Security News
Supply Chain Attack Detected in Solana's web3.js Library
A supply chain attack has been detected in versions 1.95.6 and 1.95.7 of the popular @solana/web3.js library.
teen_process
Advanced tools
The teen_process npm package provides utilities for executing system commands and managing child processes in Node.js. It simplifies the process of running shell commands, handling their output, and managing subprocesses.
exec
The `exec` function allows you to run shell commands and capture their output. In this example, the `ls -la` command is executed, and its output is logged to the console.
const { exec } = require('teen_process');
async function runCommand() {
try {
const { stdout, stderr } = await exec('ls', ['-la']);
console.log('Output:', stdout);
console.error('Error:', stderr);
} catch (err) {
console.error('Command failed:', err);
}
}
runCommand();
spawn
The `spawn` function is used to launch a new process with a given command. This example demonstrates how to spawn the `ls -la` command and handle its stdout, stderr, and exit events.
const { spawn } = require('teen_process');
function runSpawn() {
const child = spawn('ls', ['-la']);
child.stdout.on('data', (data) => {
console.log(`stdout: ${data}`);
});
child.stderr.on('data', (data) => {
console.error(`stderr: ${data}`);
});
child.on('close', (code) => {
console.log(`child process exited with code ${code}`);
});
}
runSpawn();
execFile
The `execFile` function is similar to `exec`, but it is specifically designed for executing files. In this example, the `node -v` command is executed to get the Node.js version.
const { execFile } = require('teen_process');
async function runExecFile() {
try {
const { stdout, stderr } = await execFile('node', ['-v']);
console.log('Node version:', stdout);
console.error('Error:', stderr);
} catch (err) {
console.error('Command failed:', err);
}
}
runExecFile();
The `child_process` module is a core Node.js module that provides similar functionality to `teen_process`. It allows you to spawn new processes, execute commands, and handle their output. However, `teen_process` offers a more user-friendly API and additional features like promise-based execution.
The `execa` package is a popular alternative to `teen_process` for executing shell commands in Node.js. It provides a promise-based API, better error handling, and more features for managing child processes. Compared to `teen_process`, `execa` is more feature-rich and widely used in the community.
The `shelljs` package provides a portable (Windows/Linux/OS X) implementation of Unix shell commands in Node.js. It allows you to run shell commands and scripts with a simple API. While `shelljs` focuses on providing a shell-like environment, `teen_process` is more focused on managing child processes and executing commands.
A grown-up version of Node's child_process. exec
is really useful, but it
suffers many limitations. This is an es7 (async
/await
) implementation of
exec
that uses spawn
under the hood. It takes care of wrapping commands and
arguments so we don't have to care about escaping spaces. It can also return
stdout/stderr even when the command fails, or times out. Importantly, it's also
not susceptible to max buffer issues.
Examples:
import { exec } from 'teen_process';
// basic usage
let {stdout, stderr, code} = await exec('ls', ['/usr/local/bin']);
console.log(stdout.split("\n")); // array of files
console.log(stderr); // ''
console.log(code); // 0
// works with spaces
await exec('/command/with spaces.sh', ['foo', 'argument with spaces'])
// as though we had run: "/command/with spaces.sh" foo "argument with spaces"
// nice error handling that still includes stderr/stdout/code
try {
await exec('echo_and_exit', ['foo', '10']);
} catch (e) {
console.log(e.message); // "Exited with code 10"
console.log(e.stdout); // "foo"
console.log(e.code); // 10
}
The exec
function takes some options, with these defaults:
{
cwd: undefined,
env: process.env,
timeout: null,
killSignal: 'SIGTERM',
encoding: 'utf8',
ignoreOutput: false,
stdio: "inherit",
isBuffer: false,
shell: undefined,
logger: undefined,
maxStdoutBufferSize: 100 * 1024 * 1024, // 100 MB
maxStderrBufferSize: 100 * 1024 * 1024, // 100 MB
}
Most of these are self-explanatory. ignoreOutput
is useful if you have a very
chatty process whose output you don't care about and don't want to add it to
the memory consumed by your program.
Both buffer size limits are needed to avoid memory overflow while collecting process output. If the overall size of output chunks for different stream types exceeds the the given one then the oldest chunks will be pulled out in order to keep the memory load within the acceptable ranges.
If you're on Windows, you'll want to pass shell: true
, because exec
actually uses spawn
under the hood, and is therefore subject to the issues
noted about Windows + spawn
in the Node
docs.
If stdio
option is not set to inheirt
, you may not get colored output from your process. In this case you can explore the subprocess's documentation to see if an option like --colors
or FORCE_COLORS
can be specified. you can also try to set env.FORCE_COLOR = true
and see if it works.
Example:
try {
await exec('sleep', ['10'], {timeout: 500, killSignal: 'SIGINT'});
} catch (e) {
console.log(e.message); // "'sleep 10' timed out after 500ms"
}
The isBuffer
option specifies that the returned standard I/O is an instance
of a Buffer.
Example:
let {stdout, stderr} = await exec('cat', [filename], {isBuffer: true});
Buffer.isBuffer(stdout); // true
The logger
option allows stdout and stderr to be sent to a particular logger,
as it it received. This is overridden by the ignoreOutput
option.
spawn
is already pretty great but for some uses there's a fair amount of
boilerplate, especially when using in an async/await
context. teen_process
also exposes a SubProcess
class, which can be used to cut down on some
boilerplate. It has 2 methods, start
and stop
:
import { SubProcess } from 'teen_process';
async function tailFileForABit () {
let proc = new SubProcess('tail', ['-f', '/var/log/foo.log']);
await proc.start();
await proc.stop();
}
Errors with start/stop are thrown in the calling context.
You can listen to 8 events:
exit
stop
end
die
output
lines-stdout
lines-stderr
stream-line
proc.on('exit', (code, signal) => {
// if we get here, all we know is that the proc exited
console.log(`exited with code ${code} from signal ${signal}`);
// exited with code 127 from signal SIGHUP
});
proc.on('stop', (code, signal) => {
// if we get here, we know that we intentionally stopped the proc
// by calling proc.stop
});
proc.on('end', (code, signal) => {
// if we get here, we know that the process stopped outside of our control
// but with a 0 exit code
});
proc.on('die', (code, signal) => {
// if we get here, we know that the process stopped outside of our control
// with a non-zero exit code
});
proc.on('output', (stdout, stderr) => {
console.log(`stdout: ${stdout}`);
console.log(`stderr: ${stderr}`);
});
// lines-stderr is just the same
proc.on('lines-stdout', lines => {
console.log(lines);
// ['foo', 'bar', 'baz']
// automatically handles rejoining lines across stream chunks
});
// stream-line gives you one line at a time, with [STDOUT] or [STDERR]
// prepended
proc.on('stream-line', line => {
console.log(line);
// [STDOUT] foo
});
// so we could do: proc.on('stream-line', console.log.bind(console))
How does SubProcess
know when to return control from start()
? Well, the
default is to wait until there is some output. You can also pass in a number,
which will cause it to wait for that number of ms, or a function (which I call
a startDetector
) which takes stdout and stderr and returns true when you want
control back. Examples:
await proc.start(); // will continue when stdout or stderr has received data
await proc.start(0); // will continue immediately
let sd = (stdout, stderr) => {
return stderr.indexOf('blarg') !== -1;
};
await proc.start(sd); // will continue when stderr receives 'blarg'
A custom startDetector
can also throw an error if it wants to declare the
start unsuccessful. For example, if we know that the first output might contain
a string which invalidates the process (for us), we could define a custom
startDetector
as follows:
let sd = (stdout, stderr) => {
if (/fail/.test(stderr)) {
throw new Error("Encountered failure condition");
}
return stdout || stderr;
};
await proc.start(sd); // will continue when output is received that doesn't
// match 'fail'
Finally, if you want to specify a maximum time to wait for a process to start,
you can do that by passing a second parameter in milliseconds to start()
:
// use the default startDetector and throw an error if we wait for more than
// 1000ms for output
await proc.start(null, 1000);
After the process has been started you can use join()
to wait for it to
finish on its own:
await proc.join(); // will throw on exitcode not 0
await proc.join([0, 1]); // will throw on exitcode not 0 or 1
And how about killing the processes? Can you provide a custom signal, instead
of using the default SIGTERM
? Why yes:
await proc.stop('SIGHUP');
If your process might not be killable and you don't really care, you can also pass a timeout, which will return control to you in the form of an error after the timeout has passed:
try {
await proc.stop('SIGHUP', 1000);
} catch (e) {
console.log("Proc failed to stop, ignoring cause YOLO");
}
All in all, this makes it super simple to, say, write a script that tails a file for X seconds and then stops, using async/await and pretty straightforward error handling.
async function boredTail (filePath, boredAfter = 10000) {
let p = new SubProcess('tail', ['-f', filePath]);
p.on('stream-line', console.log);
await p.start();
await Bluebird.delay(boredAfter);
await p.stop();
}
FAQs
A grown up version of Node's spawn/exec
The npm package teen_process receives a total of 420,359 weekly downloads. As such, teen_process popularity was classified as popular.
We found that teen_process demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 8 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.
Security News
A supply chain attack has been detected in versions 1.95.6 and 1.95.7 of the popular @solana/web3.js library.
Research
Security News
A malicious npm package targets Solana developers, rerouting funds in 2% of transactions to a hardcoded address.
Security News
Research
Socket researchers have discovered malicious npm packages targeting crypto developers, stealing credentials and wallet data using spyware delivered through typosquats of popular cryptographic libraries.