I never understand , What actually happens to the the external DLLs when code is compiled by the compiler and converted to Intermediate code to run on CLR.
Does DLL code added to the Intermediate code and the references are not longer needed on the new machine or just the path of added DLLs are stored and we need those DLLs on our drive to run the program.
Generally (ie. there are some exceptions) the referenced assembly needs to be on the deployment system. All that is included in your assembly is the assembly name (this includes version and possibly signature).
Assembly binding (involving the GAC, config overrides etc.) is applied at runtime to get the right assembly. The rules depend on how the app domain was set up (eg. extra folders can be added, which is why ASP.NET web apps apply different rules).
There are various cases where the reference can be embedded (including referencing ActiveX when the right options are set and use of the assembly binding tool).
I essentially want to do this:
AppDomain domain = AppDomain.CreateDomain("DataSpecDomain");
Assembly dataSpecAssembly = domain.Load(fullAssemblyFilePath);
object[] dataSpecAttrCollection = dataSpecAssembly.GetCustomAttributes(typeof(DataSpecificationAttribute), true);
Actually, previously I didn't have the AppDomain portion and was using Assembly.LoadFrom() which evidently is not so recommended these days in lieu of security. The problem with this code is the assemblies I am loading into this new domain are built with their own references to a third-party API. In fact, the third-party API references are only shell-representation of the actuals which lie in the third-party exe directory. When referencing these, Copy Local is set to False. The end result is that I get a FileLoadException. If I add the shell references to the Debug folder, it works. Is there a way I can get the attribute instances without having to deal with the loading assembly's dependencies? Or is there a way to resolve the loading assembly's dependencies without having to place the third-party API references in the same folder.
Just for reference, the third-party product is designed with a special directory used for auto-loading, meaning that the typical development shouldn't need their references in the same folder.
I want to dynamically get the assembly for the currently executing web application from any code referenced by that application and executed in the same AppDomain.
I want exactly what this question asks: Get web application assembly name, regardless of current executing assembly
However, all replies in that question use the Global.asax file to get the web app assembly. That doesn't work if the application doesn't have a global.asax file, since in this case the type returned is HttpApplication, which is in the System.Web assembly.
One way I thought about going is to filter the assemblies in the current AppDomain by something, but I don't know what this something could be. Is there any difference between the assembly of the web app and another normal DLL? I know that the projects in Visual Studio have a GUID to signify the type of project (ASP.NET Web App, class library, MVC app, etc.) Is this info somehow present in the compiled assembly?
Another approach could be to use the ApplicationHost from the System.Web.Hosting namespace, but that only has static data and nothing about assemblies.
A third approach would be to include a type in the web app project and use that type, but for that my code which needs to get the web assembly name needs a reference to that type (and that would be a circular reference).
Any ideas?
As a very ugly hack, you could find an ASPX file in the app, then get the assembly containing its compiled type:
var filePath = Directory.EnumerateFiles(HttpRuntime.AppDomainAppPath, "*.aspx")
.FirstOrDefault();
var assembly = BuildManger.GetCompiledType(filePath).Assembly;
If there aren't any ASPX files, you could try ASHX or ASMX or CSHTML.
This will not work correctly for a web site project, where each file gets its own assembly.
I have a C# .Net 2.0CF application where I would like to load a .NET 'plug-in' DLL at runtime.
As I understand it, I should be able to use the System.Reflection.Assembly.LoadFrom() to load the DLL to an Assembly. Then use Assembly.GetTypes() to get the list of types within the plugin to match them to my expected interfaces.
The problem is that when I call GetTypes(), I get a System.TypeLoadException(). Based on the exception message, I assume this is because this particular plugin references some other assembly that this program knows nothing about. But, that's part of the point of it being a plugin! I don't want my application to have to know anything about these other assemblies.
How can I load this plug-in DLL without having my application reference every assembly used in the plugin?
Thanks,
PaulH
The situation is not that your app should reference every assembly that a plug-in uses. The plug-in references another DLL, not your app, and the plug-in should be "installed" (maybe simply put in a directory) along with everything it needs. This is unavoidable.
If you create a class library that uses things from other assemblies, is it possible to embed those other assemblies inside the class library as some kind of resource?
I.e. instead of having MyAssembly.dll, SomeAssembly1.dll and SomeAssembly2.dll sitting on the file system, those other two files get bundled in to MyAssembly.dll and are usable in its code.
I'm also a little confused about why .NET assemblies are .dll files. Didn't this format exist before .NET? Are all .NET assemblies DLLs, but not all DLLs are .NET assemblies? Why do they use the same file format and/or file extension?
ILMerge does merge assemblies, which is nice, but sometimes not quite what you want. For example, when the assembly in question is a strongly-named assembly, and you don't have the key for it, then you cannot do ILMerge without breaking that signature. Which means you have to deploy multiple assemblies.
As an alternative to ilmerge, you can embed one or more assemblies as resources into your exe or DLL. Then, at runtime, when the assemblies are being loaded, you can extract the embedded assembly programmatically, and load and run it. It sounds tricky but there's just a little bit of boilerplate code.
To do it, embed an assembly, just as you would embed any other resource (image, translation file, data, etc). Then, set up an AssemblyResolver that gets called at runtime. It should be set up in the static constructor of the startup class. The code is very simple.
static NameOfStartupClassHere()
{
AppDomain.CurrentDomain.AssemblyResolve += new ResolveEventHandler(Resolver);
}
static System.Reflection.Assembly Resolver(object sender, ResolveEventArgs args)
{
Assembly a1 = Assembly.GetExecutingAssembly();
Stream s = a1.GetManifestResourceStream(args.Name);
byte[] block = new byte[s.Length];
s.Read(block, 0, block.Length);
Assembly a2 = Assembly.Load(block);
return a2;
}
The Name property on the ResolveEventArgs parameter is the name of the assembly to be resolved. This name refers to the resource, not to the filename. If you embed the file named "MyAssembly.dll", and call the embedded resource "Foo", then the name you want here is "Foo". But that would be confusing, so I suggest using the filename of the assembly for the name of the resource. If you have embedded and named your assembly properly, you can just call GetManifestResourceStream() with the assembly name and load the assembly that way. Very simple.
This works with multiple assemblies, just as nicely as with a single embedded assembly.
In a real app you're gonna want better error handling in that routine - like what if there is no stream by the given name? What happens if the Read fails? etc. But that's left for you to do.
In the rest of the application code, you use types from the assembly as normal.
When you build the app, you need to add a reference to the assembly in question, as you would normally. If you use the command-line tools, use the /r option in csc.exe; if you use Visual Studio, you'll need to "Add Reference..." in the popup menu on the project.
At runtime, assembly version-checking and verification works as usual.
The only difference is in distribution. When you deploy or distribute your app, you need not distribute the DLL for the embedded (and referenced) assembly. Just deploy the main assembly; there's no need to distribute the other assemblies because they're embedded into the main DLL or EXE.
Take a look at ILMerge for merging assemblies.
I'm also a little confused about why .NET assemblies are .dll files. Didn't this format exist before .NET?
Yes.
Are all .NET assemblies DLLs,
Either DLLs or EXE normally - but can also be netmodule.
but not all DLLs are .NET assemblies?
Correct.
Why do they use the same file format and/or file extension?
Why should it be any different - it serves the same purpose!
You can embed an assembly (or any file, actually) as a resource (and then use the ResourceManager class to access them), but if you just want to combine assemblies, you're better off using a tool like ILMerge.
EXE and DLL files are Windows portable executables, which are generic enough to accomodate future types of code, including any .NET code (they can also run in DOS but only display a message saying that they're not supposed to run in DOS). They include instructions to fire up the .NET runtime if it isn't already running. It's also possible for a single assembly to span across multiple files, though this is hardly ever the case.
Note ILMerge doesn't work with embedded resources like XAML, so WPF apps etc will need to use Cheeso's method.
There's also the mkbundle utility offered by the Mono project
Why do they use the same file format and/or file extension?
Why should it be any different - it serves the same purpose!
My 2ยข bit of clarification here: DLL is Dynamic Link Library. Both the old style .dll (C-code) and .net style .dll are by definition "dynamic link" libraries. So .dll is a proper description for both.
With respect to Cheeso's answer of embedding the assemblies as resources and loading them dynamically using the Load(byte[]) overload using an AssemblyResolve event handler, you need to modify the resolver to check the AppDomain for an existing instance of the Assembly to load and return the existing assembly instance if it's already loaded.
Assemblies loaded using that overload do not have a context, which can cause the framework to try and reload the assembly multiple times. Without returning an already loaded instance, you can end up with multiple instances of the same assembly code and types that should be equal but won't be, because the framework considers them to be from two different assemblies.
At least one way that multiple AssemblyResolve events will be made for the same assembly loaded into the "No context" is when you have references to types it exposes from multiple assemblies loaded into your AppDomain, as code executes that needs those types resolved.
https://msdn.microsoft.com/en-us/library/dd153782%28v=vs.110%29.aspx
A couple of salient points from the link:
"Other assemblies cannot bind to assemblies that are loaded without context, unless you handle the AppDomain.AssemblyResolve event"
"Loading multiple assemblies with the same identity without context can cause type identity problems similar to those caused by loading assemblies with the same identity into multiple contexts. See Avoid Loading an Assembly into Multiple Contexts."
I would suggest you to try Costura.Fody. Just don't forget to Install-Package Fody before Costura.Fody (in order to get the newest Fody!)