diff --git a/Meshtastic.xcodeproj/project.xcworkspace/xcshareddata/swiftpm/Package.resolved b/Meshtastic.xcodeproj/project.xcworkspace/xcshareddata/swiftpm/Package.resolved index 3b339cec..49deb1ee 100644 --- a/Meshtastic.xcodeproj/project.xcworkspace/xcshareddata/swiftpm/Package.resolved +++ b/Meshtastic.xcodeproj/project.xcworkspace/xcshareddata/swiftpm/Package.resolved @@ -1,5 +1,5 @@ { - "originHash" : "2569905853aec088d5bac6b540eac77f78963f88b406e8dd95a88c40623cc8b4", + "originHash" : "8c5f88cc59cef0f9e938df2478c1365017c6f2330f0482d58d917ab2eb144fda", "pins" : [ { "identity" : "cocoamqtt", @@ -15,8 +15,8 @@ "kind" : "remoteSourceControl", "location" : "https://github.com/DataDog/dd-sdk-ios.git", "state" : { - "revision" : "d0a42d8067665cb6ee86af51251ccc071f62bd54", - "version" : "2.29.0" + "revision" : "8d67e973ff4a958cb536263cb816646ee904c508", + "version" : "3.3.0" } }, { @@ -60,8 +60,8 @@ "kind" : "remoteSourceControl", "location" : "https://github.com/apple/swift-protobuf.git", "state" : { - "revision" : "102a647b573f60f73afdce5613a51d71349fe507", - "version" : "1.30.0" + "revision" : "c169a5744230951031770e27e475ff6eefe51f9d", + "version" : "1.33.3" } } ], diff --git a/Meshtastic/Accessory/Accessory Manager/AccessoryManager+Connect.swift b/Meshtastic/Accessory/Accessory Manager/AccessoryManager+Connect.swift index 456001d8..a088e55d 100644 --- a/Meshtastic/Accessory/Accessory Manager/AccessoryManager+Connect.swift +++ b/Meshtastic/Accessory/Accessory Manager/AccessoryManager+Connect.swift @@ -61,7 +61,7 @@ extension AccessoryManager { self.updateState(.communicating) self.connectionEventTask = Task { for await event in eventStream { - self.didReceive(event) + await self.didReceive(event) } Logger.transport.info("[Accessory] Event stream closed") } diff --git a/Meshtastic/Accessory/Accessory Manager/AccessoryManager+FromRadio.swift b/Meshtastic/Accessory/Accessory Manager/AccessoryManager+FromRadio.swift index 5bcead9b..76623148 100644 --- a/Meshtastic/Accessory/Accessory Manager/AccessoryManager+FromRadio.swift +++ b/Meshtastic/Accessory/Accessory Manager/AccessoryManager+FromRadio.swift @@ -65,7 +65,7 @@ extension AccessoryManager { Logger.services.error("โš ๏ธ Client Notification: \(clientNotification.message, privacy: .public)") } - func handleMyInfo(_ myNodeInfo: MyNodeInfo) { + func handleMyInfo(_ myNodeInfo: MyNodeInfo) async { // TODO: this works for connections like BLE that have a uniqueId, but what about ones like serial? guard let connectedDeviceId = activeConnection?.device.id.uuidString else { Logger.services.error("โš ๏ธ Failed to decode MyInfo, no connected device ID") @@ -75,7 +75,8 @@ extension AccessoryManager { updateDevice(key: \.num, value: Int64(myNodeInfo.myNodeNum)) - if let myInfo = myInfoPacket(myInfo: myNodeInfo, peripheralId: connectedDeviceId, context: context) { + if let myInfoId = await MeshPackets.shared.myInfoPacket(myInfo: myNodeInfo, peripheralId: connectedDeviceId), + let myInfo = try? context.existingObject(with: myInfoId) as? MyInfoEntity { if let bleName = myInfo.bleName { updateDevice(key: \.name, value: bleName) updateDevice(key: \.longName, value: bleName) @@ -95,7 +96,7 @@ extension AccessoryManager { } - func handleNodeInfo(_ nodeInfo: NodeInfo) { + func handleNodeInfo(_ nodeInfo: NodeInfo) async { if let continuation = self.firstDatabaseNodeInfoContinuation { continuation.resume() self.firstDatabaseNodeInfoContinuation = nil @@ -107,10 +108,13 @@ extension AccessoryManager { } // Check if we're in database retrieval mode to defer saves for performance - let isRetrievingDatabase = if case .retrievingDatabase = self.state { true } else { false } + // Commented out: No need to defer save when nodeInfoPacket is now happening off the main thread + // let isRetrievingDatabase = if case .retrievingDatabase = self.state { true } else { false } // TODO: nodeInfoPacket's channel: parameter is not used - if let nodeInfo = nodeInfoPacket(nodeInfo: nodeInfo, channel: 0, context: context, deferSave: isRetrievingDatabase) { + // deferSave hard coded: No need to defer save when nodeInfoPacket is now happening off the main thread + if let nodeInfoId = await MeshPackets.shared.nodeInfoPacket(nodeInfo: nodeInfo, channel: 0, deferSave: false), + let nodeInfo = try? context.existingObject(with: nodeInfoId) as? NodeInfoEntity { if let activeDevice = activeConnection?.device, activeDevice.num == nodeInfo.num { if let user = nodeInfo.user { updateDevice(deviceId: activeDevice.id, key: \.shortName, value: user.shortName ?? "?") @@ -136,24 +140,24 @@ extension AccessoryManager { } - func handleChannel(_ channel: Channel) { + func handleChannel(_ channel: Channel) async { guard let deviceNum = activeConnection?.device.num else { Logger.data.error("Attempt to process channel information when no connected device.") return } - channelPacket(channel: channel, fromNum: Int64(truncatingIfNeeded: deviceNum), context: context) + await MeshPackets.shared.channelPacket(channel: channel, fromNum: Int64(truncatingIfNeeded: deviceNum)) } - func handleConfig(_ config: Config) { + func handleConfig(_ config: Config) async { guard let device = activeConnection?.device, let deviceNum = device.num, let longName = device.longName else { Logger.data.error("Attempt to process channel information when no connected device.") return } // Local config parses out the variants. Should we do that here maybe? - localConfig(config: config, context: context, nodeNum: Int64(truncatingIfNeeded: deviceNum), nodeLongName: longName) + await MeshPackets.shared.localConfig(config: config, nodeNum: Int64(truncatingIfNeeded: deviceNum), nodeLongName: longName) // Handle Timezone if config.payloadVariant == Config.OneOf_PayloadVariant.device(config.device) { @@ -167,12 +171,12 @@ extension AccessoryManager { } } - func handleModuleConfig(_ moduleConfigPacket: ModuleConfig) { + func handleModuleConfig(_ moduleConfigPacket: ModuleConfig) async { guard let device = activeConnection?.device, let deviceNum = device.num, let longName = device.longName else { Logger.services.error("Attempt to process channel information when no connected device.") return } - moduleConfig(config: moduleConfigPacket, context: context, nodeNum: Int64(truncatingIfNeeded: deviceNum), nodeLongName: longName) + await MeshPackets.shared.moduleConfig(config: moduleConfigPacket, nodeNum: Int64(truncatingIfNeeded: deviceNum), nodeLongName: longName) // Get Canned Message Message List if the Module is Canned Messages if moduleConfigPacket.payloadVariant == ModuleConfig.OneOf_PayloadVariant.cannedMessage(moduleConfigPacket.cannedMessage) { try? getCannedMessageModuleMessages(destNum: deviceNum, wantResponse: true) @@ -183,7 +187,7 @@ extension AccessoryManager { } } - func handleDeviceMetadata(_ metadata: DeviceMetadata) { + func handleDeviceMetadata(_ metadata: DeviceMetadata) async { // Note: moved firmware version check to be inline with connection process guard let device = activeConnection?.device, let deviceNum = device.num else { Logger.services.error("Attempt to process device metadata information when no connected device.") @@ -194,7 +198,7 @@ extension AccessoryManager { updateDevice(key: \.firmwareVersion, value: metadata.firmwareVersion) - deviceMetadataPacket(metadata: metadata, fromNum: deviceNum, context: context) + await MeshPackets.shared.deviceMetadataPacket(metadata: metadata, fromNum: deviceNum) } internal func tryClearExistingChannels() { @@ -225,17 +229,16 @@ extension AccessoryManager { } - func handleTextMessageAppPacket(_ packet: MeshPacket) { + func handleTextMessageAppPacket(_ packet: MeshPacket) async { guard let device = activeConnection?.device, let deviceNum = device.num else { Logger.services.error("Attempt to handle text message when no connected device.") return } - textMessageAppPacket( + await MeshPackets.shared.textMessageAppPacket( packet: packet, wantRangeTestPackets: wantRangeTestPackets, connectedNode: deviceNum, - context: context, appState: appState ) @@ -320,25 +323,27 @@ extension AccessoryManager { case .UNRECOGNIZED: Logger.mesh.info("\("๐Ÿ“ฎ Store and Forward \(storeAndForwardMessage.rr) message received from \(packet.from.toHex())")") case .routerTextDirect: - Logger.mesh.info("\("๐Ÿ’ฌ Store and Forward \(storeAndForwardMessage.rr) message received from \(packet.from.toHex())")") - textMessageAppPacket( - packet: packet, - wantRangeTestPackets: false, - connectedNode: connectedNodeNum, - storeForward: true, - context: context, - appState: appState - ) + Task { + Logger.mesh.info("\("๐Ÿ’ฌ Store and Forward \(storeAndForwardMessage.rr) message received from \(packet.from.toHex())")") + await MeshPackets.shared.textMessageAppPacket( + packet: packet, + wantRangeTestPackets: false, + connectedNode: connectedNodeNum, + storeForward: true, + appState: appState + ) + } case .routerTextBroadcast: - Logger.mesh.info("\("โœ‰๏ธ Store and Forward \(storeAndForwardMessage.rr) message received from \(packet.from.toHex())")") - textMessageAppPacket( - packet: packet, - wantRangeTestPackets: false, - connectedNode: connectedNodeNum, - storeForward: true, - context: context, - appState: appState - ) + Task { + Logger.mesh.info("\("โœ‰๏ธ Store and Forward \(storeAndForwardMessage.rr) message received from \(packet.from.toHex())")") + await MeshPackets.shared.textMessageAppPacket( + packet: packet, + wantRangeTestPackets: false, + connectedNode: connectedNodeNum, + storeForward: true, + appState: appState + ) + } } } } diff --git a/Meshtastic/Accessory/Accessory Manager/AccessoryManager.swift b/Meshtastic/Accessory/Accessory Manager/AccessoryManager.swift index fc352614..860064df 100644 --- a/Meshtastic/Accessory/Accessory Manager/AccessoryManager.swift +++ b/Meshtastic/Accessory/Accessory Manager/AccessoryManager.swift @@ -369,13 +369,13 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { } } - func didReceive(_ event: ConnectionEvent) { + func didReceive(_ event: ConnectionEvent) async { packetsReceived += 1 switch event { case .data(let fromRadio): // Logger.transport.info("โœ… [Accessory] didReceive: \(fromRadio.payloadVariant.debugDescription)") - self.processFromRadio(fromRadio) + await self.processFromRadio(fromRadio) Task { await self.heartbeatResponseTimer?.cancel(withReason: "Data packet received") await self.heartbeatTimer?.reset(delay: .seconds(15.0)) @@ -483,7 +483,7 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { } } - private func processFromRadio(_ decodedInfo: FromRadio) { + private func processFromRadio(_ decodedInfo: FromRadio) async { switch decodedInfo.payloadVariant { case .mqttClientProxyMessage(let mqttClientProxyMessage): handleMqttClientProxyMessage(mqttClientProxyMessage) @@ -492,7 +492,7 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { handleClientNotification(clientNotification) case .myInfo(let myNodeInfo): - handleMyInfo(myNodeInfo) + await handleMyInfo(myNodeInfo) case .packet(let packet): // All received packets get passed through updateAnyPacketFrom to update lastHeard, rxSnr, etc. (like firmware's NodeDB::updateFrom). @@ -506,13 +506,13 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { if case let .decoded(data) = packet.payloadVariant { switch data.portnum { case .textMessageApp, .detectionSensorApp, .alertApp: - handleTextMessageAppPacket(packet) + await handleTextMessageAppPacket(packet) case .remoteHardwareApp: Logger.mesh.info("๐Ÿ•ธ๏ธ MESH PACKET received for Remote Hardware App UNHANDLED \((try? decodedInfo.packet.jsonString()) ?? "JSON Decode Failure", privacy: .public)") case .positionApp: upsertPositionPacket(packet: packet, context: context) case .waypointApp: - waypointPacket(packet: packet, context: context) + await MeshPackets.shared.waypointPacket(packet: packet) case .nodeinfoApp: guard let connectedNodeNum = self.activeDeviceNum else { Logger.mesh.error("๐Ÿ•ธ๏ธ Unable to determine connectedNodeNum for node info upsert.") @@ -528,16 +528,16 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { Logger.mesh.error("๐Ÿ•ธ๏ธ No active connection. Unable to determine connectedNodeNum for routingPacket.") return } - routingPacket(packet: packet, connectedNodeNum: deviceNum, context: context) + await MeshPackets.shared.routingPacket(packet: packet, connectedNodeNum: deviceNum) case .adminApp: - adminAppPacket(packet: packet, context: context) + await MeshPackets.shared.adminAppPacket(packet: packet) case .replyApp: Logger.mesh.info("๐Ÿ•ธ๏ธ MESH PACKET received for Reply App handling as a text message") guard let deviceNum = activeConnection?.device.num else { Logger.mesh.error("๐Ÿ•ธ๏ธ No active connection. Unable to determine connectedNodeNum for replyApp.") return } - textMessageAppPacket(packet: packet, wantRangeTestPackets: wantRangeTestPackets, connectedNode: deviceNum, context: context, appState: appState) + await MeshPackets.shared.textMessageAppPacket(packet: packet, wantRangeTestPackets: wantRangeTestPackets, connectedNode: deviceNum, appState: appState) case .ipTunnelApp: Logger.mesh.info("๐Ÿ•ธ๏ธ MESH PACKET received for IP Tunnel App UNHANDLED UNHANDLED") case .serialApp: @@ -554,11 +554,10 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { return } if wantRangeTestPackets { - textMessageAppPacket( + await MeshPackets.shared.textMessageAppPacket( packet: packet, wantRangeTestPackets: true, connectedNode: deviceNum, - context: context, appState: appState ) } else { @@ -569,7 +568,7 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { Logger.mesh.error("๐Ÿ•ธ๏ธ No active connection. Unable to determine connectedNodeNum for telemetryApp.") return } - telemetryPacket(packet: packet, connectedNode: deviceNum, context: context) + await MeshPackets.shared.telemetryPacket(packet: packet, connectedNode: deviceNum) case .textMessageCompressedApp: Logger.mesh.info("๐Ÿ•ธ๏ธ MESH PACKET received for Text Message Compressed App UNHANDLED") case .zpsApp: @@ -591,7 +590,7 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { Logger.mesh.info("๐Ÿ•ธ๏ธ MESH PACKET received for Neighbor Info App UNHANDLED \((try? neighborInfo.jsonString()) ?? "JSON Decode Failure", privacy: .public)") } case .paxcounterApp: - paxCounterPacket(packet: decodedInfo.packet, context: context) + await MeshPackets.shared.paxCounterPacket(packet: decodedInfo.packet) case .mapReportApp: Logger.mesh.info("๐Ÿ•ธ๏ธ MESH PACKET received Map Report App UNHANDLED \((try? decodedInfo.packet.jsonString()) ?? "JSON Decode Failure", privacy: .public)") case .UNRECOGNIZED: @@ -614,19 +613,19 @@ class AccessoryManager: ObservableObject, MqttClientProxyManagerDelegate { } case .nodeInfo(let nodeInfo): - handleNodeInfo(nodeInfo) + await handleNodeInfo(nodeInfo) case .channel(let channel): - handleChannel(channel) + await handleChannel(channel) case .config(let config): - handleConfig(config) + await handleConfig(config) case .moduleConfig(let moduleConfig): - handleModuleConfig(moduleConfig) + await handleModuleConfig(moduleConfig) case .metadata(let metadata): - handleDeviceMetadata(metadata) + await handleDeviceMetadata(metadata) case .deviceuiConfig: #if DEBUG diff --git a/Meshtastic/Helpers/MeshPackets.swift b/Meshtastic/Helpers/MeshPackets.swift index 8b7a7423..ecc1bfca 100644 --- a/Meshtastic/Helpers/MeshPackets.swift +++ b/Meshtastic/Helpers/MeshPackets.swift @@ -55,1176 +55,1221 @@ func generateMessageMarkdown (message: String) -> String { return message } -func localConfig (config: Config, context: NSManagedObjectContext, nodeNum: Int64, nodeLongName: String) { - switch config.payloadVariant { - case .bluetooth: - upsertBluetoothConfigPacket(config: config.bluetooth, nodeNum: nodeNum, context: context) - case .device: - upsertDeviceConfigPacket(config: config.device, nodeNum: nodeNum, context: context) - case .display: - upsertDisplayConfigPacket(config: config.display, nodeNum: nodeNum, context: context) - case .lora: - upsertLoRaConfigPacket(config: config.lora, nodeNum: nodeNum, context: context) - case .network: - upsertNetworkConfigPacket(config: config.network, nodeNum: nodeNum, context: context) - case .position: - upsertPositionConfigPacket(config: config.position, nodeNum: nodeNum, context: context) - case .power: - upsertPowerConfigPacket(config: config.power, nodeNum: nodeNum, context: context) - case .security: - upsertSecurityConfigPacket(config: config.security, nodeNum: nodeNum, context: context) - default: +actor MeshPackets { + static let shared = MeshPackets() + + // Create an actor-level background context + // We keep this alive so sequential writes happen on the same context (efficient) + private lazy var backgroundContext: NSManagedObjectContext = { + let ctx = PersistenceController.shared.container.newBackgroundContext() + ctx.mergePolicy = NSMergeByPropertyObjectTrumpMergePolicy // Handle conflicts automatically + return ctx + }() + + func localConfig (config: Config, nodeNum: Int64, nodeLongName: String) async { + let context = self.backgroundContext + await context.perform { [weak self] in + switch config.payloadVariant { + case .bluetooth: + upsertBluetoothConfigPacket(config: config.bluetooth, nodeNum: nodeNum, context: context) + case .device: + upsertDeviceConfigPacket(config: config.device, nodeNum: nodeNum, context: context) + case .display: + upsertDisplayConfigPacket(config: config.display, nodeNum: nodeNum, context: context) + case .lora: + upsertLoRaConfigPacket(config: config.lora, nodeNum: nodeNum, context: context) + case .network: + upsertNetworkConfigPacket(config: config.network, nodeNum: nodeNum, context: context) + case .position: + upsertPositionConfigPacket(config: config.position, nodeNum: nodeNum, context: context) + case .power: + upsertPowerConfigPacket(config: config.power, nodeNum: nodeNum, context: context) + case .security: + upsertSecurityConfigPacket(config: config.security, nodeNum: nodeNum, context: context) + default: #if DEBUG - Logger.services.error("โ‰๏ธ Unknown Config variant UNHANDLED \(config.payloadVariant.debugDescription, privacy: .public)") + Logger.services.error("โ‰๏ธ Unknown Config variant UNHANDLED \(config.payloadVariant.debugDescription, privacy: .public)") #endif + } + } } -} - -func moduleConfig (config: ModuleConfig, context: NSManagedObjectContext, nodeNum: Int64, nodeLongName: String) { - switch config.payloadVariant { - case .ambientLighting: - upsertAmbientLightingModuleConfigPacket(config: config.ambientLighting, nodeNum: nodeNum, context: context) - case .cannedMessage: - upsertCannedMessagesModuleConfigPacket(config: config.cannedMessage, nodeNum: nodeNum, context: context) - case .detectionSensor: - upsertDetectionSensorModuleConfigPacket(config: config.detectionSensor, nodeNum: nodeNum, context: context) - case .externalNotification: - upsertExternalNotificationModuleConfigPacket(config: config.externalNotification, nodeNum: nodeNum, context: context) - case .mqtt: - upsertMqttModuleConfigPacket(config: config.mqtt, nodeNum: nodeNum, context: context) - case .paxcounter: - upsertPaxCounterModuleConfigPacket(config: config.paxcounter, nodeNum: nodeNum, context: context) - case .rangeTest: - upsertRangeTestModuleConfigPacket(config: config.rangeTest, nodeNum: nodeNum, context: context) - case .serial: - upsertSerialModuleConfigPacket(config: config.serial, nodeNum: nodeNum, context: context) - case .telemetry: - upsertTelemetryModuleConfigPacket(config: config.telemetry, nodeNum: nodeNum, context: context) - case .storeForward: - upsertStoreForwardModuleConfigPacket(config: config.storeForward, nodeNum: nodeNum, context: context) - default: + + func moduleConfig (config: ModuleConfig, nodeNum: Int64, nodeLongName: String) async { + let context = self.backgroundContext + await context.perform { + switch config.payloadVariant { + case .ambientLighting: + upsertAmbientLightingModuleConfigPacket(config: config.ambientLighting, nodeNum: nodeNum, context: context) + case .cannedMessage: + upsertCannedMessagesModuleConfigPacket(config: config.cannedMessage, nodeNum: nodeNum, context: context) + case .detectionSensor: + upsertDetectionSensorModuleConfigPacket(config: config.detectionSensor, nodeNum: nodeNum, context: context) + case .externalNotification: + upsertExternalNotificationModuleConfigPacket(config: config.externalNotification, nodeNum: nodeNum, context: context) + case .mqtt: + upsertMqttModuleConfigPacket(config: config.mqtt, nodeNum: nodeNum, context: context) + case .paxcounter: + upsertPaxCounterModuleConfigPacket(config: config.paxcounter, nodeNum: nodeNum, context: context) + case .rangeTest: + upsertRangeTestModuleConfigPacket(config: config.rangeTest, nodeNum: nodeNum, context: context) + case .serial: + upsertSerialModuleConfigPacket(config: config.serial, nodeNum: nodeNum, context: context) + case .telemetry: + upsertTelemetryModuleConfigPacket(config: config.telemetry, nodeNum: nodeNum, context: context) + case .storeForward: + upsertStoreForwardModuleConfigPacket(config: config.storeForward, nodeNum: nodeNum, context: context) + default: #if DEBUG - Logger.services.error("โ‰๏ธ Unknown Module Config variant UNHANDLED \(config.payloadVariant.debugDescription, privacy: .public)") + Logger.services.error("โ‰๏ธ Unknown Module Config variant UNHANDLED \(config.payloadVariant.debugDescription, privacy: .public)") #endif - } -} - -func myInfoPacket (myInfo: MyNodeInfo, peripheralId: String, context: NSManagedObjectContext) -> MyInfoEntity? { - - let logString = String.localizedStringWithFormat("MyInfo received: %@".localized, String(myInfo.myNodeNum)) - Logger.mesh.info("โ„น๏ธ \(logString, privacy: .public)") - - let fetchMyInfoRequest = MyInfoEntity.fetchRequest() - fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(myInfo.myNodeNum)) - - do { - let fetchedMyInfo = try context.fetch(fetchMyInfoRequest) - // Not Found Insert - if fetchedMyInfo.isEmpty { - - let myInfoEntity = MyInfoEntity(context: context) - myInfoEntity.peripheralId = peripheralId - myInfoEntity.myNodeNum = Int64(myInfo.myNodeNum) - myInfoEntity.rebootCount = Int32(myInfo.rebootCount) - myInfoEntity.deviceId = myInfo.deviceID - do { - try context.save() - Logger.data.info("๐Ÿ’พ Saved a new myInfo for node: \(myInfo.myNodeNum.toHex(), privacy: .public)") - return myInfoEntity - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("๐Ÿ’ฅ Error Inserting New Core Data MyInfoEntity: \(nsError, privacy: .public)") - } - } else { - - fetchedMyInfo[0].peripheralId = peripheralId - fetchedMyInfo[0].myNodeNum = Int64(myInfo.myNodeNum) - fetchedMyInfo[0].rebootCount = Int32(myInfo.rebootCount) - - do { - try context.save() - Logger.data.info("๐Ÿ’พ Updated myInfo for node: \(myInfo.myNodeNum.toHex(), privacy: .public)") - return fetchedMyInfo[0] - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("๐Ÿ’ฅ Error Updating Core Data MyInfoEntity: \(nsError, privacy: .public)") } } - } catch { - Logger.data.error("๐Ÿ’ฅ Fetch MyInfo Error") } - return nil -} - -func channelPacket (channel: Channel, fromNum: Int64, context: NSManagedObjectContext) { - - if channel.isInitialized && channel.hasSettings && channel.role != Channel.Role.disabled { - - let logString = String.localizedStringWithFormat("mesh.log.channel.received %d %@".localized, channel.index, String(fromNum)) - Logger.mesh.info("๐ŸŽ›๏ธ \(logString, privacy: .public)") - - let fetchedMyInfoRequest = MyInfoEntity.fetchRequest() - fetchedMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", fromNum) - - do { - let fetchedMyInfo = try context.fetch(fetchedMyInfoRequest) - if fetchedMyInfo.count == 1 { - let newChannel = ChannelEntity(context: context) - newChannel.id = Int32(channel.index) - newChannel.index = Int32(channel.index) - newChannel.uplinkEnabled = channel.settings.uplinkEnabled - newChannel.downlinkEnabled = channel.settings.downlinkEnabled - newChannel.name = channel.settings.name - newChannel.role = Int32(channel.role.rawValue) - newChannel.psk = channel.settings.psk - if channel.settings.hasModuleSettings { - newChannel.positionPrecision = Int32(truncatingIfNeeded: channel.settings.moduleSettings.positionPrecision) - newChannel.mute = channel.settings.moduleSettings.isMuted - } - guard let mutableChannels = fetchedMyInfo[0].channels!.mutableCopy() as? NSMutableOrderedSet else { - return - } - if let oldChannel = mutableChannels.first(where: {($0 as AnyObject).index == newChannel.index }) as? ChannelEntity { - let index = mutableChannels.index(of: oldChannel as Any) - mutableChannels.replaceObject(at: index, with: newChannel) - } else { - mutableChannels.add(newChannel) - } - fetchedMyInfo[0].channels = mutableChannels.copy() as? NSOrderedSet - context.refresh(newChannel, mergeChanges: true) - do { - try context.save() - } catch { - Logger.data.error("๐Ÿ’ฅ Failed to save channel: \(error.localizedDescription, privacy: .public)") - } - Logger.data.info("๐Ÿ’พ Updated MyInfo channel \(channel.index, privacy: .public) from Channel App Packet For: \(fetchedMyInfo[0].myNodeNum, privacy: .public)") - } else if channel.role.rawValue > 0 { - Logger.data.error("๐Ÿ’ฅTrying to save a channel to a MyInfo that does not exist: \(fromNum.toHex(), privacy: .public)") - } - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("๐Ÿ’ฅ Error Saving MyInfo Channel from ADMIN_APP \(nsError, privacy: .public)") - } - } -} - -func deviceMetadataPacket (metadata: DeviceMetadata, fromNum: Int64, sessionPasskey: Data? = Data(), context: NSManagedObjectContext) { - - if metadata.isInitialized { - let logString = String.localizedStringWithFormat("Device Metadata received from: %@".localized, fromNum.toHex()) - Logger.mesh.info("๐Ÿท๏ธ \(logString, privacy: .public)") - - let fetchedNodeRequest = NodeInfoEntity.fetchRequest() - fetchedNodeRequest.predicate = NSPredicate(format: "num == %lld", fromNum) - - do { - let fetchedNode = try context.fetch(fetchedNodeRequest) - let newMetadata = DeviceMetadataEntity(context: context) - newMetadata.time = Date() - newMetadata.deviceStateVersion = Int32(metadata.deviceStateVersion) - newMetadata.canShutdown = metadata.canShutdown - newMetadata.hasWifi = metadata.hasWifi_p - newMetadata.hasBluetooth = metadata.hasBluetooth_p - newMetadata.hasEthernet = metadata.hasEthernet_p - newMetadata.role = Int32(metadata.role.rawValue) - newMetadata.positionFlags = Int32(metadata.positionFlags) - newMetadata.excludedModules = Int32(metadata.excludedModules) - // Swift does strings weird, this does work to get the version without the github hash - let lastDotIndex = metadata.firmwareVersion.lastIndex(of: ".") - var version = metadata.firmwareVersion[...(lastDotIndex ?? String.Index(utf16Offset: 6, in: metadata.firmwareVersion))] - version = version.dropLast() - newMetadata.firmwareVersion = String(version) - if fetchedNode.count > 0 { - fetchedNode[0].metadata = newMetadata - } else { - - if fromNum > 0 { - let newNode = createNodeInfo(num: Int64(fromNum), context: context) - newNode.metadata = newMetadata - } - } - if sessionPasskey?.count != 0 { - fetchedNode[0].sessionPasskey = sessionPasskey - fetchedNode[0].sessionExpiration = Date().addingTimeInterval(300) - } - do { - try context.save() - } catch { - Logger.data.error("๐Ÿ’ฅ Failed to save device metadata: \(error.localizedDescription, privacy: .public)") - } - Logger.data.info("๐Ÿ’พ Updated Device Metadata from Admin App Packet For: \(fromNum.toHex(), privacy: .public)") - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("Error Saving MyInfo Channel from ADMIN_APP \(nsError, privacy: .public)") - } - } -} - -func nodeInfoPacket (nodeInfo: NodeInfo, channel: UInt32, context: NSManagedObjectContext, deferSave: Bool = false) -> NodeInfoEntity? { - - let logString = String.localizedStringWithFormat("[NodeInfo] received for: %@".localized, String(nodeInfo.num)) - Logger.mesh.info("๐Ÿ“Ÿ \(logString, privacy: .public)") - - guard nodeInfo.num > 0 else { return nil } - - let fetchNodeInfoRequest = NodeInfoEntity.fetchRequest() - fetchNodeInfoRequest.predicate = NSPredicate(format: "num == %lld", Int64(nodeInfo.num)) - - do { - let fetchedNode = try context.fetch(fetchNodeInfoRequest) - // Not Found Insert - if fetchedNode.isEmpty && nodeInfo.num > 0 { - - let newNode = NodeInfoEntity(context: context) - newNode.id = Int64(nodeInfo.num) - newNode.num = Int64(nodeInfo.num) - newNode.channel = Int32(nodeInfo.channel) - newNode.favorite = nodeInfo.isFavorite - newNode.ignored = nodeInfo.isIgnored - newNode.hopsAway = Int32(nodeInfo.hopsAway) - - if nodeInfo.hasDeviceMetrics { - let telemetry = TelemetryEntity(context: context) - telemetry.batteryLevel = Int32(nodeInfo.deviceMetrics.batteryLevel) - telemetry.voltage = nodeInfo.deviceMetrics.voltage - telemetry.channelUtilization = nodeInfo.deviceMetrics.channelUtilization - telemetry.airUtilTx = nodeInfo.deviceMetrics.airUtilTx - var newTelemetries = [TelemetryEntity]() - newTelemetries.append(telemetry) - newNode.telemetries? = NSOrderedSet(array: newTelemetries) - } - if nodeInfo.lastHeard > 0 { - newNode.firstHeard = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.lastHeard))) - newNode.lastHeard = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.lastHeard))) - } else { - newNode.firstHeard = Date() - newNode.lastHeard = Date() - } - newNode.snr = nodeInfo.snr - if nodeInfo.hasUser { - - let newUser = UserEntity(context: context) - newUser.userId = nodeInfo.num.toHex() - newUser.num = Int64(nodeInfo.num) - newUser.longName = nodeInfo.user.longName - newUser.shortName = nodeInfo.user.shortName - newUser.hwModel = String(describing: nodeInfo.user.hwModel).uppercased() - newUser.hwModelId = Int32(nodeInfo.user.hwModel.rawValue) - Task { - Api().loadDeviceHardwareData { (hw) in - let dh = hw.first(where: { $0.hwModel == newUser.hwModelId }) - newUser.hwDisplayName = dh?.displayName - } - } - newUser.isLicensed = nodeInfo.user.isLicensed - newUser.role = Int32(nodeInfo.user.role.rawValue) - if !nodeInfo.user.publicKey.isEmpty { - newUser.pkiEncrypted = true - newUser.publicKey = nodeInfo.user.publicKey - } - /// For nodes that have the optional isUnmessagable boolean use that, otherwise excluded roles that are unmessagable by default - if nodeInfo.user.hasIsUnmessagable { - newUser.unmessagable = nodeInfo.user.isUnmessagable - } else { - let roles = [2, 4, 5, 6, 7, 10, 11] - let containsRole = roles.contains(Int(newUser.role)) - if containsRole { - newUser.unmessagable = true - } else { - newUser.unmessagable = false - }} - newNode.user = newUser - } else if nodeInfo.num > Constants.minimumNodeNum { - do { - let newUser = try createUser(num: Int64(nodeInfo.num), context: context) - newNode.user = newUser - } catch CoreDataError.invalidInput(let message) { - Logger.data.error("Error Creating a new Core Data UserEntity (Invalid Input) from node number: \(nodeInfo.num, privacy: .public) Error: \(message, privacy: .public)") - } catch { - Logger.data.error("Error Creating a new Core Data UserEntity from node number: \(nodeInfo.num, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") - } - } - - if (nodeInfo.position.longitudeI != 0 && nodeInfo.position.latitudeI != 0) && (nodeInfo.position.latitudeI != 373346000 && nodeInfo.position.longitudeI != -1220090000) { - let position = PositionEntity(context: context) - position.latest = true - position.seqNo = Int32(nodeInfo.position.seqNumber) - position.latitudeI = nodeInfo.position.latitudeI - position.longitudeI = nodeInfo.position.longitudeI - position.altitude = nodeInfo.position.altitude - position.satsInView = Int32(nodeInfo.position.satsInView) - position.speed = Int32(nodeInfo.position.groundSpeed) - position.heading = Int32(nodeInfo.position.groundTrack) - position.time = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.position.time))) - var newPostions = [PositionEntity]() - newPostions.append(position) - newNode.positions? = NSOrderedSet(array: newPostions) - } - - // Look for a MyInfo + + func myInfoPacket (myInfo: MyNodeInfo, peripheralId: String) async -> NSManagedObjectID? { + let context = self.backgroundContext + return await context.perform { + let logString = String.localizedStringWithFormat("MyInfo received: %@".localized, String(myInfo.myNodeNum)) + Logger.mesh.info("โ„น๏ธ \(logString, privacy: .public)") + let fetchMyInfoRequest = MyInfoEntity.fetchRequest() - fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(nodeInfo.num)) - + fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(myInfo.myNodeNum)) + do { let fetchedMyInfo = try context.fetch(fetchMyInfoRequest) - if fetchedMyInfo.count > 0 { - newNode.myInfo = fetchedMyInfo[0] - } - do { - if !deferSave { - try context.save() - Logger.data.info("๐Ÿ’พ Saved a new Node Info For: \(String(nodeInfo.num), privacy: .public)") - } - return newNode - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("Error Saving Core Data NodeInfoEntity: \(nsError, privacy: .public)") - } - } catch { - Logger.data.error("Fetch MyInfo Error") - } - } else if nodeInfo.num > 0 { - - fetchedNode[0].id = Int64(nodeInfo.num) - fetchedNode[0].num = Int64(nodeInfo.num) - fetchedNode[0].lastHeard = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.lastHeard))) - fetchedNode[0].snr = nodeInfo.snr - fetchedNode[0].channel = Int32(nodeInfo.channel) - fetchedNode[0].favorite = nodeInfo.isFavorite - fetchedNode[0].ignored = nodeInfo.isIgnored - fetchedNode[0].hopsAway = Int32(nodeInfo.hopsAway) - - if nodeInfo.hasUser { - if fetchedNode[0].user == nil { - fetchedNode[0].user = UserEntity(context: context) - } - // Set the public key for a user if it is empty, don't update - if fetchedNode[0].user?.publicKey == nil && !nodeInfo.user.publicKey.isEmpty { - fetchedNode[0].user?.pkiEncrypted = true - fetchedNode[0].user?.publicKey = nodeInfo.user.publicKey - } - fetchedNode[0].user?.userId = nodeInfo.num.toHex() - fetchedNode[0].user?.num = Int64(nodeInfo.num) - fetchedNode[0].user?.numString = String(nodeInfo.num) - fetchedNode[0].user?.longName = nodeInfo.user.longName - fetchedNode[0].user?.shortName = nodeInfo.user.shortName - fetchedNode[0].user?.isLicensed = nodeInfo.user.isLicensed - fetchedNode[0].user?.role = Int32(nodeInfo.user.role.rawValue) - fetchedNode[0].user?.hwModel = String(describing: nodeInfo.user.hwModel).uppercased() - fetchedNode[0].user?.hwModelId = Int32(nodeInfo.user.hwModel.rawValue) - /// For nodes that have the optional isUnmessagable boolean use that, otherwise excluded roles that are unmessagable by default - if nodeInfo.user.hasIsUnmessagable { - fetchedNode[0].user?.unmessagable = nodeInfo.user.isUnmessagable - } else { - let roles = [-1, 2, 4, 5, 6, 7, 10, 11] - let containsRole = roles.contains(Int(fetchedNode[0].user?.role ?? -1)) - if containsRole { - fetchedNode[0].user?.unmessagable = true - } else { - fetchedNode[0].user?.unmessagable = false - } - } - Task { - Api().loadDeviceHardwareData { (hw: [DeviceHardware]) in - guard !hw.isEmpty, - let firstNode = fetchedNode.first, - let user = firstNode.user else { - Logger.data.error("Error: Required DeviceHardware data is missing or array is empty.") - return - } - - let dh = hw.first(where: { $0.hwModel == user.hwModelId }) - - if let deviceHardware = dh { - firstNode.user?.hwDisplayName = deviceHardware.displayName - } else { - Logger.data.error("No matching hardware model found for ID: \(user.hwModelId, privacy: .public)") - } - } - } - } else { - if fetchedNode[0].user == nil && nodeInfo.num > Constants.minimumNodeNum { + // Not Found Insert + if fetchedMyInfo.isEmpty { + + let myInfoEntity = MyInfoEntity(context: context) + myInfoEntity.peripheralId = peripheralId + myInfoEntity.myNodeNum = Int64(myInfo.myNodeNum) + myInfoEntity.rebootCount = Int32(myInfo.rebootCount) + myInfoEntity.deviceId = myInfo.deviceID do { - let newUser = try createUser(num: Int64(nodeInfo.num), context: context) - fetchedNode[0].user = newUser - } catch CoreDataError.invalidInput(let message) { - Logger.data.error("Error Creating a new Core Data UserEntity on an existing node (Invalid Input) from node number: \(nodeInfo.num, privacy: .public) Error: \(message, privacy: .public)") - } catch { - Logger.data.error("Error Creating a new Core Data UserEntity on an existing node from node number: \(nodeInfo.num, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") - } - } - } - - if nodeInfo.hasDeviceMetrics { - - let newTelemetry = TelemetryEntity(context: context) - newTelemetry.batteryLevel = Int32(nodeInfo.deviceMetrics.batteryLevel) - newTelemetry.voltage = nodeInfo.deviceMetrics.voltage - newTelemetry.channelUtilization = nodeInfo.deviceMetrics.channelUtilization - newTelemetry.airUtilTx = nodeInfo.deviceMetrics.airUtilTx - guard let mutableTelemetries = fetchedNode[0].telemetries!.mutableCopy() as? NSMutableOrderedSet else { - return nil - } - mutableTelemetries.add(newTelemetry) - fetchedNode[0].telemetries = mutableTelemetries.copy() as? NSOrderedSet - } - - if nodeInfo.hasPosition { - - if (nodeInfo.position.longitudeI != 0 && nodeInfo.position.latitudeI != 0) && (nodeInfo.position.latitudeI != 373346000 && nodeInfo.position.longitudeI != -1220090000) { - - let position = PositionEntity(context: context) - position.latitudeI = nodeInfo.position.latitudeI - position.longitudeI = nodeInfo.position.longitudeI - position.altitude = nodeInfo.position.altitude - position.satsInView = Int32(nodeInfo.position.satsInView) - position.time = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.position.time))) - guard let mutablePositions = fetchedNode[0].positions!.mutableCopy() as? NSMutableOrderedSet else { - return nil - } - fetchedNode[0].positions = mutablePositions.copy() as? NSOrderedSet - } - - } - - // Look for a MyInfo - let fetchMyInfoRequest = MyInfoEntity.fetchRequest() - fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(nodeInfo.num)) - - do { - let fetchedMyInfo = try context.fetch(fetchMyInfoRequest) - if fetchedMyInfo.count > 0 { - fetchedNode[0].myInfo = fetchedMyInfo[0] - } - do { - if !deferSave { try context.save() - Logger.data.info("๐Ÿ’พ [NodeInfo] saved for \(nodeInfo.num.toHex(), privacy: .public)") + Logger.data.info("๐Ÿ’พ Saved a new myInfo for node: \(myInfo.myNodeNum.toHex(), privacy: .public)") + return myInfoEntity.objectID + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("๐Ÿ’ฅ Error Inserting New Core Data MyInfoEntity: \(nsError, privacy: .public)") + } + } else { + + fetchedMyInfo[0].peripheralId = peripheralId + fetchedMyInfo[0].myNodeNum = Int64(myInfo.myNodeNum) + fetchedMyInfo[0].rebootCount = Int32(myInfo.rebootCount) + + do { + try context.save() + Logger.data.info("๐Ÿ’พ Updated myInfo for node: \(myInfo.myNodeNum.toHex(), privacy: .public)") + return fetchedMyInfo[0].objectID + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("๐Ÿ’ฅ Error Updating Core Data MyInfoEntity: \(nsError, privacy: .public)") } - return fetchedNode[0] - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("๐Ÿ’ฅ Error Saving Core Data NodeInfoEntity: \(nsError, privacy: .public)") } } catch { Logger.data.error("๐Ÿ’ฅ Fetch MyInfo Error") } + return nil } - } catch { - Logger.data.error("๐Ÿ’ฅ Fetch NodeInfoEntity Error") } - return nil -} - -func adminAppPacket (packet: MeshPacket, context: NSManagedObjectContext) { - - if let adminMessage = try? AdminMessage(serializedBytes: packet.decoded.payload) { - - if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getCannedMessageModuleMessagesResponse(adminMessage.getCannedMessageModuleMessagesResponse) { - - if let cmmc = try? CannedMessageModuleConfig(serializedBytes: packet.decoded.payload) { - let logString = String.localizedStringWithFormat("Canned Messages Messages Received For: %@".localized, packet.from.toHex()) - Logger.mesh.info("๐Ÿฅซ \(logString, privacy: .public)") - - let fetchNodeRequest = NodeInfoEntity.fetchRequest() - fetchNodeRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) - - do { - let fetchedNode = try context.fetch(fetchNodeRequest) - if fetchedNode.count == 1 { - let messages = String(cmmc.textFormatString()) - .replacingOccurrences(of: "11: ", with: "") - .replacingOccurrences(of: "\"", with: "") - .trimmingCharacters(in: .whitespacesAndNewlines) - .components(separatedBy: "\n").first ?? "" - fetchedNode[0].cannedMessageConfig?.messages = messages - do { - try context.save() - Logger.data.info("๐Ÿ’พ Updated Canned Messages Messages For: \(fetchedNode.first?.num.toHex() ?? "Unknown".localized, privacy: .public)") - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("๐Ÿ’ฅ Error Saving NodeInfoEntity from POSITION_APP \(nsError, privacy: .public)") - } - } - } catch { - Logger.data.error("๐Ÿ’ฅ Error Deserializing ADMIN_APP packet.") - } - } - } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getChannelResponse(adminMessage.getChannelResponse) { - channelPacket(channel: adminMessage.getChannelResponse, fromNum: Int64(packet.from), context: context) - } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getDeviceMetadataResponse(adminMessage.getDeviceMetadataResponse) { - deviceMetadataPacket(metadata: adminMessage.getDeviceMetadataResponse, fromNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getConfigResponse(adminMessage.getConfigResponse) { - let config = adminMessage.getConfigResponse - if config.payloadVariant == Config.OneOf_PayloadVariant.bluetooth(config.bluetooth) { - upsertBluetoothConfigPacket(config: config.bluetooth, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if config.payloadVariant == Config.OneOf_PayloadVariant.device(config.device) { - upsertDeviceConfigPacket(config: config.device, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if config.payloadVariant == Config.OneOf_PayloadVariant.display(config.display) { - upsertDisplayConfigPacket(config: config.display, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if config.payloadVariant == Config.OneOf_PayloadVariant.lora(config.lora) { - upsertLoRaConfigPacket(config: config.lora, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if config.payloadVariant == Config.OneOf_PayloadVariant.network(config.network) { - upsertNetworkConfigPacket(config: config.network, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if config.payloadVariant == Config.OneOf_PayloadVariant.position(config.position) { - upsertPositionConfigPacket(config: config.position, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if config.payloadVariant == Config.OneOf_PayloadVariant.power(config.power) { - upsertPowerConfigPacket(config: config.power, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } else if config.payloadVariant == Config.OneOf_PayloadVariant.security(config.security) { - upsertSecurityConfigPacket(config: config.security, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) - } - } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getModuleConfigResponse(adminMessage.getModuleConfigResponse) { - let moduleConfig = adminMessage.getModuleConfigResponse - if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.ambientLighting(moduleConfig.ambientLighting) { - upsertAmbientLightingModuleConfigPacket(config: moduleConfig.ambientLighting, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.cannedMessage(moduleConfig.cannedMessage) { - upsertCannedMessagesModuleConfigPacket(config: moduleConfig.cannedMessage, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.detectionSensor(moduleConfig.detectionSensor) { - upsertDetectionSensorModuleConfigPacket(config: moduleConfig.detectionSensor, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.externalNotification(moduleConfig.externalNotification) { - upsertExternalNotificationModuleConfigPacket(config: moduleConfig.externalNotification, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.mqtt(moduleConfig.mqtt) { - upsertMqttModuleConfigPacket(config: moduleConfig.mqtt, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.rangeTest(moduleConfig.rangeTest) { - upsertRangeTestModuleConfigPacket(config: moduleConfig.rangeTest, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.serial(moduleConfig.serial) { - upsertSerialModuleConfigPacket(config: moduleConfig.serial, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.storeForward(moduleConfig.storeForward) { - upsertStoreForwardModuleConfigPacket(config: moduleConfig.storeForward, nodeNum: Int64(packet.from), context: context) - } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.telemetry(moduleConfig.telemetry) { - upsertTelemetryModuleConfigPacket(config: moduleConfig.telemetry, nodeNum: Int64(packet.from), context: context) - } - } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getRingtoneResponse(adminMessage.getRingtoneResponse) { - if let rt = try? RTTTLConfig(serializedBytes: packet.decoded.payload) { - upsertRtttlConfigPacket(ringtone: rt.ringtone, nodeNum: Int64(packet.from), context: context) - } - } else { - Logger.mesh.error("๐Ÿ•ธ๏ธ MESH PACKET received Admin App UNHANDLED \((try? packet.decoded.jsonString()) ?? "JSON Decode Failure", privacy: .public)") + + func channelPacket (channel: Channel, fromNum: Int64) async { + await backgroundContext.perform { + self.channelPacket(channel: channel, fromNum: fromNum, context: self.backgroundContext) } - // Save an ack for the admin message log for each admin message response received as we stopped sending acks if there is also a response to reduce airtime. - adminResponseAck(packet: packet, context: context) } -} - -func adminResponseAck (packet: MeshPacket, context: NSManagedObjectContext) { - - let fetchedAdminMessageRequest = MessageEntity.fetchRequest() - fetchedAdminMessageRequest.predicate = NSPredicate(format: "messageId == %lld", packet.decoded.requestID) - do { - let fetchedMessage = try context.fetch(fetchedAdminMessageRequest) - if fetchedMessage.count > 0 { - fetchedMessage[0].ackTimestamp = Int32(Date().timeIntervalSince1970) - fetchedMessage[0].ackError = Int32(RoutingError.none.rawValue) - fetchedMessage[0].receivedACK = true - fetchedMessage[0].realACK = true - fetchedMessage[0].relayNode = Int64(packet.relayNode) - fetchedMessage[0].ackSNR = packet.rxSnr - if fetchedMessage[0].fromUser != nil { - fetchedMessage[0].fromUser?.objectWillChange.send() - } + + private func channelPacket (channel: Channel, fromNum: Int64, context: NSManagedObjectContext) { + if channel.isInitialized && channel.hasSettings && channel.role != Channel.Role.disabled { + let logString = String.localizedStringWithFormat("mesh.log.channel.received %d %@".localized, channel.index, String(fromNum)) + Logger.mesh.info("๐ŸŽ›๏ธ \(logString, privacy: .public)") + + let fetchedMyInfoRequest = MyInfoEntity.fetchRequest() + fetchedMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", fromNum) + do { - try context.save() + let fetchedMyInfo = try context.fetch(fetchedMyInfoRequest) + if fetchedMyInfo.count == 1 { + let newChannel = ChannelEntity(context: context) + newChannel.id = Int32(channel.index) + newChannel.index = Int32(channel.index) + newChannel.uplinkEnabled = channel.settings.uplinkEnabled + newChannel.downlinkEnabled = channel.settings.downlinkEnabled + newChannel.name = channel.settings.name + newChannel.role = Int32(channel.role.rawValue) + newChannel.psk = channel.settings.psk + if channel.settings.hasModuleSettings { + newChannel.positionPrecision = Int32(truncatingIfNeeded: channel.settings.moduleSettings.positionPrecision) + newChannel.mute = channel.settings.moduleSettings.isMuted + } + guard let mutableChannels = fetchedMyInfo[0].channels!.mutableCopy() as? NSMutableOrderedSet else { + return + } + if let oldChannel = mutableChannels.first(where: {($0 as AnyObject).index == newChannel.index }) as? ChannelEntity { + let index = mutableChannels.index(of: oldChannel as Any) + mutableChannels.replaceObject(at: index, with: newChannel) + } else { + mutableChannels.add(newChannel) + } + fetchedMyInfo[0].channels = mutableChannels.copy() as? NSOrderedSet + context.refresh(newChannel, mergeChanges: true) + do { + try context.save() + } catch { + Logger.data.error("๐Ÿ’ฅ Failed to save channel: \(error.localizedDescription, privacy: .public)") + } + Logger.data.info("๐Ÿ’พ Updated MyInfo channel \(channel.index, privacy: .public) from Channel App Packet For: \(fetchedMyInfo[0].myNodeNum, privacy: .public)") + } else if channel.role.rawValue > 0 { + Logger.data.error("๐Ÿ’ฅTrying to save a channel to a MyInfo that does not exist: \(fromNum.toHex(), privacy: .public)") + } } catch { - Logger.data.error("Failed to save admin message response as an ack: \(error.localizedDescription, privacy: .public)") + context.rollback() + let nsError = error as NSError + Logger.data.error("๐Ÿ’ฅ Error Saving MyInfo Channel from ADMIN_APP \(nsError, privacy: .public)") } } - } catch { - Logger.data.error("Failed to fetch admin message by requestID: \(error.localizedDescription, privacy: .public)") } -} -func paxCounterPacket (packet: MeshPacket, context: NSManagedObjectContext) { - - let logString = String.localizedStringWithFormat("PAX Counter message received from: %@".localized, String(packet.from)) - Logger.mesh.info("๐Ÿง‘โ€๐Ÿคโ€๐Ÿง‘ \(logString, privacy: .public)") - - let fetchNodeInfoRequest = NodeInfoEntity.fetchRequest() - fetchNodeInfoRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) - - do { - let fetchedNode = try context.fetch(fetchNodeInfoRequest) - - if let paxMessage = try? Paxcount(serializedBytes: packet.decoded.payload) { - - let newPax = PaxCounterEntity(context: context) - newPax.ble = Int32(truncatingIfNeeded: paxMessage.ble) - newPax.wifi = Int32(truncatingIfNeeded: paxMessage.wifi) - newPax.uptime = Int32(truncatingIfNeeded: paxMessage.uptime) - newPax.time = Date() - - if fetchedNode.count > 0 { - guard let mutablePax = fetchedNode[0].pax!.mutableCopy() as? NSMutableOrderedSet else { - return + + func deviceMetadataPacket (metadata: DeviceMetadata, fromNum: Int64, sessionPasskey: Data? = Data()) async { + await self.backgroundContext.perform { + self.deviceMetadataPacket(metadata: metadata, fromNum: fromNum, sessionPasskey: sessionPasskey, context: self.backgroundContext) + } + } + + private func deviceMetadataPacket (metadata: DeviceMetadata, fromNum: Int64, sessionPasskey: Data? = Data(), context: NSManagedObjectContext) { + if metadata.isInitialized { + let logString = String.localizedStringWithFormat("Device Metadata received from: %@".localized, fromNum.toHex()) + Logger.mesh.info("๐Ÿท๏ธ \(logString, privacy: .public)") + + let fetchedNodeRequest = NodeInfoEntity.fetchRequest() + fetchedNodeRequest.predicate = NSPredicate(format: "num == %lld", fromNum) + + do { + let fetchedNode = try context.fetch(fetchedNodeRequest) + let newMetadata = DeviceMetadataEntity(context: context) + newMetadata.time = Date() + newMetadata.deviceStateVersion = Int32(metadata.deviceStateVersion) + newMetadata.canShutdown = metadata.canShutdown + newMetadata.hasWifi = metadata.hasWifi_p + newMetadata.hasBluetooth = metadata.hasBluetooth_p + newMetadata.hasEthernet = metadata.hasEthernet_p + newMetadata.role = Int32(metadata.role.rawValue) + newMetadata.positionFlags = Int32(metadata.positionFlags) + newMetadata.excludedModules = Int32(metadata.excludedModules) + // Swift does strings weird, this does work to get the version without the github hash + let lastDotIndex = metadata.firmwareVersion.lastIndex(of: ".") + var version = metadata.firmwareVersion[...(lastDotIndex ?? String.Index(utf16Offset: 6, in: metadata.firmwareVersion))] + version = version.dropLast() + newMetadata.firmwareVersion = String(version) + if fetchedNode.count > 0 { + fetchedNode[0].metadata = newMetadata + } else { + + if fromNum > 0 { + let newNode = createNodeInfo(num: Int64(fromNum), context: context) + newNode.metadata = newMetadata + } + } + if sessionPasskey?.count != 0 { + fetchedNode[0].sessionPasskey = sessionPasskey + fetchedNode[0].sessionExpiration = Date().addingTimeInterval(300) } - mutablePax.add(newPax) - fetchedNode[0].pax = mutablePax do { try context.save() } catch { - Logger.data.error("Failed to save pax: \(error.localizedDescription, privacy: .public)") + Logger.data.error("๐Ÿ’ฅ Failed to save device metadata: \(error.localizedDescription, privacy: .public)") } - } else { - Logger.data.info("Node Info Not Found") + Logger.data.info("๐Ÿ’พ Updated Device Metadata from Admin App Packet For: \(fromNum.toHex(), privacy: .public)") + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("Error Saving MyInfo Channel from ADMIN_APP \(nsError, privacy: .public)") } } - } catch { - } -} - -func routingPacket (packet: MeshPacket, connectedNodeNum: Int64, context: NSManagedObjectContext) { - - if let routingMessage = try? Routing(serializedBytes: packet.decoded.payload) { - - let routingError = RoutingError(rawValue: routingMessage.errorReason.rawValue) - - let routingErrorString = routingError?.display ?? "Unknown".localized - let logString = String.localizedStringWithFormat("Routing received for RequestID: %@ Ack Status: %@".localized, String(packet.decoded.requestID), routingErrorString) - Logger.mesh.info("๐Ÿ•ธ๏ธ \(logString, privacy: .public)") - - let fetchMessageRequest = MessageEntity.fetchRequest() - fetchMessageRequest.predicate = NSPredicate(format: "messageId == %lld", Int64(packet.decoded.requestID)) - - do { - let fetchedMessage = try context.fetch(fetchMessageRequest) - if fetchedMessage.count > 0 { - if fetchedMessage[0].toUser != nil { - // Real ACK from DM Recipient - if packet.to != packet.from { - fetchedMessage[0].realACK = true + + func nodeInfoPacket (nodeInfo: NodeInfo, channel: UInt32, deferSave: Bool = false) async -> NSManagedObjectID? { + let context = self.backgroundContext + return await context.perform { () -> NSManagedObjectID? in + let logString = String.localizedStringWithFormat("[NodeInfo] received for: %@".localized, String(nodeInfo.num)) + Logger.mesh.info("๐Ÿ“Ÿ \(logString, privacy: .public)") + + guard nodeInfo.num > 0 else { return nil } + + let fetchNodeInfoRequest = NodeInfoEntity.fetchRequest() + fetchNodeInfoRequest.predicate = NSPredicate(format: "num == %lld", Int64(nodeInfo.num)) + + do { + let fetchedNode = try context.fetch(fetchNodeInfoRequest) + // Not Found Insert + if fetchedNode.isEmpty && nodeInfo.num > 0 { + + let newNode = NodeInfoEntity(context: context) + newNode.id = Int64(nodeInfo.num) + newNode.num = Int64(nodeInfo.num) + newNode.channel = Int32(nodeInfo.channel) + newNode.favorite = nodeInfo.isFavorite + newNode.ignored = nodeInfo.isIgnored + newNode.hopsAway = Int32(nodeInfo.hopsAway) + + if nodeInfo.hasDeviceMetrics { + let telemetry = TelemetryEntity(context: context) + telemetry.batteryLevel = Int32(nodeInfo.deviceMetrics.batteryLevel) + telemetry.voltage = nodeInfo.deviceMetrics.voltage + telemetry.channelUtilization = nodeInfo.deviceMetrics.channelUtilization + telemetry.airUtilTx = nodeInfo.deviceMetrics.airUtilTx + var newTelemetries = [TelemetryEntity]() + newTelemetries.append(telemetry) + newNode.telemetries? = NSOrderedSet(array: newTelemetries) } - } - fetchedMessage[0].relayNode = Int64(packet.relayNode) - fetchedMessage[0].ackError = Int32(routingMessage.errorReason.rawValue) - if routingMessage.errorReason == Routing.Error.none { - fetchedMessage[0].receivedACK = true - fetchedMessage[0].relays += 1 - } - - fetchedMessage[0].ackSNR = packet.rxSnr - if packet.rxTime > 0 { - fetchedMessage[0].ackTimestamp = Int32(truncatingIfNeeded: packet.rxTime) - } else { - fetchedMessage[0].ackTimestamp = Int32(Date().timeIntervalSince1970) - } - - if fetchedMessage[0].toUser != nil { - fetchedMessage[0].toUser!.objectWillChange.send() - } else { + if nodeInfo.lastHeard > 0 { + newNode.firstHeard = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.lastHeard))) + newNode.lastHeard = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.lastHeard))) + } else { + newNode.firstHeard = Date() + newNode.lastHeard = Date() + } + newNode.snr = nodeInfo.snr + if nodeInfo.hasUser { + + let newUser = UserEntity(context: context) + newUser.userId = nodeInfo.num.toHex() + newUser.num = Int64(nodeInfo.num) + newUser.longName = nodeInfo.user.longName + newUser.shortName = nodeInfo.user.shortName + newUser.hwModel = String(describing: nodeInfo.user.hwModel).uppercased() + newUser.hwModelId = Int32(nodeInfo.user.hwModel.rawValue) + Task { + Api().loadDeviceHardwareData { (hw) in + let dh = hw.first(where: { $0.hwModel == newUser.hwModelId }) + newUser.hwDisplayName = dh?.displayName + } + } + newUser.isLicensed = nodeInfo.user.isLicensed + newUser.role = Int32(nodeInfo.user.role.rawValue) + if !nodeInfo.user.publicKey.isEmpty { + newUser.pkiEncrypted = true + newUser.publicKey = nodeInfo.user.publicKey + } + /// For nodes that have the optional isUnmessagable boolean use that, otherwise excluded roles that are unmessagable by default + if nodeInfo.user.hasIsUnmessagable { + newUser.unmessagable = nodeInfo.user.isUnmessagable + } else { + let roles = [2, 4, 5, 6, 7, 10, 11] + let containsRole = roles.contains(Int(newUser.role)) + if containsRole { + newUser.unmessagable = true + } else { + newUser.unmessagable = false + }} + newNode.user = newUser + } else if nodeInfo.num > Constants.minimumNodeNum { + do { + let newUser = try createUser(num: Int64(nodeInfo.num), context: context) + newNode.user = newUser + } catch CoreDataError.invalidInput(let message) { + Logger.data.error("Error Creating a new Core Data UserEntity (Invalid Input) from node number: \(nodeInfo.num, privacy: .public) Error: \(message, privacy: .public)") + } catch { + Logger.data.error("Error Creating a new Core Data UserEntity from node number: \(nodeInfo.num, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") + } + } + + if (nodeInfo.position.longitudeI != 0 && nodeInfo.position.latitudeI != 0) && (nodeInfo.position.latitudeI != 373346000 && nodeInfo.position.longitudeI != -1220090000) { + let position = PositionEntity(context: context) + position.latest = true + position.seqNo = Int32(nodeInfo.position.seqNumber) + position.latitudeI = nodeInfo.position.latitudeI + position.longitudeI = nodeInfo.position.longitudeI + position.altitude = nodeInfo.position.altitude + position.satsInView = Int32(nodeInfo.position.satsInView) + position.speed = Int32(nodeInfo.position.groundSpeed) + position.heading = Int32(nodeInfo.position.groundTrack) + position.time = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.position.time))) + var newPostions = [PositionEntity]() + newPostions.append(position) + newNode.positions? = NSOrderedSet(array: newPostions) + } + + // Look for a MyInfo let fetchMyInfoRequest = MyInfoEntity.fetchRequest() - fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", connectedNodeNum) + fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(nodeInfo.num)) + do { let fetchedMyInfo = try context.fetch(fetchMyInfoRequest) if fetchedMyInfo.count > 0 { - - for ch in fetchedMyInfo[0].channels!.array as? [ChannelEntity] ?? [] where ch.index == packet.channel { - ch.objectWillChange.send() + newNode.myInfo = fetchedMyInfo[0] + } + do { + if !deferSave { + try context.save() + Logger.data.info("๐Ÿ’พ Saved a new Node Info For: \(String(nodeInfo.num), privacy: .public)") + } + return newNode.objectID + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("Error Saving Core Data NodeInfoEntity: \(nsError, privacy: .public)") + } + } catch { + Logger.data.error("Fetch MyInfo Error") + } + } else if nodeInfo.num > 0 { + + fetchedNode[0].id = Int64(nodeInfo.num) + fetchedNode[0].num = Int64(nodeInfo.num) + fetchedNode[0].lastHeard = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.lastHeard))) + fetchedNode[0].snr = nodeInfo.snr + fetchedNode[0].channel = Int32(nodeInfo.channel) + fetchedNode[0].favorite = nodeInfo.isFavorite + fetchedNode[0].ignored = nodeInfo.isIgnored + fetchedNode[0].hopsAway = Int32(nodeInfo.hopsAway) + + if nodeInfo.hasUser { + if fetchedNode[0].user == nil { + fetchedNode[0].user = UserEntity(context: context) + } + // Set the public key for a user if it is empty, don't update + if fetchedNode[0].user?.publicKey == nil && !nodeInfo.user.publicKey.isEmpty { + fetchedNode[0].user?.pkiEncrypted = true + fetchedNode[0].user?.publicKey = nodeInfo.user.publicKey + } + fetchedNode[0].user?.userId = nodeInfo.num.toHex() + fetchedNode[0].user?.num = Int64(nodeInfo.num) + fetchedNode[0].user?.numString = String(nodeInfo.num) + fetchedNode[0].user?.longName = nodeInfo.user.longName + fetchedNode[0].user?.shortName = nodeInfo.user.shortName + fetchedNode[0].user?.isLicensed = nodeInfo.user.isLicensed + fetchedNode[0].user?.role = Int32(nodeInfo.user.role.rawValue) + fetchedNode[0].user?.hwModel = String(describing: nodeInfo.user.hwModel).uppercased() + fetchedNode[0].user?.hwModelId = Int32(nodeInfo.user.hwModel.rawValue) + /// For nodes that have the optional isUnmessagable boolean use that, otherwise excluded roles that are unmessagable by default + if nodeInfo.user.hasIsUnmessagable { + fetchedNode[0].user?.unmessagable = nodeInfo.user.isUnmessagable + } else { + let roles = [-1, 2, 4, 5, 6, 7, 10, 11] + let containsRole = roles.contains(Int(fetchedNode[0].user?.role ?? -1)) + if containsRole { + fetchedNode[0].user?.unmessagable = true + } else { + fetchedNode[0].user?.unmessagable = false } } - } catch { } - } - - } else { - return - } - try context.save() - Logger.data.info("๐Ÿ’พ ACK Saved for Message: \(packet.decoded.requestID, privacy: .public)") - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("Error Saving ACK for message: \(packet.id, privacy: .public) Error: \(nsError, privacy: .public)") - } - } -} - -func telemetryPacket(packet: MeshPacket, connectedNode: Int64, context: NSManagedObjectContext) { - Task { @MainActor in - if let telemetryMessage = try? Telemetry(serializedBytes: packet.decoded.payload) { - if telemetryMessage.variant != Telemetry.OneOf_Variant.deviceMetrics(telemetryMessage.deviceMetrics) && telemetryMessage.variant != Telemetry.OneOf_Variant.environmentMetrics(telemetryMessage.environmentMetrics) && telemetryMessage.variant != Telemetry.OneOf_Variant.localStats(telemetryMessage.localStats) && telemetryMessage.variant != Telemetry.OneOf_Variant.powerMetrics(telemetryMessage.powerMetrics) { - /// Other unhandled telemetry packets - return - } - let telemetry = TelemetryEntity(context: context) - let fetchNodeTelemetryRequest = NodeInfoEntity.fetchRequest() - fetchNodeTelemetryRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) - do { - let fetchedNode = try context.fetch(fetchNodeTelemetryRequest) - if fetchedNode.count == 1 { - /// Currently only Device Metrics and Environment Telemetry are supported in the app - if telemetryMessage.variant == Telemetry.OneOf_Variant.deviceMetrics(telemetryMessage.deviceMetrics) { - // Device Metrics - Logger.data.info("๐Ÿ“ˆ [Telemetry] Device Metrics Received for Node: \(packet.from.toHex(), privacy: .public)") - telemetry.airUtilTx = telemetryMessage.deviceMetrics.hasAirUtilTx.then(telemetryMessage.deviceMetrics.airUtilTx) - telemetry.channelUtilization = telemetryMessage.deviceMetrics.hasChannelUtilization.then(telemetryMessage.deviceMetrics.channelUtilization) - telemetry.batteryLevel = telemetryMessage.deviceMetrics.hasBatteryLevel.then(Int32(telemetryMessage.deviceMetrics.batteryLevel)) - telemetry.voltage = telemetryMessage.deviceMetrics.hasVoltage.then(telemetryMessage.deviceMetrics.voltage) - telemetry.uptimeSeconds = telemetryMessage.deviceMetrics.hasUptimeSeconds.then(Int32(telemetryMessage.deviceMetrics.uptimeSeconds)) - telemetry.metricsType = 0 - Logger.statistics.info("๐Ÿ“ˆ [Mesh Statistics] Channel Utilization: \(telemetryMessage.deviceMetrics.channelUtilization, privacy: .public) Airtime: \(telemetryMessage.deviceMetrics.airUtilTx, privacy: .public) for Node: \(packet.from.toHex(), privacy: .public)") - } else if telemetryMessage.variant == Telemetry.OneOf_Variant.environmentMetrics(telemetryMessage.environmentMetrics) { - // Environment Metrics - Logger.data.info("๐Ÿ“ˆ [Telemetry] Environment Metrics Received for Node: \(packet.from.toHex(), privacy: .public)") - telemetry.barometricPressure = telemetryMessage.environmentMetrics.hasBarometricPressure.then(telemetryMessage.environmentMetrics.barometricPressure) - telemetry.iaq = telemetryMessage.environmentMetrics.hasIaq.then(Int32(truncatingIfNeeded: telemetryMessage.environmentMetrics.iaq)) - telemetry.gasResistance = telemetryMessage.environmentMetrics.hasGasResistance.then(telemetryMessage.environmentMetrics.gasResistance) - telemetry.relativeHumidity = telemetryMessage.environmentMetrics.hasRelativeHumidity.then(telemetryMessage.environmentMetrics.relativeHumidity) - telemetry.temperature = telemetryMessage.environmentMetrics.hasTemperature.then(telemetryMessage.environmentMetrics.temperature) - telemetry.current = telemetryMessage.environmentMetrics.hasCurrent.then(telemetryMessage.environmentMetrics.current) - telemetry.voltage = telemetryMessage.environmentMetrics.hasVoltage.then(telemetryMessage.environmentMetrics.voltage) - telemetry.weight = telemetryMessage.environmentMetrics.hasWeight.then(telemetryMessage.environmentMetrics.weight) - telemetry.distance = telemetryMessage.environmentMetrics.hasDistance.then(telemetryMessage.environmentMetrics.distance) - telemetry.windSpeed = telemetryMessage.environmentMetrics.hasWindSpeed.then(telemetryMessage.environmentMetrics.windSpeed) - telemetry.windGust = telemetryMessage.environmentMetrics.hasWindGust.then(telemetryMessage.environmentMetrics.windGust) - telemetry.windLull = telemetryMessage.environmentMetrics.hasWindLull.then(telemetryMessage.environmentMetrics.windLull) - telemetry.windDirection = telemetryMessage.environmentMetrics.hasWindDirection.then(Int32(truncatingIfNeeded: telemetryMessage.environmentMetrics.windDirection)) - telemetry.irLux = telemetryMessage.environmentMetrics.hasIrLux.then(telemetryMessage.environmentMetrics.irLux) - telemetry.lux = telemetryMessage.environmentMetrics.hasLux.then(telemetryMessage.environmentMetrics.lux) - telemetry.whiteLux = telemetryMessage.environmentMetrics.hasWhiteLux.then(telemetryMessage.environmentMetrics.whiteLux) - telemetry.uvLux = telemetryMessage.environmentMetrics.hasUvLux.then(telemetryMessage.environmentMetrics.uvLux) - telemetry.radiation = telemetryMessage.environmentMetrics.hasRadiation.then(telemetryMessage.environmentMetrics.radiation) - telemetry.rainfall1H = telemetryMessage.environmentMetrics.hasRainfall1H.then(telemetryMessage.environmentMetrics.rainfall1H) - telemetry.rainfall24H = telemetryMessage.environmentMetrics.hasRainfall24H.then(telemetryMessage.environmentMetrics.rainfall24H) - telemetry.soilTemperature = telemetryMessage.environmentMetrics.hasSoilTemperature.then(telemetryMessage.environmentMetrics.soilTemperature) - telemetry.soilMoisture = telemetryMessage.environmentMetrics.hasSoilMoisture.then(telemetryMessage.environmentMetrics.soilMoisture) - telemetry.metricsType = 1 - } else if telemetryMessage.variant == Telemetry.OneOf_Variant.localStats(telemetryMessage.localStats) { - // Local Stats for Live activity - telemetry.uptimeSeconds = Int32(telemetryMessage.localStats.uptimeSeconds) - telemetry.channelUtilization = telemetryMessage.localStats.channelUtilization - telemetry.airUtilTx = telemetryMessage.localStats.airUtilTx - telemetry.numPacketsTx = Int32(truncatingIfNeeded: telemetryMessage.localStats.numPacketsTx) - telemetry.numPacketsRx = Int32(truncatingIfNeeded: telemetryMessage.localStats.numPacketsRx) - telemetry.numPacketsRxBad = Int32(truncatingIfNeeded: telemetryMessage.localStats.numPacketsRxBad) - telemetry.numRxDupe = Int32(truncatingIfNeeded: telemetryMessage.localStats.numRxDupe) - telemetry.numTxRelay = Int32(truncatingIfNeeded: telemetryMessage.localStats.numTxRelay) - telemetry.numTxRelayCanceled = Int32(truncatingIfNeeded: telemetryMessage.localStats.numTxRelayCanceled) - telemetry.numOnlineNodes = Int32(truncatingIfNeeded: telemetryMessage.localStats.numOnlineNodes) - telemetry.numTotalNodes = Int32(truncatingIfNeeded: telemetryMessage.localStats.numTotalNodes) - telemetry.metricsType = 4 - Logger.statistics.info("๐Ÿ“ˆ [Mesh Statistics] Channel Utilization: \(telemetryMessage.localStats.channelUtilization, privacy: .public) Airtime: \(telemetryMessage.localStats.airUtilTx, privacy: .public) Packets Sent: \(telemetryMessage.localStats.numPacketsTx, privacy: .public) Packets Received: \(telemetryMessage.localStats.numPacketsRx, privacy: .public) Bad Packets Received: \(telemetryMessage.localStats.numPacketsRxBad, privacy: .public) Nodes Online: \(telemetryMessage.localStats.numOnlineNodes, privacy: .public) of \(telemetryMessage.localStats.numTotalNodes, privacy: .public) nodes for Node: \(packet.from.toHex(), privacy: .public)") - } else if telemetryMessage.variant == Telemetry.OneOf_Variant.powerMetrics(telemetryMessage.powerMetrics) { - Logger.data.info("๐Ÿ“ˆ [Telemetry] Power Metrics Received for Node: \(packet.from.toHex(), privacy: .public)") - telemetry.powerCh1Voltage = telemetryMessage.powerMetrics.hasCh1Voltage.then(telemetryMessage.powerMetrics.ch1Voltage) - telemetry.powerCh1Current = telemetryMessage.powerMetrics.hasCh1Current.then(telemetryMessage.powerMetrics.ch1Current) - telemetry.powerCh2Voltage = telemetryMessage.powerMetrics.hasCh2Voltage.then(telemetryMessage.powerMetrics.ch2Voltage) - telemetry.powerCh2Current = telemetryMessage.powerMetrics.hasCh2Current.then(telemetryMessage.powerMetrics.ch2Current) - telemetry.powerCh3Voltage = telemetryMessage.powerMetrics.hasCh3Voltage.then(telemetryMessage.powerMetrics.ch3Voltage) - telemetry.powerCh3Current = telemetryMessage.powerMetrics.hasCh3Current.then(telemetryMessage.powerMetrics.ch3Current) - telemetry.metricsType = 2 - } - telemetry.snr = packet.rxSnr - telemetry.rssi = packet.rxRssi - telemetry.time = Date(timeIntervalSince1970: TimeInterval(Int64(truncatingIfNeeded: telemetryMessage.time))) - guard let mutableTelemetries = fetchedNode[0].telemetries!.mutableCopy() as? NSMutableOrderedSet else { - return - } - mutableTelemetries.add(telemetry) - if packet.rxTime > 0 { - fetchedNode[0].lastHeard = Date(timeIntervalSince1970: TimeInterval(packet.rxTime)) - } else { - fetchedNode[0].lastHeard = Date() - } - fetchedNode[0].telemetries = mutableTelemetries.copy() as? NSOrderedSet - } - try context.save() - Logger.data.info("๐Ÿ’พ [TelemetryEntity] of type \(MetricsTypes(rawValue: Int(telemetry.metricsType))?.name ?? "Unknown Metrics Type", privacy: .public) Saved for Node: \(packet.from.toHex(), privacy: .public)") - if telemetry.metricsType == 0 { - // Connected Device Metrics - // ------------------------ - // Low Battery notification - if connectedNode == Int64(packet.from) { - let batteryLevel = telemetry.batteryLevel ?? 0 - if UserDefaults.lowBatteryNotifications && batteryLevel > 0 && batteryLevel < 4 { - let manager = LocalNotificationManager() - manager.notifications = [ - Notification( - id: ("notification.id.\(UUID().uuidString)"), - title: "Critically Low Battery!", - subtitle: "AKA \(telemetry.nodeTelemetry?.user?.shortName ?? "UNK")", - content: "Time to charge your radio, there is \(telemetry.batteryLevel?.formatted(.number) ?? Constants.nilValueIndicator)% battery remaining.", - target: "nodes", - path: "meshtastic:///nodes?nodenum=\(telemetry.nodeTelemetry?.num ?? 0)" - ) - ] - manager.schedule() - } - } - } else if telemetry.metricsType == 4 { - // Update our live activity if there is one running, not available on mac -#if !targetEnvironment(macCatalyst) -#if canImport(ActivityKit) - - let fifteenMinutesLater = Calendar.current.date(byAdding: .minute, value: (Int(15) ), to: Date())! - let date = Date.now...fifteenMinutesLater - let updatedMeshStatus = MeshActivityAttributes.MeshActivityStatus(uptimeSeconds: telemetry.uptimeSeconds.map { UInt32($0) }, - channelUtilization: telemetry.channelUtilization, - airtime: telemetry.airUtilTx, - sentPackets: UInt32(telemetry.numPacketsTx), - receivedPackets: UInt32(telemetry.numPacketsRx), - badReceivedPackets: UInt32(telemetry.numPacketsRxBad), - dupeReceivedPackets: UInt32(telemetry.numRxDupe), - packetsSentRelay: UInt32(telemetry.numTxRelay), - packetsCanceledRelay: UInt32(telemetry.numTxRelayCanceled), - nodesOnline: UInt32(telemetry.numOnlineNodes), - totalNodes: UInt32(telemetry.numTotalNodes), - timerRange: date) - - let alertConfiguration = AlertConfiguration(title: "Mesh activity update", body: "Updated Node Stats Data.", sound: .default) - let updatedContent = ActivityContent(state: updatedMeshStatus, staleDate: nil) - - let meshActivity = Activity.activities.first(where: { $0.attributes.nodeNum == connectedNode }) - if meshActivity != nil { Task { - // await meshActivity?.update(updatedContent, alertConfiguration: alertConfiguration) - await meshActivity?.update(updatedContent) - Logger.services.debug("Updated live activity.") + Api().loadDeviceHardwareData { (hw: [DeviceHardware]) in + guard !hw.isEmpty, + let firstNode = fetchedNode.first, + let user = firstNode.user else { + Logger.data.error("Error: Required DeviceHardware data is missing or array is empty.") + return + } + + let dh = hw.first(where: { $0.hwModel == user.hwModelId }) + + if let deviceHardware = dh { + firstNode.user?.hwDisplayName = deviceHardware.displayName + } else { + Logger.data.error("No matching hardware model found for ID: \(user.hwModelId, privacy: .public)") + } + } } - } -#endif -#endif - } - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("๐Ÿ’ฅ Error Saving Telemetry for Node \(packet.from, privacy: .public) Error: \(nsError, privacy: .public)") - } - } else { - Logger.data.error("๐Ÿ’ฅ Error Fetching NodeInfoEntity for Node \(packet.from.toHex(), privacy: .public)") - } - } -} - -func textMessageAppPacket( - packet: MeshPacket, - wantRangeTestPackets: Bool, - critical: Bool = false, - connectedNode: Int64, - storeForward: Bool = false, - context: NSManagedObjectContext, - appState: AppState? -) { - var messageText = String(bytes: packet.decoded.payload, encoding: .utf8) - let rangeRef = Reference(Int.self) - let rangeTestRegex = Regex { - "seq " - TryCapture(as: rangeRef) { - OneOrMore(.digit) - } transform: { match in - Int(match) - } - } - let rangeTest = messageText?.contains(rangeTestRegex) ?? false && messageText?.starts(with: "seq ") ?? false - - if !wantRangeTestPackets && rangeTest { - return - } - var storeForwardBroadcast = false - if storeForward { - if let storeAndForwardMessage = try? StoreAndForward(serializedBytes: packet.decoded.payload) { - messageText = String(bytes: storeAndForwardMessage.text, encoding: .utf8) - if storeAndForwardMessage.rr == .routerTextBroadcast { - storeForwardBroadcast = true - } - } - } - - if messageText?.count ?? 0 > 0 { - Logger.mesh.info("๐Ÿ’ฌ \("Message received from the text message app.".localized, privacy: .public)") - let messageUsers = UserEntity.fetchRequest() - messageUsers.predicate = NSPredicate(format: "num IN %@", [packet.to, packet.from]) - do { - let fetchedUsers = try context.fetch(messageUsers) - let newMessage = MessageEntity(context: context) - newMessage.messageId = Int64(packet.id) - if packet.rxTime > 0 { - newMessage.messageTimestamp = Int32(bitPattern: packet.rxTime) - } else { - newMessage.messageTimestamp = Int32(Date().timeIntervalSince1970) - } - if packet.relayNode != 0 { - newMessage.relayNode = Int64(packet.relayNode) - } - newMessage.receivedACK = false - newMessage.snr = packet.rxSnr - newMessage.rssi = packet.rxRssi - newMessage.isEmoji = packet.decoded.emoji == 1 - newMessage.channel = Int32(packet.channel) - newMessage.portNum = Int32(packet.decoded.portnum.rawValue) - if packet.decoded.portnum == PortNum.detectionSensorApp { - if !UserDefaults.enableDetectionNotifications { - newMessage.read = true - } - } - if packet.decoded.replyID > 0 { - newMessage.replyID = Int64(packet.decoded.replyID) - } - // Updated logic for handling toUser - if fetchedUsers.first(where: { $0.num == packet.to }) != nil && packet.to != Constants.maximumNodeNum { - if !storeForwardBroadcast { - newMessage.toUser = fetchedUsers.first(where: { $0.num == packet.to }) - } else if storeForwardBroadcast { - // For S&F broadcast messages, treat as a channel message (not a DM) - newMessage.toUser = nil } else { - do { - let newUser = try createUser(num: Int64(truncatingIfNeeded: packet.to), context: context) - newMessage.toUser = newUser - } catch CoreDataError.invalidInput(let message) { - Logger.data.error("Error Creating a new Core Data UserEntity (Invalid Input) from node number: \(packet.to, privacy: .public) Error: \(message, privacy: .public)") - } catch { - Logger.data.error("Error Creating a new Core Data UserEntity from node number: \(packet.to, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") + if fetchedNode[0].user == nil && nodeInfo.num > Constants.minimumNodeNum { + do { + let newUser = try createUser(num: Int64(nodeInfo.num), context: context) + fetchedNode[0].user = newUser + } catch CoreDataError.invalidInput(let message) { + Logger.data.error("Error Creating a new Core Data UserEntity on an existing node (Invalid Input) from node number: \(nodeInfo.num, privacy: .public) Error: \(message, privacy: .public)") + } catch { + Logger.data.error("Error Creating a new Core Data UserEntity on an existing node from node number: \(nodeInfo.num, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") + } } } - } - if fetchedUsers.first(where: { $0.num == packet.from }) != nil { - newMessage.fromUser = fetchedUsers.first(where: { $0.num == packet.from }) - /// Set the public key for the message - if newMessage.fromUser?.pkiEncrypted ?? false && packet.pkiEncrypted { - newMessage.pkiEncrypted = true - newMessage.publicKey = packet.publicKey - } - /// Check for key mismatch - if let nodeKey = newMessage.fromUser?.publicKey { - if newMessage.toUser != nil && packet.pkiEncrypted && !packet.publicKey.isEmpty { - if nodeKey != newMessage.publicKey { - newMessage.fromUser?.keyMatch = false - newMessage.fromUser?.newPublicKey = newMessage.publicKey - let nodeKey = String(nodeKey.base64EncodedString()).prefix(8) - let messageKey = String(newMessage.publicKey?.base64EncodedString() ?? "No Key").prefix(8) - Logger.data.error("๐Ÿ”‘ Key mismatch original key: \(nodeKey, privacy: .public) . . . new key: \(messageKey, privacy: .public) . . .") + if nodeInfo.hasDeviceMetrics { + + let newTelemetry = TelemetryEntity(context: context) + newTelemetry.batteryLevel = Int32(nodeInfo.deviceMetrics.batteryLevel) + newTelemetry.voltage = nodeInfo.deviceMetrics.voltage + newTelemetry.channelUtilization = nodeInfo.deviceMetrics.channelUtilization + newTelemetry.airUtilTx = nodeInfo.deviceMetrics.airUtilTx + guard let mutableTelemetries = fetchedNode[0].telemetries!.mutableCopy() as? NSMutableOrderedSet else { + return nil + } + mutableTelemetries.add(newTelemetry) + fetchedNode[0].telemetries = mutableTelemetries.copy() as? NSOrderedSet + } + + if nodeInfo.hasPosition { + + if (nodeInfo.position.longitudeI != 0 && nodeInfo.position.latitudeI != 0) && (nodeInfo.position.latitudeI != 373346000 && nodeInfo.position.longitudeI != -1220090000) { + + let position = PositionEntity(context: context) + position.latitudeI = nodeInfo.position.latitudeI + position.longitudeI = nodeInfo.position.longitudeI + position.altitude = nodeInfo.position.altitude + position.satsInView = Int32(nodeInfo.position.satsInView) + position.time = Date(timeIntervalSince1970: TimeInterval(Int64(nodeInfo.position.time))) + guard let mutablePositions = fetchedNode[0].positions!.mutableCopy() as? NSMutableOrderedSet else { + return nil } + fetchedNode[0].positions = mutablePositions.copy() as? NSOrderedSet } - } else if packet.pkiEncrypted { - /// We have no key, set it if it is not empty - if !packet.publicKey.isEmpty { - newMessage.fromUser?.pkiEncrypted = true - newMessage.fromUser?.publicKey = packet.publicKey - } + } - } else { - /// Make a new from user if they are unknown - do { - let newUser = try createUser(num: Int64(truncatingIfNeeded: packet.from), context: context) - let newNode = NodeInfoEntity(context: context) - newNode.id = Int64(newUser.num) - newNode.num = Int64(newUser.num) - newNode.user = newUser - newMessage.fromUser = newUser - } catch CoreDataError.invalidInput(let message) { - Logger.data.error("Error Creating a new Core Data UserEntity (Invalid Input) from node number: \(packet.from, privacy: .public) Error: \(message, privacy: .public)") - } catch { - Logger.data.error("Error Creating a new Core Data UserEntity from node number: \(packet.from, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") - } - } - if packet.rxTime > 0 { - newMessage.fromUser?.userNode?.lastHeard = Date(timeIntervalSince1970: TimeInterval(Int64(packet.rxTime))) - } else { - newMessage.fromUser?.userNode?.lastHeard = Date() - } - newMessage.messagePayload = messageText - newMessage.messagePayloadMarkdown = generateMessageMarkdown(message: messageText!) - if packet.to != Constants.maximumNodeNum && newMessage.fromUser != nil { - newMessage.fromUser?.lastMessage = Date() - } - var messageSaved = false - do { - try context.save() - Logger.data.info("๐Ÿ’พ Saved a new message for \(newMessage.messageId, privacy: .public)") - messageSaved = true - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("Failed to save new MessageEntity \(nsError, privacy: .public)") - } - // Send notifications if the message saved properly to core data - if messageSaved { - if packet.decoded.portnum == PortNum.detectionSensorApp && !UserDefaults.enableDetectionNotifications { - return - } - if newMessage.fromUser != nil && newMessage.toUser != nil { - // Set Unread Message Indicators - if packet.to == connectedNode { - let unreadCount = newMessage.toUser?.unreadMessages(context: context, skipLastMessageCheck: true) ?? 0 // skipLastMessageCheck=true because we don't update lastMessage on our own connected node - Task { @MainActor in - appState?.unreadDirectMessages = unreadCount - } - } - if !(newMessage.fromUser?.mute ?? false) && newMessage.isEmoji == false { - // Create an iOS Notification for the received DM message - let manager = LocalNotificationManager() - manager.notifications = [ - Notification( - id: ("notification.id.\(newMessage.messageId)"), - title: "\(newMessage.fromUser?.longName ?? "Unknown".localized)", - subtitle: "AKA \(newMessage.fromUser?.shortName ?? "?")", - content: messageText!, - target: "messages", - path: "meshtastic:///messages?userNum=\(newMessage.fromUser?.num ?? 0)&messageId=\(newMessage.isEmoji ? newMessage.replyID : newMessage.messageId)", - messageId: newMessage.messageId, - channel: newMessage.channel, - userNum: Int64(packet.from), - critical: critical - ) - ] - manager.schedule() - Logger.services.debug("iOS Notification Scheduled for text message from \(newMessage.fromUser?.longName ?? "Unknown".localized, privacy: .public)") - } - } else if newMessage.fromUser != nil && newMessage.toUser == nil { + + // Look for a MyInfo let fetchMyInfoRequest = MyInfoEntity.fetchRequest() - fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(connectedNode)) + fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(nodeInfo.num)) + do { let fetchedMyInfo = try context.fetch(fetchMyInfoRequest) - if !fetchedMyInfo.isEmpty { - appState?.unreadChannelMessages = fetchedMyInfo[0].unreadMessages(context: context) - for channel in (fetchedMyInfo[0].channels?.array ?? []) as? [ChannelEntity] ?? [] { - if channel.index == newMessage.channel { - context.refresh(channel, mergeChanges: true) - } - if channel.index == newMessage.channel && !channel.mute && UserDefaults.channelMessageNotifications && newMessage.isEmoji == false { - // Create an iOS Notification for the received channel message - let manager = LocalNotificationManager() - manager.notifications = [ - Notification( - id: ("notification.id.\(newMessage.messageId)"), - title: "\(newMessage.fromUser?.longName ?? "Unknown".localized)", - subtitle: "AKA \(newMessage.fromUser?.shortName ?? "?")", - content: messageText!, - target: "messages", - path: "meshtastic:///messages?channelId=\(newMessage.channel)&messageId=\(newMessage.isEmoji ? newMessage.replyID : newMessage.messageId)", - messageId: newMessage.messageId, - channel: newMessage.channel, - userNum: Int64(newMessage.fromUser?.userId ?? "0"), - critical: critical - ) - ] - manager.schedule() - Logger.services.debug("iOS Notification Scheduled for text message from \(newMessage.fromUser?.longName ?? "Unknown".localized, privacy: .public)") - } + if fetchedMyInfo.count > 0 { + fetchedNode[0].myInfo = fetchedMyInfo[0] + } + do { + if !deferSave { + try context.save() + Logger.data.info("๐Ÿ’พ [NodeInfo] saved for \(nodeInfo.num.toHex(), privacy: .public)") } + return fetchedNode[0].objectID + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("๐Ÿ’ฅ Error Saving Core Data NodeInfoEntity: \(nsError, privacy: .public)") } } catch { - // Handle error + Logger.data.error("๐Ÿ’ฅ Fetch MyInfo Error") } } + } catch { + Logger.data.error("๐Ÿ’ฅ Fetch NodeInfoEntity Error") } - } catch { - Logger.data.error("Fetch Message To and From Users Error") + return nil } } -} - -func waypointPacket (packet: MeshPacket, context: NSManagedObjectContext) { - - let logString = String.localizedStringWithFormat("Waypoint Packet received from node: %@".localized, String(packet.from)) - Logger.mesh.info("๐Ÿ“ \(logString, privacy: .public)") - - do { - if let waypointMessage = try? Waypoint(serializedBytes: packet.decoded.payload) { - // Fetch waypoint by waypointMessage.id, not packet.id - let fetchWaypointRequest = WaypointEntity.fetchRequest() - fetchWaypointRequest.predicate = NSPredicate(format: "id == %lld", Int64(waypointMessage.id)) - - let fetchedWaypoint = try context.fetch(fetchWaypointRequest) - // Fetch the node info to get the short name - var nodeShortName: String = "?" - let fetchNodeRequest = NodeInfoEntity.fetchRequest() - fetchNodeRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) + + func adminAppPacket (packet: MeshPacket) async { + let context = self.backgroundContext + await context.perform { + if let adminMessage = try? AdminMessage(serializedBytes: packet.decoded.payload) { + + if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getCannedMessageModuleMessagesResponse(adminMessage.getCannedMessageModuleMessagesResponse) { + + if let cmmc = try? CannedMessageModuleConfig(serializedBytes: packet.decoded.payload) { + let logString = String.localizedStringWithFormat("Canned Messages Messages Received For: %@".localized, packet.from.toHex()) + Logger.mesh.info("๐Ÿฅซ \(logString, privacy: .public)") + + let fetchNodeRequest = NodeInfoEntity.fetchRequest() + fetchNodeRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) + + do { + let fetchedNode = try context.fetch(fetchNodeRequest) + if fetchedNode.count == 1 { + let messages = String(cmmc.textFormatString()) + .replacingOccurrences(of: "11: ", with: "") + .replacingOccurrences(of: "\"", with: "") + .trimmingCharacters(in: .whitespacesAndNewlines) + .components(separatedBy: "\n").first ?? "" + fetchedNode[0].cannedMessageConfig?.messages = messages + do { + try context.save() + Logger.data.info("๐Ÿ’พ Updated Canned Messages Messages For: \(fetchedNode.first?.num.toHex() ?? "Unknown".localized, privacy: .public)") + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("๐Ÿ’ฅ Error Saving NodeInfoEntity from POSITION_APP \(nsError, privacy: .public)") + } + } + } catch { + Logger.data.error("๐Ÿ’ฅ Error Deserializing ADMIN_APP packet.") + } + } + } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getChannelResponse(adminMessage.getChannelResponse) { + self.channelPacket(channel: adminMessage.getChannelResponse, fromNum: Int64(packet.from), context: context) + } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getDeviceMetadataResponse(adminMessage.getDeviceMetadataResponse) { + self.deviceMetadataPacket(metadata: adminMessage.getDeviceMetadataResponse, fromNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getConfigResponse(adminMessage.getConfigResponse) { + let config = adminMessage.getConfigResponse + if config.payloadVariant == Config.OneOf_PayloadVariant.bluetooth(config.bluetooth) { + upsertBluetoothConfigPacket(config: config.bluetooth, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if config.payloadVariant == Config.OneOf_PayloadVariant.device(config.device) { + upsertDeviceConfigPacket(config: config.device, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if config.payloadVariant == Config.OneOf_PayloadVariant.display(config.display) { + upsertDisplayConfigPacket(config: config.display, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if config.payloadVariant == Config.OneOf_PayloadVariant.lora(config.lora) { + upsertLoRaConfigPacket(config: config.lora, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if config.payloadVariant == Config.OneOf_PayloadVariant.network(config.network) { + upsertNetworkConfigPacket(config: config.network, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if config.payloadVariant == Config.OneOf_PayloadVariant.position(config.position) { + upsertPositionConfigPacket(config: config.position, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if config.payloadVariant == Config.OneOf_PayloadVariant.power(config.power) { + upsertPowerConfigPacket(config: config.power, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } else if config.payloadVariant == Config.OneOf_PayloadVariant.security(config.security) { + upsertSecurityConfigPacket(config: config.security, nodeNum: Int64(packet.from), sessionPasskey: adminMessage.sessionPasskey, context: context) + } + } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getModuleConfigResponse(adminMessage.getModuleConfigResponse) { + let moduleConfig = adminMessage.getModuleConfigResponse + if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.ambientLighting(moduleConfig.ambientLighting) { + upsertAmbientLightingModuleConfigPacket(config: moduleConfig.ambientLighting, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.cannedMessage(moduleConfig.cannedMessage) { + upsertCannedMessagesModuleConfigPacket(config: moduleConfig.cannedMessage, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.detectionSensor(moduleConfig.detectionSensor) { + upsertDetectionSensorModuleConfigPacket(config: moduleConfig.detectionSensor, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.externalNotification(moduleConfig.externalNotification) { + upsertExternalNotificationModuleConfigPacket(config: moduleConfig.externalNotification, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.mqtt(moduleConfig.mqtt) { + upsertMqttModuleConfigPacket(config: moduleConfig.mqtt, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.rangeTest(moduleConfig.rangeTest) { + upsertRangeTestModuleConfigPacket(config: moduleConfig.rangeTest, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.serial(moduleConfig.serial) { + upsertSerialModuleConfigPacket(config: moduleConfig.serial, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.storeForward(moduleConfig.storeForward) { + upsertStoreForwardModuleConfigPacket(config: moduleConfig.storeForward, nodeNum: Int64(packet.from), context: context) + } else if moduleConfig.payloadVariant == ModuleConfig.OneOf_PayloadVariant.telemetry(moduleConfig.telemetry) { + upsertTelemetryModuleConfigPacket(config: moduleConfig.telemetry, nodeNum: Int64(packet.from), context: context) + } + } else if adminMessage.payloadVariant == AdminMessage.OneOf_PayloadVariant.getRingtoneResponse(adminMessage.getRingtoneResponse) { + if let rt = try? RTTTLConfig(serializedBytes: packet.decoded.payload) { + upsertRtttlConfigPacket(ringtone: rt.ringtone, nodeNum: Int64(packet.from), context: context) + } + } else { + Logger.mesh.error("๐Ÿ•ธ๏ธ MESH PACKET received Admin App UNHANDLED \((try? packet.decoded.jsonString()) ?? "JSON Decode Failure", privacy: .public)") + } + // Save an ack for the admin message log for each admin message response received as we stopped sending acks if there is also a response to reduce airtime. + self.adminResponseAck(packet: packet, context: context) + } + } + } + + private func adminResponseAck (packet: MeshPacket, context: NSManagedObjectContext) { + let fetchedAdminMessageRequest = MessageEntity.fetchRequest() + fetchedAdminMessageRequest.predicate = NSPredicate(format: "messageId == %lld", packet.decoded.requestID) do { - let fetchedNode = try context.fetch(fetchNodeRequest) - if let node = fetchedNode.first, let user = node.user { - nodeShortName = user.shortName ?? node.user?.userId ?? String(packet.from.toHex()) + let fetchedMessage = try context.fetch(fetchedAdminMessageRequest) + if fetchedMessage.count > 0 { + fetchedMessage[0].ackTimestamp = Int32(Date().timeIntervalSince1970) + fetchedMessage[0].ackError = Int32(RoutingError.none.rawValue) + fetchedMessage[0].receivedACK = true + fetchedMessage[0].realACK = true + fetchedMessage[0].relayNode = Int64(packet.relayNode) + fetchedMessage[0].ackSNR = packet.rxSnr + if fetchedMessage[0].fromUser != nil { + fetchedMessage[0].fromUser?.objectWillChange.send() + } + do { + try context.save() + } catch { + Logger.data.error("Failed to save admin message response as an ack: \(error.localizedDescription, privacy: .public)") + } } } catch { - Logger.data.error("Failed to fetch NodeInfoEntity for node \(packet.from.toHex(), privacy: .public): \(error)") + Logger.data.error("Failed to fetch admin message by requestID: \(error.localizedDescription, privacy: .public)") } - if fetchedWaypoint.isEmpty { - // Create a new waypoint - let waypoint = WaypointEntity(context: context) - waypoint.id = Int64(waypointMessage.id) // Use waypointMessage.id - waypoint.name = waypointMessage.name - waypoint.longDescription = waypointMessage.description_p - waypoint.latitudeI = waypointMessage.latitudeI - waypoint.longitudeI = waypointMessage.longitudeI - waypoint.icon = Int64(waypointMessage.icon) - waypoint.locked = Int64(waypointMessage.lockedTo) - if waypointMessage.expire >= 1 { - waypoint.expire = Date(timeIntervalSince1970: TimeInterval(Int64(waypointMessage.expire))) - } else { - waypoint.expire = nil + + } + + func paxCounterPacket (packet: MeshPacket) async { + let context = self.backgroundContext + await context.perform { + let logString = String.localizedStringWithFormat("PAX Counter message received from: %@".localized, String(packet.from)) + Logger.mesh.info("๐Ÿง‘โ€๐Ÿคโ€๐Ÿง‘ \(logString, privacy: .public)") + + let fetchNodeInfoRequest = NodeInfoEntity.fetchRequest() + fetchNodeInfoRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) + + do { + let fetchedNode = try context.fetch(fetchNodeInfoRequest) + + if let paxMessage = try? Paxcount(serializedBytes: packet.decoded.payload) { + + let newPax = PaxCounterEntity(context: context) + newPax.ble = Int32(truncatingIfNeeded: paxMessage.ble) + newPax.wifi = Int32(truncatingIfNeeded: paxMessage.wifi) + newPax.uptime = Int32(truncatingIfNeeded: paxMessage.uptime) + newPax.time = Date() + + if fetchedNode.count > 0 { + guard let mutablePax = fetchedNode[0].pax!.mutableCopy() as? NSMutableOrderedSet else { + return + } + mutablePax.add(newPax) + fetchedNode[0].pax = mutablePax + do { + try context.save() + } catch { + Logger.data.error("Failed to save pax: \(error.localizedDescription, privacy: .public)") + } + } else { + Logger.data.info("Node Info Not Found") + } } - waypoint.created = Date() + } catch { + + } + } + } + + func routingPacket (packet: MeshPacket, connectedNodeNum: Int64) async { + let context = self.backgroundContext + await context.perform { + if let routingMessage = try? Routing(serializedBytes: packet.decoded.payload) { + + let routingError = RoutingError(rawValue: routingMessage.errorReason.rawValue) + + let routingErrorString = routingError?.display ?? "Unknown".localized + let logString = String.localizedStringWithFormat("Routing received for RequestID: %@ Ack Status: %@".localized, String(packet.decoded.requestID), routingErrorString) + Logger.mesh.info("๐Ÿ•ธ๏ธ \(logString, privacy: .public)") + + let fetchMessageRequest = MessageEntity.fetchRequest() + fetchMessageRequest.predicate = NSPredicate(format: "messageId == %lld", Int64(packet.decoded.requestID)) + do { + let fetchedMessage = try context.fetch(fetchMessageRequest) + if fetchedMessage.count > 0 { + if fetchedMessage[0].toUser != nil { + // Real ACK from DM Recipient + if packet.to != packet.from { + fetchedMessage[0].realACK = true + } + } + fetchedMessage[0].relayNode = Int64(packet.relayNode) + fetchedMessage[0].ackError = Int32(routingMessage.errorReason.rawValue) + if routingMessage.errorReason == Routing.Error.none { + fetchedMessage[0].receivedACK = true + fetchedMessage[0].relays += 1 + } + + fetchedMessage[0].ackSNR = packet.rxSnr + if packet.rxTime > 0 { + fetchedMessage[0].ackTimestamp = Int32(truncatingIfNeeded: packet.rxTime) + } else { + fetchedMessage[0].ackTimestamp = Int32(Date().timeIntervalSince1970) + } + + if fetchedMessage[0].toUser != nil { + fetchedMessage[0].toUser!.objectWillChange.send() + } else { + let fetchMyInfoRequest = MyInfoEntity.fetchRequest() + fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", connectedNodeNum) + do { + let fetchedMyInfo = try context.fetch(fetchMyInfoRequest) + if fetchedMyInfo.count > 0 { + + for ch in fetchedMyInfo[0].channels!.array as? [ChannelEntity] ?? [] where ch.index == packet.channel { + ch.objectWillChange.send() + } + } + } catch { } + } + + } else { + return + } try context.save() - Logger.data.info("๐Ÿ’พ Added Node Waypoint App Packet For: \(waypoint.id, privacy: .public)") - let manager = LocalNotificationManager() - let icon = String(UnicodeScalar(Int(waypoint.icon)) ?? "๐Ÿ“") - let latitude = Double(waypoint.latitudeI) / 1e7 - let longitude = Double(waypoint.longitudeI) / 1e7 - manager.notifications = [ - Notification( - id: ("notification.id.\(waypoint.id)"), - title: "New Waypoint From \(nodeShortName)", - subtitle: "\(icon) \(waypoint.name ?? "Dropped Pin")", - content: "\(waypoint.longDescription ?? "\(latitude), \(longitude)")", - target: "map", - path: "meshtastic:///map?waypointid=\(waypoint.id)" - ) - ] - Logger.data.debug("meshtastic:///map?waypointid=\(waypoint.id, privacy: .public)") - manager.schedule() + Logger.data.info("๐Ÿ’พ ACK Saved for Message: \(packet.decoded.requestID, privacy: .public)") } catch { context.rollback() let nsError = error as NSError - Logger.data.error("Error Saving WaypointEntity from WAYPOINT_APP \(nsError, privacy: .public)") + Logger.data.error("Error Saving ACK for message: \(packet.id, privacy: .public) Error: \(nsError, privacy: .public)") + } + } + } + } + + func telemetryPacket(packet: MeshPacket, connectedNode: Int64) async { + let context = self.backgroundContext + + await context.perform { + if let telemetryMessage = try? Telemetry(serializedBytes: packet.decoded.payload) { + if telemetryMessage.variant != Telemetry.OneOf_Variant.deviceMetrics(telemetryMessage.deviceMetrics) && telemetryMessage.variant != Telemetry.OneOf_Variant.environmentMetrics(telemetryMessage.environmentMetrics) && telemetryMessage.variant != Telemetry.OneOf_Variant.localStats(telemetryMessage.localStats) && telemetryMessage.variant != Telemetry.OneOf_Variant.powerMetrics(telemetryMessage.powerMetrics) { + /// Other unhandled telemetry packets + return + } + let telemetry = TelemetryEntity(context: context) + let fetchNodeTelemetryRequest = NodeInfoEntity.fetchRequest() + fetchNodeTelemetryRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) + do { + let fetchedNode = try context.fetch(fetchNodeTelemetryRequest) + if fetchedNode.count == 1 { + /// Currently only Device Metrics and Environment Telemetry are supported in the app + if telemetryMessage.variant == Telemetry.OneOf_Variant.deviceMetrics(telemetryMessage.deviceMetrics) { + // Device Metrics + Logger.data.info("๐Ÿ“ˆ [Telemetry] Device Metrics Received for Node: \(packet.from.toHex(), privacy: .public)") + telemetry.airUtilTx = telemetryMessage.deviceMetrics.hasAirUtilTx.then(telemetryMessage.deviceMetrics.airUtilTx) + telemetry.channelUtilization = telemetryMessage.deviceMetrics.hasChannelUtilization.then(telemetryMessage.deviceMetrics.channelUtilization) + telemetry.batteryLevel = telemetryMessage.deviceMetrics.hasBatteryLevel.then(Int32(telemetryMessage.deviceMetrics.batteryLevel)) + telemetry.voltage = telemetryMessage.deviceMetrics.hasVoltage.then(telemetryMessage.deviceMetrics.voltage) + telemetry.uptimeSeconds = telemetryMessage.deviceMetrics.hasUptimeSeconds.then(Int32(telemetryMessage.deviceMetrics.uptimeSeconds)) + telemetry.metricsType = 0 + Logger.statistics.info("๐Ÿ“ˆ [Mesh Statistics] Channel Utilization: \(telemetryMessage.deviceMetrics.channelUtilization, privacy: .public) Airtime: \(telemetryMessage.deviceMetrics.airUtilTx, privacy: .public) for Node: \(packet.from.toHex(), privacy: .public)") + } else if telemetryMessage.variant == Telemetry.OneOf_Variant.environmentMetrics(telemetryMessage.environmentMetrics) { + // Environment Metrics + Logger.data.info("๐Ÿ“ˆ [Telemetry] Environment Metrics Received for Node: \(packet.from.toHex(), privacy: .public)") + telemetry.barometricPressure = telemetryMessage.environmentMetrics.hasBarometricPressure.then(telemetryMessage.environmentMetrics.barometricPressure) + telemetry.iaq = telemetryMessage.environmentMetrics.hasIaq.then(Int32(truncatingIfNeeded: telemetryMessage.environmentMetrics.iaq)) + telemetry.gasResistance = telemetryMessage.environmentMetrics.hasGasResistance.then(telemetryMessage.environmentMetrics.gasResistance) + telemetry.relativeHumidity = telemetryMessage.environmentMetrics.hasRelativeHumidity.then(telemetryMessage.environmentMetrics.relativeHumidity) + telemetry.temperature = telemetryMessage.environmentMetrics.hasTemperature.then(telemetryMessage.environmentMetrics.temperature) + telemetry.current = telemetryMessage.environmentMetrics.hasCurrent.then(telemetryMessage.environmentMetrics.current) + telemetry.voltage = telemetryMessage.environmentMetrics.hasVoltage.then(telemetryMessage.environmentMetrics.voltage) + telemetry.weight = telemetryMessage.environmentMetrics.hasWeight.then(telemetryMessage.environmentMetrics.weight) + telemetry.distance = telemetryMessage.environmentMetrics.hasDistance.then(telemetryMessage.environmentMetrics.distance) + telemetry.windSpeed = telemetryMessage.environmentMetrics.hasWindSpeed.then(telemetryMessage.environmentMetrics.windSpeed) + telemetry.windGust = telemetryMessage.environmentMetrics.hasWindGust.then(telemetryMessage.environmentMetrics.windGust) + telemetry.windLull = telemetryMessage.environmentMetrics.hasWindLull.then(telemetryMessage.environmentMetrics.windLull) + telemetry.windDirection = telemetryMessage.environmentMetrics.hasWindDirection.then(Int32(truncatingIfNeeded: telemetryMessage.environmentMetrics.windDirection)) + telemetry.irLux = telemetryMessage.environmentMetrics.hasIrLux.then(telemetryMessage.environmentMetrics.irLux) + telemetry.lux = telemetryMessage.environmentMetrics.hasLux.then(telemetryMessage.environmentMetrics.lux) + telemetry.whiteLux = telemetryMessage.environmentMetrics.hasWhiteLux.then(telemetryMessage.environmentMetrics.whiteLux) + telemetry.uvLux = telemetryMessage.environmentMetrics.hasUvLux.then(telemetryMessage.environmentMetrics.uvLux) + telemetry.radiation = telemetryMessage.environmentMetrics.hasRadiation.then(telemetryMessage.environmentMetrics.radiation) + telemetry.rainfall1H = telemetryMessage.environmentMetrics.hasRainfall1H.then(telemetryMessage.environmentMetrics.rainfall1H) + telemetry.rainfall24H = telemetryMessage.environmentMetrics.hasRainfall24H.then(telemetryMessage.environmentMetrics.rainfall24H) + telemetry.soilTemperature = telemetryMessage.environmentMetrics.hasSoilTemperature.then(telemetryMessage.environmentMetrics.soilTemperature) + telemetry.soilMoisture = telemetryMessage.environmentMetrics.hasSoilMoisture.then(telemetryMessage.environmentMetrics.soilMoisture) + telemetry.metricsType = 1 + } else if telemetryMessage.variant == Telemetry.OneOf_Variant.localStats(telemetryMessage.localStats) { + // Local Stats for Live activity + telemetry.uptimeSeconds = Int32(telemetryMessage.localStats.uptimeSeconds) + telemetry.channelUtilization = telemetryMessage.localStats.channelUtilization + telemetry.airUtilTx = telemetryMessage.localStats.airUtilTx + telemetry.numPacketsTx = Int32(truncatingIfNeeded: telemetryMessage.localStats.numPacketsTx) + telemetry.numPacketsRx = Int32(truncatingIfNeeded: telemetryMessage.localStats.numPacketsRx) + telemetry.numPacketsRxBad = Int32(truncatingIfNeeded: telemetryMessage.localStats.numPacketsRxBad) + telemetry.numRxDupe = Int32(truncatingIfNeeded: telemetryMessage.localStats.numRxDupe) + telemetry.numTxRelay = Int32(truncatingIfNeeded: telemetryMessage.localStats.numTxRelay) + telemetry.numTxRelayCanceled = Int32(truncatingIfNeeded: telemetryMessage.localStats.numTxRelayCanceled) + telemetry.numOnlineNodes = Int32(truncatingIfNeeded: telemetryMessage.localStats.numOnlineNodes) + telemetry.numTotalNodes = Int32(truncatingIfNeeded: telemetryMessage.localStats.numTotalNodes) + telemetry.metricsType = 4 + Logger.statistics.info("๐Ÿ“ˆ [Mesh Statistics] Channel Utilization: \(telemetryMessage.localStats.channelUtilization, privacy: .public) Airtime: \(telemetryMessage.localStats.airUtilTx, privacy: .public) Packets Sent: \(telemetryMessage.localStats.numPacketsTx, privacy: .public) Packets Received: \(telemetryMessage.localStats.numPacketsRx, privacy: .public) Bad Packets Received: \(telemetryMessage.localStats.numPacketsRxBad, privacy: .public) Nodes Online: \(telemetryMessage.localStats.numOnlineNodes, privacy: .public) of \(telemetryMessage.localStats.numTotalNodes, privacy: .public) nodes for Node: \(packet.from.toHex(), privacy: .public)") + } else if telemetryMessage.variant == Telemetry.OneOf_Variant.powerMetrics(telemetryMessage.powerMetrics) { + Logger.data.info("๐Ÿ“ˆ [Telemetry] Power Metrics Received for Node: \(packet.from.toHex(), privacy: .public)") + telemetry.powerCh1Voltage = telemetryMessage.powerMetrics.hasCh1Voltage.then(telemetryMessage.powerMetrics.ch1Voltage) + telemetry.powerCh1Current = telemetryMessage.powerMetrics.hasCh1Current.then(telemetryMessage.powerMetrics.ch1Current) + telemetry.powerCh2Voltage = telemetryMessage.powerMetrics.hasCh2Voltage.then(telemetryMessage.powerMetrics.ch2Voltage) + telemetry.powerCh2Current = telemetryMessage.powerMetrics.hasCh2Current.then(telemetryMessage.powerMetrics.ch2Current) + telemetry.powerCh3Voltage = telemetryMessage.powerMetrics.hasCh3Voltage.then(telemetryMessage.powerMetrics.ch3Voltage) + telemetry.powerCh3Current = telemetryMessage.powerMetrics.hasCh3Current.then(telemetryMessage.powerMetrics.ch3Current) + telemetry.metricsType = 2 + } + telemetry.snr = packet.rxSnr + telemetry.rssi = packet.rxRssi + telemetry.time = Date(timeIntervalSince1970: TimeInterval(Int64(truncatingIfNeeded: telemetryMessage.time))) + guard let mutableTelemetries = fetchedNode[0].telemetries!.mutableCopy() as? NSMutableOrderedSet else { + return + } + mutableTelemetries.add(telemetry) + if packet.rxTime > 0 { + fetchedNode[0].lastHeard = Date(timeIntervalSince1970: TimeInterval(packet.rxTime)) + } else { + fetchedNode[0].lastHeard = Date() + } + fetchedNode[0].telemetries = mutableTelemetries.copy() as? NSOrderedSet + } + try context.save() + Logger.data.info("๐Ÿ’พ [TelemetryEntity] of type \(MetricsTypes(rawValue: Int(telemetry.metricsType))?.name ?? "Unknown Metrics Type", privacy: .public) Saved for Node: \(packet.from.toHex(), privacy: .public)") + if telemetry.metricsType == 0 { + // Connected Device Metrics + // ------------------------ + // Low Battery notification + if connectedNode == Int64(packet.from) { + let batteryLevel = telemetry.batteryLevel ?? 0 + if UserDefaults.lowBatteryNotifications && batteryLevel > 0 && batteryLevel < 4 { + let manager = LocalNotificationManager() + manager.notifications = [ + Notification( + id: ("notification.id.\(UUID().uuidString)"), + title: "Critically Low Battery!", + subtitle: "AKA \(telemetry.nodeTelemetry?.user?.shortName ?? "UNK")", + content: "Time to charge your radio, there is \(telemetry.batteryLevel?.formatted(.number) ?? Constants.nilValueIndicator)% battery remaining.", + target: "nodes", + path: "meshtastic:///nodes?nodenum=\(telemetry.nodeTelemetry?.num ?? 0)" + ) + ] + manager.schedule() + } + } + } else if telemetry.metricsType == 4 { + // Update our live activity if there is one running, not available on mac +#if !targetEnvironment(macCatalyst) +#if canImport(ActivityKit) + + let fifteenMinutesLater = Calendar.current.date(byAdding: .minute, value: (Int(15) ), to: Date())! + let date = Date.now...fifteenMinutesLater + let updatedMeshStatus = MeshActivityAttributes.MeshActivityStatus(uptimeSeconds: telemetry.uptimeSeconds.map { UInt32($0) }, + channelUtilization: telemetry.channelUtilization, + airtime: telemetry.airUtilTx, + sentPackets: UInt32(telemetry.numPacketsTx), + receivedPackets: UInt32(telemetry.numPacketsRx), + badReceivedPackets: UInt32(telemetry.numPacketsRxBad), + dupeReceivedPackets: UInt32(telemetry.numRxDupe), + packetsSentRelay: UInt32(telemetry.numTxRelay), + packetsCanceledRelay: UInt32(telemetry.numTxRelayCanceled), + nodesOnline: UInt32(telemetry.numOnlineNodes), + totalNodes: UInt32(telemetry.numTotalNodes), + timerRange: date) + + let alertConfiguration = AlertConfiguration(title: "Mesh activity update", body: "Updated Node Stats Data.", sound: .default) + let updatedContent = ActivityContent(state: updatedMeshStatus, staleDate: nil) + + let meshActivity = Activity.activities.first(where: { $0.attributes.nodeNum == connectedNode }) + if meshActivity != nil { + Task { + // await meshActivity?.update(updatedContent, alertConfiguration: alertConfiguration) + await meshActivity?.update(updatedContent) + Logger.services.debug("Updated live activity.") + } + } +#endif +#endif + } + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("๐Ÿ’ฅ Error Saving Telemetry for Node \(packet.from, privacy: .public) Error: \(nsError, privacy: .public)") } } else { - // Update existing waypoint - let existingWaypoint = fetchedWaypoint[0] - if existingWaypoint.locked == 0 || existingWaypoint.locked == packet.from { - let currentTime = Int64(Date().timeIntervalSince1970) - if waypointMessage.expire > 0 && waypointMessage.expire <= currentTime { - context.delete(existingWaypoint) + Logger.data.error("๐Ÿ’ฅ Error Fetching NodeInfoEntity for Node \(packet.from.toHex(), privacy: .public)") + } + } + } + + func textMessageAppPacket( + packet: MeshPacket, + wantRangeTestPackets: Bool, + critical: Bool = false, + connectedNode: Int64, + storeForward: Bool = false, + appState: AppState? + ) async { + let context = self.backgroundContext + await context.perform { + var messageText = String(bytes: packet.decoded.payload, encoding: .utf8) + let rangeRef = Reference(Int.self) + let rangeTestRegex = Regex { + "seq " + TryCapture(as: rangeRef) { + OneOrMore(.digit) + } transform: { match in + Int(match) + } + } + let rangeTest = messageText?.contains(rangeTestRegex) ?? false && messageText?.starts(with: "seq ") ?? false + + if !wantRangeTestPackets && rangeTest { + return + } + var storeForwardBroadcast = false + if storeForward { + if let storeAndForwardMessage = try? StoreAndForward(serializedBytes: packet.decoded.payload) { + messageText = String(bytes: storeAndForwardMessage.text, encoding: .utf8) + if storeAndForwardMessage.rr == .routerTextBroadcast { + storeForwardBroadcast = true + } + } + } + + if messageText?.count ?? 0 > 0 { + Logger.mesh.info("๐Ÿ’ฌ \("Message received from the text message app.".localized, privacy: .public)") + let messageUsers = UserEntity.fetchRequest() + messageUsers.predicate = NSPredicate(format: "num IN %@", [packet.to, packet.from]) + do { + let fetchedUsers = try context.fetch(messageUsers) + let newMessage = MessageEntity(context: context) + newMessage.messageId = Int64(packet.id) + if packet.rxTime > 0 { + newMessage.messageTimestamp = Int32(bitPattern: packet.rxTime) + } else { + newMessage.messageTimestamp = Int32(Date().timeIntervalSince1970) + } + if packet.relayNode != 0 { + newMessage.relayNode = Int64(packet.relayNode) + } + newMessage.receivedACK = false + newMessage.snr = packet.rxSnr + newMessage.rssi = packet.rxRssi + newMessage.isEmoji = packet.decoded.emoji == 1 + newMessage.channel = Int32(packet.channel) + newMessage.portNum = Int32(packet.decoded.portnum.rawValue) + if packet.decoded.portnum == PortNum.detectionSensorApp { + if !UserDefaults.enableDetectionNotifications { + newMessage.read = true + } + } + if packet.decoded.replyID > 0 { + newMessage.replyID = Int64(packet.decoded.replyID) + } + // Updated logic for handling toUser + if fetchedUsers.first(where: { $0.num == packet.to }) != nil && packet.to != Constants.maximumNodeNum { + if !storeForwardBroadcast { + newMessage.toUser = fetchedUsers.first(where: { $0.num == packet.to }) + } else if storeForwardBroadcast { + // For S&F broadcast messages, treat as a channel message (not a DM) + newMessage.toUser = nil + } else { + do { + let newUser = try createUser(num: Int64(truncatingIfNeeded: packet.to), context: context) + newMessage.toUser = newUser + } catch CoreDataError.invalidInput(let message) { + Logger.data.error("Error Creating a new Core Data UserEntity (Invalid Input) from node number: \(packet.to, privacy: .public) Error: \(message, privacy: .public)") + } catch { + Logger.data.error("Error Creating a new Core Data UserEntity from node number: \(packet.to, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") + } + } + } + if fetchedUsers.first(where: { $0.num == packet.from }) != nil { + newMessage.fromUser = fetchedUsers.first(where: { $0.num == packet.from }) + /// Set the public key for the message + if newMessage.fromUser?.pkiEncrypted ?? false && packet.pkiEncrypted { + newMessage.pkiEncrypted = true + newMessage.publicKey = packet.publicKey + } + + /// Check for key mismatch + if let nodeKey = newMessage.fromUser?.publicKey { + if newMessage.toUser != nil && packet.pkiEncrypted && !packet.publicKey.isEmpty { + if nodeKey != newMessage.publicKey { + newMessage.fromUser?.keyMatch = false + newMessage.fromUser?.newPublicKey = newMessage.publicKey + let nodeKey = String(nodeKey.base64EncodedString()).prefix(8) + let messageKey = String(newMessage.publicKey?.base64EncodedString() ?? "No Key").prefix(8) + Logger.data.error("๐Ÿ”‘ Key mismatch original key: \(nodeKey, privacy: .public) . . . new key: \(messageKey, privacy: .public) . . .") + } + } + } else if packet.pkiEncrypted { + /// We have no key, set it if it is not empty + if !packet.publicKey.isEmpty { + newMessage.fromUser?.pkiEncrypted = true + newMessage.fromUser?.publicKey = packet.publicKey + } + } + } else { + /// Make a new from user if they are unknown + do { + let newUser = try createUser(num: Int64(truncatingIfNeeded: packet.from), context: context) + let newNode = NodeInfoEntity(context: context) + newNode.id = Int64(newUser.num) + newNode.num = Int64(newUser.num) + newNode.user = newUser + newMessage.fromUser = newUser + } catch CoreDataError.invalidInput(let message) { + Logger.data.error("Error Creating a new Core Data UserEntity (Invalid Input) from node number: \(packet.from, privacy: .public) Error: \(message, privacy: .public)") + } catch { + Logger.data.error("Error Creating a new Core Data UserEntity from node number: \(packet.from, privacy: .public) Error: \(error.localizedDescription, privacy: .public)") + } + } + if packet.rxTime > 0 { + newMessage.fromUser?.userNode?.lastHeard = Date(timeIntervalSince1970: TimeInterval(Int64(packet.rxTime))) + } else { + newMessage.fromUser?.userNode?.lastHeard = Date() + } + newMessage.messagePayload = messageText + newMessage.messagePayloadMarkdown = generateMessageMarkdown(message: messageText!) + if packet.to != Constants.maximumNodeNum && newMessage.fromUser != nil { + newMessage.fromUser?.lastMessage = Date() + } + var messageSaved = false + do { + try context.save() + Logger.data.info("๐Ÿ’พ Saved a new message for \(newMessage.messageId, privacy: .public)") + messageSaved = true + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("Failed to save new MessageEntity \(nsError, privacy: .public)") + } + // Send notifications if the message saved properly to core data + if messageSaved { + if packet.decoded.portnum == PortNum.detectionSensorApp && !UserDefaults.enableDetectionNotifications { + return + } + if newMessage.fromUser != nil && newMessage.toUser != nil { + // Set Unread Message Indicators + if packet.to == connectedNode { + let unreadCount = newMessage.toUser?.unreadMessages(context: context, skipLastMessageCheck: true) ?? 0 // skipLastMessageCheck=true because we don't update lastMessage on our own connected node + Task { @MainActor in + appState?.unreadDirectMessages = unreadCount + } + } + if !(newMessage.fromUser?.mute ?? false) && newMessage.isEmoji == false { + // Create an iOS Notification for the received DM message + let manager = LocalNotificationManager() + manager.notifications = [ + Notification( + id: ("notification.id.\(newMessage.messageId)"), + title: "\(newMessage.fromUser?.longName ?? "Unknown".localized)", + subtitle: "AKA \(newMessage.fromUser?.shortName ?? "?")", + content: messageText!, + target: "messages", + path: "meshtastic:///messages?userNum=\(newMessage.fromUser?.num ?? 0)&messageId=\(newMessage.isEmoji ? newMessage.replyID : newMessage.messageId)", + messageId: newMessage.messageId, + channel: newMessage.channel, + userNum: Int64(packet.from), + critical: critical + ) + ] + manager.schedule() + Logger.services.debug("iOS Notification Scheduled for text message from \(newMessage.fromUser?.longName ?? "Unknown".localized, privacy: .public)") + } + } else if newMessage.fromUser != nil && newMessage.toUser == nil { + let fetchMyInfoRequest = MyInfoEntity.fetchRequest() + fetchMyInfoRequest.predicate = NSPredicate(format: "myNodeNum == %lld", Int64(connectedNode)) + do { + let fetchedMyInfo = try context.fetch(fetchMyInfoRequest) + if !fetchedMyInfo.isEmpty { + appState?.unreadChannelMessages = fetchedMyInfo[0].unreadMessages(context: context) + for channel in (fetchedMyInfo[0].channels?.array ?? []) as? [ChannelEntity] ?? [] { + if channel.index == newMessage.channel { + context.refresh(channel, mergeChanges: true) + } + if channel.index == newMessage.channel && !channel.mute && UserDefaults.channelMessageNotifications && newMessage.isEmoji == false { + // Create an iOS Notification for the received channel message + let manager = LocalNotificationManager() + manager.notifications = [ + Notification( + id: ("notification.id.\(newMessage.messageId)"), + title: "\(newMessage.fromUser?.longName ?? "Unknown".localized)", + subtitle: "AKA \(newMessage.fromUser?.shortName ?? "?")", + content: messageText!, + target: "messages", + path: "meshtastic:///messages?channelId=\(newMessage.channel)&messageId=\(newMessage.isEmoji ? newMessage.replyID : newMessage.messageId)", + messageId: newMessage.messageId, + channel: newMessage.channel, + userNum: Int64(newMessage.fromUser?.userId ?? "0"), + critical: critical + ) + ] + manager.schedule() + Logger.services.debug("iOS Notification Scheduled for text message from \(newMessage.fromUser?.longName ?? "Unknown".localized, privacy: .public)") + } + } + } + } catch { + // Handle error + } + } + } + } catch { + Logger.data.error("Fetch Message To and From Users Error") + } + } + } + } + + func waypointPacket (packet: MeshPacket) async { + let context = self.backgroundContext + await context.perform { + let logString = String.localizedStringWithFormat("Waypoint Packet received from node: %@".localized, String(packet.from)) + Logger.mesh.info("๐Ÿ“ \(logString, privacy: .public)") + + do { + if let waypointMessage = try? Waypoint(serializedBytes: packet.decoded.payload) { + // Fetch waypoint by waypointMessage.id, not packet.id + let fetchWaypointRequest = WaypointEntity.fetchRequest() + fetchWaypointRequest.predicate = NSPredicate(format: "id == %lld", Int64(waypointMessage.id)) + + let fetchedWaypoint = try context.fetch(fetchWaypointRequest) + // Fetch the node info to get the short name + var nodeShortName: String = "?" + let fetchNodeRequest = NodeInfoEntity.fetchRequest() + fetchNodeRequest.predicate = NSPredicate(format: "num == %lld", Int64(packet.from)) + do { + let fetchedNode = try context.fetch(fetchNodeRequest) + if let node = fetchedNode.first, let user = node.user { + nodeShortName = user.shortName ?? node.user?.userId ?? String(packet.from.toHex()) + } + } catch { + Logger.data.error("Failed to fetch NodeInfoEntity for node \(packet.from.toHex(), privacy: .public): \(error)") + } + if fetchedWaypoint.isEmpty { + // Create a new waypoint + let waypoint = WaypointEntity(context: context) + waypoint.id = Int64(waypointMessage.id) // Use waypointMessage.id + waypoint.name = waypointMessage.name + waypoint.longDescription = waypointMessage.description_p + waypoint.latitudeI = waypointMessage.latitudeI + waypoint.longitudeI = waypointMessage.longitudeI + waypoint.icon = Int64(waypointMessage.icon) + waypoint.locked = Int64(waypointMessage.lockedTo) + if waypointMessage.expire >= 1 { + waypoint.expire = Date(timeIntervalSince1970: TimeInterval(Int64(waypointMessage.expire))) + } else { + waypoint.expire = nil + } + waypoint.created = Date() do { try context.save() - Logger.data.info("๐Ÿ’พ Deleted a waypoint") + Logger.data.info("๐Ÿ’พ Added Node Waypoint App Packet For: \(waypoint.id, privacy: .public)") + let manager = LocalNotificationManager() + let icon = String(UnicodeScalar(Int(waypoint.icon)) ?? "๐Ÿ“") + let latitude = Double(waypoint.latitudeI) / 1e7 + let longitude = Double(waypoint.longitudeI) / 1e7 + manager.notifications = [ + Notification( + id: ("notification.id.\(waypoint.id)"), + title: "New Waypoint From \(nodeShortName)", + subtitle: "\(icon) \(waypoint.name ?? "Dropped Pin")", + content: "\(waypoint.longDescription ?? "\(latitude), \(longitude)")", + target: "map", + path: "meshtastic:///map?waypointid=\(waypoint.id)" + ) + ] + Logger.data.debug("meshtastic:///map?waypointid=\(waypoint.id, privacy: .public)") + manager.schedule() } catch { context.rollback() let nsError = error as NSError Logger.data.error("Error Saving WaypointEntity from WAYPOINT_APP \(nsError, privacy: .public)") } } else { - existingWaypoint.name = waypointMessage.name - existingWaypoint.longDescription = waypointMessage.description_p - existingWaypoint.latitudeI = waypointMessage.latitudeI - existingWaypoint.longitudeI = waypointMessage.longitudeI - existingWaypoint.icon = Int64(waypointMessage.icon) - existingWaypoint.locked = Int64(waypointMessage.lockedTo) - if waypointMessage.expire >= 1 { - existingWaypoint.expire = Date(timeIntervalSince1970: TimeInterval(Int64(waypointMessage.expire))) - } else { - existingWaypoint.expire = nil - } - existingWaypoint.lastUpdated = Date() - do { - try context.save() - Logger.data.info("๐Ÿ’พ Updated Node Waypoint App Packet For: \(existingWaypoint.id, privacy: .public)") - } catch { - context.rollback() - let nsError = error as NSError - Logger.data.error("Error Saving WaypointEntity from WAYPOINT_APP \(nsError, privacy: .public)") + // Update existing waypoint + let existingWaypoint = fetchedWaypoint[0] + if existingWaypoint.locked == 0 || existingWaypoint.locked == packet.from { + let currentTime = Int64(Date().timeIntervalSince1970) + if waypointMessage.expire > 0 && waypointMessage.expire <= currentTime { + context.delete(existingWaypoint) + do { + try context.save() + Logger.data.info("๐Ÿ’พ Deleted a waypoint") + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("Error Saving WaypointEntity from WAYPOINT_APP \(nsError, privacy: .public)") + } + } else { + existingWaypoint.name = waypointMessage.name + existingWaypoint.longDescription = waypointMessage.description_p + existingWaypoint.latitudeI = waypointMessage.latitudeI + existingWaypoint.longitudeI = waypointMessage.longitudeI + existingWaypoint.icon = Int64(waypointMessage.icon) + existingWaypoint.locked = Int64(waypointMessage.lockedTo) + if waypointMessage.expire >= 1 { + existingWaypoint.expire = Date(timeIntervalSince1970: TimeInterval(Int64(waypointMessage.expire))) + } else { + existingWaypoint.expire = nil + } + existingWaypoint.lastUpdated = Date() + do { + try context.save() + Logger.data.info("๐Ÿ’พ Updated Node Waypoint App Packet For: \(existingWaypoint.id, privacy: .public)") + } catch { + context.rollback() + let nsError = error as NSError + Logger.data.error("Error Saving WaypointEntity from WAYPOINT_APP \(nsError, privacy: .public)") + } + } } } } + } catch { + Logger.mesh.error("Error Deserializing WAYPOINT_APP packet.") } } - } catch { - Logger.mesh.error("Error Deserializing WAYPOINT_APP packet.") } } +