little_endian_packets enum PacketBoundaryFlag : 1 { COMPLETE = 0x00, NOT_COMPLETE = 0x01, } enum GroupId : 4 { CORE = 0x00, SESSION_CONFIG = 0x01, SESSION_CONTROL = 0x02, DATA_CONTROL = 0x03, TEST = 0x0d, VENDOR_RESERVED_9 = 0x09, VENDOR_RESERVED_A = 0x0a, VENDOR_RESERVED_B = 0x0b, VENDOR_ANDROID = 0x0c, VENDOR_RESERVED_E = 0x0e, VENDOR_RESERVED_F = 0x0f, } enum DataPacketFormat: 4 { DATA_SND = 0x01, DATA_RCV = 0x02, } // Define a merged enum across GroupId & DataPacketFormat as they are at the same bits in // |UciPacketHal|. enum GroupIdOrDataPacketFormat : 4 { CORE = 0x00, SESSION_CONFIG_OR_DATA_SND = 0x01, SESSION_CONTROL_OR_DATA_RCV = 0x02, DATA_CONTROL = 0x03, TEST = 0x0d, VENDOR_RESERVED_9 = 0x09, VENDOR_RESERVED_A = 0x0a, VENDOR_RESERVED_B = 0x0b, VENDOR_ANDROID = 0x0c, VENDOR_RESERVED_E = 0x0e, VENDOR_RESERVED_F = 0x0f, } enum CoreOpCode : 6 { CORE_DEVICE_RESET = 0x00, CORE_DEVICE_STATUS_NTF = 0x01, CORE_DEVICE_INFO = 0x02, CORE_GET_CAPS_INFO = 0x03, CORE_SET_CONFIG = 0x04, CORE_GET_CONFIG = 0x05, CORE_DEVICE_SUSPEND = 0x06, CORE_GENERIC_ERROR_NTF = 0x07, CORE_QUERY_UWBS_TIMESTAMP = 0x08, } enum SessionConfigOpCode : 6 { SESSION_INIT = 0x00, SESSION_DEINIT = 0x01, SESSION_STATUS_NTF = 0x02, SESSION_SET_APP_CONFIG = 0x03, SESSION_GET_APP_CONFIG = 0x04, SESSION_GET_COUNT = 0x05, SESSION_GET_STATE = 0x06, SESSION_UPDATE_CONTROLLER_MULTICAST_LIST = 0x07, SESSION_UPDATE_ACTIVE_ROUNDS_ANCHOR = 0x08, SESSION_UPDATE_ACTIVE_ROUNDS_DT_TAG = 0x09, SESSION_SET_INITIATOR_DT_ANCHOR_RR_RDM_LIST = 0x0a, SESSION_QUERY_DATA_SIZE_IN_RANGING = 0x0b, SESSION_SET_HUS_CONFIG = 0x0c, } enum SessionControlOpCode : 6 { SESSION_START = 0x00, SESSION_STOP = 0x01, SESSION_RESERVED = 0x02, SESSION_GET_RANGING_COUNT = 0x03, SESSION_DATA_CREDIT_NTF = 0x04, SESSION_DATA_TRANSFER_STATUS_NTF = 0x05, } enum AppDataOpCode : 6 { APP_DATA_TX = 0x00, APP_DATA_RX = 0x01, } // Android vendor commands enum AndroidOpCode : 6 { ANDROID_GET_POWER_STATS = 0x0, ANDROID_SET_COUNTRY_CODE = 0x1, ANDROID_FIRA_RANGE_DIAGNOSTICS = 0x2, } enum StatusCode : 8 { // Generic Status Codes UCI_STATUS_OK = 0x00, UCI_STATUS_REJECTED = 0x01, UCI_STATUS_FAILED = 0x02, UCI_STATUS_SYNTAX_ERROR = 0x03, UCI_STATUS_INVALID_PARAM = 0x04, UCI_STATUS_INVALID_RANGE = 0x05, UCI_STATUS_INVALID_MSG_SIZE = 0x06, UCI_STATUS_UNKNOWN_GID = 0x07, UCI_STATUS_UNKNOWN_OID = 0x08, UCI_STATUS_READ_ONLY = 0x09, UCI_STATUS_COMMAND_RETRY = 0x0A, UCI_STATUS_UNKNOWN = 0x0B, UCI_STATUS_NOT_APPLICABLE = 0x0C, RFU_STATUS_CODE_RANGE_1 = 0x0D..0x10, // UWB Session Specific Status Codes UCI_STATUS_SESSION_NOT_EXIST = 0x11, UCI_STATUS_SESSION_DUPLICATE = 0x12, UCI_STATUS_SESSION_ACTIVE = 0x13, UCI_STATUS_MAX_SESSIONS_EXCEEDED = 0x14, UCI_STATUS_SESSION_NOT_CONFIGURED = 0x15, UCI_STATUS_ACTIVE_SESSIONS_ONGOING = 0x16, UCI_STATUS_MULTICAST_LIST_FULL = 0x17, UCI_STATUS_ADDRESS_NOT_FOUND = 0x18, UCI_STATUS_ADDRESS_ALREADY_PRESENT = 0x19, UCI_STATUS_ERROR_UWB_INITIATION_TIME_TOO_OLD = 0x1A, UCI_STATUS_OK_NEGATIVE_DISTANCE_REPORT = 0x1B, RFU_STATUS_CODE_RANGE_2 = 0x1C..0x1F, // UWB Ranging Session Specific Status Codes UCI_STATUS_RANGING_TX_FAILED = 0x20, UCI_STATUS_RANGING_RX_TIMEOUT = 0x21, UCI_STATUS_RANGING_RX_PHY_DEC_FAILED = 0x22, UCI_STATUS_RANGING_RX_PHY_TOA_FAILED = 0x23, UCI_STATUS_RANGING_RX_PHY_STS_FAILED = 0x24, UCI_STATUS_RANGING_RX_MAC_DEC_FAILED = 0x25, UCI_STATUS_RANGING_RX_MAC_IE_DEC_FAILED = 0x26, UCI_STATUS_RANGING_RX_MAC_IE_MISSING = 0x27, UCI_STATUS_ERROR_ROUND_INDEX_NOT_ACTIVATED = 0x28, UCI_STATUS_ERROR_NUMBER_OF_ACTIVE_RANGING_ROUNDS_EXCEEDED = 0x29, UCI_STATUS_ERROR_DL_TDOA_DEVICE_ADDRESS_NOT_MATCHING_IN_REPLY_TIME_LIST = 0x2A, RFU_STATUS_CODE_RANGE_3 = 0x2B..0x2F, // UWB Data Session Specific Status Codes UCI_STATUS_DATA_MAX_TX_PSDU_SIZE_EXCEEDED = 0x30, UCI_STATUS_DATA_RX_CRC_ERROR = 0x31, RFU_STATUS_CODE_RANGE_4 = 0x32..0x4F, // Vendor Specific Status Codes VENDOR_SPECIFIC_STATUS_CODE_RANGE_1 = 0x50..0xFE { UCI_STATUS_ERROR_CCC_SE_BUSY = 0x50, UCI_STATUS_ERROR_CCC_LIFECYCLE = 0x51, UCI_STATUS_ERROR_STOPPED_DUE_TO_OTHER_SESSION_CONFLICT = 0x52, }, // For internal usage, we will use 0xFF as default. VENDOR_SPECIFIC_STATUS_CODE_2 = 0xFF, } // This needs a separate StatusCode as the Status code values in the DATA_RCV packet have // different values from the generic StatusCode above. enum DataRcvStatusCode : 8 { UCI_STATUS_SUCCESS = 0x00, UCI_STATUS_ERROR = 0x01, UCI_STATUS_UNKNOWN = 0x02, } enum CreditAvailability : 8 { CREDIT_NOT_AVAILABLE = 0, CREDIT_AVAILABLE = 1, } // The UCI spec defines these status codes for a DATA_TRANSFER_STATUS_NTF packet. enum DataTransferNtfStatusCode : 8 { UCI_DATA_TRANSFER_STATUS_REPETITION_OK = 0x00, UCI_DATA_TRANSFER_STATUS_OK = 0x01, UCI_DATA_TRANSFER_STATUS_ERROR_DATA_TRANSFER = 0x02, UCI_DATA_TRANSFER_STATUS_ERROR_NO_CREDIT_AVAILABLE = 0x03, UCI_DATA_TRANSFER_STATUS_ERROR_REJECTED = 0x04, UCI_DATA_TRANSFER_STATUS_SESSION_TYPE_NOT_SUPPORTED = 0x05, UCI_DATA_TRANSFER_STATUS_ERROR_DATA_TRANSFER_IS_ONGOING = 0x06, } enum ResetConfig : 8 { UWBS_RESET = 0x00, } enum DeviceConfigId : 8 { DEVICE_STATE = 0x00, LOW_POWER_MODE = 0x01, } enum AppConfigTlvType : 8 { DEVICE_TYPE = 0x00, RANGING_ROUND_USAGE = 0x01, STS_CONFIG = 0x02, MULTI_NODE_MODE = 0x03, CHANNEL_NUMBER = 0x04, NO_OF_CONTROLEE = 0x05, DEVICE_MAC_ADDRESS = 0x06, DST_MAC_ADDRESS = 0x07, SLOT_DURATION = 0x08, RANGING_DURATION = 0x09, STS_INDEX = 0x0A, MAC_FCS_TYPE = 0x0B, RANGING_ROUND_CONTROL = 0x0C, AOA_RESULT_REQ = 0x0D, RNG_DATA_NTF = 0x0E, RNG_DATA_NTF_PROXIMITY_NEAR = 0x0F, RNG_DATA_NTF_PROXIMITY_FAR = 0x10, DEVICE_ROLE = 0x11, RFRAME_CONFIG = 0x12, RSSI_REPORTING = 0x13, PREAMBLE_CODE_INDEX = 0x14, SFD_ID = 0x15, PSDU_DATA_RATE = 0x16, PREAMBLE_DURATION = 0x17, LINK_LAYER_MODE = 0x18, DATA_REPETITION_COUNT = 0x19, RANGING_TIME_STRUCT = 0x1A, SLOTS_PER_RR = 0x1B, TX_ADAPTIVE_PAYLOAD_POWER = 0x1C, // TODO: Ensure this value is correct in the final 2.0 specification. RNG_DATA_NTF_AOA_BOUND = 0x1D, RESPONDER_SLOT_INDEX = 0x1E, PRF_MODE = 0x1F, CAP_SIZE_RANGE = 0x20, SCHEDULED_MODE = 0x22, KEY_ROTATION = 0x23, KEY_ROTATION_RATE = 0x24, SESSION_PRIORITY = 0x25, MAC_ADDRESS_MODE = 0x26, VENDOR_ID = 0x27, STATIC_STS_IV = 0x28, NUMBER_OF_STS_SEGMENTS = 0x29, MAX_RR_RETRY = 0x2A, UWB_INITIATION_TIME = 0x2B, HOPPING_MODE = 0x2C, BLOCK_STRIDE_LENGTH = 0x2D, RESULT_REPORT_CONFIG = 0x2E, IN_BAND_TERMINATION_ATTEMPT_COUNT = 0x2F, SUB_SESSION_ID = 0x30, BPRF_PHR_DATA_RATE = 0x31, MAX_NUMBER_OF_MEASUREMENTS = 0x32, UL_TDOA_TX_INTERVAL = 0x33, UL_TDOA_RANDOM_WINDOW = 0x34, STS_LENGTH = 0x35, SUSPEND_RANGING_ROUNDS = 0x36, UL_TDOA_NTF_REPORT_CONFIG = 0x37, UL_TDOA_DEVICE_ID = 0x38, UL_TDOA_TX_TIMESTAMP = 0x39, MIN_FRAMES_PER_RR = 0x3A, MTU_SIZE = 0x3B, INTER_FRAME_INTERVAL = 0x3C, RFU_APP_CFG_TLV_TYPE_RANGE_1 = 0x3D..0x44, SESSION_KEY = 0x45, SUBSESSION_KEY = 0x46, RFU_APP_CFG_TLV_TYPE_RANGE_2 = 0x47..0x9F, VENDOR_SPECIFIC_APP_CFG_TLV_TYPE_RANGE_1 = 0xA0..0xDF { // CCC specific CCC_HOP_MODE_KEY = 0xA0, CCC_UWB_TIME0 = 0xA1, CCC_RANGING_PROTOCOL_VER = 0xA3, CCC_UWB_CONFIG_ID = 0xA4, CCC_PULSESHAPE_COMBO = 0xA5, CCC_URSK_TTL = 0xA6, CCC_LAST_INDEX_USED = 0xA8, }, // Reserved for extension IDs. RFU_APP_CFG_TLV_TYPE_RANGE_3 = 0xE0..0xE2, VENDOR_SPECIFIC_APP_CFG_TLV_TYPE_RANGE_2 = 0xE3..0xFF { // Interleaving ratio if AOA_RESULT_REQ is set to 0xF0. NB_OF_RANGE_MEASUREMENTS = 0xE3, NB_OF_AZIMUTH_MEASUREMENTS = 0xE4, NB_OF_ELEVATION_MEASUREMENTS = 0xE5, ENABLE_DIAGNOSTICS = 0xE8, DIAGRAMS_FRAME_REPORTS_FIELDS = 0xE9, }, } enum FrameReportTlvType : 8 { RSSI = 0x0, AOA = 0x1, CIR = 0x2, } enum CapTlvType : 8 { SUPPORTED_FIRA_PHY_VERSION_RANGE = 0x0, SUPPORTED_FIRA_MAC_VERSION_RANGE = 0x1, SUPPORTED_DEVICE_ROLES = 0x2, SUPPORTED_RANGING_METHOD = 0x3, SUPPORTED_STS_CONFIG = 0x4, SUPPORTED_MULTI_NODE_MODES = 0x5, SUPPORTED_RANGING_TIME_STRUCT = 0x6, SUPPORTED_SCHEDULED_MODE = 0x7, SUPPORTED_HOPPING_MODE = 0x8, SUPPORTED_BLOCK_STRIDING = 0x9, SUPPORTED_UWB_INITIATION_TIME = 0x0A, SUPPORTED_CHANNELS = 0x0B, SUPPORTED_RFRAME_CONFIG = 0x0C, SUPPORTED_CC_CONSTRAINT_LENGTH = 0x0D, SUPPORTED_BPRF_PARAMETER_SETS = 0x0E, SUPPORTED_HPRF_PARAMETER_SETS = 0x0F, SUPPORTED_AOA = 0x10, SUPPORTED_EXTENDED_MAC_ADDRESS = 0x11, SUPPORTED_MAX_MESSAGE_SIZE = 0x12, SUPPORTED_MAX_DATA_PACKET_PAYLOAD_SIZE = 0x13, RFU_CAP_TLV_TYPE_RANGE_1 = 0x14..0x9F, VENDOR_SPECIFIC_CAP_TLV_TYPE_RANGE_1 = 0xA0..0xBF { // CCC specific CCC_SUPPORTED_CHAPS_PER_SLOT = 0xA0, CCC_SUPPORTED_SYNC_CODES = 0xA1, CCC_SUPPORTED_HOPPING_CONFIG_MODES_AND_SEQUENCES = 0xA2, CCC_SUPPORTED_CHANNELS = 0xA3, CCC_SUPPORTED_VERSIONS = 0xA4, CCC_SUPPORTED_UWB_CONFIGS = 0xA5, CCC_SUPPORTED_PULSE_SHAPE_COMBOS = 0xA6, CCC_SUPPORTED_RAN_MULTIPLIER = 0xA7, CCC_SUPPORTED_MAX_RANGING_SESSION_NUMBER = 0xA8, }, SUPPORTED_POWER_STATS = 0xC0, VENDOR_SPECIFIC_CAP_TLV_TYPE_RANGE_2 = 0xC1..0xDF, RFU_CAP_TLV_TYPE_RANGE_2 = 0xE0..0xE2, VENDOR_SPECIFIC_CAP_TLV_TYPE_RANGE_3 = 0xE3..0xFF { SUPPORTED_AOA_RESULT_REQ_ANTENNA_INTERLEAVING = 0xE3, SUPPORTED_MIN_RANGING_INTERVAL_MS = 0xE4, SUPPORTED_RANGE_DATA_NTF_CONFIG = 0xE5, SUPPORTED_RSSI_REPORTING = 0xE6, SUPPORTED_DIAGNOSTICS = 0xE7, SUPPORTED_MIN_SLOT_DURATION_RSTU = 0xE8, SUPPORTED_MAX_RANGING_SESSION_NUMBER = 0xE9, }, } // AOA result request type. // Values set for AOA_RESULT_REQ config ID. enum AoaResultReqType : 8 { AOA_DISABLE = 0x0, AOA_ENABLE = 0x01, AOA_ENABLE_AZIMUTH = 0x02, AOA_ENABLE_ELEVATION = 0x03, AOA_ENABLE_INTERLEAVED = 0xF0, } enum DeviceState : 8 { DEVICE_STATE_READY = 0x01, DEVICE_STATE_ACTIVE = 0x02, DEVICE_STATE_ERROR = 0xff, } enum SessionState : 8 { SESSION_STATE_INIT = 0x00, SESSION_STATE_DEINIT = 0x01, SESSION_STATE_ACTIVE = 0x02, SESSION_STATE_IDLE = 0x03, } enum ReasonCode : 8 { STATE_CHANGE_WITH_SESSION_MANAGEMENT_COMMANDS = 0x00, MAX_RANGING_ROUND_RETRY_COUNT_REACHED = 0x01, MAX_NUMBER_OF_MEASUREMENTS_REACHED = 0x02, SESSION_SUSPENDED_DUE_TO_INBAND_SIGNAL = 0x03, SESSION_RESUMED_DUE_TO_INBAND_SIGNAL = 0x04, SESSION_STOPPED_DUE_TO_INBAND_SIGNAL = 0x05, RFU_REASON_CODE_RANGE_1 = 0x06..0x1C, ERROR_INVALID_UL_TDOA_RANDOM_WINDOW = 0x1D, ERROR_MIN_RFRAMES_PER_RR_NOT_SUPPORTED = 0x1E, ERROR_TX_DELAY_NOT_SUPPORTED = 0x1F, ERROR_SLOT_LENGTH_NOT_SUPPORTED = 0x20, ERROR_INSUFFICIENT_SLOTS_PER_RR = 0x21, ERROR_MAC_ADDRESS_MODE_NOT_SUPPORTED = 0x22, ERROR_INVALID_RANGING_DURATION = 0x23, ERROR_INVALID_STS_CONFIG = 0x24, ERROR_INVALID_RFRAME_CONFIG = 0x25, ERROR_HUS_NOT_ENOUGH_SLOTS = 0x26, ERROR_HUS_CFP_PHASE_TOO_SHORT = 0x27, ERROR_HUS_CAP_PHASE_TOO_SHORT = 0x28, ERROR_HUS_OTHERS = 0x29, ERROR_STATUS_SESSION_KEY_NOT_FOUND = 0x2A, ERROR_STATUS_SUB_SESSION_KEY_NOT_FOUND = 0x2B, ERROR_INVALID_PREAMBLE_CODE_INDEX = 0x2C, ERROR_INVALID_SFD_ID = 0x2D, ERROR_INVALID_PSDU_DATA_RATE = 0x2E, ERROR_INVALID_PHR_DATA_RATE = 0x2F, ERROR_INVALID_PREAMBLE_DURATION = 0x30, ERROR_INVALID_STS_LENGTH = 0x31, ERROR_INVALID_NUM_OF_STS_SEGMENTS = 0x32, ERROR_INVALID_NUM_OF_CONTROLEES = 0x33, ERROR_MAX_RANGING_REPLY_TIME_EXCEEDED = 0x34, ERROR_INVALID_DST_ADDRESS_LIST = 0x35, ERROR_INVALID_OR_NOT_FOUND_SUB_SESSION_ID = 0x36, ERROR_INVALID_RESULT_REPORT_CONFIG = 0x37, ERROR_INVALID_RANGING_ROUND_CONTROL_CONFIG = 0x38, ERROR_INVALID_RANGING_ROUND_USAGE = 0x39, ERROR_INVALID_MULTI_NODE_MODE = 0x3A, ERROR_RDS_FETCH_FAILURE = 0x3B, ERROR_REF_UWB_SESSION_DOES_NOT_EXIST = 0x3C, ERROR_REF_UWB_SESSION_RANGING_DURATION_MISMATCH = 0x3D, ERROR_REF_UWB_SESSION_INVALID_OFFSET_TIME = 0x3E, ERROR_REF_UWB_SESSION_LOST = 0x3F, RFU_REASON_CODE_RANGE_2 = 0x40..0x7F { ERROR_DT_ANCHOR_RANGING_ROUNDS_NOT_CONFIGURED = 0x40, ERROR_DT_TAG_RANGING_ROUNDS_NOT_CONFIGURED = 0x41, }, VENDOR_SPECIFIC_REASON_CODE_RANGE_1 = 0x80..0xFE { ERROR_INVALID_CHANNEL_WITH_AOA = 0x80, ERROR_STOPPED_DUE_TO_OTHER_SESSION_CONFLICT = 0x81, }, // For internal usage, we will use 0xFF as default. VENDOR_SPECIFIC_REASON_CODE_2 = 0xFF, } enum MulticastUpdateStatusCode : 8 { STATUS_OK_MULTICAST_LIST_UPDATE = 0x00, STATUS_ERROR_MULTICAST_LIST_FULL = 0x01, STATUS_ERROR_KEY_FETCH_FAIL = 0x02, STATUS_ERROR_SUB_SESSION_ID_NOT_FOUND = 0x03, STATUS_ERROR_SUB_SESSION_KEY_NOT_FOUND = 0x05, STATUS_ERROR_SUB_SESSION_KEY_NOT_APPLICABLE = 0x06, STATUS_ERROR_SESSION_KEY_NOT_FOUND = 0x07, } enum MacAddressIndicator : 8 { SHORT_ADDRESS = 0x00, EXTENDED_ADDRESS = 0x01, } enum SessionType: 8 { FIRA_RANGING_SESSION = 0x00, FIRA_DATA_TRANSFER = 0x01, CCC = 0xA0, DEVICE_TEST_MODE = 0xD0, } enum MessageType: 3 { DATA = 0x00, COMMAND = 0x01, RESPONSE = 0x02, NOTIFICATION = 0x03, RESERVED_FOR_TESTING_1 = 0x04, RESERVED_FOR_TESTING_2 = 0x05, } // UCI packet description in compliance with the FIRA UCI spec. // Only this packet should be sent/expected across the HAL interface. packet UciPacketHal { group_id_or_data_packet_format: GroupIdOrDataPacketFormat, packet_boundary_flag: PacketBoundaryFlag, message_type: MessageType, _body_ } // The UciDataPacketHal must be declared before the UciControlPacketHal for correct parsing to // happen. This is required as the Data packet specifies a value for the 'message_type' constraint, // while the Control packet does not (as it encompasses multiple 'message_type' values). packet UciDataPacketHal: UciPacketHal (message_type = DATA) { _reserved_: 8, _size_(_payload_): 16, _payload_, } packet UciControlPacketHal: UciPacketHal { opcode: 6, _reserved_: 2, _reserved_: 8, _size_(_payload_): 8, _payload_, } // This control packet definition is used throughout the stack that holds a complete // (i.e unfragmented) UCI command/response/notification. // // UciControlPacket needs to be converted to one or more UciControlPacketHal fragments before // sending to the HAL. One or more UciControlPacketHal fragments needs to be converted to // UciControlPacket when receiving from the HAL. // // TODO(b/202760099): Handle fragmentation more cleanly in the PDL. packet UciControlPacket { group_id: GroupId, // This field is different from |UciControlPacketHal| to provide a placeholder for PBF flag. _reserved_: 1, message_type: MessageType, opcode: 6, _reserved_: 2, _reserved_: 8, // This field is different from |UciControlPacketHal| to allow holding a large unfragmented // packet. _size_(_payload_): 32, _payload_, } // This data packet definition is used throughout the stack that holds a complete // (i.e unfragmented) UCI data packet. // // UciDataPacket needs to be converted to one or more UciDataPacketHal fragments before sending to // the HAL. One or more UciDataPacketHal fragments needs to be converted to UciDataPacket when // receiving from the HAL. // // TODO(b/202760099): Handle fragmentation more cleanly in the PDL. packet UciDataPacket { data_packet_format: DataPacketFormat, // This field is different from |UciDataPacketHal| to provide a placeholder for PBF flag. _reserved_: 1, message_type: MessageType, _reserved_: 8, // This field is different from |UciDataPacketHal| to allow holding large unfragmented packet. _size_(_payload_): 32, _payload_, } packet UciDataSnd : UciDataPacket (data_packet_format = DATA_SND, message_type = DATA) { session_token: 32, // Session ID or Session Handle (based on UWBS version) dest_mac_address: 64, uci_sequence_number: 16, _size_(data): 16, data: 8[] } packet UciDataRcv : UciDataPacket (data_packet_format = DATA_RCV, message_type = DATA) { session_token: 32, // Session ID or Session Handle (based on UWBS version) status: DataRcvStatusCode, source_mac_address: 64, uci_sequence_number: 16, _size_(data): 16, data: 8[] } packet UciCommand : UciControlPacket (message_type = COMMAND) { _payload_, } packet UciResponse : UciControlPacket (message_type = RESPONSE) { _payload_, } packet UciNotification : UciControlPacket (message_type = NOTIFICATION) { _payload_, } packet CoreCommand : UciCommand (group_id = CORE) { _body_, } packet CoreResponse : UciResponse (group_id = CORE) { _body_, } packet CoreNotification : UciNotification (group_id = CORE) { _body_, } packet SessionConfigCommand : UciCommand (group_id = SESSION_CONFIG) { _body_, } packet SessionConfigResponse : UciResponse (group_id = SESSION_CONFIG) { _body_, } packet SessionConfigNotification : UciNotification (group_id = SESSION_CONFIG) { _body_, } packet SessionControlCommand : UciCommand (group_id = SESSION_CONTROL) { _body_, } packet SessionControlResponse : UciResponse (group_id = SESSION_CONTROL) { _body_, } packet SessionControlNotification : UciNotification (group_id = SESSION_CONTROL) { _body_, } packet AndroidCommand : UciCommand (group_id = VENDOR_ANDROID) { _body_, } packet AndroidResponse : UciResponse (group_id = VENDOR_ANDROID) { _body_, } packet AndroidNotification : UciNotification (group_id = VENDOR_ANDROID) { _body_, } // TODO: b/202760099: Use the correspnding opcode enum instead of the raw value in the |opcode| field. packet DeviceResetCmd : CoreCommand (opcode = 0x0) { //CORE_DEVICE_RESET reset_config: ResetConfig, } test DeviceResetCmd { "\x20\x00\x00\x01\x00\x00\x00\x00", } packet DeviceResetRsp : CoreResponse (opcode = 0x0) { //CORE_DEVICE_RESET status: StatusCode, } test DeviceResetRsp { "\x40\x00\x00\x01\x00\x00\x00\x00", } packet DeviceStatusNtf : CoreNotification (opcode = 0x1) { //CORE_DEVICE_STATUS_NTF device_state: DeviceState, } test DeviceStatusNtf { "\x60\x01\x00\x01\x00\x00\x00\x01", } packet GetDeviceInfoCmd : CoreCommand (opcode = 0x2) { //CORE_DEVICE_INFO } test GetDeviceInfoCmd { "\x20\x02\x00\x00\x00\x00\x00", } packet GetDeviceInfoRsp : CoreResponse (opcode = 0x2) { //CORE_DEVICE_INFO status: StatusCode, uci_version: 16, mac_version: 16, phy_version: 16, uci_test_version: 16, _count_(vendor_spec_info): 8, vendor_spec_info: 8[], } test GetDeviceInfoRsp { "\x40\x02\x00\x0b\x00\x00\x00\x01\x01\x00\x02\x00\x03\x00\x04\x00\x01\x0a", } packet GetCapsInfoCmd : CoreCommand (opcode = 0x3) { //CORE_GET_CAPS_INFO } test GetCapsInfoCmd { "\x20\x03\x00\x00\x00\x00\x00", } struct CapTlv { t: CapTlvType, _count_(v): 8, v: 8[], } packet GetCapsInfoRsp : CoreResponse (opcode = 0x3) { //CORE_GET_CAPS_INFO status: StatusCode, _count_(tlvs): 8, tlvs: CapTlv[], } test GetCapsInfoRsp { "\x40\x03\x00\x05\x00\x00\x00\x00\x01\x00\x01\x01", } struct DeviceConfigTlv { cfg_id: DeviceConfigId, _count_(v): 8, v: 8[], } packet SetConfigCmd : CoreCommand (opcode = 0x4) { //CORE_SET_CONFIG _count_(tlvs): 8, tlvs: DeviceConfigTlv[], } test SetConfigCmd { "\x20\x04\x00\x03\x00\x00\x00\x01\x01\x00", } struct DeviceConfigStatus { cfg_id: DeviceConfigId, status: StatusCode, } packet SetConfigRsp : CoreResponse (opcode = 0x4) { //CORE_SET_CONFIG status: StatusCode, _count_(cfg_status): 8, cfg_status: DeviceConfigStatus[], } test SetConfigRsp { "\x40\x04\x00\x04\x00\x00\x00\x01\x01\x01\x01", "\x40\x04\x00\x04\x00\x00\x00\x01\x01\x01\x0B", } packet GetConfigCmd : CoreCommand (opcode = 0x5) { //CORE_GET_CONFIG _count_(cfg_id): 8, cfg_id: 8[], // DeviceConfigId (Infra does not allow array of enums) } test GetConfigCmd { "\x20\x05\x00\x02\x00\x00\x00\x01\x01", } packet GetConfigRsp : CoreResponse (opcode = 0x5) { //CORE_GET_CONFIG status: StatusCode, _count_(tlvs): 8, tlvs: DeviceConfigTlv[] } test GetConfigRsp { "\x40\x05\x00\x05\x00\x00\x00\x01\x01\x00\x01\x01", } packet GenericError : CoreNotification (opcode = 0x7) { //CORE_GENERIC_ERROR_NTF status: StatusCode, } test GenericError { "\x60\x07\x00\x01\x00\x00\x00\x01", } packet CoreQueryTimeStampCmd : CoreCommand (opcode = 0x8) { //CORE_QUERY_UWBS_TIMESTAMP } test CoreQueryTimeStampCmd { "\x20\x08\x00\\x00", } packet CoreQueryTimeStampRsp : CoreResponse (opcode = 0x8) { //CORE_QUERY_UWBS_TIMESTAMP status: StatusCode, timeStamp: 64, } test CoreQueryTimeStampRsp { "\x40\x08\x00\x09\x00\x00\x00\x01\x01\x00\x01\x01\x01", } packet SessionInitCmd : SessionConfigCommand (opcode = 0x0) { //SESSION_INIT session_id: 32, session_type: SessionType, } test SessionInitCmd { "\x21\x00\x00\x05\x00\x00\x00\x01\x02\x03\x04\x01", } // FIRA version 2 introduces a new version of SESSION_INIT_RSP which // includes UWBS generated session handle. packet SessionInitRsp_V2 : SessionConfigResponse (opcode = 0x0) { //SESSION_INIT status: StatusCode, session_handle: 32, } test SessionInitRsp_V2 { "\x41\x00\x00\x01\x00\x00\x00\x11\x00\x00\x00\x01", } packet SessionInitRsp : SessionConfigResponse (opcode = 0x0) { //SESSION_INIT status: StatusCode, } test SessionInitRsp { "\x41\x00\x00\x01\x00\x00\x00\x11", } packet SessionDeinitCmd : SessionConfigCommand (opcode = 0x1) { //SESSION_DEINIT session_token: 32, // Session ID or Session Handle (based on UWBS version) } test SessionDeinitCmd { "\x21\x01\x00\x04\x00\x00\x00\x01\x02\x03\x04", } packet SessionDeinitRsp : SessionConfigResponse (opcode = 0x1) { //SESSION_DEINIT status: StatusCode, } test SessionDeinitRsp { "\x41\x01\x00\x01\x00\x00\x00\x00", } packet SessionStatusNtf : SessionConfigNotification (opcode = 0x2) { //SESSION_STATUS_NTF session_token: 32, // Session ID or Session Handle (based on UWBS version) session_state: SessionState, // TODO(b/272775225): Switch back to the enum type ReasonCode, once PDL supports defining a // range inside an enum (for the vendor-specific space), in b/267339120. reason_code: 8, } test SessionStatusNtf { "\x61\x02\x00\x06\x00\x00\x00\x01\x02\x03\x04\x02\x21", "\x61\x02\x00\x06\x00\x00\x00\x01\x02\x03\x04\x01\x82", // Vendor Specific Reason Code } struct AppConfigTlv { cfg_id: AppConfigTlvType, _count_(v): 8, v: 8[], } packet SessionSetAppConfigCmd : SessionConfigCommand (opcode = 0x3) { //SESSION_SET_APP_CONFIG session_token: 32, // Session ID or Session Handle (based on UWBS version) _count_(tlvs): 8, tlvs: AppConfigTlv[] } test SessionSetAppConfigCmd { "\x21\x03\x00\x05\x00\x00\x00\x01\x02\x03\x04\x00", } struct AppConfigStatus { cfg_id: AppConfigTlvType, status: StatusCode, } packet SessionSetAppConfigRsp : SessionConfigResponse (opcode = 0x3) { //SESSION_SET_APP_CONFIG status: StatusCode, _count_(cfg_status): 8, cfg_status: AppConfigStatus[], } test SessionSetAppConfigRsp { "\x41\x03\x00\x04\x00\x00\x00\x01\x01\x01\x00", } packet SessionGetAppConfigCmd : SessionConfigCommand (opcode = 0x4) { //SESSION_GET_APP_CONFIG session_token: 32, // Session ID or Session Handle (based on UWBS version) _count_(app_cfg): 8, app_cfg: 8[], // AppConfigTlvType (Infra does not allow array of enums) } test SessionGetAppConfigCmd { "\x21\x04\x00\x05\x00\x00\x00\x01\x02\x03\x04\x00", } packet SessionGetAppConfigRsp : SessionConfigResponse (opcode = 0x4) { //SESSION_GET_APP_CONFIG status: StatusCode, _count_(tlvs): 8, tlvs: AppConfigTlv[], } test SessionGetAppConfigRsp { "\x41\x04\x00\x02\x00\x00\x00\x01\x00", } packet SessionGetCountCmd : SessionConfigCommand (opcode = 0x5) { //SESSION_GET_COUNT } test SessionGetCountCmd { "\x21\x05\x00\x00\x00\x00\x00", } packet SessionGetCountRsp : SessionConfigResponse (opcode = 0x5) { //SESSION_GET_COUNT status: StatusCode, session_count: 8, } test SessionGetCountRsp { "\x41\x05\x00\x02\x00\x00\x00\x00\x01", } packet SessionGetStateCmd : SessionConfigCommand (opcode = 0x6) { //SESSION_GET_STATE session_token: 32, // Session ID or Session Handle (based on UWBS version) } test SessionGetStateCmd { "\x21\x06\x00\x04\x00\x00\x00\x00\x01\x02\x03", } packet SessionGetStateRsp : SessionConfigResponse (opcode = 0x6) { //SESSION_GET_STATE status: StatusCode, session_state: SessionState, } test SessionGetStateRsp { "\x41\x06\x00\x02\x00\x00\x00\x00\x01", } packet SessionUpdateDtTagRangingRoundsCmd : SessionConfigCommand (opcode = 0x9) { //SESSION_UPDATE_ACTIVE_ROUNDS_DT_TAG session_token: 32, // Session ID or Session Handle (based on UWBS version) _count_(ranging_round_indexes): 8, ranging_round_indexes: 8[], } test SessionUpdateDtTagRangingRoundsCmd { "\x21\x09\x00\x0a\x00\x00\x00\x03\x03\x0f\x0c\x05\x08\x00\x00\x00\x00", } packet SessionUpdateDtTagRangingRoundsRsp : SessionConfigResponse (opcode = 0x9) { //SESSION_UPDATE_ACTIVE_ROUNDS_DT_TAG status: StatusCode, _count_(ranging_round_indexes): 8, ranging_round_indexes: 8[], } test SessionUpdateDtTagRangingRoundsRsp { "\x41\x09\x00\x03\x00\x00\x00\x01\x01\x01", } struct Controlee { short_address: 8[2], subsession_id: 32, } struct Controlee_V2_0_16_Byte_Version { short_address: 8[2], subsession_id: 32, subsession_key: 8[16], } struct Controlee_V2_0_32_Byte_Version { short_address: 8[2], subsession_id: 32, subsession_key: 8[32], } enum UpdateMulticastListAction: 8 { ADD_CONTROLEE = 0x00, REMOVE_CONTROLEE = 0x01, ADD_CONTROLEE_WITH_SHORT_SUB_SESSION_KEY = 0x02, ADD_CONTROLEE_WITH_LONG_SUB_SESSION_KEY = 0x03, } packet SessionUpdateControllerMulticastListCmd : SessionConfigCommand (opcode = 0x7) { //SESSION_UPDATE_CONTROLLER_MULTICAST_LIST session_token: 32, // Session ID or Session Handle (based on UWBS version) action: UpdateMulticastListAction, _payload_, } struct SessionUpdateControllerMulticastListCmdPayload { _count_(controlees): 8, controlees: Controlee[], } struct SessionUpdateControllerMulticastListCmd_2_0_16_Byte_Payload { _count_(controlees): 8, controlees: Controlee_V2_0_16_Byte_Version[], } struct SessionUpdateControllerMulticastListCmd_2_0_32_Byte_Payload { _count_(controlees): 8, controlees: Controlee_V2_0_32_Byte_Version[], } packet SessionUpdateControllerMulticastListRsp : SessionConfigResponse (opcode = 0x7) { //SESSION_UPDATE_CONTROLLER_MULTICAST_LIST status: StatusCode, } test SessionUpdateControllerMulticastListRsp { "\x41\x07\x00\x01\x00\x00\x00\x00", } struct ControleeStatus { mac_address: 8[2], subsession_id: 32, status: MulticastUpdateStatusCode, } packet SessionUpdateControllerMulticastListNtf : SessionConfigNotification (opcode = 0x7) { //SESSION_UPDATE_CONTROLLER_MULTICAST_LIST session_token: 32, // Session ID or Session Handle (based on UWBS version) remaining_multicast_list_size: 8, _count_(controlee_status): 8, controlee_status: ControleeStatus[], } test SessionUpdateControllerMulticastListNtf { "\x61\x07\x00\x06\x00\x00\x00\x00\x01\x02\x03\x04\x00", } packet DataCreditNtf : SessionControlNotification (opcode = 0x04) { // SESSION_DATA_CREDIT_NTF session_token: 32, // Session ID or Session Handle (based on UWBS version) credit_availability: CreditAvailability, } test DataCreditNtf { "\x62\x04\x00\x05\x00\x00\x00\x00\x00\x00\x01\x01", } packet DataTransferStatusNtf : SessionControlNotification (opcode = 0x05) { // SESSION_DATA_TRANSFER_STATUS_NTF session_token: 32, // Session ID or Session Handle (based on UWBS version) uci_sequence_number: 8, status: DataTransferNtfStatusCode, // TODO(b/269779288): Add the tx_count field for implementing the DATA_REPETITION added in CR490. } test DataTransferStatusNtf { "\x62\x05\x00\x06\x00\x00\x00\x00\x00\x00\x01\x01\x00", } packet SessionQueryMaxDataSizeCmd : SessionConfigCommand (opcode = 0xB) { //QUERY_MAX_DATA_SIZE session_token: 32, // Session ID or Session Handle (based on UWBS version) } test SessionQueryMaxDataSizeCmd { "\x21\x0B\x00\x04\x00\x00\x00\x00", } packet SessionQueryMaxDataSizeRsp : SessionConfigResponse (opcode = 0xB) { //QUER_MAX_DATA_SIZE session_token: 32, // Session ID or Session Handle (based on UWBS version) max_data_size: 16, } test SessionQueryMaxDataSizeRsp { "\x41\x0B\x00\x06\x00\x00\x00\x00\x0E7\0x07", } packet SessionStartCmd : SessionControlCommand (opcode = 0x0) { //RANGE_START session_token: 32, // Session ID or Session Handle (based on UWBS version) } test SessionStartCmd { "\x22\x00\x00\x04\x00\x00\x00\x00\x01\x02\x03", } packet SessionStartRsp : SessionControlResponse (opcode = 0x0) { //RANGE_START status: StatusCode, } test SessionStartRsp { "\x42\x00\x00\x01\x00\x00\x00\x00", } struct ShortAddressTwoWayRangingMeasurement { mac_address: 16, status: StatusCode, nlos: 8, distance: 16, aoa_azimuth: 16, aoa_azimuth_fom: 8, aoa_elevation: 16, aoa_elevation_fom: 8, aoa_destination_azimuth: 16, aoa_destination_azimuth_fom: 8, aoa_destination_elevation: 16, aoa_destination_elevation_fom: 8, slot_index: 8, rssi: 8, // b/272301550: The pdl compiler cannot handle individual fields // larger than 64 bit. The work around is to split the 88 bit // field into two. _reserved_: 64, _reserved_: 24, } struct ExtendedAddressTwoWayRangingMeasurement { mac_address: 64, status: StatusCode, nlos: 8, distance: 16, aoa_azimuth: 16, aoa_azimuth_fom: 8, aoa_elevation: 16, aoa_elevation_fom: 8, aoa_destination_azimuth: 16, aoa_destination_azimuth_fom: 8, aoa_destination_elevation: 16, aoa_destination_elevation_fom: 8, slot_index: 8, rssi: 8, _reserved_: 40, } struct ShortAddressOwrAoaRangingMeasurement { mac_address: 16, status: StatusCode, nlos: 8, frame_sequence_number: 8, block_index: 16, aoa_azimuth: 16, aoa_azimuth_fom: 8, aoa_elevation: 16, aoa_elevation_fom: 8, } struct ExtendedAddressOwrAoaRangingMeasurement { mac_address: 64, status: StatusCode, nlos: 8, frame_sequence_number: 8, block_index: 16, aoa_azimuth: 16, aoa_azimuth_fom: 8, aoa_elevation: 16, aoa_elevation_fom: 8, } enum RangingMeasurementType : 8 { ONE_WAY = 0x0, TWO_WAY = 0x1, DL_TDOA = 0x02, OWR_AOA = 0x03, } packet SessionInfoNtf : SessionControlNotification (opcode = 0x0) { // SESSION_INFO sequence_number: 32, session_token: 32, // Session ID or Session Handle (based on UWBS version) rcr_indicator: 8, current_ranging_interval: 32, ranging_measurement_type: RangingMeasurementType, _reserved_: 8, mac_address_indicator: MacAddressIndicator, _reserved_: 64, _body_, } packet ShortMacTwoWaySessionInfoNtf : SessionInfoNtf (ranging_measurement_type = TWO_WAY, mac_address_indicator = SHORT_ADDRESS) { _count_(two_way_ranging_measurements) : 8, two_way_ranging_measurements : ShortAddressTwoWayRangingMeasurement[], vendor_data: 8[], } test ShortMacTwoWaySessionInfoNtf { "\x62\x00\x00\x19\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x01\x01\x01\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00", } packet ExtendedMacTwoWaySessionInfoNtf : SessionInfoNtf (ranging_measurement_type = TWO_WAY, mac_address_indicator = EXTENDED_ADDRESS) { _count_(two_way_ranging_measurements) : 8, two_way_ranging_measurements : ExtendedAddressTwoWayRangingMeasurement[], vendor_data: 8[], } test ExtendedMacTwoWaySessionInfoNtf { "\x62\x00\x00\x19\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x01\x01\x01\x01\x00\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00", } packet ShortMacDlTDoASessionInfoNtf : SessionInfoNtf (ranging_measurement_type = DL_TDOA, mac_address_indicator = SHORT_ADDRESS) { no_of_ranging_measurements : 8, dl_tdoa_measurements : 8[], } test ShortMacDlTDoASessionInfoNtf { "\x62\x00\x00\x19\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x02\x01\x01\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00", } packet ExtendedMacDlTDoASessionInfoNtf : SessionInfoNtf (ranging_measurement_type = DL_TDOA, mac_address_indicator = EXTENDED_ADDRESS) { no_of_ranging_measurements : 8, dl_tdoa_measurements : 8[], } test ExtendedMacDlTDoASessionInfoNtf { "\x62\x00\x00\x19\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x01\x01\x01\x02\x00\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00", } packet ShortMacOwrAoaSessionInfoNtf : SessionInfoNtf (ranging_measurement_type = OWR_AOA, mac_address_indicator = SHORT_ADDRESS) { _count_(owr_aoa_ranging_measurements) : 8, owr_aoa_ranging_measurements : ShortAddressOwrAoaRangingMeasurement[], vendor_data: 8[], } test ShortMacOwrAoaSessionInfoNtf { "\x62\x00\x00\x19\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x01\x01\x01\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00", "\x62\x00\x00\x26\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x01\x01\x01\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\xaa\xbb\x00\x00\x01\x01\x00\x03\x04\x60\x05\x06\x50", } packet ExtendedMacOwrAoaSessionInfoNtf : SessionInfoNtf (ranging_measurement_type = OWR_AOA, mac_address_indicator = EXTENDED_ADDRESS) { _count_(owr_aoa_ranging_measurements) : 8, owr_aoa_ranging_measurements : ExtendedAddressOwrAoaRangingMeasurement[], vendor_data: 8[], } test ExtendedMacOwrAoaSessionInfoNtf { "\x62\x00\x00\x19\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x01\x01\x01\x03\x00\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00", "\x62\x00\x00\x2c\x00\x00\x00\x00\x02\x03\x04\x05\x06\x07\x08\x00\x0a\x01\x01\x01\x03\x00\x01\x00\x00\x00\x00\x00\x00\x00\x00\x01\xaa\xbb\xcc\xdd\x01\x02\x03\x04\x00\x00\x01\x01\x00\x03\x04\x60\x05\x06\x50", } packet SessionStopCmd : SessionControlCommand (opcode = 0x1) { // SESSION_STOP session_token: 32, // Session ID or Session Handle (based on UWBS version) } test SessionStopCmd { "\x22\x01\x00\x04\x00\x00\x00\x00\x02\x03\x04", } packet SessionStopRsp : SessionControlResponse (opcode = 0x1) { // SESSION_STOP status: StatusCode, } test SessionStopRsp { "\x42\x01\x00\x01\x00\x00\x00\x00", } packet SessionGetRangingCountCmd : SessionControlCommand (opcode = 0x3) { // SESSION_GET_RANGING_COUNT session_token: 32, // Session ID or Session Handle (based on UWBS version) } test SessionGetRangingCountCmd { "\x22\x03\x00\x04\x00\x00\x00\x00\x02\x03\x04", } packet SessionGetRangingCountRsp : SessionControlResponse (opcode = 0x3) { // SESSION_GET_RANGING_COUNT status: StatusCode, count: 32, } test SessionGetRangingCountRsp { "\x42\x03\x00\x05\x00\x00\x00\x00\x02\x03\x04\x05", } packet AndroidGetPowerStatsCmd: AndroidCommand (opcode = 0x0) { //ANDROID_GET_POWER_STATS } test AndroidGetPowerStatsCmd { "\x2c\x00\x00\x00\x00\x00\x00", } struct PowerStats { status: StatusCode, idle_time_ms: 32, tx_time_ms: 32, rx_time_ms: 32, total_wake_count:32, } packet AndroidGetPowerStatsRsp : AndroidResponse (opcode = 0x0) { //ANDROID_GET_POWER_STATS stats: PowerStats, } test AndroidGetPowerStatsRsp { "\x4c\x00\x00\x11\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00", } packet AndroidSetCountryCodeCmd: AndroidCommand (opcode = 0x1) { //ANDROID_SET_COUNTRY_CODE country_code : 8[2], } // Set country code to US. test AndroidSetCountryCodeCmd { "\x2c\x01\x00\x02\x00\x00\x00\x55\x53", } packet AndroidSetCountryCodeRsp : AndroidResponse (opcode = 0x1) { //ANDROID_SET_COUNTRY_CODE status: StatusCode, } test AndroidSetCountryCodeRsp { "\x4c\x01\x00\x01\x00\x00\x00\x00", } struct FrameReportTlv { t: FrameReportTlvType, _size_(v): 16, v: 8[], } packet FrameReportTlvPacket { t: FrameReportTlvType, _size_(_body_): 16, _body_, } packet Rssi : FrameReportTlvPacket (t = RSSI) { rssi: 8[], } struct AoaMeasurement { tdoa: 16, pdoa: 16, aoa: 16, fom: 8, t: 8, } packet Aoa : FrameReportTlvPacket (t = AOA) { aoa: AoaMeasurement[], } test Aoa { "\x01\x08\x00\x00\x01\x00\x01\x00\x01\x01\x01", } struct CirValue { first_path_index : 16, first_path_snr: 16, first_path_ns: 16, peak_path_index: 16, peak_path_snr: 16, peak_path_ns: 16, first_path_sample_offset: 8, samples_number: 8, _size_(sample_window): 16, sample_window: 8[], } packet Cir : FrameReportTlvPacket (t = CIR) { _count_(cir_value): 8, cir_value: CirValue[], } test Cir { "\x02\x15\x00\x01\x01\x02\x01\x02\x01\x02\x01\x02\x01\x02\x01\x02\x00\x02\x04\x00\x01\x02\x03\x04", } struct FrameReport { uwb_msg_id: 8, action: 8, antenna_set: 8, _count_(frame_report_tlvs): 8, frame_report_tlvs: FrameReportTlv[], } packet AndroidRangeDiagnosticsNtf : AndroidNotification (opcode = 0x2) { //FIRA_RANGE_DIAGNOSTICS session_token: 32, // Session ID or Session Handle (based on UWBS version) sequence_number: 32, _count_(frame_reports): 8, frame_reports: FrameReport[], } test AndroidRangeDiagnosticsNtf { "\x6c\x02\x00\x11\x00\x00\x00\x01\x01\x01\x01\x02\x02\x02\x02\x01\x00\x01\x02\x01\x00\x01\x00\x00", "\x6c\x02\x00\x34\x00\x00\x00\x01\x01\x01\x01\x02\x02\x02\x02\x01\x00\x01\x02\x03\x01\x08\x00\x01\x02\x01\x02\x01\x02\x01\x01\x02\x15\x00\x01\x01\x02\x01\x02\x01\x02\x01\x02\x01\x02\x01\x02\x00\x02\x04\x00\x01\x02\x03\x04\x00\x01\x00\x00", } packet UciVendor_9_Response : UciResponse (group_id = VENDOR_RESERVED_9) { _payload_, } packet UciVendor_A_Response : UciResponse (group_id = VENDOR_RESERVED_A) { _payload_, } packet UciVendor_B_Response : UciResponse (group_id = VENDOR_RESERVED_B) { _payload_, } packet UciVendor_E_Response : UciResponse (group_id = VENDOR_RESERVED_E) { _payload_, } packet UciVendor_F_Response : UciResponse (group_id = VENDOR_RESERVED_F) { _payload_, } packet UciVendor_9_Notification : UciNotification (group_id = VENDOR_RESERVED_9) { _payload_, } packet UciVendor_A_Notification : UciNotification (group_id = VENDOR_RESERVED_A) { _payload_, } packet UciVendor_B_Notification : UciNotification (group_id = VENDOR_RESERVED_B) { _payload_, } packet UciVendor_E_Notification : UciNotification (group_id = VENDOR_RESERVED_E) { _payload_, } packet UciVendor_F_Notification : UciNotification (group_id = VENDOR_RESERVED_F) { _payload_, } packet TestNotification : UciNotification (group_id = TEST) { _payload_, }