许多开源操作系统和维护系统，例nagios、zabbix、cati等等，但是，当他们得到的时间自己的个性化操作和维护需求，始终无力！

最近的一项研究python。因此，我们认为python+django+twisted要定制一个完全个性化的操作和维护系统。

有几个基本的功能：监控、分析、报警、更甚者直接依据分析的结果进行反应操作。而以上几点通过上述的框架能够比較easy的实现。

以下上图说明：

使用freemind整理了下思路：

以下是一些代码段，完整的代码下载见文档底部：

Server：

#!/usr/bin/env python

#coding:utf-8

__author__ = 'dwj'

from twisted.internet.protocol import ServerFactory

from twisted.protocols import basic

import cx_Oracle

from twisted.application import  service, internet

class Mornitor_Protocol(basic.LineReceiver):

    def __init__(self):

    #

        _oracle_conn=cx_Oracle.connect('xxxx', 'xxxx', '192.168.7.17/test', threaded=True)

        _oracle_conn.autocommit = True

        self.cur = _oracle_conn.cursor()

        self._oracle_conn=_oracle_conn

    def ruku(self, line):

        ip=self.transport.getPeer().host

        #获取clientIP

        line=line.split(':::')

        #使用：：：切割原始数据

        if line[1] in ['cpu', 'mem', 'disk', 'tcp', 'net', 'process_down']:

        #依据数据包头来确定使用insert还是update。当是tcp包头的时候插入，其余的更新

            if line[1] == 'tcp':

                sql = "insert into MORNITOR_BASICINFO (ipadd,time,tcp) values (\'%s\',\'%s\',\'%s\')"%(ip,line[0],line[3])

                print sql

                self.cur.execute(sql)

            else:

                line_again = line[3].split('::')

                sql = 'update MORNITOR_BASICINFO set %s=\'%s\',%s=\'%s\' where ipadd=\'%s\' and time=\'%s\''%(line[1],line_again[0],line[2],line_again[1],ip,line[0])

                print sql

                self.cur.execute(sql)

    def connectionMade(self):

        print 'Connected!'

    def lineReceived(self, line):

        print line

        self.ruku(line)

        #接受到数据之后运行入库操作。

    def connectionLost(self, reason='connectionDone'):

        self._oracle_conn.close()

        print 'The db is close... ok!'

class Mornitor_Factory(ServerFactory):

    #还没想好要初始化什么

    def __init__(self,service):

        self.service = service

    protocol = Mornitor_Protocol

class Fish_Service(service.Service):

    def __init__(self):

        pass

    def startService(self):

        service.Service.startService(self)              #什么都不做，開始服务

    # def stopService(self):

    #     return self._port.stopListening()

#配置參数

port = 10000

iface = '127.0.0.1'

top_server = service.MultiService()                             #定义服务容器

fish_server = Fish_Service()                                    #实例化我们的服务

fish_server.setServiceParent(top_server)                        #把自己定义的服务增加到服务容器

factory = Mornitor_Factory(Fish_Service)                        #工厂化服务

tcp_server = internet.TCPServer(port, factory, interface=iface) #定义tcp服务

tcp_server.setServiceParent(top_server)                         #把tcp服务增加到服务容器

application = service.Application('Fish_Service')               #给应用起个名字

top_server.setServiceParent(application)                        #把服务容器丢到应用中去

Client端

from twisted.protocols import basic

from twisted.internet import  protocol, defer, task

import Get_basic_info_2 as Huoqu

import guardian as shouhu

import time

from twisted.application import service, internet

class Monitor_Protocol(basic.LineReceiver):

    #自定义客户端和服务端的连接协议。从basic的line继承

    def __init__(self):

        #

        pass

    @staticmethod

    def huoqu_shuju():

        #定义一个函数获取本机的一些状态

        now = str(time.strftime('%Y-%m-%d %H:%M:%S'))

        def add_tag(source, tag1, tag2 = 'none'):

        #定义格式化字符串函数

            return ':::'.join([now, tag1, tag2, source])

            #使用：：：分隔时间、简单信息、具体信息、原始信息

        tcp = add_tag(Huoqu.net_tcp(), 'tcp')

        cpu = add_tag(Huoqu.cpu(), 'cpu', 'cpu_detail')

        mem = add_tag(Huoqu.mem(), 'mem', 'mem_detail')

        disk = add_tag(Huoqu.disk_usage(), 'disk', 'disk_detail')

        net = add_tag(Huoqu.net_rate(), 'net', 'net_detail')

        process = add_tag(shouhu.check_alive(), 'process_down', 'process_alived')

        result = (tcp, cpu, mem, disk, net, process, )

        d = defer.Deferred()

        #使用defered返回结果

        d.callback(result)

        return d

    def xunhuan(self, list):

    #定义循环发送函数

        for i in list:

            self.sendLine(i)

    def fasong(self):

    #定义程序执行顺序，取得信息后用callback交给发送函数发送

        self.huoqu_shuju().addCallback(self.xunhuan)

    def loop(self):

    #使用twist内置的循环函数定义几秒监控数据传送到服务端

        l = task.LoopingCall(self.fasong)

        l.start(1)

    def connectionMade(self):

    #覆盖协议的connectmade函数。定义于服务端的连接建立后開始循环

        print 'Connected!......ok!'

        self.loop()

    def lineReceived(self, line):

    #必须覆盖接受函数，否则twist会报not importent错误！

pass

class Moinitor_client_factory(protocol.ReconnectingClientFactory):

    def __init__(self, service):

    #还没想要要写什么

        self.service = service

    protocol = Monitor_Protocol

class Client_Service(service.Service):

    def __init__(self):

        pass

    def startService(self):

        service.Service.startService(self)

#配置文件開始

port = 10000

host = '127.0.0.1'

#守护进程

top_service = service.MultiService()                   #定义服务容器

client_service = Client_Service()                      #实例化服务类

client_service.setServiceParent(top_service)           #把自定义的服务丢到服务容器中

factory = Moinitor_client_factory(client_service)      #定义服务工厂化

tcp_service = internet.TCPClient(host, port, factory)  #定义tcp连接的服务

tcp_service.setServiceParent(top_service)              #把tcp服务丢到服务容器中去

application = service.Application('Fish_Service')      #定义应用名字

top_service.setServiceParent(application)              #把服务容器丢到应用中去

一些自己定义监控程序是否存活的脚本：

program = {'nginx': ['/opt/nginx/logs/nginx.pid', '/opt/nginx/sbin/nginx'],

            'rsync-C': ['/var/run/rsyncd.pid', 'rsync --daemon'],

            }

def main():

    for k in program:

        a = get_pid(k, program[k][0])

        if isinstance(a, tuple):

            print '%s is not running!' % k

            print 'Start the program by Horland_guardian!'

            subprocess.call(program[k][1], shell=True)

        else:

            print 'The %s is running!' % k

def check_alive():

    l_lived = []

    l_downed = []

    for k in program:

        a = get_pid(k, program[k][0])

        if isinstance(a, tuple):

            l_downed.append(k)

        else:

            l_lived.append(k)

    process_alived = ' '.join(l_lived)

    process_down = ' '.join(l_downed)

    return '::'.join([process_down, process_alived])

django的使用眼下仅仅须要使用到admin模块就能够。

以下是一些代码段：

model

class BasicInfo(models.Model):

    ipadd = models.IPAddressField(verbose_name = u'IP地址')

    time = models.CharField(max_length=50, verbose_name = u'时间')

    cpu = models.CharField(max_length=255, blank=True, verbose_name = u'CPU%')

    cpu_detail = models.CharField(max_length=255, blank=True, verbose_name = u'CPU详情')

    mem = models.CharField(max_length=255, blank=True, verbose_name = u'内存%')

    mem_detail = models.CharField(max_length=255, blank=True, verbose_name = u'内存详情')

    disk = models.CharField(max_length=255, blank=True, verbose_name = u'磁盘%')

    disk_detail = models.CharField(max_length=255, blank=True, verbose_name = u'磁盘详情')

    net = models.CharField(max_length=255, blank=True, verbose_name = u'流量 bytes/s')

    net_detail = models.CharField(max_length=1000, blank=True, verbose_name = u'流量详情')

    tcp = models.CharField(max_length=255, blank=True, verbose_name = u'tcp连接状态')

    process_down = models.CharField(max_length=255, blank=True, verbose_name = u'DOWN-进程')

    process_alived = models.CharField(max_length=255, blank=True, verbose_name = u'Process_UP')

    def Process_DOWN(self):

        return '<span style="color: #%s;">%s</span>' % ('ff0000', self.process_down)  #拓机的进程用红色标识

    Process_DOWN.allow_tags = True

注冊到admin

class BasicInfo_admin(admin.ModelAdmin):

    list_display = ('time', 'cpu', 'cpu_detail', 'mem', 'mem_detail', 'disk', 'disk_detail', 'net', 'net_detail', 'tcp', 'Process_DOWN', 'process_alived')

    list_filter = ('ipadd', )

admin.site.register(BasicInfo, BasicInfo_admin)

freemind整理的思路中另一些功能没有实现。眼下这个仅仅能算个简单的demon吧，可是基本实现了监控的目的。欢迎大家给我留言！

以下上个django的admin界面截图吧！

代码下载

http://download.csdn.net/detail/qcpm1983/7611579