/** * OpenHamClock Server * * Express server that: * 1. Serves the static web application * 2. Proxies API requests to avoid CORS issues * 3. Provides WebSocket support for future real-time features * * Usage: * node server.js * PORT=8080 node server.js */ const express = require('express'); const cors = require('cors'); const path = require('path'); const fetch = require('node-fetch'); const app = express(); const PORT = process.env.PORT || 3000; // Middleware app.use(cors()); app.use(express.json()); // Serve static files from public directory app.use(express.static(path.join(__dirname, 'public'))); // ============================================ // API PROXY ENDPOINTS // ============================================ // NOAA Space Weather - Solar Flux app.get('/api/noaa/flux', async (req, res) => { try { const response = await fetch('https://services.swpc.noaa.gov/json/f107_cm_flux.json'); const data = await response.json(); res.json(data); } catch (error) { console.error('NOAA Flux API error:', error.message); res.status(500).json({ error: 'Failed to fetch solar flux data' }); } }); // NOAA Space Weather - K-Index app.get('/api/noaa/kindex', async (req, res) => { try { const response = await fetch('https://services.swpc.noaa.gov/products/noaa-planetary-k-index.json'); const data = await response.json(); res.json(data); } catch (error) { console.error('NOAA K-Index API error:', error.message); res.status(500).json({ error: 'Failed to fetch K-index data' }); } }); // NOAA Space Weather - Sunspots app.get('/api/noaa/sunspots', async (req, res) => { try { const response = await fetch('https://services.swpc.noaa.gov/json/solar-cycle/observed-solar-cycle-indices.json'); const data = await response.json(); res.json(data); } catch (error) { console.error('NOAA Sunspots API error:', error.message); res.status(500).json({ error: 'Failed to fetch sunspot data' }); } }); // NOAA Space Weather - X-Ray Flux app.get('/api/noaa/xray', async (req, res) => { try { const response = await fetch('https://services.swpc.noaa.gov/json/goes/primary/xrays-7-day.json'); const data = await response.json(); res.json(data); } catch (error) { console.error('NOAA X-Ray API error:', error.message); res.status(500).json({ error: 'Failed to fetch X-ray data' }); } }); // POTA Spots app.get('/api/pota/spots', async (req, res) => { try { const response = await fetch('https://api.pota.app/spot/activator'); const data = await response.json(); res.json(data); } catch (error) { console.error('POTA API error:', error.message); res.status(500).json({ error: 'Failed to fetch POTA spots' }); } }); // SOTA Spots app.get('/api/sota/spots', async (req, res) => { try { const response = await fetch('https://api2.sota.org.uk/api/spots/50/all'); const data = await response.json(); res.json(data); } catch (error) { console.error('SOTA API error:', error.message); res.status(500).json({ error: 'Failed to fetch SOTA spots' }); } }); // HamQSL Band Conditions app.get('/api/hamqsl/conditions', async (req, res) => { try { const response = await fetch('https://www.hamqsl.com/solarxml.php'); const text = await response.text(); res.set('Content-Type', 'application/xml'); res.send(text); } catch (error) { console.error('HamQSL API error:', error.message); res.status(500).json({ error: 'Failed to fetch band conditions' }); } }); // DX Cluster proxy - fetches from multiple sources with detailed logging app.get('/api/dxcluster/spots', async (req, res) => { console.log('[DX Cluster] ========== Fetching spots =========='); // Source 1: HamQTH (uses ^ delimiter!) try { console.log('[DX Cluster] Trying HamQTH...'); const controller = new AbortController(); const timeout = setTimeout(() => controller.abort(), 8000); const response = await fetch('https://www.hamqth.com/dxc_csv.php', { headers: { 'User-Agent': 'OpenHamClock/3.3' }, signal: controller.signal }); clearTimeout(timeout); console.log('[DX Cluster] HamQTH status:', response.status); if (response.ok) { const text = await response.text(); console.log('[DX Cluster] HamQTH response length:', text.length); const lines = text.trim().split('\n').filter(line => line.trim() && !line.startsWith('#')); console.log('[DX Cluster] HamQTH lines count:', lines.length); if (lines.length > 0) { const spots = []; for (const line of lines.slice(0, 25)) { // HamQTH format uses ^ delimiter: // spotter^freq^dx_call^comment^time date^^^continent^band^country^id // Example: F5PAC^7022.0^KP5/NP3VI^Up 2^0610 2026-01-30^^^NA^40M^Desecheo Island^43 const parts = line.split('^'); if (parts.length >= 5) { const spotter = parts[0] || ''; const freqKhz = parts[1] || ''; const dxCall = parts[2] || ''; const comment = parts[3] || ''; const timeDate = parts[4] || ''; // "0610 2026-01-30" const band = parts[9] || ''; // Parse frequency (already in kHz, convert to MHz) const freqNum = parseFloat(freqKhz); if (!isNaN(freqNum) && freqNum > 0 && dxCall) { // Convert kHz to MHz for display (7022.0 -> 7.022) const freqMhz = (freqNum / 1000).toFixed(3); // Extract time from "0610 2026-01-30" -> "06:10z" let time = ''; if (timeDate && timeDate.length >= 4) { const timeStr = timeDate.substring(0, 4); time = timeStr.substring(0, 2) + ':' + timeStr.substring(2, 4) + 'z'; } spots.push({ freq: freqMhz, call: dxCall, comment: comment + (band ? ' ' + band : ''), time: time, spotter: spotter }); } } } console.log('[DX Cluster] HamQTH parsed spots:', spots.length); if (spots.length > 0) { console.log('[DX Cluster] HamQTH first spot:', JSON.stringify(spots[0])); console.log('[DX Cluster] HamQTH SUCCESS:', spots.length, 'spots'); return res.json(spots); } } } } catch (error) { console.error('[DX Cluster] HamQTH error:', error.name, error.message); } // Source 2: DX Summit try { console.log('[DX Cluster] Trying DX Summit...'); const controller = new AbortController(); const timeout = setTimeout(() => controller.abort(), 8000); const response = await fetch('https://www.dxsummit.fi/api/v1/spots?limit=25', { headers: { 'User-Agent': 'OpenHamClock/3.3 (Amateur Radio Dashboard)', 'Accept': 'application/json' }, signal: controller.signal }); clearTimeout(timeout); console.log('[DX Cluster] DX Summit status:', response.status); if (response.ok) { const text = await response.text(); console.log('[DX Cluster] DX Summit response preview:', text.substring(0, 300)); try { const data = JSON.parse(text); console.log('[DX Cluster] DX Summit data type:', typeof data, Array.isArray(data) ? 'array len=' + data.length : 'object'); if (Array.isArray(data) && data.length > 0) { console.log('[DX Cluster] DX Summit first item:', JSON.stringify(data[0])); const spots = data.slice(0, 20).map(spot => ({ freq: spot.frequency ? String(spot.frequency) : '0.000', call: spot.dx_call || spot.dxcall || spot.callsign || 'UNKNOWN', comment: spot.info || spot.comment || '', time: spot.time ? String(spot.time).substring(0, 5) + 'z' : '', spotter: spot.spotter || spot.de || '' })); console.log('[DX Cluster] DX Summit SUCCESS:', spots.length, 'spots'); return res.json(spots); } } catch (parseErr) { console.log('[DX Cluster] DX Summit parse error:', parseErr.message); } } } catch (error) { console.error('[DX Cluster] DX Summit error:', error.name, error.message); } // Source 3: DXHeat (backup) try { console.log('[DX Cluster] Trying DXHeat...'); const controller = new AbortController(); const timeout = setTimeout(() => controller.abort(), 8000); const response = await fetch('https://dxheat.com/dxc/data.php', { headers: { 'User-Agent': 'OpenHamClock/3.3', 'Accept': 'application/json' }, signal: controller.signal }); clearTimeout(timeout); console.log('[DX Cluster] DXHeat status:', response.status); if (response.ok) { const text = await response.text(); console.log('[DX Cluster] DXHeat response preview:', text.substring(0, 300)); try { const data = JSON.parse(text); const spots = data.spots || data; if (Array.isArray(spots) && spots.length > 0) { const mapped = spots.slice(0, 20).map(spot => ({ freq: spot.f || spot.frequency || '0.000', call: spot.c || spot.dx || spot.callsign || 'UNKNOWN', comment: spot.i || spot.info || '', time: spot.t ? String(spot.t).substring(11, 16) + 'z' : '', spotter: spot.s || spot.spotter || '' })); console.log('[DX Cluster] DXHeat SUCCESS:', mapped.length, 'spots'); return res.json(mapped); } } catch (parseErr) { console.log('[DX Cluster] DXHeat parse error:', parseErr.message); } } } catch (error) { console.error('[DX Cluster] DXHeat error:', error.name, error.message); } console.log('[DX Cluster] ========== ALL SOURCES FAILED =========='); res.json([]); }); // ============================================ // VOACAP / HF PROPAGATION PREDICTION API // ============================================ app.get('/api/propagation', async (req, res) => { const { deLat, deLon, dxLat, dxLon } = req.query; console.log('[Propagation] Calculating for DE:', deLat, deLon, 'to DX:', dxLat, dxLon); try { // Get current space weather data for calculations let sfi = 150, ssn = 100, kIndex = 2; // Defaults try { const [fluxRes, kRes] = await Promise.allSettled([ fetch('https://services.swpc.noaa.gov/json/f107_cm_flux.json'), fetch('https://services.swpc.noaa.gov/products/noaa-planetary-k-index.json') ]); if (fluxRes.status === 'fulfilled' && fluxRes.value.ok) { const data = await fluxRes.value.json(); if (data?.length) sfi = Math.round(data[data.length - 1].flux || 150); } if (kRes.status === 'fulfilled' && kRes.value.ok) { const data = await kRes.value.json(); if (data?.length > 1) kIndex = parseInt(data[data.length - 1][1]) || 2; } // Estimate SSN from SFI: SSN ≈ (SFI - 67) / 0.97 ssn = Math.max(0, Math.round((sfi - 67) / 0.97)); } catch (e) { console.log('[Propagation] Using default solar values'); } console.log('[Propagation] Solar data - SFI:', sfi, 'SSN:', ssn, 'K:', kIndex); // Calculate distance and bearing const de = { lat: parseFloat(deLat) || 40, lon: parseFloat(deLon) || -75 }; const dx = { lat: parseFloat(dxLat) || 35, lon: parseFloat(dxLon) || 139 }; const distance = calculateDistance(de.lat, de.lon, dx.lat, dx.lon); const midLat = (de.lat + dx.lat) / 2; console.log('[Propagation] Distance:', Math.round(distance), 'km, MidLat:', midLat.toFixed(1)); // Calculate propagation for each band at each hour const bands = ['160m', '80m', '40m', '30m', '20m', '17m', '15m', '12m', '10m', '6m']; const bandFreqs = [1.8, 3.5, 7, 10, 14, 18, 21, 24, 28, 50]; // MHz const currentHour = new Date().getUTCHours(); // Generate 24-hour predictions const predictions = {}; bands.forEach((band, idx) => { const freq = bandFreqs[idx]; predictions[band] = []; for (let hour = 0; hour < 24; hour++) { const reliability = calculateBandReliability( freq, distance, midLat, hour, sfi, ssn, kIndex, de, dx ); predictions[band].push({ hour, reliability: Math.round(reliability), snr: calculateSNR(reliability) }); } }); // Get current best bands const currentBands = bands.map((band, idx) => ({ band, freq: bandFreqs[idx], reliability: predictions[band][currentHour].reliability, snr: predictions[band][currentHour].snr, status: getStatus(predictions[band][currentHour].reliability) })).sort((a, b) => b.reliability - a.reliability); res.json({ solarData: { sfi, ssn, kIndex }, distance: Math.round(distance), currentHour, currentBands, hourlyPredictions: predictions }); } catch (error) { console.error('[Propagation] Error:', error.message); res.status(500).json({ error: 'Failed to calculate propagation' }); } }); // Calculate great circle distance in km function calculateDistance(lat1, lon1, lat2, lon2) { const R = 6371; const dLat = (lat2 - lat1) * Math.PI / 180; const dLon = (lon2 - lon1) * Math.PI / 180; const a = Math.sin(dLat/2) * Math.sin(dLat/2) + Math.cos(lat1 * Math.PI / 180) * Math.cos(lat2 * Math.PI / 180) * Math.sin(dLon/2) * Math.sin(dLon/2); return R * 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a)); } // Calculate band reliability percentage (simplified VOACAP-style) function calculateBandReliability(freq, distance, midLat, hour, sfi, ssn, kIndex, de, dx) { // Maximum Usable Frequency estimation // MUF ≈ criticalFreq * secant(zenith angle) * sqrt(1 + distance/4000) // Critical frequency varies with solar activity and time // foF2 ≈ 0.85 * sqrt(ssn + 12) * (1 + 0.3 * cos(hour * PI / 12)) const hourFactor = 1 + 0.4 * Math.cos((hour - 12) * Math.PI / 12); const foF2 = 0.9 * Math.sqrt(ssn + 15) * hourFactor; // Distance factor (longer paths need lower angles, higher MUF) const distFactor = Math.sqrt(1 + distance / 3500); // Latitude factor (higher latitudes = more absorption, lower MUF) const latFactor = 1 - Math.abs(midLat) / 200; // Estimated MUF const muf = foF2 * distFactor * latFactor * 3.5; // Lowest Usable Frequency (absorption limit) // LUF increases with solar activity and during daytime const dayNight = isDaytime(hour, (de.lon + dx.lon) / 2) ? 1.5 : 0.5; const luf = 2 + (sfi / 100) * dayNight + kIndex * 0.5; // Calculate reliability based on frequency vs MUF/LUF let reliability = 0; if (freq > muf) { // Frequency above MUF - poor propagation reliability = Math.max(0, 50 - (freq - muf) * 10); } else if (freq < luf) { // Frequency below LUF - too much absorption reliability = Math.max(0, 50 - (luf - freq) * 15); } else { // Frequency in usable range const midFreq = (muf + luf) / 2; const optimalness = 1 - Math.abs(freq - midFreq) / (muf - luf); reliability = 50 + optimalness * 45; } // K-index degradation (geomagnetic storms) if (kIndex >= 5) reliability *= 0.3; else if (kIndex >= 4) reliability *= 0.6; else if (kIndex >= 3) reliability *= 0.8; // Distance adjustment - very long paths are harder if (distance > 15000) reliability *= 0.7; else if (distance > 10000) reliability *= 0.85; // High bands need higher solar activity if (freq >= 21 && sfi < 100) reliability *= (sfi / 100); if (freq >= 28 && sfi < 120) reliability *= (sfi / 120); return Math.min(99, Math.max(0, reliability)); } // Check if it's daytime at given longitude function isDaytime(utcHour, longitude) { const localHour = (utcHour + longitude / 15 + 24) % 24; return localHour >= 6 && localHour <= 18; } // Convert reliability to estimated SNR function calculateSNR(reliability) { if (reliability >= 80) return '+20dB'; if (reliability >= 60) return '+10dB'; if (reliability >= 40) return '0dB'; if (reliability >= 20) return '-10dB'; return '-20dB'; } // Get status label from reliability function getStatus(reliability) { if (reliability >= 70) return 'EXCELLENT'; if (reliability >= 50) return 'GOOD'; if (reliability >= 30) return 'FAIR'; if (reliability >= 15) return 'POOR'; return 'CLOSED'; } // QRZ Callsign lookup (requires API key) app.get('/api/qrz/lookup/:callsign', async (req, res) => { const { callsign } = req.params; // Note: QRZ requires an API key - this is a placeholder res.json({ message: 'QRZ lookup requires API key configuration', callsign: callsign.toUpperCase() }); }); // ============================================ // CONTEST CALENDAR API // ============================================ app.get('/api/contests', async (req, res) => { console.log('[Contests] Fetching contest calendar...'); // Try WA7BNM Contest Calendar API try { const response = await fetch('https://www.contestcalendar.com/contestcal.json', { headers: { 'User-Agent': 'OpenHamClock/3.3', 'Accept': 'application/json' } }); if (response.ok) { const data = await response.json(); console.log('[Contests] WA7BNM returned', data.length, 'contests'); const now = new Date(); const contests = data .filter(c => new Date(c.end) > now) // Only future/active .slice(0, 20) .map(c => { const startDate = new Date(c.start); const endDate = new Date(c.end); let status = 'upcoming'; if (now >= startDate && now <= endDate) { status = 'active'; } return { name: c.name || c.contest, start: startDate.toISOString(), end: endDate.toISOString(), mode: c.mode || 'Mixed', status: status, url: c.url || null }; }); return res.json(contests); } } catch (error) { console.error('[Contests] WA7BNM error:', error.message); } // Fallback: Calculate known recurring contests try { const contests = calculateUpcomingContests(); console.log('[Contests] Using calculated contests:', contests.length); return res.json(contests); } catch (error) { console.error('[Contests] Calculation error:', error.message); } res.json([]); }); // Helper function to calculate upcoming contests function calculateUpcomingContests() { const now = new Date(); const contests = []; // Major contest definitions with typical schedules const majorContests = [ { name: 'CQ WW DX CW', month: 10, weekend: -1, duration: 48, mode: 'CW' }, // Last full weekend Nov { name: 'CQ WW DX SSB', month: 9, weekend: -1, duration: 48, mode: 'SSB' }, // Last full weekend Oct { name: 'ARRL DX CW', month: 1, weekend: 3, duration: 48, mode: 'CW' }, // 3rd full weekend Feb { name: 'ARRL DX SSB', month: 2, weekend: 1, duration: 48, mode: 'SSB' }, // 1st full weekend Mar { name: 'CQ WPX SSB', month: 2, weekend: -1, duration: 48, mode: 'SSB' }, // Last full weekend Mar { name: 'CQ WPX CW', month: 4, weekend: -1, duration: 48, mode: 'CW' }, // Last full weekend May { name: 'IARU HF Championship', month: 6, weekend: 2, duration: 24, mode: 'Mixed' }, // 2nd full weekend Jul { name: 'ARRL Field Day', month: 5, weekend: 4, duration: 27, mode: 'Mixed' }, // 4th full weekend Jun { name: 'ARRL Sweepstakes CW', month: 10, weekend: 1, duration: 24, mode: 'CW' }, // 1st full weekend Nov { name: 'ARRL Sweepstakes SSB', month: 10, weekend: 3, duration: 24, mode: 'SSB' }, // 3rd full weekend Nov { name: 'ARRL 10m Contest', month: 11, weekend: 2, duration: 48, mode: 'Mixed' }, // 2nd full weekend Dec { name: 'ARRL RTTY Roundup', month: 0, weekend: 1, duration: 24, mode: 'RTTY' }, // 1st full weekend Jan { name: 'NA QSO Party CW', month: 0, weekend: 2, duration: 12, mode: 'CW' }, { name: 'NA QSO Party SSB', month: 0, weekend: 3, duration: 12, mode: 'SSB' }, { name: 'CQ 160m CW', month: 0, weekend: -1, duration: 42, mode: 'CW' }, { name: 'CQ WW RTTY', month: 8, weekend: -1, duration: 48, mode: 'RTTY' }, { name: 'JIDX CW', month: 3, weekend: 2, duration: 48, mode: 'CW' }, { name: 'JIDX SSB', month: 10, weekend: 2, duration: 48, mode: 'SSB' }, ]; // Weekly mini-contests (CWT, SST, etc.) const weeklyContests = [ { name: 'CWT 1300z', dayOfWeek: 3, hour: 13, duration: 1, mode: 'CW' }, { name: 'CWT 1900z', dayOfWeek: 3, hour: 19, duration: 1, mode: 'CW' }, { name: 'CWT 0300z', dayOfWeek: 4, hour: 3, duration: 1, mode: 'CW' }, { name: 'NCCC Sprint', dayOfWeek: 5, hour: 3, minute: 30, duration: 0.5, mode: 'CW' }, { name: 'K1USN SST', dayOfWeek: 0, hour: 0, duration: 1, mode: 'CW' }, { name: 'ICWC MST', dayOfWeek: 1, hour: 13, duration: 1, mode: 'CW' }, ]; // Calculate next occurrences of weekly contests weeklyContests.forEach(contest => { const next = new Date(now); const currentDay = now.getUTCDay(); let daysUntil = contest.dayOfWeek - currentDay; if (daysUntil < 0) daysUntil += 7; if (daysUntil === 0) { // Check if it's today but already passed const todayStart = new Date(now); todayStart.setUTCHours(contest.hour, contest.minute || 0, 0, 0); if (now > todayStart) daysUntil = 7; } next.setUTCDate(now.getUTCDate() + daysUntil); next.setUTCHours(contest.hour, contest.minute || 0, 0, 0); const endTime = new Date(next.getTime() + contest.duration * 3600000); contests.push({ name: contest.name, start: next.toISOString(), end: endTime.toISOString(), mode: contest.mode, status: (now >= next && now <= endTime) ? 'active' : 'upcoming' }); }); // Calculate next occurrences of major contests const year = now.getFullYear(); majorContests.forEach(contest => { for (let y = year; y <= year + 1; y++) { let startDate; if (contest.weekend === -1) { // Last weekend of month startDate = getLastWeekendOfMonth(y, contest.month); } else { // Nth weekend of month startDate = getNthWeekendOfMonth(y, contest.month, contest.weekend); } // Most contests start at 00:00 UTC Saturday startDate.setUTCHours(0, 0, 0, 0); const endDate = new Date(startDate.getTime() + contest.duration * 3600000); if (endDate > now) { const status = (now >= startDate && now <= endDate) ? 'active' : 'upcoming'; contests.push({ name: contest.name, start: startDate.toISOString(), end: endDate.toISOString(), mode: contest.mode, status: status }); break; // Only add next occurrence } } }); // Sort by start date contests.sort((a, b) => new Date(a.start) - new Date(b.start)); return contests.slice(0, 15); } function getNthWeekendOfMonth(year, month, n) { const date = new Date(Date.UTC(year, month, 1, 0, 0, 0)); let weekendCount = 0; while (date.getUTCMonth() === month) { if (date.getUTCDay() === 6) { // Saturday weekendCount++; if (weekendCount === n) return new Date(date); } date.setUTCDate(date.getUTCDate() + 1); } return date; } function getLastWeekendOfMonth(year, month) { // Start from last day of month and work backwards const date = new Date(Date.UTC(year, month + 1, 0)); // Last day of month while (date.getUTCDay() !== 6) { // Find last Saturday date.setUTCDate(date.getUTCDate() - 1); } return date; } // ============================================ // HEALTH CHECK // ============================================ app.get('/api/health', (req, res) => { res.json({ status: 'ok', version: '3.3.0', uptime: process.uptime(), timestamp: new Date().toISOString() }); }); // ============================================ // CONFIGURATION ENDPOINT // ============================================ app.get('/api/config', (req, res) => { res.json({ version: '3.0.0', features: { spaceWeather: true, pota: true, sota: true, dxCluster: true, satellites: false, // Coming soon contests: false // Coming soon }, refreshIntervals: { spaceWeather: 300000, pota: 60000, sota: 60000, dxCluster: 30000 } }); }); // ============================================ // CATCH-ALL FOR SPA // ============================================ app.get('*', (req, res) => { res.sendFile(path.join(__dirname, 'public', 'index.html')); }); // ============================================ // START SERVER // ============================================ app.listen(PORT, () => { console.log(''); console.log('╔═══════════════════════════════════════════════════════╗'); console.log('║ ║'); console.log('║ ██████╗ ██████╗ ███████╗███╗ ██╗ ║'); console.log('║ ██╔═══██╗██╔══██╗██╔════╝████╗ ██║ ║'); console.log('║ ██║ ██║██████╔╝█████╗ ██╔██╗ ██║ ║'); console.log('║ ██║ ██║██╔═══╝ ██╔══╝ ██║╚██╗██║ ║'); console.log('║ ╚██████╔╝██║ ███████╗██║ ╚████║ ║'); console.log('║ ╚═════╝ ╚═╝ ╚══════╝╚═╝ ╚═══╝ ║'); console.log('║ ║'); console.log('║ ██╗ ██╗ █████╗ ███╗ ███╗ ██████╗██╗ ██╗ ██╗ ║'); console.log('║ ██║ ██║██╔══██╗████╗ ████║██╔════╝██║ ██║ ██╔╝ ║'); console.log('║ ███████║███████║██╔████╔██║██║ ██║ █████╔╝ ║'); console.log('║ ██╔══██║██╔══██║██║╚██╔╝██║██║ ██║ ██╔═██╗ ║'); console.log('║ ██║ ██║██║ ██║██║ ╚═╝ ██║╚██████╗███████╗██║ ██╗ ║'); console.log('║ ╚═╝ ╚═╝╚═╝ ╚═╝╚═╝ ╚═╝ ╚═════╝╚══════╝╚═╝ ╚═╝ ║'); console.log('║ ║'); console.log('╚═══════════════════════════════════════════════════════╝'); console.log(''); console.log(` 🌐 Server running at http://localhost:${PORT}`); console.log(' 📡 API proxy enabled for NOAA, POTA, SOTA, DX Cluster'); console.log(' 🖥️ Open your browser to start using OpenHamClock'); console.log(''); console.log(' In memory of Elwood Downey, WB0OEW'); console.log(' 73 de OpenHamClock contributors'); console.log(''); }); // Graceful shutdown process.on('SIGTERM', () => { console.log('SIGTERM received, shutting down gracefully'); process.exit(0); }); process.on('SIGINT', () => { console.log('\nShutting down...'); process.exit(0); });