If an assembly gets loaded eg
Assembly.LoadFile(dotNetDllorExe) and doesn’t throw any exception, it’s a valid .NET assembly. If it’s not then it’ll throw a “BadImageFormatException”.
The idea of checking weather a file is assembly or not by loading it and checking if exception is thrown or not; doesn’t seem to be too clean. After all exceptions are supposed to be used exceptionally.
.NET assemblies are regular Win32 PE files, the operating System doesn’t differentiate between .NET assemblies and Win32 executable binaries, they are the same normal PE files. So how does the System work out if a DLL or EXE is a managed assembly in order to load the CLR?
It validates the file header to check if it’s a managed assembly or not. In the ECMA Specifications Partition II – Metadata which is shipped along with .NET SDK you see there is a separate CLI Header in the PE Format. It is the 15th data directory in the PE Optional Headers. So, in simple terms, if we have value in this data directory, then it means this is a valid .NET assembly, otherwise it's not.
internal static class PortableExecutableHelper
internal static bool IsDotNetAssembly(string peFile)
uint dataDictionaryRVA = new uint;
uint dataDictionarySize = new uint;
Stream fs = new FileStream(peFile, FileMode.Open, FileAccess.Read);
BinaryReader reader = new BinaryReader(fs);
//PE Header starts @ 0x3C (60). Its a 4 byte header.
fs.Position = 0x3C;
peHeader = reader.ReadUInt32();
//Moving to PE Header start location...
fs.Position = peHeader;
peHeaderSignature = reader.ReadUInt32();
//We can also show all these value, but we will be
//limiting to the CLI header test.
machine = reader.ReadUInt16();
sections = reader.ReadUInt16();
timestamp = reader.ReadUInt32();
pSymbolTable = reader.ReadUInt32();
noOfSymbol = reader.ReadUInt32();
optionalHeaderSize = reader.ReadUInt16();
characteristics = reader.ReadUInt16();
Now we are at the end of the PE Header and from here, the
PE Optional Headers starts...
To go directly to the datadictionary, we'll increase the
stream’s current position to with 96 (0x60). 96 because,
28 for Standard fields
68 for NT-specific fields
From here DataDictionary starts...and its of total 128 bytes. DataDictionay has 16 directories in total,
doing simple maths 128/16 = 8.
So each directory is of 8 bytes.
In this 8 bytes, 4 bytes is of RVA and 4 bytes of Size.
btw, the 15th directory consist of CLR header! if its 0, its not a CLR file :)
dataDictionaryStart = Convert.ToUInt16(Convert.ToUInt16(fs.Position) + 0x60);
fs.Position = dataDictionaryStart;
for (int i = 0; i < 15; i++)
dataDictionaryRVA[i] = reader.ReadUInt32();
dataDictionarySize[i] = reader.ReadUInt32();
if (dataDictionaryRVA == 0)
Console.WriteLine("This is NOT a valid CLR File!!");
Console.WriteLine("This is a valid CLR File..");
ECMA Ref, Blog Ref