/* * Copyright (C) 2012 The Android Open Source Project * * 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. */ #ifndef ANDROID_INCLUDE_BLUETOOTH_H #define ANDROID_INCLUDE_BLUETOOTH_H #include #include #include #include #include "avrcp/avrcp.h" #include "bluetooth/uuid.h" #include "bt_transport.h" #include "raw_address.h" /** * The Bluetooth Hardware Module ID */ #define BT_HARDWARE_MODULE_ID "bluetooth" #define BT_STACK_MODULE_ID "bluetooth" /** Bluetooth profile interface IDs */ #define BT_PROFILE_HANDSFREE_ID "handsfree" #define BT_PROFILE_HANDSFREE_CLIENT_ID "handsfree_client" #define BT_PROFILE_ADVANCED_AUDIO_ID "a2dp" #define BT_PROFILE_ADVANCED_AUDIO_SINK_ID "a2dp_sink" #define BT_PROFILE_SOCKETS_ID "socket" #define BT_PROFILE_HIDHOST_ID "hidhost" #define BT_PROFILE_HIDDEV_ID "hiddev" #define BT_PROFILE_PAN_ID "pan" #define BT_PROFILE_MAP_CLIENT_ID "map_client" #define BT_PROFILE_SDP_CLIENT_ID "sdp" #define BT_PROFILE_GATT_ID "gatt" #define BT_PROFILE_AV_RC_ID "avrcp" #define BT_PROFILE_AV_RC_CTRL_ID "avrcp_ctrl" #define BT_PROFILE_HEARING_AID_ID "hearing_aid" #define BT_PROFILE_HAP_CLIENT_ID "has_client" #define BT_PROFILE_LE_AUDIO_ID "le_audio" #define BT_KEYSTORE_ID "bluetooth_keystore" #define BT_ACTIVITY_ATTRIBUTION_ID "activity_attribution" #define BT_PROFILE_VC_ID "volume_control" #define BT_PROFILE_CSIS_CLIENT_ID "csis_client" #define BT_PROFILE_LE_AUDIO_ID "le_audio" #define BT_PROFILE_LE_AUDIO_BROADCASTER_ID "le_audio_broadcaster" /** Bluetooth Device Name */ typedef struct { uint8_t name[249]; } __attribute__((packed)) bt_bdname_t; /** Bluetooth Adapter Visibility Modes*/ typedef enum { BT_SCAN_MODE_NONE, BT_SCAN_MODE_CONNECTABLE, BT_SCAN_MODE_CONNECTABLE_DISCOVERABLE } bt_scan_mode_t; /** Bluetooth Adapter State */ typedef enum { BT_STATE_OFF, BT_STATE_ON } bt_state_t; /** Bluetooth Adapter Input Output Capabilities which determine Pairing/Security */ typedef enum { BT_IO_CAP_OUT, /* DisplayOnly */ BT_IO_CAP_IO, /* DisplayYesNo */ BT_IO_CAP_IN, /* KeyboardOnly */ BT_IO_CAP_NONE, /* NoInputNoOutput */ BT_IO_CAP_KBDISP, /* Keyboard display */ BT_IO_CAP_MAX, BT_IO_CAP_UNKNOWN = 0xFF /* Unknown value */ } bt_io_cap_t; /** Bluetooth Error Status */ /** We need to build on this */ typedef enum { BT_STATUS_SUCCESS = 0, BT_STATUS_FAIL, BT_STATUS_NOT_READY, BT_STATUS_NOMEM, BT_STATUS_BUSY, BT_STATUS_DONE, /* request already completed */ BT_STATUS_UNSUPPORTED, BT_STATUS_PARM_INVALID, BT_STATUS_UNHANDLED, BT_STATUS_AUTH_FAILURE, BT_STATUS_RMT_DEV_DOWN, BT_STATUS_AUTH_REJECTED, BT_STATUS_JNI_ENVIRONMENT_ERROR, BT_STATUS_JNI_THREAD_ATTACH_ERROR, BT_STATUS_WAKELOCK_ERROR } bt_status_t; inline std::string bt_status_text(const bt_status_t& status) { switch (status) { case BT_STATUS_SUCCESS: return std::string("success"); case BT_STATUS_FAIL: return std::string("fail"); case BT_STATUS_NOT_READY: return std::string("not_ready"); case BT_STATUS_NOMEM: return std::string("no_memory"); case BT_STATUS_BUSY: return std::string("busy"); case BT_STATUS_DONE: return std::string("already_done"); case BT_STATUS_UNSUPPORTED: return std::string("unsupported"); case BT_STATUS_PARM_INVALID: return std::string("parameter_invalid"); case BT_STATUS_UNHANDLED: return std::string("unhandled"); case BT_STATUS_AUTH_FAILURE: return std::string("failure"); case BT_STATUS_RMT_DEV_DOWN: return std::string("remote_device_down"); case BT_STATUS_AUTH_REJECTED: return std::string("rejected"); case BT_STATUS_JNI_ENVIRONMENT_ERROR: return std::string("jni_env_error"); case BT_STATUS_JNI_THREAD_ATTACH_ERROR: return std::string("jni_thread_error"); case BT_STATUS_WAKELOCK_ERROR: return std::string("wakelock_error"); default: return std::string("UNKNOWN"); } } /** Bluetooth HCI Error Codes */ /** Corresponding to [Vol 2] Part D, "Error Codes" of Core_v5.1 specs */ typedef uint8_t bt_hci_error_code_t; /** Bluetooth PinKey Code */ typedef struct { uint8_t pin[16]; } __attribute__((packed)) bt_pin_code_t; typedef struct { uint8_t status; uint8_t ctrl_state; /* stack reported state */ uint64_t tx_time; /* in ms */ uint64_t rx_time; /* in ms */ uint64_t idle_time; /* in ms */ uint64_t energy_used; /* a product of mA, V and ms */ } __attribute__((packed)) bt_activity_energy_info; typedef struct { int32_t app_uid; uint64_t tx_bytes; uint64_t rx_bytes; } __attribute__((packed)) bt_uid_traffic_t; /** Bluetooth Adapter Discovery state */ typedef enum { BT_DISCOVERY_STOPPED, BT_DISCOVERY_STARTED } bt_discovery_state_t; /** Bluetooth ACL connection state */ typedef enum { BT_ACL_STATE_CONNECTED, BT_ACL_STATE_DISCONNECTED } bt_acl_state_t; /** Bluetooth SDP service record */ typedef struct { bluetooth::Uuid uuid; uint16_t channel; char name[256]; // what's the maximum length } bt_service_record_t; /** Bluetooth Remote Version info */ typedef struct { int version; int sub_ver; int manufacturer; } bt_remote_version_t; typedef struct { uint16_t version_supported; uint8_t local_privacy_enabled; uint8_t max_adv_instance; uint8_t rpa_offload_supported; uint8_t max_irk_list_size; uint8_t max_adv_filter_supported; uint8_t activity_energy_info_supported; uint16_t scan_result_storage_size; uint16_t total_trackable_advertisers; bool extended_scan_support; bool debug_logging_supported; bool le_2m_phy_supported; bool le_coded_phy_supported; bool le_extended_advertising_supported; bool le_periodic_advertising_supported; uint16_t le_maximum_advertising_data_length; uint32_t dynamic_audio_buffer_supported; bool le_periodic_advertising_sync_transfer_sender_supported; bool le_connected_isochronous_stream_central_supported; bool le_isochronous_broadcast_supported; bool le_periodic_advertising_sync_transfer_recipient_supported; } bt_local_le_features_t; /* Stored the default/maximum/minimum buffer time for dynamic audio buffer. * For A2DP offload usage, the unit is millisecond. * For A2DP legacy usage, the unit is buffer queue size*/ typedef struct { uint16_t default_buffer_time; uint16_t maximum_buffer_time; uint16_t minimum_buffer_time; } bt_dynamic_audio_buffer_type_t; typedef struct { bt_dynamic_audio_buffer_type_t dab_item[32]; } bt_dynamic_audio_buffer_item_t; /* Bluetooth Adapter and Remote Device property types */ typedef enum { /* Properties common to both adapter and remote device */ /** * Description - Bluetooth Device Name * Access mode - Adapter name can be GET/SET. Remote device can be GET * Data type - bt_bdname_t */ BT_PROPERTY_BDNAME = 0x1, /** * Description - Bluetooth Device Address * Access mode - Only GET. * Data type - RawAddress */ BT_PROPERTY_BDADDR, /** * Description - Bluetooth Service 128-bit UUIDs * Access mode - Only GET. * Data type - Array of bluetooth::Uuid (Array size inferred from property * length). */ BT_PROPERTY_UUIDS, /** * Description - Bluetooth Class of Device as found in Assigned Numbers * Access mode - Only GET. * Data type - uint32_t. */ BT_PROPERTY_CLASS_OF_DEVICE, /** * Description - Device Type - BREDR, BLE or DUAL Mode * Access mode - Only GET. * Data type - bt_device_type_t */ BT_PROPERTY_TYPE_OF_DEVICE, /** * Description - Bluetooth Service Record * Access mode - Only GET. * Data type - bt_service_record_t */ BT_PROPERTY_SERVICE_RECORD, /* Properties unique to adapter */ /** * Description - Bluetooth Adapter scan mode * Access mode - GET and SET * Data type - bt_scan_mode_t. */ BT_PROPERTY_ADAPTER_SCAN_MODE, /** * Description - List of bonded devices * Access mode - Only GET. * Data type - Array of RawAddress of the bonded remote devices * (Array size inferred from property length). */ BT_PROPERTY_ADAPTER_BONDED_DEVICES, /** * Description - Bluetooth Adapter Discoverable timeout (in seconds) * Access mode - GET and SET * Data type - uint32_t */ BT_PROPERTY_ADAPTER_DISCOVERABLE_TIMEOUT, /* Properties unique to remote device */ /** * Description - User defined friendly name of the remote device * Access mode - GET and SET * Data type - bt_bdname_t. */ BT_PROPERTY_REMOTE_FRIENDLY_NAME, /** * Description - RSSI value of the inquired remote device * Access mode - Only GET. * Data type - int8_t. */ BT_PROPERTY_REMOTE_RSSI, /** * Description - Remote version info * Access mode - SET/GET. * Data type - bt_remote_version_t. */ BT_PROPERTY_REMOTE_VERSION_INFO, /** * Description - Local LE features * Access mode - GET. * Data type - bt_local_le_features_t. */ BT_PROPERTY_LOCAL_LE_FEATURES, /** * Description - Local Input/Output Capabilities for classic Bluetooth * Access mode - GET and SET * Data Type - bt_io_cap_t. */ BT_PROPERTY_LOCAL_IO_CAPS, /** * Description - Local Input/Output Capabilities for BLE * Access mode - GET and SET * Data Type - bt_io_cap_t. */ BT_PROPERTY_LOCAL_IO_CAPS_BLE, BT_PROPERTY_DYNAMIC_AUDIO_BUFFER, /** * Description - True if Remote is a Member of a Coordinated Set. * Access mode - GET. * Data Type - bool. */ BT_PROPERTY_REMOTE_IS_COORDINATED_SET_MEMBER, BT_PROPERTY_REMOTE_DEVICE_TIMESTAMP = 0xFF, } bt_property_type_t; /** Bluetooth Adapter Property data structure */ typedef struct { bt_property_type_t type; int len; void* val; } bt_property_t; /** Represents the actual Out of Band data itself */ typedef struct bt_oob_data_s { // Both bool is_valid = false; /* Default to invalid data; force caller to verify */ uint8_t address[7]; /* Bluetooth Device Address (6) plus Address Type (1) */ uint8_t c[16]; /* Simple Pairing Hash C-192/256 (Classic or LE) */ uint8_t r[16]; /* Simple Pairing Randomizer R-192/256 (Classic or LE) */ uint8_t device_name[256]; /* Name of the device */ // Classic uint8_t oob_data_length[2]; /* Classic only data Length. Value includes this in length */ uint8_t class_of_device[2]; /* Class of Device (Classic or LE) */ // LE uint8_t le_device_role; /* Supported and preferred role of device */ uint8_t sm_tk[16]; /* Security Manager TK Value (LE Only) */ uint8_t le_flags; /* LE Flags for discoverability and features */ uint8_t le_appearance[2]; /* For the appearance of the device */ } bt_oob_data_t; /** Bluetooth Device Type */ typedef enum { BT_DEVICE_DEVTYPE_BREDR = 0x1, BT_DEVICE_DEVTYPE_BLE, BT_DEVICE_DEVTYPE_DUAL } bt_device_type_t; /** Bluetooth Bond state */ typedef enum { BT_BOND_STATE_NONE, BT_BOND_STATE_BONDING, BT_BOND_STATE_BONDED } bt_bond_state_t; /** Bluetooth SSP Bonding Variant */ typedef enum { BT_SSP_VARIANT_PASSKEY_CONFIRMATION, BT_SSP_VARIANT_PASSKEY_ENTRY, BT_SSP_VARIANT_CONSENT, BT_SSP_VARIANT_PASSKEY_NOTIFICATION } bt_ssp_variant_t; #define BT_MAX_NUM_UUIDS 32 /** Bluetooth Interface callbacks */ /** Bluetooth Enable/Disable Callback. */ typedef void (*adapter_state_changed_callback)(bt_state_t state); /** GET/SET Adapter Properties callback */ /* TODO: For the GET/SET property APIs/callbacks, we may need a session * identifier to associate the call with the callback. This would be needed * whenever more than one simultaneous instance of the same adapter_type * is get/set. * * If this is going to be handled in the Java framework, then we do not need * to manage sessions here. */ typedef void (*adapter_properties_callback)(bt_status_t status, int num_properties, bt_property_t* properties); /** GET/SET Remote Device Properties callback */ /** TODO: For remote device properties, do not see a need to get/set * multiple properties - num_properties shall be 1 */ typedef void (*remote_device_properties_callback)(bt_status_t status, RawAddress* bd_addr, int num_properties, bt_property_t* properties); /** New device discovered callback */ /** If EIR data is not present, then BD_NAME and RSSI shall be NULL and -1 * respectively */ typedef void (*device_found_callback)(int num_properties, bt_property_t* properties); /** Discovery state changed callback */ typedef void (*discovery_state_changed_callback)(bt_discovery_state_t state); /** Bluetooth Legacy PinKey Request callback */ typedef void (*pin_request_callback)(RawAddress* remote_bd_addr, bt_bdname_t* bd_name, uint32_t cod, bool min_16_digit); /** Bluetooth SSP Request callback - Just Works & Numeric Comparison*/ /** pass_key - Shall be 0 for BT_SSP_PAIRING_VARIANT_CONSENT & * BT_SSP_PAIRING_PASSKEY_ENTRY */ /* TODO: Passkey request callback shall not be needed for devices with display * capability. We still need support this in the stack for completeness */ typedef void (*ssp_request_callback)(RawAddress* remote_bd_addr, bt_bdname_t* bd_name, uint32_t cod, bt_ssp_variant_t pairing_variant, uint32_t pass_key); /** Bluetooth Bond state changed callback */ /* Invoked in response to create_bond, cancel_bond or remove_bond */ typedef void (*bond_state_changed_callback)(bt_status_t status, RawAddress* remote_bd_addr, bt_bond_state_t state, int fail_reason); /** Bluetooth Address consolidate callback */ /* Callback to inform upper layer that these two addresses come from same * bluetooth device (DUAL mode) */ typedef void (*address_consolidate_callback)(RawAddress* main_bd_addr, RawAddress* secondary_bd_addr); /** Bluetooth LE Address association callback */ /* Callback for the upper layer to associate the LE-only device's RPA to the * identity address */ typedef void (*le_address_associate_callback)(RawAddress* main_bd_addr, RawAddress* secondary_bd_addr); /** Bluetooth ACL connection state changed callback */ typedef void (*acl_state_changed_callback)(bt_status_t status, RawAddress* remote_bd_addr, bt_acl_state_t state, int transport_link_type, bt_hci_error_code_t hci_reason); /** Bluetooth link quality report callback */ typedef void (*link_quality_report_callback)( uint64_t timestamp, int report_id, int rssi, int snr, int retransmission_count, int packets_not_receive_count, int negative_acknowledgement_count); /** Switch the buffer size callback */ typedef void (*switch_buffer_size_callback)(bool is_low_latency_buffer_size); /** Switch the codec callback */ typedef void (*switch_codec_callback)(bool is_low_latency_buffer_size); typedef enum { ASSOCIATE_JVM, DISASSOCIATE_JVM } bt_cb_thread_evt; /** Thread Associate/Disassociate JVM Callback */ /* Callback that is invoked by the callback thread to allow upper layer to * attach/detach to/from the JVM */ typedef void (*callback_thread_event)(bt_cb_thread_evt evt); /** Bluetooth Test Mode Callback */ /* Receive any HCI event from controller. Must be in DUT Mode for this callback * to be received */ typedef void (*dut_mode_recv_callback)(uint16_t opcode, uint8_t* buf, uint8_t len); /* LE Test mode callbacks * This callback shall be invoked whenever the le_tx_test, le_rx_test or * le_test_end is invoked The num_packets is valid only for le_test_end command */ typedef void (*le_test_mode_callback)(bt_status_t status, uint16_t num_packets); /** Callback invoked when energy details are obtained */ /* Ctrl_state-Current controller state-Active-1,scan-2,or idle-3 state as * defined by HCI spec. If the ctrl_state value is 0, it means the API call * failed Time values-In milliseconds as returned by the controller Energy * used-Value as returned by the controller Status-Provides the status of the * read_energy_info API call uid_data provides an array of bt_uid_traffic_t, * where the array is terminated by an element with app_uid set to -1. */ typedef void (*energy_info_callback)(bt_activity_energy_info* energy_info, bt_uid_traffic_t* uid_data); /** Callback invoked when OOB data is returned from the controller */ typedef void (*generate_local_oob_data_callback)(tBT_TRANSPORT transport, bt_oob_data_t oob_data); /** TODO: Add callbacks for Link Up/Down and other generic * notifications/callbacks */ /** Bluetooth DM callback structure. */ typedef struct { /** set to sizeof(bt_callbacks_t) */ size_t size; adapter_state_changed_callback adapter_state_changed_cb; adapter_properties_callback adapter_properties_cb; remote_device_properties_callback remote_device_properties_cb; device_found_callback device_found_cb; discovery_state_changed_callback discovery_state_changed_cb; pin_request_callback pin_request_cb; ssp_request_callback ssp_request_cb; bond_state_changed_callback bond_state_changed_cb; address_consolidate_callback address_consolidate_cb; le_address_associate_callback le_address_associate_cb; acl_state_changed_callback acl_state_changed_cb; callback_thread_event thread_evt_cb; dut_mode_recv_callback dut_mode_recv_cb; le_test_mode_callback le_test_mode_cb; energy_info_callback energy_info_cb; link_quality_report_callback link_quality_report_cb; generate_local_oob_data_callback generate_local_oob_data_cb; switch_buffer_size_callback switch_buffer_size_cb; switch_codec_callback switch_codec_cb; } bt_callbacks_t; typedef void (*alarm_cb)(void* data); typedef bool (*set_wake_alarm_callout)(uint64_t delay_millis, bool should_wake, alarm_cb cb, void* data); typedef int (*acquire_wake_lock_callout)(const char* lock_name); typedef int (*release_wake_lock_callout)(const char* lock_name); /** The set of functions required by bluedroid to set wake alarms and * grab wake locks. This struct is passed into the stack through the * |set_os_callouts| function on |bt_interface_t|. */ typedef struct { /* set to sizeof(bt_os_callouts_t) */ size_t size; set_wake_alarm_callout set_wake_alarm; acquire_wake_lock_callout acquire_wake_lock; release_wake_lock_callout release_wake_lock; } bt_os_callouts_t; /** NOTE: By default, no profiles are initialized at the time of init/enable. * Whenever the application invokes the 'init' API of a profile, then one of * the following shall occur: * * 1.) If Bluetooth is not enabled, then the Bluetooth core shall mark the * profile as enabled. Subsequently, when the application invokes the * Bluetooth 'enable', as part of the enable sequence the profile that * were marked shall be enabled by calling appropriate stack APIs. The * 'adapter_properties_cb' shall return the list of UUIDs of the * enabled profiles. * * 2.) If Bluetooth is enabled, then the Bluetooth core shall invoke the * stack profile API to initialize the profile and trigger a * 'adapter_properties_cb' with the current list of UUIDs including the * newly added profile's UUID. * * The reverse shall occur whenever the profile 'cleanup' APIs are invoked */ /** Represents the standard Bluetooth DM interface. */ typedef struct { /** set to sizeof(bt_interface_t) */ size_t size; /** * Opens the interface and provides the callback routines * to the implemenation of this interface. * The |start_restricted| flag inits the adapter in restricted mode. In * restricted mode, bonds that are created are marked as restricted in the * config file. These devices are deleted upon leaving restricted mode. * The |is_common_criteria_mode| flag inits the adapter in commom criteria * mode. The |config_compare_result| flag show the config checksum check * result if is in common criteria mode. The |init_flags| are config flags * that cannot change during run. The |is_atv| flag indicates whether the * local device is an Android TV */ int (*init)(bt_callbacks_t* callbacks, bool guest_mode, bool is_common_criteria_mode, int config_compare_result, const char** init_flags, bool is_atv, const char* user_data_directory); /** Enable Bluetooth. */ int (*enable)(); /** Disable Bluetooth. */ int (*disable)(void); /** Closes the interface. */ void (*cleanup)(void); /** Get all Bluetooth Adapter properties at init */ int (*get_adapter_properties)(void); /** Get Bluetooth Adapter property of 'type' */ int (*get_adapter_property)(bt_property_type_t type); /** Set Bluetooth Adapter property of 'type' */ /* Based on the type, val shall be one of * RawAddress or bt_bdname_t or bt_scanmode_t etc */ int (*set_adapter_property)(const bt_property_t* property); /** Get all Remote Device properties */ int (*get_remote_device_properties)(RawAddress* remote_addr); /** Get Remote Device property of 'type' */ int (*get_remote_device_property)(RawAddress* remote_addr, bt_property_type_t type); /** Set Remote Device property of 'type' */ int (*set_remote_device_property)(RawAddress* remote_addr, const bt_property_t* property); /** Get Remote Device's service record for the given UUID */ int (*get_remote_service_record)(const RawAddress& remote_addr, const bluetooth::Uuid& uuid); /** Start service discovery with tranport to get remote services */ int (*get_remote_services)(RawAddress* remote_addr, int transport); /** Start Discovery */ int (*start_discovery)(void); /** Cancel Discovery */ int (*cancel_discovery)(void); /** Create Bluetooth Bonding */ int (*create_bond)(const RawAddress* bd_addr, int transport); /** Create Bluetooth Bond using out of band data */ int (*create_bond_out_of_band)(const RawAddress* bd_addr, int transport, const bt_oob_data_t* p192_data, const bt_oob_data_t* p256_data); /** Remove Bond */ int (*remove_bond)(const RawAddress* bd_addr); /** Cancel Bond */ int (*cancel_bond)(const RawAddress* bd_addr); /** * Get the connection status for a given remote device. * return value of 0 means the device is not connected, * non-zero return status indicates an active connection. */ int (*get_connection_state)(const RawAddress* bd_addr); /** BT Legacy PinKey Reply */ /** If accept==FALSE, then pin_len and pin_code shall be 0x0 */ int (*pin_reply)(const RawAddress* bd_addr, uint8_t accept, uint8_t pin_len, bt_pin_code_t* pin_code); /** BT SSP Reply - Just Works, Numeric Comparison and Passkey * passkey shall be zero for BT_SSP_VARIANT_PASSKEY_COMPARISON & * BT_SSP_VARIANT_CONSENT * For BT_SSP_VARIANT_PASSKEY_ENTRY, if accept==FALSE, then passkey * shall be zero */ int (*ssp_reply)(const RawAddress* bd_addr, bt_ssp_variant_t variant, uint8_t accept, uint32_t passkey); /** Get Bluetooth profile interface */ const void* (*get_profile_interface)(const char* profile_id); /** Bluetooth Test Mode APIs - Bluetooth must be enabled for these APIs */ /* Configure DUT Mode - Use this mode to enter/exit DUT mode */ int (*dut_mode_configure)(uint8_t enable); /* Send any test HCI (vendor-specific) command to the controller. Must be in * DUT Mode */ int (*dut_mode_send)(uint16_t opcode, uint8_t* buf, uint8_t len); /** BLE Test Mode APIs */ /* opcode MUST be one of: LE_Receiver_Test, LE_Transmitter_Test, LE_Test_End */ int (*le_test_mode)(uint16_t opcode, uint8_t* buf, uint8_t len); /** Sets the OS call-out functions that bluedroid needs for alarms and wake * locks. This should be called immediately after a successful |init|. */ int (*set_os_callouts)(bt_os_callouts_t* callouts); /** Read Energy info details - return value indicates BT_STATUS_SUCCESS or * BT_STATUS_NOT_READY Success indicates that the VSC command was sent to * controller */ int (*read_energy_info)(); /** * Native support for dumpsys function * Function is synchronous and |fd| is owned by caller. * |arguments| are arguments which may affect the output, encoded as * UTF-8 strings. */ void (*dump)(int fd, const char** arguments); /** * Native support for metrics protobuf dumping. The dumping format will be * raw byte array * * @param output an externally allocated string to dump serialized protobuf */ void (*dumpMetrics)(std::string* output); /** * Clear /data/misc/bt_config.conf and erase all stored connections */ int (*config_clear)(void); /** * Clear (reset) the dynamic portion of the device interoperability database. */ void (*interop_database_clear)(void); /** * Add a new device interoperability workaround for a remote device whose * first |len| bytes of the its device address match |addr|. * NOTE: |feature| has to match an item defined in interop_feature_t * (interop.h). */ void (*interop_database_add)(uint16_t feature, const RawAddress* addr, size_t len); /** * Get the AvrcpTarget Service interface to interact with the Avrcp Service */ bluetooth::avrcp::ServiceInterface* (*get_avrcp_service)(void); /** * Obfuscate Bluetooth MAC address into a PII free ID string * * @param address Bluetooth MAC address to be obfuscated * @return a string of uint8_t that is unique to this MAC address */ std::string (*obfuscate_address)(const RawAddress& address); /** * Get an incremental id for as primary key for Bluetooth metric and log * * @param address Bluetooth MAC address of Bluetooth device * @return int incremental Bluetooth id */ int (*get_metric_id)(const RawAddress& address); /** * Set the dynamic audio buffer size to the Controller */ int (*set_dynamic_audio_buffer_size)(int codec, int size); /** * Fetches the local Out of Band data. */ int (*generate_local_oob_data)(tBT_TRANSPORT transport); /** * Allow or disallow audio low latency * * @param allowed true if allowing audio low latency * @param address Bluetooth MAC address of Bluetooth device * @return true if audio low latency is successfully allowed or disallowed */ bool (*allow_low_latency_audio)(bool allowed, const RawAddress& address); /** * Set the event filter for the controller */ int (*clear_event_filter)(); /** * Data passed from BluetoothDevice.metadata_changed * * @param remote_bd_addr remote address * @param key Metadata key * @param value Metadata value */ void (*metadata_changed)(const RawAddress& remote_bd_addr, int key, std::vector value); } bt_interface_t; #define BLUETOOTH_INTERFACE_STRING "bluetoothInterface" #endif /* ANDROID_INCLUDE_BLUETOOTH_H */