Offload your heavy lifting to a daemon. Extracted from eslint_d.
This will install the core_d as a dependency:
❯ npm install core_dYou need to create a main file that controls the daemon and a service.js file
which will run in the background.
The main file should look something like this:
const cmd = process.argv[2];
process.env.CORE_D_TITLE = 'your_d';
process.env.CORE_D_DOTFILE = '.your_d';
process.env.CORE_D_SERVICE = require.resolve('./your-service');
// optional to get logging from the child process
process.env.CORE_D_DEBUG = 'true';
const core_d = require('core_d');
if (cmd === 'start'
|| cmd === 'stop'
|| cmd === 'restart'
|| cmd === 'status') {
core_d[cmd]();
return;
}
core_d.invoke(process.argv.slice(2));The service.js file must expose an invoke function like this:
/*
* The core_d service entry point.
*/
exports.invoke = function (cwd, args, text, callback) {
callback(null, 'Your response');
};The first time you call core_d.invoke(...), a little server is started in the
background and bound to a random port. The port number is stored along with a
security token in the configured dotfile. Your services invoke method is
called with the same arguments. Later calls to invoke will be executed on the
same instance. So if you have a large app that takes a long time to load, but
otherwise responds quickly, and you're using it frequently, like linting a
file, then core_d can give your tool a performance boost.
The core_d client exposes these functions:
start(): Starts the background server and create the dotfile. It's not necessary to call this sinceinvokewill start the server if it's not already running.stop(): Stops the background server and removed the dotfile.restart(): Stops and starts the background server again.status(): Prints a status message saying whether the server is running or not. If the server is running and your service implementsgetStatus(), the return value will be printed as well.invoke(args[, text]): Invokes theinvokemethods in the service.
Environment variables:
CORE_D_TITLE: The process title to use. Optional.CORE_D_DOTFILE: The name of dotfile to use, e.g..core_d.CORE_D_SERVICE: The resolved path to the service implementation. Userequire.resolve('./relative-path')to receive the resolved path.
Your service must implement a function with the signature invoke(cwd, args, text, callback). The passed arguments are:
cwd: The current working directory.args: The first argument passed tocore_d.invoke.text: The second argument passed tocore_d.invoke.callback: A callback function with the signature(err, response).
The service can optionally implement a getStatus() function to return
additional status information when calling core_d.status().
If you're really into performance and want the lowest possible latency, talk to
the core_d server with netcat. This will also eliminate the node.js startup
time on the client side.
❯ PORT=`cat ~/.core_d | cut -d" " -f1`
❯ TOKEN=`cat ~/.core_d | cut -d" " -f2`
❯ echo "$TOKEN $PWD file.js" | nc localhost $PORTOr if you want to work with stdin:
❯ echo "$TOKEN $PWD --stdin" | cat - file.js | nc localhost $PORT6.0.0: node 12, 14, 16, 18 and 205.0.0: node 12, 14 and 164.0.0: node 12, 14 and 163.0.0: node 10, 12 and 142.0.0: node 10, 12 and 141.0.0: node 6, 8 and 10
MIT