-a displays all active connections (TCP/UDP)
-b displays the executable that opened the port
netstat (network statistics) is a command-line tool that displays network connections for the Transmission Control Protocol (both incoming and outgoing), routing tables, and a number of network interface (network interface controller or software-defined network interface) and network protocol statistics.
netstat [-a] [-b] [-e] [-f] [-n] [-o] [-p protocol] [-r] [-s] [-t] [-x] [-y] [time_interval] [/?]
When you invoke netstat with the –r flag, it displays the kernel routing table in the way we’ve been doing with route. On vstout, it produces:
# netstat -nr Kernel IP routing table Destination Gateway Genmask Flags MSS Window irtt Iface 127.0.0.1 * 255.255.255.255 UH 0 0 0 lo 172.16.1.0 * 255.255.255.0 U 0 0 0 eth0 172.16.2.0 172.16.1.1 255.255.255.0 UG 0 0 0 eth0
The –n option makes netstat print addresses as dotted quad IP numbers rather than the symbolic host and network names. This option is especially useful when you want to avoid address lookups over the network (e.g., to a DNS or NIS server).
The second column of netstat ’s output shows the gateway to which the routing entry points. If no gateway is used, an asterisk is printed instead. The third column shows the “generality” of the route, i.e., the network mask for this route. When given an IP address to find a suitable route for, the kernel steps through each of the routing table entries, taking the bitwise AND of the address and the genmask before comparing it to the target of the route.
The fourth column displays the following flags that describe the route:
- The route uses a gateway.
- The interface to be used is up.
- Only a single host can be reached through the route. For example, this is the case for the loopback entry 127.0.0.1.
- This route is dynamically created. It is set if the table entry has been generated by a routing daemon like gated or by an ICMP redirect message (see the section Section 2.5” in Chapter 2).
- This route is set if the table entry was modified by an ICMP redirect message.
- The route is a reject route and datagrams will be dropped.
The next three columns show the MSS, Window and irtt that will be applied to TCP connections established via this route. The MSS is the Maximum Segment Size and is the size of the largest datagram the kernel will construct for transmission via this route. The Window is the maximum amount of data the system will accept in a single burst from a remote host. The acronym irtt stands for “initial round trip time.” The TCP protocol ensures that data is reliably delivered between hosts by retransmitting a datagram if it has been lost. The TCP protocol keeps a running count of how long it takes for a datagram to be delivered to the remote end, and an acknowledgement to be received so that it knows how long to wait before assuming a datagram needs to retransmitted; this process is called the round-trip time. The initial round-trip time is the value that the TCP protocol will use when a connection is first established. For most network types, the default value is okay, but for some slow networks, notably certain types of amateur packet radio networks, the time is too short and causes unnecessary retransmission. The irtt value can be set using the route command. Values of zero in these fields mean that the default is being used.
Finally, the last field displays the network interface that this route will use.
When invoked with the –i flag, netstat displays statistics for the network interfaces currently configured. If the –a option is also given, it prints all interfaces present in the kernel, not only those that have been configured currently. On vstout, the output from netstat will look like this:
# netstat -i Kernel Interface table Iface MTU Met RX-OK RX-ERR RX-DRP RX-OVR TX-OK TX-ERR TX-DRP TX-OVR Flags lo 0 0 3185 0 0 0 3185 0 0 0 BLRU eth0 1500 0 972633 17 20 120 628711 217 0 0 BRU
The MTU and Met fields show the current MTU and metric values for that interface. The RX and TX columns show how many packets have been received or transmitted error-free (RX-OK/TX-OK) or damaged (RX-ERR/TX-ERR); how many were dropped (RX-DRP/TX-DRP); and how many were lost because of an overrun (RX-OVR/TX-OVR).
The last column shows the flags that have been set for this interface. These characters are one-character versions of the long flag names that are printed when you display the interface configuration with ifconfig:
- A broadcast address has been set.
- This interface is a loopback device.
- All packets are received (promiscuous mode).
- ARP is turned off for this interface.
- This is a point-to-point connection.
- Interface is running.
- Interface is up.
netstat supports a set of options to display active or passive sockets. The options –t, –u, –w, and –x show active TCP, UDP, RAW, or Unix socket connections. If you provide the –a flag in addition, sockets that are waiting for a connection (i.e., listening) are displayed as well. This display will give you a list of all servers that are currently running on your system.
Invoking netstat -ta on vlager produces this output:
$ netstat -ta Active Internet Connections Proto Recv-Q Send-Q Local Address Foreign Address (State) tcp 0 0 *:domain *:* LISTEN tcp 0 0 *:time *:* LISTEN tcp 0 0 *:smtp *:* LISTEN tcp 0 0 vlager:smtp vstout:1040 ESTABLISHED tcp 0 0 *:telnet *:* LISTEN tcp 0 0 localhost:1046 vbardolino:telnet ESTABLISHED tcp 0 0 *:chargen *:* LISTEN tcp 0 0 *:daytime *:* LISTEN tcp 0 0 *:discard *:* LISTEN tcp 0 0 *:echo *:* LISTEN tcp 0 0 *:shell *:* LISTEN tcp 0 0 *:login *:* LISTEN
This output shows most servers simply waiting for an incoming connection. However, the fourth line shows an incoming SMTP connection from vstout, and the sixth line tells you there is an outgoing telnetconnection to vbardolino.
Using the –a flag by itself will display all sockets from all families.