Decompiled source of Asset Bundle Loader v2.0.3
AssetBundleLoader.dll
Decompiled 2 months agousing System; using System.Collections.Generic; using System.Diagnostics; using System.IO; using System.Linq; using System.Reflection; using System.Runtime.CompilerServices; using System.Runtime.Loader; using System.Runtime.Versioning; using System.Security; using System.Security.Permissions; using System.Text.RegularExpressions; using AssetsTools.NET; using BepInEx; using BepInEx.Core.Logging.Interpolation; using BepInEx.Logging; using BepInEx.Unity.IL2CPP; using HarmonyLib; using Il2CppInterop.Runtime; using Il2CppInterop.Runtime.InteropTypes; using Il2CppSystem.Collections.Generic; using Microsoft.CodeAnalysis; using UnityEngine; using UniverseLib; using UniverseLib.Config; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.Default | DebuggableAttribute.DebuggingModes.DisableOptimizations | DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints | DebuggableAttribute.DebuggingModes.EnableEditAndContinue)] [assembly: TargetFramework(".NETCoreApp,Version=v6.0", FrameworkDisplayName = ".NET 6.0")] [assembly: AssemblyCompany("AssetBundleLoader")] [assembly: AssemblyConfiguration("IL2CPP")] [assembly: AssemblyDescription("Load AssetBundles built against previous game versions safely")] [assembly: AssemblyFileVersion("2.0.3.0")] [assembly: AssemblyInformationalVersion("2.0.3+aca643ad969699af0165bd3c8c0ba85e253e8e01")] [assembly: AssemblyProduct("AssetBundleLoader")] [assembly: AssemblyTitle("AssetBundleLoader")] [assembly: SecurityPermission(SecurityAction.RequestMinimum, SkipVerification = true)] [assembly: AssemblyVersion("2.0.3.0")] [module: UnverifiableCode] [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 AssetBundleLoader { [Serializable] internal class AssetMappingList { [Serializable] public class AssetMapping { public long PathID; public long AddressablePathID; public string? Name; public string? Type; public string? Container; public string? Path; public string? AddressablesCAB; } public Dictionary<string, AssetMapping> assets = new Dictionary<string, AssetMapping>(); public static bool CheckMatch(AssetMapping mapping, AssetTypeValueField asset) { return mapping.Name == asset["m_Name"].AsString && mapping.Type == asset.TypeName; } } [BepInPlugin("AssetBundleLoader", "AssetBundleLoader", "2.0.3")] public class BundleLoader : BasePlugin { public delegate List<ScriptableObject> LoadObjects(List<ScriptableObject> loadedScriptableObjects); public static bool EnableLogging = false; public static ManualLogSource PluginLogger; private static Dictionary<string, AssetBundle> loadedBundles = new Dictionary<string, AssetBundle>(); public static List<LoadObjects> loadObjectDelegates = new List<LoadObjects>(); public override void Load() { //IL_0015: Unknown result type (might be due to invalid IL or missing references) //IL_0031: Unknown result type (might be due to invalid IL or missing references) //IL_0043: Unknown result type (might be due to invalid IL or missing references) //IL_0049: Expected O, but got Unknown //IL_007d: 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) //IL_009a: Expected O, but got Unknown PluginLogger = ((BasePlugin)this).Log; Universe.Init(0f, (Action)null, (Action<string, LogType>)null, new UniverseLibConfig { Unhollowed_Modules_Folder = Path.Combine(Paths.BepInExRootPath, "interop") }); ManualLogSource pluginLogger = PluginLogger; bool flag = default(bool); BepInExInfoLogInterpolatedStringHandler val = new BepInExInfoLogInterpolatedStringHandler(18, 1, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val).AppendLiteral("Plugin "); ((BepInExLogInterpolatedStringHandler)val).AppendFormatted<string>("AssetBundleLoader"); ((BepInExLogInterpolatedStringHandler)val).AppendLiteral(" is loaded!"); } pluginLogger.LogInfo(val); new Harmony("AssetBundleLoader").PatchAll(); ManualLogSource pluginLogger2 = PluginLogger; val = new BepInExInfoLogInterpolatedStringHandler(19, 1, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val).AppendLiteral("Plugin "); ((BepInExLogInterpolatedStringHandler)val).AppendFormatted<string>("AssetBundleLoader"); ((BepInExLogInterpolatedStringHandler)val).AppendLiteral(" is patched!"); } pluginLogger2.LogInfo(val); } public static AssetBundle LoadBundle(string bundlePath, bool skipCache = false, bool stable = false) { string text = (File.Exists(bundlePath) ? bundlePath : (bundlePath + "_stable")); if (loadedBundles.ContainsKey(text) && (Object)(object)loadedBundles[text] != (Object)null) { return loadedBundles[text]; } PluginLogger.LogInfo((object)("Using existing bundle: " + text)); EnableLogging = false; loadedBundles[text] = AssetBundle.LoadFromFile(text); return loadedBundles[text]; } } internal class Hooks_ErrorsDebugging { [HarmonyPatch(typeof(SaveStateController), "LoadSaveState")] public class SaveStateController_LoadSaveState { public static void Prefix() { ContentThatFailedToLoad.Clear(); } } [HarmonyPatch(typeof(MurderController), "OnStartGame")] internal class MurderController_OnStartGame { public static void Prefix() { //IL_004e: Unknown result type (might be due to invalid IL or missing references) //IL_0053: Unknown result type (might be due to invalid IL or missing references) //IL_0064: Expected O, but got Unknown //IL_0079: Unknown result type (might be due to invalid IL or missing references) //IL_007e: Unknown result type (might be due to invalid IL or missing references) //IL_008f: Expected O, but got Unknown //IL_00a4: 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_00ba: Expected O, but got Unknown //IL_00cf: Unknown result type (might be due to invalid IL or missing references) //IL_00d4: Unknown result type (might be due to invalid IL or missing references) //IL_00e5: Expected O, but got Unknown if (ContentThatFailedToLoad.Count > 0) { if (!Strings.stringTable["ui.popups"].ContainsKey("pie_abl_quit")) { Strings.stringTable["ui.popups"].Add("pie_abl_quit", new DisplayString { displayStr = "Quit" }); Strings.stringTable["ui.popups"].Add("pie_abl_continuebroken", new DisplayString { displayStr = "Continue (Game may be in a broken state)" }); Strings.stringTable["ui.popups"].Add("pie_abl_modloaderror_title", new DisplayString { displayStr = "Modded Content Failed To Load" }); Strings.stringTable["ui.popups"].Add("pie_abl_modloaderror_body", new DisplayString { displayStr = "This save was made with modded content that is now missing.\nContinuing might put your game into a broken state - do you wish to continue?\n\nThe missing content includes (Other content may also be missing!)" }); } PopupMessageController.Instance.PopupMessage("pie_abl_modloaderror", true, true, "pie_abl_quit", "pie_abl_continuebroken", true, (AffectPauseState)1, true, GeneralExtensions.Join<string>((IEnumerable<string>)ContentThatFailedToLoad, (Func<string, string>)null, ", "), false, false, false, false, "", "", false, "", false, "", "", false); PopupMessageController.Instance.OnLeftButton = LeftButton.op_Implicit((Action)Quit); } } public static void Quit() { Application.Quit(); } } [HarmonyPatch(typeof(Interactable), "OnLoad")] public class Interactable_OnLoad { public static bool Prefix(Interactable __instance) { //IL_0041: Unknown result type (might be due to invalid IL or missing references) //IL_0047: Expected O, but got Unknown if (!Toolbox.Instance.objectPresetDictionary.ContainsKey(__instance.p)) { if (!ContentThatFailedToLoad.Contains(__instance.p)) { ManualLogSource pluginLogger = BundleLoader.PluginLogger; bool flag = default(bool); BepInExErrorLogInterpolatedStringHandler val = new BepInExErrorLogInterpolatedStringHandler(50, 1, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val).AppendLiteral("Unable to find preset for "); ((BepInExLogInterpolatedStringHandler)val).AppendFormatted<string>(__instance.p); ((BepInExLogInterpolatedStringHandler)val).AppendLiteral(", are you missing a mod?"); } pluginLogger.LogError(val); ContentThatFailedToLoad.Add(__instance.p); } return false; } return true; } } [HarmonyPatch] public class Game_LogError { [HarmonyTargetMethods] internal static IEnumerable<MethodBase> CalculateMethods() { return from mi in typeof(Game).GetMethods() where mi.Name == "LogError" select mi; } public static void Prefix(object print) { //IL_0021: Unknown result type (might be due to invalid IL or missing references) //IL_0027: Expected O, but got Unknown if (print.ToTypedString().Contains("Resources load error")) { ManualLogSource pluginLogger = BundleLoader.PluginLogger; bool flag = default(bool); BepInExErrorLogInterpolatedStringHandler val = new BepInExErrorLogInterpolatedStringHandler(11, 1, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val).AppendLiteral("ToString '"); ((BepInExLogInterpolatedStringHandler)val).AppendFormatted<string>(print.ToTypedString()); ((BepInExLogInterpolatedStringHandler)val).AppendLiteral("'"); } pluginLogger.LogError(val); ContentThatFailedToLoad.Add(new Regex("name or ID (.+?),").Match(print.ToTypedString()).Groups[1].Value); } } } private static List<string> ContentThatFailedToLoad = new List<string>(); } public static class ToTypedStringExtension { public static string ToTypedString(this object toPrint) { Type actualType = ReflectionExtensions.GetActualType(toPrint); object obj = ReflectionExtensions.TryCast(toPrint, actualType); return (string)actualType.GetMethod("ToString", Type.EmptyTypes).Invoke(obj, null); } } internal class Hooks_LoadContent { [HarmonyPatch] public class Debug_Log { [HarmonyTargetMethods] internal static IEnumerable<MethodBase> CalculateMethods() { return from mi in typeof(Debug).GetMethods() where mi.Name == "Log" select mi; } public static void Prefix(object message) { //IL_0021: Unknown result type (might be due to invalid IL or missing references) //IL_0027: Expected O, but got Unknown //IL_0050: Unknown result type (might be due to invalid IL or missing references) //IL_0056: Expected O, but got Unknown if (message.ToTypedString().Contains("Finished load of group: data")) { ManualLogSource pluginLogger = BundleLoader.PluginLogger; bool flag = default(bool); BepInExInfoLogInterpolatedStringHandler val = new BepInExInfoLogInterpolatedStringHandler(19, 0, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val).AppendLiteral("Loading custom data"); } pluginLogger.LogInfo(val); LoadCustomPresets(); ManualLogSource pluginLogger2 = BundleLoader.PluginLogger; val = new BepInExInfoLogInterpolatedStringHandler(24, 0, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val).AppendLiteral("Done loading custom data"); } pluginLogger2.LogInfo(val); } } } private static bool haveLoadedCustomPresets; private static void LoadCustomPresets() { //IL_08b6: Unknown result type (might be due to invalid IL or missing references) //IL_08bd: Expected O, but got Unknown if (haveLoadedCustomPresets) { return; } List<(ScriptableObject, string, string)> list = new List<(ScriptableObject, string, string)>(); Enumerator<ScriptableObject> enumerator = AssetLoader.Instance.allPresets.GetEnumerator(); while (enumerator.MoveNext()) { ScriptableObject current = enumerator.Current; ScriptableObject val = (ScriptableObject)((dynamic)current).Cast<ScriptableObject>(); string name = ReflectionExtensions.GetActualType((object)val).Name; string name2 = ((Object)val).name; list.Add((val, name, name2)); } dynamic val2 = JsonLoader.NewtonsoftExtensions.NewtonsoftJson.JToken_Parse(JsonUtilityArrays.ToJson<ScriptableObject>(AssetLoader.Instance.allPresets.ToArray(), false)); int num = 0; foreach (dynamic item3 in val2["Items"]) { item3["name"] = list[num].Item3; item3["type"] = list[num].Item2; string key = item3["type"].ToString() + "|" + item3["name"].ToString(); ScriptableObject item = list[num].Item1; string item2 = "{\"m_FileID\":" + item3["m_FileID"].ToString() + ",\"m_PathID\":" + item3["m_PathID"].ToString() + "}"; JsonLoader.ScriptableObjectIDMap[key] = (item, item2); num++; } bool flag = default(bool); foreach (BundleLoader.LoadObjects loadObjectDelegate in BundleLoader.loadObjectDelegates) { try { foreach (ScriptableObject item4 in loadObjectDelegate(AssetLoader.Instance.allPresets)) { AssetLoader.Instance.allPresets.Add(item4); AssetLoader.Instance.SortScriptableObject(item4); } } catch (Exception ex) { ManualLogSource pluginLogger = BundleLoader.PluginLogger; BepInExErrorLogInterpolatedStringHandler val3 = new BepInExErrorLogInterpolatedStringHandler(35, 1, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val3).AppendLiteral("Content loader threw an exception: "); ((BepInExLogInterpolatedStringHandler)val3).AppendFormatted<string>(ReflectionExtensions.GetActualType(loadObjectDelegate.Target).Name); } pluginLogger.LogError(val3); BundleLoader.PluginLogger.LogError((object)ex); } } haveLoadedCustomPresets = true; } } public static class JsonLoader { public static class JsonExtensions { public static List<dynamic> FindTokensByValueMatch(dynamic containerToken, Regex value) { List<object> result = new List<object>(); JsonExtensions.FindTokensByValueMatch(containerToken, value, ref result); return result; } private static void FindTokensByValueMatch(dynamic containerToken, Regex value, ref List<dynamic> matches) { dynamic val = NewtonsoftExtensions.NewtonsoftJson.JToken_Type(containerToken); if (val == NewtonsoftExtensions.e_JToken_Type.Object) { foreach (dynamic item in containerToken) { JsonExtensions.FindTokensByValueMatch(item.Value, value, ref matches); } return; } if (val == NewtonsoftExtensions.e_JToken_Type.Array) { foreach (dynamic item2 in containerToken) { JsonExtensions.FindTokensByValueMatch(item2, value, ref matches); } return; } if ((val == NewtonsoftExtensions.e_JToken_Type.String) && (value.Match(containerToken.ToString()).Success ? true : false)) { ((List<object>)matches).Add(containerToken); } } } public class NewtonsoftExtensions { public enum e_JToken_Type { None, Object, Array, Constructor, Property, Comment, Integer, Float, String, Boolean, Null, Undefined, Date, Raw, Bytes, Guid, Uri, TimeSpan } private static NewtonsoftExtensions _instance; private AssemblyLoadContext assemblyLoadContext; private Assembly newtonsoftJson; private Type t_JToken; private MethodInfo m_JToken_Parse; private Dictionary<string, MethodInfo> m_Type_Getter; private Type t_JObject; private MethodInfo m_JObject_Parse; private MethodInfo m_JObject_FromObject; private PropertyInfo m_JObject_Type; private Type t_JArray; private MethodInfo m_JArray_FromObject; public static NewtonsoftExtensions NewtonsoftJson { get { if (_instance == null) { _instance = new NewtonsoftExtensions(); } return _instance; } } private NewtonsoftExtensions() { assemblyLoadContext = new AssemblyLoadContext("NewtonsoftContext"); assemblyLoadContext.LoadFromAssemblyPath(Path.Combine(Path.GetDirectoryName(Assembly.GetExecutingAssembly().Location), "Newtonsoft.Json.dll")); newtonsoftJson = assemblyLoadContext.Assemblies.Where((Assembly a) => a.GetName().Name == "Newtonsoft.Json").First(); t_JToken = newtonsoftJson.GetType("Newtonsoft.Json.Linq.JToken"); m_JToken_Parse = t_JToken.GetMethod("Parse", new Type[1] { typeof(string) }); m_Type_Getter = new Dictionary<string, MethodInfo>(); t_JObject = newtonsoftJson.GetType("Newtonsoft.Json.Linq.JObject"); m_JObject_Parse = t_JObject.GetMethod("Parse", new Type[1] { typeof(string) }); m_JObject_FromObject = t_JObject.GetMethod("FromObject", new Type[1] { typeof(object) }); m_JObject_Type = t_JObject.GetProperty("Type"); t_JArray = newtonsoftJson.GetType("Newtonsoft.Json.Linq.t_JArray"); m_JArray_FromObject = t_JObject.GetMethod("FromObject", new Type[1] { typeof(object) }); } public dynamic JToken_Parse(string json) { return _instance.m_JToken_Parse.Invoke(null, new object[1] { json }); } public e_JToken_Type JToken_Type(dynamic jtoken) { if ((!_instance.m_Type_Getter.ContainsKey(jtoken.GetType().FullName))) { _instance.m_Type_Getter[jtoken.GetType().FullName] = jtoken.GetType().GetProperty("Type").GetMethod; } dynamic val = _instance.m_Type_Getter[jtoken.GetType().FullName].Invoke(jtoken, null); return (e_JToken_Type)(int)val; } public dynamic JArray_FromObject(object obj) { return _instance.m_JArray_FromObject.Invoke(null, new object[1] { obj }); } public dynamic JObject_FromObject(object obj) { return _instance.m_JObject_FromObject.Invoke(null, new object[1] { obj }); } } public static class RestoredJsonUtility { private delegate IntPtr Delegate_FromJsonInternal(IntPtr json, IntPtr scriptableObject, IntPtr type); private delegate IntPtr Delegate_ToJsonInternal(IntPtr json, bool prettyPrint); private static Delegate_FromJsonInternal _iCallFromJsonInternal; private static Delegate_ToJsonInternal _iCallToJsonInternal; public static T FromJsonInternal<T>(string json, T scriptableObject) where T : Object { //IL_005e: Unknown result type (might be due to invalid IL or missing references) if (_iCallFromJsonInternal == null) { _iCallFromJsonInternal = IL2CPP.ResolveICall<Delegate_FromJsonInternal>("UnityEngine.JsonUtility::FromJsonInternal"); } IntPtr json2 = IL2CPP.ManagedStringToIl2Cpp(json); IntPtr scriptableObject2 = (IntPtr)typeof(T).GetMethod("get_Pointer").Invoke(scriptableObject, null); IntPtr pointer = ((Il2CppObjectBase)Il2CppType.Of<T>()).Pointer; IntPtr intPtr = _iCallFromJsonInternal(json2, scriptableObject2, pointer); return new Il2CppObjectBase(intPtr).TryCast<T>(); } public static string ToJsonInternal(Il2CppObjectBase obj, bool prettyPrint) { if (_iCallToJsonInternal == null) { _iCallToJsonInternal = IL2CPP.ResolveICall<Delegate_ToJsonInternal>("UnityEngine.JsonUtility::ToJsonInternal"); } IntPtr json = (IntPtr)typeof(MurderMO).GetMethod("get_Pointer").Invoke(obj, null); IntPtr intPtr = _iCallToJsonInternal(json, prettyPrint); return IL2CPP.Il2CppStringToManaged(intPtr); } } public static Dictionary<string, (ScriptableObject scriptableObject, string fileId)> ScriptableObjectIDMap = new Dictionary<string, (ScriptableObject, string)>(); private static void SerializeTypes(ref Dictionary<string, Dictionary<string, string>> dict, Type soType) { if (soType.FullName == null || !soType.IsSubclassOf(typeof(ScriptableObject))) { return; } dict[soType.FullName] = new Dictionary<string, string>(); PropertyInfo[] properties = soType.GetProperties(); foreach (PropertyInfo propertyInfo in properties) { if (propertyInfo.PropertyType.IsValueType) { dict[soType.FullName][propertyInfo.Name] = propertyInfo.PropertyType.FullName; } else if (propertyInfo.PropertyType.IsArray) { SerializeTypes(ref dict, propertyInfo.PropertyType.GetElementType()); dict[soType.FullName][propertyInfo.Name] = propertyInfo.PropertyType.GetElementType().FullName; } else if (propertyInfo.PropertyType.IsGenericType) { SerializeTypes(ref dict, propertyInfo.PropertyType.GetGenericTypeDefinition()); dict[soType.FullName][propertyInfo.Name] = propertyInfo.PropertyType.GetGenericTypeDefinition().FullName; } else { SerializeTypes(ref dict, propertyInfo.PropertyType); } dict[soType.FullName][propertyInfo.Name] = propertyInfo.PropertyType.FullName; } } public static ScriptableObject LoadFileToGame(string json) { //IL_04d6: Unknown result type (might be due to invalid IL or missing references) //IL_04dd: Expected O, but got Unknown dynamic val = NewtonsoftExtensions.NewtonsoftJson.JToken_Parse(json); dynamic val2 = val.Value<string>("name"); dynamic val3 = val.Value<string>("fileType"); val.SelectToken("fileType").Replace(null); string text = val.Value<string>("copyFrom"); if (text != null) { val.SelectToken("copyFrom").Replace(null); } dynamic val4 = NewtonsoftExtensions.NewtonsoftJson.JToken_Parse(val.ToString()); try { JsonLoader.ExtractAndReplaceTokens(JsonExtensions.FindTokensByValueMatch(val, new Regex("^REF")), $"{(object?)val3}|{(object?)val2}"); } catch (KeyNotFoundException) { ManualLogSource pluginLogger = BundleLoader.PluginLogger; bool flag = default(bool); BepInExErrorLogInterpolatedStringHandler val5 = new BepInExErrorLogInterpolatedStringHandler(35, 1, ref flag); if (flag) { val5.AppendFormatted(val2); ((BepInExLogInterpolatedStringHandler)val5).AppendLiteral(" failed to load, missing reference."); } pluginLogger.LogError(val5); throw; } ScriptableObject val6 = (ScriptableObject)((text == null || !text.Contains("|")) ? ((object)(ScriptableObject)ScriptableObject.CreateInstance(val3)) : ((object)Object.Instantiate<ScriptableObject>(ScriptableObjectIDMap[text.Replace("REF:", "").Trim()].scriptableObject))); val6 = (ScriptableObject)RestoredJsonUtility.FromJsonInternal(val.ToString(), val6); ((Object)val6).name = val.SelectToken("name").ToString(); JsonLoader.FixSelfReferences(val6, val4); string key = val3 + "|" + ((Object)val6).name; List<ScriptableObject> val7 = new List<ScriptableObject>(); val7.Add(val6); string item = NewtonsoftExtensions.NewtonsoftJson.JToken_Parse(JsonUtilityArrays.ToJson<ScriptableObject>(val7.ToArray())).SelectToken("Items[0]").ToString(); ScriptableObjectIDMap.Add(key, (val6, item)); return val6; } private static void ExtractAndReplace(dynamic json, string token, string typeAndNameKey) { JsonLoader.ExtractAndReplaceTokens(json.SelectTokens(token).ToList(), typeAndNameKey); } private static void ExtractAndReplaceTokens(List<dynamic> tokens, string typeAndNameKey) { //IL_0a7a: Unknown result type (might be due to invalid IL or missing references) //IL_0a81: Expected O, but got Unknown //IL_0561: Unknown result type (might be due to invalid IL or missing references) //IL_0568: Expected O, but got Unknown bool flag = default(bool); foreach (dynamic token in tokens) { dynamic val = NewtonsoftExtensions.NewtonsoftJson.JToken_Type(token); BepInExErrorLogInterpolatedStringHandler val4; if (val == NewtonsoftExtensions.e_JToken_Type.Array) { List<object> val2 = new List<object>(); foreach (dynamic item in token.Children<object>()) { dynamic val3 = item.ToString().Replace("REF:", ""); if (!((val3 != typeAndNameKey) ? true : false)) { continue; } if (ScriptableObjectIDMap.ContainsKey(val3)) { val2.Add(NewtonsoftExtensions.NewtonsoftJson.JToken_Parse(ScriptableObjectIDMap[val3].Item2)); continue; } ManualLogSource pluginLogger = BundleLoader.PluginLogger; val4 = new BepInExErrorLogInterpolatedStringHandler(72, 2, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val4).AppendFormatted<string>(typeAndNameKey); ((BepInExLogInterpolatedStringHandler)val4).AppendLiteral(" failed to load, "); val4.AppendFormatted(val3); ((BepInExLogInterpolatedStringHandler)val4).AppendLiteral(" doesn't exist! (Check your fileOrder in your manifest)"); } pluginLogger.LogError(val4); } token.Replace(NewtonsoftExtensions.NewtonsoftJson.JArray_FromObject(val2)); continue; } dynamic val5 = token.ToString().Replace("REF:", ""); if (val5 == typeAndNameKey) { token.Replace(null); continue; } if (ScriptableObjectIDMap.ContainsKey(val5)) { token.Replace(NewtonsoftExtensions.NewtonsoftJson.JToken_Parse(ScriptableObjectIDMap[val5].Item2)); continue; } ManualLogSource pluginLogger2 = BundleLoader.PluginLogger; val4 = new BepInExErrorLogInterpolatedStringHandler(72, 2, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val4).AppendFormatted<string>(typeAndNameKey); ((BepInExLogInterpolatedStringHandler)val4).AppendLiteral(" failed to load, "); val4.AppendFormatted(val5); ((BepInExLogInterpolatedStringHandler)val4).AppendLiteral(" doesn't exist! (Check your fileOrder in your manifest)"); } pluginLogger2.LogError(val4); } } private static void FixSelfReferences(ScriptableObject so, dynamic json) { //IL_0275: Unknown result type (might be due to invalid IL or missing references) //IL_027c: Expected O, but got Unknown string selfReference = "REF:" + ReflectionExtensions.GetActualType((object)so)?.ToString() + "|" + ((Object)so).name; bool flag = default(bool); foreach (dynamic item in (from val in json.Descendants() as IEnumerable<object> where val.GetType().FullName == "Newtonsoft.Json.Linq.JValue" where val.ToString() == selfReference select val).ToList()) { List<string> list = new List<string>(); string[] array = item.Path.Split("."); object obj = null; PropertyInfo propertyInfo = null; object obj2 = so; int num = -1; string[] array2 = array; foreach (string text in array2) { if (text.IndexOf("[") > -1) { string[] array3 = text.Split("["); int num2 = int.Parse(array3[1].Split("]")[0]); try { propertyInfo = ReflectionExtensions.GetActualType(obj2).GetProperty(array3[0]); if (propertyInfo == null) { throw new NullReferenceException(); } } catch { ManualLogSource pluginLogger = BundleLoader.PluginLogger; BepInExErrorLogInterpolatedStringHandler val2 = new BepInExErrorLogInterpolatedStringHandler(27, 2, ref flag); if (flag) { ((BepInExLogInterpolatedStringHandler)val2).AppendLiteral("Unknown field '"); ((BepInExLogInterpolatedStringHandler)val2).AppendFormatted<string>(array3[0]); ((BepInExLogInterpolatedStringHandler)val2).AppendLiteral("' on type '"); ((BepInExLogInterpolatedStringHandler)val2).AppendFormatted<string>(ReflectionExtensions.GetActualType(obj2).FullName); ((BepInExLogInterpolatedStringHandler)val2).AppendLiteral("'"); } pluginLogger.LogError(val2); } if (propertyInfo.PropertyType.IsArray) { object[] array4 = (object[])ReflectionExtensions.GetActualType(obj2).GetProperty(array3[0]).GetValue(obj2); num = num2; obj = array4; obj2 = array4[num2]; } else { dynamic val3 = ReflectionExtensions.TryCast(obj2, ReflectionExtensions.GetActualType(obj2)); dynamic value = ReflectionExtensions.GetActualType(obj2).GetProperty(array3[0]).GetValue(val3); num = num2; obj = value; obj2 = value[num2]; } } else { propertyInfo = ReflectionExtensions.GetActualType(obj2).GetProperty(text); obj = obj2; if (array.Length > 1) { obj2 = ReflectionExtensions.GetActualType(obj2).GetProperty(text).GetValue(obj2); } } } if (propertyInfo.PropertyType.IsArray) { ((Array)obj).SetValue(ReflectionExtensions.TryCast((object)so, ReflectionExtensions.GetActualType((object)so)), num); } else if (propertyInfo.PropertyType.Name.StartsWith("List")) { ReflectionExtensions.GetActualType(obj).GetMethod("set_Item").Invoke(obj, new object[2] { num, ReflectionExtensions.TryCast((object)so, ReflectionExtensions.GetActualType((object)so)) }); } else { propertyInfo.SetValue(obj, ReflectionExtensions.TryCast((object)so, ReflectionExtensions.GetActualType((object)so))); } } } } public static class MyPluginInfo { public const string PLUGIN_GUID = "AssetBundleLoader"; public const string PLUGIN_NAME = "AssetBundleLoader"; public const string PLUGIN_VERSION = "2.0.3"; } }
Newtonsoft.Json.dll
Decompiled 2 months ago
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using System; using System.Collections; using System.Collections.Concurrent; using System.Collections.Generic; using System.Collections.ObjectModel; using System.Collections.Specialized; using System.ComponentModel; using System.Data; using System.Data.SqlTypes; using System.Diagnostics; using System.Diagnostics.CodeAnalysis; using System.Dynamic; using System.Globalization; using System.IO; using System.Linq; using System.Linq.Expressions; using System.Numerics; using System.Reflection; using System.Resources; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; using System.Runtime.Serialization; using System.Runtime.Serialization.Formatters; using System.Runtime.Versioning; using System.Security; using System.Text; using System.Text.RegularExpressions; using System.Threading; using System.Threading.Tasks; using System.Xml; using System.Xml.Linq; using Microsoft.CodeAnalysis; using Newtonsoft.Json.Bson; using Newtonsoft.Json.Converters; using Newtonsoft.Json.Linq; using Newtonsoft.Json.Linq.JsonPath; using Newtonsoft.Json.Schema; using Newtonsoft.Json.Serialization; using Newtonsoft.Json.Utilities; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints)] [assembly: AllowPartiallyTrustedCallers] [assembly: InternalsVisibleTo("Newtonsoft.Json.Schema, PublicKey=0024000004800000940000000602000000240000525341310004000001000100f561df277c6c0b497d629032b410cdcf286e537c054724f7ffa0164345f62b3e642029d7a80cc351918955328c4adc8a048823ef90b0cf38ea7db0d729caf2b633c3babe08b0310198c1081995c19029bc675193744eab9d7345b8a67258ec17d112cebdbbb2a281487dceeafb9d83aa930f32103fbe1d2911425bc5744002c7")] [assembly: InternalsVisibleTo("Newtonsoft.Json.Tests, PublicKey=0024000004800000940000000602000000240000525341310004000001000100f561df277c6c0b497d629032b410cdcf286e537c054724f7ffa0164345f62b3e642029d7a80cc351918955328c4adc8a048823ef90b0cf38ea7db0d729caf2b633c3babe08b0310198c1081995c19029bc675193744eab9d7345b8a67258ec17d112cebdbbb2a281487dceeafb9d83aa930f32103fbe1d2911425bc5744002c7")] [assembly: InternalsVisibleTo("Newtonsoft.Json.Dynamic, PublicKey=0024000004800000940000000602000000240000525341310004000001000100cbd8d53b9d7de30f1f1278f636ec462cf9c254991291e66ebb157a885638a517887633b898ccbcf0d5c5ff7be85a6abe9e765d0ac7cd33c68dac67e7e64530e8222101109f154ab14a941c490ac155cd1d4fcba0fabb49016b4ef28593b015cab5937da31172f03f67d09edda404b88a60023f062ae71d0b2e4438b74cc11dc9")] [assembly: AssemblyTrademark("")] [assembly: ComVisible(false)] [assembly: Guid("9ca358aa-317b-4925-8ada-4a29e943a363")] [assembly: CLSCompliant(true)] [assembly: TargetFramework(".NETStandard,Version=v2.0", FrameworkDisplayName = "")] [assembly: AssemblyCompany("Newtonsoft")] [assembly: AssemblyConfiguration("Release")] [assembly: AssemblyCopyright("Copyright © James Newton-King 2008")] [assembly: AssemblyDescription("Json.NET is a popular high-performance JSON framework for .NET")] [assembly: AssemblyFileVersion("13.0.3.27908")] [assembly: AssemblyInformationalVersion("13.0.3+0a2e291c0d9c0c7675d445703e51750363a549ef")] [assembly: AssemblyProduct("Json.NET")] [assembly: AssemblyTitle("Json.NET .NET Standard 2.0")] [assembly: AssemblyMetadata("RepositoryUrl", "https://github.com/JamesNK/Newtonsoft.Json")] [assembly: NeutralResourcesLanguage("en-US")] [assembly: AssemblyVersion("13.0.0.0")] namespace Microsoft.CodeAnalysis { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] internal sealed class EmbeddedAttribute : Attribute { } } namespace System.Runtime.CompilerServices { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] internal sealed class IsReadOnlyAttribute : Attribute { } [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; } } } namespace System.Diagnostics.CodeAnalysis { [AttributeUsage(AttributeTargets.Method | AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Parameter | AttributeTargets.ReturnValue, AllowMultiple = true)] internal sealed class NotNullAttribute : Attribute { } [AttributeUsage(AttributeTargets.Parameter, AllowMultiple = false)] internal sealed class NotNullWhenAttribute : Attribute { public bool ReturnValue { get; } public NotNullWhenAttribute(bool returnValue) { ReturnValue = returnValue; } } [AttributeUsage(AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Parameter | AttributeTargets.ReturnValue, Inherited = false)] internal sealed class MaybeNullAttribute : Attribute { } [AttributeUsage(AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Parameter, Inherited = false)] internal sealed class AllowNullAttribute : Attribute { } [AttributeUsage(AttributeTargets.Parameter, Inherited = false)] internal class DoesNotReturnIfAttribute : Attribute { public bool ParameterValue { get; } public DoesNotReturnIfAttribute(bool parameterValue) { ParameterValue = parameterValue; } } } namespace Newtonsoft.Json { public enum ConstructorHandling { Default, AllowNonPublicDefaultConstructor } public enum DateFormatHandling { IsoDateFormat, MicrosoftDateFormat } public enum DateParseHandling { None, DateTime, DateTimeOffset } public enum DateTimeZoneHandling { Local, Utc, Unspecified, RoundtripKind } public class DefaultJsonNameTable : JsonNameTable { private class Entry { internal readonly string Value; internal readonly int HashCode; internal Entry Next; internal Entry(string value, int hashCode, Entry next) { Value = value; HashCode = hashCode; Next = next; } } private static readonly int HashCodeRandomizer; private int _count; private Entry[] _entries; private int _mask = 31; static DefaultJsonNameTable() { HashCodeRandomizer = Environment.TickCount; } public DefaultJsonNameTable() { _entries = new Entry[_mask + 1]; } public override string? Get(char[] key, int start, int length) { if (length == 0) { return string.Empty; } int num = length + HashCodeRandomizer; num += (num << 7) ^ key[start]; int num2 = start + length; for (int i = start + 1; i < num2; i++) { num += (num << 7) ^ key[i]; } num -= num >> 17; num -= num >> 11; num -= num >> 5; int num3 = Volatile.Read(ref _mask); int num4 = num & num3; for (Entry entry = _entries[num4]; entry != null; entry = entry.Next) { if (entry.HashCode == num && TextEquals(entry.Value, key, start, length)) { return entry.Value; } } return null; } public string Add(string key) { if (key == null) { throw new ArgumentNullException("key"); } int length = key.Length; if (length == 0) { return string.Empty; } int num = length + HashCodeRandomizer; for (int i = 0; i < key.Length; i++) { num += (num << 7) ^ key[i]; } num -= num >> 17; num -= num >> 11; num -= num >> 5; for (Entry entry = _entries[num & _mask]; entry != null; entry = entry.Next) { if (entry.HashCode == num && entry.Value.Equals(key, StringComparison.Ordinal)) { return entry.Value; } } return AddEntry(key, num); } private string AddEntry(string str, int hashCode) { int num = hashCode & _mask; Entry entry = new Entry(str, hashCode, _entries[num]); _entries[num] = entry; if (_count++ == _mask) { Grow(); } return entry.Value; } private void Grow() { Entry[] entries = _entries; int num = _mask * 2 + 1; Entry[] array = new Entry[num + 1]; for (int i = 0; i < entries.Length; i++) { Entry entry = entries[i]; while (entry != null) { int num2 = entry.HashCode & num; Entry next = entry.Next; entry.Next = array[num2]; array[num2] = entry; entry = next; } } _entries = array; Volatile.Write(ref _mask, num); } private static bool TextEquals(string str1, char[] str2, int str2Start, int str2Length) { if (str1.Length != str2Length) { return false; } for (int i = 0; i < str1.Length; i++) { if (str1[i] != str2[str2Start + i]) { return false; } } return true; } } [Flags] public enum DefaultValueHandling { Include = 0, Ignore = 1, Populate = 2, IgnoreAndPopulate = 3 } public enum FloatFormatHandling { String, Symbol, DefaultValue } public enum FloatParseHandling { Double, Decimal } public enum Formatting { None, Indented } public interface IArrayPool<T> { T[] Rent(int minimumLength); void Return(T[]? array); } public interface IJsonLineInfo { int LineNumber { get; } int LinePosition { get; } bool HasLineInfo(); } [AttributeUsage(AttributeTargets.Class | AttributeTargets.Interface, AllowMultiple = false)] public sealed class JsonArrayAttribute : JsonContainerAttribute { private bool _allowNullItems; public bool AllowNullItems { get { return _allowNullItems; } set { _allowNullItems = value; } } public JsonArrayAttribute() { } public JsonArrayAttribute(bool allowNullItems) { _allowNullItems = allowNullItems; } public JsonArrayAttribute(string id) : base(id) { } } [AttributeUsage(AttributeTargets.Constructor, AllowMultiple = false)] public sealed class JsonConstructorAttribute : Attribute { } [AttributeUsage(AttributeTargets.Class | AttributeTargets.Interface, AllowMultiple = false)] public abstract class JsonContainerAttribute : Attribute { internal bool? _isReference; internal bool? _itemIsReference; internal ReferenceLoopHandling? _itemReferenceLoopHandling; internal TypeNameHandling? _itemTypeNameHandling; private Type? _namingStrategyType; private object[]? _namingStrategyParameters; public string? Id { get; set; } public string? Title { get; set; } public string? Description { get; set; } public Type? ItemConverterType { get; set; } public object[]? ItemConverterParameters { get; set; } public Type? NamingStrategyType { get { return _namingStrategyType; } set { _namingStrategyType = value; NamingStrategyInstance = null; } } public object[]? NamingStrategyParameters { get { return _namingStrategyParameters; } set { _namingStrategyParameters = value; NamingStrategyInstance = null; } } internal NamingStrategy? NamingStrategyInstance { get; set; } public bool IsReference { get { return _isReference.GetValueOrDefault(); } set { _isReference = value; } } public bool ItemIsReference { get { return _itemIsReference.GetValueOrDefault(); } set { _itemIsReference = value; } } public ReferenceLoopHandling ItemReferenceLoopHandling { get { return _itemReferenceLoopHandling.GetValueOrDefault(); } set { _itemReferenceLoopHandling = value; } } public TypeNameHandling ItemTypeNameHandling { get { return _itemTypeNameHandling.GetValueOrDefault(); } set { _itemTypeNameHandling = value; } } protected JsonContainerAttribute() { } protected JsonContainerAttribute(string id) { Id = id; } } public static class JsonConvert { public static readonly string True = "true"; public static readonly string False = "false"; public static readonly string Null = "null"; public static readonly string Undefined = "undefined"; public static readonly string PositiveInfinity = "Infinity"; public static readonly string NegativeInfinity = "-Infinity"; public static readonly string NaN = "NaN"; public static Func<JsonSerializerSettings>? DefaultSettings { get; set; } public static string ToString(DateTime value) { return ToString(value, DateFormatHandling.IsoDateFormat, DateTimeZoneHandling.RoundtripKind); } public static string ToString(DateTime value, DateFormatHandling format, DateTimeZoneHandling timeZoneHandling) { DateTime value2 = DateTimeUtils.EnsureDateTime(value, timeZoneHandling); using StringWriter stringWriter = StringUtils.CreateStringWriter(64); stringWriter.Write('"'); DateTimeUtils.WriteDateTimeString(stringWriter, value2, format, null, CultureInfo.InvariantCulture); stringWriter.Write('"'); return stringWriter.ToString(); } public static string ToString(DateTimeOffset value) { return ToString(value, DateFormatHandling.IsoDateFormat); } public static string ToString(DateTimeOffset value, DateFormatHandling format) { using StringWriter stringWriter = StringUtils.CreateStringWriter(64); stringWriter.Write('"'); DateTimeUtils.WriteDateTimeOffsetString(stringWriter, value, format, null, CultureInfo.InvariantCulture); stringWriter.Write('"'); return stringWriter.ToString(); } public static string ToString(bool value) { if (!value) { return False; } return True; } public static string ToString(char value) { return ToString(char.ToString(value)); } public static string ToString(Enum value) { return value.ToString("D"); } public static string ToString(int value) { return value.ToString(null, CultureInfo.InvariantCulture); } public static string ToString(short value) { return value.ToString(null, CultureInfo.InvariantCulture); } [CLSCompliant(false)] public static string ToString(ushort value) { return value.ToString(null, CultureInfo.InvariantCulture); } [CLSCompliant(false)] public static string ToString(uint value) { return value.ToString(null, CultureInfo.InvariantCulture); } public static string ToString(long value) { return value.ToString(null, CultureInfo.InvariantCulture); } private static string ToStringInternal(BigInteger value) { return value.ToString(null, CultureInfo.InvariantCulture); } [CLSCompliant(false)] public static string ToString(ulong value) { return value.ToString(null, CultureInfo.InvariantCulture); } public static string ToString(float value) { return EnsureDecimalPlace(value, value.ToString("R", CultureInfo.InvariantCulture)); } internal static string ToString(float value, FloatFormatHandling floatFormatHandling, char quoteChar, bool nullable) { return EnsureFloatFormat(value, EnsureDecimalPlace(value, value.ToString("R", CultureInfo.InvariantCulture)), floatFormatHandling, quoteChar, nullable); } private static string EnsureFloatFormat(double value, string text, FloatFormatHandling floatFormatHandling, char quoteChar, bool nullable) { if (floatFormatHandling == FloatFormatHandling.Symbol || (!double.IsInfinity(value) && !double.IsNaN(value))) { return text; } if (floatFormatHandling == FloatFormatHandling.DefaultValue) { if (nullable) { return Null; } return "0.0"; } return quoteChar + text + quoteChar; } public static string ToString(double value) { return EnsureDecimalPlace(value, value.ToString("R", CultureInfo.InvariantCulture)); } internal static string ToString(double value, FloatFormatHandling floatFormatHandling, char quoteChar, bool nullable) { return EnsureFloatFormat(value, EnsureDecimalPlace(value, value.ToString("R", CultureInfo.InvariantCulture)), floatFormatHandling, quoteChar, nullable); } private static string EnsureDecimalPlace(double value, string text) { if (double.IsNaN(value) || double.IsInfinity(value) || StringUtils.IndexOf(text, '.') != -1 || StringUtils.IndexOf(text, 'E') != -1 || StringUtils.IndexOf(text, 'e') != -1) { return text; } return text + ".0"; } private static string EnsureDecimalPlace(string text) { if (StringUtils.IndexOf(text, '.') != -1) { return text; } return text + ".0"; } public static string ToString(byte value) { return value.ToString(null, CultureInfo.InvariantCulture); } [CLSCompliant(false)] public static string ToString(sbyte value) { return value.ToString(null, CultureInfo.InvariantCulture); } public static string ToString(decimal value) { return EnsureDecimalPlace(value.ToString(null, CultureInfo.InvariantCulture)); } public static string ToString(Guid value) { return ToString(value, '"'); } internal static string ToString(Guid value, char quoteChar) { string text = value.ToString("D", CultureInfo.InvariantCulture); string text2 = quoteChar.ToString(CultureInfo.InvariantCulture); return text2 + text + text2; } public static string ToString(TimeSpan value) { return ToString(value, '"'); } internal static string ToString(TimeSpan value, char quoteChar) { return ToString(value.ToString(), quoteChar); } public static string ToString(Uri? value) { if (value == null) { return Null; } return ToString(value, '"'); } internal static string ToString(Uri value, char quoteChar) { return ToString(value.OriginalString, quoteChar); } public static string ToString(string? value) { return ToString(value, '"'); } public static string ToString(string? value, char delimiter) { return ToString(value, delimiter, StringEscapeHandling.Default); } public static string ToString(string? value, char delimiter, StringEscapeHandling stringEscapeHandling) { if (delimiter != '"' && delimiter != '\'') { throw new ArgumentException("Delimiter must be a single or double quote.", "delimiter"); } return JavaScriptUtils.ToEscapedJavaScriptString(value, delimiter, appendDelimiters: true, stringEscapeHandling); } public static string ToString(object? value) { if (value == null) { return Null; } return ConvertUtils.GetTypeCode(value.GetType()) switch { PrimitiveTypeCode.String => ToString((string)value), PrimitiveTypeCode.Char => ToString((char)value), PrimitiveTypeCode.Boolean => ToString((bool)value), PrimitiveTypeCode.SByte => ToString((sbyte)value), PrimitiveTypeCode.Int16 => ToString((short)value), PrimitiveTypeCode.UInt16 => ToString((ushort)value), PrimitiveTypeCode.Int32 => ToString((int)value), PrimitiveTypeCode.Byte => ToString((byte)value), PrimitiveTypeCode.UInt32 => ToString((uint)value), PrimitiveTypeCode.Int64 => ToString((long)value), PrimitiveTypeCode.UInt64 => ToString((ulong)value), PrimitiveTypeCode.Single => ToString((float)value), PrimitiveTypeCode.Double => ToString((double)value), PrimitiveTypeCode.DateTime => ToString((DateTime)value), PrimitiveTypeCode.Decimal => ToString((decimal)value), PrimitiveTypeCode.DBNull => Null, PrimitiveTypeCode.DateTimeOffset => ToString((DateTimeOffset)value), PrimitiveTypeCode.Guid => ToString((Guid)value), PrimitiveTypeCode.Uri => ToString((Uri)value), PrimitiveTypeCode.TimeSpan => ToString((TimeSpan)value), PrimitiveTypeCode.BigInteger => ToStringInternal((BigInteger)value), _ => throw new ArgumentException("Unsupported type: {0}. Use the JsonSerializer class to get the object's JSON representation.".FormatWith(CultureInfo.InvariantCulture, value.GetType())), }; } [DebuggerStepThrough] public static string SerializeObject(object? value) { return SerializeObject(value, (Type?)null, (JsonSerializerSettings?)null); } [DebuggerStepThrough] public static string SerializeObject(object? value, Formatting formatting) { return SerializeObject(value, formatting, (JsonSerializerSettings?)null); } [DebuggerStepThrough] public static string SerializeObject(object? value, params JsonConverter[] converters) { JsonSerializerSettings settings = ((converters != null && converters.Length != 0) ? new JsonSerializerSettings { Converters = converters } : null); return SerializeObject(value, null, settings); } [DebuggerStepThrough] public static string SerializeObject(object? value, Formatting formatting, params JsonConverter[] converters) { JsonSerializerSettings settings = ((converters != null && converters.Length != 0) ? new JsonSerializerSettings { Converters = converters } : null); return SerializeObject(value, null, formatting, settings); } [DebuggerStepThrough] public static string SerializeObject(object? value, JsonSerializerSettings? settings) { return SerializeObject(value, null, settings); } [DebuggerStepThrough] public static string SerializeObject(object? value, Type? type, JsonSerializerSettings? settings) { JsonSerializer jsonSerializer = JsonSerializer.CreateDefault(settings); return SerializeObjectInternal(value, type, jsonSerializer); } [DebuggerStepThrough] public static string SerializeObject(object? value, Formatting formatting, JsonSerializerSettings? settings) { return SerializeObject(value, null, formatting, settings); } [DebuggerStepThrough] public static string SerializeObject(object? value, Type? type, Formatting formatting, JsonSerializerSettings? settings) { JsonSerializer jsonSerializer = JsonSerializer.CreateDefault(settings); jsonSerializer.Formatting = formatting; return SerializeObjectInternal(value, type, jsonSerializer); } private static string SerializeObjectInternal(object? value, Type? type, JsonSerializer jsonSerializer) { StringWriter stringWriter = new StringWriter(new StringBuilder(256), CultureInfo.InvariantCulture); using (JsonTextWriter jsonTextWriter = new JsonTextWriter(stringWriter)) { jsonTextWriter.Formatting = jsonSerializer.Formatting; jsonSerializer.Serialize(jsonTextWriter, value, type); } return stringWriter.ToString(); } [DebuggerStepThrough] public static object? DeserializeObject(string value) { return DeserializeObject(value, (Type?)null, (JsonSerializerSettings?)null); } [DebuggerStepThrough] public static object? DeserializeObject(string value, JsonSerializerSettings settings) { return DeserializeObject(value, null, settings); } [DebuggerStepThrough] public static object? DeserializeObject(string value, Type type) { return DeserializeObject(value, type, (JsonSerializerSettings?)null); } [DebuggerStepThrough] public static T? DeserializeObject<T>(string value) { return JsonConvert.DeserializeObject<T>(value, (JsonSerializerSettings?)null); } [DebuggerStepThrough] public static T? DeserializeAnonymousType<T>(string value, T anonymousTypeObject) { return DeserializeObject<T>(value); } [DebuggerStepThrough] public static T? DeserializeAnonymousType<T>(string value, T anonymousTypeObject, JsonSerializerSettings settings) { return DeserializeObject<T>(value, settings); } [DebuggerStepThrough] public static T? DeserializeObject<T>(string value, params JsonConverter[] converters) { return (T)DeserializeObject(value, typeof(T), converters); } [DebuggerStepThrough] public static T? DeserializeObject<T>(string value, JsonSerializerSettings? settings) { return (T)DeserializeObject(value, typeof(T), settings); } [DebuggerStepThrough] public static object? DeserializeObject(string value, Type type, params JsonConverter[] converters) { JsonSerializerSettings settings = ((converters != null && converters.Length != 0) ? new JsonSerializerSettings { Converters = converters } : null); return DeserializeObject(value, type, settings); } public static object? DeserializeObject(string value, Type? type, JsonSerializerSettings? settings) { ValidationUtils.ArgumentNotNull(value, "value"); JsonSerializer jsonSerializer = JsonSerializer.CreateDefault(settings); if (!jsonSerializer.IsCheckAdditionalContentSet()) { jsonSerializer.CheckAdditionalContent = true; } using JsonTextReader reader = new JsonTextReader(new StringReader(value)); return jsonSerializer.Deserialize(reader, type); } [DebuggerStepThrough] public static void PopulateObject(string value, object target) { PopulateObject(value, target, null); } public static void PopulateObject(string value, object target, JsonSerializerSettings? settings) { JsonSerializer jsonSerializer = JsonSerializer.CreateDefault(settings); using JsonReader jsonReader = new JsonTextReader(new StringReader(value)); jsonSerializer.Populate(jsonReader, target); if (settings == null || !settings.CheckAdditionalContent) { return; } while (jsonReader.Read()) { if (jsonReader.TokenType != JsonToken.Comment) { throw JsonSerializationException.Create(jsonReader, "Additional text found in JSON string after finishing deserializing object."); } } } public static string SerializeXmlNode(XmlNode? node) { return SerializeXmlNode(node, Formatting.None); } public static string SerializeXmlNode(XmlNode? node, Formatting formatting) { XmlNodeConverter xmlNodeConverter = new XmlNodeConverter(); return SerializeObject(node, formatting, xmlNodeConverter); } public static string SerializeXmlNode(XmlNode? node, Formatting formatting, bool omitRootObject) { XmlNodeConverter xmlNodeConverter = new XmlNodeConverter { OmitRootObject = omitRootObject }; return SerializeObject(node, formatting, xmlNodeConverter); } public static XmlDocument? DeserializeXmlNode(string value) { return DeserializeXmlNode(value, null); } public static XmlDocument? DeserializeXmlNode(string value, string? deserializeRootElementName) { return DeserializeXmlNode(value, deserializeRootElementName, writeArrayAttribute: false); } public static XmlDocument? DeserializeXmlNode(string value, string? deserializeRootElementName, bool writeArrayAttribute) { return DeserializeXmlNode(value, deserializeRootElementName, writeArrayAttribute, encodeSpecialCharacters: false); } public static XmlDocument? DeserializeXmlNode(string value, string? deserializeRootElementName, bool writeArrayAttribute, bool encodeSpecialCharacters) { XmlNodeConverter xmlNodeConverter = new XmlNodeConverter(); xmlNodeConverter.DeserializeRootElementName = deserializeRootElementName; xmlNodeConverter.WriteArrayAttribute = writeArrayAttribute; xmlNodeConverter.EncodeSpecialCharacters = encodeSpecialCharacters; return (XmlDocument)DeserializeObject(value, typeof(XmlDocument), xmlNodeConverter); } public static string SerializeXNode(XObject? node) { return SerializeXNode(node, Formatting.None); } public static string SerializeXNode(XObject? node, Formatting formatting) { return SerializeXNode(node, formatting, omitRootObject: false); } public static string SerializeXNode(XObject? node, Formatting formatting, bool omitRootObject) { XmlNodeConverter xmlNodeConverter = new XmlNodeConverter { OmitRootObject = omitRootObject }; return SerializeObject(node, formatting, xmlNodeConverter); } public static XDocument? DeserializeXNode(string value) { return DeserializeXNode(value, null); } public static XDocument? DeserializeXNode(string value, string? deserializeRootElementName) { return DeserializeXNode(value, deserializeRootElementName, writeArrayAttribute: false); } public static XDocument? DeserializeXNode(string value, string? deserializeRootElementName, bool writeArrayAttribute) { return DeserializeXNode(value, deserializeRootElementName, writeArrayAttribute, encodeSpecialCharacters: false); } public static XDocument? DeserializeXNode(string value, string? deserializeRootElementName, bool writeArrayAttribute, bool encodeSpecialCharacters) { XmlNodeConverter xmlNodeConverter = new XmlNodeConverter(); xmlNodeConverter.DeserializeRootElementName = deserializeRootElementName; xmlNodeConverter.WriteArrayAttribute = writeArrayAttribute; xmlNodeConverter.EncodeSpecialCharacters = encodeSpecialCharacters; return (XDocument)DeserializeObject(value, typeof(XDocument), xmlNodeConverter); } } public abstract class JsonConverter { public virtual bool CanRead => true; public virtual bool CanWrite => true; public abstract void WriteJson(JsonWriter writer, object? value, JsonSerializer serializer); public abstract object? ReadJson(JsonReader reader, Type objectType, object? existingValue, JsonSerializer serializer); public abstract bool CanConvert(Type objectType); } public abstract class JsonConverter<T> : JsonConverter { public sealed override void WriteJson(JsonWriter writer, object? value, JsonSerializer serializer) { if (!((value != null) ? (value is T) : ReflectionUtils.IsNullable(typeof(T)))) { throw new JsonSerializationException("Converter cannot write specified value to JSON. {0} is required.".FormatWith(CultureInfo.InvariantCulture, typeof(T))); } WriteJson(writer, (T)value, serializer); } public abstract void WriteJson(JsonWriter writer, T? value, JsonSerializer serializer); public sealed override object? ReadJson(JsonReader reader, Type objectType, object? existingValue, JsonSerializer serializer) { bool flag = existingValue == null; if (!flag && !(existingValue is T)) { throw new JsonSerializationException("Converter cannot read JSON with the specified existing value. {0} is required.".FormatWith(CultureInfo.InvariantCulture, typeof(T))); } return ReadJson(reader, objectType, flag ? default(T) : ((T)existingValue), !flag, serializer); } public abstract T? ReadJson(JsonReader reader, Type objectType, T? existingValue, bool hasExistingValue, JsonSerializer serializer); public sealed override bool CanConvert(Type objectType) { return typeof(T).IsAssignableFrom(objectType); } } [AttributeUsage(AttributeTargets.Class | AttributeTargets.Struct | AttributeTargets.Enum | AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Interface | AttributeTargets.Parameter, AllowMultiple = false)] public sealed class JsonConverterAttribute : Attribute { private readonly Type _converterType; public Type ConverterType => _converterType; public object[]? ConverterParameters { get; } public JsonConverterAttribute(Type converterType) { if (converterType == null) { throw new ArgumentNullException("converterType"); } _converterType = converterType; } public JsonConverterAttribute(Type converterType, params object[] converterParameters) : this(converterType) { ConverterParameters = converterParameters; } } public class JsonConverterCollection : Collection<JsonConverter> { } [AttributeUsage(AttributeTargets.Class | AttributeTargets.Interface, AllowMultiple = false)] public sealed class JsonDictionaryAttribute : JsonContainerAttribute { public JsonDictionaryAttribute() { } public JsonDictionaryAttribute(string id) : base(id) { } } [Serializable] public class JsonException : Exception { public JsonException() { } public JsonException(string message) : base(message) { } public JsonException(string message, Exception? innerException) : base(message, innerException) { } public JsonException(SerializationInfo info, StreamingContext context) : base(info, context) { } internal static JsonException Create(IJsonLineInfo lineInfo, string path, string message) { message = JsonPosition.FormatMessage(lineInfo, path, message); return new JsonException(message); } } [AttributeUsage(AttributeTargets.Property | AttributeTargets.Field, AllowMultiple = false)] public class JsonExtensionDataAttribute : Attribute { public bool WriteData { get; set; } public bool ReadData { get; set; } public JsonExtensionDataAttribute() { WriteData = true; ReadData = true; } } [AttributeUsage(AttributeTargets.Property | AttributeTargets.Field, AllowMultiple = false)] public sealed class JsonIgnoreAttribute : Attribute { } public abstract class JsonNameTable { public abstract string? Get(char[] key, int start, int length); } [AttributeUsage(AttributeTargets.Class | AttributeTargets.Struct | AttributeTargets.Interface, AllowMultiple = false)] public sealed class JsonObjectAttribute : JsonContainerAttribute { private MemberSerialization _memberSerialization; internal MissingMemberHandling? _missingMemberHandling; internal Required? _itemRequired; internal NullValueHandling? _itemNullValueHandling; public MemberSerialization MemberSerialization { get { return _memberSerialization; } set { _memberSerialization = value; } } public MissingMemberHandling MissingMemberHandling { get { return _missingMemberHandling.GetValueOrDefault(); } set { _missingMemberHandling = value; } } public NullValueHandling ItemNullValueHandling { get { return _itemNullValueHandling.GetValueOrDefault(); } set { _itemNullValueHandling = value; } } public Required ItemRequired { get { return _itemRequired.GetValueOrDefault(); } set { _itemRequired = value; } } public JsonObjectAttribute() { } public JsonObjectAttribute(MemberSerialization memberSerialization) { MemberSerialization = memberSerialization; } public JsonObjectAttribute(string id) : base(id) { } } internal enum JsonContainerType { None, Object, Array, Constructor } internal struct JsonPosition { private static readonly char[] SpecialCharacters = new char[18] { '.', ' ', '\'', '/', '"', '[', ']', '(', ')', '\t', '\n', '\r', '\f', '\b', '\\', '\u0085', '\u2028', '\u2029' }; internal JsonContainerType Type; internal int Position; internal string? PropertyName; internal bool HasIndex; public JsonPosition(JsonContainerType type) { Type = type; HasIndex = TypeHasIndex(type); Position = -1; PropertyName = null; } internal int CalculateLength() { switch (Type) { case JsonContainerType.Object: return PropertyName.Length + 5; case JsonContainerType.Array: case JsonContainerType.Constructor: return MathUtils.IntLength((ulong)Position) + 2; default: throw new ArgumentOutOfRangeException("Type"); } } internal void WriteTo(StringBuilder sb, ref StringWriter? writer, ref char[]? buffer) { switch (Type) { case JsonContainerType.Object: { string propertyName = PropertyName; if (propertyName.IndexOfAny(SpecialCharacters) != -1) { sb.Append("['"); if (writer == null) { writer = new StringWriter(sb); } JavaScriptUtils.WriteEscapedJavaScriptString(writer, propertyName, '\'', appendDelimiters: false, JavaScriptUtils.SingleQuoteCharEscapeFlags, StringEscapeHandling.Default, null, ref buffer); sb.Append("']"); } else { if (sb.Length > 0) { sb.Append('.'); } sb.Append(propertyName); } break; } case JsonContainerType.Array: case JsonContainerType.Constructor: sb.Append('['); sb.Append(Position); sb.Append(']'); break; } } internal static bool TypeHasIndex(JsonContainerType type) { if (type != JsonContainerType.Array) { return type == JsonContainerType.Constructor; } return true; } internal static string BuildPath(List<JsonPosition> positions, JsonPosition? currentPosition) { int num = 0; if (positions != null) { for (int i = 0; i < positions.Count; i++) { num += positions[i].CalculateLength(); } } if (currentPosition.HasValue) { num += currentPosition.GetValueOrDefault().CalculateLength(); } StringBuilder stringBuilder = new StringBuilder(num); StringWriter writer = null; char[] buffer = null; if (positions != null) { foreach (JsonPosition position in positions) { position.WriteTo(stringBuilder, ref writer, ref buffer); } } currentPosition?.WriteTo(stringBuilder, ref writer, ref buffer); return stringBuilder.ToString(); } internal static string FormatMessage(IJsonLineInfo? lineInfo, string path, string message) { if (!message.EndsWith(Environment.NewLine, StringComparison.Ordinal)) { message = message.Trim(); if (!StringUtils.EndsWith(message, '.')) { message += "."; } message += " "; } message += "Path '{0}'".FormatWith(CultureInfo.InvariantCulture, path); if (lineInfo != null && lineInfo.HasLineInfo()) { message += ", line {0}, position {1}".FormatWith(CultureInfo.InvariantCulture, lineInfo.LineNumber, lineInfo.LinePosition); } message += "."; return message; } } [AttributeUsage(AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Parameter, AllowMultiple = false)] public sealed class JsonPropertyAttribute : Attribute { internal NullValueHandling? _nullValueHandling; internal DefaultValueHandling? _defaultValueHandling; internal ReferenceLoopHandling? _referenceLoopHandling; internal ObjectCreationHandling? _objectCreationHandling; internal TypeNameHandling? _typeNameHandling; internal bool? _isReference; internal int? _order; internal Required? _required; internal bool? _itemIsReference; internal ReferenceLoopHandling? _itemReferenceLoopHandling; internal TypeNameHandling? _itemTypeNameHandling; public Type? ItemConverterType { get; set; } public object[]? ItemConverterParameters { get; set; } public Type? NamingStrategyType { get; set; } public object[]? NamingStrategyParameters { get; set; } public NullValueHandling NullValueHandling { get { return _nullValueHandling.GetValueOrDefault(); } set { _nullValueHandling = value; } } public DefaultValueHandling DefaultValueHandling { get { return _defaultValueHandling.GetValueOrDefault(); } set { _defaultValueHandling = value; } } public ReferenceLoopHandling ReferenceLoopHandling { get { return _referenceLoopHandling.GetValueOrDefault(); } set { _referenceLoopHandling = value; } } public ObjectCreationHandling ObjectCreationHandling { get { return _objectCreationHandling.GetValueOrDefault(); } set { _objectCreationHandling = value; } } public TypeNameHandling TypeNameHandling { get { return _typeNameHandling.GetValueOrDefault(); } set { _typeNameHandling = value; } } public bool IsReference { get { return _isReference.GetValueOrDefault(); } set { _isReference = value; } } public int Order { get { return _order.GetValueOrDefault(); } set { _order = value; } } public Required Required { get { return _required.GetValueOrDefault(); } set { _required = value; } } public string? PropertyName { get; set; } public ReferenceLoopHandling ItemReferenceLoopHandling { get { return _itemReferenceLoopHandling.GetValueOrDefault(); } set { _itemReferenceLoopHandling = value; } } public TypeNameHandling ItemTypeNameHandling { get { return _itemTypeNameHandling.GetValueOrDefault(); } set { _itemTypeNameHandling = value; } } public bool ItemIsReference { get { return _itemIsReference.GetValueOrDefault(); } set { _itemIsReference = value; } } public JsonPropertyAttribute() { } public JsonPropertyAttribute(string propertyName) { PropertyName = propertyName; } } public abstract class JsonReader : IDisposable { protected internal enum State { Start, Complete, Property, ObjectStart, Object, ArrayStart, Array, Closed, PostValue, ConstructorStart, Constructor, Error, Finished } private JsonToken _tokenType; private object? _value; internal char _quoteChar; internal State _currentState; private JsonPosition _currentPosition; private CultureInfo? _culture; private DateTimeZoneHandling _dateTimeZoneHandling; private int? _maxDepth; private bool _hasExceededMaxDepth; internal DateParseHandling _dateParseHandling; internal FloatParseHandling _floatParseHandling; private string? _dateFormatString; private List<JsonPosition>? _stack; protected State CurrentState => _currentState; public bool CloseInput { get; set; } public bool SupportMultipleContent { get; set; } public virtual char QuoteChar { get { return _quoteChar; } protected internal set { _quoteChar = value; } } public DateTimeZoneHandling DateTimeZoneHandling { get { return _dateTimeZoneHandling; } set { if (value < DateTimeZoneHandling.Local || value > DateTimeZoneHandling.RoundtripKind) { throw new ArgumentOutOfRangeException("value"); } _dateTimeZoneHandling = value; } } public DateParseHandling DateParseHandling { get { return _dateParseHandling; } set { if (value < DateParseHandling.None || value > DateParseHandling.DateTimeOffset) { throw new ArgumentOutOfRangeException("value"); } _dateParseHandling = value; } } public FloatParseHandling FloatParseHandling { get { return _floatParseHandling; } set { if (value < FloatParseHandling.Double || value > FloatParseHandling.Decimal) { throw new ArgumentOutOfRangeException("value"); } _floatParseHandling = value; } } public string? DateFormatString { get { return _dateFormatString; } set { _dateFormatString = value; } } public int? MaxDepth { get { return _maxDepth; } set { if (value <= 0) { throw new ArgumentException("Value must be positive.", "value"); } _maxDepth = value; } } public virtual JsonToken TokenType => _tokenType; public virtual object? Value => _value; public virtual Type? ValueType => _value?.GetType(); public virtual int Depth { get { int num = _stack?.Count ?? 0; if (JsonTokenUtils.IsStartToken(TokenType) || _currentPosition.Type == JsonContainerType.None) { return num; } return num + 1; } } public virtual string Path { get { if (_currentPosition.Type == JsonContainerType.None) { return string.Empty; } JsonPosition? currentPosition = ((_currentState != State.ArrayStart && _currentState != State.ConstructorStart && _currentState != State.ObjectStart) ? new JsonPosition?(_currentPosition) : null); return JsonPosition.BuildPath(_stack, currentPosition); } } public CultureInfo Culture { get { return _culture ?? CultureInfo.InvariantCulture; } set { _culture = value; } } public virtual Task<bool> ReadAsync(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<bool>() ?? Read().ToAsync(); } public async Task SkipAsync(CancellationToken cancellationToken = default(CancellationToken)) { if (TokenType == JsonToken.PropertyName) { await ReadAsync(cancellationToken).ConfigureAwait(continueOnCapturedContext: false); } if (JsonTokenUtils.IsStartToken(TokenType)) { int depth = Depth; while (await ReadAsync(cancellationToken).ConfigureAwait(continueOnCapturedContext: false) && depth < Depth) { } } } internal async Task ReaderReadAndAssertAsync(CancellationToken cancellationToken) { if (!(await ReadAsync(cancellationToken).ConfigureAwait(continueOnCapturedContext: false))) { throw CreateUnexpectedEndException(); } } public virtual Task<bool?> ReadAsBooleanAsync(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<bool?>() ?? Task.FromResult(ReadAsBoolean()); } public virtual Task<byte[]?> ReadAsBytesAsync(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<byte[]>() ?? Task.FromResult(ReadAsBytes()); } internal async Task<byte[]?> ReadArrayIntoByteArrayAsync(CancellationToken cancellationToken) { List<byte> buffer = new List<byte>(); do { if (!(await ReadAsync(cancellationToken).ConfigureAwait(continueOnCapturedContext: false))) { SetToken(JsonToken.None); } } while (!ReadArrayElementIntoByteArrayReportDone(buffer)); byte[] array = buffer.ToArray(); SetToken(JsonToken.Bytes, array, updateIndex: false); return array; } public virtual Task<DateTime?> ReadAsDateTimeAsync(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<DateTime?>() ?? Task.FromResult(ReadAsDateTime()); } public virtual Task<DateTimeOffset?> ReadAsDateTimeOffsetAsync(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<DateTimeOffset?>() ?? Task.FromResult(ReadAsDateTimeOffset()); } public virtual Task<decimal?> ReadAsDecimalAsync(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<decimal?>() ?? Task.FromResult(ReadAsDecimal()); } public virtual Task<double?> ReadAsDoubleAsync(CancellationToken cancellationToken = default(CancellationToken)) { return Task.FromResult(ReadAsDouble()); } public virtual Task<int?> ReadAsInt32Async(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<int?>() ?? Task.FromResult(ReadAsInt32()); } public virtual Task<string?> ReadAsStringAsync(CancellationToken cancellationToken = default(CancellationToken)) { return cancellationToken.CancelIfRequestedAsync<string>() ?? Task.FromResult(ReadAsString()); } internal async Task<bool> ReadAndMoveToContentAsync(CancellationToken cancellationToken) { bool flag = await ReadAsync(cancellationToken).ConfigureAwait(continueOnCapturedContext: false); if (flag) { flag = await MoveToContentAsync(cancellationToken).ConfigureAwait(continueOnCapturedContext: false); } return flag; } internal Task<bool> MoveToContentAsync(CancellationToken cancellationToken) { JsonToken tokenType = TokenType; if (tokenType == JsonToken.None || tokenType == JsonToken.Comment) { return MoveToContentFromNonContentAsync(cancellationToken); } return AsyncUtils.True; } private async Task<bool> MoveToContentFromNonContentAsync(CancellationToken cancellationToken) { JsonToken tokenType; do { if (!(await ReadAsync(cancellationToken).ConfigureAwait(continueOnCapturedContext: false))) { return false; } tokenType = TokenType; } while (tokenType == JsonToken.None || tokenType == JsonToken.Comment); return true; } internal JsonPosition GetPosition(int depth) { if (_stack != null && depth < _stack.Count) { return _stack[depth]; } return _currentPosition; } protected JsonReader() { _currentState = State.Start; _dateTimeZoneHandling = DateTimeZoneHandling.RoundtripKind; _dateParseHandling = DateParseHandling.DateTime; _floatParseHandling = FloatParseHandling.Double; _maxDepth = 64; CloseInput = true; } private void Push(JsonContainerType value) { UpdateScopeWithFinishedValue(); if (_currentPosition.Type == JsonContainerType.None) { _currentPosition = new JsonPosition(value); return; } if (_stack == null) { _stack = new List<JsonPosition>(); } _stack.Add(_currentPosition); _currentPosition = new JsonPosition(value); if (!_maxDepth.HasValue || !(Depth + 1 > _maxDepth) || _hasExceededMaxDepth) { return; } _hasExceededMaxDepth = true; throw JsonReaderException.Create(this, "The reader's MaxDepth of {0} has been exceeded.".FormatWith(CultureInfo.InvariantCulture, _maxDepth)); } private JsonContainerType Pop() { JsonPosition currentPosition; if (_stack != null && _stack.Count > 0) { currentPosition = _currentPosition; _currentPosition = _stack[_stack.Count - 1]; _stack.RemoveAt(_stack.Count - 1); } else { currentPosition = _currentPosition; _currentPosition = default(JsonPosition); } if (_maxDepth.HasValue && Depth <= _maxDepth) { _hasExceededMaxDepth = false; } return currentPosition.Type; } private JsonContainerType Peek() { return _currentPosition.Type; } public abstract bool Read(); public virtual int? ReadAsInt32() { JsonToken contentToken = GetContentToken(); switch (contentToken) { case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.Integer: case JsonToken.Float: { object value = Value; if (value is int) { return (int)value; } int num; if (value is BigInteger bigInteger) { num = (int)bigInteger; } else { try { num = Convert.ToInt32(value, CultureInfo.InvariantCulture); } catch (Exception ex) { throw JsonReaderException.Create(this, "Could not convert to integer: {0}.".FormatWith(CultureInfo.InvariantCulture, value), ex); } } SetToken(JsonToken.Integer, num, updateIndex: false); return num; } case JsonToken.String: { string s = (string)Value; return ReadInt32String(s); } default: throw JsonReaderException.Create(this, "Error reading integer. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, contentToken)); } } internal int? ReadInt32String(string? s) { if (StringUtils.IsNullOrEmpty(s)) { SetToken(JsonToken.Null, null, updateIndex: false); return null; } if (int.TryParse(s, NumberStyles.Integer, Culture, out var result)) { SetToken(JsonToken.Integer, result, updateIndex: false); return result; } SetToken(JsonToken.String, s, updateIndex: false); throw JsonReaderException.Create(this, "Could not convert string to integer: {0}.".FormatWith(CultureInfo.InvariantCulture, s)); } public virtual string? ReadAsString() { JsonToken contentToken = GetContentToken(); switch (contentToken) { case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.String: return (string)Value; default: if (JsonTokenUtils.IsPrimitiveToken(contentToken)) { object value = Value; if (value != null) { string text = ((!(value is IFormattable formattable)) ? ((value is Uri uri) ? uri.OriginalString : value.ToString()) : formattable.ToString(null, Culture)); SetToken(JsonToken.String, text, updateIndex: false); return text; } } throw JsonReaderException.Create(this, "Error reading string. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, contentToken)); } } public virtual byte[]? ReadAsBytes() { JsonToken contentToken = GetContentToken(); switch (contentToken) { case JsonToken.StartObject: { ReadIntoWrappedTypeObject(); byte[] array2 = ReadAsBytes(); ReaderReadAndAssert(); if (TokenType != JsonToken.EndObject) { throw JsonReaderException.Create(this, "Error reading bytes. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, TokenType)); } SetToken(JsonToken.Bytes, array2, updateIndex: false); return array2; } case JsonToken.String: { string text = (string)Value; Guid g; byte[] array3 = ((text.Length == 0) ? CollectionUtils.ArrayEmpty<byte>() : ((!ConvertUtils.TryConvertGuid(text, out g)) ? Convert.FromBase64String(text) : g.ToByteArray())); SetToken(JsonToken.Bytes, array3, updateIndex: false); return array3; } case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.Bytes: if (Value is Guid guid) { byte[] array = guid.ToByteArray(); SetToken(JsonToken.Bytes, array, updateIndex: false); return array; } return (byte[])Value; case JsonToken.StartArray: return ReadArrayIntoByteArray(); default: throw JsonReaderException.Create(this, "Error reading bytes. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, contentToken)); } } internal byte[] ReadArrayIntoByteArray() { List<byte> list = new List<byte>(); do { if (!Read()) { SetToken(JsonToken.None); } } while (!ReadArrayElementIntoByteArrayReportDone(list)); byte[] array = list.ToArray(); SetToken(JsonToken.Bytes, array, updateIndex: false); return array; } private bool ReadArrayElementIntoByteArrayReportDone(List<byte> buffer) { switch (TokenType) { case JsonToken.None: throw JsonReaderException.Create(this, "Unexpected end when reading bytes."); case JsonToken.Integer: buffer.Add(Convert.ToByte(Value, CultureInfo.InvariantCulture)); return false; case JsonToken.EndArray: return true; case JsonToken.Comment: return false; default: throw JsonReaderException.Create(this, "Unexpected token when reading bytes: {0}.".FormatWith(CultureInfo.InvariantCulture, TokenType)); } } public virtual double? ReadAsDouble() { JsonToken contentToken = GetContentToken(); switch (contentToken) { case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.Integer: case JsonToken.Float: { object value = Value; if (value is double) { return (double)value; } double num = ((!(value is BigInteger bigInteger)) ? Convert.ToDouble(value, CultureInfo.InvariantCulture) : ((double)bigInteger)); SetToken(JsonToken.Float, num, updateIndex: false); return num; } case JsonToken.String: return ReadDoubleString((string)Value); default: throw JsonReaderException.Create(this, "Error reading double. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, contentToken)); } } internal double? ReadDoubleString(string? s) { if (StringUtils.IsNullOrEmpty(s)) { SetToken(JsonToken.Null, null, updateIndex: false); return null; } if (double.TryParse(s, NumberStyles.Float | NumberStyles.AllowThousands, Culture, out var result)) { SetToken(JsonToken.Float, result, updateIndex: false); return result; } SetToken(JsonToken.String, s, updateIndex: false); throw JsonReaderException.Create(this, "Could not convert string to double: {0}.".FormatWith(CultureInfo.InvariantCulture, s)); } public virtual bool? ReadAsBoolean() { JsonToken contentToken = GetContentToken(); switch (contentToken) { case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.Integer: case JsonToken.Float: { bool flag = ((!(Value is BigInteger bigInteger)) ? Convert.ToBoolean(Value, CultureInfo.InvariantCulture) : (bigInteger != 0L)); SetToken(JsonToken.Boolean, flag, updateIndex: false); return flag; } case JsonToken.String: return ReadBooleanString((string)Value); case JsonToken.Boolean: return (bool)Value; default: throw JsonReaderException.Create(this, "Error reading boolean. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, contentToken)); } } internal bool? ReadBooleanString(string? s) { if (StringUtils.IsNullOrEmpty(s)) { SetToken(JsonToken.Null, null, updateIndex: false); return null; } if (bool.TryParse(s, out var result)) { SetToken(JsonToken.Boolean, result, updateIndex: false); return result; } SetToken(JsonToken.String, s, updateIndex: false); throw JsonReaderException.Create(this, "Could not convert string to boolean: {0}.".FormatWith(CultureInfo.InvariantCulture, s)); } public virtual decimal? ReadAsDecimal() { JsonToken contentToken = GetContentToken(); switch (contentToken) { case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.Integer: case JsonToken.Float: { object value = Value; if (value is decimal) { return (decimal)value; } decimal num; if (value is BigInteger bigInteger) { num = (decimal)bigInteger; } else { try { num = Convert.ToDecimal(value, CultureInfo.InvariantCulture); } catch (Exception ex) { throw JsonReaderException.Create(this, "Could not convert to decimal: {0}.".FormatWith(CultureInfo.InvariantCulture, value), ex); } } SetToken(JsonToken.Float, num, updateIndex: false); return num; } case JsonToken.String: return ReadDecimalString((string)Value); default: throw JsonReaderException.Create(this, "Error reading decimal. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, contentToken)); } } internal decimal? ReadDecimalString(string? s) { if (StringUtils.IsNullOrEmpty(s)) { SetToken(JsonToken.Null, null, updateIndex: false); return null; } if (decimal.TryParse(s, NumberStyles.Number, Culture, out var result)) { SetToken(JsonToken.Float, result, updateIndex: false); return result; } if (ConvertUtils.DecimalTryParse(s.ToCharArray(), 0, s.Length, out result) == ParseResult.Success) { SetToken(JsonToken.Float, result, updateIndex: false); return result; } SetToken(JsonToken.String, s, updateIndex: false); throw JsonReaderException.Create(this, "Could not convert string to decimal: {0}.".FormatWith(CultureInfo.InvariantCulture, s)); } public virtual DateTime? ReadAsDateTime() { switch (GetContentToken()) { case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.Date: if (Value is DateTimeOffset dateTimeOffset) { SetToken(JsonToken.Date, dateTimeOffset.DateTime, updateIndex: false); } return (DateTime)Value; case JsonToken.String: return ReadDateTimeString((string)Value); default: throw JsonReaderException.Create(this, "Error reading date. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, TokenType)); } } internal DateTime? ReadDateTimeString(string? s) { if (StringUtils.IsNullOrEmpty(s)) { SetToken(JsonToken.Null, null, updateIndex: false); return null; } if (DateTimeUtils.TryParseDateTime(s, DateTimeZoneHandling, _dateFormatString, Culture, out var dt)) { dt = DateTimeUtils.EnsureDateTime(dt, DateTimeZoneHandling); SetToken(JsonToken.Date, dt, updateIndex: false); return dt; } if (DateTime.TryParse(s, Culture, DateTimeStyles.RoundtripKind, out dt)) { dt = DateTimeUtils.EnsureDateTime(dt, DateTimeZoneHandling); SetToken(JsonToken.Date, dt, updateIndex: false); return dt; } throw JsonReaderException.Create(this, "Could not convert string to DateTime: {0}.".FormatWith(CultureInfo.InvariantCulture, s)); } public virtual DateTimeOffset? ReadAsDateTimeOffset() { JsonToken contentToken = GetContentToken(); switch (contentToken) { case JsonToken.None: case JsonToken.Null: case JsonToken.EndArray: return null; case JsonToken.Date: if (Value is DateTime dateTime) { SetToken(JsonToken.Date, new DateTimeOffset(dateTime), updateIndex: false); } return (DateTimeOffset)Value; case JsonToken.String: { string s = (string)Value; return ReadDateTimeOffsetString(s); } default: throw JsonReaderException.Create(this, "Error reading date. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, contentToken)); } } internal DateTimeOffset? ReadDateTimeOffsetString(string? s) { if (StringUtils.IsNullOrEmpty(s)) { SetToken(JsonToken.Null, null, updateIndex: false); return null; } if (DateTimeUtils.TryParseDateTimeOffset(s, _dateFormatString, Culture, out var dt)) { SetToken(JsonToken.Date, dt, updateIndex: false); return dt; } if (DateTimeOffset.TryParse(s, Culture, DateTimeStyles.RoundtripKind, out dt)) { SetToken(JsonToken.Date, dt, updateIndex: false); return dt; } SetToken(JsonToken.String, s, updateIndex: false); throw JsonReaderException.Create(this, "Could not convert string to DateTimeOffset: {0}.".FormatWith(CultureInfo.InvariantCulture, s)); } internal void ReaderReadAndAssert() { if (!Read()) { throw CreateUnexpectedEndException(); } } internal JsonReaderException CreateUnexpectedEndException() { return JsonReaderException.Create(this, "Unexpected end when reading JSON."); } internal void ReadIntoWrappedTypeObject() { ReaderReadAndAssert(); if (Value != null && Value.ToString() == "$type") { ReaderReadAndAssert(); if (Value != null && Value.ToString().StartsWith("System.Byte[]", StringComparison.Ordinal)) { ReaderReadAndAssert(); if (Value.ToString() == "$value") { return; } } } throw JsonReaderException.Create(this, "Error reading bytes. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, JsonToken.StartObject)); } public void Skip() { if (TokenType == JsonToken.PropertyName) { Read(); } if (JsonTokenUtils.IsStartToken(TokenType)) { int depth = Depth; while (Read() && depth < Depth) { } } } protected void SetToken(JsonToken newToken) { SetToken(newToken, null, updateIndex: true); } protected void SetToken(JsonToken newToken, object? value) { SetToken(newToken, value, updateIndex: true); } protected void SetToken(JsonToken newToken, object? value, bool updateIndex) { _tokenType = newToken; _value = value; switch (newToken) { case JsonToken.StartObject: _currentState = State.ObjectStart; Push(JsonContainerType.Object); break; case JsonToken.StartArray: _currentState = State.ArrayStart; Push(JsonContainerType.Array); break; case JsonToken.StartConstructor: _currentState = State.ConstructorStart; Push(JsonContainerType.Constructor); break; case JsonToken.EndObject: ValidateEnd(JsonToken.EndObject); break; case JsonToken.EndArray: ValidateEnd(JsonToken.EndArray); break; case JsonToken.EndConstructor: ValidateEnd(JsonToken.EndConstructor); break; case JsonToken.PropertyName: _currentState = State.Property; _currentPosition.PropertyName = (string)value; break; case JsonToken.Raw: case JsonToken.Integer: case JsonToken.Float: case JsonToken.String: case JsonToken.Boolean: case JsonToken.Null: case JsonToken.Undefined: case JsonToken.Date: case JsonToken.Bytes: SetPostValueState(updateIndex); break; case JsonToken.Comment: break; } } internal void SetPostValueState(bool updateIndex) { if (Peek() != 0 || SupportMultipleContent) { _currentState = State.PostValue; } else { SetFinished(); } if (updateIndex) { UpdateScopeWithFinishedValue(); } } private void UpdateScopeWithFinishedValue() { if (_currentPosition.HasIndex) { _currentPosition.Position++; } } private void ValidateEnd(JsonToken endToken) { JsonContainerType jsonContainerType = Pop(); if (GetTypeForCloseToken(endToken) != jsonContainerType) { throw JsonReaderException.Create(this, "JsonToken {0} is not valid for closing JsonType {1}.".FormatWith(CultureInfo.InvariantCulture, endToken, jsonContainerType)); } if (Peek() != 0 || SupportMultipleContent) { _currentState = State.PostValue; } else { SetFinished(); } } protected void SetStateBasedOnCurrent() { JsonContainerType jsonContainerType = Peek(); switch (jsonContainerType) { case JsonContainerType.Object: _currentState = State.Object; break; case JsonContainerType.Array: _currentState = State.Array; break; case JsonContainerType.Constructor: _currentState = State.Constructor; break; case JsonContainerType.None: SetFinished(); break; default: throw JsonReaderException.Create(this, "While setting the reader state back to current object an unexpected JsonType was encountered: {0}".FormatWith(CultureInfo.InvariantCulture, jsonContainerType)); } } private void SetFinished() { _currentState = ((!SupportMultipleContent) ? State.Finished : State.Start); } private JsonContainerType GetTypeForCloseToken(JsonToken token) { return token switch { JsonToken.EndObject => JsonContainerType.Object, JsonToken.EndArray => JsonContainerType.Array, JsonToken.EndConstructor => JsonContainerType.Constructor, _ => throw JsonReaderException.Create(this, "Not a valid close JsonToken: {0}".FormatWith(CultureInfo.InvariantCulture, token)), }; } void IDisposable.Dispose() { Dispose(disposing: true); GC.SuppressFinalize(this); } protected virtual void Dispose(bool disposing) { if (_currentState != State.Closed && disposing) { Close(); } } public virtual void Close() { _currentState = State.Closed; _tokenType = JsonToken.None; _value = null; } internal void ReadAndAssert() { if (!Read()) { throw JsonSerializationException.Create(this, "Unexpected end when reading JSON."); } } internal void ReadForTypeAndAssert(JsonContract? contract, bool hasConverter) { if (!ReadForType(contract, hasConverter)) { throw JsonSerializationException.Create(this, "Unexpected end when reading JSON."); } } internal bool ReadForType(JsonContract? contract, bool hasConverter) { if (hasConverter) { return Read(); } switch (contract?.InternalReadType ?? ReadType.Read) { case ReadType.Read: return ReadAndMoveToContent(); case ReadType.ReadAsInt32: ReadAsInt32(); break; case ReadType.ReadAsInt64: { bool result = ReadAndMoveToContent(); if (TokenType == JsonToken.Undefined) { throw JsonReaderException.Create(this, "An undefined token is not a valid {0}.".FormatWith(CultureInfo.InvariantCulture, contract?.UnderlyingType ?? typeof(long))); } return result; } case ReadType.ReadAsDecimal: ReadAsDecimal(); break; case ReadType.ReadAsDouble: ReadAsDouble(); break; case ReadType.ReadAsBytes: ReadAsBytes(); break; case ReadType.ReadAsBoolean: ReadAsBoolean(); break; case ReadType.ReadAsString: ReadAsString(); break; case ReadType.ReadAsDateTime: ReadAsDateTime(); break; case ReadType.ReadAsDateTimeOffset: ReadAsDateTimeOffset(); break; default: throw new ArgumentOutOfRangeException(); } return TokenType != JsonToken.None; } internal bool ReadAndMoveToContent() { if (Read()) { return MoveToContent(); } return false; } internal bool MoveToContent() { JsonToken tokenType = TokenType; while (tokenType == JsonToken.None || tokenType == JsonToken.Comment) { if (!Read()) { return false; } tokenType = TokenType; } return true; } private JsonToken GetContentToken() { JsonToken tokenType; do { if (!Read()) { SetToken(JsonToken.None); return JsonToken.None; } tokenType = TokenType; } while (tokenType == JsonToken.Comment); return tokenType; } } [Serializable] public class JsonReaderException : JsonException { public int LineNumber { get; } public int LinePosition { get; } public string? Path { get; } public JsonReaderException() { } public JsonReaderException(string message) : base(message) { } public JsonReaderException(string message, Exception innerException) : base(message, innerException) { } public JsonReaderException(SerializationInfo info, StreamingContext context) : base(info, context) { } public JsonReaderException(string message, string path, int lineNumber, int linePosition, Exception? innerException) : base(message, innerException) { Path = path; LineNumber = lineNumber; LinePosition = linePosition; } internal static JsonReaderException Create(JsonReader reader, string message) { return Create(reader, message, null); } internal static JsonReaderException Create(JsonReader reader, string message, Exception? ex) { return Create(reader as IJsonLineInfo, reader.Path, message, ex); } internal static JsonReaderException Create(IJsonLineInfo? lineInfo, string path, string message, Exception? ex) { message = JsonPosition.FormatMessage(lineInfo, path, message); int lineNumber; int linePosition; if (lineInfo != null && lineInfo.HasLineInfo()) { lineNumber = lineInfo.LineNumber; linePosition = lineInfo.LinePosition; } else { lineNumber = 0; linePosition = 0; } return new JsonReaderException(message, path, lineNumber, linePosition, ex); } } [AttributeUsage(AttributeTargets.Property | AttributeTargets.Field, AllowMultiple = false)] public sealed class JsonRequiredAttribute : Attribute { } [Serializable] public class JsonSerializationException : JsonException { public int LineNumber { get; } public int LinePosition { get; } public string? Path { get; } public JsonSerializationException() { } public JsonSerializationException(string message) : base(message) { } public JsonSerializationException(string message, Exception innerException) : base(message, innerException) { } public JsonSerializationException(SerializationInfo info, StreamingContext context) : base(info, context) { } public JsonSerializationException(string message, string path, int lineNumber, int linePosition, Exception? innerException) : base(message, innerException) { Path = path; LineNumber = lineNumber; LinePosition = linePosition; } internal static JsonSerializationException Create(JsonReader reader, string message) { return Create(reader, message, null); } internal static JsonSerializationException Create(JsonReader reader, string message, Exception? ex) { return Create(reader as IJsonLineInfo, reader.Path, message, ex); } internal static JsonSerializationException Create(IJsonLineInfo? lineInfo, string path, string message, Exception? ex) { message = JsonPosition.FormatMessage(lineInfo, path, message); int lineNumber; int linePosition; if (lineInfo != null && lineInfo.HasLineInfo()) { lineNumber = lineInfo.LineNumber; linePosition = lineInfo.LinePosition; } else { lineNumber = 0; linePosition = 0; } return new JsonSerializationException(message, path, lineNumber, linePosition, ex); } } public class JsonSerializer { internal TypeNameHandling _typeNameHandling; internal TypeNameAssemblyFormatHandling _typeNameAssemblyFormatHandling; internal PreserveReferencesHandling _preserveReferencesHandling; internal ReferenceLoopHandling _referenceLoopHandling; internal MissingMemberHandling _missingMemberHandling; internal ObjectCreationHandling _objectCreationHandling; internal NullValueHandling _nullValueHandling; internal DefaultValueHandling _defaultValueHandling; internal ConstructorHandling _constructorHandling; internal MetadataPropertyHandling _metadataPropertyHandling; internal JsonConverterCollection? _converters; internal IContractResolver _contractResolver; internal ITraceWriter? _traceWriter; internal IEqualityComparer? _equalityComparer; internal ISerializationBinder _serializationBinder; internal StreamingContext _context; private IReferenceResolver? _referenceResolver; private Formatting? _formatting; private DateFormatHandling? _dateFormatHandling; private DateTimeZoneHandling? _dateTimeZoneHandling; private DateParseHandling? _dateParseHandling; private FloatFormatHandling? _floatFormatHandling; private FloatParseHandling? _floatParseHandling; private StringEscapeHandling? _stringEscapeHandling; private CultureInfo _culture; private int? _maxDepth; private bool _maxDepthSet; private bool? _checkAdditionalContent; private string? _dateFormatString; private bool _dateFormatStringSet; public virtual IReferenceResolver? ReferenceResolver { get { return GetReferenceResolver(); } set { if (value == null) { throw new ArgumentNullException("value", "Reference resolver cannot be null."); } _referenceResolver = value; } } [Obsolete("Binder is obsolete. Use SerializationBinder instead.")] public virtual SerializationBinder Binder { get { if (_serializationBinder is SerializationBinder result) { return result; } if (_serializationBinder is SerializationBinderAdapter serializationBinderAdapter) { return serializationBinderAdapter.SerializationBinder; } throw new InvalidOperationException("Cannot get SerializationBinder because an ISerializationBinder was previously set."); } set { if (value == null) { throw new ArgumentNullException("value", "Serialization binder cannot be null."); } _serializationBinder = (value as ISerializationBinder) ?? new SerializationBinderAdapter(value); } } public virtual ISerializationBinder SerializationBinder { get { return _serializationBinder; } set { if (value == null) { throw new ArgumentNullException("value", "Serialization binder cannot be null."); } _serializationBinder = value; } } public virtual ITraceWriter? TraceWriter { get { return _traceWriter; } set { _traceWriter = value; } } public virtual IEqualityComparer? EqualityComparer { get { return _equalityComparer; } set { _equalityComparer = value; } } public virtual TypeNameHandling TypeNameHandling { get { return _typeNameHandling; } set { if (value < TypeNameHandling.None || value > TypeNameHandling.Auto) { throw new ArgumentOutOfRangeException("value"); } _typeNameHandling = value; } } [Obsolete("TypeNameAssemblyFormat is obsolete. Use TypeNameAssemblyFormatHandling instead.")] public virtual FormatterAssemblyStyle TypeNameAssemblyFormat { get { return (FormatterAssemblyStyle)_typeNameAssemblyFormatHandling; } set { if (value < FormatterAssemblyStyle.Simple || value > FormatterAssemblyStyle.Full) { throw new ArgumentOutOfRangeException("value"); } _typeNameAssemblyFormatHandling = (TypeNameAssemblyFormatHandling)value; } } public virtual TypeNameAssemblyFormatHandling TypeNameAssemblyFormatHandling { get { return _typeNameAssemblyFormatHandling; } set { if (value < TypeNameAssemblyFormatHandling.Simple || value > TypeNameAssemblyFormatHandling.Full) { throw new ArgumentOutOfRangeException("value"); } _typeNameAssemblyFormatHandling = value; } } public virtual PreserveReferencesHandling PreserveReferencesHandling { get { return _preserveReferencesHandling; } set { if (value < PreserveReferencesHandling.None || value > PreserveReferencesHandling.All) { throw new ArgumentOutOfRangeException("value"); } _preserveReferencesHandling = value; } } public virtual ReferenceLoopHandling ReferenceLoopHandling { get { return _referenceLoopHandling; } set { if (value < ReferenceLoopHandling.Error || value > ReferenceLoopHandling.Serialize) { throw new ArgumentOutOfRangeException("value"); } _referenceLoopHandling = value; } } public virtual MissingMemberHandling MissingMemberHandling { get { return _missingMemberHandling; } set { if (value < MissingMemberHandling.Ignore || value > MissingMemberHandling.Error) { throw new ArgumentOutOfRangeException("value"); } _missingMemberHandling = value; } } public virtual NullValueHandling NullValueHandling { get { return _nullValueHandling; } set { if (value < NullValueHandling.Include || value > NullValueHandling.Ignore) { throw new ArgumentOutOfRangeException("value"); } _nullValueHandling = value; } } public virtual DefaultValueHandling DefaultValueHandling { get { return _defaultValueHandling; } set { if (value < DefaultValueHandling.Include || value > DefaultValueHandling.IgnoreAndPopulate) { throw new ArgumentOutOfRangeException("value"); } _defaultValueHandling = value; } } public virtual ObjectCreationHandling ObjectCreationHandling { get { return _objectCreationHandling; } set { if (value < ObjectCreationHandling.Auto || value > ObjectCreationHandling.Replace) { throw new ArgumentOutOfRangeException("value"); } _objectCreationHandling = value; } } public virtual ConstructorHandling ConstructorHandling { get { return _constructorHandling; } set { if (value < ConstructorHandling.Default || value > ConstructorHandling.AllowNonPublicDefaultConstructor) { throw new ArgumentOutOfRangeException("value"); } _constructorHandling = value; } } public virtual MetadataPropertyHandling MetadataPropertyHandling { get { return _metadataPropertyHandling; } set { if (value < MetadataPropertyHandling.Default || value > MetadataPropertyHandling.Ignore) { throw new ArgumentOutOfRangeException("value"); } _metadataPropertyHandling = value; } } public virtual JsonConverterCollection Converters { get { if (_converters == null) { _converters = new JsonConverterCollection(); } return _converters; } } public virtual IContractResolver ContractResolver { get { return _contractResolver; } set { _contractResolver = value ?? DefaultContractResolver.Instance; } } public virtual StreamingContext Context { get { return _context; } set { _context = value; } } public virtual Formatting Formatting { get { return _formatting.GetValueOrDefault(); } set { _formatting = value; } } public virtual DateFormatHandling DateFormatHandling { get { return _dateFormatHandling.GetValueOrDefault(); } set { _dateFormatHandling = value; } } public virtual DateTimeZoneHandling DateTimeZoneHandling { get { return _dateTimeZoneHandling ?? DateTimeZoneHandling.RoundtripKind; } set { _dateTimeZoneHandling = value; } } public virtual DateParseHandling DateParseHandling { get { return _dateParseHandling ?? DateParseHandling.DateTime; } set { _dateParseHandling = value; } } public virtual FloatParseHandling FloatParseHandling { get { return _floatParseHandling.GetValueOrDefault(); } set { _floatParseHandling = value; } } public virtual FloatFormatHandling FloatFormatHandling { get { return _floatFormatHandling.GetValueOrDefault(); } set { _floatFormatHandling = value; } } public virtual StringEscapeHandling StringEscapeHandling { get { return _stringEscapeHandling.GetValueOrDefault(); } set { _stringEscapeHandling = value; } } public virtual string DateFormatString { get { return _dateFormatString ?? "yyyy'-'MM'-'dd'T'HH':'mm':'ss.FFFFFFFK"; } set { _dateFormatString = value; _dateFormatStringSet = true; } } public virtual CultureInfo Culture { get { return _culture ?? JsonSerializerSettings.DefaultCulture; } set { _culture = value; } } public virtual int? MaxDepth { get { return _maxDepth; } set { if (value <= 0) { throw new ArgumentException("Value must be positive.", "value"); } _maxDepth = value; _maxDepthSet = true; } } public virtual bool CheckAdditionalContent { get { return _checkAdditionalContent.GetValueOrDefault(); } set { _checkAdditionalContent = value; } } public virtual event EventHandler<Newtonsoft.Json.Serialization.ErrorEventArgs>? Error; internal bool IsCheckAdditionalContentSet() { return _checkAdditionalContent.HasValue; } public JsonSerializer() { _referenceLoopHandling = ReferenceLoopHandling.Error; _missingMemberHandling = MissingMemberHandling.Ignore; _nullValueHandling = NullValueHandling.Include; _defaultValueHandling = DefaultValueHandling.Include; _objectCreationHandling = ObjectCreationHandling.Auto; _preserveReferencesHandling = PreserveReferencesHandling.None; _constructorHandling = ConstructorHandling.Default; _typeNameHandling = TypeNameHandling.None; _metadataPropertyHandling = MetadataPropertyHandling.Default; _context = JsonSerializerSettings.DefaultContext; _serializationBinder = DefaultSerializationBinder.Instance; _culture = JsonSerializerSettings.DefaultCulture; _contractResolver = DefaultContractResolver.Instance; } public static JsonSerializer Create() { return new JsonSerializer(); } public static JsonSerializer Create(JsonSerializerSettings? settings) { JsonSerializer jsonSerializer = Create(); if (settings != null) { ApplySerializerSettings(jsonSerializer, settings); } return jsonSerializer; } public static JsonSerializer CreateDefault() { return Create(JsonConvert.DefaultSettings?.Invoke()); } public static JsonSerializer CreateDefault(JsonSerializerSettings? settings) { JsonSerializer jsonSerializer = CreateDefault(); if (settings != null) { ApplySerializerSettings(jsonSerializer, settings); } return jsonSerializer; } private static void ApplySerializerSettings(JsonSerializer serializer, JsonSerializerSettings settings) { if (!CollectionUtils.IsNullOrEmpty(settings.Converters)) { for (int i = 0; i < settings.Converters.Count; i++) { serializer.Converters.Insert(i, settings.Converters[i]); } } if (settings._typeNameHandling.HasValue) { serializer.TypeNameHandling = settings.TypeNameHandling; } if (settings._metadataPropertyHandling.HasValue) { serializer.MetadataPropertyHandling = settings.MetadataPropertyHandling; } if (settings._typeNameAssemblyFormatHandling.HasValue) { serializer.TypeNameAssemblyFormatHandling = settings.TypeNameAssemblyFormatHandling; } if (settings._preserveReferencesHandling.HasValue) { serializer.PreserveReferencesHandling = settings.PreserveReferencesHandling; } if (settings._referenceLoopHandling.HasValue) { serializer.ReferenceLoopHandling = settings.ReferenceLoopHandling; } if (settings._missingMemberHandling.HasValue) { serializer.MissingMemberHandling = settings.MissingMemberHandling; } if (settings._objectCreationHandling.HasValue) { serializer.ObjectCreationHandling = settings.ObjectCreationHandling; } if (settings._nullValueHandling.HasValue) { serializer.NullValueHandling = settings.NullValueHandling; } if (settings._defaultValueHandling.HasValue) { serializer.DefaultValueHandling = settings.DefaultValueHandling; } if (settings._constructorHandling.HasValue) { serializer.ConstructorHandling = settings.ConstructorHandling; } if (settings._context.HasValue) { serializer.Context = settings.Context; } if (settings._checkAdditionalContent.HasValue) { serializer._checkAdditionalContent = settings._checkAdditionalContent; } if (settings.Error != null) { serializer.Error += settings.Error; } if (settings.ContractResolver != null) { serializer.ContractResolver = settings.ContractResolver; } if (settings.ReferenceResolverProvider != null) { serializer.ReferenceResolver = settings.ReferenceResolverProvider(); } if (settings.TraceWriter != null) { serializer.TraceWriter = settings.TraceWriter; } if (settings.EqualityComparer != null) { serializer.EqualityComparer = settings.EqualityComparer; } if (settings.SerializationBinder != null) { serializer.SerializationBinder = settings.SerializationBinder; } if (settings._formatting.HasValue) { serializer._formatting = settings._formatting; } if (settings._dateFormatHandling.HasValue) { serializer._dateFormatHandling = settings._dateFormatHandling; } if (settings._dateTimeZoneHandling.HasValue) { serializer._dateTimeZoneHandling = settings._dateTimeZoneHandling; } if (settings._dateParseHandling.HasValue) { serializer._dateParseHandling = settings._dateParseHandling; } if (settings._dateFormatStringSet) { serializer._dateFormatString = settings._dateFormatString; serializer._dateFormatStringSet = settings._dateFormatStringSet; } if (settings._floatFormatHandling.HasValue) { serializer._floatFormatHandling = settings._floatFormatHandling; } if (settings._floatParseHandling.HasValue) { serializer._floatParseHandling = settings._floatParseHandling; } if (settings._stringEscapeHandling.HasValue) { serializer._stringEscapeHandling = settings._stringEscapeHandling; } if (settings._culture != null) { serializer._culture = settings._culture; } if (settings._maxDepthSet) { serializer._maxDepth = settings._maxDepth; serializer._maxDepthSet = settings._maxDepthSet; } } [DebuggerStepThrough] public void Populate(TextReader reader, object target) { Populate(new JsonTextReader(reader), target); } [DebuggerStepThrough] public void Populate(JsonReader reader, object target) { PopulateInternal(reader, target); } internal virtual void PopulateInternal(JsonReader reader, object target) { ValidationUtils.ArgumentNotNull(reader, "reader"); ValidationUtils.ArgumentNotNull(target, "target"); SetupReader(reader, out CultureInfo previousCulture, out DateTimeZoneHandling? previousDateTimeZoneHandling, out DateParseHandling? previousDateParseHandling, out FloatParseHandling? previousFloatParseHandling, out int? previousMaxDepth, out string previousDateFormatString); TraceJsonReader traceJsonReader = ((TraceWriter != null && TraceWriter.LevelFilter >= TraceLevel.Verbose) ? CreateTraceJsonReader(reader) : null); new JsonSerializerInternalReader(this).Populate(traceJsonReader ?? reader, target); if (traceJsonReader != null) { TraceWriter.Trace(TraceLevel.Verbose, traceJsonReader.GetDeserializedJsonMessage(), null); } ResetReader(reader, previousCulture, previousDateTimeZoneHandling, previousDateParseHandling, previousFloatParseHandling, previousMaxDepth, previousDateFormatString); } [DebuggerStepThrough] public object? Deserialize(JsonReader reader) { return Deserialize(reader, null); } [DebuggerStepThrough] public object? Deserialize(TextReader reader, Type objectType) { return Deserialize(new JsonTextReader(reader), objectType); } [DebuggerStepThrough] public T? Deserialize<T>(JsonReader reader) { return (T)Deserialize(reader, typeof(T)); } [DebuggerStepThrough] public object? Deserialize(JsonReader reader, Type? objectType) { return DeserializeInternal(reader, objectType); } internal virtual object? DeserializeInternal(JsonReader reader, Type? objectType) { ValidationUtils.ArgumentNotNull(reader, "reader"); SetupReader(reader, out CultureInfo previousCulture, out DateTimeZoneHandling? previousDateTimeZoneHandling, out DateParseHandling? previousDateParseHandling, out FloatParseHandling? previousFloatParseHandling, out int? previousMaxDepth, out string previousDateFormatString); TraceJsonReader traceJsonReader = ((TraceWriter != null && TraceWriter.LevelFilter >= TraceLevel.Verbose) ? CreateTraceJsonReader(reader) : null); object? result = new JsonSerializerInternalReader(this).Deserialize(traceJsonReader ?? reader, objectType, CheckAdditionalContent); if (traceJsonReader != null) { TraceWriter.Trace(TraceLevel.Verbose, traceJsonReader.GetDeserializedJsonMessage(), null); } ResetReader(reader, previousCulture, previousDateTimeZoneHandling, previousDateParseHandling, previousFloatParseHandling, previousMaxDepth, previousDateFormatString); return result; } internal void SetupReader(JsonReader reader, out CultureInfo? previousCulture, out DateTimeZoneHandling? previousDateTimeZoneHandling, out DateParseHandling? previousDateParseHandling, out FloatParseHandling? previousFloatParseHandling, out int? previousMaxDepth, out string? previousDateFormatString) { if (_culture != null && !_culture.Equals(reader.Culture)) { previousCulture = reader.Culture; reader.Culture = _culture; } else { previousCulture = null; } if (_dateTimeZoneHandling.HasValue && reader.DateTimeZoneHandling != _dateTimeZoneHandling) { previousDateTimeZoneHandling = reader.DateTimeZoneHandling; reader.DateTimeZoneHandling = _dateTimeZoneHandling.GetValueOrDefault(); } else { previousDateTimeZoneHandling = null; } if (_dateParseHandling.HasValue && reader.DateParseHandling != _dateParseHandling) { previousDateParseHandling = reader.DateParseHandling; reader.DateParseHandling = _dateParseHandling.GetValueOrDefault(); } else { previousDateParseHandling = null; } if (_floatParseHandling.HasValue && reader.FloatParseHandling != _floatParseHandling) { previousFloatParseHandling = reader.FloatParseHandling; reader.FloatParseHandling = _floatParseHandling.GetValueOrDefault(); } else { previousFloatParseHandling = null; } if (_maxDepthSet && reader.MaxDepth != _maxDepth) { previousMaxDepth = reader.MaxDepth; reader.MaxDepth = _maxDepth; } else { previousMaxDepth = null; } if (_dateFormatStringSet && reader.DateFormatString != _dateFormatString) { previousDateFormatString = reader.DateFormatString; reader.DateFormatString = _dateFormatString; } else { previousDateFormatString = null; } if (reader is JsonTextReader jsonTextReader && jsonTextReader.PropertyNameTable == null && _contractResolver is DefaultContractResolver defaultContractResolver) { jsonTextReader.PropertyNameTable = defaultContractResolver.GetNameTable(); } } private void ResetReader(JsonReader reader, CultureInfo? previousCulture, DateTimeZoneHandling? previousDateTimeZoneHandling, DateParseHandling? previousDateParseHandling, FloatParseHandling? previousFloatParseHandling, int? previousMaxDepth, string? previousDateFormatString) { if (previousCulture != null) { reader.Culture = previousCulture; } if (previousDateTimeZoneHandling.HasValue) { reader.DateTimeZoneHandling = previousDateTimeZoneHandling.GetValueOrDefault(); } if (previousDateParseHandling.HasValue) { reader.DateParseHandling = previousDateParseHandling.GetValueOrDefault(); } if (previousFloatParseHandling.HasValue) { reader.FloatParseHandling = previousFloatParseHandling.GetValueOrDefault(); } if (_maxDepthSet) { reader.MaxDepth = previousMaxDepth; } if (_dateFormatStringSet) { reader.DateFormatString = previousDateFormatString; } if (reader is JsonTextReader jsonTextReader && jsonTextReader.PropertyNameTable != null && _contractResolver is DefaultContractResolver defaultContractResolver && jsonTextReader.PropertyNameTable == defaultContractResolver.GetNameTable()) { jsonTextReader.PropertyNameTable = null; } } public void Serialize(TextWriter textWriter, object? value) { Serialize(new JsonTextWriter(textWriter), value); } public void Serialize(JsonWriter jsonWriter, object? value, Type? objectType) { SerializeInternal(jsonWriter, value, objectType); } public void Serialize(TextWriter textWriter, object? value, Type objectType) { Serialize(new JsonTextWriter(textWriter), value, objectType); } public void Serialize(JsonWriter jsonWriter, object? value) { SerializeInternal(jsonWriter, value, null); } private TraceJsonReader CreateTraceJsonReader(JsonReader reader) { TraceJsonReader traceJsonReader = new TraceJsonReader(reader); if (reader.TokenType != 0) { traceJsonReader.WriteCurrentToken(); } return traceJsonReader; } internal virtual void SerializeInternal(JsonWriter jsonWriter, object? value, Type? objectType) { ValidationUtils.ArgumentNotNull(jsonWriter, "jsonWriter"); Formatting? formatting = null; if (_formatting.HasValue && jsonWriter.Formatting != _formatting) { formatting = jsonWriter.Formatting; jsonWriter.Formatting = _formatting.GetValueOrDefault(); } DateFormatHandling? dateFormatHandling = null; if (_dateFormatHandling.HasValue && jsonWriter.DateFormatHandling != _dateFormatHandling) { dateFormatHandling = jsonWriter.DateFormatHandling; jsonWriter.DateFormatHandling = _dateFormatHandling.GetValueOrDefault(); } DateTimeZoneHandling? dateTimeZoneHandling = null; if (_dateTimeZoneHandling.HasValue && jsonWriter.DateTimeZoneHandling != _dateTimeZoneHandling) { dateTimeZoneHandling = jsonWriter.DateTimeZoneHandling; jsonWriter.DateTimeZoneHandling = _dateTimeZoneHandling.GetValueOrDefault(); } FloatFormatHandling? floatFormatHandling = null; if (_floatFormatHandling.HasValue && jsonWriter.FloatFormatHandling != _floatFormatHandling) { floatFormatHandling = jsonWriter.FloatFormatHandling; jsonWriter.FloatFormatHandling = _floatFormatHandling.GetValueOrDefault(); } StringEscapeHandling? stringEscapeHandling = null; if (_stringEscapeHandling.HasValue && jsonWriter.StringEscapeHandling != _stringEscapeHandling) { stringEscapeHandling = jsonWriter.StringEscapeHandling; jsonWriter.StringEscapeHandling = _stringEscapeHandling.GetValueOrDefault(); } CultureInfo cultureInfo = null; if (_culture != null && !_culture.Equals(jsonWriter.Culture)) { cultureInfo = jsonWriter.Culture; jsonWriter.Culture = _culture; } string dateFormatString = null; if (_dateFormatStringSet && jsonWriter.DateFormatString != _dateFormatString) { dateFormatString = jsonWriter.DateFormatString; jsonWriter.DateFormatString = _dateFormatString; } TraceJsonWriter traceJsonWriter = ((TraceWriter != null && TraceWriter.LevelFilter >= TraceLevel.Verbose) ? new TraceJsonWriter(jsonWriter) : null); new JsonSerializerInternalWriter(this).Serialize(traceJsonWriter ?? jsonWriter, value, objectType); if (traceJsonWriter != null) { TraceWriter.Trace(TraceLevel.Verbose, traceJsonWriter.GetSerializedJsonMessage(), null); } if (formatting.HasValue) { jsonWriter.Formatting = formatting.GetValueOrDefault(); } if (dateFormatHandling.HasValue) { jsonWriter.DateFormatHandling = dateFormatHandling.GetValueOrDefault(); } if (dateTimeZoneHandling.HasValue) { jsonWriter.DateTimeZoneHandling = dateTimeZoneHandling.GetValueOrDefault(); } if (floatFormatHandling.HasValue) { jsonWriter.FloatFormatHandling = floatFormatHandling.GetValueOrDefault(); } if (stringEscapeHandling.HasValue) { jsonWriter.StringEscapeHandling = stringEscapeHandling.GetValueOrDefault(); } if (_dateFormatStringSet) { jsonWriter.DateFormatString = dateFormatString; } if (cultureInfo != null) { jsonWriter.Culture = cultureInfo; } } internal IReferenceResolver GetReferenceResolver() { if (_referenceResolver == null) { _referenceResolver = new DefaultReferenceResolver(); } return _referenceResolver; } internal JsonConverter? GetMatchingConverter(Type type) { return GetMatchingConverter(_converters, type); } internal static JsonConverter? GetMatchingConverter(IList<JsonConverter>? converters, Type objectType) { if (converters != null) { for (int i = 0; i < converters.Count; i++) { JsonConverter jsonConverter = converters[i]; if (jsonConverter.CanConvert(objectType)) { return jsonConverter; } } } return null; } internal void OnError(Newtonsoft.Json.Serialization.ErrorEventArgs e) { this.Error?.Invoke(this, e); } } public class JsonSerializerSettings { internal const ReferenceLoopHandling DefaultReferenceLoopHandling = ReferenceLoopHandling.Error; internal const MissingMemberHandling DefaultMissingMemberHandling = MissingMemberHandling.Ignore; internal const NullValueHandling DefaultNullValueHandling = NullValueHandling.Include; internal const DefaultValueHandling DefaultDefaultValueHandling = DefaultValueHandling.Include; internal const ObjectCreationHandling DefaultObjectCreationHandling = ObjectCreationHandling.Auto; internal const PreserveReferencesHandling DefaultPreserveReferencesHandling = PreserveReferencesHandling.None; internal const ConstructorHandling DefaultConstructorHandling = ConstructorHandling.Default; internal const TypeNameHandling DefaultTypeNameHandling = TypeNameHandling.None; internal const MetadataPropertyHandling DefaultMetadataPropertyHandling = MetadataPropertyHandling.Default; internal static readonly StreamingContext DefaultContext; internal const Formatting DefaultFormatting = Formatting.None; internal const DateFormatHandling DefaultDateFormatHandling = DateFormatHandling.IsoDateFormat; internal const DateTimeZoneHandling DefaultDateTimeZoneHandling = DateTimeZoneHandling.RoundtripKind; internal const DateParseHandling DefaultDateParseHandling = DateParseHandling.DateTime; internal const FloatParseHandling DefaultFloatParseHandling = FloatParseHandling.Double; internal const FloatFormatHandling DefaultFloatFormatHandling = FloatFormatHandling.String; internal const StringEscapeHandling DefaultStringEscapeHandling = StringEscapeHandling.Default; internal const TypeNameAssemblyFormatHandling DefaultTypeNameAssemblyFormatHandling = TypeNameAssemblyFormatHandling.Simple; internal static readonly CultureInfo DefaultCulture; internal const bool DefaultCheckAdditionalContent = false; internal const string DefaultDateFormatString = "yyyy'-'MM'-'dd'T'HH':'mm':'ss.FFFFFFFK"; internal const int DefaultMaxDepth = 64; internal Formatting? _formatting; internal DateFormatHandling? _dateFormatHandling; internal DateTimeZoneHandling? _dateTimeZoneHandling; internal DateParseHandling? _dateParseHandling; internal FloatFormatHandling? _floatFormatHandling; internal FloatParseHandling? _floatParseHandling; internal StringEscapeHandling? _stringEscapeHandling; internal CultureInfo? _culture; internal bool? _checkAdditionalContent; internal int? _maxDepth; internal bool _maxDepthSet; internal string? _dateFormatString; internal bool _dateFormatStringSet; internal TypeNameAssemblyFormatHandling? _typeNameAssemblyFormatHandling; internal DefaultValueHandling? _defaultValueHandling; internal PreserveReferencesHandling? _preserveReferencesHandling; internal NullValueHandling? _nullValueHandling; internal ObjectCreationHandling? _objectCreationHandling; internal MissingMemberHandling? _missingMemberHandling; internal ReferenceLoopHandling? _referenceLoopHandling; internal StreamingContext? _context; internal ConstructorHandling? _constructorHandling; internal TypeNameHandling? _typeNameHandling; internal MetadataPropertyHandling? _metadataPropertyHandling; public ReferenceLoopHandling ReferenceLoopHandling { get { return _referenceLoopHandling.GetValueOrDefault(); } set { _referenceLoopHandling = value; } } public MissingMemberHandling MissingMemberHandling { get { return _missingMemberHandling.GetValueOrDefault(); } set { _missingMemberHandling = value; } } public ObjectCreationHandling ObjectCreationHandling { get { return _objectCreationHandling.GetValueOrDefault(); } set { _objectCreationHandling = value; } } public NullValueHandling NullValueHandling { get { return _nullValueHandling.GetValueOrDefault(); } set { _nullValueHandling = value; } } public DefaultValueHandling DefaultValueHandling { get { return _defaultValueHandling.GetValueOrDefault(); } set { _defaultValueHandling = value; } } public IList<JsonConverter> Converters { get; set; } public PreserveReferencesHandling PreserveReferencesHandling { get { return _preserveReferencesHandling.GetValueOrDefault(); } set { _preserveReferencesHandling = value; } } public TypeNameHandling TypeNameHandling { get { return _typeNameHandling.GetValueOrDefault(); } set {
UniverseLib.IL2CPP.Interop.dll
Decompiled 2 months ago
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using System; using System.Collections; using System.Collections.Generic; using System.Collections.Specialized; using System.Diagnostics; using System.Globalization; using System.IO; using System.Linq; using System.Reflection; using System.Reflection.Emit; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; using System.Runtime.Versioning; using System.Security; using System.Security.Permissions; using System.Text; using System.Text.RegularExpressions; using System.Threading; using HarmonyLib; using Il2CppInterop.Common; using Il2CppInterop.Common.Attributes; using Il2CppInterop.Runtime; using Il2CppInterop.Runtime.Attributes; using Il2CppInterop.Runtime.Injection; using Il2CppInterop.Runtime.InteropTypes; using Il2CppInterop.Runtime.InteropTypes.Arrays; using Il2CppInterop.Runtime.Runtime; using Il2CppSystem; using Il2CppSystem.Collections; using Il2CppSystem.Collections.Generic; using Il2CppSystem.Reflection; using Il2CppSystem.Threading; using UnityEngine; using UnityEngine.EventSystems; using UnityEngine.Events; using UnityEngine.SceneManagement; using UnityEngine.UI; using UniverseLib.Config; using UniverseLib.Input; using UniverseLib.Reflection; using UniverseLib.Runtime; using UniverseLib.Runtime.Il2Cpp; using UniverseLib.UI; using UniverseLib.UI.Models; using UniverseLib.UI.ObjectPool; using UniverseLib.UI.Panels; using UniverseLib.UI.Widgets; using UniverseLib.UI.Widgets.ScrollView; using UniverseLib.Utility; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.Default | DebuggableAttribute.DebuggingModes.DisableOptimizations | DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints | DebuggableAttribute.DebuggingModes.EnableEditAndContinue)] [assembly: AssemblyTitle("UniverseLib")] [assembly: AssemblyDescription("")] [assembly: AssemblyConfiguration("")] [assembly: AssemblyCompany("Sinai")] [assembly: AssemblyProduct("UniverseLib")] [assembly: AssemblyCopyright("")] [assembly: AssemblyTrademark("")] [assembly: ComVisible(false)] [assembly: Guid("b21dbde3-5d6f-4726-93ab-cc3cc68bae7d")] [assembly: AssemblyFileVersion("1.5.1")] [assembly: TargetFramework(".NETCoreApp,Version=v6.0", FrameworkDisplayName = ".NET 6.0")] [assembly: SecurityPermission(SecurityAction.RequestMinimum, SkipVerification = true)] [assembly: AssemblyVersion("1.5.1.0")] [module: UnverifiableCode] namespace UniverseLib { public static class ReflectionExtensions { public static Type GetActualType(this object obj) { return ReflectionUtility.Instance.Internal_GetActualType(obj); } public static object TryCast(this object obj) { return ReflectionUtility.Instance.Internal_TryCast(obj, ReflectionUtility.Instance.Internal_GetActualType(obj)); } public static object TryCast(this object obj, Type castTo) { return ReflectionUtility.Instance.Internal_TryCast(obj, castTo); } public static T TryCast<T>(this object obj) { try { return (T)ReflectionUtility.Instance.Internal_TryCast(obj, typeof(T)); } catch { return default(T); } } [Obsolete("This method is no longer necessary, just use Assembly.GetTypes().", false)] public static IEnumerable<Type> TryGetTypes(this Assembly asm) { return asm.GetTypes(); } public static bool ReferenceEqual(this object objA, object objB) { if (objA == objB) { return true; } Object val = (Object)((objA is Object) ? objA : null); if (val != null) { Object val2 = (Object)((objB is Object) ? objB : null); if (val2 != null && Object.op_Implicit(val) && Object.op_Implicit(val2) && val.m_CachedPtr == val2.m_CachedPtr) { return true; } } Object val3 = (Object)((objA is Object) ? objA : null); if (val3 != null) { Object val4 = (Object)((objB is Object) ? objB : null); if (val4 != null && ((Il2CppObjectBase)val3).Pointer == ((Il2CppObjectBase)val4).Pointer) { return true; } } return false; } public static string ReflectionExToString(this Exception e, bool innerMost = true) { if (e == null) { return "The exception was null."; } if (innerMost) { e = e.GetInnerMostException(); } return $"{e.GetType()}: {e.Message}"; } public static Exception GetInnerMostException(this Exception e) { while (e != null && e.InnerException != null && !(e.InnerException is RuntimeWrappedException)) { e = e.InnerException; } return e; } } internal class Il2CppDictionary : IEnumerator<DictionaryEntry>, IEnumerator, IDisposable { private readonly Il2CppEnumerator keysEnumerator; private readonly Il2CppEnumerator valuesEnumerator; public object Current => new DictionaryEntry(keysEnumerator.Current, valuesEnumerator.Current); DictionaryEntry IEnumerator<DictionaryEntry>.Current => new DictionaryEntry(keysEnumerator.Current, valuesEnumerator.Current); public Il2CppDictionary(Il2CppEnumerator keysEnumerator, Il2CppEnumerator valuesEnumerator) { this.keysEnumerator = keysEnumerator; this.valuesEnumerator = valuesEnumerator; } public bool MoveNext() { return keysEnumerator.MoveNext() && valuesEnumerator.MoveNext(); } public void Dispose() { throw new NotImplementedException(); } public void Reset() { throw new NotImplementedException(); } } internal class Il2CppEnumerator : IEnumerator { private readonly object enumerator; private readonly MethodInfo m_GetEnumerator; private readonly object instanceForMoveNext; private readonly MethodInfo m_MoveNext; private readonly object instanceForCurrent; private readonly MethodInfo p_Current; public object Current => p_Current.Invoke(instanceForCurrent, null); public bool MoveNext() { return (bool)m_MoveNext.Invoke(instanceForMoveNext, null); } public void Reset() { throw new NotImplementedException(); } public Il2CppEnumerator(object instance, Type type) { m_GetEnumerator = type.GetMethod("GetEnumerator") ?? type.GetMethod("System_Collections_IEnumerable_GetEnumerator", BindingFlags.Instance | BindingFlags.Static | BindingFlags.Public | BindingFlags.NonPublic); enumerator = m_GetEnumerator.Invoke(instance.TryCast(m_GetEnumerator.DeclaringType), ArgumentUtility.EmptyArgs); if (enumerator == null) { throw new Exception("GetEnumerator returned null"); } Type actualType = enumerator.GetActualType(); m_MoveNext = actualType.GetMethod("MoveNext") ?? actualType.GetMethod("System_Collections_IEnumerator_MoveNext", BindingFlags.Instance | BindingFlags.Static | BindingFlags.Public | BindingFlags.NonPublic); instanceForMoveNext = enumerator.TryCast(m_MoveNext.DeclaringType); p_Current = actualType.GetProperty("Current")?.GetGetMethod() ?? actualType.GetMethod("System_Collections_IEnumerator_get_Current", BindingFlags.Instance | BindingFlags.Static | BindingFlags.Public | BindingFlags.NonPublic); instanceForCurrent = enumerator.TryCast(p_Current.DeclaringType); } } public class Il2CppReflection : ReflectionUtility { internal Stopwatch initStopwatch = new Stopwatch(); internal static readonly Dictionary<string, MethodInfo> unboxMethods = new Dictionary<string, MethodInfo>(); internal static readonly Dictionary<string, Type> il2cppPrimitivesToMono = new Dictionary<string, Type> { { "Il2CppSystem.Boolean", typeof(bool) }, { "Il2CppSystem.Byte", typeof(byte) }, { "Il2CppSystem.SByte", typeof(sbyte) }, { "Il2CppSystem.Char", typeof(char) }, { "Il2CppSystem.Double", typeof(double) }, { "Il2CppSystem.Single", typeof(float) }, { "Il2CppSystem.Int32", typeof(int) }, { "Il2CppSystem.UInt32", typeof(uint) }, { "Il2CppSystem.Int64", typeof(long) }, { "Il2CppSystem.UInt64", typeof(ulong) }, { "Il2CppSystem.Int16", typeof(short) }, { "Il2CppSystem.UInt16", typeof(ushort) }, { "Il2CppSystem.IntPtr", typeof(IntPtr) }, { "Il2CppSystem.UIntPtr", typeof(UIntPtr) } }; private const string IL2CPP_STRING_FULLNAME = "Il2CppSystem.String"; private const string STRING_FULLNAME = "System.String"; private static readonly Dictionary<string, IntPtr> cppClassPointers = new Dictionary<string, IntPtr>(); private static readonly Dictionary<string, Type> obfuscatedToDeobfuscatedTypes = new Dictionary<string, Type>(); private static readonly Dictionary<string, string> deobfuscatedToObfuscatedNames = new Dictionary<string, string>(); internal static IntPtr cppIEnumerablePointer; internal static IntPtr cppIDictionaryPointer; protected override void Initialize() { base.Initialize(); ReflectionUtility.Initializing = true; ((MonoBehaviour)UniversalBehaviour.Instance).StartCoroutine(InitCoroutine().WrapToIl2Cpp()); } private IEnumerator InitCoroutine() { initStopwatch.Start(); Stopwatch sw = new Stopwatch(); sw.Start(); IEnumerator coro = TryLoadGameModules(); while (coro.MoveNext()) { yield return null; } Universe.Log($"Loaded Unhollowed modules in {(float)sw.ElapsedMilliseconds * 0.001f} seconds."); sw.Reset(); sw.Start(); BuildDeobfuscationCache(); Universe.Log($"Setup deobfuscation cache in {(float)sw.ElapsedMilliseconds * 0.001f} seconds."); ReflectionUtility.OnTypeLoaded += TryCacheDeobfuscatedType; ReflectionUtility.Initializing = false; } internal override Type Internal_GetTypeByName(string fullName) { if (obfuscatedToDeobfuscatedTypes.TryGetValue(fullName, out var value)) { return value; } return base.Internal_GetTypeByName(fullName); } internal override Type Internal_GetActualType(object obj) { if (obj == null) { return null; } Type type = obj.GetType(); try { if (il2cppPrimitivesToMono.TryGetValue(type.FullName, out var value)) { return value; } Il2CppObjectBase val = (Il2CppObjectBase)((obj is Il2CppObjectBase) ? obj : null); if (val != null) { if (type.BaseType.IsGenericType && type.BaseType.GetGenericTypeDefinition() == typeof(Il2CppArrayBase<>)) { return type; } IntPtr intPtr = IL2CPP.il2cpp_object_get_class(val.Pointer); Object val2 = (Object)((obj is Object) ? obj : null); Type cppType = ((val2 == null) ? Il2CppType.TypeFromPointer(intPtr, "<unknown type>") : val2.GetIl2CppType()); return GetUnhollowedType(cppType) ?? type; } } catch (Exception ex) { Universe.LogWarning("Exception in IL2CPP GetActualType: " + ex); } return type; } public static Type GetUnhollowedType(Type cppType) { if (cppType.IsArray) { return GetArrayBaseForArray(cppType); } if (ReflectionUtility.AllTypes.TryGetValue(cppType.FullName, out var value) && value.IsPrimitive) { return value; } if (IsString(cppType)) { return typeof(string); } string text = cppType.FullName; if (obfuscatedToDeobfuscatedTypes.TryGetValue(text, out var value2)) { return value2; } if (text.StartsWith("System.")) { text = "Il2Cpp" + text; } if (!ReflectionUtility.AllTypes.TryGetValue(text, out var value3)) { string text2; try { text2 = Il2CppTypeRedirector.GetAssemblyQualifiedName(cppType); } catch { text2 = cppType.AssemblyQualifiedName; } for (int i = 0; i < text2.Length; i++) { char c = text2[i]; if (c == '<' || c == '>') { text2 = text2.Remove(i, 1); text2 = text2.Insert(i, "_"); } } value3 = Type.GetType(text2); if (value3 == null) { Universe.LogWarning($"Failed to get Unhollowed type from '{text2}' (originally '{cppType.AssemblyQualifiedName}')!"); } } return value3; } internal static Type GetArrayBaseForArray(Type cppType) { Type unhollowedType = GetUnhollowedType(cppType.GetElementType()); if (unhollowedType == null) { throw new Exception("Could not get unhollowed Element type for Array: " + cppType.FullName); } if (unhollowedType.IsValueType) { return typeof(Il2CppStructArray<>).MakeGenericType(unhollowedType); } if (unhollowedType == typeof(string)) { return typeof(Il2CppStringArray); } return typeof(Il2CppReferenceArray<>).MakeGenericType(unhollowedType); } internal override object Internal_TryCast(object obj, Type toType) { if (obj == null) { return null; } Type type = obj.GetType(); if (type == toType) { return obj; } if (type.IsValueType) { if (IsIl2CppPrimitive(type) && toType.IsPrimitive) { return MakeMonoPrimitive(obj); } if (IsIl2CppPrimitive(toType)) { return MakeIl2CppPrimitive(toType, obj); } if (typeof(Object).IsAssignableFrom(toType)) { return BoxIl2CppObject(obj).TryCast(toType); } return obj; } if (obj is string && typeof(Object).IsAssignableFrom(toType)) { return BoxStringToType(obj, toType); } Il2CppObjectBase val = (Il2CppObjectBase)((obj is Il2CppObjectBase) ? obj : null); if (val == null) { return obj; } if (toType.IsValueType) { return UnboxCppObject(val, toType); } if (toType == typeof(string)) { return UnboxString(obj); } if (toType.IsSubclassOf(typeof(Il2CppObjectBase))) { if (!Il2CppTypeNotNull(toType, out var il2cppPtr)) { return obj; } IntPtr intPtr = IL2CPP.il2cpp_object_get_class(val.Pointer); if (!IL2CPP.il2cpp_class_is_assignable_from(il2cppPtr, intPtr)) { return obj; } if (RuntimeSpecificsStore.IsInjected(il2cppPtr)) { object monoObjectFromIl2CppPointer = ClassInjectorBase.GetMonoObjectFromIl2CppPointer(val.Pointer); if (monoObjectFromIl2CppPointer != null) { return monoObjectFromIl2CppPointer; } } try { return Activator.CreateInstance(toType, val.Pointer); } catch { return obj; } } return obj; } public static object UnboxCppObject(Il2CppObjectBase cppObj, Type toType) { if (!toType.IsValueType) { return null; } try { if (toType.IsEnum) { Type type = ((object)cppObj).GetType(); if (type.IsGenericType && type.GetGenericTypeDefinition() == typeof(Nullable<>)) { object obj = cppObj.TryCast(type); PropertyInfo property = type.GetProperty("HasValue"); if ((bool)property.GetValue(obj, null)) { PropertyInfo property2 = type.GetProperty("Value"); return Enum.Parse(toType, property2.GetValue(obj, null).ToString()); } return cppObj; } return Enum.Parse(toType, ((Object)cppObj.TryCast<Enum>()).ToString()); } string assemblyQualifiedName = toType.AssemblyQualifiedName; if (!unboxMethods.ContainsKey(assemblyQualifiedName)) { unboxMethods.Add(assemblyQualifiedName, typeof(Il2CppObjectBase).GetMethod("Unbox").MakeGenericMethod(toType)); } return unboxMethods[assemblyQualifiedName].Invoke(cppObj, ArgumentUtility.EmptyArgs); } catch (Exception ex) { Universe.LogWarning("Exception Unboxing Il2Cpp object to struct: " + ex); return null; } } public static Object BoxIl2CppObject(object value) { if (value == null) { return null; } try { Type type = value.GetType(); if (!type.IsValueType) { return null; } if (type.IsEnum) { return Enum.Parse(Il2CppType.From(type), value.ToString()); } if (type.IsPrimitive && ReflectionUtility.AllTypes.TryGetValue("Il2Cpp" + type.FullName, out var value2)) { return BoxIl2CppObject(MakeIl2CppPrimitive(value2, value), value2); } return BoxIl2CppObject(value, type); } catch (Exception ex) { Universe.LogWarning("Exception in BoxIl2CppObject: " + ex); return null; } } private static Object BoxIl2CppObject(object cppStruct, Type structType) { object? obj = AccessTools.Method(structType, "BoxIl2CppObject", ArgumentUtility.EmptyTypes, (Type[])null).Invoke(cppStruct, ArgumentUtility.EmptyArgs); return (Object)((obj is Object) ? obj : null); } public static bool IsIl2CppPrimitive(object obj) { return IsIl2CppPrimitive(obj.GetType()); } public static bool IsIl2CppPrimitive(Type type) { return il2cppPrimitivesToMono.ContainsKey(type.FullName); } public static object MakeMonoPrimitive(object cppPrimitive) { return AccessTools.Field(cppPrimitive.GetType(), "m_value").GetValue(cppPrimitive); } public static object MakeIl2CppPrimitive(Type cppType, object monoValue) { object obj = Activator.CreateInstance(cppType); AccessTools.Field(cppType, "m_value").SetValue(obj, monoValue); return obj; } public static bool IsString(object obj) { if (obj is string || obj is String) { return true; } Object val = (Object)((obj is Object) ? obj : null); if (val != null) { Type il2CppType = val.GetIl2CppType(); return il2CppType.FullName == "Il2CppSystem.String" || il2CppType.FullName == "System.String"; } return false; } public static bool IsString(Type type) { return type == typeof(string) || type == typeof(String); } public static bool IsString(Type cppType) { return cppType.FullName == "System.String" || cppType.FullName == "Il2CppSystem.String"; } public static object BoxStringToType(object value, Type castTo) { if (castTo == typeof(String)) { return String.op_Implicit(value as string); } return Object.op_Implicit(value as string); } public static string UnboxString(object value) { if (value == null) { throw new ArgumentNullException("value"); } if (value is string result) { return result; } Object val = (Object)((value is Object) ? value : null); if (val == null) { throw new NotSupportedException("Unable to unbox string from type " + value.GetActualType().FullName + "."); } string text = String.op_Implicit((String)(object)((val is String) ? val : null)); if (string.IsNullOrEmpty(text)) { text = val.ToString(); } return text; } public static bool Il2CppTypeNotNull(Type type) { IntPtr il2cppPtr; return Il2CppTypeNotNull(type, out il2cppPtr); } public static bool Il2CppTypeNotNull(Type type, out IntPtr il2cppPtr) { if (!cppClassPointers.TryGetValue(type.AssemblyQualifiedName, out il2cppPtr)) { il2cppPtr = (IntPtr)typeof(Il2CppClassPointerStore<>).MakeGenericType(type).GetField("NativeClassPtr", BindingFlags.Static | BindingFlags.Public).GetValue(null); cppClassPointers.Add(type.AssemblyQualifiedName, il2cppPtr); } return il2cppPtr != IntPtr.Zero; } private static void BuildDeobfuscationCache() { Assembly[] assemblies = AppDomain.CurrentDomain.GetAssemblies(); foreach (Assembly assembly in assemblies) { Type[] types = assembly.GetTypes(); foreach (Type type in types) { TryCacheDeobfuscatedType(type); } } } private static void TryCacheDeobfuscatedType(Type type) { try { if (!type.CustomAttributes.Any()) { return; } foreach (CustomAttributeData customAttribute in type.CustomAttributes) { if (customAttribute.AttributeType == typeof(ObfuscatedNameAttribute)) { string text = customAttribute.ConstructorArguments[0].Value.ToString(); obfuscatedToDeobfuscatedTypes.Add(text, type); deobfuscatedToObfuscatedNames.Add(type.FullName, text); break; } } } catch { } } internal override string Internal_ProcessTypeInString(string theString, Type type) { if (deobfuscatedToObfuscatedNames.TryGetValue(type.FullName, out var value)) { return theString.Replace(value, type.FullName); } return theString; } internal override void Internal_FindSingleton(string[] possibleNames, Type type, BindingFlags flags, List<object> instances) { foreach (string name in possibleNames) { PropertyInfo property = type.GetProperty(name, flags); if (property != null) { object value = property.GetValue(null, null); if (value != null) { instances.Add(value); return; } } } base.Internal_FindSingleton(possibleNames, type, flags, instances); } internal IEnumerator TryLoadGameModules() { string dir = ConfigManager.Unhollowed_Modules_Folder; if (Directory.Exists(dir)) { string[] files = Directory.GetFiles(dir, "*.dll"); foreach (string filePath in files) { if (initStopwatch.ElapsedMilliseconds > 10) { yield return null; initStopwatch.Reset(); initStopwatch.Start(); } DoLoadModule(filePath); } } else { Universe.LogWarning("Expected Unhollowed folder path does not exist: '" + dir + "'. If you are using the standalone release, you can specify the Unhollowed modules path when you call CreateInstance()."); } } internal bool DoLoadModule(string fullPath) { if (string.IsNullOrEmpty(fullPath) || !File.Exists(fullPath)) { return false; } try { Assembly.LoadFrom(fullPath); return true; } catch { return false; } } protected override bool Internal_IsEnumerable(Type type) { if (base.Internal_IsEnumerable(type)) { return true; } try { if (cppIEnumerablePointer == IntPtr.Zero) { Il2CppTypeNotNull(typeof(IEnumerable), out cppIEnumerablePointer); } if (cppIEnumerablePointer != IntPtr.Zero && Il2CppTypeNotNull(type, out var il2cppPtr) && IL2CPP.il2cpp_class_is_assignable_from(cppIEnumerablePointer, il2cppPtr)) { return true; } } catch { } return false; } protected override bool Internal_TryGetEntryType(Type enumerableType, out Type type) { if (base.Internal_TryGetEntryType(enumerableType, out type)) { return true; } if (type.IsGenericType) { type = type.GetGenericArguments()[0]; return true; } type = typeof(object); return false; } protected override bool Internal_TryGetEnumerator(object instance, out IEnumerator enumerator) { if (instance == null) { throw new ArgumentNullException("instance"); } if (instance is IEnumerable) { return base.Internal_TryGetEnumerator(instance, out enumerator); } enumerator = null; Type actualType = instance.GetActualType(); try { enumerator = new Il2CppEnumerator(instance, actualType); return true; } catch (Exception value) { Universe.LogWarning($"IEnumerable of type {actualType.FullName} failed to get enumerator: {value}"); return false; } } protected override bool Internal_IsDictionary(Type type) { if (base.Internal_IsDictionary(type)) { return true; } try { if (cppIDictionaryPointer == IntPtr.Zero && !Il2CppTypeNotNull(typeof(IDictionary), out cppIDictionaryPointer)) { return false; } if (Il2CppTypeNotNull(type, out var il2cppPtr) && IL2CPP.il2cpp_class_is_assignable_from(cppIDictionaryPointer, il2cppPtr)) { return true; } } catch { } return false; } protected override bool Internal_TryGetEntryTypes(Type type, out Type keys, out Type values) { if (base.Internal_TryGetEntryTypes(type, out keys, out values)) { return true; } if (type.IsGenericType) { Type[] genericArguments = type.GetGenericArguments(); if (genericArguments.Length == 2) { keys = genericArguments[0]; values = genericArguments[1]; return true; } } keys = typeof(object); values = typeof(object); return false; } protected override bool Internal_TryGetDictEnumerator(object dictionary, out IEnumerator<DictionaryEntry> dictEnumerator) { if (dictionary is IDictionary) { return base.Internal_TryGetDictEnumerator(dictionary, out dictEnumerator); } try { Type actualType = dictionary.GetActualType(); if (typeof(Hashtable).IsAssignableFrom(actualType)) { dictEnumerator = EnumerateCppHashTable(dictionary.TryCast<Hashtable>()); return true; } PropertyInfo property = actualType.GetProperty("Keys"); object value = property.GetValue(dictionary.TryCast(property.DeclaringType), null); PropertyInfo property2 = actualType.GetProperty("Values"); object value2 = property2.GetValue(dictionary.TryCast(property2.DeclaringType), null); Il2CppEnumerator keysEnumerator = new Il2CppEnumerator(value, value.GetActualType()); Il2CppEnumerator valuesEnumerator = new Il2CppEnumerator(value2, value2.GetActualType()); dictEnumerator = new Il2CppDictionary(keysEnumerator, valuesEnumerator); return true; } catch (Exception value3) { Universe.Log($"IDictionary failed to enumerate: {value3}"); dictEnumerator = null; return false; } } private static IEnumerator<DictionaryEntry> EnumerateCppHashTable(Hashtable hashtable) { for (int i = 0; i < ((Il2CppArrayBase<bucket>)(object)hashtable.buckets).Count; i++) { bucket bucket = ((Il2CppArrayBase<bucket>)(object)hashtable.buckets)[i]; if (bucket != null && bucket.key != null) { yield return new DictionaryEntry(bucket.key, bucket.val); } } } } internal static class ReflectionPatches { internal static void Init() { Universe.Patch(typeof(Assembly), "GetTypes", (MethodType)0, new Type[0], null, null, AccessTools.Method(typeof(ReflectionPatches), "Finalizer_Assembly_GetTypes", (Type[])null, (Type[])null)); } public static Exception Finalizer_Assembly_GetTypes(Assembly __instance, Exception __exception, ref Type[] __result) { if (__exception != null) { if (__exception is ReflectionTypeLoadException e) { __result = ReflectionUtility.TryExtractTypesFromException(e); } else { try { __result = __instance.GetExportedTypes(); } catch (ReflectionTypeLoadException e2) { __result = ReflectionUtility.TryExtractTypesFromException(e2); } catch { __result = ArgumentUtility.EmptyTypes; } } } return null; } } public class ReflectionUtility { public static bool Initializing; public const BindingFlags FLAGS = BindingFlags.Instance | BindingFlags.Static | BindingFlags.Public | BindingFlags.NonPublic; public static readonly SortedDictionary<string, Type> AllTypes = new SortedDictionary<string, Type>(StringComparer.OrdinalIgnoreCase); public static readonly List<string> AllNamespaces = new List<string>(); private static readonly HashSet<string> uniqueNamespaces = new HashSet<string>(); private static string[] allTypeNamesArray; private static readonly Dictionary<string, Type> shorthandToType = new Dictionary<string, Type> { { "object", typeof(object) }, { "string", typeof(string) }, { "bool", typeof(bool) }, { "byte", typeof(byte) }, { "sbyte", typeof(sbyte) }, { "char", typeof(char) }, { "decimal", typeof(decimal) }, { "double", typeof(double) }, { "float", typeof(float) }, { "int", typeof(int) }, { "uint", typeof(uint) }, { "long", typeof(long) }, { "ulong", typeof(ulong) }, { "short", typeof(short) }, { "ushort", typeof(ushort) }, { "void", typeof(void) } }; internal static readonly Dictionary<string, Type[]> baseTypes = new Dictionary<string, Type[]>(); internal static ReflectionUtility Instance { get; private set; } public static event Action<Type> OnTypeLoaded; internal static void Init() { ReflectionPatches.Init(); Instance = new Il2CppReflection(); Instance.Initialize(); } protected virtual void Initialize() { SetupTypeCache(); Initializing = false; } public static string[] GetTypeNameArray() { if (allTypeNamesArray == null || allTypeNamesArray.Length != AllTypes.Count) { allTypeNamesArray = new string[AllTypes.Count]; int num = 0; foreach (string key in AllTypes.Keys) { allTypeNamesArray[num] = key; num++; } } return allTypeNamesArray; } private static void SetupTypeCache() { if (Universe.Context == RuntimeContext.Mono) { ForceLoadManagedAssemblies(); } Assembly[] assemblies = AppDomain.CurrentDomain.GetAssemblies(); foreach (Assembly asm in assemblies) { CacheTypes(asm); } AppDomain.CurrentDomain.AssemblyLoad += AssemblyLoaded; } private static void AssemblyLoaded(object sender, AssemblyLoadEventArgs args) { if (!(args.LoadedAssembly == null) && !(args.LoadedAssembly.GetName().Name == "completions")) { CacheTypes(args.LoadedAssembly); } } private static void ForceLoadManagedAssemblies() { string path = Path.Combine(Application.dataPath, "Managed"); if (!Directory.Exists(path)) { return; } string[] files = Directory.GetFiles(path, "*.dll"); foreach (string path2 in files) { try { Assembly assembly = Assembly.LoadFile(path2); assembly.GetTypes(); } catch { } } } internal static void CacheTypes(Assembly asm) { Type[] types = asm.GetTypes(); foreach (Type type in types) { if (!string.IsNullOrEmpty(type.Namespace) && !uniqueNamespaces.Contains(type.Namespace)) { uniqueNamespaces.Add(type.Namespace); int j; for (j = 0; j < AllNamespaces.Count && type.Namespace.CompareTo(AllNamespaces[j]) >= 0; j++) { } AllNamespaces.Insert(j, type.Namespace); } AllTypes[type.FullName] = type; ReflectionUtility.OnTypeLoaded?.Invoke(type); } } public static Type GetTypeByName(string fullName) { return Instance.Internal_GetTypeByName(fullName); } internal virtual Type Internal_GetTypeByName(string fullName) { if (shorthandToType.TryGetValue(fullName, out var value)) { return value; } AllTypes.TryGetValue(fullName, out var value2); if (value2 == null) { value2 = Type.GetType(fullName); } return value2; } internal virtual Type Internal_GetActualType(object obj) { return obj?.GetType(); } internal virtual object Internal_TryCast(object obj, Type castTo) { return obj; } public static string ProcessTypeInString(Type type, string theString) { return Instance.Internal_ProcessTypeInString(theString, type); } internal virtual string Internal_ProcessTypeInString(string theString, Type type) { return theString; } public static void FindSingleton(string[] possibleNames, Type type, BindingFlags flags, List<object> instances) { Instance.Internal_FindSingleton(possibleNames, type, flags, instances); } internal virtual void Internal_FindSingleton(string[] possibleNames, Type type, BindingFlags flags, List<object> instances) { foreach (string name in possibleNames) { FieldInfo field = type.GetField(name, flags); if (field != null) { object value = field.GetValue(null); if (value != null) { instances.Add(value); break; } } } } public static Type[] TryExtractTypesFromException(ReflectionTypeLoadException e) { try { return e.Types.Where((Type it) => it != null).ToArray(); } catch { return ArgumentUtility.EmptyTypes; } } public static Type[] GetAllBaseTypes(object obj) { return GetAllBaseTypes(obj?.GetActualType()); } public static Type[] GetAllBaseTypes(Type type) { if (type == null) { throw new ArgumentNullException("type"); } string assemblyQualifiedName = type.AssemblyQualifiedName; if (baseTypes.TryGetValue(assemblyQualifiedName, out var value)) { return value; } List<Type> list = new List<Type>(); while (type != null) { list.Add(type); type = type.BaseType; } value = list.ToArray(); baseTypes.Add(assemblyQualifiedName, value); return value; } public static void GetImplementationsOf(Type baseType, Action<HashSet<Type>> onResultsFetched, bool allowAbstract, bool allowGeneric, bool allowEnum) { RuntimeHelper.StartCoroutine(DoGetImplementations(onResultsFetched, baseType, allowAbstract, allowGeneric, allowEnum)); } private static IEnumerator DoGetImplementations(Action<HashSet<Type>> onResultsFetched, Type baseType, bool allowAbstract, bool allowGeneric, bool allowEnum) { List<Type> resolvedTypes = new List<Type>(); OnTypeLoaded += ourListener; HashSet<Type> set = new HashSet<Type>(); IEnumerator coro2 = GetImplementationsAsync(baseType, set, allowAbstract, allowGeneric, allowEnum, DefaultTypesEnumerator()); while (coro2.MoveNext()) { yield return null; } OnTypeLoaded -= ourListener; if (resolvedTypes.Count > 0) { coro2 = GetImplementationsAsync(baseType, set, allowAbstract, allowGeneric, allowEnum, resolvedTypes.GetEnumerator()); while (coro2.MoveNext()) { yield return null; } } onResultsFetched(set); void ourListener(Type t) { resolvedTypes.Add(t); } } private static IEnumerator<Type> DefaultTypesEnumerator() { string[] names = GetTypeNameArray(); foreach (string name in names) { yield return AllTypes[name]; } } private static IEnumerator GetImplementationsAsync(Type baseType, HashSet<Type> set, bool allowAbstract, bool allowGeneric, bool allowEnum, IEnumerator<Type> enumerator) { Stopwatch sw = new Stopwatch(); sw.Start(); bool isGenericParam = baseType != null && baseType.IsGenericParameter; while (enumerator.MoveNext()) { if (sw.ElapsedMilliseconds > 10) { yield return null; sw.Reset(); sw.Start(); } try { Type type = enumerator.Current; if (set.Contains(type) || (!allowAbstract && type.IsAbstract) || (!allowGeneric && type.IsGenericType) || (!allowEnum && type.IsEnum) || type.FullName.Contains("PrivateImplementationDetails") || type.FullName.Contains("DisplayClass") || type.FullName.Contains('<')) { continue; } if (!isGenericParam) { if (!(baseType != null) || baseType.IsAssignableFrom(type)) { goto IL_0275; } } else if ((!type.IsClass || !baseType.GenericParameterAttributes.HasFlag(GenericParameterAttributes.NotNullableValueTypeConstraint)) && (!type.IsValueType || !baseType.GenericParameterAttributes.HasFlag(GenericParameterAttributes.ReferenceTypeConstraint)) && !baseType.GetGenericParameterConstraints().Any((Type it) => !it.IsAssignableFrom(type))) { goto IL_0275; } goto end_IL_00a5; IL_0275: set.Add(type); end_IL_00a5:; } catch { } } } public static bool IsEnumerable(Type type) { return Instance.Internal_IsEnumerable(type); } protected virtual bool Internal_IsEnumerable(Type type) { return typeof(IEnumerable).IsAssignableFrom(type); } public static bool TryGetEnumerator(object ienumerable, out IEnumerator enumerator) { return Instance.Internal_TryGetEnumerator(ienumerable, out enumerator); } protected virtual bool Internal_TryGetEnumerator(object list, out IEnumerator enumerator) { enumerator = (list as IEnumerable).GetEnumerator(); return true; } public static bool TryGetEntryType(Type enumerableType, out Type type) { return Instance.Internal_TryGetEntryType(enumerableType, out type); } protected virtual bool Internal_TryGetEntryType(Type enumerableType, out Type type) { if (enumerableType.IsArray) { type = enumerableType.GetElementType(); return true; } Type[] interfaces = enumerableType.GetInterfaces(); foreach (Type type2 in interfaces) { if (type2.IsGenericType) { Type genericTypeDefinition = type2.GetGenericTypeDefinition(); if (genericTypeDefinition == typeof(IEnumerable<>) || genericTypeDefinition == typeof(IList<>) || genericTypeDefinition == typeof(ICollection<>)) { type = type2.GetGenericArguments()[0]; return true; } } } type = typeof(object); return false; } public static bool IsDictionary(Type type) { return Instance.Internal_IsDictionary(type); } protected virtual bool Internal_IsDictionary(Type type) { return typeof(IDictionary).IsAssignableFrom(type); } public static bool TryGetDictEnumerator(object dictionary, out IEnumerator<DictionaryEntry> dictEnumerator) { return Instance.Internal_TryGetDictEnumerator(dictionary, out dictEnumerator); } protected virtual bool Internal_TryGetDictEnumerator(object dictionary, out IEnumerator<DictionaryEntry> dictEnumerator) { dictEnumerator = EnumerateDictionary((IDictionary)dictionary); return true; } private IEnumerator<DictionaryEntry> EnumerateDictionary(IDictionary dict) { IDictionaryEnumerator enumerator = dict.GetEnumerator(); while (enumerator.MoveNext()) { yield return new DictionaryEntry(enumerator.Key, enumerator.Value); } } public static bool TryGetEntryTypes(Type dictionaryType, out Type keys, out Type values) { return Instance.Internal_TryGetEntryTypes(dictionaryType, out keys, out values); } protected virtual bool Internal_TryGetEntryTypes(Type dictionaryType, out Type keys, out Type values) { Type[] interfaces = dictionaryType.GetInterfaces(); foreach (Type type in interfaces) { if (type.IsGenericType && type.GetGenericTypeDefinition() == typeof(IDictionary<, >)) { Type[] genericArguments = type.GetGenericArguments(); keys = genericArguments[0]; values = genericArguments[1]; return true; } } keys = typeof(object); values = typeof(object); return false; } } public abstract class RuntimeHelper { internal static RuntimeHelper Instance { get; private set; } internal static void Init() { Instance = new Il2CppProvider(); Instance.OnInitialize(); } protected internal abstract void OnInitialize(); public static Coroutine StartCoroutine(IEnumerator routine) { return Instance.Internal_StartCoroutine(routine); } protected internal abstract Coroutine Internal_StartCoroutine(IEnumerator routine); public static void StopCoroutine(Coroutine coroutine) { Instance.Internal_StopCoroutine(coroutine); } protected internal abstract void Internal_StopCoroutine(Coroutine coroutine); public static T AddComponent<T>(GameObject obj, Type type) where T : Component { return Instance.Internal_AddComponent<T>(obj, type); } protected internal abstract T Internal_AddComponent<T>(GameObject obj, Type type) where T : Component; public static ScriptableObject CreateScriptable(Type type) { return Instance.Internal_CreateScriptable(type); } protected internal abstract ScriptableObject Internal_CreateScriptable(Type type); public static string LayerToName(int layer) { return Instance.Internal_LayerToName(layer); } protected internal abstract string Internal_LayerToName(int layer); public static T[] FindObjectsOfTypeAll<T>() where T : Object { return Instance.Internal_FindObjectsOfTypeAll<T>(); } public static Object[] FindObjectsOfTypeAll(Type type) { return Instance.Internal_FindObjectsOfTypeAll(type); } protected internal abstract T[] Internal_FindObjectsOfTypeAll<T>() where T : Object; protected internal abstract Object[] Internal_FindObjectsOfTypeAll(Type type); public static void GraphicRaycast(GraphicRaycaster raycaster, PointerEventData data, List<RaycastResult> list) { Instance.Internal_GraphicRaycast(raycaster, data, list); } protected internal abstract void Internal_GraphicRaycast(GraphicRaycaster raycaster, PointerEventData data, List<RaycastResult> list); public static GameObject[] GetRootGameObjects(Scene scene) { //IL_0005: Unknown result type (might be due to invalid IL or missing references) return Instance.Internal_GetRootGameObjects(scene); } protected internal abstract GameObject[] Internal_GetRootGameObjects(Scene scene); public static int GetRootCount(Scene scene) { //IL_0005: Unknown result type (might be due to invalid IL or missing references) return Instance.Internal_GetRootCount(scene); } protected internal abstract int Internal_GetRootCount(Scene scene); public static void SetColorBlockAuto(Selectable selectable, Color baseColor) { //IL_0006: Unknown result type (might be due to invalid IL or missing references) //IL_000c: Unknown result type (might be due to invalid IL or missing references) //IL_0012: Unknown result type (might be due to invalid IL or missing references) //IL_001c: Unknown result type (might be due to invalid IL or missing references) //IL_0022: Unknown result type (might be due to invalid IL or missing references) Instance.Internal_SetColorBlock(selectable, baseColor, baseColor * 1.2f, baseColor * 0.8f); } public static void SetColorBlock(Selectable selectable, ColorBlock colors) { //IL_0006: Unknown result type (might be due to invalid IL or missing references) Instance.Internal_SetColorBlock(selectable, colors); } protected internal abstract void Internal_SetColorBlock(Selectable selectable, ColorBlock colors); public static void SetColorBlock(Selectable selectable, Color? normal = null, Color? highlighted = null, Color? pressed = null, Color? disabled = null) { Instance.Internal_SetColorBlock(selectable, normal, highlighted, pressed, disabled); } protected internal abstract void Internal_SetColorBlock(Selectable selectable, Color? normal = null, Color? highlighted = null, Color? pressed = null, Color? disabled = null); } public class AssetBundle : Object { internal delegate IntPtr d_LoadFromFile(IntPtr path, uint crc, ulong offset); private delegate IntPtr d_LoadFromMemory(IntPtr binary, uint crc); public delegate IntPtr d_GetAllLoadedAssetBundles_Native(); internal delegate IntPtr d_LoadAssetWithSubAssets_Internal(IntPtr _this, IntPtr name, IntPtr type); internal delegate IntPtr d_LoadAsset_Internal(IntPtr _this, IntPtr name, IntPtr type); internal delegate void d_Unload(IntPtr _this, bool unloadAllLoadedObjects); public readonly IntPtr m_bundlePtr = IntPtr.Zero; static AssetBundle() { ClassInjector.RegisterTypeInIl2Cpp<AssetBundle>(); } [HideFromIl2Cpp] public static AssetBundle LoadFromFile(string path) { IntPtr intPtr = ICallManager.GetICallUnreliable<d_LoadFromFile>(new string[2] { "UnityEngine.AssetBundle::LoadFromFile_Internal", "UnityEngine.AssetBundle::LoadFromFile" })(IL2CPP.ManagedStringToIl2Cpp(path), 0u, 0uL); return (intPtr != IntPtr.Zero) ? new AssetBundle(intPtr) : null; } [HideFromIl2Cpp] public static AssetBundle LoadFromMemory(byte[] binary, uint crc = 0u) { IntPtr intPtr = ICallManager.GetICallUnreliable<d_LoadFromMemory>(new string[2] { "UnityEngine.AssetBundle::LoadFromMemory_Internal", "UnityEngine.AssetBundle::LoadFromMemory" })(((Il2CppObjectBase)Il2CppStructArray<byte>.op_Implicit(binary)).Pointer, crc); return (intPtr != IntPtr.Zero) ? new AssetBundle(intPtr) : null; } [HideFromIl2Cpp] public static AssetBundle[] GetAllLoadedAssetBundles() { IntPtr intPtr = ICallManager.GetICall<d_GetAllLoadedAssetBundles_Native>("UnityEngine.AssetBundle::GetAllLoadedAssetBundles_Native")(); return (intPtr != IntPtr.Zero) ? Il2CppArrayBase<AssetBundle>.op_Implicit((Il2CppArrayBase<AssetBundle>)(object)new Il2CppReferenceArray<AssetBundle>(intPtr)) : null; } public AssetBundle(IntPtr ptr) : base(ptr) { m_bundlePtr = ptr; } [HideFromIl2Cpp] public Object[] LoadAllAssets() { IntPtr intPtr = ICallManager.GetICall<d_LoadAssetWithSubAssets_Internal>("UnityEngine.AssetBundle::LoadAssetWithSubAssets_Internal")(m_bundlePtr, IL2CPP.ManagedStringToIl2Cpp(""), ((Il2CppObjectBase)Il2CppType.Of<Object>()).Pointer); return (Object[])((intPtr != IntPtr.Zero) ? ((Array)Il2CppArrayBase<Object>.op_Implicit((Il2CppArrayBase<Object>)(object)new Il2CppReferenceArray<Object>(intPtr))) : ((Array)new Object[0])); } [HideFromIl2Cpp] public T LoadAsset<T>(string name) where T : Object { //IL_0040: Unknown result type (might be due to invalid IL or missing references) IntPtr intPtr = ICallManager.GetICall<d_LoadAsset_Internal>("UnityEngine.AssetBundle::LoadAsset_Internal")(m_bundlePtr, IL2CPP.ManagedStringToIl2Cpp(name), ((Il2CppObjectBase)Il2CppType.Of<T>()).Pointer); return (intPtr != IntPtr.Zero) ? ((Il2CppObjectBase)new Object(intPtr)).TryCast<T>() : default(T); } [HideFromIl2Cpp] public void Unload(bool unloadAllLoadedObjects) { ICallManager.GetICall<d_Unload>("UnityEngine.AssetBundle::Unload")(m_bundlePtr, unloadAllLoadedObjects); } } public static class Il2CppExtensions { public static void AddListener(this UnityEvent action, Action listener) { action.AddListener(UnityAction.op_Implicit(listener)); } public static void AddListener<T>(this UnityEvent<T> action, Action<T> listener) { action.AddListener(UnityAction<T>.op_Implicit(listener)); } public static void RemoveListener(this UnityEvent action, Action listener) { action.RemoveListener(UnityAction.op_Implicit(listener)); } public static void RemoveListener<T>(this UnityEvent<T> action, Action<T> listener) { action.RemoveListener(UnityAction<T>.op_Implicit(listener)); } public static void SetChildControlHeight(this HorizontalOrVerticalLayoutGroup group, bool value) { group.childControlHeight = value; } public static void SetChildControlWidth(this HorizontalOrVerticalLayoutGroup group, bool value) { group.childControlWidth = value; } } internal class UniversalBehaviour : MonoBehaviour { private static Delegate queuedDelegate; internal static UniversalBehaviour Instance { get; private set; } internal static void Setup() { //IL_000c: Unknown result type (might be due to invalid IL or missing references) //IL_0012: Expected O, but got Unknown //IL_001b: Unknown result type (might be due to invalid IL or missing references) //IL_0022: Unknown result type (might be due to invalid IL or missing references) ClassInjector.RegisterTypeInIl2Cpp<UniversalBehaviour>(); GameObject val = new GameObject("UniverseLibBehaviour"); Object.DontDestroyOnLoad((Object)(object)val); ((Object)val).hideFlags = (HideFlags)(((Object)val).hideFlags | 0x3D); Instance = val.AddComponent<UniversalBehaviour>(); } internal void Update() { Universe.Update(); } public UniversalBehaviour(IntPtr ptr) : base(ptr) { } internal static void InvokeDelegate(Delegate method) { queuedDelegate = method; ((MonoBehaviour)Instance).Invoke("InvokeQueuedAction", 0f); } private void InvokeQueuedAction() { try { Delegate @delegate = queuedDelegate; queuedDelegate = null; @delegate?.DynamicInvoke(); } catch (Exception value) { Universe.LogWarning($"Exception invoking action from IL2CPP thread: {value}"); } } } public class Universe { public enum GlobalState { WaitingToSetup, SettingUp, SetupCompleted } public const string NAME = "UniverseLib"; public const string VERSION = "1.5.1"; public const string AUTHOR = "Sinai"; public const string GUID = "com.sinai.universelib"; private static float startupDelay; private static Action<string, LogType> logHandler; public static RuntimeContext Context { get; } = RuntimeContext.IL2CPP; public static GlobalState CurrentGlobalState { get; private set; } internal static Harmony Harmony { get; } = new Harmony("com.sinai.universelib"); private static event Action OnInitialized; public static void Init(Action onInitialized = null, Action<string, LogType> logHandler = null) { Init(1f, onInitialized, logHandler, default(UniverseLibConfig)); } public static void Init(float startupDelay, Action onInitialized, Action<string, LogType> logHandler, UniverseLibConfig config) { if (CurrentGlobalState == GlobalState.SetupCompleted) { InvokeOnInitialized(onInitialized); return; } if (startupDelay > Universe.startupDelay) { Universe.startupDelay = startupDelay; } ConfigManager.LoadConfig(config); OnInitialized += onInitialized; if (logHandler != null && Universe.logHandler == null) { Universe.logHandler = logHandler; } if (CurrentGlobalState == GlobalState.WaitingToSetup) { CurrentGlobalState = GlobalState.SettingUp; Log("UniverseLib 1.5.1 initializing..."); UniversalBehaviour.Setup(); ReflectionUtility.Init(); RuntimeHelper.Init(); RuntimeHelper.Instance.Internal_StartCoroutine(SetupCoroutine()); Log("Finished UniverseLib initial setup."); } } internal static void Update() { UniversalUI.Update(); } private static IEnumerator SetupCoroutine() { yield return null; Stopwatch sw = new Stopwatch(); sw.Start(); while (ReflectionUtility.Initializing || (float)sw.ElapsedMilliseconds * 0.001f < startupDelay) { yield return null; } InputManager.Init(); UniversalUI.Init(); Log("UniverseLib 1.5.1 initialized."); CurrentGlobalState = GlobalState.SetupCompleted; InvokeOnInitialized(Universe.OnInitialized); } private static void InvokeOnInitialized(Action onInitialized) { if (onInitialized == null) { return; } Delegate[] invocationList = onInitialized.GetInvocationList(); foreach (Delegate @delegate in invocationList) { try { @delegate.DynamicInvoke(); } catch (Exception value) { LogWarning($"Exception invoking onInitialized callback! {value}"); } } } internal static void Log(object message) { Log(message, (LogType)3); } internal static void LogWarning(object message) { Log(message, (LogType)2); } internal static void LogError(object message) { Log(message, (LogType)0); } private static void Log(object message, LogType logType) { //IL_0033: Unknown result type (might be due to invalid IL or missing references) if (logHandler != null) { logHandler("[UniverseLib] " + (message?.ToString() ?? string.Empty), logType); } } internal static bool Patch(Type type, string methodName, MethodType methodType, Type[] arguments = null, MethodInfo prefix = null, MethodInfo postfix = null, MethodInfo finalizer = null) { //IL_0002: Unknown result type (might be due to invalid IL or missing references) //IL_0004: Invalid comparison between Unknown and I4 //IL_0008: Unknown result type (might be due to invalid IL or missing references) //IL_000a: Invalid comparison between Unknown and I4 //IL_00d9: Unknown result type (might be due to invalid IL or missing references) //IL_00e3: Expected O, but got Unknown //IL_00f5: Unknown result type (might be due to invalid IL or missing references) //IL_00ff: Expected O, but got Unknown //IL_0111: Unknown result type (might be due to invalid IL or missing references) //IL_011b: Expected O, but got Unknown try { string text = (((int)methodType == 1) ? "get_" : (((int)methodType != 2) ? string.Empty : "set_")); string text2 = text; MethodInfo methodInfo = ((arguments == null) ? type.GetMethod(text2 + methodName, AccessTools.all) : type.GetMethod(text2 + methodName, AccessTools.all, null, arguments, null)); if (methodInfo == null) { return false; } if (Il2CppType.From(type, false) != (Type)null && Il2CppInteropUtils.GetIl2CppMethodInfoPointerFieldForGeneratedMethod((MethodBase)methodInfo) == null) { Log("\t IL2CPP method has no corresponding pointer, aborting patch of " + type.FullName + "." + methodName); return false; } PatchProcessor val = Harmony.CreateProcessor((MethodBase)methodInfo); if (prefix != null) { val.AddPrefix(new HarmonyMethod(prefix)); } if (postfix != null) { val.AddPostfix(new HarmonyMethod(postfix)); } if (finalizer != null) { val.AddFinalizer(new HarmonyMethod(finalizer)); } val.Patch(); return true; } catch (Exception value) { LogWarning($"\t Exception patching {type.FullName}.{methodName}: {value}"); return false; } } internal static bool Patch(Type type, string[] possibleNames, MethodType methodType, Type[] arguments = null, MethodInfo prefix = null, MethodInfo postfix = null, MethodInfo finalizer = null) { //IL_000f: Unknown result type (might be due to invalid IL or missing references) foreach (string methodName in possibleNames) { if (Patch(type, methodName, methodType, arguments, prefix, postfix, finalizer)) { return true; } } return false; } internal static bool Patch(Type type, string[] possibleNames, MethodType methodType, Type[][] possibleArguments, MethodInfo prefix = null, MethodInfo postfix = null, MethodInfo finalizer = null) { //IL_001e: Unknown result type (might be due to invalid IL or missing references) foreach (string methodName in possibleNames) { foreach (Type[] arguments in possibleArguments) { if (Patch(type, methodName, methodType, arguments, prefix, postfix, finalizer)) { return true; } } } return false; } internal static bool Patch(Type type, string methodName, MethodType methodType, Type[][] possibleArguments, MethodInfo prefix = null, MethodInfo postfix = null, MethodInfo finalizer = null) { //IL_000f: Unknown result type (might be due to invalid IL or missing references) foreach (Type[] arguments in possibleArguments) { if (Patch(type, methodName, methodType, arguments, prefix, postfix, finalizer)) { return true; } } return false; } } } namespace UniverseLib.Utility { public static class ArgumentUtility { public static readonly Type[] EmptyTypes = new Type[0]; public static readonly object[] EmptyArgs = new object[0]; public static readonly Type[] ParseArgs = new Type[1] { typeof(string) }; } public static class IOUtility { private static readonly char[] invalidDirectoryCharacters = Path.GetInvalidPathChars(); private static readonly char[] invalidFilenameCharacters = Path.GetInvalidFileNameChars(); public static string EnsureValidFilePath(string fullPathWithFile) { fullPathWithFile = string.Concat(fullPathWithFile.Split(invalidDirectoryCharacters)); Directory.CreateDirectory(Path.GetDirectoryName(fullPathWithFile)); return fullPathWithFile; } public static string EnsureValidFilename(string filename) { return string.Concat(filename.Split(invalidFilenameCharacters)); } } public static class MiscUtility { public static bool ContainsIgnoreCase(this string _this, string s) { return CultureInfo.CurrentCulture.CompareInfo.IndexOf(_this, s, CompareOptions.IgnoreCase) >= 0; } public static bool HasFlag(this Enum flags, Enum value) { try { ulong num = Convert.ToUInt64(value); return (Convert.ToUInt64(flags) & num) == num; } catch { long num2 = Convert.ToInt64(value); return (Convert.ToInt64(flags) & num2) == num2; } } public static bool EndsWith(this StringBuilder sb, string _string) { int length = _string.Length; if (sb.Length < length) { return false; } int num = 0; int num2 = sb.Length - length; while (num2 < sb.Length) { if (sb[num2] != _string[num]) { return false; } num2++; num++; } return true; } } public static class ParseUtility { internal delegate object ParseMethod(string input); internal delegate string ToStringMethod(object obj); public static readonly string NumberFormatString = "0.####"; private static readonly Dictionary<int, string> numSequenceStrings = new Dictionary<int, string>(); private static readonly HashSet<Type> nonPrimitiveTypes = new HashSet<Type> { typeof(string), typeof(decimal), typeof(DateTime) }; private static readonly HashSet<Type> formattedTypes = new HashSet<Type> { typeof(float), typeof(double), typeof(decimal) }; private static readonly Dictionary<string, string> typeInputExamples = new Dictionary<string, string>(); private static readonly Dictionary<string, ParseMethod> customTypes = new Dictionary<string, ParseMethod> { { typeof(Vector2).FullName, TryParseVector2 }, { typeof(Vector3).FullName, TryParseVector3 }, { typeof(Vector4).FullName, TryParseVector4 }, { typeof(Quaternion).FullName, TryParseQuaternion }, { typeof(Rect).FullName, TryParseRect }, { typeof(Color).FullName, TryParseColor }, { typeof(Color32).FullName, TryParseColor32 }, { typeof(LayerMask).FullName, TryParseLayerMask } }; private static readonly Dictionary<string, ToStringMethod> customTypesToString = new Dictionary<string, ToStringMethod> { { typeof(Vector2).FullName, Vector2ToString }, { typeof(Vector3).FullName, Vector3ToString }, { typeof(Vector4).FullName, Vector4ToString }, { typeof(Quaternion).FullName, QuaternionToString }, { typeof(Rect).FullName, RectToString }, { typeof(Color).FullName, ColorToString }, { typeof(Color32).FullName, Color32ToString }, { typeof(LayerMask).FullName, LayerMaskToString } }; public static string FormatDecimalSequence(params object[] numbers) { if (numbers.Length == 0) { return null; } return string.Format(CultureInfo.CurrentCulture, GetSequenceFormatString(numbers.Length), numbers); } internal static string GetSequenceFormatString(int count) { if (count <= 0) { return null; } if (numSequenceStrings.ContainsKey(count)) { return numSequenceStrings[count]; } string[] array = new string[count]; for (int i = 0; i < count; i++) { array[i] = $"{{{i}:{NumberFormatString}}}"; } string text = string.Join(" ", array); numSequenceStrings.Add(count, text); return text; } public static bool CanParse(Type type) { return !string.IsNullOrEmpty(type?.FullName) && (type.IsPrimitive || type.IsEnum || nonPrimitiveTypes.Contains(type) || customTypes.ContainsKey(type.FullName)); } public static bool CanParse<T>() { return CanParse(typeof(T)); } public static bool TryParse<T>(string input, out T obj, out Exception parseException) { object obj2; bool result = TryParse(input, typeof(T), out obj2, out parseException); if (obj2 != null) { obj = (T)obj2; } else { obj = default(T); } return result; } public static bool TryParse(string input, Type type, out object obj, out Exception parseException) { obj = null; parseException = null; if (type == null) { return false; } if (type == typeof(string)) { obj = input; return true; } if (type.IsEnum) { try { obj = Enum.Parse(type, input); return true; } catch (Exception e) { parseException = e.GetInnerMostException(); return false; } } try { if (customTypes.ContainsKey(type.FullName)) { obj = customTypes[type.FullName](input); } else { obj = AccessTools.Method(type, "Parse", ArgumentUtility.ParseArgs, (Type[])null).Invoke(null, new object[1] { input }); } return true; } catch (Exception e2) { Exception innerMostException = e2.GetInnerMostException(); parseException = innerMostException; } return false; } public static string ToStringForInput<T>(object obj) { return ToStringForInput(obj, typeof(T)); } public static string ToStringForInput(object obj, Type type) { if (type == null || obj == null) { return null; } if (type == typeof(string)) { return obj as string; } if (type.IsEnum) { return Enum.IsDefined(type, obj) ? Enum.GetName(type, obj) : obj.ToString(); } try { if (customTypes.ContainsKey(type.FullName)) { return customTypesToString[type.FullName](obj); } if (formattedTypes.Contains(type)) { return AccessTools.Method(type, "ToString", new Type[2] { typeof(string), typeof(IFormatProvider) }, (Type[])null).Invoke(obj, new object[2] { NumberFormatString, CultureInfo.CurrentCulture }) as string; } return obj.ToString(); } catch (Exception value) { Universe.LogWarning($"Exception formatting object for input: {value}"); return null; } } public static string GetExampleInput<T>() { return GetExampleInput(typeof(T)); } public static string GetExampleInput(Type type) { if (!typeInputExamples.ContainsKey(type.AssemblyQualifiedName)) { try { if (type.IsEnum) { typeInputExamples.Add(type.AssemblyQualifiedName, Enum.GetNames(type).First()); } else { object obj = Activator.CreateInstance(type); typeInputExamples.Add(type.AssemblyQualifiedName, ToStringForInput(obj, type)); } } catch (Exception message) { Universe.LogWarning("Exception generating default instance for example input for '" + type.FullName + "'"); Universe.Log(message); return ""; } } return typeInputExamples[type.AssemblyQualifiedName]; } internal static object TryParseVector2(string input) { //IL_0003: 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) Vector2 val = default(Vector2); string[] array = input.Split(' '); val.x = float.Parse(array[0].Trim(), CultureInfo.CurrentCulture); val.y = float.Parse(array[1].Trim(), CultureInfo.CurrentCulture); return val; } internal static string Vector2ToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) //IL_0027: 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) if (!(obj is Vector2 val) || 1 == 0) { return null; } return FormatDecimalSequence(val.x, val.y); } internal static object TryParseVector3(string input) { //IL_0003: 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) Vector3 val = default(Vector3); string[] array = input.Split(' '); val.x = float.Parse(array[0].Trim(), CultureInfo.CurrentCulture); val.y = float.Parse(array[1].Trim(), CultureInfo.CurrentCulture); val.z = float.Parse(array[2].Trim(), CultureInfo.CurrentCulture); return val; } internal static string Vector3ToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) //IL_0027: 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_0043: Unknown result type (might be due to invalid IL or missing references) if (!(obj is Vector3 val) || 1 == 0) { return null; } return FormatDecimalSequence(val.x, val.y, val.z); } internal static object TryParseVector4(string input) { //IL_0003: Unknown result type (might be due to invalid IL or missing references) //IL_0077: Unknown result type (might be due to invalid IL or missing references) Vector4 val = default(Vector4); string[] array = input.Split(' '); val.x = float.Parse(array[0].Trim(), CultureInfo.CurrentCulture); val.y = float.Parse(array[1].Trim(), CultureInfo.CurrentCulture); val.z = float.Parse(array[2].Trim(), CultureInfo.CurrentCulture); val.w = float.Parse(array[3].Trim(), CultureInfo.CurrentCulture); return val; } internal static string Vector4ToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) //IL_0027: 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_0043: Unknown result type (might be due to invalid IL or missing references) //IL_0051: Unknown result type (might be due to invalid IL or missing references) if (!(obj is Vector4 val) || 1 == 0) { return null; } return FormatDecimalSequence(val.x, val.y, val.z, val.w); } internal static object TryParseQuaternion(string input) { //IL_0003: Unknown result type (might be due to invalid IL or missing references) //IL_00e0: Unknown result type (might be due to invalid IL or missing references) //IL_00e1: 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_008a: Unknown result type (might be due to invalid IL or missing references) Vector3 val = default(Vector3); string[] array = input.Split(' '); if (array.Length == 4) { Quaternion val2 = default(Quaternion); val2.x = float.Parse(array[0].Trim(), CultureInfo.CurrentCulture); val2.y = float.Parse(array[1].Trim(), CultureInfo.CurrentCulture); val2.z = float.Parse(array[2].Trim(), CultureInfo.CurrentCulture); val2.w = float.Parse(array[3].Trim(), CultureInfo.CurrentCulture); return val2; } val.x = float.Parse(array[0].Trim(), CultureInfo.CurrentCulture); val.y = float.Parse(array[1].Trim(), CultureInfo.CurrentCulture); val.z = float.Parse(array[2].Trim(), CultureInfo.CurrentCulture); return Quaternion.Euler(val); } internal static string QuaternionToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) //IL_0021: Unknown result type (might be due to invalid IL or missing references) //IL_0026: 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) //IL_003d: Unknown result type (might be due to invalid IL or missing references) //IL_004b: Unknown result type (might be due to invalid IL or missing references) if (!(obj is Quaternion val) || 1 == 0) { return null; } Vector3 eulerAngles = ((Quaternion)(ref val)).eulerAngles; return FormatDecimalSequence(eulerAngles.x, eulerAngles.y, eulerAngles.z); } internal static object TryParseRect(string input) { //IL_0003: Unknown result type (might be due to invalid IL or missing references) //IL_007b: Unknown result type (might be due to invalid IL or missing references) Rect val = default(Rect); string[] array = input.Split(' '); ((Rect)(ref val)).x = float.Parse(array[0].Trim(), CultureInfo.CurrentCulture); ((Rect)(ref val)).y = float.Parse(array[1].Trim(), CultureInfo.CurrentCulture); ((Rect)(ref val)).width = float.Parse(array[2].Trim(), CultureInfo.CurrentCulture); ((Rect)(ref val)).height = float.Parse(array[3].Trim(), CultureInfo.CurrentCulture); return val; } internal static string RectToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) if (!(obj is Rect val) || 1 == 0) { return null; } return FormatDecimalSequence(((Rect)(ref val)).x, ((Rect)(ref val)).y, ((Rect)(ref val)).width, ((Rect)(ref val)).height); } internal static object TryParseColor(string input) { //IL_0003: Unknown result type (might be due to invalid IL or missing references) //IL_008f: Unknown result type (might be due to invalid IL or missing references) Color val = default(Color); string[] array = input.Split(' '); val.r = float.Parse(array[0].Trim(), CultureInfo.CurrentCulture); val.g = float.Parse(array[1].Trim(), CultureInfo.CurrentCulture); val.b = float.Parse(array[2].Trim(), CultureInfo.CurrentCulture); if (array.Length > 3) { val.a = float.Parse(array[3].Trim(), CultureInfo.CurrentCulture); } else { val.a = 1f; } return val; } internal static string ColorToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) //IL_0027: 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_0043: Unknown result type (might be due to invalid IL or missing references) //IL_0051: Unknown result type (might be due to invalid IL or missing references) if (!(obj is Color val) || 1 == 0) { return null; } return FormatDecimalSequence(val.r, val.g, val.b, val.a); } internal static object TryParseColor32(string input) { //IL_0003: Unknown result type (might be due to invalid IL or missing references) //IL_008f: Unknown result type (might be due to invalid IL or missing references) Color32 val = default(Color32); string[] array = input.Split(' '); val.r = byte.Parse(array[0].Trim(), CultureInfo.CurrentCulture); val.g = byte.Parse(array[1].Trim(), CultureInfo.CurrentCulture); val.b = byte.Parse(array[2].Trim(), CultureInfo.CurrentCulture); if (array.Length > 3) { val.a = byte.Parse(array[3].Trim(), CultureInfo.CurrentCulture); } else { val.a = byte.MaxValue; } return val; } internal static string Color32ToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: 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_0045: Unknown result type (might be due to invalid IL or missing references) //IL_0060: Unknown result type (might be due to invalid IL or missing references) //IL_007b: Unknown result type (might be due to invalid IL or missing references) if (!(obj is Color32 val)) { return null; } return $"{val.r} {val.g} {val.b} {val.a}"; } internal static object TryParseLayerMask(string input) { //IL_0007: Unknown result type (might be due to invalid IL or missing references) return LayerMask.op_Implicit(int.Parse(input)); } internal static string LayerMaskToString(object obj) { //IL_000a: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) if (!(obj is LayerMask val) || 1 == 0) { return null; } return ((LayerMask)(ref val)).value.ToString(); } } public static class SignatureHighlighter { public const string NAMESPACE = "#a8a8a8"; public const string CONST = "#92c470"; public const string CLASS_STATIC = "#3a8d71"; public const string CLASS_INSTANCE = "#2df7b2"; public const string STRUCT = "#0fba3a"; public const string INTERFACE = "#9b9b82"; public const string FIELD_STATIC = "#8d8dc6"; public const string FIELD_INSTANCE = "#c266ff"; public const string METHOD_STATIC = "#b55b02"; public const string METHOD_INSTANCE = "#ff8000"; public const string PROP_STATIC = "#588075"; public const string PROP_INSTANCE = "#55a38e"; public const string LOCAL_ARG = "#a6e9e9"; public const string OPEN_COLOR = "<color="; public const string CLOSE_COLOR = "</color>"; public const string OPEN_ITALIC = "<i>"; public const string CLOSE_ITALIC = "</i>"; public static readonly Regex ArrayTokenRegex = new Regex("\\[,*?\\]"); private static readonly Regex colorTagRegex = new Regex("<color=#?[\\d|\\w]*>"); public static readonly Color StringOrange = new Color(0.83f, 0.61f, 0.52f); public static readonly Color EnumGreen = new Color(0.57f, 0.76f, 0.43f); public static readonly Color KeywordBlue = new Color(0.3f, 0.61f, 0.83f); public static readonly string keywordBlueHex = KeywordBlue.ToHex(); public static readonly Color NumberGreen = new Color(0.71f, 0.8f, 0.65f); private static readonly Dictionary<string, string> typeToRichType = new Dictionary<string, string>(); private static readonly Dictionary<string, string> highlightedMethods = new Dictionary<string, string>(); private static readonly Dictionary<Type, string> builtInTypesToShorthand = new Dictionary<Type, string> { { typeof(object), "object" }, { typeof(string), "string" }, { typeof(bool), "bool" }, { typeof(byte), "byte" }, { typeof(sbyte), "sbyte" }, { typeof(char), "char" }, { typeof(decimal), "decimal" }, { typeof(double), "double" }, { typeof(float), "float" }, { typeof(int), "int" }, { typeof(uint), "uint" }, { typeof(long), "long" }, { typeof(ulong), "ulong" }, { typeof(short), "short" }, { typeof(ushort), "ushort" }, { typeof(void), "void" } }; public static string Parse(Type type, bool includeNamespace, MemberInfo memberInfo = null) { if (type == null) { throw new ArgumentNullException("type"); } if (memberInfo is MethodInfo method) { return ParseMethod(method); } if (memberInfo is ConstructorInfo ctor) { return ParseConstructor(ctor); } StringBuilder stringBuilder = new StringBuilder(); if (type.IsByRef) { AppendOpenColor(stringBuilder, "#" + keywordBlueHex).Append("ref ").Append("</color>"); } Type type2 = type; while (type2.HasElementType) { type2 = type2.GetElementType(); } includeNamespace &= !builtInTypesToShorthand.ContainsKey(type2); if (!type.IsGenericParameter && (!type.HasElementType || !type.GetElementType().IsGenericParameter) && includeNamespace && TryGetNamespace(type, out var ns)) { AppendOpenColor(stringBuilder, "#a8a8a8").Append(ns).Append("</color>").Append('.'); } stringBuilder.Append(ProcessType(type)); if (memberInfo != null) { stringBuilder.Append('.'); int index = stringBuilder.Length - 1; AppendOpenColor(stringBuilder, GetMemberInfoColor(memberInfo, out var isStatic)).Append(memberInfo.Name).Append("</color>"); if (isStatic) { stringBuilder.Insert(index, "<i>"); stringBuilder.Append("</i>"); } } return stringBuilder.ToString(); } private static string ProcessType(Type type) { string key = type.ToString(); if (typeToRichType.ContainsKey(key)) { return typeToRichType[key]; } StringBuilder stringBuilder = new StringBuilder(); if (!type.IsGenericParameter) { int length = stringBuilder.Length; Type declaringType = type.DeclaringType; while (declaringType != null) { stringBuilder.Insert(length, HighlightType(declaringType) + "."); declaringType = declaringType.DeclaringType; } stringBuilder.Append(HighlightType(type)); if (type.IsGenericType) { ProcessGenericArguments(type, stringBuilder); } } else { stringBuilder.Append("<color=").Append("#92c470").Append('>') .Append(type.Name) .Append("</color>"); } string text = stringBuilder.ToString(); typeToRichType.Add(key, text); return text; } internal static string GetClassColor(Type type) { if (type.IsAbstract && type.IsSealed) { return "#3a8d71"; } if (type.IsEnum || type.IsGenericParameter) { return "#92c470"; } if (type.IsValueType) { return "#0fba3a"; } if (type.IsInterface) { return "#9b9b82"; } return "#2df7b2"; } private static bool TryGetNamespace(Type type, out string ns) { return !string.IsNullOrEmpty(ns = type.Namespace?.Trim()); } private static StringBuilder AppendOpenColor(StringBuilder sb, string color) { return sb.Append("<color=").Append(color).Append('>'); } private static string HighlightType(Type type) { StringBuilder stringBuilder = new StringBuilder(); if (type.IsByRef) { type = type.GetElementType(); } int num = 0; Match match = ArrayTokenRegex.Match(type.Name); if (match != null && match.Success) { num = 1 + match.Value.Count((char c) => c == ','); type = type.GetElementType(); } if (builtInTypesToShorthand.TryGetValue(type, out var value)) { AppendOpenColor(stringBuilder, "#" + keywordBlueHex).Append(value).Append("</color>"); } else { StringBuilder stringBuilder2 = stringBuilder; StringBuilder.AppendInterpolatedStringHandler handler = new StringBuilder.AppendInterpolatedStringHandler(1, 2, stringBuilder2); handler.AppendFormatted("<color="); handler.AppendFormatted(GetClassColor(type)); handler.AppendLiteral(">"); stringBuilder2.Append(ref handler).Append(type.Name).Append("</color>"); } if (num > 0) { stringBuilder.Append('[').Append(new string(',', num - 1)).Append(']'); } return stringBuilder.ToString(); } private static void ProcessGenericArguments(Type type, StringBuilder sb) { List<Type> list = type.GetGenericArguments().ToList(); for (int i = 0; i < sb.Length; i++) { if (!list.Any()) { break; } if (sb[i] != '`') { continue; } int num = i; i++; StringBuilder stringBuilder = new StringBuilder(); for (; char.IsDigit(sb[i]); i++) { stringBuilder.Append(sb[i]); } string text = stringBuilder.ToString(); int num2 = int.Parse(text); sb.Remove(num, text.Length + 1); int num3 = 1; num++; while (num3 < "</color>".Length && sb[num] == "</color>"[num3]) { num3++; num++; } sb.Insert(num, '<'); num++; int length = sb.Length; while (num2 > 0 && list.Any()) { num2--; Type type2 = list.First(); list.RemoveAt(0); sb.Insert(num, ProcessType(type2)); if (num2 > 0) { num += sb.Length - length; sb.Insert(num, ", "); num += 2; length = sb.Length; } } sb.Insert(num + sb.Length - length, '>'); } } public static string RemoveHighlighting(string _string) { if (_string == null) { throw new ArgumentNullException("_string"); } _string = _string.Replace("<i>", string.Empty); _string = _string.Replace("</i>", string.Empty); _string = colorTagRegex.Replace(_string, string.Empty); _string = _string.Replace("</color>", string.Empty); return _string; } [Obsolete("Use 'ParseMethod(MethodInfo)' instead (rename).")] public static string HighlightMethod(MethodInfo method) { return ParseMethod(method); } public static string ParseMethod(MethodInfo method) { string key = GeneralExtensions.FullDescription((MethodBase)method); if (highlightedMethods.ContainsKey(key)) { return highlightedMethods[key]; } StringBuilder stringBuilder = new StringBuilder(); stringBuilder.Append(Parse(method.DeclaringType, includeNamespace: false)); stringBuilder.Append('.'); string value = ((!method.IsStatic) ? "#ff8000" : "#b55b02"); StringBuilder stringBuilder2 = stringBuilder; StringBuilder stringBuilder3 = stringBuilder2; StringBuilder.AppendInterpolatedStringHandler handler = new StringBuilder.AppendInterpolatedStringHandler(16, 2, stringBuilder2); handler.AppendLiteral("<color="); handler.AppendFormatted(value); handler.AppendLiteral(">"); handler.AppendFormatted(method.Name); handler.AppendLiteral("</color>"); stringBuilder3.Append(ref handler); if (method.IsGenericMethod) { stringBuilder.Append("<"); Type[] genericArguments = method.GetGenericArguments(); for (int i = 0; i < genericArguments.Length; i++) { Type type = genericArguments[i]; if (type.IsGenericParameter) { stringBuilder2 = stringBuilder; StringBuilder stringBuilder4 = stringBuilder2; handler = new StringBuilder.AppendInterpolatedStringHandler(16, 2, stringBuilder2); handler.AppendLiteral("<color="); handler.AppendFormatted("#92c470"); handler.AppendLiteral(">"); handler.AppendFormatted(genericArguments[i].Name); handler.AppendLiteral("</color>"); stringBuilder4.Append(ref handler); } else { stringBuilder.Append(Parse(type, includeNamespace: false)); } if (i < genericArguments.Length - 1) { stringBuilder.Append(", "); } } stringBuilder.Append(">"); } stringBuilder.Append('('); ParameterInfo[] parameters = method.GetParameters(); for (int j = 0; j < parameters.Length; j++) { ParameterInfo parameterInfo = parameters[j]; stringBuilder.Append(Parse(parameterInfo.ParameterType, includeNamespace: false)); if (j < parameters.Length - 1) { stringBuilder.Append(", "); } } stringBuilder.Append(')'); string text = stringBuilder.ToString(); highlightedMethods.Add(key, text); return text; } [Obsolete("Use 'ParseConstructor(ConstructorInfo)' instead (rename).")] public static string HighlightConstructor(ConstructorInfo ctor) { return ParseConstructor(ctor); } public static string ParseConstructor(ConstructorInfo ctor) { string key = GeneralExtensions.FullDescription((MethodBase)ctor); if (highlightedMethods.ContainsKey(key)) { return highlightedMethods[key]; } StringBuilder stringBuilder = new StringBuilder(); stringBuilder.Append(Parse(ctor.DeclaringType, includeNamespace: false)); string value = stringBuilder.ToString(); stringBuilder.Append('.'); stringBuilder.Append(value); stringBuilder.Append('('); ParameterInfo[] parameters = ctor.GetParameters(); for (int i = 0; i < parameters.Length; i++) { ParameterInfo parameterInfo = parameters[i]; stringBuilder.Append(Parse(parameterInfo.ParameterType, includeNamespace: false)); if (i < parameters.Length - 1) { stringBuilder.Append(", "); } } stringBuilder.Append(')'); string text = stringBuilder.ToString(); highlightedMethods.Add(key, text); return text; } public static string GetMemberInfoColor(MemberInfo memberInfo, out bool isStatic) { isStatic = false; if (memberInfo is FieldInfo fieldInfo) { if (fieldInfo.IsStatic) { isStatic = true; return "#8d8dc6"; } return "#c266ff"; } if (memberInfo is MethodInfo methodInfo) { if (methodInfo.IsStatic) { isStatic = true; return "#b55b02"; } return "#ff8000"; } if (memberInfo is PropertyInfo propertyInfo) { if (propertyInfo.GetAccessors(nonPublic: true)[0].IsStatic) { isStatic = true; return "#588075"; } return "#55a38e"; } if (memberInfo is ConstructorInfo) { isStatic = true; return "#2df7b2"; } throw new NotImplementedException(memberInfo.GetType().Name + " is not supported"); } } public static class ToStringUtility { internal static Dictionary<string, MethodInfo> toStringMethods = new Dictionary<string, MethodInfo>(); private const string nullString = "<color=grey>null</color>"; private const string nullUnknown = "<color=grey>null</color> (?)"; private const string destroyedString = "<color=red>Destroyed</color>"; private const string untitledString = "<i><color=grey>untitled</color></i>"; private const string eventSystemNamespace = "UnityEngine.EventSystem"; public static string PruneString(string s, int chars = 200, int lines = 5) { if (string.IsNullOrEmpty(s)) { return s; } StringBuilder stringBuilder = new StringBuilder(Math.Max(chars, s.Length)); int num = 0; for (int i = 0; i < s.Length; i++) { if (num >= lines || i >= chars) { stringBuilder.Append("..."); break; } char c = s[i]; if (c == '\r' || c == '\n') { num++; } stringBuilder.Append(c); } return stringBuilder.ToString(); } public static string ToStringWithType(object value, Type fallbackType, bool includeNamespace = true) { if (value.IsNullOrDestroyed() && fallbackType == null) { return "<color=grey>null</color> (?)"; } Type type = value?.GetActualType() ?? fallbackType; string text = SignatureHighlighter.Parse(type, includeNamespace); StringBuilder stringBuilder = new StringBuilder(); if (value.IsNullOrDestroyed()) { if (value == null) { stringBuilder.Append("<color=grey>null</color>"); AppendRichType(stringBuilder, text); return stringBuilder.ToString(); } stringBuilder.Append("<color=red>Destroyed</color>"); AppendRichType(stringBuilder, text); return stringBuilder.ToString(); } Object val = (Object)((value is Object) ? value : null); if (val != null) { if (string.IsNullOrEmpty(val.name)) { stringBuilder.Append("<i><color=grey>untitled</color></i>"); } else { stringBuilder.Append('"'); stringBuilder.Append(PruneString(val.name, 50, 1)); stringBuilder.Append('"'); } AppendRichType(stringBuilder, text); } else if (type.FullName.StartsWith("UnityEngine.EventSystem")) { stringBuilder.Append(text); } else { string text2 = ToString(value); if (type.IsGenericType || text2 == type.FullName || text2 == type.FullName + " " + type.FullName || text2 == "Il2Cpp" + type.FullName || type.FullName == "Il2Cpp" + text2) { stringBuilder.Append(text); } else { stringBuilder.Append(PruneString(text2)); AppendRichType(stringBuilder, text); } } return stringBuilder.ToString(); } private static void AppendRichType(StringBuilder sb, string richType) { sb.Append(' '); sb.Append('('); sb.Append(richType); sb.Append(')'); } private static string ToString(object value) { if (value.IsNullOrDestroyed()) { if (value == null) { return "<color=grey>null</color>"; } return "<color=red>Destroyed</color>"; } Type actualType = value.GetActualType(); if (!toStringMethods.ContainsKey(actualType.AssemblyQualifiedName)) { MethodInfo method = actualType.GetMethod("ToString", ArgumentUtility.EmptyTypes); toStringMethods.Add(actualType.AssemblyQualifiedName, method); } value = value.TryCast(actualType); string theString; try { theString = (string)toStringMethods[actualType.AssemblyQualifiedName].Invoke(value, ArgumentUtility.EmptyArgs); } catch (Exception e) { theString = e.ReflectionExToString(); } theString = ReflectionUtility.ProcessTypeInString(actualType, theString); Type val = (Type)((value is Type) ? value : null); if (val != null) { Type unhollowedType = Il2CppReflection.GetUnhollowedType(val); if (unhollowedType != null) { theString = ReflectionUtility.ProcessTypeInString(unhollowedType, theString); } } return theString; } } public static class UnityHelpers { private static PropertyInfo onEndEdit; public static bool OccuredEarlierThanDefault(this float time) { return Time.realtimeSinceStartup - 0.01f >= time; } public static bool OccuredEarlierThan(this float time, float secondsAgo) { return Time.realtimeSinceStartup - secondsAgo >= time; } public static bool IsNullOrDestroyed(this object obj, bool suppressWarning = true) { try { if (obj == null) { if (!suppressWarning) { Universe.LogWarning("The target instance is null!"); } return true; } Object val = (Object)((obj is Object) ? obj : null); if (val != null && !Object.op_Implicit(val)) { if (!suppressWarning) { Universe.LogWarning("The target UnityEngine.Object was destroyed!"); } return true; } return false; } catch { return true; } } public static string GetTransformPath(this Transform transform, bool includeSelf = false) { StringBuilder stringBuilder = new StringBuilder(); if (includeSelf) { stringBuilder.Append(((Object)transform).name); } while (Object.op_Implicit((Object)(object)transform.parent)) { transform = transform.parent; stringBuilder.Insert(0, '/'); stringBuilder.Insert(0, ((Object)transform).name); } return stringBuilder.ToString(); } public static string ToHex(this Color color) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) //IL_001f: Unknown result type (might be due to invalid IL or missing references) //IL_003d: Unknown result type (might be due to invalid IL or missing references) byte value = (byte)Mathf.Clamp(Mathf.RoundToInt(color.r * 255f), 0, 255); byte value2 = (byte)Mathf.Clamp(Mathf.RoundToInt(color.g * 255f), 0, 255); byte value3 = (byte)Mathf.Clamp(Mathf.RoundToInt(color.b * 255f), 0, 255); return $"{value:X2}{value2:X2}{value3:X2}"; } public static Color ToColor(this string _string) { //IL_006c: Unknown result type (might be due to invalid IL or missing references) //IL_00e4: Unknown result type (might be due to invalid IL or missing references) //IL_00e6: Unknown result type (might be due to invalid IL or missing references) //IL_00e7: Unknown result type (might be due to invalid IL or missing references) //IL_00e8: 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_002a: Unknown result type (might be due to invalid IL or missing references) //IL_00ec: Unknown result type (might be due to invalid IL or missing references) _string = _string.Replace("#", ""); if (_string.Length != 6) { return Color.magenta; } byte b = byte.Parse(_string.Substring(0, 2), NumberStyles.HexNumber); byte b2 = byte.Parse(_string.Substring(2, 2), NumberStyles.HexNumber); byte b3 = byte.Parse(_string.Substring(4, 2), NumberStyles.HexNumber); Color result = default(Color); result.r = (float)((decimal)b / 255m); result.g = (float)((decimal)b2 / 255m); result.b = (float)((decimal)b3 / 255m); result.a = 1f; return result; } public static UnityEvent<string> GetOnEndEdit(this InputField _this) { if (onEndEdit == null) { onEndEdit = AccessTools.Property(typeof(InputField), "onEndEdit") ?? throw new Exception("Could not get InputField.onEndEdit property!"); } return onEndEdit.GetValue(_this, null).TryCast<UnityEvent<string>>(); } } } namespace UniverseLib.UI { public class UIBase { internal static readonly int TOP_SORTORDER = 30000; public string ID { get; } public GameObject RootObject { get; } public RectTransform RootRect { get; } public Canvas Canvas { get; } public Action UpdateMethod { get; } public PanelManager Panels { get; } public bool Enabled { get { return Object.op_Implicit((Object)(object)RootObject) && RootObject.activeSelf; } set { UniversalUI.SetUIActive(ID, value); } } public UIBase(string id, Action updateMethod) { //IL_0063: Unknown result type (might be due to invalid IL or missing references) //IL_0069: Unknown result type (might be due to invalid IL or missing references) //IL_00f7: Unknown result type (might be due to invalid IL or missing references) //IL_0123: Unknown result type (might be due to invalid IL or missing references) //IL_012f: Unknown result type (might be due to invalid IL or missing references) //IL_0145: Unknown result type (might be due to invalid IL or missing references) if (string.IsNullOrEmpty(id)) { throw new ArgumentException("Cannot register a UI with a null or empty id!"); } if (UniversalUI.registeredUIs.ContainsKey(id)) { throw new ArgumentException("A UI with the id '" + id + "' is already registered!"); } ID = id; UpdateMethod = updateMethod; RootObject = UIFactory.CreateUIObject(id + "_Root", UniversalUI.CanvasRoot); RootObject.SetActive(false); RootRect = RootObject.GetComponent<RectTransform>(); Canvas = RootObject.AddComponent<Canvas>(); Canvas.renderMode = (RenderMode)1; Canvas.referencePixelsPerUnit = 100f; Canvas.sortingOrder = TOP_SORTORDER; Canvas.overrideSorting = true; CanvasScaler val = RootObject.AddComponent<CanvasScaler>(); val.referenceResolution = new Vector2(1920f, 1080f); val.screenMatchMode = (ScreenMatchMode)1; RootObject.AddComponent<GraphicRaycaster>(); RectTransform component = RootObject.GetComponent<RectTransform>(); component.anchorMin = Vector2.zero; component.anchorMax = Vector2.one; component.pivot = new Vector2(0.5f, 0.5f); Panels = CreatePanelManager(); RootObject.SetActive(true); UniversalUI.registeredUIs.Add(id, this); UniversalUI.uiBases.Add(this); } protected virtual PanelManager CreatePanelManager() { return new PanelManager(this); } public void SetOnTop() { RootObject.transform.SetAsLastSibling(); foreach (UIBase uiBasis in UniversalUI.uiBases) { int num = UniversalUI.CanvasRoot.transform.childCount - ((Transform)uiBasis.RootRect).GetSiblingIndex(); uiBasis.Canvas.sortingOrder = TOP_SORTORDER - num; } UniversalUI.uiBases.Sort((UIBase a, UIBase b) => b.RootObject.transform.GetSiblingIndex().CompareTo(a.RootObject.transform.GetSiblingIndex())); } internal void Update() { try { Panels.Update(); UpdateMethod?.Invoke(); } catch (Exception value) { Universe.LogWarning($"Exception invoking update method for {ID}: {value}"); } } } public static class UIFactory { internal static Vector2 largeElementSize = new Vector2(100f, 30f); internal static Vector2 smallElementSize = new Vector2(25f, 25f); internal static Color defaultTextColor = Color.white; public static GameObject CreateUIObject(string name, GameObject parent, Vector2 sizeDelta = default(Vector2)) { //IL_0002: Unknown result type (might be due to invalid IL or missing references) //IL_0007: Unknown result type (might be due to invalid IL or missing references) //IL_000f: Unknown result type (might be due to invalid IL or missing references) //IL_0019: Expected O, but got Unknown //IL_003e: Unknown result type (might be due to invalid IL or missing references) GameObject val = new GameObject(name) { layer = 5, hideFlags = (HideFlags)61 }; if (Object.op_Implicit((Object)(object)parent)) { val.transform.SetParent(parent.transform, false); } RectTransform val2 = val.AddComponent<RectTransform>(); val2.sizeDelta = sizeDelta; return val; } internal static void SetDefaultTextValues(Text text) { //IL_0002: Unknown result type (might be due to invalid IL or missing references) ((Graphic)text).color = defaultTextColor; text.font = UniversalUI.DefaultFont; text.fontSize = 14; } internal static void SetDefaultSelectableValues(Selectable selectable) { //IL_002d: Unknown result type (might be due to invalid IL or missing references) //IL_0046: Unknown result type (might be due to invalid IL or missing references) //IL_005f: Unknown result type (might be due to invalid IL or missing references) Navigation navigation = selectable.navigation; navigation.mode = (Mode)4; selectable.navigation = navigation; RuntimeHelper.Instance.Internal_SetColorBlock(selectable, (Color?)new Color(0.2f, 0.2f, 0.2f), (Color?)new Color(0.3f, 0.3f, 0.3f), (Color?)new Color(0.15f, 0.15f, 0.15f), (Color?)null); } public static LayoutElement SetLayoutElement(GameObject gameObject, int? minWidth = null, int? minHeight = null, int? flexibleWidth = null, int? flexibleHeight = null, int? preferredWidth = null, int? preferredHeight = null, bool? ignoreLayout = null) { LayoutElement val = gameObject.GetComponent<LayoutElement>(); if (!Object.op_Implicit((Object)(object)val)) { val = gameObject.AddComponent<LayoutElement>(); } if (minWidth.HasValue) { val.minWidth = minWidth.Value; } if (minHeight.HasValue) { val.minHeight = minHeight.Value; } if (flexibleWidth.HasValue) { val.flexibleWidth = flexibleWidth.Value; } if (flexibleHeight.HasValue) { val.flexibleHeight = flexibleHeight.Value; } if (preferredWidth.HasValue) { val.preferredWidth = preferredWidth.Value; } if (preferredHeight.HasValue) { val.preferredHeight = preferredHeight.Value; } if (ignoreLayout.HasValue) { val.ignoreLayout = ignoreLayout.Value; } return val; } public static T SetLayoutGroup<T>(GameObject gameObject, bool? forceWidth = null, bool? forceHeight = null, bool? childControlWidth = null, bool? childControlHeight = null, int? spacing = null, int? padTop = null, int? padBottom = null, int? padLeft = null, int? padRight = null, TextAnchor? childAlignment = null) where T : HorizontalOrVerticalLayoutGroup { T val = gameObject.GetComponent<T>(); if (!Object.op_Implicit((Object)(object)val)) { val = gameObject.AddComponent<T>(); } return SetLayoutGroup(val, forceWidth, forceHeight, childControlWidth, childControlHeight, spacing, padTop, padBottom, padLeft, padRight, childAlignment); } public static T SetLayoutGroup<T>(T group, bool? forceWidth = null, bool? forceHeight = null, bool? childControlWidth = null, bool? childControlHeight = null, int? spacing = null, int? padTop = null, int? padBottom = null, int? padLeft = null, int? padRight = null, TextAnchor? childAlignment = null) where T : HorizontalOrVerticalLayoutGroup { //IL_0143: Unknown result type (might be due to invalid IL or missing references) if (forceWidth.HasValue) { ((HorizontalOrVerticalLayoutGroup)group).childForceExpandWidth = forceWidth.Value; } if (forceHeight.HasValue) { ((HorizontalOrVerticalLayoutGroup)group).childForceExpandHeight = forceHeight.Value; } if (childControlWidth.HasValue) { ((HorizontalOrVerticalLayoutGroup)(object)group).SetChildControlWidth(childControlWidth.Value); } if (childControlHeight.HasValue) { ((HorizontalOrVerticalLayoutGroup)(object)group).SetChildControlHeight(childControlHeight.Value); } if (spacing.HasValue) { ((HorizontalOrVerticalLayoutGroup)group).spacing = spacing.Value; } if (padTop.HasValue) { ((LayoutGroup)(object)group).padding.top = padTop.Value; } if (padBottom.HasValue) { ((LayoutGroup)(object)group).padding.bottom = padBottom.Value; } if (padLeft.HasValue) { ((LayoutGroup)(object)group).padding.left = padLeft.Value; } if (padRight.HasValue) { ((LayoutGroup)(object)group).padding.right = padRight.Value; } if (childAlignment.HasValue) { ((LayoutGroup)(object)group).childAlignment = childAlignment.Value; } return group; } public static GameObject CreatePanel(string name, GameObject parent, out GameObject contentHolder, Color? bgColor = null) { //IL_0005: 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) //IL_0061: 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_0079: Unknown result type (might be due to invalid IL or missing references) //IL_0085: 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_00b1: Unknown result type (might be due to invalid IL or missing references) //IL_00b7: Unknown result type (might be due to invalid IL or missing references) //IL_00f0: Unknown result type (might be due to invalid IL or missing references) //IL_00da: Unknown result type (might be due to invalid IL or missing references) GameObject val = CreateUIObject(name, parent); UIFactory.SetLayoutGroup<VerticalLayoutGroup>(val, (bool?)true, (bool?)true, (bool?)true, (bool?)true, (int?)0, (int?)1, (int?)1, (int?)1, (int?)1, (TextAnchor?)null); RectTransform component = val.GetComponent<RectTransform>(); component.anchorMin = Vector2.zero; component.anchorMax = Vector2.one; component.anchoredPosition = Vector2.zero; component.sizeDelta = Vector2.zero; ((Graphic)val.AddComponent<Image>()).color = Color.black; val.AddComponent<RectMask2D>(); contentHolder = CreateUIObject("Content", val); Image val2 = contentHolder.AddComponent<Image>(); val2.type = (Type)3; ((Graphic)val2).color = (Color)((!bgColor.HasValue) ? new Color(0.07f, 0.07f, 0.07f) : bgColor.Value); UIFactory.SetLayoutGroup<VerticalLayoutGroup>(contentHolder, (bool?)true, (bool?)true, (bool?)true, (bool?)true, (int?)3, (int?)3, (int?)3, (int?)3, (int?)3, (TextAnchor?)null); return val; } public static GameObject CreateVerticalGroup(GameObject parent, string name, bool forceWidth, bool forceHeight, bool childControlWidth, bool childControlHeight, int spacing = 0, Vector4 padding = default(Vector4), Color bgColor = default(Color), TextAnchor? childAlignment = null) { //IL_0005: 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) //IL_0034: Unknown result type (might be due to invalid IL or missing references) //IL_0