#!/usr/bin/env python3
"""
ProxMenux Flask Server
Provides REST API endpoints for Proxmox monitoring data
Runs on port 8008 and serves system metrics, storage info, network stats, etc.
Also serves the Next.js dashboard as static files
"""
from flask import Flask, jsonify, request, send_from_directory, send_file
from flask_cors import CORS
import psutil
import subprocess
import json
import os
import time
import socket
from datetime import datetime, timedelta
import re # Added for regex matching
import select # Added for non-blocking read
import shutil # Added for shutil.which
app = Flask(__name__)
CORS(app) # Enable CORS for Next.js frontend
# AGREGANDO FUNCIÓN PARA PARSEAR PROCESOS DE INTEL_GPU_TOP (SIN -J)
def get_intel_gpu_processes_from_text():
"""Parse processes from intel_gpu_top text output (more reliable than JSON)"""
try:
print(f"[v0] Executing intel_gpu_top (text mode) to capture processes...", flush=True)
process = subprocess.Popen(
['intel_gpu_top'],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True,
bufsize=1
)
# Wait 2 seconds for intel_gpu_top to collect data
time.sleep(2)
# Terminate and get output
process.terminate()
try:
stdout, _ = process.communicate(timeout=1)
except subprocess.TimeoutExpired:
process.kill()
stdout, _ = process.communicate()
processes = []
lines = stdout.split('\n')
# Find the process table header
header_found = False
for i, line in enumerate(lines):
if 'PID' in line and 'NAME' in line and 'Render/3D' in line:
header_found = True
# Process lines after header
for proc_line in lines[i+1:]:
proc_line = proc_line.strip()
if not proc_line or proc_line.startswith('intel-gpu-top'):
continue
# Parse process line
# Format: PID MEM RSS Render/3D Blitter Video VideoEnhance NAME
parts = proc_line.split()
if len(parts) >= 8:
try:
pid = parts[0]
mem_str = parts[1] # e.g., "177568K"
rss_str = parts[2] # e.g., "116500K"
# Convert memory values (remove 'K' and convert to bytes)
mem_total = int(mem_str.replace('K', '')) * 1024 if 'K' in mem_str else 0
mem_resident = int(rss_str.replace('K', '')) * 1024 if 'K' in rss_str else 0
# Find the process name (last element)
name = parts[-1]
# Parse engine utilization from the bars
# The bars are between the memory and name
# We'll estimate utilization based on bar characters
bar_section = ' '.join(parts[3:-1])
# Simple heuristic: count █ characters for each engine section
engines = {}
engine_names = ['Render/3D', 'Blitter', 'Video', 'VideoEnhance']
bar_sections = bar_section.split('||')
for idx, engine_name in enumerate(engine_names):
if idx < len(bar_sections):
bar_str = bar_sections[idx]
# Count filled bar characters
filled_chars = bar_str.count('█') + bar_str.count('▎') * 0.25
# Estimate percentage (assuming ~50 chars = 100%)
utilization = min(100.0, (filled_chars / 50.0) * 100.0)
if utilization > 0:
engines[engine_name] = f"{utilization:.1f}%"
if engines: # Only add if there's some GPU activity
process_info = {
'name': name,
'pid': pid,
'memory': {
'total': mem_total,
'shared': 0, # Not available in text output
'resident': mem_resident
},
'engines': engines
}
processes.append(process_info)
print(f"[v0] Found process from text: {name} (PID: {pid}) with {len(engines)} active engines", flush=True)
except (ValueError, IndexError) as e:
print(f"[v0] Error parsing process line: {e}", flush=True)
continue
break
if not header_found:
print(f"[v0] No process table found in intel_gpu_top output", flush=True)
return processes
except Exception as e:
print(f"[v0] Error getting processes from intel_gpu_top text: {e}", flush=True)
import traceback
traceback.print_exc()
return []
def extract_vmid_from_interface(interface_name):
"""Extract VMID from virtual interface name (veth100i0 -> 100, tap105i0 -> 105)"""
try:
match = re.match(r'(veth|tap)(\d+)i\d+', interface_name)
if match:
vmid = int(match.group(2))
interface_type = 'lxc' if match.group(1) == 'veth' else 'vm'
return vmid, interface_type
return None, None
except Exception as e:
print(f"[v0] Error extracting VMID from {interface_name}: {e}")
return None, None
def get_vm_lxc_names():
"""Get VM and LXC names from Proxmox API"""
vm_lxc_map = {}
try:
result = subprocess.run(['pvesh', 'get', '/cluster/resources', '--type', 'vm', '--output-format', 'json'],
capture_output=True, text=True, timeout=10)
if result.returncode == 0:
resources = json.loads(result.stdout)
for resource in resources:
vmid = resource.get('vmid')
name = resource.get('name', f'VM-{vmid}')
vm_type = resource.get('type', 'unknown') # 'qemu' or 'lxc'
status = resource.get('status', 'unknown')
if vmid:
vm_lxc_map[vmid] = {
'name': name,
'type': 'lxc' if vm_type == 'lxc' else 'vm',
'status': status
}
print(f"[v0] Found {vm_type} {vmid}: {name} ({status})")
else:
print(f"[v0] pvesh command failed: {result.stderr}")
except FileNotFoundError:
print("[v0] pvesh command not found - Proxmox not installed")
except Exception as e:
print(f"[v0] Error getting VM/LXC names: {e}")
return vm_lxc_map
@app.route('/')
def serve_dashboard():
"""Serve the main dashboard page from Next.js build"""
try:
appimage_root = os.environ.get('APPDIR')
if not appimage_root:
# Fallback: detect from script location
base_dir = os.path.dirname(os.path.abspath(__file__))
if base_dir.endswith('usr/bin'):
# We're in usr/bin/, go up 2 levels to AppImage root
appimage_root = os.path.dirname(os.path.dirname(base_dir))
else:
# Fallback: assume we're in the root
appimage_root = os.path.dirname(base_dir)
print(f"[v0] Detected AppImage root: {appimage_root}")
index_path = os.path.join(appimage_root, 'web', 'index.html')
abs_path = os.path.abspath(index_path)
print(f"[v0] Looking for index.html at: {abs_path}")
if os.path.exists(abs_path):
print(f"[v0] ✅ Found index.html, serving from: {abs_path}")
return send_file(abs_path)
# If not found, show detailed error
print(f"[v0] ❌ index.html NOT found at: {abs_path}")
print(f"[v0] Checking web directory contents:")
web_dir = os.path.join(appimage_root, 'web')
if os.path.exists(web_dir):
print(f"[v0] Contents of {web_dir}:")
for item in os.listdir(web_dir):
print(f"[v0] - {item}")
else:
print(f"[v0] Web directory does not exist: {web_dir}")
return f'''
ProxMenux Monitor - Build Error
🚨 ProxMenux Monitor - Build Error
Next.js application not found. The AppImage may not have been built correctly.
Expected path: {abs_path}
APPDIR: {appimage_root}
API endpoints are still available:
''', 500
except Exception as e:
print(f"Error serving dashboard: {e}")
return jsonify({'error': f'Dashboard not available: {str(e)}'}), 500
@app.route('/manifest.json')
def serve_manifest():
"""Serve PWA manifest"""
try:
manifest_paths = [
os.path.join(os.path.dirname(__file__), '..', 'web', 'public', 'manifest.json'),
os.path.join(os.path.dirname(__file__), '..', 'public', 'manifest.json')
]
for manifest_path in manifest_paths:
if os.path.exists(manifest_path):
return send_file(manifest_path)
# Return default manifest if not found
return jsonify({
"name": "ProxMenux Monitor",
"short_name": "ProxMenux",
"description": "Proxmox System Monitoring Dashboard",
"start_url": "/",
"display": "standalone",
"background_color": "#0a0a0a",
"theme_color": "#4f46e5",
"icons": [
{
"src": "/images/proxmenux-logo.png",
"sizes": "256x256",
"type": "image/png"
}
]
})
except Exception as e:
print(f"Error serving manifest: {e}")
return jsonify({}), 404
@app.route('/sw.js')
def serve_sw():
"""Serve service worker"""
return '''
const CACHE_NAME = 'proxmenux-v1';
const urlsToCache = [
'/',
'/api/system',
'/api/storage',
'/api/network',
'/api/health'
];
self.addEventListener('install', event => {
event.waitUntil(
caches.open(CACHE_NAME)
.then(cache => cache.addAll(urlsToCache))
);
});
self.addEventListener('fetch', event => {
event.respondWith(
caches.match(event.request)
.then(response => response || fetch(event.request))
);
});
''', 200, {'Content-Type': 'application/javascript'}
@app.route('/_next/')
def serve_next_static(filename):
"""Serve Next.js static files"""
try:
appimage_root = os.environ.get('APPDIR')
if not appimage_root:
base_dir = os.path.dirname(os.path.abspath(__file__))
if base_dir.endswith('usr/bin'):
appimage_root = os.path.dirname(os.path.dirname(base_dir))
else:
appimage_root = os.path.dirname(base_dir)
static_dir = os.path.join(appimage_root, 'web', '_next')
file_path = os.path.join(static_dir, filename)
if os.path.exists(file_path):
return send_file(file_path)
print(f"[v0] ❌ Next.js static file not found: {file_path}")
return '', 404
except Exception as e:
print(f"Error serving Next.js static file {filename}: {e}")
return '', 404
@app.route('/')
def serve_static_files(filename):
"""Serve static files (icons, etc.)"""
try:
appimage_root = os.environ.get('APPDIR')
if not appimage_root:
base_dir = os.path.dirname(os.path.abspath(__file__))
if base_dir.endswith('usr/bin'):
appimage_root = os.path.dirname(os.path.dirname(base_dir))
else:
appimage_root = os.path.dirname(base_dir)
web_dir = os.path.join(appimage_root, 'web')
file_path = os.path.join(web_dir, filename)
if os.path.exists(file_path):
return send_from_directory(web_dir, filename)
return '', 404
except Exception as e:
print(f"Error serving static file {filename}: {e}")
return '', 404
@app.route('/images/')
def serve_images(filename):
"""Serve image files"""
try:
appimage_root = os.environ.get('APPDIR')
if not appimage_root:
base_dir = os.path.dirname(os.path.abspath(__file__))
if base_dir.endswith('usr/bin'):
appimage_root = os.path.dirname(os.path.dirname(base_dir))
else:
appimage_root = os.path.dirname(base_dir)
image_dir = os.path.join(appimage_root, 'web', 'images')
file_path = os.path.join(image_dir, filename)
abs_path = os.path.abspath(file_path)
print(f"[v0] Looking for image: {filename} at {abs_path}")
if os.path.exists(abs_path):
print(f"[v0] ✅ Serving image from: {abs_path}")
return send_from_directory(image_dir, filename)
print(f"[v0] ❌ Image not found: {abs_path}")
return '', 404
except Exception as e:
print(f"Error serving image {filename}: {e}")
return '', 404
def get_system_info():
"""Get basic system information"""
try:
# CPU usage
cpu_percent = psutil.cpu_percent(interval=1)
# Memory usage
memory = psutil.virtual_memory()
temp = 0
try:
if hasattr(psutil, "sensors_temperatures"):
temps = psutil.sensors_temperatures()
if temps:
# Priority order for temperature sensors
sensor_priority = ['coretemp', 'cpu_thermal', 'acpi', 'thermal_zone']
for sensor_name in sensor_priority:
if sensor_name in temps and temps[sensor_name]:
temp = temps[sensor_name][0].current
break
# If no priority sensor found, use first available
if temp == 0:
for name, entries in temps.items():
if entries:
temp = entries[0].current
break
except Exception as e:
print(f"Error reading temperature sensors: {e}")
temp = 0 # Use 0 to indicate no temperature available
# Uptime
boot_time = psutil.boot_time()
uptime_seconds = time.time() - boot_time
uptime_str = str(timedelta(seconds=int(uptime_seconds)))
# Load average
load_avg = os.getloadavg() if hasattr(os, 'getloadavg') else [0, 0, 0]
hostname = socket.gethostname()
node_id = f"pve-{hostname}"
proxmox_version = None
try:
result = subprocess.run(['pveversion'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
# Parse output like "pve-manager/9.0.6/..."
version_line = result.stdout.strip().split('\n')[0]
if '/' in version_line:
proxmox_version = version_line.split('/')[1]
except Exception as e:
print(f"Note: pveversion not available: {e}")
kernel_version = None
try:
result = subprocess.run(['uname', '-r'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
kernel_version = result.stdout.strip()
except Exception as e:
print(f"Note: uname not available: {e}")
cpu_cores = psutil.cpu_count(logical=False) # Physical cores only
available_updates = 0
try:
result = subprocess.run(['apt', 'list', '--upgradable'], capture_output=True, text=True, timeout=10)
if result.returncode == 0:
# Count lines minus header
lines = result.stdout.strip().split('\n')
available_updates = max(0, len(lines) - 1)
except Exception as e:
print(f"Note: apt list not available: {e}")
# Try to get Proxmox node info if available
try:
result = subprocess.run(['pvesh', 'get', '/nodes', '--output-format', 'json'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
nodes = json.loads(result.stdout)
if nodes and len(nodes) > 0:
node_id = nodes[0].get('node', node_id)
except Exception as e:
print(f"Note: pvesh not available or failed: {e}")
pass # Use default if pvesh not available
response = {
'cpu_usage': round(cpu_percent, 1),
'memory_usage': round(memory.percent, 1),
'memory_total': round(memory.total / (1024**3), 1), # GB
'memory_used': round(memory.used / (1024**3), 1), # GB
'temperature': temp,
'uptime': uptime_str,
'load_average': list(load_avg),
'hostname': hostname,
'node_id': node_id,
'timestamp': datetime.now().isoformat(),
'cpu_cores': cpu_cores
}
if proxmox_version:
response['proxmox_version'] = proxmox_version
if kernel_version:
response['kernel_version'] = kernel_version
if available_updates > 0:
response['available_updates'] = available_updates
return response
except Exception as e:
print(f"Critical error getting system info: {e}")
return {
'error': f'Unable to access system information: {str(e)}',
'timestamp': datetime.now().isoformat()
}
def get_storage_info():
"""Get storage and disk information"""
try:
storage_data = {
'total': 0,
'used': 0,
'available': 0,
'disks': [],
'zfs_pools': [],
'disk_count': 0,
'healthy_disks': 0,
'warning_disks': 0,
'critical_disks': 0
}
physical_disks = {}
total_disk_size_bytes = 0
try:
# List all block devices
result = subprocess.run(['lsblk', '-b', '-d', '-n', '-o', 'NAME,SIZE,TYPE'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.strip().split('\n'):
parts = line.split()
if len(parts) >= 3 and parts[2] == 'disk':
disk_name = parts[0]
if disk_name.startswith('zd'):
print(f"[v0] Skipping ZFS zvol device: {disk_name}")
continue
disk_size_bytes = int(parts[1])
disk_size_gb = disk_size_bytes / (1024**3)
disk_size_tb = disk_size_bytes / (1024**4)
total_disk_size_bytes += disk_size_bytes
# Get SMART data for this disk
print(f"[v0] Getting SMART data for {disk_name}...")
smart_data = get_smart_data(disk_name)
print(f"[v0] SMART data for {disk_name}: {smart_data}")
if disk_size_tb >= 1:
size_str = f"{disk_size_tb:.1f}T"
else:
size_str = f"{disk_size_gb:.1f}G"
physical_disks[disk_name] = {
'name': disk_name,
'size': size_str,
'size_bytes': disk_size_bytes,
'temperature': smart_data.get('temperature', 0),
'health': smart_data.get('health', 'unknown'),
'power_on_hours': smart_data.get('power_on_hours', 0),
'smart_status': smart_data.get('smart_status', 'unknown'),
'model': smart_data.get('model', 'Unknown'),
'serial': smart_data.get('serial', 'Unknown'),
'reallocated_sectors': smart_data.get('reallocated_sectors', 0),
'pending_sectors': smart_data.get('pending_sectors', 0),
'crc_errors': smart_data.get('crc_errors', 0),
'rotation_rate': smart_data.get('rotation_rate', 0), # Added
'power_cycles': smart_data.get('power_cycles', 0) # Added
}
storage_data['disk_count'] += 1
health = smart_data.get('health', 'unknown').lower()
if health == 'healthy':
storage_data['healthy_disks'] += 1
elif health == 'warning':
storage_data['warning_disks'] += 1
elif health in ['critical', 'failed']:
storage_data['critical_disks'] += 1
except Exception as e:
print(f"Error getting disk list: {e}")
storage_data['total'] = round(total_disk_size_bytes / (1024**4), 1)
# Get disk usage for mounted partitions
try:
disk_partitions = psutil.disk_partitions()
total_used = 0
total_available = 0
for partition in disk_partitions:
try:
# Skip special filesystems
if partition.fstype in ['tmpfs', 'devtmpfs', 'squashfs', 'overlay']:
continue
partition_usage = psutil.disk_usage(partition.mountpoint)
total_used += partition_usage.used
total_available += partition_usage.free
# Extract disk name from partition device
device_name = partition.device.replace('/dev/', '')
if device_name[-1].isdigit():
if 'nvme' in device_name or 'mmcblk' in device_name:
base_disk = device_name.rsplit('p', 1)[0]
else:
base_disk = device_name.rstrip('0123456789')
else:
base_disk = device_name
# Find corresponding physical disk
disk_info = physical_disks.get(base_disk)
if disk_info and 'mountpoint' not in disk_info:
disk_info['mountpoint'] = partition.mountpoint
disk_info['fstype'] = partition.fstype
disk_info['total'] = round(partition_usage.total / (1024**3), 1)
disk_info['used'] = round(partition_usage.used / (1024**3), 1)
disk_info['available'] = round(partition_usage.free / (1024**3), 1)
disk_info['usage_percent'] = round(partition_usage.percent, 1)
except PermissionError:
continue
except Exception as e:
print(f"Error accessing partition {partition.device}: {e}")
continue
storage_data['used'] = round(total_used / (1024**3), 1)
storage_data['available'] = round(total_available / (1024**3), 1)
except Exception as e:
print(f"Error getting partition info: {e}")
storage_data['disks'] = list(physical_disks.values())
try:
result = subprocess.run(['zpool', 'list', '-H', '-o', 'name,size,alloc,free,health'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.strip().split('\n'):
if line:
parts = line.split('\t')
if len(parts) >= 5:
pool_info = {
'name': parts[0],
'size': parts[1],
'allocated': parts[2],
'free': parts[3],
'health': parts[4]
}
storage_data['zfs_pools'].append(pool_info)
except FileNotFoundError:
print("Note: ZFS not installed")
except Exception as e:
print(f"Note: ZFS not available or no pools: {e}")
return storage_data
except Exception as e:
print(f"Error getting storage info: {e}")
return {
'error': f'Unable to access storage information: {str(e)}',
'total': 0,
'used': 0,
'available': 0,
'disks': [],
'zfs_pools': [],
'disk_count': 0,
'healthy_disks': 0,
'warning_disks': 0,
'critical_disks': 0
}
def get_smart_data(disk_name):
"""Get SMART data for a specific disk - Enhanced with multiple device type attempts"""
smart_data = {
'temperature': 0,
'health': 'unknown',
'power_on_hours': 0,
'smart_status': 'unknown',
'model': 'Unknown',
'serial': 'Unknown',
'reallocated_sectors': 0,
'pending_sectors': 0,
'crc_errors': 0,
'rotation_rate': 0, # Added rotation rate (RPM)
'power_cycles': 0, # Added power cycle count
}
print(f"[v0] ===== Starting SMART data collection for /dev/{disk_name} =====")
try:
commands_to_try = [
['smartctl', '-a', '-j', f'/dev/{disk_name}'], # JSON output (preferred)
['smartctl', '-a', '-j', '-d', 'ata', f'/dev/{disk_name}'], # JSON with ATA device type
['smartctl', '-a', '-j', '-d', 'sat', f'/dev/{disk_name}'], # JSON with SAT device type
['smartctl', '-a', f'/dev/{disk_name}'], # Text output (fallback)
['smartctl', '-a', '-d', 'ata', f'/dev/{disk_name}'], # Text with ATA device type
['smartctl', '-a', '-d', 'sat', f'/dev/{disk_name}'], # Text with SAT device type
['smartctl', '-i', '-H', '-A', f'/dev/{disk_name}'], # Info + Health + Attributes
['smartctl', '-i', '-H', '-A', '-d', 'ata', f'/dev/{disk_name}'], # With ATA
['smartctl', '-i', '-H', '-A', '-d', 'sat', f'/dev/{disk_name}'], # With SAT
['smartctl', '-a', '-j', '-d', 'scsi', f'/dev/{disk_name}'], # JSON with SCSI device type
['smartctl', '-a', '-j', '-d', 'sat,12', f'/dev/{disk_name}'], # SAT with 12-byte commands
['smartctl', '-a', '-j', '-d', 'sat,16', f'/dev/{disk_name}'], # SAT with 16-byte commands
['smartctl', '-a', '-d', 'sat,12', f'/dev/{disk_name}'], # Text SAT with 12-byte commands
['smartctl', '-a', '-d', 'sat,16', f'/dev/{disk_name}'], # Text SAT with 16-byte commands
]
process = None # Initialize process to None
for cmd_index, cmd in enumerate(commands_to_try):
print(f"[v0] Attempt {cmd_index + 1}/{len(commands_to_try)}: Running command: {' '.join(cmd)}")
try:
process = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True)
# Use communicate with a timeout to avoid hanging if the process doesn't exit
stdout, stderr = process.communicate(timeout=15)
result_code = process.returncode
print(f"[v0] Command return code: {result_code}")
if stderr:
stderr_preview = stderr[:200].replace('\n', ' ')
print(f"[v0] stderr: {stderr_preview}")
has_output = stdout and len(stdout.strip()) > 50
if has_output:
print(f"[v0] Got output ({len(stdout)} bytes), attempting to parse...")
# Try JSON parsing first (if -j flag was used)
if '-j' in cmd:
try:
print(f"[v0] Attempting JSON parse...")
data = json.loads(stdout)
print(f"[v0] JSON parse successful!")
# Extract model
if 'model_name' in data:
smart_data['model'] = data['model_name']
print(f"[v0] Model: {smart_data['model']}")
elif 'model_family' in data:
smart_data['model'] = data['model_family']
print(f"[v0] Model family: {smart_data['model']}")
# Extract serial
if 'serial_number' in data:
smart_data['serial'] = data['serial_number']
print(f"[v0] Serial: {smart_data['serial']}")
if 'rotation_rate' in data:
smart_data['rotation_rate'] = data['rotation_rate']
print(f"[v0] Rotation Rate: {smart_data['rotation_rate']} RPM")
# Extract SMART status
if 'smart_status' in data and 'passed' in data['smart_status']:
smart_data['smart_status'] = 'passed' if data['smart_status']['passed'] else 'failed'
smart_data['health'] = 'healthy' if data['smart_status']['passed'] else 'critical'
print(f"[v0] SMART status: {smart_data['smart_status']}, health: {smart_data['health']}")
# Extract temperature
if 'temperature' in data and 'current' in data['temperature']:
smart_data['temperature'] = data['temperature']['current']
print(f"[v0] Temperature: {smart_data['temperature']}°C")
# Parse ATA SMART attributes
if 'ata_smart_attributes' in data and 'table' in data['ata_smart_attributes']:
print(f"[v0] Parsing ATA SMART attributes...")
for attr in data['ata_smart_attributes']['table']:
attr_id = attr.get('id')
raw_value = attr.get('raw', {}).get('value', 0)
if attr_id == 9: # Power_On_Hours
smart_data['power_on_hours'] = raw_value
print(f"[v0] Power On Hours (ID 9): {raw_value}")
elif attr_id == 12: # Power_Cycle_Count
smart_data['power_cycles'] = raw_value
print(f"[v0] Power Cycles (ID 12): {raw_value}")
elif attr_id == 194: # Temperature_Celsius
if smart_data['temperature'] == 0:
smart_data['temperature'] = raw_value
print(f"[v0] Temperature (ID 194): {raw_value}°C")
elif attr_id == 190: # Airflow_Temperature_Cel
if smart_data['temperature'] == 0:
smart_data['temperature'] = raw_value
print(f"[v0] Airflow Temperature (ID 190): {raw_value}°C")
elif attr_id == 5: # Reallocated_Sector_Ct
smart_data['reallocated_sectors'] = raw_value
print(f"[v0] Reallocated Sectors (ID 5): {raw_value}")
elif attr_id == 197: # Current_Pending_Sector
smart_data['pending_sectors'] = raw_value
print(f"[v0] Pending Sectors (ID 197): {raw_value}")
elif attr_id == 199: # UDMA_CRC_Error_Count
smart_data['crc_errors'] = raw_value
print(f"[v0] CRC Errors (ID 199): {raw_value}")
# Parse NVMe SMART data
if 'nvme_smart_health_information_log' in data:
print(f"[v0] Parsing NVMe SMART data...")
nvme_data = data['nvme_smart_health_information_log']
if 'temperature' in nvme_data:
smart_data['temperature'] = nvme_data['temperature']
print(f"[v0] NVMe Temperature: {smart_data['temperature']}°C")
if 'power_on_hours' in nvme_data:
smart_data['power_on_hours'] = nvme_data['power_on_hours']
print(f"[v0] NVMe Power On Hours: {smart_data['power_on_hours']}")
if 'power_cycles' in nvme_data:
smart_data['power_cycles'] = nvme_data['power_cycles']
print(f"[v0] NVMe Power Cycles: {smart_data['power_cycles']}")
# If we got good data, break out of the loop
if smart_data['model'] != 'Unknown' and smart_data['serial'] != 'Unknown':
print(f"[v0] Successfully extracted complete data from JSON (attempt {cmd_index + 1})")
break
except json.JSONDecodeError as e:
print(f"[v0] JSON parse failed: {e}, trying text parsing...")
if smart_data['model'] == 'Unknown' or smart_data['serial'] == 'Unknown' or smart_data['temperature'] == 0:
print(f"[v0] Parsing text output (model={smart_data['model']}, serial={smart_data['serial']}, temp={smart_data['temperature']})...")
output = stdout
# Get basic info
for line in output.split('\n'):
line = line.strip()
# Model detection
if (line.startswith('Device Model:') or line.startswith('Model Number:')) and smart_data['model'] == 'Unknown':
smart_data['model'] = line.split(':', 1)[1].strip()
print(f"[v0] Found model: {smart_data['model']}")
elif line.startswith('Model Family:') and smart_data['model'] == 'Unknown':
smart_data['model'] = line.split(':', 1)[1].strip()
print(f"[v0] Found model family: {smart_data['model']}")
# Serial detection
elif line.startswith('Serial Number:') and smart_data['serial'] == 'Unknown':
smart_data['serial'] = line.split(':', 1)[1].strip()
print(f"[v0] Found serial: {smart_data['serial']}")
elif line.startswith('Rotation Rate:') and smart_data['rotation_rate'] == 0:
rate_str = line.split(':', 1)[1].strip()
if 'rpm' in rate_str.lower():
try:
smart_data['rotation_rate'] = int(rate_str.split()[0])
print(f"[v0] Found rotation rate: {smart_data['rotation_rate']} RPM")
except (ValueError, IndexError):
pass
elif 'Solid State Device' in rate_str:
smart_data['rotation_rate'] = 0 # SSD
print(f"[v0] Found SSD (no rotation)")
# SMART status detection
elif 'SMART overall-health self-assessment test result:' in line:
if 'PASSED' in line:
smart_data['smart_status'] = 'passed'
smart_data['health'] = 'healthy'
print(f"[v0] SMART status: PASSED")
elif 'FAILED' in line:
smart_data['smart_status'] = 'failed'
smart_data['health'] = 'critical'
print(f"[v0] SMART status: FAILED")
# NVMe health
elif 'SMART Health Status:' in line:
if 'OK' in line:
smart_data['smart_status'] = 'passed'
smart_data['health'] = 'healthy'
print(f"[v0] NVMe Health: OK")
# Temperature detection (various formats)
elif 'Current Temperature:' in line and smart_data['temperature'] == 0:
try:
temp_str = line.split(':')[1].strip().split()[0]
smart_data['temperature'] = int(temp_str)
print(f"[v0] Found temperature: {smart_data['temperature']}°C")
except (ValueError, IndexError):
pass
# Parse SMART attributes table
in_attributes = False
for line in output.split('\n'):
line = line.strip()
if 'ID# ATTRIBUTE_NAME' in line or 'ID#' in line and 'ATTRIBUTE_NAME' in line:
in_attributes = True
print(f"[v0] Found SMART attributes table")
continue
if in_attributes:
# Stop at empty line or next section
if not line or line.startswith('SMART') or line.startswith('==='):
in_attributes = False
continue
parts = line.split()
if len(parts) >= 10:
try:
attr_id = parts[0]
# Raw value is typically the last column
raw_value = parts[-1]
# Parse based on attribute ID
if attr_id == '9': # Power On Hours
raw_clean = raw_value.split()[0].replace('h', '').replace(',', '')
smart_data['power_on_hours'] = int(raw_clean)
print(f"[v0] Power On Hours: {smart_data['power_on_hours']}")
elif attr_id == '12': # Power Cycle Count
raw_clean = raw_value.split()[0].replace(',', '')
smart_data['power_cycles'] = int(raw_clean)
print(f"[v0] Power Cycles: {smart_data['power_cycles']}")
elif attr_id == '194' and smart_data['temperature'] == 0: # Temperature
temp_str = raw_value.split()[0]
smart_data['temperature'] = int(temp_str)
print(f"[v0] Temperature (attr 194): {smart_data['temperature']}°C")
elif attr_id == '190' and smart_data['temperature'] == 0: # Airflow Temperature
temp_str = raw_value.split()[0]
smart_data['temperature'] = int(temp_str)
print(f"[v0] Airflow Temperature (attr 190): {smart_data['temperature']}°C")
elif attr_id == '5': # Reallocated Sectors
smart_data['reallocated_sectors'] = int(raw_value)
print(f"[v0] Reallocated Sectors: {smart_data['reallocated_sectors']}")
elif attr_id == '197': # Pending Sectors
smart_data['pending_sectors'] = int(raw_value)
print(f"[v0] Pending Sectors: {smart_data['pending_sectors']}")
elif attr_id == '199': # CRC Errors
smart_data['crc_errors'] = int(raw_value)
print(f"[v0] CRC Errors: {smart_data['crc_errors']}")
except (ValueError, IndexError) as e:
print(f"[v0] Error parsing attribute line '{line}': {e}")
continue
# If we got complete data, break
if smart_data['model'] != 'Unknown' and smart_data['serial'] != 'Unknown':
print(f"[v0] Successfully extracted complete data from text output (attempt {cmd_index + 1})")
break
elif smart_data['model'] != 'Unknown' or smart_data['serial'] != 'Unknown':
print(f"[v0] Extracted partial data from text output, continuing to next attempt...")
else:
print(f"[v0] No usable output (return code {result_code}), trying next command...")
except subprocess.TimeoutExpired:
print(f"[v0] Command timeout for attempt {cmd_index + 1}, trying next...")
if process and process.returncode is None:
process.kill()
continue
except Exception as e:
print(f"[v0] Error in attempt {cmd_index + 1}: {type(e).__name__}: {e}")
if process and process.returncode is None:
process.kill()
continue
finally:
# Ensure the process is terminated if it's still running
if process and process.poll() is None:
try:
process.kill()
print(f"[v0] Process killed for command: {' '.join(cmd)}")
except Exception as kill_err:
print(f"[v0] Error killing process: {kill_err}")
if smart_data['reallocated_sectors'] > 0 or smart_data['pending_sectors'] > 0:
if smart_data['health'] == 'healthy':
smart_data['health'] = 'warning'
print(f"[v0] Health: WARNING (reallocated/pending sectors)")
if smart_data['reallocated_sectors'] > 10 or smart_data['pending_sectors'] > 10:
smart_data['health'] = 'critical'
print(f"[v0] Health: CRITICAL (high sector count)")
if smart_data['smart_status'] == 'failed':
smart_data['health'] = 'critical'
print(f"[v0] Health: CRITICAL (SMART failed)")
# Temperature-based health (only if we have a valid temperature)
if smart_data['health'] == 'healthy' and smart_data['temperature'] > 0:
if smart_data['temperature'] >= 70:
smart_data['health'] = 'critical'
print(f"[v0] Health: CRITICAL (temperature {smart_data['temperature']}°C)")
elif smart_data['temperature'] >= 60:
smart_data['health'] = 'warning'
print(f"[v0] Health: WARNING (temperature {smart_data['temperature']}°C)")
except FileNotFoundError:
print(f"[v0] ERROR: smartctl not found - install smartmontools")
except Exception as e:
print(f"[v0] ERROR: Unexpected exception for {disk_name}: {type(e).__name__}: {e}")
import traceback
traceback.print_exc()
print(f"[v0] ===== Final SMART data for /dev/{disk_name}: {smart_data} =====")
return smart_data
def get_proxmox_storage():
"""Get Proxmox storage information using pvesm status"""
try:
print("[v0] Getting Proxmox storage with pvesm status...")
result = subprocess.run(['pvesm', 'status'], capture_output=True, text=True, timeout=10)
if result.returncode != 0:
print(f"[v0] pvesm status failed with return code {result.returncode}")
print(f"[v0] stderr: {result.stderr}")
return {
'error': 'pvesm command not available or failed',
'storage': []
}
storage_list = []
lines = result.stdout.strip().split('\n')
# Skip header line
if len(lines) < 2:
print("[v0] No storage found in pvesm output")
return {'storage': []}
# Parse each storage line
for line in lines[1:]: # Skip header
parts = line.split()
if len(parts) >= 6:
name = parts[0]
storage_type = parts[1]
status = parts[2]
total = int(parts[3])
used = int(parts[4])
available = int(parts[5])
percent = float(parts[6].rstrip('%')) if len(parts) > 6 else 0.0
# Convert bytes to GB
total_gb = round(total / (1024**2), 2)
used_gb = round(used / (1024**2), 2)
available_gb = round(available / (1024**2), 2)
storage_info = {
'name': name,
'type': storage_type,
'status': status,
'total': total_gb,
'used': used_gb,
'available': available_gb,
'percent': round(percent, 2)
}
print(f"[v0] Found storage: {name} ({storage_type}) - {used_gb}/{total_gb} GB ({percent}%)")
storage_list.append(storage_info)
return {'storage': storage_list}
except FileNotFoundError:
print("[v0] pvesm command not found - Proxmox not installed or not in PATH")
return {
'error': 'pvesm command not found - Proxmox not installed',
'storage': []
}
except Exception as e:
print(f"[v0] Error getting Proxmox storage: {type(e).__name__}: {e}")
import traceback
traceback.print_exc()
return {
'error': f'Unable to get Proxmox storage: {str(e)}',
'storage': []
}
def get_interface_type(interface_name):
"""Detect the type of network interface"""
try:
# Skip loopback
if interface_name == 'lo':
return 'skip'
if interface_name.startswith(('veth', 'tap')):
return 'vm_lxc'
# Skip other virtual interfaces
if interface_name.startswith(('tun', 'vnet', 'docker', 'virbr')):
return 'skip'
# Check if it's a bond
if interface_name.startswith('bond'):
return 'bond'
# Check if it's a bridge (but not virbr which we skip above)
if interface_name.startswith(('vmbr', 'br')):
return 'bridge'
# Check if it's a VLAN (contains a dot)
if '.' in interface_name:
return 'vlan'
# Check if it's a physical interface
if interface_name.startswith(('enp', 'eth', 'wlan', 'wlp', 'eno', 'ens')):
return 'physical'
# Default to skip for unknown types
return 'skip'
except Exception as e:
print(f"[v0] Error detecting interface type for {interface_name}: {e}")
return 'skip'
def get_bond_info(bond_name):
"""Get detailed information about a bonding interface"""
bond_info = {
'mode': 'unknown',
'slaves': [],
'active_slave': None
}
try:
bond_file = f'/proc/net/bonding/{bond_name}'
if os.path.exists(bond_file):
with open(bond_file, 'r') as f:
content = f.read()
# Parse bonding mode
for line in content.split('\n'):
if 'Bonding Mode:' in line:
bond_info['mode'] = line.split(':', 1)[1].strip()
elif 'Slave Interface:' in line:
slave_name = line.split(':', 1)[1].strip()
bond_info['slaves'].append(slave_name)
elif 'Currently Active Slave:' in line:
bond_info['active_slave'] = line.split(':', 1)[1].strip()
print(f"[v0] Bond {bond_name} info: mode={bond_info['mode']}, slaves={bond_info['slaves']}")
except Exception as e:
print(f"[v0] Error reading bond info for {bond_name}: {e}")
return bond_info
def get_bridge_info(bridge_name):
"""Get detailed information about a bridge interface"""
bridge_info = {
'members': [],
'physical_interface': None,
'physical_duplex': 'unknown', # Added physical_duplex field
# Added bond_slaves to show physical interfaces
'bond_slaves': []
}
try:
# Try to read bridge members from /sys/class/net//brif/
brif_path = f'/sys/class/net/{bridge_name}/brif'
if os.path.exists(brif_path):
members = os.listdir(brif_path)
bridge_info['members'] = members
for member in members:
# Check if member is a bond first
if member.startswith('bond'):
bridge_info['physical_interface'] = member
print(f"[v0] Bridge {bridge_name} connected to bond: {member}")
bond_info = get_bond_info(member)
if bond_info['slaves']:
bridge_info['bond_slaves'] = bond_info['slaves']
print(f"[v0] Bond {member} slaves: {bond_info['slaves']}")
# Get duplex from bond's active slave
if bond_info['active_slave']:
try:
net_if_stats = psutil.net_if_stats()
if bond_info['active_slave'] in net_if_stats:
stats = net_if_stats[bond_info['active_slave']]
bridge_info['physical_duplex'] = 'full' if stats.duplex == 2 else 'half' if stats.duplex == 1 else 'unknown'
print(f"[v0] Bond {member} active slave {bond_info['active_slave']} duplex: {bridge_info['physical_duplex']}")
except Exception as e:
print(f"[v0] Error getting duplex for bond slave {bond_info['active_slave']}: {e}")
break
# Check if member is a physical interface
elif member.startswith(('enp', 'eth', 'eno', 'ens', 'wlan', 'wlp')):
bridge_info['physical_interface'] = member
print(f"[v0] Bridge {bridge_name} physical interface: {member}")
# Get duplex from physical interface
try:
net_if_stats = psutil.net_if_stats()
if member in net_if_stats:
stats = net_if_stats[member]
bridge_info['physical_duplex'] = 'full' if stats.duplex == 2 else 'half' if stats.duplex == 1 else 'unknown'
print(f"[v0] Physical interface {member} duplex: {bridge_info['physical_duplex']}")
except Exception as e:
print(f"[v0] Error getting duplex for {member}: {e}")
break
print(f"[v0] Bridge {bridge_name} members: {members}")
except Exception as e:
print(f"[v0] Error reading bridge info for {bridge_name}: {e}")
return bridge_info
def get_network_info():
"""Get network interface information - Enhanced with VM/LXC interface separation"""
try:
network_data = {
'interfaces': [],
'physical_interfaces': [], # Added separate list for physical interfaces
'bridge_interfaces': [], # Added separate list for bridge interfaces
'vm_lxc_interfaces': [],
'traffic': {'bytes_sent': 0, 'bytes_recv': 0, 'packets_sent': 0, 'packets_recv': 0}
}
vm_lxc_map = get_vm_lxc_names()
# Get network interfaces
net_if_addrs = psutil.net_if_addrs()
net_if_stats = psutil.net_if_stats()
try:
net_io_per_nic = psutil.net_io_counters(pernic=True)
except Exception as e:
print(f"[v0] Error getting per-NIC stats: {e}")
net_io_per_nic = {}
physical_active_count = 0
physical_total_count = 0
bridge_active_count = 0
bridge_total_count = 0
vm_lxc_active_count = 0
vm_lxc_total_count = 0
for interface_name, interface_addresses in net_if_addrs.items():
interface_type = get_interface_type(interface_name)
if interface_type == 'skip':
print(f"[v0] Skipping interface: {interface_name} (type: {interface_type})")
continue
stats = net_if_stats.get(interface_name)
if not stats:
continue
if interface_type == 'vm_lxc':
vm_lxc_total_count += 1
if stats.isup:
vm_lxc_active_count += 1
elif interface_type == 'physical':
physical_total_count += 1
if stats.isup:
physical_active_count += 1
elif interface_type == 'bridge':
bridge_total_count += 1
if stats.isup:
bridge_active_count += 1
interface_info = {
'name': interface_name,
'type': interface_type,
'status': 'up' if stats.isup else 'down',
'speed': stats.speed if stats.speed > 0 else 0,
'duplex': 'full' if stats.duplex == 2 else 'half' if stats.duplex == 1 else 'unknown',
'mtu': stats.mtu,
'addresses': [],
'mac_address': None,
}
if interface_type == 'vm_lxc':
vmid, vm_type = extract_vmid_from_interface(interface_name)
if vmid and vmid in vm_lxc_map:
interface_info['vmid'] = vmid
interface_info['vm_name'] = vm_lxc_map[vmid]['name']
interface_info['vm_type'] = vm_lxc_map[vmid]['type']
interface_info['vm_status'] = vm_lxc_map[vmid]['status']
elif vmid:
interface_info['vmid'] = vmid
interface_info['vm_name'] = f'{"LXC" if vm_type == "lxc" else "VM"} {vmid}'
interface_info['vm_type'] = vm_type
interface_info['vm_status'] = 'unknown'
for address in interface_addresses:
if address.family == 2: # IPv4
interface_info['addresses'].append({
'ip': address.address,
'netmask': address.netmask
})
elif address.family == 17: # AF_PACKET (MAC address on Linux)
interface_info['mac_address'] = address.address
if interface_name in net_io_per_nic:
io_stats = net_io_per_nic[interface_name]
interface_info['bytes_sent'] = io_stats.bytes_sent
interface_info['bytes_recv'] = io_stats.bytes_recv
interface_info['packets_sent'] = io_stats.packets_sent
interface_info['packets_recv'] = io_stats.packets_recv
interface_info['errors_in'] = io_stats.errin
interface_info['errors_out'] = io_stats.errout
interface_info['drops_in'] = io_stats.dropin
interface_info['drops_out'] = io_stats.dropout
total_packets_in = io_stats.packets_recv + io_stats.dropin
total_packets_out = io_stats.packets_sent + io_stats.dropout
if total_packets_in > 0:
interface_info['packet_loss_in'] = round((io_stats.dropin / total_packets_in) * 100, 2)
else:
interface_info['packet_loss_in'] = 0
if total_packets_out > 0:
interface_info['packet_loss_out'] = round((io_stats.dropout / total_packets_out) * 100, 2)
else:
interface_info['packet_loss_out'] = 0
if interface_type == 'bond':
bond_info = get_bond_info(interface_name)
interface_info['bond_mode'] = bond_info['mode']
interface_info['bond_slaves'] = bond_info['slaves']
interface_info['bond_active_slave'] = bond_info['active_slave']
if interface_type == 'bridge':
bridge_info = get_bridge_info(interface_name)
interface_info['bridge_members'] = bridge_info['members']
interface_info['bridge_physical_interface'] = bridge_info['physical_interface']
interface_info['bridge_physical_duplex'] = bridge_info['physical_duplex']
interface_info['bridge_bond_slaves'] = bridge_info['bond_slaves']
# Override bridge duplex with physical interface duplex
if bridge_info['physical_duplex'] != 'unknown':
interface_info['duplex'] = bridge_info['physical_duplex']
if interface_type == 'vm_lxc':
network_data['vm_lxc_interfaces'].append(interface_info)
elif interface_type == 'physical':
network_data['physical_interfaces'].append(interface_info)
elif interface_type == 'bridge':
network_data['bridge_interfaces'].append(interface_info)
else:
# Keep other types in the general interfaces list for backward compatibility
network_data['interfaces'].append(interface_info)
network_data['physical_active_count'] = physical_active_count
network_data['physical_total_count'] = physical_total_count
network_data['bridge_active_count'] = bridge_active_count
network_data['bridge_total_count'] = bridge_total_count
network_data['vm_lxc_active_count'] = vm_lxc_active_count
network_data['vm_lxc_total_count'] = vm_lxc_total_count
# Keep old counters for backward compatibility
network_data['active_count'] = physical_active_count + bridge_active_count
network_data['total_count'] = physical_total_count + bridge_total_count
print(f"[v0] Physical interfaces: {physical_active_count} active out of {physical_total_count} total")
print(f"[v0] Bridge interfaces: {bridge_active_count} active out of {bridge_total_count} total")
print(f"[v0] VM/LXC interfaces: {vm_lxc_active_count} active out of {vm_lxc_total_count} total")
# Get network I/O statistics (global)
net_io = psutil.net_io_counters()
network_data['traffic'] = {
'bytes_sent': net_io.bytes_sent,
'bytes_recv': net_io.bytes_recv,
'packets_sent': net_io.packets_sent,
'packets_recv': net_io.packets_recv,
'errin': net_io.errin,
'errout': net_io.errout,
'dropin': net_io.dropin,
'dropout': net_io.dropout
}
total_packets_in = net_io.packets_recv + net_io.dropin
total_packets_out = net_io.packets_sent + net_io.dropout
if total_packets_in > 0:
network_data['traffic']['packet_loss_in'] = round((net_io.dropin / total_packets_in) * 100, 2)
else:
network_data['traffic']['packet_loss_in'] = 0
if total_packets_out > 0:
network_data['traffic']['packet_loss_out'] = round((net_io.dropout / total_packets_out) * 100, 2)
else:
network_data['traffic']['packet_loss_out'] = 0
return network_data
except Exception as e:
print(f"Error getting network info: {e}")
import traceback
traceback.print_exc()
return {
'error': f'Unable to access network information: {str(e)}',
'interfaces': [],
'physical_interfaces': [],
'bridge_interfaces': [],
'vm_lxc_interfaces': [],
'traffic': {'bytes_sent': 0, 'bytes_recv': 0, 'packets_sent': 0, 'packets_recv': 0},
'active_count': 0,
'total_count': 0,
'physical_active_count': 0,
'physical_total_count': 0,
'bridge_active_count': 0,
'bridge_total_count': 0,
'vm_lxc_active_count': 0,
'vm_lxc_total_count': 0
}
def get_proxmox_vms():
"""Get Proxmox VM and LXC information (requires pvesh command)"""
try:
all_vms = []
try:
result = subprocess.run(['pvesh', 'get', '/cluster/resources', '--type', 'vm', '--output-format', 'json'],
capture_output=True, text=True, timeout=10)
if result.returncode == 0:
resources = json.loads(result.stdout)
for resource in resources:
vm_data = {
'vmid': resource.get('vmid'),
'name': resource.get('name', f"VM-{resource.get('vmid')}"),
'status': resource.get('status', 'unknown'),
'type': 'lxc' if resource.get('type') == 'lxc' else 'qemu',
'cpu': resource.get('cpu', 0),
'mem': resource.get('mem', 0),
'maxmem': resource.get('maxmem', 0),
'disk': resource.get('disk', 0),
'maxdisk': resource.get('maxdisk', 0),
'uptime': resource.get('uptime', 0),
'netin': resource.get('netin', 0),
'netout': resource.get('netout', 0),
'diskread': resource.get('diskread', 0),
'diskwrite': resource.get('diskwrite', 0)
}
all_vms.append(vm_data)
print(f"[v0] Found {vm_data['type']}: {vm_data['name']} (VMID: {vm_data['vmid']}, Status: {vm_data['status']})")
return all_vms
else:
print(f"[v0] pvesh command failed: {result.stderr}")
return {
'error': 'pvesh command not available or failed',
'vms': []
}
except Exception as e:
print(f"[v0] Error getting VM/LXC info: {e}")
return {
'error': f'Unable to access VM information: {str(e)}',
'vms': []
}
except Exception as e:
print(f"Error getting VM info: {e}")
return {
'error': f'Unable to access VM information: {str(e)}',
'vms': []
}
def get_ipmi_fans():
"""Get fan information from IPMI"""
fans = []
try:
result = subprocess.run(['ipmitool', 'sensor'], capture_output=True, text=True, timeout=10)
if result.returncode == 0:
for line in result.stdout.split('\n'):
if 'fan' in line.lower() and '|' in line:
parts = [p.strip() for p in line.split('|')]
if len(parts) >= 3:
name = parts[0]
value_str = parts[1]
unit = parts[2] if len(parts) > 2 else ''
# Skip "DutyCycle" and "Presence" entries
if 'dutycycle' in name.lower() or 'presence' in name.lower():
continue
try:
value = float(value_str)
fans.append({
'name': name,
'speed': value,
'unit': unit
})
print(f"[v0] IPMI Fan: {name} = {value} {unit}")
except ValueError:
continue
print(f"[v0] Found {len(fans)} IPMI fans")
except FileNotFoundError:
print("[v0] ipmitool not found")
except Exception as e:
print(f"[v0] Error getting IPMI fans: {e}")
return fans
def get_ipmi_power():
"""Get power supply information from IPMI"""
power_supplies = []
power_meter = None
try:
result = subprocess.run(['ipmitool', 'sensor'], capture_output=True, text=True, timeout=10)
if result.returncode == 0:
for line in result.stdout.split('\n'):
if ('power supply' in line.lower() or 'power meter' in line.lower()) and '|' in line:
parts = [p.strip() for p in line.split('|')]
if len(parts) >= 3:
name = parts[0]
value_str = parts[1]
unit = parts[2] if len(parts) > 2 else ''
try:
value = float(value_str)
if 'power meter' in name.lower():
power_meter = {
'name': name,
'watts': value,
'unit': unit
}
print(f"[v0] IPMI Power Meter: {value} {unit}")
else:
power_supplies.append({
'name': name,
'watts': value,
'unit': unit,
'status': 'ok' if value > 0 else 'off'
})
print(f"[v0] IPMI PSU: {name} = {value} {unit}")
except ValueError:
continue
print(f"[v0] Found {len(power_supplies)} IPMI power supplies")
except FileNotFoundError:
print("[v0] ipmitool not found")
except Exception as e:
print(f"[v0] Error getting IPMI power: {e}")
return {
'power_supplies': power_supplies,
'power_meter': power_meter
}
def get_ups_info():
"""Get UPS information from NUT (upsc)"""
ups_data = {}
try:
# First, list available UPS devices
result = subprocess.run(['upsc', '-l'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
ups_list = result.stdout.strip().split('\n')
if ups_list and ups_list[0]:
ups_name = ups_list[0]
print(f"[v0] Found UPS: {ups_name}")
# Get detailed UPS info
result = subprocess.run(['upsc', ups_name], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.split('\n'):
if ':' in line:
key, value = line.split(':', 1)
key = key.strip()
value = value.strip()
# Map common UPS variables
if key == 'device.model':
ups_data['model'] = value
elif key == 'ups.status':
ups_data['status'] = value
elif key == 'battery.charge':
ups_data['battery_charge'] = f"{value}%"
elif key == 'battery.runtime':
# Convert seconds to minutes
try:
runtime_sec = int(value)
runtime_min = runtime_sec // 60
ups_data['time_left'] = f"{runtime_min} minutes"
except ValueError:
ups_data['time_left'] = value
elif key == 'ups.load':
ups_data['load_percent'] = f"{value}%"
elif key == 'input.voltage':
ups_data['line_voltage'] = f"{value}V"
elif key == 'ups.realpower':
ups_data['real_power'] = f"{value}W"
print(f"[v0] UPS data: {ups_data}")
except FileNotFoundError:
print("[v0] upsc not found")
except Exception as e:
print(f"[v0] Error getting UPS info: {e}")
return ups_data
def identify_temperature_sensor(sensor_name, adapter):
"""Identify what a temperature sensor corresponds to"""
sensor_lower = sensor_name.lower()
adapter_lower = adapter.lower() if adapter else ""
# CPU/Package temperatures
if "package" in sensor_lower or "tctl" in sensor_lower or "tccd" in sensor_lower:
return "CPU Package"
if "core" in sensor_lower:
core_num = re.search(r'(\d+)', sensor_name)
return f"CPU Core {core_num.group(1)}" if core_num else "CPU Core"
# Motherboard/Chipset
if "temp1" in sensor_lower and ("isa" in adapter_lower or "acpi" in adapter_lower):
return "Motherboard/Chipset"
if "pch" in sensor_lower or "chipset" in sensor_lower:
return "Chipset"
# Storage (NVMe, SATA)
if "nvme" in sensor_lower or "composite" in sensor_lower:
return "NVMe SSD"
if "sata" in sensor_lower or "ata" in sensor_lower:
return "SATA Drive"
# GPU
if any(gpu in adapter_lower for gpu in ["nouveau", "amdgpu", "radeon", "i915"]):
return "GPU"
# Network adapters
if "pci" in adapter_lower and "temp" in sensor_lower:
return "PCI Device"
return sensor_name
def get_temperature_info():
"""Get detailed temperature information from sensors command"""
temperatures = []
power_meter = None
try:
result = subprocess.run(['sensors'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
current_adapter = None
current_sensor = None
for line in result.stdout.split('\n'):
line = line.strip()
if not line:
continue
# Detect adapter line
if line.startswith('Adapter:'):
current_adapter = line.replace('Adapter:', '').strip()
continue
# Detect sensor name (lines without ':' at the start are sensor names)
if ':' in line and not line.startswith(' '):
parts = line.split(':', 1)
sensor_name = parts[0].strip()
value_part = parts[1].strip()
if 'power' in sensor_name.lower() and 'W' in value_part:
try:
# Extract power value (e.g., "182.00 W" -> 182.00)
power_match = re.search(r'([\d.]+)\s*W', value_part)
if power_match:
power_value = float(power_match.group(1))
power_meter = {
'name': sensor_name,
'watts': power_value,
'adapter': current_adapter
}
print(f"[v0] Power meter sensor: {sensor_name} = {power_value}W")
except ValueError:
pass
# Parse temperature sensors
elif '°C' in value_part or 'C' in value_part:
try:
# Extract temperature value
temp_match = re.search(r'([+-]?[\d.]+)\s*°?C', value_part)
if temp_match:
temp_value = float(temp_match.group(1))
# Extract high and critical values if present
high_match = re.search(r'high\s*=\s*([+-]?[\d.]+)', value_part)
crit_match = re.search(r'crit\s*=\s*([+-]?[\d.]+)', value_part)
high_value = float(high_match.group(1)) if high_match else 0
crit_value = float(crit_match.group(1)) if crit_match else 0
identified_name = identify_temperature_sensor(sensor_name, current_adapter)
temperatures.append({
'name': identified_name,
'original_name': sensor_name,
'current': temp_value,
'high': high_value,
'critical': crit_value,
'adapter': current_adapter
})
except ValueError:
pass
print(f"[v0] Found {len(temperatures)} temperature sensors")
if power_meter:
print(f"[v0] Found power meter: {power_meter['watts']}W")
except FileNotFoundError:
print("[v0] sensors command not found")
except Exception as e:
print(f"[v0] Error getting temperature info: {e}")
return {
'temperatures': temperatures,
'power_meter': power_meter
}
# --- GPU Monitoring Functions ---
def get_detailed_gpu_info(gpu):
"""Get detailed monitoring information for a GPU"""
vendor = gpu.get('vendor', '').lower()
slot = gpu.get('slot', '')
print(f"[v0] ===== get_detailed_gpu_info called for GPU {slot} (vendor: {vendor}) =====", flush=True)
detailed_info = {
'has_monitoring_tool': False,
'temperature': None,
'fan_speed': None,
'fan_unit': None,
'utilization_gpu': None,
'utilization_memory': None,
'memory_used': None,
'memory_total': None,
'memory_free': None,
'power_draw': None,
'power_limit': None,
'clock_graphics': None,
'clock_memory': None,
'processes': [],
'engine_render': None,
'engine_blitter': None,
'engine_video': None,
'engine_video_enhance': None
}
# Intel GPU monitoring with intel_gpu_top
if 'intel' in vendor:
print(f"[v0] Intel GPU detected, checking for intel_gpu_top...", flush=True)
intel_gpu_top_path = None
system_paths = ['/usr/bin/intel_gpu_top', '/usr/local/bin/intel_gpu_top']
for path in system_paths:
if os.path.exists(path):
intel_gpu_top_path = path
print(f"[v0] Found system intel_gpu_top at: {path}", flush=True)
break
# Fallback to shutil.which if not found in system paths
if not intel_gpu_top_path:
intel_gpu_top_path = shutil.which('intel_gpu_top')
if intel_gpu_top_path:
print(f"[v0] Using intel_gpu_top from PATH: {intel_gpu_top_path}", flush=True)
if intel_gpu_top_path:
print(f"[v0] intel_gpu_top found, executing...", flush=True)
try:
print(f"[v0] Current user: {os.getenv('USER', 'unknown')}, UID: {os.getuid()}, GID: {os.getgid()}", flush=True)
print(f"[v0] Current working directory: {os.getcwd()}", flush=True)
drm_devices = ['/dev/dri/card0', '/dev/dri/renderD128']
for drm_dev in drm_devices:
if os.path.exists(drm_dev):
stat_info = os.stat(drm_dev)
readable = os.access(drm_dev, os.R_OK)
writable = os.access(drm_dev, os.W_OK)
print(f"[v0] {drm_dev}: mode={oct(stat_info.st_mode)}, uid={stat_info.st_uid}, gid={stat_info.st_gid}, readable={readable}, writable={writable}", flush=True)
# Prepare environment with all necessary variables
env = os.environ.copy()
env['TERM'] = 'xterm' # Ensure terminal type is set
cmd = f'{intel_gpu_top_path} -J' # Use the found path
print(f"[v0] Executing command: {cmd}", flush=True)
process = subprocess.Popen(
cmd,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True,
bufsize=1,
shell=True,
env=env,
cwd='/' # Ejecutar desde root en lugar de dentro del AppImage
)
print(f"[v0] Process started with PID: {process.pid}", flush=True)
print(f"[v0] Waiting 1 second for intel_gpu_top to initialize and detect processes...", flush=True)
time.sleep(1)
start_time = time.time()
timeout = 3
json_objects = []
buffer = ""
brace_count = 0
in_json = False
print(f"[v0] Reading output from intel_gpu_top...", flush=True)
while time.time() - start_time < timeout:
if process.poll() is not None:
print(f"[v0] Process terminated early with code: {process.poll()}", flush=True)
break
try:
# Use non-blocking read with select to avoid hanging
ready, _, _ = select.select([process.stdout], [], [], 0.1)
if process.stdout in ready:
line = process.stdout.readline()
if not line:
time.sleep(0.01)
continue
else:
time.sleep(0.01)
continue
for char in line:
if char == '{':
if brace_count == 0:
in_json = True
buffer = char
else:
buffer += char
brace_count += 1
elif char == '}':
buffer += char
brace_count -= 1
if brace_count == 0 and in_json:
try:
json_data = json.loads(buffer)
json_objects.append(json_data)
print(f"[v0] Found JSON object #{len(json_objects)} ({len(buffer)} chars)", flush=True)
print(f"[v0] JSON keys: {list(json_data.keys())}", flush=True)
if 'clients' in json_data:
client_count = len(json_data['clients'])
print(f"[v0] *** FOUND CLIENTS SECTION with {client_count} client(s) ***", flush=True)
for client_id, client_data in json_data['clients'].items():
client_name = client_data.get('name', 'Unknown')
client_pid = client_data.get('pid', 'Unknown')
print(f"[v0] - Client: {client_name} (PID: {client_pid})", flush=True)
else:
print(f"[v0] No 'clients' key in this JSON object", flush=True)
if len(json_objects) >= 5:
print(f"[v0] Collected 5 JSON objects, stopping...", flush=True)
break
except json.JSONDecodeError:
pass
buffer = ""
in_json = False
elif in_json:
buffer += char
except Exception as e:
print(f"[v0] Error reading line: {e}", flush=True)
break
# Terminate process
try:
process.terminate()
_, stderr_output = process.communicate(timeout=1)
if stderr_output:
print(f"[v0] intel_gpu_top stderr: {stderr_output}", flush=True)
except subprocess.TimeoutExpired:
process.kill()
print("[v0] Process killed after terminate timeout.", flush=True)
except Exception as e:
print(f"[v0] Error during process termination: {e}", flush=True)
print(f"[v0] Collected {len(json_objects)} JSON objects total", flush=True)
best_json = None
# First priority: Find JSON with populated clients
for json_obj in reversed(json_objects):
if 'clients' in json_obj:
clients_data = json_obj['clients']
if clients_data and len(clients_data) > 0:
print(f"[v0] Found JSON with {len(clients_data)} client(s)!", flush=True)
best_json = json_obj
break
# Second priority: Use most recent JSON
if not best_json and json_objects:
best_json = json_objects[-1]
print(f"[v0] No clients found, using most recent JSON for current GPU state", flush=True)
if best_json:
print(f"[v0] Parsing selected JSON object...", flush=True)
data_retrieved = False
# Initialize engine totals
engine_totals = {
'Render/3D': 0.0,
'Blitter': 0.0,
'Video': 0.0,
'VideoEnhance': 0.0
}
client_engine_totals = {
'Render/3D': 0.0,
'Blitter': 0.0,
'Video': 0.0,
'VideoEnhance': 0.0
}
# Parse clients section (processes using GPU)
if 'clients' in best_json:
print(f"[v0] Parsing clients section...", flush=True)
clients = best_json['clients']
processes = []
for client_id, client_data in clients.items():
process_info = {
'name': client_data.get('name', 'Unknown'),
'pid': client_data.get('pid', 'Unknown'),
'memory': {
'total': client_data.get('memory', {}).get('system', {}).get('total', 0),
'shared': client_data.get('memory', {}).get('system', {}).get('shared', 0),
'resident': client_data.get('memory', {}).get('system', {}).get('resident', 0)
},
'engines': {}
}
# Parse engine utilization for this process
engine_classes = client_data.get('engine-classes', {})
for engine_name, engine_data in engine_classes.items():
busy_value = float(engine_data.get('busy', 0))
process_info['engines'][engine_name] = f"{busy_value:.1f}%"
# Sum up engine utilization across all processes
if engine_name in client_engine_totals:
client_engine_totals[engine_name] += busy_value
processes.append(process_info)
print(f"[v0] Added process: {process_info['name']} (PID: {process_info['pid']})", flush=True)
detailed_info['processes'] = processes
print(f"[v0] Total processes found: {len(processes)}", flush=True)
else:
print(f"[v0] WARNING: No 'clients' section in selected JSON", flush=True)
# Parse global engines section
if 'engines' in best_json:
print(f"[v0] Parsing engines section...", flush=True)
engines = best_json['engines']
for engine_name, engine_data in engines.items():
# Remove the /0 suffix if present
clean_name = engine_name.replace('/0', '')
busy_value = float(engine_data.get('busy', 0))
if clean_name in engine_totals:
engine_totals[clean_name] = busy_value
# Use client engine totals if available, otherwise use global engines
final_engines = client_engine_totals if any(v > 0 for v in client_engine_totals.values()) else engine_totals
detailed_info['engine_render'] = f"{final_engines['Render/3D']:.1f}%"
detailed_info['engine_blitter'] = f"{final_engines['Blitter']:.1f}%"
detailed_info['engine_video'] = f"{final_engines['Video']:.1f}%"
detailed_info['engine_video_enhance'] = f"{final_engines['VideoEnhance']:.1f}%"
# Calculate overall GPU utilization (max of all engines)
max_utilization = max(final_engines.values())
detailed_info['utilization_gpu'] = f"{max_utilization:.1f}%"
# Parse frequency
if 'frequency' in best_json:
freq_data = best_json['frequency']
actual_freq = freq_data.get('actual', 0)
detailed_info['clock_graphics'] = f"{actual_freq} MHz"
data_retrieved = True
# Parse power
if 'power' in best_json:
power_data = best_json['power']
gpu_power = power_data.get('GPU', 0)
package_power = power_data.get('Package', 0)
# Use Package power as the main power draw since GPU is always 0.0 for integrated GPUs
detailed_info['power_draw'] = f"{package_power:.2f} W"
# Keep power_limit as a separate field (could be used for TDP limit in the future)
detailed_info['power_limit'] = f"{package_power:.2f} W"
data_retrieved = True
if data_retrieved:
detailed_info['has_monitoring_tool'] = True
print(f"[v0] Intel GPU monitoring successful", flush=True)
print(f"[v0] - Utilization: {detailed_info['utilization_gpu']}", flush=True)
print(f"[v0] - Engines: R={detailed_info['engine_render']}, B={detailed_info['engine_blitter']}, V={detailed_info['engine_video']}, VE={detailed_info['engine_video_enhance']}", flush=True)
print(f"[v0] - Processes: {len(detailed_info['processes'])}", flush=True)
if len(detailed_info['processes']) == 0:
print(f"[v0] No processes found in JSON, trying text output...", flush=True)
text_processes = get_intel_gpu_processes_from_text()
if text_processes:
detailed_info['processes'] = text_processes
print(f"[v0] Found {len(text_processes)} processes from text output", flush=True)
else:
print(f"[v0] WARNING: No data retrieved from intel_gpu_top", flush=True)
else:
print(f"[v0] WARNING: No valid JSON objects found", flush=True)
# CHANGE: Evitar bloqueo al leer stderr - usar communicate() con timeout
try:
# Use communicate() with timeout instead of read() to avoid blocking
_, stderr_output = process.communicate(timeout=0.5)
if stderr_output:
print(f"[v0] intel_gpu_top stderr: {stderr_output}", flush=True)
except subprocess.TimeoutExpired:
process.kill()
print(f"[v0] Process killed after timeout", flush=True)
except Exception as e:
print(f"[v0] Error reading stderr: {e}", flush=True)
except Exception as e:
print(f"[v0] Error running intel_gpu_top: {e}", flush=True)
import traceback
traceback.print_exc()
else:
print(f"[v0] intel_gpu_top not found in PATH", flush=True)
# Fallback to text parsing if JSON parsing fails or -J is not available
print("[v0] Trying intel_gpu_top text output for process parsing...", flush=True)
detailed_info['processes'] = get_intel_gpu_processes_from_text()
if detailed_info['processes']:
detailed_info['has_monitoring_tool'] = True
print(f"[v0] Intel GPU process monitoring (text mode) successful.", flush=True)
else:
print(f"[v0] Intel GPU process monitoring (text mode) failed.", flush=True)
# NVIDIA GPU monitoring with nvidia-smi
elif 'nvidia' in vendor:
print(f"[v0] NVIDIA GPU detected, checking for nvidia-smi...", flush=True)
if shutil.which('nvidia-smi'):
print(f"[v0] nvidia-smi found, executing...", flush=True)
try:
# Basic GPU stats
query_gpu = 'index,name,memory.total,memory.used,memory.free,temperature.gpu,power.draw,power.limit,utilization.gpu,utilization.memory,clocks.gr,clocks.mem,pcie.link.gen.current,pcie.link.width.current'
cmd_gpu = ['nvidia-smi', f'--query-gpu={query_gpu}', '--format=csv,noheader,nounits']
print(f"[v0] Executing command: {' '.join(cmd_gpu)}", flush=True)
result_gpu = subprocess.run(cmd_gpu, capture_output=True, text=True, timeout=5)
if result_gpu.returncode == 0 and result_gpu.stdout.strip():
output_lines = result_gpu.stdout.strip().split('\n')
# Assuming only one GPU, or taking the first one if multiple are returned
gpu_data_line = output_lines[0]
parts = [p.strip() for p in gpu_data_line.split(',')]
if len(parts) >= 14: # Check if we have enough parts
try:
detailed_info['temperature'] = int(parts[5]) if parts[5].isdigit() else None
detailed_info['power_draw'] = float(parts[6]) if parts[6].replace('.', '', 1).isdigit() else None
detailed_info['power_limit'] = float(parts[7]) if parts[7].replace('.', '', 1).isdigit() else None
detailed_info['utilization_gpu'] = int(parts[8]) if parts[8].isdigit() else None
detailed_info['utilization_memory'] = int(parts[9]) if parts[9].isdigit() else None
detailed_info['clock_graphics'] = int(parts[10]) if parts[10].isdigit() else None
detailed_info['clock_memory'] = int(parts[11]) if parts[11].isdigit() else None
detailed_info['memory_total'] = int(parts[2]) if parts[2].isdigit() else None
detailed_info['memory_used'] = int(parts[3]) if parts[3].isdigit() else None
detailed_info['memory_free'] = int(parts[4]) if parts[4].isdigit() else None
print(f"[v0] NVIDIA GPU Basic Stats: Temp={detailed_info['temperature']}C, Power={detailed_info['power_draw']}W, Util={detailed_info['utilization_gpu']}%", flush=True)
detailed_info['has_monitoring_tool'] = True
except (ValueError, IndexError) as e:
print(f"[v0] Error parsing NVIDIA GPU stats: {e}", flush=True)
detailed_info['has_monitoring_tool'] = False
# Compute processes using GPU
query_apps = 'pid,process_name,used_memory'
cmd_apps = ['nvidia-smi', f'--query-compute-apps={query_apps}', '--format=csv,noheader']
print(f"[v0] Executing command: {' '.join(cmd_apps)}", flush=True)
result_apps = subprocess.run(cmd_apps, capture_output=True, text=True, timeout=5)
if result_apps.returncode == 0 and result_apps.stdout.strip():
processes = []
for line in result_apps.stdout.strip().split('\n'):
if line:
parts = [p.strip() for p in line.split(',')]
if len(parts) >= 3:
# Convert memory to MB
mem_str = parts[2]
mem_mb = 0
if 'MiB' in mem_str:
try:
mem_mb = int(float(mem_str.replace('MiB', '').strip()))
except ValueError:
pass
elif 'GiB' in mem_str:
try:
mem_mb = int(float(mem_str.replace('GiB', '').strip()) * 1024)
except ValueError:
pass
processes.append({
'pid': parts[0],
'name': parts[1],
'memory_used_mb': mem_mb
})
detailed_info['processes'] = processes
print(f"[v0] Found {len(processes)} NVIDIA GPU processes", flush=True)
if detailed_info['has_monitoring_tool']:
print(f"[v0] NVIDIA GPU monitoring successful", flush=True)
else:
print(f"[v0] NVIDIA GPU monitoring failed - essential data not retrieved", flush=True)
except subprocess.TimeoutExpired:
print(f"[v0] nvidia-smi timed out - marking tool as unavailable", flush=True)
except Exception as e:
print(f"[v0] Error running nvidia-smi: {e}", flush=True)
import traceback
traceback.print_exc()
else:
print(f"[v0] nvidia-smi not found in PATH", flush=True)
# AMD GPU monitoring (placeholder, requires radeontop or similar)
elif 'amd' in vendor:
print(f"[v0] AMD GPU detected. Monitoring tools like radeontop are needed for detailed info.", flush=True)
if shutil.which('radeontop'):
print(f"[v0] radeontop found, but integration is not yet implemented.", flush=True)
else:
print(f"[v0] radeontop not found in PATH.", flush=True)
# Placeholder: return basic info if available from lspci or sensors
# No detailed monitoring implemented yet for AMD
else:
print(f"[v0] Unsupported GPU vendor: {vendor}", flush=True)
print(f"[v0] ===== Exiting get_detailed_gpu_info for GPU {slot} =====", flush=True)
return detailed_info
def get_pci_device_info(pci_slot):
"""Get detailed PCI device information for a given slot"""
pci_info = {}
try:
# Use lspci -vmm for detailed information
result = subprocess.run(['lspci', '-vmm', '-s', pci_slot],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.split('\n'):
line = line.strip()
if ':' in line:
key, value = line.split(':', 1)
pci_info[key.strip().lower().replace(' ', '_')] = value.strip()
# Now get driver information with lspci -k
result_k = subprocess.run(['lspci', '-k', '-s', pci_slot],
capture_output=True, text=True, timeout=5)
if result_k.returncode == 0:
for line in result_k.stdout.split('\n'):
line = line.strip()
if line.startswith('Kernel driver in use:'):
pci_info['driver'] = line.split(':', 1)[1].strip()
elif line.startswith('Kernel modules:'):
pci_info['kernel_module'] = line.split(':', 1)[1].strip()
except Exception as e:
print(f"[v0] Error getting PCI device info for {pci_slot}: {e}")
return pci_info
def get_network_hardware_info(pci_slot):
"""Get detailed hardware information for a network interface"""
net_info = {}
try:
# Get detailed PCI info
result = subprocess.run(['lspci', '-v', '-s', pci_slot],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.split('\n'):
if 'Kernel driver in use:' in line:
net_info['driver'] = line.split(':', 1)[1].strip()
elif 'Kernel modules:' in line:
net_info['kernel_modules'] = line.split(':', 1)[1].strip()
elif 'Subsystem:' in line:
net_info['subsystem'] = line.split(':', 1)[1].strip()
elif 'LnkCap:' in line:
# Parse link capabilities
speed_match = re.search(r'Speed (\S+)', line)
width_match = re.search(r'Width x(\d+)', line)
if speed_match:
net_info['max_link_speed'] = speed_match.group(1)
if width_match:
net_info['max_link_width'] = f"x{width_match.group(1)}"
elif 'LnkSta:' in line:
# Parse current link status
speed_match = re.search(r'Speed (\S+)', line)
width_match = re.search(r'Width x(\d+)', line)
if speed_match:
net_info['current_link_speed'] = speed_match.group(1)
if width_match:
net_info['current_link_width'] = f"x{width_match.group(1)}"
# Get network interface name and status
try:
result = subprocess.run(['ls', '/sys/class/net/'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
interfaces = result.stdout.strip().split('\n')
for iface in interfaces:
# Check if this interface corresponds to the PCI slot
device_path = f"/sys/class/net/{iface}/device"
if os.path.exists(device_path):
real_path = os.path.realpath(device_path)
if pci_slot in real_path:
net_info['interface_name'] = iface
# Get interface speed
speed_file = f"/sys/class/net/{iface}/speed"
if os.path.exists(speed_file):
with open(speed_file, 'r') as f:
speed = f.read().strip()
if speed != '-1':
net_info['interface_speed'] = f"{speed} Mbps"
# Get MAC address
mac_file = f"/sys/class/net/{iface}/address"
if os.path.exists(mac_file):
with open(mac_file, 'r') as f:
net_info['mac_address'] = f.read().strip()
break
except Exception as e:
print(f"[v0] Error getting network interface info: {e}")
except Exception as e:
print(f"[v0] Error getting network hardware info: {e}")
return net_info
def get_gpu_info():
"""Detect and return information about GPUs in the system"""
gpus = []
try:
result = subprocess.run(['lspci'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.split('\n'):
# Match VGA, 3D, Display controllers
if any(keyword in line for keyword in ['VGA compatible controller', '3D controller', 'Display controller']):
parts = line.split(' ', 1)
if len(parts) >= 2:
slot = parts[0].strip()
remaining = parts[1]
if ':' in remaining:
class_and_name = remaining.split(':', 1)
gpu_name = class_and_name[1].strip() if len(class_and_name) > 1 else remaining.strip()
else:
gpu_name = remaining.strip()
# Determine vendor
vendor = 'Unknown'
if 'NVIDIA' in gpu_name or 'nVidia' in gpu_name:
vendor = 'NVIDIA'
elif 'AMD' in gpu_name or 'ATI' in gpu_name or 'Radeon' in gpu_name:
vendor = 'AMD'
elif 'Intel' in gpu_name:
vendor = 'Intel'
gpu = {
'slot': slot,
'name': gpu_name,
'vendor': vendor,
'type': 'Discrete' if vendor in ['NVIDIA', 'AMD'] else 'Integrated'
}
pci_info = get_pci_device_info(slot)
if pci_info:
gpu['pci_class'] = pci_info.get('class', '')
gpu['pci_driver'] = pci_info.get('driver', '')
gpu['pci_kernel_module'] = pci_info.get('kernel_module', '')
# detailed_info = get_detailed_gpu_info(gpu) # Removed this call here
# gpu.update(detailed_info) # It will be called later in api_gpu_realtime
gpus.append(gpu)
print(f"[v0] Found GPU: {gpu_name} ({vendor}) at slot {slot}")
except Exception as e:
print(f"[v0] Error detecting GPUs from lspci: {e}")
try:
result = subprocess.run(['sensors'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
current_adapter = None
for line in result.stdout.split('\n'):
line = line.strip()
if not line:
continue
# Detect adapter line
if line.startswith('Adapter:'):
current_adapter = line.replace('Adapter:', '').strip()
continue
# Look for GPU-related sensors (nouveau, amdgpu, radeon, i915)
if ':' in line and not line.startswith(' '):
parts = line.split(':', 1)
sensor_name = parts[0].strip()
value_part = parts[1].strip()
# Check if this is a GPU sensor
gpu_sensor_keywords = ['nouveau', 'amdgpu', 'radeon', 'i915']
is_gpu_sensor = any(keyword in current_adapter.lower() if current_adapter else False for keyword in gpu_sensor_keywords)
if is_gpu_sensor:
# Try to match this sensor to a GPU
for gpu in gpus:
# Match nouveau to NVIDIA, amdgpu/radeon to AMD, i915 to Intel
if (('nouveau' in current_adapter.lower() and gpu['vendor'] == 'NVIDIA') or
(('amdgpu' in current_adapter.lower() or 'radeon' in current_adapter.lower()) and gpu['vendor'] == 'AMD') or
('i915' in current_adapter.lower() and gpu['vendor'] == 'Intel')):
# Parse temperature (only if not already set by nvidia-smi)
if 'temperature' not in gpu or gpu['temperature'] is None:
if '°C' in value_part or 'C' in value_part:
temp_match = re.search(r'([+-]?[\d.]+)\s*°?C', value_part)
if temp_match:
gpu['temperature'] = float(temp_match.group(1))
print(f"[v0] GPU {gpu['name']}: Temperature = {gpu['temperature']}°C")
# Parse fan speed
elif 'RPM' in value_part:
rpm_match = re.search(r'([\d.]+)\s*RPM', value_part)
if rpm_match:
gpu['fan_speed'] = int(float(rpm_match.group(1)))
gpu['fan_unit'] = 'RPM'
print(f"[v0] GPU {gpu['name']}: Fan = {gpu['fan_speed']} RPM")
except Exception as e:
print(f"[v0] Error enriching GPU data from sensors: {e}")
return gpus
def get_disk_hardware_info(disk_name):
"""Get detailed hardware information for a disk"""
disk_info = {}
try:
# Get disk type (HDD, SSD, NVMe)
result = subprocess.run(['lsblk', '-d', '-n', '-o', 'NAME,ROTA,TYPE', f'/dev/{disk_name}'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
parts = result.stdout.strip().split()
if len(parts) >= 2:
rota = parts[1]
disk_info['type'] = 'HDD' if rota == '1' else 'SSD'
if disk_name.startswith('nvme'):
disk_info['type'] = 'NVMe SSD'
# Get driver/kernel module
try:
# For NVMe
if disk_name.startswith('nvme'):
disk_info['driver'] = 'nvme'
disk_info['interface'] = 'PCIe/NVMe'
# For SATA/SAS
else:
result = subprocess.run(['udevadm', 'info', '--query=property', f'/dev/{disk_name}'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.split('\n'):
if 'ID_BUS=' in line:
bus = line.split('=')[1].strip()
disk_info['interface'] = bus.upper()
if 'ID_MODEL=' in line:
model = line.split('=')[1].strip()
disk_info['model'] = model
if 'ID_SERIAL_SHORT=' in line:
serial = line.split('=')[1].strip()
disk_info['serial'] = serial
except Exception as e:
print(f"[v0] Error getting disk driver info: {e}")
# Get SMART data
try:
result = subprocess.run(['smartctl', '-i', f'/dev/{disk_name}'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.split('\n'):
if 'Model Family:' in line:
disk_info['family'] = line.split(':', 1)[1].strip()
elif 'Device Model:' in line or 'Model Number:' in line:
disk_info['model'] = line.split(':', 1)[1].strip()
elif 'Serial Number:' in line:
disk_info['serial'] = line.split(':', 1)[1].strip()
elif 'Firmware Version:' in line:
disk_info['firmware'] = line.split(':', 1)[1].strip()
elif 'Rotation Rate:' in line:
disk_info['rotation_rate'] = line.split(':', 1)[1].strip()
elif 'Form Factor:' in line:
disk_info['form_factor'] = line.split(':', 1)[1].strip()
elif 'SATA Version is:' in line:
disk_info['sata_version'] = line.split(':', 1)[1].strip()
except Exception as e:
print(f"[v0] Error getting SMART info: {e}")
except Exception as e:
print(f"[v0] Error getting disk hardware info: {e}")
return disk_info
def get_hardware_info():
"""Get comprehensive hardware information"""
try:
# Initialize with default structure, including the new power_meter field
hardware_data = {
'cpu': {},
'motherboard': {},
'memory_modules': [],
'storage_devices': [],
'network_cards': [],
'graphics_cards': [],
'gpus': [], # Added dedicated GPU array
'pci_devices': [],
'sensors': {
'temperatures': [],
'fans': []
},
'power': {}, # This might be overwritten by ipmi_power or ups
'ipmi_fans': [], # Added IPMI fans
'ipmi_power': {}, # Added IPMI power
'ups': {}, # Added UPS info
'power_meter': None # Added placeholder for sensors power meter
}
# CPU Information
try:
result = subprocess.run(['lscpu'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
cpu_info = {}
for line in result.stdout.split('\n'):
if ':' in line:
key, value = line.split(':', 1)
key = key.strip()
value = value.strip()
if key == 'Model name':
cpu_info['model'] = value
elif key == 'CPU(s)':
cpu_info['total_threads'] = int(value)
elif key == 'Core(s) per socket':
cpu_info['cores_per_socket'] = int(value)
elif key == 'Socket(s)':
cpu_info['sockets'] = int(value)
elif key == 'CPU MHz':
cpu_info['current_mhz'] = float(value)
elif key == 'CPU max MHz':
cpu_info['max_mhz'] = float(value)
elif key == 'CPU min MHz':
cpu_info['min_mhz'] = float(value)
elif key == 'Virtualization':
cpu_info['virtualization'] = value
elif key == 'L1d cache':
cpu_info['l1d_cache'] = value
elif key == 'L1i cache':
cpu_info['l1i_cache'] = value
elif key == 'L2 cache':
cpu_info['l2_cache'] = value
elif key == 'L3 cache':
cpu_info['l3_cache'] = value
hardware_data['cpu'] = cpu_info
print(f"[v0] CPU: {cpu_info.get('model', 'Unknown')}")
except Exception as e:
print(f"[v0] Error getting CPU info: {e}")
# Motherboard Information
try:
result = subprocess.run(['dmidecode', '-t', 'baseboard'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
mb_info = {}
for line in result.stdout.split('\n'):
line = line.strip()
if line.startswith('Manufacturer:'):
mb_info['manufacturer'] = line.split(':', 1)[1].strip()
elif line.startswith('Product Name:'):
mb_info['model'] = line.split(':', 1)[1].strip()
elif line.startswith('Version:'):
mb_info['version'] = line.split(':', 1)[1].strip()
elif line.startswith('Serial Number:'):
mb_info['serial'] = line.split(':', 1)[1].strip()
hardware_data['motherboard'] = mb_info
print(f"[v0] Motherboard: {mb_info.get('manufacturer', 'Unknown')} {mb_info.get('model', 'Unknown')}")
except Exception as e:
print(f"[v0] Error getting motherboard info: {e}")
# BIOS Information
try:
result = subprocess.run(['dmidecode', '-t', 'bios'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
bios_info = {}
for line in result.stdout.split('\n'):
line = line.strip()
if line.startswith('Vendor:'):
bios_info['vendor'] = line.split(':', 1)[1].strip()
elif line.startswith('Version:'):
bios_info['version'] = line.split(':', 1)[1].strip()
elif line.startswith('Release Date:'):
bios_info['date'] = line.split(':', 1)[1].strip()
hardware_data['motherboard']['bios'] = bios_info
print(f"[v0] BIOS: {bios_info.get('vendor', 'Unknown')} {bios_info.get('version', 'Unknown')}")
except Exception as e:
print(f"[v0] Error getting BIOS info: {e}")
# Memory Modules
try:
result = subprocess.run(['dmidecode', '-t', 'memory'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
current_module = {}
for line in result.stdout.split('\n'):
line = line.strip()
if line.startswith('Memory Device'):
if current_module and current_module.get('size') != 'No Module Installed':
hardware_data['memory_modules'].append(current_module)
current_module = {}
elif line.startswith('Size:'):
size = line.split(':', 1)[1].strip()
current_module['size'] = size
elif line.startswith('Type:'):
current_module['type'] = line.split(':', 1)[1].strip()
elif line.startswith('Speed:'):
current_module['speed'] = line.split(':', 1)[1].strip()
elif line.startswith('Manufacturer:'):
current_module['manufacturer'] = line.split(':', 1)[1].strip()
elif line.startswith('Serial Number:'):
current_module['serial'] = line.split(':', 1)[1].strip()
elif line.startswith('Locator:'):
current_module['slot'] = line.split(':', 1)[1].strip()
if current_module and current_module.get('size') != 'No Module Installed':
hardware_data['memory_modules'].append(current_module)
print(f"[v0] Memory modules: {len(hardware_data['memory_modules'])} installed")
except Exception as e:
print(f"[v0] Error getting memory info: {e}")
storage_info = get_storage_info()
for device in storage_info.get('disks', []):
hw_info = get_disk_hardware_info(device['name'])
device.update(hw_info)
hardware_data['storage_devices'] = storage_info.get('disks', [])
# Graphics Cards (from lspci - will be duplicated by new PCI device listing, but kept for now)
try:
# Try nvidia-smi first
result = subprocess.run(['nvidia-smi', '--query-gpu=name,memory.total,temperature.gpu,power.draw', '--format=csv,noheader,nounits'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.strip().split('\n'):
if line:
parts = line.split(',')
if len(parts) >= 4:
hardware_data['graphics_cards'].append({
'name': parts[0].strip(),
'memory': parts[1].strip(),
'temperature': int(parts[2].strip().split(' ')[0]) if parts[2].strip() != 'N/A' and 'C' in parts[2] else 0,
'power_draw': parts[3].strip(),
'vendor': 'NVIDIA'
})
# Always check lspci for all GPUs (integrated and discrete)
result = subprocess.run(['lspci'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
for line in result.stdout.split('\n'):
# Match VGA, 3D, Display controllers
if any(keyword in line for keyword in ['VGA compatible controller', '3D controller', 'Display controller']):
parts = line.split(':', 2)
if len(parts) >= 3:
gpu_name = parts[2].strip()
# Determine vendor
vendor = 'Unknown'
if 'NVIDIA' in gpu_name or 'nVidia' in gpu_name:
vendor = 'NVIDIA'
elif 'AMD' in gpu_name or 'ATI' in gpu_name or 'Radeon' in gpu_name:
vendor = 'AMD'
elif 'Intel' in gpu_name:
vendor = 'Intel'
# Check if this GPU is already in the list (from nvidia-smi)
already_exists = False
for existing_gpu in hardware_data['graphics_cards']:
if gpu_name in existing_gpu['name'] or existing_gpu['name'] in gpu_name:
already_exists = True
# Update vendor if it was previously unknown
if existing_gpu['vendor'] == 'Unknown':
existing_gpu['vendor'] = vendor
break
if not already_exists:
hardware_data['graphics_cards'].append({
'name': gpu_name,
'vendor': vendor
})
print(f"[v0] Found GPU: {gpu_name} ({vendor})")
print(f"[v0] Graphics cards: {len(hardware_data['graphics_cards'])} found")
except Exception as e:
print(f"[v0] Error getting graphics cards: {e}")
try:
print("[v0] Getting PCI devices with driver information...")
# First get basic device info with lspci -vmm
result = subprocess.run(['lspci', '-vmm'], capture_output=True, text=True, timeout=10)
if result.returncode == 0:
current_device = {}
for line in result.stdout.split('\n'):
line = line.strip()
if not line:
# Empty line = end of device
if current_device and 'Class' in current_device:
device_class = current_device.get('Class', '')
device_name = current_device.get('Device', '')
vendor = current_device.get('Vendor', '')
slot = current_device.get('Slot', 'Unknown')
# Categorize and add important devices
device_type = 'Other'
include_device = False
# Graphics/Display devices
if any(keyword in device_class for keyword in ['VGA', 'Display', '3D']):
device_type = 'Graphics Card'
include_device = True
# Storage controllers
elif any(keyword in device_class for keyword in ['SATA', 'RAID', 'Mass storage', 'Non-Volatile memory']):
device_type = 'Storage Controller'
include_device = True
# Network controllers
elif 'Ethernet' in device_class or 'Network' in device_class:
device_type = 'Network Controller'
include_device = True
# USB controllers
elif 'USB' in device_class:
device_type = 'USB Controller'
include_device = True
# Audio devices
elif 'Audio' in device_class or 'Multimedia' in device_class:
device_type = 'Audio Controller'
include_device = True
# Special devices (Coral TPU, etc.)
elif any(keyword in device_name.lower() for keyword in ['coral', 'tpu', 'edge']):
device_type = 'AI Accelerator'
include_device = True
# PCI bridges (usually not interesting for users)
elif 'Bridge' in device_class:
include_device = False
if include_device:
pci_device = {
'slot': slot,
'type': device_type,
'vendor': vendor,
'device': device_name,
'class': device_class
}
hardware_data['pci_devices'].append(pci_device)
current_device = {}
elif ':' in line:
key, value = line.split(':', 1)
current_device[key.strip()] = value.strip()
# Now get driver information with lspci -k
result_k = subprocess.run(['lspci', '-k'], capture_output=True, text=True, timeout=10)
if result_k.returncode == 0:
current_slot = None
current_driver = None
current_module = None
for line in result_k.stdout.split('\n'):
# Match PCI slot line (e.g., "00:1f.2 SATA controller: ...")
if line and not line.startswith('\t'):
parts = line.split(' ', 1)
if parts:
current_slot = parts[0]
current_driver = None
current_module = None
# Match driver lines (indented with tab)
elif line.startswith('\t'):
line = line.strip()
if line.startswith('Kernel driver in use:'):
current_driver = line.split(':', 1)[1].strip()
elif line.startswith('Kernel modules:'):
current_module = line.split(':', 1)[1].strip()
# Update the corresponding PCI device
if current_slot and (current_driver or current_module):
for device in hardware_data['pci_devices']:
if device['slot'] == current_slot:
if current_driver:
device['driver'] = current_driver
if current_module:
device['kernel_module'] = current_module
break
print(f"[v0] Total PCI devices found: {len(hardware_data['pci_devices'])}")
except Exception as e:
print(f"[v0] Error getting PCI devices: {e}")
# Sensors (Temperature and Fans)
try:
if hasattr(psutil, "sensors_temperatures"):
temps = psutil.sensors_temperatures()
if temps:
for sensor_name, entries in temps.items():
for entry in entries:
# Use identify_temperature_sensor to make names more user-friendly
identified_name = identify_temperature_sensor(entry.label if entry.label else sensor_name, sensor_name)
hardware_data['sensors']['temperatures'].append({
'name': identified_name,
'original_name': entry.label if entry.label else sensor_name,
'current': entry.current,
'high': entry.high if entry.high else 0,
'critical': entry.critical if entry.critical else 0
})
print(f"[v0] Temperature sensors: {len(hardware_data['sensors']['temperatures'])} found")
try:
result = subprocess.run(['sensors'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
current_adapter = None
fans = []
for line in result.stdout.split('\n'):
line = line.strip()
if not line:
continue
# Detect adapter line
if line.startswith('Adapter:'):
current_adapter = line.replace('Adapter:', '').strip()
continue
# Parse fan sensors
if ':' in line and not line.startswith(' '):
parts = line.split(':', 1)
sensor_name = parts[0].strip()
value_part = parts[1].strip()
# Look for fan sensors (RPM)
if 'RPM' in value_part:
rpm_match = re.search(r'([\d.]+)\s*RPM', value_part)
if rpm_match:
fan_speed = int(float(rpm_match.group(1)))
# Placeholder for identify_fan - needs implementation
# identified_name = identify_fan(sensor_name, current_adapter)
identified_name = sensor_name # Use original name for now
fans.append({
'name': identified_name,
'original_name': sensor_name,
'speed': fan_speed,
'unit': 'RPM',
'adapter': current_adapter
})
print(f"[v0] Fan sensor: {identified_name} ({sensor_name}) = {fan_speed} RPM")
hardware_data['sensors']['fans'] = fans
print(f"[v0] Found {len(fans)} fan sensor(s)")
except Exception as e:
print(f"[v0] Error getting fan info: {e}")
except Exception as e:
print(f"[v0] Error getting psutil sensors: {e}")
# Power Supply / UPS
try:
result = subprocess.run(['apcaccess'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
ups_info = {}
for line in result.stdout.split('\n'):
if ':' in line:
key, value = line.split(':', 1)
key = key.strip()
value = value.strip()
if key == 'MODEL':
ups_info['model'] = value
elif key == 'STATUS':
ups_info['status'] = value
elif key == 'BCHARGE':
ups_info['battery_charge'] = value
elif key == 'TIMELEFT':
ups_info['time_left'] = value
elif key == 'LOADPCT':
ups_info['load_percent'] = value
elif key == 'LINEV':
ups_info['line_voltage'] = value
if ups_info:
hardware_data['power'] = ups_info
print(f"[v0] UPS found: {ups_info.get('model', 'Unknown')}")
except FileNotFoundError:
print("[v0] apcaccess not found - no UPS monitoring")
except Exception as e:
print(f"[v0] Error getting UPS info: {e}")
temp_info = get_temperature_info()
hardware_data['sensors']['temperatures'] = temp_info['temperatures']
hardware_data['power_meter'] = temp_info['power_meter']
ipmi_fans = get_ipmi_fans()
if ipmi_fans:
hardware_data['ipmi_fans'] = ipmi_fans
ipmi_power = get_ipmi_power()
if ipmi_power['power_supplies'] or ipmi_power['power_meter']:
hardware_data['ipmi_power'] = ipmi_power
ups_info = get_ups_info()
if ups_info:
hardware_data['ups'] = ups_info
hardware_data['gpus'] = get_gpu_info()
return hardware_data
except Exception as e:
print(f"[v0] Error in get_hardware_info: {e}")
import traceback
traceback.print_exc()
return {}
@app.route('/api/system', methods=['GET'])
def api_system():
"""Get system information"""
return jsonify(get_system_info())
@app.route('/api/storage', methods=['GET'])
def api_storage():
"""Get storage information"""
return jsonify(get_storage_info())
@app.route('/api/proxmox-storage', methods=['GET'])
def api_proxmox_storage():
"""Get Proxmox storage information"""
return jsonify(get_proxmox_storage())
@app.route('/api/network', methods=['GET'])
def api_network():
"""Get network information"""
return jsonify(get_network_info())
@app.route('/api/vms', methods=['GET'])
def api_vms():
"""Get virtual machine information"""
return jsonify(get_proxmox_vms())
@app.route('/api/logs', methods=['GET'])
def api_logs():
"""Get system logs"""
try:
# Get recent system logs
result = subprocess.run(['journalctl', '-n', '100', '--output', 'json'],
capture_output=True, text=True, timeout=10)
if result.returncode == 0:
logs = []
for line in result.stdout.strip().split('\n'):
if line:
try:
log_entry = json.loads(line)
logs.append({
'timestamp': log_entry.get('__REALTIME_TIMESTAMP', ''),
'level': log_entry.get('PRIORITY', '6'),
'service': log_entry.get('_SYSTEMD_UNIT', 'system'),
'message': log_entry.get('MESSAGE', ''),
'source': 'journalctl'
})
except json.JSONDecodeError:
continue
return jsonify(logs)
else:
return jsonify({
'error': 'journalctl not available or failed',
'logs': []
})
except Exception as e:
print(f"Error getting logs: {e}")
return jsonify({
'error': f'Unable to access system logs: {str(e)}',
'logs': []
})
@app.route('/api/health', methods=['GET'])
def api_health():
"""Health check endpoint"""
return jsonify({
'status': 'healthy',
'timestamp': datetime.now().isoformat(),
'version': '1.0.0'
})
@app.route('/api/system-info', methods=['GET'])
def api_system_info():
"""Get system and node information for dashboard header"""
try:
hostname = socket.gethostname()
node_id = f"pve-{hostname}"
pve_version = None
# Try to get Proxmox version
try:
result = subprocess.run(['pveversion'], capture_output=True, text=True, timeout=5)
if result.returncode == 0:
pve_version = result.stdout.strip().split('\n')[0]
except:
pass
# Try to get node info from Proxmox API
try:
result = subprocess.run(['pvesh', 'get', '/nodes', '--output-format', 'json'],
capture_output=True, text=True, timeout=5)
if result.returncode == 0:
nodes = json.loads(result.stdout)
if nodes and len(nodes) > 0:
node_info = nodes[0]
node_id = node_info.get('node', node_id)
hostname = node_info.get('node', hostname)
except:
pass
response = {
'hostname': hostname,
'node_id': node_id,
'status': 'online',
'timestamp': datetime.now().isoformat()
}
if pve_version:
response['pve_version'] = pve_version
else:
response['error'] = 'Proxmox version not available - pveversion command not found'
return jsonify(response)
except Exception as e:
print(f"Error getting system info: {e}")
return jsonify({
'error': f'Unable to access system information: {str(e)}',
'hostname': socket.gethostname(),
'status': 'error',
'timestamp': datetime.now().isoformat()
})
@app.route('/api/info', methods=['GET'])
def api_info():
"""Root endpoint with API information"""
return jsonify({
'name': 'ProxMenux Monitor API',
'version': '1.0.0',
'endpoints': [
'/api/system',
'/api/system-info',
'/api/storage',
'/api/proxmox-storage',
'/api/network',
'/api/vms',
'/api/logs',
'/api/health',
'/api/hardware',
'/api/gpu//realtime' # Added endpoint for GPU monitoring
]
})
@app.route('/api/hardware', methods=['GET'])
def api_hardware():
"""Get hardware information"""
try:
hardware_info = get_hardware_info()
all_fans = hardware_info.get('sensors', {}).get('fans', [])
ipmi_fans = hardware_info.get('ipmi_fans', [])
all_fans.extend(ipmi_fans)
# Format data for frontend
formatted_data = {
'cpu': hardware_info.get('cpu', {}),
'motherboard': hardware_info.get('motherboard', {}),
'bios': hardware_info.get('motherboard', {}).get('bios', {}), # Extract BIOS info
'memory_modules': hardware_info.get('memory_modules', []),
'storage_devices': hardware_info.get('storage_devices', []), # Fixed: use hardware_info
'pci_devices': hardware_info.get('pci_devices', []),
'temperatures': hardware_info.get('sensors', {}).get('temperatures', []),
'fans': all_fans, # Return combined fans (sensors + IPMI)
'power_supplies': hardware_info.get('ipmi_power', {}).get('power_supplies', []),
'power_meter': hardware_info.get('power_meter'),
'ups': hardware_info.get('ups') if hardware_info.get('ups') else None,
'gpus': hardware_info.get('gpus', [])
}
print(f"[v0] /api/hardware returning data")
print(f"[v0] - CPU: {formatted_data['cpu'].get('model', 'Unknown')}")
print(f"[v0] - Temperatures: {len(formatted_data['temperatures'])} sensors")
print(f"[v0] - Fans: {len(formatted_data['fans'])} fans") # Now includes IPMI fans
print(f"[v0] - Power supplies: {len(formatted_data['power_supplies'])} PSUs")
print(f"[v0] - Power meter: {'Yes' if formatted_data['power_meter'] else 'No'}")
print(f"[v0] - UPS: {'Yes' if formatted_data['ups'] else 'No'}")
print(f"[v0] - GPUs: {len(formatted_data['gpus'])} found")
return jsonify(formatted_data)
except Exception as e:
print(f"[v0] Error in api_hardware: {e}")
import traceback
traceback.print_exc()
return jsonify({'error': str(e)}), 500
@app.route('/api/gpu//realtime', methods=['GET'])
def api_gpu_realtime(slot):
"""Get real-time GPU monitoring data for a specific GPU"""
try:
print(f"[v0] /api/gpu/{slot}/realtime - Getting GPU info...")
gpus = get_gpu_info()
gpu = None
for g in gpus:
# Match by slot or if the slot is a substring of the GPU's slot (e.g., '00:01.0' matching '00:01')
if g.get('slot') == slot or slot in g.get('slot', ''):
gpu = g
break
if not gpu:
print(f"[v0] GPU with slot matching '{slot}' not found")
return jsonify({'error': 'GPU not found'}), 404
print(f"[v0] Getting detailed monitoring data for GPU at slot {gpu.get('slot')}...")
detailed_info = get_detailed_gpu_info(gpu)
gpu.update(detailed_info)
# Extract only the monitoring-related fields
realtime_data = {
'has_monitoring_tool': gpu.get('has_monitoring_tool', False),
'temperature': gpu.get('temperature'),
'fan_speed': gpu.get('fan_speed'),
'fan_unit': gpu.get('fan_unit'),
'utilization_gpu': gpu.get('utilization_gpu'),
'utilization_memory': gpu.get('utilization_memory'),
'memory_used': gpu.get('memory_used'),
'memory_total': gpu.get('memory_total'),
'memory_free': gpu.get('memory_free'),
'power_draw': gpu.get('power_draw'),
'power_limit': gpu.get('power_limit'),
'clock_graphics': gpu.get('clock_graphics'),
'clock_memory': gpu.get('clock_memory'),
'processes': gpu.get('processes', []),
# Intel/AMD specific engine utilization
'engine_render': gpu.get('engine_render'),
'engine_blitter': gpu.get('engine_blitter'),
'engine_video': gpu.get('engine_video'),
'engine_video_enhance': gpu.get('engine_video_enhance')
}
print(f"[v0] /api/gpu/{slot}/realtime returning data")
print(f"[v0] - Vendor: {gpu.get('vendor')}")
print(f"[v0] - has_monitoring_tool: {realtime_data['has_monitoring_tool']}")
print(f"[v0] - utilization_gpu: {realtime_data['utilization_gpu']}")
print(f"[v0] - temperature: {realtime_data['temperature']}")
print(f"[v0] - processes: {len(realtime_data['processes'])} found")
print(f"[v0] - engines: render={realtime_data['engine_render']}, blitter={realtime_data['engine_blitter']}, video={realtime_data['engine_video']}, video_enhance={realtime_data['engine_video_enhance']}")
return jsonify(realtime_data)
except Exception as e:
print(f"[v0] Error getting real-time GPU data: {e}")
import traceback
traceback.print_exc()
return jsonify({'error': str(e)}), 500
@app.route('/api/vms/', methods=['GET'])
def api_vm_details(vmid):
"""Get detailed information for a specific VM/LXC"""
try:
result = subprocess.run(['pvesh', 'get', f'/cluster/resources', '--type', 'vm', '--output-format', 'json'],
capture_output=True, text=True, timeout=10)
if result.returncode == 0:
resources = json.loads(result.stdout)
for resource in resources:
if resource.get('vmid') == vmid:
vm_type = 'lxc' if resource.get('type') == 'lxc' else 'qemu'
node = resource.get('node', 'pve')
# Get detailed config
config_result = subprocess.run(
['pvesh', 'get', f'/nodes/{node}/{vm_type}/{vmid}/config', '--output-format', 'json'],
capture_output=True, text=True, timeout=10
)
config = {}
if config_result.returncode == 0:
config = json.loads(config_result.stdout)
return jsonify({
**resource,
'config': config,
'node': node,
'vm_type': vm_type
})
return jsonify({'error': f'VM/LXC {vmid} not found'}), 404
else:
return jsonify({'error': 'Failed to get VM details'}), 500
except Exception as e:
print(f"Error getting VM details: {e}")
return jsonify({'error': str(e)}), 500
@app.route('/api/vms//logs', methods=['GET'])
def api_vm_logs(vmid):
"""Download real logs for a specific VM/LXC (not task history)"""
try:
# Get VM type and node
result = subprocess.run(['pvesh', 'get', f'/cluster/resources', '--type', 'vm', '--output-format', 'json'],
capture_output=True, text=True, timeout=10)
if result.returncode == 0:
resources = json.loads(result.stdout)
vm_info = None
for resource in resources:
if resource.get('vmid') == vmid:
vm_info = resource
break
if not vm_info:
return jsonify({'error': f'VM/LXC {vmid} not found'}), 404
vm_type = 'lxc' if vm_info.get('type') == 'lxc' else 'qemu'
node = vm_info.get('node', 'pve')
# Get real logs from the container/VM (last 1000 lines)
log_result = subprocess.run(
['pvesh', 'get', f'/nodes/{node}/{vm_type}/{vmid}/log', '--start', '0', '--limit', '1000'],
capture_output=True, text=True, timeout=10
)
logs = []
if log_result.returncode == 0:
# Parse as plain text (each line is a log entry)
for i, line in enumerate(log_result.stdout.split('\n')):
if line.strip():
logs.append({'n': i, 't': line})
return jsonify({
'vmid': vmid,
'name': vm_info.get('name'),
'type': vm_type,
'node': node,
'log_lines': len(logs),
'logs': logs
})
else:
return jsonify({'error': 'Failed to get VM logs'}), 500
except Exception as e:
print(f"Error getting VM logs: {e}")
return jsonify({'error': str(e)}), 500
@app.route('/api/vms//control', methods=['POST'])
def api_vm_control(vmid):
"""Control VM/LXC (start, stop, shutdown, reboot)"""
try:
data = request.get_json()
action = data.get('action') # start, stop, shutdown, reboot
if action not in ['start', 'stop', 'shutdown', 'reboot']:
return jsonify({'error': 'Invalid action'}), 400
# Get VM type and node
result = subprocess.run(['pvesh', 'get', f'/cluster/resources', '--type', 'vm', '--output-format', 'json'],
capture_output=True, text=True, timeout=10)
if result.returncode == 0:
resources = json.loads(result.stdout)
vm_info = None
for resource in resources:
if resource.get('vmid') == vmid:
vm_info = resource
break
if not vm_info:
return jsonify({'error': f'VM/LXC {vmid} not found'}), 404
vm_type = 'lxc' if vm_info.get('type') == 'lxc' else 'qemu'
node = vm_info.get('node', 'pve')
# Execute action
control_result = subprocess.run(
['pvesh', 'create', f'/nodes/{node}/{vm_type}/{vmid}/status/{action}'],
capture_output=True, text=True, timeout=30
)
if control_result.returncode == 0:
return jsonify({
'success': True,
'vmid': vmid,
'action': action,
'message': f'Successfully executed {action} on {vm_info.get("name")}'
})
else:
return jsonify({
'success': False,
'error': control_result.stderr
}), 500
else:
return jsonify({'error': 'Failed to control VM'}), 500
except Exception as e:
print(f"Error controlling VM: {e}")
return jsonify({'error': str(e)}), 500
if __name__ == '__main__':
print("Starting ProxMenux Flask Server on port 8008...")
print("Server will be accessible on all network interfaces (0.0.0.0:8008)")
print("API endpoints available at: /api/system, /api/system-info, /api/storage, /api/proxmox-storage, /api/network, /api/vms, /api/logs, /api/health, /api/hardware")
app.run(host='0.0.0.0', port=8008, debug=False)