Mirror/Unity-Technologies-networking/Weaver/Helpers.cs

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using System;
using System.Linq;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Reflection;
using Mono.Cecil;
using Mono.Cecil.Cil;
using Mono.Cecil.Mdb;
using Mono.Cecil.Pdb;
namespace Unity.UNetWeaver
{
class Helpers
{
// This code is taken from SerializationWeaver
class AddSearchDirectoryHelper
{
delegate void AddSearchDirectoryDelegate(string directory);
readonly AddSearchDirectoryDelegate _addSearchDirectory;
public AddSearchDirectoryHelper(IAssemblyResolver assemblyResolver)
{
// reflection is used because IAssemblyResolver doesn't implement AddSearchDirectory but both DefaultAssemblyResolver and NuGetAssemblyResolver do
var addSearchDirectory = assemblyResolver.GetType().GetMethod("AddSearchDirectory", BindingFlags.Instance | BindingFlags.Public, null, new Type[] { typeof(string) }, null);
if (addSearchDirectory == null)
throw new Exception("Assembly resolver doesn't implement AddSearchDirectory method.");
_addSearchDirectory = (AddSearchDirectoryDelegate)Delegate.CreateDelegate(typeof(AddSearchDirectoryDelegate), assemblyResolver, addSearchDirectory);
}
public void AddSearchDirectory(string directory)
{
_addSearchDirectory(directory);
}
}
public static string UnityEngineDLLDirectoryName()
{
var directoryName = Path.GetDirectoryName(Assembly.GetExecutingAssembly().CodeBase);
return directoryName != null ? directoryName.Replace(@"file:\", "") : null;
}
public static ISymbolReaderProvider GetSymbolReaderProvider(string inputFile)
{
string nakedFileName = inputFile.Substring(0, inputFile.Length - 4);
if (File.Exists(nakedFileName + ".pdb"))
{
Console.WriteLine("Symbols will be read from " + nakedFileName + ".pdb");
return new PdbReaderProvider();
}
if (File.Exists(nakedFileName + ".dll.mdb"))
{
Console.WriteLine("Symbols will be read from " + nakedFileName + ".dll.mdb");
return new MdbReaderProvider();
}
Console.WriteLine("No symbols for " + inputFile);
return null;
}
public static bool InheritsFromSyncList(TypeReference typeRef)
{
try
{
// value types cant inherit from SyncList<T>
if (typeRef.IsValueType)
{
return false;
}
foreach (var type in ResolveInheritanceHierarchy(typeRef))
{
// only need to check for generic instances, as we're looking for SyncList<T>
if (type.IsGenericInstance)
{
// resolves the instance type to it's generic type definition, for example SyncList<Int> to SyncList<T>
var typeDef = type.Resolve();
if (typeDef.HasGenericParameters && typeDef.FullName == Weaver.SyncListType.FullName)
{
return true;
}
}
}
}
catch
{
// sometimes this will fail if we reference a weird library that can't be resolved, so we just swallow that exception and return false
}
return false;
}
public static IEnumerable<TypeReference> ResolveInheritanceHierarchy(TypeReference type)
{
// for value types the hierarchy is pre-defined as "<Self> : System.ValueType : System.Object"
if (type.IsValueType)
{
yield return type;
yield return Weaver.valueTypeType;
yield return Weaver.objectType;
yield break;
}
// resolve entire hierarchy from <Self> to System.Object
while (type != null && type.FullName != Weaver.objectType.FullName)
{
yield return type;
try
{
var typeDef = type.Resolve();
if (typeDef == null)
{
break;
}
else
{
type = typeDef.BaseType;
}
}
catch
{
// when calling type.Resolve() we can sometimes get an exception if some dependant library
// could not be loaded (for whatever reason) so just swallow it and break out of the loop
break;
}
}
yield return Weaver.objectType;
}
public static string DestinationFileFor(string outputDir, string assemblyPath)
{
var fileName = Path.GetFileName(assemblyPath);
Debug.Assert(fileName != null, "fileName != null");
return Path.Combine(outputDir, fileName);
}
public static string PrettyPrintType(TypeReference type)
{
// generic instances, such as List<Int32>
if (type.IsGenericInstance)
{
var giType = (GenericInstanceType)type;
return giType.Name.Substring(0, giType.Name.Length - 2) + "<" + String.Join(", ", giType.GenericArguments.Select<TypeReference, String>(PrettyPrintType).ToArray()) + ">";
}
// generic types, such as List<T>
if (type.HasGenericParameters)
{
return type.Name.Substring(0, type.Name.Length - 2) + "<" + String.Join(", ", type.GenericParameters.Select<GenericParameter, String>(x => x.Name).ToArray()) + ">";
}
// non-generic type such as Int
return type.Name;
}
public static ReaderParameters ReaderParameters(string assemblyPath, IEnumerable<string> extraPaths, IAssemblyResolver assemblyResolver, string unityEngineDLLPath, string unityUNetDLLPath)
{
var parameters = new ReaderParameters();
if (assemblyResolver == null)
assemblyResolver = new DefaultAssemblyResolver();
var helper = new AddSearchDirectoryHelper(assemblyResolver);
helper.AddSearchDirectory(Path.GetDirectoryName(assemblyPath));
helper.AddSearchDirectory(Helpers.UnityEngineDLLDirectoryName());
helper.AddSearchDirectory(Path.GetDirectoryName(unityEngineDLLPath));
helper.AddSearchDirectory(Path.GetDirectoryName(unityUNetDLLPath));
if (extraPaths != null)
{
foreach (var path in extraPaths)
helper.AddSearchDirectory(path);
}
parameters.AssemblyResolver = assemblyResolver;
parameters.SymbolReaderProvider = GetSymbolReaderProvider(assemblyPath);
return parameters;
}
public static WriterParameters GetWriterParameters(ReaderParameters readParams)
{
var writeParams = new WriterParameters();
if (readParams.SymbolReaderProvider is PdbReaderProvider)
{
//Log("Will export symbols of pdb format");
writeParams.SymbolWriterProvider = new PdbWriterProvider();
}
else if (readParams.SymbolReaderProvider is MdbReaderProvider)
{
//Log("Will export symbols of mdb format");
writeParams.SymbolWriterProvider = new MdbWriterProvider();
}
return writeParams;
}
public static TypeReference MakeGenericType(TypeReference self, params TypeReference[] arguments)
{
if (self.GenericParameters.Count != arguments.Length)
throw new ArgumentException();
var instance = new GenericInstanceType(self);
foreach (var argument in arguments)
instance.GenericArguments.Add(argument);
return instance;
}
// used to get a specialized method on a generic class, such as SyncList<T>::HandleMsg()
public static MethodReference MakeHostInstanceGeneric(MethodReference self, params TypeReference[] arguments)
{
var reference = new MethodReference(self.Name, self.ReturnType, MakeGenericType(self.DeclaringType, arguments))
{
HasThis = self.HasThis,
ExplicitThis = self.ExplicitThis,
CallingConvention = self.CallingConvention
};
foreach (var parameter in self.Parameters)
reference.Parameters.Add(new ParameterDefinition(parameter.ParameterType));
foreach (var genericParameter in self.GenericParameters)
reference.GenericParameters.Add(new GenericParameter(genericParameter.Name, reference));
return reference;
}
}
}