/****************************************************************************** * * Copyright 1999-2012 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /****************************************************************************** * * This file contains functions that interface with the HCI transport. On * the receive side, it routes events to the appropriate handler, e.g. * L2CAP, ScoMgr. On the transmit side, it manages the command * transmission. * ******************************************************************************/ #define LOG_TAG "bt_btu_hcif" #include #include #include #include #include "btif/include/btif_config.h" #include "common/metrics.h" #include "device/include/controller.h" #include "main/shim/hci_layer.h" #include "osi/include/allocator.h" #include "osi/include/log.h" #include "stack/include/acl_hci_link_interface.h" #include "stack/include/ble_acl_interface.h" #include "stack/include/ble_hci_link_interface.h" #include "stack/include/bt_hdr.h" #include "stack/include/btm_iso_api.h" #include "stack/include/btu.h" #include "stack/include/dev_hci_link_interface.h" #include "stack/include/gatt_api.h" #include "stack/include/hci_error_code.h" #include "stack/include/hci_evt_length.h" #include "stack/include/inq_hci_link_interface.h" #include "stack/include/l2cap_hci_link_interface.h" #include "stack/include/sco_hci_link_interface.h" #include "stack/include/sec_hci_link_interface.h" #include "stack/include/stack_metrics_logging.h" #include "types/hci_role.h" #include "types/raw_address.h" using base::Location; using bluetooth::hci::IsoManager; bool BTM_BLE_IS_RESOLVE_BDA(const RawAddress& x); // TODO remove void BTA_sys_signal_hw_error(); // TODO remove void smp_cancel_start_encryption_attempt(); // TODO remove void acl_disconnect_from_handle(uint16_t handle, tHCI_STATUS reason, std::string comment); // TODO remove /******************************************************************************/ /* L O C A L F U N C T I O N P R O T O T Y P E S */ /******************************************************************************/ static void btu_hcif_inquiry_comp_evt(uint8_t* p); static void btu_hcif_connection_request_evt(const uint8_t* p); static void btu_hcif_disconnection_comp_evt(uint8_t* p); static void btu_hcif_authentication_comp_evt(uint8_t* p); static void btu_hcif_rmt_name_request_comp_evt(const uint8_t* p, uint16_t evt_len); static void btu_hcif_encryption_change_evt(uint8_t* p); static void btu_hcif_read_rmt_ext_features_comp_evt(uint8_t* p, uint8_t evt_len); static void btu_hcif_command_complete_evt(BT_HDR* response, void* context); static void btu_hcif_command_status_evt(uint8_t status, BT_HDR* command, void* context); static void btu_hcif_hardware_error_evt(uint8_t* p); static void btu_hcif_mode_change_evt(uint8_t* p); static void btu_hcif_link_key_notification_evt(const uint8_t* p); static void btu_hcif_read_clock_off_comp_evt(uint8_t* p); static void btu_hcif_esco_connection_comp_evt(const uint8_t* p); static void btu_hcif_esco_connection_chg_evt(uint8_t* p); /* Simple Pairing Events */ static void btu_hcif_io_cap_request_evt(const uint8_t* p); static void btu_ble_ll_conn_param_upd_evt(uint8_t* p, uint16_t evt_len); static void btu_ble_proc_ltk_req(uint8_t* p, uint16_t evt_len); static void btu_hcif_encryption_key_refresh_cmpl_evt(uint8_t* p); static void btu_ble_data_length_change_evt(uint8_t* p, uint16_t evt_len); static void btu_ble_rc_param_req_evt(uint8_t* p, uint8_t len); /** * Log HCI event metrics that are not handled in special functions * @param evt_code event code * @param p_event pointer to event parameter, skipping paremter length */ void btu_hcif_log_event_metrics(uint8_t evt_code, const uint8_t* p_event) { uint32_t cmd = android::bluetooth::hci::CMD_UNKNOWN; uint16_t status = android::bluetooth::hci::STATUS_UNKNOWN; uint16_t reason = android::bluetooth::hci::STATUS_UNKNOWN; uint16_t handle = bluetooth::common::kUnknownConnectionHandle; int64_t value = 0; RawAddress bda = RawAddress::kEmpty; switch (evt_code) { case HCI_IO_CAPABILITY_REQUEST_EVT: case HCI_IO_CAPABILITY_RESPONSE_EVT: case HCI_LINK_KEY_REQUEST_EVT: case HCI_LINK_KEY_NOTIFICATION_EVT: case HCI_USER_PASSKEY_REQUEST_EVT: case HCI_USER_PASSKEY_NOTIFY_EVT: case HCI_USER_CONFIRMATION_REQUEST_EVT: case HCI_KEYPRESS_NOTIFY_EVT: case HCI_REMOTE_OOB_DATA_REQUEST_EVT: STREAM_TO_BDADDR(bda, p_event); log_classic_pairing_event(bda, handle, cmd, evt_code, status, reason, value); break; case HCI_SIMPLE_PAIRING_COMPLETE_EVT: case HCI_RMT_NAME_REQUEST_COMP_EVT: STREAM_TO_UINT8(status, p_event); STREAM_TO_BDADDR(bda, p_event); log_classic_pairing_event(bda, handle, cmd, evt_code, status, reason, value); break; case HCI_AUTHENTICATION_COMP_EVT: STREAM_TO_UINT8(status, p_event); STREAM_TO_UINT16(handle, p_event); handle = HCID_GET_HANDLE(handle); log_classic_pairing_event(bda, handle, cmd, evt_code, status, reason, value); break; case HCI_ENCRYPTION_CHANGE_EVT: { uint8_t encryption_enabled; STREAM_TO_UINT8(status, p_event); STREAM_TO_UINT16(handle, p_event); STREAM_TO_UINT8(encryption_enabled, p_event); log_classic_pairing_event(bda, handle, cmd, evt_code, status, reason, encryption_enabled); break; } case HCI_CONNECTION_REQUEST_EVT: { DEV_CLASS dc; uint8_t link_type; STREAM_TO_BDADDR(bda, p_event); STREAM_TO_DEVCLASS(dc, p_event); STREAM_TO_UINT8(link_type, p_event); log_link_layer_connection_event( &bda, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_INCOMING, link_type, cmd, evt_code, android::bluetooth::hci::BLE_EVT_UNKNOWN, status, reason); break; } case HCI_DISCONNECTION_COMP_EVT: { STREAM_TO_UINT8(status, p_event); STREAM_TO_UINT16(handle, p_event); STREAM_TO_UINT8(reason, p_event); handle = HCID_GET_HANDLE(handle); log_link_layer_connection_event( nullptr, handle, android::bluetooth::DIRECTION_UNKNOWN, android::bluetooth::LINK_TYPE_UNKNOWN, cmd, evt_code, android::bluetooth::hci::BLE_EVT_UNKNOWN, status, reason); break; } case HCI_ESCO_CONNECTION_COMP_EVT: { uint8_t link_type; STREAM_TO_UINT8(status, p_event); STREAM_TO_UINT16(handle, p_event); STREAM_TO_BDADDR(bda, p_event); STREAM_TO_UINT8(link_type, p_event); handle = HCID_GET_HANDLE(handle); log_link_layer_connection_event( &bda, handle, android::bluetooth::DIRECTION_UNKNOWN, link_type, cmd, evt_code, android::bluetooth::hci::BLE_EVT_UNKNOWN, status, reason); break; } case HCI_ESCO_CONNECTION_CHANGED_EVT: { STREAM_TO_UINT8(status, p_event); STREAM_TO_UINT16(handle, p_event); handle = HCID_GET_HANDLE(handle); log_link_layer_connection_event( nullptr, handle, android::bluetooth::DIRECTION_UNKNOWN, android::bluetooth::LINK_TYPE_UNKNOWN, cmd, evt_code, android::bluetooth::hci::BLE_EVT_UNKNOWN, status, reason); break; } case HCI_BLE_EVENT: { break; } case HCI_CONNECTION_COMP_EVT: // EventCode::CONNECTION_COMPLETE default: LOG_ERROR( "Unexpectedly received event_code:0x%02x that should not be " "handled here", evt_code); break; } } /******************************************************************************* * * Function btu_hcif_process_event * * Description This function is called when an event is received from * the Host Controller. * * Returns void * ******************************************************************************/ void btu_hcif_process_event(UNUSED_ATTR uint8_t controller_id, const BT_HDR* p_msg) { uint8_t* p = (uint8_t*)(p_msg + 1) + p_msg->offset; uint8_t hci_evt_code, hci_evt_len; uint8_t ble_sub_code; STREAM_TO_UINT8(hci_evt_code, p); STREAM_TO_UINT8(hci_evt_len, p); // validate event size if (hci_evt_len < hci_event_parameters_minimum_length[hci_evt_code]) { HCI_TRACE_WARNING("%s: evt:0x%2X, malformed event of size %hhd", __func__, hci_evt_code, hci_evt_len); return; } btu_hcif_log_event_metrics(hci_evt_code, p); switch (hci_evt_code) { case HCI_INQUIRY_COMP_EVT: btu_hcif_inquiry_comp_evt(p); break; case HCI_INQUIRY_RESULT_EVT: btm_process_inq_results(p, hci_evt_len, BTM_INQ_RESULT_STANDARD); break; case HCI_INQUIRY_RSSI_RESULT_EVT: btm_process_inq_results(p, hci_evt_len, BTM_INQ_RESULT_WITH_RSSI); break; case HCI_EXTENDED_INQUIRY_RESULT_EVT: btm_process_inq_results(p, hci_evt_len, BTM_INQ_RESULT_EXTENDED); break; case HCI_CONNECTION_REQUEST_EVT: btu_hcif_connection_request_evt(p); break; case HCI_DISCONNECTION_COMP_EVT: btu_hcif_disconnection_comp_evt(p); break; case HCI_AUTHENTICATION_COMP_EVT: btu_hcif_authentication_comp_evt(p); break; case HCI_RMT_NAME_REQUEST_COMP_EVT: btu_hcif_rmt_name_request_comp_evt(p, hci_evt_len); break; case HCI_ENCRYPTION_CHANGE_EVT: btu_hcif_encryption_change_evt(p); break; case HCI_ENCRYPTION_KEY_REFRESH_COMP_EVT: btu_hcif_encryption_key_refresh_cmpl_evt(p); break; case HCI_READ_RMT_EXT_FEATURES_COMP_EVT: btu_hcif_read_rmt_ext_features_comp_evt(p, hci_evt_len); break; case HCI_COMMAND_COMPLETE_EVT: LOG_ERROR( "%s should not have received a command complete event. " "Someone didn't go through the hci transmit_command function.", __func__); break; case HCI_COMMAND_STATUS_EVT: LOG_ERROR( "%s should not have received a command status event. " "Someone didn't go through the hci transmit_command function.", __func__); break; case HCI_HARDWARE_ERROR_EVT: btu_hcif_hardware_error_evt(p); break; case HCI_MODE_CHANGE_EVT: btu_hcif_mode_change_evt(p); break; case HCI_PIN_CODE_REQUEST_EVT: btm_sec_pin_code_request(p); break; case HCI_LINK_KEY_REQUEST_EVT: btm_sec_link_key_request(p); break; case HCI_LINK_KEY_NOTIFICATION_EVT: btu_hcif_link_key_notification_evt(p); break; case HCI_READ_CLOCK_OFF_COMP_EVT: btu_hcif_read_clock_off_comp_evt(p); break; case HCI_ESCO_CONNECTION_COMP_EVT: btu_hcif_esco_connection_comp_evt(p); break; case HCI_ESCO_CONNECTION_CHANGED_EVT: btu_hcif_esco_connection_chg_evt(p); break; case HCI_SNIFF_SUB_RATE_EVT: btm_pm_proc_ssr_evt(p, hci_evt_len); break; case HCI_RMT_HOST_SUP_FEAT_NOTIFY_EVT: btm_sec_rmt_host_support_feat_evt(p); break; case HCI_IO_CAPABILITY_REQUEST_EVT: btu_hcif_io_cap_request_evt(p); break; case HCI_IO_CAPABILITY_RESPONSE_EVT: btm_io_capabilities_rsp(p); break; case HCI_USER_CONFIRMATION_REQUEST_EVT: btm_proc_sp_req_evt(BTM_SP_CFM_REQ_EVT, p); break; case HCI_USER_PASSKEY_REQUEST_EVT: btm_proc_sp_req_evt(BTM_SP_KEY_REQ_EVT, p); break; case HCI_REMOTE_OOB_DATA_REQUEST_EVT: btm_rem_oob_req(p); break; case HCI_SIMPLE_PAIRING_COMPLETE_EVT: btm_simple_pair_complete(p); break; case HCI_USER_PASSKEY_NOTIFY_EVT: btm_proc_sp_req_evt(BTM_SP_KEY_NOTIF_EVT, p); break; case HCI_BLE_EVENT: { STREAM_TO_UINT8(ble_sub_code, p); uint8_t ble_evt_len = hci_evt_len - 1; switch (ble_sub_code) { case HCI_BLE_ADV_PKT_RPT_EVT: /* result of inquiry */ btm_ble_process_adv_pkt(ble_evt_len, p); break; case HCI_BLE_LL_CONN_PARAM_UPD_EVT: btu_ble_ll_conn_param_upd_evt(p, ble_evt_len); break; case HCI_BLE_READ_REMOTE_FEAT_CMPL_EVT: btm_ble_read_remote_features_complete(p, ble_evt_len); break; case HCI_BLE_LTK_REQ_EVT: /* received only at peripheral device */ btu_ble_proc_ltk_req(p, ble_evt_len); break; case HCI_BLE_RC_PARAM_REQ_EVT: btu_ble_rc_param_req_evt(p, ble_evt_len); break; case HCI_BLE_DATA_LENGTH_CHANGE_EVT: btu_ble_data_length_change_evt(p, hci_evt_len); break; case HCI_BLE_PHY_UPDATE_COMPLETE_EVT: btm_ble_process_phy_update_pkt(ble_evt_len, p); break; case HCI_LE_EXTENDED_ADVERTISING_REPORT_EVT: btm_ble_process_ext_adv_pkt(hci_evt_len, p); break; case HCI_LE_ADVERTISING_SET_TERMINATED_EVT: btm_le_on_advertising_set_terminated(p, hci_evt_len); break; case HCI_BLE_REQ_PEER_SCA_CPL_EVT: btm_acl_process_sca_cmpl_pkt(ble_evt_len, p); break; case HCI_BLE_PERIODIC_ADV_SYNC_EST_EVT: btm_ble_process_periodic_adv_sync_est_evt( ble_evt_len, const_cast(p)); break; case HCI_BLE_PERIODIC_ADV_REPORT_EVT: btm_ble_process_periodic_adv_pkt(ble_evt_len, const_cast(p)); break; case HCI_BLE_PERIODIC_ADV_SYNC_LOST_EVT: btm_ble_process_periodic_adv_sync_lost_evt(ble_evt_len, p); break; case HCI_BLE_CIS_EST_EVT: case HCI_BLE_CREATE_BIG_CPL_EVT: case HCI_BLE_TERM_BIG_CPL_EVT: case HCI_BLE_CIS_REQ_EVT: case HCI_BLE_BIG_SYNC_EST_EVT: case HCI_BLE_BIG_SYNC_LOST_EVT: IsoManager::GetInstance()->HandleHciEvent(ble_sub_code, p, ble_evt_len); break; case HCI_LE_PERIODIC_ADV_SYNC_TRANSFERE_RECEIVED_EVT: btm_ble_periodic_adv_sync_tx_rcvd(p, hci_evt_len); break; case HCI_LE_BIGINFO_ADVERTISING_REPORT_EVT: btm_ble_biginfo_adv_report_rcvd(p, hci_evt_len); break; // Events are now captured by gd/hci/le_acl_connection_interface.h case HCI_BLE_CONN_COMPLETE_EVT: // SubeventCode::CONNECTION_COMPLETE case HCI_BLE_ENHANCED_CONN_COMPLETE_EVT: // SubeventCode::ENHANCED_CONNECTION_COMPLETE default: LOG_ERROR( "Unexpectedly received LE sub_event_code:0x%02x that should not " "be handled here", ble_sub_code); break; } } break; case HCI_VENDOR_SPECIFIC_EVT: btm_vendor_specific_evt(const_cast(p), hci_evt_len); break; // Events now captured by gd::hci_layer module case HCI_NUM_COMPL_DATA_PKTS_EVT: // EventCode::NUMBER_OF_COMPLETED_PACKETS case HCI_CONNECTION_COMP_EVT: // EventCode::CONNECTION_COMPLETE case HCI_READ_RMT_FEATURES_COMP_EVT: // EventCode::READ_REMOTE_SUPPORTED_FEATURES_COMPLETE case HCI_READ_RMT_VERSION_COMP_EVT: // EventCode::READ_REMOTE_VERSION_INFORMATION_COMPLETE case HCI_ROLE_CHANGE_EVT: // EventCode::ROLE_CHANGE default: LOG_ERROR( "Unexpectedly received event_code:0x%02x that should not be " "handled here", hci_evt_code); break; } } static void btu_hcif_log_command_metrics(uint16_t opcode, const uint8_t* p_cmd, uint16_t cmd_status, bool is_cmd_status) { static uint16_t kUnknownBleEvt = android::bluetooth::hci::BLE_EVT_UNKNOWN; uint16_t hci_event = android::bluetooth::hci::EVT_COMMAND_STATUS; if (!is_cmd_status) { hci_event = android::bluetooth::hci::EVT_UNKNOWN; cmd_status = android::bluetooth::hci::STATUS_UNKNOWN; } RawAddress bd_addr; uint16_t handle; uint8_t reason; switch (opcode) { case HCI_CREATE_CONNECTION: case HCI_CREATE_CONNECTION_CANCEL: STREAM_TO_BDADDR(bd_addr, p_cmd); log_link_layer_connection_event( &bd_addr, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_OUTGOING, android::bluetooth::LINK_TYPE_ACL, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); break; case HCI_DISCONNECT: STREAM_TO_UINT16(handle, p_cmd); STREAM_TO_UINT8(reason, p_cmd); log_link_layer_connection_event( nullptr, handle, android::bluetooth::DIRECTION_UNKNOWN, android::bluetooth::LINK_TYPE_UNKNOWN, opcode, hci_event, kUnknownBleEvt, cmd_status, reason); break; case HCI_SETUP_ESCO_CONNECTION: case HCI_ENH_SETUP_ESCO_CONNECTION: STREAM_TO_UINT16(handle, p_cmd); log_link_layer_connection_event( nullptr, handle, android::bluetooth::DIRECTION_OUTGOING, android::bluetooth::LINK_TYPE_UNKNOWN, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); break; case HCI_ACCEPT_CONNECTION_REQUEST: case HCI_ACCEPT_ESCO_CONNECTION: case HCI_ENH_ACCEPT_ESCO_CONNECTION: STREAM_TO_BDADDR(bd_addr, p_cmd); log_link_layer_connection_event( &bd_addr, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_INCOMING, android::bluetooth::LINK_TYPE_UNKNOWN, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); break; case HCI_REJECT_CONNECTION_REQUEST: case HCI_REJECT_ESCO_CONNECTION: STREAM_TO_BDADDR(bd_addr, p_cmd); STREAM_TO_UINT8(reason, p_cmd); log_link_layer_connection_event( &bd_addr, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_INCOMING, android::bluetooth::LINK_TYPE_UNKNOWN, opcode, hci_event, kUnknownBleEvt, cmd_status, reason); break; // BLE Commands case HCI_BLE_CREATE_LL_CONN: { p_cmd += 2; // Skip LE_Scan_Interval p_cmd += 2; // Skip LE_Scan_Window; uint8_t initiator_filter_policy; STREAM_TO_UINT8(initiator_filter_policy, p_cmd); uint8_t peer_address_type; STREAM_TO_UINT8(peer_address_type, p_cmd); STREAM_TO_BDADDR(bd_addr, p_cmd); // Peer address should not be used if initiator filter policy is not 0x00 const RawAddress* bd_addr_p = nullptr; if (initiator_filter_policy == 0x00) { bd_addr_p = &bd_addr; if (peer_address_type == BLE_ADDR_PUBLIC_ID || peer_address_type == BLE_ADDR_RANDOM_ID) { // if identity address is not matched, this address is invalid if (!btm_identity_addr_to_random_pseudo(&bd_addr, &peer_address_type, false)) { bd_addr_p = nullptr; } } } if (initiator_filter_policy == 0x00 || (cmd_status != HCI_SUCCESS && !is_cmd_status)) { // Selectively log to avoid log spam due to acceptlist connections: // - When doing non-acceptlist connection // - When there is an error in command status log_link_layer_connection_event( bd_addr_p, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_OUTGOING, android::bluetooth::LINK_TYPE_ACL, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); } break; } case HCI_LE_EXTENDED_CREATE_CONNECTION: { uint8_t initiator_filter_policy; STREAM_TO_UINT8(initiator_filter_policy, p_cmd); p_cmd += 1; // Skip Own_Address_Type uint8_t peer_addr_type; STREAM_TO_UINT8(peer_addr_type, p_cmd); STREAM_TO_BDADDR(bd_addr, p_cmd); // Peer address should not be used if initiator filter policy is not 0x00 const RawAddress* bd_addr_p = nullptr; if (initiator_filter_policy == 0x00) { bd_addr_p = &bd_addr; // if identity address is not matched, this should be a static address btm_identity_addr_to_random_pseudo(&bd_addr, &peer_addr_type, false); } if (initiator_filter_policy == 0x00 || (cmd_status != HCI_SUCCESS && !is_cmd_status)) { // Selectively log to avoid log spam due to acceptlist connections: // - When doing non-acceptlist connection // - When there is an error in command status log_link_layer_connection_event( bd_addr_p, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_OUTGOING, android::bluetooth::LINK_TYPE_ACL, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); } break; } case HCI_BLE_CREATE_CONN_CANCEL: if (cmd_status != HCI_SUCCESS && !is_cmd_status) { // Only log errors to prevent log spam due to acceptlist connections log_link_layer_connection_event( nullptr, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_OUTGOING, android::bluetooth::LINK_TYPE_ACL, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); } break; case HCI_BLE_CLEAR_ACCEPTLIST: log_link_layer_connection_event( nullptr, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_INCOMING, android::bluetooth::LINK_TYPE_ACL, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); break; case HCI_BLE_ADD_ACCEPTLIST: case HCI_BLE_REMOVE_ACCEPTLIST: { uint8_t peer_addr_type; STREAM_TO_UINT8(peer_addr_type, p_cmd); STREAM_TO_BDADDR(bd_addr, p_cmd); const RawAddress* bd_addr_p = nullptr; // When peer_addr_type is 0xFF, bd_addr should be ignored per BT spec if (peer_addr_type != BLE_ADDR_ANONYMOUS) { bd_addr_p = &bd_addr; bool addr_is_rpa = peer_addr_type == BLE_ADDR_RANDOM && BTM_BLE_IS_RESOLVE_BDA(bd_addr); // Only try to match identity address for pseudo if address is not RPA if (!addr_is_rpa) { // if identity address is not matched, this should be a static address btm_identity_addr_to_random_pseudo(&bd_addr, &peer_addr_type, false); } } log_link_layer_connection_event( bd_addr_p, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_INCOMING, android::bluetooth::LINK_TYPE_ACL, opcode, hci_event, kUnknownBleEvt, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN); break; } case HCI_READ_LOCAL_OOB_DATA: log_classic_pairing_event(RawAddress::kEmpty, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN, 0); break; case HCI_WRITE_SIMPLE_PAIRING_MODE: { uint8_t simple_pairing_mode; STREAM_TO_UINT8(simple_pairing_mode, p_cmd); log_classic_pairing_event( RawAddress::kEmpty, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN, simple_pairing_mode); break; } case HCI_WRITE_SECURE_CONNS_SUPPORT: { uint8_t secure_conn_host_support; STREAM_TO_UINT8(secure_conn_host_support, p_cmd); log_classic_pairing_event( RawAddress::kEmpty, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN, secure_conn_host_support); break; } case HCI_AUTHENTICATION_REQUESTED: STREAM_TO_UINT16(handle, p_cmd); log_classic_pairing_event(RawAddress::kEmpty, handle, opcode, hci_event, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN, 0); break; case HCI_SET_CONN_ENCRYPTION: { STREAM_TO_UINT16(handle, p_cmd); uint8_t encryption_enable; STREAM_TO_UINT8(encryption_enable, p_cmd); log_classic_pairing_event( RawAddress::kEmpty, handle, opcode, hci_event, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN, encryption_enable); break; } case HCI_DELETE_STORED_LINK_KEY: { uint8_t delete_all_flag; STREAM_TO_BDADDR(bd_addr, p_cmd); STREAM_TO_UINT8(delete_all_flag, p_cmd); log_classic_pairing_event( bd_addr, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN, delete_all_flag); break; } case HCI_RMT_NAME_REQUEST: case HCI_RMT_NAME_REQUEST_CANCEL: case HCI_LINK_KEY_REQUEST_REPLY: case HCI_LINK_KEY_REQUEST_NEG_REPLY: case HCI_IO_CAPABILITY_REQUEST_REPLY: case HCI_USER_CONF_REQUEST_REPLY: case HCI_USER_CONF_VALUE_NEG_REPLY: case HCI_USER_PASSKEY_REQ_REPLY: case HCI_USER_PASSKEY_REQ_NEG_REPLY: case HCI_REM_OOB_DATA_REQ_REPLY: case HCI_REM_OOB_DATA_REQ_NEG_REPLY: STREAM_TO_BDADDR(bd_addr, p_cmd); log_classic_pairing_event( bd_addr, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, cmd_status, android::bluetooth::hci::STATUS_UNKNOWN, 0); break; case HCI_IO_CAP_REQ_NEG_REPLY: STREAM_TO_BDADDR(bd_addr, p_cmd); STREAM_TO_UINT8(reason, p_cmd); log_classic_pairing_event(bd_addr, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, cmd_status, reason, 0); break; } } /******************************************************************************* * * Function btu_hcif_send_cmd * * Description This function is called to send commands to the Host * Controller. * * Returns void * ******************************************************************************/ void btu_hcif_send_cmd(UNUSED_ATTR uint8_t controller_id, const BT_HDR* p_buf) { if (!p_buf) return; uint16_t opcode; const uint8_t* stream = p_buf->data + p_buf->offset; void* vsc_callback = NULL; STREAM_TO_UINT16(opcode, stream); // Eww...horrible hackery here /* If command was a VSC, then extract command_complete callback */ if ((opcode & HCI_GRP_VENDOR_SPECIFIC) == HCI_GRP_VENDOR_SPECIFIC || (opcode == HCI_BLE_RAND) || (opcode == HCI_BLE_ENCRYPT)) { vsc_callback = *((void**)(p_buf + 1)); } // Skip parameter length before logging stream++; btu_hcif_log_command_metrics(opcode, stream, android::bluetooth::hci::STATUS_UNKNOWN, false); bluetooth::shim::hci_layer_get_interface()->transmit_command( p_buf, btu_hcif_command_complete_evt, btu_hcif_command_status_evt, vsc_callback); } using hci_cmd_cb = base::OnceCallback; struct cmd_with_cb_data { hci_cmd_cb cb; base::Location posted_from; }; void cmd_with_cb_data_init(cmd_with_cb_data* cb_wrapper) { new (&cb_wrapper->cb) hci_cmd_cb; new (&cb_wrapper->posted_from) Location; } void cmd_with_cb_data_cleanup(cmd_with_cb_data* cb_wrapper) { cb_wrapper->cb.~hci_cmd_cb(); cb_wrapper->posted_from.~Location(); } /** * Log command complete events that is not handled individually in this file * @param opcode opcode of the command * @param p_return_params pointer to returned parameter after parameter length * field */ static void btu_hcif_log_command_complete_metrics( uint16_t opcode, const uint8_t* p_return_params) { uint16_t status = android::bluetooth::hci::STATUS_UNKNOWN; uint16_t reason = android::bluetooth::hci::STATUS_UNKNOWN; uint16_t hci_event = android::bluetooth::hci::EVT_COMMAND_COMPLETE; uint16_t hci_ble_event = android::bluetooth::hci::BLE_EVT_UNKNOWN; RawAddress bd_addr = RawAddress::kEmpty; switch (opcode) { case HCI_BLE_CLEAR_ACCEPTLIST: case HCI_BLE_ADD_ACCEPTLIST: case HCI_BLE_REMOVE_ACCEPTLIST: { STREAM_TO_UINT8(status, p_return_params); log_link_layer_connection_event( nullptr, bluetooth::common::kUnknownConnectionHandle, android::bluetooth::DIRECTION_INCOMING, android::bluetooth::LINK_TYPE_ACL, opcode, hci_event, hci_ble_event, status, reason); break; } case HCI_DELETE_STORED_LINK_KEY: case HCI_READ_LOCAL_OOB_DATA: case HCI_WRITE_SIMPLE_PAIRING_MODE: case HCI_WRITE_SECURE_CONNS_SUPPORT: STREAM_TO_UINT8(status, p_return_params); log_classic_pairing_event(RawAddress::kEmpty, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, status, reason, 0); break; case HCI_READ_ENCR_KEY_SIZE: { uint16_t handle; uint8_t key_size; STREAM_TO_UINT8(status, p_return_params); STREAM_TO_UINT16(handle, p_return_params); STREAM_TO_UINT8(key_size, p_return_params); log_classic_pairing_event(RawAddress::kEmpty, handle, opcode, hci_event, status, reason, key_size); break; } case HCI_LINK_KEY_REQUEST_REPLY: case HCI_LINK_KEY_REQUEST_NEG_REPLY: case HCI_IO_CAPABILITY_REQUEST_REPLY: case HCI_IO_CAP_REQ_NEG_REPLY: case HCI_USER_CONF_REQUEST_REPLY: case HCI_USER_CONF_VALUE_NEG_REPLY: case HCI_USER_PASSKEY_REQ_REPLY: case HCI_USER_PASSKEY_REQ_NEG_REPLY: case HCI_REM_OOB_DATA_REQ_REPLY: case HCI_REM_OOB_DATA_REQ_NEG_REPLY: STREAM_TO_UINT8(status, p_return_params); STREAM_TO_BDADDR(bd_addr, p_return_params); log_classic_pairing_event(bd_addr, bluetooth::common::kUnknownConnectionHandle, opcode, hci_event, status, reason, 0); break; } } static void btu_hcif_command_complete_evt_with_cb_on_task(BT_HDR* event, void* context) { command_opcode_t opcode; // 2 for event header: event code (1) + parameter length (1) // 1 for num_hci_pkt command credit uint8_t* stream = event->data + event->offset + 3; STREAM_TO_UINT16(opcode, stream); btu_hcif_log_command_complete_metrics(opcode, stream); cmd_with_cb_data* cb_wrapper = (cmd_with_cb_data*)context; HCI_TRACE_DEBUG("command complete for: %s", cb_wrapper->posted_from.ToString().c_str()); // 2 for event header: event code (1) + parameter length (1) // 3 for command complete header: num_hci_pkt (1) + opcode (2) uint16_t param_len = static_cast(event->len - 5); std::move(cb_wrapper->cb).Run(stream, param_len); cmd_with_cb_data_cleanup(cb_wrapper); osi_free(cb_wrapper); osi_free(event); } static void btu_hcif_command_complete_evt_with_cb(BT_HDR* response, void* context) { do_in_main_thread(FROM_HERE, base::Bind(btu_hcif_command_complete_evt_with_cb_on_task, response, context)); } static void btu_hcif_command_status_evt_with_cb_on_task(uint8_t status, BT_HDR* event, void* context) { command_opcode_t opcode; uint8_t* stream = event->data + event->offset; STREAM_TO_UINT16(opcode, stream); CHECK(status != 0); // stream + 1 to skip parameter length field // No need to check length since stream is written by us btu_hcif_log_command_metrics(opcode, stream + 1, status, true); // report command status error cmd_with_cb_data* cb_wrapper = (cmd_with_cb_data*)context; HCI_TRACE_DEBUG("command status for: %s", cb_wrapper->posted_from.ToString().c_str()); std::move(cb_wrapper->cb).Run(&status, sizeof(uint16_t)); cmd_with_cb_data_cleanup(cb_wrapper); osi_free(cb_wrapper); osi_free(event); } static void btu_hcif_command_status_evt_with_cb(uint8_t status, BT_HDR* command, void* context) { // Command is pending, we report only error. if (!status) { osi_free(command); return; } do_in_main_thread( FROM_HERE, base::Bind(btu_hcif_command_status_evt_with_cb_on_task, status, command, context)); } /* This function is called to send commands to the Host Controller. |cb| is * called when command status event is called with error code, or when the * command complete event is received. */ void btu_hcif_send_cmd_with_cb(const base::Location& posted_from, uint16_t opcode, uint8_t* params, uint8_t params_len, hci_cmd_cb cb) { BT_HDR* p = (BT_HDR*)osi_malloc(HCI_CMD_BUF_SIZE); uint8_t* pp = (uint8_t*)(p + 1); p->len = HCIC_PREAMBLE_SIZE + params_len; p->offset = 0; UINT16_TO_STREAM(pp, opcode); UINT8_TO_STREAM(pp, params_len); if (params) { memcpy(pp, params, params_len); } btu_hcif_log_command_metrics(opcode, pp, android::bluetooth::hci::STATUS_UNKNOWN, false); cmd_with_cb_data* cb_wrapper = (cmd_with_cb_data*)osi_malloc(sizeof(cmd_with_cb_data)); cmd_with_cb_data_init(cb_wrapper); cb_wrapper->cb = std::move(cb); cb_wrapper->posted_from = posted_from; bluetooth::shim::hci_layer_get_interface()->transmit_command( p, btu_hcif_command_complete_evt_with_cb, btu_hcif_command_status_evt_with_cb, (void*)cb_wrapper); } /******************************************************************************* * * Function btu_hcif_inquiry_comp_evt * * Description Process event HCI_INQUIRY_COMP_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_inquiry_comp_evt(uint8_t* p) { uint8_t status; STREAM_TO_UINT8(status, p); /* Tell inquiry processing that we are done */ btm_process_inq_complete(to_hci_status_code(status), BTM_BR_INQUIRY_MASK); } /******************************************************************************* * * Function btu_hcif_connection_request_evt * * Description Process event HCI_CONNECTION_REQUEST_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_connection_request_evt(const uint8_t* p) { RawAddress bda; DEV_CLASS dc; uint8_t link_type; STREAM_TO_BDADDR(bda, p); STREAM_TO_DEVCLASS(dc, p); STREAM_TO_UINT8(link_type, p); if (link_type == HCI_LINK_TYPE_ACL) { btm_acl_connection_request(bda, dc); } else { btm_sco_conn_req(bda, dc, link_type); } } /******************************************************************************* * * Function btu_hcif_disconnection_comp_evt * * Description Process event HCI_DISCONNECTION_COMP_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_disconnection_comp_evt(uint8_t* p) { uint8_t status; uint16_t handle; uint8_t reason; STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); STREAM_TO_UINT8(reason, p); handle = HCID_GET_HANDLE(handle); btm_acl_disconnected(static_cast(status), handle, static_cast(reason)); } /******************************************************************************* * * Function btu_hcif_authentication_comp_evt * * Description Process event HCI_AUTHENTICATION_COMP_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_authentication_comp_evt(uint8_t* p) { uint8_t status; uint16_t handle; STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); btm_sec_auth_complete(handle, static_cast(status)); } /******************************************************************************* * * Function btu_hcif_rmt_name_request_comp_evt * * Description Process event HCI_RMT_NAME_REQUEST_COMP_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_rmt_name_request_comp_evt(const uint8_t* p, uint16_t evt_len) { uint8_t status; RawAddress bd_addr; STREAM_TO_UINT8(status, p); STREAM_TO_BDADDR(bd_addr, p); evt_len -= (1 + BD_ADDR_LEN); btm_process_remote_name(&bd_addr, p, evt_len, to_hci_status_code(status)); btm_sec_rmt_name_request_complete(&bd_addr, p, to_hci_status_code(status)); } constexpr uint8_t MIN_KEY_SIZE = 7; static void read_encryption_key_size_complete_after_encryption_change(uint8_t status, uint16_t handle, uint8_t key_size) { if (status == HCI_ERR_INSUFFCIENT_SECURITY) { /* If remote device stop the encryption before we call "Read Encryption Key * Size", we might receive Insufficient Security, which means that link is * no longer encrypted. */ LOG(INFO) << __func__ << ": encryption stopped on link: " << loghex(handle); return; } if (status != HCI_SUCCESS) { LOG(INFO) << __func__ << ": disconnecting, status: " << loghex(status); acl_disconnect_from_handle(handle, HCI_ERR_PEER_USER, "stack::btu::btu_hcif::read_encryption_key_size_" "complete_after_encryption_change Bad key size"); return; } if (key_size < MIN_KEY_SIZE) { LOG(ERROR) << __func__ << " encryption key too short, disconnecting. handle: " << loghex(handle) << " key_size: " << +key_size; acl_disconnect_from_handle( handle, HCI_ERR_HOST_REJECT_SECURITY, "stack::btu::btu_hcif::read_encryption_key_size_complete_after_" "encryption_change Key Too Short"); return; } // good key size - succeed btm_acl_encrypt_change(handle, static_cast(status), 1 /* enable */); btm_sec_encrypt_change(handle, static_cast(status), 1 /* enable */); } /******************************************************************************* * * Function btu_hcif_encryption_change_evt * * Description Process event HCI_ENCRYPTION_CHANGE_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_encryption_change_evt(uint8_t* p) { uint8_t status; uint16_t handle; uint8_t encr_enable; STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); STREAM_TO_UINT8(encr_enable, p); if (status != HCI_SUCCESS || encr_enable == 0 || BTM_IsBleConnection(handle)) { if (status == HCI_ERR_CONNECTION_TOUT) { smp_cancel_start_encryption_attempt(); return; } btm_acl_encrypt_change(handle, static_cast(status), encr_enable); btm_sec_encrypt_change(handle, static_cast(status), encr_enable); } else { btsnd_hcic_read_encryption_key_size(handle, base::Bind(&read_encryption_key_size_complete_after_encryption_change)); } } /******************************************************************************* * * Function btu_hcif_read_rmt_ext_features_comp_evt * * Description Process event HCI_READ_RMT_EXT_FEATURES_COMP_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_read_rmt_ext_features_comp_evt(uint8_t* p, uint8_t evt_len) { uint8_t* p_cur = p; uint8_t status; uint16_t handle; STREAM_TO_UINT8(status, p_cur); if (status == HCI_SUCCESS) btm_read_remote_ext_features_complete_raw(p, evt_len); else { STREAM_TO_UINT16(handle, p_cur); btm_read_remote_ext_features_failed(status, handle); } } /******************************************************************************* * * Function btu_hcif_esco_connection_comp_evt * * Description Process event HCI_ESCO_CONNECTION_COMP_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_esco_connection_comp_evt(const uint8_t* p) { tBTM_ESCO_DATA data; uint16_t handle; RawAddress bda; uint8_t status; STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); STREAM_TO_BDADDR(bda, p); STREAM_TO_UINT8(data.link_type, p); STREAM_SKIP_UINT8(p); // tx_interval STREAM_SKIP_UINT8(p); // retrans_window STREAM_SKIP_UINT16(p); // rx_pkt_len STREAM_SKIP_UINT16(p); // tx_pkt_len STREAM_SKIP_UINT8(p); // air_mode handle = HCID_GET_HANDLE(handle); data.bd_addr = bda; if (status == HCI_SUCCESS) { btm_sco_connected(bda, handle, &data); } else { btm_sco_connection_failed(static_cast(status), bda, handle, &data); } } /******************************************************************************* * * Function btu_hcif_esco_connection_chg_evt * * Description Process event HCI_ESCO_CONNECTION_CHANGED_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_esco_connection_chg_evt(uint8_t* p) { uint16_t handle; uint16_t tx_pkt_len; uint16_t rx_pkt_len; uint8_t status; uint8_t tx_interval; uint8_t retrans_window; STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); STREAM_TO_UINT8(tx_interval, p); STREAM_TO_UINT8(retrans_window, p); STREAM_TO_UINT16(rx_pkt_len, p); STREAM_TO_UINT16(tx_pkt_len, p); handle = HCID_GET_HANDLE(handle); } /******************************************************************************* * * Function btu_hcif_hdl_command_complete * * Description Handle command complete event * * Returns void * ******************************************************************************/ static void btu_hcif_hdl_command_complete(uint16_t opcode, uint8_t* p, uint16_t evt_len, void* p_cplt_cback) { switch (opcode) { case HCI_INQUIRY_CANCEL: /* Tell inquiry processing that we are done */ btm_process_cancel_complete(HCI_SUCCESS, BTM_BR_INQUIRY_MASK); break; case HCI_SET_EVENT_FILTER: break; case HCI_DELETE_STORED_LINK_KEY: btm_delete_stored_link_key_complete(p, evt_len); break; case HCI_READ_LOCAL_NAME: btm_read_local_name_complete(p, evt_len); break; case HCI_GET_LINK_QUALITY: btm_read_link_quality_complete(p, evt_len); break; case HCI_READ_RSSI: btm_read_rssi_complete(p, evt_len); break; case HCI_READ_FAILED_CONTACT_COUNTER: btm_read_failed_contact_counter_complete(p); break; case HCI_READ_AUTOMATIC_FLUSH_TIMEOUT: btm_read_automatic_flush_timeout_complete(p); break; case HCI_READ_TRANSMIT_POWER_LEVEL: btm_read_tx_power_complete(p, evt_len, false); break; case HCI_CREATE_CONNECTION_CANCEL: btm_create_conn_cancel_complete(p, evt_len); break; case HCI_READ_LOCAL_OOB_DATA: btm_read_local_oob_complete(p, evt_len); break; case HCI_READ_INQ_TX_POWER_LEVEL: break; /* BLE Commands sComplete*/ case HCI_BLE_RAND: case HCI_BLE_ENCRYPT: btm_ble_rand_enc_complete(p, evt_len, opcode, (tBTM_RAND_ENC_CB*)p_cplt_cback); break; case HCI_BLE_READ_ADV_CHNL_TX_POWER: btm_read_tx_power_complete(p, evt_len, true); break; case HCI_BLE_WRITE_ADV_ENABLE: btm_ble_write_adv_enable_complete(p, evt_len); break; case HCI_BLE_CREATE_LL_CONN: case HCI_LE_EXTENDED_CREATE_CONNECTION: // No command complete event for those commands according to spec LOG(ERROR) << "No command complete expected, but received!"; break; case HCI_BLE_CREATE_CONN_CANCEL: btm_ble_create_conn_cancel_complete(p); break; case HCI_BLE_TRANSMITTER_TEST: case HCI_BLE_RECEIVER_TEST: case HCI_BLE_TEST_END: btm_ble_test_command_complete(p); break; case HCI_BLE_ADD_DEV_RESOLVING_LIST: btm_ble_add_resolving_list_entry_complete(p, evt_len); break; case HCI_BLE_RM_DEV_RESOLVING_LIST: btm_ble_remove_resolving_list_entry_complete(p, evt_len); break; case HCI_BLE_CLEAR_RESOLVING_LIST: btm_ble_clear_resolving_list_complete(p, evt_len); break; case HCI_BLE_READ_RESOLVABLE_ADDR_PEER: btm_ble_read_resolving_list_entry_complete(p, evt_len); break; case HCI_BLE_READ_RESOLVABLE_ADDR_LOCAL: case HCI_BLE_SET_ADDR_RESOLUTION_ENABLE: case HCI_BLE_SET_RAND_PRIV_ADDR_TIMOUT: break; default: if ((opcode & HCI_GRP_VENDOR_SPECIFIC) == HCI_GRP_VENDOR_SPECIFIC) btm_vsc_complete(p, opcode, evt_len, (tBTM_VSC_CMPL_CB*)p_cplt_cback); break; } } /******************************************************************************* * * Function btu_hcif_command_complete_evt * * Description Process event HCI_COMMAND_COMPLETE_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_command_complete_evt_on_task(BT_HDR* event, void* context) { command_opcode_t opcode; // 2 for event header: event code (1) + parameter length (1) // 1 for num_hci_pkt command credit uint8_t* stream = event->data + event->offset + 3; STREAM_TO_UINT16(opcode, stream); btu_hcif_log_command_complete_metrics(opcode, stream); // 2 for event header: event code (1) + parameter length (1) // 3 for command complete header: num_hci_pkt (1) + opcode (2) uint16_t param_len = static_cast(event->len - 5); btu_hcif_hdl_command_complete(opcode, stream, param_len, context); osi_free(event); } static void btu_hcif_command_complete_evt(BT_HDR* response, void* context) { do_in_main_thread(FROM_HERE, base::Bind(btu_hcif_command_complete_evt_on_task, response, context)); } /******************************************************************************* * * Function btu_hcif_hdl_command_status * * Description Handle a command status event * * Returns void * ******************************************************************************/ static void btu_hcif_hdl_command_status(uint16_t opcode, uint8_t status, const uint8_t* p_cmd, void* p_vsc_status_cback) { CHECK_NE(p_cmd, nullptr) << "Null command for opcode 0x" << loghex(opcode); p_cmd++; // Skip parameter total length RawAddress bd_addr; uint16_t handle; switch (opcode) { // Link Control Commands case HCI_INQUIRY: if (status != HCI_SUCCESS) { // Tell inquiry processing that we are done btm_process_inq_complete(to_hci_status_code(status), BTM_BR_INQUIRY_MASK); } break; case HCI_SWITCH_ROLE: if (status != HCI_SUCCESS) { // Tell BTM that the command failed STREAM_TO_BDADDR(bd_addr, p_cmd); btm_acl_role_changed(static_cast(status), bd_addr, HCI_ROLE_UNKNOWN); } break; case HCI_CREATE_CONNECTION: if (status != HCI_SUCCESS) { STREAM_TO_BDADDR(bd_addr, p_cmd); btm_acl_connected(bd_addr, HCI_INVALID_HANDLE, static_cast(status), 0); } break; case HCI_AUTHENTICATION_REQUESTED: if (status != HCI_SUCCESS) { // Device refused to start authentication // This is treated as an authentication failure btm_sec_auth_complete(HCI_INVALID_HANDLE, static_cast(status)); } break; case HCI_SET_CONN_ENCRYPTION: if (status != HCI_SUCCESS) { // Device refused to start encryption // This is treated as an encryption failure btm_sec_encrypt_change(HCI_INVALID_HANDLE, static_cast(status), false); } break; case HCI_RMT_NAME_REQUEST: if (status != HCI_SUCCESS) { // Tell inquiry processing that we are done btm_process_remote_name(nullptr, nullptr, 0, to_hci_status_code(status)); btm_sec_rmt_name_request_complete(nullptr, nullptr, to_hci_status_code(status)); } break; case HCI_READ_RMT_EXT_FEATURES: if (status != HCI_SUCCESS) { STREAM_TO_UINT16(handle, p_cmd); btm_read_remote_ext_features_failed(status, handle); } break; case HCI_SETUP_ESCO_CONNECTION: case HCI_ENH_SETUP_ESCO_CONNECTION: if (status != HCI_SUCCESS) { STREAM_TO_UINT16(handle, p_cmd); RawAddress addr(RawAddress::kEmpty); btm_sco_connection_failed(static_cast(status), addr, handle, nullptr); } break; // BLE Commands case HCI_BLE_CREATE_LL_CONN: case HCI_LE_EXTENDED_CREATE_CONNECTION: if (status != HCI_SUCCESS) { btm_ble_create_ll_conn_complete(static_cast(status)); } break; case HCI_BLE_START_ENC: // Race condition: disconnection happened right before we send // "LE Encrypt", controller responds with no connection, we should // cancel the encryption attempt, rather than unpair the device. if (status == HCI_ERR_NO_CONNECTION) { smp_cancel_start_encryption_attempt(); } break; // Link Policy Commands case HCI_EXIT_SNIFF_MODE: case HCI_EXIT_PARK_MODE: if (status != HCI_SUCCESS) { // Allow SCO initiation to continue if waiting for change mode event STREAM_TO_UINT16(handle, p_cmd); btm_sco_chk_pend_unpark(static_cast(status), handle); } FALLTHROUGH_INTENDED; /* FALLTHROUGH */ case HCI_HOLD_MODE: case HCI_SNIFF_MODE: case HCI_PARK_MODE: btm_pm_proc_cmd_status(static_cast(status)); break; default: if ((opcode & HCI_GRP_VENDOR_SPECIFIC) == HCI_GRP_VENDOR_SPECIFIC) { btm_vsc_complete(&status, opcode, 1, (tBTM_VSC_CMPL_CB*)p_vsc_status_cback); } } } void bluetooth::legacy::testing::btu_hcif_hdl_command_status( uint16_t opcode, uint8_t status, const uint8_t* p_cmd, void* p_vsc_status_cback) { ::btu_hcif_hdl_command_status(opcode, status, p_cmd, p_vsc_status_cback); } /******************************************************************************* * * Function btu_hcif_command_status_evt * * Description Process event HCI_COMMAND_STATUS_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_command_status_evt_on_task(uint8_t status, BT_HDR* event, void* context) { command_opcode_t opcode; uint8_t* stream = event->data + event->offset; STREAM_TO_UINT16(opcode, stream); // stream + 1 to skip parameter length field // No need to check length since stream is written by us btu_hcif_log_command_metrics(opcode, stream + 1, status, true); btu_hcif_hdl_command_status(opcode, status, stream, context); osi_free(event); } static void btu_hcif_command_status_evt(uint8_t status, BT_HDR* command, void* context) { do_in_main_thread(FROM_HERE, base::Bind(btu_hcif_command_status_evt_on_task, status, command, context)); } /******************************************************************************* * * Function btu_hcif_hardware_error_evt * * Description Process event HCI_HARDWARE_ERROR_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_hardware_error_evt(uint8_t* p) { LOG_ERROR("UNHANDLED Ctlr H/w error event - code:0x%x", *p); BTA_sys_signal_hw_error(); } /******************************************************************************* * * Function btu_hcif_mode_change_evt * * Description Process event HCI_MODE_CHANGE_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_mode_change_evt(uint8_t* p) { uint8_t status; uint16_t handle; uint8_t current_mode; uint16_t interval; STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); STREAM_TO_UINT8(current_mode, p); STREAM_TO_UINT16(interval, p); btm_sco_chk_pend_unpark(static_cast(status), handle); btm_pm_proc_mode_change(static_cast(status), handle, static_cast(current_mode), interval); #if (HID_DEV_INCLUDED == TRUE && HID_DEV_PM_INCLUDED == TRUE) hidd_pm_proc_mode_change(status, current_mode, interval); #endif } /******************************************************************************* * * Function btu_hcif_link_key_notification_evt * * Description Process event HCI_LINK_KEY_NOTIFICATION_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_link_key_notification_evt(const uint8_t* p) { RawAddress bda; Octet16 key; uint8_t key_type; STREAM_TO_BDADDR(bda, p); STREAM_TO_ARRAY16(key.data(), p); STREAM_TO_UINT8(key_type, p); btm_sec_link_key_notification(bda, key, key_type); } /******************************************************************************* * * Function btu_hcif_read_clock_off_comp_evt * * Description Process event HCI_READ_CLOCK_OFF_COMP_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_read_clock_off_comp_evt(uint8_t* p) { uint8_t status; uint16_t handle; uint16_t clock_offset; STREAM_TO_UINT8(status, p); /* If failed to get clock offset just drop the result */ if (status != HCI_SUCCESS) return; STREAM_TO_UINT16(handle, p); STREAM_TO_UINT16(clock_offset, p); handle = HCID_GET_HANDLE(handle); btm_sec_update_clock_offset(handle, clock_offset); } /********************************************** * Simple Pairing Events **********************************************/ /******************************************************************************* * * Function btu_hcif_io_cap_request_evt * * Description Process event HCI_IO_CAPABILITY_REQUEST_EVT * * Returns void * ******************************************************************************/ static void btu_hcif_io_cap_request_evt(const uint8_t* p) { RawAddress bda; STREAM_TO_BDADDR(bda, p); btm_io_capabilities_req(bda); } /********************************************** * End of Simple Pairing Events **********************************************/ static void read_encryption_key_size_complete_after_key_refresh(uint8_t status, uint16_t handle, uint8_t key_size) { if (status == HCI_ERR_INSUFFCIENT_SECURITY) { /* If remote device stop the encryption before we call "Read Encryption Key * Size", we might receive Insufficient Security, which means that link is * no longer encrypted. */ LOG(INFO) << __func__ << ": encryption stopped on link: " << loghex(handle); return; } if (status != HCI_SUCCESS) { LOG(INFO) << __func__ << ": disconnecting, status: " << loghex(status); acl_disconnect_from_handle(handle, HCI_ERR_PEER_USER, "stack::btu_hcif Key size fail"); return; } if (key_size < MIN_KEY_SIZE) { LOG(ERROR) << __func__ << " encryption key too short, disconnecting. handle: " << loghex(handle) << " key_size: " << +key_size; acl_disconnect_from_handle(handle, HCI_ERR_HOST_REJECT_SECURITY, "stack::btu::btu_hcif::read_encryption_key_size_" "complete_after_key_refresh Key size too small"); return; } btm_sec_encrypt_change(handle, static_cast(status), 1 /* enc_enable */); } static void btu_hcif_encryption_key_refresh_cmpl_evt(uint8_t* p) { uint8_t status; uint16_t handle; STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); if (status != HCI_SUCCESS || BTM_IsBleConnection(handle)) { btm_sec_encrypt_change(handle, static_cast(status), (status == HCI_SUCCESS) ? 1 : 0); } else { btsnd_hcic_read_encryption_key_size(handle, base::Bind(&read_encryption_key_size_complete_after_key_refresh)); } } /********************************************** * BLE Events **********************************************/ extern void gatt_notify_conn_update(const RawAddress& remote, uint16_t interval, uint16_t latency, uint16_t timeout, tHCI_STATUS status); static void btu_ble_ll_conn_param_upd_evt(uint8_t* p, uint16_t evt_len) { /* LE connection update has completed successfully as a central. */ /* We can enable the update request if the result is a success. */ /* extract the HCI handle first */ uint8_t status; uint16_t handle; uint16_t interval; uint16_t latency; uint16_t timeout; if (evt_len < 9) { LOG_ERROR("Bogus event packet, too short"); return; } STREAM_TO_UINT8(status, p); STREAM_TO_UINT16(handle, p); STREAM_TO_UINT16(interval, p); STREAM_TO_UINT16(latency, p); STREAM_TO_UINT16(timeout, p); acl_ble_update_event_received(static_cast(status), handle, interval, latency, timeout); } static void btu_ble_proc_ltk_req(uint8_t* p, uint16_t evt_len) { uint16_t ediv, handle; uint8_t* pp; // following the spec in Core_v5.3/Vol 4/Part E // / 7.7.65.5 LE Long Term Key Request event // A BLE Long Term Key Request event contains: // - 1-byte subevent (already consumed in btu_hcif_process_event) // - 2-byte connection handler // - 8-byte random number // - 2 byte Encrypted_Diversifier if (evt_len < 2 + 8 + 2) { LOG_ERROR("Event packet too short"); return; } STREAM_TO_UINT16(handle, p); pp = p + 8; STREAM_TO_UINT16(ediv, pp); btm_ble_ltk_request(handle, p, ediv); /* This is empty until an upper layer cares about returning event */ } static void btu_ble_data_length_change_evt(uint8_t* p, uint16_t evt_len) { uint16_t handle; uint16_t tx_data_len; uint16_t rx_data_len; if (!controller_get_interface()->supports_ble_packet_extension()) { HCI_TRACE_WARNING("%s, request not supported", __func__); return; } STREAM_TO_UINT16(handle, p); STREAM_TO_UINT16(tx_data_len, p); p += 2; /* Skip the TxTimer */ STREAM_TO_UINT16(rx_data_len, p); l2cble_process_data_length_change_event(handle, tx_data_len, rx_data_len); } /********************************************** * End of BLE Events Handler **********************************************/ static void btu_ble_rc_param_req_evt(uint8_t* p, uint8_t len) { uint16_t handle; uint16_t int_min, int_max, latency, timeout; if (len < 10) { LOG(ERROR) << __func__ << "bogus event packet, too short"; return; } STREAM_TO_UINT16(handle, p); STREAM_TO_UINT16(int_min, p); STREAM_TO_UINT16(int_max, p); STREAM_TO_UINT16(latency, p); STREAM_TO_UINT16(timeout, p); l2cble_process_rc_param_request_evt(handle, int_min, int_max, latency, timeout); }