// // Copyright (C) 2015 Google, Inc. // // 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. // #include "service/low_energy_client.h" #include #include "service/adapter.h" #include "service/common/bluetooth/util/address_helper.h" #include "service/logging_helpers.h" #include "stack/include/bt_types.h" #include "stack/include/hcidefs.h" using std::lock_guard; using std::mutex; namespace bluetooth { namespace { // 31 + 31 for advertising data and scan response. This is the maximum length // TODO(armansito): Fix the HAL to return a concatenated blob that contains the // true length of each field and also provide a length parameter so that we // can support advertising length extensions in the future. const size_t kScanRecordLength = 62; BLEStatus GetBLEStatus(int status) { if (status == BT_STATUS_FAIL) return BLE_STATUS_FAILURE; return static_cast(status); } // Returns the length of the given scan record array. We have to calculate this // based on the maximum possible data length and the TLV data. See TODO above // |kScanRecordLength|. size_t GetScanRecordLength(uint8_t* bytes) { for (size_t i = 0, field_len = 0; i < kScanRecordLength; i += (field_len + 1)) { field_len = bytes[i]; // Assert here that the data returned from the stack is correctly formatted // in TLV form and that the length of the current field won't exceed the // total data length. CHECK(i + field_len < kScanRecordLength); // If the field length is zero and we haven't reached the maximum length, // then we have found the length, as the stack will pad the data with zeros // accordingly. if (field_len == 0) return i; } // We have reached the end. return kScanRecordLength; } // TODO(armansito): BTIF currently expects each advertising field in a // specific format passed directly in arguments. We should fix BTIF to accept // the advertising data directly instead. struct HALAdvertiseData { std::vector manufacturer_data; std::vector service_data; std::vector service_uuid; }; bool ProcessUUID(const uint8_t* uuid_data, size_t uuid_len, UUID* out_uuid) { // BTIF expects a single 128-bit UUID to be passed in little-endian form, so // we need to convert into that from raw data. // TODO(armansito): We have three repeated if bodies below only because UUID // accepts std::array which requires constexpr lengths. We should just have a // single UUID constructor that takes in an std::vector instead. if (uuid_len == UUID::kNumBytes16) { UUID::UUID16Bit uuid_bytes; for (size_t i = 0; i < uuid_len; ++i) uuid_bytes[uuid_len - i - 1] = uuid_data[i]; *out_uuid = UUID(uuid_bytes); } else if (uuid_len == UUID::kNumBytes32) { UUID::UUID32Bit uuid_bytes; for (size_t i = 0; i < uuid_len; ++i) uuid_bytes[uuid_len - i - 1] = uuid_data[i]; *out_uuid = UUID(uuid_bytes); } else if (uuid_len == UUID::kNumBytes128) { UUID::UUID128Bit uuid_bytes; for (size_t i = 0; i < uuid_len; ++i) uuid_bytes[uuid_len - i - 1] = uuid_data[i]; *out_uuid = UUID(uuid_bytes); } else { LOG(ERROR) << "Invalid UUID length"; return false; } return true; } bool ProcessServiceData(const uint8_t* data, uint8_t uuid_len, HALAdvertiseData* out_data) { size_t field_len = data[0]; // Minimum packet size should be equal to the uuid length + 1 to include // the byte for the type of packet if (field_len < uuid_len + 1) { // Invalid packet size return false; } if (!out_data->service_data.empty()) { // More than one Service Data is not allowed due to the limitations // of the HAL API. We error in order to make sure there // is no ambiguity on which data to send. VLOG(1) << "More than one Service Data entry not allowed"; return false; } const uint8_t* service_uuid = data + 2; UUID uuid; if (!ProcessUUID(service_uuid, uuid_len, &uuid)) return false; UUID::UUID128Bit uuid_bytes = uuid.GetFullLittleEndian(); const std::vector temp_uuid( uuid_bytes.data(), uuid_bytes.data() + uuid_bytes.size()); // This section is to make sure that there is no UUID conflict if (out_data->service_uuid.empty()) { out_data->service_uuid = temp_uuid; } else if (out_data->service_uuid != temp_uuid) { // Mismatch in uuid passed through service data and uuid passed // through uuid field VLOG(1) << "More than one UUID entry not allowed"; return false; } // else do nothing as UUID is already properly assigned // Use + uuid_len + 2 here in order to skip over a // uuid contained in the beggining of the field const uint8_t* srv_data = data + uuid_len + 2; out_data->service_data.insert( out_data->service_data.begin(), srv_data, srv_data + field_len - uuid_len - 1); return true; } bool ProcessAdvertiseData(const AdvertiseData& adv, HALAdvertiseData* out_data) { CHECK(out_data); CHECK(out_data->manufacturer_data.empty()); CHECK(out_data->service_data.empty()); CHECK(out_data->service_uuid.empty()); const auto& data = adv.data(); size_t len = data.size(); for (size_t i = 0, field_len = 0; i < len; i += (field_len + 1)) { // The length byte is the first byte in the adv. "TLV" format. field_len = data[i]; // The type byte is the next byte in the adv. "TLV" format. uint8_t type = data[i + 1]; switch (type) { case HCI_EIR_MANUFACTURER_SPECIFIC_TYPE: { // TODO(armansito): BTIF doesn't allow setting more than one // manufacturer-specific data entry. This is something we should fix. For // now, fail if more than one entry was set. if (!out_data->manufacturer_data.empty()) { LOG(ERROR) << "More than one Manufacturer Specific Data entry not allowed"; return false; } // The value bytes start at the next byte in the "TLV" format. const uint8_t* mnf_data = data.data() + i + 2; out_data->manufacturer_data.insert( out_data->manufacturer_data.begin(), mnf_data, mnf_data + field_len - 1); break; } case HCI_EIR_MORE_16BITS_UUID_TYPE: case HCI_EIR_COMPLETE_16BITS_UUID_TYPE: case HCI_EIR_MORE_32BITS_UUID_TYPE: case HCI_EIR_COMPLETE_32BITS_UUID_TYPE: case HCI_EIR_MORE_128BITS_UUID_TYPE: case HCI_EIR_COMPLETE_128BITS_UUID_TYPE: { const uint8_t* uuid_data = data.data() + i + 2; size_t uuid_len = field_len - 1; UUID uuid; if (!ProcessUUID(uuid_data, uuid_len, &uuid)) return false; UUID::UUID128Bit uuid_bytes = uuid.GetFullLittleEndian(); if (!out_data->service_uuid.empty() && memcmp(out_data->service_uuid.data(), uuid_bytes.data(), uuid_bytes.size()) != 0) { // More than one UUID is not allowed due to the limitations // of the HAL API. We error in order to make sure there // is no ambiguity on which UUID to send. Also makes sure that // UUID Hasn't been set by service data first LOG(ERROR) << "More than one UUID entry not allowed"; return false; } out_data->service_uuid.assign( uuid_bytes.data(), uuid_bytes.data() + UUID::kNumBytes128); break; } case HCI_EIR_SERVICE_DATA_16BITS_UUID_TYPE: { if (!ProcessServiceData(data.data() + i, 2, out_data)) return false; break; } case HCI_EIR_SERVICE_DATA_32BITS_UUID_TYPE: { if (!ProcessServiceData(data.data() + i, 4, out_data)) return false; break; } case HCI_EIR_SERVICE_DATA_128BITS_UUID_TYPE: { if (!ProcessServiceData(data.data() + i, 16, out_data)) return false; break; } // TODO(armansito): Support other fields. default: VLOG(1) << "Unrecognized EIR field: " << type; return false; } } return true; } // The Bluetooth Core Specification defines time interval (e.g. Page Scan // Interval, Advertising Interval, etc) units as 0.625 milliseconds (or 1 // Baseband slot). The HAL advertising functions expect the interval in this // unit. This function maps an AdvertiseSettings::Mode value to the // corresponding time unit. int GetAdvertisingIntervalUnit(AdvertiseSettings::Mode mode) { int ms; switch (mode) { case AdvertiseSettings::MODE_BALANCED: ms = kAdvertisingIntervalMediumMs; break; case AdvertiseSettings::MODE_LOW_LATENCY: ms = kAdvertisingIntervalLowMs; break; case AdvertiseSettings::MODE_LOW_POWER: // Fall through default: ms = kAdvertisingIntervalHighMs; break; } // Convert milliseconds Bluetooth units. return (ms * 1000) / 625; } struct AdvertiseParams { int min_interval; int max_interval; int event_type; int tx_power_level; int timeout_s; }; void GetAdvertiseParams(const AdvertiseSettings& settings, bool has_scan_rsp, AdvertiseParams* out_params) { CHECK(out_params); out_params->min_interval = GetAdvertisingIntervalUnit(settings.mode()); out_params->max_interval = out_params->min_interval + kAdvertisingIntervalDeltaUnit; if (settings.connectable()) out_params->event_type = kAdvertisingEventTypeConnectable; else if (has_scan_rsp) out_params->event_type = kAdvertisingEventTypeScannable; else out_params->event_type = kAdvertisingEventTypeNonConnectable; out_params->tx_power_level = settings.tx_power_level(); out_params->timeout_s = settings.timeout().InSeconds(); } } // namespace // LowEnergyClient implementation // ======================================================== LowEnergyClient::LowEnergyClient( Adapter& adapter, const UUID& uuid, int client_id) : adapter_(adapter), app_identifier_(uuid), client_id_(client_id), adv_data_needs_update_(false), scan_rsp_needs_update_(false), is_setting_adv_data_(false), adv_started_(false), adv_start_callback_(nullptr), adv_stop_callback_(nullptr), scan_started_(false) { } LowEnergyClient::~LowEnergyClient() { // Automatically unregister the client. VLOG(1) << "LowEnergyClient unregistering client: " << client_id_; // Unregister as observer so we no longer receive any callbacks. hal::BluetoothGattInterface::Get()->RemoveClientObserver(this); // Stop advertising and ignore the result. hal::BluetoothGattInterface::Get()-> GetClientHALInterface()->multi_adv_disable(client_id_); hal::BluetoothGattInterface::Get()-> GetClientHALInterface()->unregister_client(client_id_); // Stop any scans started by this client. if (scan_started_.load()) StopScan(); } bool LowEnergyClient::Connect(std::string address, bool is_direct) { VLOG(2) << __func__ << "Address: " << address << " is_direct: " << is_direct; bt_bdaddr_t bda; util::BdAddrFromString(address, &bda); bt_status_t status = hal::BluetoothGattInterface::Get()-> GetClientHALInterface()->connect(client_id_, &bda, is_direct, BT_TRANSPORT_LE); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "HAL call to connect failed"; return false; } return true; } bool LowEnergyClient::Disconnect(std::string address) { VLOG(2) << __func__ << "Address: " << address; bt_bdaddr_t bda; util::BdAddrFromString(address, &bda); std::map::iterator conn_id; { lock_guard lock(connection_fields_lock_); conn_id = connection_ids_.find(bda); if (conn_id == connection_ids_.end()) { LOG(WARNING) << "Can't disconnect, no existing connection to " << address; return false; } } bt_status_t status = hal::BluetoothGattInterface::Get()-> GetClientHALInterface()->disconnect(client_id_, &bda, conn_id->second); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "HAL call to disconnect failed"; return false; } return true; } bool LowEnergyClient::SetMtu(std::string address, int mtu) { VLOG(2) << __func__ << "Address: " << address << " MTU: " << mtu; bt_bdaddr_t bda; util::BdAddrFromString(address, &bda); std::map::iterator conn_id; { lock_guard lock(connection_fields_lock_); conn_id = connection_ids_.find(bda); if (conn_id == connection_ids_.end()) { LOG(WARNING) << "Can't set MTU, no existing connection to " << address; return false; } } bt_status_t status = hal::BluetoothGattInterface::Get()-> GetClientHALInterface()->configure_mtu(conn_id->second, mtu); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "HAL call to set MTU failed"; return false; } return true; } void LowEnergyClient::SetDelegate(Delegate* delegate) { lock_guard lock(delegate_mutex_); delegate_ = delegate; } bool LowEnergyClient::StartScan(const ScanSettings& settings, const std::vector& filters) { VLOG(2) << __func__; // Cannot start a scan if the adapter is not enabled. if (!adapter_.IsEnabled()) { LOG(ERROR) << "Cannot scan while Bluetooth is disabled"; return false; } // TODO(jpawlowski): Push settings and filtering logic below the HAL. bt_status_t status = hal::BluetoothGattInterface::Get()-> StartScan(client_id_); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed to initiate scanning for client: " << client_id_; return false; } scan_started_ = true; return true; } bool LowEnergyClient::StopScan() { VLOG(2) << __func__; // TODO(armansito): We don't support batch scanning yet so call // StopRegularScanForClient directly. In the future we will need to // conditionally call a batch scan API here. bt_status_t status = hal::BluetoothGattInterface::Get()-> StopScan(client_id_); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed to stop scan for client: " << client_id_; return false; } scan_started_ = false; return true; } bool LowEnergyClient::StartAdvertising(const AdvertiseSettings& settings, const AdvertiseData& advertise_data, const AdvertiseData& scan_response, const StatusCallback& callback) { VLOG(2) << __func__; lock_guard lock(adv_fields_lock_); if (IsAdvertisingStarted()) { LOG(WARNING) << "Already advertising"; return false; } if (IsStartingAdvertising()) { LOG(WARNING) << "StartAdvertising already pending"; return false; } if (!advertise_data.IsValid()) { LOG(ERROR) << "Invalid advertising data"; return false; } if (!scan_response.IsValid()) { LOG(ERROR) << "Invalid scan response data"; return false; } CHECK(!adv_data_needs_update_.load()); CHECK(!scan_rsp_needs_update_.load()); adv_data_ = advertise_data; scan_response_ = scan_response; advertise_settings_ = settings; AdvertiseParams params; GetAdvertiseParams(settings, !scan_response_.data().empty(), ¶ms); bt_status_t status = hal::BluetoothGattInterface::Get()-> GetClientHALInterface()->multi_adv_enable( client_id_, params.min_interval, params.max_interval, params.event_type, kAdvertisingChannelAll, params.tx_power_level, params.timeout_s); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed to initiate call to enable multi-advertising"; return false; } // Always update advertising data. adv_data_needs_update_ = true; // Update scan response only if it has data, since otherwise we just won't // send ADV_SCAN_IND. if (!scan_response_.data().empty()) scan_rsp_needs_update_ = true; // OK to set this at the end since we're still holding |adv_fields_lock_|. adv_start_callback_.reset(new StatusCallback(callback)); return true; } bool LowEnergyClient::StopAdvertising(const StatusCallback& callback) { VLOG(2) << __func__; lock_guard lock(adv_fields_lock_); if (!IsAdvertisingStarted()) { LOG(ERROR) << "Not advertising"; return false; } if (IsStoppingAdvertising()) { LOG(ERROR) << "StopAdvertising already pending"; return false; } CHECK(!adv_start_callback_); bt_status_t status = hal::BluetoothGattInterface::Get()-> GetClientHALInterface()->multi_adv_disable(client_id_); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed to initiate call to disable multi-advertising"; return false; } // OK to set this at the end since we're still holding |adv_fields_lock_|. adv_stop_callback_.reset(new StatusCallback(callback)); return true; } bool LowEnergyClient::IsAdvertisingStarted() const { return adv_started_.load(); } bool LowEnergyClient::IsStartingAdvertising() const { return !IsAdvertisingStarted() && adv_start_callback_; } bool LowEnergyClient::IsStoppingAdvertising() const { return IsAdvertisingStarted() && adv_stop_callback_; } const UUID& LowEnergyClient::GetAppIdentifier() const { return app_identifier_; } int LowEnergyClient::GetInstanceId() const { return client_id_; } void LowEnergyClient::ScanResultCallback( hal::BluetoothGattInterface* gatt_iface, const bt_bdaddr_t& bda, int rssi, uint8_t* adv_data) { // Ignore scan results if this client didn't start a scan. if (!scan_started_.load()) return; lock_guard lock(delegate_mutex_); if (!delegate_) return; // TODO(armansito): Apply software filters here. size_t record_len = GetScanRecordLength(adv_data); std::vector scan_record(adv_data, adv_data + record_len); ScanResult result(BtAddrString(&bda), scan_record, rssi); delegate_->OnScanResult(this, result); } void LowEnergyClient::ConnectCallback( hal::BluetoothGattInterface* gatt_iface, int conn_id, int status, int client_id, const bt_bdaddr_t& bda) { if (client_id != client_id_) return; VLOG(1) << __func__ << "client_id: " << client_id << " status: " << status; { lock_guard lock(connection_fields_lock_); auto success = connection_ids_.emplace(bda, conn_id); if (!success.second) { LOG(ERROR) << __func__ << " Insertion into connection_ids_ failed!"; } } if (delegate_) delegate_->OnConnectionState(this, status, BtAddrString(&bda).c_str(), true); } void LowEnergyClient::DisconnectCallback( hal::BluetoothGattInterface* gatt_iface, int conn_id, int status, int client_id, const bt_bdaddr_t& bda) { if (client_id != client_id_) return; VLOG(1) << __func__ << " client_id: " << client_id << " status: " << status; { lock_guard lock(connection_fields_lock_); if (!connection_ids_.erase(bda)) { LOG(ERROR) << __func__ << " Erasing from connection_ids_ failed!"; } } if (delegate_) delegate_->OnConnectionState(this, status, BtAddrString(&bda).c_str(), false); } void LowEnergyClient::MtuChangedCallback( hal::BluetoothGattInterface* gatt_iface, int conn_id, int status, int mtu) { VLOG(1) << __func__ << " conn_id: " << conn_id << " status: " << status << " mtu: " << mtu; const bt_bdaddr_t *bda = nullptr; { lock_guard lock(connection_fields_lock_); for (auto& connection: connection_ids_) { if (connection.second == conn_id) { bda = &connection.first; break; } } } if (!bda) return; const char *addr = BtAddrString(bda).c_str(); if (delegate_) delegate_->OnMtuChanged(this, status, addr, mtu); } void LowEnergyClient::MultiAdvEnableCallback( hal::BluetoothGattInterface* gatt_iface, int client_id, int status) { if (client_id != client_id_) return; lock_guard lock(adv_fields_lock_); VLOG(1) << __func__ << "client_id: " << client_id << " status: " << status; CHECK(adv_start_callback_); CHECK(!adv_stop_callback_); // Terminate operation in case of error. if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed to enable multi-advertising"; InvokeAndClearStartCallback(GetBLEStatus(status)); return; } // Now handle deferred tasks. HandleDeferredAdvertiseData(gatt_iface); } void LowEnergyClient::MultiAdvDataCallback( hal::BluetoothGattInterface* gatt_iface, int client_id, int status) { if (client_id != client_id_) return; lock_guard lock(adv_fields_lock_); VLOG(1) << __func__ << "client_id: " << client_id << " status: " << status; is_setting_adv_data_ = false; // Terminate operation in case of error. if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed to set advertising data"; InvokeAndClearStartCallback(GetBLEStatus(status)); return; } // Now handle deferred tasks. HandleDeferredAdvertiseData(gatt_iface); } void LowEnergyClient::MultiAdvDisableCallback( hal::BluetoothGattInterface* /* gatt_iface */, int client_id, int status) { if (client_id != client_id_) return; lock_guard lock(adv_fields_lock_); VLOG(1) << __func__ << "client_id: " << client_id << " status: " << status; CHECK(!adv_start_callback_); CHECK(adv_stop_callback_); if (status == BT_STATUS_SUCCESS) { VLOG(1) << "Multi-advertising stopped for client_id: " << client_id; adv_started_ = false; } else { LOG(ERROR) << "Failed to stop multi-advertising"; } InvokeAndClearStopCallback(GetBLEStatus(status)); } bt_status_t LowEnergyClient::SetAdvertiseData( hal::BluetoothGattInterface* gatt_iface, const AdvertiseData& data, bool set_scan_rsp) { VLOG(2) << __func__; HALAdvertiseData hal_data; // TODO(armansito): The stack should check that the length is valid when other // fields inserted by the stack (e.g. flags, device name, tx-power) are taken // into account. At the moment we are skipping this check; this means that if // the given data is too long then the stack will truncate it. if (!ProcessAdvertiseData(data, &hal_data)) { LOG(ERROR) << "Malformed advertise data given"; return BT_STATUS_FAIL; } if (is_setting_adv_data_.load()) { LOG(ERROR) << "Setting advertising data already in progress."; return BT_STATUS_FAIL; } // TODO(armansito): The length fields in the BTIF function below are signed // integers so a call to std::vector::size might get capped. This is very // unlikely anyway but it's safer to stop using signed-integer types for // length in APIs, so we should change that. bt_status_t status = gatt_iface->GetClientHALInterface()-> multi_adv_set_inst_data( client_id_, set_scan_rsp, data.include_device_name(), data.include_tx_power_level(), 0, // This is what Bluetooth.apk current hardcodes for "appearance". hal_data.manufacturer_data.size(), reinterpret_cast(hal_data.manufacturer_data.data()), hal_data.service_data.size(), reinterpret_cast(hal_data.service_data.data()), hal_data.service_uuid.size(), reinterpret_cast(hal_data.service_uuid.data())); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed to set instance advertising data."; return status; } if (set_scan_rsp) scan_rsp_needs_update_ = false; else adv_data_needs_update_ = false; is_setting_adv_data_ = true; return status; } void LowEnergyClient::HandleDeferredAdvertiseData( hal::BluetoothGattInterface* gatt_iface) { VLOG(2) << __func__; CHECK(!IsAdvertisingStarted()); CHECK(!IsStoppingAdvertising()); CHECK(IsStartingAdvertising()); CHECK(!is_setting_adv_data_.load()); if (adv_data_needs_update_.load()) { bt_status_t status = SetAdvertiseData(gatt_iface, adv_data_, false); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed setting advertisement data"; InvokeAndClearStartCallback(GetBLEStatus(status)); } return; } if (scan_rsp_needs_update_.load()) { bt_status_t status = SetAdvertiseData(gatt_iface, scan_response_, true); if (status != BT_STATUS_SUCCESS) { LOG(ERROR) << "Failed setting scan response data"; InvokeAndClearStartCallback(GetBLEStatus(status)); } return; } // All pending tasks are complete. Report success. adv_started_ = true; InvokeAndClearStartCallback(BLE_STATUS_SUCCESS); } void LowEnergyClient::InvokeAndClearStartCallback(BLEStatus status) { adv_data_needs_update_ = false; scan_rsp_needs_update_ = false; // We allow NULL callbacks. if (*adv_start_callback_) (*adv_start_callback_)(status); adv_start_callback_ = nullptr; } void LowEnergyClient::InvokeAndClearStopCallback(BLEStatus status) { // We allow NULL callbacks. if (*adv_stop_callback_) (*adv_stop_callback_)(status); adv_stop_callback_ = nullptr; } // LowEnergyClientFactory implementation // ======================================================== LowEnergyClientFactory::LowEnergyClientFactory(Adapter& adapter) : adapter_(adapter) { hal::BluetoothGattInterface::Get()->AddClientObserver(this); } LowEnergyClientFactory::~LowEnergyClientFactory() { hal::BluetoothGattInterface::Get()->RemoveClientObserver(this); } bool LowEnergyClientFactory::RegisterInstance( const UUID& uuid, const RegisterCallback& callback) { VLOG(1) << __func__ << " - UUID: " << uuid.ToString(); lock_guard lock(pending_calls_lock_); if (pending_calls_.find(uuid) != pending_calls_.end()) { LOG(ERROR) << "Low-Energy client with given UUID already registered - " << "UUID: " << uuid.ToString(); return false; } const btgatt_client_interface_t* hal_iface = hal::BluetoothGattInterface::Get()->GetClientHALInterface(); bt_uuid_t app_uuid = uuid.GetBlueDroid(); if (hal_iface->register_client(&app_uuid) != BT_STATUS_SUCCESS) return false; pending_calls_[uuid] = callback; return true; } void LowEnergyClientFactory::RegisterClientCallback( hal::BluetoothGattInterface* gatt_iface, int status, int client_id, const bt_uuid_t& app_uuid) { UUID uuid(app_uuid); VLOG(1) << __func__ << " - UUID: " << uuid.ToString(); lock_guard lock(pending_calls_lock_); auto iter = pending_calls_.find(uuid); if (iter == pending_calls_.end()) { VLOG(1) << "Ignoring callback for unknown app_id: " << uuid.ToString(); return; } // No need to construct a client if the call wasn't successful. std::unique_ptr client; BLEStatus result = BLE_STATUS_FAILURE; if (status == BT_STATUS_SUCCESS) { client.reset(new LowEnergyClient(adapter_, uuid, client_id)); gatt_iface->AddClientObserver(client.get()); result = BLE_STATUS_SUCCESS; } // Notify the result via the result callback. iter->second(result, uuid, std::move(client)); pending_calls_.erase(iter); } } // namespace bluetooth