veilid/veilid-flutter/lib/routing_context.dart
2023-11-05 18:38:05 -05:00

263 lines
6.9 KiB
Dart

import 'dart:async';
import 'dart:typed_data';
import 'package:change_case/change_case.dart';
import 'package:equatable/equatable.dart';
import 'package:freezed_annotation/freezed_annotation.dart';
import 'veilid.dart';
part 'routing_context.freezed.dart';
part 'routing_context.g.dart';
//////////////////////////////////////
extension ValidateDFLT on DHTSchemaDFLT {
bool validate() {
if (oCnt > 65535) {
return false;
}
if (oCnt <= 0) {
return false;
}
return true;
}
}
extension ValidateSMPL on DHTSchemaSMPL {
bool validate() {
final totalsv = members.fold(0, (acc, v) => acc + v.mCnt) + oCnt;
if (totalsv > 65535) {
return false;
}
if (totalsv <= 0) {
return false;
}
return true;
}
}
//////////////////////////////////////
/// DHT Schema
@Freezed(unionKey: 'kind', unionValueCase: FreezedUnionCase.pascal)
sealed class DHTSchema with _$DHTSchema {
@FreezedUnionValue('DFLT')
const factory DHTSchema.dflt({required int oCnt}) = DHTSchemaDFLT;
@FreezedUnionValue('SMPL')
const factory DHTSchema.smpl(
{required int oCnt,
required List<DHTSchemaMember> members}) = DHTSchemaSMPL;
factory DHTSchema.fromJson(dynamic json) =>
_$DHTSchemaFromJson(json as Map<String, dynamic>);
}
const DHTSchema defaultDHTSchema = DHTSchema.dflt(oCnt: 1);
@freezed
class DHTSchemaMember with _$DHTSchemaMember {
@Assert('mCnt > 0 && mCnt <= 65535', 'value out of range')
const factory DHTSchemaMember({
required PublicKey mKey,
required int mCnt,
}) = _DHTSchemaMember;
factory DHTSchemaMember.fromJson(dynamic json) =>
_$DHTSchemaMemberFromJson(json as Map<String, dynamic>);
}
//////////////////////////////////////
/// DHTRecordDescriptor
@freezed
class DHTRecordDescriptor with _$DHTRecordDescriptor {
const factory DHTRecordDescriptor({
required TypedKey key,
required PublicKey owner,
required DHTSchema schema,
PublicKey? ownerSecret,
}) = _DHTRecordDescriptor;
factory DHTRecordDescriptor.fromJson(dynamic json) =>
_$DHTRecordDescriptorFromJson(json as Map<String, dynamic>);
}
extension DHTRecordDescriptorExt on DHTRecordDescriptor {
KeyPair? ownerKeyPair() {
if (ownerSecret == null) {
return null;
}
return KeyPair(key: owner, secret: ownerSecret!);
}
TypedKeyPair? ownerTypedKeyPair() {
if (ownerSecret == null) {
return null;
}
return TypedKeyPair(kind: key.kind, key: owner, secret: ownerSecret!);
}
}
//////////////////////////////////////
/// ValueSubkeyRange
@freezed
class ValueSubkeyRange with _$ValueSubkeyRange {
@Assert('low < 0 || low > high', 'low out of range')
@Assert('high < 0', 'high out of range')
const factory ValueSubkeyRange({
required int low,
required int high,
}) = _ValueSubkeyRange;
factory ValueSubkeyRange.fromJson(dynamic json) =>
_$ValueSubkeyRangeFromJson(json as Map<String, dynamic>);
}
//////////////////////////////////////
/// ValueData
@freezed
class ValueData with _$ValueData {
@Assert('seq >= 0', 'seq out of range')
const factory ValueData({
required int seq,
@Uint8ListJsonConverter.jsIsArray() required Uint8List data,
required PublicKey writer,
}) = _ValueData;
factory ValueData.fromJson(dynamic json) =>
_$ValueDataFromJson(json as Map<String, dynamic>);
}
//////////////////////////////////////
/// Stability
enum Stability {
lowLatency,
reliable;
factory Stability.fromJson(dynamic j) =>
Stability.values.byName((j as String).toCamelCase());
String toJson() => name.toPascalCase();
}
//////////////////////////////////////
/// Sequencing
enum Sequencing {
noPreference,
preferOrdered,
ensureOrdered;
factory Sequencing.fromJson(dynamic j) =>
Sequencing.values.byName((j as String).toCamelCase());
String toJson() => name.toPascalCase();
}
//////////////////////////////////////
/// SafetySelection
@immutable
abstract class SafetySelection {
factory SafetySelection.fromJson(dynamic jsond) {
final json = jsond as Map<String, dynamic>;
if (json.containsKey('Unsafe')) {
return SafetySelectionUnsafe(
sequencing: Sequencing.fromJson(json['Unsafe']));
} else if (json.containsKey('Safe')) {
return SafetySelectionSafe(safetySpec: SafetySpec.fromJson(json['Safe']));
} else {
throw const VeilidAPIExceptionInternal('Invalid SafetySelection');
}
}
Map<String, dynamic> toJson();
}
@immutable
class SafetySelectionUnsafe extends Equatable implements SafetySelection {
//
const SafetySelectionUnsafe({
required this.sequencing,
});
final Sequencing sequencing;
@override
List<Object> get props => [sequencing];
@override
bool? get stringify => null;
@override
Map<String, dynamic> toJson() => {'Unsafe': sequencing.toJson()};
}
@immutable
class SafetySelectionSafe extends Equatable implements SafetySelection {
//
const SafetySelectionSafe({
required this.safetySpec,
});
final SafetySpec safetySpec;
@override
List<Object> get props => [safetySpec];
@override
bool? get stringify => null;
@override
Map<String, dynamic> toJson() => {'Safe': safetySpec.toJson()};
}
/// Options for safety routes (sender privacy)
@freezed
class SafetySpec with _$SafetySpec {
const factory SafetySpec({
required int hopCount,
required Stability stability,
required Sequencing sequencing,
String? preferredRoute,
}) = _SafetySpec;
factory SafetySpec.fromJson(dynamic json) =>
_$SafetySpecFromJson(json as Map<String, dynamic>);
}
//////////////////////////////////////
/// RouteBlob
@freezed
class RouteBlob with _$RouteBlob {
const factory RouteBlob(
{required String routeId,
@Uint8ListJsonConverter() required Uint8List blob}) = _RouteBlob;
factory RouteBlob.fromJson(dynamic json) =>
_$RouteBlobFromJson(json as Map<String, dynamic>);
}
//////////////////////////////////////
/// VeilidRoutingContext
abstract class VeilidRoutingContext {
void close();
// Modifiers
VeilidRoutingContext withDefaultSafety();
VeilidRoutingContext withSafety(SafetySelection safetySelection);
VeilidRoutingContext withSequencing(Sequencing sequencing);
Future<SafetySelection> safety();
// App call/message
Future<Uint8List> appCall(String target, Uint8List request);
Future<void> appMessage(String target, Uint8List message);
// DHT Operations
Future<DHTRecordDescriptor> createDHTRecord(DHTSchema schema,
{CryptoKind kind = 0});
Future<DHTRecordDescriptor> openDHTRecord(TypedKey key, KeyPair? writer);
Future<void> closeDHTRecord(TypedKey key);
Future<void> deleteDHTRecord(TypedKey key);
Future<ValueData?> getDHTValue(TypedKey key, int subkey, bool forceRefresh);
Future<ValueData?> setDHTValue(TypedKey key, int subkey, Uint8List data);
Future<Timestamp> watchDHTValues(TypedKey key, List<ValueSubkeyRange> subkeys,
Timestamp expiration, int count);
Future<bool> cancelDHTWatch(TypedKey key, List<ValueSubkeyRange> subkeys);
}