enigma-bbs/core/door.js

176 lines
5.2 KiB
JavaScript

/* jslint node: true */
'use strict';
const stringFormat = require('./string_format.js');
const { Errors } = require('./enig_error.js');
const Events = require('./events');
// deps
const pty = require('node-pty');
const decode = require('iconv-lite').decode;
const createServer = require('net').createServer;
const paths = require('path');
const _ = require('lodash');
module.exports = class Door {
constructor(client) {
this.client = client;
this.restored = false;
}
prepare(ioType, cb) {
this.io = ioType;
// we currently only have to do any real setup for 'socket'
if ('socket' !== ioType) {
return cb(null);
}
this.sockServer = createServer(conn => {
conn.once('end', () => {
return this.restoreIo(conn);
});
conn.once('error', err => {
this.client.log.warn(
{ error: err.message },
'Door socket server connection'
);
return this.restoreIo(conn);
});
this.sockServer.getConnections((err, count) => {
// We expect only one connection from our DOOR/emulator/etc.
if (!err && count <= 1) {
this.client.term.output.pipe(conn);
conn.on('data', this.doorDataHandler.bind(this));
}
});
});
this.sockServer.listen(0, () => {
return cb(null);
});
}
run(exeInfo, cb) {
this.encoding = (exeInfo.encoding || 'cp437').toLowerCase();
if ('socket' === this.io && !this.sockServer) {
return cb(Errors.UnexpectedState('Socket server is not running'));
} else if ('stdio' !== this.io) {
return cb(Errors.Invalid(`"${this.io}" is not a valid io type!`));
}
const cwd = exeInfo.cwd || paths.dirname(exeInfo.cmd);
const formatObj = {
dropFile: exeInfo.dropFile,
dropFilePath: exeInfo.dropFilePath,
node: exeInfo.node.toString(),
srvPort: this.sockServer ? this.sockServer.address().port.toString() : '-1',
userId: this.client.user.userId.toString(),
userName: this.client.user.getSanitizedName(),
userNameRaw: this.client.user.username,
cwd: cwd,
};
const args = exeInfo.args.map(arg => stringFormat(arg, formatObj));
this.client.log.info(
{ cmd: exeInfo.cmd, args, io: this.io },
`Executing external door (${exeInfo.name})`
);
try {
this.doorPty = pty.spawn(exeInfo.cmd, args, {
cols: this.client.term.termWidth,
rows: this.client.term.termHeight,
cwd: cwd,
env: exeInfo.env,
encoding: null, // we want to handle all encoding ourself
});
} catch (e) {
return cb(e);
}
//
// PID is launched. Make sure it's killed off if the user disconnects.
//
Events.once(Events.getSystemEvents().ClientDisconnected, evt => {
if (
this.doorPty &&
this.client.session.uniqueId === _.get(evt, 'client.session.uniqueId')
) {
this.client.log.info(
{ pid: this.doorPty.pid },
'User has disconnected; Killing door process.'
);
this.doorPty.kill();
}
});
this.client.log.debug(
{ processId: this.doorPty.pid },
'External door process spawned'
);
if ('stdio' === this.io) {
this.client.log.debug('Using stdio for door I/O');
this.client.term.output.pipe(this.doorPty);
this.doorPty.onData(this.doorDataHandler.bind(this));
this.doorPty.once('close', () => {
return this.restoreIo(this.doorPty);
});
} else if ('socket' === this.io) {
this.client.log.debug(
{
srvPort: this.sockServer.address().port,
srvSocket: this.sockServerSocket,
},
'Using temporary socket server for door I/O'
);
}
this.doorPty.once('exit', exitCode => {
this.client.log.info({ exitCode: exitCode }, 'Door exited');
if (this.sockServer) {
this.sockServer.close();
}
// we may not get a close
if ('stdio' === this.io) {
this.restoreIo(this.doorPty);
}
this.doorPty.removeAllListeners();
delete this.doorPty;
return cb(null);
});
}
doorDataHandler(data) {
this.client.term.write(decode(data, this.encoding));
}
restoreIo(piped) {
if (!this.restored) {
if (this.doorPty) {
this.doorPty.kill();
}
const output = this.client.term.output;
if (output) {
output.unpipe(piped);
output.resume();
}
this.restored = true;
}
}
};