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Meshtastic-Apple/Meshtastic/Helpers/BLEManager.swift
Garth Vander Houwen fdb0f6310e Add reset nodedb to device config
2022-10-02 09:19:03 -07:00

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Swift
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import Foundation
import CoreData
import CoreBluetooth
import SwiftUI
import MapKit
// ---------------------------------------------------------------------------------------
// Meshtastic BLE Device Manager
// ---------------------------------------------------------------------------------------
class BLEManager: NSObject, ObservableObject, CBCentralManagerDelegate, CBPeripheralDelegate {
static let shared = BLEManager()
private static var documentsFolder: URL {
do {
return try FileManager.default.url(for: .documentDirectory, in: .userDomainMask, appropriateFor: nil, create: true)
} catch {
fatalError("Can't find documents directory.")
}
}
var context: NSManagedObjectContext?
var userSettings: UserSettings?
private var centralManager: CBCentralManager!
@Published var peripherals = [Peripheral]()
@Published var connectedPeripheral: Peripheral!
@Published var lastConnectionError: String
@Published var minimumVersion = "1.3.41"
@Published var connectedVersion: String
@Published var invalidVersion = false
@Published var preferredPeripheral = false
@Published var isSwitchedOn: Bool = false
@Published var isScanning: Bool = false
@Published var isConnected: Bool = false
/// Used to make sure we never get foold by old BLE packets
private var configNonce: UInt32 = 1
var timeoutTimer: Timer?
var timeoutTimerCount = 0
var configTimeoutTimer: Timer?
var positionTimer: Timer?
let broadcastNodeNum: UInt32 = 4294967295
/* Meshtastic Service Details */
var TORADIO_characteristic: CBCharacteristic!
var FROMRADIO_characteristic: CBCharacteristic!
var FROMNUM_characteristic: CBCharacteristic!
let meshtasticServiceCBUUID = CBUUID(string: "0x6BA1B218-15A8-461F-9FA8-5DCAE273EAFD")
let TORADIO_UUID = CBUUID(string: "0xF75C76D2-129E-4DAD-A1DD-7866124401E7")
let FROMRADIO_UUID = CBUUID(string: "0x8BA2BCC2-EE02-4A55-A531-C525C5E454D5")
let FROMNUM_UUID = CBUUID(string: "0xED9DA18C-A800-4F66-A670-AA7547E34453")
// Meshtastic DFU details
let DFUSERVICE_UUID = CBUUID(string : "cb0b9a0b-a84c-4c0d-bdbb-442e3144ee30")
let DFUSIZE_UUID = CBUUID(string: "e74dd9c0-a301-4a6f-95a1-f0e1dbea8e1e")
let DFUDATA_UUID = CBUUID(string: "e272ebac-d463-4b98-bc84-5cc1a39ee517")
let DFUCRC32_UUID = CBUUID(string: "4826129c-c22a-43a3-b066-ce8f0d5bacc6")
let DFURESULT_UUID = CBUUID(string: "5e134862-7411-4424-ac4a-210937432c77")
let DFUREGION_UUID = CBUUID(string: "5e134862-7411-4424-ac4a-210937432c67")
var DFUSIZE_characteristic: CBCharacteristic?
var DFUDATA_characteristic: CBCharacteristic?
var DFUCRC32_characteristic: CBCharacteristic?
var DFURESULT_characteristic: CBCharacteristic?
var DFUREGION_characteristic: CBCharacteristic?
private var meshLoggingEnabled: Bool = true
let meshLog = documentsFolder.appendingPathComponent("meshlog.txt")
// MARK: init BLEManager
override init() {
//self.meshLoggingEnabled = UserDefaults.standard.object(forKey: "meshActivityLog") as? Bool ?? false
self.lastConnectionError = ""
self.connectedVersion = "0.0.0"
super.init()
// let bleQueue: DispatchQueue = DispatchQueue(label: "CentralManager")
centralManager = CBCentralManager(delegate: self, queue: nil)
}
// MARK: Bluetooth enabled/disabled for the app
func centralManagerDidUpdateState(_ central: CBCentralManager) {
if central.state == .poweredOn {
isSwitchedOn = true
startScanning()
} else {
isSwitchedOn = false
}
}
// MARK: Scanning for BLE Devices
// Scan for nearby BLE devices using the Meshtastic BLE service ID
func startScanning() {
if isSwitchedOn {
centralManager.scanForPeripherals(withServices: [meshtasticServiceCBUUID], options: nil)
isScanning = centralManager.isScanning
print("✅ Scanning Started")
}
}
// Stop Scanning For BLE Devices
func stopScanning() {
if centralManager.isScanning {
centralManager.stopScan()
isScanning = centralManager.isScanning
print("🛑 Stopped Scanning")
}
}
// MARK: BLE Connect functions
/// The action after the timeout-timer has fired
///
/// - Parameters:
/// - timer: The time that fired the event
///
@objc func timeoutTimerFired(timer: Timer) {
guard let timerContext = timer.userInfo as? [String: String] else { return }
let name: String = timerContext["name", default: "Unknown"]
self.timeoutTimerCount += 1
if timeoutTimerCount == 10 {
if connectedPeripheral != nil {
self.centralManager?.cancelPeripheralConnection(connectedPeripheral.peripheral)
}
connectedPeripheral = nil
self.isConnected = false
self.lastConnectionError = "🚨 BLE Connection Timeout after making \(timeoutTimerCount) attempts to connect to \(name)."
if meshLoggingEnabled { MeshLogger.log(self.lastConnectionError + " This can occur when a device has been taken out of BLE range, or if a device is already connected to another phone, tablet or computer.") }
self.timeoutTimerCount = 0
if self.timeoutTimer != nil {
self.timeoutTimer!.invalidate()
}
} else {
if meshLoggingEnabled { MeshLogger.log("🚨 BLE Connecting 2 Second Timeout Timer Fired \(timeoutTimerCount) Time(s): \(name)") }
}
}
// MARK: BLE Connect functions
/// The action after the timeout-timer has fired
///
/// - Parameters:
/// - timer: The time that fired the event
///
@objc func configTimeoutTimerFired(timer: Timer) {
self.lastConnectionError = "🚨 Update your firmware"
self.connectedVersion = "1.2.65"
self.invalidVersion = true
self.timeoutTimer!.invalidate()
}
// Connect to a specific peripheral
func connectTo(peripheral: CBPeripheral) {
if meshLoggingEnabled { MeshLogger.log("✅ BLE Connecting: \(peripheral.name ?? "Unknown")") }
stopScanning()
if self.connectedPeripheral != nil {
if meshLoggingEnabled { MeshLogger.log(" BLE Disconnecting from: \(self.connectedPeripheral.name) to connect to \(peripheral.name ?? "Unknown")") }
self.disconnectPeripheral()
}
self.centralManager?.connect(peripheral)
// Invalidate any existing timer
if self.timeoutTimer != nil {
self.timeoutTimer!.invalidate()
}
// Use a timer to keep track of connecting peripherals, context to pass the radio name with the timer and the RunLoop to prevent
// the timer from running on the main UI thread
let context = ["name": "@\(peripheral.name ?? "Unknown")"]
self.timeoutTimer = Timer.scheduledTimer(timeInterval: 5.0, target: self, selector: #selector(timeoutTimerFired), userInfo: context, repeats: true)
RunLoop.current.add(self.timeoutTimer!, forMode: .common)
}
// Disconnect Connected Peripheral
func disconnectPeripheral() {
guard let connectedPeripheral = connectedPeripheral else { return }
centralManager?.cancelPeripheralConnection(connectedPeripheral.peripheral)
isConnected = false
invalidVersion = false
connectedVersion = "0.0.0"
}
// Called each time a peripheral is discovered
func centralManager(_ central: CBCentralManager, didDiscover peripheral: CBPeripheral, advertisementData: [String: Any], rssi RSSI: NSNumber) {
var peripheralName: String = peripheral.name ?? "Unknown"
let last4Code: String = (peripheral.name != nil ? String(peripheral.name!.suffix(4)) : "Unknown")
if let name = advertisementData[CBAdvertisementDataLocalNameKey] as? String {
peripheralName = name
}
let newPeripheral = Peripheral(id: peripheral.identifier.uuidString, num: 0, name: peripheralName, shortName: last4Code, longName: peripheralName, lastFourCode: last4Code, firmwareVersion: "Unknown", rssi: RSSI.intValue, bitrate: nil, channelUtilization: nil, airTime: nil, maxChannels: 0, lastUpdate: Date(), subscribed: false, peripheral: peripheral)
let peripheralIndex = peripherals.firstIndex(where: { $0.id == newPeripheral.id })
if peripheralIndex != nil && newPeripheral.peripheral.state != CBPeripheralState.connected {
peripherals[peripheralIndex!] = newPeripheral
peripherals.remove(at: peripheralIndex!)
peripherals.append(newPeripheral)
} else {
if newPeripheral.peripheral.state != CBPeripheralState.connected {
peripherals.append(newPeripheral)
print(" Adding peripheral: \(peripheralName)")
}
}
let today = Date()
let visibleDuration = Calendar.current.date(byAdding: .second, value: -3, to: today)!
peripherals.removeAll(where: { $0.lastUpdate < visibleDuration})
}
// Called when a peripheral is connected
func centralManager(_ central: CBCentralManager, didConnect peripheral: CBPeripheral) {
self.isConnected = true
if userSettings?.preferredPeripheralId.count ?? 0 < 1 {
self.userSettings?.preferredPeripheralId = peripheral.identifier.uuidString
self.preferredPeripheral = true
} else if userSettings!.preferredPeripheralId == peripheral.identifier.uuidString {
self.preferredPeripheral = true
} else {
print("Trying to connect a non prefered peripheral")
}
// Invalidate and reset connection timer count, remove any connection errors
self.lastConnectionError = ""
self.timeoutTimerCount = 0
if self.timeoutTimer != nil {
self.timeoutTimer!.invalidate()
}
// Map the peripheral to the connectedPeripheral ObservedObjects
connectedPeripheral = peripherals.filter({ $0.peripheral.identifier == peripheral.identifier }).first
if connectedPeripheral != nil {
connectedPeripheral.peripheral.delegate = self
}
else {
// we are null just disconnect and start over
self.lastConnectionError = "Bluetooth connection error, please try again."
self.disconnectPeripheral()
return
}
// Discover Services
peripheral.discoverServices([meshtasticServiceCBUUID, DFUSERVICE_UUID])
if meshLoggingEnabled { MeshLogger.log("✅ BLE Connected: \(peripheral.name ?? "Unknown")") }
}
// Called when a Peripheral fails to connect
func centralManager(_ central: CBCentralManager, didFailToConnect peripheral: CBPeripheral, error: Error?) {
if meshLoggingEnabled { MeshLogger.log("🚫 BLE Failed to Connect: \(peripheral.name ?? "Unknown")") }
disconnectPeripheral()
}
// Disconnect Peripheral Event
func centralManager(_ central: CBCentralManager, didDisconnectPeripheral peripheral: CBPeripheral, error: Error?) {
// Start a scan so the disconnected peripheral is moved to the peripherals[] if it is awake
self.startScanning()
self.connectedPeripheral = nil
if let e = error {
// https://developer.apple.com/documentation/corebluetooth/cberror/code
let errorCode = (e as NSError).code
// unknown = 0,
if errorCode == 6 { // CBError.Code.connectionTimeout The connection has timed out unexpectedly.
// Happens when device is manually reset / powered off
// We will try and re-connect to this device
lastConnectionError = "🚨 \(e.localizedDescription) The app will automatically reconnect to the preferred radio if it reappears within one minute."
if peripheral.identifier.uuidString == UserDefaults.standard.object(forKey: "preferredPeripheralId") as? String ?? "" {
if meshLoggingEnabled { MeshLogger.log(" BLE Reconnecting: \(peripheral.name ?? "Unknown")") }
self.connectTo(peripheral: peripheral)
}
} else if errorCode == 7 { // CBError.Code.peripheralDisconnected The specified device has disconnected from us.
// Seems to be what is received when a tbeam sleeps, immediately recconnecting does not work.
lastConnectionError = e.localizedDescription
if meshLoggingEnabled { MeshLogger.log("🚨 BLE Disconnected: \(peripheral.name ?? "Unknown") Error Code: \(errorCode) Error: \(e.localizedDescription)") }
} else if errorCode == 14 { // Peer removed pairing information
// Forgetting and reconnecting seems to be necessary so we need to show the user an error telling them to do that
lastConnectionError = "🚨 \(e.localizedDescription) This error usually cannot be fixed without forgetting the device unders Settings > Bluetooth and re-connecting to the radio."
if meshLoggingEnabled { MeshLogger.log("🚨 BLE Disconnected: \(peripheral.name ?? "Unknown") Error Code: \(errorCode) Error: \(lastConnectionError)") }
} else {
lastConnectionError = e.localizedDescription
if meshLoggingEnabled { MeshLogger.log("🚨 BLE Disconnected: \(peripheral.name ?? "Unknown") Error Code: \(errorCode) Error: \(e.localizedDescription)") }
}
} else {
// Disconnected without error which indicates user intent to disconnect
// Happens when swiping to disconnect
if meshLoggingEnabled { MeshLogger.log(" BLE Disconnected: \(peripheral.name ?? "Unknown"): User Initiated Disconnect") }
}
}
// MARK: Peripheral Services functions
func peripheral(_ peripheral: CBPeripheral, didDiscoverServices error: Error?) {
if let e = error {
print("🚫 Discover Services error \(e)")
}
guard let services = peripheral.services else { return }
for service in services {
if service.uuid == meshtasticServiceCBUUID {
if meshLoggingEnabled { MeshLogger.log("✅ BLE Service for Meshtastic discovered by \(peripheral.name ?? "Unknown")") }
//peripheral.discoverCharacteristics(nil, for: service)
peripheral.discoverCharacteristics([TORADIO_UUID, FROMRADIO_UUID, FROMNUM_UUID], for: service)
} else if (service.uuid == DFUSERVICE_UUID) {
print("✅ Meshtastic DFU service discovered OK")
if meshLoggingEnabled { MeshLogger.log("✅ BLE Service for Meshtastic DFU discovered by \(peripheral.name ?? "Unknown")") }
peripheral.discoverCharacteristics([DFUDATA_UUID, DFUSIZE_UUID, DFUREGION_UUID, DFURESULT_UUID, DFUCRC32_UUID], for: service)
}
}
}
func peripheral(_ peripheral: CBPeripheral, didModifyServices invalidatedServices: [CBService]) {
print(invalidatedServices)
}
// MARK: Discover Characteristics Event
func peripheral(_ peripheral: CBPeripheral, didDiscoverCharacteristicsFor service: CBService, error: Error?) {
if let e = error {
if meshLoggingEnabled { MeshLogger.log("🚫 BLE didDiscoverCharacteristicsFor error by \(peripheral.name ?? "Unknown") \(e)") }
}
guard let characteristics = service.characteristics else { return }
for characteristic in characteristics {
switch characteristic.uuid {
case TORADIO_UUID:
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover TORADIO characteristic for Meshtastic by \(peripheral.name ?? "Unknown")") }
TORADIO_characteristic = characteristic
case FROMRADIO_UUID:
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover FROMRADIO characteristic for Meshtastic by \(peripheral.name ?? "Unknown")") }
FROMRADIO_characteristic = characteristic
peripheral.readValue(for: FROMRADIO_characteristic)
case FROMNUM_UUID:
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover FROMNUM (Notify) characteristic for Meshtastic by \(peripheral.name ?? "Unknown")") }
FROMNUM_characteristic = characteristic
peripheral.setNotifyValue(true, for: characteristic)
case DFUSIZE_UUID:
print("✅ DFU Size characteristic OK")
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover DFU Size characteristic for Meshtastic DFU by \(peripheral.name ?? "Unknown")") }
DFUSIZE_characteristic = characteristic
case DFUDATA_UUID:
print("✅ DFU Data characteristic OK")
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover DFU Data characteristic for Meshtastic DFU by \(peripheral.name ?? "Unknown")") }
DFUDATA_characteristic = characteristic
case DFUCRC32_UUID:
print("✅ DFU CRC32 characteristic OK")
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover DFU CRC32 characteristic for Meshtastic DFU by \(peripheral.name ?? "Unknown")") }
DFUCRC32_characteristic = characteristic
case DFURESULT_UUID:
print("✅ DFU Result characteristic OK")
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover DFU Result characteristic for Meshtastic DFU by \(peripheral.name ?? "Unknown")") }
DFURESULT_characteristic = characteristic
case DFUREGION_UUID:
print("✅ DFU Region characteristic OK")
if meshLoggingEnabled { MeshLogger.log("✅ BLE did discover DFU Region characteristic for Meshtastic DFU by \(peripheral.name ?? "Unknown")") }
DFUREGION_characteristic = characteristic
default:
break
}
}
if (![FROMNUM_characteristic, FROMNUM_characteristic, TORADIO_characteristic].contains(nil)) {
sendWantConfig()
self.configTimeoutTimer = Timer.scheduledTimer(timeInterval: TimeInterval(30), target: self, selector: #selector(configTimeoutTimerFired), userInfo: context, repeats: false)
RunLoop.current.add(self.configTimeoutTimer!, forMode: .common)
}
}
func requestDeviceMetadata() {
guard (connectedPeripheral!.peripheral.state == CBPeripheralState.connected) else { return }
MeshLogger.log(" Requesting Device Metadata for \(connectedPeripheral!.peripheral.name ?? "Unknown")")
var adminPacket = AdminMessage()
adminPacket.getDeviceMetadataRequest = 0
var meshPacket: MeshPacket = MeshPacket()
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
dataMessage.wantResponse = true
meshPacket.decoded = dataMessage
var toRadio: ToRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
connectedPeripheral!.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
// Either Read the config complete value or from num notify value
connectedPeripheral!.peripheral.readValue(for: FROMRADIO_characteristic)
}
func sendWantConfig() {
guard (connectedPeripheral!.peripheral.state == CBPeripheralState.connected) else { return }
MeshLogger.log(" Issuing wantConfig to \(connectedPeripheral!.peripheral.name ?? "Unknown")")
//BLE Characteristics discovered, issue wantConfig
var toRadio: ToRadio = ToRadio()
configNonce += 1
toRadio.wantConfigID = configNonce
let binaryData: Data = try! toRadio.serializedData()
connectedPeripheral!.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
// Either Read the config complete value or from num notify value
connectedPeripheral!.peripheral.readValue(for: FROMRADIO_characteristic)
}
func peripheral(_ peripheral: CBPeripheral, didUpdateNotificationStateFor characteristic: CBCharacteristic, error: Error?) {
if let errorText = error?.localizedDescription {
if meshLoggingEnabled { MeshLogger.log("🚫 didUpdateNotificationStateFor error: \(errorText)") }
}
}
// MARK: Data Read / Update Characteristic Event
func peripheral(_ peripheral: CBPeripheral, didUpdateValueFor characteristic: CBCharacteristic, error: Error?) {
if let e = error {
print("🚫 didUpdateValueFor Characteristic error \(e)")
let errorCode = (e as NSError).code
if errorCode == 5 { // CBATTErrorDomain Code=5 "Authentication is insufficient."
// BLE Pin connection error
lastConnectionError = "🚫 BLE \(e.localizedDescription) Please try connecting again and check the PIN carefully."
if meshLoggingEnabled { MeshLogger.log("🚫 BLE \(e.localizedDescription) Please try connecting again and check the PIN carefully.") }
self.centralManager?.cancelPeripheralConnection(peripheral)
}
if errorCode == 15 { // CBATTErrorDomain Code=15 "Encryption is insufficient."
// BLE Pin connection error
lastConnectionError = "🚫 BLE \(e.localizedDescription) Please try connecting again and check the PIN carefully."
if meshLoggingEnabled { MeshLogger.log("🚫 BLE \(e.localizedDescription) Please try connecting again. You may need to forget the device under Settings > General > Bluetooth.") }
self.centralManager?.cancelPeripheralConnection(peripheral)
}
}
switch characteristic.uuid {
case FROMRADIO_UUID:
if characteristic.value == nil || characteristic.value!.isEmpty {
return
}
var decodedInfo = FromRadio()
do {
decodedInfo = try FromRadio(serializedData: characteristic.value!)
} catch {
print(characteristic.value!)
}
switch decodedInfo.packet.decoded.portnum {
// Handle Any local only packets we get over BLE
case .unknownApp:
var nowKnown = false
// MyInfo
if decodedInfo.myInfo.isInitialized && decodedInfo.myInfo.myNodeNum > 0 {
let lastDotIndex = decodedInfo.myInfo.firmwareVersion.lastIndex(of: ".")
let version = decodedInfo.myInfo.firmwareVersion[...(lastDotIndex ?? String.Index(utf16Offset: 6, in: decodedInfo.myInfo.firmwareVersion))]
nowKnown = true
connectedVersion = String(version)
let supportedVersion = connectedVersion == "0.0.0" || self.minimumVersion.compare(connectedVersion, options: .numeric) == .orderedAscending || minimumVersion.compare(connectedVersion, options: .numeric) == .orderedSame
if !supportedVersion {
invalidVersion = true
self.lastConnectionError = "🚨 Update your firmware"
return
} else {
let myInfo = myInfoPacket(myInfo: decodedInfo.myInfo, meshLogging: meshLoggingEnabled, context: context!)
if myInfo != nil {
self.connectedPeripheral.bitrate = myInfo!.bitrate
self.connectedPeripheral.num = myInfo!.myNodeNum
self.connectedPeripheral.firmwareVersion = myInfo!.firmwareVersion ?? "Unknown"
self.connectedPeripheral.name = myInfo!.bleName ?? "Unknown"
self.connectedPeripheral.longName = myInfo!.bleName ?? "Unknown"
self.connectedPeripheral.maxChannels = myInfo!.maxChannels
}
}
}
// NodeInfo
if decodedInfo.nodeInfo.num != 0 && !invalidVersion {
nowKnown = true
let nodeInfo = nodeInfoPacket(nodeInfo: decodedInfo.nodeInfo, meshLogging: meshLoggingEnabled, context: context!)
if nodeInfo != nil {
self.connectedPeripheral.channelUtilization = decodedInfo.nodeInfo.deviceMetrics.channelUtilization
self.connectedPeripheral.airTime = decodedInfo.nodeInfo.deviceMetrics.airUtilTx
if self.connectedPeripheral != nil && self.connectedPeripheral.num == nodeInfo!.num {
if nodeInfo!.user != nil {
connectedPeripheral.shortName = nodeInfo!.user!.shortName ?? "????"
connectedPeripheral.longName = nodeInfo!.user!.longName ?? "Unknown"
}
}
}
}
// Config
if decodedInfo.config.isInitialized && !invalidVersion {
nowKnown = true
localConfig(config: decodedInfo.config, meshlogging: meshLoggingEnabled, context: context!, nodeNum: self.connectedPeripheral.num, nodeLongName: self.connectedPeripheral.longName)
}
// Module Config
if decodedInfo.moduleConfig.isInitialized && !invalidVersion {
nowKnown = true
moduleConfig(config: decodedInfo.moduleConfig, meshlogging: meshLoggingEnabled, context: context!, nodeNum: self.connectedPeripheral.num, nodeLongName: self.connectedPeripheral.longName)
}
// Log any other unknownApp calls
if !nowKnown {
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Unknown App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
}
case .textMessageApp:
textMessageAppPacket(packet: decodedInfo.packet, connectedNode: (self.connectedPeripheral != nil ? connectedPeripheral.num : 0), meshLogging: meshLoggingEnabled, context: context!)
case .remoteHardwareApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Remote Hardware App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .positionApp:
positionPacket(packet: decodedInfo.packet, meshLogging: meshLoggingEnabled, context: context!)
case .waypointApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Waypoint App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .nodeinfoApp:
if !invalidVersion {
nodeInfoAppPacket(packet: decodedInfo.packet, meshLogging: meshLoggingEnabled, context: context!)
}
case .routingApp:
if !invalidVersion {
routingPacket(packet: decodedInfo.packet, meshLogging: meshLoggingEnabled, context: context!)
}
case .adminApp:
adminAppPacket(packet: decodedInfo.packet, meshLogging: meshLoggingEnabled, context: context!)
case .replyApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Reply App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .ipTunnelApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for IP Tunnel App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .serialApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Serial App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .storeForwardApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Store Forward App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .rangeTestApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Range Test App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .telemetryApp:
if !invalidVersion {
telemetryPacket(packet: decodedInfo.packet, meshLogging: meshLoggingEnabled, context: context!)
}
case .textMessageCompressedApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Text Message Compressed App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .zpsApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for ZPS App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .privateApp:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Private App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .atakForwarder:
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for ATAK Forwarder App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .UNRECOGNIZED(_):
if meshLoggingEnabled { MeshLogger.log(" MESH PACKET received for Other App UNHANDLED \(try! decodedInfo.packet.jsonString())") }
case .max:
print("MAX PORT NUM OF 511")
}
// MARK: Check for an All / Broadcast User
let fetchBCUserRequest: NSFetchRequest<NSFetchRequestResult> = NSFetchRequest.init(entityName: "UserEntity")
fetchBCUserRequest.predicate = NSPredicate(format: "num == %lld", Int64(broadcastNodeNum))
do {
let fetchedUser = try context?.fetch(fetchBCUserRequest) as! [UserEntity]
if fetchedUser.isEmpty {
// Save the broadcast user if it does not exist
let bcu: UserEntity = UserEntity(context: context!)
bcu.shortName = "ALL"
bcu.longName = "All - Broadcast"
bcu.hwModel = "UNSET"
bcu.num = Int64(broadcastNodeNum)
bcu.userId = "BROADCASTNODE"
print("💾 Saved the All - Broadcast User")
}
} catch {
print("💥 Error Saving the All - Broadcast User")
}
// MARK: Share Location Position Update Timer
// Use context to pass the radio name with the timer
// Use a RunLoop to prevent the timer from running on the main UI thread
if userSettings?.provideLocation ?? false {
if self.positionTimer != nil {
self.positionTimer!.invalidate()
}
let context = ["name": "@\(peripheral.name ?? "Unknown")"]
self.positionTimer = Timer.scheduledTimer(timeInterval: TimeInterval((userSettings?.provideLocationInterval ?? 900)), target: self, selector: #selector(positionTimerFired), userInfo: context, repeats: true)
RunLoop.current.add(self.positionTimer!, forMode: .common)
}
if decodedInfo.configCompleteID != 0 && decodedInfo.configCompleteID == configNonce {
invalidVersion = false
lastConnectionError = ""
if configTimeoutTimer != nil {
configTimeoutTimer?.invalidate()
}
if meshLoggingEnabled { MeshLogger.log("🤜 BLE Config Complete Packet Id: \(decodedInfo.configCompleteID)") }
self.connectedPeripheral.subscribed = true
peripherals.removeAll(where: { $0.peripheral.state == CBPeripheralState.disconnected })
// Config conplete returns so we don't read the characteristic again
// Get all the channels
var i: UInt32 = 1;
let max: Int32 = self.connectedPeripheral.maxChannels
Timer.scheduledTimer(withTimeInterval: 0.4, repeats: true) { timer in
if i == (max + 1) {
timer.invalidate() // invalidate the timer
} else {
if self.connectedPeripheral != nil {
_ = self.getChannel(channelIndex: i, nodeNum: self.connectedPeripheral.num, wantResponse: true)
i+=1;
}
}
}
return
}
case FROMNUM_UUID :
print("🗞️ BLE FROMNUM (Notify) characteristic, value will be read next")
default:
print("🚨 Unhandled Characteristic UUID: \(characteristic.uuid)")
}
// Either Read the config complete value or from num notify value
peripheral.readValue(for: FROMRADIO_characteristic)
}
public func sendMessage(message: String, toUserNum: Int64, isEmoji: Bool, replyID: Int64) -> Bool {
var success = false
// Return false if we are not properly connected to a device, handle retry logic in the view for now
if connectedPeripheral == nil || connectedPeripheral!.peripheral.state != CBPeripheralState.connected {
self.disconnectPeripheral()
self.startScanning()
// Try and connect to the preferredPeripherial first
let preferredPeripheral = peripherals.filter({ $0.peripheral.identifier.uuidString == UserDefaults.standard.object(forKey: "preferredPeripheralId") as? String ?? "" }).first
if preferredPeripheral != nil && preferredPeripheral?.peripheral != nil {
connectTo(peripheral: preferredPeripheral!.peripheral)
}
if meshLoggingEnabled { MeshLogger.log("🚫 Message Send Failed, not properly connected to \(preferredPeripheral?.name ?? "Unknown")") }
success = false
} else if message.count < 1 {
// Don't send an empty message
print("🚫 Don't Send an Empty Message")
success = false
} else {
let fromUserNum: Int64 = self.connectedPeripheral.num
let messageUsers: NSFetchRequest<NSFetchRequestResult> = NSFetchRequest.init(entityName: "UserEntity")
messageUsers.predicate = NSPredicate(format: "num IN %@", [fromUserNum, Int64(toUserNum)])
do {
let fetchedUsers = try context?.fetch(messageUsers) as! [UserEntity]
if fetchedUsers.isEmpty {
print("🚫 Message Users Not Found, Fail")
success = false
} else if fetchedUsers.count >= 1 {
let newMessage = MessageEntity(context: context!)
newMessage.messageId = Int64(UInt32.random(in: UInt32(UInt8.max)..<UInt32.max))
newMessage.messageTimestamp = Int32(Date().timeIntervalSince1970)
newMessage.receivedACK = false
newMessage.toUser = fetchedUsers.first(where: { $0.num == toUserNum })
newMessage.isEmoji = isEmoji
newMessage.admin = false
if replyID > 0 {
newMessage.replyID = replyID
}
if newMessage.toUser == nil {
let bcu: UserEntity = UserEntity(context: context!)
bcu.shortName = "ALL"
bcu.longName = "All - Broadcast"
bcu.hwModel = "UNSET"
bcu.num = Int64(broadcastNodeNum)
bcu.userId = "BROADCASTNODE"
newMessage.toUser = bcu
}
newMessage.fromUser = fetchedUsers.first(where: { $0.num == fromUserNum })
newMessage.messagePayload = message
let dataType = PortNum.textMessageApp
let payloadData: Data = message.data(using: String.Encoding.utf8)!
var dataMessage = DataMessage()
dataMessage.payload = payloadData
dataMessage.portnum = dataType
var meshPacket = MeshPacket()
meshPacket.id = UInt32(newMessage.messageId)
meshPacket.to = UInt32(toUserNum)
meshPacket.from = UInt32(fromUserNum)
meshPacket.decoded = dataMessage
meshPacket.decoded.emoji = isEmoji ? 1 : 0
if replyID > 0 {
meshPacket.decoded.replyID = UInt32(replyID)
}
meshPacket.wantAck = true
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if meshLoggingEnabled { MeshLogger.log("📲 New messageId \(newMessage.messageId) sent to \(newMessage.toUser?.longName! ?? "Unknown")") }
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
do {
try context!.save()
if meshLoggingEnabled { MeshLogger.log("💾 Saved a new sent message from \(connectedPeripheral.num) to \(toUserNum)") }
success = true
} catch {
context!.rollback()
let nsError = error as NSError
if meshLoggingEnabled { MeshLogger.log("💥 Unresolved Core Data error in Send Message Function it is likely that your database is corrupted deleting and re-installing the app should clear the corrupted data. Error: \(nsError)") }
}
}
}
} catch {
}
}
return success
}
public func sendLocation(destNum: Int64, wantAck: Bool) -> Bool {
var success = false
let fromNodeNum = connectedPeripheral.num
if fromNodeNum <= 0 || (LocationHelper.currentLocation.latitude == LocationHelper.DefaultLocation.latitude && LocationHelper.currentLocation.longitude == LocationHelper.DefaultLocation.longitude) {
return false
}
var waypointPacket = Waypoint()
waypointPacket.latitudeI = Int32(LocationHelper.currentLocation.latitude * 1e7)
waypointPacket.longitudeI = Int32(LocationHelper.currentLocation.longitude * 1e7)
let oneWeekFromNow = Calendar.current.date(byAdding: .day, value: 7, to: Date())
waypointPacket.expire = UInt32(oneWeekFromNow!.timeIntervalSince1970)
waypointPacket.name = "Test Waypoint"
var meshPacket = MeshPacket()
meshPacket.to = UInt32(destNum)
meshPacket.from = 0 // Send 0 as from from phone to device to avoid warning about client trying to set node num
meshPacket.wantAck = true//wantAck
var dataMessage = DataMessage()
dataMessage.payload = try! waypointPacket.serializedData()
dataMessage.portnum = PortNum.waypointApp
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if meshLoggingEnabled { MeshLogger.log("📍 Sent a Location Packet from the Apple device GPS to node: \(fromNodeNum)") }
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
success = true
}
return success
}
public func sendPosition(destNum: Int64, wantAck: Bool) -> Bool {
var success = false
let fromNodeNum = connectedPeripheral.num
if fromNodeNum <= 0 || (LocationHelper.currentLocation.latitude == LocationHelper.DefaultLocation.latitude && LocationHelper.currentLocation.longitude == LocationHelper.DefaultLocation.longitude) {
return false
}
var positionPacket = Position()
positionPacket.latitudeI = Int32(LocationHelper.currentLocation.latitude * 1e7)
positionPacket.longitudeI = Int32(LocationHelper.currentLocation.longitude * 1e7)
positionPacket.time = UInt32(LocationHelper.currentTimestamp.timeIntervalSince1970)
positionPacket.altitude = Int32(LocationHelper.currentAltitude)
// Get Errors without some speed
if LocationHelper.currentSpeed >= 5 {
positionPacket.groundSpeed = UInt32(LocationHelper.currentSpeed)
positionPacket.groundTrack = UInt32(LocationHelper.currentHeading)
}
var meshPacket = MeshPacket()
meshPacket.to = UInt32(destNum)
meshPacket.from = 0 // Send 0 as from from phone to device to avoid warning about client trying to set node num
meshPacket.wantAck = wantAck
var dataMessage = DataMessage()
dataMessage.payload = try! positionPacket.serializedData()
dataMessage.portnum = PortNum.positionApp
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if meshLoggingEnabled { MeshLogger.log("📍 Sent a Position Packet from the Apple device GPS to node: \(fromNodeNum)") }
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
success = true
}
return success
}
@objc func positionTimerFired(timer: Timer) {
// Check for connected node
if connectedPeripheral != nil {
// Send a position out to the mesh if "share location with the mesh" is enabled in settings
if userSettings!.provideLocation {
let success = sendPosition(destNum: connectedPeripheral.num, wantAck: false)
if !success {
print("Failed to send positon to device")
}
}
}
}
public func sendShutdown(destNum: Int64) -> Bool {
var adminPacket = AdminMessage()
adminPacket.shutdownSeconds = 10
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
do {
try context!.save()
if meshLoggingEnabled { MeshLogger.log("💾 Saved a Shutdown Admin Message for node: \(String(destNum))") }
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
return true
} catch {
context!.rollback()
let nsError = error as NSError
print("💥 Error Inserting New Core Data MessageEntity: \(nsError)")
}
}
return false
}
public func sendReboot(destNum: Int64) -> Bool {
var adminPacket = AdminMessage()
adminPacket.rebootSeconds = 10
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
do {
try context!.save()
if meshLoggingEnabled { MeshLogger.log("💾 Saved a Reboot Admin Message for node: \(String(destNum))") }
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
return true
} catch {
context!.rollback()
let nsError = error as NSError
print("💥 Error Inserting New Core Data MessageEntity: \(nsError)")
}
}
return false
}
public func sendFactoryReset(destNum: Int64) -> Bool {
var adminPacket = AdminMessage()
adminPacket.factoryReset = 1
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
do {
try context!.save()
if meshLoggingEnabled { MeshLogger.log("💾 Saved a Factory Reset Admin Message for node: \(String(destNum))") }
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
return true
} catch {
context!.rollback()
let nsError = error as NSError
print("💥 Error Inserting New Core Data MessageEntity: \(nsError)")
}
}
return false
}
public func sendNodeDBReset(destNum: Int64) -> Bool {
var adminPacket = AdminMessage()
adminPacket.nodedbReset = 1
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = 0//UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
do {
try context!.save()
if meshLoggingEnabled { MeshLogger.log("💾 Sent a NodeDB Reset Admin Message for node: \(String(destNum))") }
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
PersistenceController.shared.clearDatabase()
return true
} catch {
context!.rollback()
let nsError = error as NSError
print("💥 Error Inserting New Core Data MessageEntity: \(nsError)")
}
}
return false
}
public func saveUser(config: User, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setOwner = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved User Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveBluetoothConfig(config: Config.BluetoothConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setConfig.bluetooth = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Bluetooth Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveDeviceConfig(config: Config.DeviceConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setConfig.device = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Device Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveDisplayConfig(config: Config.DisplayConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setConfig.display = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Display Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveLoRaConfig(config: Config.LoRaConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setConfig.lora = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved LoRa Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func savePositionConfig(config: Config.PositionConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setConfig.position = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Position Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveWiFiConfig(config: Config.NetworkConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setConfig.network = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved WiFi Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveCannedMessageModuleConfig(config: ModuleConfig.CannedMessageConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setModuleConfig.cannedMessage = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(toUser.num)
meshPacket.from = 0 //UInt32(fromUser.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Canned Message Module Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveCannedMessageModuleMessages(messages: String, fromUser: UserEntity, toUser: UserEntity, wantResponse: Bool) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setCannedMessageModuleMessages = messages
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(toUser.num)
meshPacket.from = 0 //UInt32(fromUser.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
dataMessage.wantResponse = wantResponse
meshPacket.decoded = dataMessage
let messageDescription = "Saved Canned Message Module Messages for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func getChannel(channelIndex: UInt32, nodeNum: Int64, wantResponse: Bool) -> Bool {
var adminPacket = AdminMessage()
adminPacket.getChannelRequest = channelIndex
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(nodeNum)
meshPacket.from = 0 //UInt32(cnodeNum)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = wantResponse
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
dataMessage.wantResponse = true
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
if meshLoggingEnabled { MeshLogger.log("🛎️ Send Get Channel \(channelIndex) Request Admin Message for node: \(String(connectedPeripheral.num))") }
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
return true
}
return false
}
public func getCannedMessageModuleMessages(destNum: Int64, wantResponse: Bool) -> Bool {
var adminPacket = AdminMessage()
adminPacket.getCannedMessageModuleMessagesRequest = true
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.decoded.wantResponse = wantResponse
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
dataMessage.wantResponse = wantResponse
meshPacket.decoded = dataMessage
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
do {
try context!.save()
if meshLoggingEnabled { MeshLogger.log("💾 Saved a Canned Messages Module Get Messages Request Admin Message for node: \(String(destNum))") }
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
return true
} catch {
context!.rollback()
let nsError = error as NSError
print("💥 Error Inserting New Core Data MessageEntity: \(nsError)")
}
}
return false
}
public func saveExternalNotificationModuleConfig(config: ModuleConfig.ExternalNotificationConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setModuleConfig.externalNotification = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(toUser.num)
meshPacket.from = 0 //UInt32(fromUser.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved External Notification Module Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveMQTTConfig(config: ModuleConfig.MQTTConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setModuleConfig.mqtt = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved WiFi Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveRangeTestModuleConfig(config: ModuleConfig.RangeTestConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setModuleConfig.rangeTest = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(toUser.num)
meshPacket.from = 0 //UInt32(fromUser.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Range Test Module Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveSerialModuleConfig(config: ModuleConfig.SerialConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setModuleConfig.serial = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(connectedPeripheral.num)
meshPacket.from = 0 //UInt32(connectedPeripheral.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
meshPacket.hopLimit = 0
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Serial Module Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
public func saveTelemetryModuleConfig(config: ModuleConfig.TelemetryConfig, fromUser: UserEntity, toUser: UserEntity) -> Int64 {
var adminPacket = AdminMessage()
adminPacket.setModuleConfig.telemetry = config
var meshPacket: MeshPacket = MeshPacket()
meshPacket.to = UInt32(toUser.num)
meshPacket.from = 0 //UInt32(fromUser.num)
meshPacket.id = UInt32.random(in: UInt32(UInt8.max)..<UInt32.max)
meshPacket.priority = MeshPacket.Priority.reliable
meshPacket.wantAck = true
var dataMessage = DataMessage()
dataMessage.payload = try! adminPacket.serializedData()
dataMessage.portnum = PortNum.adminApp
meshPacket.decoded = dataMessage
let messageDescription = "Saved Telemetry Module Config for \(toUser.longName ?? "Unknown")"
if sendAdminMessageToRadio(meshPacket: meshPacket, adminDescription: messageDescription, fromUser: fromUser, toUser: toUser) {
return Int64(meshPacket.id)
}
return 0
}
// Send an admin message to a radio, save a message to core data for logging
private func sendAdminMessageToRadio(meshPacket: MeshPacket, adminDescription: String, fromUser: UserEntity, toUser: UserEntity) -> Bool {
var toRadio: ToRadio!
toRadio = ToRadio()
toRadio.packet = meshPacket
let binaryData: Data = try! toRadio.serializedData()
if connectedPeripheral!.peripheral.state == CBPeripheralState.connected {
let newMessage = MessageEntity(context: context!)
newMessage.messageId = Int64(meshPacket.id)
newMessage.messageTimestamp = Int32(Date().timeIntervalSince1970)
newMessage.receivedACK = false
newMessage.admin = true
newMessage.adminDescription = adminDescription
newMessage.fromUser = fromUser
newMessage.toUser = toUser
do {
connectedPeripheral.peripheral.writeValue(binaryData, for: TORADIO_characteristic, type: .withResponse)
try context!.save()
if meshLoggingEnabled { MeshLogger.log("💾 \(adminDescription)") }
return true
} catch {
context!.rollback()
let nsError = error as NSError
print("💥 Error inserting new core data MessageEntity: \(nsError)")
}
}
return false
}
}
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