最近机房刚上了一批机器(有100台左右),需要使用Nagios对这一批机器进行监控。领导要求两天时间完成所有主机的监控。从原来的经验来看,两天时间肯定完成不了。那怎么办?按照之前的想法,肯定是在nagios配置文件逐一添加每台客户端的监控信息,工作量巨大。突然,想到一个想法,是否可以通过脚本来实现批量对主机进行监控,也就是运维自动化。
写脚本,最重要的就是思路。思路压倒一切,经过思考最终决定就这么做了。先贴出来一张网路拓扑图:
整个过程可以分为三部分。
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cmdb端:主要用来实现对数据的收集,采用两个API,一个是提供给客户机的API。用于将客户端的数据上传的cmdb服务器;另外一个API是nagios通过此API可以得到要监控主机的信息,然后对该信息进行整理,做成nagios监控模板。
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Client端:通过Python脚本收集本机器要监控的软硬件信息,然后通过cmdb端提供的API接口将数据上传到cmdb端的数据库。
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Nagios端:通过cmdb端提供的API接口实现对cmdb收集到的信息进行抓取,然后将数据写入到模板,最后copy到naigos指定的objects目录,最终实现对客户机的监控。
这三部分最重要的应该是CMDB端。接下来通过安装django和编写API接口实现cmdb可以正常工作。可以将cmdb端分为三个步骤来完成:
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安装django
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配置django
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编写API接口
首先来进行安装django:
在安装django之前首先应该安装python(版本建议2.7.)
1.下载django软件包 可以到django官方网站下载最新django软件包(https://www.djangoproject.com). 2.解压缩并安装软件包 tar -zxvf Django-1.5.1.tar.gz cd Django-1.5.1 python setup.py install
创建项目和应用:
1.创建一个项目 python startproject simplecmdb 2.创建一个应用 python startapp hostinfo
配置django:
1.修改setting.py
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DATABASES = {‘ENGIN‘:‘django.db.backends.sqlite‘,‘name‘:path.join(‘CMDB.db‘)} #使用的数据库及数据库名
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INSTALLED_APPS =(hostinfoINSTALLED_APPS = (‘hostinfo‘)
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INSTALLED_APPS = (‘hostinfo‘) #应用的名称
2.修改urls.py
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url(r‘^api/gethost\.json$‘,‘hostinfo.views.gethosts‘), #nagios客户端访问API接口地址
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url(r‘^api/clooect$‘,‘hostinfo.views.collect‘), #客户端访问API进行上传数据的API
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url(r‘^admin/‘,include(admin.site.urls)), #django后台管理登入url
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from django.contrib import admin
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admin.autodiscover()
3.修改项目hostinfo下的views.py
代码如下:
# Create your views here. #包含以下模块 from django.shortcuts import render_to_response from django.http import HttpResponse from models import Host, HostGroup #包含json模块 try: import json except ImportError,e: import simplejson as json #用来接收客户端服务器发送过来的数据 def collect(request): req = request if req.POST: vendor = req.POST.get(‘Product_Name‘) sn = req.POST.get(‘Serial_Number‘) product = req.POST.get(‘Manufacturer‘) cpu_model = req.POST.get(‘Model_Name‘) cpu_num = req.POST.get(‘Cpu_Cores‘) cpu_vendor = req.POST.get(‘Vendor_Id‘) memory_part_number = req.POST.get(‘Part_Number‘) memory_manufacturer = req.POST.get(‘Manufacturer‘) memory_size = req.POST.get(‘Size‘) device_model = req.POST.get(‘Device_Model‘) device_version = req.POST.get(‘Firmware_Version‘) device_sn = req.POST.get(‘Serial_Number‘) device_size = req.POST.get(‘User_Capacity‘) osver = req.POST.get(‘os_version‘) hostname = req.POST.get(‘os_name‘) os_release = req.POST.get(‘os_release‘) ipaddrs = req.POST.get(‘Ipaddr‘) mac = req.POST.get(‘Device‘) link = req.POST.get(‘Link‘) mask = req.POST.get(‘Mask‘) device = req.POST.get(‘Device‘) host = Host() host.hostname = hostname host.product = product host.cpu_num = cpu_num host.cpu_model = cpu_model host.cpu_vendor = cpu_vendor host.memory_part_number = memory_part_number host.memory_manufacturer = memory_manufacturer host.memory_size = memory_size host.device_model = device_model host.device_version = device_version host.device_sn = device_sn host.device_size = device_size host.osver = osver host.os_release = os_release host.vendor = vendor host.sn = sn host.ipaddr = ipaddrs host.save() #将客户端传过来的数据通过POST接收,存入数据库 return HttpResponse(‘OK‘) #如果插入成功,返回‘ok‘ else: return HttpResponse(‘no post data‘) #提供给NAGIOS 的API def gethosts(req): d = [] hostgroups = HostGroup.objects.all() for hg in hostgroups: ret_hg = {‘hostgroup‘:hg.name,‘members‘:[]} members = hg.members.all() for h in members: ret_h = {‘hostname‘:h.hostname, #API接口返回的数据 ‘ipaddr‘:h.ipaddr } ret_hg[‘members‘].append(ret_h) d.append(ret_hg) ret = {‘status‘:0,‘data‘:d,‘message‘:‘ok‘} return HttpResponse(json.dumps(ret))
4.修改model.py 文件
代码如下:
from django.db import models # Create your models here. #插入数据库的Host表,主要存储客户端主机的信息 class Host(models.Model): """store host information""" vendor = models.CharField(max_length=30,null=True) sn = models.CharField(max_length=30,null=True) product = models.CharField(max_length=30,null=True) cpu_model = models.CharField(max_length=50,null=True) cpu_num = models.CharField(max_length=2,null=True) cpu_vendor = models.CharField(max_length=30,null=True) memory_part_number = models.CharField(max_length=30,null=True) memory_manufacturer = models.CharField(max_length=30,null=True) memory_size = models.CharField(max_length=20,null=True) device_model = models.CharField(max_length=30,null=True) device_version = models.CharField(max_length=30,null=True) device_sn = models.CharField(max_length=30,null=True) device_size = models.CharField(max_length=30,null=True) osver = models.CharField(max_length=30,null=True) hostname = models.CharField(max_length=30,null=True) os_release = models.CharField(max_length=30,null=True) ipaddr = models.IPAddressField(max_length=15) def __unicode__(self): return self.hostname #主机组表,用来对主机进行分组 class HostGroup(models.Model): name = models.CharField(max_length=30) members = models.ManyToManyField(Host)
5.修改admin.py文件
#from models import Host, IPaddr from models import Host, HostGroup from django.contrib import admin #设置在django在admin后天显示的名称 class HostAdmin(admin.ModelAdmin): list_display = [‘vendor‘, ‘sn‘, ‘product‘, ‘cpu_model‘, ‘cpu_num‘, ‘cpu_vendor‘, ‘memory_part_number‘, ‘memory_manufacturer‘, ‘memory_size‘, ‘device_model‘, ‘device_version‘, ‘device_sn‘, ‘device_size‘, ‘osver‘, ‘hostname‘, ‘os_release‘ ] #在django后台amdin显示的组名称 class HostGroupAdmin(admin.ModelAdmin): list_display = [‘name‘,] #将如上两个类的数据展示到django的后台 admin.site.register(HostGroup,HostGroupAdmin) admin.site.register(Host, HostAdmin)
6.创建数据库
python manager.py syncdb #创建数据库
7.启动应用
python manager.py runserver 0.0.0.0:8000
8.测试
http://132.96.77.12:8000/admin
通过上图可以看到,django已经配置成功。
接下来可以在客户端编写收集主机信息的脚本了,主要抓取cpu、内存、硬盘、服务器型号、服务器sn、ip地址、主机名称、操作系统版本等信息,共7个脚本:
1.cpu抓取脚本:
#!/usr/local/src/python/bin/python #-*- coding:utf-8 -*- from subprocess import PIPE,Popen import re def getCpuInfo(): p = Popen([‘cat‘,‘/proc/cpuinfo‘],shell=False,stdout=PIPE) stdout, stderr = p.communicate() return stdout.strip() def parserCpuInfo(cpudata): pd = {} model_name = re.compile(r‘.*model name\s+:\s(.*)‘) vendor_id = re.compile(r‘vendor_id\s+:(.*)‘) cpu_cores = re.compile(r‘cpu cores\s+:\s([\d]+)‘) lines = [line for line in cpudata.split(‘\n‘)] for line in lines: model = re.match(model_name,line) vendor = re.match(vendor_id,line) cores = re.match(cpu_cores,line) if model: pd[‘Model_Name‘] = model.groups()[0].strip() if vendor: pd[‘Vendor_Id‘] = vendor.groups()[0].strip() if cores: pd[‘Cpu_Cores‘] = cores.groups()[0] else: pd[‘Cpu_Cores‘] = int(‘1‘) return pd if __name__ == ‘__main__‘: cpudata = getCpuInfo() print parserCpuInfo(cpudata)
2.硬盘抓取脚本:
#!/usr/local/src/python/bin/python #-*- coding:utf-8 -*- from subprocess import PIPE,Popen import re def getDiskInfo(): disk_dev = re.compile(r‘Disk\s/dev/[a-z]{3}‘) disk_name = re.compile(r‘/dev/[a-z]{3}‘) p = Popen([‘fdisk‘,‘-l‘],shell=False,stdout=PIPE) stdout, stderr = p.communicate() for i in stdout.split(‘\n‘): disk = re.match(disk_dev,i) if disk: dk = re.search(disk_name,disk.group()).group() n = Popen(‘smartctl -i %s‘ % dk,shell=True,stdout=PIPE) stdout, stderr = n.communicate() return stdout.strip() def parserDiskInfo(diskdata): ld = [] pd = {} device_model = re.compile(r‘(Device Model):(\s+.*)‘) serial_number = re.compile(r‘(Serial Number):(\s+[\d\w]{1,30})‘) firmware_version = re.compile(r‘(Firmware Version):(\s+[\w]{1,20})‘) user_capacity = re.compile(r‘(User Capacity):(\s+[\d\w, ]{1,50})‘) for line in diskdata.split(‘\n‘): serial = re.search(serial_number,line) device = re.search(device_model,line) firmware = re.search(firmware_version,line) user = re.search(user_capacity,line) if device: pd[‘Device_Model‘] = device.groups()[1].strip() if serial: pd[‘Serial_Number‘] = serial.groups()[1].strip() if firmware: pd[‘Firmware_Version‘] = firmware.groups()[1].strip() if user: pd[‘User_Capacity‘] = user.groups()[1].strip() return pd if __name__ == ‘__main__‘: diskdata = getDiskInfo() print parserDiskInfo(diskdata)
3.内存抓取脚本:
#!/usr/local/src/python/bin/python #-*- coding:utf-8 -*- from subprocess import PIPE,Popen import re import sys def getMemInfo(): p = Popen([‘dmidecode‘],shell=False,stdout=PIPE) stdout, stderr = p.communicate() return stdout.strip() def parserMemInfo(memdata): line_in = False mem_str = ‘‘ pd = {} fd = {} for line in memdata.split(‘\n‘): if line.startswith(‘Memory Device‘) and line.endswith(‘Memory Device‘): line_in = True mem_str+=‘\n‘ continue if line.startswith(‘\t‘) and line_in: mem_str+=line else: line_in = False for i in mem_str.split(‘\n‘)[1:]: lines = i.replace(‘\t‘,‘\n‘).strip() for ln in lines.split(‘\n‘): k, v = [i for i in ln.split(‘:‘)] pd[k.strip()] = v.strip() if pd[‘Size‘] != ‘No Module Installed‘: mem_info = ‘Size:%s ; Part_Number:%s ; Manufacturer:%s‘ % (pd[‘Size‘],pd[‘Part Number‘],pd[‘Manufacturer‘]) for line in mem_info.split(‘\n‘): for word in line.split(‘;‘): k, v = [i.strip() for i in word.split(‘:‘)] fd[k] = v.strip() yield fd if __name__ == ‘__main__‘: memdata = getMemInfo() for i in parserMemInfo(memdata): print i
4.抓取服务器信息脚本:
#!/usr/local/src/python/bin/python # -*- coding:utf-8 -*- from subprocess import PIPE,Popen import urllib, urllib2 def getDMI(): p = Popen(‘dmidecode‘,shell=True,stdout=PIPE) stdout, stderr = p.communicate() return stdout def parserDMI(dmidata): pd = {} fd = {} line_in = False for line in dmidata.split(‘\n‘): if line.startswith(‘System Information‘): line_in = True continue if line.startswith(‘\t‘) and line_in: k, v = [i.strip() for i in line.split(‘:‘)] pd[k] = v else: line_in = False name = "Manufacturer:%s ; Serial_Number:%s ; Product_Name:%s" % (pd[‘Manufacturer‘],pd[‘Serial Number‘],pd[‘Product Name‘]) for i in name.split(‘;‘): k, v = [j.strip() for j in i.split(‘:‘)] fd[k] = v return fd if __name__ == ‘__main__‘: dmidata = getDMI() postdata = parserDMI(dmidata) print postdata
5.抓取主机信息
#!/usr/local/src/python/bin/python #-*- coding:utf-8 -*- import platform def getHostInfo(): pd ={} version = platform.dist() os_name = platform.node() os_release = platform.release() os_version = ‘%s %s‘ % (version[0],version[1]) pd[‘os_name‘] = os_name pd[‘os_release‘] = os_release pd[‘os_version‘] = os_version return pd if __name__ == ‘__main__‘: print getHostInfo()
6.抓取ip地址:
#!/usr/local/src/python/bin/python #-*- coding:utf-8 -*- from subprocess import PIPE,Popen import re def getIpaddr(): p = Popen([‘ifconfig‘],shell=False,stdout=PIPE) stdout, stderr = p.communicate() return stdout.strip() def parserIpaddr(ipdata): device = re.compile(r‘(eth\d)‘) ipaddr = re.compile(r‘(inet addr:[\d.]{7,15})‘) mac = re.compile(r‘(HWaddr\s[0-9A-Fa-f:]{17})‘) link = re.compile(r‘(Link encap:[\w]{3,14})‘) mask = re.compile(r‘(Mask:[\d.]{9,15})‘) for lines in ipdata.split(‘\n\n‘): pd = {} eth_device = re.search(device,lines) inet_ip = re.search(ipaddr,lines) hw = re.search(mac,lines) link_encap = re.search(link,lines) _mask = re.search(mask,lines) if eth_device: if eth_device: Device = eth_device.groups()[0] if inet_ip: Ipaddr = inet_ip.groups()[0].split(‘:‘)[1] if hw: Mac = hw.groups()[0].split()[1] if link_encap: Link = link_encap.groups()[0].split(‘:‘)[1] if _mask: Mask = _mask.groups()[0].split(‘:‘)[1] pd[‘Device‘] = Device pd[‘Ipaddr‘] = Ipaddr pd[‘Mac‘] = Mac pd[‘Link‘] = Link pd[‘Mask‘] = Mask yield pd if __name__ == ‘__main__‘: ipdata = getIpaddr() for i in parserIpaddr(ipdata): print i
7.对这些信息进行合并,并通过API形式将数据发送给cmdb端
#!/usr/local/src/python/bin/python import urllib, urllib2 from cpuinfo import * from diskinfo import * from meminfo import * from product import * from hostinfo import * from ipaddress import * def getHostTotal(): ld = [] cpuinfo = parserCpuInfo(getCpuInfo()) diskinfo = parserDiskInfo(getDiskInfo()) for i in parserMemInfo(getMemInfo()): meminfo = i productinfo = parserDMI(getDMI()) hostinfo = getHostInfo() ipaddr = parserIpaddr(getIpaddr()) for i in ipaddr: ip = i for k in cpuinfo.iteritems(): ld.append(k) for i in diskinfo.iteritems(): ld.append(i) for j in meminfo.iteritems(): ld.append(j) for v in productinfo.iteritems(): ld.append(v) for x in hostinfo.iteritems(): ld.append(x) for y in ip.iteritems(): ld.append(y) return ld def parserHostTotal(hostdata): pg = {} for i in hostdata: pg[i[0]] = i[1] return pg def urlPost(postdata): data = urllib.urlencode(postdata) req = urllib2.Request(‘http://132.96.77.12:8000/api/collect‘,data) response = urllib2.urlopen(req) return response.read() if __name__ == ‘__main__‘: hostdata = getHostTotal() postdata = parserHostTotal(hostdata) print urlPost(postdata)
到目前为止,cmdb系统已经可以将所有客户端的主机信息写入到数据库,并且可以通过nagios端的API接口直接调到数据:
http://132.96.77.12:8000/api/gethosts.json
通过图可以看到,已经成功调用到API接口的数据。
接下来可以在nagios端进行调用API接口的数据,对数据进行格式化。并写入文件。
1.nagios脚本
#!/opt/data/py/bin/python #!-*- coding:utf-8 -*- import urllib, urllib2 import json import os import shutil CURR_DIR = os.path.abspath(os.path.dirname(__file__)) HOST_CONF_DIR = os.path.join(CURR_DIR,‘hosts‘) HOST_TMP = """define host { use linux-server host_name %(hostname)s check_command check-host-alive alias %(hostname)s address %(ipaddr)s contact_groups admins } """ def getHosts(): url = ‘http://132.96.77.12:8000/api/gethosts.json‘ return json.loads(urllib2.urlopen(url).read()) def initDir(): if not os.path.exists(HOST_CONF_DIR): os.mkdir(HOST_CONF_DIR) def writeFile(f,s): with open(f,‘w‘) as fd: fd.write(s) def genNagiosHost(hostdata): initDir() conf = os.path.join(HOST_CONF_DIR,‘hosts.cfg‘) hostconf = "" for hg in hostdata: for h in hg[‘members‘]: hostconf+=HOST_TMP %h writeFile(conf,hostconf) return "ok" def main(): result = getHosts() if result[‘status‘] == 0: print genNagiosHost(result[‘data‘]) else: print ‘Error: %s‘ % result[‘message‘] if os.path.exists(os.path.join(HOST_CONF_DIR,‘hosts.cfg‘)): os.chdir(HOST_CONF_DIR) shutil.copyfile(‘hosts.cfg‘,‘/etc/nagios/objects/hosts.cfg‘) if __name__ == "__main__": main()
现在已经生成nagios主机的配置文件,并copy到nagios/objects目录下hosts.cfg。接下来可以测试是否nagios配置有问题,如果没有问题,就可以启动nagios服务
[root@yetcomm-v2 bin]# ./nagios -v /etc/nagios/nagios.cfg
通过测试,nagios没有发生错误或警告信息,现在可以启动nagios服务:
[root@yetcomm-v2 bin]# service nagios restart
通过上图,可以看到已经将一台主机加入到监控组。由于是生产环境,所有只能拿测试服务器进行测试。其实测试环境和生产环境的代码完全一致。