immich/mobile/lib/utils/immich_cache_info_repository.dart

211 lines
5.8 KiB
Dart

// ignore_for_file: depend_on_referenced_packages, implementation_imports
import 'dart:io';
import 'dart:math';
import 'package:flutter_cache_manager/flutter_cache_manager.dart';
import 'package:flutter_cache_manager/src/storage/cache_object.dart';
import 'package:hive/hive.dart';
import 'package:path/path.dart' as p;
import 'package:path_provider/path_provider.dart';
// Implementation of a CacheInfoRepository based on Hive
abstract class ImmichCacheRepository extends CacheInfoRepository {
int getNumberOfCachedObjects();
int getCacheSize();
}
class ImmichCacheInfoRepository extends ImmichCacheRepository {
final String hiveBoxName;
final String keyLookupHiveBoxName;
// To circumvent some of the limitations of a non-relational key-value database,
// we use two hive boxes per cache.
// [cacheObjectLookupBox] maps ids to cache objects.
// [keyLookupHiveBox] maps keys to ids.
// The lookup of a cache object by key therefore involves two steps:
// id = keyLookupHiveBox[key]
// object = cacheObjectLookupBox[id]
late Box<Map<dynamic, dynamic>> cacheObjectLookupBox;
late Box<int> keyLookupHiveBox;
ImmichCacheInfoRepository(this.hiveBoxName, this.keyLookupHiveBoxName);
@override
Future<bool> close() async {
await cacheObjectLookupBox.close();
return true;
}
@override
Future<int> delete(int id) async {
if (cacheObjectLookupBox.containsKey(id)) {
await cacheObjectLookupBox.delete(id);
return 1;
}
return 0;
}
@override
Future<int> deleteAll(Iterable<int> ids) async {
int deleted = 0;
for (var id in ids) {
if (cacheObjectLookupBox.containsKey(id)) {
deleted++;
await cacheObjectLookupBox.delete(id);
}
}
return deleted;
}
@override
Future<void> deleteDataFile() async {
await cacheObjectLookupBox.clear();
await keyLookupHiveBox.clear();
}
@override
Future<bool> exists() async {
return cacheObjectLookupBox.isNotEmpty && keyLookupHiveBox.isNotEmpty;
}
@override
Future<CacheObject?> get(String key) async {
if (!keyLookupHiveBox.containsKey(key)) {
return null;
}
int id = keyLookupHiveBox.get(key)!;
if (!cacheObjectLookupBox.containsKey(id)) {
keyLookupHiveBox.delete(key);
return null;
}
return _deserialize(cacheObjectLookupBox.get(id)!);
}
@override
Future<List<CacheObject>> getAllObjects() async {
return cacheObjectLookupBox.values.map(_deserialize).toList();
}
@override
Future<List<CacheObject>> getObjectsOverCapacity(int capacity) async {
if (cacheObjectLookupBox.length <= capacity) {
return List.empty();
}
var values = cacheObjectLookupBox.values.map(_deserialize).toList();
values.sort((CacheObject a, CacheObject b) {
final aTouched = a.touched ?? DateTime.fromMicrosecondsSinceEpoch(0);
final bTouched = b.touched ?? DateTime.fromMicrosecondsSinceEpoch(0);
return aTouched.compareTo(bTouched);
});
return values.skip(capacity).take(10).toList();
}
@override
Future<List<CacheObject>> getOldObjects(Duration maxAge) async {
return cacheObjectLookupBox.values
.map(_deserialize)
.where((CacheObject element) {
DateTime touched =
element.touched ?? DateTime.fromMicrosecondsSinceEpoch(0);
return touched.isBefore(DateTime.now().subtract(maxAge));
}).toList();
}
@override
Future<CacheObject> insert(
CacheObject cacheObject, {
bool setTouchedToNow = true,
}) async {
int newId = keyLookupHiveBox.length == 0
? 0
: keyLookupHiveBox.values.reduce(max) + 1;
cacheObject = cacheObject.copyWith(id: newId);
keyLookupHiveBox.put(cacheObject.key, newId);
cacheObjectLookupBox.put(newId, cacheObject.toMap());
return cacheObject;
}
@override
Future<bool> open() async {
cacheObjectLookupBox = await Hive.openBox(hiveBoxName);
keyLookupHiveBox = await Hive.openBox(keyLookupHiveBoxName);
// The cache might have cleared by the operating system.
// This could create inconsistencies between the file system cache and database.
// To check whether the cache was cleared, a file within the cache directory
// is created for each database. If the file is absent, the cache was cleared and therefore
// the database has to be cleared as well.
if (!await _checkAndCreateAnchorFile()) {
await cacheObjectLookupBox.clear();
await keyLookupHiveBox.clear();
}
return cacheObjectLookupBox.isOpen;
}
@override
Future<int> update(
CacheObject cacheObject, {
bool setTouchedToNow = true,
}) async {
if (cacheObject.id != null) {
cacheObjectLookupBox.put(cacheObject.id, cacheObject.toMap());
return 1;
}
return 0;
}
@override
Future updateOrInsert(CacheObject cacheObject) {
if (cacheObject.id == null) {
return insert(cacheObject);
} else {
return update(cacheObject);
}
}
@override
int getNumberOfCachedObjects() {
return cacheObjectLookupBox.length;
}
@override
int getCacheSize() {
final cacheElementsWithSize =
cacheObjectLookupBox.values.map(_deserialize).map((e) => e.length ?? 0);
if (cacheElementsWithSize.isEmpty) {
return 0;
}
return cacheElementsWithSize.reduce((value, element) => value + element);
}
CacheObject _deserialize(Map serData) {
Map<String, dynamic> converted = {};
serData.forEach((key, value) {
converted[key.toString()] = value;
});
return CacheObject.fromMap(converted);
}
Future<bool> _checkAndCreateAnchorFile() async {
final tmpDir = await getTemporaryDirectory();
final cacheFile = File(p.join(tmpDir.path, "$hiveBoxName.tmp"));
if (await cacheFile.exists()) {
return true;
}
await cacheFile.create();
return false;
}
}