nope-js-node
v1.7.10
Published
NoPE Runtime for Nodejs. For Browser-Support please use nope-browser
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Readme
Please visit our Docu
No Programming Environment - NoPE
NoPE
provides the basics for a distributed system. The NoPE
basically links all modules to a system. It hides the distribution. The modules can run on multiple nodes (computation nodes) and NoPE
takes care of coupling them, executing services and subscribing to events etc.
In Addtion, NoPE
provides a basic concept for a front-end. This front-end will run on next.js
.
Nope is availabel in multiple Programming-Languages:
nodejs
python
Installation.
Installing using Batch-File (Windows ONLY)
This approach works on windows only.
To install NoPE
just extecute the 00-install.bat
-Batch-File in the root-directory.
Manual Installation
Make shure you run the following tasks
npm install
./00-compile.bat
(on windows) or./00-compile.sh
(on linux)./05-link.bat
(on windows) or./05-link.sh
(on linux)
Usage
NoPE - Command Line Interface.
After installation you can use the following cli-tool:
nope-js
Please select the option you want. Therefore add one of the following options:
help
Show this help.run
Start a NoPE-Backend.init
Initialize a new project. This project is empty.conf
Trys to update the configuration file.scan-ui
Scans and extracts the provided uis.upload-ui
Uploads the determined ui-fileservice
Generate Helper Files to provide servicesrepl
Opens an interactive console.
Changelog
Checkout our changelog.
NoPE
in 5 min
1. Create a Nodejs
Project
Get started by creating a new project distributed using NoPE
.
- Installation using npm:
npm install -g nope-js-node
- Start your first Project:
nope-js project create
This should open a cli
like that:
- Answer the requried questions to complete create the directory.
- Name the project
HelloWorld
- Give it a short summary. This summary will used during distributing your project.
- make shure you select
typescript
as project type
- navigate to the create folder ( e.g.
cd ./HelloWorld
)
This creates the following folder structure:
- Open your IDE (e.g. vscode)
By using the project-tool the following features are added to the project:
- Debugging of the application using VS code (launch-file)
- Creation of a doc file (see doc/make)
- Helpers to build a browser related version
- Defined Project Structure (using interfaces etc.)
- Use of a changelog
- Deployment as a package
- Simple extension using project-tool
2. Add a Service in Typescript
Our goal is to define a greeting service
The service creates a greeting message for a person.
Why a Service
This service is independent of how many times it has been called. Our functionality is stateless, this allows us to use a service.
Using the CLI
to generate the Service
- To create the Service:
use the
project-tool
to create the service
nope-js project edit
- Perfom the following selection inside of the tool.
- Selection
add
, to add a new element - Select
service
, because we want to create a service - Enter the name of the service, in our case
HelloWorld
Creation of the corresponding files and imports is done automatically
This will update our files in the Folder:
Now NoPE
defined a new service file (HelloWorld.functions.ts
) for us:
import { HelloWorldService } from "../types/interfaces";
import { exportAsNopeService, getNopeLogger } from "nope-js-node";
const logger = getNopeLogger("HelloWorld-service")
// Here is our main implementation we need to change
export async function _HelloWorldService (greetings: string) {
// Please overwrite me.
logger.debug("calling service 'HelloWorld' with the following parameters:", greetings)
return "Hello " + greetings + "!"
}
// The exported Service.
export const HelloWorld: HelloWorldService = exportAsNopeService(_HelloWorldService, {
id: "HelloWorld",
schema: {},
});
In that file, you will find a template for the service we want to implement. By default, the newly created service implements the hello-world behavior. This must changed. In our case it matches the desired behavior.
All services must be implemented
async
manner. This is necessary so that the runtime is not blocked.
Adding a Service interface
We now want to describe our service, that it can be used correctly at different Runtimes. Therefore we will add an schema
to the exported service. This Schema follows the definition of a JSON-Schema
:
export const HelloWorld: HelloWorldService = exportAsNopeService(_HelloWorldService, {
id: "HelloWorld",
// We describe our interface as follows:
schema: {
// Enhanced Type of the JSON-Schema. We added the type: "function" for this purpose
type: "function",
// To describe the used inputs of a function or serive we added the field "inputs" to the schema.
// It contains a list of all required inputs.
inputs: [
{
// The Description of the Parameter
description: "The name which should receive a Greeting",
// Its used name in the function (see the arguments of the function)
name: "greetings",
// The Schema follows a default JSON-Schema
schema: {
type: "string"
}
}
],
// To describe the return of a function we added the field "outputs". It contains a
// JSON-Schema Object.
outputs:{
type: "string",
// We provide some extra Info for the other users.
description: "The greeting Message!"
}
},
});
Luckily, Typescript
will help us during this process due to the typing system of Typescript
.
3. Running the Service:
Before we are able to execute our service we have to compile
our code to pure javascript
.
- Make shure you installed all dependencies (This has only to be performed once):
npm install
- Compile your code:
./00-compile.sh
This will compile the Typescript
files to pure javascript
. Additionally the Files will be compiled to a specific browser version.
To run the service
and distribute to different NoPE
-Runtimes we have to determine a configuration:
nope-js conf -d dist
The cli
will find all defined services
or modules
exposed in a so called NoPE-Package
(This has been created automatically during the initalization of the project). The tool will store its results in the following configuration (located at ./config/config.json
):
{
// Our toool fund the following functions:
"functions": [
{
"path": "dist\\src\\HelloWorld.functions.js",
"functions": []
}
],
// Additionally the tool found our `HelloWorld` Project as "module"
"packages": [
{
"nameOfPackage": "HelloWorld",
"defaultInstances": [],
"autostart": {},
"path": "dist\\src\\HelloWorld.package.js"
}
]
}
Finally we are ready to distribute our service by using the command:
nope-js run
This should produce the following output.
4. Interact with the Runtime
Currently our service is only run internally (nope is not connected and runs without an external connection layer). To check and play with the distribution, we kill our old process (ctrl+c
) create a separate process (e.g. a bash) and provide a serve:
nope-js run -c io-server
This will spool up a socket-io
server on our localhost.
Afterwards we will restart our Runtime hosting the created service using io-sockets
as connection layer:
nope-js run -c io-client
Now we are able to start our interact-tool
to manually execute our process:
nope-js interact -c io-client -s
To use the interact
-tool follow the questions:
What do you want to do?
- We want to inspect our distributed system ->
inspect
- We want to inspect our distributed system ->
What do you want to inspect?
- We want to check if our service is present ->
service
- We should be albe to see our
HelloWorld
-Service (see 1)
- We want to check if our service is present ->
Now we want to execute this service. Therefore we navigate
back
to the main menuNow we select
execute
and afterwardsservice
because we want to execute our serviceNow the Tool renders the available services and we select
HelloWorld
(see 2) and it will render the previously defined Schema.Now we have to enter the inputs required by the Service:
- It is important that the parameters are entered as list (because there might be more the 1 Parameter)
- Enter the parameters as valid
JSON
Data. - Press
enter
Executing services with the interact tool will perfom function immedialty. If you integrated Hardware be aware of that.
The Tool shows the result (see 4)
You are now running a distributed System using remote procedure calls