11-13 20 views
一、背景
近期网络的同事萌生出一个自动化交换机巡检这么想法,也是业务量越来越大了,那么多网络社备定期登录上去敲命令,一台一台看也是挺费劲的
有了前面的自动批量备份,这次巡检也是可以的,实际上在看到不同品牌、不同型号的数据后自己有点崩溃,五花八门的数据格式
废话不多说了,直接上代码吧,有好的想法或建议欢迎提出
二、实施
2.1 需求
此处以H3C-S10508为例
1. 通过指定的几条命令从交换机中读取返回的数据(这个我之前写的交换机配置备份就可以实现)
相关见:利用telnetlib模块实现交换机配置批量备份脚本
2. 获取每颗cpu 5秒、1分钟、5分钟的使用利用率
3. 获取每条内存的剩余空间
4. 电源的状态
5. 风扇的状态
6. 温度
7. 运行时间
8. 分析出的数据自动导入到zabbix,在zabbix上以图的形式展示出来,并做相应的阈值和预警
2.2 分析后的数据样式
此处以H3C-S10508为例
1. CPU
2. Mem
3. 电源
4. 风扇
5. 温度
6. 运行时间
不同的品牌、甚至不同的型号所使用的命令及展示的格式也都是不同的,也是挺费劲的
2.3 代码
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#!/usr/bin/env python3 # -*- coding: utf-8 -*- # @Author : Eric Winn # @Email : eng.eric.winn@gmail.com # @Time : 2018/11/1 13:46 # @Version : 1.0 # @File : switch_analyze.py # @Software : PyCharm import re import os import sys import csv from glob import glob from multiprocessing import Process def writer(file, brand, model): try: filename = os.path.basename(file) dirname = os.path.dirname(file) subdir = os.path.join(dirname,'analyze') if not os.path.exists(subdir): os.mkdir(subdir) csvfile = open(os.path.join(subdir, '{}-{}_{}'.format(brand, model, filename)), 'w+', newline='') result_file = csv.writer(csvfile, dialect='excel', quoting=csv.QUOTE_MINIMAL) return result_file except Exception as e: print(e) return 1 class analyze(object): def __init__(self, brand, model, cmds, new_cmd): self.brand = brand self.model = model self.cmds = cmds self.new_cmd = new_cmd self.is_update = 0 self.temp = [] def cpu(self, line, action, model): if action == 'sub_title': if self.cmds['CPU'].get('sub_title') and re.search(self.cmds['CPU'].get('sub_title'), line, re.I): return {'code': 0, 'result': line.strip().split(':')[0]} else: return {'code': 1, 'result': None} elif action == 'value': for sub_cmd in self.cmds['CPU'].get('value'): if re.search(sub_cmd, line, re.I): if re.search(r's5720|ce6855', model, re.I): temp = re.findall(sub_cmd, line, re.I)[0] temp = {temp[0]: temp[1], temp[2]: temp[3], temp[4]: temp[5]} else: temp = '{},{}'.format(sub_cmd, line.strip(' ').split(' ')[0]) return {'code': 0, 'result': temp} return {'code': 1, 'result': None} def memory(self, line, action, model): if action == 'sub_title': if self.cmds['Mem'].get('sub_title') and re.search(self.cmds['Mem'].get('sub_title'), line, re.I): return {'code': 0, 'result': line.strip().split(':')[0]} else: return {'code': 1, 'result': None} elif action == 'value': for sub_cmd in self.cmds['Mem'].get('value'): if re.search(r'{}'.format(sub_cmd), line, re.I): if re.search(r's10508|s5830|s5130|s5800-56c-ei|s6520-52qf-ei', model, re.I): return {'code': 0, 'result': 'FreeRatio {}'.format(line.split(' ')[-1].strip())} else: temp = re.findall(sub_cmd, line, re.I)[0] return {'code': 0, 'result': 'FreeRatio {}%'.format(100 - int(temp))} return {'code': 1, 'result': None} def power(self, line, action, model): if action == 'sub_title': if re.search(self.cmds['Power'].get('sub_title'), line, re.I): if re.search(r'ce6855', model, re.I): temp = 'Slot {}'.format(re.findall(self.cmds['Power'].get('sub_title'), line, re.I)[0]) else: temp = line.strip().split(':')[0] return {'code': 0, 'result': temp} else: return {'code': 1, 'result': None} elif action == 'value': for sub_cmd in self.cmds['Power'].get('value'): if re.search(r'{}'.format(sub_cmd), line, re.I): if re.search(r's5830|s5130|s5120|ce6855|s5800-56c-ei|s6520-52qf-ei', model, re.I) and not re.search( r's5120-\w+-ei', model, re.I): temp = re.findall(r'{}'.format(sub_cmd), line, re.I)[0] temp = 'Power {} State,{}'.format(temp[0], temp[1]) elif re.search(r's10508', model, re.I): temp = re.findall(r'{}'.format(sub_cmd), line, re.I)[0] temp = '{} {},{}'.format(temp[0], temp[1], temp[2]) else: temp = re.findall(sub_cmd, line, re.I)[0] if len(self.temp) == 2: self.temp = [] self.is_update = 0 if self.is_update == 0: self.temp.append(temp) self.is_update = 1 return {'code': 1, 'result': None} elif self.is_update == 1 and len(self.temp) == 1: if temp == self.temp[0]: return {'code': 1, 'result': None} self.temp.append(temp) temp = 'Power {} State,{}'.format(self.temp[0], self.temp[1]) return {'code': 0, 'result': temp} return {'code': 1, 'result': None} def fan(self, line, action, model): if action == 'sub_title': if re.search(self.cmds['Fan'].get('sub_title'), line, re.I): if re.search(r's5720|ce6855', model, re.I): temp = 'Slot {}'.format( re.findall(r'{}'.format(self.cmds['Fan'].get('sub_title')), line, re.I)[0][0]) else: temp = line.strip().split(':')[0] return {'code': 0, 'result': temp} else: return {'code': 1, 'result': None} elif action == 'value': for sub_cmd in self.cmds['Fan'].get('value'): if re.search(r'{}'.format(sub_cmd), line, re.I): if re.search(r's10508', model, re.I): temp = re.findall(r'{}'.format(sub_cmd), line, re.I)[0] temp = '{} {} State,{}'.format(temp[0], temp[1], temp[2]) elif re.search(r's5720|ce6855', model, re.I): temp = re.findall(sub_cmd, line, re.I)[0] temp = 'Fan Frame {} State,{}'.format(temp[0], temp[1]) else: temp = re.findall(sub_cmd, line, re.I)[0] if len(self.temp) == 2: self.temp = [] self.is_update = 0 if self.is_update == 0: self.temp.append(temp) self.is_update = 1 if re.search(r's5120|s5500', model, re.I) and not re.search(r's5120-\w+-ei', model, re.I): continue else: return {'code': 1, 'result': None} elif self.is_update == 1 and len(self.temp) == 1: if temp == self.temp[0]: return {'code': 1, 'result': None} self.temp.append(temp) temp = 'FAN {} State,{}'.format(self.temp[0], self.temp[1]) return {'code': 0, 'result': temp} return {'code': 1, 'result': None} def tem(self, line, action, model): if action == 'sub_title': if self.cmds['Tem'].get('sub_title') and re.search(self.cmds['Tem'].get('sub_title'), line, re.I): if re.search(r's5830|s5130|s5800-56c-ei|s6520-52qf-ei', model, re.I): temp = 'Slot {}'.format(re.findall(self.cmds['Tem'].get('sub_title'), line)[0].strip()) self.temp.append(temp) elif re.search(r's5720|ce6855', model, re.I): temp = 'Slot {}'.format(re.findall(self.cmds['Tem'].get('sub_title'), line, re.I)[0].strip()) elif re.search(r's10508', model, re.I): temp = 'Chassis {}'.format(re.findall(self.cmds['Tem'].get('sub_title'), line, re.I)[0][0]) else: temp = re.findall(self.cmds['Tem'].get('sub_title'), line, re.I)[0].strip() self.temp.append(temp) return {'code': 0, 'result': temp} else: return {'code': 1, 'result': None} elif action == 'value': for sub_cmd in self.cmds['Tem'].get('value'): if re.search(r'{}'.format(sub_cmd), line, re.I): if re.search(r's5830|s5130|s5800-56c-ei|s6520-52qf-ei', model, re.I): temp = '{},{}'.format(self.temp[0], re.findall(r'{}'.format(sub_cmd), line, re.I)[0]) self.temp = [] elif re.search(r's10508|s5720|ce6855', model, re.I): temp = re.findall(r'{}'.format(sub_cmd), line, re.I)[0] #print('0',temp[1]) #temp = '{},{}'.format(self.temp[0], re.findall(r'{}'.format(sub_cmd), line, re.I)[0]) if re.search(r's5720|ce6855', model, re.I): temp = 'Slot {},{} {}'.format(temp[0], temp[1], temp[2]) #print('1',temp) else: temp = 'Slot {},{}'.format(temp[1], temp[2]) #print('2',temp) else: temp = re.findall(r'{}'.format(sub_cmd), line, re.I)[0] temp = '{},{} {}'.format(self.temp[0], temp[0], temp[1]) self.temp = [] #print(temp) return {'code': 0, 'result': temp} return {'code': 1, 'result': None} def ver(self, line, action, model): if action == 'sub_title': if re.search(self.cmds['Uptime'].get('sub_title'), line, re.I): if re.search(r's5720|ce6855', model, re.I): temp = re.findall(self.cmds['Uptime'].get('sub_title'), line, re.I)[0] return {'code': 0, 'result': temp[0]} else: return {'code': 0, 'result': 0} else: return {'code': 1, 'result': None} elif action == 'value': for sub_cmd in self.cmds['Uptime'].get('value'): if re.search(r'{}'.format(sub_cmd), line, re.I): if re.search(r's5720|ce6855', model, re.I): temp = re.findall(r'{}'.format(sub_cmd), line, re.I)[0] if len(temp[1]) < 1: if re.search(r's5720', model, re.I): temp = '0,{} days'.format(int(temp[2]) * 7 + int(temp[3])) elif re.search(r'ce6855', model, re.I): temp = '0,{} days'.format(int(temp[2])) else: if re.search(r's5720', model, re.I): temp = '{},{} days'.format(int(temp[1]), int(temp[2]) * 7 + int(temp[3])) elif re.search(r'ce6855', model, re.I): temp = '{},{} days'.format(int(temp[1]), int(temp[2])) else: temp = re.findall(r'{}'.format(sub_cmd), line, re.I)[0] temp = 'Uptime,{} days'.format(int(temp[0]) * 7 + int(temp[1])) return {'code': 0, 'result': temp} return {'code': 1, 'result': None} class HUAWEI(object): ''' 华为品牌的交换机 ''' def __init__(self, file, brand, model): self.file = file self.brand = brand self.model = model self.new_cmd = 0 self.result_file = writer(file, brand, model) self.new_line = [] self.analyze_line = None self.is_update = 0 self.cmds = { 'CPU': { 'cmd': r'dis +cpu-usage', 'sub_title': None, 'value': [ r'(five seconds): +(\d{1,3}%): +(one minute): +(\d{1,3}%): +(five minutes): +(\d{1,3}%)', ] }, 'Mem': { 'cmd': r'dis +memory-usage', 'sub_title': None, 'value': [ r'Memory Using Percentage Is: +(\d{1,3})%', ] }, 'Power': { 'cmd': None, 'sub_title': None, 'value': [] }, 'Fan': { 'cmd': r'dis fan', 'sub_title': r' +(\d{1,2}) +(\d{1,2}) +\w+ +(\w+) +\d{1,3}%.*', 'value': [r' +\d{1,2} +(\d{1,2}) +\w+ +(\w+) +\d{1,3}%.*'] }, 'Tem': { 'cmd': r'dis temperature all', 'sub_title': None, 'value': [] }, 'Uptime': { 'cmd': r'dis +version', 'sub_title': r'.*\((\w+)\)( +\d{1,2})? +: +uptime +is +(\d{1,3}) +weeks, +(\d{1,2}) +day(s?).*', 'value': [ r'.*\((\w+)\)( +\d{1,2})? +: +uptime +is +(\d{1,3}) +weeks, +(\d{1,2}) +day(s?).*' ] } } def general(self): pass def s5720(self): self.cmds['CPU']['sub_title'] = None self.cmds['Tem']['sub_title'] = r' +(\d{1,2}) +\w+ +\w+ +\w+ +\d+.*' #self.cmds['Tem']['value'] = [r' +(\d{1,2}) +\w+ +\w+ +(\w+) +\d+.*'] self.cmds['Tem']['value'] = [r' +(\d{1,2}) +\w+ +(\w+) +\w+ +(\d+) +\d+.*'] self.factory() def ce6855(self): self.cmds['CPU']['sub_title'] = None self.cmds['CPU']['cmd'] = r'dis +cpu' self.cmds['CPU']['value'] = [ r'(five seconds): +(\d{1,3}%), +(one minute): +(\d{1,3}%), +(five minutes): +(\d{1,3}%)'] self.cmds['Mem']['cmd'] = r'dis +mem' self.cmds['Mem']['value'] = [r'Memory Using Percentage: +(\d{1,3})%'] self.cmds['Power']['cmd'] = r'dis +dev +pow' self.cmds['Power']['sub_title'] = r'(\d{1,2}) +\w+ +\w+ +\w+ +\w+ +\d+.*' self.cmds['Power']['value'] = [r'[0-9]? +[a-z]+(\d{1,2}) +\w+ +\w+ +(\w+) +\d+.*'] self.cmds['Fan']['cmd'] = r'dis +devi +fan' self.cmds['Fan']['sub_title'] = r'(\d{1,2}) +\w+ +\[1-2\] +\w+.*' self.cmds['Fan']['value'] = [r'[0-9]? +[a-z]+(\d{1,2}) +\[1-2\] +(\w+).*'] self.cmds['Tem']['cmd'] = r'dis +device +temperature +all' self.cmds['Tem']['sub_title'] = r'(\d{1,2}) +-- +[a-z,0-9,-]+\(\w+\) +\w+ +\d+' #self.cmds['Tem']['value'] = [r'(\d{1,2}) +-- +[a-z,0-9,-]+\(\w+\) +(\w+) +\d+'] self.cmds['Tem']['value'] = [r'(\d{1,2}) +-- +([a-z,0-9,-]+\(\w+\)) +\w+ +\d+ +[0-9,-]+ +(\d{1,3})'] self.cmds['Uptime']['sub_title'] = r'.*\((\w+)\)( +\d{1,2})? +: +uptime +is +(\d{1,3}) +day(s?).*' self.cmds['Uptime']['value'] = [r'.*\((\w+)\)( +\d{1,2})? +: +uptime +is +(\d{1,3}) +day(s?).*'] self.factory() def polymerization(self, line, action, model): if self.new_line[0] == 'CPU': ret = self.analyze_line.cpu(line, action, model) return ret elif self.new_line[0] == 'Mem': ret = self.analyze_line.memory(line, action, model) return ret elif self.new_line[0] == 'Power': ret = self.analyze_line.power(line, action, model) return ret elif self.new_line[0] == 'Fan': ret = self.analyze_line.fan(line, action, model) return ret elif self.new_line[0] == 'Tem': ret = self.analyze_line.tem(line, action, model) return ret elif self.new_line[0] == 'Uptime': ret = self.analyze_line.ver(line, action, model) return ret def factory(self): with open(self.file, encoding='utf-8') as f: for line in f: self.is_update = 0 for cls, cmd in self.cmds.items(): if cmd.get('cmd'): if re.search(cmd.get('cmd'), line, re.I): self.new_line = [cls] self.new_cmd = 1 self.analyze_line = analyze(self.brand, self.model, self.cmds, self.new_cmd) else: continue if self.new_cmd == 1: if re.search(r'CPU|Mem|Power|Fan|Tem|Uptime', self.new_line[0]) and self.new_line[0] == cls: if len(self.new_line) == 4: ret = self.polymerization(line, 'sub_title', self.model) if ret.get('code') != 1: self.new_line[1] = ret.get('result') if len(self.new_line) == 1: if cmd.get('sub_title') is None: self.new_line.append(0) else: ret = self.polymerization(line, 'sub_title', self.model) if ret.get('code') != 1: self.new_line.append(ret.get('result')) if len(self.new_line) == 2 or len(self.new_line) == 4: ret = self.polymerization(line, 'value', self.model) if ret.get('code') != 1: if len(self.new_line) == 4: self.new_line.pop(3) self.new_line.pop(2) if re.search(r'CPU|Power|Fan|Tem|Uptime', self.new_line[0]): if re.search(r'CPU', self.new_line[0]) and re.search(r's5720|ce6855', self.model, re.I): for k, v in ret.get('result').items(): self.new_line.extend([k, v]) self.result_file.writerows([self.new_line]) self.new_line.pop(3) self.new_line.pop(2) break else: self.new_line.extend(ret.get('result').split(',')) elif self.new_line[0] == 'Mem': self.new_line.append(self.new_line[1]) self.new_line.append(ret.get('result')) self.is_update = 1 else: continue if len(self.new_line) == 4 and self.is_update == 1: self.result_file.writerows([self.new_line]) break class H3C(object): ''' H3C品牌的交换机 ''' def __init__(self, file, brand, model): self.file = file self.brand = brand self.model = model self.new_cmd = 0 self.result_file = writer(file, brand, model) self.new_line = [] self.analyze_line = None self.is_update = 0 self.cmds = { 'CPU': { 'cmd': r'dis +cpu', 'sub_title': r'Slot \d{1,2} (CPU \d{1,2} )?CPU usage', 'value': [ 'last 5 seconds', 'last 1 minute', 'last 5 minutes' ] }, 'Mem': { 'cmd': r'dis +memory', 'sub_title': r'Chassis \d{1,2} Slot \d{1,2}|Used Rate: +(\d{1,3})%|Slot \d{1,2}.*', 'value': [ r'^Mem:.*\d{1,3}.?\d{1,3}%', r'Used Rate: +(\d{1,3})%' ] }, 'Power': { 'cmd': r'dis +pow', 'sub_title': r'Chassis \d{1,2}| +Slot +\d{1,2}', 'value': [ r' ?(Power).*(\d{1,2} State)', r'Power +(\d{1,2})', r'State +: +(\w+)', r' +(\d{1,3}) +(\w+) +AC.*' ] }, 'Fan': { 'cmd': r'dis +fan', 'sub_title': r'Chassis \d{1,2}| +Slot +\d{1,2}', 'value': [ r'(Fan Frame).*(\d{1,2}).*(State)', r' ?FAN +(\d{1,2})', r'State +: (\w+)' ] }, 'Tem': { 'cmd': r'dis +envi', 'sub_title': '(\d{1,3}) +(\d{1,3}) +(\w+ +\d{1,3} +\d{1,3}).*| +Slot +\d{1,2}', 'value': [ r'(\d{1,3}) +(\d{1,3}) +(\w+ +\d{1,3} +\d{1,3}).*', r'(hotspot \d{1,2}) +(\d{1,3}).*' ] }, 'Uptime': { 'cmd': r'dis +version', 'sub_title': '.*\n?[h3c|huawei] +[a-z,0-9,-]+.*uptime +is +(\d{1,3}) +weeks, +(\d{1,2}) +day(s?).*', 'value': [ r'.*\n?[h3c|huawei] +[a-z,0-9,-]+.*uptime +is +(\d{1,3}) +weeks, +(\d{1,2}) +day(s?).*' ] } } def general(self): self.cmds['CPU']['sub_title'] = r'Slot \d{1,2} (CPU \d{1,2} )?CPU usage' self.cmds['Mem']['value'] = [r'Used Rate: +(\d{1,3})%'] self.cmds['Power']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Power']['value'] = [r' +Power +(\d{1,2}) +State ?: +(\w+)'] self.cmds['Fan']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Fan']['value'] = [r' ?FAN +(\d{1,2})', r' +State ?: +(\w+)'] self.cmds['Tem']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Tem']['value'] = [r'(hotspot \d{1,2}) +(\d{1,3}).*'] self.factory() def s5800(self): self.cmds['Mem']['value'] = [r'Used Rate: +(\d{1,3})%'] self.cmds['Power']['value'] = [r' +Power +(\d{1,2})', r' +State +: +(\w+)'] self.cmds['Tem']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Tem']['value'] = [r'(hotspot \d{1,2}) +(\d{1,3}).*'] self.cmds['Power']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Fan']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Fan']['value'] = [r' ?FAN +(\d{1,2})', r' +State +: +(\w+)'] self.factory() def s5830(self): self.cmds['Power']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Power']['value'] = [r' +(\d{1,2}) +(\w+) +.*'] self.cmds['Fan']['sub_title'] = r' +Slot +\d{1,2}' self.cmds['Fan']['value'] = [r' ?FAN +(\d{1,2})', r' +State +: +(\w+)'] self.cmds['Tem']['sub_title'] = r' +(\d{1,2}) +hotspot' self.cmds['Tem']['value'] = [r' +\d{1,2} +(hotspot \d{1,2} +\d{1,3}).*'] self.factory() def s10508(self): self.cmds['Mem']['sub_title'] = r'Chassis \d{1,2} Slot \d{1,2}' self.cmds['Power']['sub_title'] = r'Chassis \d{1,2}' self.cmds['Power']['value'] = [r' ?(Power).*(\d{1,2} State): ?(\w+)'] self.cmds['Fan']['sub_title'] = r'Chassis \d{1,2}' self.cmds['Fan']['value'] = [r'(Fan Frame).*(\d{1,2}) +State: ?(\w+)'] self.cmds['Tem']['sub_title'] = r'(\d{1,3}) +(\d{1,3}) +(\w+ +\d{1,3} +\d{1,3}).*' self.cmds['Tem']['value'] = [r'(\d{1,3}) +(\d{1,3}) +(\w+ +\d{1,3} +\d{1,3}).*'] self.factory() def polymerization(self, line, action, model): if self.new_line[0] == 'CPU': ret = self.analyze_line.cpu(line, action, model) return ret elif self.new_line[0] == 'Mem': ret = self.analyze_line.memory(line, action, model) return ret elif self.new_line[0] == 'Power': ret = self.analyze_line.power(line, action, model) return ret elif self.new_line[0] == 'Fan': ret = self.analyze_line.fan(line, action, model) return ret elif self.new_line[0] == 'Tem': ret = self.analyze_line.tem(line, action, model) print(model) print(line) return ret elif self.new_line[0] == 'Uptime': ret = self.analyze_line.ver(line, action, model) return ret def factory(self): with open(self.file) as f: for line in f: self.is_update = 0 for cls, cmd in self.cmds.items(): if re.search(cmd.get('cmd'), line, re.I): self.new_line = [cls] self.new_cmd = 1 self.analyze_line = analyze(self.brand, self.model, self.cmds, self.new_cmd) if self.new_cmd == 1: if re.search(r'CPU|Mem|Power|Fan|Tem|Uptime', self.new_line[0]): if len(self.new_line) == 4: ret = self.polymerization(line, 'sub_title', self.model) if ret.get('code') != 1: self.new_line[1] = ret.get('result') if len(self.new_line) == 1: ret = self.polymerization(line, 'sub_title', self.model) if ret.get('code') != 1: self.new_line.append(ret.get('result')) # if self.new_line[0] == 'Power': # print(self.new_line) elif len(self.new_line) == 2 or len(self.new_line) == 4: #print(self.model) ret = self.polymerization(line, 'value', self.model) #print(ret) if ret.get('code') != 1: if len(self.new_line) == 4: self.new_line.pop(3) self.new_line.pop(2) if re.search(r'CPU|Power|Fan|Tem|Uptime', self.new_line[0]): # if self.new_line[0] == 'Tem': # print(ret.get('result')) self.new_line.extend(ret.get('result').split(',')) elif self.new_line[0] == 'Mem': # print(ret) self.new_line.append(self.new_line[1]) self.new_line.append(ret.get('result')) self.is_update = 1 if len(self.new_line) == 4 and self.is_update == 1: self.result_file.writerows([self.new_line]) break class Switch(Process): ''' 分拨中心,接收到日志文件后,判断其品牌和型号,然后调用其相应的品牌处理类函数 ''' def __init__(self, file): super().__init__() self.file = file self.brand = None self.model = None self.ip = os.path.basename(file).split('_')[0] def check(self): ''' 判断日志文件是否存在 :return: ''' if not os.path.exists(self.file): print('{}:No such file or directory'.format(self.file)) return 1 elif not os.path.isfile(self.file): print('{}:Can\'t open,Maybe not a document.'.format(self.file)) return 1 def run(self): ''' 分拨中心的核心部分 :return: ''' print(self.file) f = open(self.file, 'r', encoding='utf-8') result = re.findall(r'.*\n?(h3c|huawei) +([a-z,0-9,-]+)(.*)? +uptime.*', f.read(), re.I) print(result) if len(result) > 0: self.brand = result[0][0] self.model = result[0][1] if re.search(r'h3c', self.brand, re.I): factory = H3C(self.file, self.brand, self.model) if re.search(r's10508', self.model, re.I): factory.s10508() elif re.search(r's5830|s5800-56c-ei|s6520-52qf-ei|s5130', self.model, re.I): factory.s5830() elif re.search(r's5800|s5500|s6520|s5120-48p-ei', self.model, re.I): factory.s5800() else: factory.general() elif re.search(r'huawei', self.brand, re.I): factory = HUAWEI(self.file, self.brand, self.model) if re.search(r's5720', self.model, re.I): factory.s5720() elif re.search(r'ce6855', self.model, re.I): factory.ce6855() else: factory.general() else: print('{}:Not match'.format(self.brand)) return 1 else: print('Brand and Model is not found!!!') return 1 if __name__ == '__main__': if len(sys.argv) < 2: print('Please tell me whose cake is delicious.') sys.exit(1) else: for host_log in glob(sys.argv[1]): sw = Switch(host_log) ret = sw.check() if ret == 1: continue sw.start() |
如果想赏钱,可以用微信扫描下面的二维码,一来能刺激我写博客的欲望,二来好维护云主机的费用; 另外再次标注博客原地址 itnotebooks.com 感谢!
大佬,那直接用zabbix监控不是更方便吗?