查看是否在使用反射的方法内调用方法

Question

我正在使用反射,目前有一个MethodBody.如何检查MethodBody中是否调用了特定方法？

Assembly assembly = Assembly.Load("Module1");
Type type = assembly.GetType("Module1.ModuleInit");
MethodInfo mi = type.GetMethod("Initialize");
MethodBody mb = mi.GetMethodBody();

Answer 1

使用Mono.Cecil.它是一个独立的程序集,可以在Microsoft .NET和Mono上运行.(当我编写下面的代码时,我认为我使用的是版本0.6或其后的版本)

假设你有许多组件

IEnumerable<AssemblyDefinition> assemblies;

使用AssemblyFactory获取这些(加载一个？)

以下代码段将枚举所有类型的这些程序集中方法的所有用法

methodUsages = assemblies
            .SelectMany(assembly => assembly.MainModule.Types.Cast<TypeDefinition>())
            .SelectMany(type => type.Methods.Cast<MethodDefinition>())
            .Where(method => null != method.Body) // allow abstracts and generics
            .SelectMany(method => method.Body.Instructions.Cast<Instruction>())
            .Select(instr => instr.Operand)
            .OfType<MethodReference>();

这将返回对方法的所有引用(因此包括在反射中使用,或构造可能执行或不执行的表达式).因此,这可能不是很有用,除了向您展示使用Cecil API可以做些什么而不需要太多努力:)

请注意,此示例假定Cecil(主流单声道版本中的版本)的版本较旧.较新的版本

• 更简洁(通过使用强类型的通用集合)
• 快点

当然,在您的情况下,您可以使用单个方法引用作为起点.说你要检测什么时候"mytargetmethod"可实际上是"起点"里直接调用:

MethodReference startingpoint; // get it somewhere using Cecil
MethodReference mytargetmethod; // what you are looking for

bool isCalled = startingpoint    
    .GetOriginalMethod() // jump to original (for generics e.g.)
    .Resolve()           // get the definition from the IL image
    .Body.Instructions.Cast<Instruction>()
    .Any(i => i.OpCode == OpCodes.Callvirt && i.Operand == (mytargetmethod));

呼叫树搜索

这是一个工作片段,允许您递归搜索(间接)相互调用的(选定)方法.

using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using Mono.Cecil;
using Mono.Cecil.Cil;

namespace StackOverflow
{
    /*
     * breadth-first lazy search across a subset of the call tree rooting in startingPoint
     * 
     * methodSelect selects the methods to recurse into
     * resultGen generates the result objects to be returned by the enumerator
     * 
     */
    class CallTreeSearch<T> : BaseCodeVisitor, IEnumerable<T> where T : class
    {
        private readonly Func<MethodReference, bool> _methodSelect;
        private readonly Func<Instruction, Stack<MethodReference>, T> _transform;

        private readonly IEnumerable<MethodDefinition> _startingPoints;
        private readonly IDictionary<MethodDefinition, Stack<MethodReference>> _chain = new Dictionary<MethodDefinition, Stack<MethodReference>>();
        private readonly ICollection<MethodDefinition> _seen = new HashSet<MethodDefinition>(new CompareMembers<MethodDefinition>());
        private readonly ICollection<T> _results = new HashSet<T>();
        private Stack<MethodReference> _currentStack;

        private const int InfiniteRecursion = -1;
        private readonly int _maxrecursiondepth;
        private bool _busy;

        public CallTreeSearch(IEnumerable<MethodDefinition> startingPoints,
                              Func<MethodReference, bool> methodSelect,
                              Func<Instruction, Stack<MethodReference>, T> resultGen)
            : this(startingPoints, methodSelect, resultGen, InfiniteRecursion)
        {

        }

        public CallTreeSearch(IEnumerable<MethodDefinition> startingPoints,
                              Func<MethodReference, bool> methodSelect,
                              Func<Instruction, Stack<MethodReference>, T> resultGen,
                              int maxrecursiondepth)
        {
            _startingPoints = startingPoints.ToList();

            _methodSelect = methodSelect;
            _maxrecursiondepth = maxrecursiondepth;
            _transform = resultGen;
        }

        public override void VisitMethodBody(MethodBody body)
        {
            _seen.Add(body.Method); // avoid infinite recursion
            base.VisitMethodBody(body);
        }

        public override void VisitInstructionCollection(InstructionCollection instructions)
        {
            foreach (Instruction instr in instructions)
                VisitInstruction(instr);

            base.VisitInstructionCollection(instructions);
        }

        public override void VisitInstruction(Instruction instr)
        {
            T result = _transform(instr, _currentStack);
            if (result != null)
                _results.Add(result);

            var methodRef = instr.Operand as MethodReference; // TODO select calls only?
            if (methodRef != null && _methodSelect(methodRef))
            {
                var resolve = methodRef.Resolve();
                if (null != resolve && !(_chain.ContainsKey(resolve) || _seen.Contains(resolve)))
                    _chain.Add(resolve, new Stack<MethodReference>(_currentStack.Reverse()));
            }

            base.VisitInstruction(instr);
        }

        public IEnumerator<T> GetEnumerator()
        {
            lock (this) // not multithread safe
            {
                if (_busy)
                    throw new InvalidOperationException("CallTreeSearch enumerator is not reentrant");
                _busy = true;

                try
                {
                    int recursionLevel = 0;
                    ResetToStartingPoints();

                    while (_chain.Count > 0 &&
                           ((InfiniteRecursion == _maxrecursiondepth) || recursionLevel++ <= _maxrecursiondepth))
                    {

                        // swapout the collection because Visitor will modify
                        var clone = new Dictionary<MethodDefinition, Stack<MethodReference>>(_chain);
                        _chain.Clear();

                        foreach (var call in clone.Where(call => HasBody(call.Key)))
                        {
//                          Console.Error.Write("\rCallTreeSearch: level #{0}, scanning {1,-20}\r", recursionLevel, call.Key.Name + new string(' ',21));
                            _currentStack = call.Value;
                            _currentStack.Push(call.Key);
                            try
                            {
                                _results.Clear();
                                call.Key.Body.Accept(this); // grows _chain and _results
                            }
                            finally
                            {
                                _currentStack.Pop();
                            }
                            _currentStack = null;

                            foreach (var result in _results)
                                yield return result;
                        }
                    }
                }
                finally
                {
                    _busy = false;
                }
            }
        }

        private void ResetToStartingPoints()
        {
            _chain.Clear();
            _seen.Clear();
            foreach (var startingPoint in _startingPoints)
            {
                _chain.Add(startingPoint, new Stack<MethodReference>());
                _seen.Add(startingPoint);
            }
        }

        private static bool HasBody(MethodDefinition methodDefinition)
        {
            return !(methodDefinition.IsAbstract || methodDefinition.Body == null);
        }

        IEnumerator IEnumerable.GetEnumerator()
        {
            return GetEnumerator();
        }
    }

    internal class CompareMembers<T> : IComparer<T>, IEqualityComparer<T>
        where T: class, IMemberReference
    {
        public int Compare(T x, T y)
        { return StringComparer.InvariantCultureIgnoreCase.Compare(KeyFor(x), KeyFor(y)); }

        public bool Equals(T x, T y)
        { return KeyFor(x).Equals(KeyFor(y)); }

        private static string KeyFor(T mr)
        { return null == mr ? "" : String.Format("{0}::{1}", mr.DeclaringType.FullName, mr.Name); }

        public int GetHashCode(T obj)
        { return KeyFor(obj).GetHashCode(); }
    }
}

笔记

• 做一些错误处理Resolve()(我有一个扩展方法TryResolve()为此目的)
• 可选择仅MethodReferences在呼叫操作中使用(call,calli,callvirt ...)(请参阅//TODO参考资料)

典型用法:

public static IEnumerable<T> SearchCallTree<T>(this TypeDefinition startingClass,
                                               Func<MethodReference, bool> methodSelect,
                                               Func<Instruction, Stack<MethodReference>, T> resultFunc,
                                               int maxdepth)
    where T : class
{
    return new CallTreeSearch<T>(startingClass.Methods.Cast<MethodDefinition>(), methodSelect, resultFunc, maxdepth);
}

public static IEnumerable<T> SearchCallTree<T>(this MethodDefinition startingMethod,
                                               Func<MethodReference, bool> methodSelect,
                                               Func<Instruction, Stack<MethodReference>, T> resultFunc,
                                               int maxdepth)
    where T : class
{
    return new CallTreeSearch<T>(new[] { startingMethod }, methodSelect, resultFunc, maxdepth); 
}

// Actual usage:
private static IEnumerable<TypeUsage> SearchMessages(TypeDefinition uiType, bool onlyConstructions)
{
    return uiType.SearchCallTree(IsBusinessCall,
           (instruction, stack) => DetectRequestUsage(instruction, stack, onlyConstructions));
}

请注意,像DetectRequestUsage这样的功能可以完全满足您的需求(编辑:但请参见此处).你可以做任何你想做的事情,不要忘记:你将拥有完整的静态分析调用堆栈,所以你实际上可以用所有这些信息做相当整洁的事情!

Answer 2

可以使用 StackTrace 类：

System.Diagnostics.StackTrace st = new System.Diagnostics.StackTrace();
System.Diagnostics.StackFrame sf = st.GetFrame(1); 
Console.Out.Write(sf.GetMethod().ReflectedType.Name + "." + sf.GetMethod().Name); 

1 可以调整并确定您感兴趣的帧数。