DeviceDataManager.swift 29 KB

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  1. import Algorithms
  2. import Combine
  3. import CoreData
  4. import DanaKit
  5. import Foundation
  6. import HealthKit
  7. import LoopKit
  8. import LoopKitUI
  9. import MedtrumKit
  10. import MinimedKit
  11. import MockKit
  12. import OmnipodKit
  13. import ShareClient
  14. import SwiftDate
  15. import Swinject
  16. import UserNotifications
  17. protocol DeviceDataManager: GlucoseSource {
  18. var pumpManager: PumpManagerUI? { get set }
  19. var bluetoothManager: BluetoothStateManager { get }
  20. var loopInProgress: Bool { get set }
  21. var pumpDisplayState: CurrentValueSubject<PumpDisplayState?, Never> { get }
  22. var recommendsLoop: PassthroughSubject<Void, Never> { get }
  23. var bolusTrigger: PassthroughSubject<Bool, Never> { get }
  24. var manualTempBasal: PassthroughSubject<Bool, Never> { get }
  25. var scheduledBasal: PassthroughSubject<Bool?, Never> { get }
  26. var suspended: PassthroughSubject<Bool, Never> { get }
  27. var errorSubject: PassthroughSubject<Error, Never> { get }
  28. var pumpName: CurrentValueSubject<String, Never> { get }
  29. var pumpExpiresAtDate: CurrentValueSubject<Date?, Never> { get }
  30. var pumpActivatedAtDate: CurrentValueSubject<Date?, Never> { get }
  31. func heartbeat(date: Date)
  32. func createBolusProgressReporter() -> DoseProgressReporter?
  33. var alertHistoryStorage: AlertHistoryStorage! { get }
  34. }
  35. private let staticPumpManagers: [PumpManagerUI.Type] = [
  36. MinimedPumpManager.self,
  37. OmniPumpManager.self,
  38. DanaKitPumpManager.self,
  39. MedtrumPumpManager.self,
  40. MockPumpManager.self
  41. ]
  42. private let staticPumpManagersByIdentifier: [String: PumpManagerUI.Type] = [
  43. MinimedPumpManager.pluginIdentifier: MinimedPumpManager.self,
  44. OmniPumpManager.pluginIdentifier: OmniPumpManager.self,
  45. DanaKitPumpManager.pluginIdentifier: DanaKitPumpManager.self,
  46. MedtrumPumpManager.pluginIdentifier: MedtrumPumpManager.self,
  47. MockPumpManager.pluginIdentifier: MockPumpManager.self
  48. ]
  49. private let accessLock = NSRecursiveLock(label: "BaseDeviceDataManager.accessLock")
  50. final class BaseDeviceDataManager: DeviceDataManager, Injectable {
  51. private let processQueue = DispatchQueue.markedQueue(label: "BaseDeviceDataManager.processQueue", qos: .userInitiated)
  52. @Injected() private var pumpHistoryStorage: PumpHistoryStorage!
  53. @Injected() var alertHistoryStorage: AlertHistoryStorage!
  54. @Injected() private var storage: FileStorage!
  55. @Injected() private var broadcaster: Broadcaster!
  56. @Injected() private var glucoseStorage: GlucoseStorage!
  57. @Injected() private var settingsManager: SettingsManager!
  58. @Injected() private var bluetoothProvider: BluetoothStateManager!
  59. @Injected() private var trioAlertManager: TrioAlertManager!
  60. @Persisted(key: "BaseDeviceDataManager.lastEventDate") var lastEventDate: Date? = nil
  61. @SyncAccess(lock: accessLock) @Persisted(key: "BaseDeviceDataManager.lastHeartBeatTime") var lastHeartBeatTime: Date =
  62. .distantPast
  63. let recommendsLoop = PassthroughSubject<Void, Never>()
  64. let bolusTrigger = PassthroughSubject<Bool, Never>()
  65. let errorSubject = PassthroughSubject<Error, Never>()
  66. let pumpNewStatus = PassthroughSubject<Void, Never>()
  67. let manualTempBasal = PassthroughSubject<Bool, Never>()
  68. let scheduledBasal = PassthroughSubject<Bool?, Never>()
  69. let suspended = PassthroughSubject<Bool, Never>()
  70. private let router = TrioApp.resolver.resolve(Router.self)!
  71. @SyncAccess private var pumpUpdateCancellable: AnyCancellable?
  72. private var pumpUpdatePromise: Future<Bool, Never>.Promise?
  73. @SyncAccess var loopInProgress: Bool = false
  74. private let privateContext = CoreDataStack.shared.newTaskContext()
  75. var pumpManager: PumpManagerUI? {
  76. didSet {
  77. if let oldValue = oldValue {
  78. trioAlertManager?.unregister(managerIdentifier: oldValue.pluginIdentifier)
  79. }
  80. if let pumpManager = pumpManager {
  81. pumpManager.pumpManagerDelegate = self
  82. pumpManager.delegateQueue = processQueue
  83. trioAlertManager?.register(responder: pumpManager, for: pumpManager.pluginIdentifier)
  84. trioAlertManager?.register(soundVendor: pumpManager, for: pumpManager.pluginIdentifier)
  85. /// Since the pump manager has been successfully instantiated from its saved state,
  86. /// copy its rawValue to rawPumpManager which will be saved to persistant storage.
  87. rawPumpManager = pumpManager.rawValue
  88. UserDefaults.standard.clearLegacyPumpManagerRawValue()
  89. pumpDisplayState.value = PumpDisplayState(name: pumpManager.localizedTitle, image: pumpManager.smallImage)
  90. pumpName.send(pumpManager.localizedTitle)
  91. var modifiedPreferences = settingsManager.preferences
  92. let bolusIncrement = Decimal(
  93. pumpManager.supportedBolusVolumes.first ??
  94. Double(
  95. settingsManager.preferences
  96. .bolusIncrement
  97. )
  98. )
  99. modifiedPreferences
  100. .bolusIncrement = bolusIncrement > 0 ? bolusIncrement : 0.1
  101. storage.save(modifiedPreferences, as: OpenAPS.Settings.preferences)
  102. // Ensure the pump manager's delivery limits always reflect the user's
  103. // current settings. Without this, the active pump manager instance
  104. // may use a stale or default value from deserialized state
  105. // — silently rejecting temp basals that oref correctly
  106. // determines are within the user's configured maxBasal.
  107. let pumpSettings = settingsManager.pumpSettings
  108. let deliveryLimits = DeliveryLimits(
  109. maximumBasalRate: HKQuantity(unit: .internationalUnitsPerHour, doubleValue: Double(pumpSettings.maxBasal)),
  110. maximumBolus: HKQuantity(unit: .internationalUnit(), doubleValue: Double(pumpSettings.maxBolus))
  111. )
  112. processQueue.async {
  113. pumpManager.syncDeliveryLimits(limits: deliveryLimits) { result in
  114. if case let .failure(error) = result {
  115. debug(.deviceManager, "syncDeliveryLimits on pump manager init failed: \(error)")
  116. }
  117. }
  118. }
  119. if let medtrumPump = pumpManager as? MedtrumPumpManager {
  120. // Medtrum's state.patchExpiresAt is actually lifespan + grace
  121. // keeping this in line with omnipod, we will use just the lifetime
  122. // i.e., state.patchGracePeriodFrom
  123. guard let endTime = medtrumPump.state.patchGracePeriodFrom else {
  124. pumpExpiresAtDate.send(nil)
  125. return
  126. }
  127. pumpExpiresAtDate.send(endTime)
  128. switch medtrumPump.state.expiryMode {
  129. case .default:
  130. pumpActivatedAtDate.send(nil)
  131. case .extended:
  132. pumpActivatedAtDate.send(medtrumPump.state.patchActivatedAt)
  133. }
  134. }
  135. if let omni = pumpManager as? OmniPumpManager {
  136. guard let endTime = omni.state.podState?.expiresAt else {
  137. pumpExpiresAtDate.send(nil)
  138. return
  139. }
  140. pumpExpiresAtDate.send(endTime)
  141. }
  142. if let simulatorPump = pumpManager as? MockPumpManager {
  143. pumpDisplayState.value = PumpDisplayState(name: simulatorPump.localizedTitle, image: simulatorPump.smallImage)
  144. pumpName.send(simulatorPump.localizedTitle)
  145. storage.save(Decimal(simulatorPump.pumpReservoirCapacity), as: OpenAPS.Monitor.reservoir)
  146. DispatchQueue.main.async {
  147. self.broadcaster.notify(PumpReservoirObserver.self, on: .main) {
  148. $0.pumpReservoirDidChange(Decimal(simulatorPump.state.reservoirUnitsRemaining))
  149. }
  150. }
  151. let batteryPercent = Int((simulatorPump.state.pumpBatteryChargeRemaining ?? 1) * 100)
  152. let battery = Battery(
  153. percent: batteryPercent,
  154. voltage: nil,
  155. string: batteryPercent >= 10 ? .normal : .low,
  156. display: simulatorPump.state.pumpBatteryChargeRemaining != nil
  157. )
  158. Task {
  159. await self.privateContext.perform {
  160. let saveBatteryToCoreData = OpenAPS_Battery(context: self.privateContext)
  161. saveBatteryToCoreData.id = UUID()
  162. saveBatteryToCoreData.date = Date()
  163. saveBatteryToCoreData.percent = Double(batteryPercent)
  164. saveBatteryToCoreData.voltage = nil
  165. saveBatteryToCoreData.status = batteryPercent >= 10 ? BatteryState.normal.rawValue : BatteryState
  166. .low.rawValue
  167. saveBatteryToCoreData.display = simulatorPump.state.pumpBatteryChargeRemaining != nil
  168. do {
  169. guard self.privateContext.hasChanges else { return }
  170. try self.privateContext.save()
  171. } catch {
  172. print(error.localizedDescription)
  173. }
  174. }
  175. }
  176. DispatchQueue.main.async {
  177. self.broadcaster.notify(PumpBatteryObserver.self, on: .main) {
  178. $0.pumpBatteryDidChange(battery)
  179. }
  180. }
  181. }
  182. } else {
  183. pumpDisplayState.value = nil
  184. pumpExpiresAtDate.send(nil)
  185. pumpActivatedAtDate.send(nil)
  186. pumpName.send("")
  187. // Reset bolusIncrement setting to default value, which is 0.1 U
  188. var modifiedPreferences = settingsManager.preferences
  189. modifiedPreferences.bolusIncrement = 0.1
  190. storage.save(modifiedPreferences, as: OpenAPS.Settings.preferences)
  191. // Remove OpenAPS_Battery entries
  192. Task {
  193. await self.privateContext.perform {
  194. let fetchRequest: NSFetchRequest<OpenAPS_Battery> = OpenAPS_Battery.fetchRequest()
  195. do {
  196. let batteryEntries = try self.privateContext.fetch(fetchRequest)
  197. for entry in batteryEntries {
  198. self.privateContext.delete(entry)
  199. }
  200. guard self.privateContext.hasChanges else { return }
  201. try self.privateContext.save()
  202. } catch {
  203. debug(.deviceManager, "Failed to delete OpenAPS_Battery entries: \(error)")
  204. }
  205. }
  206. }
  207. }
  208. }
  209. }
  210. @PersistedProperty(key: "PumpManagerState") var rawPumpManager: PumpManager.RawValue?
  211. var bluetoothManager: BluetoothStateManager { bluetoothProvider }
  212. var hasBLEHeartbeat: Bool {
  213. (pumpManager as? MockPumpManager) == nil
  214. }
  215. let pumpDisplayState = CurrentValueSubject<PumpDisplayState?, Never>(nil)
  216. let pumpExpiresAtDate = CurrentValueSubject<Date?, Never>(nil)
  217. let pumpActivatedAtDate = CurrentValueSubject<Date?, Never>(nil)
  218. let pumpName = CurrentValueSubject<String, Never>("Pump")
  219. init(resolver: Resolver) {
  220. injectServices(resolver)
  221. setupPumpManager()
  222. UIDevice.current.isBatteryMonitoringEnabled = true
  223. }
  224. func setupPumpManager() {
  225. if let pumpManagerRawValue = rawPumpManager ?? UserDefaults.standard.legacyPumpManagerRawValue {
  226. pumpManager = pumpManagerFromRawValue(pumpManagerRawValue)
  227. } else {
  228. pumpManager = nil
  229. }
  230. }
  231. func createBolusProgressReporter() -> DoseProgressReporter? {
  232. pumpManager?.createBolusProgressReporter(reportingOn: processQueue)
  233. }
  234. func heartbeat(date: Date) {
  235. guard pumpUpdateCancellable == nil else {
  236. warning(.deviceManager, "Pump updating already in progress. Skip updating.")
  237. return
  238. }
  239. guard !loopInProgress else {
  240. warning(.deviceManager, "Loop in progress. Skip updating.")
  241. return
  242. }
  243. func update(_: Future<Bool, Never>.Promise?) {}
  244. processQueue.safeSync {
  245. lastHeartBeatTime = date
  246. updatePumpData()
  247. }
  248. }
  249. private func updatePumpData() {
  250. guard let pumpManager = pumpManager else {
  251. debug(.deviceManager, "Pump is not set, skip updating")
  252. updateUpdateFinished(false)
  253. return
  254. }
  255. debug(.deviceManager, "Start updating the pump data")
  256. processQueue.safeSync {
  257. pumpManager.ensureCurrentPumpData { _ in
  258. debug(.deviceManager, "Pump data updated.")
  259. self.updateUpdateFinished(true)
  260. }
  261. }
  262. }
  263. private func updateUpdateFinished(_ recommendsLoop: Bool) {
  264. pumpUpdateCancellable = nil
  265. pumpUpdatePromise = nil
  266. if !recommendsLoop {
  267. warning(.deviceManager, "Loop recommendation time out or got error. Trying to loop right now.")
  268. }
  269. self.recommendsLoop.send()
  270. }
  271. public func pumpManagerTypeByIdentifier(_ identifier: String) -> PumpManagerUI.Type? {
  272. staticPumpManagersByIdentifier[identifier]
  273. }
  274. private func pumpManagerFromRawValue(_ rawValue: [String: Any]) -> PumpManagerUI? {
  275. guard let rawState = rawValue["state"] as? PumpManager.RawStateValue,
  276. let Manager = pumpManagerTypeFromRawValue(rawValue)
  277. else {
  278. return nil
  279. }
  280. return Manager.init(rawState: rawState) as? PumpManagerUI
  281. }
  282. private func pumpManagerTypeFromRawValue(_ rawValue: [String: Any]) -> PumpManager.Type? {
  283. guard let managerIdentifier = rawValue["managerIdentifier"] as? String else {
  284. return nil
  285. }
  286. if let pumpManager = pumpManagerTypeByIdentifier(managerIdentifier) {
  287. return pumpManager
  288. }
  289. /// The pumpManager was not found for managerIdentifier. If this was for an "Omnipod" (OmniKit) or
  290. /// "Omnipod-DASH" (OmniBLE), have the universal "Omni" pumpManager (OmnipodKit) handle instead.
  291. let OmniStr = "Omni"
  292. if managerIdentifier.hasPrefix(OmniStr) {
  293. return pumpManagerTypeByIdentifier(OmniStr)
  294. }
  295. return nil
  296. }
  297. // MARK: - GlucoseSource
  298. @Persisted(key: "BaseDeviceDataManager.lastFetchGlucoseDate") private var lastFetchGlucoseDate: Date = .distantPast
  299. var glucoseManager: FetchGlucoseManager?
  300. var cgmManager: CGMManagerUI?
  301. var cgmType: CGMType = .enlite
  302. let cgmDisplayState = CurrentValueSubject<CgmDisplayState?, Never>(nil)
  303. let cgmProgressHighlight = CurrentValueSubject<DeviceLifecycleProgress?, Never>(nil)
  304. func fetchIfNeeded() -> AnyPublisher<[BloodGlucose], Never> {
  305. fetch(nil)
  306. }
  307. func fetch(_: DispatchTimer?) -> AnyPublisher<[BloodGlucose], Never> {
  308. guard let medtronic = pumpManager as? MinimedPumpManager else {
  309. warning(.deviceManager, "Fetch minilink glucose failed: Pump is not Medtronic")
  310. return Just([]).eraseToAnyPublisher()
  311. }
  312. guard lastFetchGlucoseDate.addingTimeInterval(5.minutes.timeInterval) < Date() else {
  313. return Just([]).eraseToAnyPublisher()
  314. }
  315. medtronic.cgmManagerDelegate = self
  316. return Future<[BloodGlucose], Error> { promise in
  317. self.processQueue.async {
  318. medtronic.fetchNewDataIfNeeded { result in
  319. switch result {
  320. case .noData:
  321. debug(.deviceManager, "Minilink glucose is empty")
  322. promise(.success([]))
  323. case .unreliableData:
  324. debug(.deviceManager, "Unreliable data received")
  325. promise(.success([]))
  326. case let .newData(glucose):
  327. let directions: [BloodGlucose.Direction?] = [nil]
  328. + glucose.windows(ofCount: 2).map { window -> BloodGlucose.Direction? in
  329. let pair = Array(window)
  330. guard pair.count == 2 else { return nil }
  331. let firstValue = Int(pair[0].quantity.doubleValue(for: .milligramsPerDeciliter))
  332. let secondValue = Int(pair[1].quantity.doubleValue(for: .milligramsPerDeciliter))
  333. return .init(trend: secondValue - firstValue)
  334. }
  335. let results = glucose.enumerated().map { index, sample -> BloodGlucose in
  336. let value = Int(sample.quantity.doubleValue(for: .milligramsPerDeciliter))
  337. return BloodGlucose(
  338. id: sample.syncIdentifier,
  339. sgv: value,
  340. direction: directions[index],
  341. date: Decimal(Int(sample.date.timeIntervalSince1970 * 1000)),
  342. dateString: sample.date,
  343. unfiltered: Decimal(value),
  344. filtered: nil,
  345. noise: nil,
  346. glucose: value,
  347. type: "sgv"
  348. )
  349. }
  350. if let lastDate = results.last?.dateString {
  351. self.lastFetchGlucoseDate = lastDate
  352. }
  353. promise(.success(results))
  354. case let .error(error):
  355. warning(.deviceManager, "Fetch minilink glucose failed", error: error)
  356. promise(.failure(error))
  357. }
  358. }
  359. }
  360. }
  361. .timeout(60 * 3, scheduler: processQueue, options: nil, customError: nil)
  362. .replaceError(with: [])
  363. .replaceEmpty(with: [])
  364. .eraseToAnyPublisher()
  365. }
  366. }
  367. // MARK: - PumpManagerDelegate
  368. extension BaseDeviceDataManager: PumpManagerDelegate {
  369. var automaticDosingEnabled: Bool {
  370. settingsManager.settings.closedLoop // Take if close or open loop
  371. }
  372. func pumpManager(
  373. _: LoopKit.PumpManager,
  374. didRequestBasalRateScheduleChange _: LoopKit.BasalRateSchedule,
  375. completion _: @escaping (Error?) -> Void
  376. ) {
  377. debug(.deviceManager, "pumpManagerBasalRateChange")
  378. }
  379. func pumpManagerPumpWasReplaced(_: PumpManager) {
  380. debug(.deviceManager, "pumpManagerPumpWasReplaced")
  381. }
  382. var detectedSystemTimeOffset: TimeInterval {
  383. // trustedTimeChecker.detectedSystemTimeOffset
  384. 0
  385. }
  386. func pumpManager(_: PumpManager, didAdjustPumpClockBy adjustment: TimeInterval) {
  387. debug(.deviceManager, "didAdjustPumpClockBy \(adjustment)")
  388. }
  389. func pumpManagerDidUpdateState(_ pumpManager: PumpManager) {
  390. rawPumpManager = pumpManager.rawValue
  391. if self.pumpManager == nil, let newPumpManager = pumpManager as? PumpManagerUI {
  392. self.pumpManager = newPumpManager
  393. }
  394. pumpName.send(pumpManager.localizedTitle)
  395. }
  396. /// heartbeat with pump occurs some issues in the backgroundtask - so never used
  397. func pumpManagerBLEHeartbeatDidFire(_: PumpManager) {
  398. debug(.deviceManager, "Pump Heartbeat: do nothing. Pump connection is OK")
  399. }
  400. func pumpManagerMustProvideBLEHeartbeat(_: PumpManager) -> Bool {
  401. true
  402. }
  403. func pumpManager(_ pumpManager: PumpManager, didUpdate status: PumpManagerStatus, oldStatus: PumpManagerStatus) {
  404. dispatchPrecondition(condition: .onQueue(processQueue))
  405. debug(.deviceManager, "New pump status Bolus: \(status.bolusState)")
  406. debug(.deviceManager, "New pump status Basal: \(String(describing: status.basalDeliveryState))")
  407. if case .inProgress = status.bolusState {
  408. bolusTrigger.send(true)
  409. } else {
  410. bolusTrigger.send(false)
  411. }
  412. switch status.basalDeliveryState {
  413. case let .active(at):
  414. if at == .distantPast {
  415. scheduledBasal.send(nil) // pump is not currently available
  416. } else {
  417. suspended.send(false)
  418. scheduledBasal.send(true)
  419. }
  420. case .suspended:
  421. suspended.send(true)
  422. scheduledBasal.send(false)
  423. default:
  424. suspended.send(false)
  425. scheduledBasal.send(false)
  426. }
  427. if status.insulinType != oldStatus.insulinType {
  428. settingsManager.updateInsulinCurve(status.insulinType)
  429. }
  430. // Check if manual temp basal is active
  431. let manualTempBasalActive = status.basalDeliveryState?.isManualTempBasal ?? false
  432. if manualTempBasalActive {
  433. debug(.deviceManager, "manual temp basal")
  434. }
  435. manualTempBasal.send(manualTempBasalActive)
  436. if let medtrumPump = pumpManager as? MedtrumPumpManager {
  437. storage.save(Decimal(medtrumPump.state.reservoir), as: OpenAPS.Monitor.reservoir)
  438. broadcaster.notify(PumpReservoirObserver.self, on: processQueue) {
  439. $0.pumpReservoirDidChange(Decimal(medtrumPump.state.reservoir))
  440. }
  441. // Medtrum's state.patchExpiresAt is actually lifespan + grace
  442. // keeping this in line with omnipod, we will use just the lifetime
  443. // i.e., state.patchGracePeriodFrom
  444. guard let endTime = medtrumPump.state.patchGracePeriodFrom else {
  445. pumpExpiresAtDate.send(nil)
  446. return
  447. }
  448. pumpExpiresAtDate.send(endTime)
  449. switch medtrumPump.state.expiryMode {
  450. case .default:
  451. pumpActivatedAtDate.send(nil)
  452. case .extended:
  453. pumpActivatedAtDate.send(medtrumPump.state.patchActivatedAt)
  454. }
  455. }
  456. if let omni = pumpManager as? OmniPumpManager {
  457. let reservoirVal = omni.state.podState?.lastInsulinMeasurements?.reservoirLevel ?? 0xDEAD_BEEF
  458. // TODO: find the value Pod.maximumReservoirReading
  459. let reservoir = Decimal(reservoirVal) > 50.0 ? 0xDEAD_BEEF : reservoirVal
  460. storage.save(Decimal(reservoir), as: OpenAPS.Monitor.reservoir)
  461. broadcaster.notify(PumpReservoirObserver.self, on: processQueue) {
  462. $0.pumpReservoirDidChange(Decimal(reservoir))
  463. }
  464. guard let endTime = omni.state.podState?.expiresAt else {
  465. pumpExpiresAtDate.send(nil)
  466. return
  467. }
  468. pumpExpiresAtDate.send(endTime)
  469. if let startTime = omni.state.podState?.activatedAt {
  470. storage.save(startTime, as: OpenAPS.Monitor.podAge)
  471. }
  472. }
  473. if let simulatorPump = pumpManager as? MockPumpManager {
  474. broadcaster.notify(PumpReservoirObserver.self, on: processQueue) {
  475. $0.pumpReservoirDidChange(Decimal(simulatorPump.state.reservoirUnitsRemaining))
  476. }
  477. }
  478. }
  479. func pumpManagerWillDeactivate(_: PumpManager) {
  480. dispatchPrecondition(condition: .onQueue(processQueue))
  481. pumpManager = nil
  482. broadcaster.notify(PumpDeactivatedObserver.self, on: processQueue) {
  483. $0.pumpDeactivatedDidChange()
  484. }
  485. }
  486. func pumpManager(_: PumpManager, didUpdatePumpRecordsBasalProfileStartEvents _: Bool) {}
  487. func pumpManager(_: PumpManager, didError error: PumpManagerError) {
  488. dispatchPrecondition(condition: .onQueue(processQueue))
  489. debug(.deviceManager, "error: \(error), reason: \(String(describing: error.failureReason))")
  490. errorSubject.send(error)
  491. }
  492. func pumpManager(
  493. _: PumpManager,
  494. hasNewPumpEvents events: [NewPumpEvent],
  495. lastReconciliation _: Date?,
  496. replacePendingEvents _: Bool,
  497. completion: @escaping (_ error: Error?) -> Void
  498. ) {
  499. dispatchPrecondition(condition: .onQueue(processQueue))
  500. Task {
  501. do {
  502. // filter buggy TBRs > maxBasal from MDT
  503. let events = events.filter {
  504. // type is optional...
  505. guard let type = $0.type, type == .tempBasal else { return true }
  506. return $0.dose?.unitsPerHour ?? 0 <= Double(settingsManager.pumpSettings.maxBasal)
  507. }
  508. debug(.deviceManager, "Storing \(events.count) new pump events: \(events)")
  509. try await pumpHistoryStorage.storePumpEvents(events)
  510. lastEventDate = events.last?.date
  511. completion(nil)
  512. } catch {
  513. debug(.deviceManager, "\(DebuggingIdentifiers.failed) Failed to store pump events: \(error)")
  514. }
  515. }
  516. }
  517. func pumpManager(
  518. _: PumpManager,
  519. didReadReservoirValue units: Double,
  520. at date: Date,
  521. completion: @escaping (Result<
  522. (newValue: ReservoirValue, lastValue: ReservoirValue?, areStoredValuesContinuous: Bool),
  523. Error
  524. >) -> Void
  525. ) {
  526. dispatchPrecondition(condition: .onQueue(processQueue))
  527. debug(.deviceManager, "Reservoir Value \(units), at: \(date)")
  528. storage.save(Decimal(units), as: OpenAPS.Monitor.reservoir)
  529. broadcaster.notify(PumpReservoirObserver.self, on: processQueue) {
  530. $0.pumpReservoirDidChange(Decimal(units))
  531. }
  532. completion(.success((
  533. newValue: Reservoir(startDate: Date(), unitVolume: units),
  534. lastValue: nil,
  535. areStoredValuesContinuous: true
  536. )))
  537. }
  538. func pumpManagerRecommendsLoop(_: PumpManager) {
  539. dispatchPrecondition(condition: .onQueue(processQueue))
  540. debug(.deviceManager, "Pump recommends loop")
  541. guard let promise = pumpUpdatePromise else {
  542. warning(.deviceManager, "We do not waiting for loop recommendation at this time.")
  543. return
  544. }
  545. promise(.success(true))
  546. }
  547. func startDateToFilterNewPumpEvents(for _: PumpManager) -> Date {
  548. lastEventDate?.addingTimeInterval(-15.minutes.timeInterval) ?? Date().addingTimeInterval(-2.hours.timeInterval)
  549. }
  550. }
  551. // MARK: - DeviceManagerDelegate
  552. extension BaseDeviceDataManager: DeviceManagerDelegate {
  553. func issueAlert(_ alert: Alert) {
  554. debug(.deviceManager, "issueAlert \(alert.identifier.value)")
  555. trioAlertManager.issueAlert(alert)
  556. }
  557. func retractAlert(identifier: Alert.Identifier) {
  558. debug(.deviceManager, "retractAlert \(identifier.value)")
  559. trioAlertManager.retractAlert(identifier: identifier)
  560. }
  561. func doesIssuedAlertExist(identifier _: Alert.Identifier, completion _: @escaping (Result<Bool, Error>) -> Void) {
  562. debug(.deviceManager, "doesIssueAlertExist")
  563. }
  564. func lookupAllUnretracted(managerIdentifier _: String, completion _: @escaping (Result<[PersistedAlert], Error>) -> Void) {
  565. debug(.deviceManager, "lookupAllUnretracted")
  566. }
  567. func lookupAllUnacknowledgedUnretracted(
  568. managerIdentifier _: String,
  569. completion _: @escaping (Result<[PersistedAlert], Error>) -> Void
  570. ) {}
  571. func recordRetractedAlert(_: Alert, at _: Date) {}
  572. func removeNotificationRequests(for _: DeviceManager, identifiers: [String]) {
  573. DispatchQueue.main.async {
  574. UNUserNotificationCenter.current().removePendingNotificationRequests(withIdentifiers: identifiers)
  575. }
  576. }
  577. func deviceManager(
  578. _: DeviceManager,
  579. logEventForDeviceIdentifier _: String?,
  580. type _: DeviceLogEntryType,
  581. message: String,
  582. completion _: ((Error?) -> Void)?
  583. ) {
  584. debug(.deviceManager, "Device message: \(message)")
  585. }
  586. }
  587. // MARK: - CGMManagerDelegate
  588. extension BaseDeviceDataManager: CGMManagerDelegate {
  589. func startDateToFilterNewData(for _: CGMManager) -> Date? {
  590. glucoseStorage.syncDate().addingTimeInterval(-10.minutes.timeInterval) // additional time to calculate directions
  591. }
  592. func cgmManager(_: CGMManager, hasNew _: CGMReadingResult) {}
  593. func cgmManager(_: LoopKit.CGMManager, hasNew _: [LoopKit.PersistedCgmEvent]) {}
  594. func cgmManagerWantsDeletion(_: CGMManager) {}
  595. func cgmManagerDidUpdateState(_: CGMManager) {}
  596. func credentialStoragePrefix(for _: CGMManager) -> String { "BaseDeviceDataManager" }
  597. func cgmManager(_: CGMManager, didUpdate _: CGMManagerStatus) {}
  598. }
  599. // extension BaseDeviceDataManager: AlertPresenter {
  600. // func issueAlert(_: Alert) {}
  601. // func retractAlert(identifier _: Alert.Identifier) {}
  602. // }
  603. // MARK: Others
  604. protocol PumpReservoirObserver {
  605. func pumpReservoirDidChange(_ reservoir: Decimal)
  606. }
  607. protocol PumpBatteryObserver {
  608. func pumpBatteryDidChange(_ battery: Battery)
  609. }
  610. protocol PumpDeactivatedObserver {
  611. func pumpDeactivatedDidChange()
  612. }