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50838832d439a974f232fda6726d2c576d0552f6
workouts/Workouts/Sync/SyncEngine.swift
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rzen 180f07e23c Reflect watch-forwarded workout progress on the phone immediately 
ingestFromWatch now upserts the SwiftData cache directly after writing the file,
instead of relying on the NSMetadataQuery observer — a same-process file
overwrite doesn't reliably emit a modified event, so watch progress never reached
open iPhone screens. iCloud Drive stays the source of truth (file written first);
the observer re-applies idempotently if it fires.

Claude-Session: https://claude.ai/code/session_018gg69MaUetDNzWzBXisfMV
2026-06-19 17:17:14 -04:00

253 lines
10 KiB
Swift
Raw Blame History

import Foundation
import SwiftData
import Observation
import os
enum ICloudStatus: Equatable {
case checking
case available
case unavailable
}
/// Orchestrates the iCloud Drive file layer and the SwiftData cache. iCloud is
/// the sole source of truth: every save/delete writes files only; the metadata
/// observer (and the connect-time reconcile) is the sole mutator of the cache.
@Observable
@MainActor
final class SyncEngine {
nonisolated static let containerIdentifier = "iCloud.dev.rzen.indie.Workouts"
private(set) var iCloudStatus: ICloudStatus = .checking
private(set) var isSyncing = false
/// Called after the cache changes (local or remote). The watch bridge uses
/// this to push fresh state to the watch.
var onCacheChanged: (() -> Void)?
private let log = Logger(subsystem: "dev.rzen.indie.Workouts", category: "sync")
private let modelContainer: ModelContainer
private var fileManager: ICloudFileManager?
private var monitor: ICloudFileMonitor?
private var monitorTask: Task<Void, Never>?
private var connectAttempt = 0
private var context: ModelContext { modelContainer.mainContext }
init(container: ModelContainer) {
self.modelContainer = container
}
// MARK: - Connection (deferred, time-boxed)
func connect() async {
guard iCloudStatus != .available else { return }
connectAttempt += 1
let attempt = connectAttempt
iCloudStatus = .checking
log.info("connect[\(attempt)]: resolving container \(Self.containerIdentifier, privacy: .public)")
let url = await Task.detached {
FileManager.default.url(forUbiquityContainerIdentifier: Self.containerIdentifier)
}.value
guard let containerURL = url else {
log.error("connect[\(attempt)]: ubiquity container URL is nil → unavailable (iCloud Drive off, or container not provisioned)")
if attempt == connectAttempt { iCloudStatus = .unavailable }
return
}
log.info("connect[\(attempt)]: container URL = \(containerURL.path, privacy: .public)")
let fm = ICloudFileManager(containerURL: containerURL)
let timeout = Task { [weak self] in
try? await Task.sleep(for: .seconds(20))
guard let self, !Task.isCancelled else { return }
if self.iCloudStatus == .checking, attempt == self.connectAttempt {
self.log.error("connect[\(attempt)]: timed out after 20s — first container file op blocked (dataless container?)")
self.iCloudStatus = .unavailable
}
}
log.info("connect[\(attempt)]: preparing directories…")
await fm.prepareDirectories()
timeout.cancel()
guard attempt == connectAttempt else { return }
self.fileManager = fm
iCloudStatus = .available
log.info("connect[\(attempt)]: directories ready → available")
WorkoutsModelContainer.persistCurrentIdentityToken()
await reconcile()
startMonitoring(documentsURL: fm.documentsURL)
cleanupOldStubs()
}
// MARK: - Monitoring
private func startMonitoring(documentsURL: URL) {
monitorTask?.cancel()
let monitor = ICloudFileMonitor(documentsURL: documentsURL)
self.monitor = monitor
monitor.start()
monitorTask = Task { [weak self] in
for await event in monitor.events() {
await self?.handle(event)
}
}
}
private func handle(_ event: ICloudFileMonitor.FileChangeEvent) async {
switch event {
case .added(let path), .modified(let path):
if path.hasPrefix("Stubs/") {
deleteCachedEntity(id: idFromStubPath(path))
} else {
await importFile(relativePath: path)
}
case .removed(let path):
if !path.hasPrefix("Stubs/") {
deleteCachedEntity(jsonRelativePath: path)
}
}
try? context.save()
onCacheChanged?()
}
/// Apply a workout received from the watch. iCloud Drive stays the source of
/// truth (we write the file), but we also upsert the cache directly here.
///
/// The phone's own edits drive a local view copy, so they don't need this but a
/// watch-originated change has nothing else refreshing the phone UI, and a
/// same-process file overwrite doesn't reliably wake the `NSMetadataQuery`
/// observer. Upserting the doc we just wrote keeps cache and file consistent (the
/// observer re-applies idempotently if it does fire) and lets open phone screens
/// reflect watch progress live.
func ingestFromWatch(_ doc: WorkoutDocument) async {
await save(workout: doc)
CacheMapper.upsertWorkout(doc, relativePath: doc.relativePath, into: context)
try? context.save()
onCacheChanged?()
}
// MARK: - Public CRUD (write path: files only)
func save(split doc: SplitDocument) async {
guard let fm = fileManager else { return }
do { try await fm.write(try DocumentCoder.encoder.encode(doc), to: doc.relativePath) }
catch { print("[Sync] write failed for \(doc.relativePath): \(error)") }
// Cache updates reactively via the monitor.
}
func save(workout doc: WorkoutDocument) async {
guard let fm = fileManager else { return }
do { try await fm.write(try DocumentCoder.encoder.encode(doc), to: doc.relativePath) }
catch { print("[Sync] write failed for \(doc.relativePath): \(error)") }
}
func delete(split: Split) async {
await softDelete(id: split.id, kind: .split, livePath: split.jsonRelativePath)
}
func delete(workout: Workout) async {
await softDelete(id: workout.id, kind: .workout, livePath: workout.jsonRelativePath)
}
private func softDelete(id: String, kind: Tombstone.Kind, livePath: String) async {
guard let fm = fileManager else { return }
let tombstone = Tombstone(id: id, kind: kind, deletedAt: Date())
do {
try await fm.writeTombstoneAndRemove(tombstone, livePath: livePath)
} catch {
print("[Sync] delete failed for \(id): \(error)")
}
}
// MARK: - Import / reconcile
private func importFile(relativePath: String) async {
guard let fm = fileManager else { return }
guard let data = try? await fm.read(relativePath: relativePath) else { return }
if relativePath.hasPrefix("Splits/") {
guard let doc = try? DocumentCoder.decoder.decode(SplitDocument.self, from: data), doc.isReadable else { return }
if await fm.fileExists("Stubs/\(doc.id).json") { try? await fm.remove(relativePath: relativePath); return }
CacheMapper.upsertSplit(doc, relativePath: relativePath, into: context)
} else if relativePath.hasPrefix("Workouts/") {
guard let doc = try? DocumentCoder.decoder.decode(WorkoutDocument.self, from: data), doc.isReadable else { return }
if await fm.fileExists("Stubs/\(doc.id).json") { try? await fm.remove(relativePath: relativePath); return }
CacheMapper.upsertWorkout(doc, relativePath: relativePath, into: context)
}
}
/// Full sync against the current file set imports new/changed files and
/// prunes entities whose file is gone or tombstoned. Runs on connect so
/// changes accumulated while the app was closed are picked up.
private func reconcile() async {
guard let fm = fileManager else { return }
isSyncing = true
defer { isSyncing = false }
let tombstoned = Set(await fm.listTombstones().map(\.id))
let dataFiles = await fm.listDataFiles()
var liveSplitIDs = Set<String>()
var liveWorkoutIDs = Set<String>()
for path in dataFiles {
guard let data = try? await fm.read(relativePath: path) else { continue }
if path.hasPrefix("Splits/") {
guard let doc = try? DocumentCoder.decoder.decode(SplitDocument.self, from: data), doc.isReadable else { continue }
if tombstoned.contains(doc.id) { try? await fm.remove(relativePath: path); continue }
CacheMapper.upsertSplit(doc, relativePath: path, into: context)
liveSplitIDs.insert(doc.id)
} else if path.hasPrefix("Workouts/") {
guard let doc = try? DocumentCoder.decoder.decode(WorkoutDocument.self, from: data), doc.isReadable else { continue }
if tombstoned.contains(doc.id) { try? await fm.remove(relativePath: path); continue }
CacheMapper.upsertWorkout(doc, relativePath: path, into: context)
liveWorkoutIDs.insert(doc.id)
}
}
// Prune cache entities no longer backed by a live file.
if let splits = try? context.fetch(FetchDescriptor<Split>()) {
for s in splits where !liveSplitIDs.contains(s.id) { context.delete(s) }
}
if let workouts = try? context.fetch(FetchDescriptor<Workout>()) {
for w in workouts where !liveWorkoutIDs.contains(w.id) { context.delete(w) }
}
try? context.save()
onCacheChanged?()
}
// MARK: - Cache deletes
private func deleteCachedEntity(id: String) {
if let s = CacheMapper.fetchSplit(id: id, in: context) { context.delete(s) }
if let w = CacheMapper.fetchWorkout(id: id, in: context) { context.delete(w) }
}
private func deleteCachedEntity(jsonRelativePath path: String) {
if let splits = try? context.fetch(FetchDescriptor<Split>(predicate: #Predicate { $0.jsonRelativePath == path })) {
splits.forEach(context.delete)
}
if let workouts = try? context.fetch(FetchDescriptor<Workout>(predicate: #Predicate { $0.jsonRelativePath == path })) {
workouts.forEach(context.delete)
}
}
private func idFromStubPath(_ path: String) -> String {
(path as NSString).lastPathComponent.replacingOccurrences(of: ".json", with: "")
}
// MARK: - Maintenance
private func cleanupOldStubs() {
guard let fm = fileManager else { return }
Task.detached(priority: .utility) {
let cutoff = Date().addingTimeInterval(-Tombstone.gracePeriod)
for tombstone in await fm.listTombstones() where tombstone.deletedAt < cutoff {
try? await fm.remove(relativePath: tombstone.relativePath)
}
}
}
}
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