AppDomain::Load Method (array<Byte>^, array<Byte>^, Evidence^)

 
obsoleteCodeEntityM:System.AppDomain.Load(System.Byte[],System.Byte[])Note: This API is now obsolete.

Loads the Assembly with a common object file format (COFF) based image containing an emitted Assembly. The raw bytes representing the symbols for the Assembly are also loaded.

Namespace:   System
Assembly:  mscorlib (in mscorlib.dll)

public:
[ObsoleteAttribute("Methods which use evidence to sandbox are obsolete and will be removed in a future release of the .NET Framework. Please use an overload of Load which does not take an Evidence parameter. See http://go.microsoft.com/fwlink/?LinkId=155570 for more information.")]
[SecurityPermissionAttribute(SecurityAction::Demand, ControlEvidence = true)]
virtual Assembly^ Load(
	array<unsigned char>^ rawAssembly,
	array<unsigned char>^ rawSymbolStore,
	Evidence^ securityEvidence
) sealed

Parameters

rawAssembly
Type: array<System::Byte>^

An array of type byte that is a COFF-based image containing an emitted assembly.

rawSymbolStore
Type: array<System::Byte>^

An array of type byte containing the raw bytes representing the symbols for the assembly.

securityEvidence
Type: System.Security.Policy::Evidence^

Evidence for loading the assembly.

Return Value

Type: System.Reflection::Assembly^

The loaded assembly.

Exception Condition
ArgumentNullException

rawAssembly is null.

BadImageFormatException

rawAssembly is not a valid assembly.

-or-

Version 2.0 or later of the common language runtime is currently loaded and rawAssembly was compiled with a later version.

AppDomainUnloadedException

The operation is attempted on an unloaded application domain.

FileLoadException

An assembly or module was loaded twice with two different evidences.

NotSupportedException

securityEvidence is not null. When legacy CAS policy is not enabled, securityEvidence should be null.

Beginning with the .NET Framework 4, the trust level of an assembly that is loaded by using this method is the same as the trust level of the application domain.

This method should be used only to load an assembly into the current application domain. This method is provided as a convenience for interoperability callers who cannot call the static Assembly::Load method. To load assemblies into other application domains, use a method such as CreateInstanceAndUnwrap.

For information that is common to all overloads of this method, see the Load(AssemblyName^) method overload.

The following sample demonstrates the use of loading a raw assembly.

For this code example to run, you must provide the fully qualified assembly name. For information about how to obtain the fully qualified assembly name, see Assembly Names.

using namespace System;
using namespace System::IO;
using namespace System::Reflection;
using namespace System::Reflection::Emit;
void InstantiateMyType( AppDomain^ domain )
{
   try
   {

      // You must supply a valid fully qualified assembly name here.
      domain->CreateInstance( "Assembly text name, Version, Culture, PublicKeyToken", "MyType" );
   }
   catch ( Exception^ e ) 
   {
      Console::WriteLine( e->Message );
   }

}


// Loads the content of a file to a Byte array.
array<Byte>^ loadFile( String^ filename )
{
   FileStream^ fs = gcnew FileStream( filename,FileMode::Open );
   array<Byte>^buffer = gcnew array<Byte>((int)fs->Length);
   fs->Read( buffer, 0, buffer->Length );
   fs->Close();
   return buffer;
}


// Creates a dynamic assembly with symbol information
// and saves them to temp.dll and temp.pdb
void EmitAssembly( AppDomain^ domain )
{
   AssemblyName^ assemblyName = gcnew AssemblyName;
   assemblyName->Name = "MyAssembly";
   AssemblyBuilder^ assemblyBuilder = domain->DefineDynamicAssembly( assemblyName, AssemblyBuilderAccess::Save );
   ModuleBuilder^ moduleBuilder = assemblyBuilder->DefineDynamicModule( "MyModule", "temp.dll", true );
   TypeBuilder^ typeBuilder = moduleBuilder->DefineType( "MyType", TypeAttributes::Public );
   ConstructorBuilder^ constructorBuilder = typeBuilder->DefineConstructor( MethodAttributes::Public, CallingConventions::Standard, nullptr );
   ILGenerator^ ilGenerator = constructorBuilder->GetILGenerator();
   ilGenerator->EmitWriteLine( "MyType instantiated!" );
   ilGenerator->Emit( OpCodes::Ret );
   typeBuilder->CreateType();
   assemblyBuilder->Save( "temp.dll" );
}

ref class Resolver
{
public:
   static Assembly^ MyResolver( Object^ sender, ResolveEventArgs^ args )
   {
      AppDomain^ domain = dynamic_cast<AppDomain^>(sender);

      // Once the files are generated, this call is
      // actually no longer necessary.
      EmitAssembly( domain );
      array<Byte>^rawAssembly = loadFile( "temp.dll" );
      array<Byte>^rawSymbolStore = loadFile( "temp.pdb" );
      Assembly^ assembly = domain->Load( rawAssembly, rawSymbolStore );
      return assembly;
   }

};

int main()
{
   AppDomain^ currentDomain = AppDomain::CurrentDomain;
   InstantiateMyType( currentDomain ); // Failed!
   currentDomain->AssemblyResolve += gcnew ResolveEventHandler( Resolver::MyResolver );
   InstantiateMyType( currentDomain ); // OK!
}

SecurityPermission

to provide evidence. Associated enumeration: SecurityPermissionFlag::ControlEvidence. Security action: Demand.

FileIOPermission

for access to read from a file or directory, and for access to the information in the path itself. Associated enumerations: FileIOPermissionAccess::Read, FileIOPermissionAccess::PathDiscovery.

WebPermission

for reading a path that is not in the form "file://" or "\\UNC\dir\" or "c:\".

.NET Framework
Available since 1.1
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