Write .Net Core applications with a webview UI. It can be compared to how Electron runs on Node.js, SpiderEye runs on .Net. Contrary to Electron though, SpiderEye uses the OS native webview instead of bundling Chromium.
What's the name supposed to mean? Simple: what kind of view does a spiders eye have? A webview! Get it? ...you'll laugh later :P
OS | Version | Runtime (minimum) | Webview | Browser Engine |
---|---|---|---|---|
Windows | 7, 8.x, 10 | .Net Core 3.0 or .Net 4.6.2 | WinForms WebBrowser control | IE 9-11 (depending on OS and installed version) |
Windows | 10 Build 1803 or newer | .Net Core 3.0 or .Net 4.6.2 | WebViewControl | Edge |
Linux | any x64 distro where .Net Core runs | .Net Core 2.0 | WebKit2GTK | WebKit |
macOS | x64 10.13 or newer | .Net Core 2.0 | WKWebView | WebKit |
Linux Dependencies | Used for | Optional |
---|---|---|
libgtk-3 | Application and window handling | No |
libwebkit2gtk-4.0 | Webview | No |
The client package is not required but you'll need it if you intend to communicate between host and webview.
To get a quick overview of how a SpiderEye app looks like, have a look at the Example folder. You can run them in various ways depending on what you use but you'll need .Net Core 3.0 for all of them.
Visual Studio (Windows): Open the solution, select the SpiderEye.Example.*.Windows project and set it as startup project and run it as you would any project. When starting, you may get a "Just My Code" warning saying that you are trying to debug a Release build of SpiderEye.dll. I believe this is a Visual Studio bug and can be safely ignored by selecting "Continue debugging" or "Continue debugging (don't ask again)".
Visual Studio for Mac: Same as with Visual Studio on Windows but you may get an error that .Net Core Desktop projects cannot be run on macOS. Just right click on the Windows specific projects and select "Unload".
Visual Studio Code: Open the base folder (i.e. where the SpiderEye.sln file lies), select which project you want to run in the Debug pane and hit start. The launch/tasks.json is set up in a way that starts the project matching your current platform. Make sure that you have the C# extension installed before running.
Console: Simply go into the folder that matches your platform, e.g. Examples/Simple/App.Linux
and call dotnet run
This is pretty much the simplest setup you can have. There are projects for each platform and there's a Core library that contains the web files and common startup logic.
This is a slightly more advanced example using Angular for the web side of things. It has the same project structure as the simple example but the Core project contains an Angular app instead of static web files.
It is also set up in a way that uses the Angular dev server when running in Debug and uses the compiled Angular app (in the Angular/dist
folder) when running in Release.
This means that you have to start the Angular dev server before you can run in Debug.
To do that, open a console window and cd
into the App.Core folder. First install the packages with npm i
and then call npm run watch
.
On Windows 10, please also read this note about Edge and localhost or you may see a blank page.
Before you can run/publish a Release build, you need to build the Angular app.
Same as with the dev server, open a console window, go into the App.Core folder and then call npm run build:prod
.
On Windows you could also just call the publish.bat script in the Shared folder.
This script builds the Angular app and then publishes the application for each platform.
To really get started, it's easiest if you use the project templates. Install them like so:
dotnet new -i Bildstein.SpiderEye.Templates
Now that the templates are installed, create and go into the folder you want the projects in and call:
dotnet new spidereye-app
Relevant parameters for the template:
Flag | Values | Default | Description |
---|---|---|---|
-lang, --language | C#, F#, VB | C# | Specifies the language of the template to create |
-ns, --no-sln | true, false | false | Specifies if the solution file should not be added |
-nv, --no-vscode | true, false | false | Specifies if the .vscode folder should not be added |
For more flags and more details, see the help output:
dotnet new spidereye-app --help
After dotnet new
has run, everything is set up to get you started immediately.
If you use Visual Studio you can now open the sln or for Visual Studio Code, open the current directory. Or you could try out things directly from the console by running the folder that matches your current operating system, e.g.:
dotnet run MyApp.Linux
The application should build, start and display a single window with "Hello World".
The WebViewControl based on Edge does not allow localhost addresses for security reasons. More info here. To get around that restriction for development (e.g. to use the Angular dev server or similar), call this in the command line:
checknetisolation LoopbackExempt -a -n=Microsoft.Win32WebViewHost_cw5n1h2txyewy
Note: this is really only necessary for development, a published app doesn't need it because everything is served from the embedded resources.
If you want to put that setting back to disallowing localhost, call the same command with the -d
parameter:
checknetisolation LoopbackExempt -d -n=Microsoft.Win32WebViewHost_cw5n1h2txyewy
Depending on which platform you are working, there are different ways to debug the webview.
For the Edge webview it's probably easiest if you use the Microsoft Edge DevTools
While your app is running, open the Microsoft Edge DevTools (or hit refresh if it's already open) and click on the target that is your app.
I haven't been able to get this to work but it should be possible to do it from Visual Studio by selecting Debug->Attach to Process. In that dialog change the "Attach To" type by clicking on "Select" and there choose "Script". Then select the process that is your app and click "Attach"
First you need to set Window.EnableDevTools
to true
in your app.
Then just run your app and the dev tools will automatically attach to the window.
You can detach it to a separate window by clicking on the detach icon in the top left corner of the dev tools.
First you need to set Window.EnableDevTools
to true
in your app.
Then run your app and once it's loaded, right click anywhere and select "Inspect Element" in the context menu.
You can publish your application like any other .Net Core app by calling dotnet publish
with the appropriate runtime identifier, e.g. for Linux:
dotnet publish -r linux-x64
Or alternatively use whatever mechanism your IDE (like Visual Studio) provides.
In the Examples/**/Shared
folders you'll also find build scripts that include all platforms and should provide a more complete insight.
For macOS you'll likely want a proper app instead of an executable with a bunch of files. It's pretty easy to do.
First you need an Info.plist
file like you'd have for any other macOS app. Here's an example to get you started:
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>CFBundleName</key>
<string>MyApp</string>
<key>CFBundleIconFile</key>
<string>MyApp.icns</string>
<key>CFBundleIdentifier</key>
<string>com.mycompany.myapp</string>
<key>CFBundleShortVersionString</key>
<string>1.0.0</string>
<key>LSMinimumSystemVersion</key>
<string>10.13</string>
<key>CFBundleInfoDictionaryVersion</key>
<string>6.0</string>
<key>CFBundlePackageType</key>
<string>APPL</string>
</dict>
</plist>
You can find more information in the Apple documentation.
Then create a folder structure like so (MyApp.app is the root folder):
MyApp.app/
└─Contents/
│ └─Info.plist
│
├─MacOS/
│ ├─MyApp
│ ├─MyApp.dll
│ └─etc...
│
└─Resources/
└─MyApp.icns
In the MacOS folder you copy everything that was created from the publish, i.e. your executable and all the DLLs etc. In the Resources folder you put your application icon with the same name as you have defined in the Info.plist.
To build the project you'll need an up-to-date version of Visual Studio 2019 or Visual Studio Code as well as the .Net Core SDK 3.0. You can develop and run the project on all platforms but only if you target .Net Core. Building for Windows requires .Net 4.6.2. To run/build the SpiderEye.Client project, the SPA example or the Playground project, you also need node.js/npm.
Before running the Playground project, make sure that you have all client side packages installed and the Angular dev server running.
Client side packages need to be installed with npm i
in the Source/SpiderEye.Client
folder and the Playground/SpiderEye.Playground.Core
folder.
Once those are installed, call npm run watch
in the Playground/SpiderEye.Playground.Core
folder.
For the window handling, this library calls the native APIs on Linux and macOS and the .Net APIs for Windows Forms on Windows. It then does the same thing to attach the webview to that window. On Windows, it also checks if the Edge based webview is available and falls back to the WebBrowser control if not.
Using the various APIs, the webview is set up to intercept requests and serve the files that are embedded in an assembly. An exception is the WinForms WebBrowser control that doesn't support this and uses an internal localhost server instead.
The webview is also set up to inject a little bit of JavaScript at page load to add a consistent interface between the webview and .Net code.
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