import SwiftUI import CryptoKit let server = Client(server: URL(string: "https://christophhagen.de/sesame/")!) struct ContentView: View { @AppStorage("counter") var nextMessageCounter: Int = 0 @AppStorage("compensate") var isCompensatingDaylightTime: Bool = false @State var keyManager = KeyManagement() let history = HistoryManager() @State var state: ClientState = .noKeyAvailable @State private var timer: Timer? @State private var hasActiveRequest = false @State private var responseTime: Date? = nil @State private var showKeySheet = false @State private var showHistorySheet = false var compensationTime: UInt32 { isCompensatingDaylightTime ? 3600 : 0 } var isPerformingRequests: Bool { hasActiveRequest || state == .waitingForResponse } var buttonBackground: Color { state.allowsAction ? .white.opacity(0.2) : .black.opacity(0.2) } let buttonBorderWidth: CGFloat = 3 var buttonColor: Color { state.allowsAction ? .white : .gray } private let buttonWidth: CGFloat = 250 private let smallButtonHeight: CGFloat = 50 private let smallButtonWidth: CGFloat = 120 private let smallButtonBorderWidth: CGFloat = 1 var body: some View { GeometryReader { geo in VStack(spacing: 20) { HStack { Button("History", action: { showHistorySheet = true }) .frame(width: smallButtonWidth, height: smallButtonHeight) .background(.white.opacity(0.2)) .cornerRadius(smallButtonHeight / 2) .overlay(RoundedRectangle(cornerRadius: smallButtonHeight / 2).stroke(lineWidth: smallButtonBorderWidth).foregroundColor(.white)) .foregroundColor(.white) .font(.title2) .padding() Spacer() Button("Keys", action: { showKeySheet = true }) .frame(width: smallButtonWidth, height: smallButtonHeight) .background(.white.opacity(0.2)) .cornerRadius(smallButtonHeight / 2) .overlay(RoundedRectangle(cornerRadius: smallButtonHeight / 2).stroke(lineWidth: smallButtonBorderWidth).foregroundColor(.white)) .foregroundColor(.white) .font(.title2) .padding() } Spacer() if state.requiresDescription { Text(state.description) .padding() } Button(state.actionText, action: mainButtonPressed) .frame(width: buttonWidth, height: buttonWidth) .background(buttonBackground) .cornerRadius(buttonWidth / 2) .overlay(RoundedRectangle(cornerRadius: buttonWidth / 2).stroke(lineWidth: buttonBorderWidth).foregroundColor(buttonColor)) .foregroundColor(buttonColor) .font(.title) .disabled(!state.allowsAction) .padding(.bottom, (geo.size.width-buttonWidth) / 2) } .background(state.color) .onAppear { if keyManager.hasAllKeys { state = .requestingStatus } startRegularStatusUpdates() } .onDisappear { endRegularStatusUpdates() } .frame(width: geo.size.width, height: geo.size.height) .animation(.easeInOut, value: state.color) .sheet(isPresented: $showKeySheet) { KeyView(keyManager: $keyManager, isCompensatingDaylightTime: $isCompensatingDaylightTime) } .sheet(isPresented: $showHistorySheet) { HistoryView(manager: history) } } .preferredColorScheme(.dark) } func mainButtonPressed() { guard let key = keyManager.get(.remoteKey), let token = keyManager.get(.authToken)?.data else { return } let count = UInt32(nextMessageCounter) let sentTime = Date() // Add time to compensate that the device is using daylight savings time let content = Message.Content( time: sentTime.timestamp + compensationTime, id: count) let message = content.authenticate(using: key) let historyItem = HistoryItem(sent: message, date: sentTime) state = .waitingForResponse print("Sending message \(count)") Task { let (newState, message) = await server.send(message, authToken: token) let receivedTime = Date.now responseTime = receivedTime state = newState let finishedItem = historyItem.didReceive(response: newState, date: receivedTime, message: message) process(item: finishedItem) } } private func process(item: HistoryItem) { guard let message = item.incomingMessage else { save(historyItem: item) return } guard let key = keyManager.get(.deviceKey) else { save(historyItem: item.notAuthenticated()) return } guard message.isValid(using: key) else { save(historyItem: item.invalidated()) return } nextMessageCounter = Int(message.content.id) save(historyItem: item) } private func save(historyItem: HistoryItem) { do { try history.save(item: historyItem) } catch { print("Failed to save item: \(error)") } } private func startRegularStatusUpdates() { guard timer == nil else { return } DispatchQueue.main.async { timer = Timer.scheduledTimer(withTimeInterval: 5, repeats: true, block: checkDeviceStatus) timer!.fire() } } private func endRegularStatusUpdates() { timer?.invalidate() timer = nil } func checkDeviceStatus(_ timer: Timer) { guard let authToken = keyManager.get(.authToken) else { return } guard !hasActiveRequest else { return } hasActiveRequest = true Task { let newState = await server.deviceStatus(authToken: authToken.data) hasActiveRequest = false switch state { case .noKeyAvailable: return case .requestingStatus, .deviceNotAvailable, .ready: state = newState case .waitingForResponse: return case .messageRejected, .openSesame, .internalError, .responseRejected: guard let time = responseTime else { state = newState return } responseTime = nil // Wait at least 5 seconds after these states have been reached before changing the // interface to allow sufficient time to see the result let elapsed = Date.now.timeIntervalSince(time) guard elapsed < 5 else { state = newState return } let secondsToWait = Int(elapsed.rounded(.up)) DispatchQueue.main.asyncAfter(deadline: .now() + .seconds(secondsToWait)) { state = newState } } } } } struct ContentView_Previews: PreviewProvider { static var previews: some View { ContentView() .previewDevice("iPhone 8") } } extension Date { var timestamp: UInt32 { UInt32(timeIntervalSince1970.rounded()) } init(timestamp: UInt32) { self.init(timeIntervalSince1970: TimeInterval(timestamp)) } }