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psutil是个跨平台库,能够轻松实现获取系统运行的进程和系统利用率,包括cpu、内存、磁盘、网络等信息。
它主要应用于信息监控,分析和限制系统资源及进程的管理。它实现了同等命令命令行工具提供的功能,如:ps、top、lsof、netstat、ifconfig、who、df、kill、free、nice、ionice、iostat、iotop、uptime、pidof、tty、taskset、pmap等。目前支持32位和64位的linux、windows、os x、freebsd和sun solaris等操作系统。
(1)源码安装psutil
git clone https://github.com/giampaolo/psutil.git cd psutil python3 setup.py install
(2)pip安装
pip3 install psutil
(3)windows上安装
c:\python35\python.exe -m pip install psutil 或者源码编译安装: make.bat build make.bat install
in [10]: psutil.cpu_times(percpu=false) #查看cpu所有信息 out[10]: scputimes(user=306.98, nice=2.01, system=337.34, idle=410414.39, iowait=78.37, irq=0.0, softirq=17.42, steal=0.0, guest=0.0, guest_nice=0.0) #user:用户进程花费的时间 #nice:用户模式执行niced优先级进程花费的时间 #system:内核模式进程花费的时间 #idle:闲置时间 #iowait:等待i/o完成的时间 #irq:处理硬件中断的时间 #softirq:处理软件中断的时间 #steal:虚拟化环境中运行的其他操作系统花费的时间 #guest:在linux内核的控制下为客户端操作系统运行虚拟cpu所花费的时间 #guest_nice:虚拟机运行niced所花费的时间
#显示cpu所有逻辑信息
in [7]: psutil.cpu_times(percpu=true) #显示所有cpu逻辑信息 out[7]: [scputimes(user=45.48, nice=0.31, system=69.41, idle=101285.67, iowait=19.67, irq=0.0, softirq=3.06, steal=0.0, guest=0.0, guest_nice=0.0), scputimes(user=110.04, nice=0.46, system=70.63, idle=101210.2, iowait=22.99, irq=0.0, softirq=5.0, steal=0.0, guest=0.0, guest_nice=0.0), scputimes(user=58.5, nice=0.5, system=126.64, idle=100934.59, iowait=14.47, irq=0.0, softirq=4.36, steal=0.0, guest=0.0, guest_nice=0.0), scputimes(user=92.1, nice=0.72, system=68.3, idle=101146.96, iowait=21.12, irq=0.0, softirq=4.79, steal=0.0, guest=0.0, guest_nice=0.0)]
#显示用户占cpu的时间比
in [11]: psutil.cpu_times().user #显示用户占cpu的时间比 out[11]: 307.11
#显示cpu逻辑个数和物理个数
in [8]: psutil.cpu_count(logical=true) #显示cpu逻辑个数 out[8]: 4 in [9]: psutil.cpu_count(logical=false) #显示cpu物理个数 out[9]: 4
#将各种cpu统计信息作为命名元组返回
in [15]: psutil.cpu_stats() #cpu统计信息 out[15]: scpustats(ctx_switches=9838934, interrupts=10572621, soft_interrupts=5582125, syscalls=0) #ctx_switches:启动后的上下问切换次数 #interrupts:自启动以来的中断次数 #soft_interrupts:启动后的软件中断数量 #syscalls:启动以来的系统调用次数,在linux上始终为0
psutil.virtual_memory()以字节返回内存使用情况的统计信息
in [20]: mem = psutil.virtual_memory() #获取内存完整信息 in [21]: mem out[21]: svmem(total=2078892032, available=1508818944, percent=27.4, used=367063040, free=135192576, active=874614784, inactive=694231040, buffers=122880, cached=1576513536, shared=10444800, slab=255148032) #total:总物理内存 #available:可用的内存 #used:使用的内存 #free:完全没有使用的内存 #active:当前正在使用的内存 #inactive:标记为未使用的内存 #buffers:缓存文件系统元数据使用的内存 #cached:缓存各种文件的内存 #shared:可以被多个进程同时访问的内存 #slab:内核数据结构缓存的内存 in [22]: mem.total #获取内存总数 out[22]: 2078892032 in [23]: mem.used #获取已使用内存 out[23]: 367063040 in [24]: mem.free #获取空闲内存 out[24]: 135192576 in [25]: psutil.swap_memory() #获取swap内存信息 out[25]: sswap(total=2148528128, used=270336, free=2148257792, percent=0.0, sin=0, sout=12288) #total:以字节为单位的总交换内存 #used:以字节为单位使用交换内存 #free:以字节为单位的可用交换内存 #percent:使用百分比 #sin:系统从磁盘交换的字节数 #sout:系统从磁盘换出的字节数
psutil.disk_partitions(all=false):返回所有安装的磁盘分区作为名称元组的列表,包括设备,安装点和文件系统类型,类似于unix上的‘df'命令.
in [25]: import psutil in [26]: psutil.disk_partitions(all=false) #获取磁盘完整信息 out[26]: [sdiskpart(device='/dev/sda3', mountpoint='/', fstype='xfs', opts='rw,seclabel,relatime,attr2,inode64,noquota'), sdiskpart(device='/dev/sda5', mountpoint='/home', fstype='xfs', opts='rw,seclabel,relatime,attr2,inode64,noquota'), sdiskpart(device='/dev/sda1', mountpoint='/boot', fstype='xfs', opts='rw,seclabel,relatime,attr2,inode64,noquota')]
psutil.disk_usage(path):将有关包含给定路径的分区的磁盘使用情况统计信息返回为指定元组,包括以字节表示的,总共,已使用和空闲的空间以及百分比使用率,如果路径存在则引发oserror.
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in [30]: psutil.disk_usage('/') #获取分区使用情况
out[30]: sdiskusage(total=53660876800, used=3662462976, free=49998413824, percent=6.8)
#total:总的大小(字节)
#used:已使用的大小(字节)
#free:空闲的大小(字节)
#percent:使用百分比
psutil.disk_io_counters(perdisk=false,nowrap=true) #将系统范围的磁盘i/0统计作为命名元组返回,包括以下字段:
perdisk为true时返回物理磁盘相同的信息;nowrap为true它将检测并调整函数调用中的新值。
in [32]: psutil.disk_io_counters(perdisk=true) #获取单个分区的io信息
out[32]:
{'fd0': sdiskio(read_count=0, write_count=0, read_bytes=0, write_bytes=0, read_time=0, write_time=0, read_merged_count=0, write_merged_count=0, busy_time=0),
'sda1': sdiskio(read_count=1003, write_count=25, read_bytes=5893632, write_bytes=2226176, read_time=1143, write_time=11298, read_merged_count=0, write_merged_count=1, busy_time=3976),
'sda2': sdiskio(read_count=51, write_count=2, read_bytes=2260992, write_bytes=12288, read_time=246, write_time=391, read_merged_count=0, write_merged_count=1, busy_time=545),
'sda3': sdiskio(read_count=15216, write_count=34370, read_bytes=456854528, write_bytes=2394566656, read_time=186146, write_time=3937459, read_merged_count=17, write_merged_count=37260, busy_time=156705),
psutil.net_io_counters(pernic=false,nowrap=true):将系统范围的网络i/o统计信息作为命名元组返回,包括以下属性:
如果pernic为true网络接口上安装的每个网络接口返回相同的信息,nowrap为true时将检测并调整函数调用中的这些数字,将旧值添加到新值,保证返回的数字将增加或不变,但不减少,net_io_counters.cache_clear()可用于使nowrap缓存失效。
in [79]: psutil.net_io_counters(pernic=false,nowrap=true)
out[79]: snetio(bytes_sent=19487039, bytes_recv=301660567, packets_sent=123489, packets_recv=337983, errin=0, errout=0, dropin=0, dropout=0)
in [81]: psutil.net_io_counters(pernic=true,nowrap=true)
out[81]:
{'ens32': snetio(bytes_sent=17684066, bytes_recv=299856862, packets_sent=121275, packets_recv=335825, errin=0, errout=0, dropin=0, dropout=0),
'lo': snetio(bytes_sent=1812739, bytes_recv=1812739, packets_sent=2270, packets_recv=2270, errin=0, errout=0, dropin=0, dropout=0)}
psutil.net_connections(kind='inet'):返回系统范围的套接字链接,命令元组列表返回,每个命名元组提供了7个属性:
(ip, port) path(ip, port) path ""none 。 在某些平台(例如linux)上,此字段的可用性根据进程权限而变化(需要root)。kind参数的值包括:
inet:ipv4和ipv6
inet4:ipv4
inet6:ipv6
tcp:tcp
tcp4:tcp over ipv4
tcp6:tcp over ipv6
udp:udp
dup4:基于ipv4的udp
cpu6:基于ipv6的udp
unix:unix套接字(udp和tcp协议)
all:所有可能的家庭和协议的总和
in [86]: psutil.net_connections(kind='tcp') out[86]: [sconn(fd=3, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='127.0.0.1', port=9090), raddr=(), status='listen', pid=103599), sconn(fd=4, family=<addressfamily.af_inet6: 10>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='::', port=22), raddr=(), status='listen', pid=1179), sconn(fd=13, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='127.0.0.1', port=25), raddr=(), status='listen', pid=1279), sconn(fd=10, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='0.0.0.0', port=3306), raddr=(), status='listen', pid=70099), sconn(fd=3, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='0.0.0.0', port=22), raddr=(), status='listen', pid=1179), sconn(fd=3, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='192.168.146.139', port=22), raddr=addr(ip='192.168.146.1', port=4238), status='established', pid=122738), sconn(fd=12, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='127.0.0.1', port=9001), raddr=(), status='listen', pid=103596), sconn(fd=14, family=<addressfamily.af_inet6: 10>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='::1', port=25), raddr=(), status='listen', pid=1279)] in [87]: psutil.net_connections(kind='inet4') out[87]: [sconn(fd=3, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='127.0.0.1', port=9090), raddr=(), status='listen', pid=103599), sconn(fd=13, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='127.0.0.1', port=25), raddr=(), status='listen', pid=1279), sconn(fd=10, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='0.0.0.0', port=3306), raddr=(), status='listen', pid=70099), sconn(fd=3, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='0.0.0.0', port=22), raddr=(), status='listen', pid=1179), sconn(fd=3, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='192.168.146.139', port=22), raddr=addr(ip='192.168.146.1', port=4238), status='established', pid=122738), sconn(fd=6, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_dgram: 2>, laddr=addr(ip='0.0.0.0', port=68), raddr=(), status='none', pid=119605), sconn(fd=12, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='127.0.0.1', port=9001), raddr=(), status='listen', pid=103596), sconn(fd=1, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_dgram: 2>, laddr=addr(ip='127.0.0.1', port=323), raddr=(), status='none', pid=741)]
psutil.net_if_addrs():以字典的方式返回系统上的每个网络接口的关联地址。
in [88]: psutil.net_if_addrs()
out[88]:
{'lo': [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: 10>, address='::1', netmask='ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff', broadcast=none, ptp=none),
snic(family=<addressfamily.af_packet: 17>, address='00:00:00:00:00:00', netmask=none, broadcast=none, ptp=none)],
'ens32': [snic(family=<addressfamily.af_inet: 2>, address='192.168.146.139', netmask='255.255.255.0', broadcast='192.168.146.255', ptp=none),
snic(family=<addressfamily.af_inet6: 10>, address='fe80::9853:19bb:b07b:89d4%ens32', netmask='ffff:ffff:ffff:ffff::', broadcast=none, ptp=none),
snic(family=<addressfamily.af_packet: 17>, address='00:50:56:31:d8:11', netmask=none, broadcast='ff:ff:ff:ff:ff:ff', ptp=none)]}
psutil.net_if_stats():将安装在系统上的网络接口的信息作为字典返回,其中包括isup是否启动,duplex双工模式,speed速率,mtu最大传输单位,以字节表示
in [89]: psutil.net_if_stats()
out[89]:
{'ens32': snicstats(isup=true, duplex=<nicduplex.nic_duplex_full: 2>, speed=1000, mtu=1500),
'lo': snicstats(isup=true, duplex=<nicduplex.nic_duplex_unknown: 0>, speed=0, mtu=65536)}
in[93]:import psutil,time
in [94]: psutil.boot_time() #系统启动时间戳
out[94]: 1527457908.0
in [96]: time.strftime('%y-%m-%d %h:%m:%s',time.localtime(psutil.boot_time
...: ())) #格式化时间
out[96]: '2018-05-28 05:51:48'
in [97]: psutil.users() #返回当前链接的系统用户
out[97]:
[suser(name='root', terminal='tty1', host='', started=1527050368.0, pid=769),
suser(name='root', terminal='pts/0', host='192.168.146.1', started=1527559040.0, pid=122742),
suser(name='root', terminal='pts/1', host='192.168.146.1', started=1527559040.0, pid=122761)]
in [1]: import psutil in [2]: psutil.pids() #列出所有进程pid out[2]: [1,2,3,5,6,7,8,] in [3]: p = psutil.process(1265) #实例化一个process对象,参数为进程pid in [4]: p.name() #进程名 out[4]: 'mysqld' in [5]: p.exe() #进程bin路径 out[5]: '/usr/local/mysql-5.5.32/bin/mysqld' in [6]: p.cwd() #进程工作目录绝对路径 out[6]: '/mysql/data' in [7]: p.status() #进程状态 out[7]: 'sleeping' in [8]: p.create_time() #进程创建时间,时间戳格式 out[8]: 1527642963.22 in [9]: p.uids() #进程uid信息 out[9]: puids(real=1001, effective=1001, saved=1001) in [10]: p.gids() #进程gid信息 out[10]: pgids(real=1001, effective=1001, saved=1001) in [11]: p.cpu_times() #进程cpu时间信息,包括user、system的cpu时间 out[11]: pcputimes(user=1.53, system=6.06, children_user=0.0, children_system=0.0) in [12]: p.cpu_affinity() #get进程cpu亲和度,如果设置进程cpu亲和度,将cpu号作为参数即可 out[12]: [0, 1, 2, 3] in [13]: p.memory_info() #进程内存rss、vms信息 out[13]: pmem(rss=45268992, vms=460525568, shared=4399104, text=9420800, lib=0, data=425431040, dirty=0) in [14]: p.io_counters() #进程io信息包括读写io数及字节数 out[14]: pio(read_count=594, write_count=27, read_bytes=15859712, write_bytes=32768, read_chars=6917150, write_chars=1555) in [15]: p.connections() #返回发开进程socket的namedutples列表,包括fs、family、laddr等信息 out[15]: [pconn(fd=10, family=<addressfamily.af_inet: 2>, type=<socketkind.sock_stream: 1>, laddr=addr(ip='0.0.0.0', port=3306), raddr=(), status='listen')] in [16]: p.num_threads() #进程开启的线程数 out[16]: 16 in [17]: p.memory_percent() #进程内存利用率 out[17]: 2.177553778800572
psutil.process_iter(attrs=none,ad_value=none):返回一个迭代器process,为本地机器上的所有正在运行的进程生成一个类实例。
psutil.pid_exists(pid):检查给定的pid是否存在于当前进程列表中。
psutil.wait_procs(procs,timeout=none,callback=none):等待process终止实例列表的便捷函数,返回一个元组,指示哪些进程已经消失,哪些进程还活着。
class psutil.popen(*args,**kwargs):它启动一个子进程,并完全像使用subprocess.popen一样处理,它还提供了所有psutil.process类的方法。popen类的作用是获取用户启动的应用程序进程信息,以便跟踪程序进程的运行状态。
in [18]: import psutil
in [19]: from subprocess import pipe
in [20]: p = psutil.popen(["/usr/bin/python","-c","print('hello world')"],stdout=
...: pipe)
in [21]: p.name()
out[21]: 'python'
in [22]: p.username()
out[22]: 'root'
in [23]: p.communicate()
out[23]: (b'hello world\n', none)
进程过滤实例:
in [25]: import psutil
in [26]: from pprint import pprint as pp
#根据进程名查看系统中的进程名与pid
in [27]: pp([p.info for p in psutil.process_iter(attrs=['pid','name']) if 'python
...: ' in p.info['name']])
[{'name': 'ipython3', 'pid': 2429}]
in [28]: pp([p.info for p in psutil.process_iter(attrs=['pid','name']) if 'mysql'
...: in p.info['name']])
[{'name': 'mysqld_safe', 'pid': 987}, {'name': 'mysqld', 'pid': 1265}]
#所有用户进程
in [32]: import getpass
in [33]: pp([(p.pid,p.info['name']) for p in psutil.process_iter(attrs=['name','u
...: sername']) if p.info['username'] == getpass.getuser()])
[(1, 'systemd'),
(2, 'kthreadd'),
(3, 'ksoftirqd/0'),
(5, 'kworker/0:0h'),
(6, 'kworker/u256:0'),
...
(5004, 'kworker/0:0')]
#查看积极运行的进程:
in [37]: pp([(p.pid,p.info) for p in psutil.process_iter(attrs=['name','status'])
...: if p.info['status'] == psutil.status_running])
[(2429, {'name': 'ipython3', 'status': 'running'})]
#使用日志文件的进程
in [38]: import os,psutil
in [39]: for p in psutil.process_iter(attrs=['name','open_files']):
...: for file in p.info['open_files'] or []:
...: if os.path.splitext(file.path)[1] == '.log':
...: print("%-5s %-10s %s" % (p.pid,p.info['name'][:10],file.path
...: ))
...:
auditd /var/log/audit/audit.log
vmtoolsd /var/log/vmware-vmsvc.log
tuned /var/log/tuned/tuned.log
#消耗超过5m内存的进程:
in [42]: pp([(p.pid,p.info['name'],p.info['memory_info'].rss) for p in psutil.pro
...: cess_iter(attrs=['name','memory_info']) if p.info['memory_info'].rss > 5
...: * 1024 * 1024])
[(1, 'systemd', 7118848),
(411, 'systemd-udevd', 6254592),
(712, 'polkitd', 13553664),
(716, 'abrtd', 5734400),
(724, 'vgauthservice', 6262784),
(725, 'vmtoolsd', 6426624),
(974, 'tuned', 19648512),
(1265, 'mysqld', 45268992),
(2204, 'sshd', 5726208),
(2429, 'ipython3', 37232640)]
#消耗量最大的3个进程
in [43]: pp([(p.pid, p.info) for p in sorted(psutil.process_iter(attrs=['name', '
...: memory_percent']), key=lambda p: p.info['memory_percent'])][-3:])
[(974, {'memory_percent': 0.9451434561080659, 'name': 'tuned'}),
(2429, {'memory_percent': 1.7909847854955845, 'name': 'ipython3'}),
(1265, {'memory_percent': 2.177553778800572, 'name': 'mysqld'})]
#消耗最多cpu时间的前3个进程
in [44]: pp([(p.pid, p.info['name'], sum(p.info['cpu_times'])) for p in sorted(ps
...: util.process_iter(attrs=['name', 'cpu_times']), key=lambda p: sum(p.info
...: ['cpu_times'][:2]))][-3:])
[(1265, 'mysqld', 13.93),
(2429, 'ipython3', 14.809999999999999),
(725, 'vmtoolsd', 16.74)]
#导致最多i/o的前3个进程
in [45]: pp([(p.pid, p.info['name']) for p in sorted(psutil.process_iter(attrs=['
...: name', 'io_counters']), key=lambda p: p.info['io_counters'] and p.info['
...: io_counters'][:2])][-3:])
[(2429, 'ipython3'), (725, 'vmtoolsd'), (1, 'systemd')]
#前3个进程打开最多的文件描述符:
in [46]: pp([(p.pid, p.info) for p in sorted(psutil.process_iter(attrs=['name', '
...: num_fds']), key=lambda p: p.info['num_fds'])][-3:])
[(377, {'name': 'systemd-journald', 'num_fds': 24}),
(1, {'name': 'systemd', 'num_fds': 43}),
(1307, {'name': 'master', 'num_fds': 91})]
了解更对内容请查看官方文档:
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