private void ProcessMethod(MethodDefinition method)
{
if (method.HasBody)
{
ILProcessor ilProcessor = method.Body.GetILProcessor();
//process every instruction of the methods body
for (int n = 0; n < ilProcessor.Body.Instructions.Count; n++) //foreach won't work because iterator length is bigger than count??
{
var instruction = ilProcessor.Body.Instructions[n];
//check whether the instruction is a call to a method
if (instruction.OpCode.Code == Code.Call && instruction.Operand is MethodReference)
{
//get the called method
MethodReference methodDescription = (MethodReference)instruction.Operand;
//get the attributes of the called method
var attributes = GetAttributes(methodDescription.Resolve());
//check whether the called method is marked with the given calli attribute
if (attributes.Contains(_calliAttributeName))
{
MessageIntegration.Info("Patching [{0}] @ [{1}].", method.ToString(), instruction.ToString());
if (!method.Name.EndsWith("Native"))
{
MessageIntegration.Info(String.Format("CallI-Comimport Methodnames should end with a \"Native\". Method: \"{0}\".", method.FullName));
}
//create a callsite for the calli instruction using stdcall calling convention
var callSite = new CallSite(methodDescription.ReturnType)
{
CallingConvention = MethodCallingConvention.StdCall
};
//iterate through every parameter of the original method-call
for (int j = 0; j < methodDescription.Parameters.Count - 1; j++) //foreach won't work because iterator length is bigger than count??
{
var p = methodDescription.Parameters[j];
if (p.ParameterType.FullName == "System.Boolean")
{
MessageIntegration.WriteWarning("Native bool has a size of 4 bytes. Make sure to use a 16bit Integer for \"VARIANT_BOOL\" and a 32bit Integer for \"BOOL\".", "CI0001");
}
//append every parameter of the method-call to the callsite of the calli instruction
callSite.Parameters.Add(p);
}
//create a calli-instruction including the just built callSite
var calliInstruction = ilProcessor.Create(OpCodes.Calli, callSite);
//replace the method-call by the calli-instruction
ilProcessor.Replace(instruction, calliInstruction);
_replacedCallsCount++;
}
}
}
}
}
private static void Main(string[] args)
{
string calliAttributeName = "CalliAttribute";
string removeTypeAttributeName = "RemoveTypeAttribute";
string filename = null;
string pdbfile = null;
MessageIntegration.Info("CSCli started.");
MessageIntegration.Info("CSCli was copied from http://www.codeproject.com/Articles/644130/NET-COM-Interop-using-Postbuild.");
MessageIntegration.Info(String.Empty); //new line
MessageIntegration.Info(String.Format("CSCli-Argments: [{0}].", String.Concat(args.Select(x => x + " ")).Trim()));
/*
* Parse parameters
*/
foreach (var a in args)
{
if (a.StartsWith("-file:"))
{
filename = a.Substring("-file:".Length);
MessageIntegration.Info("Filename: " + filename);
}
else if (a.StartsWith("-c:"))
{
calliAttributeName = a.Substring("-c:".Length);
}
else if (a.StartsWith("-r:"))
{
removeTypeAttributeName = a.Substring("-r:".Length);
}
else if (a.StartsWith("-pdb:"))
{
pdbfile = a.Substring("-pdb:".Length);
}
else
{
MessageIntegration.WriteWarning(String.Format("Unknown parameter: \"{0}\".", a));
}
}
/*
* Load and process assembly
*/
if (!File.Exists(filename))
{
MessageIntegration.WriteError(String.Format("Could not find file \"{0}\".", filename));
Environment.Exit(-1);
}
WriterParameters wp = new WriterParameters();
ReaderParameters rp = new ReaderParameters();
var strongNameKey = Path.ChangeExtension(filename, "snk");
if (File.Exists(strongNameKey))
{
MessageIntegration.Info("Signing with Key : " + strongNameKey);
wp.StrongNameKeyPair = new StrongNameKeyPair(File.OpenRead(strongNameKey));
}
//check whether the pdbfile has been passed through application parameters
if (pdbfile == null)
{
//if not use the default pdbfilepath by changing the extension of the assembly to .pdb
pdbfile = Path.ChangeExtension(filename, "pdb");
}
//check whether the original pdb-file exists
bool generatePdb = File.Exists(pdbfile);
//if the original pdb-file exists -> prepare for rewriting the symbols file
wp.WriteSymbols = generatePdb;
rp.ReadSymbols = generatePdb;
if (rp.ReadSymbols)
{
rp.SymbolReaderProvider = new PdbReaderProvider();
}
MessageIntegration.Info("Generating pdb: " + generatePdb.ToString());
//open assembly
var assembly = AssemblyDefinition.ReadAssembly(filename, rp);
//add the directory assembly directory as search directory to resolve referenced assemblies
((BaseAssemblyResolver)assembly.MainModule.AssemblyResolver).AddSearchDirectory(Path.GetDirectoryName(filename));
//path the assembly
AssemblyPatcher patcher = new AssemblyPatcher(assembly, calliAttributeName, removeTypeAttributeName);
if (patcher.PatchAssembly())
{
try
{
//if the assembly was patched successfully -> replace the old assembly file with the new, patched assembly file
//the symbols file will be created automatically
File.Delete(filename);
assembly.Write(filename, wp);
}
catch (Exception ex)
{
MessageIntegration.WriteError("Creating new assembly failed: " + ex.ToString());
Environment.Exit(-1);
}
MessageIntegration.Info(String.Format("CSCli patched assembly \"{0}\" successfully.", Path.GetFileName(filename)));
Environment.Exit(0);
}
else
{
MessageIntegration.WriteError(String.Format("\"{0}\" could not be patched.", filename));
Environment.Exit(-1);
}
}