Switch Port Security, a required topic for the Cisco CCNA exam, there are hands-on examples on how to configure static and dynamic port security.
An unsecured switch port allows an attacker to attach a device to it and use it to attacks and information gathering. Leaving an unused port unsecured must be avoided in real life. You definitely don’t want an authorized person to get sensitive information, such as usernames, passwords, credit cards or even the configuration of your devices, from your network. Therefore, before you deploy your switch in the production environment, make sure you took all the security measures.
Switch port security limits the number of valid MAC addresses allowed on a port. When a MAC address, or a group of MAC addresses are configured to enable switch port security, the switch will forward packets only to the devices using those MAC addresses. Any packet coming from other device is discarded by the switch as soon as it arrives on the switch port.
If you limit the number of allowed MAC addresses allowed on a port to only one MAC address, only one device will be able to connect to that port and will get the full bandwidth of the port.
If the maximum number of secure MAC addresses has been reached, a security violation occurs when a devices with a different MAC addresses tries to attach to that port. In most of today’s scenarios when the switch detects a security violation, the switch automatically shuts down that port. A switch can be configured to only protect or restrict that port. We will discuss theses security violation modes a little bit later.
Secure MAC addresses are of three types:
- Static secure MAC addresses – configured manually with switchport port-security mac-address mac-address. These MAC addresses are stored in the address table and in the running configuration of the switch.
- Dynamic secure MAC addresses – are dynamically learned by the switch and stored in its MAC address table. They are removed from the configuration when the switch restarts.
- Sticky secure MAC addresses – like Dynamic secure MAC addresses, MACs are learned dynamically but are saved in the running configuration.
Sticky secure MAC addresses have these characteristics:
- Are learned dynamically then converted to sticky secure MAC addresses and stored in the running configuration.
- When you disable the sticky learning, the learned addresses remain part of the MAC address table but are removed from the configuration.
- When you disable port security, the sticky secure MAC addresses remain in the running configuration.
- If you save the addresses in the configuration file, when a restarts or the interface shuts down, the switch does not need to relearn the addresses.
In a Cisco switch, you are able to configuration three types of security violation modes. A security violation occurs when the maximum number of MAC addresses has been reached and a new device, whose MAC address is not in the address table attempts to connect to the interface or when a learned MAC address on an interface is seen on another secure interface in the same VLAN.
Depending on the action you want a switch to take when a security violation occurs, you can configure the behavior of a switch port to one of the following:
- protect – when the maximum number of secure MAC addresses has been reached, packets from devices with unknown source addresses are dropped until you remove the necessary number of secure MAC addresses from the table. In this mode, you are not notified when a security violation occurs.
- restrict – is identical with protect mode, but notifies you when a security violation occurs. Specifically, a SNMP trap is sent, a syslog message is logged and the violation counter increments.
- shutdown – this is the default behavior on a switch. In this mode, the switch ports shuts down when the violation occurs. Also, a SNMP trap is sent and the message is logged. You can enable the port again with the no shutdown interface configuration command.
The default configuration of a Cisco switch has port security disabled. If you enable switch port security, the default behavior is to allow only 1 MAC address, shutdown the port in case of security violation and sticky address learning is disabled.
Next, we will enable dynamic port security on a switch.
Switch(config)#interface FastEthernet 0/1
Switch(config-if)#switchport mode access
Switch(config-if)#switchport port-security
As you can see, we did not specify an action to be taken if a security violation occurs, neither how many MAC addresses are allowed on the port. Recalling from above, the default behavior is to shut down the port and allow only one MAC address.
Let’s now configure a sticky port security, to allow 10 MAC addresses on the interface. If a violation occurs, you want the port to be configured in restrict mode.
Switch(config)#interface FastEthernet 0/1
Switch(config-if)#switchport mode access
Switch(config-if)#switchport port-security
Switch(config)if)#switchport port-security maximum 10
Switch(config-if)#switchport port-security mac-address sticky
Switch(config-if)#switchport port-security violation restrict
Good. After you have configured port security in the desired mode on a switch, it’s time to verify the configuration and the learned MAC addresses with the show port-security interface interface-id and with show port-security address.
Switch#show port-security interface FastEthernet 0/1
Port Security: Enabled
Port Status: Secure-down
Violation Mode: Shutdown
Aging Time: 0 mins
Aging Type: Absolute
SecureStatic Address Aging: Disabled
Maximum MAC Addresses: 1
Total MAC Addresses: 1
Configured MAC Addresses: 0
Sticky MAC Addresses: 0
Last Source Address: Vlan : 0000.0000.0000:0
Security Violation Count: 0
Switch#show port-security address
Secure Mac Address Table
——————————————————————-
Vlan Mac Address Type Ports Remaining Age
(mins)
—- ———– —- —– ————-
11 0050.BAA6.0001 SecureDynamic Fa0/1 –
——————————————————————-
Total Addresses in System: 0
Max Addresses limit in System: 8320
Now, you may wonder what to do with an unused interface. Securing an unused interface is important too and it’s much simpler. The only thing you have to do is to put all unused interfaces in shutdown state with the shutdown interface configuration command.
Switch(config)#interface FastEthernet 0/2
Switch(config-if)#shutdown
In this CCNA certification topic we have covered Switch Port Security. Knowing what switch port security is and how to implement it is important. Not only you may encounter questions about this topic when you take the Cisco CCNA certification exam, but you will see switches configured with port security in almost all real-life environments. Companies and service providers are using port security to prevent attacks and unauthorized access to their networks. We hope you found this article helpful in your preparation for the CCNA exam, as well as for your day to day activities.