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TempTrack-iOS/TempTrack/Bluetooth/BluetoothClient.swift
Christoph Hagen 01a3aac91b Allow deletion of measurements
2023-06-13 17:14:57 +02:00

282 lines
8.4 KiB
Swift
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import Foundation
import SwiftUI
final class BluetoothClient: ObservableObject {
private let updateInterval = 3.0
private let minimumOffsetToUpdateDeviceClock = 5.0
private let connection = DeviceManager()
private let storage: TemperatureStorage
init(storage: TemperatureStorage, deviceInfo: DeviceInfo? = nil) {
self.storage = storage
self.deviceInfo = deviceInfo
connection.delegate = self
}
func connect() -> Bool {
connection.connect()
}
@Published
private(set) var deviceState: DeviceState = .disconnected {
didSet {
print("State: \(deviceState)")
if case .configured = deviceState {
startRegularUpdates()
} else {
endRegularUpdates()
}
}
}
@Published
private(set) var deviceInfo: DeviceInfo? {
didSet {
updateDeviceTimeIfNeeded()
collectRecordedData()
if let deviceInfo, let runningTransfer {
runningTransfer.update(info: deviceInfo)
let next = runningTransfer.nextRequest()
addRequest(next)
}
}
}
private var openRequests: [BluetoothRequest] = []
private var runningRequest: BluetoothRequest?
private var runningTransfer: TemperatureDataTransfer?
// MARK: Regular updates
func updateDeviceInfo() {
guard case .configured = deviceState else {
return
}
addRequest(.getInfo)
}
private var dataUpdateTimer: Timer?
private func startRegularUpdates() {
guard dataUpdateTimer == nil else {
return
}
print("Starting updates")
dataUpdateTimer = Timer.scheduledTimer(withTimeInterval: updateInterval, repeats: true) { [weak self] timer in
guard let self = self else {
timer.invalidate()
return
}
self.updateDeviceInfo()
}
dataUpdateTimer?.fire()
}
private func endRegularUpdates() {
guard let dataUpdateTimer else {
return
}
dataUpdateTimer.invalidate()
runningRequest = nil
self.dataUpdateTimer = nil
print("Ending updates")
}
// MARK: Requests
private func performNextRequest() {
guard runningRequest == nil else {
return
}
guard !openRequests.isEmpty else {
return
}
let next = openRequests.removeFirst()
guard connection.send(next.serialized) else {
print("Failed to start request \(next)")
performNextRequest()
return
}
runningRequest = next
}
func addRequest(_ request: BluetoothRequest) {
defer {
performNextRequest()
}
let type = request.byte
if let runningRequest, runningRequest.byte == type {
print("Skipping duplicate request \(request)")
return
}
guard !openRequests.contains(where: { $0.byte == type }) else {
print("Skipping duplicate request \(request)")
return
}
openRequests.append(request)
}
// MARK: Device time
private func updateDeviceTimeIfNeeded() {
guard let deviceInfo else {
return
}
guard !deviceInfo.hasDeviceStartTimeSet || deviceInfo.clockOffset > minimumOffsetToUpdateDeviceClock else {
return
}
guard !openRequests.contains(where: { if case .setDeviceStartTime = $0 { return true }; return false }) else {
return
}
let time = deviceInfo.deviceStartTime.seconds
addRequest(.setDeviceStartTime(deviceStartTimeSeconds: time))
print("Setting device start time to \(time) s (\(Date().seconds) current)")
}
// MARK: Data transfer
@discardableResult
func collectRecordedData() -> Bool {
guard runningTransfer == nil else {
print("Transfer already running")
return false
}
guard !openRequests.contains(where: { if case .getRecordingData = $0 { return true }; return false }) else {
print("Transfer already in scheduled")
return false
}
guard let info = deviceInfo else {
print("No device info to start transfer")
return false
}
guard info.numberOfStoredMeasurements > 0 else {
return false
}
let transfer = TemperatureDataTransfer(info: info)
runningTransfer = transfer
let next = transfer.nextRequest()
print("Starting transfer")
addRequest(next)
return true
}
private func didReceive(data: Data, offset: Int, count: Int) {
guard let runningTransfer else {
print("No running transfer to process device data")
return // TODO: Start new transfer?
}
runningTransfer.add(data: data, offset: offset, count: count)
let next = runningTransfer.nextRequest()
addRequest(next)
}
private func decode(info: Data) {
guard let newInfo = try? DeviceInfo(info: info) else {
print("Failed to decode device info")
return
}
self.deviceInfo = newInfo
}
}
extension BluetoothClient: DeviceManagerDelegate {
func deviceManager(didReceive data: Data) {
defer {
performNextRequest()
}
guard let runningRequest else {
print("No request active, but \(data) received")
return
}
self.runningRequest = nil
guard data.count > 0 else {
print("No response data for request \(runningRequest)")
return
}
guard let type = BluetoothResponseType(rawValue: data[0]) else {
print("Unknown response \(data[0]) for request \(runningRequest)")
return
}
switch type {
case .success:
break
case .responseInProgress:
print("Device is busy for \(runningRequest)")
// Retry the request
addRequest(runningRequest)
return
case .invalidNumberOfBytesToDelete:
guard case .clearRecordingBuffer = runningRequest else {
// If clearing the recording buffer fails due to byte mismatch,
// then requesting new info will resolve the mismatch, and the transfer will be resumed
addRequest(.getInfo)
return
}
print("Request \(runningRequest) received non-matching responde about number of bytes to delete")
case .responseTooLarge:
guard case .getRecordingData = runningRequest else {
// If requesting bytes fails due to the response size,
// then requesting new info will update the response size, and the transfer will be resumed
addRequest(.getInfo)
return
}
print("Unexpectedly exceeded payload size for request \(runningRequest)")
default:
print("Unknown response \(data[0]) for request \(runningRequest)")
// If clearing the recording buffer fails due to byte mismatch,
// then requesting new info will resolve the mismatch, and the transfer will be resumed
addRequest(.getInfo)
return
}
let payload = data.dropFirst()
switch runningRequest {
case .getInfo:
decode(info: payload)
case .getRecordingData(let offset, let count):
didReceive(data: payload, offset: offset, count: count)
case .clearRecordingBuffer:
didClearDeviceStorage()
case .setDeviceStartTime:
print("Device time set")
break
}
}
private func didClearDeviceStorage() {
guard let runningTransfer else {
print("No running transfer after clearing device storage")
return
}
runningTransfer.completeTransfer()
storage.add(runningTransfer.measurements)
self.runningTransfer = nil
updateDeviceTimeIfNeeded()
}
func deviceManager(didChangeState state: DeviceState) {
DispatchQueue.main.async {
self.deviceState = state
}
}
}
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