Research
Security News
Threat Actor Exposes Playbook for Exploiting npm to Build Blockchain-Powered Botnets
A threat actor's playbook for exploiting the npm ecosystem was exposed on the dark web, detailing how to build a blockchain-powered botnet.
roosterjs-editor-types
Advanced tools
Rooster is a framework-independent JavaScript rich-text editor neatly nested
inside one HTML <div>
element. Editing operations performed by end users are
handled in simple ways to generate the final HTML.
Rooster is working on top of a middle layer data structure called "Content Model". All format API and editing operation are using this Content Model layer as content format, and finally convert to HTML and show it in editor.
To view the demo site, please click the link below:
Please see here.
Rooster contains 6 basic packages.
roosterjs:
A facade of all Rooster code for those who want a quick start. Use the
createEditor()
function in roosterjs to create an editor with default
configurations.
roosterjs-content-model-core:
Defines the core editor and plugin infrastructure. Use roosterjs-content-model-core
instead of roosterjs
to build and customize your own editor.
roosterjs-content-model-api:
Defines APIs for editor operations. Use these APIs to modify content and
formatting in the editor you built using roosterjs-content-model-core
.
roosterjs-content-model-dom: Defines APIs for Content Model and DOM operations. This package do conversion between DOM tree and roosterjs Content Model.
roosterjs-content-model-plugins: Defines basic plugins for common features.
roosterjs-content-model-types: Defines public interfaces and enumerations, including Content Model types, API parameters and other types.
There are also some extension packages to provide additional functionalities.
roosterjs-color-utils: Provide color transformation utility to make editor work under dark mode.
roosterjs-react: Provide a React wrapper of roosterjs so it can be easily used with React.
To be compatible with old (8.*) versions, you can use EditorAdapter
class from the following package which can act as a 8.* Editor:
EditorAdapter
to work with Editor (9.*) and legacy plugins (via EditorAdapterOptions.legacyPlugins)And the following packages are for old (8.*) compatibility:
Rooster provides Content Model level APIs (in roosterjs-content-model-dom
), core APIs (in roosterjs-content-model-core
), and formatting APIs
(in roosterjs-content-modelapi
) to perform editing operations.
roosterjs-content-model-dom
provides several levels of Content Model operations:
roosterjs-content-model-core
provides APIs for editor core. Editor class will call such
APIs to perform basic editor operations. These APIs can be overridden by specifying
API overrides in Editor options when creating the editor.
roosterjs-content-model-api
provides APIs for scenario-based operations triggered by
user interaction.
Rooster supports plugins. You can use built-in plugins or build your own. Plugins call APIs to communicate with the editor. When an operation is performed by the user or when content is changed by code, the editor will trigger events for the plugins to handle.
Here's a sample plugin which will show a dialog containing "Hello Rooster" when an "a" is typed in the editor:
class HelloRooster implements EditorPlugin {
getName() {
return 'HelloRooster';
}
initialize(editor: IEditor) {}
dispose() {}
onPluginEvent(e: PluginEvent) {
if (e.eventType == 'input' && e.rawEvent.which == 65) {
alert('Hello Rooster');
}
}
}
Install via NPM or Yarn:
yarn add roosterjs
You can also install sub packages separately:
yarn add roosterjs-content-model-core
yarn add roosterjs-content-model-api
...
In order to run the code below, you may also need to install webpack:
yarn add webpack -g
editor.htm
which contains a DIV with some styles, buttons to handle some click events and a reference to rooster.js (update with the path to your rooster.js file):<html>
<body>
<div style="width: 500px; height: 400px; border: solid 1px black" id="contentDiv"></div>
<button id="buttonB">B</button> <button id="buttonI">I</button>
<button id="buttonU">U</button>
<script src="rooster.js"></script>
<script>
var contentDiv = document.getElementById('contentDiv');
var editor = roosterjs.createEditor(contentDiv);
editor.setContent('Welcome to <b>RoosterJs</b>!');
document.getElementById('buttonB').addEventListener('click', function () {
roosterjs.toggleBold(editor);
});
document.getElementById('buttonI').addEventListener('click', function () {
roosterjs.toggleItalic(editor);
});
document.getElementById('buttonU').addEventListener('click', function () {
roosterjs.toggleUnderline(editor);
});
</script>
</body>
</html>
To view the demo site, please click here.
To build the demo site code yourself, follow these instructions:
Get dependencies using yarn or npm:
yarn
Build the source code, and start the sample editor:
yarn start
or
npm start
There are two options for debugging:
Debugging from VSCode
Debugging directly from the development tools within the web browser
There are two ways that tests can be run:
yarn test
As a NodeJs package, RoosterJs has dependencies for runtime (specified in package.json under each sub packages in "dependencies" section) and dependencies for build time (specified in package.json under root path in "devDependencies" section).
For runtime dependencies, there are two parts:
Currently we have very few external dependencies. Before adding any new dependency, we need to check:
What's the value of the new dependency and the code using the dependency bring into roosterjs? If we add a new dependency and create our new API to just call into the dependency, that new API doesn't actually bring too much value, and people who uses roosterjs in their project can do this themselves in their code, and we should not add such dependency to people who don't really need it.
What's the dependency tree of the dependency? If we introduce a new dependency which has a deep dependency tree, we need to be careful since it means we are actually adding a lot of new dependencies and our code size may be increased a lot.
How much functionalities do we need from the dependency? If the dependency provides a lot of functionalities but we actually only need a small piece of them, we may need to consider other solutions, such as find another smaller one, or do it ourselves.
What's the license of the dependency? A dependency package under MIT license is good to be used for RoosterJs. For other licenses, we need to review and see if we can take it as a dependency.
If you still feel a new dependency is required after checking these questions, we can review it and finally decide whether we should add the new dependency.
For build time dependencies, it is more flexible to add new dependencies since it won't increase runtime code size or dependencies.
We are still working on more documentation in roosterjs wiki and API reference.
License Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the MIT License.
FAQs
Type definition for roosterjs
The npm package roosterjs-editor-types receives a total of 4,947 weekly downloads. As such, roosterjs-editor-types popularity was classified as popular.
We found that roosterjs-editor-types demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 4 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Research
Security News
A threat actor's playbook for exploiting the npm ecosystem was exposed on the dark web, detailing how to build a blockchain-powered botnet.
Security News
NVD’s backlog surpasses 20,000 CVEs as analysis slows and NIST announces new system updates to address ongoing delays.
Security News
Research
A malicious npm package disguised as a WhatsApp client is exploiting authentication flows with a remote kill switch to exfiltrate data and destroy files.