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+++ title = "Plugin-Based Web Application in Dotnet" date = "2024-01-20T00:00:00+00:00" author = "the1mason" authorTwitter = "the0mason" #do not include @ cover = "posts/modular-app/title.svg" tags = ["dotnet", "web", "prototype"] keywords = ["prototype", "dotnet", "guide", "plugins", "plugin-based", "web application", "ASP.NET", "C#", ".NET 8", "Programming", "Software Architecture"] description = "Have you ever thought about making a web application, that could be easily extended by third-party developers? I've been thinking about making this app for a while, so here's my experience..." showFullContent = false readingTime = true hideComments = false draft = false +++
Table of Contents
Introduction
Have you ever heard of plugins? These are loadable libraries, extending your application.
This article is an overview of my plugin-based web application prototype and mechanisms behind it's features as well as my thought process and decision making during development. This article is, essentially, a step by step guide to making your own plugin-based web app prototype.
This article assumes some knowledge of programming and design patterns.
Problem
Self-hosted web applications can solve different problems and be of use to a variety of different people with slightly different needs. For this to work, I think that such an application should provide an option to extend its functionality. This would allow other people to build an ecosystem of different extensions around it.
Choose your stack!
C#
I'm a dotnet developer and I write C# code for living. This project is as much of an excersise for me as it is an interesting design prototype for C#, that hasn't been described in detail as much online.
I haven't seen such plugin-based sites written in C#. There are some projects, using plugin based architecture... Well, there's even a Microsoft Learn Article about building such an app!
Q: Why would I even bother to write all these posts and making prototypes? Even more: Why would someone be interested in such post?
A: You see... there's a problem: Neither learn.microsoft.com nor any other webside covers dynamically updating web interface with plugins! If you want to learn about it, it's the right place. Also just loading libraries isn't enough because app also has to provide some ways for plugins to interact with it, which is also covered here!
MVC with HTMX
ASP.NET MVC is a web framework, that incorporates the MVC design pattern and uses SSR (Server Side Rendering) to serve content. It is a perfect fit for the HTMX library. This is a compact JavaScript library that extends basic HTML by adding some custom attributes just enough to build your app around it. You can distribute events, make AJAX requests and build truly dynamic app by using as little JS as possible.
HTMX uses Hypermedia as the Engine of Application State (HATEOAS) - it's a principle that leaves all state handling to the server, providing the client only with a set of actions that it can take. Your regular SPA will get raw data from the server (like bank balance) and based on it, it will show or hide certain actions (like we won't show the withdrawal option if balance is 0 or less). With HATEOAS, the server just won't give the link to withdraw money, making this action impossible in the first place.
Loading plugins
C#, being a compiled language, can't be extended as easily as interpreted languages like Pytnon or PHP. To load plugins, we will need to load precompiled libraries dynamically after the app is compiled. To do this, Microsoft Learn Article, mentioned before suggests using custom AssemblyLoadContext with AssemblyDependencyResolver.
Wait, wait, wait! Using... what? I'm pretty sure you could just
Assembly.Load()stuff, right?
Not so easy! If you want to build a really working plugin system, you need a way to determine: whether this assembly has dependencies or not, and what are they.
Let's imagine, that our plugin uses Newtonsoft.Json library - one of the all-time most popular C# libraries. Should we load it together with the plugin and how do we find it?
C# has a built-in mechanism to resolve dependencies. When you compile your project, aside from Project.Name.dll you would have Project.Name.deps.json file, that will include paths to all it's dependencies! That's where AssemblyDependencyResolver comes in. It'll find all of plugin's .dll dependencies and load those as well.
And also! What it two plugins will have the same library, but conflicting versions? Would we be able to load to of the same assemblies?
No! And yes.
AssemblyLoadContext is used exactly for this. Along with AssemblyDependencyResolver, it will create an isolated context with current assembly and all it's dependencies. This will allow multiple plugins to have same dependencies with different versions.
There's an example of such custom AssemblyLoadContext Click Me and also an example of this context being used Click Me.
Plugin - App interaction
So now we figured out how we load stuff. Now: how do we interact with the app from out plugins?
First, we make all plugins to referense the Prototype.PluginBase project. This project will provide types that both plugin and our server can understand. We'll build communication using those.
Dependency Injection
Before the app is built and ran,