I've comp up against a formidable conundrum. Here's my situation:
I'm building an application with a plugin framework. There's a base plugin class that all plugins must extend. Within the same same assembly I have a helper class that will serialize and deserialize classes. It's a generic class and it's used all over the place. The structure is like this:
MyApp.dll |_ App.cs |_ HelperCollection.cs |_ PluginBase.cs MyPlugin.dll |_MyPlugin.cs (this extends PluginBase) |_Foo.cs
My problem is the assembly loading and locking files. A requirement of the app is that Plugins can be overwritten at any time. If so, they need to be reloaded. It seems the best way to load an assembly so that it's not locked (that is, I can overwrite it or blow away while the app is still running) is this:
byte readAllBytes = File.ReadAllBytes("MyPlugin.dll"); Assembly assembly = Assembly.Load(readAllBytes);
Loading the plugin assembly works just fine, no problems there. I get an exception when, from within MyPlugin.cs, which is in the plugin assembly, I tried to use the
HelperCollection to do deserialization. An example could be something like this:
// HelperCollection uses XmlSerializer under the covers List<Foo> settingCollection = HelperCollection<Foo>.Deserialize("mysettings.xml");
It's blowing up and throwing an
InvalidCastException saying that it's
"Unable to cast object of type 'List[Foo]' to 'List[Foo]'". After much research I finally found why. It's getting loaded in the LoadNeither binding context.
Foo is loaded (from MyPlugin.dll) it's in the
LoadNeither binding context while the assembly containing the type for the type conversion (in my case, MyApp.dll) is loaded in Default context. So even though they have the same name they are not considered the same type. It's doing this because I'm using
How can I get around this? How can I,
- Load an assembly and not lock the file, and
- Provide the right binding context so I can cast objects which are located in the loaded assembly.
Sorry for the wall of text, just wanted to get all the relevant info out there.