Please disclose if any significant portion of your mod was created using AI tools by adding the 'AI Generated' category. Failing to do so may result in the mod being removed from Thunderstore.
Decompiled source of Blasted Swimming Tarred Bug Fix v1.0.1
BlastedSwimmingTarredBugFix.dll
Decompiled 7 hours agousing System; using System.Collections; using System.Collections.Generic; using System.Diagnostics; using System.Globalization; using System.IO; using System.IO.Compression; using System.Linq; using System.Reflection; using System.Runtime.CompilerServices; using System.Runtime.Serialization; using System.Runtime.Versioning; using BepInEx; using BepInEx.Configuration; using BepInEx.Logging; using HarmonyLib; using JetBrains.Annotations; using Microsoft.CodeAnalysis; using ServerSync; using TMPro; using UnityEngine; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints)] [assembly: TargetFramework(".NETStandard,Version=v2.1", FrameworkDisplayName = ".NET Standard 2.1")] [assembly: AssemblyCompany("sighsorry")] [assembly: AssemblyConfiguration("Release")] [assembly: AssemblyFileVersion("1.0.0.0")] [assembly: AssemblyInformationalVersion("1.0.0")] [assembly: AssemblyProduct("BlastedSwimmingTarredBugFix")] [assembly: AssemblyTitle("BlastedSwimmingTarredBugFix")] [assembly: AssemblyVersion("1.0.0.0")] [module: RefSafetyRules(11)] namespace Microsoft.CodeAnalysis { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] internal sealed class EmbeddedAttribute : Attribute { } } namespace System.Runtime.CompilerServices { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] [AttributeUsage(AttributeTargets.Class | AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Event | AttributeTargets.Parameter | AttributeTargets.ReturnValue | AttributeTargets.GenericParameter, AllowMultiple = false, Inherited = false)] internal sealed class NullableAttribute : Attribute { public readonly byte[] NullableFlags; public NullableAttribute(byte P_0) { NullableFlags = new byte[1] { P_0 }; } public NullableAttribute(byte[] P_0) { NullableFlags = P_0; } } [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] [AttributeUsage(AttributeTargets.Class | AttributeTargets.Struct | AttributeTargets.Method | AttributeTargets.Interface | AttributeTargets.Delegate, AllowMultiple = false, Inherited = false)] internal sealed class NullableContextAttribute : Attribute { public readonly byte Flag; public NullableContextAttribute(byte P_0) { Flag = P_0; } } [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] [AttributeUsage(AttributeTargets.Module, AllowMultiple = false, Inherited = false)] internal sealed class RefSafetyRulesAttribute : Attribute { public readonly int Version; public RefSafetyRulesAttribute(int P_0) { Version = P_0; } } } namespace BlastedSwimmingTarredBugFix { [BepInPlugin("sighsorry.blastedswimmingtarredbugfix", "BlastedSwimmingTarredBugFix", "1.0.0")] public sealed class LiquidStuckFixPlugin : BaseUnityPlugin { public const string ModGuid = "sighsorry.blastedswimmingtarredbugfix"; public const string ModName = "BlastedSwimmingTarredBugFix"; public const string ModVersion = "1.0.0"; internal static ManualLogSource Log = null; internal static ConfigEntry<bool> ServerConfigLocked = null; internal static ConfigEntry<bool> ValidateSetLiquidLevel = null; internal static ConfigEntry<bool> PurgeStaleSourceLists = null; internal static ConfigEntry<bool> EmergencyClearPlayers = null; internal static ConfigEntry<bool> EmergencyClearFloatingObjects = null; internal static ConfigEntry<bool> ClampLiquidCounters = null; internal static ConfigEntry<bool> ResetOnTeleportStart = null; internal static ConfigEntry<float> BoundsPadding = null; internal static ConfigEntry<float> EmergencyProbePadding = null; internal static ConfigEntry<bool> DebugLogging = null; internal static ConfigEntry<float> RejectedSetLiquidLevelLogInterval = null; private static readonly ConfigSync ConfigSync = new ConfigSync("sighsorry.blastedswimmingtarredbugfix") { DisplayName = "BlastedSwimmingTarredBugFix", CurrentVersion = "1.0.0", MinimumRequiredVersion = "1.0.0", ModRequired = true }; private Harmony? _harmony; private void Awake() { //IL_0165: Unknown result type (might be due to invalid IL or missing references) //IL_016f: Expected O, but got Unknown Log = ((BaseUnityPlugin)this).Logger; ServerConfigLocked = ((BaseUnityPlugin)this).Config.Bind<bool>("General", "LockConfiguration", true, "If true, synced configuration is locked and can only be changed by the server."); ConfigSync.AddLockingConfigEntry<bool>(ServerConfigLocked); ValidateSetLiquidLevel = ConfigEntry("General", "ValidateSetLiquidLevelSource", value: true, "Reject positive water/tar level updates from a liquid source whose trigger bounds no longer touch the target."); PurgeStaleSourceLists = ConfigEntry("General", "PurgeStaleSourceLists", value: true, "Before WaterVolume/LiquidSurface updates floaters, remove stale IWaterInteractable entries that are no longer inside that source."); EmergencyClearPlayers = ConfigEntry("General", "EmergencyClearPlayers", value: true, "If a player still has water/tar level but no nearby current liquid trigger, clear the stuck state."); EmergencyClearFloatingObjects = ConfigEntry("General", "EmergencyClearFloatingObjects", value: true, "Apply the same emergency clear to Floating objects such as carts/items."); ClampLiquidCounters = ConfigEntry("General", "ClampLiquidCounters", value: true, "Clamp Character/Floating liquid reference counters so missed trigger exits cannot leave negative or stale counts."); ResetOnTeleportStart = ConfigEntry("General", "ResetOnTeleportStart", value: true, "Clear player water/tar state when Player.TeleportTo starts. Current liquid triggers will restore it if the destination is actually in liquid."); BoundsPadding = ConfigEntry("Tuning", "SourceBoundsPadding", 0.75f, "Meters added to source and target bounds during source validation. Raise slightly if legitimate shallow water is rejected."); EmergencyProbePadding = ConfigEntry("Tuning", "EmergencyProbePadding", 0.35f, "Extra meters used when scanning around the target collider for any current liquid trigger."); DebugLogging = ConfigEntry("Debug", "DebugLogging", value: false, "Log rejected liquid updates and purged stale entries. Keep disabled during normal play.", synchronizedSetting: false); RejectedSetLiquidLevelLogInterval = ConfigEntry("Debug", "RejectedSetLiquidLevelLogInterval", 1f, "Seconds between repeated rejected SetLiquidLevel logs for the same target/source/liquid/reason while DebugLogging is enabled.", synchronizedSetting: false); _harmony = new Harmony("sighsorry.blastedswimmingtarredbugfix"); _harmony.PatchAll(); Log.LogInfo((object)"BlastedSwimmingTarredBugFix 1.0.0 loaded"); } private void OnDestroy() { Harmony? harmony = _harmony; if (harmony != null) { harmony.UnpatchSelf(); } } private ConfigEntry<T> ConfigEntry<T>(string group, string name, T value, string description, bool synchronizedSetting = true) { string text = (synchronizedSetting ? " [Synced with Server]" : " [Not Synced with Server]"); ConfigEntry<T> val = ((BaseUnityPlugin)this).Config.Bind<T>(group, name, value, description + text); ConfigSync.AddConfigEntry<T>(val).SynchronizedConfig = synchronizedSetting; return val; } } internal static class LiquidGuard { private enum RejectReason { TargetTeleporting = 1, SourceNoLongerOverlapsTarget } private readonly struct RejectLogKey : IEquatable<RejectLogKey> { private readonly int _targetId; private readonly int _sourceId; private readonly int _liquidType; private readonly int _reason; public RejectLogKey(Component target, Component source, LiquidType liquidType, RejectReason reason) { //IL_002f: Unknown result type (might be due to invalid IL or missing references) //IL_0035: Expected I4, but got Unknown _targetId = ((!IsUnityNull(target)) ? ((Object)target).GetInstanceID() : 0); _sourceId = ((!IsUnityNull(source)) ? ((Object)source).GetInstanceID() : 0); _liquidType = (int)liquidType; _reason = (int)reason; } public bool Equals(RejectLogKey other) { if (_targetId == other._targetId && _sourceId == other._sourceId && _liquidType == other._liquidType) { return _reason == other._reason; } return false; } public override bool Equals(object? obj) { if (obj is RejectLogKey other) { return Equals(other); } return false; } public override int GetHashCode() { return (((((_targetId * 397) ^ _sourceId) * 397) ^ _liquidType) * 397) ^ _reason; } } private const float NoLiquidLevel = -10000f; private const float NoLiquidThreshold = -9999f; private const string WaterVolumeLayerName = "WaterVolume"; private static readonly Collider[] ProbeBuffer = (Collider[])(object)new Collider[256]; private static readonly List<Collider> SourceColliderBuffer = new List<Collider>(64); private static readonly List<Collider> TargetColliderBuffer = new List<Collider>(64); private static readonly Dictionary<RejectLogKey, float> LastRejectLogTimes = new Dictionary<RejectLogKey, float>(); private static readonly FieldInfo CharacterWaterLevel = AccessTools.Field(typeof(Character), "m_waterLevel"); private static readonly FieldInfo CharacterTarLevel = AccessTools.Field(typeof(Character), "m_tarLevel"); private static readonly FieldInfo CharacterLiquidLevel = AccessTools.Field(typeof(Character), "m_liquidLevel"); private static readonly FieldInfo CharacterCachedLiquidDepth = AccessTools.Field(typeof(Character), "m_cashedInLiquidDepth"); private static readonly FieldInfo CharacterSwimTimer = AccessTools.Field(typeof(Character), "m_swimTimer"); private static readonly FieldInfo CharacterLiquids = AccessTools.Field(typeof(Character), "m_liquids"); private static readonly FieldInfo FloatingWaterLevel = AccessTools.Field(typeof(Floating), "m_waterLevel"); private static readonly FieldInfo FloatingTarLevel = AccessTools.Field(typeof(Floating), "m_tarLevel"); private static readonly FieldInfo FloatingLiquids = AccessTools.Field(typeof(Floating), "m_liquids"); private static readonly FieldInfo WaterVolumeInWater = AccessTools.Field(typeof(WaterVolume), "m_inWater"); private static readonly FieldInfo LiquidSurfaceInWater = AccessTools.Field(typeof(LiquidSurface), "m_inWater"); private static int _waterVolumeMask; internal static bool ShouldRejectLiquidLevel(Component target, float level, LiquidType type, Component liquidObj, out bool shouldClearTarget) { //IL_005f: Unknown result type (might be due to invalid IL or missing references) //IL_006d: Unknown result type (might be due to invalid IL or missing references) //IL_004c: Unknown result type (might be due to invalid IL or missing references) shouldClearTarget = false; if (!LiquidStuckFixPlugin.ValidateSetLiquidLevel.Value) { return false; } if (level <= -9999f) { return false; } if (IsUnityNull(target) || IsUnityNull(liquidObj)) { return false; } if (!IsRecognizedLiquidSource(liquidObj)) { return false; } Character val = (Character)(object)((target is Character) ? target : null); if (val != null) { try { if (val.IsTeleporting()) { LogRejectedLiquidLevel(target, level, type, liquidObj, RejectReason.TargetTeleporting); return true; } } catch { } } if (!SourceStillTouchesTarget(liquidObj, target, type)) { shouldClearTarget = true; LogRejectedLiquidLevel(target, level, type, liquidObj, RejectReason.SourceNoLongerOverlapsTarget); return true; } return false; } internal static void PurgeStaleEntries(Component source, LiquidType sourceType) { //IL_005c: Unknown result type (might be due to invalid IL or missing references) //IL_007d: Unknown result type (might be due to invalid IL or missing references) //IL_00bf: Unknown result type (might be due to invalid IL or missing references) //IL_00a2: Unknown result type (might be due to invalid IL or missing references) //IL_00a9: Unknown result type (might be due to invalid IL or missing references) //IL_00b2: Unknown result type (might be due to invalid IL or missing references) if (!LiquidStuckFixPlugin.PurgeStaleSourceLists.Value || IsUnityNull(source)) { return; } IList inWaterList = GetInWaterList(source); if (inWaterList == null || inWaterList.Count == 0) { return; } for (int num = inWaterList.Count - 1; num >= 0; num--) { object obj = inWaterList[num]; bool flag = IsUnityNull(obj); if (!flag) { Component val = (Component)((obj is Component) ? obj : null); if (!IsUnityNull(val)) { flag = !SourceStillTouchesTarget(source, val, sourceType); } else { Transform val2 = TryGetTransform(obj); flag = (Object)(object)val2 == (Object)null || !SourceBoundsContainPoint(source, val2.position); } } if (flag) { try { inWaterList.RemoveAt(num); if (!IsUnityNull(obj)) { TryInvokeDecrement(obj, sourceType); if (!TargetHasActualLiquidOverlap(obj, sourceType)) { ClearTargetLiquid(obj, sourceType, resetCounter: true, forceStopSwimming: true); } } DebugLog($"Purged stale {sourceType} entry from {SafeName(source)} -> {SafeName(obj)}"); } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("Failed to purge stale liquid entry from " + SafeName(source) + ": " + ex.Message)); } } } } internal static bool SafeIncrement(object target, LiquidType type, ref int result) { //IL_0015: Unknown result type (might be due to invalid IL or missing references) //IL_0017: Expected I4, but got Unknown if (!LiquidStuckFixPlugin.ClampLiquidCounters.Value) { return true; } int[] liquidCounters = GetLiquidCounters(target); int num = (int)type; if (liquidCounters == null || num < 0 || num >= liquidCounters.Length) { result = 0; return false; } liquidCounters[num] = Math.Max(0, liquidCounters[num]) + 1; result = liquidCounters[num]; return false; } internal static bool SafeDecrement(object target, LiquidType type, ref int result) { //IL_0015: Unknown result type (might be due to invalid IL or missing references) //IL_0017: Expected I4, but got Unknown if (!LiquidStuckFixPlugin.ClampLiquidCounters.Value) { return true; } int[] liquidCounters = GetLiquidCounters(target); int num = (int)type; if (liquidCounters == null || num < 0 || num >= liquidCounters.Length) { result = 0; return false; } liquidCounters[num] = Math.Max(0, liquidCounters[num] - 1); result = liquidCounters[num]; return false; } internal static void ClearIfNoActualLiquidNearby(Character character) { if (LiquidStuckFixPlugin.EmergencyClearPlayers.Value && !IsUnityNull(character) && !(GetFloat(CharacterLiquidLevel, character, -10000f) <= -9999f) && character is Player && !HasActualLiquidOverlap((Component)(object)character, (LiquidType)10)) { ClearCharacter(character, (LiquidType)10, resetCounter: true, forceStopSwimming: true); DebugLog("Emergency-cleared player liquid state: " + SafeName(character)); } } internal static void ClearFloatingIfNoActualLiquidNearby(Floating floating) { if (LiquidStuckFixPlugin.EmergencyClearFloatingObjects.Value && !IsUnityNull(floating)) { float @float = GetFloat(FloatingWaterLevel, floating, -10000f); float float2 = GetFloat(FloatingTarLevel, floating, -10000f); if ((!(@float <= -9999f) || !(float2 <= -9999f)) && !HasActualLiquidOverlap((Component)(object)floating, (LiquidType)10)) { ClearFloating(floating, (LiquidType)10, resetCounter: true); DebugLog("Emergency-cleared floating object liquid state: " + SafeName(floating)); } } } internal static void ClearTargetLiquid(object target, LiquidType type, bool resetCounter, bool forceStopSwimming) { //IL_003d: Unknown result type (might be due to invalid IL or missing references) //IL_0013: Unknown result type (might be due to invalid IL or missing references) //IL_002f: Unknown result type (might be due to invalid IL or missing references) Character val = (Character)((target is Character) ? target : null); if (val != null && !IsUnityNull(val)) { ClearCharacter(val, type, resetCounter, forceStopSwimming); return; } Floating val2 = (Floating)((target is Floating) ? target : null); if (val2 != null && !IsUnityNull(val2)) { ClearFloating(val2, type, resetCounter); } else { TryInvokeSetLiquidLevel(target, -10000f, type, null); } } private static void ClearCharacter(Character character, LiquidType type, bool resetCounter, bool forceStopSwimming) { //IL_000d: Unknown result type (might be due to invalid IL or missing references) //IL_00b4: Unknown result type (might be due to invalid IL or missing references) Character character2 = character; ForEachLiquidIndex(type, delegate(int index) { switch (index) { case 0: SetFloat(CharacterWaterLevel, character2, -10000f); break; case 1: SetFloat(CharacterTarLevel, character2, -10000f); break; } }); float @float = GetFloat(CharacterWaterLevel, character2, -10000f); float float2 = GetFloat(CharacterTarLevel, character2, -10000f); SetFloat(CharacterLiquidLevel, character2, Mathf.Max(@float, float2)); SetFloat(CharacterCachedLiquidDepth, character2, 0f); if (forceStopSwimming) { float float3 = GetFloat(CharacterSwimTimer, character2, 999f); SetFloat(CharacterSwimTimer, character2, Mathf.Max(float3, 1f)); } if (resetCounter) { ZeroLiquidCounters(character2, type); } } private static void ClearFloating(Floating floating, LiquidType type, bool resetCounter) { //IL_000d: Unknown result type (might be due to invalid IL or missing references) //IL_0028: Unknown result type (might be due to invalid IL or missing references) Floating floating2 = floating; ForEachLiquidIndex(type, delegate(int index) { switch (index) { case 0: SetFloat(FloatingWaterLevel, floating2, -10000f); break; case 1: SetFloat(FloatingTarLevel, floating2, -10000f); break; } }); if (resetCounter) { ZeroLiquidCounters(floating2, type); } } private static bool SourceStillTouchesTarget(Component source, Component target, LiquidType requestedType) { //IL_0010: Unknown result type (might be due to invalid IL or missing references) //IL_0013: Unknown result type (might be due to invalid IL or missing references) //IL_002d: Unknown result type (might be due to invalid IL or missing references) //IL_002e: Unknown result type (might be due to invalid IL or missing references) //IL_005e: Unknown result type (might be due to invalid IL or missing references) //IL_00a3: Unknown result type (might be due to invalid IL or missing references) //IL_00a8: Unknown result type (might be due to invalid IL or missing references) //IL_00ba: Unknown result type (might be due to invalid IL or missing references) LiquidType? val = TryGetSourceLiquidType(source); if (val.HasValue && !LiquidTypeMatches(requestedType, val.Value)) { return false; } if (!TryGetExpandedSourceBounds(source, out var bounds)) { return true; } Bounds val2 = bounds; float num = Math.Max(0f, LiquidStuckFixPlugin.BoundsPadding.Value); ((Bounds)(ref val2)).Expand(num * 2f); Transform transform = target.transform; if (((Bounds)(ref val2)).Contains(transform.position)) { return true; } GetColliders(target, includeChildren: true, TargetColliderBuffer); foreach (Collider item in TargetColliderBuffer) { if (!IsUnityNull(item) && item.enabled) { Bounds bounds2 = item.bounds; ((Bounds)(ref bounds2)).Expand(num * 2f); if (((Bounds)(ref val2)).Intersects(bounds2)) { return true; } } } return false; } private static bool TargetHasActualLiquidOverlap(object target, LiquidType requestedType) { //IL_0013: Unknown result type (might be due to invalid IL or missing references) Component val = (Component)((target is Component) ? target : null); if (val != null && !IsUnityNull(val)) { return HasActualLiquidOverlap(val, requestedType); } return false; } private static bool HasActualLiquidOverlap(Component target, LiquidType requestedType) { //IL_0085: Unknown result type (might be due to invalid IL or missing references) //IL_008c: Unknown result type (might be due to invalid IL or missing references) //IL_0096: Unknown result type (might be due to invalid IL or missing references) //IL_00a2: Unknown result type (might be due to invalid IL or missing references) //IL_00a3: Unknown result type (might be due to invalid IL or missing references) //IL_0025: Unknown result type (might be due to invalid IL or missing references) //IL_0050: Unknown result type (might be due to invalid IL or missing references) if (IsUnityNull(target)) { return false; } int waterVolumeMask = GetWaterVolumeMask(); if (waterVolumeMask == 0) { return true; } if (!TryGetExpandedTargetBounds(target, out var bounds)) { return AnyHitMatchesCurrentLiquid(Physics.OverlapSphereNonAlloc(target.transform.position, 1f + Math.Max(0f, LiquidStuckFixPlugin.EmergencyProbePadding.Value), ProbeBuffer, waterVolumeMask, (QueryTriggerInteraction)2), requestedType, null); } float num = Math.Max(0f, LiquidStuckFixPlugin.EmergencyProbePadding.Value); ((Bounds)(ref bounds)).Expand(num * 2f); return AnyHitMatchesCurrentLiquid(Physics.OverlapBoxNonAlloc(((Bounds)(ref bounds)).center, ((Bounds)(ref bounds)).extents, ProbeBuffer, Quaternion.identity, waterVolumeMask, (QueryTriggerInteraction)2), requestedType, bounds); } private static bool AnyHitMatchesCurrentLiquid(int count, LiquidType requestedType, Bounds? targetBounds) { //IL_0045: Unknown result type (might be due to invalid IL or missing references) //IL_0048: Unknown result type (might be due to invalid IL or missing references) //IL_0094: Unknown result type (might be due to invalid IL or missing references) int num = Math.Min(count, ProbeBuffer.Length); for (int i = 0; i < num; i++) { Collider val = ProbeBuffer[i]; if (IsUnityNull(val)) { continue; } Component val2 = TryGetLiquidSourceFromCollider(val); if (IsUnityNull(val2)) { continue; } LiquidType? val3 = TryGetSourceLiquidType(val2); if (!val3.HasValue || LiquidTypeMatches(requestedType, val3.Value)) { if (!targetBounds.HasValue) { return true; } if (!TryGetExpandedSourceBounds(val2, out var bounds)) { return true; } float num2 = Math.Max(0f, LiquidStuckFixPlugin.BoundsPadding.Value); ((Bounds)(ref bounds)).Expand(num2 * 2f); if (((Bounds)(ref bounds)).Intersects(targetBounds.Value)) { return true; } } } return false; } private static int GetWaterVolumeMask() { if (_waterVolumeMask == 0) { _waterVolumeMask = LayerMask.GetMask(new string[1] { "WaterVolume" }); } return _waterVolumeMask; } private static IList? GetInWaterList(Component source) { if (source is WaterVolume) { return WaterVolumeInWater?.GetValue(source) as IList; } if (source is LiquidSurface) { return LiquidSurfaceInWater?.GetValue(source) as IList; } return null; } private static bool SourceBoundsContainPoint(Component source, Vector3 point) { //IL_002f: Unknown result type (might be due to invalid IL or missing references) if (!TryGetExpandedSourceBounds(source, out var bounds)) { return true; } ((Bounds)(ref bounds)).Expand(Math.Max(0f, LiquidStuckFixPlugin.BoundsPadding.Value) * 2f); return ((Bounds)(ref bounds)).Contains(point); } private static bool TryGetExpandedSourceBounds(Component source, out Bounds bounds) { return TryGetColliderBounds(source, includeChildren: true, preferTriggerColliders: true, SourceColliderBuffer, out bounds); } private static bool TryGetExpandedTargetBounds(Component target, out Bounds bounds) { return TryGetColliderBounds(target, includeChildren: true, preferTriggerColliders: false, TargetColliderBuffer, out bounds); } private static bool TryGetColliderBounds(Component component, bool includeChildren, bool preferTriggerColliders, List<Collider> buffer, out Bounds bounds) { //IL_0002: Unknown result type (might be due to invalid IL or missing references) bounds = default(Bounds); if (IsUnityNull(component)) { return false; } GetColliders(component, includeChildren, buffer); if (preferTriggerColliders && TryBuildBounds(buffer, triggerOnly: true, out bounds)) { return true; } return TryBuildBounds(buffer, triggerOnly: false, out bounds); } private static void GetColliders(Component component, bool includeChildren, List<Collider> buffer) { buffer.Clear(); if (includeChildren) { component.GetComponentsInChildren<Collider>(true, buffer); } else { component.GetComponents<Collider>(buffer); } } private static bool TryBuildBounds(List<Collider> colliders, bool triggerOnly, out Bounds bounds) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) //IL_004a: Unknown result type (might be due to invalid IL or missing references) //IL_003a: Unknown result type (might be due to invalid IL or missing references) //IL_003f: Unknown result type (might be due to invalid IL or missing references) bounds = default(Bounds); bool flag = false; foreach (Collider collider in colliders) { if (!IsUnityNull(collider) && collider.enabled && (!triggerOnly || collider.isTrigger)) { if (!flag) { bounds = collider.bounds; flag = true; } else { ((Bounds)(ref bounds)).Encapsulate(collider.bounds); } } } return flag; } private static Component? TryGetLiquidSourceFromCollider(Collider collider) { if (IsUnityNull(collider)) { return null; } WaterVolume val = ((Component)collider).GetComponent<WaterVolume>() ?? ((Component)collider).GetComponentInParent<WaterVolume>() ?? ((Component)collider).GetComponentInChildren<WaterVolume>(); if (!IsUnityNull(val)) { return (Component?)(object)val; } LiquidSurface val2 = ((Component)collider).GetComponent<LiquidSurface>() ?? ((Component)collider).GetComponentInParent<LiquidSurface>() ?? ((Component)collider).GetComponentInChildren<LiquidSurface>(); if (!IsUnityNull(val2)) { return (Component?)(object)val2; } return null; } private static bool IsRecognizedLiquidSource(Component source) { return !IsUnityNull(TryGetLiquidSourceComponent(source)); } private static Component? TryGetLiquidSourceComponent(Component source) { if (IsUnityNull(source)) { return null; } if (source is WaterVolume || source is LiquidSurface) { return source; } WaterVolume val = source.GetComponent<WaterVolume>() ?? source.GetComponentInParent<WaterVolume>() ?? source.GetComponentInChildren<WaterVolume>(); if (!IsUnityNull(val)) { return (Component?)(object)val; } LiquidSurface val2 = source.GetComponent<LiquidSurface>() ?? source.GetComponentInParent<LiquidSurface>() ?? source.GetComponentInChildren<LiquidSurface>(); if (!IsUnityNull(val2)) { return (Component?)(object)val2; } return null; } private static LiquidType? TryGetSourceLiquidType(Component source) { //IL_0059: Unknown result type (might be due to invalid IL or missing references) Component val = TryGetLiquidSourceComponent(source); if (IsUnityNull(val)) { return null; } try { MethodInfo methodInfo = AccessTools.Method(((object)val).GetType(), "GetLiquidType", (Type[])null, (Type[])null); if (methodInfo != null && methodInfo.ReturnType == typeof(LiquidType)) { return (LiquidType)methodInfo.Invoke(val, Array.Empty<object>()); } } catch { } if (val is WaterVolume) { return (LiquidType)0; } return null; } private static bool LiquidTypeMatches(LiquidType requested, LiquidType source) { //IL_0000: Unknown result type (might be due to invalid IL or missing references) //IL_0003: Invalid comparison between Unknown and I4 //IL_0005: Unknown result type (might be due to invalid IL or missing references) //IL_0008: Invalid comparison between Unknown and I4 //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000b: Unknown result type (might be due to invalid IL or missing references) if ((int)requested != 10 && (int)source != 10) { return requested == source; } return true; } private static Transform? TryGetTransform(object item) { if (IsUnityNull(item)) { return null; } Component val = (Component)((item is Component) ? item : null); if (val != null && !IsUnityNull(val)) { return val.transform; } try { MethodInfo methodInfo = AccessTools.Method(item.GetType(), "GetTransform", (Type[])null, (Type[])null); if (methodInfo != null && typeof(Transform).IsAssignableFrom(methodInfo.ReturnType)) { object? obj = methodInfo.Invoke(item, Array.Empty<object>()); return (Transform?)((obj is Transform) ? obj : null); } } catch { } return null; } private static void TryInvokeDecrement(object item, LiquidType type) { //IL_0033: Unknown result type (might be due to invalid IL or missing references) try { AccessTools.Method(item.GetType(), "Decrement", new Type[1] { typeof(LiquidType) }, (Type[])null)?.Invoke(item, new object[1] { type }); } catch { } } private static void TryInvokeSetLiquidLevel(object item, float level, LiquidType type, Component? source) { //IL_0056: Unknown result type (might be due to invalid IL or missing references) try { AccessTools.Method(item.GetType(), "SetLiquidLevel", new Type[3] { typeof(float), typeof(LiquidType), typeof(Component) }, (Type[])null)?.Invoke(item, new object[3] { level, type, source }); } catch { } } private static int[]? GetLiquidCounters(object target) { Character val = (Character)((target is Character) ? target : null); if (val != null && !IsUnityNull(val)) { return CharacterLiquids?.GetValue(val) as int[]; } Floating val2 = (Floating)((target is Floating) ? target : null); if (val2 != null && !IsUnityNull(val2)) { return FloatingLiquids?.GetValue(val2) as int[]; } return null; } private static void ZeroLiquidCounters(object target, LiquidType type) { //IL_001b: Unknown result type (might be due to invalid IL or missing references) int[] counters = GetLiquidCounters(target); if (counters == null) { return; } ForEachLiquidIndex(type, delegate(int index) { if (index >= 0 && index < counters.Length) { counters[index] = 0; } }); } private static void ForEachLiquidIndex(LiquidType type, Action<int> action) { //IL_0000: Unknown result type (might be due to invalid IL or missing references) //IL_0003: Invalid comparison between Unknown and I4 //IL_0014: Unknown result type (might be due to invalid IL or missing references) //IL_0016: Expected I4, but got Unknown if ((int)type == 10) { action(0); action(1); return; } int num = (int)type; if (num == 0 || num == 1) { action(num); } } private static float GetFloat(FieldInfo field, object instance, float fallback) { try { return (field?.GetValue(instance) is float num) ? num : fallback; } catch { return fallback; } } private static void SetFloat(FieldInfo field, object instance, float value) { try { field?.SetValue(instance, value); } catch { } } private static bool IsUnityNull(object? obj) { if (obj == null) { return true; } Object val = (Object)((obj is Object) ? obj : null); if (val != null) { return val == (Object)null; } return false; } private static string SafeName(object? obj) { if (IsUnityNull(obj)) { return "<null>"; } Object val = (Object)((obj is Object) ? obj : null); if (val != null) { return val.name; } return obj.GetType().Name; } private static string SafeTypeName(object? obj) { if (!IsUnityNull(obj)) { return obj.GetType().Name; } return "<null>"; } private static string SafePosition(Component? component) { //IL_0015: Unknown result type (might be due to invalid IL or missing references) //IL_001a: Unknown result type (might be due to invalid IL or missing references) //IL_0020: Unknown result type (might be due to invalid IL or missing references) //IL_002b: Unknown result type (might be due to invalid IL or missing references) //IL_0036: Unknown result type (might be due to invalid IL or missing references) if (IsUnityNull(component)) { return "<null>"; } try { Vector3 position = component.transform.position; return $"({position.x:0.##}, {position.y:0.##}, {position.z:0.##})"; } catch { return "<unknown>"; } } private static string RejectReasonText(RejectReason reason) { return reason switch { RejectReason.TargetTeleporting => "target is teleporting", RejectReason.SourceNoLongerOverlapsTarget => "source no longer overlaps target", _ => reason.ToString(), }; } private static bool ShouldLogRejectedLiquidLevel(Component target, LiquidType type, Component liquidObj, RejectReason reason) { //IL_004c: Unknown result type (might be due to invalid IL or missing references) if (!LiquidStuckFixPlugin.DebugLogging.Value) { return false; } float num = Math.Max(0f, LiquidStuckFixPlugin.RejectedSetLiquidLevelLogInterval.Value); if (num <= 0f) { return true; } if (LastRejectLogTimes.Count > 2048) { LastRejectLogTimes.Clear(); } RejectLogKey key = new RejectLogKey(target, liquidObj, type, reason); float realtimeSinceStartup = Time.realtimeSinceStartup; if (LastRejectLogTimes.TryGetValue(key, out var value) && realtimeSinceStartup - value < num) { return false; } LastRejectLogTimes[key] = realtimeSinceStartup; return true; } private static void LogRejectedLiquidLevel(Component target, float level, LiquidType type, Component liquidObj, RejectReason reason) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) //IL_00bb: Unknown result type (might be due to invalid IL or missing references) if (ShouldLogRejectedLiquidLevel(target, type, liquidObj, reason)) { Component obj = TryGetLiquidSourceComponent(liquidObj); DebugLog("Rejected SetLiquidLevel: target=" + SafeName(target) + " targetType=" + SafeTypeName(target) + " targetPos=" + SafePosition(target) + " source=" + SafeName(liquidObj) + " sourceType=" + SafeTypeName(liquidObj) + " sourcePos=" + SafePosition(liquidObj) + " recognizedSource=" + SafeName(obj) + " recognizedSourceType=" + SafeTypeName(obj) + " " + $"liquid={type} level={level:0.###} reason={RejectReasonText(reason)}"); } } private static void DebugLog(string message) { if (LiquidStuckFixPlugin.DebugLogging.Value) { LiquidStuckFixPlugin.Log.LogInfo((object)message); } } } [HarmonyPatch(typeof(Character), "SetLiquidLevel")] internal static class CharacterSetLiquidLevelPatch { private static bool Prefix(Character __instance, float level, LiquidType type, Component liquidObj) { //IL_0002: Unknown result type (might be due to invalid IL or missing references) //IL_0011: Unknown result type (might be due to invalid IL or missing references) try { if (LiquidGuard.ShouldRejectLiquidLevel((Component)(object)__instance, level, type, liquidObj, out var shouldClearTarget)) { if (shouldClearTarget) { LiquidGuard.ClearTargetLiquid(__instance, type, resetCounter: true, forceStopSwimming: true); } return false; } } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("Character.SetLiquidLevel guard failed: " + ex.Message)); } return true; } } [HarmonyPatch(typeof(Floating), "SetLiquidLevel")] internal static class FloatingSetLiquidLevelPatch { private static bool Prefix(Floating __instance, float level, LiquidType type, Component liquidObj) { //IL_0002: Unknown result type (might be due to invalid IL or missing references) //IL_0011: Unknown result type (might be due to invalid IL or missing references) try { if (LiquidGuard.ShouldRejectLiquidLevel((Component)(object)__instance, level, type, liquidObj, out var shouldClearTarget)) { if (shouldClearTarget) { LiquidGuard.ClearTargetLiquid(__instance, type, resetCounter: true, forceStopSwimming: false); } return false; } } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("Floating.SetLiquidLevel guard failed: " + ex.Message)); } return true; } } [HarmonyPatch(typeof(WaterVolume), "UpdateFloaters")] internal static class WaterVolumeUpdateFloatersPatch { private static void Prefix(WaterVolume __instance) { try { LiquidGuard.PurgeStaleEntries((Component)(object)__instance, (LiquidType)0); } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("WaterVolume.UpdateFloaters purge failed: " + ex.Message)); } } } [HarmonyPatch(typeof(LiquidSurface), "UpdateFloaters")] internal static class LiquidSurfaceUpdateFloatersPatch { private static void Prefix(LiquidSurface __instance) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) //IL_004c: Unknown result type (might be due to invalid IL or missing references) //IL_0045: Unknown result type (might be due to invalid IL or missing references) //IL_004a: Unknown result type (might be due to invalid IL or missing references) try { LiquidType sourceType = (LiquidType)1; MethodInfo methodInfo = AccessTools.Method(typeof(LiquidSurface), "GetLiquidType", (Type[])null, (Type[])null); if (methodInfo != null && methodInfo.ReturnType == typeof(LiquidType)) { sourceType = (LiquidType)methodInfo.Invoke(__instance, Array.Empty<object>()); } LiquidGuard.PurgeStaleEntries((Component)(object)__instance, sourceType); } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("LiquidSurface.UpdateFloaters purge failed: " + ex.Message)); } } } [HarmonyPatch(typeof(Character), "Increment")] internal static class CharacterIncrementPatch { private static bool Prefix(Character __instance, LiquidType type, ref int __result) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) return LiquidGuard.SafeIncrement(__instance, type, ref __result); } } [HarmonyPatch(typeof(Character), "Decrement")] internal static class CharacterDecrementPatch { private static bool Prefix(Character __instance, LiquidType type, ref int __result) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) return LiquidGuard.SafeDecrement(__instance, type, ref __result); } } [HarmonyPatch(typeof(Floating), "Increment")] internal static class FloatingIncrementPatch { private static bool Prefix(Floating __instance, LiquidType type, ref int __result) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) return LiquidGuard.SafeIncrement(__instance, type, ref __result); } } [HarmonyPatch(typeof(Floating), "Decrement")] internal static class FloatingDecrementPatch { private static bool Prefix(Floating __instance, LiquidType type, ref int __result) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) return LiquidGuard.SafeDecrement(__instance, type, ref __result); } } [HarmonyPatch(typeof(Character), "UpdateWater")] internal static class CharacterUpdateWaterPatch { private static void Postfix(Character __instance) { try { LiquidGuard.ClearIfNoActualLiquidNearby(__instance); } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("Character.UpdateWater emergency clear failed: " + ex.Message)); } } } [HarmonyPatch(typeof(Floating), "CustomFixedUpdate")] internal static class FloatingCustomFixedUpdatePatch { private static void Postfix(Floating __instance) { try { LiquidGuard.ClearFloatingIfNoActualLiquidNearby(__instance); } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("Floating.CustomFixedUpdate emergency clear failed: " + ex.Message)); } } } [HarmonyPatch(typeof(Player), "TeleportTo")] internal static class PlayerTeleportToPatch { private static void Prefix(Player __instance) { if (!LiquidStuckFixPlugin.ResetOnTeleportStart.Value) { return; } try { LiquidGuard.ClearTargetLiquid(__instance, (LiquidType)10, resetCounter: true, forceStopSwimming: true); } catch (Exception ex) { LiquidStuckFixPlugin.Log.LogWarning((object)("Player.TeleportTo liquid reset failed: " + ex.Message)); } } } } namespace ServerSync { [PublicAPI] internal abstract class OwnConfigEntryBase { public object? LocalBaseValue; public bool SynchronizedConfig = true; public abstract ConfigEntryBase BaseConfig { get; } } [PublicAPI] internal class SyncedConfigEntry<T> : OwnConfigEntryBase { public readonly ConfigEntry<T> SourceConfig; public override ConfigEntryBase BaseConfig => (ConfigEntryBase)(object)SourceConfig; public T Value { get { return SourceConfig.Value; } set { SourceConfig.Value = value; } } public SyncedConfigEntry(ConfigEntry<T> sourceConfig) { SourceConfig = sourceConfig; base..ctor(); } public void AssignLocalValue(T value) { if (LocalBaseValue == null) { Value = value; } else { LocalBaseValue = value; } } } internal abstract class CustomSyncedValueBase { public object? LocalBaseValue; public readonly string Identifier; public readonly Type Type; private object? boxedValue; protected bool localIsOwner; public readonly int Priority; public object? BoxedValue { get { return boxedValue; } set { boxedValue = value; this.ValueChanged?.Invoke(); } } public event Action? ValueChanged; protected CustomSyncedValueBase(ConfigSync configSync, string identifier, Type type, int priority) { Priority = priority; Identifier = identifier; Type = type; configSync.AddCustomValue(this); localIsOwner = configSync.IsSourceOfTruth; configSync.SourceOfTruthChanged += delegate(bool truth) { localIsOwner = truth; }; } } [PublicAPI] internal sealed class CustomSyncedValue<T> : CustomSyncedValueBase { public T Value { get { return (T)base.BoxedValue; } set { base.BoxedValue = value; } } public CustomSyncedValue(ConfigSync configSync, string identifier, T value = default(T), int priority = 0) : base(configSync, identifier, typeof(T), priority) { Value = value; } public void AssignLocalValue(T value) { if (localIsOwner) { Value = value; } else { LocalBaseValue = value; } } } internal class ConfigurationManagerAttributes { [UsedImplicitly] public bool? ReadOnly = false; } [PublicAPI] internal class ConfigSync { [HarmonyPatch(typeof(ZRpc), "HandlePackage")] private static class SnatchCurrentlyHandlingRPC { public static ZRpc? currentRpc; [HarmonyPrefix] private static void Prefix(ZRpc __instance) { currentRpc = __instance; } } [HarmonyPatch(typeof(ZNet), "Awake")] internal static class RegisterRPCPatch { [HarmonyPostfix] private static void Postfix(ZNet __instance) { isServer = __instance.IsServer(); foreach (ConfigSync configSync2 in configSyncs) { ZRoutedRpc.instance.Register<ZPackage>(configSync2.Name + " ConfigSync", (Action<long, ZPackage>)configSync2.RPC_FromOtherClientConfigSync); if (isServer) { configSync2.InitialSyncDone = true; Debug.Log((object)("Registered '" + configSync2.Name + " ConfigSync' RPC - waiting for incoming connections")); } } if (isServer) { ((MonoBehaviour)__instance).StartCoroutine(WatchAdminListChanges()); } static void SendAdmin(List<ZNetPeer> peers, bool isAdmin) { ZPackage package = ConfigsToPackage(null, null, new PackageEntry[1] { new PackageEntry { section = "Internal", key = "lockexempt", type = typeof(bool), value = isAdmin } }); ConfigSync configSync = Enumerable.First(configSyncs); if (configSync != null) { ((MonoBehaviour)ZNet.instance).StartCoroutine(configSync.sendZPackage(peers, package)); } } static IEnumerator WatchAdminListChanges() { MethodInfo listContainsId = AccessTools.DeclaredMethod(typeof(ZNet), "ListContainsId", (Type[])null, (Type[])null); SyncedList adminList = (SyncedList)AccessTools.DeclaredField(typeof(ZNet), "m_adminList").GetValue(ZNet.instance); List<string> CurrentList = new List<string>(adminList.GetList()); while (true) { yield return (object)new WaitForSeconds(30f); if (!Enumerable.SequenceEqual(adminList.GetList(), CurrentList)) { CurrentList = new List<string>(adminList.GetList()); List<ZNetPeer> adminPeer = Enumerable.ToList(Enumerable.Where(ZNet.instance.GetPeers(), delegate(ZNetPeer p) { string hostName = p.m_rpc.GetSocket().GetHostName(); return ((object)listContainsId == null) ? adminList.Contains(hostName) : ((bool)listContainsId.Invoke(ZNet.instance, new object[2] { adminList, hostName })); })); List<ZNetPeer> nonAdminPeer = Enumerable.ToList(Enumerable.Except(ZNet.instance.GetPeers(), adminPeer)); SendAdmin(nonAdminPeer, isAdmin: false); SendAdmin(adminPeer, isAdmin: true); } } } } } [HarmonyPatch(typeof(ZNet), "OnNewConnection")] private static class RegisterClientRPCPatch { [HarmonyPostfix] private static void Postfix(ZNet __instance, ZNetPeer peer) { if (__instance.IsServer()) { return; } foreach (ConfigSync configSync in configSyncs) { peer.m_rpc.Register<ZPackage>(configSync.Name + " ConfigSync", (Action<ZRpc, ZPackage>)configSync.RPC_FromServerConfigSync); } } } private class ParsedConfigs { public readonly Dictionary<OwnConfigEntryBase, object?> configValues = new Dictionary<OwnConfigEntryBase, object>(); public readonly Dictionary<CustomSyncedValueBase, object?> customValues = new Dictionary<CustomSyncedValueBase, object>(); } [HarmonyPatch(typeof(ZNet), "Shutdown")] private class ResetConfigsOnShutdown { [HarmonyPostfix] private static void Postfix() { ProcessingServerUpdate = true; foreach (ConfigSync configSync in configSyncs) { configSync.resetConfigsFromServer(); configSync.IsSourceOfTruth = true; configSync.InitialSyncDone = false; } ProcessingServerUpdate = false; } } [HarmonyPatch(typeof(ZNet), "RPC_PeerInfo")] private class SendConfigsAfterLogin { private class BufferingSocket : ZPlayFabSocket, ISocket { public volatile bool finished = false; public volatile int versionMatchQueued = -1; public readonly List<ZPackage> Package = new List<ZPackage>(); public readonly ISocket Original; public BufferingSocket(ISocket original) { Original = original; ((ZPlayFabSocket)this)..ctor(); } public bool IsConnected() { return Original.IsConnected(); } public ZPackage Recv() { return Original.Recv(); } public int GetSendQueueSize() { return Original.GetSendQueueSize(); } public int GetCurrentSendRate() { return Original.GetCurrentSendRate(); } public bool IsHost() { return Original.IsHost(); } public void Dispose() { Original.Dispose(); } public bool GotNewData() { return Original.GotNewData(); } public void Close() { Original.Close(); } public string GetEndPointString() { return Original.GetEndPointString(); } public void GetAndResetStats(out int totalSent, out int totalRecv) { Original.GetAndResetStats(ref totalSent, ref totalRecv); } public void GetConnectionQuality(out float localQuality, out float remoteQuality, out int ping, out float outByteSec, out float inByteSec) { Original.GetConnectionQuality(ref localQuality, ref remoteQuality, ref ping, ref outByteSec, ref inByteSec); } public ISocket Accept() { return Original.Accept(); } public int GetHostPort() { return Original.GetHostPort(); } public bool Flush() { return Original.Flush(); } public string GetHostName() { return Original.GetHostName(); } public void VersionMatch() { if (finished) { Original.VersionMatch(); } else { versionMatchQueued = Package.Count; } } public void Send(ZPackage pkg) { //IL_0057: Unknown result type (might be due to invalid IL or missing references) //IL_005d: Expected O, but got Unknown int pos = pkg.GetPos(); pkg.SetPos(0); int num = pkg.ReadInt(); if ((num == StringExtensionMethods.GetStableHashCode("PeerInfo") || num == StringExtensionMethods.GetStableHashCode("RoutedRPC") || num == StringExtensionMethods.GetStableHashCode("ZDOData")) && !finished) { ZPackage val = new ZPackage(pkg.GetArray()); val.SetPos(pos); Package.Add(val); } else { pkg.SetPos(pos); Original.Send(pkg); } } } [HarmonyPriority(800)] [HarmonyPrefix] private static void Prefix(ref Dictionary<Assembly, BufferingSocket>? __state, ZNet __instance, ZRpc rpc) { //IL_0078: Unknown result type (might be due to invalid IL or missing references) //IL_007e: Invalid comparison between Unknown and I4 if (!__instance.IsServer()) { return; } BufferingSocket bufferingSocket = new BufferingSocket(rpc.GetSocket()); AccessTools.DeclaredField(typeof(ZRpc), "m_socket").SetValue(rpc, bufferingSocket); object? obj = AccessTools.DeclaredMethod(typeof(ZNet), "GetPeer", new Type[1] { typeof(ZRpc) }, (Type[])null).Invoke(__instance, new object[1] { rpc }); ZNetPeer val = (ZNetPeer)((obj is ZNetPeer) ? obj : null); if (val != null && (int)ZNet.m_onlineBackend > 0) { FieldInfo fieldInfo = AccessTools.DeclaredField(typeof(ZNetPeer), "m_socket"); object? value = fieldInfo.GetValue(val); ZPlayFabSocket val2 = (ZPlayFabSocket)((value is ZPlayFabSocket) ? value : null); if (val2 != null) { typeof(ZPlayFabSocket).GetField("m_remotePlayerId").SetValue(bufferingSocket, val2.m_remotePlayerId); } fieldInfo.SetValue(val, bufferingSocket); } if (__state == null) { __state = new Dictionary<Assembly, BufferingSocket>(); } __state[Assembly.GetExecutingAssembly()] = bufferingSocket; } [HarmonyPostfix] private static void Postfix(Dictionary<Assembly, BufferingSocket> __state, ZNet __instance, ZRpc rpc) { ZRpc rpc2 = rpc; ZNet __instance2 = __instance; Dictionary<Assembly, BufferingSocket> __state2 = __state; ZNetPeer peer; if (__instance2.IsServer()) { object obj = AccessTools.DeclaredMethod(typeof(ZNet), "GetPeer", new Type[1] { typeof(ZRpc) }, (Type[])null).Invoke(__instance2, new object[1] { rpc2 }); peer = (ZNetPeer)((obj is ZNetPeer) ? obj : null); if (peer == null) { SendBufferedData(); } else { ((MonoBehaviour)__instance2).StartCoroutine(sendAsync()); } } void SendBufferedData() { if (rpc2.GetSocket() is BufferingSocket bufferingSocket) { AccessTools.DeclaredField(typeof(ZRpc), "m_socket").SetValue(rpc2, bufferingSocket.Original); object? obj2 = AccessTools.DeclaredMethod(typeof(ZNet), "GetPeer", new Type[1] { typeof(ZRpc) }, (Type[])null).Invoke(__instance2, new object[1] { rpc2 }); ZNetPeer val = (ZNetPeer)((obj2 is ZNetPeer) ? obj2 : null); if (val != null) { AccessTools.DeclaredField(typeof(ZNetPeer), "m_socket").SetValue(val, bufferingSocket.Original); } } BufferingSocket bufferingSocket2 = __state2[Assembly.GetExecutingAssembly()]; bufferingSocket2.finished = true; for (int i = 0; i < bufferingSocket2.Package.Count; i++) { if (i == bufferingSocket2.versionMatchQueued) { bufferingSocket2.Original.VersionMatch(); } bufferingSocket2.Original.Send(bufferingSocket2.Package[i]); } if (bufferingSocket2.Package.Count == bufferingSocket2.versionMatchQueued) { bufferingSocket2.Original.VersionMatch(); } } IEnumerator sendAsync() { foreach (ConfigSync configSync in configSyncs) { List<PackageEntry> entries = new List<PackageEntry>(); if (configSync.CurrentVersion != null) { entries.Add(new PackageEntry { section = "Internal", key = "serverversion", type = typeof(string), value = configSync.CurrentVersion }); } MethodInfo listContainsId = AccessTools.DeclaredMethod(typeof(ZNet), "ListContainsId", (Type[])null, (Type[])null); SyncedList adminList = (SyncedList)AccessTools.DeclaredField(typeof(ZNet), "m_adminList").GetValue(ZNet.instance); entries.Add(new PackageEntry { section = "Internal", key = "lockexempt", type = typeof(bool), value = (((object)listContainsId == null) ? ((object)adminList.Contains(rpc2.GetSocket().GetHostName())) : listContainsId.Invoke(ZNet.instance, new object[2] { adminList, rpc2.GetSocket().GetHostName() })) }); ZPackage package = ConfigsToPackage(Enumerable.Select(configSync.allConfigs, (OwnConfigEntryBase c) => c.BaseConfig), configSync.allCustomValues, entries, partial: false); yield return ((MonoBehaviour)__instance2).StartCoroutine(configSync.sendZPackage(new List<ZNetPeer> { peer }, package)); } SendBufferedData(); } } } private class PackageEntry { public string section = null; public string key = null; public Type type = null; public object? value; } [HarmonyPatch(typeof(ConfigEntryBase), "GetSerializedValue")] private static class PreventSavingServerInfo { [HarmonyPrefix] private static bool Prefix(ConfigEntryBase __instance, ref string __result) { OwnConfigEntryBase ownConfigEntryBase = configData(__instance); if (ownConfigEntryBase == null || isWritableConfig(ownConfigEntryBase)) { return true; } __result = TomlTypeConverter.ConvertToString(ownConfigEntryBase.LocalBaseValue, __instance.SettingType); return false; } } [HarmonyPatch(typeof(ConfigEntryBase), "SetSerializedValue")] private static class PreventConfigRereadChangingValues { [HarmonyPrefix] private static bool Prefix(ConfigEntryBase __instance, string value) { OwnConfigEntryBase ownConfigEntryBase = configData(__instance); if (ownConfigEntryBase == null || ownConfigEntryBase.LocalBaseValue == null) { return true; } try { ownConfigEntryBase.LocalBaseValue = TomlTypeConverter.ConvertToValue(value, __instance.SettingType); } catch (Exception ex) { Debug.LogWarning((object)$"Config value of setting \"{__instance.Definition}\" could not be parsed and will be ignored. Reason: {ex.Message}; Value: {value}"); } return false; } } private class InvalidDeserializationTypeException : Exception { public string expected = null; public string received = null; public string field = ""; } public static bool ProcessingServerUpdate; public readonly string Name; public string? DisplayName; public string? CurrentVersion; public string? MinimumRequiredVersion; public bool ModRequired = false; private bool? forceConfigLocking; private bool isSourceOfTruth = true; private static readonly HashSet<ConfigSync> configSyncs; private readonly HashSet<OwnConfigEntryBase> allConfigs = new HashSet<OwnConfigEntryBase>(); private HashSet<CustomSyncedValueBase> allCustomValues = new HashSet<CustomSyncedValueBase>(); private static bool isServer; private static bool lockExempt; private OwnConfigEntryBase? lockedConfig = null; private const byte PARTIAL_CONFIGS = 1; private const byte FRAGMENTED_CONFIG = 2; private const byte COMPRESSED_CONFIG = 4; private readonly Dictionary<string, SortedDictionary<int, byte[]>> configValueCache = new Dictionary<string, SortedDictionary<int, byte[]>>(); private readonly List<KeyValuePair<long, string>> cacheExpirations = new List<KeyValuePair<long, string>>(); private static long packageCounter; public bool IsLocked { get { bool? flag = forceConfigLocking; bool num; if (!flag.HasValue) { if (lockedConfig == null) { goto IL_0052; } num = ((IConvertible)lockedConfig.BaseConfig.BoxedValue).ToInt32(CultureInfo.InvariantCulture) != 0; } else { num = flag.GetValueOrDefault(); } if (!num) { goto IL_0052; } int result = ((!lockExempt) ? 1 : 0); goto IL_0053; IL_0053: return (byte)result != 0; IL_0052: result = 0; goto IL_0053; } set { forceConfigLocking = value; } } public bool IsAdmin => lockExempt || isSourceOfTruth; public bool IsSourceOfTruth { get { return isSourceOfTruth; } private set { if (value != isSourceOfTruth) { isSourceOfTruth = value; this.SourceOfTruthChanged?.Invoke(value); } } } public bool InitialSyncDone { get; private set; } = false; public event Action<bool>? SourceOfTruthChanged; private event Action? lockedConfigChanged; static ConfigSync() { ProcessingServerUpdate = false; configSyncs = new HashSet<ConfigSync>(); lockExempt = false; packageCounter = 0L; RuntimeHelpers.RunClassConstructor(typeof(VersionCheck).TypeHandle); } public ConfigSync(string name) { Name = name; configSyncs.Add(this); new VersionCheck(this); } public SyncedConfigEntry<T> AddConfigEntry<T>(ConfigEntry<T> configEntry) { ConfigEntry<T> configEntry2 = configEntry; OwnConfigEntryBase ownConfigEntryBase = configData((ConfigEntryBase)(object)configEntry2); SyncedConfigEntry<T> syncedEntry = ownConfigEntryBase as SyncedConfigEntry<T>; if (syncedEntry == null) { syncedEntry = new SyncedConfigEntry<T>(configEntry2); AccessTools.DeclaredField(typeof(ConfigDescription), "<Tags>k__BackingField").SetValue(((ConfigEntryBase)configEntry2).Description, Enumerable.ToArray(Enumerable.Concat(Enumerable.Concat(new object[1] { new ConfigurationManagerAttributes() }, ((ConfigEntryBase)configEntry2).Description.Tags ?? Array.Empty<object>()), new SyncedConfigEntry<T>[1] { syncedEntry }))); configEntry2.SettingChanged += delegate { if (!ProcessingServerUpdate && syncedEntry.SynchronizedConfig) { Broadcast(ZRoutedRpc.Everybody, (ConfigEntryBase)configEntry2); } }; allConfigs.Add(syncedEntry); } return syncedEntry; } public SyncedConfigEntry<T> AddLockingConfigEntry<T>(ConfigEntry<T> lockingConfig) where T : IConvertible { if (lockedConfig != null) { throw new Exception("Cannot initialize locking ConfigEntry twice"); } lockedConfig = AddConfigEntry<T>(lockingConfig); lockingConfig.SettingChanged += delegate { this.lockedConfigChanged?.Invoke(); }; return (SyncedConfigEntry<T>)lockedConfig; } internal void AddCustomValue(CustomSyncedValueBase customValue) { CustomSyncedValueBase customValue2 = customValue; if (Enumerable.Contains(Enumerable.Concat(Enumerable.Select(allCustomValues, (CustomSyncedValueBase v) => v.Identifier), new string[1] { "serverversion" }), customValue2.Identifier)) { throw new Exception("Cannot have multiple settings with the same name or with a reserved name (serverversion)"); } allCustomValues.Add(customValue2); allCustomValues = new HashSet<CustomSyncedValueBase>(Enumerable.OrderByDescending(allCustomValues, (CustomSyncedValueBase v) => v.Priority)); customValue2.ValueChanged += delegate { if (!ProcessingServerUpdate) { Broadcast(ZRoutedRpc.Everybody, customValue2); } }; } private void RPC_FromServerConfigSync(ZRpc rpc, ZPackage package) { lockedConfigChanged += serverLockedSettingChanged; IsSourceOfTruth = false; if (HandleConfigSyncRPC(0L, package, clientUpdate: false)) { InitialSyncDone = true; } } private void RPC_FromOtherClientConfigSync(long sender, ZPackage package) { HandleConfigSyncRPC(sender, package, clientUpdate: true); } private bool HandleConfigSyncRPC(long sender, ZPackage package, bool clientUpdate) { //IL_0076: Unknown result type (might be due to invalid IL or missing references) //IL_007d: Expected O, but got Unknown //IL_0250: Unknown result type (might be due to invalid IL or missing references) //IL_0257: Expected O, but got Unknown //IL_01ea: Unknown result type (might be due to invalid IL or missing references) //IL_01f1: Expected O, but got Unknown try { if (isServer && IsLocked) { ZRpc? currentRpc = SnatchCurrentlyHandlingRPC.currentRpc; object obj; if (currentRpc == null) { obj = null; } else { ISocket socket = currentRpc.GetSocket(); obj = ((socket != null) ? socket.GetHostName() : null); } string text = (string)obj; if (text != null) { MethodInfo methodInfo = AccessTools.DeclaredMethod(typeof(ZNet), "ListContainsId", (Type[])null, (Type[])null); SyncedList val = (SyncedList)AccessTools.DeclaredField(typeof(ZNet), "m_adminList").GetValue(ZNet.instance); if (!(((object)methodInfo == null) ? val.Contains(text) : ((bool)methodInfo.Invoke(ZNet.instance, new object[2] { val, text })))) { return false; } } } cacheExpirations.RemoveAll(delegate(KeyValuePair<long, string> kv) { if (kv.Key < DateTimeOffset.Now.Ticks) { configValueCache.Remove(kv.Value); return true; } return false; }); byte b = package.ReadByte(); if ((b & 2u) != 0) { long num = package.ReadLong(); string text2 = sender.ToString() + num; if (!configValueCache.TryGetValue(text2, out SortedDictionary<int, byte[]> value)) { value = new SortedDictionary<int, byte[]>(); configValueCache[text2] = value; cacheExpirations.Add(new KeyValuePair<long, string>(DateTimeOffset.Now.AddSeconds(60.0).Ticks, text2)); } int key = package.ReadInt(); int num2 = package.ReadInt(); value.Add(key, package.ReadByteArray()); if (value.Count < num2) { return false; } configValueCache.Remove(text2); package = new ZPackage(Enumerable.ToArray(Enumerable.SelectMany(value.Values, (byte[] a) => a))); b = package.ReadByte(); } ProcessingServerUpdate = true; if ((b & 4u) != 0) { byte[] buffer = package.ReadByteArray(); MemoryStream stream = new MemoryStream(buffer); MemoryStream memoryStream = new MemoryStream(); using (DeflateStream deflateStream = new DeflateStream(stream, CompressionMode.Decompress)) { deflateStream.CopyTo(memoryStream); } package = new ZPackage(memoryStream.ToArray()); b = package.ReadByte(); } if ((b & 1) == 0) { resetConfigsFromServer(); } ParsedConfigs parsedConfigs = ReadConfigsFromPackage(package); ConfigFile val2 = null; bool saveOnConfigSet = false; foreach (KeyValuePair<OwnConfigEntryBase, object> configValue in parsedConfigs.configValues) { if (!isServer && configValue.Key.LocalBaseValue == null) { configValue.Key.LocalBaseValue = configValue.Key.BaseConfig.BoxedValue; } if (val2 == null) { val2 = configValue.Key.BaseConfig.ConfigFile; saveOnConfigSet = val2.SaveOnConfigSet; val2.SaveOnConfigSet = false; } configValue.Key.BaseConfig.BoxedValue = configValue.Value; } if (val2 != null) { val2.SaveOnConfigSet = saveOnConfigSet; val2.Save(); } foreach (KeyValuePair<CustomSyncedValueBase, object> customValue in parsedConfigs.customValues) { if (!isServer) { CustomSyncedValueBase key2 = customValue.Key; if (key2.LocalBaseValue == null) { key2.LocalBaseValue = customValue.Key.BoxedValue; } } customValue.Key.BoxedValue = customValue.Value; } Debug.Log((object)string.Format("Received {0} configs and {1} custom values from {2} for mod {3}", parsedConfigs.configValues.Count, parsedConfigs.customValues.Count, (isServer || clientUpdate) ? $"client {sender}" : "the server", DisplayName ?? Name)); if (!isServer) { serverLockedSettingChanged(); } return true; } finally { ProcessingServerUpdate = false; } } private ParsedConfigs ReadConfigsFromPackage(ZPackage package) { ParsedConfigs parsedConfigs = new ParsedConfigs(); Dictionary<string, OwnConfigEntryBase> dictionary = Enumerable.ToDictionary(Enumerable.Where(allConfigs, (OwnConfigEntryBase c) => c.SynchronizedConfig), (OwnConfigEntryBase c) => c.BaseConfig.Definition.Section + "_" + c.BaseConfig.Definition.Key, (OwnConfigEntryBase c) => c); Dictionary<string, CustomSyncedValueBase> dictionary2 = Enumerable.ToDictionary(allCustomValues, (CustomSyncedValueBase c) => c.Identifier, (CustomSyncedValueBase c) => c); int num = package.ReadInt(); for (int i = 0; i < num; i++) { string text = package.ReadString(); string text2 = package.ReadString(); string text3 = package.ReadString(); Type type = Type.GetType(text3); if (text3 == "" || type != null) { object obj; try { obj = ((text3 == "") ? null : ReadValueWithTypeFromZPackage(package, type)); } catch (InvalidDeserializationTypeException ex) { Debug.LogWarning((object)("Got unexpected struct internal type " + ex.received + " for field " + ex.field + " struct " + text3 + " for " + text2 + " in section " + text + " for mod " + (DisplayName ?? Name) + ", expecting " + ex.expected)); continue; } OwnConfigEntryBase value2; if (text == "Internal") { CustomSyncedValueBase value; if (text2 == "serverversion") { if (obj?.ToString() != CurrentVersion) { Debug.LogWarning((object)("Received server version is not equal: server version = " + (obj?.ToString() ?? "null") + "; local version = " + (CurrentVersion ?? "unknown"))); } } else if (text2 == "lockexempt") { if (obj is bool flag) { lockExempt = flag; } } else if (dictionary2.TryGetValue(text2, out value)) { if ((text3 == "" && (!value.Type.IsValueType || Nullable.GetUnderlyingType(value.Type) != null)) || GetZPackageTypeString(value.Type) == text3) { parsedConfigs.customValues[value] = obj; continue; } Debug.LogWarning((object)("Got unexpected type " + text3 + " for internal value " + text2 + " for mod " + (DisplayName ?? Name) + ", expecting " + value.Type.AssemblyQualifiedName)); } } else if (dictionary.TryGetValue(text + "_" + text2, out value2)) { Type type2 = configType(value2.BaseConfig); if ((text3 == "" && (!type2.IsValueType || Nullable.GetUnderlyingType(type2) != null)) || GetZPackageTypeString(type2) == text3) { parsedConfigs.configValues[value2] = obj; continue; } Debug.LogWarning((object)("Got unexpected type " + text3 + " for " + text2 + " in section " + text + " for mod " + (DisplayName ?? Name) + ", expecting " + type2.AssemblyQualifiedName)); } else { Debug.LogWarning((object)("Received unknown config entry " + text2 + " in section " + text + " for mod " + (DisplayName ?? Name) + ". This may happen if client and server versions of the mod do not match.")); } continue; } Debug.LogWarning((object)("Got invalid type " + text3 + ", abort reading of received configs")); return new ParsedConfigs(); } return parsedConfigs; } private static bool isWritableConfig(OwnConfigEntryBase config) { OwnConfigEntryBase config2 = config; ConfigSync configSync = Enumerable.FirstOrDefault(configSyncs, (ConfigSync cs) => cs.allConfigs.Contains(config2)); if (configSync == null) { return true; } return configSync.IsSourceOfTruth || !config2.SynchronizedConfig || config2.LocalBaseValue == null || (!configSync.IsLocked && (config2 != configSync.lockedConfig || lockExempt)); } private void serverLockedSettingChanged() { foreach (OwnConfigEntryBase allConfig in allConfigs) { configAttribute<ConfigurationManagerAttributes>(allConfig.BaseConfig).ReadOnly = !isWritableConfig(allConfig); } } private void resetConfigsFromServer() { ConfigFile val = null; bool saveOnConfigSet = false; foreach (OwnConfigEntryBase item in Enumerable.Where(allConfigs, (OwnConfigEntryBase config) => config.LocalBaseValue != null)) { if (val == null) { val = item.BaseConfig.ConfigFile; saveOnConfigSet = val.SaveOnConfigSet; val.SaveOnConfigSet = false; } item.BaseConfig.BoxedValue = item.LocalBaseValue; item.LocalBaseValue = null; } if (val != null) { val.SaveOnConfigSet = saveOnConfigSet; } foreach (CustomSyncedValueBase item2 in Enumerable.Where(allCustomValues, (CustomSyncedValueBase config) => config.LocalBaseValue != null)) { item2.BoxedValue = item2.LocalBaseValue; item2.LocalBaseValue = null; } lockedConfigChanged -= serverLockedSettingChanged; serverLockedSettingChanged(); } private IEnumerator<bool> distributeConfigToPeers(ZNetPeer peer, ZPackage package) { ZNetPeer peer2 = peer; ZRoutedRpc rpc = ZRoutedRpc.instance; if (rpc == null) { yield break; } byte[] data = package.GetArray(); if (data != null && data.LongLength > 250000) { int fragments = (int)(1 + (data.LongLength - 1) / 250000); long packageIdentifier = ++packageCounter; int fragment = 0; while (fragment < fragments) { foreach (bool item in waitForQueue()) { yield return item; } if (peer2.m_socket.IsConnected()) { ZPackage fragmentedPackage = new ZPackage(); fragmentedPackage.Write((byte)2); fragmentedPackage.Write(packageIdentifier); fragmentedPackage.Write(fragment); fragmentedPackage.Write(fragments); fragmentedPackage.Write(Enumerable.ToArray(Enumerable.Take(Enumerable.Skip(data, 250000 * fragment), 250000))); SendPackage(fragmentedPackage); if (fragment != fragments - 1) { yield return true; } int num = fragment + 1; fragment = num; continue; } break; } yield break; } foreach (bool item2 in waitForQueue()) { yield return item2; } SendPackage(package); void SendPackage(ZPackage pkg) { string text = Name + " ConfigSync"; if (isServer) { peer2.m_rpc.Invoke(text, new object[1] { pkg }); } else { rpc.InvokeRoutedRPC(peer2.m_server ? 0 : peer2.m_uid, text, new object[1] { pkg }); } } IEnumerable<bool> waitForQueue() { float timeout = Time.time + 30f; while (peer2.m_socket.GetSendQueueSize() > 20000) { if (Time.time > timeout) { Debug.Log((object)$"Disconnecting {peer2.m_uid} after 30 seconds config sending timeout"); peer2.m_rpc.Invoke("Error", new object[1] { (object)(ConnectionStatus)5 }); ZNet.instance.Disconnect(peer2); break; } yield return false; } } } private IEnumerator sendZPackage(long target, ZPackage package) { if (!Object.op_Implicit((Object)(object)ZNet.instance)) { return Enumerable.Empty<object>().GetEnumerator(); } List<ZNetPeer> list = (List<ZNetPeer>)AccessTools.DeclaredField(typeof(ZRoutedRpc), "m_peers").GetValue(ZRoutedRpc.instance); if (target != ZRoutedRpc.Everybody) { list = Enumerable.ToList(Enumerable.Where(list, (ZNetPeer p) => p.m_uid == target)); } return sendZPackage(list, package); } private IEnumerator sendZPackage(List<ZNetPeer> peers, ZPackage package) { ZPackage package2 = package; if (!Object.op_Implicit((Object)(object)ZNet.instance)) { yield break; } byte[] rawData = package2.GetArray(); if (rawData != null && rawData.LongLength > 10000) { ZPackage compressedPackage = new ZPackage(); compressedPackage.Write((byte)4); MemoryStream output = new MemoryStream(); using (DeflateStream deflateStream = new DeflateStream(output, CompressionLevel.Optimal)) { deflateStream.Write(rawData, 0, rawData.Length); } compressedPackage.Write(output.ToArray()); package2 = compressedPackage; } List<IEnumerator<bool>> writers = Enumerable.ToList(Enumerable.Select(Enumerable.Where(peers, (ZNetPeer peer) => peer.IsReady()), (ZNetPeer p) => distributeConfigToPeers(p, package2))); writers.RemoveAll((IEnumerator<bool> writer) => !writer.MoveNext()); while (writers.Count > 0) { yield return null; writers.RemoveAll((IEnumerator<bool> writer) => !writer.MoveNext()); } } private void Broadcast(long target, params ConfigEntryBase[] configs) { if (!IsLocked || isServer) { ZPackage package = ConfigsToPackage(configs); ZNet instance = ZNet.instance; if (instance != null) { ((MonoBehaviour)instance).StartCoroutine(sendZPackage(target, package)); } } } private void Broadcast(long target, params CustomSyncedValueBase[] customValues) { if (!IsLocked || isServer) { ZPackage package = ConfigsToPackage(null, customValues); ZNet instance = ZNet.instance; if (instance != null) { ((MonoBehaviour)instance).StartCoroutine(sendZPackage(target, package)); } } } private static OwnConfigEntryBase? configData(ConfigEntryBase config) { object[] tags = config.Description.Tags; return (tags != null) ? Enumerable.SingleOrDefault(Enumerable.OfType<OwnConfigEntryBase>(tags)) : null; } public static SyncedConfigEntry<T>? ConfigData<T>(ConfigEntry<T> config) { object[] tags = ((ConfigEntryBase)config).Description.Tags; return (tags != null) ? Enumerable.SingleOrDefault(Enumerable.OfType<SyncedConfigEntry<T>>(tags)) : null; } private static T configAttribute<T>(ConfigEntryBase config) { return Enumerable.First(Enumerable.OfType<T>(config.Description.Tags)); } private static Type configType(ConfigEntryBase config) { return configType(config.SettingType); } private static Type configType(Type type) { return type.IsEnum ? Enum.GetUnderlyingType(type) : type; } private static ZPackage ConfigsToPackage(IEnumerable<ConfigEntryBase>? configs = null, IEnumerable<CustomSyncedValueBase>? customValues = null, IEnumerable<PackageEntry>? packageEntries = null, bool partial = true) { //IL_0051: Unknown result type (might be due to invalid IL or missing references) //IL_0057: Expected O, but got Unknown List<ConfigEntryBase> list = ((configs != null) ? Enumerable.ToList(Enumerable.Where(configs, (ConfigEntryBase config) => configData(config).SynchronizedConfig)) : null) ?? new List<ConfigEntryBase>(); List<CustomSyncedValueBase> list2 = ((customValues != null) ? Enumerable.ToList(customValues) : null) ?? new List<CustomSyncedValueBase>(); ZPackage val = new ZPackage(); val.Write((byte)(partial ? 1 : 0)); val.Write(list.Count + list2.Count + ((packageEntries != null) ? Enumerable.Count(packageEntries) : 0)); foreach (PackageEntry item in packageEntries ?? Array.Empty<PackageEntry>()) { AddEntryToPackage(val, item); } foreach (CustomSyncedValueBase item2 in list2) { AddEntryToPackage(val, new PackageEntry { section = "Internal", key = item2.Identifier, type = item2.Type, value = item2.BoxedValue }); } foreach (ConfigEntryBase item3 in list) { AddEntryToPackage(val, new PackageEntry { section = item3.Definition.Section, key = item3.Definition.Key, type = configType(item3), value = item3.BoxedValue }); } return val; } private static void AddEntryToPackage(ZPackage package, PackageEntry entry) { package.Write(entry.section); package.Write(entry.key); package.Write((entry.value == null) ? "" : GetZPackageTypeString(entry.type)); AddValueToZPackage(package, entry.value); } private static string GetZPackageTypeString(Type type) { return type.AssemblyQualifiedName; } private static void AddValueToZPackage(ZPackage package, object? value) { Type type = value?.GetType(); if (value is Enum) { value = ((IConvertible)value).ToType(Enum.GetUnderlyingType(value.GetType()), CultureInfo.InvariantCulture); } else { if (value is ICollection collection) { package.Write(collection.Count); { foreach (object item in collection) { AddValueToZPackage(package, item); } return; } } if ((object)type != null && type.IsValueType && !type.IsPrimitive) { FieldInfo[] fields = type.GetFields(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic); package.Write(fields.Length); FieldInfo[] array = fields; foreach (FieldInfo fieldInfo in array) { package.Write(GetZPackageTypeString(fieldInfo.FieldType)); AddValueToZPackage(package, fieldInfo.GetValue(value)); } return; } } ZRpc.Serialize(new object[1] { value }, ref package); } private static object ReadValueWithTypeFromZPackage(ZPackage package, Type type) { if ((object)type != null && type.IsValueType && !type.IsPrimitive && !type.IsEnum) { FieldInfo[] fields = type.GetFields(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic); int num = package.ReadInt(); if (num != fields.Length) { throw new InvalidDeserializationTypeException { received = $"(field count: {num})", expected = $"(field count: {fields.Length})" }; } object uninitializedObject = FormatterServices.GetUninitializedObject(type); FieldInfo[] array = fields; foreach (FieldInfo fieldInfo in array) { string text = package.ReadString(); if (text != GetZPackageTypeString(fieldInfo.FieldType)) { throw new InvalidDeserializationTypeException { received = text, expected = GetZPackageTypeString(fieldInfo.FieldType), field = fieldInfo.Name }; } fieldInfo.SetValue(uninitializedObject, ReadValueWithTypeFromZPackage(package, fieldInfo.FieldType)); } return uninitializedObject; } if (type.IsGenericType && type.GetGenericTypeDefinition() == typeof(Dictionary<, >)) { int num2 = package.ReadInt(); IDictionary dictionary = (IDictionary)Activator.CreateInstance(type); Type type2 = typeof(KeyValuePair<, >).MakeGenericType(type.GenericTypeArguments); FieldInfo field = type2.GetField("key", BindingFlags.Instance | BindingFlags.NonPublic); FieldInfo field2 = type2.GetField("value", BindingFlags.Instance | BindingFlags.NonPublic); for (int j = 0; j < num2; j++) { object obj = ReadValueWithTypeFromZPackage(package, type2); dictionary.Add(field.GetValue(obj), field2.GetValue(obj)); } return dictionary; } if (type != typeof(List<string>) && type.IsGenericType) { Type type3 = typeof(ICollection<>).MakeGenericType(type.GenericTypeArguments[0]); if ((object)type3 != null && type3.IsAssignableFrom(type)) { int num3 = package.ReadInt(); object obj2 = Activator.CreateInstance(type); MethodInfo method = type3.GetMethod("Add"); for (int k = 0; k < num3; k++) { method.Invoke(obj2, new object[1] { ReadValueWithTypeFromZPackage(package, type.GenericTypeArguments[0]) }); } return obj2; } } ParameterInfo parameterInfo = (ParameterInfo)FormatterServices.GetUninitializedObject(typeof(ParameterInfo)); AccessTools.DeclaredField(typeof(ParameterInfo), "ClassImpl").SetValue(parameterInfo, type); List<object> source = new List<object>(); ZRpc.Deserialize(new ParameterInfo[2] { null, parameterInfo }, package, ref source); return Enumerable.First(source); } } [PublicAPI] [HarmonyPatch] internal class VersionCheck { private static readonly HashSet<VersionCheck> versionChecks; private static readonly Dictionary<string, string> notProcessedNames; public string Name; private string? displayName; private string? currentVersion; private string? minimumRequiredVersion; public bool ModRequired = true; private string? ReceivedCurrentVersion; private string? ReceivedMinimumRequiredVersion; private readonly List<ZRpc> ValidatedClients = new List<ZRpc>(); private ConfigSync? ConfigSync; public string DisplayName { get { return displayName ?? Name; } set { displayName = value; } } public string CurrentVersion { get { return currentVersion ?? "0.0.0"; } set { currentVersion = value; } } public string MinimumRequiredVersion { get { return minimumRequiredVersion ?? (ModRequired ? CurrentVersion : "0.0.0"); } set { minimumRequiredVersion = value; } } private static void PatchServerSync() { //IL_005e: Unknown result type (might be due to invalid IL or missing references) //IL_0064: Expected O, but got Unknown Patches patchInfo = PatchProcessor.GetPatchInfo((MethodBase)AccessTools.DeclaredMethod(typeof(ZNet), "Awake", (Type[])null, (Type[])null)); if (patchInfo != null && Enumerable.Count(patchInfo.Postfixes, (Patch p) => p.PatchMethod.DeclaringType == typeof(ConfigSync.RegisterRPCPatch)) > 0) { return; } Harmony val = new Harmony("org.bepinex.helpers.ServerSync"); foreach (Type item in Enumerable.Where(Enumerable.Concat(typeof(ConfigSync).GetNestedTypes(BindingFlags.NonPublic), new Type[1] { typeof(VersionCheck) }), (Type t) => t.IsClass)) { val.PatchAll(item); } } static VersionCheck() { versionChecks = new HashSet<VersionCheck>(); notProcessedNames = new Dictionary<string, string>(); typeof(ThreadingHelper).GetMethod("StartSyncInvoke").Invoke(ThreadingHelper.Instance, new object[1] { new Action(PatchServerSync) }); } public VersionCheck(string name) { Name = name; ModRequired = true; versionChecks.Add(this); } public VersionCheck(ConfigSync configSync) { ConfigSync = configSync; Name = ConfigSync.Name; versionChecks.Add(this); } public void Initialize() { ReceivedCurrentVersion = null; ReceivedMinimumRequiredVersion = null; if (ConfigSync != null) { Name = ConfigSync.Name; DisplayName = ConfigSync.DisplayName; CurrentVersion = ConfigSync.CurrentVersion; MinimumRequiredVersion = ConfigSync.MinimumRequiredVersion; ModRequired = ConfigSync.ModRequired; } } private bool IsVersionOk() { if (ReceivedMinimumRequiredVersion == null || ReceivedCurrentVersion == null) { return !ModRequired; } bool flag = new Version(CurrentVersion) >= new Version(ReceivedMinimumRequiredVersion); bool flag2 = new Version(ReceivedCurrentVersion) >= new Version(MinimumRequiredVersion); return flag && flag2; } private string ErrorClient() { if (ReceivedMinimumRequiredVersion == null) { return DisplayName + " is not installed on the server."; } return (new Version(CurrentVersion) >= new Version(ReceivedMinimumRequiredVersion)) ? (DisplayName + " may not be higher than version " + ReceivedCurrentVersion + ". You have version " + CurrentVersion + ".") : (DisplayName + " needs to be at least version " + ReceivedMinimumRequiredVersion + ". You have version " + CurrentVersion + "."); } private string ErrorServer(ZRpc rpc) { return "Disconnect: The client (" + rpc.GetSocket().GetHostName() + ") doesn't have the correct " + DisplayName + " version " + MinimumRequiredVersion; } private string Error(ZRpc? rpc = null) { return (rpc == null) ? ErrorClient() : ErrorServer(rpc); } private static VersionCheck[] GetFailedClient() { return Enumerable.ToArray(Enumerable.Where(versionChecks, (VersionCheck check) => !check.IsVersionOk())); } private static VersionCheck[] GetFailedServer(ZRpc rpc) { ZRpc rpc2 = rpc; return Enumerable.ToArray(Enumerable.Where(versionChecks, (VersionCheck check) => check.ModRequired && !check.ValidatedClients.Contains(rpc2))); } private static void Logout() { Game.instance.Logout(true, true); AccessTools.DeclaredField(typeof(ZNet), "m_connectionStatus").SetValue(null, (object)(ConnectionStatus)3); } private static void DisconnectClient(ZRpc rpc) { rpc.Invoke("Error", new object[1] { 3 }); } private static void CheckVersion(ZRpc rpc, ZPackage pkg) { CheckVersion(rpc, pkg, null); } private static void CheckVersion(ZRpc rpc, ZPackage pkg, Action<ZRpc, ZPackage>? original) { string text = pkg.ReadString(); string text2 = pkg.ReadString(); string text3 = pkg.ReadString(); bool flag = false; foreach (VersionCheck versionCheck in versionChecks) { if (!(text != versionCheck.Name)) { Debug.Log((object)("Received " + versionCheck.DisplayName + " version " + text3 + " and minimum version " + text2 + " from the " + (ZNet.instance.IsServer() ? "client" : "server") + ".")); versionCheck.ReceivedMinimumRequiredVersion = text2; versionCheck.ReceivedCurrentVersion = text3; if (ZNet.instance.IsServer() && versionCheck.IsVersionOk()) { versionCheck.ValidatedClients.Add(rpc); } flag = true; } } if (flag) { return; } pkg.SetPos(0); if (original != null) { original(rpc, pkg); if (pkg.GetPos() == 0) { notProcessedNames.Add(text, text3); } } } [HarmonyPatch(typeof(ZNet), "RPC_PeerInfo")] [HarmonyPrefix] private static bool RPC_PeerInfo(ZRpc rpc, ZNet __instance) { VersionCheck[] array = (__instance.IsServer() ? GetFailedServer(rpc) : GetFailedClient()); if (array.Length == 0) { return true; } VersionCheck[] array2 = array; foreach (VersionCheck versionCheck in array2) { Debug.LogWarning((object)versionCheck.Error(rpc)); } if (__instance.IsServer()) { DisconnectClient(rpc); } else { Logout(); } return false; } [HarmonyPatch(typeof(ZNet), "OnNewConnection")] [HarmonyPrefix] private static void RegisterAndCheckVersion(ZNetPeer peer, ZNet __instance) { //IL_018e: Unknown result type (might be due to invalid IL or missing references) //IL_0195: Expected O, but got Unknown notProcessedNames.Clear(); IDictionary dictionary = (IDictionary)typeof(ZRpc).GetField("m_functions", BindingFlags.Instance | BindingFlags.NonPublic).GetValue(peer.m_rpc); if (dictionary.Contains(StringExtensionMethods.GetStableHashCode("ServerSync VersionCheck"))) { object obj = dictionary[StringExtensionMethods.GetStableHashCode("ServerSync VersionCheck")]; Action<ZRpc, ZPackage> action = (Action<ZRpc, ZPackage>)obj.GetType().GetField("m_action", BindingFlags.Instance | BindingFlags.NonPublic).GetValue(obj); peer.m_rpc.Register<ZPackage>("ServerSync VersionCheck", (Action<ZRpc, ZPackage>)delegate(ZRpc rpc, ZPackage pkg) { CheckVersion(rpc, pkg, action); }); } else { peer.m_rpc.Register<ZPackage>("ServerSync VersionCheck", (Action<ZRpc, ZPackage>)CheckVersion); } foreach (VersionCheck versionCheck in versionChecks) { versionCheck.Initialize(); if (versionCheck.ModRequired || __instance.IsServer()) { Debug.Log((object)("Sending " + versionCheck.DisplayName + " version " + versionCheck.CurrentVersion + " and minimum version " + versionCheck.MinimumRequiredVersion + " to the " + (__instance.IsServer() ? "client" : "server") + ".")); ZPackage val = new ZPackage(); val.Write(versionCheck.Name); val.Write(versionCheck.MinimumRequiredVersion); val.Write(versionCheck.CurrentVersion); peer.m_rpc.Invoke("ServerSync VersionCheck", new object[1] { val }); } } } [HarmonyPatch(typeof(ZNet), "Disconnect")] [HarmonyPrefix] private static void RemoveDisconnected(ZNetPeer peer, ZNet __instance) { if (!__instance.IsServer()) { return; } foreach (VersionCheck versionCheck in versionChecks) { versionCheck.ValidatedClients.Remove(peer.m_rpc); } } [HarmonyPatch(typeof(FejdStartup), "ShowConnectError")] [HarmonyPostfix] private static void ShowConnectionError(FejdStartup __instance) { //IL_000e: Unknown result type (might be due to invalid IL or missing references) //IL_0014: Invalid comparison between Unknown and I4 //IL_0186: Unknown result type (might be due to invalid IL or missing references) //IL_018b: Unknown result type (might be due to invalid IL or missing references) //IL_0199: Unknown result type (might be due to invalid IL or missing references) //IL_01de: Unknown result type (might be due to invalid IL or missing references) //IL_01ea: Unknown result type (might be due to invalid IL or missing references) //IL_01f8: Unknown result type (might be due to invalid IL or missing references) //IL_020a: Unknown result type (might be due to invalid IL or missing references) //IL_0219: Unknown result type (might be due to invalid IL or missing references) //IL_021e: Unknown result type (might be due to invalid IL or missing references) //IL_0229: Unknown result type (might be due to invalid IL or missing references) if (!__instance.m_connectionFailedPanel.activeSelf || (int)ZNet.GetConnectionStatus() != 3) { return; } bool flag = false; VersionCheck[] failedClient = GetFailedClient(); if (failedClient.Length != 0) { string text = string.Join("\n", Enumerable.Select(failedClient, (VersionCheck check) => check.Error())); TMP_Text connectionFailedError = __instance.m_connectionFailedError; connectionFailedError.text = connectionFailedError.text + "\n" + text; flag = true; } foreach (KeyValuePair<string, string> item in Enumerable.OrderBy<KeyValuePair<string, string>, string>(notProcessedNames, (KeyValuePair<string, string> kv) => kv.Key)) { if (!__instance.m_connectionFailedError.text.Contains(item.Key)) { TMP_Text connectionFailedError2 = __instance.m_connectionFailedError; connectionFailedError2.text = connectionFailedError2.text + "\nServer expects you to have " + item.Key + " (Version: " + item.Value + ") installed."; flag = true; } } if (flag) { RectTransform component = ((Component)__instance.m_connectionFailedPanel.transform.Find("Image")).GetComponent<RectTransform>(); Vector2 sizeDelta = component.sizeDelta; sizeDelta.x = 675f; component.sizeDelta = sizeDelta; __instance.m_connectionFailedError.ForceMeshUpdate(false, false); float num = __instance.m_connectionFailedError.renderedHeight + 105f; RectTransform component2 = ((Component)((Component)component).transform.Find("ButtonOk")).GetComponent<RectTransform>(); component2.anchoredPosition = new Vector2(component2.anchoredPosition.x, component2.anchoredPosition.y - (num - component.sizeDelta.y) / 2f); sizeDelta = component.sizeDelta; sizeDelta.y = num; component.sizeDelta = sizeDelta; } } } }
