Decompiled source of Riverheim Config v1.0.3
BepInEx\plugins\RiverheimConfigTest.dll
Decompiled a month agousing System; using System.Collections; using System.Diagnostics; using System.Reflection; using System.Runtime.CompilerServices; using System.Runtime.Versioning; using BepInEx; using BepInEx.Configuration; using BepInEx.Logging; using HarmonyLib; using ServerSync; using UnityEngine; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints)] [assembly: TargetFramework(".NETFramework,Version=v4.8", FrameworkDisplayName = ".NET Framework 4.8")] [assembly: AssemblyVersion("0.0.0.0")] namespace RiverheimConfig; [BepInPlugin("com.valheim.riverheim.config", "Riverheim Config", "1.0.0")] public class RiverheimConfigPlugin : BaseUnityPlugin { private const string PluginGUID = "com.valheim.riverheim.config"; private const string PluginName = "Riverheim Config"; private const string PluginVersion = "1.0.0"; private static ManualLogSource logger; private static RiverheimConfigPlugin instance; private static ConfigEntry<float> riverDensity; private static ConfigEntry<float> riverStartingVariability; private static ConfigEntry<float> riverWeightRecovery; private static ConfigEntry<int> minRiverMouthLandNeighbors; private static ConfigEntry<float> minRiverMouthPointerMagnitude; private static ConfigEntry<float> riverWidthScale; private static ConfigEntry<float> riverWidthPower; private static ConfigEntry<float> riverWidthOffset; private static ConfigEntry<int> minRiverStrahler; private static ConfigEntry<float> minRiverWidth; private static ConfigEntry<float> maxCatchmentDiff; private static ConfigEntry<float> riverMeanderAmplitude; private static ConfigEntry<float> riverMeanderPeriod; private static ConfigEntry<float> riverMinDepth; private static ConfigEntry<float> riverSteepness; private static ConfigEntry<float> riverMaxBankHeight; private static ConfigEntry<float> riverValleyOffset; private static ConfigEntry<float> riverValleyMagnitude; private static ConfigEntry<float> riverValleyExponent; private static ConfigEntry<float> lakeThreshold; private static ConfigEntry<float> lakeNoiseScale; private static ConfigEntry<float> lakeLowlandContribution; private static ConfigEntry<float> lakeCuriosityContribution; private static ConfigEntry<float> worldSize; private static ConfigEntry<float> tileSpacing; private static ConfigSync configSync; private ConfigEntry<T> config<T>(string group, string name, T value, ConfigDescription description, bool synchronizedSetting = true) { ConfigEntry<T> val = ((BaseUnityPlugin)this).Config.Bind<T>(group, name, value, description); ((OwnConfigEntryBase)configSync.AddConfigEntry<T>(val)).SynchronizedConfig = synchronizedSetting; return val; } private ConfigEntry<T> config<T>(string group, string name, T value, string description, bool synchronizedSetting = true) { //IL_000c: Unknown result type (might be due to invalid IL or missing references) //IL_0018: Expected O, but got Unknown return config(group, name, value, new ConfigDescription(description, (AcceptableValueBase)null, Array.Empty<object>()), synchronizedSetting); } private void Awake() { //IL_0025: Unknown result type (might be due to invalid IL or missing references) //IL_002a: Unknown result type (might be due to invalid IL or missing references) //IL_0035: Unknown result type (might be due to invalid IL or missing references) //IL_0040: Unknown result type (might be due to invalid IL or missing references) //IL_0050: Expected O, but got Unknown //IL_0088: Unknown result type (might be due to invalid IL or missing references) //IL_0093: Expected O, but got Unknown //IL_00c1: Unknown result type (might be due to invalid IL or missing references) //IL_00cc: Expected O, but got Unknown //IL_00fa: Unknown result type (might be due to invalid IL or missing references) //IL_0105: Expected O, but got Unknown //IL_0127: Unknown result type (might be due to invalid IL or missing references) //IL_0132: Expected O, but got Unknown //IL_0160: Unknown result type (might be due to invalid IL or missing references) //IL_016b: Expected O, but got Unknown //IL_0199: Unknown result type (might be due to invalid IL or missing references) //IL_01a4: Expected O, but got Unknown //IL_01d2: Unknown result type (might be due to invalid IL or missing references) //IL_01dd: Expected O, but got Unknown //IL_020b: Unknown result type (might be due to invalid IL or missing references) //IL_0216: Expected O, but got Unknown //IL_0238: Unknown result type (might be due to invalid IL or missing references) //IL_0243: Expected O, but got Unknown //IL_0271: Unknown result type (might be due to invalid IL or missing references) //IL_027c: Expected O, but got Unknown //IL_02aa: Unknown result type (might be due to invalid IL or missing references) //IL_02b5: Expected O, but got Unknown //IL_02e3: Unknown result type (might be due to invalid IL or missing references) //IL_02ee: Expected O, but got Unknown //IL_031c: Unknown result type (might be due to invalid IL or missing references) //IL_0327: Expected O, but got Unknown //IL_0355: Unknown result type (might be due to invalid IL or missing references) //IL_0360: Expected O, but got Unknown //IL_038e: Unknown result type (might be due to invalid IL or missing references) //IL_0399: Expected O, but got Unknown //IL_03c7: Unknown result type (might be due to invalid IL or missing references) //IL_03d2: Expected O, but got Unknown //IL_0400: Unknown result type (might be due to invalid IL or missing references) //IL_040b: Expected O, but got Unknown //IL_0439: Unknown result type (might be due to invalid IL or missing references) //IL_0444: Expected O, but got Unknown //IL_0472: Unknown result type (might be due to invalid IL or missing references) //IL_047d: Expected O, but got Unknown //IL_04ab: Unknown result type (might be due to invalid IL or missing references) //IL_04b6: Expected O, but got Unknown //IL_04e4: Unknown result type (might be due to invalid IL or missing references) //IL_04ef: Expected O, but got Unknown //IL_051d: Unknown result type (might be due to invalid IL or missing references) //IL_0528: Expected O, but got Unknown //IL_0556: Unknown result type (might be due to invalid IL or missing references) //IL_0561: Expected O, but got Unknown //IL_058f: Unknown result type (might be due to invalid IL or missing references) //IL_059a: Expected O, but got Unknown //IL_05c8: Unknown result type (might be due to invalid IL or missing references) //IL_05d3: Expected O, but got Unknown try { instance = this; logger = ((BaseUnityPlugin)this).Logger; logger.LogWarning((object)"=== RIVERHEIM RIVERS & LAKES CONFIG ==="); configSync = new ConfigSync("com.valheim.riverheim.config") { DisplayName = "Riverheim Config", CurrentVersion = "1.0.0", MinimumRequiredVersion = "1.0.0" }; logger.LogInfo((object)"ServerSync initialized - clients will use server config"); riverDensity = config("1. River Spawning", "Density", 0.25f, new ConfigDescription("How many river mouth spawn points\n0.25 = DEFAULT (vanilla Riverheim)\n0.4 = ~570 rivers (60% more)\n0.5 = ~710 rivers (100% more)\n0.6 = ~850 rivers (140% more)\nLimits: True 0..1 | Practical 0.15..0.7 | Default 0.25", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.15f, 0.7f), Array.Empty<object>())); riverStartingVariability = config("1. River Spawning", "StartingVariability", 0.9f, new ConfigDescription("Randomness in river spawn locations\n0.9 = DEFAULT\nLimits: True 0..1 | Practical 0.4..1.0 | Default 0.9", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.4f, 1.5f), Array.Empty<object>())); riverWeightRecovery = config("1. River Spawning", "WeightRecovery", 0.05f, new ConfigDescription("How quickly river density recovers after spawning\n0.05 = DEFAULT\nLimits: True 0..1 | Practical 0.02..0.1 | Default 0.05", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.02f, 0.1f), Array.Empty<object>())); minRiverMouthLandNeighbors = config("1. River Spawning", "MinLandNeighbors", 2, new ConfigDescription("Min land tiles adjacent to river mouth\n2 = DEFAULT (stable rivers)\n1 = More rivers possible (may look weird)", (AcceptableValueBase)(object)new AcceptableValueRange<int>(1, 3), Array.Empty<object>())); minRiverMouthPointerMagnitude = config("1. River Spawning", "MinPointerMagnitude", 0.8f, new ConfigDescription("Minimum flow direction strength for river mouths\n0.8 = DEFAULT (strong flow requirement)\n0.6 = More mouths allowed (weaker flow)\n0.4 = MANY more mouths (may create stagnant rivers)\nLower = more rivers but worse quality\nLimits: True any | Practical 0..1 | Default 0.8", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.3f, 1f), Array.Empty<object>())); riverWidthScale = config("2. River Size", "WidthScale", 140f, new ConfigDescription("Base river width multiplier\n140 = DEFAULT (vanilla Riverheim)\n180 = 30% wider\n220 = 60% wider\n280 = 100% wider (Amazon-like)\nLimits: True any | Practical 100..350 | Default 140", (AcceptableValueBase)(object)new AcceptableValueRange<float>(100f, 350f), Array.Empty<object>())); riverWidthPower = config("2. River Size", "WidthPower", 0.4f, new ConfigDescription("How width scales with river depth/catchment\n0.4 = DEFAULT\nLimits: True any | Practical 0.25..0.65 | Default 0.4", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.25f, 0.65f), Array.Empty<object>())); riverWidthOffset = config("2. River Size", "WidthOffset", -5f, new ConfigDescription("Width adjustment offset\n-5 = DEFAULT\nLimits: True any | Practical -15..5 | Default -5", (AcceptableValueBase)(object)new AcceptableValueRange<float>(-15f, 5f), Array.Empty<object>())); minRiverStrahler = config("3. River Filtering", "MinStrahler", 2, new ConfigDescription("Minimum Strahler order to keep\n2 = DEFAULT (no tiny tributaries)\n1 = Keep ALL streams (500+ rivers)\nLimits: True any | Practical 1..5 | Default 2", (AcceptableValueBase)(object)new AcceptableValueRange<int>(1, 5), Array.Empty<object>())); minRiverWidth = config("3. River Filtering", "MinWidth", 12.5f, new ConfigDescription("Minimum river width to keep (meters)\n12.5 = DEFAULT\n8 = Keep smaller streams\nLimits: True any | Practical 4..30 | Default 12.5", (AcceptableValueBase)(object)new AcceptableValueRange<float>(4f, 30f), Array.Empty<object>())); maxCatchmentDiff = config("3. River Filtering", "MaxCatchmentDiff", 5.5f, new ConfigDescription("Maximum drainage area difference\n5.5 = DEFAULT\nLimits: True any | Practical 3..10 | Default 5.5", (AcceptableValueBase)(object)new AcceptableValueRange<float>(3f, 10f), Array.Empty<object>())); riverMeanderAmplitude = config("4. River Appearance", "MeanderAmplitude", 0.55f, new ConfigDescription("How much rivers curve and wind\n0.55 = DEFAULT\nLimits: True any | Practical 0..1.2 | Default 0.55", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0f, 1.2f), Array.Empty<object>())); riverMeanderPeriod = config("4. River Appearance", "MeanderPeriod", 2.4f, new ConfigDescription("Frequency of river curves\n2.4 = DEFAULT\nLimits: True >0 | Practical 1..5 | Default 2.4", (AcceptableValueBase)(object)new AcceptableValueRange<float>(1f, 5f), Array.Empty<object>())); riverMinDepth = config("4. River Appearance", "MinDepth", 2.5f, new ConfigDescription("Minimum river depth (visual)\n2.5 = DEFAULT\nLimits: True >=0 | Practical 1..5 | Default 2.5", (AcceptableValueBase)(object)new AcceptableValueRange<float>(1f, 5f), Array.Empty<object>())); riverSteepness = config("4. River Appearance", "BankSteepness", 0.25f, new ConfigDescription("How steep river banks are\n0.25 = DEFAULT\nLimits: True >0 | Practical 0.1..0.6 | Default 0.25", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.1f, 0.6f), Array.Empty<object>())); riverMaxBankHeight = config("4. River Appearance", "MaxBankHeight", 70f, new ConfigDescription("Maximum height of river banks\n70 = DEFAULT\nLimits: True >0 | Practical 30..120 | Default 70", (AcceptableValueBase)(object)new AcceptableValueRange<float>(30f, 120f), Array.Empty<object>())); riverValleyOffset = config("5. River Valleys", "ValleyOffset", -160f, new ConfigDescription("Base valley depth\n-160 = Default\n-220 = Deeper valleys (more dramatic)\n-100 = Shallower valleys (subtle)\nLimits: True any | Practical -300..-50 | Default -160", (AcceptableValueBase)(object)new AcceptableValueRange<float>(-300f, -50f), Array.Empty<object>())); riverValleyMagnitude = config("5. River Valleys", "ValleyMagnitude", 13f, new ConfigDescription("Valley depth multiplier\n13 = Default\n18 = More pronounced valleys\n8 = Subtle valleys\nLimits: True >0 | Practical 6..25 | Default 13", (AcceptableValueBase)(object)new AcceptableValueRange<float>(6f, 25f), Array.Empty<object>())); riverValleyExponent = config("5. River Valleys", "ValleyExponent", 0.5f, new ConfigDescription("Valley shape curve\n0.5 = Default (natural V-shape)\n0.7 = Wider valleys\n0.3 = Narrower, sharper valleys\nLimits: True >0 | Practical 0.3..0.8 | Default 0.5", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.3f, 0.8f), Array.Empty<object>())); lakeThreshold = config("6. Lakes", "SpawnThreshold", 0.9f, new ConfigDescription("Lake spawn probability threshold\n0.9 = DEFAULT (vanilla Riverheim)\n0.85 = More lakes\n0.8 = Many lakes\nLimits: True any | Practical 0.7..0.98 | Default 0.9", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.7f, 0.98f), Array.Empty<object>())); lakeNoiseScale = config("6. Lakes", "NoiseScale", 600f, new ConfigDescription("Lake distribution pattern scale\n600 = Default\n400 = Smaller, more clustered lakes\n900 = Larger, more spread out lakes\nLimits: True >0 | Practical 300..1200 | Default 600", (AcceptableValueBase)(object)new AcceptableValueRange<float>(300f, 1200f), Array.Empty<object>())); lakeLowlandContribution = config("6. Lakes", "LowlandContribution", 0.35f, new ConfigDescription("How much lowlands favor lakes\n0.35 = DEFAULT\nLimits: True any | Practical 0..0.8 | Default 0.35", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0f, 0.8f), Array.Empty<object>())); lakeCuriosityContribution = config("6. Lakes", "CuriosityContribution", 0.8f, new ConfigDescription("Lakes near interesting terrain features\n0.8 = Default\n1.0 = More lakes near mountains/rivers\n0.5 = Random lake placement\nLimits: True any | Practical 0.3..1.2 | Default 0.8", (AcceptableValueBase)(object)new AcceptableValueRange<float>(0.3f, 1.2f), Array.Empty<object>())); worldSize = config("7. World Size", "WorldRadius", 10500f, new ConfigDescription("World radius in meters (affects coastline = max rivers)\n10500 = DEFAULT (21km diameter, ~3,310 river capacity)\n12000 = 14% larger (24km diameter, ~3,800 river capacity)\n13500 = 29% larger (27km diameter, ~4,300 river capacity)\n15000 = 43% larger (30km diameter, ~4,800 river capacity)\nWARNING: Larger = MUCH slower world generation!\nWARNING: Conflicts with ExpandWorldSize mod!\nLimits: True >0 | Practical 8000..18000 | Default 10500", (AcceptableValueBase)(object)new AcceptableValueRange<float>(8000f, 18000f), Array.Empty<object>())); tileSpacing = config("7. World Size", "TileSpacing", 70f, new ConfigDescription("Distance between generation points\n70 = DEFAULT\n60 = More detail (SLOWER gen, more memory)\n80 = Less detail (faster, less memory)\nWARNING: <60 can cause crashes on large worlds!\nLimits: True >0 | Practical 50..100 | Default 70", (AcceptableValueBase)(object)new AcceptableValueRange<float>(50f, 100f), Array.Empty<object>())); ((BaseUnityPlugin)this).Config.Save(); logger.LogWarning((object)"Config created - Current values:"); logger.LogInfo((object)$" River Density: {riverDensity.Value}"); logger.LogInfo((object)$" River Width: {riverWidthScale.Value}"); logger.LogInfo((object)$" Min Strahler: {minRiverStrahler.Value}"); logger.LogInfo((object)$" Lake Threshold: {lakeThreshold.Value}"); logger.LogWarning((object)"⚠ SERVER CONFIG WILL BE ENFORCED ON CLIENTS"); logger.LogWarning((object)"⚠ Create a NEW world to apply changes!"); ((MonoBehaviour)this).StartCoroutine(DelayedPatch()); } catch (Exception arg) { logger.LogError((object)$"Failed to initialize Riverheim Config: {arg}"); throw; } } private IEnumerator DelayedPatch() { yield return (object)new WaitForSeconds(2f); try { logger.LogInfo((object)"Applying patches..."); Harmony val = new Harmony("com.valheim.riverheim.config"); MethodInfo methodInfo = AccessTools.Method("Riverheim.DefaultConfig:Config", (Type[])null, (Type[])null); if (methodInfo != null) { val.Patch((MethodBase)methodInfo, new HarmonyMethod(typeof(RiverheimConfigPlugin), "ReloadConfigPrefix", (Type[])null), new HarmonyMethod(typeof(RiverheimConfigPlugin), "PatchWorldConfig", (Type[])null), (HarmonyMethod)null, (HarmonyMethod)null, (HarmonyMethod)null); logger.LogInfo((object)"✓ Patched WorldStateGenerator config (with reload prefix)"); } MethodInfo methodInfo2 = AccessTools.Method("Riverheim.DefaultConfig:RendererConfig", (Type[])null, (Type[])null); if (methodInfo2 != null) { val.Patch((MethodBase)methodInfo2, (HarmonyMethod)null, new HarmonyMethod(typeof(RiverheimConfigPlugin), "PatchRendererConfig", (Type[])null), (HarmonyMethod)null, (HarmonyMethod)null, (HarmonyMethod)null); logger.LogInfo((object)"✓ Patched WorldRenderer config"); } logger.LogWarning((object)"✓✓✓ ALL PATCHES APPLIED ✓✓✓"); } catch (Exception arg) { logger.LogError((object)$"Patch failed: {arg}"); } } private static void ReloadConfigPrefix() { try { ((BaseUnityPlugin)instance).Config.Reload(); logger.LogWarning((object)$"⟳ Config reloaded - Density: {riverDensity.Value}, WidthScale: {riverWidthScale.Value}"); } catch (Exception arg) { logger.LogError((object)$"Config reload failed: {arg}"); } } private static void PatchWorldConfig(ref object __result) { try { logger.LogWarning((object)">>> PATCHING RIVER & LAKE CONFIG <<<"); Type type = __result.GetType(); FieldInfo fieldInfo = AccessTools.Field(type, "common"); if (fieldInfo != null) { object value = fieldInfo.GetValue(__result); Type type2 = value.GetType(); FieldInfo fieldInfo2 = AccessTools.Field(type2, "WorldSize"); if (fieldInfo2 != null) { object value2 = fieldInfo2.GetValue(value); fieldInfo2.SetValue(value, worldSize.Value); logger.LogWarning((object)$" WorldSize: {value2} → {worldSize.Value}"); } FieldInfo fieldInfo3 = AccessTools.Field(type2, "TileSpacing"); if (fieldInfo3 != null) { object value3 = fieldInfo3.GetValue(value); fieldInfo3.SetValue(value, tileSpacing.Value); logger.LogWarning((object)$" TileSpacing: {value3} → {tileSpacing.Value}"); } fieldInfo.SetValue(__result, value); logger.LogInfo((object)$"✓ World: size={worldSize.Value}m, spacing={tileSpacing.Value}m"); } else { logger.LogError((object)"✗ common field not found"); } FieldInfo fieldInfo4 = AccessTools.Field(type, "rivers"); if (fieldInfo4 != null) { object value4 = fieldInfo4.GetValue(__result); Type type3 = value4.GetType(); AccessTools.Field(type3, "startingDensity")?.SetValue(value4, riverDensity.Value); AccessTools.Field(type3, "startingVariability")?.SetValue(value4, riverStartingVariability.Value); AccessTools.Field(type3, "weightRecovery")?.SetValue(value4, riverWeightRecovery.Value); FieldInfo fieldInfo5 = AccessTools.Field(type3, "minRiverMouthLandNeighbors"); if (fieldInfo5 != null) { object value5 = fieldInfo5.GetValue(value4); fieldInfo5.SetValue(value4, minRiverMouthLandNeighbors.Value); logger.LogWarning((object)$" minRiverMouthLandNeighbors: {value5} → {minRiverMouthLandNeighbors.Value}"); } else { logger.LogError((object)" ✗ minRiverMouthLandNeighbors field not found in RiverConfig"); } FieldInfo fieldInfo6 = AccessTools.Field(type3, "minRiverMouthPointerMagnitude"); if (fieldInfo6 != null) { object value6 = fieldInfo6.GetValue(value4); fieldInfo6.SetValue(value4, minRiverMouthPointerMagnitude.Value); logger.LogWarning((object)$" minRiverMouthPointerMagnitude: {value6} → {minRiverMouthPointerMagnitude.Value}"); } else { logger.LogError((object)" ✗ minRiverMouthPointerMagnitude field not found in RiverConfig"); } FieldInfo fieldInfo7 = AccessTools.Field(type3, "width"); if (fieldInfo7 != null) { object value7 = fieldInfo7.GetValue(value4); AccessTools.Field(value7.GetType(), "scale")?.SetValue(value7, riverWidthScale.Value); AccessTools.Field(value7.GetType(), "power")?.SetValue(value7, riverWidthPower.Value); AccessTools.Field(value7.GetType(), "offset")?.SetValue(value7, riverWidthOffset.Value); } FieldInfo fieldInfo8 = AccessTools.Field(type3, "prune"); if (fieldInfo8 != null) { object value8 = fieldInfo8.GetValue(value4); AccessTools.Field(value8.GetType(), "minStrahler")?.SetValue(value8, minRiverStrahler.Value); AccessTools.Field(value8.GetType(), "minWidth")?.SetValue(value8, minRiverWidth.Value); AccessTools.Field(value8.GetType(), "maxCatchmentDiff")?.SetValue(value8, maxCatchmentDiff.Value); } fieldInfo4.SetValue(__result, value4); logger.LogInfo((object)$"✓ Rivers: density={riverDensity.Value}, width={riverWidthScale.Value}, minStrahler={minRiverStrahler.Value}"); } FieldInfo fieldInfo9 = AccessTools.Field(type, "riverValleys"); if (fieldInfo9 != null) { object value9 = fieldInfo9.GetValue(__result); AccessTools.Field(value9.GetType(), "offset")?.SetValue(value9, riverValleyOffset.Value); AccessTools.Field(value9.GetType(), "magnitude")?.SetValue(value9, riverValleyMagnitude.Value); AccessTools.Field(value9.GetType(), "exponent")?.SetValue(value9, riverValleyExponent.Value); fieldInfo9.SetValue(__result, value9); logger.LogInfo((object)$"✓ Valleys: offset={riverValleyOffset.Value}, magnitude={riverValleyMagnitude.Value}"); } FieldInfo fieldInfo10 = AccessTools.Field(type, "lakes"); if (fieldInfo10 != null) { object value10 = fieldInfo10.GetValue(__result); AccessTools.Field(value10.GetType(), "threshold")?.SetValue(value10, lakeThreshold.Value); AccessTools.Field(value10.GetType(), "noiseScale")?.SetValue(value10, lakeNoiseScale.Value); AccessTools.Field(value10.GetType(), "lowlandContribution")?.SetValue(value10, lakeLowlandContribution.Value); AccessTools.Field(value10.GetType(), "curiosityContribution")?.SetValue(value10, lakeCuriosityContribution.Value); fieldInfo10.SetValue(__result, value10); logger.LogInfo((object)$"✓ Lakes: threshold={lakeThreshold.Value}, lowland={lakeLowlandContribution.Value}"); } logger.LogWarning((object)"✓✓✓ WORLD CONFIG APPLIED ✓✓✓"); } catch (Exception arg) { logger.LogError((object)$"PatchWorldConfig error: {arg}"); } } private static void PatchRendererConfig(ref object __result) { try { logger.LogWarning((object)">>> PATCHING RIVER RENDERER <<<"); FieldInfo fieldInfo = AccessTools.Field(__result.GetType(), "rivers"); if (fieldInfo != null) { object value = fieldInfo.GetValue(__result); Type type = value.GetType(); AccessTools.Field(type, "meanderAmplitude")?.SetValue(value, riverMeanderAmplitude.Value); AccessTools.Field(type, "meanderPeriod")?.SetValue(value, riverMeanderPeriod.Value); FieldInfo fieldInfo2 = AccessTools.Field(type, "profile"); if (fieldInfo2 != null) { object value2 = fieldInfo2.GetValue(value); AccessTools.Field(value2.GetType(), "minDepth")?.SetValue(value2, riverMinDepth.Value); AccessTools.Field(value2.GetType(), "steepness")?.SetValue(value2, riverSteepness.Value); AccessTools.Field(value2.GetType(), "maxBankHeight")?.SetValue(value2, riverMaxBankHeight.Value); } fieldInfo.SetValue(__result, value); logger.LogInfo((object)$"✓ Renderer: meander={riverMeanderAmplitude.Value}, depth={riverMinDepth.Value}, banks={riverMaxBankHeight.Value}"); } logger.LogWarning((object)"✓✓✓ RENDERER CONFIG APPLIED ✓✓✓"); } catch (Exception arg) { logger.LogError((object)$"PatchRendererConfig error: {arg}"); } } }
SourceCode\ServerSync.dll
Decompiled a month 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.InteropServices; using System.Runtime.Serialization; using System.Runtime.Versioning; using BepInEx; using BepInEx.Configuration; using HarmonyLib; using JetBrains.Annotations; using Microsoft.CodeAnalysis; using TMPro; using UnityEngine; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.Default | DebuggableAttribute.DebuggingModes.DisableOptimizations | DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints | DebuggableAttribute.DebuggingModes.EnableEditAndContinue)] [assembly: AssemblyTitle("ServerSync")] [assembly: AssemblyDescription("")] [assembly: AssemblyConfiguration("")] [assembly: AssemblyCompany("")] [assembly: AssemblyProduct("ServerSync")] [assembly: AssemblyCopyright("Copyright © 2021")] [assembly: AssemblyTrademark("")] [assembly: ComVisible(false)] [assembly: Guid("E16C3332-50B4-4DA6-9E8A-A590C4E5CD49")] [assembly: AssemblyFileVersion("1.0.0.0")] [assembly: TargetFramework(".NETFramework,Version=v4.8", FrameworkDisplayName = ".NET Framework 4.8")] [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 ServerSync { [PublicAPI] public abstract class OwnConfigEntryBase { public object? LocalBaseValue; public bool SynchronizedConfig = true; public abstract ConfigEntryBase BaseConfig { get; } } [PublicAPI] public 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; } } } public 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] public 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] public 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 = configSyncs.First(); 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 (!adminList.GetList().SequenceEqual(CurrentList)) { CurrentList = new List<string>(adminList.GetList()); List<ZNetPeer> adminPeer = ZNet.instance.GetPeers().Where(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 })); }).ToList(); List<ZNetPeer> nonAdminPeer = ZNet.instance.GetPeers().Except(adminPeer).ToList(); 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(configSync.allConfigs.Select((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, new object[1] { new ConfigurationManagerAttributes() }.Concat(((ConfigEntryBase)configEntry2).Description.Tags ?? Array.Empty<object>()).Concat(new SyncedConfigEntry<T>[1] { syncedEntry }).ToArray()); 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 (allCustomValues.Select((CustomSyncedValueBase v) => v.Identifier).Concat(new string[1] { "serverversion" }).Contains(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>(allCustomValues.OrderByDescending((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(value.Values.SelectMany((byte[] a) => a).ToArray()); 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 = allConfigs.Where((OwnConfigEntryBase c) => c.SynchronizedConfig).ToDictionary((OwnConfigEntryBase c) => c.BaseConfig.Definition.Section + "_" + c.BaseConfig.Definition.Key, (OwnConfigEntryBase c) => c); Dictionary<string, CustomSyncedValueBase> dictionary2 = allCustomValues.ToDictionary((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 = configSyncs.FirstOrDefault((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 allConfigs.Where((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 allCustomValues.Where((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(data.Skip(250000 * fragment).Take(250000).ToArray()); 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 = list.Where((ZNetPeer p) => p.m_uid == target).ToList(); } 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 = (from peer in peers where peer.IsReady() select peer into p select distributeConfigToPeers(p, package2)).ToList(); 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) { return config.Description.Tags?.OfType<OwnConfigEntryBase>().SingleOrDefault(); } public static SyncedConfigEntry<T>? ConfigData<T>(ConfigEntry<T> config) { return ((ConfigEntryBase)config).Description.Tags?.OfType<SyncedConfigEntry<T>>().SingleOrDefault(); } private static T configAttribute<T>(ConfigEntryBase config) { return config.Description.Tags.OfType<T>().First(); } 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?.Where((ConfigEntryBase config) => configData(config).SynchronizedConfig).ToList() ?? new List<ConfigEntryBase>(); List<CustomSyncedValueBase> list2 = customValues?.ToList() ?? new List<CustomSyncedValueBase>(); ZPackage val = new ZPackage(); val.Write((byte)(partial ? 1 : 0)); val.Write(list.Count + list2.Count + (packageEntries?.Count() ?? 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 source.First(); } } [PublicAPI] [HarmonyPatch] public 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 && patchInfo.Postfixes.Count((Patch p) => p.PatchMethod.DeclaringType == typeof(ConfigSync.RegisterRPCPatch)) > 0) { return; } Harmony val = new Harmony("org.bepinex.helpers.ServerSync"); foreach (Type item in from t in typeof(ConfigSync).GetNestedTypes(BindingFlags.NonPublic).Concat(new Type[1] { typeof(VersionCheck) }) where t.IsClass select t) { 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 versionChecks.Where((VersionCheck check) => !check.IsVersionOk()).ToArray(); } private static VersionCheck[] GetFailedServer(ZRpc rpc) { ZRpc rpc2 = rpc; return versionChecks.Where((VersionCheck check) => check.ModRequired && !check.ValidatedClients.Contains(rpc2)).ToArray(); } 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", failedClient.Select((VersionCheck check) => check.Error())); TMP_Text connectionFailedError = __instance.m_connectionFailedError; connectionFailedError.text = connectionFailedError.text + "\n" + text; flag = true; } foreach (KeyValuePair<string, string> item in notProcessedNames.OrderBy<KeyValuePair<string, string>, string>((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; } } } }
