stack_wallet/lib/db/sqlite/firo_cache_coordinator.dart

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part of 'firo_cache.dart';
typedef LTagPair = ({String tag, String txid});
/// Wrapper class for [_FiroCache] as [_FiroCache] should eventually be handled in a
/// background isolate and [FiroCacheCoordinator] should manage that isolate
abstract class FiroCacheCoordinator {
static final Map<CryptoCurrencyNetwork, _FiroCacheWorker> _workers = {};
static bool _init = false;
static Future<void> init() async {
if (_init) {
return;
}
_init = true;
await _FiroCache.init();
for (final network in _FiroCache.networks) {
_workers[network] = await _FiroCacheWorker.spawn(network);
}
}
static Future<void> clearSharedCache(CryptoCurrencyNetwork network) async {
return await _FiroCache._deleteAllCache(network);
}
static Future<String> getSparkCacheSize(CryptoCurrencyNetwork network) async {
final dir = await StackFileSystem.applicationFiroCacheSQLiteDirectory();
final setCacheFile = File(
"${dir.path}/${_FiroCache.sparkSetCacheFileName(network)}",
);
final usedTagsCacheFile = File(
"${dir.path}/${_FiroCache.sparkUsedTagsCacheFileName(network)}",
);
final int bytes =
((await setCacheFile.exists()) ? await setCacheFile.length() : 0) +
((await usedTagsCacheFile.exists())
? await usedTagsCacheFile.length()
: 0);
if (bytes < 1024) {
return '$bytes B';
} else if (bytes < 1048576) {
final double kbSize = bytes / 1024;
return '${kbSize.toStringAsFixed(2)} KB';
} else if (bytes < 1073741824) {
final double mbSize = bytes / 1048576;
return '${mbSize.toStringAsFixed(2)} MB';
} else {
final double gbSize = bytes / 1073741824;
return '${gbSize.toStringAsFixed(2)} GB';
}
}
static Future<void> runFetchAndUpdateSparkUsedCoinTags(
ElectrumXClient client,
CryptoCurrencyNetwork network,
) async {
final count = await FiroCacheCoordinator.getUsedCoinTagsCount(network);
final unhashedTags = await client.getSparkUnhashedUsedCoinsTagsWithTxHashes(
startNumber: count,
);
if (unhashedTags.isNotEmpty) {
await _workers[network]!.runTask(
FCTask(
func: FCFuncName._updateSparkUsedTagsWith,
data: unhashedTags,
),
);
}
}
static Future<void> runFetchAndUpdateSparkAnonSetCacheForGroupId(
int groupId,
ElectrumXClient client,
CryptoCurrencyNetwork network,
) async {
final blockhashResult =
await FiroCacheCoordinator.getLatestSetInfoForGroupId(
groupId,
network,
);
final blockHash = blockhashResult?.blockHash ?? "";
final json = await client.getSparkAnonymitySet(
coinGroupId: groupId.toString(),
startBlockHash: blockHash.toHexReversedFromBase64,
);
await _workers[network]!.runTask(
FCTask(
func: FCFuncName._updateSparkAnonSetCoinsWith,
data: (groupId, json),
),
);
}
// ===========================================================================
static Future<Set<String>> getUsedCoinTags(
int startNumber,
CryptoCurrencyNetwork network,
) async {
final result = await _Reader._getSparkUsedCoinTags(
startNumber,
db: _FiroCache.usedTagsCacheDB(network),
);
return result.map((e) => e["tag"] as String).toSet();
}
static Future<int> getUsedCoinTagsCount(
CryptoCurrencyNetwork network,
) async {
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final result = await _Reader._getUsedCoinTagsCount(
db: _FiroCache.usedTagsCacheDB(network),
);
if (result.isEmpty) {
return 0;
}
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return result.first["count"] as int? ?? 0;
}
static Future<List<LTagPair>> getUsedCoinTxidsFor({
required List<String> tags,
required CryptoCurrencyNetwork network,
}) async {
if (tags.isEmpty) {
return [];
}
final result = await _Reader._getUsedCoinTxidsFor(
tags,
db: _FiroCache.usedTagsCacheDB(network),
);
if (result.isEmpty) {
return [];
}
return result.rows
.map(
(e) => (
tag: e[0] as String,
txid: e[1] as String,
),
)
.toList();
}
static Future<Set<String>> getUsedCoinTagsFor({
required String txid,
required CryptoCurrencyNetwork network,
}) async {
final result = await _Reader._getUsedCoinTagsFor(
txid,
db: _FiroCache.usedTagsCacheDB(network),
);
return result.map((e) => e["tag"] as String).toSet();
}
static Future<bool> checkTagIsUsed(
String tag,
CryptoCurrencyNetwork network,
) async {
return await _Reader._checkTagIsUsed(
tag,
db: _FiroCache.usedTagsCacheDB(network),
);
}
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static Future<
List<
({
String serialized,
String txHash,
String context,
})>> getSetCoinsForGroupId(
int groupId, {
int? newerThanTimeStamp,
required CryptoCurrencyNetwork network,
}) async {
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final resultSet = await _Reader._getSetCoinsForGroupId(
groupId,
db: _FiroCache.setCacheDB(network),
newerThanTimeStamp: newerThanTimeStamp,
);
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return resultSet
.map(
(row) => (
serialized: row["serialized"] as String,
txHash: row["txHash"] as String,
context: row["context"] as String,
),
)
.toList()
.reversed
.toList();
}
static Future<
({
String blockHash,
String setHash,
int timestampUTC,
})?> getLatestSetInfoForGroupId(
int groupId,
CryptoCurrencyNetwork network,
) async {
final result = await _Reader._getLatestSetInfoForGroupId(
groupId,
db: _FiroCache.setCacheDB(network),
);
if (result.isEmpty) {
return null;
}
return (
blockHash: result.first["blockHash"] as String,
setHash: result.first["setHash"] as String,
timestampUTC: result.first["timestampUTC"] as int,
);
}
static Future<bool> checkSetInfoForGroupIdExists(
int groupId,
CryptoCurrencyNetwork network,
) async {
return await _Reader._checkSetInfoForGroupIdExists(
groupId,
db: _FiroCache.setCacheDB(network),
);
}
}