Windows-powershell / PowerShell-master /src /System.Management.Automation /engine /runtime /Binding /Binders.cs
| // Copyright (c) Microsoft Corporation. | |
| // Licensed under the MIT License. | |
| using System.Buffers; | |
| using System.Collections; | |
| using System.Collections.Concurrent; | |
| using System.Collections.Generic; | |
| using System.Collections.Specialized; | |
| using System.Data; | |
| using System.Dynamic; | |
| using System.Globalization; | |
| using System.Linq; | |
| using System.Linq.Expressions; | |
| using System.Management.Automation.Internal; | |
| using System.Management.Automation.Runspaces; | |
| using System.Management.Automation.Security; | |
| using System.Reflection; | |
| using System.Runtime.CompilerServices; | |
| using System.Runtime.InteropServices; | |
| using System.Text; | |
| using System.Text.RegularExpressions; | |
| using System.Threading; | |
| using System.Xml; | |
| namespace System.Management.Automation.Language | |
| { | |
| // Item1 - member name | |
| // Item2 - class containing dynamic site (for protected/private member access) | |
| // Item3 - static (true) or instance (false) | |
| // Item4 - enumerating (true) or not (false) | |
| using PSGetMemberBinderKeyType = Tuple<string, Type, bool, bool>; | |
| // Item1 - member name | |
| // Item2 - class containing dynamic site (for protected/private member access) | |
| // Item3 - enumerating (true) or not (false) | |
| using PSSetMemberBinderKeyType = Tuple<string, Type, bool>; | |
| // Item1 - member name | |
| // Item2 - callinfo (# of args and (not used) named arguments) | |
| // Item3 - property setter (true) or not (false) | |
| // Item4 - enumerating (true) or not (false) | |
| // Item5 - invocation constraints (casts used in the invocation expression used to guide overload resolution) | |
| // Item6 - static (true) or instance (false) | |
| // Item7 - class containing dynamic site (for protected/private member access) | |
| using PSInvokeMemberBinderKeyType = Tuple<string, CallInfo, bool, bool, PSMethodInvocationConstraints, bool, Type>; | |
| // Item1 - callinfo (# of args and (not used) named arguments) | |
| // Item2 - invocation constraints (casts used in the invocation expression used to guide overload resolution) | |
| // Item3 - property setter (true) or not (false) | |
| // Item4 - static (true) or instance (false) | |
| // Item5 - class containing dynamic site (for protected/private member access) | |
| using PSInvokeDynamicMemberBinderKeyType = Tuple<CallInfo, PSMethodInvocationConstraints, bool, bool, Type>; | |
| // Item1 - class containing dynamic site (for protected/private member access) | |
| // Item2 - static (true) or instance (false) | |
| using PSGetOrSetDynamicMemberBinderKeyType = Tuple<Type, bool>; | |
| /// <summary> | |
| /// Extension methods for DynamicMetaObject. Some of these extensions help handle PSObject, both in terms of | |
| /// getting the type or value from a DynamicMetaObject, but also help to generate binding restrictions that | |
| /// account for values that are optionally wrapped in PSObject. | |
| /// </summary> | |
| internal static class DynamicMetaObjectExtensions | |
| { | |
| internal static readonly DynamicMetaObject FakeError | |
| = new DynamicMetaObject(ExpressionCache.NullConstant, BindingRestrictions.Empty); | |
| internal static DynamicMetaObject WriteToDebugLog(this DynamicMetaObject obj, DynamicMetaObjectBinder binder) | |
| { | |
| if (obj != FakeError) | |
| { | |
| System.Diagnostics.Debug.WriteLine("Binder: {0}\r\n Restrictions: {2}\r\n Target: {1}", | |
| binder.ToString(), | |
| obj.Expression.ToDebugString(), | |
| obj.Restrictions.ToDebugString()); | |
| } | |
| return obj; | |
| } | |
| internal static BindingRestrictions GetSimpleTypeRestriction(this DynamicMetaObject obj) | |
| { | |
| if (obj.Value == null) | |
| { | |
| return BindingRestrictions.GetInstanceRestriction(obj.Expression, obj.Value); | |
| } | |
| return BindingRestrictions.GetTypeRestriction(obj.Expression, obj.Value.GetType()); | |
| } | |
| internal static BindingRestrictions PSGetMethodArgumentRestriction(this DynamicMetaObject obj) | |
| { | |
| var baseValue = PSObject.Base(obj.Value); | |
| if (baseValue != null && baseValue.GetType() == typeof(object[])) | |
| { | |
| var effectiveArgType = Adapter.EffectiveArgumentType(obj.Value); | |
| var methodInfo = effectiveArgType != typeof(object[]) | |
| ? CachedReflectionInfo.PSInvokeMemberBinder_IsHomogeneousArray.MakeGenericMethod(effectiveArgType.GetElementType()) | |
| : CachedReflectionInfo.PSInvokeMemberBinder_IsHeterogeneousArray; | |
| BindingRestrictions restrictions; | |
| Expression test; | |
| if (obj.Value != baseValue) | |
| { | |
| // Need PSObject... | |
| restrictions = BindingRestrictions.GetTypeRestriction(obj.Expression, typeof(PSObject)); | |
| var temp = Expression.Variable(typeof(object[])); | |
| test = Expression.Block( | |
| new[] { temp }, | |
| Expression.Assign(temp, Expression.TypeAs(Expression.Call(CachedReflectionInfo.PSObject_Base, obj.Expression), typeof(object[]))), | |
| Expression.AndAlso( | |
| Expression.NotEqual(temp, ExpressionCache.NullObjectArray), | |
| Expression.Call(methodInfo, temp))); | |
| } | |
| else | |
| { | |
| restrictions = BindingRestrictions.GetTypeRestriction(obj.Expression, typeof(object[])); | |
| var arrayExpr = obj.Expression.Cast(typeof(object[])); | |
| test = Expression.Call(methodInfo, arrayExpr); | |
| } | |
| return restrictions.Merge(BindingRestrictions.GetExpressionRestriction(test)); | |
| } | |
| return obj.PSGetTypeRestriction(); | |
| } | |
| internal static BindingRestrictions PSGetStaticMemberRestriction(this DynamicMetaObject obj) | |
| { | |
| if (obj.Restrictions != BindingRestrictions.Empty) | |
| { | |
| return obj.Restrictions; | |
| } | |
| if (obj.Value == null) | |
| { | |
| return BindingRestrictions.GetInstanceRestriction(obj.Expression, obj.Value); | |
| } | |
| var baseValue = PSObject.Base(obj.Value); | |
| if (baseValue == null) | |
| { | |
| Diagnostics.Assert(obj.Value == AutomationNull.Value, "PSObject.Base should only return null for AutomationNull.Value"); | |
| return BindingRestrictions.GetExpressionRestriction(Expression.Equal(obj.Expression, Expression.Constant(AutomationNull.Value))); | |
| } | |
| BindingRestrictions restrictions; | |
| if (baseValue is Type) | |
| { | |
| if (obj.Value == baseValue) | |
| { | |
| // newObj == oldObj (if not wrapped in PSObject) or | |
| restrictions = BindingRestrictions.GetInstanceRestriction(obj.Expression, obj.Value); | |
| } | |
| else | |
| { | |
| // newObj.GetType() == typeof(PSObject) && PSObject.Base(newObj) == oldObj | |
| restrictions = BindingRestrictions.GetTypeRestriction(obj.Expression, obj.LimitType); | |
| restrictions = restrictions.Merge( | |
| BindingRestrictions.GetInstanceRestriction( | |
| Expression.Call(CachedReflectionInfo.PSObject_Base, obj.Expression), | |
| baseValue)); | |
| } | |
| } | |
| else if (obj.Value != baseValue) | |
| { | |
| // Binding restriction will look like: | |
| // newObj.GetType() == typeof(PSObject) && PSObject.Base(newObj).GetType() == typeof(oldType) | |
| restrictions = BindingRestrictions.GetTypeRestriction( | |
| Expression.Call(CachedReflectionInfo.PSObject_Base, obj.Expression), | |
| baseValue.GetType()); | |
| } | |
| else | |
| { | |
| restrictions = BindingRestrictions.GetTypeRestriction(obj.Expression, obj.LimitType); | |
| } | |
| return restrictions; | |
| } | |
| internal static BindingRestrictions PSGetTypeRestriction(this DynamicMetaObject obj) | |
| { | |
| if (obj.Restrictions != BindingRestrictions.Empty) | |
| { | |
| return obj.Restrictions; | |
| } | |
| if (obj.Value == null) | |
| { | |
| return BindingRestrictions.GetInstanceRestriction(obj.Expression, obj.Value); | |
| } | |
| var baseValue = PSObject.Base(obj.Value); | |
| if (baseValue == null) | |
| { | |
| Diagnostics.Assert(obj.Value == AutomationNull.Value, "PSObject.Base should only return null for AutomationNull.Value"); | |
| return BindingRestrictions.GetExpressionRestriction(Expression.Equal(obj.Expression, Expression.Constant(AutomationNull.Value))); | |
| } | |
| // The default restriction is a simple type test. We use this type test even if the object is a PSObject, | |
| // this way we can avoid calling PSObject.Base in all restriction checks. | |
| var restrictions = BindingRestrictions.GetTypeRestriction(obj.Expression, obj.LimitType); | |
| if (obj.Value != baseValue) | |
| { | |
| // Binding restriction will look like: | |
| // newObj.GetType() == typeof(PSObject) && PSObject.Base(newObj).GetType() == typeof(oldType) | |
| restrictions = restrictions.Merge( | |
| BindingRestrictions.GetTypeRestriction(Expression.Call(CachedReflectionInfo.PSObject_Base, obj.Expression), | |
| baseValue.GetType())); | |
| } | |
| else if (baseValue is PSObject) | |
| { | |
| // We have an empty custom object. The restrictions must check this explicitly, otherwise we have | |
| // a simple type test on PSObject, which obviously tests true for many objects. | |
| // So we end up with: | |
| // newObj.GetType() == typeof(PSObject) && PSObject.Base(newObj) == newObj | |
| restrictions = restrictions.Merge( | |
| BindingRestrictions.GetExpressionRestriction( | |
| Expression.Equal(Expression.Call(CachedReflectionInfo.PSObject_Base, obj.Expression), obj.Expression))); | |
| } | |
| return restrictions; | |
| } | |
| internal static BindingRestrictions CombineRestrictions(this DynamicMetaObject target, params DynamicMetaObject[] args) | |
| { | |
| var restrictions = target.Restrictions == BindingRestrictions.Empty ? target.PSGetTypeRestriction() : target.Restrictions; | |
| for (int index = 0; index < args.Length; index++) | |
| { | |
| var r = args[index]; | |
| restrictions = | |
| restrictions.Merge(r.Restrictions == BindingRestrictions.Empty | |
| ? r.PSGetTypeRestriction() | |
| : r.Restrictions); | |
| } | |
| return restrictions; | |
| } | |
| internal static Expression CastOrConvertMethodArgument(this DynamicMetaObject target, | |
| Type parameterType, | |
| string parameterName, | |
| string methodName, | |
| bool allowCastingToByRefLikeType, | |
| List<ParameterExpression> temps, | |
| List<Expression> initTemps) | |
| { | |
| if (target.Value == AutomationNull.Value) | |
| { | |
| return Expression.Constant(null, parameterType); | |
| } | |
| var argType = target.LimitType; | |
| if (parameterType == typeof(object) && argType == typeof(PSObject)) | |
| { | |
| return Expression.Call(CachedReflectionInfo.PSObject_Base, target.Expression.Cast(typeof(PSObject))); | |
| } | |
| // If the conversion can't fail, skip wrapping the conversion in try/catch so we generate less code. | |
| if (parameterType.IsAssignableFrom(argType)) | |
| { | |
| return target.Expression.Cast(parameterType); | |
| } | |
| ConversionRank? rank = null; | |
| if (parameterType.IsByRefLike && allowCastingToByRefLikeType) | |
| { | |
| var conversionResult = PSConvertBinder.ConvertToByRefLikeTypeViaCasting(target, parameterType); | |
| if (conversionResult != null) | |
| { | |
| return conversionResult; | |
| } | |
| rank = ConversionRank.None; | |
| } | |
| var exceptionParam = Expression.Variable(typeof(Exception)); | |
| var targetTemp = Expression.Variable(target.Expression.Type); | |
| bool debase = false; | |
| // ConstrainedLanguage note - calls to this conversion are covered by the method resolution algorithm | |
| // (which ignores method arguments with disallowed types) | |
| var conversion = rank == ConversionRank.None | |
| ? LanguagePrimitives.NoConversion | |
| : LanguagePrimitives.FigureConversion(target.Value, parameterType, out debase); | |
| var invokeConverter = PSConvertBinder.InvokeConverter(conversion, targetTemp, parameterType, debase, ExpressionCache.InvariantCulture); | |
| var expr = | |
| Expression.Block(new[] { targetTemp }, | |
| Expression.TryCatch( | |
| Expression.Block( | |
| Expression.Assign(targetTemp, target.Expression), | |
| invokeConverter), | |
| Expression.Catch(exceptionParam, | |
| Expression.Block( | |
| Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_ConvertToArgumentConversionException, | |
| exceptionParam, | |
| Expression.Constant(parameterName), | |
| targetTemp.Cast(typeof(object)), | |
| Expression.Constant(methodName), | |
| Expression.Constant(parameterType, typeof(Type))), | |
| Expression.Default(invokeConverter.Type))))); | |
| var tmp = Expression.Variable(expr.Type); | |
| temps.Add(tmp); | |
| initTemps.Add(Expression.Assign(tmp, expr)); | |
| return tmp; | |
| } | |
| internal static Expression CastOrConvert(this DynamicMetaObject target, Type type) | |
| { | |
| if (target.LimitType == type) | |
| { | |
| return target.Expression.Cast(type); | |
| } | |
| bool debase; | |
| // ConstrainedLanguage note - calls to this conversion are done by: | |
| // Switch statements (always to Object), method invocation (protected by InvokeMember binder), | |
| // and hard-coded casts to integral types. | |
| var conversion = LanguagePrimitives.FigureConversion(target.Value, type, out debase); | |
| return PSConvertBinder.InvokeConverter(conversion, target.Expression, type, debase, ExpressionCache.InvariantCulture); | |
| } | |
| internal static DynamicMetaObject ThrowRuntimeError(this DynamicMetaObject target, DynamicMetaObject[] args, | |
| BindingRestrictions moreTests, string errorID, | |
| string resourceString, params Expression[] exceptionArgs) | |
| { | |
| return new DynamicMetaObject(Compiler.ThrowRuntimeError(errorID, resourceString, exceptionArgs), | |
| target.CombineRestrictions(args).Merge(moreTests)); | |
| } | |
| internal static DynamicMetaObject ThrowRuntimeError(this DynamicMetaObject target, BindingRestrictions bindingRestrictions, | |
| string errorID, string resourceString, params Expression[] exceptionArgs) | |
| { | |
| return new DynamicMetaObject(Compiler.ThrowRuntimeError(errorID, resourceString, exceptionArgs), | |
| bindingRestrictions); | |
| } | |
| internal static string ToDebugString(this BindingRestrictions restrictions) | |
| { | |
| return restrictions.ToExpression().ToDebugString(); | |
| } | |
| } | |
| internal static class DynamicMetaObjectBinderExtensions | |
| { | |
| internal static DynamicMetaObject DeferForPSObject(this DynamicMetaObjectBinder binder, DynamicMetaObject target, bool targetIsComObject = false) | |
| { | |
| Diagnostics.Assert(target.Value is PSObject, "target must be a psobject"); | |
| BindingRestrictions restrictions = BindingRestrictions.Empty; | |
| Expression expr = ProcessOnePSObject(target, ref restrictions, argIsComObject: targetIsComObject); | |
| return new DynamicMetaObject(DynamicExpression.Dynamic(binder, binder.ReturnType, expr), restrictions); | |
| } | |
| internal static DynamicMetaObject DeferForPSObject(this DynamicMetaObjectBinder binder, DynamicMetaObject target, DynamicMetaObject arg, bool targetIsComObject = false) | |
| { | |
| Diagnostics.Assert(target.Value is PSObject || arg.Value is PSObject, "At least one arg must be a psobject"); | |
| BindingRestrictions restrictions = BindingRestrictions.Empty; | |
| Expression expr1 = ProcessOnePSObject(target, ref restrictions, argIsComObject: targetIsComObject); | |
| Expression expr2 = ProcessOnePSObject(arg, ref restrictions, argIsComObject: false); | |
| return new DynamicMetaObject(DynamicExpression.Dynamic(binder, binder.ReturnType, expr1, expr2), restrictions); | |
| } | |
| internal static DynamicMetaObject DeferForPSObject(this DynamicMetaObjectBinder binder, DynamicMetaObject[] args, bool targetIsComObject = false) | |
| { | |
| Diagnostics.Assert(args != null && args.Length > 0, "args should not be null or empty"); | |
| Diagnostics.Assert(args.Any(mo => mo.Value is PSObject), "At least one arg must be a psobject"); | |
| Expression[] exprs = new Expression[args.Length]; | |
| BindingRestrictions restrictions = BindingRestrictions.Empty; | |
| // Target maps to arg[0] of the binder. | |
| exprs[0] = ProcessOnePSObject(args[0], ref restrictions, targetIsComObject); | |
| for (int i = 1; i < args.Length; i++) | |
| { | |
| exprs[i] = ProcessOnePSObject(args[i], ref restrictions, argIsComObject: false); | |
| } | |
| return new DynamicMetaObject(DynamicExpression.Dynamic(binder, binder.ReturnType, exprs), restrictions); | |
| } | |
| private static Expression ProcessOnePSObject(DynamicMetaObject arg, ref BindingRestrictions restrictions, bool argIsComObject = false) | |
| { | |
| Expression expr = null; | |
| object baseValue = PSObject.Base(arg.Value); | |
| if (baseValue != arg.Value) | |
| { | |
| expr = Expression.Call(CachedReflectionInfo.PSObject_Base, arg.Expression.Cast(typeof(object))); | |
| if (argIsComObject) | |
| { | |
| // The 'base' is a COM object, so bake that in the rule. | |
| restrictions = restrictions | |
| .Merge(arg.GetSimpleTypeRestriction()) | |
| .Merge(BindingRestrictions.GetExpressionRestriction(Expression.Call(CachedReflectionInfo.Utils_IsComObject, expr))); | |
| } | |
| else | |
| { | |
| // Use a more general condition for the rule: 'arg' is a PSObject and 'base != arg'. | |
| restrictions = restrictions | |
| .Merge(arg.GetSimpleTypeRestriction()) | |
| .Merge(BindingRestrictions.GetExpressionRestriction(Expression.NotEqual(expr, arg.Expression))); | |
| } | |
| } | |
| else | |
| { | |
| expr = arg.Expression; | |
| restrictions = restrictions.Merge(arg.PSGetTypeRestriction()); | |
| } | |
| return expr; | |
| } | |
| internal static DynamicMetaObject UpdateComRestrictionsForPsObject(this DynamicMetaObject binder, DynamicMetaObject[] args) | |
| { | |
| // Add a restriction that prevents PSObject arguments (so that they get based) | |
| BindingRestrictions newRestrictions = binder.Restrictions; | |
| newRestrictions = args.Aggregate(newRestrictions, (current, arg) => | |
| { | |
| if (arg.LimitType.IsValueType) | |
| { | |
| return current.Merge(arg.GetSimpleTypeRestriction()); | |
| } | |
| else | |
| { | |
| return current.Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.Equal( | |
| Expression.Call(CachedReflectionInfo.PSObject_Base, arg.Expression), | |
| arg.Expression))); | |
| } | |
| }); | |
| return new DynamicMetaObject(binder.Expression, newRestrictions); | |
| } | |
| } | |
| internal static class BinderUtils | |
| { | |
| internal static BindingRestrictions GetVersionCheck(DynamicMetaObjectBinder binder, int expectedVersionNumber) | |
| { | |
| return BindingRestrictions.GetExpressionRestriction( | |
| Expression.Equal(Expression.Field(Expression.Constant(binder), "_version"), | |
| ExpressionCache.Constant(expectedVersionNumber))); | |
| } | |
| internal static BindingRestrictions GetLanguageModeCheckIfHasEverUsedConstrainedLanguage() | |
| { | |
| // Also add a language mode check to detect toggling between language modes | |
| if (ExecutionContext.HasEverUsedConstrainedLanguage) | |
| { | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| var tmp = Expression.Variable(typeof(ExecutionContext)); | |
| var langModeFromContext = Expression.Property(tmp, CachedReflectionInfo.ExecutionContext_LanguageMode); | |
| var constrainedLanguageMode = Expression.Constant(PSLanguageMode.ConstrainedLanguage); | |
| // Execution context might be null if we're called from a thread with no runspace (e.g. a PSObject | |
| // is used in some C# w/ dynamic). This is sometimes fine, we don't always need a runspace to access | |
| // properties. | |
| Expression test = context?.LanguageMode == PSLanguageMode.ConstrainedLanguage | |
| ? Expression.AndAlso( | |
| Expression.NotEqual(tmp, ExpressionCache.NullExecutionContext), | |
| Expression.Equal(langModeFromContext, constrainedLanguageMode)) | |
| : Expression.OrElse( | |
| Expression.Equal(tmp, ExpressionCache.NullExecutionContext), | |
| Expression.NotEqual(langModeFromContext, constrainedLanguageMode)); | |
| return BindingRestrictions.GetExpressionRestriction( | |
| Expression.Block( | |
| new[] { tmp }, | |
| Expression.Assign(tmp, ExpressionCache.GetExecutionContextFromTLS), | |
| test)); | |
| } | |
| return BindingRestrictions.Empty; | |
| } | |
| internal static BindingRestrictions GetOptionalVersionAndLanguageCheckForType(DynamicMetaObjectBinder binder, Type targetType, int expectedVersionNumber) | |
| { | |
| BindingRestrictions additionalBindingRestrictions = BindingRestrictions.Empty; | |
| // If this uses a potentially unsafe type, we also need a version check | |
| if (!CoreTypes.Contains(targetType)) | |
| { | |
| if (expectedVersionNumber != -1) | |
| { | |
| additionalBindingRestrictions = additionalBindingRestrictions.Merge(BinderUtils.GetVersionCheck(binder, expectedVersionNumber)); | |
| } | |
| additionalBindingRestrictions = additionalBindingRestrictions.Merge(GetLanguageModeCheckIfHasEverUsedConstrainedLanguage()); | |
| } | |
| return additionalBindingRestrictions; | |
| } | |
| } | |
| /// <summary> | |
| /// Some classes that implement IEnumerable are not considered as enumerable from the perspective of pipelines, | |
| /// this binder implements those semantics. | |
| /// | |
| /// The standard interop ConvertBinder is used to allow third party dynamic objects to get the first chance | |
| /// at the conversion in case they do support enumeration, but do not implement IEnumerable directly. | |
| /// </summary> | |
| internal sealed class PSEnumerableBinder : ConvertBinder | |
| { | |
| private static readonly PSEnumerableBinder s_binder = new PSEnumerableBinder(); | |
| internal static PSEnumerableBinder Get() | |
| { | |
| return s_binder; | |
| } | |
| private PSEnumerableBinder() | |
| : base(typeof(IEnumerator), false) | |
| { | |
| CacheTarget((Func<CallSite, object, IEnumerator>)(PSObjectStringRule)); | |
| CacheTarget((Func<CallSite, object, IEnumerator>)(ArrayRule)); | |
| CacheTarget((Func<CallSite, object, IEnumerator>)(StringRule)); | |
| CacheTarget((Func<CallSite, object, IEnumerator>)(NotEnumerableRule)); | |
| CacheTarget((Func<CallSite, object, IEnumerator>)(PSObjectNotEnumerableRule)); | |
| CacheTarget((Func<CallSite, object, IEnumerator>)(AutomationNullRule)); | |
| } | |
| public override string ToString() | |
| { | |
| return "ToEnumerable"; | |
| } | |
| internal static BindingRestrictions GetRestrictions(DynamicMetaObject target) | |
| { | |
| return (target.Value is PSObject) | |
| ? BindingRestrictions.GetTypeRestriction(target.Expression, target.Value.GetType()) | |
| : target.PSGetTypeRestriction(); | |
| } | |
| private DynamicMetaObject NullResult(DynamicMetaObject target) | |
| { | |
| // The object is not enumerable from PowerShell's perspective. Rather than raise an exception, we let the | |
| // caller check for null and take the appropriate action. | |
| return new DynamicMetaObject( | |
| MaybeDebase(this, static e => ExpressionCache.NullEnumerator, target), | |
| GetRestrictions(target)); | |
| } | |
| internal static Expression MaybeDebase(DynamicMetaObjectBinder binder, Func<Expression, Expression> generator, DynamicMetaObject target) | |
| { | |
| if (target.Value is not PSObject) | |
| { | |
| return generator(target.Expression); | |
| } | |
| object targetValue = PSObject.Base(target.Value); | |
| var tmp = Expression.Parameter(typeof(object), "value"); | |
| return Expression.Block( | |
| new ParameterExpression[] { tmp }, | |
| Expression.Assign(tmp, Expression.Call(CachedReflectionInfo.PSObject_Base, target.Expression)), | |
| Expression.Condition( | |
| targetValue == null ? | |
| (Expression)Expression.AndAlso(Expression.Equal(tmp, ExpressionCache.NullConstant), | |
| Expression.Not(Expression.Equal(target.Expression, ExpressionCache.AutomationNullConstant))) | |
| : Expression.TypeEqual(tmp, targetValue.GetType()), | |
| generator(tmp), binder.GetUpdateExpression(binder.ReturnType))); | |
| } | |
| public override DynamicMetaObject FallbackConvert(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target).WriteToDebugLog(this); | |
| } | |
| if (target.Value == AutomationNull.Value) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(Expression.Constant(Array.Empty<object>()), typeof(Array).GetMethod("GetEnumerator")), | |
| BindingRestrictions.GetInstanceRestriction(target.Expression, AutomationNull.Value)).WriteToDebugLog(this); | |
| } | |
| var targetValue = PSObject.Base(target.Value); | |
| if (targetValue == null || targetValue is string || targetValue is PSObject) | |
| { | |
| return (errorSuggestion ?? NullResult(target)).WriteToDebugLog(this); | |
| } | |
| if (targetValue.GetType().IsArray) | |
| { | |
| return (new DynamicMetaObject( | |
| MaybeDebase(this, static e => Expression.Call(Expression.Convert(e, typeof(Array)), typeof(Array).GetMethod("GetEnumerator")), | |
| target), | |
| GetRestrictions(target))).WriteToDebugLog(this); | |
| } | |
| if (targetValue is IDictionary || targetValue is XmlNode) | |
| { | |
| return (errorSuggestion ?? NullResult(target)).WriteToDebugLog(this); | |
| } | |
| if (targetValue is DataTable) | |
| { | |
| // Generate: | |
| // | |
| // DataRowCollection rows; | |
| // DataTable table = (DataTable)obj; | |
| // if ((rows = table.Rows) != null) | |
| // return rows.GetEnumerator(); | |
| // else | |
| // return null; | |
| return (new DynamicMetaObject( | |
| MaybeDebase(this, e => | |
| { | |
| var table = Expression.Parameter(typeof(DataTable), "table"); | |
| var rows = Expression.Parameter(typeof(DataRowCollection), "rows"); | |
| return Expression.Block(new ParameterExpression[] { table, rows }, | |
| Expression.Assign(table, e.Cast(typeof(DataTable))), | |
| Expression.Condition( | |
| Expression.NotEqual(Expression.Assign(rows, Expression.Property(table, "Rows")), ExpressionCache.NullConstant), | |
| Expression.Call(rows, typeof(DataRowCollection).GetMethod("GetEnumerator")), | |
| ExpressionCache.NullEnumerator)); | |
| }, | |
| target), | |
| GetRestrictions(target))).WriteToDebugLog(this); | |
| } | |
| if (Marshal.IsComObject(targetValue)) | |
| { | |
| // Pretend that all com objects are enumerable, even if they aren't. We do this because it's technically impossible | |
| // to know if a com object is enumerable without just trying to cast it to IEnumerable. We could generate a rule like: | |
| // | |
| // if (IsComObject(obj)) { return obj as IEnumerable; } else { UpdateSite; } | |
| // | |
| // But code that calls PSEnumerableBinder.IsEnumerable and generate code based on the true/false result of that | |
| // function wouldn't work properly. Instead, we'll fix things up after the binding decisions are made, see | |
| // EnumerableOps.NonEnumerableObjectEnumerator for more comments on how this works. | |
| var bindingRestrictions = BindingRestrictions.GetExpressionRestriction( | |
| Expression.Call(CachedReflectionInfo.Utils_IsComObject, | |
| Expression.Call(CachedReflectionInfo.PSObject_Base, target.Expression))); | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_GetCOMEnumerator, target.Expression), bindingRestrictions).WriteToDebugLog(this); | |
| } | |
| var enumerable = targetValue as IEnumerable; | |
| if (enumerable != null) | |
| { | |
| // Normally it's safe to just call IEnumerable.GetEnumerator, but in some rare cases, the | |
| // non-generic implementation throws or returns null, so we'll just avoid that problem and | |
| // call the generic version if it exists. | |
| foreach (var i in targetValue.GetType().GetInterfaces()) | |
| { | |
| if (i.IsGenericType && i.GetGenericTypeDefinition() == typeof(IEnumerable<>)) | |
| { | |
| return (new DynamicMetaObject( | |
| MaybeDebase(this, e => Expression.Call( | |
| CachedReflectionInfo.EnumerableOps_GetGenericEnumerator.MakeGenericMethod(i.GetGenericArguments()[0]), Expression.Convert(e, i)), | |
| target), | |
| GetRestrictions(target))).WriteToDebugLog(this); | |
| } | |
| } | |
| return (new DynamicMetaObject( | |
| MaybeDebase(this, static e => Expression.Call(CachedReflectionInfo.EnumerableOps_GetEnumerator, Expression.Convert(e, typeof(IEnumerable))), | |
| target), | |
| GetRestrictions(target))).WriteToDebugLog(this); | |
| } | |
| var enumerator = targetValue as IEnumerator; | |
| if (enumerator != null) | |
| { | |
| return (new DynamicMetaObject( | |
| MaybeDebase(this, static e => e.Cast(typeof(IEnumerator)), target), | |
| GetRestrictions(target))).WriteToDebugLog(this); | |
| } | |
| return (errorSuggestion ?? NullResult(target)).WriteToDebugLog(this); | |
| } | |
| /// <summary> | |
| /// Check if the statically known type is potentially enumerable. We can avoid some dynamic sites if we know the | |
| /// type is never enumerable. | |
| /// </summary> | |
| internal static bool IsStaticTypePossiblyEnumerable(Type type) | |
| { | |
| if (type == typeof(object) || type == typeof(PSObject) || type.IsArray) | |
| { | |
| return true; | |
| } | |
| if (type == typeof(string) || typeof(IDictionary).IsAssignableFrom(type) || typeof(XmlNode).IsAssignableFrom(type)) | |
| { | |
| return false; | |
| } | |
| if (type.IsSealed && !typeof(IEnumerable).IsAssignableFrom(type) && !typeof(IEnumerator).IsAssignableFrom(type)) | |
| { | |
| return false; | |
| } | |
| return true; | |
| } | |
| // Binders normally cannot return null, but we want a way to detect if something is enumerable, | |
| // so we return null if the target is not enumerable. | |
| internal static DynamicMetaObject IsEnumerable(DynamicMetaObject target) | |
| { | |
| var binder = PSEnumerableBinder.Get(); | |
| var result = binder.FallbackConvert(target, DynamicMetaObjectExtensions.FakeError); | |
| return (result == DynamicMetaObjectExtensions.FakeError) ? null : result; | |
| } | |
| private static IEnumerator AutomationNullRule(CallSite site, object obj) | |
| { | |
| return obj == AutomationNull.Value | |
| ? Array.Empty<object>().GetEnumerator() | |
| : ((CallSite<Func<CallSite, object, IEnumerator>>)site).Update(site, obj); | |
| } | |
| private static IEnumerator NotEnumerableRule(CallSite site, object obj) | |
| { | |
| if (obj == null) | |
| { | |
| return null; | |
| } | |
| if (obj is not PSObject | |
| && obj is not IEnumerable | |
| && obj is not IEnumerator | |
| && obj is not DataTable | |
| && !Marshal.IsComObject(obj)) | |
| { | |
| return null; | |
| } | |
| return ((CallSite<Func<CallSite, object, IEnumerator>>)site).Update(site, obj); | |
| } | |
| private static IEnumerator PSObjectNotEnumerableRule(CallSite site, object obj) | |
| { | |
| var psobj = obj as PSObject; | |
| return psobj != null && obj != AutomationNull.Value | |
| ? NotEnumerableRule(site, PSObject.Base(obj)) | |
| : ((CallSite<Func<CallSite, object, IEnumerator>>)site).Update(site, obj); | |
| } | |
| private static IEnumerator ArrayRule(CallSite site, object obj) | |
| { | |
| var array = obj as Array; | |
| if (array != null) return array.GetEnumerator(); | |
| return ((CallSite<Func<CallSite, object, IEnumerator>>)site).Update(site, obj); | |
| } | |
| private static IEnumerator StringRule(CallSite site, object obj) | |
| { | |
| return obj is string ? null : ((CallSite<Func<CallSite, object, IEnumerator>>)site).Update(site, obj); | |
| } | |
| private static IEnumerator PSObjectStringRule(CallSite site, object obj) | |
| { | |
| var psobj = obj as PSObject; | |
| if (psobj != null && PSObject.Base(psobj) is string) return null; | |
| return ((CallSite<Func<CallSite, object, IEnumerator>>)site).Update(site, obj); | |
| } | |
| } | |
| /// <summary> | |
| /// This binder is used for the @() operator. | |
| /// </summary> | |
| internal sealed class PSToObjectArrayBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly PSToObjectArrayBinder s_binder = new PSToObjectArrayBinder(); | |
| internal static PSToObjectArrayBinder Get() | |
| { | |
| return s_binder; | |
| } | |
| private PSToObjectArrayBinder() | |
| { | |
| } | |
| public override string ToString() | |
| { | |
| return "ToObjectArray"; | |
| } | |
| public override Type ReturnType { get { return typeof(object[]); } } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target, args); | |
| } | |
| if (target.Value == AutomationNull.Value) | |
| { | |
| return new DynamicMetaObject(Expression.Constant(Array.Empty<object>()), | |
| BindingRestrictions.GetInstanceRestriction(target.Expression, AutomationNull.Value)).WriteToDebugLog(this); | |
| } | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.NewArrayInit(typeof(object), target.Expression.Cast(typeof(object))), | |
| target.PSGetTypeRestriction()).WriteToDebugLog(this); | |
| } | |
| var value = PSObject.Base(target.Value); | |
| if (value is List<object>) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(PSEnumerableBinder.MaybeDebase(this, static e => e.Cast(typeof(List<object>)), target), CachedReflectionInfo.ObjectList_ToArray), | |
| PSEnumerableBinder.GetRestrictions(target)).WriteToDebugLog(this); | |
| } | |
| // It's enumerable, but not an List<object>. Call EnumerableOps.ToArray | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_ToArray, enumerable.Expression), | |
| target.PSGetTypeRestriction()).WriteToDebugLog(this); | |
| } | |
| } | |
| internal sealed class PSPipeWriterBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly PSPipeWriterBinder s_binder = new PSPipeWriterBinder(); | |
| internal static PSPipeWriterBinder Get() | |
| { | |
| return s_binder; | |
| } | |
| private PSPipeWriterBinder() | |
| { | |
| CacheTarget((Action<CallSite, object, Pipe, ExecutionContext>)StringRule); | |
| CacheTarget((Action<CallSite, object, Pipe, ExecutionContext>)AutomationNullRule); | |
| CacheTarget((Action<CallSite, object, Pipe, ExecutionContext>)BoolRule); | |
| CacheTarget((Action<CallSite, object, Pipe, ExecutionContext>)IntRule); | |
| } | |
| public override string ToString() | |
| { | |
| return "PipelineWriter"; | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| // args[0] is the pipe | |
| // args[1] is the execution context, only used if we're enumerating | |
| if (!target.HasValue) | |
| { | |
| return Defer(target, args); | |
| } | |
| if (target.Value == AutomationNull.Value) | |
| { | |
| return (new DynamicMetaObject( | |
| Expression.Block(typeof(void), Expression.Call(CachedReflectionInfo.PipelineOps_Nop)), | |
| BindingRestrictions.GetInstanceRestriction(target.Expression, AutomationNull.Value))).WriteToDebugLog(this); | |
| } | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null) | |
| { | |
| var bindingResult = PSVariableAssignmentBinder.Get().Bind(target, Array.Empty<DynamicMetaObject>()); | |
| var restrictions = target.LimitType.IsValueType | |
| ? bindingResult.Restrictions | |
| : target.PSGetTypeRestriction(); | |
| return (new DynamicMetaObject( | |
| Expression.Call(args[0].Expression, | |
| CachedReflectionInfo.Pipe_Add, | |
| bindingResult.Expression.Cast(typeof(object))), | |
| restrictions)).WriteToDebugLog(this); | |
| } | |
| bool needsToDispose = PSObject.Base(target.Value) is not IEnumerator; | |
| return (new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_WriteEnumerableToPipe, | |
| enumerable.Expression, | |
| args[0].Expression, | |
| args[1].Expression, | |
| ExpressionCache.Constant(needsToDispose)), | |
| enumerable.Restrictions)).WriteToDebugLog(this); | |
| } | |
| private static void BoolRule(CallSite site, object obj, Pipe pipe, ExecutionContext context) | |
| { | |
| if (obj is bool) { pipe.Add(obj); } | |
| else { ((CallSite<Action<CallSite, object, Pipe, ExecutionContext>>)site).Update(site, obj, pipe, context); } | |
| } | |
| private static void IntRule(CallSite site, object obj, Pipe pipe, ExecutionContext context) | |
| { | |
| if (obj is int) { pipe.Add(obj); } | |
| else { ((CallSite<Action<CallSite, object, Pipe, ExecutionContext>>)site).Update(site, obj, pipe, context); } | |
| } | |
| private static void StringRule(CallSite site, object obj, Pipe pipe, ExecutionContext context) | |
| { | |
| if (obj is string) { pipe.Add(obj); } | |
| else { ((CallSite<Action<CallSite, object, Pipe, ExecutionContext>>)site).Update(site, obj, pipe, context); } | |
| } | |
| private static void AutomationNullRule(CallSite site, object obj, Pipe pipe, ExecutionContext context) | |
| { | |
| if (obj != AutomationNull.Value) { ((CallSite<Action<CallSite, object, Pipe, ExecutionContext>>)site).Update(site, obj, pipe, context); } | |
| } | |
| } | |
| /// <summary> | |
| /// This binder creates the collection we use to do multi-assignments, e.g.: | |
| /// $x,$y = $z | |
| /// $x,$y,$z = 1,2,3,4,5 | |
| /// The target in this binder is the RHS, the result expression is an IList where the Count matches the | |
| /// number of values assigned (_elements) on the left hand side of the assign. | |
| /// </summary> | |
| internal sealed class PSArrayAssignmentRHSBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly List<PSArrayAssignmentRHSBinder> s_binders = new List<PSArrayAssignmentRHSBinder>(); | |
| private readonly int _elements; | |
| internal static PSArrayAssignmentRHSBinder Get(int i) | |
| { | |
| lock (s_binders) | |
| { | |
| while (s_binders.Count <= i) | |
| { | |
| s_binders.Add(null); | |
| } | |
| return s_binders[i] ?? (s_binders[i] = new PSArrayAssignmentRHSBinder(i)); | |
| } | |
| } | |
| private PSArrayAssignmentRHSBinder(int elements) | |
| { | |
| _elements = elements; | |
| } | |
| public override string ToString() | |
| { | |
| return string.Create(CultureInfo.InvariantCulture, $"MultiAssignRHSBinder {_elements}"); | |
| } | |
| public override Type ReturnType { get { return typeof(IList); } } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| Diagnostics.Assert(args.Length == 0, "binder doesn't expect any arguments"); | |
| if (!target.HasValue) | |
| { | |
| return Defer(target).WriteToDebugLog(this); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| return this.DeferForPSObject(target).WriteToDebugLog(this); | |
| } | |
| var iList = target.Value as IList; | |
| if (iList != null) | |
| { | |
| // 3 possibilities - too few, exact, or too many elements. | |
| var getListCountExpr = Expression.Property(target.Expression.Cast(typeof(ICollection)), CachedReflectionInfo.ICollection_Count); | |
| var restrictions = target.PSGetTypeRestriction().Merge( | |
| BindingRestrictions.GetExpressionRestriction(Expression.Equal(getListCountExpr, | |
| ExpressionCache.Constant(iList.Count)))); | |
| if (iList.Count == _elements) | |
| { | |
| // Exact, we can use the value as is. | |
| return new DynamicMetaObject(target.Expression.Cast(typeof(IList)), restrictions).WriteToDebugLog(this); | |
| } | |
| int i; | |
| Expression[] newArrayElements = new Expression[_elements]; | |
| var temp = Expression.Variable(typeof(IList)); | |
| if (iList.Count < _elements) | |
| { | |
| // Too few, create an array with the correct number assigned, fill in null for the extras | |
| for (i = 0; i < iList.Count; ++i) | |
| { | |
| newArrayElements[i] = | |
| Expression.Call(temp, CachedReflectionInfo.IList_get_Item, ExpressionCache.Constant(i)); | |
| } | |
| for (; i < _elements; ++i) | |
| { | |
| newArrayElements[i] = ExpressionCache.NullConstant; | |
| } | |
| } | |
| else | |
| { | |
| // Too many, create an array with the correct number assigned, and the last element contains | |
| // all the extras. | |
| for (i = 0; i < _elements - 1; ++i) | |
| { | |
| newArrayElements[i] = | |
| Expression.Call(temp, CachedReflectionInfo.IList_get_Item, ExpressionCache.Constant(i)); | |
| } | |
| newArrayElements[_elements - 1] = | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_GetSlice, temp, ExpressionCache.Constant(_elements - 1)).Cast(typeof(object)); | |
| } | |
| return (new DynamicMetaObject( | |
| Expression.Block( | |
| new[] { temp }, | |
| Expression.Assign(temp, target.Expression.Cast(typeof(IList))), | |
| Expression.NewArrayInit(typeof(object), newArrayElements)), | |
| restrictions)).WriteToDebugLog(this); | |
| } | |
| // We have a single element, the rest must be null. | |
| return (new DynamicMetaObject( | |
| Expression.NewArrayInit(typeof(object), Enumerable.Repeat(ExpressionCache.NullConstant, _elements - 1) | |
| .Prepend(target.Expression.Cast(typeof(object)))), | |
| target.PSGetTypeRestriction())).WriteToDebugLog(this); | |
| } | |
| } | |
| /// <summary> | |
| /// This binder is used to convert objects to string in specific circumstances, including: | |
| /// | |
| /// * The LHS of a format expression. The arguments (the RHS objects) of the format | |
| /// expression are not converted to string here, that is deferred to string.Format which | |
| /// may have some custom formatting to apply. | |
| /// * The objects passed to the format expression as part of an expandable string. In this | |
| /// case, the format string is generated by the parser, so we know that there is no custom | |
| /// formatting to consider. | |
| /// </summary> | |
| internal sealed class PSToStringBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly PSToStringBinder s_binder = new PSToStringBinder(); | |
| internal static PSToStringBinder Get() | |
| { | |
| return s_binder; | |
| } | |
| public override Type ReturnType { get { return typeof(string); } } | |
| private PSToStringBinder() | |
| { | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| // target is the object to convert | |
| // args[0] is the ExecutionContext, needed to get $OFS, and possibly the type table. | |
| if (!target.HasValue || !args[0].HasValue) | |
| { | |
| return Defer(target, args).WriteToDebugLog(this); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| return this.DeferForPSObject(target, args[0]).WriteToDebugLog(this); | |
| } | |
| var restrictions = target.PSGetTypeRestriction(); | |
| if (target.LimitType == typeof(string)) | |
| { | |
| return (new DynamicMetaObject( | |
| target.Expression.Cast(typeof(string)), | |
| restrictions)).WriteToDebugLog(this); | |
| } | |
| // PSObject.ToStringParser will handle everything, but if you want to speed up conversion to string, | |
| // add special cases here. | |
| return (new DynamicMetaObject( | |
| InvokeToString(args[0].Expression, target.Expression), | |
| restrictions)).WriteToDebugLog(this); | |
| } | |
| internal static Expression InvokeToString(Expression context, Expression target) | |
| { | |
| if (target.Type == typeof(string)) | |
| { | |
| return target; | |
| } | |
| // PSObject.ToStringParser will handle everything, but if you want to speed up conversion to string, | |
| // add special cases here. | |
| return Expression.Call(CachedReflectionInfo.PSObject_ToStringParser, | |
| context.Cast(typeof(ExecutionContext)), | |
| target.Cast(typeof(object))); | |
| } | |
| } | |
| /// <summary> | |
| /// This binder is used to optimize the conversion of the result. | |
| /// </summary> | |
| internal sealed class PSPipelineResultToBoolBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly PSPipelineResultToBoolBinder s_binder = new PSPipelineResultToBoolBinder(); | |
| internal static PSPipelineResultToBoolBinder Get() | |
| { | |
| return s_binder; | |
| } | |
| private PSPipelineResultToBoolBinder() | |
| { | |
| } | |
| public override Type ReturnType { get { return typeof(bool); } } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target).WriteToDebugLog(this); | |
| } | |
| IList pipelineResult = target.Value as IList; | |
| Diagnostics.Assert(pipelineResult != null, "Pipeline result is always an IList"); | |
| var ilistExpr = target.Expression; | |
| if (typeof(IList) != ilistExpr.Type) | |
| { | |
| ilistExpr = Expression.Convert(ilistExpr, typeof(IList)); | |
| } | |
| var countExpr = Expression.Property( | |
| Expression.Convert(ilistExpr, typeof(ICollection)), CachedReflectionInfo.ICollection_Count); | |
| Expression result; | |
| BindingRestrictions restrictions; | |
| switch (pipelineResult.Count) | |
| { | |
| case 0: | |
| result = ExpressionCache.Constant(false); | |
| restrictions = BindingRestrictions.GetExpressionRestriction( | |
| Expression.Equal(countExpr, ExpressionCache.Constant(0))); | |
| break; | |
| case 1: | |
| result = Expression.Call(ilistExpr, | |
| CachedReflectionInfo.IList_get_Item, | |
| ExpressionCache.Constant(0)).Convert(typeof(bool)); | |
| restrictions = BindingRestrictions.GetExpressionRestriction( | |
| Expression.Equal(countExpr, ExpressionCache.Constant(1))); | |
| break; | |
| default: | |
| result = ExpressionCache.Constant(true); | |
| restrictions = BindingRestrictions.GetExpressionRestriction( | |
| Expression.GreaterThan(countExpr, ExpressionCache.Constant(1))); | |
| break; | |
| } | |
| return (new DynamicMetaObject(result, restrictions)).WriteToDebugLog(this); | |
| } | |
| } | |
| internal sealed class PSInvokeDynamicMemberBinder : DynamicMetaObjectBinder | |
| { | |
| private sealed class KeyComparer : IEqualityComparer<PSInvokeDynamicMemberBinderKeyType> | |
| { | |
| public bool Equals(PSInvokeDynamicMemberBinderKeyType x, PSInvokeDynamicMemberBinderKeyType y) | |
| { | |
| return x.Item1.Equals(y.Item1) && | |
| ((x.Item2 == null) ? y.Item2 == null : x.Item2.Equals(y.Item2)) && | |
| x.Item3 == y.Item3 && | |
| x.Item4 == y.Item4 && | |
| x.Item5 == y.Item5; | |
| } | |
| public int GetHashCode(PSInvokeDynamicMemberBinderKeyType obj) | |
| { | |
| return obj.GetHashCode(); | |
| } | |
| } | |
| private static readonly | |
| Dictionary<PSInvokeDynamicMemberBinderKeyType, PSInvokeDynamicMemberBinder> s_binderCache | |
| = new Dictionary<PSInvokeDynamicMemberBinderKeyType, PSInvokeDynamicMemberBinder>(new KeyComparer()); | |
| internal static PSInvokeDynamicMemberBinder Get(CallInfo callInfo, TypeDefinitionAst classScopeAst, bool @static, bool propertySetter, PSMethodInvocationConstraints constraints) | |
| { | |
| PSInvokeDynamicMemberBinder result; | |
| var classScope = classScopeAst?.Type; | |
| lock (s_binderCache) | |
| { | |
| var key = Tuple.Create(callInfo, constraints, propertySetter, @static, classScope); | |
| if (!s_binderCache.TryGetValue(key, out result)) | |
| { | |
| result = new PSInvokeDynamicMemberBinder(callInfo, @static, propertySetter, constraints, classScope); | |
| s_binderCache.Add(key, result); | |
| } | |
| } | |
| return result; | |
| } | |
| private readonly CallInfo _callInfo; | |
| private readonly bool _static; | |
| private readonly bool _propertySetter; | |
| private readonly PSMethodInvocationConstraints _constraints; | |
| private readonly Type _classScope; | |
| private PSInvokeDynamicMemberBinder(CallInfo callInfo, bool @static, bool propertySetter, PSMethodInvocationConstraints constraints, Type classScope) | |
| { | |
| Diagnostics.Assert(callInfo != null, "callers make sure 'callInfo' is not null"); | |
| _callInfo = callInfo; | |
| _static = @static; | |
| _propertySetter = propertySetter; | |
| _constraints = constraints; | |
| _classScope = classScope; | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| if (!target.HasValue || !args[0].HasValue) | |
| { | |
| return Defer(target, args[0]).WriteToDebugLog(this); | |
| } | |
| var memberNameArg = args[0]; | |
| object memberNameValue = PSObject.Base(memberNameArg.Value); | |
| Expression bindingStrExpr; | |
| var memberName = memberNameValue as string; | |
| if (memberName != null) | |
| { | |
| if (memberNameArg.Value is PSObject) | |
| { | |
| bindingStrExpr = Expression.Call(CachedReflectionInfo.PSObject_Base, memberNameArg.Expression).Cast(typeof(string)); | |
| } | |
| else | |
| { | |
| bindingStrExpr = memberNameArg.Expression.Cast(typeof(string)); | |
| } | |
| } | |
| else | |
| { | |
| // Context is explicitly null here, we don't want $OFS to influence the property name, or | |
| // we'd generate code that wouldn't work consistently, depending on the value of $OFS. | |
| memberName = PSObject.ToStringParser(null, memberNameArg.Value); | |
| bindingStrExpr = PSToStringBinder.InvokeToString(ExpressionCache.NullConstant, memberNameArg.Expression); | |
| } | |
| // Note: Need to create DynamicExpression to support dynamic member invoke, see PSSetDynamicMemberBinder for example | |
| var result = PSInvokeMemberBinder.Get(memberName, _callInfo, _static, _propertySetter, _constraints, _classScope).FallbackInvokeMember(target, args.Skip(1).ToArray()); | |
| BindingRestrictions restrictions = result.Restrictions; | |
| restrictions = restrictions.Merge(args[0].PSGetTypeRestriction()); | |
| restrictions = restrictions.Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.Call(CachedReflectionInfo.String_Equals, Expression.Constant(memberName), bindingStrExpr, ExpressionCache.Ordinal))); | |
| return (new DynamicMetaObject(result.Expression, restrictions)).WriteToDebugLog(this); | |
| } | |
| } | |
| internal class PSDynamicGetOrSetBinderKeyComparer : IEqualityComparer<PSGetOrSetDynamicMemberBinderKeyType> | |
| { | |
| public bool Equals(PSGetOrSetDynamicMemberBinderKeyType x, PSGetOrSetDynamicMemberBinderKeyType y) | |
| { | |
| return x.Item1 == y.Item1 && x.Item2 == y.Item2; | |
| } | |
| public int GetHashCode(PSGetOrSetDynamicMemberBinderKeyType obj) | |
| { | |
| return obj.GetHashCode(); | |
| } | |
| } | |
| internal sealed class PSGetDynamicMemberBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly Dictionary<PSGetOrSetDynamicMemberBinderKeyType, PSGetDynamicMemberBinder> s_binderCache = | |
| new Dictionary<PSGetOrSetDynamicMemberBinderKeyType, PSGetDynamicMemberBinder>(new PSDynamicGetOrSetBinderKeyComparer()); | |
| internal static PSGetDynamicMemberBinder Get(TypeDefinitionAst classScope, bool @static) | |
| { | |
| PSGetDynamicMemberBinder binder; | |
| lock (s_binderCache) | |
| { | |
| var type = classScope?.Type; | |
| var tuple = Tuple.Create(type, @static); | |
| if (!s_binderCache.TryGetValue(tuple, out binder)) | |
| { | |
| binder = new PSGetDynamicMemberBinder(type, @static); | |
| s_binderCache.Add(tuple, binder); | |
| } | |
| } | |
| return binder; | |
| } | |
| private readonly bool _static; | |
| private readonly Type _classScope; | |
| private PSGetDynamicMemberBinder(Type classScope, bool @static) | |
| { | |
| _static = @static; | |
| _classScope = classScope; | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| Diagnostics.Assert(args.Length == 1, "PSGetDynamicMemberBinder::Bind handles one and only one argument"); | |
| if (!target.HasValue || !args[0].HasValue) | |
| { | |
| return Defer(target, args[0]).WriteToDebugLog(this); | |
| } | |
| var memberNameArg = args[0]; | |
| object memberNameValue = PSObject.Base(memberNameArg.Value); | |
| Expression bindingStrExpr; | |
| BindingRestrictions restrictions; | |
| var memberName = memberNameValue as string; | |
| if (memberName != null) | |
| { | |
| if (memberNameArg.Value is PSObject) | |
| { | |
| bindingStrExpr = Expression.Call(CachedReflectionInfo.PSObject_Base, memberNameArg.Expression).Cast(typeof(string)); | |
| } | |
| else | |
| { | |
| bindingStrExpr = memberNameArg.Expression.Cast(typeof(string)); | |
| } | |
| } | |
| else if (PSObject.Base(target.Value) is IDictionary) | |
| { | |
| // We don't want to convert the member name to a string, we'll just try indexing the dictionary and nothing else. | |
| restrictions = target.PSGetTypeRestriction(); | |
| restrictions = restrictions.Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.Not(Expression.TypeIs(args[0].Expression, typeof(string))))); | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.PSGetDynamicMemberBinder_GetIDictionaryMember, | |
| PSGetMemberBinder.GetTargetExpr(target, typeof(IDictionary)), | |
| args[0].Expression.Cast(typeof(object))), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| else | |
| { | |
| // Context is explicitly null here, we don't want $OFS to influence the property name, or | |
| // we'd generate code that wouldn't work consistently, depending on the value of $OFS. | |
| memberName = PSObject.ToStringParser(null, memberNameArg.Value); | |
| bindingStrExpr = PSToStringBinder.InvokeToString(ExpressionCache.NullConstant, memberNameArg.Expression); | |
| } | |
| var result = DynamicExpression.Dynamic(PSGetMemberBinder.Get(memberName, _classScope, _static), typeof(object), target.Expression); | |
| restrictions = BindingRestrictions.Empty; | |
| restrictions = restrictions.Merge(args[0].PSGetTypeRestriction()); | |
| restrictions = restrictions.Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.Call(CachedReflectionInfo.String_Equals, Expression.Constant(memberName), bindingStrExpr, ExpressionCache.Ordinal))); | |
| return (new DynamicMetaObject(result, restrictions)).WriteToDebugLog(this); | |
| } | |
| internal static object GetIDictionaryMember(IDictionary hash, object key) | |
| { | |
| try | |
| { | |
| key = PSObject.Base(key); | |
| if (hash.Contains(key)) | |
| { | |
| return hash[key]; | |
| } | |
| } | |
| catch (InvalidOperationException) | |
| { | |
| } | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| if (context.IsStrictVersion(2)) | |
| { | |
| // If the member is undefined and we're in strict mode, throw an exception... | |
| throw new PropertyNotFoundException("PropertyNotFoundStrict", null, ParserStrings.PropertyNotFoundStrict, | |
| LanguagePrimitives.ConvertTo<string>(key)); | |
| } | |
| return null; | |
| } | |
| } | |
| internal sealed class PSSetDynamicMemberBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly Dictionary<PSGetOrSetDynamicMemberBinderKeyType, PSSetDynamicMemberBinder> s_binderCache = | |
| new Dictionary<PSGetOrSetDynamicMemberBinderKeyType, PSSetDynamicMemberBinder>(new PSDynamicGetOrSetBinderKeyComparer()); | |
| internal static PSSetDynamicMemberBinder Get(TypeDefinitionAst classScope, bool @static) | |
| { | |
| PSSetDynamicMemberBinder binder; | |
| lock (s_binderCache) | |
| { | |
| var type = classScope?.Type; | |
| var tuple = Tuple.Create(type, @static); | |
| if (!s_binderCache.TryGetValue(tuple, out binder)) | |
| { | |
| binder = new PSSetDynamicMemberBinder(type, @static); | |
| s_binderCache.Add(tuple, binder); | |
| } | |
| } | |
| return binder; | |
| } | |
| private readonly bool _static; | |
| private readonly Type _classScope; | |
| private PSSetDynamicMemberBinder(Type classScope, bool @static) | |
| { | |
| _static = @static; | |
| _classScope = classScope; | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| Diagnostics.Assert(args.Length == 2, "PSSetDynamicMemberBinder::Bind handles two and only two arguments"); | |
| if (!target.HasValue || !args[0].HasValue) | |
| { | |
| return Defer(target, args[0]).WriteToDebugLog(this); | |
| } | |
| var memberNameArg = args[0]; | |
| object memberNameValue = PSObject.Base(memberNameArg.Value); | |
| Expression bindingStrExpr; | |
| var memberName = memberNameValue as string; | |
| if (memberName != null) | |
| { | |
| if (memberNameArg.Value is PSObject) | |
| { | |
| bindingStrExpr = Expression.Call(CachedReflectionInfo.PSObject_Base, memberNameArg.Expression).Cast(typeof(string)); | |
| } | |
| else | |
| { | |
| bindingStrExpr = memberNameArg.Expression.Cast(typeof(string)); | |
| } | |
| } | |
| else | |
| { | |
| // Context is explicitly null here, we don't want $OFS to influence the property name, or | |
| // we'd generate code that wouldn't work consistently, depending on the value of $OFS. | |
| memberName = PSObject.ToStringParser(null, memberNameArg.Value); | |
| bindingStrExpr = PSToStringBinder.InvokeToString(ExpressionCache.NullConstant, memberNameArg.Expression); | |
| } | |
| var result = DynamicExpression.Dynamic(PSSetMemberBinder.Get(memberName, _classScope, _static), typeof(object), target.Expression, args[1].Expression); | |
| var restrictions = BindingRestrictions.Empty; | |
| // Note: Optimal restriction is test target type is IDictionary or not | |
| restrictions = restrictions.Merge(args[0].PSGetTypeRestriction()); | |
| restrictions = restrictions.Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.Call(CachedReflectionInfo.String_Equals, Expression.Constant(memberName), bindingStrExpr, ExpressionCache.Ordinal))); | |
| Expression resultExpr; | |
| if (target.Value is IDictionary) | |
| { | |
| // We should first try: | |
| // $target[$arg[0]] = $arg[1] | |
| // And if that fails, try arg[0] converted to string, setting a property, etc. | |
| var exception = Expression.Variable(typeof(Exception)); | |
| var indexResult = PSSetIndexBinder.Get(1).FallbackSetIndex(target, new[] { args[0] }, args[1]); | |
| resultExpr = Expression.TryCatch( | |
| indexResult.Expression, | |
| Expression.Catch(exception, result)); | |
| } | |
| else | |
| { | |
| resultExpr = result; | |
| } | |
| return (new DynamicMetaObject(resultExpr, restrictions)).WriteToDebugLog(this); | |
| } | |
| } | |
| internal sealed class PSSwitchClauseEvalBinder : DynamicMetaObjectBinder | |
| { | |
| // Increase this cache size if we add a new flag to the switch statement that: | |
| // - Influences evaluation of switch elements | |
| // - Is commonly used | |
| private static readonly PSSwitchClauseEvalBinder[] s_binderCache = new PSSwitchClauseEvalBinder[32]; | |
| private readonly SwitchFlags _flags; | |
| internal static PSSwitchClauseEvalBinder Get(SwitchFlags flags) | |
| { | |
| lock (s_binderCache) | |
| { | |
| return s_binderCache[(int)flags] ?? (s_binderCache[(int)flags] = new PSSwitchClauseEvalBinder(flags)); | |
| } | |
| } | |
| private PSSwitchClauseEvalBinder(SwitchFlags flags) | |
| { | |
| _flags = flags; | |
| } | |
| public override Type ReturnType { get { return typeof(bool); } } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| // target is the condition | |
| // args[0] is the value to test against the condition | |
| // args[1] is the execution context to use, if needed | |
| if (!target.HasValue || !args[0].HasValue) | |
| { | |
| return Defer(target, args[0], args[1]).WriteToDebugLog(this); | |
| } | |
| // No need to add binding restrictions on either arg, the type of the clause is all that matters. | |
| // We can skip the restrictions on the arg, the generated code will contain a dynamic site to convert | |
| // the arg to string if applicable. If the dynamic site is removed, then arg restrictions must be added. | |
| var targetRestrictions = target.PSGetTypeRestriction(); | |
| // If any args are PSObject, we typically call DeferForPSObject, but in this case, | |
| // we don't because args[0] should not be unwrapped, which DeferForPSObject would do. | |
| if (target.Value is PSObject) | |
| { | |
| return (new DynamicMetaObject( | |
| DynamicExpression.Dynamic(this, this.ReturnType, | |
| Expression.Call(CachedReflectionInfo.PSObject_Base, | |
| target.Expression.Cast(typeof(object))), | |
| args[0].Expression, | |
| args[1].Expression), | |
| targetRestrictions)).WriteToDebugLog(this); | |
| } | |
| if (target.Value == null) | |
| { | |
| // If the condition is null, the we simply test the value against null. It seems like | |
| // this is a silly thing to allow in a switch, maybe it should be disallowed in strict mode. | |
| return (new DynamicMetaObject( | |
| Expression.Equal(args[0].Expression.Cast(typeof(object)), ExpressionCache.NullConstant), | |
| target.PSGetTypeRestriction())).WriteToDebugLog(this); | |
| } | |
| if (target.Value is ScriptBlock) | |
| { | |
| var call = Expression.Call(target.Expression.Cast(typeof(ScriptBlock)), | |
| CachedReflectionInfo.ScriptBlock_DoInvokeReturnAsIs, | |
| /*useLocalScope=*/ ExpressionCache.Constant(true), | |
| /*errorHandlingBehavior=*/ Expression.Constant(ScriptBlock.ErrorHandlingBehavior.WriteToExternalErrorPipe), | |
| /*dollarUnder=*/ args[0].CastOrConvert(typeof(object)), | |
| /*input=*/ ExpressionCache.AutomationNullConstant, | |
| /*scriptThis=*/ ExpressionCache.AutomationNullConstant, | |
| /*args=*/ ExpressionCache.NullObjectArray); | |
| return (new DynamicMetaObject( | |
| DynamicExpression.Dynamic(PSConvertBinder.Get(typeof(bool)), typeof(bool), call), | |
| targetRestrictions)).WriteToDebugLog(this); | |
| } | |
| // From here on out, arg must be a string. | |
| var executionContext = args[1].Expression; | |
| var argAsString = DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), args[0].Expression, | |
| executionContext); | |
| if (target.Value is Regex || (_flags & SwitchFlags.Regex) != 0) | |
| { | |
| var call = Expression.Call(CachedReflectionInfo.SwitchOps_ConditionSatisfiedRegex, | |
| /*caseSensitive=*/ ExpressionCache.Constant((_flags & SwitchFlags.CaseSensitive) != 0), | |
| /*condition=*/ target.Expression.Cast(typeof(object)), | |
| /*errorPosition=*/ ExpressionCache.NullExtent, | |
| /*str=*/ argAsString, | |
| /*context=*/ executionContext); | |
| return (new DynamicMetaObject(call, targetRestrictions)).WriteToDebugLog(this); | |
| } | |
| if (target.Value is WildcardPattern || (_flags & SwitchFlags.Wildcard) != 0) | |
| { | |
| var call = Expression.Call(CachedReflectionInfo.SwitchOps_ConditionSatisfiedWildcard, | |
| /*caseSensitive=*/ ExpressionCache.Constant((_flags & SwitchFlags.CaseSensitive) != 0), | |
| /*condition=*/ target.Expression.Cast(typeof(object)), | |
| /*str=*/ argAsString, | |
| /*context=*/ executionContext); | |
| // Binding restrictions must test the target, even if the switch is in -regex mode. | |
| // If we didn't add restrictions on the target, we'd incorrectly use this rule when the target | |
| // is a script block. | |
| // We can skip the restrictions on the arg, the generated code contains a dynamic site to convert | |
| // the arg to string, so that site handles any arg type properly. | |
| return (new DynamicMetaObject(call, targetRestrictions)).WriteToDebugLog(this); | |
| } | |
| var targetAsString = DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), target.Expression, | |
| executionContext); | |
| return (new DynamicMetaObject( | |
| Compiler.CallStringEquals(targetAsString, argAsString, ((_flags & SwitchFlags.CaseSensitive) == 0)), | |
| targetRestrictions)).WriteToDebugLog(this); | |
| } | |
| } | |
| // This class implements the standard binder CreateInstanceBinder, but this binder handles the CallInfo a little differently. | |
| // The ArgumentNames are not used to invoke a constructor, instead they are used to set properties/fields in the attribute. | |
| internal sealed class PSAttributeGenerator : CreateInstanceBinder | |
| { | |
| private static readonly Dictionary<CallInfo, PSAttributeGenerator> s_binderCache = | |
| new Dictionary<CallInfo, PSAttributeGenerator>(); | |
| internal static PSAttributeGenerator Get(CallInfo callInfo) | |
| { | |
| lock (s_binderCache) | |
| { | |
| PSAttributeGenerator binder; | |
| if (!s_binderCache.TryGetValue(callInfo, out binder)) | |
| { | |
| binder = new PSAttributeGenerator(callInfo); | |
| s_binderCache.Add(callInfo, binder); | |
| } | |
| return binder; | |
| } | |
| } | |
| private PSAttributeGenerator(CallInfo callInfo) | |
| : base(callInfo) | |
| { | |
| } | |
| public override DynamicMetaObject FallbackCreateInstance(DynamicMetaObject target, DynamicMetaObject[] args, DynamicMetaObject errorSuggestion) | |
| { | |
| Diagnostics.Assert(target.HasValue && target.Value is Type, "caller to verify arguments"); | |
| var attributeType = (Type)target.Value; | |
| var ctorInfos = attributeType.GetConstructors(); | |
| var newConstructors = DotNetAdapter.GetMethodInformationArray(ctorInfos); | |
| // We can't use a type restriction on target, it's always a System.Type. So make sure we always use an instance restriction | |
| target = new DynamicMetaObject(target.Expression, BindingRestrictions.GetInstanceRestriction(target.Expression, target.Value), target.Value); | |
| string errorId = null; | |
| string errorMsg = null; | |
| bool expandParamsOnBest; | |
| bool callNonVirtually; | |
| var positionalArgCount = CallInfo.ArgumentCount - CallInfo.ArgumentNames.Count; | |
| var bestMethod = Adapter.FindBestMethod( | |
| newConstructors, | |
| invocationConstraints: null, | |
| allowCastingToByRefLikeType: false, | |
| args.Take(positionalArgCount).Select(static arg => arg.Value).ToArray(), | |
| ref errorId, | |
| ref errorMsg, | |
| out expandParamsOnBest, | |
| out callNonVirtually); | |
| if (bestMethod == null) | |
| { | |
| return errorSuggestion ?? new DynamicMetaObject( | |
| Expression.Throw( | |
| Expression.New(CachedReflectionInfo.MethodException_ctor, Expression.Constant(errorId), | |
| Expression.Constant(null, typeof(Exception)), Expression.Constant(errorMsg), | |
| Expression.NewArrayInit(typeof(object), | |
| Expression.Constant(".ctor").Cast(typeof(object)), | |
| ExpressionCache.Constant(positionalArgCount).Cast(typeof(object)))), | |
| this.ReturnType), | |
| target.CombineRestrictions(args)); | |
| } | |
| var constructorInfo = (ConstructorInfo)bestMethod.method; | |
| var parameterInfo = constructorInfo.GetParameters(); | |
| var ctorArgs = new Expression[parameterInfo.Length]; | |
| var argIndex = 0; | |
| for (; argIndex < parameterInfo.Length; ++argIndex) | |
| { | |
| var resultType = parameterInfo[argIndex].ParameterType; | |
| // The extension method 'CustomAttributeExtensions.GetCustomAttributes(ParameterInfo, Type, Boolean)' has inconsistent | |
| // behavior on its return value in both FullCLR and CoreCLR. According to MSDN, if the attribute cannot be found, it | |
| // should return an empty collection. However, it returns null in some rare cases [when the parameter isn't backed by | |
| // actual metadata]. | |
| // This inconsistent behavior affects OneCore powershell because we are using the extension method here when compiling | |
| // against CoreCLR. So we need to add a null check until this is fixed in CLR. | |
| var paramArrayAttrs = parameterInfo[argIndex].GetCustomAttributes(typeof(ParamArrayAttribute), true); | |
| if (paramArrayAttrs != null && paramArrayAttrs.Length > 0 && expandParamsOnBest) | |
| { | |
| var elementType = parameterInfo[argIndex].ParameterType.GetElementType(); | |
| var paramsArray = new List<Expression>(); | |
| int ctorArgIndex = argIndex; | |
| for (int i = argIndex; i < positionalArgCount; ++i, ++argIndex) | |
| { | |
| bool debase; | |
| // ConstrainedLanguage note - calls to this conversion are done by constructors with params arguments. | |
| // Protection against conversions are covered by the method resolution algorithm | |
| // (which ignores method arguments with disallowed types) | |
| var conversion = LanguagePrimitives.FigureConversion(args[argIndex].Value, elementType, out debase); | |
| Diagnostics.Assert(conversion.Rank != ConversionRank.None, "FindBestMethod should have failed if there is no conversion"); | |
| paramsArray.Add( | |
| PSConvertBinder.InvokeConverter(conversion, args[i].Expression, elementType, debase, ExpressionCache.InvariantCulture)); | |
| } | |
| ctorArgs[ctorArgIndex] = Expression.NewArrayInit(elementType, paramsArray); | |
| break; | |
| } | |
| else | |
| { | |
| var conversion = LanguagePrimitives.FigureConversion(args[argIndex].Value, resultType, out bool debase); | |
| ctorArgs[argIndex] = PSConvertBinder.InvokeConverter(conversion, args[argIndex].Expression, resultType, debase, ExpressionCache.InvariantCulture); | |
| } | |
| } | |
| Expression result = Expression.New(constructorInfo, ctorArgs); | |
| if (CallInfo.ArgumentNames.Count > 0) | |
| { | |
| var tmp = Expression.Parameter(result.Type); | |
| var blockExprs = new List<Expression>(); | |
| foreach (var name in CallInfo.ArgumentNames) | |
| { | |
| var members = attributeType.GetMember(name, MemberTypes.Field | MemberTypes.Property, | |
| BindingFlags.IgnoreCase | BindingFlags.Public | BindingFlags.Instance | BindingFlags.FlattenHierarchy); | |
| if (members.Length != 1 | |
| || (members[0] is not PropertyInfo && members[0] is not FieldInfo)) | |
| { | |
| return target.ThrowRuntimeError(args, BindingRestrictions.Empty, "PropertyNotFoundForType", | |
| ParserStrings.PropertyNotFoundForType, Expression.Constant(name), | |
| Expression.Constant(attributeType, typeof(Type))); | |
| } | |
| var member = members[0]; | |
| Expression lhs; | |
| Type propertyType; | |
| var propertyInfo = member as PropertyInfo; | |
| if (propertyInfo != null) | |
| { | |
| if (propertyInfo.GetSetMethod() == null) | |
| { | |
| return target.ThrowRuntimeError(args, BindingRestrictions.Empty, "PropertyIsReadOnly", | |
| ParserStrings.PropertyIsReadOnly, Expression.Constant(name)); | |
| } | |
| propertyType = propertyInfo.PropertyType; | |
| lhs = Expression.Property(tmp.Cast(propertyInfo.DeclaringType), propertyInfo); | |
| } | |
| else | |
| { | |
| propertyType = ((FieldInfo)member).FieldType; | |
| lhs = Expression.Field(tmp.Cast(member.DeclaringType), (FieldInfo)member); | |
| } | |
| bool debase; | |
| // ConstrainedLanguage note - calls to these property assignment conversions are enforced by the | |
| // property assignment binding rules (which disallow property conversions to disallowed types) | |
| var conversion = LanguagePrimitives.FigureConversion(args[argIndex].Value, propertyType, out debase); | |
| if (conversion.Rank == ConversionRank.None) | |
| { | |
| return PSConvertBinder.ThrowNoConversion(args[argIndex], propertyType, this, -1, | |
| args.Except(new DynamicMetaObject[] { args[argIndex] }).Prepend(target).ToArray()); | |
| } | |
| blockExprs.Add( | |
| Expression.Assign(lhs, PSConvertBinder.InvokeConverter(conversion, args[argIndex].Expression, propertyType, debase, ExpressionCache.InvariantCulture))); | |
| argIndex += 1; | |
| } | |
| // We wrap the block of assignments in a try/catch and issue a general error message whenever the assignment fails. | |
| var exception = Expression.Parameter(typeof(Exception)); | |
| result = Expression.Block( | |
| new ParameterExpression[] { tmp }, | |
| Expression.Assign(tmp, result), | |
| Expression.TryCatch( | |
| Expression.Block(typeof(void), blockExprs), | |
| Expression.Catch( | |
| exception, | |
| Compiler.ThrowRuntimeErrorWithInnerException("PropertyAssignmentException", Expression.Property(exception, "Message"), exception, typeof(void)))), | |
| // The result of the block is the object constructed, so the tmp must be the last expr in the block. | |
| tmp); | |
| } | |
| return new DynamicMetaObject(result, target.CombineRestrictions(args)); | |
| } | |
| } | |
| internal sealed class PSCustomObjectConverter : DynamicMetaObjectBinder | |
| { | |
| private static readonly PSCustomObjectConverter s_binder = new PSCustomObjectConverter(); | |
| internal static PSCustomObjectConverter Get() | |
| { | |
| return s_binder; | |
| } | |
| private PSCustomObjectConverter() | |
| { | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target).WriteToDebugLog(this); | |
| } | |
| var baseObjectValue = PSObject.Base(target.Value); | |
| var toType = baseObjectValue is OrderedDictionary || baseObjectValue is Hashtable | |
| ? typeof(LanguagePrimitives.InternalPSCustomObject) | |
| : typeof(PSObject); | |
| // ConstrainedLanguage note - calls to this conversion only target PSCustomObject / PSObject, | |
| // which is safe. | |
| bool debase; | |
| var conversion = LanguagePrimitives.FigureConversion(target.Value, toType, out debase); | |
| return new DynamicMetaObject( | |
| PSConvertBinder.InvokeConverter(conversion, target.Expression, toType, debase, ExpressionCache.InvariantCulture), | |
| target.PSGetTypeRestriction()).WriteToDebugLog(this); | |
| } | |
| } | |
| internal sealed class PSDynamicConvertBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly PSDynamicConvertBinder s_binder = new PSDynamicConvertBinder(); | |
| internal static PSDynamicConvertBinder Get() | |
| { | |
| return s_binder; | |
| } | |
| private PSDynamicConvertBinder() | |
| { | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| // target is the type and is never a PSObject | |
| // arg is the object to be converted | |
| DynamicMetaObject arg = args[0]; | |
| if (!target.HasValue || !arg.HasValue) | |
| { | |
| return Defer(target, arg).WriteToDebugLog(this); | |
| } | |
| var toType = target.Value as Type; | |
| Diagnostics.Assert(toType != null, "target must be a type"); | |
| var bindingRestrictions = BindingRestrictions.GetInstanceRestriction(target.Expression, toType).Merge(arg.PSGetTypeRestriction()); | |
| return new DynamicMetaObject( | |
| DynamicExpression.Dynamic(PSConvertBinder.Get(toType), toType, arg.Expression).Cast(typeof(object)), | |
| bindingRestrictions).WriteToDebugLog(this); | |
| } | |
| } | |
| /// <summary> | |
| /// This binder is used to copy mutable value types when assigning to variables, otherwise just assigning the target object directly. | |
| /// </summary> | |
| internal sealed class PSVariableAssignmentBinder : DynamicMetaObjectBinder | |
| { | |
| private static readonly PSVariableAssignmentBinder s_binder = new PSVariableAssignmentBinder(); | |
| internal static int s_mutableValueWithInstanceMemberVersion; | |
| internal static PSVariableAssignmentBinder Get() | |
| { | |
| return s_binder; | |
| } | |
| private PSVariableAssignmentBinder() | |
| { | |
| CacheTarget((Func<CallSite, object, object>)(PSObjectStringRule)); | |
| CacheTarget((Func<CallSite, object, object>)(ObjectRule)); | |
| CacheTarget((Func<CallSite, object, object>)(IntRule)); | |
| CacheTarget((Func<CallSite, object, object>)(EnumRule)); | |
| CacheTarget((Func<CallSite, object, object>)(BoolRule)); | |
| CacheTarget((Func<CallSite, object, object>)(NullRule)); | |
| } | |
| public override DynamicMetaObject Bind(DynamicMetaObject target, DynamicMetaObject[] args) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| var value = target.Value; | |
| if (value == null) | |
| { | |
| return new DynamicMetaObject(ExpressionCache.NullConstant, target.PSGetTypeRestriction()).WriteToDebugLog(this); | |
| } | |
| var psobj = value as PSObject; | |
| if (psobj != null) | |
| { | |
| var restrictions = BindingRestrictions.GetTypeRestriction(target.Expression, psobj.GetType()); | |
| var expr = target.Expression; | |
| var baseObject = psobj.BaseObject; | |
| var baseObjExpr = Expression.Property(expr.Cast(typeof(PSObject)), CachedReflectionInfo.PSObject_BaseObject); | |
| if (baseObject != null) | |
| { | |
| var baseObjType = baseObject.GetType(); | |
| restrictions = restrictions.Merge(BindingRestrictions.GetTypeRestriction(baseObjExpr, baseObjType)); | |
| if (baseObjType.IsValueType) | |
| { | |
| expr = GetExprForValueType(baseObjType, Expression.Convert(baseObjExpr, baseObjType), expr, ref restrictions); | |
| } | |
| } | |
| else | |
| { | |
| restrictions = | |
| restrictions.Merge( | |
| BindingRestrictions.GetExpressionRestriction(Expression.Equal(baseObjExpr, | |
| ExpressionCache.NullConstant))); | |
| } | |
| return new DynamicMetaObject(expr, restrictions).WriteToDebugLog(this); | |
| } | |
| var type = value.GetType(); | |
| if (type.IsValueType) | |
| { | |
| var expr = target.Expression; | |
| var restrictions = target.PSGetTypeRestriction(); | |
| expr = GetExprForValueType(type, Expression.Convert(expr, type), expr, ref restrictions); | |
| return new DynamicMetaObject(expr, restrictions).WriteToDebugLog(this); | |
| } | |
| // This rule is meant to cover all classes except PSObject. | |
| return new DynamicMetaObject( | |
| target.Expression, BindingRestrictions.GetExpressionRestriction( | |
| Expression.AndAlso( | |
| Expression.Not(Expression.TypeIs(target.Expression, typeof(ValueType))), | |
| Expression.Not(Expression.TypeIs(target.Expression, typeof(PSObject)))))).WriteToDebugLog(this); | |
| } | |
| private static Expression GetExprForValueType(Type type, | |
| Expression convertedExpr, | |
| Expression originalExpr, | |
| ref BindingRestrictions restrictions) | |
| { | |
| // A binding restriction for value types will be either: | |
| // if (obj is SomeValueType) | |
| // or | |
| // if (obj is SomeValueType && _mutableValueWithInstanceMemberVersion == someVersionNumber) | |
| // | |
| // And the expression will be one of 3 possibilities: | |
| // * return expr | |
| // * tmp = expr; return tmp (make a copy) | |
| // * return CopyInstanceMembersOfValueType((T)expr, expr) (make a copy, also copy instance members) | |
| // | |
| // If we've never seen an instance member for a given type, we can avoid the expensive call to | |
| // CopyInstanceMembersOfValueType, but if somebody adds an instance member in the future, we need to invalidate | |
| // previously generated rules. We do that with the version check. | |
| // | |
| // We can skip a version check if we're already generating the worst case code. This also avoids regenerating | |
| // new bindings when the new binding won't differ from a previous binding. | |
| Expression expr; | |
| bool needVersionCheck = true; | |
| if (s_mutableValueTypesWithInstanceMembers.ContainsKey(type)) | |
| { | |
| var genericMethodInfo = CachedReflectionInfo.PSVariableAssignmentBinder_CopyInstanceMembersOfValueType.MakeGenericMethod(new Type[] { type }); | |
| expr = Expression.Call(genericMethodInfo, convertedExpr, originalExpr); | |
| needVersionCheck = false; | |
| } | |
| else if (IsValueTypeMutable(type)) | |
| { | |
| var temp = Expression.Variable(type); | |
| expr = Expression.Block(new[] { temp }, | |
| // The valuetype is mutable, so force a copy by assigning to a temp. | |
| Expression.Assign(temp, convertedExpr), | |
| // Box the return value because the dynamic site expects object | |
| temp.Cast(typeof(object))); | |
| } | |
| else | |
| { | |
| expr = originalExpr; | |
| } | |
| if (needVersionCheck) | |
| { | |
| restrictions = restrictions.Merge(GetVersionCheck(s_mutableValueWithInstanceMemberVersion)); | |
| } | |
| return expr; | |
| } | |
| private static object EnumRule(CallSite site, object obj) | |
| { | |
| if (obj is Enum) { return obj; } | |
| return ((CallSite<Func<CallSite, object, object>>)site).Update(site, obj); | |
| } | |
| private static object BoolRule(CallSite site, object obj) | |
| { | |
| if (obj is bool) { return obj; } | |
| return ((CallSite<Func<CallSite, object, object>>)site).Update(site, obj); | |
| } | |
| private static object IntRule(CallSite site, object obj) | |
| { | |
| if (obj is int) { return obj; } | |
| return ((CallSite<Func<CallSite, object, object>>)site).Update(site, obj); | |
| } | |
| private static object ObjectRule(CallSite site, object obj) | |
| { | |
| if (obj is not ValueType && obj is not PSObject) { return obj; } | |
| return ((CallSite<Func<CallSite, object, object>>)site).Update(site, obj); | |
| } | |
| private static object PSObjectStringRule(CallSite site, object obj) | |
| { | |
| var psobj = obj as PSObject; | |
| if (psobj != null && psobj.BaseObject is string) return obj; | |
| return ((CallSite<Func<CallSite, object, object>>)site).Update(site, obj); | |
| } | |
| private static object NullRule(CallSite site, object obj) | |
| { | |
| return obj == null ? null : ((CallSite<Func<CallSite, object, object>>)site).Update(site, obj); | |
| } | |
| internal static bool IsValueTypeMutable(Type type) | |
| { | |
| // First, check for enums/primitives and compiler-defined attributes. | |
| if (type.IsPrimitive | |
| || type.IsEnum | |
| || type.IsDefined(typeof(System.Runtime.CompilerServices.IsReadOnlyAttribute), inherit: false)) | |
| { | |
| return false; | |
| } | |
| // If the builtin attribute is not present, check for a custom attribute from by the compiler. If the | |
| // library targets netstandard2.0, the compiler can't be sure the attribute will be provided by the runtime, | |
| // and defines its own attribute of the same name during compilation. To account for this, we must check the | |
| // type by name, not by reference. | |
| foreach (object attribute in type.GetCustomAttributes(inherit: false)) | |
| { | |
| if (attribute.GetType().FullName.Equals( | |
| "System.Runtime.CompilerServices.IsReadOnlyAttribute", | |
| StringComparison.Ordinal)) | |
| { | |
| return false; | |
| } | |
| } | |
| // Fallback: check all fields (public + private) to verify whether they're all readonly. | |
| // If any field is not readonly, the value type is potentially mutable. | |
| foreach (var field in type.GetFields(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic)) | |
| { | |
| if (!field.IsInitOnly) | |
| { | |
| return true; | |
| } | |
| } | |
| // If all fields are init-only (read-only), then the value type is immutable. | |
| return false; | |
| } | |
| private static readonly ConcurrentDictionary<Type, bool> s_mutableValueTypesWithInstanceMembers = | |
| new ConcurrentDictionary<Type, bool>(); | |
| internal static void NoteTypeHasInstanceMemberOrTypeName(Type type) | |
| { | |
| if (!type.IsValueType || !IsValueTypeMutable(type)) | |
| { | |
| return; | |
| } | |
| if (s_mutableValueTypesWithInstanceMembers.TryAdd(type, true)) | |
| { | |
| s_mutableValueWithInstanceMemberVersion += 1; | |
| } | |
| } | |
| internal static object CopyInstanceMembersOfValueType<T>(T t, object boxedT) where T : struct | |
| { | |
| if (PSObject.HasInstanceMembers(boxedT, out _) || PSObject.HasInstanceTypeName(boxedT, out _)) | |
| { | |
| var psobj = PSObject.AsPSObject(boxedT); | |
| return PSObject.Base(psobj.Copy()); | |
| } | |
| // We want a copy (because the value type is mutable), so return t, not boxedT. | |
| return t; | |
| } | |
| internal static BindingRestrictions GetVersionCheck(int expectedVersionNumber) | |
| { | |
| return BindingRestrictions.GetExpressionRestriction( | |
| Expression.Equal(Expression.Field(null, CachedReflectionInfo.PSVariableAssignmentBinder__mutableValueWithInstanceMemberVersion), | |
| ExpressionCache.Constant(expectedVersionNumber))); | |
| } | |
| } | |
| /// <summary> | |
| /// The binder for common binary operators. PowerShell specific binary operators are handled elsewhere. | |
| /// </summary> | |
| internal sealed class PSBinaryOperationBinder : BinaryOperationBinder | |
| { | |
| private static readonly Dictionary<Tuple<ExpressionType, bool, bool>, PSBinaryOperationBinder> s_binderCache = | |
| new Dictionary<Tuple<ExpressionType, bool, bool>, PSBinaryOperationBinder>(); | |
| internal static PSBinaryOperationBinder Get(ExpressionType operation, bool ignoreCase = true, bool scalarCompare = false) | |
| { | |
| PSBinaryOperationBinder result; | |
| lock (s_binderCache) | |
| { | |
| var key = Tuple.Create(operation, ignoreCase, scalarCompare); | |
| if (!s_binderCache.TryGetValue(key, out result)) | |
| { | |
| result = new PSBinaryOperationBinder(operation, ignoreCase, scalarCompare); | |
| s_binderCache.Add(key, result); | |
| } | |
| } | |
| return result; | |
| } | |
| private readonly bool _ignoreCase; | |
| private readonly bool _scalarCompare; | |
| internal int _version; | |
| private PSBinaryOperationBinder(ExpressionType operation, bool ignoreCase, bool scalarCompare) | |
| : base(operation) | |
| { | |
| _ignoreCase = ignoreCase; | |
| _scalarCompare = scalarCompare; | |
| this._version = 0; | |
| } | |
| private Func<object, object, bool> _compareDelegate; | |
| private Func<object, object, bool> GetScalarCompareDelegate() | |
| { | |
| if (_compareDelegate == null) | |
| { | |
| var lvalExpr = Expression.Parameter(typeof(object), "lval"); | |
| var rvalExpr = Expression.Parameter(typeof(object), "rval"); | |
| var compareDelegate = Expression.Lambda<Func<object, object, bool>>( | |
| DynamicExpression.Dynamic(Get(Operation, _ignoreCase, scalarCompare: true), | |
| typeof(object), lvalExpr, rvalExpr).Cast(typeof(bool)), | |
| lvalExpr, rvalExpr).Compile(); | |
| Interlocked.CompareExchange(ref _compareDelegate, compareDelegate, null); | |
| } | |
| return _compareDelegate; | |
| } | |
| public override DynamicMetaObject FallbackBinaryOperation(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue || !arg.HasValue) | |
| { | |
| return Defer(target, arg).WriteToDebugLog(this); | |
| } | |
| if ((target.Value is PSObject && PSObject.Base(target.Value) != target.Value) || | |
| (arg.Value is PSObject && PSObject.Base(arg.Value) != arg.Value)) | |
| { | |
| // When adding to an array, we don't want to unwrap the RHS - it's unnecessary, | |
| // and in the case of strings, we actually lose instance members on the PSObject. | |
| if (!(Operation == ExpressionType.Add && PSEnumerableBinder.IsEnumerable(target) != null)) | |
| { | |
| // Defer when the object is wrapped, but not for empty objects. | |
| return this.DeferForPSObject(target, arg).WriteToDebugLog(this); | |
| } | |
| } | |
| switch (Operation) | |
| { | |
| case ExpressionType.Add: | |
| return BinaryAdd(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Subtract: | |
| return BinarySub(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Multiply: | |
| return BinaryMultiply(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Divide: | |
| return BinaryDivide(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Modulo: | |
| return BinaryRemainder(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.And: | |
| return BinaryBitwiseAnd(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Or: | |
| return BinaryBitwiseOr(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.ExclusiveOr: | |
| return BinaryBitwiseXor(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Equal: | |
| return CompareEQ(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.NotEqual: | |
| return CompareNE(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.GreaterThan: | |
| return CompareGT(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.GreaterThanOrEqual: | |
| return CompareGE(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.LessThan: | |
| return CompareLT(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.LessThanOrEqual: | |
| return CompareLE(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.LeftShift: | |
| return LeftShift(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.RightShift: | |
| return RightShift(target, arg, errorSuggestion).WriteToDebugLog(this); | |
| } | |
| return (errorSuggestion ?? | |
| new DynamicMetaObject( | |
| Compiler.CreateThrow(typeof(object), typeof(PSNotImplementedException), "Unimplemented operation"), | |
| target.CombineRestrictions(arg))).WriteToDebugLog(this); | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "PSBinaryOperationBinder {0}{1} ver:{2}", | |
| GetOperatorText(), | |
| _scalarCompare ? " scalarOnly" : string.Empty, | |
| _version); | |
| } | |
| internal static void InvalidateCache() | |
| { | |
| // Invalidate binders | |
| lock (s_binderCache) | |
| { | |
| foreach (PSBinaryOperationBinder binder in s_binderCache.Values) | |
| { | |
| binder._version += 1; | |
| } | |
| } | |
| } | |
| private string GetOperatorText() | |
| { | |
| switch (Operation) | |
| { | |
| case ExpressionType.Add: return TokenKind.Plus.Text(); | |
| case ExpressionType.Subtract: return TokenKind.Minus.Text(); | |
| case ExpressionType.Multiply: return TokenKind.Multiply.Text(); | |
| case ExpressionType.Divide: return TokenKind.Divide.Text(); | |
| case ExpressionType.Modulo: return TokenKind.Rem.Text(); | |
| case ExpressionType.And: return TokenKind.Band.Text(); | |
| case ExpressionType.Or: return TokenKind.Bor.Text(); | |
| case ExpressionType.ExclusiveOr: return TokenKind.Bxor.Text(); | |
| case ExpressionType.Equal: return _ignoreCase ? TokenKind.Ieq.Text() : TokenKind.Ceq.Text(); | |
| case ExpressionType.NotEqual: return _ignoreCase ? TokenKind.Ine.Text() : TokenKind.Cne.Text(); | |
| case ExpressionType.GreaterThan: return _ignoreCase ? TokenKind.Igt.Text() : TokenKind.Cgt.Text(); | |
| case ExpressionType.GreaterThanOrEqual: return _ignoreCase ? TokenKind.Ige.Text() : TokenKind.Cge.Text(); | |
| case ExpressionType.LessThan: return _ignoreCase ? TokenKind.Ilt.Text() : TokenKind.Clt.Text(); | |
| case ExpressionType.LessThanOrEqual: return _ignoreCase ? TokenKind.Ile.Text() : TokenKind.Cle.Text(); | |
| case ExpressionType.LeftShift: return TokenKind.Shl.Text(); | |
| case ExpressionType.RightShift: return TokenKind.Shr.Text(); | |
| } | |
| Diagnostics.Assert(false, "Unexpected operator"); | |
| return string.Empty; | |
| } | |
| private static DynamicMetaObject CallImplicitOp(string methodName, DynamicMetaObject target, DynamicMetaObject arg, string errorOperator, DynamicMetaObject errorSuggestion) | |
| { | |
| // We will assume that if we got here with a non-null errorSuggestion and DynamicObject, that we | |
| // are trying to generate the expression that calls the override to DynamicObject.TryBinaryOperation. | |
| // We get called twice for the same target object, once with a null errorSuggestion (in which case we'll have | |
| // returned the result below), and then a second time with a non-null errorSuggestion, which we return as is. | |
| if (errorSuggestion != null && target.Value is DynamicObject) | |
| { | |
| return errorSuggestion; | |
| } | |
| // TODO: use a dynamic call site to invoke the correct method or throw an error. | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.ParserOps_ImplicitOp, | |
| target.Expression.Cast(typeof(object)), | |
| arg.Expression.Cast(typeof(object)), | |
| Expression.Constant(methodName), | |
| ExpressionCache.NullExtent, | |
| Expression.Constant(errorOperator)), | |
| target.CombineRestrictions(arg)); | |
| } | |
| private static bool IsValueNegative(object value, TypeCode typeCode) | |
| { | |
| switch (typeCode) | |
| { | |
| case TypeCode.SByte: return (sbyte)value < 0; | |
| case TypeCode.Int16: return (short)value < 0; | |
| case TypeCode.Int32: return (int)value < 0; | |
| case TypeCode.Int64: return (long)value < 0; | |
| } | |
| Diagnostics.Assert(false, "Invalid type code for testing negative value"); | |
| return true; | |
| } | |
| private static Expression TypedZero(TypeCode typeCode) | |
| { | |
| switch (typeCode) | |
| { | |
| case TypeCode.SByte: return Expression.Constant((sbyte)0); | |
| case TypeCode.Int16: return Expression.Constant((short)0); | |
| case TypeCode.Int32: return ExpressionCache.Constant(0); | |
| case TypeCode.Int64: return Expression.Constant((long)0); | |
| } | |
| Diagnostics.Assert(false, "Invalid type code for testing negative value"); | |
| return null; | |
| } | |
| private static DynamicMetaObject FigureSignedUnsignedInt(DynamicMetaObject obj, TypeCode typeCode, TypeCode currentOpType, out Type opImplType, out Type argType, out bool shouldFallbackToDoubleInCaseOfOverflow) | |
| { | |
| opImplType = null; | |
| argType = null; | |
| shouldFallbackToDoubleInCaseOfOverflow = false; | |
| if (IsValueNegative(obj.Value, typeCode)) | |
| { | |
| switch (currentOpType) | |
| { | |
| case TypeCode.UInt32: | |
| opImplType = typeof(LongOps); | |
| argType = typeof(long); | |
| break; | |
| case TypeCode.UInt64: | |
| opImplType = typeof(DecimalOps); | |
| argType = typeof(decimal); | |
| // multiply operation may overflow within the [decimal] context, i.e. [int64]::minvalue * [uint64]::maxvalue. | |
| // if overflow happens, we fallback to the [double] context | |
| shouldFallbackToDoubleInCaseOfOverflow = true; | |
| break; | |
| default: | |
| Diagnostics.Assert(false, "Need to figure out opImplType only for UIn32 and UInt64"); | |
| break; | |
| } | |
| return new DynamicMetaObject( | |
| obj.Expression, | |
| obj.PSGetTypeRestriction() | |
| .Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.LessThan(obj.Expression.Cast(obj.LimitType), TypedZero(typeCode)))), | |
| obj.Value); | |
| } | |
| return new DynamicMetaObject( | |
| obj.Expression, | |
| obj.PSGetTypeRestriction() | |
| .Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.GreaterThanOrEqual(obj.Expression.Cast(obj.LimitType), TypedZero(typeCode)))), | |
| obj.Value); | |
| } | |
| private DynamicMetaObject BinaryNumericOp(string methodName, DynamicMetaObject target, DynamicMetaObject arg) | |
| { | |
| // The type code comparison and the code generated by this routine only supports primitive types | |
| // for both operands. | |
| Diagnostics.Assert(target.LimitType.IsNumericOrPrimitive() && arg.LimitType.IsNumericOrPrimitive(), | |
| "numeric ops are only supported with primitive types"); | |
| Type opImplType = null, argType = null; | |
| bool fallbackToDoubleInCaseOfOverflow = false; | |
| TypeCode leftTypeCode = LanguagePrimitives.GetTypeCode(target.LimitType); | |
| TypeCode rightTypeCode = LanguagePrimitives.GetTypeCode(arg.LimitType); | |
| TypeCode opTypeCode = (int)leftTypeCode >= (int)rightTypeCode ? leftTypeCode : rightTypeCode; | |
| if ((int)opTypeCode <= (int)TypeCode.Int32) | |
| { | |
| opImplType = typeof(IntOps); | |
| argType = typeof(int); | |
| } | |
| else if ((int)opTypeCode <= (int)TypeCode.UInt32) | |
| { | |
| Diagnostics.Assert(opTypeCode == TypeCode.UInt32, "opType must be UInt32 if it gets in this code path"); | |
| // If one of the operands is signed, we need to promote to long if the value is negative, but | |
| // we can stay w/ an integer if the value is positive. Either way, we'll need a type test. | |
| if (LanguagePrimitives.IsSignedInteger(leftTypeCode)) | |
| { | |
| target = FigureSignedUnsignedInt(target, leftTypeCode, opTypeCode, out opImplType, out argType, out fallbackToDoubleInCaseOfOverflow); | |
| } | |
| else if (LanguagePrimitives.IsSignedInteger(rightTypeCode)) | |
| { | |
| arg = FigureSignedUnsignedInt(arg, rightTypeCode, opTypeCode, out opImplType, out argType, out fallbackToDoubleInCaseOfOverflow); | |
| } | |
| if (opImplType == null) | |
| { | |
| opImplType = typeof(UIntOps); | |
| argType = typeof(uint); | |
| } | |
| } | |
| else if ((int)opTypeCode <= (int)TypeCode.Int64) | |
| { | |
| opImplType = typeof(LongOps); | |
| argType = typeof(long); | |
| } | |
| else if ((int)opTypeCode <= (int)TypeCode.UInt64) | |
| { | |
| Diagnostics.Assert(opTypeCode == TypeCode.UInt64, "opType must be UInt64 if it gets in this code path"); | |
| if (LanguagePrimitives.IsSignedInteger(leftTypeCode)) | |
| { | |
| target = FigureSignedUnsignedInt(target, leftTypeCode, opTypeCode, out opImplType, out argType, out fallbackToDoubleInCaseOfOverflow); | |
| } | |
| else if (LanguagePrimitives.IsSignedInteger(rightTypeCode)) | |
| { | |
| arg = FigureSignedUnsignedInt(arg, rightTypeCode, opTypeCode, out opImplType, out argType, out fallbackToDoubleInCaseOfOverflow); | |
| } | |
| if (opImplType == null) | |
| { | |
| opImplType = typeof(ULongOps); | |
| argType = typeof(ulong); | |
| } | |
| } | |
| else if (opTypeCode == TypeCode.Decimal) | |
| { | |
| if (methodName.StartsWith("Compare", StringComparison.Ordinal)) | |
| { | |
| // Casting a double to decimal can overflow. Instead, we are "smarter" and avoid | |
| // the cast, and allow the comparison. There may be a precision problem with values | |
| // near Decimal.MaxValue or Decimal.MinValue, but V2 allowed the comparisons | |
| // w/o errors, so we continue to do so. | |
| if (LanguagePrimitives.IsFloating(leftTypeCode)) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(typeof(DecimalOps).GetMethod(methodName + "1", BindingFlags.NonPublic | BindingFlags.Static), | |
| target.Expression.Cast(target.LimitType).Cast(typeof(double)), | |
| arg.Expression.Cast(arg.LimitType).Cast(typeof(decimal))), | |
| target.CombineRestrictions(arg)); | |
| } | |
| if (LanguagePrimitives.IsFloating(rightTypeCode)) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(typeof(DecimalOps).GetMethod(methodName + "2", BindingFlags.NonPublic | BindingFlags.Static), | |
| target.Expression.Cast(target.LimitType).Cast(typeof(decimal)), | |
| arg.Expression.Cast(arg.LimitType).Cast(typeof(double))), | |
| target.CombineRestrictions(arg)); | |
| } | |
| } | |
| opImplType = typeof(DecimalOps); | |
| argType = typeof(decimal); | |
| } | |
| else | |
| { | |
| opImplType = typeof(DoubleOps); | |
| argType = typeof(double); | |
| } | |
| Expression expr = | |
| Expression.Call(opImplType.GetMethod(methodName, BindingFlags.NonPublic | BindingFlags.Static), | |
| target.Expression.Cast(target.LimitType).Cast(argType), | |
| arg.Expression.Cast(arg.LimitType).Cast(argType)); | |
| if (fallbackToDoubleInCaseOfOverflow) | |
| { | |
| Type doubleOpType = typeof(DoubleOps); | |
| Type doubleArgType = typeof(double); | |
| Expression fallbackToDoubleExpr = | |
| Expression.Call(doubleOpType.GetMethod(methodName, BindingFlags.NonPublic | BindingFlags.Static), | |
| target.Expression.Cast(target.LimitType).Cast(doubleArgType), | |
| arg.Expression.Cast(arg.LimitType).Cast(doubleArgType)); | |
| var exception = Expression.Variable(typeof(RuntimeException), "psBinaryNumericOpException"); | |
| var catchExpr = | |
| Expression.Catch( | |
| exception, | |
| Expression.Block( | |
| Expression.IfThen( | |
| Expression.Not(Expression.TypeIs(Expression.Property(exception, "InnerException"), typeof(OverflowException))), | |
| Expression.Rethrow()), | |
| fallbackToDoubleExpr) | |
| ); | |
| expr = Expression.TryCatch( | |
| expr, | |
| catchExpr); | |
| } | |
| if (target.LimitType.IsEnum) | |
| { | |
| // Make sure the result type is an enum unless we were expecting a bool. | |
| switch (Operation) | |
| { | |
| case ExpressionType.Equal: | |
| case ExpressionType.NotEqual: | |
| case ExpressionType.GreaterThan: | |
| case ExpressionType.GreaterThanOrEqual: | |
| case ExpressionType.LessThan: | |
| case ExpressionType.LessThanOrEqual: | |
| break; | |
| default: | |
| expr = expr.Cast(target.LimitType).Cast(typeof(object)); | |
| break; | |
| } | |
| } | |
| if (Operation == ExpressionType.Equal || Operation == ExpressionType.NotEqual) | |
| { | |
| expr = Expression.TryCatch(expr, | |
| Expression.Catch(typeof(InvalidCastException), | |
| Operation == ExpressionType.Equal ? ExpressionCache.BoxedFalse : ExpressionCache.BoxedTrue)); | |
| } | |
| return new DynamicMetaObject(expr, target.CombineRestrictions(arg)); | |
| } | |
| private DynamicMetaObject BinaryNumericStringOp(DynamicMetaObject target, DynamicMetaObject arg) | |
| { | |
| // We can't determine the operation type at compile time, we'll need another dynamic site | |
| // Generate: | |
| // tmp = Parser.ScanNumber(arg) | |
| // if (tmp == null) { throw new RuntimeError("BadNumericConstant") } | |
| // dynamic op target tmp | |
| // For equality comparison operators, if the conversion fails, we shouldn't raise | |
| // an exception, so those must be wrapped in try/catch, like: | |
| // try { /* as above */ } | |
| // catch (InvalidCastException) { true or false (depending on Operation type) } | |
| List<ParameterExpression> temps = new List<ParameterExpression>(); | |
| List<Expression> stmts = new List<Expression>(); | |
| Expression targetExpr = target.Expression; | |
| if (target.LimitType == typeof(string)) | |
| { | |
| Diagnostics.Assert( | |
| Operation == ExpressionType.Subtract || Operation == ExpressionType.Divide | |
| || Operation == ExpressionType.Modulo || Operation == ExpressionType.And | |
| || Operation == ExpressionType.Or || Operation == ExpressionType.ExclusiveOr | |
| || Operation == ExpressionType.LeftShift || Operation == ExpressionType.RightShift, | |
| "string lhs not allowed for operation"); | |
| targetExpr = ConvertStringToNumber(target.Expression, arg.LimitType); | |
| } | |
| var argExpr = arg.LimitType == typeof(string) ? ConvertStringToNumber(arg.Expression, target.LimitType) : arg.Expression; | |
| stmts.Add( | |
| DynamicExpression.Dynamic(PSBinaryOperationBinder.Get(Operation), typeof(object), targetExpr, argExpr)); | |
| Expression expr = Expression.Block(temps, stmts); | |
| if (Operation == ExpressionType.Equal || Operation == ExpressionType.NotEqual) | |
| { | |
| expr = Expression.TryCatch(expr, | |
| Expression.Catch(typeof(InvalidCastException), | |
| Operation == ExpressionType.Equal ? ExpressionCache.BoxedFalse : ExpressionCache.BoxedTrue)); | |
| } | |
| return new DynamicMetaObject(expr, target.CombineRestrictions(arg)); | |
| } | |
| /// <summary> | |
| /// Use the tokenizer to scan a number and convert it to a number of any type. | |
| /// </summary> | |
| /// <param name="expr"> | |
| /// The expression that refers to a string to be converted to a number of any type. | |
| /// </param> | |
| /// <param name="toType"> | |
| /// Primarily used as part of an error message. If the string is not a number, we want to raise an exception saying the | |
| /// string can't be converted to this type. Note that if the string is a valid number, it need not be this type. | |
| /// </param> | |
| internal static Expression ConvertStringToNumber(Expression expr, Type toType) | |
| { | |
| if (!toType.IsNumeric()) | |
| { | |
| // toType is only mostly for diagnostics, so it doesn't need to be correct. If it's not numeric, we're | |
| // doing something like "42" - "10", and toType is the type of the "other" operand, in this case, it | |
| // would string. Fall back to int if Parser.ScanNumber fails. | |
| toType = typeof(int); | |
| } | |
| return Expression.Call( | |
| CachedReflectionInfo.Parser_ScanNumber, | |
| expr.Cast(typeof(string)), | |
| Expression.Constant(toType, typeof(Type)), | |
| Expression.Constant(true)); | |
| } | |
| private static DynamicMetaObject GetArgAsNumericOrPrimitive(DynamicMetaObject arg, Type targetType) | |
| { | |
| if (arg.Value == null) | |
| { | |
| return new DynamicMetaObject(ExpressionCache.Constant(0), arg.PSGetTypeRestriction(), 0); | |
| } | |
| bool boolToDecimal = false; | |
| if (arg.LimitType.IsNumericOrPrimitive() && !arg.LimitType.IsEnum) | |
| { | |
| if (!(targetType == typeof(decimal) && arg.LimitType == typeof(bool))) | |
| { | |
| return arg; | |
| } | |
| // All other numeric conversions are simple casts, but bool=>decimal is not supported by LINQ (via Convert), so | |
| // we must do the conversion ourselves. | |
| boolToDecimal = true; | |
| } | |
| bool debase; | |
| // ConstrainedLanguage note - calls to this conversion only target numeric types. | |
| var conversion = LanguagePrimitives.FigureConversion(arg.Value, targetType, out debase); | |
| if (conversion.Rank == ConversionRank.ImplicitCast || boolToDecimal || arg.LimitType.IsEnum) | |
| { | |
| return new DynamicMetaObject( | |
| PSConvertBinder.InvokeConverter(conversion, arg.Expression, targetType, debase, ExpressionCache.InvariantCulture), | |
| arg.PSGetTypeRestriction()); | |
| } | |
| return null; | |
| } | |
| private static Type GetBitwiseOpType(TypeCode opTypeCode) | |
| { | |
| Type opType; | |
| if ((int)opTypeCode <= (int)TypeCode.Int32) { opType = typeof(int); } | |
| else if ((int)opTypeCode <= (int)TypeCode.UInt32) { opType = typeof(uint); } | |
| else if ((int)opTypeCode <= (int)TypeCode.Int64) { opType = typeof(long); } | |
| // Because we use unsigned for -bnot, to be consistent, we promote to unsigned here too (-band,-bor,-xor) | |
| else { opType = typeof(ulong); } | |
| return opType; | |
| } | |
| private DynamicMetaObject BinaryAdd(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| if (target.Value == null) | |
| { | |
| return new DynamicMetaObject(arg.Expression.Cast(typeof(object)), target.CombineRestrictions(arg)); | |
| } | |
| if (target.LimitType.IsNumericOrPrimitive() && target.LimitType != typeof(char)) | |
| { | |
| var numericArg = GetArgAsNumericOrPrimitive(arg, target.LimitType); | |
| if (numericArg != null) | |
| { | |
| return BinaryNumericOp("Add", target, numericArg); | |
| } | |
| if (arg.LimitType == typeof(string)) | |
| { | |
| return BinaryNumericStringOp(target, arg); | |
| } | |
| } | |
| Expression lhsStringExpr = null; | |
| if (target.LimitType == typeof(string)) | |
| { | |
| lhsStringExpr = target.Expression.Cast(typeof(string)); | |
| } | |
| else if (target.LimitType == typeof(char)) | |
| { | |
| lhsStringExpr = | |
| Expression.New(CachedReflectionInfo.String_ctor_char_int, | |
| target.Expression.Cast(typeof(char)), | |
| ExpressionCache.Constant(1)); | |
| } | |
| if (lhsStringExpr != null) | |
| { | |
| // For string concatenation, simply add the 2 strings, possibly converting the rhs first. | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.String_Concat_String, | |
| lhsStringExpr, | |
| PSToStringBinder.InvokeToString( | |
| ExpressionCache.GetExecutionContextFromTLS, | |
| arg.Expression)), | |
| target.CombineRestrictions(arg)); | |
| } | |
| var lhsEnumerator = PSEnumerableBinder.IsEnumerable(target); | |
| if (lhsEnumerator != null) | |
| { | |
| // target is enumerable, so we're creating a new array. | |
| var rhsEnumerator = PSEnumerableBinder.IsEnumerable(arg); | |
| Expression call; | |
| if (rhsEnumerator != null) | |
| { | |
| // Adding 2 lists | |
| call = Expression.Call(CachedReflectionInfo.EnumerableOps_AddEnumerable, | |
| ExpressionCache.GetExecutionContextFromTLS, | |
| lhsEnumerator.Expression.Cast(typeof(IEnumerator)), | |
| rhsEnumerator.Expression.Cast(typeof(IEnumerator))); | |
| } | |
| else if (target.Value is object[] targetArray) | |
| { | |
| // Adding 1 item to an object[] | |
| // This is an optimisation over the default EnumerableOps_AddObject. | |
| call = Expression.Call(CachedReflectionInfo.ArrayOps_AddObject, | |
| target.Expression.Cast(typeof(object[])), | |
| arg.Expression.Cast(typeof(object))); | |
| } | |
| else | |
| { | |
| // Adding 1 item to a list | |
| call = Expression.Call(CachedReflectionInfo.EnumerableOps_AddObject, | |
| ExpressionCache.GetExecutionContextFromTLS, | |
| lhsEnumerator.Expression.Cast(typeof(IEnumerator)), | |
| arg.Expression.Cast(typeof(object))); | |
| } | |
| return new DynamicMetaObject(call, target.CombineRestrictions(arg)); | |
| } | |
| if (target.Value is IDictionary) | |
| { | |
| if (arg.Value is IDictionary) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.HashtableOps_Add, | |
| target.Expression.Cast(typeof(IDictionary)), | |
| arg.Expression.Cast(typeof(IDictionary))), | |
| target.CombineRestrictions(arg)); | |
| } | |
| return target.ThrowRuntimeError(new DynamicMetaObject[] { arg }, BindingRestrictions.Empty, | |
| "AddHashTableToNonHashTable", ParserStrings.AddHashTableToNonHashTable); | |
| } | |
| return CallImplicitOp("op_Addition", target, arg, "+", errorSuggestion); | |
| } | |
| private DynamicMetaObject BinarySub(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return BinarySubDivOrRem(target, arg, errorSuggestion, "Sub", "op_Subtraction", "-"); | |
| } | |
| private DynamicMetaObject BinaryMultiply(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| if (target.Value == null) | |
| { | |
| // Result is null regardless of the arg. | |
| return new DynamicMetaObject(ExpressionCache.NullConstant, target.PSGetTypeRestriction()); | |
| } | |
| if (target.LimitType.IsNumeric()) | |
| { | |
| var numericArg = GetArgAsNumericOrPrimitive(arg, target.LimitType); | |
| if (numericArg != null) | |
| { | |
| return BinaryNumericOp("Multiply", target, numericArg); | |
| } | |
| if (arg.LimitType == typeof(string)) | |
| { | |
| return BinaryNumericStringOp(target, arg); | |
| } | |
| } | |
| if (target.LimitType == typeof(string)) | |
| { | |
| Expression argExpr = arg.LimitType == typeof(string) | |
| ? ConvertStringToNumber(arg.Expression, typeof(int)).Convert(typeof(int)) | |
| : arg.CastOrConvert(typeof(int)); | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.StringOps_Multiply, | |
| target.Expression.Cast(typeof(string)), | |
| argExpr), | |
| target.CombineRestrictions(arg)); | |
| } | |
| var lhsEnumerator = PSEnumerableBinder.IsEnumerable(target); | |
| if (lhsEnumerator != null) | |
| { | |
| Expression argExpr = arg.LimitType == typeof(string) | |
| ? ConvertStringToNumber(arg.Expression, typeof(int)).Convert(typeof(uint)) | |
| : arg.CastOrConvert(typeof(uint)); | |
| if (target.LimitType.IsArray) | |
| { | |
| var elementType = target.LimitType.GetElementType(); | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.ArrayOps_Multiply.MakeGenericMethod(elementType), | |
| target.Expression.Cast(elementType.MakeArrayType()), | |
| argExpr), | |
| target.CombineRestrictions(arg)); | |
| } | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_Multiply, | |
| lhsEnumerator.Expression, | |
| argExpr), | |
| target.CombineRestrictions(arg)); | |
| } | |
| return CallImplicitOp("op_Multiply", target, arg, "*", errorSuggestion); | |
| } | |
| private DynamicMetaObject BinaryDivide(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return BinarySubDivOrRem(target, arg, errorSuggestion, "Divide", "op_Division", "/"); | |
| } | |
| private DynamicMetaObject BinaryRemainder(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return BinarySubDivOrRem(target, arg, errorSuggestion, "Remainder", "op_Modulus", "%"); | |
| } | |
| private DynamicMetaObject BinarySubDivOrRem(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion, | |
| string numericOpMethodName, | |
| string implicitOpMethodName, | |
| string errorOperatorText) | |
| { | |
| if (target.Value == null) | |
| { | |
| // if target is null, just use 0 | |
| target = new DynamicMetaObject(ExpressionCache.Constant(0), target.PSGetTypeRestriction(), 0); | |
| } | |
| if (target.LimitType.IsNumericOrPrimitive()) | |
| { | |
| var numericArg = GetArgAsNumericOrPrimitive(arg, target.LimitType); | |
| if (numericArg != null) | |
| { | |
| return BinaryNumericOp(numericOpMethodName, target, numericArg); | |
| } | |
| if (arg.LimitType == typeof(string)) | |
| { | |
| return BinaryNumericStringOp(target, arg); | |
| } | |
| } | |
| if (target.LimitType == typeof(string)) | |
| { | |
| // Left is a string. We convert it to a number and try binding again. | |
| return BinaryNumericStringOp(target, arg); | |
| } | |
| return CallImplicitOp(implicitOpMethodName, target, arg, errorOperatorText, errorSuggestion); | |
| } | |
| private DynamicMetaObject Shift(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion, string userOp, Func<Expression, Expression, Expression> exprGenerator) | |
| { | |
| if (target.Value == null) | |
| { | |
| return new DynamicMetaObject(ExpressionCache.Constant(0).Convert(typeof(object)), target.PSGetTypeRestriction()); | |
| } | |
| if (target.LimitType == typeof(string) || arg.LimitType == typeof(string)) | |
| { | |
| return BinaryNumericStringOp(target, arg); | |
| } | |
| var typeCode = LanguagePrimitives.GetTypeCode(target.LimitType); | |
| if (!target.LimitType.IsNumeric()) | |
| { | |
| return CallImplicitOp(userOp, target, arg, GetOperatorText(), errorSuggestion); | |
| } | |
| bool debase; | |
| var resultType = typeof(int); | |
| // ConstrainedLanguage note - calls to this conversion only target numeric types. | |
| var conversion = LanguagePrimitives.FigureConversion(arg.Value, resultType, out debase); | |
| if (conversion.Rank == ConversionRank.None) | |
| { | |
| return PSConvertBinder.ThrowNoConversion(arg, typeof(int), this, _version); | |
| } | |
| var numericArg = PSConvertBinder.InvokeConverter(conversion, arg.Expression, resultType, debase, ExpressionCache.InvariantCulture); | |
| if (typeCode == TypeCode.Decimal || typeCode == TypeCode.Double || typeCode == TypeCode.Single) | |
| { | |
| var opType = (typeCode == TypeCode.Decimal) ? typeof(DecimalOps) : typeof(DoubleOps); | |
| var castType = (typeCode == TypeCode.Decimal) ? typeof(decimal) : typeof(double); | |
| var methodName = userOp.Substring(3); // Drop the 'op_' prefix to figure out our internal method name. | |
| return new DynamicMetaObject( | |
| Expression.Call(opType.GetMethod(methodName, BindingFlags.NonPublic | BindingFlags.Static), target.Expression.Cast(castType), numericArg), | |
| target.CombineRestrictions(arg)); | |
| } | |
| var targetExpr = target.Expression.Cast(target.LimitType); | |
| numericArg = Expression.And(numericArg, Expression.Constant(typeCode < TypeCode.Int64 ? 0x1f : 0x3f, typeof(int))); | |
| return new DynamicMetaObject( | |
| exprGenerator(targetExpr, numericArg).Cast(typeof(object)), | |
| target.CombineRestrictions(arg)); | |
| } | |
| private DynamicMetaObject LeftShift(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return Shift(target, arg, errorSuggestion, "op_LeftShift", Expression.LeftShift); | |
| } | |
| private DynamicMetaObject RightShift(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return Shift(target, arg, errorSuggestion, "op_RightShift", Expression.RightShift); | |
| } | |
| private DynamicMetaObject BinaryBitwiseXor(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return BinaryBitwiseOp(target, arg, errorSuggestion, Expression.ExclusiveOr, "op_ExclusiveOr", "-bxor", "BXor"); | |
| } | |
| private DynamicMetaObject BinaryBitwiseOr(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return BinaryBitwiseOp(target, arg, errorSuggestion, Expression.Or, "op_BitwiseOr", "-bor", "BOr"); | |
| } | |
| private DynamicMetaObject BinaryBitwiseAnd(DynamicMetaObject target, DynamicMetaObject arg, DynamicMetaObject errorSuggestion) | |
| { | |
| return BinaryBitwiseOp(target, arg, errorSuggestion, Expression.And, "op_BitwiseAnd", "-band", "BAnd"); | |
| } | |
| private DynamicMetaObject BinaryBitwiseOp(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion, | |
| Func<Expression, Expression, Expression> exprGenerator, | |
| string implicitMethodName, | |
| string errorOperatorName, | |
| string methodName) | |
| { | |
| if (target.Value == null && arg.Value == null) | |
| { | |
| return new DynamicMetaObject(ExpressionCache.Constant(0).Cast(typeof(object)), target.CombineRestrictions(arg)); | |
| } | |
| var targetUnderlyingType = (target.LimitType.IsEnum) ? Enum.GetUnderlyingType(target.LimitType) : target.LimitType; | |
| var argUnderlyingType = (arg.LimitType.IsEnum) ? Enum.GetUnderlyingType(arg.LimitType) : arg.LimitType; | |
| if (targetUnderlyingType.IsNumericOrPrimitive() || argUnderlyingType.IsNumericOrPrimitive()) | |
| { | |
| TypeCode leftTypeCode = LanguagePrimitives.GetTypeCode(targetUnderlyingType); | |
| TypeCode rightTypeCode = LanguagePrimitives.GetTypeCode(argUnderlyingType); | |
| Type opType; | |
| Type opImplType; | |
| Type toType; | |
| TypeCode opTypeCode = (int)leftTypeCode >= (int)rightTypeCode ? leftTypeCode : rightTypeCode; | |
| DynamicMetaObject numericTarget; | |
| DynamicMetaObject numericArg; | |
| if (!targetUnderlyingType.IsNumericOrPrimitive()) | |
| { | |
| opType = GetBitwiseOpType(rightTypeCode); | |
| numericTarget = GetArgAsNumericOrPrimitive(target, opType); | |
| numericArg = arg; | |
| } | |
| else if (!argUnderlyingType.IsNumericOrPrimitive()) | |
| { | |
| opType = GetBitwiseOpType(leftTypeCode); | |
| numericTarget = target; | |
| numericArg = GetArgAsNumericOrPrimitive(arg, opType); | |
| } | |
| else | |
| { | |
| numericTarget = target; | |
| numericArg = arg; | |
| } | |
| if (opTypeCode == TypeCode.Decimal) | |
| { | |
| opImplType = typeof(DecimalOps); | |
| toType = typeof(decimal); | |
| return new DynamicMetaObject( | |
| Expression.Call(opImplType.GetMethod(methodName, BindingFlags.NonPublic | BindingFlags.Static), | |
| numericTarget.Expression.Cast(numericTarget.LimitType).Convert(toType), | |
| numericArg.Expression.Cast(numericArg.LimitType).Convert(toType)), | |
| numericTarget.CombineRestrictions(numericArg)); | |
| } | |
| if (opTypeCode == TypeCode.Double || opTypeCode == TypeCode.Single) | |
| { | |
| opImplType = typeof(DoubleOps); | |
| toType = typeof(double); | |
| return new DynamicMetaObject( | |
| Expression.Call(opImplType.GetMethod(methodName, BindingFlags.NonPublic | BindingFlags.Static), | |
| numericTarget.Expression.Cast(numericTarget.LimitType).Convert(toType), | |
| numericArg.Expression.Cast(numericArg.LimitType).Convert(toType)), | |
| numericTarget.CombineRestrictions(numericArg)); | |
| } | |
| // Figure out the smallest type necessary so we don't lose information. | |
| // For uint, V2 promoted to long, but it's more correct to use uint. | |
| // For ulong, V2 incorrectly used long, this is fixed here. | |
| // For float, double, and decimal operands, we used to use long because V2 did. | |
| // Because we use unsigned for -bnot, to be consistent, we promote to unsigned here too (-band,-bor,-xor) | |
| opType = GetBitwiseOpType((int)leftTypeCode >= (int)rightTypeCode ? leftTypeCode : rightTypeCode); | |
| if (numericTarget != null && numericArg != null) | |
| { | |
| var expr = exprGenerator(numericTarget.Expression.Cast(numericTarget.LimitType).Cast(opType), | |
| numericArg.Expression.Cast(numericArg.LimitType).Cast(opType)); | |
| if (target.LimitType.IsEnum) | |
| { | |
| expr = expr.Cast(target.LimitType); | |
| } | |
| expr = expr.Cast(typeof(object)); | |
| return new DynamicMetaObject(expr, numericTarget.CombineRestrictions(numericArg)); | |
| } | |
| } | |
| if (target.LimitType == typeof(string) || arg.LimitType == typeof(string)) | |
| { | |
| return BinaryNumericStringOp(target, arg); | |
| } | |
| return CallImplicitOp(implicitMethodName, target, arg, errorOperatorName, errorSuggestion); | |
| } | |
| private DynamicMetaObject CompareEQ(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| if (target.Value == null) | |
| { | |
| return new DynamicMetaObject( | |
| arg.Value == null ? ExpressionCache.BoxedTrue : ExpressionCache.BoxedFalse, | |
| target.CombineRestrictions(arg)); | |
| } | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null && arg.Value == null) | |
| { | |
| return new DynamicMetaObject( | |
| ExpressionCache.BoxedFalse, | |
| target.CombineRestrictions(arg)); | |
| } | |
| return BinaryComparisonCommon(enumerable, target, arg) | |
| ?? BinaryEqualityComparison(target, arg); | |
| } | |
| private DynamicMetaObject CompareNE(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| if (target.Value == null) | |
| { | |
| return new DynamicMetaObject( | |
| arg.Value == null ? ExpressionCache.BoxedFalse : ExpressionCache.BoxedTrue, | |
| target.CombineRestrictions(arg)); | |
| } | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null && arg.Value == null) | |
| { | |
| return new DynamicMetaObject(ExpressionCache.BoxedTrue, | |
| target.CombineRestrictions(arg)); | |
| } | |
| return BinaryComparisonCommon(enumerable, target, arg) | |
| ?? BinaryEqualityComparison(target, arg); | |
| } | |
| private DynamicMetaObject BinaryEqualityComparison(DynamicMetaObject target, DynamicMetaObject arg) | |
| { | |
| var toResult = Operation == ExpressionType.NotEqual ? (Func<Expression, Expression>)Expression.Not : e => e; | |
| if (target.LimitType == typeof(string)) | |
| { | |
| var targetExpr = target.Expression.Cast(typeof(string)); | |
| // Doing a string comparison no matter what. | |
| var argExpr = arg.LimitType != typeof(string) | |
| ? DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), | |
| arg.Expression, ExpressionCache.GetExecutionContextFromTLS) | |
| : arg.Expression.Cast(typeof(string)); | |
| return new DynamicMetaObject( | |
| toResult(Compiler.CallStringEquals(targetExpr, argExpr, _ignoreCase)).Cast(typeof(object)), | |
| target.CombineRestrictions(arg)); | |
| } | |
| if (target.LimitType == typeof(char) && _ignoreCase) | |
| { | |
| if (arg.LimitType == typeof(char)) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call( | |
| Operation == ExpressionType.Equal ? CachedReflectionInfo.CharOps_CompareIeq : CachedReflectionInfo.CharOps_CompareIne, | |
| target.Expression.Cast(typeof(char)), | |
| arg.Expression.Cast(typeof(char))), | |
| target.PSGetTypeRestriction().Merge(arg.PSGetTypeRestriction())); | |
| } | |
| if (arg.LimitType == typeof(string)) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call( | |
| Operation == ExpressionType.Equal ? CachedReflectionInfo.CharOps_CompareStringIeq : CachedReflectionInfo.CharOps_CompareStringIne, | |
| target.Expression.Cast(typeof(char)), | |
| arg.Expression.Cast(typeof(string))), | |
| target.PSGetTypeRestriction().Merge(arg.PSGetTypeRestriction())); | |
| } | |
| } | |
| Expression objectEqualsCall = Expression.Call(target.Expression.Cast(typeof(object)), | |
| CachedReflectionInfo.Object_Equals, | |
| arg.Expression.Cast(typeof(object))); | |
| bool debase; | |
| var targetType = target.LimitType; | |
| // ConstrainedLanguage note - calls to this conversion are protected by the binding rules below. | |
| var conversion = LanguagePrimitives.FigureConversion(arg.Value, targetType, out debase); | |
| if (conversion.Rank == ConversionRank.Identity || conversion.Rank == ConversionRank.Assignable | |
| || (conversion.Rank == ConversionRank.NullToRef && targetType != typeof(PSReference))) | |
| { | |
| // In these cases, no actual conversion is happening, and conversion.Converter will just return | |
| // the value to be converted. So there is no need to convert the value and compare again. | |
| return new DynamicMetaObject(toResult(objectEqualsCall).Cast(typeof(object)), target.CombineRestrictions(arg)); | |
| } | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(arg); | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetOptionalVersionAndLanguageCheckForType(this, targetType, _version)); | |
| // If there is no conversion, then just rely on 'objectEqualsCall' which most likely will return false. If we attempted the | |
| // conversion, we'd need extra code to catch an exception we know will happen just to return false. | |
| if (conversion.Rank == ConversionRank.None) | |
| { | |
| return new DynamicMetaObject(toResult(objectEqualsCall).Cast(typeof(object)), bindingRestrictions); | |
| } | |
| // A conversion exists. Generate: | |
| // tmp = target.Equals(arg) | |
| // try { | |
| // if (!tmp) { tmp = target.Equals(Convert(arg, target.GetType())) } | |
| // } catch (InvalidCastException) { tmp = false } | |
| // return (operator is -eq/-ceq/-ieq) ? tmp : !tmp | |
| var resultTmp = Expression.Parameter(typeof(bool)); | |
| Expression secondEqualsCall = | |
| Expression.Call(target.Expression.Cast(typeof(object)), | |
| CachedReflectionInfo.Object_Equals, | |
| PSConvertBinder.InvokeConverter(conversion, arg.Expression, targetType, debase, ExpressionCache.InvariantCulture).Cast(typeof(object))); | |
| var expr = Expression.Block( | |
| new ParameterExpression[] { resultTmp }, | |
| Expression.Assign(resultTmp, objectEqualsCall), | |
| Expression.IfThen(Expression.Not(resultTmp), | |
| Expression.TryCatch(Expression.Assign(resultTmp, secondEqualsCall), | |
| Expression.Catch(typeof(InvalidCastException), | |
| Expression.Assign(resultTmp, ExpressionCache.Constant(false))))), | |
| toResult(resultTmp)); | |
| return new DynamicMetaObject(expr.Cast(typeof(object)), bindingRestrictions); | |
| } | |
| private static Expression CompareWithZero(DynamicMetaObject target, Func<Expression, Expression, Expression> comparer) | |
| { | |
| return comparer(target.Expression.Cast(target.LimitType), ExpressionCache.Constant(0).Cast(target.LimitType)).Cast(typeof(object)); | |
| } | |
| private DynamicMetaObject CompareLT(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null && (target.Value == null || arg.Value == null)) | |
| { | |
| Expression result = | |
| target.LimitType.IsNumeric() ? CompareWithZero(target, Expression.LessThan) | |
| : arg.LimitType.IsNumeric() ? CompareWithZero(arg, Expression.GreaterThanOrEqual) | |
| : arg.Value != null ? ExpressionCache.BoxedTrue | |
| : ExpressionCache.BoxedFalse; | |
| return new DynamicMetaObject(result, target.CombineRestrictions(arg)); | |
| } | |
| return BinaryComparisonCommon(enumerable, target, arg) | |
| ?? BinaryComparison(target, arg, static e => Expression.LessThan(e, ExpressionCache.Constant(0))); | |
| } | |
| private DynamicMetaObject CompareLE(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null && (target.Value == null || arg.Value == null)) | |
| { | |
| Expression result = | |
| target.LimitType.IsNumeric() ? CompareWithZero(target, Expression.LessThan) | |
| : arg.LimitType.IsNumeric() ? CompareWithZero(arg, Expression.GreaterThanOrEqual) | |
| : target.Value != null ? ExpressionCache.BoxedFalse | |
| : ExpressionCache.BoxedTrue; | |
| return new DynamicMetaObject(result, target.CombineRestrictions(arg)); | |
| } | |
| return BinaryComparisonCommon(enumerable, target, arg) | |
| ?? BinaryComparison(target, arg, static e => Expression.LessThanOrEqual(e, ExpressionCache.Constant(0))); | |
| } | |
| private DynamicMetaObject CompareGT(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| // Handle a null operand as a special case here unless the target is enumerable or if one of the operands is numeric, | |
| // in which case null is converted to 0 and regular numeric comparison is done. | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null && (target.Value == null || arg.Value == null)) | |
| { | |
| Expression result = | |
| target.LimitType.IsNumeric() ? CompareWithZero(target, Expression.GreaterThanOrEqual) | |
| : arg.LimitType.IsNumeric() ? CompareWithZero(arg, Expression.LessThan) | |
| : target.Value != null ? ExpressionCache.BoxedTrue | |
| : ExpressionCache.BoxedFalse; | |
| return new DynamicMetaObject(result, target.CombineRestrictions(arg)); | |
| } | |
| return BinaryComparisonCommon(enumerable, target, arg) | |
| ?? BinaryComparison(target, arg, static e => Expression.GreaterThan(e, ExpressionCache.Constant(0))); | |
| } | |
| private DynamicMetaObject CompareGE(DynamicMetaObject target, | |
| DynamicMetaObject arg, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| // Handle a null operand as a special case here unless the target is enumerable or if one of the operands is numeric, | |
| // in which case null is converted to 0 and regular numeric comparison is done. | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable == null && (target.Value == null || arg.Value == null)) | |
| { | |
| Expression result = | |
| target.LimitType.IsNumeric() ? CompareWithZero(target, Expression.GreaterThanOrEqual) | |
| : arg.LimitType.IsNumeric() ? CompareWithZero(arg, Expression.LessThan) | |
| : arg.Value != null ? ExpressionCache.BoxedFalse | |
| : ExpressionCache.BoxedTrue; | |
| return new DynamicMetaObject(result, target.CombineRestrictions(arg)); | |
| } | |
| return BinaryComparisonCommon(enumerable, target, arg) | |
| ?? BinaryComparison(target, arg, static e => Expression.GreaterThanOrEqual(e, ExpressionCache.Constant(0))); | |
| } | |
| private DynamicMetaObject BinaryComparison(DynamicMetaObject target, DynamicMetaObject arg, Func<Expression, Expression> toResult) | |
| { | |
| if (target.LimitType == typeof(string)) | |
| { | |
| var targetExpr = target.Expression.Cast(typeof(string)); | |
| // Doing a string comparison no matter what. | |
| var argExpr = arg.LimitType != typeof(string) | |
| ? DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), | |
| arg.Expression, ExpressionCache.GetExecutionContextFromTLS) | |
| : arg.Expression.Cast(typeof(string)); | |
| var expr = Expression.Call(CachedReflectionInfo.StringOps_Compare, targetExpr, argExpr, ExpressionCache.InvariantCulture, | |
| _ignoreCase | |
| ? ExpressionCache.CompareOptionsIgnoreCase | |
| : ExpressionCache.CompareOptionsNone); | |
| return new DynamicMetaObject( | |
| toResult(expr).Cast(typeof(object)), | |
| target.CombineRestrictions(arg)); | |
| } | |
| bool debase; | |
| var targetType = target.LimitType; | |
| // ConstrainedLanguage note - calls to this conversion are protected by the binding rules below. | |
| var conversion = LanguagePrimitives.FigureConversion(arg.Value, targetType, out debase); | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(arg); | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetOptionalVersionAndLanguageCheckForType(this, targetType, _version)); | |
| Expression argConverted; | |
| if (conversion.Rank == ConversionRank.Identity || conversion.Rank == ConversionRank.Assignable) | |
| { | |
| argConverted = arg.Expression; | |
| } | |
| else if (conversion.Rank == ConversionRank.None) | |
| { | |
| // If there is no conversion, then don't bother to invoke the converter. We raise the exception directly. | |
| var valueToConvert = debase | |
| ? Expression.Call(CachedReflectionInfo.PSObject_Base, arg.Expression) | |
| : arg.Expression.Cast(typeof(object)); | |
| var errorMsgTuple = Expression.Call( | |
| CachedReflectionInfo.LanguagePrimitives_GetInvalidCastMessages, | |
| valueToConvert, Expression.Constant(targetType, typeof(Type))); | |
| argConverted = Compiler.ThrowRuntimeError( | |
| "ComparisonFailure", ExtendedTypeSystem.ComparisonFailure, targetType, | |
| DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), target.Expression, ExpressionCache.GetExecutionContextFromTLS), | |
| DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), arg.Expression, ExpressionCache.GetExecutionContextFromTLS), | |
| Expression.Property(errorMsgTuple, "Item2")); | |
| } | |
| else | |
| { | |
| // Invoke the converter. We can raise the exception if the conversion throws InvalidCastException. | |
| var innerException = Expression.Parameter(typeof(InvalidCastException)); | |
| argConverted = | |
| Expression.TryCatch( | |
| PSConvertBinder.InvokeConverter(conversion, arg.Expression, targetType, debase, ExpressionCache.InvariantCulture), | |
| Expression.Catch( | |
| innerException, | |
| Compiler.ThrowRuntimeErrorWithInnerException("ComparisonFailure", | |
| Expression.Constant(ExtendedTypeSystem.ComparisonFailure), innerException, targetType, | |
| DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), target.Expression, ExpressionCache.GetExecutionContextFromTLS), | |
| DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), arg.Expression, ExpressionCache.GetExecutionContextFromTLS), | |
| Expression.Property(innerException, CachedReflectionInfo.Exception_Message)))); | |
| } | |
| // Prefer IComparable<T> over IComparable if possible | |
| if (target.LimitType == arg.LimitType) | |
| { | |
| foreach (var i in target.Value.GetType().GetInterfaces()) | |
| { | |
| if (i.IsGenericType && i.GetGenericTypeDefinition() == typeof(IComparable<>)) | |
| { | |
| return new DynamicMetaObject( | |
| toResult(Expression.Call(Expression.Convert(target.Expression, i), | |
| i.GetMethod("CompareTo"), | |
| argConverted.Cast(arg.LimitType))).Cast(typeof(object)), | |
| bindingRestrictions); | |
| } | |
| } | |
| } | |
| if (target.Value is IComparable) | |
| { | |
| return new DynamicMetaObject( | |
| toResult(Expression.Call(target.Expression.Cast(typeof(IComparable)), | |
| CachedReflectionInfo.IComparable_CompareTo, | |
| argConverted.Cast(typeof(object)))).Cast(typeof(object)), | |
| bindingRestrictions); | |
| } | |
| var throwExpr = Compiler.ThrowRuntimeError("NotIcomparable", ExtendedTypeSystem.NotIcomparable, this.ReturnType, target.Expression); | |
| // Try object.Equals. If the objects compare equal, the result is known (true for -ge or -le, false for -gt or -lt), otherwise | |
| // throw because the objects can't be compared in any meaningful way. | |
| return new DynamicMetaObject( | |
| Expression.Condition( | |
| Expression.Call(target.Expression.Cast(typeof(object)), | |
| CachedReflectionInfo.Object_Equals, | |
| arg.Expression.Cast(typeof(object))), | |
| (Operation == ExpressionType.GreaterThanOrEqual || Operation == ExpressionType.LessThanOrEqual) | |
| ? ExpressionCache.BoxedTrue : ExpressionCache.BoxedFalse, | |
| throwExpr), | |
| bindingRestrictions); | |
| } | |
| private DynamicMetaObject BinaryComparisonCommon(DynamicMetaObject targetAsEnumerator, DynamicMetaObject target, DynamicMetaObject arg) | |
| { | |
| if (targetAsEnumerator != null && !_scalarCompare) | |
| { | |
| // If the target is enumerable, the we generate an object[] result with elements matching. | |
| // The iteration will be done in a pre-compiled method, but the comparison is done with | |
| // a dynamically generated lambda that uses a binder | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_Compare, | |
| targetAsEnumerator.Expression, | |
| arg.Expression.Cast(typeof(object)), | |
| Expression.Constant(GetScalarCompareDelegate())), | |
| targetAsEnumerator.Restrictions.Merge(arg.PSGetTypeRestriction())); | |
| } | |
| if (target.LimitType.IsNumeric()) | |
| { | |
| var numericArg = GetArgAsNumericOrPrimitive(arg, target.LimitType); | |
| if (numericArg != null) | |
| { | |
| string numericMethod = null; | |
| switch (Operation) | |
| { | |
| case ExpressionType.Equal: numericMethod = "CompareEq"; break; | |
| case ExpressionType.NotEqual: numericMethod = "CompareNe"; break; | |
| case ExpressionType.GreaterThan: numericMethod = "CompareGt"; break; | |
| case ExpressionType.GreaterThanOrEqual: numericMethod = "CompareGe"; break; | |
| case ExpressionType.LessThan: numericMethod = "CompareLt"; break; | |
| case ExpressionType.LessThanOrEqual: numericMethod = "CompareLe"; break; | |
| } | |
| return BinaryNumericOp(numericMethod, target, numericArg); | |
| } | |
| if (arg.LimitType == typeof(string)) | |
| { | |
| return BinaryNumericStringOp(target, arg); | |
| } | |
| } | |
| return null; | |
| } | |
| } | |
| /// <summary> | |
| /// The binder for unary operators like !, -, or +. | |
| /// </summary> | |
| internal sealed class PSUnaryOperationBinder : UnaryOperationBinder | |
| { | |
| private static PSUnaryOperationBinder s_notBinder; | |
| private static PSUnaryOperationBinder s_bnotBinder; | |
| private static PSUnaryOperationBinder s_unaryMinus; | |
| private static PSUnaryOperationBinder s_unaryPlusBinder; | |
| private static PSUnaryOperationBinder s_incrementBinder; | |
| private static PSUnaryOperationBinder s_decrementBinder; | |
| internal static PSUnaryOperationBinder Get(ExpressionType operation) | |
| { | |
| switch (operation) | |
| { | |
| case ExpressionType.Not: | |
| if (s_notBinder == null) | |
| Interlocked.CompareExchange(ref s_notBinder, new PSUnaryOperationBinder(operation), null); | |
| return s_notBinder; | |
| case ExpressionType.OnesComplement: | |
| if (s_bnotBinder == null) | |
| Interlocked.CompareExchange(ref s_bnotBinder, new PSUnaryOperationBinder(operation), null); | |
| return s_bnotBinder; | |
| case ExpressionType.UnaryPlus: | |
| if (s_unaryPlusBinder == null) | |
| Interlocked.CompareExchange(ref s_unaryPlusBinder, new PSUnaryOperationBinder(operation), null); | |
| return s_unaryPlusBinder; | |
| case ExpressionType.Negate: | |
| if (s_unaryMinus == null) | |
| Interlocked.CompareExchange(ref s_unaryMinus, new PSUnaryOperationBinder(operation), null); | |
| return s_unaryMinus; | |
| case ExpressionType.Increment: | |
| if (s_incrementBinder == null) | |
| Interlocked.CompareExchange(ref s_incrementBinder, new PSUnaryOperationBinder(operation), null); | |
| return s_incrementBinder; | |
| case ExpressionType.Decrement: | |
| if (s_decrementBinder == null) | |
| Interlocked.CompareExchange(ref s_decrementBinder, new PSUnaryOperationBinder(operation), null); | |
| return s_decrementBinder; | |
| } | |
| throw new NotImplementedException("Unimplemented unary operation"); | |
| } | |
| private PSUnaryOperationBinder(ExpressionType operation) : base(operation) | |
| { | |
| } | |
| public override DynamicMetaObject FallbackUnaryOperation(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| return this.DeferForPSObject(target); | |
| } | |
| switch (Operation) | |
| { | |
| case ExpressionType.Not: | |
| return Not(target, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.OnesComplement: | |
| return BNot(target, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.UnaryPlus: | |
| return UnaryPlus(target, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Negate: | |
| return UnaryMinus(target, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Increment: | |
| return IncrDecr(target, 1, errorSuggestion).WriteToDebugLog(this); | |
| case ExpressionType.Decrement: | |
| return IncrDecr(target, -1, errorSuggestion).WriteToDebugLog(this); | |
| } | |
| throw new NotImplementedException(); | |
| } | |
| public override string ToString() | |
| { | |
| return string.Create(CultureInfo.InvariantCulture, $"PSUnaryOperationBinder {this.Operation}"); | |
| } | |
| internal DynamicMetaObject Not(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| // TODO: check op_LogicalNot | |
| // This could generate a dynamic site in the expr, which means we might have the same type test twice. | |
| // We should do better, but this is the simplest implementation, we can add specific cases to handle more common | |
| // cases if necessary. | |
| var targetExpr = target.CastOrConvert(typeof(bool)); | |
| return new DynamicMetaObject( | |
| Expression.Not(targetExpr).Cast(typeof(object)), | |
| target.PSGetTypeRestriction()); | |
| } | |
| internal DynamicMetaObject BNot(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| return this.DeferForPSObject(target); | |
| } | |
| if (target.Value == null) | |
| { | |
| return new DynamicMetaObject(ExpressionCache.Constant(-1).Cast(typeof(object)), target.PSGetTypeRestriction()); | |
| } | |
| // If the type implements the operator, prefer that. | |
| var method = target.LimitType.GetMethod("op_OnesComplement", BindingFlags.Static | BindingFlags.Public, null, | |
| new Type[] { target.LimitType }, null); | |
| if (method != null) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.OnesComplement(target.Expression.Cast(target.LimitType), method).Cast(typeof(object)), | |
| target.PSGetTypeRestriction()); | |
| } | |
| // Otherwise, do a conversion, as necessary, or throw (and say we can't convert to int, a better message | |
| // would be nice, but this error is good enough.) | |
| if (target.LimitType == typeof(string)) | |
| { | |
| // If we have a string, we defer resolving the operation type until after we know the type of the operand, | |
| // so generate a dynamic site. | |
| return new DynamicMetaObject( | |
| DynamicExpression.Dynamic(this, this.ReturnType, | |
| PSBinaryOperationBinder.ConvertStringToNumber(target.Expression, typeof(int))), | |
| target.PSGetTypeRestriction()); | |
| } | |
| Expression targetExpr = null; | |
| if (!target.LimitType.IsNumeric()) | |
| { | |
| var resultType = typeof(int); | |
| bool debase; | |
| // ConstrainedLanguage note - calls to this conversion only target numeric types. | |
| var conversion = LanguagePrimitives.FigureConversion(target.Value, resultType, out debase); | |
| if (conversion.Rank != ConversionRank.None) | |
| { | |
| targetExpr = PSConvertBinder.InvokeConverter(conversion, target.Expression, resultType, debase, | |
| ExpressionCache.InvariantCulture); | |
| } | |
| else | |
| { | |
| resultType = typeof(long); | |
| // ConstrainedLanguage note - calls to this conversion only target numeric types. | |
| conversion = LanguagePrimitives.FigureConversion(target.Value, resultType, out debase); | |
| if (conversion.Rank != ConversionRank.None) | |
| { | |
| targetExpr = PSConvertBinder.InvokeConverter(conversion, target.Expression, resultType, debase, | |
| ExpressionCache.InvariantCulture); | |
| } | |
| } | |
| } | |
| else | |
| { | |
| var typeCode = LanguagePrimitives.GetTypeCode(target.LimitType); | |
| if (typeCode < TypeCode.Int32) | |
| { | |
| targetExpr = target.LimitType.IsEnum | |
| ? target.Expression.Cast(Enum.GetUnderlyingType(target.LimitType)) | |
| : target.Expression.Cast(target.LimitType); | |
| targetExpr = targetExpr.Cast(typeof(int)); | |
| } | |
| else if (typeCode <= TypeCode.UInt64) | |
| { | |
| var targetConvertType = target.LimitType; | |
| if (targetConvertType.IsEnum) | |
| { | |
| targetConvertType = Enum.GetUnderlyingType(targetConvertType); | |
| } | |
| targetExpr = target.Expression.Cast(targetConvertType); | |
| } | |
| else | |
| { | |
| var opType = (typeCode == TypeCode.Decimal) ? typeof(DecimalOps) : typeof(DoubleOps); | |
| var castType = (typeCode == TypeCode.Decimal) ? typeof(decimal) : typeof(double); | |
| return new DynamicMetaObject( | |
| Expression.Call(opType.GetMethod("BNot", BindingFlags.Static | BindingFlags.NonPublic), target.Expression.Convert(castType)), | |
| target.PSGetTypeRestriction()); | |
| } | |
| } | |
| if (targetExpr != null) | |
| { | |
| Expression result = Expression.OnesComplement(targetExpr); | |
| if (target.LimitType.IsEnum) | |
| { | |
| result = result.Cast(target.LimitType); | |
| } | |
| return new DynamicMetaObject(result.Cast(typeof(object)), target.PSGetTypeRestriction()); | |
| } | |
| return errorSuggestion ?? PSConvertBinder.ThrowNoConversion(target, typeof(int), this, -1); | |
| } | |
| private DynamicMetaObject UnaryPlus(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| return this.DeferForPSObject(target); | |
| } | |
| if (target.LimitType.IsNumeric()) | |
| { | |
| var expr = target.Expression.Cast(target.LimitType); | |
| if (target.LimitType == typeof(byte) || target.LimitType == typeof(sbyte)) | |
| { | |
| // promote to int, unary plus doesn't support byte directly. | |
| expr = expr.Cast(typeof(int)); | |
| } | |
| return new DynamicMetaObject( | |
| Expression.UnaryPlus(expr).Cast(typeof(object)), | |
| target.PSGetTypeRestriction()); | |
| } | |
| // Use a nested dynamic site that adds 0. This won't change the sign, but it will attempt conversions. This is slower than it needs | |
| // to be, but should be hit rarely. | |
| return new DynamicMetaObject( | |
| DynamicExpression.Dynamic(PSBinaryOperationBinder.Get(ExpressionType.Add), typeof(object), ExpressionCache.Constant(0), target.Expression), | |
| target.PSGetTypeRestriction()); | |
| } | |
| private DynamicMetaObject UnaryMinus(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| return this.DeferForPSObject(target); | |
| } | |
| if (target.LimitType.IsNumeric()) | |
| { | |
| var expr = target.Expression.Cast(target.LimitType); | |
| if (target.LimitType == typeof(byte) || target.LimitType == typeof(sbyte)) | |
| { | |
| // promote to int, unary plus doesn't support byte directly. | |
| expr = expr.Cast(typeof(int)); | |
| } | |
| return new DynamicMetaObject( | |
| Expression.Negate(expr).Cast(typeof(object)), | |
| target.PSGetTypeRestriction()); | |
| } | |
| // Use a nested dynamic site that subtracts from 0. This won't change the sign, but it will attempt conversions. This is slower than it needs | |
| // to be, but should be hit rarely. | |
| return new DynamicMetaObject( | |
| DynamicExpression.Dynamic(PSBinaryOperationBinder.Get(ExpressionType.Subtract), typeof(object), ExpressionCache.Constant(0), target.Expression), | |
| target.PSGetTypeRestriction()); | |
| } | |
| private DynamicMetaObject IncrDecr(DynamicMetaObject target, int valueToAdd, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| return this.DeferForPSObject(target); | |
| } | |
| if (target.Value == null) | |
| { | |
| return new DynamicMetaObject(ExpressionCache.Constant(valueToAdd).Cast(typeof(object)), target.PSGetTypeRestriction()); | |
| } | |
| if (target.LimitType.IsNumeric()) | |
| { | |
| var arg = new DynamicMetaObject(ExpressionCache.Constant(valueToAdd), BindingRestrictions.Empty, valueToAdd); | |
| var result = PSBinaryOperationBinder.Get(ExpressionType.Add).FallbackBinaryOperation(target, arg, errorSuggestion); | |
| return new DynamicMetaObject( | |
| result.Expression, | |
| target.PSGetTypeRestriction()); | |
| } | |
| return errorSuggestion ?? target.ThrowRuntimeError( | |
| Array.Empty<DynamicMetaObject>(), | |
| BindingRestrictions.Empty, | |
| "OperatorRequiresNumber", | |
| ParserStrings.OperatorRequiresNumber, | |
| Expression.Constant((Operation == ExpressionType.Increment ? TokenKind.PlusPlus : TokenKind.MinusMinus).Text()), | |
| Expression.Constant(target.LimitType, typeof(Type))); | |
| } | |
| } | |
| /// <summary> | |
| /// The binder for converting a value, e.g. [int]"42" | |
| /// </summary> | |
| internal sealed class PSConvertBinder : ConvertBinder | |
| { | |
| private static readonly Dictionary<Type, PSConvertBinder> s_binderCache = new Dictionary<Type, PSConvertBinder>(); | |
| internal int _version; | |
| public static PSConvertBinder Get(Type type) | |
| { | |
| PSConvertBinder result; | |
| lock (s_binderCache) | |
| { | |
| if (!s_binderCache.TryGetValue(type, out result)) | |
| { | |
| result = new PSConvertBinder(type); | |
| s_binderCache.Add(type, result); | |
| } | |
| } | |
| return result; | |
| } | |
| private PSConvertBinder(Type type) | |
| : base(type, /*explicit=*/false) | |
| { | |
| this._version = 0; | |
| if (type == typeof(string)) | |
| { | |
| CacheTarget((Func<CallSite, object, string>)(StringToStringRule)); | |
| } | |
| } | |
| public override DynamicMetaObject FallbackConvert(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target).WriteToDebugLog(this); | |
| } | |
| if (target.Value == AutomationNull.Value) | |
| { | |
| return new DynamicMetaObject(Expression.Default(this.Type), target.PSGetTypeRestriction()).WriteToDebugLog(this); | |
| } | |
| bool debase; | |
| var resultType = this.Type; | |
| // ConstrainedLanguage note - this is the main conversion mechanism. If the runspace has ever used | |
| // ConstrainedLanguage, then start baking in the language mode to the binding rules. | |
| var conversion = LanguagePrimitives.FigureConversion(target.Value, resultType, out debase); | |
| if (errorSuggestion != null && target.Value is DynamicObject) | |
| { | |
| return errorSuggestion.WriteToDebugLog(this); | |
| } | |
| BindingRestrictions restrictions = target.PSGetTypeRestriction(); | |
| restrictions = restrictions.Merge(BinderUtils.GetOptionalVersionAndLanguageCheckForType(this, resultType, _version)); | |
| return (new DynamicMetaObject( | |
| InvokeConverter(conversion, target.Expression, resultType, debase, ExpressionCache.InvariantCulture), | |
| restrictions)).WriteToDebugLog(this); | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "PSConvertBinder [{0}] ver:{1}", | |
| Microsoft.PowerShell.ToStringCodeMethods.Type(this.Type, true), | |
| _version); | |
| } | |
| internal static void InvalidateCache() | |
| { | |
| // Invalidate binders | |
| lock (s_binderCache) | |
| { | |
| foreach (PSConvertBinder binder in s_binderCache.Values) | |
| { | |
| binder._version += 1; | |
| } | |
| } | |
| } | |
| internal static DynamicMetaObject ThrowNoConversion(DynamicMetaObject target, Type toType, DynamicMetaObjectBinder binder, | |
| int currentVersion, params DynamicMetaObject[] args) | |
| { | |
| // No conversion, so the result expression raises an error: | |
| // throw new PSInvalidCastException("ConvertToFinalInvalidCastException", null, | |
| // ExtendedTypeSystem.InvalidCastException, | |
| // valueToConvert.ToString(), ObjectToTypeNameString(valueToConvert), resultType.ToString()); | |
| Expression expr = Expression.Call(CachedReflectionInfo.LanguagePrimitives_ThrowInvalidCastException, | |
| target.Expression.Cast(typeof(object)), | |
| Expression.Constant(toType, typeof(Type))); | |
| if (binder.ReturnType != typeof(void)) | |
| { | |
| expr = Expression.Block(expr, Expression.Default(binder.ReturnType)); | |
| } | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(args); | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetOptionalVersionAndLanguageCheckForType(binder, toType, currentVersion)); | |
| return new DynamicMetaObject(expr, bindingRestrictions); | |
| } | |
| /// <summary> | |
| /// Convert argument to a ByRef-like type via implicit or explicit conversion. | |
| /// </summary> | |
| /// <param name="argument"> | |
| /// The argument to be converted to a ByRef-like type. | |
| /// </param> | |
| /// <param name="resultType"> | |
| /// The ByRef-like type to convert to. | |
| /// </param> | |
| internal static Expression ConvertToByRefLikeTypeViaCasting(DynamicMetaObject argument, Type resultType) | |
| { | |
| var baseObject = PSObject.Base(argument.Value); | |
| // Source value cannot be null or AutomationNull, and it cannot be a pure PSObject. | |
| if (baseObject != null && baseObject is not PSObject) | |
| { | |
| Type fromType = baseObject.GetType(); | |
| ConversionRank rank = ConversionRank.None; | |
| LanguagePrimitives.FigureCastConversion(fromType, resultType, ref rank); | |
| if (rank != ConversionRank.None) | |
| { | |
| var valueToConvert = baseObject == argument.Value | |
| ? argument.Expression | |
| : Expression.Call(CachedReflectionInfo.PSObject_Base, argument.Expression); | |
| return Expression.Convert(valueToConvert.Cast(fromType), resultType); | |
| } | |
| } | |
| return null; | |
| } | |
| internal static Expression InvokeConverter(LanguagePrimitives.IConversionData conversion, | |
| Expression value, | |
| Type resultType, | |
| bool debase, | |
| Expression formatProvider) | |
| { | |
| Expression conv; | |
| if (conversion.Rank == ConversionRank.Identity || conversion.Rank == ConversionRank.Assignable) | |
| { | |
| conv = debase ? Expression.Call(CachedReflectionInfo.PSObject_Base, value) : value; | |
| } | |
| else | |
| { | |
| Expression valueToConvert, valueAsPSObject; | |
| if (debase) | |
| { | |
| // Caller has verified the value is a PSObject. | |
| valueToConvert = Expression.Call(CachedReflectionInfo.PSObject_Base, value); | |
| valueAsPSObject = value.Cast(typeof(PSObject)); | |
| } | |
| else | |
| { | |
| // Caller has verified the value is not a PSObject, or that PSObject.Base should not be called. | |
| // If the object is some sort of PSObject, it's most likely a derived to base conversion. | |
| valueToConvert = value.Cast(typeof(object)); | |
| valueAsPSObject = ExpressionCache.NullPSObject; | |
| } | |
| conv = Expression.Call( | |
| Expression.Constant(conversion.Converter), | |
| conversion.Converter.GetType().GetMethod("Invoke"), | |
| /*valueToConvert=*/ valueToConvert, | |
| /*resultType=*/ Expression.Constant(resultType, typeof(Type)), | |
| /*recurse=*/ ExpressionCache.Constant(true), | |
| /*originalValueToConvert=*/ valueAsPSObject, | |
| /*formatProvider=*/ formatProvider, | |
| /*backupTable=*/ ExpressionCache.NullTypeTable); | |
| } | |
| // Skip adding the Convert if unnecessary (same type), or impossible (InternalPSCustomObject) | |
| if (conv.Type == resultType || resultType == typeof(LanguagePrimitives.InternalPSCustomObject)) | |
| { | |
| return conv; | |
| } | |
| if (resultType.IsValueType && Nullable.GetUnderlyingType(resultType) == null) | |
| { | |
| return Expression.Unbox(conv, resultType); | |
| } | |
| return Expression.Convert(conv, resultType); | |
| } | |
| private static string StringToStringRule(CallSite site, object obj) | |
| { | |
| var str = obj as string; | |
| return str ?? ((CallSite<Func<CallSite, object, string>>)site).Update(site, obj); | |
| } | |
| } | |
| /// <summary> | |
| /// The binder to get the value of an indexable object, e.g. $x[1] | |
| /// </summary> | |
| internal sealed class PSGetIndexBinder : GetIndexBinder | |
| { | |
| private static readonly Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints, bool>, PSGetIndexBinder> s_binderCache | |
| = new Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints, bool>, PSGetIndexBinder>(); | |
| private readonly PSMethodInvocationConstraints _constraints; | |
| private readonly bool _allowSlicing; | |
| internal int _version; | |
| public static PSGetIndexBinder Get(int argCount, PSMethodInvocationConstraints constraints, bool allowSlicing = true) | |
| { | |
| lock (s_binderCache) | |
| { | |
| PSGetIndexBinder binder; | |
| var tuple = Tuple.Create(new CallInfo(argCount), constraints, allowSlicing); | |
| if (!s_binderCache.TryGetValue(tuple, out binder)) | |
| { | |
| binder = new PSGetIndexBinder(tuple); | |
| s_binderCache.Add(tuple, binder); | |
| } | |
| return binder; | |
| } | |
| } | |
| private PSGetIndexBinder(Tuple<CallInfo, PSMethodInvocationConstraints, bool> tuple) | |
| : base(tuple.Item1) | |
| { | |
| _constraints = tuple.Item2; | |
| _allowSlicing = tuple.Item3; | |
| this._version = 0; | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "PSGetIndexBinder indexCount={0}{1}{2} ver:{3}", | |
| this.CallInfo.ArgumentCount, | |
| _allowSlicing ? string.Empty : " slicing disallowed", | |
| _constraints == null ? string.Empty : " constraints: " + _constraints, | |
| _version); | |
| } | |
| internal static void InvalidateCache() | |
| { | |
| // Invalidate binders | |
| lock (s_binderCache) | |
| { | |
| foreach (PSGetIndexBinder binder in s_binderCache.Values) | |
| { | |
| binder._version += 1; | |
| } | |
| } | |
| } | |
| public override DynamicMetaObject FallbackGetIndex(DynamicMetaObject target, DynamicMetaObject[] indexes, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue || indexes.Any(static mo => !mo.HasValue)) | |
| { | |
| return Defer(indexes.Prepend(target).ToArray()).WriteToDebugLog(this); | |
| } | |
| if ((target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) || | |
| indexes.Any(static mo => mo.Value is PSObject && (PSObject.Base(mo.Value) != mo.Value))) | |
| { | |
| return this.DeferForPSObject(indexes.Prepend(target).ToArray()).WriteToDebugLog(this); | |
| } | |
| // Check if this is a COM Object | |
| DynamicMetaObject comResult; | |
| if (ComInterop.ComBinder.TryBindGetIndex(this, target, indexes, out comResult)) | |
| { | |
| return comResult.UpdateComRestrictionsForPsObject(indexes).WriteToDebugLog(this); | |
| } | |
| if (target.Value == null) | |
| { | |
| return (errorSuggestion ?? | |
| target.ThrowRuntimeError(indexes, BindingRestrictions.Empty, "NullArray", ParserStrings.NullArray)).WriteToDebugLog(this); | |
| } | |
| // A null index is not allowed unless the index is one of the indices used while slicing, in which case we'll attempt | |
| // the usual conversions from null to whatever the value being indexed supports. | |
| // This is oddly inconsistent e.g.: | |
| // $a[$null] # error | |
| // $a[$null,$null] # no error, result is an empty array | |
| // The rationale: V1/V2 did it, and when people are slicing, it's better to return some of the results than none. | |
| if (indexes.Length == 1 && indexes[0].Value == null && _allowSlicing) | |
| { | |
| return (errorSuggestion ?? | |
| target.ThrowRuntimeError(indexes, BindingRestrictions.Empty, "NullArrayIndex", ParserStrings.NullArrayIndex)).WriteToDebugLog(this); | |
| } | |
| if (target.LimitType.IsArray) | |
| { | |
| return GetIndexArray(target, indexes, errorSuggestion).WriteToDebugLog(this); | |
| } | |
| var defaultMember = target.LimitType.GetCustomAttributes<DefaultMemberAttribute>(true).FirstOrDefault(); | |
| PropertyInfo lengthProperty = null; | |
| foreach (var i in target.LimitType.GetInterfaces()) | |
| { | |
| if (i.IsGenericType && i.GetGenericTypeDefinition() == typeof(IDictionary<,>)) | |
| { | |
| var result = GetIndexDictionary(target, indexes, i); | |
| if (result != null) | |
| { | |
| return result.WriteToDebugLog(this); | |
| } | |
| } | |
| // If the type explicitly implements an indexer specified by an interface | |
| // then the DefaultMemberAttribute will not carry over to the implementation. | |
| // This check will catch those cases. | |
| if (defaultMember == null) | |
| { | |
| defaultMember = i.GetCustomAttributes<DefaultMemberAttribute>(inherit: false).FirstOrDefault(); | |
| if (defaultMember != null) | |
| { | |
| lengthProperty = i.GetProperty("Count") ?? i.GetProperty("Length"); | |
| } | |
| } | |
| } | |
| if (defaultMember != null) | |
| { | |
| return InvokeIndexer(target, indexes, errorSuggestion, defaultMember.MemberName, lengthProperty).WriteToDebugLog(this); | |
| } | |
| return errorSuggestion ?? CannotIndexTarget(target, indexes).WriteToDebugLog(this); | |
| } | |
| private DynamicMetaObject CannotIndexTarget(DynamicMetaObject target, DynamicMetaObject[] indexes) | |
| { | |
| // We want to have | |
| // $x[0] | |
| // Be equivalent to | |
| // $x | |
| // When $x doesn't have any other way of being indexed. If the index is anything other than 0, we'll | |
| // throw an error. | |
| // | |
| // The motivation for this magic is largely driven by the desire to avoid breaking scripts written around | |
| // workflows. A workflow that wrote a single object to the pipeline had always returned a collection, so | |
| // scripts needed to index. This semantic doesn't match the script semantics - a single object written is | |
| // not wrapped in a collection. The inconsistency had to be addressed, but this code had to be added to | |
| // avoid breaking partner scripts. | |
| // Add version / language checks | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(indexes); | |
| // This may be thrown due to a type that was disallowed only due to constrained language. | |
| // Because of this, we also need a version check | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetVersionCheck(this, _version)); | |
| // Also add a language mode check to detect toggling between language modes | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetLanguageModeCheckIfHasEverUsedConstrainedLanguage()); | |
| var call = Expression.Call(CachedReflectionInfo.ArrayOps_GetNonIndexable, target.Expression.Cast(typeof(object)), | |
| Expression.NewArrayInit(typeof(object), indexes.Select(static d => d.Expression.Cast(typeof(object))))); | |
| return new DynamicMetaObject(call, bindingRestrictions); | |
| } | |
| // Index a generic dictionary via TryGetValue. This routine does not handle slicing, | |
| // we defer to InvokeIndexer to handle slicing (dictionaries also support general indexing.) | |
| private DynamicMetaObject GetIndexDictionary(DynamicMetaObject target, | |
| DynamicMetaObject[] indexes, | |
| Type idictionary) | |
| { | |
| if (indexes.Length > 1) | |
| { | |
| // Let InvokeIndexer generate the slicing code, we wouldn't generate anything special here. | |
| return null; | |
| } | |
| var tryGetValue = idictionary.GetMethod("TryGetValue"); | |
| Diagnostics.Assert(tryGetValue != null, "IDictionary<K,V> has TryGetValue"); | |
| var parameters = tryGetValue.GetParameters(); | |
| bool debase; | |
| var keyType = parameters[0].ParameterType; | |
| // ConstrainedLanguage note - Calls to this conversion are protected by the binding rules below | |
| var conversion = LanguagePrimitives.FigureConversion(indexes[0].Value, keyType, out debase); | |
| if (conversion.Rank == ConversionRank.None) | |
| { | |
| // No conversion allows us to call TryGetValue, let InvokeIndexer make the decision (possibly | |
| // slicing, or possibly just invoke the indexer. | |
| return null; | |
| } | |
| if (indexes[0].LimitType.IsArray && !keyType.IsArray) | |
| { | |
| // There was a conversion, but it's far more likely (and backwards compatible) that we want to do slicing | |
| return null; | |
| } | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(indexes); | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetOptionalVersionAndLanguageCheckForType(this, keyType, _version)); | |
| var keyExpr = PSConvertBinder.InvokeConverter(conversion, indexes[0].Expression, keyType, debase, ExpressionCache.InvariantCulture); | |
| var outParam = Expression.Parameter(parameters[1].ParameterType.GetElementType(), "outParam"); | |
| return new DynamicMetaObject( | |
| Expression.Block( | |
| new ParameterExpression[] { outParam }, | |
| Expression.Condition( | |
| Expression.Call(target.Expression.Cast(idictionary), tryGetValue, keyExpr, outParam), | |
| outParam.Cast(typeof(object)), | |
| GetNullResult())), | |
| bindingRestrictions); | |
| } | |
| internal static bool CanIndexFromEndWithNegativeIndex( | |
| DynamicMetaObject target, | |
| MethodInfo indexer, | |
| ParameterInfo[] getterParams) | |
| { | |
| // PowerShell supports negative indexing for types that meet the following criteria: | |
| // - Indexer method accepts one parameter that is typed as int | |
| // - The int parameter is not a type argument from a constructed generic type | |
| // (this is to exclude indexers for types that could use a negative index as | |
| // a valid key like System.Linq.ILookup) | |
| // - Declares a "Count" or "Length" property | |
| // - Does not inherit from IDictionary<> as that is handled earlier in the binder | |
| // For those types, generate special code to check for negative indices, otherwise just generate | |
| // the call. Before we test for the above criteria explicitly, we will determine if the | |
| // target is of a type known to be compatible. This is done to avoid the call to Module.ResolveMethod | |
| // when possible. | |
| if (getterParams.Length != 1 || getterParams[0].ParameterType != typeof(int)) | |
| { | |
| return false; | |
| } | |
| Type limitType = target.LimitType; | |
| if (limitType.IsArray || limitType == typeof(string) || limitType == typeof(StringBuilder)) | |
| { | |
| return true; | |
| } | |
| if (typeof(IList).IsAssignableFrom(limitType)) | |
| { | |
| return true; | |
| } | |
| if (typeof(OrderedDictionary).IsAssignableFrom(limitType)) | |
| { | |
| return true; | |
| } | |
| // target implements IList<T>? | |
| if (limitType.GetInterfaces().Any(i => i.IsGenericType && i.GetGenericTypeDefinition() == typeof(IList<>))) | |
| { | |
| return true; | |
| } | |
| // Get the base method definition of the indexer to determine if the int | |
| // parameter is a generic type parameter. Module.ResolveMethod is used | |
| // because the indexer could be a method from a constructed generic type. | |
| MethodBase baseMethod = indexer.Module.ResolveMethod(indexer.MetadataToken); | |
| return !baseMethod.GetParameters()[0].ParameterType.IsGenericParameter; | |
| } | |
| private DynamicMetaObject IndexWithNegativeChecks( | |
| DynamicMetaObject target, | |
| DynamicMetaObject index, | |
| PropertyInfo lengthProperty, | |
| Func<Expression, Expression, Expression> generateIndexOperation) | |
| { | |
| // Generate: | |
| // try { | |
| // len = obj.Length | |
| // if (index < 0) | |
| // index = index + len | |
| // obj[index] | |
| // } catch (Exception e) { | |
| // if (StrictMode(3)) { throw } | |
| // $null | |
| // } | |
| var targetTmp = Expression.Parameter(target.LimitType, "target"); | |
| var lenTmp = Expression.Parameter(typeof(int), "len"); | |
| var indexTmp = Expression.Parameter(typeof(int), "index"); | |
| Expression block = Expression.Block( | |
| new ParameterExpression[] { targetTmp, lenTmp, indexTmp }, | |
| // Save the target because we use it multiple times. | |
| Expression.Assign(targetTmp, target.Expression.Cast(target.LimitType)), | |
| // Save the length because we use it multiple times. | |
| Expression.Assign(lenTmp, | |
| Expression.Property(targetTmp, lengthProperty)), | |
| // Save the index because we use it multiple times | |
| Expression.Assign(indexTmp, index.Expression), | |
| // Adjust the index if it's negative | |
| Expression.IfThen(Expression.LessThan(indexTmp, ExpressionCache.Constant(0)), | |
| Expression.Assign(indexTmp, Expression.Add(indexTmp, lenTmp))), | |
| // Generate the index operation | |
| generateIndexOperation(targetTmp, indexTmp)); | |
| return new DynamicMetaObject( | |
| // Do the indexing within a try/catch so we can return $null if the index is out of bounds, | |
| // or if the index cast fails, e.g. $a = @(1); $a['abc'] | |
| SafeIndexResult(block), | |
| target.CombineRestrictions(index)); | |
| } | |
| private DynamicMetaObject GetIndexArray(DynamicMetaObject target, DynamicMetaObject[] indexes, DynamicMetaObject errorSuggestion) | |
| { | |
| var array = (Array)target.Value; | |
| if (array.Rank > 1) | |
| { | |
| return GetIndexMultiDimensionArray(target, indexes, errorSuggestion); | |
| } | |
| if (indexes.Length > 1) | |
| { | |
| // If the binder allows slicing, we're definitely slicing, otherwise, | |
| // calling the indexer will fail because there are either too many or too few indices, so | |
| // throw an error in that case (and not null.) | |
| return _allowSlicing | |
| ? InvokeSlicingIndexer(target, indexes) | |
| : (errorSuggestion ?? CannotIndexTarget(target, indexes)); | |
| } | |
| var slicingResult = CheckForSlicing(target, indexes); | |
| if (slicingResult != null) | |
| { | |
| return slicingResult; | |
| } | |
| var indexAsInt = ConvertIndex(indexes[0], typeof(int)); | |
| if (indexAsInt == null) | |
| { | |
| // Calling the indexer will fail because we can't convert an index to the correct type. | |
| return errorSuggestion ?? PSConvertBinder.ThrowNoConversion(target, typeof(int), this, _version, indexes); | |
| } | |
| return IndexWithNegativeChecks( | |
| new DynamicMetaObject(target.Expression.Cast(target.LimitType), target.PSGetTypeRestriction()), | |
| new DynamicMetaObject(indexAsInt, indexes[0].PSGetTypeRestriction()), | |
| target.LimitType.GetProperty("Length"), | |
| static (t, i) => Expression.ArrayIndex(t, i).Cast(typeof(object))); | |
| } | |
| private DynamicMetaObject GetIndexMultiDimensionArray(DynamicMetaObject target, DynamicMetaObject[] indexes, DynamicMetaObject errorSuggestion) | |
| { | |
| // We have lots of possibilities here | |
| // | |
| // * single index - enumerable, all ints | |
| // - single result, count must match array rank | |
| // * single index - enumerable, all enumerable of ints | |
| // - slicing, falls back to previous case | |
| // * multiple indices - all ints | |
| // - single result, must match array rank | |
| // * multiple indices - enumerable of ints | |
| // - slicing, falls back to first case | |
| // | |
| // In script, the above cases look like: | |
| // $x = [array]::CreateInstance([int], 3, 3) | |
| // $y = 0,0 | |
| // $z = $y,$y | |
| // $x[$y] # case 1 | |
| // $x[$z] # case 2 | |
| // $x[1,1] # case 3 | |
| // $x[(1,1),(0,0)] # case 4 | |
| var array = (Array)target.Value; | |
| if (indexes.Length == 1) | |
| { | |
| var enumerable = PSEnumerableBinder.IsEnumerable(indexes[0]); | |
| if (enumerable == null) | |
| { | |
| return target.ThrowRuntimeError(indexes, BindingRestrictions.Empty, "NeedMultidimensionalIndex", | |
| ParserStrings.NeedMultidimensionalIndex, | |
| ExpressionCache.Constant(array.Rank), | |
| DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string), | |
| indexes[0].Expression, ExpressionCache.GetExecutionContextFromTLS)); | |
| } | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.ArrayOps_GetMDArrayValueOrSlice, | |
| Expression.Convert(target.Expression, typeof(Array)), | |
| indexes[0].Expression.Cast(typeof(object))), | |
| target.CombineRestrictions(indexes)); | |
| } | |
| var intIndexes = indexes.Select(static index => ConvertIndex(index, typeof(int))).Where(static i => i != null).ToArray(); | |
| if (intIndexes.Length != indexes.Length) | |
| { | |
| if (!_allowSlicing) | |
| { | |
| return errorSuggestion ?? CannotIndexTarget(target, indexes); | |
| } | |
| return InvokeSlicingIndexer(target, indexes); | |
| } | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.ArrayOps_GetMDArrayValue, | |
| Expression.Convert(target.Expression, typeof(Array)), | |
| Expression.NewArrayInit(typeof(int), intIndexes), | |
| ExpressionCache.Constant(!_allowSlicing)), | |
| target.CombineRestrictions(indexes)); | |
| } | |
| private DynamicMetaObject InvokeIndexer(DynamicMetaObject target, | |
| DynamicMetaObject[] indexes, | |
| DynamicMetaObject errorSuggestion, | |
| string methodName, | |
| PropertyInfo lengthProperty) | |
| { | |
| MethodInfo getter = PSInvokeMemberBinder.FindBestMethod(target, indexes, "get_" + methodName, false, _constraints); | |
| if (getter == null) | |
| { | |
| return CheckForSlicing(target, indexes) ?? errorSuggestion ?? CannotIndexTarget(target, indexes); | |
| } | |
| var getterParams = getter.GetParameters(); | |
| if (getterParams.Length != indexes.Length) | |
| { | |
| if (getterParams.Length == 1 && _allowSlicing) | |
| { | |
| // We have a slicing operation. | |
| return InvokeSlicingIndexer(target, indexes); | |
| } | |
| // Calling the indexer will fail because there are either too many or too few indices. | |
| return errorSuggestion ?? CannotIndexTarget(target, indexes); | |
| } | |
| if (getterParams.Length == 1) | |
| { | |
| // The getter takes a single argument, so first check if we're slicing. | |
| var slicingResult = CheckForSlicing(target, indexes); | |
| if (slicingResult != null) | |
| { | |
| return slicingResult; | |
| } | |
| } | |
| if (getter.ReturnType.IsByRefLike) | |
| { | |
| // We cannot return a ByRef-like value in PowerShell, so we disallow getting such an indexer. | |
| return errorSuggestion ?? new DynamicMetaObject( | |
| Expression.Block( | |
| Expression.IfThen( | |
| Compiler.IsStrictMode(3), | |
| Compiler.ThrowRuntimeError( | |
| nameof(ParserStrings.CannotIndexWithByRefLikeReturnType), | |
| ParserStrings.CannotIndexWithByRefLikeReturnType, | |
| Expression.Constant(target.LimitType, typeof(Type)), | |
| Expression.Constant(getter.ReturnType, typeof(Type)))), | |
| GetNullResult()), | |
| target.PSGetTypeRestriction()); | |
| } | |
| Expression[] indexExprs = new Expression[getterParams.Length]; | |
| for (int i = 0; i < getterParams.Length; ++i) | |
| { | |
| var parameterType = getterParams[i].ParameterType; | |
| indexExprs[i] = parameterType.IsByRefLike | |
| ? PSConvertBinder.ConvertToByRefLikeTypeViaCasting(indexes[i], parameterType) | |
| : ConvertIndex(indexes[i], parameterType); | |
| if (indexExprs[i] == null) | |
| { | |
| // Calling the indexer will fail because we can't convert an index to the correct type. | |
| return errorSuggestion ?? PSConvertBinder.ThrowNoConversion(target, parameterType, this, _version, indexes); | |
| } | |
| } | |
| if (CanIndexFromEndWithNegativeIndex(target, getter, getterParams)) | |
| { | |
| if (lengthProperty == null) | |
| { | |
| // Count is declared by most supported types, Length will catch some edge cases like strings. | |
| lengthProperty = target.LimitType.GetProperty("Count") ?? | |
| target.LimitType.GetProperty("Length"); | |
| } | |
| if (lengthProperty != null) | |
| { | |
| return IndexWithNegativeChecks( | |
| new DynamicMetaObject(target.Expression.Cast(target.LimitType), | |
| target.PSGetTypeRestriction()), | |
| new DynamicMetaObject(indexExprs[0], indexes[0].PSGetTypeRestriction()), | |
| lengthProperty, | |
| (t, i) => Expression.Call(t, getter, i).Cast(typeof(object))); | |
| } | |
| } | |
| // An indexer may do conversion to an unsafe type, so we need version checks | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(indexes); | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetVersionCheck(this, _version)); | |
| // Also add a language mode check to detect toggling between language modes | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetLanguageModeCheckIfHasEverUsedConstrainedLanguage()); | |
| return new DynamicMetaObject( | |
| SafeIndexResult(Expression.Call(target.Expression.Cast(getter.DeclaringType), getter, indexExprs)), | |
| bindingRestrictions); | |
| } | |
| internal static Expression ConvertIndex(DynamicMetaObject index, Type resultType) | |
| { | |
| // ConstrainedLanguage note - Calls to this conversion are protected by the binding rules that call it. | |
| var conversion = LanguagePrimitives.FigureConversion(index.Value, resultType, out bool debase); | |
| return conversion.Rank == ConversionRank.None | |
| ? null | |
| : PSConvertBinder.InvokeConverter(conversion, index.Expression, resultType, debase, ExpressionCache.InvariantCulture); | |
| } | |
| private DynamicMetaObject CheckForSlicing(DynamicMetaObject target, DynamicMetaObject[] indexes) | |
| { | |
| if (!_allowSlicing) | |
| { | |
| return null; | |
| } | |
| if (indexes.Length > 1) | |
| { | |
| var nonSlicingBinder = PSGetIndexBinder.Get(1, _constraints, allowSlicing: false); | |
| var expr = Expression.NewArrayInit(typeof(object), | |
| indexes.Select(i => DynamicExpression.Dynamic(nonSlicingBinder, typeof(object), target.Expression, i.Expression))); | |
| return new DynamicMetaObject(expr, target.CombineRestrictions(indexes)); | |
| } | |
| var enumerableIndex = PSEnumerableBinder.IsEnumerable(indexes[0]); | |
| if (enumerableIndex != null) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_SlicingIndex, | |
| target.Expression.Cast(typeof(object)), | |
| enumerableIndex.Expression.Cast(typeof(IEnumerator)), | |
| Expression.Constant(GetNonSlicingIndexer())), | |
| target.CombineRestrictions(enumerableIndex)); | |
| } | |
| return null; | |
| } | |
| private DynamicMetaObject InvokeSlicingIndexer(DynamicMetaObject target, DynamicMetaObject[] indexes) | |
| { | |
| Diagnostics.Assert(_allowSlicing, "Slicing is not recursive"); | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.ArrayOps_SlicingIndex, | |
| target.Expression.Cast(typeof(object)), | |
| Expression.NewArrayInit(typeof(object), | |
| indexes.Select(static dmo => dmo.Expression.Cast(typeof(object)))), | |
| Expression.Constant(GetNonSlicingIndexer())), | |
| target.CombineRestrictions(indexes)); | |
| } | |
| private Expression SafeIndexResult(Expression expr) | |
| { | |
| var exception = Expression.Parameter(typeof(Exception)); | |
| return Expression.TryCatch( | |
| expr.Cast(typeof(object)), | |
| Expression.Catch( | |
| exception, | |
| Expression.Block( | |
| Expression.IfThen(Compiler.IsStrictMode(3), Expression.Rethrow()), | |
| GetNullResult()))); | |
| } | |
| private Expression GetNullResult() | |
| { | |
| return _allowSlicing ? ExpressionCache.NullConstant : ExpressionCache.AutomationNullConstant; | |
| } | |
| private Func<object, object, object> GetNonSlicingIndexer() | |
| { | |
| // Rather than cache a single delegate, we create one for each generated rule under the assumption | |
| // that, although the generated rule may be used in multiple sites, it's better to have | |
| // multiple delegates (and hence, multiple nested sites) rather than a single nested site for | |
| // all non-slicing indexing. | |
| var targetParamExpr = Expression.Parameter(typeof(object)); | |
| var indexParamExpr = Expression.Parameter(typeof(object)); | |
| return Expression.Lambda<Func<object, object, object>>( | |
| DynamicExpression.Dynamic(PSGetIndexBinder.Get(1, _constraints, allowSlicing: false), typeof(object), targetParamExpr, | |
| indexParamExpr), | |
| targetParamExpr, indexParamExpr).Compile(); | |
| } | |
| } | |
| /// <summary> | |
| /// The binder for setting the value of an indexable element, like $x[1] = 5. | |
| /// </summary> | |
| internal sealed class PSSetIndexBinder : SetIndexBinder | |
| { | |
| private static readonly Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints>, PSSetIndexBinder> s_binderCache | |
| = new Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints>, PSSetIndexBinder>(); | |
| private readonly PSMethodInvocationConstraints _constraints; | |
| internal int _version; | |
| public static PSSetIndexBinder Get(int argCount, PSMethodInvocationConstraints constraints = null) | |
| { | |
| lock (s_binderCache) | |
| { | |
| PSSetIndexBinder binder; | |
| var tuple = Tuple.Create(new CallInfo(argCount), constraints); | |
| if (!s_binderCache.TryGetValue(tuple, out binder)) | |
| { | |
| binder = new PSSetIndexBinder(tuple); | |
| s_binderCache.Add(tuple, binder); | |
| } | |
| return binder; | |
| } | |
| } | |
| private PSSetIndexBinder(Tuple<CallInfo, PSMethodInvocationConstraints> tuple) | |
| : base(tuple.Item1) | |
| { | |
| _constraints = tuple.Item2; | |
| this._version = 0; | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "PSSetIndexBinder indexCnt={0}{1} ver:{2}", | |
| CallInfo.ArgumentCount, | |
| _constraints == null ? string.Empty : " constraints: " + _constraints, | |
| _version); | |
| } | |
| internal static void InvalidateCache() | |
| { | |
| // Invalidate binders | |
| lock (s_binderCache) | |
| { | |
| foreach (PSSetIndexBinder binder in s_binderCache.Values) | |
| { | |
| binder._version += 1; | |
| } | |
| } | |
| } | |
| public override DynamicMetaObject FallbackSetIndex( | |
| DynamicMetaObject target, | |
| DynamicMetaObject[] indexes, | |
| DynamicMetaObject value, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue || indexes.Any(static mo => !mo.HasValue) || !value.HasValue) | |
| { | |
| return Defer(indexes.Prepend(target).Append(value).ToArray()).WriteToDebugLog(this); | |
| } | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value) || | |
| indexes.Any(static mo => mo.Value is PSObject && (PSObject.Base(mo.Value) != mo.Value))) | |
| { | |
| return this.DeferForPSObject(indexes.Prepend(target).Append(value).ToArray()).WriteToDebugLog(this); | |
| } | |
| // Check if this is a COM Object | |
| DynamicMetaObject result; | |
| if (ComInterop.ComBinder.TryBindSetIndex(this, target, indexes, value, out result)) | |
| { | |
| return result.UpdateComRestrictionsForPsObject(indexes).WriteToDebugLog(this); | |
| } | |
| if (target.Value == null) | |
| { | |
| return (errorSuggestion ?? | |
| target.ThrowRuntimeError(indexes, BindingRestrictions.Empty, "NullArray", ParserStrings.NullArray)).WriteToDebugLog(this); | |
| } | |
| if (indexes.Length == 1 && indexes[0].Value == null) | |
| { | |
| return (errorSuggestion ?? | |
| target.ThrowRuntimeError(indexes, BindingRestrictions.Empty, "NullArrayIndex", ParserStrings.NullArrayIndex).WriteToDebugLog(this)); | |
| } | |
| if (target.LimitType.IsArray) | |
| { | |
| return SetIndexArray(target, indexes, value, errorSuggestion).WriteToDebugLog(this); | |
| } | |
| var defaultMember = target.LimitType.GetCustomAttributes<DefaultMemberAttribute>(true).FirstOrDefault(); | |
| if (defaultMember != null) | |
| { | |
| return (InvokeIndexer(target, indexes, value, errorSuggestion, defaultMember.MemberName)).WriteToDebugLog(this); | |
| } | |
| return errorSuggestion ?? CannotIndexTarget(target, indexes, value).WriteToDebugLog(this); | |
| } | |
| private DynamicMetaObject CannotIndexTarget(DynamicMetaObject target, DynamicMetaObject[] indexes, DynamicMetaObject value) | |
| { | |
| BindingRestrictions bindingRestrictions = value.PSGetTypeRestriction(); | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetVersionCheck(this, _version)); | |
| // Also add a language mode check to detect toggling between language modes | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetLanguageModeCheckIfHasEverUsedConstrainedLanguage()); | |
| return target.ThrowRuntimeError(indexes, bindingRestrictions, "CannotIndex", ParserStrings.CannotIndex, Expression.Constant(target.LimitType, typeof(Type))); | |
| } | |
| private DynamicMetaObject InvokeIndexer( | |
| DynamicMetaObject target, | |
| DynamicMetaObject[] indexes, | |
| DynamicMetaObject value, | |
| DynamicMetaObject errorSuggestion, | |
| string methodName) | |
| { | |
| MethodInfo setter = PSInvokeMemberBinder.FindBestMethod(target, indexes.Append(value), "set_" + methodName, false, _constraints); | |
| if (setter == null) | |
| { | |
| return errorSuggestion ?? CannotIndexTarget(target, indexes, value); | |
| } | |
| var setterParams = setter.GetParameters(); | |
| int paramLength = setterParams.Length; | |
| if (paramLength != indexes.Length + 1) | |
| { | |
| // Calling the indexer will fail because there are either too many or too few indices. | |
| return errorSuggestion ?? CannotIndexTarget(target, indexes, value); | |
| } | |
| if (setterParams[paramLength - 1].ParameterType.IsByRefLike) | |
| { | |
| // In theory, it's possible to call the setter with a value that can be implicitly/explicitly casted to the target ByRef-like type. | |
| // However, the set-property/set-indexer semantics in PowerShell requires returning the value after the setting operation. We cannot | |
| // return a ByRef-like value back, so we just disallow setting an indexer that takes a ByRef-like type value. | |
| return errorSuggestion ?? new DynamicMetaObject( | |
| Compiler.ThrowRuntimeError( | |
| nameof(ParserStrings.CannotIndexWithByRefLikeReturnType), | |
| ParserStrings.CannotIndexWithByRefLikeReturnType, | |
| Expression.Constant(target.LimitType, typeof(Type)), | |
| Expression.Constant(setterParams[paramLength - 1].ParameterType, typeof(Type))), | |
| target.PSGetTypeRestriction()); | |
| } | |
| Expression[] indexExprs = new Expression[paramLength]; | |
| for (int i = 0; i < paramLength; ++i) | |
| { | |
| var parameterType = setterParams[i].ParameterType; | |
| var argument = (i == paramLength - 1) ? value : indexes[i]; | |
| indexExprs[i] = parameterType.IsByRefLike | |
| ? PSConvertBinder.ConvertToByRefLikeTypeViaCasting(argument, parameterType) | |
| : PSGetIndexBinder.ConvertIndex(argument, parameterType); | |
| if (indexExprs[i] == null) | |
| { | |
| // Calling the indexer will fail because we can't convert an index to the correct type. | |
| return errorSuggestion ?? PSConvertBinder.ThrowNoConversion(target, parameterType, this, _version, indexes.Append(value).ToArray()); | |
| } | |
| } | |
| if (paramLength == 2 | |
| && setterParams[0].ParameterType == typeof(int) | |
| && target.Value is not IDictionary) | |
| { | |
| // PowerShell supports negative indexing for some types (specifically, those with a single | |
| // int parameter to the indexer, and also have either a Length or Count property.) For | |
| // those types, generate special code to check for negative indices, otherwise just generate | |
| // the call. | |
| PropertyInfo lengthProperty = target.LimitType.GetProperty("Length") ?? | |
| target.LimitType.GetProperty("Count"); | |
| if (lengthProperty != null) | |
| { | |
| return IndexWithNegativeChecks( | |
| new DynamicMetaObject(target.Expression.Cast(target.LimitType), | |
| target.PSGetTypeRestriction()), | |
| new DynamicMetaObject(indexExprs[0], indexes[0].PSGetTypeRestriction()), | |
| new DynamicMetaObject(indexExprs[1], value.PSGetTypeRestriction()), | |
| lengthProperty, | |
| (t, i, v) => Expression.Call(t, setter, i, v)); | |
| } | |
| } | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(indexes).Merge(value.PSGetTypeRestriction()); | |
| // Add the version checks and (potentially) language mode checks, as this setter | |
| // may invoke a conversion to an unsafe type. | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetVersionCheck(this, _version)); | |
| // Also add a language mode check to detect toggling between language modes | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetLanguageModeCheckIfHasEverUsedConstrainedLanguage()); | |
| // We'll store the value in a temp so we can return it. We'll also replace the expr in our array of arguments | |
| // to the indexer with the temp so any conversions are executed just once. | |
| var valExpr = indexExprs[indexExprs.Length - 1]; | |
| var valTmp = Expression.Parameter(valExpr.Type, "value"); | |
| indexExprs[indexExprs.Length - 1] = valTmp; | |
| return new DynamicMetaObject( | |
| Expression.Block( | |
| new ParameterExpression[] { valTmp }, | |
| Expression.Assign(valTmp, valExpr), | |
| Expression.Call(target.Expression.Cast(setter.DeclaringType), setter, indexExprs), | |
| valTmp.Cast(typeof(object))), | |
| bindingRestrictions); | |
| } | |
| private DynamicMetaObject IndexWithNegativeChecks( | |
| DynamicMetaObject target, | |
| DynamicMetaObject index, | |
| DynamicMetaObject value, | |
| PropertyInfo lengthProperty, | |
| Func<Expression, Expression, Expression, Expression> generateIndexOperation) | |
| { | |
| BindingRestrictions bindingRestrictions = target.CombineRestrictions(index).Merge(value.Restrictions); | |
| // If the target is of an unsafe type for ConstrainedLanguage, we need to pay | |
| // attention to version and language mode. Otherwise, strongly-typed arrays of unsafe types | |
| // can be used for type conversion. | |
| bindingRestrictions = bindingRestrictions.Merge(BinderUtils.GetOptionalVersionAndLanguageCheckForType(this, target.LimitType, _version)); | |
| // Generate: | |
| // len = obj.Length | |
| // if (index < 0) | |
| // index = index + len | |
| // obj[index] = value | |
| var targetTmp = Expression.Parameter(target.LimitType, "target"); | |
| var lenTmp = Expression.Parameter(typeof(int), "len"); | |
| var valueExpr = value.Expression; | |
| var valTmp = Expression.Parameter(valueExpr.Type, "value"); | |
| var indexTmp = Expression.Parameter(typeof(int), "index"); | |
| return new DynamicMetaObject( | |
| Expression.Block( | |
| new ParameterExpression[] { targetTmp, valTmp, lenTmp, indexTmp }, | |
| // Save the target because we use it multiple times. | |
| Expression.Assign(targetTmp, target.Expression.Cast(target.LimitType)), | |
| // Save the value because it too is used multiple times, but only to keep the DLR happy | |
| Expression.Assign(valTmp, valueExpr), | |
| // Save the length because we use it multiple times. | |
| Expression.Assign(lenTmp, | |
| Expression.Property(targetTmp, lengthProperty)), | |
| // Save the index because we use it multiple times | |
| Expression.Assign(indexTmp, index.Expression), | |
| // Adjust the index if it's negative | |
| Expression.IfThen(Expression.LessThan(indexTmp, ExpressionCache.Constant(0)), | |
| Expression.Assign(indexTmp, Expression.Add(indexTmp, lenTmp))), | |
| // Do the indexing | |
| generateIndexOperation(targetTmp, indexTmp, valTmp), | |
| // Make sure the result of this operation is the value. PowerShell won't use this value | |
| // in any way, but the DLR requires it (and in theory, if PSObject uses this binder, other | |
| // languages could use this value.) | |
| valTmp.Cast(typeof(object))), | |
| bindingRestrictions); | |
| } | |
| private DynamicMetaObject SetIndexArray(DynamicMetaObject target, | |
| DynamicMetaObject[] indexes, | |
| DynamicMetaObject value, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| var array = (Array)target.Value; | |
| if (array.Rank > 1) | |
| { | |
| return SetIndexMultiDimensionArray(target, indexes, value, errorSuggestion); | |
| } | |
| if (indexes.Length > 1) | |
| { | |
| return errorSuggestion ?? | |
| target.ThrowRuntimeError(indexes, value.PSGetTypeRestriction(), "ArraySliceAssignmentFailed", | |
| ParserStrings.ArraySliceAssignmentFailed, | |
| Expression.Call(CachedReflectionInfo.ArrayOps_IndexStringMessage, | |
| Expression.NewArrayInit(typeof(object), | |
| indexes.Select(static i => i.Expression.Cast(typeof(object)))))); | |
| } | |
| var intIndex = PSGetIndexBinder.ConvertIndex(indexes[0], typeof(int)); | |
| if (intIndex == null) | |
| { | |
| return errorSuggestion ?? | |
| PSConvertBinder.ThrowNoConversion(indexes[0], typeof(int), this, _version, target, value); | |
| } | |
| var elementType = target.LimitType.GetElementType(); | |
| var valueExpr = PSGetIndexBinder.ConvertIndex(value, elementType); | |
| if (valueExpr == null) | |
| { | |
| return errorSuggestion ?? | |
| PSConvertBinder.ThrowNoConversion(value, elementType, this, _version, indexes.Prepend(target).ToArray()); | |
| } | |
| return IndexWithNegativeChecks( | |
| new DynamicMetaObject(target.Expression.Cast(target.LimitType), target.PSGetTypeRestriction()), | |
| new DynamicMetaObject(intIndex, indexes[0].PSGetTypeRestriction()), | |
| new DynamicMetaObject(valueExpr, value.PSGetTypeRestriction()), target.LimitType.GetProperty("Length"), | |
| static (t, i, v) => Expression.Assign(Expression.ArrayAccess(t, i), v)); | |
| } | |
| private DynamicMetaObject SetIndexMultiDimensionArray(DynamicMetaObject target, | |
| DynamicMetaObject[] indexes, | |
| DynamicMetaObject value, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| var elementType = target.LimitType.GetElementType(); | |
| var valueExpr = PSGetIndexBinder.ConvertIndex(value, elementType); | |
| if (valueExpr == null) | |
| { | |
| return errorSuggestion ?? | |
| PSConvertBinder.ThrowNoConversion(value, elementType, this, _version, indexes.Prepend(target).ToArray()); | |
| } | |
| if (indexes.Length == 1) | |
| { | |
| var indexExpr = PSGetIndexBinder.ConvertIndex(indexes[0], typeof(int[])); | |
| if (indexExpr == null) | |
| { | |
| return errorSuggestion ?? | |
| PSConvertBinder.ThrowNoConversion(indexes[0], typeof(int[]), this, _version, new DynamicMetaObject[] { target, value }); | |
| } | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.ArrayOps_SetMDArrayValue, | |
| target.Expression.Cast(typeof(Array)), | |
| indexExpr, | |
| valueExpr.Cast(typeof(object))), | |
| target.CombineRestrictions(indexes).Merge(value.PSGetTypeRestriction())); | |
| } | |
| var array = (Array)target.Value; | |
| if (indexes.Length != array.Rank) | |
| { | |
| return errorSuggestion ?? | |
| target.ThrowRuntimeError(indexes, value.PSGetTypeRestriction(), "NeedMultidimensionalIndex", | |
| ParserStrings.NeedMultidimensionalIndex, | |
| ExpressionCache.Constant(array.Rank), | |
| Expression.Call(CachedReflectionInfo.ArrayOps_IndexStringMessage, | |
| Expression.NewArrayInit(typeof(object), | |
| indexes.Select(static i => i.Expression.Cast(typeof(object)))))); | |
| } | |
| var indexExprs = new Expression[indexes.Length]; | |
| for (int i = 0; i < indexes.Length; i++) | |
| { | |
| indexExprs[i] = PSGetIndexBinder.ConvertIndex(indexes[i], typeof(int)); | |
| if (indexExprs[i] == null) | |
| { | |
| return PSConvertBinder.ThrowNoConversion(indexes[i], typeof(int), this, _version, | |
| indexes.Except(new DynamicMetaObject[] { indexes[i] }).Append(target).Append(value).ToArray()); | |
| } | |
| } | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.ArrayOps_SetMDArrayValue, | |
| target.Expression.Cast(typeof(Array)), | |
| Expression.NewArrayInit(typeof(int), indexExprs), | |
| valueExpr.Cast(typeof(object))), | |
| target.CombineRestrictions(indexes).Merge(value.PSGetTypeRestriction())); | |
| } | |
| } | |
| /// <summary> | |
| /// The binder for getting a member of a class, like $foo.bar or [foo]::bar. | |
| /// </summary> | |
| internal class PSGetMemberBinder : GetMemberBinder | |
| { | |
| private sealed class KeyComparer : IEqualityComparer<PSGetMemberBinderKeyType> | |
| { | |
| public bool Equals(PSGetMemberBinderKeyType x, PSGetMemberBinderKeyType y) | |
| { | |
| // The non-static binder cache is case-sensitive because sites need the name used per site | |
| // when the target object is a case-sensitive IDictionary. Under all other circumstances, | |
| // binding is case-insensitive. | |
| var stringComparison = x.Item3 ? StringComparison.OrdinalIgnoreCase : StringComparison.Ordinal; | |
| return x.Item1.Equals(y.Item1, stringComparison) && | |
| x.Item2 == y.Item2 && | |
| x.Item3 == y.Item3 && | |
| x.Item4 == y.Item4; | |
| } | |
| public int GetHashCode(PSGetMemberBinderKeyType obj) | |
| { | |
| var stringComparer = obj.Item3 ? StringComparer.OrdinalIgnoreCase : StringComparer.Ordinal; | |
| return Utils.CombineHashCodes(stringComparer.GetHashCode(obj.Item1), | |
| obj.Item2 == null ? 0 : obj.Item2.GetHashCode(), | |
| obj.Item3.GetHashCode(), | |
| obj.Item4.GetHashCode()); | |
| } | |
| } | |
| private sealed class ReservedMemberBinder : PSGetMemberBinder | |
| { | |
| internal ReservedMemberBinder(string name, bool ignoreCase, bool @static) : base(name, null, ignoreCase, @static, nonEnumerating: false) | |
| { | |
| } | |
| public override DynamicMetaObject FallbackGetMember(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| MethodInfo mi = null; | |
| Expression targetExpr = null; | |
| switch (Name) | |
| { | |
| case PSObject.AdaptedMemberSetName: | |
| mi = CachedReflectionInfo.ReservedNameMembers_GeneratePSAdaptedMemberSet; | |
| targetExpr = target.Expression.Cast(typeof(object)); | |
| break; | |
| case PSObject.BaseObjectMemberSetName: | |
| mi = CachedReflectionInfo.ReservedNameMembers_GeneratePSBaseMemberSet; | |
| targetExpr = target.Expression.Cast(typeof(object)); | |
| break; | |
| case PSObject.ExtendedMemberSetName: | |
| mi = CachedReflectionInfo.ReservedNameMembers_GeneratePSExtendedMemberSet; | |
| targetExpr = target.Expression.Cast(typeof(object)); | |
| break; | |
| case PSObject.PSObjectMemberSetName: | |
| mi = CachedReflectionInfo.ReservedNameMembers_GeneratePSObjectMemberSet; | |
| targetExpr = target.Expression.Cast(typeof(object)); | |
| break; | |
| case PSObject.PSTypeNames: | |
| mi = CachedReflectionInfo.ReservedNameMembers_PSTypeNames; | |
| targetExpr = target.Expression.Convert(typeof(PSObject)); | |
| break; | |
| } | |
| Diagnostics.Assert(mi != null, "ReservedMemberBinder doesn't support member Name"); | |
| return new DynamicMetaObject(WrapGetMemberInTry(Expression.Call(mi, targetExpr)), target.PSGetTypeRestriction()); | |
| } | |
| } | |
| private static readonly Dictionary<PSGetMemberBinderKeyType, PSGetMemberBinder> s_binderCache | |
| = new Dictionary<PSGetMemberBinderKeyType, PSGetMemberBinder>(new KeyComparer()); | |
| // Because the non-static binder is case-sensitive, we need a list of all binders for a given | |
| // name when we discover an instance member or type table member for that given name so we | |
| // can update each of those binders. | |
| private static readonly ConcurrentDictionary<string, List<PSGetMemberBinder>> s_binderCacheIgnoringCase | |
| = new ConcurrentDictionary<string, List<PSGetMemberBinder>>(StringComparer.OrdinalIgnoreCase); | |
| static PSGetMemberBinder() | |
| { | |
| s_binderCache.Add(Tuple.Create(PSObject.AdaptedMemberSetName, (Type)null, false, false), | |
| new ReservedMemberBinder(PSObject.AdaptedMemberSetName, ignoreCase: true, @static: false)); | |
| s_binderCache.Add(Tuple.Create(PSObject.ExtendedMemberSetName, (Type)null, false, false), | |
| new ReservedMemberBinder(PSObject.ExtendedMemberSetName, ignoreCase: true, @static: false)); | |
| s_binderCache.Add(Tuple.Create(PSObject.BaseObjectMemberSetName, (Type)null, false, false), | |
| new ReservedMemberBinder(PSObject.BaseObjectMemberSetName, ignoreCase: true, @static: false)); | |
| s_binderCache.Add(Tuple.Create(PSObject.PSObjectMemberSetName, (Type)null, false, false), | |
| new ReservedMemberBinder(PSObject.PSObjectMemberSetName, ignoreCase: true, @static: false)); | |
| s_binderCache.Add(Tuple.Create(PSObject.PSTypeNames, (Type)null, false, false), | |
| new ReservedMemberBinder(PSObject.PSTypeNames, ignoreCase: true, @static: false)); | |
| } | |
| private readonly bool _static; | |
| private readonly bool _nonEnumerating; | |
| private readonly Type _classScope; | |
| internal int _version; | |
| private bool _hasInstanceMember; | |
| internal bool HasInstanceMember { get { return _hasInstanceMember; } } | |
| internal static void SetHasInstanceMember(string memberName) | |
| { | |
| // We must invalidate dynamic sites (if any) when the first instance member (for this binder) | |
| // is created, but we don't need to invalidate any sites after the first instance member. | |
| // Before any instance members exist, restrictions might look like: | |
| // if (binderVersion == oldBinderVersion && obj is string) { ... } | |
| // After an instance member is known to exist, the above test (for an object that has no instance | |
| // member) will look like: | |
| // MemberInfo mi; | |
| // if (binderVersion == oldBinderVersion && !TryGetInstanceMember(obj, memberName, out mi) && obj is string) | |
| // { | |
| // return ((string)obj).memberName; | |
| // } | |
| // else { update site } | |
| // And if there is an instance member, the generic rule will look like: | |
| // MemberInfo mi; | |
| // if (binderVersion == oldBinderVersion && TryGetInstanceMember(obj, memberName, out mi)) | |
| // { | |
| // return mi.Value; | |
| // } | |
| // else { update site } | |
| // This way, we can avoid the call to TryGetInstanceMember for binders when we know there aren't any instance | |
| // members, yet invalidate those rules once somebody adds an instance member. | |
| var binderList = s_binderCacheIgnoringCase.GetOrAdd(memberName, static _ => new List<PSGetMemberBinder>()); | |
| lock (binderList) | |
| { | |
| if (binderList.Count == 0) | |
| { | |
| // Force one binder to be created if one hasn't been created already. | |
| PSGetMemberBinder.Get(memberName, (Type)null, @static: false); | |
| } | |
| foreach (var binder in binderList) | |
| { | |
| if (!binder._hasInstanceMember) | |
| { | |
| lock (binder) | |
| { | |
| if (!binder._hasInstanceMember) | |
| { | |
| binder._version += 1; | |
| binder._hasInstanceMember = true; | |
| } | |
| } | |
| } | |
| } | |
| } | |
| } | |
| private bool _hasTypeTableMember; | |
| internal static void TypeTableMemberAdded(string memberName) | |
| { | |
| var binderList = s_binderCacheIgnoringCase.GetOrAdd(memberName, static _ => new List<PSGetMemberBinder>()); | |
| lock (binderList) | |
| { | |
| if (binderList.Count == 0) | |
| { | |
| // Force one binder to be created if one hasn't been created already. | |
| PSGetMemberBinder.Get(memberName, (Type)null, @static: false); | |
| } | |
| foreach (var binder in binderList) | |
| { | |
| lock (binder) | |
| { | |
| binder._version += 1; | |
| binder._hasTypeTableMember = true; | |
| } | |
| } | |
| } | |
| } | |
| internal static void TypeTableMemberPossiblyUpdated(string memberName) | |
| { | |
| var binderList = s_binderCacheIgnoringCase.GetOrAdd(memberName, static _ => new List<PSGetMemberBinder>()); | |
| lock (binderList) | |
| { | |
| foreach (var binder in binderList) | |
| { | |
| Interlocked.Increment(ref binder._version); | |
| } | |
| } | |
| } | |
| public static PSGetMemberBinder Get(string memberName, TypeDefinitionAst classScope, bool @static) | |
| { | |
| return Get(memberName, classScope?.Type, @static, false); | |
| } | |
| public static PSGetMemberBinder Get(string memberName, Type classScope, bool @static) | |
| { | |
| return Get(memberName, classScope, @static, false); | |
| } | |
| private PSGetMemberBinder GetNonEnumeratingBinder() | |
| { | |
| return Get(this.Name, _classScope, @static: false, nonEnumerating: true); | |
| } | |
| private static PSGetMemberBinder Get(string memberName, Type classScope, bool @static, bool nonEnumerating) | |
| { | |
| PSGetMemberBinder result; | |
| lock (s_binderCache) | |
| { | |
| var tuple = Tuple.Create(memberName, classScope, @static, nonEnumerating); | |
| if (!s_binderCache.TryGetValue(tuple, out result)) | |
| { | |
| // We might be seeing a reserved name with a different case. Check for that before | |
| // creating a new binder. For reserved names, we can safely use a single binder for | |
| // any case. | |
| if (PSMemberInfoCollection<PSMemberInfo>.IsReservedName(memberName)) | |
| { | |
| var tupleLower = Tuple.Create(memberName.ToLowerInvariant(), (Type)null, @static, nonEnumerating); | |
| result = s_binderCache[tupleLower]; | |
| } | |
| else | |
| { | |
| result = new PSGetMemberBinder(memberName, classScope, true, @static, nonEnumerating); | |
| if (!@static) | |
| { | |
| var binderList = s_binderCacheIgnoringCase.GetOrAdd(memberName, static _ => new List<PSGetMemberBinder>()); | |
| lock (binderList) | |
| { | |
| if (binderList.Count > 0) | |
| { | |
| result._hasInstanceMember = binderList[0]._hasInstanceMember; | |
| result._hasTypeTableMember = binderList[0]._hasTypeTableMember; | |
| } | |
| binderList.Add(result); | |
| Diagnostics.Assert(binderList.All(b => b._hasInstanceMember == result._hasInstanceMember), | |
| "All binders in the list should have _hasInstanceMember set identically"); | |
| Diagnostics.Assert(binderList.All(b => b._hasTypeTableMember == result._hasTypeTableMember), | |
| "All binders in the list should have _hasTypeTableMember set identically"); | |
| } | |
| } | |
| } | |
| s_binderCache.Add(tuple, result); | |
| } | |
| } | |
| return result; | |
| } | |
| private PSGetMemberBinder(string name, Type classScope, bool ignoreCase, bool @static, bool nonEnumerating) | |
| : base(name, ignoreCase) | |
| { | |
| _static = @static; | |
| _classScope = classScope; | |
| this._version = 0; | |
| _nonEnumerating = nonEnumerating; | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "GetMember: {0}{1}{2} ver:{3}", | |
| Name, | |
| _static ? " static" : string.Empty, | |
| _nonEnumerating ? " nonEnumerating" : string.Empty, | |
| _version); | |
| } | |
| public override DynamicMetaObject FallbackGetMember(DynamicMetaObject target, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue) | |
| { | |
| return Defer(target); | |
| } | |
| // Defer COM objects or arguments wrapped in PSObjects | |
| if (target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) | |
| { | |
| object baseObject = PSObject.Base(target.Value); | |
| if (baseObject != null && Marshal.IsComObject(baseObject)) | |
| { | |
| // We unwrap only if the 'base' is a COM object. It's unnecessary to unwrap in other cases, | |
| // especially in the case of strings, we would lose instance members on the PSObject. | |
| // Therefore, we need to use a stricter restriction to make sure PSObject 'target' with other | |
| // base types doesn't get unwrapped. | |
| return this.DeferForPSObject(target, targetIsComObject: true).WriteToDebugLog(this); | |
| } | |
| } | |
| // Check if this is a COM Object | |
| DynamicMetaObject result; | |
| if (ComInterop.ComBinder.TryBindGetMember(this, target, out result, delayInvocation: false)) | |
| { | |
| result = new DynamicMetaObject(WrapGetMemberInTry(result.Expression), result.Restrictions); | |
| return result.WriteToDebugLog(this); | |
| } | |
| object targetValue = PSObject.Base(target.Value); | |
| if (targetValue == null) | |
| { | |
| // PSGetTypeRestriction will actually create an instance restriction because the targetValue is null. | |
| return PropertyDoesntExist(target, target.PSGetTypeRestriction()).WriteToDebugLog(this); | |
| } | |
| BindingRestrictions restrictions; | |
| PSMemberInfo memberInfo; | |
| Expression expr = null; | |
| if (_hasInstanceMember && TryGetInstanceMember(target.Value, Name, out memberInfo)) | |
| { | |
| // If there is an instance member, we generate (roughly) the following: | |
| // PSMemberInfo memberInfo; | |
| // if (PSGetMemberBinder.TryGetInstanceMember(target.Value, Name, out memberInfo)) | |
| // return memberInfo.Value; | |
| // else | |
| // update the site | |
| // We use a generic method like this because: | |
| // * If one object has an instance property with a given name, it's like many others do as well | |
| // * We want to avoid generating new sites for every object with an instance member | |
| // As an alternative, would could generate the following psuedo-code: | |
| // if (target.Value == previousInstance) | |
| // return optimized value (depending on the exact PSMemberInfo subclass) | |
| // else update the site | |
| // But the assumption here is that many sites probably performs worse than the dictionary lookup | |
| // and unoptimized virtual call to PSMemberInfo.Value. | |
| // | |
| // The binding restrictions could avoid a version check because it's never wrong to look for an instance member, | |
| // but we add the check because the DLR requires a non-empty check when the target implements IDynamicMetaObjectProvider, | |
| // which PSObject does. The version check is also marginally useful if we knew we'd never see another | |
| // instance member with this member name, but we're not tracking things to make that a useful test. | |
| var memberInfoVar = Expression.Variable(typeof(PSMemberInfo)); | |
| expr = Expression.Condition( | |
| Expression.Call(CachedReflectionInfo.PSGetMemberBinder_TryGetInstanceMember, target.Expression.Cast(typeof(object)), Expression.Constant(Name), memberInfoVar), | |
| Expression.Property(memberInfoVar, "Value"), | |
| this.GetUpdateExpression(typeof(object))); | |
| expr = WrapGetMemberInTry(expr); | |
| return (new DynamicMetaObject(Expression.Block(new[] { memberInfoVar }, expr), BinderUtils.GetVersionCheck(this, _version))).WriteToDebugLog(this); | |
| } | |
| bool canOptimize; | |
| Type aliasConversionType; | |
| memberInfo = GetPSMemberInfo(target, out restrictions, out canOptimize, out aliasConversionType, MemberTypes.Property); | |
| if (!canOptimize) | |
| { | |
| Diagnostics.Assert(memberInfo == null, "We don't bother returning members if we can't optimize."); | |
| return new DynamicMetaObject( | |
| WrapGetMemberInTry(Expression.Call(CachedReflectionInfo.PSGetMemberBinder_GetAdaptedValue, | |
| GetTargetExpr(target, typeof(object)), | |
| Expression.Constant(Name))), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| if (memberInfo != null) | |
| { | |
| Diagnostics.Assert(memberInfo.instance == null, "We shouldn't be here if a member is already bound."); | |
| // The most common case - we're getting some property. We can optimize many different kinds | |
| // of property accessors, so we special case each possibility. | |
| var propertyInfo = memberInfo as PSPropertyInfo; | |
| if (propertyInfo != null) | |
| { | |
| if (!propertyInfo.IsGettable) | |
| { | |
| return GenerateGetPropertyException(restrictions).WriteToDebugLog(this); | |
| } | |
| var property = propertyInfo as PSProperty; | |
| if (property != null) | |
| { | |
| var adapterData = property.adapterData as DotNetAdapter.PropertyCacheEntry; | |
| Diagnostics.Assert(adapterData != null, "We have an unknown PSProperty that we aren't correctly optimizing."); | |
| if (adapterData.member.DeclaringType.IsGenericTypeDefinition || adapterData.propertyType.IsByRefLike) | |
| { | |
| // We really should throw an error, but accessing property getter | |
| // doesn't throw error in PowerShell since V2, even in strict mode. | |
| expr = ExpressionCache.NullConstant; | |
| } | |
| else | |
| { | |
| // For static property access, the target expr must be null. For non-static, we must convert | |
| // because target.Expression is typeof(object) because this is a dynamic site. | |
| var targetExpr = _static ? null : GetTargetExpr(target, adapterData.member.DeclaringType); | |
| var propertyAccessor = adapterData.member as PropertyInfo; | |
| if (propertyAccessor != null) | |
| { | |
| var propertyGetter = propertyAccessor.GetMethod; | |
| if ((propertyGetter.IsFamily || propertyGetter.IsFamilyOrAssembly) && | |
| (_classScope == null || !_classScope.IsSubclassOf(propertyAccessor.DeclaringType))) | |
| { | |
| return GenerateGetPropertyException(restrictions).WriteToDebugLog(this); | |
| } | |
| if (propertyAccessor.PropertyType.IsByRef) | |
| { | |
| expr = Expression.Call( | |
| CachedReflectionInfo.ByRefOps_GetByRefPropertyValue, | |
| targetExpr, | |
| Expression.Constant(propertyAccessor)); | |
| } | |
| else | |
| { | |
| expr = Expression.Property(targetExpr, propertyAccessor); | |
| } | |
| } | |
| else | |
| { | |
| Diagnostics.Assert(adapterData.member is FieldInfo, | |
| "A DotNetAdapter.PropertyCacheEntry has something other than PropertyInfo or FieldInfo."); | |
| expr = Expression.Field(targetExpr, (FieldInfo)adapterData.member); | |
| } | |
| } | |
| } | |
| var scriptProperty = propertyInfo as PSScriptProperty; | |
| if (scriptProperty != null) | |
| { | |
| expr = Expression.Call(Expression.Constant(scriptProperty, typeof(PSScriptProperty)), | |
| CachedReflectionInfo.PSScriptProperty_InvokeGetter, target.Expression.Cast(typeof(object))); | |
| } | |
| var codeProperty = propertyInfo as PSCodeProperty; | |
| if (codeProperty != null) | |
| { | |
| Diagnostics.Assert(codeProperty.GetterCodeReference != null, "CodeProperty isn't gettable, should have generated error code above."); | |
| Diagnostics.Assert(codeProperty.GetterCodeReference.IsStatic, "CodeProperty should be a static method."); | |
| expr = PSInvokeMemberBinder.InvokeMethod(codeProperty.GetterCodeReference, null, new[] { target }, | |
| false, PSInvokeMemberBinder.MethodInvocationType.Getter); | |
| } | |
| var noteProperty = propertyInfo as PSNoteProperty; | |
| if (noteProperty != null) | |
| { | |
| Diagnostics.Assert(!noteProperty.IsSettable, "If the note is settable, incorrect code is generated."); | |
| expr = Expression.Property(Expression.Constant(propertyInfo, typeof(PSNoteProperty)), CachedReflectionInfo.PSNoteProperty_Value); | |
| } | |
| Diagnostics.Assert(expr != null, "Unexpected property type encountered"); | |
| if (aliasConversionType != null) | |
| { | |
| expr = expr.Convert(aliasConversionType); | |
| } | |
| } | |
| else | |
| { | |
| expr = Expression.Call(CachedReflectionInfo.PSGetMemberBinder_CloneMemberInfo, | |
| Expression.Constant(memberInfo, typeof(PSMemberInfo)), | |
| target.Expression.Cast(typeof(object))); | |
| } | |
| } | |
| if (targetValue is IDictionary) | |
| { | |
| Type genericTypeArg = null; | |
| bool isGeneric = IsGenericDictionary(targetValue, ref genericTypeArg); | |
| if (!isGeneric || genericTypeArg != null) | |
| { | |
| var temp = Expression.Variable(typeof(object)); | |
| // If expr is not null, it's the fallback when no member exists. If it is null, | |
| // the fallback is the result from PropertyDoesntExist. | |
| expr ??= (errorSuggestion ?? PropertyDoesntExist(target, restrictions)).Expression; | |
| var method = isGeneric | |
| ? CachedReflectionInfo.PSGetMemberBinder_TryGetGenericDictionaryValue.MakeGenericMethod(genericTypeArg) | |
| : CachedReflectionInfo.PSGetMemberBinder_TryGetIDictionaryValue; | |
| expr = Expression.Block(new[] { temp }, | |
| Expression.Condition( | |
| Expression.Call(method, GetTargetExpr(target, method.GetParameters()[0].ParameterType), Expression.Constant(Name), temp), | |
| temp, | |
| expr.Cast(typeof(object)))); | |
| } | |
| } | |
| return expr != null | |
| ? new DynamicMetaObject(WrapGetMemberInTry(expr), restrictions).WriteToDebugLog(this) | |
| : (errorSuggestion ?? PropertyDoesntExist(target, restrictions)).WriteToDebugLog(this); | |
| } | |
| private DynamicMetaObject GenerateGetPropertyException(BindingRestrictions restrictions) | |
| { | |
| return new DynamicMetaObject( | |
| Compiler.ThrowRuntimeError("WriteOnlyProperty", ExtendedTypeSystem.WriteOnlyProperty, | |
| this.ReturnType, Expression.Constant(Name)), | |
| restrictions); | |
| } | |
| internal static bool IsGenericDictionary(object value, ref Type genericTypeArg) | |
| { | |
| bool isGeneric = false; | |
| foreach (var i in value.GetType().GetInterfaces()) | |
| { | |
| if (i.IsGenericType && i.GetGenericTypeDefinition() == typeof(IDictionary<,>)) | |
| { | |
| isGeneric = true; | |
| var genericArguments = i.GetGenericArguments(); | |
| if (genericArguments[0] == typeof(string)) | |
| { | |
| // Our generic method for lookup takes IDictionary<string,T>, we need | |
| // to remember T. | |
| genericTypeArg = genericArguments[1]; | |
| } | |
| } | |
| } | |
| return isGeneric; | |
| } | |
| /// <summary> | |
| /// Get the actual value, as an expression, of the object represented by target. This | |
| /// will get the base object if it's a psobject, plus correctly handle Nullable. | |
| /// </summary> | |
| internal static Expression GetTargetExpr(DynamicMetaObject target, Type castToType = null) | |
| { | |
| var expr = target.Expression; | |
| var value = target.Value; | |
| // If the target value is actually a deserialized PSObject, we should use the original value | |
| var psobj = value as PSObject; | |
| if (psobj != null && psobj != AutomationNull.Value && !psobj.IsDeserialized) | |
| { | |
| expr = Expression.Call(CachedReflectionInfo.PSObject_Base, expr); | |
| value = PSObject.Base(value); | |
| } | |
| var type = castToType ?? ((value != null) ? value.GetType() : typeof(object)); | |
| if (expr.Type != type) | |
| { | |
| // Unbox value types (or use Nullable<T>.Value) to avoid a copy in case the value is mutated. | |
| // In case that castToType is System.Object and expr.Type is Nullable<ValueType>, expr.Cast(System.Object) will | |
| // get the underlying value by default. So "GetTargetExpr(target).Cast(typeof(object))" is actually the same as | |
| // "GetTargetExpr(target, typeof(object))". | |
| expr = type.IsValueType | |
| ? (Nullable.GetUnderlyingType(expr.Type) != null | |
| ? (Expression)Expression.Property(expr, "Value") | |
| : Expression.Unbox(expr, type)) | |
| : expr.Cast(type); | |
| } | |
| return expr; | |
| } | |
| /// <summary> | |
| /// Return the binding result when no property exists. | |
| /// </summary> | |
| private DynamicMetaObject PropertyDoesntExist(DynamicMetaObject target, BindingRestrictions restrictions) | |
| { | |
| // If the property does not exist, but the target is enumerable, we'll turn this expression into roughly the equivalent | |
| // pipeline: | |
| // $x | foreach-object { $_.Property } | |
| // I say roughly because we'll actually iterate through $_ if it doesn't have Property and it is enumerable, and we'll | |
| // do this recursively. This makes it easy to chain property references and not worry if the property returns collections or not, e.g.: | |
| // $x.Modules.ModuleName | |
| // If Modules returns a collection, but you want all the module names of all the modules, then it just works. | |
| // The _nonEnumerating aspect of this binder is simply a way of avoiding the recursing inside the binder, allowing us to | |
| // collect the results in the helper method we call. One alternative to _nonEnumerating is to have the helper method | |
| // not recurse, but mark it's return value specially so that recursive calls to the helper can detect that the results | |
| // need to be flattened. | |
| // IsEnumerable treats AutomationNull.Value as a zero length array which we don't want to do here. | |
| if (!_nonEnumerating && target.Value != AutomationNull.Value) | |
| { | |
| var enumerable = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerable != null) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_PropertyGetter, | |
| Expression.Constant(this.GetNonEnumeratingBinder()), | |
| enumerable.Expression), restrictions); | |
| } | |
| } | |
| // As part of our effort to hide how a command can return a singleton or array, we want to allow people to iterate | |
| // over singletons with the foreach statement (which has worked since V1) and a for loop, for example: | |
| // for ($i = 0; $i -lt $x.Length; $i++) { $x[$i] } | |
| // If $x is a singleton, we want to return 1 for the length so code like this works correctly. | |
| // We do not want this magic to show up in Get-Member output, tab completion, intellisense, etc. | |
| if (Name.Equals("Length", StringComparison.OrdinalIgnoreCase) || Name.Equals("Count", StringComparison.OrdinalIgnoreCase)) | |
| { | |
| // $null.Count should be 0, anything else should be 1 | |
| var resultCount = PSObject.Base(target.Value) == null ? 0 : 1; | |
| return new DynamicMetaObject( | |
| Expression.Condition( | |
| Compiler.IsStrictMode(2), | |
| ThrowPropertyNotFoundStrict(), | |
| ExpressionCache.Constant(resultCount).Cast(typeof(object))), restrictions); | |
| } | |
| var result = Expression.Condition( | |
| Compiler.IsStrictMode(2), | |
| ThrowPropertyNotFoundStrict(), | |
| _nonEnumerating ? ExpressionCache.AutomationNullConstant : ExpressionCache.NullConstant); | |
| return new DynamicMetaObject(result, restrictions); | |
| } | |
| private Expression ThrowPropertyNotFoundStrict() | |
| { | |
| return Compiler.CreateThrow(typeof(object), typeof(PropertyNotFoundException), | |
| new[] { typeof(string), typeof(Exception), typeof(string), typeof(object[]) }, | |
| "PropertyNotFoundStrict", null, ParserStrings.PropertyNotFoundStrict, | |
| new object[] { Name }); | |
| } | |
| internal static DynamicMetaObject EnsureAllowedInLanguageMode(DynamicMetaObject target, object targetValue, | |
| string name, bool isStatic, DynamicMetaObject[] args, BindingRestrictions moreTests, string errorID, string resourceString) | |
| { | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| if (context == null) | |
| { | |
| return null; | |
| } | |
| if (context.LanguageMode == PSLanguageMode.ConstrainedLanguage && | |
| !IsAllowedInConstrainedLanguage(targetValue, name, isStatic)) | |
| { | |
| if (SystemPolicy.GetSystemLockdownPolicy() != SystemEnforcementMode.Audit) | |
| { | |
| return target.ThrowRuntimeError(args, moreTests, errorID, resourceString); | |
| } | |
| string targetName = (targetValue as Type)?.FullName ?? targetValue?.GetType().FullName; | |
| SystemPolicy.LogWDACAuditMessage( | |
| context: context, | |
| title: ParameterBinderStrings.WDACBinderInvocationLogTitle, | |
| message: StringUtil.Format(ParameterBinderStrings.WDACBinderInvocationLogMessage, name, targetName ?? string.Empty), | |
| fqid: "MethodOrPropertyInvocationNotAllowed", | |
| dropIntoDebugger: true); | |
| } | |
| return null; | |
| } | |
| internal static bool IsAllowedInConstrainedLanguage(object targetValue, string name, bool isStatic) | |
| { | |
| // ToString allowed on any type | |
| if (string.Equals(name, "ToString", StringComparison.OrdinalIgnoreCase)) | |
| { | |
| return true; | |
| } | |
| // Otherwise, check if it's a core type | |
| Type targetType = targetValue as Type; | |
| if ((!isStatic) || (targetType == null)) | |
| { | |
| targetType = targetValue.GetType(); | |
| } | |
| return CoreTypes.Contains(targetType); | |
| } | |
| /// <summary> | |
| /// Return the binding restriction that tests that an instance member does not exist, used when the binder | |
| /// knows instance members might exist (because the name was added to some instance), but the object we're | |
| /// currently binding does not have an instance member with the given member name. | |
| /// </summary> | |
| internal BindingRestrictions NotInstanceMember(DynamicMetaObject target) | |
| { | |
| var memberInfoVar = Expression.Variable(typeof(PSMemberInfo)); | |
| var expr = Expression.Call(CachedReflectionInfo.PSGetMemberBinder_TryGetInstanceMember, | |
| target.Expression.Cast(typeof(object)), Expression.Constant(Name), memberInfoVar); | |
| return BindingRestrictions.GetExpressionRestriction(Expression.Block(new[] { memberInfoVar }, Expression.Not(expr))); | |
| } | |
| private static Expression WrapGetMemberInTry(Expression expr) | |
| { | |
| // This code ensures that getting a member doesn't raise an exception. Mostly this is so that formatting | |
| // always works. As currently implemented, this will also affect C# code that uses the dynamic keyword. | |
| // If we decide that the dynamic keyword should not mask exceptions, then we should create a new binder | |
| // from PSObject.PSDynamicMetaObject.BindGetMember that passes in a flag so we know not to wrap in a try/catch. | |
| return Expression.TryCatch( | |
| expr.Cast(typeof(object)), | |
| Expression.Catch(typeof(TerminateException), Expression.Rethrow(typeof(object))), | |
| // Not sure if the following catch is necessary, but the interpreter has it. | |
| Expression.Catch(typeof(MethodException), Expression.Rethrow(typeof(object))), | |
| // This catch is only needed if we have an IDictionary | |
| Expression.Catch(typeof(PropertyNotFoundException), Expression.Rethrow(typeof(object))), | |
| Expression.Catch(typeof(Exception), ExpressionCache.NullConstant)); | |
| } | |
| /// <summary> | |
| /// Resolve the alias, throwing an exception if a cycle is detected while resolving the alias. | |
| /// </summary> | |
| private PSMemberInfo ResolveAlias(PSAliasProperty alias, DynamicMetaObject target, HashSet<string> aliases, | |
| List<BindingRestrictions> aliasRestrictions) | |
| { | |
| Diagnostics.Assert(aliasRestrictions != null, "aliasRestrictions cannot be null"); | |
| if (aliases == null) | |
| { | |
| aliases = new HashSet<string> { alias.Name }; | |
| } | |
| else | |
| { | |
| if (aliases.Contains(alias.Name)) | |
| { | |
| throw new ExtendedTypeSystemException("CycleInAliasLookup", null, ExtendedTypeSystem.CycleInAlias, alias.Name); | |
| } | |
| aliases.Add(alias.Name); | |
| } | |
| bool canOptimize; | |
| Type aliasConversionType; | |
| BindingRestrictions restrictions; | |
| PSGetMemberBinder binder = PSGetMemberBinder.Get(alias.ReferencedMemberName, _classScope, false); | |
| // if binder has instance member, then GetPSMemberInfo will not be able to resolve that..only FallbackGetMember | |
| // can resolve that. In that case we simply return without further evaluation. | |
| if (binder.HasInstanceMember) | |
| { | |
| return null; | |
| } | |
| PSMemberInfo result = binder.GetPSMemberInfo(target, out restrictions, out canOptimize, out aliasConversionType, | |
| MemberTypes.Property, aliases, aliasRestrictions); | |
| return result; | |
| } | |
| internal PSMemberInfo GetPSMemberInfo(DynamicMetaObject target, | |
| out BindingRestrictions restrictions, | |
| out bool canOptimize, | |
| out Type aliasConversionType, | |
| MemberTypes memberTypeToOperateOn, | |
| HashSet<string> aliases = null, | |
| List<BindingRestrictions> aliasRestrictions = null) | |
| { | |
| aliasConversionType = null; | |
| bool hasTypeTableMember; | |
| bool hasInstanceMember; | |
| BindingRestrictions versionRestriction; | |
| lock (this) | |
| { | |
| versionRestriction = BinderUtils.GetVersionCheck(this, _version); | |
| hasTypeTableMember = _hasTypeTableMember; | |
| hasInstanceMember = _hasInstanceMember; | |
| } | |
| if (_static) | |
| { | |
| restrictions = target.PSGetStaticMemberRestriction(); | |
| restrictions = restrictions.Merge(versionRestriction); | |
| canOptimize = true; | |
| return PSObject.GetStaticCLRMember(target.Value, Name); | |
| } | |
| canOptimize = false; | |
| Diagnostics.Assert(!TryGetInstanceMember(target.Value, Name, out _), | |
| "shouldn't get here if there is an instance member"); | |
| PSMemberInfo memberInfo = null; | |
| ConsolidatedString typenames = null; | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| var typeTable = context?.TypeTable; | |
| if (hasTypeTableMember) | |
| { | |
| typenames = PSObject.GetTypeNames(target.Value); | |
| if (typeTable != null) | |
| { | |
| memberInfo = typeTable.GetMembers<PSMemberInfo>(typenames)[Name]; | |
| if (memberInfo != null) | |
| { | |
| canOptimize = true; | |
| } | |
| } | |
| } | |
| // Check if the target value is actually a deserialized PSObject. | |
| // - If so, we want to use the original value. | |
| // Mostly, a deserialized object is a PSObject with an empty immediate base object, and it's OK to call PSObject.Base() | |
| // on it in this case, because the method would just return the original PSObject. But if it's the deserialized object of | |
| // a container object (i.e. an object derived from IEnumerable, IList, or IDictionary), the immediate base object is a | |
| // Hashtable or ArrayList. In such case, we sometimes would lose the psadapted/psextended properties that we actually care | |
| // by using the base object. | |
| // | |
| // One example is the XmlElement, which derives from IEnumerable. It is serialized/deserialized as a container object, and | |
| // the its element properties (i.e. $xmlElement.IP, where IP is actually an attribute name) are stored as psadapted properties | |
| // in the top-level PSObject. | |
| // | |
| // See the comments about 'three interesting cases' in PSInvokeMemberBinder.FallbackInvokeMember for more info. | |
| // | |
| // - If not, we want to use the base object, so that we might generate optimized code. | |
| var psobj = target.Value as PSObject; | |
| bool isTargetDeserializedObject = (psobj != null) && (psobj.IsDeserialized); | |
| object value = isTargetDeserializedObject ? target.Value : PSObject.Base(target.Value); | |
| var adapterSet = PSObject.GetMappedAdapter(value, typeTable); | |
| if (memberInfo == null) | |
| { | |
| canOptimize = adapterSet.OriginalAdapter.CanSiteBinderOptimize(memberTypeToOperateOn); | |
| // Don't bother looking for the member if we're not going to use it. | |
| if (canOptimize) | |
| { | |
| memberInfo = adapterSet.OriginalAdapter.BaseGetMember<PSMemberInfo>(value, Name); | |
| } | |
| } | |
| if (memberInfo == null && canOptimize && adapterSet.DotNetAdapter != null) | |
| { | |
| memberInfo = adapterSet.DotNetAdapter.BaseGetMember<PSMemberInfo>(value, Name); | |
| } | |
| // The member came from the type table or an adapter and isn't instance based, so the restriction will start | |
| // with a version check | |
| restrictions = versionRestriction; | |
| // When returning aliasRestrictions always include the version restriction | |
| aliasRestrictions?.Add(versionRestriction); | |
| var alias = memberInfo as PSAliasProperty; | |
| if (alias != null) | |
| { | |
| aliasConversionType = alias.ConversionType; | |
| aliasRestrictions ??= new List<BindingRestrictions>(); | |
| memberInfo = ResolveAlias(alias, target, aliases, aliasRestrictions); | |
| if (memberInfo == null) | |
| { | |
| // this can happen in the cases where referenced name of the alias property | |
| // maps to an adapter that cannot optimize (like ManagementObjectAdapter) | |
| canOptimize = false; | |
| } | |
| // Merge alias restrictions | |
| foreach (var aliasRestriction in aliasRestrictions) | |
| { | |
| restrictions = restrictions.Merge(aliasRestriction); | |
| } | |
| } | |
| if (_classScope != null && (target.LimitType == _classScope || target.LimitType.IsSubclassOf(_classScope)) && adapterSet.OriginalAdapter == PSObject.DotNetInstanceAdapter) | |
| { | |
| List<MethodBase> candidateMethods = null; | |
| foreach (var member in _classScope.GetMembers(BindingFlags.Instance | BindingFlags.FlattenHierarchy | BindingFlags.NonPublic)) | |
| { | |
| if (this.Name.Equals(member.Name, StringComparison.OrdinalIgnoreCase)) | |
| { | |
| var propertyInfo = member as PropertyInfo; | |
| if (propertyInfo != null) | |
| { | |
| var getMethod = propertyInfo.GetGetMethod(nonPublic: true); | |
| var setMethod = propertyInfo.GetSetMethod(nonPublic: true); | |
| if ((getMethod == null || getMethod.IsPublic || getMethod.IsFamily || getMethod.IsFamilyOrAssembly) && | |
| (setMethod == null || setMethod.IsPublic || setMethod.IsFamily || setMethod.IsFamilyOrAssembly)) | |
| { | |
| memberInfo = new PSProperty(this.Name, PSObject.DotNetInstanceAdapter, target.Value, new DotNetAdapter.PropertyCacheEntry(propertyInfo)); | |
| } | |
| } | |
| else | |
| { | |
| var fieldInfo = member as FieldInfo; | |
| if (fieldInfo != null) | |
| { | |
| if (fieldInfo.IsFamily || fieldInfo.IsFamilyOrAssembly) | |
| { | |
| memberInfo = new PSProperty(this.Name, PSObject.DotNetInstanceAdapter, target.Value, new DotNetAdapter.PropertyCacheEntry(fieldInfo)); | |
| } | |
| } | |
| else | |
| { | |
| var methodInfo = member as MethodInfo; | |
| if (methodInfo != null && (methodInfo.IsPublic || methodInfo.IsFamily || methodInfo.IsFamilyOrAssembly)) | |
| { | |
| candidateMethods ??= new List<MethodBase>(); | |
| candidateMethods.Add(methodInfo); | |
| } | |
| } | |
| } | |
| } | |
| } | |
| if (candidateMethods != null && candidateMethods.Count > 0) | |
| { | |
| var psMethodInfo = memberInfo as PSMethod; | |
| if (psMethodInfo != null) | |
| { | |
| var cacheEntry = (DotNetAdapter.MethodCacheEntry)psMethodInfo.adapterData; | |
| candidateMethods.AddRange(cacheEntry.methodInformationStructures.Select(static e => e.method)); | |
| memberInfo = null; | |
| } | |
| if (memberInfo != null) | |
| { | |
| // Ambiguous, it'd be better to report an error other than "can't find member", but I'm lazy. | |
| memberInfo = null; | |
| } | |
| else | |
| { | |
| DotNetAdapter.MethodCacheEntry method = new DotNetAdapter.MethodCacheEntry(candidateMethods); | |
| memberInfo = PSMethod.Create(this.Name, PSObject.DotNetInstanceAdapter, null, method); | |
| } | |
| } | |
| } | |
| if (hasInstanceMember) | |
| { | |
| // If this binder knows instance members exist, we need to make sure future objects going through this | |
| // rule ensure they don't have an instance member. I don't expect this rule to be generated or hit frequently. | |
| restrictions = restrictions.Merge(NotInstanceMember(target)); | |
| } | |
| // We always need a type check, even if we'll be using the PSTypeNames because our generated code may contain | |
| // conversions that don't work for arbitrary types. | |
| restrictions = restrictions.Merge(target.PSGetTypeRestriction()); | |
| // If the target value is actually a deserialized PSObject, add a check to ensure that's the case. This check | |
| // should be done after the type check. | |
| if (isTargetDeserializedObject) | |
| { | |
| restrictions = restrictions.Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.Property(target.Expression.Cast(typeof(PSObject)), CachedReflectionInfo.PSObject_IsDeserialized))); | |
| } | |
| if (hasTypeTableMember) | |
| { | |
| // We need to make sure the type table we would use to find a member is the same type table that we used here to | |
| // find (or not find) a member. If they were different type tables, we could easily get different results. | |
| restrictions = restrictions.Merge( | |
| BindingRestrictions.GetInstanceRestriction(Expression.Call(CachedReflectionInfo.PSGetMemberBinder_GetTypeTableFromTLS), typeTable)); | |
| // We also need to make sure the pstypename is the same. It doesn't matter if we found something in the type table | |
| // or not - the fact that we might find something in the type table is enough to require a check on the pstypename. | |
| restrictions = restrictions.Merge( | |
| BindingRestrictions.GetExpressionRestriction( | |
| Expression.Call(CachedReflectionInfo.PSGetMemberBinder_IsTypeNameSame, target.Expression.Cast(typeof(object)), Expression.Constant(typenames.Key)))); | |
| } | |
| return memberInfo; | |
| } | |
| internal static PSMemberInfo CloneMemberInfo(PSMemberInfo memberInfo, object obj) | |
| { | |
| memberInfo = memberInfo.Copy(); | |
| memberInfo.ReplicateInstance(obj); | |
| return memberInfo; | |
| } | |
| internal static object GetAdaptedValue(object obj, string member) | |
| { | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| PSMemberInfo memberInfo = null; | |
| if ((context != null) && (context.TypeTable != null)) | |
| { | |
| ConsolidatedString typenames = PSObject.GetTypeNames(obj); | |
| memberInfo = context.TypeTable.GetMembers<PSMemberInfo>(typenames)[member]; | |
| if (memberInfo != null) | |
| { | |
| memberInfo = CloneMemberInfo(memberInfo, obj); | |
| } | |
| } | |
| var adapterSet = PSObject.GetMappedAdapter(obj, context?.TypeTable); | |
| memberInfo ??= adapterSet.OriginalAdapter.BaseGetMember<PSMemberInfo>(obj, member); | |
| if (memberInfo == null && adapterSet.DotNetAdapter != null) | |
| { | |
| memberInfo = adapterSet.DotNetAdapter.BaseGetMember<PSMemberInfo>(obj, member); | |
| } | |
| if (memberInfo != null) | |
| { | |
| return memberInfo.Value; | |
| } | |
| if (string.Equals(member, "Length", StringComparison.OrdinalIgnoreCase) || string.Equals(member, "Count", StringComparison.OrdinalIgnoreCase)) | |
| { | |
| return 1; | |
| } | |
| if (context != null && context.IsStrictVersion(2)) | |
| { | |
| // If the member is undefined and we're in strict mode, throw an exception... | |
| throw new PropertyNotFoundException("PropertyNotFoundStrict", null, ParserStrings.PropertyNotFoundStrict, | |
| LanguagePrimitives.ConvertTo<string>(member)); | |
| } | |
| return null; | |
| } | |
| internal static bool IsTypeNameSame(object value, string typeName) | |
| { | |
| return value != null && string.Equals(PSObject.GetTypeNames(value).Key, typeName, StringComparison.OrdinalIgnoreCase); | |
| } | |
| internal static TypeTable GetTypeTableFromTLS() | |
| { | |
| var executionContext = LocalPipeline.GetExecutionContextFromTLS(); | |
| return executionContext?.TypeTable; | |
| } | |
| internal static bool TryGetInstanceMember(object value, string memberName, out PSMemberInfo memberInfo) | |
| { | |
| PSMemberInfoInternalCollection<PSMemberInfo> instanceMembers; | |
| memberInfo = PSObject.HasInstanceMembers(value, out instanceMembers) ? instanceMembers[memberName] : null; | |
| return (memberInfo != null); | |
| } | |
| internal static bool TryGetIDictionaryValue(IDictionary hash, string memberName, out object value) | |
| { | |
| try | |
| { | |
| if (hash.Contains(memberName)) | |
| { | |
| value = hash[memberName]; | |
| return true; | |
| } | |
| } | |
| catch (InvalidOperationException) | |
| { | |
| // Ignore invalid operation exception, it can happen if the dictionary | |
| // has keys that can't be compared to property. | |
| } | |
| value = null; | |
| return false; | |
| } | |
| internal static bool TryGetGenericDictionaryValue<T>(IDictionary<string, T> hash, string memberName, out object value) | |
| { | |
| T result; | |
| if (hash.TryGetValue(memberName, out result)) | |
| { | |
| value = result; | |
| return true; | |
| } | |
| value = null; | |
| return false; | |
| } | |
| } | |
| /// <summary> | |
| /// The binder for setting a member, like $foo.bar = 1 or [foo]::bar = 1. | |
| /// </summary> | |
| internal class PSSetMemberBinder : SetMemberBinder | |
| { | |
| private sealed class KeyComparer : IEqualityComparer<PSSetMemberBinderKeyType> | |
| { | |
| public bool Equals(PSSetMemberBinderKeyType x, PSSetMemberBinderKeyType y) | |
| { | |
| // The non-static binder cache is case-sensitive because sites need the name used per site | |
| // when the target object is a case-sensitive IDictionary. Under all other circumstances, | |
| // binding is case-insensitive. | |
| var stringComparison = x.Item3 ? StringComparison.OrdinalIgnoreCase : StringComparison.Ordinal; | |
| return x.Item1.Equals(y.Item1, stringComparison) && | |
| x.Item2 == y.Item2 && | |
| x.Item3 == y.Item3; | |
| } | |
| public int GetHashCode(PSSetMemberBinderKeyType obj) | |
| { | |
| var stringComparer = obj.Item3 ? StringComparer.OrdinalIgnoreCase : StringComparer.Ordinal; | |
| return Utils.CombineHashCodes(stringComparer.GetHashCode(obj.Item1), | |
| obj.Item2 == null ? 0 : obj.Item2.GetHashCode(), | |
| obj.Item3.GetHashCode()); | |
| } | |
| } | |
| private static readonly Dictionary<PSSetMemberBinderKeyType, PSSetMemberBinder> s_binderCache | |
| = new Dictionary<PSSetMemberBinderKeyType, PSSetMemberBinder>(new KeyComparer()); | |
| private readonly bool _static; | |
| private readonly Type _classScope; | |
| private readonly PSGetMemberBinder _getMemberBinder; | |
| public static PSSetMemberBinder Get(string memberName, TypeDefinitionAst classScopeAst, bool @static) | |
| { | |
| var classScope = classScopeAst?.Type; | |
| return Get(memberName, classScope, @static); | |
| } | |
| public static PSSetMemberBinder Get(string memberName, Type classScope, bool @static) | |
| { | |
| PSSetMemberBinder result; | |
| lock (s_binderCache) | |
| { | |
| var tuple = Tuple.Create(memberName, classScope, @static); | |
| if (!s_binderCache.TryGetValue(tuple, out result)) | |
| { | |
| result = new PSSetMemberBinder(memberName, true, @static, classScope); | |
| s_binderCache.Add(tuple, result); | |
| } | |
| } | |
| return result; | |
| } | |
| public PSSetMemberBinder(string name, bool ignoreCase, bool @static, Type classScope) | |
| : base(name, ignoreCase) | |
| { | |
| _static = @static; | |
| _classScope = classScope; | |
| _getMemberBinder = PSGetMemberBinder.Get(name, _classScope, @static); | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "SetMember: {0}{1} ver:{2}", | |
| _static ? "static " : string.Empty, | |
| Name, | |
| _getMemberBinder._version); | |
| } | |
| private static Expression GetTransformedExpression(IEnumerable<ArgumentTransformationAttribute> transformationAttributes, Expression originalExpression) | |
| { | |
| if (transformationAttributes == null) | |
| { | |
| return originalExpression; | |
| } | |
| var attributesArray = transformationAttributes.ToArray(); | |
| if (attributesArray.Length == 0) | |
| { | |
| return originalExpression; | |
| } | |
| Expression transformedExpression = originalExpression.Convert(typeof(object)); | |
| var engineIntrinsicsTempVar = Expression.Variable(typeof(EngineIntrinsics)); | |
| // apply transformation attributes from right to left | |
| for (int i = attributesArray.Length - 1; i >= 0; i--) | |
| { | |
| transformedExpression = Expression.Call(Expression.Constant(attributesArray[i]), | |
| CachedReflectionInfo.ArgumentTransformationAttribute_Transform, | |
| engineIntrinsicsTempVar, | |
| transformedExpression); | |
| } | |
| return Expression.Block(new[] { engineIntrinsicsTempVar }, | |
| Expression.Assign( | |
| engineIntrinsicsTempVar, | |
| Expression.Property(ExpressionCache.GetExecutionContextFromTLS, | |
| CachedReflectionInfo.ExecutionContext_EngineIntrinsics)), | |
| transformedExpression); | |
| } | |
| public override DynamicMetaObject FallbackSetMember(DynamicMetaObject target, DynamicMetaObject value, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue || !value.HasValue) | |
| { | |
| return Defer(target, value); | |
| } | |
| // Defer COM objects or arguments wrapped in PSObjects | |
| if ((target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) || | |
| (value.Value is PSObject && (PSObject.Base(value.Value) != value.Value))) | |
| { | |
| object baseObject = PSObject.Base(target.Value); | |
| if (baseObject != null && Marshal.IsComObject(baseObject)) | |
| { | |
| // We unwrap only if the 'base' of 'target' is a COM object. It's unnecessary to unwrap in other cases, | |
| // especially in the case that 'target' is a string, we would lose instance members on the PSObject. | |
| // Therefore, we need to use a stricter restriction to make sure PSObject 'target' with other base types | |
| // doesn't get unwrapped. | |
| return this.DeferForPSObject(target, value, targetIsComObject: true).WriteToDebugLog(this); | |
| } | |
| } | |
| // Check if this is a COM Object | |
| DynamicMetaObject result; | |
| if (ComInterop.ComBinder.TryBindSetMember(this, target, value, out result)) | |
| { | |
| return result.UpdateComRestrictionsForPsObject(new DynamicMetaObject[] { value }).WriteToDebugLog(this); | |
| } | |
| var targetValue = PSObject.Base(target.Value); | |
| if (targetValue == null) | |
| { | |
| return (target.ThrowRuntimeError(new[] { value }, BindingRestrictions.Empty, "PropertyNotFound", | |
| ParserStrings.PropertyNotFound, | |
| Expression.Constant(Name))).WriteToDebugLog(this); | |
| } | |
| if (value.Value == AutomationNull.Value) | |
| { | |
| // Pretend the value was null (so we actually use null as the expression, but be sure | |
| // to use a restriction that checks | |
| value = new DynamicMetaObject(ExpressionCache.NullConstant, value.PSGetTypeRestriction(), null); | |
| } | |
| PSMemberInfo memberInfo; | |
| if (_getMemberBinder.HasInstanceMember && PSGetMemberBinder.TryGetInstanceMember(target.Value, Name, out memberInfo)) | |
| { | |
| // If there is an instance member, we generate (roughly) the following: | |
| // PSMemberInfo memberInfo; | |
| // if (PSGetMemberBinder.TryGetInstanceMember(target.Value, Name, out memberInfo)) | |
| // memberInfo.Value = value; | |
| // else | |
| // update the site | |
| // We use a generic method like this because: | |
| // * If one object has an instance property with a given name, it's like many others do as well | |
| // * We want to avoid generating new sites for every object with an instance member | |
| // As an alternative, would could generate the following psuedo-code: | |
| // if (target.Value == previousInstance) | |
| // return optimized value (depending on the exact PSMemberInfo subclass) | |
| // else update the site | |
| // But the assumption here is that many sites probably performs worse than the dictionary lookup | |
| // and unoptimized virtual call to PSMemberInfo.Value. | |
| // | |
| // The binding restrictions could avoid a version check because it's never wrong to look for an instance member, | |
| // but we add the check because the DLR requires a non-empty check when the target implements IDynamicMetaObjectProvider, | |
| // which PSObject does. The version check is also marginally useful if we knew we'd never see another | |
| // instance member with this member name, but we're not tracking things to make that a useful test. | |
| var memberInfoVar = Expression.Variable(typeof(PSMemberInfo)); | |
| var temp = Expression.Variable(typeof(object)); | |
| var expr = Expression.Condition( | |
| Expression.Call(CachedReflectionInfo.PSGetMemberBinder_TryGetInstanceMember, | |
| target.Expression.Cast(typeof(object)), Expression.Constant(Name), memberInfoVar), | |
| Expression.Assign(Expression.Property(memberInfoVar, "Value"), value.Expression.Cast(typeof(object))), | |
| this.GetUpdateExpression(typeof(object))); | |
| var bindingRestrictions = BinderUtils.GetVersionCheck(_getMemberBinder, _getMemberBinder._version) | |
| .Merge(value.PSGetTypeRestriction()); | |
| return (new DynamicMetaObject(Expression.Block(new[] { memberInfoVar, temp }, expr), | |
| bindingRestrictions)).WriteToDebugLog(this); | |
| } | |
| if (targetValue is IDictionary) | |
| { | |
| // We never look for properties in the underlying object, we always try to add the key. | |
| Type genericTypeArg = null; | |
| bool isGeneric = PSGetMemberBinder.IsGenericDictionary(targetValue, ref genericTypeArg); | |
| if (!isGeneric || genericTypeArg != null) | |
| { | |
| // If it's a generic, we must convert our value to genericTypeArg. | |
| var hashType = isGeneric | |
| ? typeof(IDictionary<,>).MakeGenericType(typeof(string), genericTypeArg) | |
| : typeof(IDictionary); | |
| var mi = hashType.GetMethod("set_Item"); | |
| var temp = Expression.Variable(genericTypeArg ?? typeof(object)); | |
| bool debase; | |
| Type elementType = temp.Type; | |
| // ConstrainedLanguage note - Calls to this conversion are protected by the binding rules below | |
| var conversion = LanguagePrimitives.FigureConversion(value.Value, elementType, out debase); | |
| if (conversion.Rank != ConversionRank.None) | |
| { | |
| var valueExpr = PSConvertBinder.InvokeConverter(conversion, value.Expression, elementType, | |
| debase, ExpressionCache.InvariantCulture); | |
| return new DynamicMetaObject( | |
| Expression.Block(new[] { temp }, | |
| Expression.Assign(temp, valueExpr), | |
| Expression.Call(PSGetMemberBinder.GetTargetExpr(target, hashType), mi, | |
| Expression.Constant(Name), valueExpr), | |
| valueExpr.Cast(typeof(object))), | |
| target.CombineRestrictions(value)).WriteToDebugLog(this); | |
| } | |
| } | |
| } | |
| BindingRestrictions restrictions; | |
| bool canOptimize; | |
| Type aliasConversionType; | |
| memberInfo = _getMemberBinder.GetPSMemberInfo(target, out restrictions, out canOptimize, out aliasConversionType, MemberTypes.Property); | |
| restrictions = restrictions.Merge(value.PSGetTypeRestriction()); | |
| // If the process has ever used ConstrainedLanguage, then we need to add the language mode | |
| // to the binding restrictions, and check whether it is allowed. We can't limit | |
| // the language check to unsafe types, as a safe type might have an unsafe method. | |
| if (ExecutionContext.HasEverUsedConstrainedLanguage) | |
| { | |
| restrictions = restrictions.Merge(BinderUtils.GetLanguageModeCheckIfHasEverUsedConstrainedLanguage()); | |
| // Validate that this is allowed in the current language mode. | |
| DynamicMetaObject runtimeError = PSGetMemberBinder.EnsureAllowedInLanguageMode( | |
| target, targetValue, Name, _static, new[] { value }, restrictions, | |
| "PropertySetterNotSupportedInConstrainedLanguage", ParserStrings.PropertySetConstrainedLanguage); | |
| if (runtimeError != null) | |
| { | |
| return runtimeError.WriteToDebugLog(this); | |
| } | |
| } | |
| if (!canOptimize) | |
| { | |
| Diagnostics.Assert(memberInfo == null, "We don't bother returning members if we can't optimize."); | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.PSSetMemberBinder_SetAdaptedValue, | |
| PSGetMemberBinder.GetTargetExpr(target, typeof(object)), | |
| Expression.Constant(Name), | |
| value.Expression.Cast(typeof(object))), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| if (memberInfo == null) | |
| { | |
| return (errorSuggestion ?? new DynamicMetaObject( | |
| Compiler.ThrowRuntimeError("PropertyAssignmentException", ParserStrings.PropertyNotFound, this.ReturnType, Expression.Constant(Name)), | |
| restrictions)).WriteToDebugLog(this); | |
| } | |
| var psPropertyInfo = memberInfo as PSPropertyInfo; | |
| if (psPropertyInfo != null) | |
| { | |
| if (!psPropertyInfo.IsSettable) | |
| { | |
| return GeneratePropertyAssignmentException(restrictions).WriteToDebugLog(this); | |
| } | |
| var psProperty = psPropertyInfo as PSProperty; | |
| if (psProperty != null) | |
| { | |
| var data = psProperty.adapterData as DotNetAdapter.PropertyCacheEntry; | |
| if (data != null) | |
| { | |
| Expression expr; | |
| if (data.member.DeclaringType.IsGenericTypeDefinition) | |
| { | |
| Expression innerException = Expression.New( | |
| CachedReflectionInfo.SetValueException_ctor, | |
| Expression.Constant("PropertyAssignmentException"), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ExtendedTypeSystem.CannotInvokeStaticMethodOnUninstantiatedGenericType), | |
| Expression.NewArrayInit(typeof(object), Expression.Constant(data.member.DeclaringType.FullName))); | |
| expr = Compiler.ThrowRuntimeErrorWithInnerException( | |
| "PropertyAssignmentException", | |
| Expression.Constant(ExtendedTypeSystem.CannotInvokeStaticMethodOnUninstantiatedGenericType), | |
| innerException, | |
| this.ReturnType, | |
| Expression.Constant(data.member.DeclaringType.FullName)); | |
| return new DynamicMetaObject(expr, restrictions).WriteToDebugLog(this); | |
| } | |
| if (data.propertyType.IsByRefLike) | |
| { | |
| // In theory, it's possible to call the setter with a value that can be implicitly/explicitly casted to the target ByRef-like type. | |
| // However, the set-property/set-indexer semantics in PowerShell requires returning the value after the setting operation. We cannot | |
| // return a ByRef-like value back, so we just disallow setting a member that takes a ByRef-like type value. | |
| expr = Expression.Throw( | |
| Expression.New( | |
| CachedReflectionInfo.SetValueException_ctor, | |
| Expression.Constant(nameof(ExtendedTypeSystem.CannotAccessByRefLikePropertyOrField)), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ExtendedTypeSystem.CannotAccessByRefLikePropertyOrField), | |
| Expression.NewArrayInit( | |
| typeof(object), | |
| Expression.Constant(data.member.Name), | |
| Expression.Constant(data.propertyType, typeof(Type)))), | |
| this.ReturnType); | |
| return new DynamicMetaObject(expr, restrictions).WriteToDebugLog(this); | |
| } | |
| var propertyInfo = data.member as PropertyInfo; | |
| Expression lhs; | |
| Type lhsType; | |
| // Populate transformation attributes. | |
| // Order of attributes is the same as order provided by user in the code | |
| // We assume that GetCustomAttributes implemented that way. | |
| IEnumerable<ArgumentTransformationAttribute> argumentTransformationAttributes = | |
| data.member.GetCustomAttributes<ArgumentTransformationAttribute>(); | |
| bool transformationNeeded = argumentTransformationAttributes.Any(); | |
| // For static property access, the target expr must be null. For non-static, we must convert | |
| // because target.Expression is typeof(object) because this is a dynamic site. | |
| var targetExpr = _static ? null : PSGetMemberBinder.GetTargetExpr(target, data.member.DeclaringType); | |
| if (propertyInfo != null) | |
| { | |
| var propertySetter = propertyInfo.SetMethod; | |
| if ((propertySetter.IsFamily || propertySetter.IsFamilyOrAssembly) && | |
| (_classScope == null || !_classScope.IsSubclassOf(propertyInfo.DeclaringType))) | |
| { | |
| return GeneratePropertyAssignmentException(restrictions).WriteToDebugLog(this); | |
| } | |
| lhsType = propertyInfo.PropertyType; | |
| lhs = Expression.Property(targetExpr, propertyInfo); | |
| } | |
| else | |
| { | |
| Diagnostics.Assert(data.member is FieldInfo, | |
| "A DotNetAdapter.PropertyCacheEntry has something other than PropertyInfo or FieldInfo."); | |
| var fieldInfo = (FieldInfo)data.member; | |
| lhsType = fieldInfo.FieldType; | |
| lhs = Expression.Field(targetExpr, fieldInfo); | |
| } | |
| var nullableUnderlyingType = Nullable.GetUnderlyingType(lhsType); | |
| if (nullableUnderlyingType != null) | |
| { | |
| if (value.Value == null) | |
| { | |
| expr = Expression.Block( | |
| Expression.Assign(lhs, GetTransformedExpression(argumentTransformationAttributes, Expression.Constant(null, lhsType))), | |
| ExpressionCache.NullConstant); | |
| } | |
| else | |
| { | |
| var tmp = Expression.Variable(nullableUnderlyingType); | |
| Expression assignmentExpression; | |
| if (transformationNeeded) | |
| { | |
| var transformedExpr = GetTransformedExpression(argumentTransformationAttributes, value.Expression); | |
| assignmentExpression = DynamicExpression.Dynamic(PSConvertBinder.Get(nullableUnderlyingType), nullableUnderlyingType, transformedExpr); | |
| } | |
| else | |
| { | |
| assignmentExpression = value.CastOrConvert(nullableUnderlyingType); | |
| } | |
| expr = Expression.Block( | |
| new[] { tmp }, | |
| Expression.Assign(tmp, assignmentExpression), | |
| Expression.Assign(lhs, Expression.New(lhsType.GetConstructor(new[] { nullableUnderlyingType }), tmp)), | |
| tmp.Cast(typeof(object))); | |
| } | |
| } | |
| else | |
| { | |
| var tmp = Expression.Variable(lhsType); | |
| Expression assignedValue; | |
| if (transformationNeeded) | |
| { | |
| assignedValue = DynamicExpression.Dynamic(PSConvertBinder.Get(lhsType), lhsType, | |
| GetTransformedExpression(argumentTransformationAttributes, value.Expression)); | |
| } | |
| else | |
| { | |
| assignedValue = (lhsType == typeof(object) && value.LimitType == typeof(PSObject)) | |
| ? Expression.Call(CachedReflectionInfo.PSObject_Base, value.Expression.Cast(typeof(PSObject))) | |
| : value.CastOrConvert(lhsType); | |
| } | |
| expr = Expression.Block( | |
| new[] { tmp }, | |
| Expression.Assign(tmp, assignedValue), | |
| Expression.Assign(lhs, tmp), | |
| tmp.Cast(typeof(object))); | |
| } | |
| var e = Expression.Variable(typeof(Exception)); | |
| expr = Expression.TryCatch(expr.Cast(typeof(object)), | |
| Expression.Catch(e, | |
| Expression.Block( | |
| Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_ConvertToMethodInvocationException, | |
| e, | |
| Expression.Constant(typeof(SetValueInvocationException), typeof(Type)), | |
| Expression.Constant(Name), | |
| ExpressionCache.Constant(0), | |
| Expression.Constant(null, typeof(MemberInfo))), | |
| Expression.Rethrow(typeof(object))))); | |
| return new DynamicMetaObject(expr, restrictions).WriteToDebugLog(this); | |
| } | |
| } | |
| var codeProperty = psPropertyInfo as PSCodeProperty; | |
| if (codeProperty != null) | |
| { | |
| var setterMethod = codeProperty.SetterCodeReference; | |
| var parameters = setterMethod.GetParameters(); | |
| var propertyType = parameters[parameters.Length - 1].ParameterType; | |
| if (propertyType.IsByRefLike) | |
| { | |
| var expr = Expression.Throw( | |
| Expression.New( | |
| CachedReflectionInfo.SetValueException_ctor, | |
| Expression.Constant(nameof(ExtendedTypeSystem.CannotAccessByRefLikePropertyOrField)), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ExtendedTypeSystem.CannotAccessByRefLikePropertyOrField), | |
| Expression.NewArrayInit( | |
| typeof(object), | |
| Expression.Constant(codeProperty.Name), | |
| Expression.Constant(propertyType, typeof(Type)))), | |
| this.ReturnType); | |
| return new DynamicMetaObject(expr, restrictions).WriteToDebugLog(this); | |
| } | |
| var temp = Expression.Variable(typeof(object)); | |
| return new DynamicMetaObject( | |
| Expression.Block( | |
| new[] { temp }, | |
| Expression.Assign(temp, value.CastOrConvert(temp.Type)), | |
| PSInvokeMemberBinder.InvokeMethod( | |
| setterMethod, | |
| target: null, | |
| new[] { target, value }, | |
| expandParameters: false, | |
| PSInvokeMemberBinder.MethodInvocationType.Setter), | |
| temp), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| var scriptProperty = psPropertyInfo as PSScriptProperty; | |
| if (scriptProperty != null) | |
| { | |
| // Invoke Setter | |
| return new DynamicMetaObject( | |
| Expression.Call(Expression.Constant(scriptProperty, typeof(PSScriptProperty)), | |
| CachedReflectionInfo.PSScriptProperty_InvokeSetter, | |
| PSGetMemberBinder.GetTargetExpr(target), value.Expression.Cast(typeof(object))), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| Diagnostics.Assert(false, "The property we're trying to set was unexpected."); | |
| } | |
| if (errorSuggestion != null) | |
| { | |
| return errorSuggestion.WriteToDebugLog(this); | |
| } | |
| // If we get here, the property isn't settable. Call SetAdaptedValue, which will eventually call the setter and raise an exception | |
| // with a suitable error message. | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.PSSetMemberBinder_SetAdaptedValue, | |
| PSGetMemberBinder.GetTargetExpr(target, typeof(object)), Expression.Constant(Name), | |
| value.Expression.Cast(typeof(object))), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| private DynamicMetaObject GeneratePropertyAssignmentException(BindingRestrictions restrictions) | |
| { | |
| Expression innerException = Expression.New(CachedReflectionInfo.SetValueException_ctor, | |
| Expression.Constant("PropertyAssignmentException"), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ParserStrings.PropertyIsReadOnly), | |
| Expression.NewArrayInit(typeof(object), Expression.Constant(Name))); | |
| var expr = Compiler.ThrowRuntimeErrorWithInnerException("PropertyAssignmentException", | |
| Expression.Constant(ParserStrings.PropertyIsReadOnly), innerException, | |
| this.ReturnType, Expression.Constant(Name)); | |
| return new DynamicMetaObject(expr, restrictions); | |
| } | |
| internal static object SetAdaptedValue(object obj, string member, object value) | |
| { | |
| try | |
| { | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| PSMemberInfo memberInfo = null; | |
| if ((context != null) && (context.TypeTable != null)) | |
| { | |
| ConsolidatedString typenames = PSObject.GetTypeNames(obj); | |
| memberInfo = context.TypeTable.GetMembers<PSMemberInfo>(typenames)[member]; | |
| if (memberInfo != null) | |
| { | |
| memberInfo = PSGetMemberBinder.CloneMemberInfo(memberInfo, obj); | |
| } | |
| } | |
| var adapterSet = PSObject.GetMappedAdapter(obj, context?.TypeTable); | |
| memberInfo ??= adapterSet.OriginalAdapter.BaseGetMember<PSMemberInfo>(obj, member); | |
| if (memberInfo == null && adapterSet.DotNetAdapter != null) | |
| { | |
| memberInfo = adapterSet.DotNetAdapter.BaseGetMember<PSMemberInfo>(obj, member); | |
| } | |
| if (memberInfo != null) | |
| { | |
| memberInfo.Value = value; | |
| } | |
| else | |
| { | |
| throw InterpreterError.NewInterpreterException(null, typeof(RuntimeException), | |
| null, "PropertyAssignmentException", ParserStrings.PropertyNotFound, member); | |
| } | |
| return value; | |
| } | |
| catch (SetValueException) | |
| { | |
| throw; | |
| } | |
| catch (Exception e) | |
| { | |
| ExceptionHandlingOps.ConvertToMethodInvocationException(e, typeof(SetValueInvocationException), member, 0); | |
| throw; | |
| } | |
| } | |
| internal static void InvalidateCache() | |
| { | |
| // Invalidate regular binders | |
| lock (s_binderCache) | |
| { | |
| foreach (PSSetMemberBinder binder in s_binderCache.Values) | |
| { | |
| binder._getMemberBinder._version += 1; | |
| } | |
| } | |
| } | |
| } | |
| internal class PSInvokeBinder : InvokeBinder | |
| { | |
| internal PSInvokeBinder(CallInfo callInfo) : base(callInfo) | |
| { | |
| } | |
| public override DynamicMetaObject FallbackInvoke(DynamicMetaObject target, DynamicMetaObject[] args, DynamicMetaObject errorSuggestion) | |
| { | |
| return errorSuggestion ?? target.ThrowRuntimeError(args, BindingRestrictions.Empty, "CannotInvoke", ParserStrings.CannotInvoke); | |
| } | |
| } | |
| internal sealed class PSInvokeMemberBinder : InvokeMemberBinder | |
| { | |
| [] | |
| internal static readonly PSTraceSource MethodInvocationTracer = | |
| PSTraceSource.GetTracer( | |
| "MethodInvocation", | |
| "Traces the invocation of .NET methods.", | |
| false); | |
| private static readonly SearchValues<string> s_whereSearchValues = SearchValues.Create( | |
| ["Where", "PSWhere"], | |
| StringComparison.OrdinalIgnoreCase); | |
| private static readonly SearchValues<string> s_foreachSearchValues = SearchValues.Create( | |
| ["ForEach", "PSForEach"], | |
| StringComparison.OrdinalIgnoreCase); | |
| internal enum MethodInvocationType | |
| { | |
| Ordinary, | |
| Setter, | |
| Getter, | |
| BaseCtor, | |
| NonVirtual, | |
| } | |
| private sealed class KeyComparer : IEqualityComparer<PSInvokeMemberBinderKeyType> | |
| { | |
| public bool Equals(PSInvokeMemberBinderKeyType x, PSInvokeMemberBinderKeyType y) | |
| { | |
| return x.Item1.Equals(y.Item1, StringComparison.OrdinalIgnoreCase) | |
| && x.Item2.Equals(y.Item2) | |
| && x.Item3 == y.Item3 | |
| && x.Item4 == y.Item4 | |
| && ((x.Item5 == null) ? (y.Item5 == null) : x.Item5.Equals(y.Item5)) | |
| && x.Item6 == y.Item6 | |
| && x.Item7 == y.Item7; | |
| } | |
| public int GetHashCode(PSInvokeMemberBinderKeyType obj) | |
| { | |
| return Utils.CombineHashCodes( | |
| StringComparer.OrdinalIgnoreCase.GetHashCode(obj.Item1), | |
| obj.Item2.GetHashCode(), | |
| obj.Item3.GetHashCode(), | |
| obj.Item4.GetHashCode(), | |
| obj.Item5 == null ? 0 : obj.Item5.GetHashCode(), | |
| obj.Item6.GetHashCode(), | |
| obj.Item7 == null ? 0 : obj.Item7.GetHashCode()); | |
| } | |
| } | |
| private static readonly | |
| Dictionary<PSInvokeMemberBinderKeyType, PSInvokeMemberBinder> s_binderCache = new Dictionary<PSInvokeMemberBinderKeyType, PSInvokeMemberBinder>(new KeyComparer()); | |
| internal readonly PSMethodInvocationConstraints _invocationConstraints; | |
| internal readonly PSGetMemberBinder _getMemberBinder; | |
| private PSInvokeMemberBinder GetNonEnumeratingBinder() | |
| { | |
| return Get(Name, _classScope, CallInfo, @static: false, propertySetter: _propertySetter, nonEnumerating: true, constraints: _invocationConstraints); | |
| } | |
| public static PSInvokeMemberBinder Get(string memberName, CallInfo callInfo, bool @static, bool propertySetter, | |
| PSMethodInvocationConstraints constraints, Type classScope) | |
| { | |
| return Get(memberName, classScope, callInfo, @static, propertySetter, nonEnumerating: false, constraints: constraints); | |
| } | |
| private static PSInvokeMemberBinder Get(string memberName, Type classScope, CallInfo callInfo, bool @static, bool propertySetter, | |
| bool nonEnumerating, PSMethodInvocationConstraints constraints) | |
| { | |
| PSInvokeMemberBinder result; | |
| lock (s_binderCache) | |
| { | |
| var key = Tuple.Create(memberName, callInfo, propertySetter, nonEnumerating, constraints, @static, classScope); | |
| if (!s_binderCache.TryGetValue(key, out result)) | |
| { | |
| result = new PSInvokeMemberBinder(memberName, true, @static, propertySetter, nonEnumerating, callInfo, constraints, classScope); | |
| s_binderCache.Add(key, result); | |
| } | |
| } | |
| return result; | |
| } | |
| private readonly bool _static; | |
| private readonly bool _propertySetter; | |
| private readonly bool _nonEnumerating; | |
| private readonly Type _classScope; | |
| private PSInvokeMemberBinder(string name, | |
| bool ignoreCase, | |
| bool @static, | |
| bool propertySetter, | |
| bool nonEnumerating, | |
| CallInfo callInfo, | |
| PSMethodInvocationConstraints invocationConstraints, | |
| Type classScope) | |
| : base(name, ignoreCase, callInfo) | |
| { | |
| _static = @static; | |
| _propertySetter = propertySetter; | |
| _nonEnumerating = nonEnumerating; | |
| this._invocationConstraints = invocationConstraints; | |
| _classScope = classScope; | |
| this._getMemberBinder = PSGetMemberBinder.Get(name, classScope, @static); | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "PSInvokeMember: {0}{1}{2} ver:{3} args:{4} constraints:<{5}>", | |
| _static ? "static " : string.Empty, | |
| _propertySetter ? "propset " : string.Empty, | |
| Name, | |
| _getMemberBinder._version, | |
| CallInfo.ArgumentCount, | |
| _invocationConstraints != null ? _invocationConstraints.ToString() : string.Empty); | |
| } | |
| public override DynamicMetaObject FallbackInvokeMember(DynamicMetaObject target, DynamicMetaObject[] args, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue || args.Any(static arg => !arg.HasValue)) | |
| { | |
| return Defer(args.Prepend(target).ToArray()); | |
| } | |
| // Defer COM objects or arguments wrapped in PSObjects | |
| if ((target.Value is PSObject && (PSObject.Base(target.Value) != target.Value)) || | |
| args.Any(static mo => mo.Value is PSObject && (PSObject.Base(mo.Value) != mo.Value))) | |
| { | |
| object baseObject = PSObject.Base(target.Value); | |
| if (baseObject != null && Marshal.IsComObject(baseObject)) | |
| { | |
| // We unwrap only if the 'base' of 'target' is a COM object. It's unnecessary to unwrap in other cases, | |
| // especially in the case that 'target' is a string, we would lose instance members on the PSObject. | |
| // Therefore, we need to use a stricter restriction to make sure other type of PSObject 'target' | |
| // doesn't get unwrapped. | |
| return this.DeferForPSObject(args.Prepend(target).ToArray(), targetIsComObject: true).WriteToDebugLog(this); | |
| } | |
| } | |
| // Check if this is a COM Object | |
| DynamicMetaObject result; | |
| if (ComInterop.ComBinder.TryBindInvokeMember(this, _propertySetter, target, args, out result)) | |
| { | |
| return result.UpdateComRestrictionsForPsObject(args).WriteToDebugLog(this); | |
| } | |
| var targetValue = PSObject.Base(target.Value); | |
| if (targetValue == null) | |
| { | |
| if (!_static && !_nonEnumerating) | |
| { | |
| // As discussed with Bruce, the Where/ForEach operators should work on $null and return an empty collection. | |
| // e.g. $null.Where{"I didn't run"} should return an empty collection | |
| DynamicMetaObject emptyEnumerator = new DynamicMetaObject( | |
| Expression.Call(Expression.NewArrayInit(typeof(object)), CachedReflectionInfo.IEnumerable_GetEnumerator), | |
| BindingRestrictions.GetInstanceRestriction(Expression.Call(CachedReflectionInfo.PSObject_Base, target.Expression), null)) | |
| .WriteToDebugLog(this); | |
| BindingRestrictions argRestrictions = args.Aggregate(BindingRestrictions.Empty, static (current, arg) => current.Merge(arg.PSGetMethodArgumentRestriction())); | |
| // We need to pass the empty enumerator to the ForEach/Where operators, so that they can return an empty collection. | |
| // The ForEach/Where operators will not be able to call the script block if the enumerator is empty. | |
| if (s_whereSearchValues.Contains(Name)) | |
| { | |
| return InvokeWhereOnCollection(emptyEnumerator, args, argRestrictions).WriteToDebugLog(this); | |
| } | |
| if (s_foreachSearchValues.Contains(Name)) | |
| { | |
| return InvokeForEachOnCollection(emptyEnumerator, args, argRestrictions).WriteToDebugLog(this); | |
| } | |
| } | |
| return target.ThrowRuntimeError(args, BindingRestrictions.Empty, "InvokeMethodOnNull", ParserStrings.InvokeMethodOnNull).WriteToDebugLog(this); | |
| } | |
| PSMemberInfo memberInfo; | |
| if (_getMemberBinder.HasInstanceMember && PSGetMemberBinder.TryGetInstanceMember(target.Value, Name, out memberInfo)) | |
| { | |
| // If there is an instance member, we generate (roughly) the following: | |
| // PSMethodInfo methodInfo; | |
| // if (PSInvokeMemberBinder.TryGetInstanceMethod(target.Value, Name, out methodInfoInfo)) | |
| // return methodInfo.Invoke(target, args); | |
| // else | |
| // update the site | |
| // We use a generic method like this because: | |
| // * If one object has an instance property with a given name, it's like many others do as well | |
| // * We want to avoid generating new sites for every object with an instance member | |
| // As an alternative, would could generate the following psuedo-code: | |
| // if (target.Value == previousInstance) | |
| // return optimized value (depending on the exact PSMemberInfo subclass) | |
| // else update the site | |
| // But the assumption here is that many sites probably performs worse than the dictionary lookup | |
| // and unoptimized virtual call to PSMemberInfo.Value. | |
| // | |
| // The binding restrictions could avoid a version check because it's never wrong to look for an instance member, | |
| // but we add the check because the DLR requires a non-empty check when the target implements IDynamicMetaObjectProvider, | |
| // which PSObject does. The version check is also marginally useful if we knew we'd never see another | |
| // instance member with this member name, but we're not tracking things to make that a useful test. | |
| var methodInfoVar = Expression.Variable(typeof(PSMethodInfo)); | |
| var expr = Expression.Condition( | |
| Expression.Call(CachedReflectionInfo.PSInvokeMemberBinder_TryGetInstanceMethod, | |
| target.Expression.Cast(typeof(object)), Expression.Constant(Name), methodInfoVar), | |
| Expression.Call(methodInfoVar, CachedReflectionInfo.PSMethodInfo_Invoke, | |
| Expression.NewArrayInit(typeof(object), args.Select(static dmo => dmo.Expression.Cast(typeof(object))))), | |
| this.GetUpdateExpression(typeof(object))); | |
| return (new DynamicMetaObject(Expression.Block(new[] { methodInfoVar }, expr), | |
| BinderUtils.GetVersionCheck(_getMemberBinder, _getMemberBinder._version))).WriteToDebugLog(this); | |
| } | |
| BindingRestrictions restrictions; | |
| bool canOptimize; | |
| Type aliasConversionType; | |
| var methodInfo = _getMemberBinder.GetPSMemberInfo(target, out restrictions, out canOptimize, out aliasConversionType, MemberTypes.Method) as PSMethodInfo; | |
| restrictions = args.Aggregate(restrictions, static (current, arg) => current.Merge(arg.PSGetMethodArgumentRestriction())); | |
| // If the process has ever used ConstrainedLanguage, then we need to add the language mode | |
| // to the binding restrictions, and check whether it is allowed. We can't limit | |
| // the language check to unsafe types, as a safe type might have an unsafe method. | |
| if (ExecutionContext.HasEverUsedConstrainedLanguage) | |
| { | |
| restrictions = restrictions.Merge(BinderUtils.GetLanguageModeCheckIfHasEverUsedConstrainedLanguage()); | |
| // Validate that this is allowed in the current language mode. | |
| DynamicMetaObject runtimeError = PSGetMemberBinder.EnsureAllowedInLanguageMode( | |
| target, targetValue, Name, _static, args, restrictions, | |
| "MethodInvocationNotSupportedInConstrainedLanguage", ParserStrings.InvokeMethodConstrainedLanguage); | |
| if (runtimeError != null) | |
| { | |
| return runtimeError.WriteToDebugLog(this); | |
| } | |
| } | |
| if (!canOptimize) | |
| { | |
| Diagnostics.Assert(methodInfo == null, "We don't bother returning members if we can't optimize."); | |
| Expression call; | |
| if (_propertySetter) | |
| { | |
| call = Expression.Call( | |
| CachedReflectionInfo.PSInvokeMemberBinder_InvokeAdaptedSetMember, | |
| PSGetMemberBinder.GetTargetExpr(target, typeof(object)), | |
| Expression.Constant(Name), | |
| Expression.NewArrayInit(typeof(object), | |
| args.Take(args.Length - 1).Select(static arg => arg.Expression.Cast(typeof(object)))), | |
| args.Last().Expression.Cast(typeof(object))); | |
| } | |
| else | |
| { | |
| call = Expression.Call( | |
| CachedReflectionInfo.PSInvokeMemberBinder_InvokeAdaptedMember, | |
| PSGetMemberBinder.GetTargetExpr(target, typeof(object)), | |
| Expression.Constant(Name), | |
| Expression.NewArrayInit(typeof(object), | |
| args.Select(static arg => arg.Expression.Cast(typeof(object))))); | |
| } | |
| return new DynamicMetaObject(call, restrictions).WriteToDebugLog(this); | |
| } | |
| // If the target value is a PSObject and its base object happens to be a Hashtable or ArrayList, | |
| // we might have three interesting cases here: | |
| // (1) the target value could be a regular PSObject that wraps the Hashtable/ArrayList, i.e. $target = [PSObject]::AsPSObject($hash) | |
| // (2) the target value could be a deserialized object (PSObject) with the 'IsDeserialized' property to be false, i.e. deserialized Hashtable/ArrayList/Dictionary[string, string] | |
| // (3) the target value could be a deserialized object (PSObject) with the 'IsDeserialized' property to be true, i.e. deserialized XmlElement | |
| // For the first two cases, it's OK to call a .NET method from the base object, such as $target.Add(). | |
| // For the third case, calling a .NET method from the base object is incorrect, because the original type of the deserialized object doesn't have the method. | |
| // example: XmlElement derives from IEnumerable, so it's treated as a container object when powershell does the serialization -- using an ArrayList to hold | |
| // its elements -- but we cannot call Add() on it. | |
| // | |
| // We add restriction to do this check only if the methodInfo is a .NET method/parameterizedProperty, otherwise it's not affected by the above cases, for example, a PSScriptMethod | |
| // defined in the TypeTable will only get affected by the PSTypeNames. | |
| if (methodInfo is PSMethod || methodInfo is PSParameterizedProperty) | |
| { | |
| var psObj = target.Value as PSObject; | |
| if (psObj != null && (targetValue.GetType() == typeof(Hashtable) || targetValue.GetType() == typeof(ArrayList))) | |
| { | |
| // If we get here, then the target value should have 'isDeserialized == false', otherwise we cannot get a .NET methodInfo | |
| // from _getMemberBinder.GetPSMemberInfo(). This is because when 'isDeserialized' is true, we use the PSObject to find the | |
| // corresponding Adapter -- PSObjectAdapter, which cannot be optimized. | |
| Diagnostics.Assert(!psObj.IsDeserialized, | |
| "isDeserialized should be false, because if not, we cannot get a .NET method/parameterizedProperty from GetPSMemberInfo"); | |
| restrictions = restrictions.Merge(BindingRestrictions.GetExpressionRestriction( | |
| Expression.Not(Expression.Property(target.Expression.Cast(typeof(PSObject)), CachedReflectionInfo.PSObject_IsDeserialized)))); | |
| } | |
| } | |
| var psMethod = methodInfo as PSMethod; | |
| if (psMethod != null) | |
| { | |
| var data = (DotNetAdapter.MethodCacheEntry)psMethod.adapterData; | |
| return InvokeDotNetMethod(CallInfo, Name, _invocationConstraints, _propertySetter ? MethodInvocationType.Setter : MethodInvocationType.Ordinary, target, args, restrictions, | |
| data.methodInformationStructures, typeof(MethodException)).WriteToDebugLog(this); | |
| } | |
| var scriptMethod = methodInfo as PSScriptMethod; | |
| if (scriptMethod != null) | |
| { | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.PSScriptMethod_InvokeScript, | |
| Expression.Constant(Name), | |
| Expression.Constant(scriptMethod.Script), | |
| target.Expression.Cast(typeof(object)), | |
| Expression.NewArrayInit(typeof(object), | |
| args.Select(static e => e.Expression.Cast(typeof(object))))), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| var codeMethod = methodInfo as PSCodeMethod; | |
| if (codeMethod != null) | |
| { | |
| Expression expr = InvokeMethod(codeMethod.CodeReference, null, args.Prepend(target).ToArray(), false, MethodInvocationType.Ordinary); | |
| if (codeMethod.CodeReference.ReturnType == typeof(void)) | |
| { | |
| expr = Expression.Block(expr, ExpressionCache.AutomationNullConstant); | |
| } | |
| else | |
| { | |
| expr = expr.Cast(typeof(object)); | |
| } | |
| return new DynamicMetaObject(expr, restrictions).WriteToDebugLog(this); | |
| } | |
| var parameterizedProperty = methodInfo as PSParameterizedProperty; | |
| if (parameterizedProperty != null) | |
| { | |
| var p = (DotNetAdapter.ParameterizedPropertyCacheEntry)parameterizedProperty.adapterData; | |
| return InvokeDotNetMethod(CallInfo, Name, _invocationConstraints, _propertySetter ? MethodInvocationType.Setter : MethodInvocationType.Ordinary, target, args, restrictions, | |
| _propertySetter ? p.setterInformation : p.getterInformation, | |
| _propertySetter ? typeof(SetValueInvocationException) : typeof(GetValueInvocationException)).WriteToDebugLog(this); | |
| } | |
| if (errorSuggestion != null) | |
| { | |
| return errorSuggestion.WriteToDebugLog(this); | |
| } | |
| // See comment on PSGetMemberBinder.PropertyDoesntExistCheckSpecialCases - the same applies here for method calls. | |
| if (!_static && !_nonEnumerating && target.Value != AutomationNull.Value) | |
| { | |
| // Invoking Where and ForEach operators on collections. | |
| if (s_whereSearchValues.Contains(Name)) | |
| { | |
| return InvokeWhereOnCollection(target, args, restrictions).WriteToDebugLog(this); | |
| } | |
| if (s_foreachSearchValues.Contains(Name)) | |
| { | |
| return InvokeForEachOnCollection(target, args, restrictions).WriteToDebugLog(this); | |
| } | |
| var enumerableTarget = PSEnumerableBinder.IsEnumerable(target); | |
| if (enumerableTarget != null) | |
| { | |
| // Try calling the method on each member of the collection. | |
| return InvokeMemberOnCollection(enumerableTarget, args, targetValue.GetType(), restrictions).WriteToDebugLog(this); | |
| } | |
| } | |
| var typeForMessage = _static && targetValue is Type ? (Type)targetValue : targetValue.GetType(); | |
| return new DynamicMetaObject( | |
| Compiler.ThrowRuntimeError(ParserOps.MethodNotFoundErrorId, ParserStrings.MethodNotFound, | |
| Expression.Constant(typeForMessage.FullName), Expression.Constant(Name)), | |
| restrictions).WriteToDebugLog(this); | |
| } | |
| internal static DynamicMetaObject InvokeDotNetMethod( | |
| CallInfo callInfo, | |
| string name, | |
| PSMethodInvocationConstraints psMethodInvocationConstraints, | |
| MethodInvocationType methodInvocationType, | |
| DynamicMetaObject target, | |
| DynamicMetaObject[] args, | |
| BindingRestrictions restrictions, | |
| MethodInformation[] mi, | |
| Type errorExceptionType) | |
| { | |
| bool expandParamsOnBest; | |
| bool callNonVirtually; | |
| string errorId = null; | |
| string errorMsg = null; | |
| int numArgs = args.Length; | |
| if (methodInvocationType == MethodInvocationType.Setter) | |
| { | |
| numArgs -= 1; | |
| } | |
| object[] argValues = new object[numArgs]; | |
| for (int i = 0; i < numArgs; ++i) | |
| { | |
| object arg = args[i].Value; | |
| argValues[i] = arg == AutomationNull.Value ? null : arg; | |
| } | |
| var result = Adapter.FindBestMethod( | |
| mi, | |
| psMethodInvocationConstraints, | |
| allowCastingToByRefLikeType: true, | |
| argValues, | |
| ref errorId, | |
| ref errorMsg, | |
| out expandParamsOnBest, | |
| out callNonVirtually); | |
| if (callNonVirtually && methodInvocationType != MethodInvocationType.BaseCtor) | |
| { | |
| methodInvocationType = MethodInvocationType.NonVirtual; | |
| } | |
| if (result != null) | |
| { | |
| var methodInfo = result.method; | |
| var expr = InvokeMethod(methodInfo, target, args, expandParamsOnBest, methodInvocationType); | |
| if (expr.Type == typeof(void)) | |
| { | |
| expr = Expression.Block(expr, ExpressionCache.AutomationNullConstant); | |
| } | |
| if (MethodInvocationTracer.IsEnabled) | |
| { | |
| expr = Expression.Block( | |
| Expression.Call( | |
| Expression.Constant(MethodInvocationTracer), | |
| CachedReflectionInfo.PSTraceSource_WriteLine, | |
| Expression.Constant("Invoking method: {0}"), | |
| Expression.Constant(result.methodDefinition)), | |
| expr); | |
| } | |
| // If we're calling SteppablePipeline.{Begin|Process|End}, we don't want | |
| // to wrap exceptions - this is very much a special case to help error | |
| // propagation and ensure errors are attributed to the correct code (the | |
| // cmdlet invoked, not the method call from some proxy.) | |
| if (methodInfo.DeclaringType == typeof(SteppablePipeline) | |
| && (methodInfo.Name.Equals("Begin", StringComparison.Ordinal)) | |
| || methodInfo.Name.Equals("Process", StringComparison.Ordinal) | |
| || methodInfo.Name.Equals("End", StringComparison.Ordinal)) | |
| { | |
| return new DynamicMetaObject(expr, restrictions); | |
| } | |
| expr = expr.Cast(typeof(object)); | |
| // Likewise, when calling methods in types defined by PowerShell, we don't | |
| // want to wrap the exception. | |
| if (methodInfo.DeclaringType.Assembly.GetCustomAttributes(typeof(DynamicClassImplementationAssemblyAttribute)).Any()) | |
| { | |
| return new DynamicMetaObject(expr, restrictions); | |
| } | |
| var e = Expression.Variable(typeof(Exception)); | |
| expr = Expression.TryCatch(expr, | |
| Expression.Catch(e, | |
| Expression.Block( | |
| expr.Type, | |
| Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_ConvertToMethodInvocationException, | |
| e, | |
| Expression.Constant(errorExceptionType, typeof(Type)), | |
| Expression.Constant(methodInfo.Name), | |
| ExpressionCache.Constant(args.Length), | |
| Expression.Constant(methodInfo, typeof(MethodBase))), | |
| Expression.Rethrow(expr.Type)))); | |
| return new DynamicMetaObject(expr, restrictions); | |
| } | |
| return new DynamicMetaObject( | |
| Compiler.CreateThrow(typeof(object), errorExceptionType, | |
| new[] { typeof(string), typeof(Exception), typeof(string), typeof(object[]) }, | |
| errorId, null, errorMsg, new object[] { name, callInfo.ArgumentCount }), | |
| restrictions); | |
| } | |
| public override DynamicMetaObject FallbackInvoke(DynamicMetaObject target, | |
| DynamicMetaObject[] args, | |
| DynamicMetaObject errorSuggestion) | |
| { | |
| return (errorSuggestion ?? new DynamicMetaObject( | |
| DynamicExpression.Dynamic( | |
| new PSInvokeBinder(CallInfo), | |
| typeof(object), | |
| args.Prepend(target).Select(static dmo => dmo.Expression) | |
| ), | |
| target.Restrictions.Merge(BindingRestrictions.Combine(args)) | |
| )); | |
| } | |
| internal static MethodInfo FindBestMethod(DynamicMetaObject target, | |
| IEnumerable<DynamicMetaObject> args, | |
| string methodName, | |
| bool @static, | |
| PSMethodInvocationConstraints invocationConstraints) | |
| { | |
| MethodInfo result = null; | |
| var psMethod = PSObject.DotNetInstanceAdapter.GetDotNetMethod<PSMethod>(PSObject.Base(target.Value), methodName); | |
| if (psMethod != null) | |
| { | |
| var data = (DotNetAdapter.MethodCacheEntry)psMethod.adapterData; | |
| string errorId = null; | |
| string errorMsg = null; | |
| bool expandParameters; | |
| bool callNonVirtually; | |
| var mi = Adapter.FindBestMethod( | |
| data.methodInformationStructures, | |
| invocationConstraints, | |
| allowCastingToByRefLikeType: true, | |
| args.Select(static arg => arg.Value == AutomationNull.Value ? null : arg.Value).ToArray(), | |
| ref errorId, | |
| ref errorMsg, | |
| out expandParameters, | |
| out callNonVirtually); | |
| if (mi != null) | |
| { | |
| result = (MethodInfo)mi.method; | |
| } | |
| } | |
| return result; | |
| } | |
| internal static Expression InvokeMethod(MethodBase mi, DynamicMetaObject target, DynamicMetaObject[] args, bool expandParameters, MethodInvocationType invocationType) | |
| { | |
| List<ParameterExpression> temps = new List<ParameterExpression>(); | |
| List<Expression> initTemps = new List<Expression>(); | |
| List<Expression> copyOutTemps = new List<Expression>(); | |
| ConstructorInfo constructorInfo = null; | |
| MethodInfo methodInfo = mi as MethodInfo; | |
| if (methodInfo != null) | |
| { | |
| Type returnType = methodInfo.ReturnType; | |
| if (returnType.IsByRefLike) | |
| { | |
| ConstructorInfo exceptionCtorInfo; | |
| switch (invocationType) | |
| { | |
| case MethodInvocationType.Getter: | |
| exceptionCtorInfo = CachedReflectionInfo.GetValueException_ctor; | |
| break; | |
| case MethodInvocationType.Setter: | |
| exceptionCtorInfo = CachedReflectionInfo.SetValueException_ctor; | |
| break; | |
| default: | |
| exceptionCtorInfo = CachedReflectionInfo.MethodException_ctor; | |
| break; | |
| } | |
| return Expression.Throw( | |
| Expression.New( | |
| exceptionCtorInfo, | |
| Expression.Constant(nameof(ExtendedTypeSystem.CannotCallMethodWithByRefLikeReturnType)), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ExtendedTypeSystem.CannotCallMethodWithByRefLikeReturnType), | |
| Expression.NewArrayInit( | |
| typeof(object), | |
| Expression.Constant(methodInfo.Name), | |
| Expression.Constant(returnType, typeof(Type)))), | |
| typeof(object)); | |
| } | |
| } | |
| else | |
| { | |
| constructorInfo = (ConstructorInfo)mi; | |
| Type declaringType = constructorInfo.DeclaringType; | |
| if (declaringType.IsByRefLike) | |
| { | |
| return Expression.Throw( | |
| Expression.New( | |
| CachedReflectionInfo.MethodException_ctor, | |
| Expression.Constant(nameof(ExtendedTypeSystem.CannotInstantiateBoxedByRefLikeType)), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ExtendedTypeSystem.CannotInstantiateBoxedByRefLikeType), | |
| Expression.NewArrayInit( | |
| typeof(object), | |
| Expression.Constant(declaringType, typeof(Type)))), | |
| typeof(object)); | |
| } | |
| } | |
| // Invoking a base constructor or a base method (non-virtual call) depends reflection invocation | |
| // via helper methods, and thus all arguments need to be casted to 'object'. The ByRef-like types | |
| // cannot be boxed and won't work with reflection. | |
| bool allowCastingToByRefLikeType = | |
| invocationType != MethodInvocationType.BaseCtor && | |
| invocationType != MethodInvocationType.NonVirtual; | |
| var parameters = mi.GetParameters(); | |
| var argExprs = new Expression[parameters.Length]; | |
| var argsToLog = new List<Expression>(Math.Max(parameters.Length, args.Length)); | |
| for (int i = 0; i < parameters.Length; ++i) | |
| { | |
| Type parameterType = parameters[i].ParameterType; | |
| string paramName = parameters[i].Name; | |
| if (string.IsNullOrWhiteSpace(paramName)) | |
| { | |
| paramName = i.ToString(CultureInfo.InvariantCulture); | |
| } | |
| // The extension method 'CustomAttributeExtensions.GetCustomAttributes(ParameterInfo, Type, Boolean)' has inconsistent | |
| // behavior on its return value in both FullCLR and CoreCLR. According to MSDN, if the attribute cannot be found, it | |
| // should return an empty collection. However, it returns null in some rare cases [when the parameter isn't backed by | |
| // actual metadata]. | |
| // This inconsistent behavior affects OneCore powershell because we are using the extension method here when compiling | |
| // against CoreCLR. So we need to add a null check until this is fixed in CLR. | |
| var paramArrayAttrs = parameters[i].GetCustomAttributes(typeof(ParamArrayAttribute), false); | |
| if (paramArrayAttrs != null && paramArrayAttrs.Length > 0) | |
| { | |
| Diagnostics.Assert(i == parameters.Length - 1, "vararg parameter is not the last"); | |
| var paramElementType = parameterType.GetElementType(); | |
| if (expandParameters) | |
| { | |
| IEnumerable<Expression> elements = args | |
| .Skip(i) | |
| .Select(a => | |
| a.CastOrConvertMethodArgument( | |
| paramElementType, | |
| paramName, | |
| mi.Name, | |
| allowCastingToByRefLikeType: false, | |
| temps, | |
| initTemps)) | |
| .ToList(); | |
| argExprs[i] = Expression.NewArrayInit(paramElementType, elements); | |
| // User specified the element arguments, so we log them instead of the compiler-created array. | |
| argsToLog.AddRange(elements); | |
| } | |
| else | |
| { | |
| var arg = args[i].CastOrConvertMethodArgument( | |
| parameterType, | |
| paramName, | |
| mi.Name, | |
| allowCastingToByRefLikeType: false, | |
| temps, | |
| initTemps); | |
| argExprs[i] = arg; | |
| argsToLog.Add(arg); | |
| } | |
| } | |
| else if (i >= args.Length) | |
| { | |
| // We don't log the default value for an optional parameter, as it's not specified by the user. | |
| Diagnostics.Assert( | |
| parameters[i].IsOptional, | |
| "if there are too few arguments, FindBestMethod should only succeed if parameters are optional"); | |
| var argValue = parameters[i].DefaultValue; | |
| if (argValue == null) | |
| { | |
| if (parameterType.IsByRef) | |
| { | |
| // When the default value is null for a ByRef parameter (e.g. an optional `in` parameter | |
| // using `default`), expression trees cannot create Expression.Default for the T& type. | |
| // In that case we switch to the element type and use Default(TElement) instead. | |
| parameterType = parameterType.GetElementType(); | |
| } | |
| argExprs[i] = Expression.Default(parameterType); | |
| } | |
| else if (!parameters[i].HasDefaultValue && parameterType != typeof(object) && argValue == Type.Missing) | |
| { | |
| // If the method contains just [Optional] without a default value set then we cannot use | |
| // Type.Missing as a placeholder. Instead we use the default value for that type. Only | |
| // exception to this rule is when the parameter type is object. | |
| argExprs[i] = Expression.Default(parameterType); | |
| } | |
| else | |
| { | |
| // We don't specify the parameter type in the constant expression. Normally the default | |
| // argument's type should match the parameter type, but sometimes it won't, e.g. with COM, | |
| // the default can be System.Reflection.Missing.Value and this value is handled specially. | |
| argExprs[i] = Expression.Constant(argValue); | |
| } | |
| } | |
| else | |
| { | |
| if (parameterType.IsByRef) | |
| { | |
| if (args[i].Value is not PSReference) | |
| { | |
| return Compiler.CreateThrow(typeof(object), typeof(MethodException), | |
| new[] { typeof(string), typeof(Exception), typeof(string), typeof(object[]) }, | |
| "NonRefArgumentToRefParameterMsg", null, ExtendedTypeSystem.NonRefArgumentToRefParameter, | |
| new object[] { i + 1, typeof(PSReference).FullName, "[ref]" }); | |
| } | |
| var temp = Expression.Variable(parameterType.GetElementType()); | |
| temps.Add(temp); | |
| var psRefValue = Expression.Property(args[i].Expression.Cast(typeof(PSReference)), CachedReflectionInfo.PSReference_Value); | |
| initTemps.Add(Expression.Assign(temp, psRefValue.Convert(temp.Type))); | |
| copyOutTemps.Add(Expression.Assign(psRefValue, temp.Cast(typeof(object)))); | |
| argExprs[i] = temp; | |
| argsToLog.Add(temp); | |
| } | |
| else | |
| { | |
| var convertedArg = args[i].CastOrConvertMethodArgument( | |
| parameterType, | |
| paramName, | |
| mi.Name, | |
| allowCastingToByRefLikeType, | |
| temps, | |
| initTemps); | |
| argExprs[i] = convertedArg; | |
| // If the converted arg is a byref-like type, then we log the original arg. | |
| argsToLog.Add(convertedArg.Type.IsByRefLike | |
| ? args[i].Expression | |
| : convertedArg); | |
| } | |
| } | |
| } | |
| Expression call; | |
| if (constructorInfo != null) | |
| { | |
| if (invocationType == MethodInvocationType.BaseCtor) | |
| { | |
| var targetExpr = target.Value is PSObject | |
| ? target.Expression.Cast(constructorInfo.DeclaringType) | |
| : PSGetMemberBinder.GetTargetExpr(target, constructorInfo.DeclaringType); | |
| call = Expression.Call( | |
| CachedReflectionInfo.ClassOps_CallBaseCtor, | |
| targetExpr, | |
| Expression.Constant(constructorInfo, typeof(ConstructorInfo)), | |
| Expression.NewArrayInit(typeof(object), argExprs.Select(static x => x.Cast(typeof(object))))); | |
| } | |
| else | |
| { | |
| call = Expression.New(constructorInfo, argExprs); | |
| } | |
| } | |
| else | |
| { | |
| if (invocationType == MethodInvocationType.NonVirtual && !methodInfo.IsStatic) | |
| { | |
| call = Expression.Call( | |
| methodInfo.ReturnType == typeof(void) | |
| ? CachedReflectionInfo.ClassOps_CallVoidMethodNonVirtually | |
| : CachedReflectionInfo.ClassOps_CallMethodNonVirtually, | |
| PSGetMemberBinder.GetTargetExpr(target, methodInfo.DeclaringType), | |
| Expression.Constant(methodInfo, typeof(MethodInfo)), | |
| Expression.NewArrayInit(typeof(object), argExprs.Select(static x => x.Cast(typeof(object))))); | |
| } | |
| else | |
| { | |
| call = methodInfo.IsStatic | |
| ? Expression.Call(methodInfo, argExprs) | |
| : Expression.Call( | |
| PSGetMemberBinder.GetTargetExpr(target, methodInfo.DeclaringType), | |
| methodInfo, argExprs); | |
| } | |
| } | |
| // We need to add one expression to log the .NET invocation before actually invoking: | |
| // - Log method invocation to AMSI Notifications (can throw PSSecurityException) | |
| // - Invoke method | |
| string targetName = mi.ReflectedType?.FullName ?? string.Empty; | |
| string methodName = mi.Name is ".ctor" ? "new" : mi.Name; | |
| if (temps.Count > 0) | |
| { | |
| if (call.Type != typeof(void) && copyOutTemps.Count > 0) | |
| { | |
| var retValue = Expression.Variable(call.Type); | |
| temps.Add(retValue); | |
| call = Expression.Assign(retValue, call); | |
| copyOutTemps.Add(retValue); | |
| } | |
| AddMemberInvocationLogging(initTemps, targetName, methodName, argsToLog); | |
| call = Expression.Block(call.Type, temps, initTemps.Append(call).Concat(copyOutTemps)); | |
| } | |
| else | |
| { | |
| call = AddMemberInvocationLogging(call, targetName, methodName, argsToLog); | |
| } | |
| return call; | |
| } | |
| private DynamicMetaObject InvokeMemberOnCollection(DynamicMetaObject targetEnumerator, DynamicMetaObject[] args, Type typeForMessage, BindingRestrictions restrictions) | |
| { | |
| var d = DynamicExpression.Dynamic(this, this.ReturnType, args.Select(static a => a.Expression).Prepend(ExpressionCache.NullConstant)); | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_MethodInvoker, | |
| Expression.Constant(this.GetNonEnumeratingBinder()), | |
| Expression.Constant(d.DelegateType, typeof(Type)), | |
| targetEnumerator.Expression, | |
| Expression.NewArrayInit(typeof(object), | |
| args.Select(static a => a.Expression.Cast(typeof(object)))), | |
| Expression.Constant(typeForMessage, typeof(Type)) | |
| ), | |
| targetEnumerator.Restrictions.Merge(restrictions)); | |
| } | |
| private static DynamicMetaObject GetTargetAsEnumerable(DynamicMetaObject target) | |
| { | |
| var enumerableTarget = PSEnumerableBinder.IsEnumerable(target); | |
| // If null wrap the target in an array. | |
| enumerableTarget ??= PSEnumerableBinder.IsEnumerable( | |
| new DynamicMetaObject( | |
| Expression.NewArrayInit(typeof(object), target.Expression.Cast(typeof(object))), | |
| target.GetSimpleTypeRestriction())); | |
| return enumerableTarget; | |
| } | |
| /// <param name="target">The target to operate against.</param> | |
| /// <param name="args"> | |
| /// Arguments to the operator. The first argument must be either a scriptblock | |
| /// or a string representing a 'simple where' expression. The second is an enum that controls | |
| /// the matching behaviour returning the first, last or all matching elements. | |
| /// </param> | |
| /// <param name="argRestrictions">The binding restrictions for the arguments.</param> | |
| private DynamicMetaObject InvokeWhereOnCollection(DynamicMetaObject target, DynamicMetaObject[] args, BindingRestrictions argRestrictions) | |
| { | |
| var lhsEnumerator = GetTargetAsEnumerable(target); | |
| switch (args.Length) | |
| { | |
| case 1: | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_Where, | |
| lhsEnumerator.Expression, | |
| PSGetMemberBinder.GetTargetExpr(args[0]).Convert(typeof(ScriptBlock)), | |
| Expression.Constant(WhereOperatorSelectionMode.Default), | |
| Expression.Constant(0)), | |
| lhsEnumerator.Restrictions.Merge(argRestrictions)); | |
| case 2: | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_Where, | |
| lhsEnumerator.Expression, | |
| PSGetMemberBinder.GetTargetExpr(args[0]).Convert(typeof(ScriptBlock)), | |
| PSGetMemberBinder.GetTargetExpr(args[1]).Convert(typeof(WhereOperatorSelectionMode)), | |
| Expression.Constant(0)), | |
| lhsEnumerator.Restrictions.Merge(argRestrictions)); | |
| case 3: | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_Where, | |
| lhsEnumerator.Expression, | |
| PSGetMemberBinder.GetTargetExpr(args[0]).Convert(typeof(ScriptBlock)), | |
| PSGetMemberBinder.GetTargetExpr(args[1]).Convert(typeof(WhereOperatorSelectionMode)), | |
| PSGetMemberBinder.GetTargetExpr(args[2]).Convert(typeof(int))), | |
| lhsEnumerator.Restrictions.Merge(argRestrictions)); | |
| default: | |
| { | |
| // If the arity is wrong, throw the extended type system exception. | |
| return new DynamicMetaObject( | |
| Expression.Throw( | |
| Expression.New(CachedReflectionInfo.MethodException_ctor, | |
| Expression.Constant("MethodCountCouldNotFindBest"), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ExtendedTypeSystem.MethodArgumentCountException), | |
| Expression.NewArrayInit(typeof(object), | |
| Expression.Constant(".Where({ expression } [, mode [, numberToReturn]])").Cast(typeof(object)), | |
| ExpressionCache.Constant(args.Length).Cast(typeof(object)))), | |
| this.ReturnType), | |
| lhsEnumerator.Restrictions.Merge(argRestrictions)); | |
| } | |
| } | |
| } | |
| private DynamicMetaObject InvokeForEachOnCollection(DynamicMetaObject targetEnumerator, DynamicMetaObject[] args, BindingRestrictions restrictions) | |
| { | |
| targetEnumerator = GetTargetAsEnumerable(targetEnumerator); | |
| if (args.Length < 1) | |
| { | |
| // If the arity is wrong, throw the extended type system exception. | |
| return new DynamicMetaObject( | |
| Expression.Throw( | |
| Expression.New(CachedReflectionInfo.MethodException_ctor, | |
| Expression.Constant("MethodCountCouldNotFindBest"), | |
| Expression.Constant(null, typeof(Exception)), | |
| Expression.Constant(ExtendedTypeSystem.MethodArgumentCountException), | |
| Expression.NewArrayInit(typeof(object), | |
| Expression.Constant(".ForEach(expression [, arguments...])").Cast(typeof(object)), | |
| ExpressionCache.Constant(args.Length).Cast(typeof(object)))), | |
| this.ReturnType), | |
| targetEnumerator.Restrictions.Merge(restrictions)); | |
| } | |
| var lhsEnumerator = PSEnumerableBinder.IsEnumerable(targetEnumerator).Expression; | |
| Expression argsToPass; | |
| if (args.Length > 1) | |
| { | |
| argsToPass = Expression.NewArrayInit(typeof(object), | |
| args.Skip(1).Select(static a => a.Expression.Cast(typeof(object)))); | |
| } | |
| else | |
| { | |
| argsToPass = Expression.NewArrayInit(typeof(object)); | |
| } | |
| return new DynamicMetaObject( | |
| Expression.Call(CachedReflectionInfo.EnumerableOps_ForEach, | |
| lhsEnumerator, PSGetMemberBinder.GetTargetExpr(args[0], typeof(object)), argsToPass), | |
| targetEnumerator.Restrictions.Merge(restrictions)); | |
| } | |
| internal static bool IsHomogeneousArray<T>(object[] args) | |
| { | |
| if (args.Length == 0) | |
| { | |
| return false; | |
| } | |
| foreach (object element in args) | |
| { | |
| if (Adapter.GetObjectType(element, debase: true) != typeof(T)) | |
| { | |
| return false; | |
| } | |
| } | |
| return true; | |
| } | |
| internal static bool IsHeterogeneousArray(object[] args) | |
| { | |
| if (args.Length == 0) | |
| { | |
| return true; | |
| } | |
| var firstElement = PSObject.Base(args[0]); | |
| if (firstElement == null) | |
| { | |
| return true; | |
| } | |
| var firstType = firstElement.GetType(); | |
| if (firstType.Equals(typeof(object))) | |
| { | |
| // When the effective argument type is object[], it's for one of 2 reasons | |
| // * the array contains elements with different types | |
| // * the array contains elements that are all object | |
| // Arrays of all object is rare, which is why this method is called IsHeterogeneousArray, | |
| // but we still want to correctly handle object[] full of objects, so we return true | |
| // for that case as well. | |
| return true; | |
| } | |
| for (int i = 1; i < args.Length; i++) | |
| { | |
| if (Adapter.GetObjectType(args[i], debase: true) != firstType) | |
| { | |
| return true; | |
| } | |
| } | |
| return false; | |
| } | |
| internal static object InvokeAdaptedMember(object obj, string methodName, object[] args) | |
| { | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| var adapterSet = PSObject.GetMappedAdapter(obj, context?.TypeTable); | |
| var methodInfo = adapterSet.OriginalAdapter.BaseGetMember<PSMemberInfo>(obj, methodName) as PSMethodInfo; | |
| if (methodInfo == null && adapterSet.DotNetAdapter != null) | |
| { | |
| methodInfo = adapterSet.DotNetAdapter.BaseGetMember<PSMemberInfo>(obj, methodName) as PSMethodInfo; | |
| } | |
| if (methodInfo != null) | |
| { | |
| return methodInfo.Invoke(args); | |
| } | |
| // The object doesn't have 'Where' and 'ForEach' methods. | |
| // As a last resort, we invoke 'Where' and 'ForEach' operators on singletons like | |
| // ([pscustomobject]@{ foo = 'bar' }).Foreach({$_}) | |
| // ([pscustomobject]@{ foo = 'bar' }).Where({1}) | |
| if (s_whereSearchValues.Contains(methodName)) | |
| { | |
| var enumerator = (new object[] { obj }).GetEnumerator(); | |
| switch (args.Length) | |
| { | |
| case 1: | |
| return EnumerableOps.Where(enumerator, args[0] as ScriptBlock, WhereOperatorSelectionMode.Default, 0); | |
| case 2: | |
| return EnumerableOps.Where(enumerator, args[0] as ScriptBlock, | |
| LanguagePrimitives.ConvertTo<WhereOperatorSelectionMode>(args[1]), 0); | |
| case 3: | |
| return EnumerableOps.Where(enumerator, args[0] as ScriptBlock, | |
| LanguagePrimitives.ConvertTo<WhereOperatorSelectionMode>(args[1]), LanguagePrimitives.ConvertTo<int>(args[2])); | |
| } | |
| } | |
| if (s_foreachSearchValues.Contains(methodName)) | |
| { | |
| var enumerator = (new object[] { obj }).GetEnumerator(); | |
| object[] argsToPass; | |
| if (args.Length > 1) | |
| { | |
| int length = args.Length - 1; | |
| argsToPass = new object[length]; | |
| Array.Copy(args, sourceIndex: 1, argsToPass, destinationIndex: 0, length: length); | |
| } | |
| else | |
| { | |
| argsToPass = Array.Empty<object>(); | |
| } | |
| return EnumerableOps.ForEach(enumerator, args[0], argsToPass); | |
| } | |
| throw InterpreterError.NewInterpreterException(methodName, typeof(RuntimeException), null, | |
| "MethodNotFound", ParserStrings.MethodNotFound, ParserOps.GetTypeFullName(obj), methodName); | |
| } | |
| internal static object InvokeAdaptedSetMember(object obj, string methodName, object[] args, object valueToSet) | |
| { | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| var adapterSet = PSObject.GetMappedAdapter(obj, context?.TypeTable); | |
| var methodInfo = adapterSet.OriginalAdapter.BaseGetMember<PSParameterizedProperty>(obj, methodName); | |
| if (methodInfo == null && adapterSet.DotNetAdapter != null) | |
| { | |
| methodInfo = adapterSet.DotNetAdapter.BaseGetMember<PSParameterizedProperty>(obj, methodName); | |
| } | |
| if (methodInfo != null) | |
| { | |
| methodInfo.InvokeSet(valueToSet, args); | |
| return valueToSet; | |
| } | |
| throw InterpreterError.NewInterpreterException(methodName, typeof(RuntimeException), null, | |
| "MethodNotFound", ParserStrings.MethodNotFound, ParserOps.GetTypeFullName(obj), methodName); | |
| } | |
| internal static bool TryGetInstanceMethod(object value, string memberName, out PSMethodInfo methodInfo) | |
| { | |
| PSMemberInfoInternalCollection<PSMemberInfo> instanceMembers; | |
| var memberInfo = PSObject.HasInstanceMembers(value, out instanceMembers) ? instanceMembers[memberName] : null; | |
| methodInfo = memberInfo as PSMethodInfo; | |
| if (memberInfo == null) | |
| { | |
| // No member, just return false | |
| return false; | |
| } | |
| if (methodInfo == null) | |
| { | |
| // Found a member, but it wasn't a method, throw an exception because we can't call it. | |
| throw InterpreterError.NewInterpreterException(memberName, typeof(RuntimeException), null, | |
| "MethodNotFound", ParserStrings.MethodNotFound, ParserOps.GetTypeFullName(value), memberName); | |
| } | |
| return true; | |
| } | |
| internal static void InvalidateCache() | |
| { | |
| // Invalidate regular binders | |
| lock (s_binderCache) | |
| { | |
| foreach (PSInvokeMemberBinder binder in s_binderCache.Values) | |
| { | |
| binder._getMemberBinder._version += 1; | |
| } | |
| } | |
| } | |
| private static Expression AddMemberInvocationLogging( | |
| Expression expr, | |
| string targetName, | |
| string name, | |
| List<Expression> args) | |
| { | |
| // For efficiency this is a no-op on non-Windows platforms. | |
| return expr; | |
| Expression[] invocationArgs = new Expression[args.Count]; | |
| for (int i = 0; i < args.Count; i++) | |
| { | |
| invocationArgs[i] = args[i].Cast(typeof(object)); | |
| } | |
| return Expression.Block( | |
| Expression.Call( | |
| CachedReflectionInfo.MemberInvocationLoggingOps_LogMemberInvocation, | |
| Expression.Constant(targetName), | |
| Expression.Constant(name), | |
| Expression.NewArrayInit(typeof(object), invocationArgs)), | |
| expr); | |
| } | |
| private static void AddMemberInvocationLogging( | |
| List<Expression> exprs, | |
| string targetName, | |
| string name, | |
| List<Expression> args) | |
| { | |
| Expression[] invocationArgs = new Expression[args.Count]; | |
| for (int i = 0; i < args.Count; i++) | |
| { | |
| invocationArgs[i] = args[i].Cast(typeof(object)); | |
| } | |
| exprs.Add(Expression.Call( | |
| CachedReflectionInfo.MemberInvocationLoggingOps_LogMemberInvocation, | |
| Expression.Constant(targetName), | |
| Expression.Constant(name), | |
| Expression.NewArrayInit(typeof(object), invocationArgs))); | |
| } | |
| } | |
| internal class PSCreateInstanceBinder : CreateInstanceBinder | |
| { | |
| private readonly CallInfo _callInfo; | |
| private readonly PSMethodInvocationConstraints _constraints; | |
| private readonly bool _publicTypeOnly; | |
| private int _version; | |
| private sealed class KeyComparer : IEqualityComparer<Tuple<CallInfo, PSMethodInvocationConstraints, bool>> | |
| { | |
| public bool Equals(Tuple<CallInfo, PSMethodInvocationConstraints, bool> x, | |
| Tuple<CallInfo, PSMethodInvocationConstraints, bool> y) | |
| { | |
| return x.Item1.Equals(y.Item1) | |
| && ((x.Item2 == null) ? (y.Item2 == null) : x.Item2.Equals(y.Item2)) | |
| && x.Item3 == y.Item3; | |
| } | |
| public int GetHashCode(Tuple<CallInfo, PSMethodInvocationConstraints, bool> obj) | |
| { | |
| return obj.GetHashCode(); | |
| } | |
| } | |
| private static readonly | |
| Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints, bool>, PSCreateInstanceBinder> | |
| s_binderCache = | |
| new Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints, bool>, PSCreateInstanceBinder>(new KeyComparer()); | |
| public static PSCreateInstanceBinder Get(CallInfo callInfo, PSMethodInvocationConstraints constraints, bool publicTypeOnly = false) | |
| { | |
| PSCreateInstanceBinder result; | |
| lock (s_binderCache) | |
| { | |
| var key = Tuple.Create(callInfo, constraints, publicTypeOnly); | |
| if (!s_binderCache.TryGetValue(key, out result)) | |
| { | |
| result = new PSCreateInstanceBinder(callInfo, constraints, publicTypeOnly); | |
| s_binderCache.Add(key, result); | |
| } | |
| } | |
| return result; | |
| } | |
| internal static void InvalidateCache() | |
| { | |
| // Invalidate binders | |
| lock (s_binderCache) | |
| { | |
| foreach (var binder in s_binderCache.Values) | |
| { | |
| binder._version += 1; | |
| } | |
| } | |
| } | |
| internal PSCreateInstanceBinder(CallInfo callInfo, PSMethodInvocationConstraints constraints, bool publicTypeOnly) | |
| : base(callInfo) | |
| { | |
| _publicTypeOnly = publicTypeOnly; | |
| _callInfo = callInfo; | |
| _constraints = constraints; | |
| } | |
| public override string ToString() | |
| { | |
| return string.Format( | |
| CultureInfo.InvariantCulture, | |
| "PSCreateInstanceBinder: ver:{0} args:{1} constraints:<{2}>", | |
| _version, | |
| _callInfo.ArgumentCount, | |
| _constraints != null ? _constraints.ToString() : string.Empty); | |
| } | |
| public override DynamicMetaObject FallbackCreateInstance(DynamicMetaObject target, DynamicMetaObject[] args, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue || args.Any(static arg => !arg.HasValue)) | |
| { | |
| return Defer(args.Prepend(target).ToArray()); | |
| } | |
| var targetValue = PSObject.Base(target.Value); | |
| if (targetValue == null) | |
| { | |
| return target.ThrowRuntimeError(args, BindingRestrictions.Empty, "InvokeMethodOnNull", ParserStrings.InvokeMethodOnNull).WriteToDebugLog(this); | |
| } | |
| var instanceType = targetValue as Type ?? targetValue.GetType(); | |
| BindingRestrictions restrictions; | |
| if (instanceType.IsByRefLike) | |
| { | |
| // ByRef-like types are not boxable and should be used only on stack | |
| restrictions = BindingRestrictions.GetExpressionRestriction( | |
| Expression.Call(CachedReflectionInfo.PSCreateInstanceBinder_IsTargetTypeByRefLike, target.Expression)); | |
| return target.ThrowRuntimeError( | |
| restrictions, | |
| nameof(ExtendedTypeSystem.CannotInstantiateBoxedByRefLikeType), | |
| ExtendedTypeSystem.CannotInstantiateBoxedByRefLikeType, | |
| Expression.Call( | |
| CachedReflectionInfo.PSCreateInstanceBinder_GetTargetTypeName, | |
| target.Expression)).WriteToDebugLog(this); | |
| } | |
| if (_publicTypeOnly && !TypeResolver.IsPublic(instanceType)) | |
| { | |
| // If 'publicTypeOnly' specified, we only support creating instance for public types. | |
| restrictions = BindingRestrictions.GetExpressionRestriction( | |
| Expression.Call(CachedReflectionInfo.PSCreateInstanceBinder_IsTargetTypeNonPublic, target.Expression)); | |
| return target.ThrowRuntimeError( | |
| restrictions, | |
| nameof(ParserStrings.MethodNotFound), | |
| ParserStrings.MethodNotFound, | |
| Expression.Call( | |
| CachedReflectionInfo.PSCreateInstanceBinder_GetTargetTypeName, | |
| target.Expression), | |
| Expression.Constant("new")).WriteToDebugLog(this); | |
| } | |
| var ctors = instanceType.GetConstructors(); | |
| restrictions = ReferenceEquals(instanceType, targetValue) | |
| ? (target.Value is PSObject) | |
| ? BindingRestrictions.GetInstanceRestriction(Expression.Call(CachedReflectionInfo.PSObject_Base, target.Expression), instanceType) | |
| : BindingRestrictions.GetInstanceRestriction(target.Expression, instanceType) | |
| : target.PSGetTypeRestriction(); | |
| restrictions = restrictions.Merge(BinderUtils.GetOptionalVersionAndLanguageCheckForType(this, instanceType, _version)); | |
| if (ctors.Length == 0 && _callInfo.ArgumentCount == 0 && instanceType.IsValueType) | |
| { | |
| // No ctors, just call the default ctor | |
| return new DynamicMetaObject(Expression.New(instanceType).Cast(this.ReturnType), restrictions).WriteToDebugLog(this); | |
| } | |
| var context = LocalPipeline.GetExecutionContextFromTLS(); | |
| if (context != null && context.LanguageMode == PSLanguageMode.ConstrainedLanguage && !CoreTypes.Contains(instanceType)) | |
| { | |
| if (SystemPolicy.GetSystemLockdownPolicy() != SystemEnforcementMode.Audit) | |
| { | |
| return target.ThrowRuntimeError(restrictions, "CannotCreateTypeConstrainedLanguage", ParserStrings.CannotCreateTypeConstrainedLanguage).WriteToDebugLog(this); | |
| } | |
| string targetName = instanceType?.FullName; | |
| SystemPolicy.LogWDACAuditMessage( | |
| context: context, | |
| title: ParameterBinderStrings.WDACBinderTypeCreationLogTitle, | |
| message: StringUtil.Format(ParameterBinderStrings.WDACBinderTypeCreationLogMessage, targetName ?? string.Empty), | |
| fqid: "TypeCreationNotAllowed", | |
| dropIntoDebugger: true); | |
| } | |
| restrictions = args.Aggregate(restrictions, static (current, arg) => current.Merge(arg.PSGetMethodArgumentRestriction())); | |
| var newConstructors = DotNetAdapter.GetMethodInformationArray(ctors); | |
| return PSInvokeMemberBinder.InvokeDotNetMethod(_callInfo, "new", _constraints, PSInvokeMemberBinder.MethodInvocationType.Ordinary, | |
| target, args, restrictions, newConstructors, typeof(MethodException)).WriteToDebugLog(this); | |
| } | |
| /// <summary> | |
| /// Check if the target type is ByRef-like. | |
| /// </summary> | |
| internal static bool IsTargetTypeByRefLike(object target) | |
| { | |
| var targetValue = PSObject.Base(target); | |
| if (targetValue == null) { return false; } | |
| var instanceType = targetValue as Type ?? targetValue.GetType(); | |
| return instanceType.IsByRefLike; | |
| } | |
| /// <summary> | |
| /// Check if the target type is not public. | |
| /// </summary> | |
| internal static bool IsTargetTypeNonPublic(object target) | |
| { | |
| var targetValue = PSObject.Base(target); | |
| if (targetValue == null) { return false; } | |
| var instanceType = targetValue as Type ?? targetValue.GetType(); | |
| return !TypeResolver.IsPublic(instanceType); | |
| } | |
| /// <summary> | |
| /// Return the full name of the target type. | |
| /// </summary> | |
| internal static string GetTargetTypeName(object target) | |
| { | |
| var targetValue = PSObject.Base(target); | |
| Diagnostics.Assert(targetValue != null, "caller makes sure target is not null"); | |
| var instanceType = targetValue as Type ?? targetValue.GetType(); | |
| return instanceType.FullName; | |
| } | |
| } | |
| internal class PSInvokeBaseCtorBinder : InvokeMemberBinder | |
| { | |
| private readonly CallInfo _callInfo; | |
| private readonly PSMethodInvocationConstraints _constraints; | |
| private sealed class KeyComparer : IEqualityComparer<Tuple<CallInfo, PSMethodInvocationConstraints>> | |
| { | |
| public bool Equals(Tuple<CallInfo, PSMethodInvocationConstraints> x, | |
| Tuple<CallInfo, PSMethodInvocationConstraints> y) | |
| { | |
| return x.Item1.Equals(y.Item1) | |
| && ((x.Item2 == null) ? (y.Item2 == null) : x.Item2.Equals(y.Item2)); | |
| } | |
| public int GetHashCode(Tuple<CallInfo, PSMethodInvocationConstraints> obj) | |
| { | |
| return obj.GetHashCode(); | |
| } | |
| } | |
| private static readonly | |
| Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints>, PSInvokeBaseCtorBinder> | |
| s_binderCache = | |
| new Dictionary<Tuple<CallInfo, PSMethodInvocationConstraints>, PSInvokeBaseCtorBinder>(new KeyComparer()); | |
| public static PSInvokeBaseCtorBinder Get(CallInfo callInfo, PSMethodInvocationConstraints constraints) | |
| { | |
| PSInvokeBaseCtorBinder result; | |
| lock (s_binderCache) | |
| { | |
| var key = Tuple.Create(callInfo, constraints); | |
| if (!s_binderCache.TryGetValue(key, out result)) | |
| { | |
| result = new PSInvokeBaseCtorBinder(callInfo, constraints); | |
| s_binderCache.Add(key, result); | |
| } | |
| } | |
| return result; | |
| } | |
| internal PSInvokeBaseCtorBinder(CallInfo callInfo, PSMethodInvocationConstraints constraints) | |
| : base(".ctor", false, callInfo) | |
| { | |
| _callInfo = callInfo; | |
| _constraints = constraints; | |
| } | |
| public override DynamicMetaObject FallbackInvokeMember(DynamicMetaObject target, DynamicMetaObject[] args, DynamicMetaObject errorSuggestion) | |
| { | |
| if (!target.HasValue || args.Any(static arg => !arg.HasValue)) | |
| { | |
| return Defer(args.Prepend(target).ToArray()); | |
| } | |
| var ctors = _constraints.MethodTargetType.GetConstructors(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic); | |
| var restrictions = target.Value is PSObject | |
| ? BindingRestrictions.GetTypeRestriction(target.Expression, target.Value.GetType()) | |
| : target.PSGetTypeRestriction(); | |
| restrictions = args.Aggregate(restrictions, static (current, arg) => current.Merge(arg.PSGetMethodArgumentRestriction())); | |
| var newConstructors = DotNetAdapter.GetMethodInformationArray(ctors.Where(static c => c.IsPublic || c.IsFamily || c.IsFamilyOrAssembly).ToArray()); | |
| return PSInvokeMemberBinder.InvokeDotNetMethod(_callInfo, "new", _constraints, PSInvokeMemberBinder.MethodInvocationType.BaseCtor, | |
| target, args, restrictions, newConstructors, typeof(MethodException)); | |
| } | |
| public override DynamicMetaObject FallbackInvoke(DynamicMetaObject target, DynamicMetaObject[] args, DynamicMetaObject errorSuggestion) | |
| { | |
| return (errorSuggestion ?? new DynamicMetaObject( | |
| DynamicExpression.Dynamic( | |
| new PSInvokeBinder(CallInfo), | |
| typeof(object), | |
| args.Prepend(target).Select(static dmo => dmo.Expression) | |
| ), | |
| target.Restrictions.Merge(BindingRestrictions.Combine(args)) | |
| )); | |
| } | |
| } | |
| } | |