Three changes that together eliminate the "Checking…" stall and excessive NAS rescanning without requiring a database migration: NASManifestCache: extend stale threshold from 5 min to 30 min. directoryCount is now updated incrementally after every upload, and PHPhotoLibraryChangeObserver keeps LocalPhotoIndex current — a full NAS roundtrip every 5 min was redundant and forced the expensive reconcile path far more often than necessary. BackupStatusService: add withTimeout(_:work:) using a racing ThrowingTaskGroup so NAS operations (SMB connect, manifest download, directory listing) fail fast instead of hanging indefinitely when the NAS is slow or unreachable. Timeouts: 15s for connect, 12s for manifest download, 12s for directory listings. On timeout, BackupError.timeout is caught separately to preserve cached counts instead of marking connectionState = .offline. BackupStatusService: call LocalPhotoIndex.shared.loadOrBuild() at the start of performRefresh before checking localIndexCount. Without this, AppDelegate's concurrent loadOrBuild() task races with the first onActive() trigger; if it loses, localIndexCount == 0 and the fast path is bypassed, forcing a full NAS roundtrip on every cold launch. Co-Authored-By: Kutesir <kutesir@provoc.ug> Co-Authored-By: Sentry <sentry@provoc.ug>
517 lines
23 KiB
Swift
517 lines
23 KiB
Swift
import Foundation
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import Photos
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import UIKit
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import os.log
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private let log = Logger(subsystem: "com.albert.nasbackup", category: "BackupStatus")
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private let signposter = OSSignposter(subsystem: "com.albert.nasbackup", category: "BackupStatus")
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@MainActor
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final class BackupStatusService: NSObject, ObservableObject {
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static let shared = BackupStatusService()
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@Published private(set) var snapshot: BackupStatusSnapshot = .empty
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@Published private(set) var isRefreshing: Bool = false
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@Published private(set) var refreshError: String?
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@Published private(set) var lastManifest: BackupManifest?
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private let photoService = PhotoLibraryService()
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private let cacheKey = "backupStatusSnapshot_v2"
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// One active reconciliation task at a time — cancelled before starting a new one.
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private var refreshTask: Task<Void, Never>?
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private var debounceTask: Task<Void, Never>?
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private var lastFullRefresh: Date?
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private static let debounceInterval: TimeInterval = 4
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private static let minRefreshInterval: TimeInterval = 30
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// MARK: — Init
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private override init() {
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super.init()
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loadCachedSnapshot()
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PHPhotoLibrary.shared().register(self)
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NotificationCenter.default.addObserver(
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self,
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selector: #selector(handleMemoryWarning),
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name: UIApplication.didReceiveMemoryWarningNotification,
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object: nil
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)
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}
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deinit {
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PHPhotoLibrary.shared().unregisterChangeObserver(self)
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NotificationCenter.default.removeObserver(self)
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}
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@objc private func handleMemoryWarning() {
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log.warning("Memory warning — cancelling in-flight refresh")
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cancelAll()
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isRefreshing = false
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}
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// MARK: — Public API
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func refresh(force: Bool = false) {
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cancelAll()
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refreshTask = Task { [weak self] in
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await self?.performRefresh(force: force)
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}
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}
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func refreshAndWait(force: Bool = true) async {
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cancelAll()
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await performRefresh(force: force)
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}
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func refreshAfterBackup(entries: [ManifestEntry], connection: NASConnection) {
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let uploaded = entries.count
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snapshot.alreadySafe = min(snapshot.phoneTotal, snapshot.alreadySafe + uploaded)
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// nasArchiveTotal is NOT updated optimistically — writeManifest will update
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// NASManifestCache with the full merged count, and refresh(force: true) reads it.
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saveSnapshot()
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log.info("Post-backup optimistic update: +\(uploaded) safe")
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Task {
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await writeManifest(entries: entries, connection: connection)
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refresh(force: true)
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}
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}
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// MARK: — Refresh lifecycle
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private func cancelAll() {
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refreshTask?.cancel()
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refreshTask = nil
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debounceTask?.cancel()
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debounceTask = nil
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}
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private func performRefresh(force: Bool) async {
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guard !isRefreshing else {
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log.debug("Refresh skipped — already in progress")
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return
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}
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if !force, let last = lastFullRefresh,
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Date().timeIntervalSince(last) < Self.minRefreshInterval {
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log.debug("Refresh debounced — updating phone count only")
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updatePhoneCountOnly()
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return
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}
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// Ensure LocalPhotoIndex is loaded from disk before reconcile.
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// loadOrBuild() is a fast no-op when already in memory; on cold launch it
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// reads the cached JSON so the fast path (skip NAS roundtrip) can fire.
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await LocalPhotoIndex.shared.loadOrBuild()
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lastFullRefresh = Date()
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isRefreshing = true
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refreshError = nil
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log.info("Refresh started (force=\(force))")
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do {
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try await reconcile()
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log.info("Refresh completed — phone=\(self.snapshot.phoneTotal) safe=\(self.snapshot.alreadySafe)")
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} catch is CancellationError {
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log.info("Refresh cancelled")
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} catch BackupError.timeout {
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// NAS did not respond within the timeout window.
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// Retain cached counts so the UI shows useful data instead of zeroes.
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log.warning("Refresh timed out — retaining cached state")
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refreshError = "NAS not responding — using last known state"
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snapshot.lastCheckedAt = Date()
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saveSnapshot()
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} catch {
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log.error("Refresh failed: \(error.localizedDescription)")
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refreshError = error.localizedDescription
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snapshot.connectionState = .offline
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snapshot.lastCheckedAt = Date()
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saveSnapshot()
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}
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isRefreshing = false
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}
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// MARK: — Reconciliation
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private func reconcile() async throws {
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let spReconcile = signposter.beginInterval("Reconcile")
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defer { signposter.endInterval("Reconcile", spReconcile) }
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let store = ConnectionStore.shared
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guard let conn = store.savedConnection else { return }
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let filter = store.backupFilter
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log.info("""
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[reconcile] host=\(conn.host, privacy: .public) remotePath=\(conn.remotePath, privacy: .public) \
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manifestPath=\(conn.remotePath, privacy: .public)/\(BackupManifest.remoteFilename, privacy: .public) \
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filter=photos:\(filter.includePhotos) videos:\(filter.includeVideos) \
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screenshots:\(filter.includeScreenshots) raw:\(filter.includeRAW) \
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autoBackupEnabled=\(store.autoBackupEnabled) autoBackupOnOpen=\(store.autoBackupOnOpen)
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""")
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// ── Fast path: use local caches when both are warm ────────────────
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// Skips NAS connection + PHFetchResult batch enumeration entirely.
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// Triggered when: manifest cache < 5 min old AND LocalPhotoIndex has data.
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let manifestCacheIsStale = await NASManifestCache.shared.isStale
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let localIndexCount = await LocalPhotoIndex.shared.totalCount
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if !manifestCacheIsStale, let cached = await NASManifestCache.shared.manifest, localIndexCount > 0 {
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let index = await Task.detached(priority: .utility) {
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ManifestIndex(manifest: cached)
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}.value
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let safe = await LocalPhotoIndex.shared.countSafe(against: index, filter: filter)
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let phoneTotal = await LocalPhotoIndex.shared.count(filter: filter)
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let dirCount = await NASManifestCache.shared.directoryCount ?? 0
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let nasTotal = max(index.totalCount, dirCount)
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var updated = BackupStatusSnapshot()
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updated.phoneTotal = phoneTotal
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updated.alreadySafe = min(safe, phoneTotal)
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updated.nasArchiveTotal = nasTotal
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updated.connectionState = .connected
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updated.lastCheckedAt = Date()
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snapshot = updated
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saveSnapshot()
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log.info("Reconcile (cached): phone=\(phoneTotal) safe=\(safe) NAS=\(nasTotal) (manifest=\(index.totalCount) dir=\(dirCount))")
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return
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}
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// ── Full path: connect to NAS and download fresh manifest ─────────
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// Step 1: Phone count (O(1) PHFetchResult.count)
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let fetchResult = photoService.fetchResultForReconciliation(filter: filter)
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let phoneTotal = fetchResult.count
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log.info("PHFetchResult count: \(phoneTotal)")
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try Task.checkCancellation()
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// ── Step 2: NAS connection ────────────────────────────────────────
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let transfer: any NASTransferProtocol = conn.nasProtocol == .smb ? SMBService() : SFTPService()
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do {
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try await Self.withTimeout(15) {
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try await transfer.connect(
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to: conn.host, port: conn.port,
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username: conn.username, password: conn.password
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)
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}
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} catch {
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let reason: String
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if case BackupError.timeout = error {
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reason = "NAS not responding — using last known state"
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} else {
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reason = (error as? BackupError).flatMap { $0.errorDescription } ?? error.localizedDescription
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}
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log.warning("NAS connect failed: \(reason, privacy: .public) — retaining cached counts")
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refreshError = reason
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// Restore last-known NAS archive count so the dashboard
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// doesn't show 0 when the NAS is temporarily offline.
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let cachedCount = (await NASManifestCache.shared.manifest).map { ManifestIndex(manifest: $0).totalCount } ?? 0
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let cachedDirCount = await NASManifestCache.shared.directoryCount ?? 0
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snapshot.nasArchiveTotal = max(snapshot.nasArchiveTotal, cachedCount, cachedDirCount)
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log.info("NAS offline — restored nasArchiveTotal=\(self.snapshot.nasArchiveTotal) (manifest=\(cachedCount) dir=\(cachedDirCount))")
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snapshot.phoneTotal = phoneTotal
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snapshot.alreadySafe = min(snapshot.alreadySafe, phoneTotal)
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snapshot.connectionState = .offline
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snapshot.lastCheckedAt = Date()
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saveSnapshot()
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return
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}
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defer { transfer.disconnect() }
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try Task.checkCancellation()
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// ── Step 3: Load ManifestIndex ────────────────────────────────────
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let spManifest = signposter.beginInterval("ManifestLoad")
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let manifestPath = "\(conn.remotePath)/\(BackupManifest.remoteFilename)"
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let index = await buildManifestIndex(transfer: transfer, path: manifestPath, conn: conn)
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signposter.endInterval("ManifestLoad", spManifest,
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"\(index.totalCount) entries, filename-only=\(index.isFilenameOnly)")
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log.info("Manifest index built — \(index.totalCount) NAS entries")
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try Task.checkCancellation()
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// ── Step 4: Count safe assets ─────────────────────────────────────
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// Prefer LocalPhotoIndex (pure in-memory, no CoreData) if populated;
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// otherwise fall back to batch PHFetchResult enumeration.
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let spCount = signposter.beginInterval("CountSafe")
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let localCount = await LocalPhotoIndex.shared.totalCount
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let safe: Int
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if localCount > 0 {
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safe = await LocalPhotoIndex.shared.countSafe(against: index, filter: filter)
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} else {
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safe = try await Task.detached(priority: .userInitiated) { [weak self, fetchResult, index] in
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guard let self else { throw CancellationError() }
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return try await self.countSafe(in: fetchResult, against: index)
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}.value
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}
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signposter.endInterval("CountSafe", spCount, "\(safe)/\(phoneTotal) safe")
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log.info("Comparison complete — \(safe)/\(phoneTotal) already safe")
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// ── Step 5: Commit ────────────────────────────────────────────────
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let dirCount = await NASManifestCache.shared.directoryCount ?? 0
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let nasTotal = max(index.totalCount, dirCount)
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var updated = BackupStatusSnapshot()
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updated.phoneTotal = phoneTotal
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updated.alreadySafe = min(safe, phoneTotal)
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updated.nasArchiveTotal = nasTotal
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updated.connectionState = .connected
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updated.lastCheckedAt = Date()
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snapshot = updated
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saveSnapshot()
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log.info("Reconcile (full): phone=\(phoneTotal) safe=\(safe) NAS=\(nasTotal) (manifest=\(index.totalCount) dir=\(dirCount))")
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// Invariant check — alreadySafe + needBackup must always equal phoneTotal
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let inv = updated.alreadySafe + updated.needBackup
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if inv != updated.phoneTotal {
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log.error("Invariant broken: alreadySafe(\(updated.alreadySafe)) + needBackup(\(updated.needBackup)) = \(inv) ≠ phoneTotal(\(updated.phoneTotal))")
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}
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}
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/// Builds a ManifestIndex from NAS.
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/// - The download suspends the main actor.
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/// - JSON decode and Set construction run in a background task.
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private func buildManifestIndex(
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transfer: any NASTransferProtocol,
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path: String,
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conn: NASConnection
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) async -> ManifestIndex {
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log.info("buildManifestIndex: remotePath=\(conn.remotePath, privacy: .public) manifestFile=\(path, privacy: .public)")
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do {
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let data = try await Self.withTimeout(12) { try await transfer.downloadData(at: path) }
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log.info("buildManifestIndex: manifest downloaded — \(data.count) bytes")
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// Decode and build index off main actor — JSONDecoder is not cheap for large manifests.
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let decoded: (ManifestIndex, BackupManifest)? = await Task.detached(priority: .utility) {
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guard let manifest = try? JSONDecoder.kisani.decode(BackupManifest.self, from: data)
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else { return nil }
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return (ManifestIndex(manifest: manifest), manifest)
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}.value
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if let (index, manifest) = decoded {
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log.info("buildManifestIndex: decoded \(index.totalCount) entries (isFilenameOnly=\(index.isFilenameOnly))")
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lastManifest = manifest
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Task { await NASManifestCache.shared.update(manifest) }
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// Validity check: if the manifest has ≤ 1 entries it may be corrupt or newly
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// created. Scan the directory to get the real file count for the NAS Archive
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// display — but do NOT add directory files as orphan manifest entries.
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if index.totalCount <= 1 {
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let items = (try? await Self.withTimeout(12) { try await transfer.listDirectory(at: conn.remotePath) }) ?? []
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let dirCount = items.filter {
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!$0.isDirectory && !$0.name.hasPrefix(".") && $0.name != BackupManifest.remoteFilename
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}.count
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log.info("buildManifestIndex: validity — manifest=\(index.totalCount) dir=\(dirCount) — using max")
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if dirCount > index.totalCount {
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await NASManifestCache.shared.setDirectoryCount(dirCount)
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return ManifestIndex(manifest: manifest, overrideTotalCount: dirCount)
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}
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}
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return index
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}
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log.warning("buildManifestIndex: manifest downloaded but failed to decode (\(data.count) bytes)")
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} catch {
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log.info("buildManifestIndex: manifest not found at \(path, privacy: .public) — \(error.localizedDescription, privacy: .public) — falling back to directory listing")
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}
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// Bootstrap: list NAS directory and build filename-only index in background.
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let items = (try? await Self.withTimeout(12) { try await transfer.listDirectory(at: conn.remotePath) }) ?? []
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log.info("buildManifestIndex: bootstrap from \(items.count) items in \(conn.remotePath, privacy: .public)")
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let bootstrapIndex = await Task.detached(priority: .utility) {
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ManifestIndex(nasListing: items)
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}.value
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await NASManifestCache.shared.setDirectoryCount(bootstrapIndex.totalCount)
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return bootstrapIndex
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}
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/// Enumerates a PHFetchResult in batches using autoreleasepool.
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/// Marked nonisolated so it can be called from a background Task without
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/// requiring main-actor scheduling — it accesses no @MainActor state.
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private nonisolated func countSafe(
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in result: PHFetchResult<PHAsset>,
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against index: ManifestIndex,
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batchSize: Int = 150
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) async throws -> Int {
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var safe = 0
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let total = result.count
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var processed = 0
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while processed < total {
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try Task.checkCancellation()
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let batchEnd = min(processed + batchSize, total)
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// autoreleasepool releases PHAsset objects and PHAssetResource arrays
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// created during this batch before moving to the next.
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let batchSafe: Int = autoreleasepool {
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var count = 0
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for i in processed..<batchEnd {
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let asset = result.object(at: i)
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if index.matches(localIdentifier: asset.localIdentifier) {
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count += 1
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} else {
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let resources = PHAssetResource.assetResources(for: asset)
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if let name = resources.first?.originalFilename {
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if index.isFilenameOnly && index.matches(filename: name) {
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count += 1
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} else if index.matchesUnclaimed(filename: name) {
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count += 1
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}
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}
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}
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}
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return count
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}
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safe += batchSafe
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processed = batchEnd
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await Task.yield()
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}
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return safe
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}
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// MARK: — Phone-only lightweight update (no NAS connection)
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private func updatePhoneCountOnly() {
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let result = photoService.fetchResultForReconciliation(
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filter: ConnectionStore.shared.backupFilter
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)
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let phoneTotal = result.count
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guard phoneTotal != snapshot.phoneTotal else { return }
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snapshot.phoneTotal = phoneTotal
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snapshot.alreadySafe = min(snapshot.alreadySafe, phoneTotal)
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saveSnapshot()
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log.debug("Phone-only update: \(phoneTotal) assets")
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}
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// MARK: — Manifest write (non-blocking, background only)
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func writeManifest(entries: [ManifestEntry], connection: NASConnection) async {
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guard !entries.isEmpty else { return }
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// Capture cache before connecting — used as fallback if NAS download fails.
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// This prevents discarding accumulated history when the connection is flaky.
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let cacheBase = await NASManifestCache.shared.manifest
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let transfer: any NASTransferProtocol = connection.nasProtocol == .smb ? SMBService() : SFTPService()
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do {
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try await transfer.connect(
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to: connection.host, port: connection.port,
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username: connection.username, password: connection.password
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)
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defer { transfer.disconnect() }
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let manifestPath = "\(connection.remotePath)/\(BackupManifest.remoteFilename)"
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log.info("writeManifest: path=\(manifestPath, privacy: .public) entries=\(entries.count)")
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// Try NAS download — authoritative if successful.
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let existingData = try? await transfer.downloadData(at: manifestPath)
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// Merge + JSON encode off main actor — can be slow for large manifests.
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// Use the manifest with more entries as the merge base so history is never lost
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// if the NAS manifest has fewer entries than the local cache (e.g. 1 vs 264).
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let result: (data: Data, manifest: BackupManifest)? = await Task.detached(priority: .utility) {
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let nasManifest = existingData.flatMap { try? JSONDecoder.kisani.decode(BackupManifest.self, from: $0) }
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let nasCount = nasManifest?.entries.count ?? 0
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let cacheCount = cacheBase?.entries.count ?? 0
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var manifest: BackupManifest
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if nasCount > 0, nasCount >= cacheCount {
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manifest = nasManifest! // NAS at least as current — authoritative
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} else if cacheCount > 0 {
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manifest = cacheBase! // Cache has more history — preserve it
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} else {
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manifest = BackupManifest()
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}
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manifest.merge(entries: entries)
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guard let encoded = try? JSONEncoder.kisani.encode(manifest) else { return nil }
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return (encoded, manifest)
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}.value
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guard let (encoded, mergedManifest) = result else { return }
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try await transfer.writeData(encoded, to: manifestPath)
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// Update local cache so fast-path reconcile reads fresh data.
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await NASManifestCache.shared.update(mergedManifest)
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lastManifest = mergedManifest
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log.info("writeManifest: done — \(entries.count) new, total=\(mergedManifest.entries.count)")
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} catch {
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log.error("writeManifest failed (non-fatal): \(error.localizedDescription)")
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}
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}
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// MARK: — Timeout helper
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/// Runs `work` and throws `BackupError.timeout` if it doesn't finish within `seconds`.
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/// Uses a racing task group so the timeout fires even when the underlying SMB/SFTP
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/// stack doesn't propagate Swift cooperative cancellation.
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private nonisolated static func withTimeout<T: Sendable>(
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_ seconds: TimeInterval,
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work: @Sendable @escaping () async throws -> T
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) async throws -> T {
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try await withThrowingTaskGroup(of: T.self) { group in
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group.addTask(priority: .userInitiated) { try await work() }
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group.addTask(priority: .utility) {
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try await Task.sleep(nanoseconds: UInt64(seconds * 1_000_000_000))
|
|
throw BackupError.timeout
|
|
}
|
|
defer { group.cancelAll() }
|
|
guard let result = try await group.next() else { throw BackupError.timeout }
|
|
return result
|
|
}
|
|
}
|
|
|
|
// MARK: — Cache
|
|
|
|
private func loadCachedSnapshot() {
|
|
guard let data = UserDefaults.standard.data(forKey: cacheKey),
|
|
let cached = try? JSONDecoder().decode(BackupStatusSnapshot.self, from: data)
|
|
else { return }
|
|
snapshot = cached
|
|
}
|
|
|
|
private func saveSnapshot() {
|
|
let encoder = JSONEncoder()
|
|
encoder.dateEncodingStrategy = .iso8601
|
|
if let data = try? encoder.encode(snapshot) {
|
|
UserDefaults.standard.set(data, forKey: cacheKey)
|
|
}
|
|
}
|
|
}
|
|
|
|
// MARK: — PHPhotoLibraryChangeObserver
|
|
|
|
extension BackupStatusService: PHPhotoLibraryChangeObserver {
|
|
nonisolated func photoLibraryDidChange(_ changeInstance: PHChange) {
|
|
// Update LocalPhotoIndex incrementally — avoids full rebuild on every change.
|
|
// We need the fetch result for change details; rebuild from scratch if unavailable.
|
|
Task(priority: .utility) {
|
|
let opts = PHFetchOptions()
|
|
let allAssets = PHAsset.fetchAssets(with: opts)
|
|
if let details = changeInstance.changeDetails(for: allAssets) {
|
|
await LocalPhotoIndex.shared.apply(
|
|
inserted: details.insertedObjects,
|
|
removed: details.removedObjects,
|
|
changed: details.changedObjects
|
|
)
|
|
await LocalPhotoIndex.shared.flush()
|
|
}
|
|
}
|
|
Task { @MainActor [weak self] in
|
|
guard let self else { return }
|
|
self.debounceTask?.cancel()
|
|
self.debounceTask = Task {
|
|
do {
|
|
try await Task.sleep(nanoseconds: UInt64(BackupStatusService.debounceInterval * 1_000_000_000))
|
|
self.refresh()
|
|
} catch {
|
|
// Cancelled — a newer change event took over
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|