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ImportAddressTable.cs
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ImportAddressTable.cs
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using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Diagnostics;
using System.Runtime.InteropServices;
namespace PatchIat
{
/// <summary>
/// Provides methods for patching a module's import address table.
/// </summary>
public static unsafe class ImportAddressTable
{
/// <summary>
/// Patches the specified module's import address table.
/// </summary>
/// <typeparam name="TFunction">The delegate type of the function to patch.</typeparam>
/// <param name="module">The module to patch.</param>
/// <param name="importedModule">The imported module (eg. gdi32.dll)</param>
/// <param name="importedFunction">The imported function (eg. CreateFontIndirectA)</param>
/// <param name="buildReplacementFunction">
/// A builder function which takes the original function as an argument and
/// returns the function to replace it with.
/// </param>
public static void Patch<TFunction>(
this ProcessModule module,
string importedModule,
string importedFunction,
Func<TFunction, TFunction> buildReplacementFunction)
where TFunction : class
{
PreventGarbageCollection(
ApplyPatch(
module,
importedModule,
importedFunction,
CreatePredicate(importedFunction),
buildReplacementFunction));
}
/// <summary>
/// Patches the specified module's import address table.
/// </summary>
/// <typeparam name="TFunction">The delegate type of the function to patch.</typeparam>
/// <param name="module">The module to patch.</param>
/// <param name="importedModule">The imported module (eg. gdi32.dll)</param>
/// <param name="importedOrdinal">The ordinal number of the imported function.</param>
/// <param name="buildReplacementFunction">A builder function which takes the original function as an argument and
/// returns the function to replace it with.</param>
public static void Patch<TFunction>(
this ProcessModule module,
string importedModule,
int importedOrdinal,
Func<TFunction, TFunction> buildReplacementFunction)
where TFunction : class
{
PreventGarbageCollection(
ApplyPatch(
module,
importedModule,
"Ordinal " + importedOrdinal,
CreatePredicate(importedOrdinal),
buildReplacementFunction));
}
private static readonly List<PatchedFunction> s_PatchedFunctions = new List<PatchedFunction>();
private static void PreventGarbageCollection(PatchedFunction patchedFunction)
{
lock (s_PatchedFunctions)
{
s_PatchedFunctions.Add(patchedFunction);
}
}
private static Patched<TFunction> ApplyPatch<TFunction>(
ProcessModule module,
string importedModule,
string importedName,
ThunkPredicate isCorrectFunction,
Func<TFunction, TFunction> buildReplacementFunction)
where TFunction : class
{
AssertDelegate<TFunction>("TFunction");
module.NotNull("module");
importedModule.NotEmpty("importedModule");
isCorrectFunction.NotNull("isCorrectFunction");
buildReplacementFunction.NotNull("buildReplacementFunction");
ImageImportDescriptor* descriptors = module.GetImportDescriptors();
ImageImportDescriptor* descriptor = module.FindImportedModule(descriptors, importedModule);
ImageThunkData* thunk = module.FindImportedFunction(descriptor, isCorrectFunction);
MemoryBasicInformation thunkMemory = GetMemoryInformation(thunk);
MakeWritable(thunkMemory);
try
{
TFunction originalFunction = GetDelegateForFunctionPointer<TFunction>(thunk->Function);
if (originalFunction == null)
{
throw new ArgumentException("Could not create a delegate for the original function to be patched.");
}
TFunction replacementFunction = buildReplacementFunction(originalFunction);
thunk->Function = GetFunctionPointerForDelegate(replacementFunction);
return PatchedFunction.From(
importedModule,
importedName,
replacementFunction,
originalFunction);
}
finally
{
RestoreOriginalProtection(thunkMemory);
}
}
private static ImageThunkData* FindImportedFunction(
this ProcessModule module,
ImageImportDescriptor* descriptor,
ThunkPredicate isCorrectFunction)
{
if (descriptor->FirstThunk == 0 ||
descriptor->OriginalFirstThunk == 0)
{
throw new ArgumentException("The thunks in the specified descriptor were null.", "descriptor");
}
ImageThunkData* first = (ImageThunkData*)descriptor->FirstThunk.AsPtr(module);
ImageThunkData* original = (ImageThunkData*)descriptor->OriginalFirstThunk.AsPtr(module);
for (; original->Function != IntPtr.Zero; original++, first++)
{
if (isCorrectFunction(module, original))
{
return first;
}
}
throw new MissingMethodException();
}
private delegate bool ThunkPredicate(ProcessModule module, ImageThunkData* thunk);
private static ThunkPredicate CreatePredicate(string function)
{
return (module, thunk) =>
{
if (ImageOrdinal.UsingOrdinals(thunk->Ordinal))
{
return false;
}
ImageImportByName* import = (ImageImportByName*)thunk->AddressOfData.AsPtr(module);
string name = new string(import->Name);
if (String.Equals(function, name, StringComparison.OrdinalIgnoreCase))
{
return true;
}
return false;
};
}
private static ThunkPredicate CreatePredicate(int ordinal)
{
return (module, thunk) =>
{
if (!ImageOrdinal.UsingOrdinals(thunk->Ordinal))
{
return false;
}
return ImageOrdinal.Get(thunk->Ordinal) == new IntPtr(ordinal);
};
}
private static ImageImportDescriptor* FindImportedModule(
this ProcessModule module,
ImageImportDescriptor* descriptors,
string importedModuleName)
{
while (descriptors->Characteristics != 0)
{
sbyte* currentNamePtr = (sbyte*)descriptors->Name.AsPtr(module);
string currentName = new string(currentNamePtr);
if (String.Equals(currentName, importedModuleName, StringComparison.OrdinalIgnoreCase))
{
return descriptors;
}
descriptors++;
}
throw new DllNotFoundException();
}
private static void MakeWritable(MemoryBasicInformation thunkMemoryInfo)
{
if (!UnsafeNativeMethods.VirtualProtect(
thunkMemoryInfo.BaseAddress,
thunkMemoryInfo.RegionSize,
MemoryProtectionOptions.ExecuteReadWrite,
&thunkMemoryInfo.Protect))
{
throw new Win32Exception();
}
}
private static void RestoreOriginalProtection(MemoryBasicInformation thunkMemoryInfo)
{
MemoryProtectionOptions ignore;
if (!UnsafeNativeMethods.VirtualProtect(
thunkMemoryInfo.BaseAddress,
thunkMemoryInfo.RegionSize,
thunkMemoryInfo.Protect,
&ignore))
{
throw new Win32Exception();
}
}
private static MemoryBasicInformation GetMemoryInformation(ImageThunkData* thunk)
{
MemoryBasicInformation thunkMemoryInfo;
UnsafeNativeMethods.VirtualQuery(
(IntPtr)thunk,
&thunkMemoryInfo,
(IntPtr)sizeof (MemoryBasicInformation));
return thunkMemoryInfo;
}
private static ImageImportDescriptor* GetImportDescriptors(this ProcessModule module)
{
ImageNTHeaders* ntHeader = module.GetNTHeader();
ImageDataDirectory importDataDirectory =
ntHeader->OptionalHeader.GetDataDirectory(ImageDirectoryEntry.Import);
return (ImageImportDescriptor*)importDataDirectory.VirtualAddress.AsPtr(module);
}
private static ImageNTHeaders* GetNTHeader(this ProcessModule module)
{
ImageDosHeader* dos = (ImageDosHeader*)module.BaseAddress;
dos->VerifySignature();
ImageNTHeaders* nt = (ImageNTHeaders*)dos->e_lfanew.AsPtr(module);
nt->VerifySignature();
return nt;
}
private static T GetDelegateForFunctionPointer<T>(IntPtr ptr)
{
return (T)(object)Marshal.GetDelegateForFunctionPointer(ptr, typeof (T));
}
private static IntPtr GetFunctionPointerForDelegate<T>(T @delegate)
{
return Marshal.GetFunctionPointerForDelegate((Delegate)(object)@delegate);
}
private static void AssertDelegate<T>(string genericArgumentName)
{
if (!typeof (Delegate).IsAssignableFrom(typeof (T)))
{
throw new InvalidCastException("The type of " + genericArgumentName + " must be a Delegate (was " + typeof (T).Name + ")");
}
}
#region PatchedFunction
private abstract class PatchedFunction
{
private readonly string m_Module;
private readonly string m_Name;
protected PatchedFunction(string moduleName, string name)
{
m_Module = moduleName.NotEmpty("moduleName");
m_Name = name.NotEmpty("name");
}
public override string ToString()
{
return m_Name + " (" + m_Module + ")";
}
public static Patched<TFunction> From<TFunction>(string module, string function, TFunction replacement, TFunction original) where TFunction : class
{
return new Patched<TFunction>(module, function, replacement, original);
}
}
private sealed class Patched<TFunction> : PatchedFunction
where TFunction : class
{
//
// ReSharper disable UnaccessedField.Local
//
// These are fields required to prevent the replacement
// function from being garbage collected. The original
// function is kept for completeness.
//
private readonly TFunction m_Replacement;
private readonly TFunction m_Original;
//
// ReSharper restore UnaccessedField.Local
//
public Patched(string module, string name, TFunction patched, TFunction original)
: base(module, name)
{
AssertDelegate<TFunction>("TFunction");
m_Replacement = patched.NotNull("patched");
m_Original = original.NotNull("original");
}
}
#endregion
}
}