Files
Kisani/Services/BackupEngine.swift
Robin Kutesa c7555a2001 fix: manifest cache not updated after backup causes NAS Archive = 1 and backup loop
- writeManifest now updates NASManifestCache after every successful NAS write;
  previously the fast-path reconcile would read the pre-backup cache entry
  (e.g. 1 entry) and overwrite nasArchiveTotal / alreadySafe with stale values
- BackupEngine seeds NASManifestCache when it loads the manifest so the cache
  is always at least as fresh as what the engine sees at backup-start time
- Remove snapshot.nasArchiveTotal += uploaded from refreshAfterBackup; the
  correct total comes from the merged manifest written to NAS, not an additive
  delta from a potentially-wrong baseline
- Fix JSONDecoder() → JSONDecoder.kisani throughout manifest load paths so
  ISO8601 dates decode correctly instead of silently failing and returning nil
- Add retry with exponential backoff (max 3 attempts, 2 s / 4 s intervals)
  to the upload loop; permanently-failed items are now marked .failed only
  after all retries are exhausted

Co-Authored-By: Kutesir <kutesir@provoc.ug>
Co-Authored-By: Sentry <sentry@provoc.ug>
2026-05-18 00:03:10 +03:00

376 lines
16 KiB
Swift
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import Foundation
import Photos
import os.log
private let logger = Logger(subsystem: "com.albert.nasbackup", category: "BackupEngine")
private let signposter = OSSignposter(subsystem: "com.albert.nasbackup", category: "BackupEngine")
@MainActor
final class BackupEngine: ObservableObject {
static let shared = BackupEngine()
@Published private(set) var job: BackupJob = BackupJob()
@Published private(set) var queueItems: [BackupQueueItem] = []
private let photoService: PhotoLibraryProtocol
private let transferFactory: (NASProtocol) -> any NASTransferProtocol
private var activeTransfer: (any NASTransferProtocol)?
private var isCancelled = false
private static let queueCacheURL: URL = {
let caches = FileManager.default.urls(for: .cachesDirectory, in: .userDomainMask)[0]
return caches.appendingPathComponent("kisani_last_queue.json")
}()
private init(
photos: PhotoLibraryProtocol = PhotoLibraryService(),
transferFactory: @escaping (NASProtocol) -> any NASTransferProtocol = { proto in
switch proto {
case .smb: return SMBService()
case .sftp: return SFTPService()
}
}
) {
self.photoService = photos
self.transferFactory = transferFactory
// Load last session's queue so SyncView has data to show on next launch.
if let data = try? Data(contentsOf: Self.queueCacheURL),
let items = try? JSONDecoder.kisani.decode([BackupQueueItem].self, from: data) {
self.queueItems = items
}
}
static func testInstance(
transfer: any NASTransferProtocol,
photos: PhotoLibraryProtocol
) -> BackupEngine {
BackupEngine(photos: photos, transferFactory: { _ in transfer })
}
func run(
connection: NASConnection,
filter: BackupFilter,
triggeredByLAN: Bool = false
) async throws -> BackupResult {
isCancelled = false
let startDate = Date()
let store = ConnectionStore.shared
let lan = LANMonitor.shared
if !triggeredByLAN && lan.isOnCellular && !store.allowCellularBackup {
throw BackupError.networkUnavailable
}
let host = resolveHost(connection: connection, store: store, lan: lan)
// 1. Fetch assets off the main actor
// fetchAssets() enumerates every PHAsset and builds a [PhotoAsset] array.
// For a library of 10 k+ assets this is 100500 ms of synchronous work.
// Running it in a detached task keeps the main thread free for animations.
job.prepare()
let photoSvc = self.photoService
let spFetch = signposter.beginInterval("FetchAssets")
let assets: [PhotoAsset] = await Task.detached(priority: .userInitiated) {
photoSvc.fetchAssets(filter: filter)
}.value
signposter.endInterval("FetchAssets", spFetch, "\(assets.count) assets")
logger.info("Photo fetch: \(assets.count) assets in library")
try Task.checkCancellation()
// 2. Connect to NAS
// Network I/O suspends the main actor UI stays live the whole time.
let transfer = transferFactory(connection.nasProtocol)
let spConnect = signposter.beginInterval("NASConnect")
try await transfer.connect(
to: host, port: connection.port,
username: connection.username, password: connection.password
)
signposter.endInterval("NASConnect", spConnect)
activeTransfer = transfer
defer { transfer.disconnect(); activeTransfer = nil }
try Task.checkCancellation()
// 3. Load manifest parse off the main actor
// The download suspends the main actor (good). JSON decode + Set<String>
// construction for a large manifest is O(N) CPU work run it in a
// detached task so we don't block touch handling or animations.
let manifestPath = "\(connection.remotePath)/\(BackupManifest.remoteFilename)"
let spManifest = signposter.beginInterval("ManifestLoad")
let manifestData = try? await transfer.downloadData(at: manifestPath)
let (index, loadedManifest): (ManifestIndex, BackupManifest?) = await Task.detached(priority: .userInitiated) {
guard let data = manifestData,
let manifest = try? JSONDecoder.kisani.decode(BackupManifest.self, from: data)
else { return (ManifestIndex(nasListing: []), nil) }
return (ManifestIndex(manifest: manifest), manifest)
}.value
signposter.endInterval("ManifestLoad", spManifest,
"\(index.totalCount) entries, filename-only=\(index.isFilenameOnly)")
logger.info("Manifest: \(index.totalCount) entries, filename-only=\(index.isFilenameOnly)")
// Seed the local cache so BackupStatusService's fast-path reconcile reflects
// the current NAS state before the upload loop begins.
if let m = loadedManifest {
await NASManifestCache.shared.update(m)
}
try Task.checkCancellation()
// 4. Build pending queue off the main actor
// Filtering a large [PhotoAsset] is O(N) with two Set lookups per item.
// Safe to run in background: both assets and index are value-type safe.
let spFilter = signposter.beginInterval("BuildPendingQueue")
let pendingAssets: [PhotoAsset] = await Task.detached(priority: .userInitiated) {
assets.filter { asset in
!index.matches(localIdentifier: asset.localIdentifier) &&
!(index.isFilenameOnly && index.matches(filename: asset.filename))
}
}.value
signposter.endInterval("BuildPendingQueue", spFilter, "\(pendingAssets.count) pending")
logger.info("Pending queue: \(pendingAssets.count) of \(assets.count) total")
guard !pendingAssets.isEmpty else {
job.allAlreadySafe()
BackupStatusService.shared.refresh(force: false)
return BackupResult.empty(date: startDate)
}
// 5. Upload loop
job.start(totalFiles: pendingAssets.count, totalBytes: 0)
NotificationService.notifyBackupStarted(count: pendingAssets.count)
// Build initial queue (all queued) for SyncView
queueItems = pendingAssets.map { asset in
BackupQueueItem(
id: asset.localIdentifier,
filename: asset.filename,
nasPath: "\(connection.remotePath)/\(asset.filename)",
status: .queued, bytesUploaded: 0, totalBytes: 0, speedBytesPerSec: 0,
error: nil, retryCount: 0, queuedAt: Date(), completedAt: nil
)
}
var uploaded = 0
var skipped = 0
var failed = 0
var totalBytes: Int64 = 0
var speedTracker = SpeedTracker()
var throttle = ProgressThrottle(hz: 8)
var manifestEntries: [ManifestEntry] = []
manifestEntries.reserveCapacity(pendingAssets.count)
let spUpload = signposter.beginInterval("UploadLoop", "\(pendingAssets.count) files")
let maxRetries = 3
for (assetIdx, asset) in pendingAssets.enumerated() {
if isCancelled { break }
while case .paused = job.status {
try await Task.sleep(nanoseconds: 500_000_000)
}
let remotePath = "\(connection.remotePath)/\(asset.filename)"
if assetIdx < queueItems.count {
queueItems[assetIdx].status = .uploading
}
if (try? await transfer.fileExists(at: remotePath)) == true {
job.fileCompleted(skipped: true)
skipped += 1
if assetIdx < queueItems.count {
queueItems[assetIdx].status = .skipped
queueItems[assetIdx].completedAt = Date()
}
logger.debug("Skipped (NAS exists): \(asset.filename, privacy: .public)")
continue
}
var uploadSucceeded = false
var lastUploadError: Error?
for attempt in 0..<maxRetries {
if isCancelled { break }
if attempt > 0 {
// Exponential backoff: 2s, 4s before retries 2 and 3
let backoffNs = UInt64(pow(2.0, Double(attempt)) * 1_000_000_000)
try? await Task.sleep(nanoseconds: backoffNs)
if assetIdx < queueItems.count {
queueItems[assetIdx].retryCount = attempt
queueItems[assetIdx].status = .uploading
}
logger.info("Retry \(attempt)/\(maxRetries - 1) for \(asset.filename, privacy: .public)")
}
do {
let spFile = signposter.beginInterval("UploadFile",
"\(asset.filename, privacy: .public)")
let localURL = try await photoService.exportAsset(asset)
defer { try? FileManager.default.removeItem(at: localURL) }
let fileSize = (try? localURL.resourceValues(forKeys: [.fileSizeKey]).fileSize)
.flatMap { Int64($0) } ?? 0
let bytesSoFar = totalBytes
let capturedIdx = assetIdx
if capturedIdx < queueItems.count {
queueItems[capturedIdx].totalBytes = fileSize
queueItems[capturedIdx].bytesUploaded = 0
}
try await transfer.upload(localURL: localURL, remotePath: remotePath) { sent, _ in
let speed = speedTracker.update(bytesSent: sent)
guard throttle.shouldUpdate() else { return }
Task { @MainActor [weak self] in
guard let self else { return }
self.job.updateProgress(
fileName: asset.filename,
fileSize: fileSize,
bytesTransferred: bytesSoFar + sent,
speed: speed
)
if capturedIdx < self.queueItems.count {
self.queueItems[capturedIdx].bytesUploaded = sent
self.queueItems[capturedIdx].speedBytesPerSec = speed
}
}
}
signposter.endInterval("UploadFile", spFile, "\(fileSize) bytes")
totalBytes += fileSize
job.fileCompleted(skipped: false)
uploaded += 1
uploadSucceeded = true
if assetIdx < queueItems.count {
queueItems[assetIdx].status = .uploaded
queueItems[assetIdx].bytesUploaded = fileSize
queueItems[assetIdx].completedAt = Date()
}
manifestEntries.append(ManifestEntry(
localIdentifier: asset.localIdentifier,
filename: asset.filename,
creationDate: asset.creationDate,
fileSize: fileSize,
remotePath: remotePath,
uploadedAt: Date()
))
} catch {
lastUploadError = error
logger.warning("Upload attempt \(attempt + 1)/\(maxRetries) failed for \(asset.filename, privacy: .public): \(error.localizedDescription, privacy: .public)")
}
if uploadSucceeded { break }
}
if !uploadSucceeded, let error = lastUploadError {
logger.error("Upload permanently failed for \(asset.filename, privacy: .public): \(error.localizedDescription, privacy: .public)")
job.fileFailed()
failed += 1
if assetIdx < queueItems.count {
queueItems[assetIdx].status = .failed
queueItems[assetIdx].completedAt = Date()
queueItems[assetIdx].error = BackupQueueItem.UploadError(
code: (error as NSError).domain,
message: error.localizedDescription,
timestamp: Date()
)
}
}
}
signposter.endInterval("UploadLoop", spUpload, "\(uploaded) uploaded, \(failed) failed")
let duration = Date().timeIntervalSince(startDate)
let result = BackupResult(
uploadedCount: uploaded,
skippedCount: skipped,
failedCount: failed,
duration: duration,
totalBytes: totalBytes,
date: startDate
)
job.finish(result: result)
BackupStatusService.shared.refreshAfterBackup(entries: manifestEntries, connection: connection)
let entry = BackupHistoryEntry(result: result, nasHost: host, triggeredByLAN: triggeredByLAN)
store.appendHistoryEntry(entry)
// Notifications
if result.failedCount > 0 {
NotificationService.notifyBackupFailed(count: result.failedCount)
} else {
NotificationService.notifyBackupCompleted(
uploaded: result.uploadedCount,
total: BackupStatusService.shared.snapshot.phoneTotal
)
}
// Persist queue so SyncView shows last session on next launch
let snapshot = queueItems
Task.detached(priority: .utility) { [snapshot, url = Self.queueCacheURL] in
guard let data = try? JSONEncoder.kisani.encode(snapshot) else { return }
try? data.write(to: url, options: .atomic)
}
return result
}
// Returns Tailscale host when off trusted LAN and tunnel is active.
private func resolveHost(connection: NASConnection, store: ConnectionStore, lan: LANMonitor) -> String {
let onTrustedLAN = store.trustedSSIDs.contains(lan.currentSSID ?? "")
guard !onTrustedLAN,
store.useTailscaleWhenRemote,
!store.tailscaleHost.isEmpty,
lan.isTailscaleActive else { return connection.host }
return store.tailscaleHost
}
func cancel() { isCancelled = true; job.cancel() }
func pause() { job.pause() }
func resume() { job.resume() }
func resolveSuccess() { job.resolveSuccess() }
}
// MARK: SpeedTracker
private struct SpeedTracker {
private var lastBytes: Int64 = 0
private var lastTime: Date = Date()
mutating func update(bytesSent: Int64) -> Double {
let now = Date()
let elapsed = now.timeIntervalSince(lastTime)
guard elapsed > 0.1 else { return 0 }
let speed = Double(bytesSent - lastBytes) / elapsed
lastBytes = bytesSent
lastTime = now
return max(0, speed)
}
}
// MARK: ProgressThrottle
/// Limits the rate at which progress callbacks trigger @MainActor UI updates.
/// Without this, SMB/SFTP stacks fire hundreds of callbacks per second, causing
/// SwiftUI to redraw the full view tree on every tick.
private struct ProgressThrottle {
private var lastUpdate: Date = .distantPast
private let minInterval: TimeInterval
init(hz: Double = 8) { minInterval = 1.0 / max(1, hz) }
mutating func shouldUpdate() -> Bool {
let now = Date()
guard now.timeIntervalSince(lastUpdate) >= minInterval else { return false }
lastUpdate = now
return true
}
}