 1632 1633 /** 1634 * Query remote supported SCO packets based on remote supported features 1635 * @param con_handle 1636 */ 1637 uint16_t hci_remote_sco_packet_types(hci_con_handle_t con_handle); 1638 1639 /** 1640 * Emit current HCI state. Called by daemon 1641 */ 1642 void hci_emit_state(void); 1643 1644 /** 1645 * Send complete CMD packet. Called by daemon and hci_send_cmd_va_arg 1646 * @return status 1647 */ 1648 uint8_t hci_send_cmd_packet(uint8_t *packet, int size); 1649 1650 /** 1651 * Disconnect all HCI connections. Called by daemon 1652 */ 1653 void hci_disconnect_all(void); 1654 1655 /** 1656 * Get number of free acl slots for packets of given handle. Called by daemon 1657 */ 1658 int hci_number_free_acl_slots_for_handle(hci_con_handle_t con_handle); 1659 1660 /** 1661 * @brief Set Advertisement Parameters 1662 * @param adv_int_min 1663 * @param adv_int_max 1664 * @param adv_type 1665 * @param direct_address_type 1666 * @param direct_address 1667 * @param channel_map 1668 * @param filter_policy 1669 * 1670 * @note internal use. use gap_advertisements_set_params from gap.h instead. 1671 */ 1672 void hci_le_advertisements_set_params(uint16_t adv_int_min, uint16_t adv_int_max, uint8_t adv_type, 1673 uint8_t direct_address_typ, bd_addr_t direct_address, uint8_t channel_map, uint8_t filter_policy); 1674 1675 /** 1676 * 1677 * @note internal use. use gap_random_address_set_mode from gap.h instead. 1678 */ 1679 void hci_le_set_own_address_type(uint8_t own_address_type); 1680 1681 /** 1682 * @naote internal use. use gap_random_address_set from gap.h instead 1683 */ 1684 void hci_le_random_address_set(const bd_addr_t random_address); 1685 1686 /** 1687 * @note internal use by sm 1688 */ 1689 void hci_load_le_device_db_entry_into_resolving_list(uint16_t le_device_db_index); 1690 1691 /** 1692 * @note internal use by sm 1693 */ 1694 void hci_remove_le_device_db_entry_from_resolving_list(uint16_t le_device_db_index); 1695 1696 /** 1697 * @note internal use 1698 */ 1699 uint16_t hci_number_free_acl_slots_for_connection_type(bd_addr_type_t address_type); 1700 1701 /** 1702 * @brief Clear Periodic Advertiser List 1703 * @return status 1704 */ 1705 uint8_t gap_periodic_advertiser_list_clear(void); 1706 1707 /** 1708 * @brief Add entry to Periodic Advertiser List 1709 * @param address_type 1710 * @param address 1711 * @param advertising_sid 1712 * @return 1713 */ 1714 uint8_t gap_periodic_advertiser_list_add(bd_addr_type_t address_type, const bd_addr_t address, uint8_t advertising_sid); 1715 1716 /** 1717 * Remove entry from Periodic Advertising List 1718 * @param address_type 1719 * @param address 1720 * @param advertising_sid 1721 * @return 1722 */ 1723 uint8_t gap_periodic_advertiser_list_remove(bd_addr_type_t address_type, const bd_addr_t address, uint8_t advertising_sid); 1724 1725 /** 1726 * @brief Synchronize with a periodic advertising train from an advertiser and begin receiving periodic advertising packets. 1727 * @param options 1728 * @param advertising_sid 1729 * @param advertiser_address_type 1730 * @param advertiser_address 1731 * @param skip 1732 * @param sync_timeout 1733 * @param sync_cte_type 1734 * @return 1735 */ 1736 uint8_t gap_periodic_advertising_create_sync(uint8_t options, uint8_t advertising_sid, bd_addr_type_t advertiser_address_type, 1737 bd_addr_t advertiser_address, uint16_t skip, uint16_t sync_timeout, uint8_t sync_cte_type); 1738 1739 /** 1740 * @brief Cancel sync periodic advertising train while it is pending. 1741 * @return status 1742 */ 1743 uint8_t gap_periodic_advertising_create_sync_cancel(void); 1744 1745 /** 1746 * @biref Stop reception of the periodic advertising train 1747 * @param sync_handle 1748 * @return status 1749 */ 1750 uint8_t gap_periodic_advertising_terminate_sync(uint16_t sync_handle); 1751 1752 /** 1753 * @brief Get Controller Manufacturer 1754 * @returns company_id - see bluetooth_company_id.h 1755 */ 1756 uint16_t hci_get_manufacturer(void); 1757 1758 /** 1759 * Get Classic Allow Role Switch param 1760 */ 1761 uint8_t hci_get_allow_role_switch(void); 1762 1763 /** 1764 * Get state 1765 */ 1766 HCI_STATE hci_get_state(void); 1767 1768 /** 1769 * @brief De-Init HCI 1770 */ 1771 void hci_deinit(void); 1772 1773 // defer disconnect on dedicated bonding complete, used internally for CTKD 1774 uint8_t hci_dedicated_bonding_defer_disconnect(hci_con_handle_t con_handle, bool defer); 1775 1776 // Only for PTS testing 1777 1778 // Disable automatic L2CAP disconnect if no L2CAP connection is established 1779 void hci_disable_l2cap_timeout_check(void); 1780 1781 // setup test connections, used for fuzzing 1782 void hci_setup_test_connections_fuzz(void); 1783 1784 // free all connections, used for fuzzing 1785 void hci_free_connections_fuzz(void); 1786 1787 // simulate stack bootup 1788 void hci_simulate_working_fuzz(void); 1789 1790 1791 #if defined __cplusplus 1792 } 1793 #endif 1794 1795 #endif // HCI_H 1796