ss是Socket Statistics的缩写。顾名思义,ss命令可以用来获取socket统计信息,它可以显示和netstat类似的内容。但ss的优势在于它能够显示更多更详细的有关TCP和连接状态的信息,而且比netstat更快速更高效。

当 服务器的socket连接数量变得非常大时,无论是使用netstat命令还是直接cat /proc/net/tcp,执行速度都会很慢。可能你不会有 切身的感受,但请相信我,当服务器维持的连接达到上万个的时候,使用netstat等于浪费 生命,而用ss才是节省时间。

天 下武功唯快不破。ss快的秘诀在于,它利用到了TCP协议栈中tcp_diag。tcp_diag是一个用于分析统计的模块,可以获得Linux 内核中 第一手的信息,这就确保了ss的快捷高效。当然,如果你的系统中没有tcp_diag,ss也可以正常运行,只是效率会变得稍慢。(但仍然 比 netstat要快。)

1.命令格式:

ss [参数]

ss [参数] [过滤]

2.命令功能:

ss(Socket Statistics 的缩写)命令可以用来获取 socket统计信息,此命令输出的结果类似于 netstat输出的内容,但它能显示更多更详细的 TCP连接状态的信息, 且比 netstat 更快速高效。它使用了 TCP协议栈中 tcp_diag(是一个用于分析统计的模块),能直接从获得第一手内核信息,这就使 得 ss命令快捷高效。在没有 tcp_diag,ss也可以正常运行。

3.命令参数:

-h, --help 帮助信息

-V, --version 程序版本信息

-n, --numeric 不解析服务名称

-r, --resolve        解析主机名

-a, --all 显示所有套接字(sockets)

-l, --listening 显示监听状态的套接字(sockets)

-o, --options        显示计时器信息

-e, --extended       显示详细的套接字(sockets)信息

-m, --memory         显示套接字(socket)的内存使用情况

-p, --processes 显示使用套接字(socket)的进程

-i, --info 显示 TCP内部信息

-s, --summary 显示套接字(socket)使用概况

-4, --ipv4           仅显示IPv4的套接字(sockets)

-6, --ipv6           仅显示IPv6的套接字(sockets)

-0, --packet         显示 PACKET 套接字(socket)

-t, --tcp 仅显示 TCP套接字(sockets)

-u, --udp 仅显示 UCP套接字(sockets)

-d, --dccp 仅显示 DCCP套接字(sockets)

-w, --raw 仅显示 RAW套接字(sockets)

-x, --unix 仅显示 Unix套接字(sockets)

-f, --family=FAMILY  显示 FAMILY类型的套接字(sockets),FAMILY可选,支持  unix, inet, inet6, link, netlink

-A, --query=QUERY, --socket=QUERY

      QUERY := {all|inet|tcp|udp|raw|unix|packet|netlink}[,QUERY]

-D, --diag=FILE     将原始TCP套接字(sockets)信息转储到文件

 -F, --filter=FILE   从文件中都去过滤器信息

       FILTER := [ state TCP-STATE ] [ EXPRESSION ]

4.使用实例:

实例1:显示TCP连接

命令:

ss -t -a

输出:



 


[root@localhost ~]# ss -t -a

State      Recv-Q Send-Q                                Local Address:Port                                    Peer Address:Port   

LISTEN     0      0                                         127.0.0.1:smux                                               *:*       

LISTEN     0      0                                                 *:3690                                               *:*       

LISTEN     0      0                                                 *:ssh                                                *:*       

ESTAB      0      0                                   192.168.120.204:ssh                                        10.2.0.68:49368   

[root@localhost ~]# 


 


说明:

实例2:显示 Sockets 摘要

命令:

ss -s

输出:



 


[root@localhost ~]# ss -s

Total: 34 (kernel 48)

TCP:   4 (estab 1, closed 0, orphaned 0, synrecv 0, timewait 0/0), ports 3


Transport Total     IP        IPv6

*         48        -         -        

RAW       0         0         0        

UDP       5         5         0        

TCP       4         4         0        

INET      9         9         0        

FRAG      0         0         0        


[root@localhost ~]# 


 


说明:

列出当前的established, closed, orphaned and waiting TCP sockets

实例3:列出所有打开的网络连接端口

命令:

ss -l

输出:



 


[root@localhost ~]# ss -l

Recv-Q Send-Q                                     Local Address:Port                                         Peer Address:Port   

0      0                                              127.0.0.1:smux                                                    *:*       

0      0                                                      *:3690                                                    *:*       

0      0                                                      *:ssh                                                     *:*       

[root@localhost ~]#  


 


说明:

实例4:查看进程使用的socket

命令:

ss -pl

输出:



 


[root@localhost ~]# ss -pl

Recv-Q Send-Q                                     Local Address:Port                                         Peer Address:Port   

0      0                                              127.0.0.1:smux                                                    *:*        users:(("snmpd",2716,8))

0      0                                                      *:3690                                                    *:*        users:(("svnserve",3590,3))

0      0                                                      *:ssh                                                     *:*        users:(("sshd",2735,3))

[root@localhost ~]#


 


说明:

实例5:找出打开套接字/端口应用程序

命令:

ss -lp | grep 3306

输出:



 


[root@localhost ~]# ss -lp|grep 1935

0      0                            *:1935                          *:*        users:(("fmsedge",2913,18))

0      0                    127.0.0.1:19350                         *:*        users:(("fmsedge",2913,17))

[root@localhost ~]# ss -lp|grep 3306

0      0                            *:3306                          *:*        users:(("mysqld",2871,10))

[root@localhost ~]# 


 


说明:

实例6:显示所有UDP Sockets

命令:

ss -u -a

输出:



 


[root@localhost ~]# ss -u -a

State      Recv-Q Send-Q                                Local Address:Port                                    Peer Address:Port   

UNCONN     0      0                                         127.0.0.1:syslog                                             *:*       

UNCONN     0      0                                                 *:snmp                                               *:*       

ESTAB      0      0                                   192.168.120.203:39641                                  10.58.119.119:domain 

[root@localhost ~]#


 


说明:

实例7:显示所有状态为established的SMTP连接

命令:

ss -o state established '( dport = :smtp or sport = :smtp )' 

输出:



[root@localhost ~]# ss -o state established '( dport = :smtp or sport = :smtp )' 

Recv-Q Send-Q                                     Local Address:Port                                         Peer Address:Port   

[root@localhost ~]#


说明:

实例8:显示所有状态为Established的HTTP连接

命令:

ss -o state established '( dport = :http or sport = :http )' 

输出:



[root@localhost ~]# ss -o state established '( dport = :http or sport = :http )' 

Recv-Q Send-Q                                     Local Address:Port                                         Peer Address:Port   

0      0                                              75.126.153.214:2164                                        192.168.10.42:http    

[root@localhost ~]# 


说明:

实例9:列举出处于 FIN-WAIT-1状态的源端口为 80或者 443,目标网络为 193.233.7/24所有 tcp套接字

命令:

ss -o state fin-wait-1 '( sport = :http or sport = :https )' dst 193.233.7/24

输出:

说明:

实例10:用TCP 状态过滤Sockets:

命令:

ss -4 state FILTER-NAME-HERE 

ss -6 state FILTER-NAME-HERE

输出:


[root@localhost ~]#ss -4 state closing 

Recv-Q Send-Q                                                  Local Address:Port                                                      Peer Address:Port 

1      11094                                                  75.126.153.214:http                                                      192.168.10.42:4669 


说明:

FILTER-NAME-HERE 可以代表以下任何一个:

established

syn-sent

syn-recv

fin-wait-1

fin-wait-2

time-wait

closed

close-wait

last-ack

listen

closing

 

all : 所有以上状态

connected : 除了listen and closed的所有状态

synchronized :所有已连接的状态除了syn-sent

bucket : 显示状态为maintained as minisockets,如:time-wait和syn-recv.

big : 和bucket相反.

实例11:匹配远程地址和端口号

命令:

ss dst ADDRESS_PATTERN

ss dst 192.168.1.5

ss dst 192.168.119.113:http 

ss dst 192.168.119.113:smtp 

ss dst 192.168.119.113:443

输出:



 


[root@localhost ~]# ss dst 192.168.119.113

State      Recv-Q Send-Q                                Local Address:Port                                    Peer Address:Port   

ESTAB      0      0                                   192.168.119.103:16014                                192.168.119.113:20229   

ESTAB      0      0                                   192.168.119.103:16014                                192.168.119.113:61056   

ESTAB      0      0                                   192.168.119.103:16014                                192.168.119.113:61623   

ESTAB      0      0                                   192.168.119.103:16014                                192.168.119.113:60924   

ESTAB      0      0                                   192.168.119.103:16050                                192.168.119.113:43701   

ESTAB      0      0                                   192.168.119.103:16073                                192.168.119.113:32930   

ESTAB      0      0                                   192.168.119.103:16073                                192.168.119.113:49318   

ESTAB      0      0                                   192.168.119.103:16014                                192.168.119.113:3844    

[root@localhost ~]# ss dst 192.168.119.113:http

State      Recv-Q Send-Q                                Local Address:Port                                    Peer Address:Port   

[root@localhost ~]# ss dst 192.168.119.113:3844

State      Recv-Q Send-Q                                Local Address:Port                                    Peer Address:Port   

ESTAB      0      0                                   192.168.119.103:16014                                192.168.119.113:3844    

[root@localhost ~]# 


 


说明:

实例12:匹配本地地址和端口号

命令:

ss src ADDRESS_PATTERN

ss src 192.168.119.103

ss src 192.168.119.103:http

ss src 192.168.119.103:80

ss src 192.168.119.103:smtp

ss src 192.168.119.103:25

输出:



 


[root@localhost ~]# ss src 192.168.119.103:16021

State      Recv-Q Send-Q                                Local Address:Port                                    Peer Address:Port   

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.201:63054   

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.201:62894   

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.201:63055   

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.201:2274    

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.201:44784   

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.201:7233    

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.103:58660   

ESTAB      0      0                                   192.168.119.103:16021                                192.168.119.201:44822   

ESTAB      0      0                                   192.168.119.103:16021                                     10.2.1.206:56737   

ESTAB      0      0                                   192.168.119.103:16021                                     10.2.1.206:57487   

ESTAB      0      0                                   192.168.119.103:16021                                     10.2.1.206:56736   

ESTAB      0      0                                   192.168.119.103:16021                                     10.2.1.206:64652   

ESTAB      0      0                                   192.168.119.103:16021                                     10.2.1.206:56586   

ESTAB      0      0                                   192.168.119.103:16021                                     10.2.1.206:64653   

ESTAB      0      0                                   192.168.119.103:16021                                     10.2.1.206:56587   

[root@localhost ~]# 


 


说明:

实例13:将本地或者远程端口和一个数比较

命令:

ss dport OP PORT 

ss sport OP PORT

输出:



 

[root@localhost ~]# ss  sport = :http 

[root@localhost ~]# ss  dport = :http 

[root@localhost ~]# ss  dport \> :1024 

[root@localhost ~]# ss  sport \> :1024 

[root@localhost ~]# ss sport \< :32000 

[root@localhost ~]# ss  sport eq :22 

[root@localhost ~]# ss  dport != :22 

[root@localhost ~]# ss  state connected sport = :http 

[root@localhost ~]# ss \( sport = :http or sport = :https \) 

[root@localhost ~]# ss -o state fin-wait-1 \( sport = :http or sport = :https \) dst 192.168.1/24

 


说明:

ss dport OP PORT 远程端口和一个数比较;ss sport OP PORT 本地端口和一个数比较。

OP 可以代表以下任意一个: 

<= or le : 小于或等于端口号

>= or ge : 大于或等于端口号

== or eq : 等于端口号

!= or ne : 不等于端口号

< or gt : 小于端口号

> or lt : 大于端口号

实例14:ss 和 netstat 效率对比

命令:

time netstat -at

time ss

输出:



 


[root@localhost ~]# time ss   

real    0m0.739s

user    0m0.019s

sys     0m0.013s

[root@localhost ~]# 

[root@localhost ~]# time netstat -at

real    2m45.907s

user    0m0.063s

sys     0m0.067s

[root@localhost ~]#


 


 

说明:

用time 命令分别获取通过netstat和ss命令获取程序和概要占用资源所使用的时间。在服务器连接数比较多的时候,netstat的效率完全没法和ss比。