const { verify, hash } = require('argon2'); const express = require('express'); const { json } = require('express'); const { Pool } = require('pg'); require('dotenv').config(); const jwt = require('jsonwebtoken'); const http = require('http'); const socketIo = require('socket.io'); const connectDB = require('./db'); const { initializeAgenda } = require('./agenda'); // Agenda setup const format = require('pg-format'); const cronParser = require('cron-parser'); const app = express(); const port = 3000; app.use(json()); const pool = new Pool(); const server = http.createServer(app); const io = socketIo(server, { pingInterval: 15000, pingTimeout: 10000, }); let agenda; (async () => { // 1. Connect to MongoDB await connectDB(); agenda = await initializeAgenda('mongodb://localhost:27017/myScheduledApp', pool, io); })(); (async () => { await pool.query("update user_tokens set connected=FALSE where connected=TRUE"); await pool.query("update device_tokens set connected=FALSE where connected=TRUE"); })(); const JWT_SECRET = process.env.JWT_SECRET; const TOKEN_EXPIRY = '5d'; io.on('connection', async (socket) => { console.log("periph connected"); const token = socket.handshake.auth.token ?? socket.handshake.headers['authorization']?.split(' ')[1]; try { if (!token) throw new Error("no token!"); const payload = jwt.verify(token, JWT_SECRET); let table; let idCol; let id; if (payload.type === "user") { table = "user_tokens"; idCol = "user_id"; socket.user = true; id = payload.userId; } else if (payload.type === "peripheral") { table = "device_tokens"; idCol = "device_id"; socket.user = false; id = payload.peripheralId; } else { throw new Error("Unauthorized"); } const query = format(`update %I set connected=TRUE, socket=$1 where %I=$2 and token=$3 and connected=FALSE`, table, idCol ); const result = await pool.query(query, [socket.id, id, token]); if (result.rowCount != 1) { const errorResponse = { type: 'error', code: 404, message: 'Device not found or already connected' }; socket.emit("error", errorResponse); socket.disconnect(true); } else { console.log("success - sending device state"); // For peripheral devices, send current device state if (payload.type === "peripheral") { try { // Get peripheral states for this device (device will report calibration status back) const {rows: periphRows} = await pool.query( "select last_pos, peripheral_number from peripherals where device_id=$1", [id] ); const successResponse = { type: 'success', code: 200, message: 'Device authenticated', deviceState: periphRows.map(row => ({ port: row.peripheral_number, lastPos: row.last_pos })) }; socket.emit("device_init", successResponse); // Notify user app that device is now connected const {rows: deviceUserRows} = await pool.query("select user_id from devices where id=$1", [id]); if (deviceUserRows.length === 1) { const {rows: userRows} = await pool.query("select socket from user_tokens where user_id=$1 and connected=TRUE", [deviceUserRows[0].user_id]); if (userRows.length === 1 && userRows[0]) { io.to(userRows[0].socket).emit("device_connected", {deviceID: id}); } } } catch (err) { console.error("Error fetching device state:", err); socket.emit("device_init", { type: 'success', code: 200, message: 'Device authenticated', deviceState: [] }); } } else { // User connection const successResponse = { type: 'success', code: 200, message: 'User connected' }; socket.emit("success", successResponse); } } } catch (error) { console.error('Error during periph authentication:', error); // Send an error message to the client socket.emit('error', { type: 'error', code: 500 }); // Disconnect the client socket.disconnect(true); } // Device reports its calibration status after connection socket.on('report_calib_status', async (data) => { console.log(`Device reporting calibration status: ${socket.id}`); console.log(data); try { const {rows} = await pool.query("select device_id from device_tokens where socket=$1 and connected=TRUE", [socket.id]); if (rows.length != 1) throw new Error("No device with that ID connected to Socket."); // Update calibration status in database based on device's actual state if (data.port && typeof data.calibrated === 'boolean') { await pool.query( "update peripherals set calibrated=$1 where device_id=$2 and peripheral_number=$3", [data.calibrated, rows[0].device_id, data.port] ); console.log(`Updated port ${data.port} calibrated status to ${data.calibrated}`); } } catch (error) { console.error(`Error in report_calib_status:`, error); } }); // Device reports calibration error (motor stall, sensor failure, etc.) socket.on('device_calib_error', async (data) => { console.log(`Device reporting calibration error: ${socket.id}`); console.log(data); try { const {rows} = await pool.query("select device_id from device_tokens where socket=$1 and connected=TRUE", [socket.id]); if (rows.length != 1) throw new Error("No device with that ID connected to Socket."); const result = await pool.query( "update peripherals set await_calib=FALSE where device_id=$1 and peripheral_number=$2 returning id, user_id", [rows[0].device_id, data.port] ); if (result.rowCount != 1) throw new Error("No such peripheral in database"); // Notify user app about the error const {rows: userRows} = await pool.query("select socket from user_tokens where user_id=$1 and connected=TRUE", [result.rows[0].user_id]); if (userRows.length === 1 && userRows[0]) { io.to(userRows[0].socket).emit("calib_error", { periphID: result.rows[0].id, message: data.message || "Device error during calibration" }); } console.log(`Calibration cancelled for port ${data.port} due to device error`); } catch (error) { console.error(`Error in device_calib_error:`, error); } }); // Device acknowledges ready for stage 1 (tilt up) socket.on('calib_stage1_ready', async (data) => { console.log(`Device ready for stage 1 (tilt up): ${socket.id}`); console.log(data); try { const {rows} = await pool.query("select device_id from device_tokens where socket=$1 and connected=TRUE", [socket.id]); if (rows.length != 1) throw new Error("No device with that ID connected to Socket."); const result = await pool.query( "select id, user_id from peripherals where device_id=$1 and peripheral_number=$2", [rows[0].device_id, data.port] ); if (result.rowCount != 1) throw new Error("No such peripheral in database"); const {rows: userRows} = await pool.query("select socket from user_tokens where user_id=$1", [result.rows[0].user_id]); if (userRows.length == 1 && userRows[0]) { const userSocket = userRows[0].socket; io.to(userSocket).emit("calib_stage1_ready", {periphID: result.rows[0].id}); } } catch (error) { console.error(`Error in calib_stage1_ready:`, error); } }); // Device acknowledges ready for stage 2 (tilt down) socket.on('calib_stage2_ready', async (data) => { console.log(`Device ready for stage 2 (tilt down): ${socket.id}`); console.log(data); try { const {rows} = await pool.query("select device_id from device_tokens where socket=$1 and connected=TRUE", [socket.id]); if (rows.length != 1) throw new Error("No device with that ID connected to Socket."); const result = await pool.query( "select id, user_id from peripherals where device_id=$1 and peripheral_number=$2", [rows[0].device_id, data.port] ); if (result.rowCount != 1) throw new Error("No such peripheral in database"); const {rows: userRows} = await pool.query("select socket from user_tokens where user_id=$1", [result.rows[0].user_id]); if (userRows.length == 1 && userRows[0]) { const userSocket = userRows[0].socket; io.to(userSocket).emit("calib_stage2_ready", {periphID: result.rows[0].id}); } } catch (error) { console.error(`Error in calib_stage2_ready:`, error); } }); // User confirms stage 1 complete (tilt up done) socket.on('user_stage1_complete', async (data) => { console.log(`User confirms stage 1 complete: ${socket.id}`); console.log(data); try { const {rows} = await pool.query("select socket from device_tokens where device_id=$1 and connected=TRUE", [data.deviceID]); if (rows.length != 1) { // Device not connected - notify app socket.emit("calib_error", { periphID: data.periphID, message: "Device disconnected during calibration" }); // Reset peripheral state await pool.query("update peripherals set await_calib=FALSE where id=$1", [data.periphID]); return; } const deviceSocket = rows[0].socket; io.to(deviceSocket).emit("user_stage1_complete", {port: data.periphNum}); } catch (error) { console.error(`Error in user_stage1_complete:`, error); socket.emit("calib_error", { periphID: data.periphID, message: "Error during calibration" }); } }); // User confirms stage 2 complete (tilt down done) socket.on('user_stage2_complete', async (data) => { console.log(`User confirms stage 2 complete: ${socket.id}`); console.log(data); try { const {rows} = await pool.query("select socket from device_tokens where device_id=$1 and connected=TRUE", [data.deviceID]); if (rows.length != 1) { // Device not connected - notify app socket.emit("calib_error", { periphID: data.periphID, message: "Device disconnected during calibration" }); // Reset peripheral state await pool.query("update peripherals set await_calib=FALSE where id=$1", [data.periphID]); return; } const deviceSocket = rows[0].socket; io.to(deviceSocket).emit("user_stage2_complete", {port: data.periphNum}); } catch (error) { console.error(`Error in user_stage2_complete:`, error); socket.emit("calib_error", { periphID: data.periphID, message: "Error during calibration" }); } }); // Device acknowledges calibration complete socket.on('calib_done', async (data) => { console.log(`Received 'calib_done' event from client ${socket.id}:`); console.log(data); try { const {rows} = await pool.query("select device_id from device_tokens where socket=$1 and connected=TRUE", [socket.id]); if (rows.length != 1) throw new Error("No device with that ID connected to Socket."); const result = await pool.query("update peripherals set await_calib=FALSE, calibrated=TRUE where device_id=$1 and peripheral_number=$2 returning id, user_id", [rows[0].device_id, data.port] ); if (result.rowCount != 1) throw new Error("No such peripheral in database"); const {rows: userRows} = await pool.query("select socket from user_tokens where user_id=$1", [result.rows[0].user_id]); if (userRows.length == 1) { if (userRows[0]){ const userSocket = userRows[0].socket; io.to(userSocket).emit("calib_done", {periphID: result.rows[0].id}); } } else console.log("No App connected"); } catch (error) { console.error(`Error processing job:`, error); throw error; } }); socket.on('pos_hit', async (data) => { console.log(`Received 'pos_hit' event from client ${socket.id}:`); console.log(data); const dateTime = new Date(); try { const {rows} = await pool.query("select device_id from device_tokens where socket=$1 and connected=TRUE", [socket.id]); if (rows.length != 1) throw new Error("No device with that ID connected to Socket."); const result = await pool.query("update peripherals set last_pos=$1, last_set=$2 where device_id=$3 and peripheral_number=$4 returning id, user_id", [data.pos, dateTime, rows[0].device_id, data.port] ); if (result.rowCount != 1) throw new Error("No such peripheral in database"); const {rows: userRows} = await pool.query("select socket from user_tokens where user_id=$1", [result.rows[0].user_id]); if (userRows.length == 1) { if (userRows[0]){ const userSocket = userRows[0].socket; io.to(userSocket).emit("pos_hit", {periphID: result.rows[0].id}); } } else console.log("No App connected"); } catch (error) { console.error(`Error processing job:`, error); throw error; } }); socket.on("disconnect", async () => { if (socket.user) { console.log("user disconnect"); await pool.query("update user_tokens set connected=FALSE where socket=$1", [socket.id]); } else { console.log("device disconnect"); const {rows} = await pool.query( "update device_tokens set connected=FALSE where socket=$1 returning device_id", [socket.id] ); // Notify user app that device disconnected if (rows.length === 1) { const {rows: deviceRows} = await pool.query("select user_id from devices where id=$1", [rows[0].device_id]); if (deviceRows.length === 1) { const {rows: userRows} = await pool.query("select socket from user_tokens where user_id=$1 and connected=TRUE", [deviceRows[0].user_id]); if (userRows.length === 1 && userRows[0]) { io.to(userRows[0].socket).emit("device_disconnected", {deviceID: rows[0].device_id}); } } } } }); }); async function createToken(userId) { const token = jwt.sign({ type: 'user', userId }, JWT_SECRET, { expiresIn: TOKEN_EXPIRY }); await pool.query("delete from user_tokens where user_id=$1", [userId]); await pool.query("insert into user_tokens (user_id, token) values ($1, $2)", [userId, token]); return token; } async function createPeripheralToken(peripheralId) { const token = jwt.sign({ type: 'peripheral', peripheralId }, JWT_SECRET); await pool.query("insert into device_tokens (device_id, token) values ($1, $2)", [peripheralId, token]); return token; } async function createTempPeriphToken(peripheralId) { const token = jwt.sign({type: 'peripheral', peripheralId}, JWT_SECRET, {expiresIn: '2m'} ); await pool.query("insert into device_tokens (device_id, token) values ($1, $2)", [peripheralId, token]); return token; } async function authenticateToken(req, res, next) { const authHeader = req.headers['authorization']; const token = authHeader?.split(' ')[1]; if (!token) return res.sendStatus(401); try { const payload = jwt.verify(token, JWT_SECRET); if (payload.type === 'user') { const {rows} = await pool.query("select user_id from user_tokens where token=$1", [token]); if (rows.length != 1) throw new Error("Invalid/Expired Token"); req.user = payload.userId; // make Id accessible in route handlers } else if (payload.type === 'peripheral'){ const {rows} = await pool.query("select device_id from device_tokens where token=$1", [token]); if (rows.length != 1) throw new Error("Invalid/Expired Token"); req.peripheral = payload.peripheralId; } else { throw new Error("Invalid/Expired Token"); } next(); } catch { return res.sendStatus(403); // invalid/expired token } } app.get('/', (req, res) => { res.send('Hello World!'); }); app.post('/login', async (req, res) => { const { email, password } = req.body; console.log('login'); if (!email || !password) return res.status(400).json({error: 'email and password required'}); try { const {rows} = await pool.query('select id, password_hash_string from users where email = $1', [email]); if (rows.length === 0) return res.status(401).json({error: 'Invalid Credentials'}); const user = rows[0] console.log('user found'); const verified = await verify(user.password_hash_string, password); if (!verified) return res.status(401).json({ error: 'Invalid credentials' }); console.log("password correct"); const token = await createToken(user.id); // token is now tied to ID res.status(200).json({token}); } catch (err) { console.error(err); res.status(500).json({ error: 'Internal server error' }); } }); app.post('/create_user', async (req, res) => { console.log("got post req"); const {name, email, password} = req.body try { const hashedPass = await hash(password); await pool.query("insert into users (name, email, password_hash_string) values (nullif($1, ''), $2, $3)", [name, email, hashedPass] ); return res.sendStatus(201); } catch (err) { console.error(err); if (err.code === '23505') { return res.status(409).json({ error: 'Email already in use' }); } return res.sendStatus(500); } }); app.get('/verify', authenticateToken, async (req, res) => { try { // Issue a new token to extend session const newToken = await createToken(req.user); res.status(200).json({token: newToken}); } catch { res.status(500).json({ error: 'server error' }); } }); app.get('/device_list', authenticateToken, async (req, res) => { try { console.log("device List request"); console.log(req.user); const {rows} = await pool.query('select id, device_name, max_ports from devices where user_id = $1', [req.user]); const deviceNames = rows.map(row => row.device_name); const deviceIds = rows.map(row => row.id); const maxPorts = rows.map(row => row.max_ports); res.status(200).json({ device_ids: deviceIds, devices: deviceNames, max_ports: maxPorts }); } catch { res.status(500).json({error: 'Internal Server Error'}); } }); app.get('/device_name', authenticateToken, async (req, res) => { console.log("deviceName"); try { const {deviceId} = req.query; const {rows} = await pool.query('select device_name, max_ports from devices where id=$1 and user_id=$2', [deviceId, req.user]); if (rows.length != 1) return res.sendStatus(404); const deviceName = rows[0].device_name; const maxPorts = rows[0].max_ports; res.status(200).json({device_name: deviceName, max_ports: maxPorts}); } catch { res.sendStatus(500); } }); app.get('/peripheral_list', authenticateToken, async (req, res) => { console.log("periph list") try { const {deviceId} = req.query; const {rows} = await pool.query('select id, peripheral_number, peripheral_name from peripherals where device_id=$1 and user_id=$2', [deviceId, req.user]); const peripheralIds = rows.map(row => row.id); const portNums = rows.map(row => row.peripheral_number); const peripheralNames = rows.map(row => row.peripheral_name); res.status(200).json({peripheral_ids: peripheralIds, port_nums: portNums, peripheral_names: peripheralNames}); } catch { res.sendStatus(500); } }) app.post('/add_device', authenticateToken, async (req, res) => { try { console.log("add device request"); console.log(req.user); console.log(req.peripheral); const {deviceName, maxPorts} = req.body; console.log(deviceName); const ports = maxPorts || 4; // Default to 4 for multi-port devices const {rows} = await pool.query("insert into devices (user_id, device_name, max_ports) values ($1, $2, $3) returning id", [req.user, deviceName, ports] ); // finish token return based on device ID. const deviceInitToken = await createTempPeriphToken(rows[0].id); res.status(201).json({token: deviceInitToken}); } catch (err) { console.log(err); if (err.code == '23505') { return res.status(409).json({ error: 'Device Name in use' }); } res.status(500).json({error: 'Internal Server Error'}); } }); app.post('/add_peripheral', authenticateToken, async (req, res) => { try { const {device_id, port_num, peripheral_name} = req.body; await pool.query("insert into peripherals (device_id, peripheral_number, peripheral_name, user_id) values ($1, $2, $3, $4)", [device_id, port_num, peripheral_name, req.user] ); res.sendStatus(201); } catch (err){ if (err.code == '23505') return res.sendStatus(409); res.sendStatus(500); } }); app.get('/verify_device', authenticateToken, async (req, res) => { console.log("device verify"); try{ console.log(req.peripheral); // Check if this is a single-port device const {rows: deviceRows} = await pool.query("select max_ports, user_id from devices where id=$1", [req.peripheral]); if (deviceRows.length === 0) { return res.status(404).json({error: "Device not found"}); } const maxPorts = deviceRows[0].max_ports; const userId = deviceRows[0].user_id; // For single-port devices, automatically create the peripheral if it doesn't exist if (maxPorts === 1) { const {rows: periphRows} = await pool.query( "select id from peripherals where device_id=$1", [req.peripheral] ); if (periphRows.length === 0) { // Create default peripheral for C6 device await pool.query( "insert into peripherals (device_id, peripheral_number, peripheral_name, user_id) values ($1, 1, $2, $3)", [req.peripheral, "Main Blind", userId] ); console.log("Created default peripheral for single-port device"); } } await pool.query("delete from device_tokens where device_id=$1", [req.peripheral]); const newToken = await createPeripheralToken(req.peripheral); console.log("New Token", newToken); res.json({token: newToken, id: req.peripheral}); } catch (error) { console.error("Error in verify_device:", error); res.status(500).json({error: "server error"}); } }); app.get('/position', authenticateToken, async (req, res) => { console.log("devicepos"); try { const {rows} = await pool.query("select last_pos, peripheral_number, await_calib from peripherals where device_id=$1", [req.peripheral]); if (rows.length == 0) { return res.sendStatus(404); } res.status(200).json(rows); } catch { res.status(500).json({error: "server error"}); } }); app.post('/manual_position_update', authenticateToken, async (req, res) => { console.log("setpos"); try { const {periphId, periphNum, deviceId, newPos} = req.body; const changedPosList = [{periphNum: periphNum, periphID: periphId, pos: newPos}]; // Schedule the job to run immediately const job = await agenda.now('posChange', {deviceID: deviceId, changedPosList: changedPosList, userID: req.user}); res.status(202).json({ // 202 Accepted, as processing happens in background success: true, message: 'Request accepted for immediate processing.', jobId: job.attrs._id }); } catch (error) { console.error('Error triggering immediate action:', error); res.status(500).json({ success: false, message: 'Failed to trigger immediate action', error: error.message }); } }); app.post('/calib', authenticateToken, async (req, res) => { console.log("calibrate"); try { const {periphId} = req.body; // Schedule the job to run immediately const job = await agenda.now('calib', {periphID: periphId, userID: req.user}); res.status(202).json({ // 202 Accepted, as processing happens in background success: true, message: 'Request accepted for immediate processing.', jobId: job.attrs._id }); } catch (err) { console.error('Error triggering immediate action:', err); res.sendStatus(500); } }) app.post('/cancel_calib', authenticateToken, async (req, res) => { console.log("cancelCalib"); try { const {periphId} = req.body; const job = await agenda.now('cancel_calib', {periphID: periphId, userID: req.user}); res.status(202).json({ // 202 Accepted, as processing happens in background success: true, message: 'Request accepted for immediate processing.', jobId: job.attrs._id }); } catch { res.sendStatus(500); } }); app.get('/peripheral_status', authenticateToken, async (req, res) => { console.log("status"); try { const {periphId} = req.query; const {rows} = await pool.query("select last_pos, last_set, calibrated, await_calib from peripherals where id=$1 and user_id=$2", [periphId, req.user] ); if (rows.length != 1) return res.sendStatus(404); res.status(200).json({last_pos: rows[0].last_pos, last_set: rows[0].last_set, calibrated: rows[0].calibrated, await_calib: rows[0].await_calib}); } catch { res.sendStatus(500); } }); app.get('/peripheral_name', authenticateToken, async (req, res) => { console.log("urmom"); try { const {periphId} = req.query; const {rows} = await pool.query("select peripheral_name from peripherals where id=$1 and user_id=$2", [periphId, req.user] ); if (rows.length != 1) return res.sendStatus(404); res.status(200).json({name: rows[0].peripheral_name}); } catch { res.sendStatus(500); } }) app.get('/device_connection_status', authenticateToken, async (req, res) => { console.log("device connection status"); try { const {deviceId} = req.query; // Verify device belongs to user const {rows: deviceRows} = await pool.query("select id from devices where id=$1 and user_id=$2", [deviceId, req.user] ); if (deviceRows.length != 1) return res.sendStatus(404); // Check if device has an active socket connection const {rows} = await pool.query("select connected from device_tokens where device_id=$1 and connected=TRUE", [deviceId] ); res.status(200).json({connected: rows.length > 0}); } catch { res.sendStatus(500); } }) app.post('/completed_calib', authenticateToken, async (req, res) => { console.log("calibration complete"); try { const {portNum} = req.body; const result = await pool.query("update peripherals set calibrated=true, await_calib=false where device_id=$1 and peripheral_number=$2", [req.peripheral, portNum] ); if (result.rowCount === 0) return res.sendStatus(404); res.sendStatus(204); } catch (error) { console.error(error); res.sendStatus(500); } }); app.post('/rename_device', authenticateToken, async (req, res) => { console.log("Hub rename"); try { const {deviceId, newName} = req.body; const result = await pool.query("update devices set device_name=$1 where id=$2 and user_id=$3", [newName, deviceId, req.user]); if (result.rowCount === 0) return res.sendStatus(404); res.sendStatus(204); } catch (err) { if (err.code == '23505') return res.sendStatus(409); console.error(err); res.sendStatus(500); } }); app.post('/rename_peripheral', authenticateToken, async (req, res) => { console.log("Hub rename"); try { const {periphId, newName} = req.body; const result = await pool.query("update peripherals set peripheral_name=$1 where id=$2 and user_id=$3", [newName, periphId, req.user]); if (result.rowCount === 0) return res.sendStatus(404); res.sendStatus(204); } catch (err) { if (err.code == '23505') return res.sendStatus(409); console.error(err); res.sendStatus(500); } }); app.post('/delete_device', authenticateToken, async (req, res) => { console.log("delete device"); try { const {deviceId} = req.body; const {rows} = await pool.query("delete from devices where user_id=$1 and id=$2 returning id", [req.user, deviceId] ); if (rows.length != 1) { return res.status(404).json({ error: 'Device not found' }); } // Get socket ID before deleting tokens const {rows: tokenRows} = await pool.query( "select socket from device_tokens where device_id=$1 and connected=TRUE", [rows[0].id] ); // Delete device tokens await pool.query("delete from device_tokens where device_id=$1", [rows[0].id]); // Forcefully disconnect the Socket.IO connection if device is connected if (tokenRows.length > 0) { tokenRows.forEach(row => { if (row.socket) { const socket = io.sockets.sockets.get(row.socket); if (socket) { console.log(`Forcefully disconnecting device socket ${row.socket}`); socket.emit('device_deleted', { message: 'Device has been deleted from the account' }); socket.disconnect(true); } } }); } res.sendStatus(204); } catch (error) { console.error("Error deleting device:", error); res.status(500).json({error: "server error"}); } }); app.post('/delete_peripheral', authenticateToken, async (req, res) => { console.log("delete peripheral"); try { const {periphId} = req.body; const {rows} = await pool.query("delete from peripherals where user_id = $1 and id=$2 returning id", [req.user, periphId] ); if (rows.length != 1) { return res.status(404).json({ error: 'Device not found' }); } res.sendStatus(204); } catch { res.sendStatus(500); } }) server.listen(port, () => { console.log(`Example app listening at http://localhost:${port}`); }); app.post('/periph_schedule_list', authenticateToken, async (req, res) => { try { console.log("Schedule List request for user:", req.user); const { periphId } = req.body; if (!periphId) { return res.status(400).json({ error: 'periphId is required in the request body.' }); } // FIX 1: Assign the returned array directly to a variable (e.g., 'jobs') const jobs = await agenda.jobs({ 'name': 'posChangeScheduled', 'data.changedPosList': { $size: 1 }, 'data.changedPosList.0.periphID': periphId, 'data.userID': req.user }); // FIX 2: Use .filter() and .map() to handle all cases cleanly. // This creates a cleaner, more predictable transformation pipeline. const details = jobs // Step 1: Filter out any jobs that are not recurring. .filter(job => job.attrs.repeatInterval) // Step 2: Map the remaining recurring jobs to our desired format. .map(job => { const { repeatInterval, data, repeatTimezone } = job.attrs; try { const interval = cronParser.parseExpression(repeatInterval, { tz: repeatTimezone || undefined }); const fields = interval.fields; // Make sure to declare the variable const parsedSchedule = { minutes: fields.minute, hours: fields.hour, daysOfMonth: fields.dayOfMonth, months: fields.month, daysOfWeek: fields.dayOfWeek, }; return { id: job.attrs._id, // It's good practice to return the job ID schedule: parsedSchedule, pos: data.changedPosList[0].pos }; } catch (err) { // If parsing fails for a specific job, log it and filter it out. console.error(`Could not parse "${repeatInterval}" for job ${job.attrs._id}. Skipping.`); return null; // Return null for now } }) // Step 3: Filter out any nulls that resulted from a parsing error. .filter(detail => detail !== null); res.status(200).json({ scheduledUpdates: details }); } catch (error) { // FIX 3: Capture and log the actual error console.error("Error in /periph_schedule_list:", error); res.status(500).json({ error: 'Internal Server Error' }); } });