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#!/usr/bin/env python
# -*- coding: utf-8 -*-
import pexpect
import re
import time
import threading
'''
思路: 使用pexpect方法连接linux服务器在远程执行系统命令获取数据首先定义一个主方法是连接系统执行命令\
然后定义各种资源方法 cpu 内存等,将命令传给主方法,处理返回数据,最后使用多进程执行各种资源方法。
'''
"""
主方法
127.0.0.1#远程服务器ip地址
"""
remoteUser = 'root'
remoteHost = '127.0.0.1'
remotePass = '1'
def ssh_command(user, host, password, command):
ssh_new_key = 'Are you sure you want to continue connecting'
child = pexpect.spawn('ssh -l %s %s %s' % (user, host, command))
i = child.expect([pexpect.TIMEOUT, ssh_new_key, 'password: '])
if i == 0:
print 'ERROR!'
print 'SSH could not login. Here is what SSH said:'
print child.before, child.after
return None
if i == 1:
child.sendline('yes')
child.expect('password: ')
i = child.expect([pexpect.TIMEOUT, 'password: '])
if i == 0:
print 'ERROR!'
print 'SSH could not login. Here is what SSH said:'
print child.before, child.after
return None
child.sendline(password)
return child
"""
内存监控
"""
def mem_info():
child = ssh_command(remoteUser, remoteHost, remotePass, "cat /proc/meminfo")
child.expect(pexpect.EOF)
mem = child.before
mem_values = re.findall("(\d+)\ kB", mem)
MemTotal = mem_values[0]
MemFree = mem_values[1]
Buffers = mem_values[2]
Cached = mem_values[3]
SwapCached=mem_values[4]
SwapTotal = mem_values[13]
SwapFree = mem_values[14]
print '******************************内存监控*********************************'
print "*******************时间:", time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()), "******************"
print "总内存:",MemTotal
print "空闲内存:", MemFree
print "给文件的缓冲大小:",Buffers
print "高速缓冲存储器使用的大小:", Cached
print "被高速缓冲存储用的交换空间大小:", SwapCached
print "给文件的缓冲大小:", Buffers
if int(SwapTotal) == 0:
print u"交换内存总共为0"
else:
Rate_Swap = 100 - 100*int(SwapFree)/float(SwapTotal)
print u"交换内存利用率:", Rate_Swap
Free_Mem = int(MemFree) + int(Buffers) + int(Cached)
Used_Mem = int(MemTotal) - Free_Mem
Rate_Mem = 100*Used_Mem/float(MemTotal)
print u"内存利用率:", str("%.2f" % Rate_Mem), "%"
"""
内核线程、虚拟内存、磁盘、陷阱和 CPU 活动的统计信息
"""
def vm_stat_info():
child = ssh_command(remoteUser, remoteHost, remotePass, "vmstat 1 2 | tail -n 1")
child.expect(pexpect.EOF)
vmstat_info = child.before.strip().split()
processes_waiting = vmstat_info[0]
processes_sleep = vmstat_info[1]
swpd = vmstat_info[2]
free = vmstat_info[3]
buff = vmstat_info[4]
cache = vmstat_info[5]
si = vmstat_info[6]
so = vmstat_info[7]
io_bi = vmstat_info[8]
io_bo = vmstat_info[9]
system_interrupt = vmstat_info[10]
system_context_switch = vmstat_info[11]
cpu_user = vmstat_info[12]
cpu_sys = vmstat_info[13]
cpu_idle = vmstat_info[14]
cpu_wait = vmstat_info[15]
st=vmstat_info[16]
print '****************************内核线程、虚拟内存、磁盘、陷阱和 CPU 活动的统计信息监控****************************'
print "*******************时间:", time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()), "******************"
print "等待运行进程的数量:", processes_waiting
print "处于不间断状态的进程:", processes_sleep
print "使用虚拟内存(swap)的总量:", swpd
print "空闲的内存总量:", free
print "用作缓冲的内存总量:", buff
print "用作缓存的内存总量:", cache
print "交换出内存总量 :", si
print "交换入内存总量 :", so
print "从一个块设备接收:", io_bi
print "发送到块设备:", io_bo
print "每秒的中断数:", system_interrupt
print "每秒的上下文切换数:", system_context_switch
print "用户空间上进程运行的时间百分比:", cpu_user
print "内核空间上进程运行的时间百分比:", cpu_sys
print "闲置时间百分比:", cpu_idle
print "等待IO的时间百分比:", cpu_wait
print "从虚拟机偷取的时间百分比:", st
'''
cpu监控
'''
def cpu_info():
child = ssh_command(remoteUser, remoteHost, remotePass, "cat /proc/cpuinfo")
child.expect(pexpect.EOF)
cpuinfo = child.before
cpu_num = re.findall('processor.*?(\d+)', cpuinfo)[-1]
cpu_num = str(int(cpu_num) + 1)
print '***************************************cpu监控***************************************'
print "*******************时间:", time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()), "******************"
print u"CPU数目", cpu_num
li = cpuinfo.replace('\t', '').split('\r')
CPUinfo = {}
procinfo = {}
nprocs = 0
for line in li:
if line.find("processor") > -1:
CPUinfo['CPU%s' % nprocs] = procinfo
nprocs = nprocs + 1
else:
if len(line.split(':')) == 2:
procinfo[line.split(':')[0].strip()] = line.split(':')[1].strip()
else:
procinfo[line.split(':')[0].strip()] = ''
for processor in CPUinfo.keys():
print "CPU属于的名字及其编号、标称主频:",CPUinfo[processor]['model name']
print "CPU属于其系列中的哪一代的代号:", CPUinfo[processor]['model']
print "CPU制造商:", CPUinfo[processor]['vendor_id']
print "CPU产品系列代号:", CPUinfo[processor]['cpu family']
print "CPU的实际使用主频:", CPUinfo[processor]['cpu MHz']
"""
负载均衡
"""
def load_stat():
child = ssh_command(remoteUser, remoteHost, remotePass, "cat /proc/loadavg")
child.expect(pexpect.EOF)
loadavgs = child.before.strip().split()
print '************************负载均衡监控****************************'
print "*******************时间:",time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()),"******************"
print "系统5分钟前的平均负载", loadavgs[0]
print "系统10分钟前的平均负载", loadavgs[1]
print "系统15分钟前的平均负载", loadavgs[2]
print "分子是正在运行的进程数,分母为总进程数:",loadavgs[3]
print "最近运行的进程id", loadavgs[4]
"""
获取网络接口的输入和输出
"""
def ionetwork():
child = ssh_command(remoteUser, remoteHost, remotePass, "cat /proc/net/dev")
child.expect(pexpect.EOF)
netdata = child.before
li = netdata.strip().split('\n')
print '************************获取网络接口的输入和输出监控****************************'
print "*******************时间:",time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()),"******************"
net = {}
for line in li[2:]:
line = line.split(":")
eth_name = line[0].strip()
# if eth_name != 'lo':
net_io = {}
net_io['Receive'] = round(float(line[1].split()[0]) / (1024.0 * 1024.0), 2)
net_io['Transmit'] = round(float(line[1].split()[8]) / (1024.0 * 1024.0), 2)
net[eth_name] = net_io
print net
"""
磁盘空间监控
"""
def disk_stat():
child = ssh_command(remoteUser, remoteHost, remotePass, "df -h")
child.expect(pexpect.EOF)
disk = child.before
disklist = disk.strip().split('\n')
disklists=[]
for disk in disklist:
disklists.append(disk.strip().split())
print '************************磁盘空间监控****************************'
print "*******************时间:", time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()), "******************"
for i in disklists[1:]:
print "\t文件系统:", i[0],
print "\t容量:", i[1],
print "\t已用:", i[2],
print "\t可用:", i[3],
print "\t已用%挂载点:", i[4]
"""
端口监控
一般是远程服务器用户名用户
"""
def getComStr():
child = ssh_command(remoteUser, remoteHost, remotePass, "netstat -tpln")
child.expect(pexpect.EOF)
Com = child.before
print '******************************端口监控*********************************'
print "*******************时间:", time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()), "******************"
print Com
"""
获取网络接口的输入和输出
"""
def cpu():
child = ssh_command(remoteUser, remoteHost, remotePass, 'cat /proc/stat | grep "cpu "')
child.expect(pexpect.EOF)
child1 = ssh_command(remoteUser, remoteHost, remotePass, 'cat /proc/stat | grep "cpu "')
child1.expect(pexpect.EOF)
cpus = child.before.strip().split()
cpus1 = child1.before.strip().split()
print '************************cpu使用情况****************************'
print "*******************时间:",time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()),"******************"
T1=int(cpus[1])+int(cpus[2])+int(cpus[3])+int(cpus[4])+int(cpus[5])+int(cpus[6])+int(cpus[8])+int(cpus[9])
T2=int(cpus1[1]) + int(cpus1[2]) + int(cpus1[3]) + int(cpus1[4] )+ int(cpus1[5] )+int( cpus1[6] )+ int(cpus1[8] )+ int(cpus1[9])
Tol=T2-T1
Idle=int(cpus1[4]) - int(cpus[4])
print '总的cpu时间1:',T1
print '总的cpu时间2:', T2
print '时间间隔内的所有时间片:', Tol
print '计算空闲时间idle:', Idle
print "计算cpu使用率",100*(Tol-Idle)/Tol,"%"
"""
第一种执行
"""
def alltask():
try:
threads = []
t1 = threading.Thread(target=mem_info)
threads.append(t1)
t2 = threading.Thread(target=vm_stat_info)
threads.append(t2)
t3 = threading.Thread(target=cpu_info)
threads.append(t3)
t4 = threading.Thread(target=load_stat)
threads.append(t4)
t5 = threading.Thread(target=ionetwork)
threads.append(t5)
t6 = threading.Thread(target=disk_stat)
threads.append(t6)
t7 = threading.Thread(target=getComStr)
threads.append(t7)
t8 = threading.Thread(target=cpu)
threads.append(t8)
for n in range(len(threads)):
threads[n].start()
except Exception, e:
print str(e)
"""
第二种执行
"""
if __name__ == '__main__':
try:
threads = []
t1 = threading.Thread(target=mem_info)
threads.append(t1)
t2 = threading.Thread(target=vm_stat_info)
threads.append(t2)
t3 = threading.Thread(target=cpu_info)
threads.append(t3)
t4 = threading.Thread(target=load_stat)
threads.append(t4)
t5 = threading.Thread(target=ionetwork)
threads.append(t5)
t6 = threading.Thread(target=disk_stat)
threads.append(t6)
t7 = threading.Thread(target=getComStr)
threads.append(t7)
t8 = threading.Thread(target=cpu)
threads.append(t8)
for n in range(len(threads)):
threads[n].start()
except Exception, e:
print str(e)