Python监控服务器实用工具psutil使用解析

这篇文章主要介绍了Python监控服务器实用工具psutil使用解析,文中通过示例代码介绍的非常详细,对大家的学习或者工作具有一定的参考学习价值,需要的朋友可以参考下

服务器的监控通过安装一些常用的监控软件之外,有时也需要运行一些shell或Python脚本;shell下可以使用系统自带的ps/free/top/df等shell命令,Python可以调用subprocess等模块来运行shell命令,不过这么做就比较麻烦。这里有一个比较好用的第三方模块:psutil。

psutil是一个跨平台的库,用于在Python中检索有关运行进程和系统利用率(CPU,内存,磁盘,网络,传感器)的信息。它主要用于系统监视,分析,限制进程资源和运行进程的管理。它实现了UNIX命令行工具提供的许多功能,例如:ps,top,lsof,netstat,ifconfig,who,df,kill,free,nice,ionice,iostat,iotop,uptime,pidof,tty,taskset,pmap。 psutil目前支持以下平台:

  • Linux
  • Windows
  • OSX,
  • FreeBSD, OpenBSD, NetBSD
  • Sun Solaris
  • AIX

...

等装有Python2.6至3.6的32-bit和64-bit架构. 也可以在PyPy上运行。

安装

文中示例均在Python版本3.6环境下运行;

# pip3 install psutil

常用模块

获取psutil版本信息

In [1]: import psutil

In [2]: psutil.version_info

Out[2]: (5, 4, 3

获取CPU信息

In [3]: psutil.cpu_count() # 逻辑CPU核数

Out[3]: 4

In [4]: psutil.cpu_count(logical=False) # 物理CPU核数

Out[4]: 2

In [5]: psutil.cpu_times() # CPU的用户、系统、空闲时间

Out[5]: scputimes(user=240773.0, nice=0.0, system=96416.32, idle=1161930.41)

In [9]: psutil.cpu_percent(percpu=True) # 获取每个CPU的使用率,类似TOP命令

Out[9]: [43.3, 22.0, 42.0, 23.0]

In [10]: top = [psutil.cpu_percent(interval=i, percpu=True) for i in range(10)] #设置每秒刷新时间间隔,统计十次的结果

In [11]: top

Out[11]:

[[40.8, 19.7, 38.5, 20.7],

[25.7, 5.9, 13.0, 5.0],

[35.0, 15.6, 30.0, 14.4],

[23.7, 7.0, 18.3, 7.4],

[38.5, 17.0, 34.2, 17.5],

[37.2, 19.6, 36.3, 20.0],

[29.6, 16.6, 28.8, 16.8],

[37.7, 19.0, 35.4, 18.7],

[30.8, 16.3, 26.9, 16.5],

[44.2, 27.9, 41.5, 28.6]]

获取内存信息

In [13]: psutil.virtual_memory() #获取内存统计数据,单位bytes,我这里8G内存

Out[13]: svmem(total=8589934592, available=1891045376, percent=78.0, used=6053986304, free=15130624, active=1878392832, inactive=1875914752, wired=2299678720)

In [14]: psutil.swap_memory() # 获取swap的统计数据

Out[14]: sswap(total=2147483648, used=1340866560, free=806617088, percent=62.4, sin=126090076160, sout=3524710400)

获取磁盘信息

In [17]: psutil.disk_partitions() #获取磁盘分区信息

Out[17]: [sdiskpart(device='/dev/disk1', mountpoint='/', fstype='hfs', opts='rw,local,rootfs,dovolfs,journaled,multilabel')]

In [20]: psutil.disk_usage('/') # 获取分区使用情况,这里使用了25.4%

Out[20]: sdiskusage(total=499055067136, used=126482944000, free=372309979136, percent=25.4)

In [22]: psutil.disk_io_counters() #磁盘IO情况

Out[22]: sdiskio(read_count=7364142, write_count=6510641, read_bytes=282106464256, write_bytes=261763244544, read_time=2608778, write_time=1095259)

获取网络信息

In [23]: psutil.net_if_stats() # 获取网卡接口状态

Out[23]:

{'awdl0': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=1484),

'bridge0': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=1500),

'en0': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=1500),

'en1': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_FULL: 2>, speed=0, mtu=1500),

'en2': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_FULL: 2>, speed=0, mtu=1500),

'gif0': snicstats(isup=False, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=1280),

'lo0': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=16384),

'p2p0': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=2304),

'stf0': snicstats(isup=False, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=1280),

'utun0': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=2000),

'utun1': snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=1352)}

In [25]: psutil.net_if_stats().get("en0") #获取单个网卡en0的状态

Out[25]: snicstats(isup=True, duplex=<NicDuplex.NIC_DUPLEX_UNKNOWN: 0>, speed=0, mtu=1500)

In [26]: psutil.net_if_addrs() # 获取所有网卡的地址信息

Out[26]:

{'awdl0': [snic(family=<AddressFamily.AF_LINK: 18>, address='36:7d:f3:80:6e:4e', netmask=None, broadcast=None, ptp=None),

snic(family=<AddressFamily.AF_INET6: 30>, address='fe80::347d:f3ff:fe80:6e4e%awdl0', netmask='ffff:ffff:ffff:ffff::', broadcast=None, ptp=None)],

'bridge0': [snic(family=<AddressFamily.AF_LINK: 18>, address='4a:00:02:c0:33:70', netmask=None, broadcast=None, ptp=None)],

'en0': [snic(family=<AddressFamily.AF_INET: 2>, address='192.168.0.101', netmask='255.255.255.0', broadcast='192.168.0.255', ptp=None),

snic(family=<AddressFamily.AF_LINK: 18>, address='ac:bc:32:91:32:8b', netmask=None, broadcast=None, ptp=None),

snic(family=<AddressFamily.AF_INET6: 30>, address='fe80::1476:ce7e:210a:2e32%en0', netmask='ffff:ffff:ffff:ffff::', broadcast=None, ptp=None)],

'en1': [snic(family=<AddressFamily.AF_LINK: 18>, address='4a:00:02:c0:33:70', netmask=None, broadcast=None, ptp=None)],

'en2': [snic(family=<AddressFamily.AF_LINK: 18>, address='4a:00:02:c0:33:71', netmask=None, broadcast=None, ptp=None)],

'lo0': [snic(family=<AddressFamily.AF_INET: 2>, address='127.0.0.1', netmask='255.0.0.0', broadcast=None, ptp=None),

snic(family=<AddressFamily.AF_INET6: 30>, address='::1', netmask='ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff', broadcast=None, ptp=None),

snic(family=<AddressFamily.AF_INET6: 30>, address='fe80::1%lo0', netmask='ffff:ffff:ffff:ffff::', broadcast=None, ptp=None)],

'p2p0': [snic(family=<AddressFamily.AF_LINK: 18>, address='0e:bc:32:91:32:8b', netmask=None, broadcast=None, ptp=None)],

'utun0': [snic(family=<AddressFamily.AF_INET6: 30>, address='fe80::583c:77a0:6b93:b045%utun0', netmask='ffff:ffff:ffff:ffff::', broadcast=None, ptp=None)],

'utun1': [snic(family=<AddressFamily.AF_INET: 2>, address='10.5.200.244', netmask=None, broadcast=None, ptp='10.5.200.244')]}

# 获取en0网卡的地址, 这里包括mac和ipv6地址

In [40]: for addr in psutil.net_if_addrs().get("en0"):

...: print(addr.address)

192.168.0.101

ac:bc:32:91:32:8b

fe80::1476:ce7e:210a:2e32%en0

In [43]: psutil.net_io_counters() # 获取网络读写字节/包的个数

Out[43]: snetio(bytes_sent=174614221, bytes_recv=586279725, packets_sent=863903, packets_recv=873583, errin=0, errout=0, dropin=0, dropout=0)

In [45]: psutil.net_connections() # 获取网络连接信息,注意这里需要root权限。

获取进程信息:

In [46]: psutil.pids() # 获取所有进程ID

In [47]: psutil.Process(61) # 获取指定PID的进程信息

Out[47]: psutil.Process(pid=61, name='dsAccessService', started='2018-02-26 09:57:04')

In [49]: psutil.Process(45573).exe() # 获取进程的exe路径

Out[49]: '/usr/local/Cellar/python3/3.6.3/Frameworks/Python.framework/Versions/3.6/Resources/Python.app/Contents/MacOS/Python'

In [50]: psutil.Process(45573).name() # 获取进程名称

Out[50]: 'Python'

In [52]: psutil.Process(45573).cmdline() # 获取进程启动的命令

Out[52]:

['/usr/local/Cellar/python3/3.6.3/Frameworks/Python.framework/Versions/3.6/Resources/Python.app/Contents/MacOS/Python',

'/usr/local/bin/ptipython']

In [56]: psutil.Process(45573).num_threads() # 获取进程的线程数量

Out[56]: 3

In [57]: psutil.Process(45573).environ() # 获取进程的环境变量信息

总结:

使用psutil模块可以做到比较全面的对系统的监控,如果你正在考虑用Python做一个监控系统或者脚本工具,可以有些考虑此模块。

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