#!/usr/bin/env python # coding: utf-8 # Update by : https://github.com/cppla/ServerStatus # 依赖于psutil跨平台库 # 支持Python版本:2.7 to 3.7 # 支持操作系统: Linux, Windows, OSX, Sun Solaris, FreeBSD, OpenBSD and NetBSD, both 32-bit and 64-bit architectures # 时间: 20200407 # 说明: 默认情况下修改server和user就可以了。丢包率监测方向可以自定义,例如:CU = "www.facebook.com"。 SERVER = "127.0.0.1" USER = "s01" PORT = 35601 PASSWORD = "USER_DEFAULT_PASSWORD" INTERVAL = 1 PORBEPORT = 80 CU = "cu.tz.cloudcpp.com" CT = "ct.tz.cloudcpp.com" CM = "cm.tz.cloudcpp.com" import socket import time import timeit import os import json import psutil import sys import threading def get_uptime(): return int(time.time() - psutil.boot_time()) def get_memory(): Mem = psutil.virtual_memory() return int(Mem.total / 1024.0), int(Mem.used / 1024.0) def get_swap(): Mem = psutil.swap_memory() return int(Mem.total/1024.0), int(Mem.used/1024.0) def get_hdd(): valid_fs = [ "ext4", "ext3", "ext2", "reiserfs", "jfs", "btrfs", "fuseblk", "zfs", "simfs", "ntfs", "fat32", "exfat", "xfs" ] disks = dict() size = 0 used = 0 for disk in psutil.disk_partitions(): if not disk.device in disks and disk.fstype.lower() in valid_fs: disks[disk.device] = disk.mountpoint for disk in disks.values(): usage = psutil.disk_usage(disk) size += usage.total used += usage.used return int(size/1024.0/1024.0), int(used/1024.0/1024.0) def get_cpu(): return psutil.cpu_percent(interval=INTERVAL) def liuliang(): NET_IN = 0 NET_OUT = 0 net = psutil.net_io_counters(pernic=True) for k, v in net.items(): if 'lo' in k or 'tun' in k \ or 'docker' in k or 'veth' in k \ or 'br-' in k or 'vmbr' in k \ or 'vnet' in k or 'kube' in k: continue else: NET_IN += v[1] NET_OUT += v[0] return NET_IN, NET_OUT def tupd(): ''' tcp, udp, process, thread count: for view ddcc attack , then send warning :return: ''' if 'linux' in sys.platform: t = int(os.popen('ss -t|wc -l').read()[:-1])-1 u = int(os.popen('ss -u|wc -l').read()[:-1])-1 p = int(os.popen('ps -ef|wc -l').read()[:-1])-2 d = int(os.popen('ps -eLf|wc -l').read()[:-1])-2 else: t = int(os.popen('netstat -an|find "TCP" /c').read()[:-1])-1 u = int(os.popen('netstat -an|find "UDP" /c').read()[:-1])-1 p = len(psutil.pids()) d = 0 # cpu is high, default: 0 # d = sum([psutil.Process(k).num_threads() for k in [x for x in psutil.pids()]]) return t,u,p,d def ip_status(): ip_check = 0 for i in [CU, CT, CM]: s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.settimeout(1) try: s.connect((i, PORBEPORT)) except: ip_check += 1 s.close() del s if ip_check >= 2: return False else: return True def get_network(ip_version): if(ip_version == 4): HOST = "ipv4.google.com" elif(ip_version == 6): HOST = "ipv6.google.com" try: s = socket.create_connection((HOST, 80), 2) s.close() return True except: return False lostRate = { '10010': 0.0, '189': 0.0, '10086': 0.0 } pingTime = { '10010': 0, '189': 0, '10086': 0 } netSpeed = { 'netrx': 0.0, 'nettx': 0.0, 'clock': 0.0, 'diff': 0.0, 'avgrx': 0, 'avgtx': 0 } def _ping_thread(host, mark, port): lostPacket = 0 allPacket = 0 startTime = time.time() while True: s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.settimeout(1) try: b = timeit.default_timer() s.connect((host, port)) pingTime[mark] = int((timeit.default_timer() - b) * 1000) except: lostPacket += 1 finally: allPacket += 1 s.close() if allPacket > 100: lostRate[mark] = float(lostPacket) / allPacket endTime = time.time() if endTime - startTime > 3600: lostPacket = 0 allPacket = 0 startTime = endTime time.sleep(INTERVAL) def _net_speed(): while True: avgrx = 0 avgtx = 0 for name, stats in psutil.net_io_counters(pernic=True).items(): if "lo" in name or "tun" in name \ or "docker" in name or "veth" in name \ or "br-" in name or "vmbr" in name \ or "vnet" in name or "kube" in name: continue avgrx += stats.bytes_recv avgtx += stats.bytes_sent now_clock = time.time() netSpeed["diff"] = now_clock - netSpeed["clock"] netSpeed["clock"] = now_clock netSpeed["netrx"] = int((avgrx - netSpeed["avgrx"]) / netSpeed["diff"]) netSpeed["nettx"] = int((avgtx - netSpeed["avgtx"]) / netSpeed["diff"]) netSpeed["avgrx"] = avgrx netSpeed["avgtx"] = avgtx time.sleep(INTERVAL) def get_realtime_date(): t1 = threading.Thread( target=_ping_thread, kwargs={ 'host': CU, 'mark': '10010', 'port': PORBEPORT } ) t2 = threading.Thread( target=_ping_thread, kwargs={ 'host': CT, 'mark': '189', 'port': PORBEPORT } ) t3 = threading.Thread( target=_ping_thread, kwargs={ 'host': CM, 'mark': '10086', 'port': PORBEPORT } ) t4 = threading.Thread( target=_net_speed, ) t1.setDaemon(True) t2.setDaemon(True) t3.setDaemon(True) t4.setDaemon(True) t1.start() t2.start() t3.start() t4.start() def byte_str(object): ''' bytes to str, str to bytes :param object: :return: ''' if isinstance(object, str): return object.encode(encoding="utf-8") elif isinstance(object, bytes): return bytes.decode(object) else: print(type(object)) if __name__ == '__main__': for argc in sys.argv: if 'SERVER' in argc: SERVER = argc.split('SERVER=')[-1] elif 'PORT' in argc: PORT = int(argc.split('PORT=')[-1]) elif 'USER' in argc: USER = argc.split('USER=')[-1] elif 'PASSWORD' in argc: PASSWORD = argc.split('PASSWORD=')[-1] elif 'INTERVAL' in argc: INTERVAL = int(argc.split('INTERVAL=')[-1]) socket.setdefaulttimeout(30) get_realtime_date() while 1: try: print("Connecting...") s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect((SERVER, PORT)) data = byte_str(s.recv(1024)) if data.find("Authentication required") > -1: s.send(byte_str(USER + ':' + PASSWORD + '\n')) data = byte_str(s.recv(1024)) if data.find("Authentication successful") < 0: print(data) raise socket.error else: print(data) raise socket.error print(data) data = byte_str(s.recv(1024)) print(data) timer = 0 check_ip = 0 if data.find("IPv4") > -1: check_ip = 6 elif data.find("IPv6") > -1: check_ip = 4 else: print(data) raise socket.error while 1: CPU = get_cpu() NET_IN, NET_OUT = liuliang() Uptime = get_uptime() Load_1, Load_5, Load_15 = os.getloadavg() if 'linux' in sys.platform else (0.0, 0.0, 0.0) MemoryTotal, MemoryUsed = get_memory() SwapTotal, SwapUsed = get_swap() HDDTotal, HDDUsed = get_hdd() IP_STATUS = ip_status() array = {} if not timer: array['online' + str(check_ip)] = get_network(check_ip) timer = 10 else: timer -= 1*INTERVAL array['uptime'] = Uptime array['load_1'] = Load_1 array['load_5'] = Load_5 array['load_15'] = Load_15 array['memory_total'] = MemoryTotal array['memory_used'] = MemoryUsed array['swap_total'] = SwapTotal array['swap_used'] = SwapUsed array['hdd_total'] = HDDTotal array['hdd_used'] = HDDUsed array['cpu'] = CPU array['network_rx'] = netSpeed.get("netrx") array['network_tx'] = netSpeed.get("nettx") array['network_in'] = NET_IN array['network_out'] = NET_OUT array['ip_status'] = IP_STATUS array['ping_10010'] = lostRate.get('10010') * 100 array['ping_189'] = lostRate.get('189') * 100 array['ping_10086'] = lostRate.get('10086') * 100 array['time_10010'] = pingTime.get('10010') array['time_189'] = pingTime.get('189') array['time_10086'] = pingTime.get('10086') array['tcp'], array['udp'], array['process'], array['thread'] = tupd() s.send(byte_str("update " + json.dumps(array) + "\n")) except KeyboardInterrupt: raise except socket.error: print("Disconnected...") # keep on trying after a disconnect s.close() time.sleep(3) except Exception as e: print("Caught Exception:", e) s.close() time.sleep(3)