Demonstrations of tcplife, the Linux BPF/bcc version. tcplife summarizes TCP sessions that open and close while tracing. For example: # ./tcplife PID COMM LADDR LPORT RADDR RPORT TX_KB RX_KB MS 22597 recordProg 127.0.0.1 46644 127.0.0.1 28527 0 0 0.23 3277 redis-serv 127.0.0.1 28527 127.0.0.1 46644 0 0 0.28 22598 curl 100.66.3.172 61620 52.205.89.26 80 0 1 91.79 22604 curl 100.66.3.172 44400 52.204.43.121 80 0 1 121.38 22624 recordProg 127.0.0.1 46648 127.0.0.1 28527 0 0 0.22 3277 redis-serv 127.0.0.1 28527 127.0.0.1 46648 0 0 0.27 22647 recordProg 127.0.0.1 46650 127.0.0.1 28527 0 0 0.21 3277 redis-serv 127.0.0.1 28527 127.0.0.1 46650 0 0 0.26 [...] This caught a program, "recordProg" making a few short-lived TCP connections to "redis-serv", lasting about 0.25 milliseconds each connection. A couple of "curl" sessions were also traced, connecting to port 80, and lasting 91 and 121 milliseconds. This tool is useful for workload characterisation and flow accounting: identifying what connections are happening, with the bytes transferred. Process names are truncated to 10 characters. By using the wide option, -w, the column width becomes 16 characters. The IP address columns are also wider to fit IPv6 addresses: # ./tcplife -w PID COMM IP LADDR LPORT RADDR RPORT TX_KB RX_KB MS 26315 recordProgramSt 4 127.0.0.1 44188 127.0.0.1 28527 0 0 0.21 3277 redis-server 4 127.0.0.1 28527 127.0.0.1 44188 0 0 0.26 26320 ssh 6 fe80::8a3:9dff:fed5:6b19 22440 fe80::8a3:9dff:fed5:6b19 22 1 1 457.52 26321 sshd 6 fe80::8a3:9dff:fed5:6b19 22 fe80::8a3:9dff:fed5:6b19 22440 1 1 458.69 26341 recordProgramSt 4 127.0.0.1 44192 127.0.0.1 28527 0 0 0.27 3277 redis-server 4 127.0.0.1 28527 127.0.0.1 44192 0 0 0.32 In this example, I uploaded a 10 Mbyte file to the server, and then downloaded it again, using scp: # ./tcplife PID COMM LADDR LPORT RADDR RPORT TX_KB RX_KB MS 7715 recordProg 127.0.0.1 50894 127.0.0.1 28527 0 0 0.25 3277 redis-serv 127.0.0.1 28527 127.0.0.1 50894 0 0 0.30 7619 sshd 100.66.3.172 22 100.127.64.230 63033 5 10255 3066.79 7770 recordProg 127.0.0.1 50896 127.0.0.1 28527 0 0 0.20 3277 redis-serv 127.0.0.1 28527 127.0.0.1 50896 0 0 0.24 7793 recordProg 127.0.0.1 50898 127.0.0.1 28527 0 0 0.23 3277 redis-serv 127.0.0.1 28527 127.0.0.1 50898 0 0 0.27 7847 recordProg 127.0.0.1 50900 127.0.0.1 28527 0 0 0.24 3277 redis-serv 127.0.0.1 28527 127.0.0.1 50900 0 0 0.29 7870 recordProg 127.0.0.1 50902 127.0.0.1 28527 0 0 0.29 3277 redis-serv 127.0.0.1 28527 127.0.0.1 50902 0 0 0.30 7798 sshd 100.66.3.172 22 100.127.64.230 64925 10265 6 2176.15 [...] You can see the 10 Mbytes received by sshd, and then later transmitted. Looks like receive was slower (3.07 seconds) than transmit (2.18 seconds). Timestamps can be added with -t: # ./tcplife -t TIME(s) PID COMM LADDR LPORT RADDR RPORT TX_KB RX_KB MS 0.000000 5973 recordProg 127.0.0.1 47986 127.0.0.1 28527 0 0 0.25 0.000059 3277 redis-serv 127.0.0.1 28527 127.0.0.1 47986 0 0 0.29 1.022454 5996 recordProg 127.0.0.1 47988 127.0.0.1 28527 0 0 0.23 1.022513 3277 redis-serv 127.0.0.1 28527 127.0.0.1 47988 0 0 0.27 2.044868 6019 recordProg 127.0.0.1 47990 127.0.0.1 28527 0 0 0.24 2.044924 3277 redis-serv 127.0.0.1 28527 127.0.0.1 47990 0 0 0.28 3.069136 6042 recordProg 127.0.0.1 47992 127.0.0.1 28527 0 0 0.22 3.069204 3277 redis-serv 127.0.0.1 28527 127.0.0.1 47992 0 0 0.28 This shows that the recordProg process was connecting once per second. There's also a -T for HH:MM:SS formatted times. There's a comma separated values mode, -s. Here it is with both -t and -T timestamps: # ./tcplife -stT TIME,TIME(s),PID,COMM,IP,LADDR,LPORT,RADDR,RPORT,TX_KB,RX_KB,MS 23:39:38,0.000000,7335,recordProgramSt,4,127.0.0.1,48098,127.0.0.1,28527,0,0,0.26 23:39:38,0.000064,3277,redis-server,4,127.0.0.1,28527,127.0.0.1,48098,0,0,0.32 23:39:39,1.025078,7358,recordProgramSt,4,127.0.0.1,48100,127.0.0.1,28527,0,0,0.25 23:39:39,1.025141,3277,redis-server,4,127.0.0.1,28527,127.0.0.1,48100,0,0,0.30 23:39:41,2.040949,7381,recordProgramSt,4,127.0.0.1,48102,127.0.0.1,28527,0,0,0.24 23:39:41,2.041011,3277,redis-server,4,127.0.0.1,28527,127.0.0.1,48102,0,0,0.29 23:39:42,3.067848,7404,recordProgramSt,4,127.0.0.1,48104,127.0.0.1,28527,0,0,0.30 23:39:42,3.067914,3277,redis-server,4,127.0.0.1,28527,127.0.0.1,48104,0,0,0.35 [...] There are options for filtering on local and remote ports. Here is filtering on local ports 22 and 80: # ./tcplife.py -L 22,80 PID COMM LADDR LPORT RADDR RPORT TX_KB RX_KB MS 8301 sshd 100.66.3.172 22 100.127.64.230 58671 3 3 1448.52 [...] USAGE: # ./tcplife.py -h usage: tcplife.py [-h] [-T] [-t] [-w] [-s] [-p PID] [-L LOCALPORT] [-D REMOTEPORT] Trace the lifespan of TCP sessions and summarize optional arguments: -h, --help show this help message and exit -T, --time include time column on output (HH:MM:SS) -t, --timestamp include timestamp on output (seconds) -w, --wide wide column output (fits IPv6 addresses) -s, --csv comma separated values output -p PID, --pid PID trace this PID only -L LOCALPORT, --localport LOCALPORT comma-separated list of local ports to trace. -D REMOTEPORT, --remoteport REMOTEPORT comma-separated list of remote ports to trace. examples: ./tcplife # trace all TCP connect()s ./tcplife -t # include time column (HH:MM:SS) ./tcplife -w # wider columns (fit IPv6) ./tcplife -stT # csv output, with times & timestamps ./tcplife -p 181 # only trace PID 181 ./tcplife -L 80 # only trace local port 80 ./tcplife -L 80,81 # only trace local ports 80 and 81 ./tcplife -D 80 # only trace remote port 80