- Index
- Preface
- Product Overview
- Command-Line Interfaces
- Configuring the Switch for the First Time
- Configuring Interfaces
- Checking Port Status and Connectivity
- Configuring Supervisor Engine Redundancy using RPR and SSO
- Managing a Network of Switches
- Understanding and Configuring VLANs
- Configuring Dynamic VLAN Membership
- Configuring Layer 2 Ethernet Interfaces
- Configuring SmartPort Macros
- Understanding and Configuring STP
- Configuring STP Features
- Understanding and Configuring Multiple Spanning Trees
- Understanding and Configuring EtherChannel
- Configuring IGMP Snooping and Filtering
- Configuring 802.1Q and Layer 2 Protocol Tunneling
- Understanding and Configuring CDP
- Configuring UDLD
- Configuring Unidirectional Ethernet
- Configuring Layer 3 Interfaces
- Configuring Cisco Express Forwarding
- Understanding and Configuring IP Multicast
- Configuring Policy-Based Routing
- Understanding and Configuring VTP
- Configuring VRF-lite
- Configuring QoS
- Configuring Voice Interfaces
- Understanding and Configuring 802.1X Port-Based Authentication
- Configuring Port Security
- Configuring DHCP Snooping and IP Source Guard
- Understanding and Configuring Dynamic ARP Inspection
- Configuring Network Security with ACLs
- Configuring Private VLANs
- Port Unicast and Multicast Flood Blocking
- Configuring Port-Based Traffic Control
- Environment Monitoring and Power Management
- Configuring SPAN and RSPAN
- Configuring NetFlow Statistics Collection
- Acronyms
Configuring Port-Based Traffic Control
This chapter describes how to configure port-based traffic control on the Catalyst 4500 series switch.
Note 
For complete syntax and usage information for the switch commands used in this chapter, first look at the Cisco Catalyst 4500 Series Switch Command Reference and related publications at this location:
http://www.cisco.com/en/US/products//hw/switches/ps4324/index.html
If the command is not found in the Catalyst 4500 Command Reference, it will be found in the larger Cisco IOS library. Refer to the Catalyst 4500 Series Switch Cisco IOS Command Reference and related publications at this location:
http://www.cisco.com/en/US/products/ps6350/index.html
This chapter consists of these sections:
Overview of Storm Control
This section contains the following subsections:
•Hardware-based Storm Control Implementation
•Software-based Storm Control Implementation
Storm control prevents LAN interfaces from being disrupted by a broadcast storm. A broadcast storm occurs when broadcast packets flood the subnet, creating excessive traffic and degrading network performance. Errors in the protocol-stack implementation or in the network configuration can cause a broadcast storm.
Note Storm control is supported in hardware on all ports on the WS-X4516 supervisor engine. In contrast, the supervisor engines WS-X4515, WS-X4014, and WS-X4013+ support storm control in hardware on non-blocking gigabit ports and in software on all other ports, implying that the counters for these interfaces are approximate and computed. Multicast storm control is only supported on the WS-X4516 supervisor engine.
Hardware-based Storm Control Implementation
Broadcast suppression uses filtering that measures broadcast activity in a subnet over a one-second interval and compares the measurement with a predefined threshold. If the threshold is reached, further broadcast activity is suppressed for the duration of the interval. Broadcast suppression is disabled by default.
Figure 36-1 shows the broadcast traffic patterns on a LAN interface over a given interval. In this example, broadcast suppression occurs between times T1 and T2 and between T4 and T5. During those intervals, the amount of broadcast traffic exceeded the configured threshold.
Figure 36-1 Storm Control Example - Hardware-based Implementation
The broadcast suppression threshold numbers and the time interval combination make the broadcast suppression algorithm work with different levels of granularity. A higher threshold allows more broadcast packets to pass through.
Broadcast suppression on the Catalyst 4500 series switches is implemented in hardware. The suppression circuitry monitors packets passing from a LAN interface to the switching bus. If the packet destination address is broadcast, then the broadcast suppression circuitry tracks the current count of broadcasts within the one-second interval, and when a threshold is reached, it filters out subsequent broadcast packets.
Because hardware broadcast suppression uses a bandwidth-based method to measure broadcast activity, the most significant implementation factor is setting the percentage of total available bandwidth that can be used by broadcast traffic. Because packets do not arrive at uniform intervals, the one-second interval during which broadcast activity is measured can affect the behavior of broadcast suppression.
Software-based Storm Control Implementation
When storm control is enabled on an interface, the switch monitors packets received on the interface and determines whether or not the packets are broadcast. The switch monitors the number of broadcast packets received within a one-second time interval. When the interface threshold is met, all incoming data traffic on the interface is dropped. This threshold is specified as a percentage of total available bandwidth that can be used by broadcast traffic. If the lower threshold is specified, all data traffic is forwarded as soon as the incoming traffic falls below that threshold.
Enabling Storm Control
To enable storm control, perform this task:
The following example shows how to enable storm control on interface.
Switch# conf t
Enter configuration commands, one per line. End with CNTL/Z.
Switch(config)# int fa3/1
Switch(config-if)# storm-control broadcast level 50
Switch(config-if)# end
Switch# write memory
Building configuration...
00:11:06: %SYS-5-CONFIG_I: Configured from console by consoleCompressed configuration from 5394 bytes to 1623 bytes[OK]
Switch#sh stor
Switch#sh storm-control
Interface Filter State Upper Lower Current
--------- ------------- ------- ------- -------
Fa3/1 Forwarding 50.00% 50.00% 0.00%
Switch#
Disabling Storm Control
To disable storm control, perform this task:
The following example shows how to disable storm control on interface.
Switch# conf t
Enter configuration commands, one per line. End with CNTL/Z.
Switch(config)#int fa3/1
Switch(config-if)# no storm-control broadcast level
Switch(config-if)# end
Switch# wr
Building configuration...
00:12:09: %SYS-5-CONFIG_I: Configured from console by consoleCompressed configuration from 5357 bytes to 1594 bytes[OK]
Switch# sh sto
Switch# sh storm-control
Interface Filter State Upper Lower Current
--------- ------------- ------- ------- -------
Switch#
Displaying Storm Control
Note Use the show interface capabilities command to determine the mode in which storm control is supported on an interface.
The following example shows an interface that supports broadcast suppression in software (sw).
Switch# show interfaces g4/4 capabilities
show interfaces g4/4 capabilities
GigabitEthernet4/4
Model: WS-X4418-Gbic
Type: 1000BaseSX
Speed: 1000
Duplex: full
Trunk encap. type: 802.1Q
Trunk mode: on,off,desirable,nonegotiate
Channel: yes
Broadcast suppression: percentage(0-100), sw
Flowcontrol: rx-(off,on,desired),tx-(off,on,desired)
VLAN Membership: static, dynamic
Fast Start: yes
Queuing: rx-(N/A), tx-(4q1t, Shaping)
CoS rewrite: yes
ToS rewrite: yes
Inline power: no
SPAN: source/destination
UDLD: yes
Link Debounce: no
Link Debounce Time: no
Port Security: yes
Dot1x: yes
Maximum MTU: 1552 bytes (Baby Giants)
Media Type: no
Switch#
The following example shows an interface that supports broadcast suppression in hardware (hw).
Switch# show interfaces g4/1 capabilities
show interfaces g4/1 capabilities
GigabitEthernet4/1
Model: WS-X4418-Gbic
Type: No Gbic
Speed: 1000
Duplex: full
Trunk encap. type: 802.1Q,ISL
Trunk mode: on,off,desirable,nonegotiate
Channel: yes
Broadcast suppression: percentage(0-100), hw
Flowcontrol: rx-(off,on,desired),tx-(off,on,desired)
VLAN Membership: static, dynamic
Fast Start: yes
Queuing: rx-(N/A), tx-(4q1t, Sharing/Shaping)
CoS rewrite: yes
ToS rewrite: yes
Inline power: no
SPAN: source/destination
UDLD: yes
Link Debounce: no
Link Debounce Time: no
Port Security: yes
Dot1x: yes
Maximum MTU: 1552 bytes (Baby Giants)
Media Type: no
Switch#
Note Use the show interfaces counters storm-control command to display a count of discarded packets.
Switch# show interfaces counters storm-control
Port BcastSuppLevel TotalSuppressedPackets
Gi4/4 2.00% 0
Switch#
Note Use the show storm-control command to display the configured thresholds and status of storm on an interface.
Switch# show storm-control
Interface Filter State Upper Lower Current
--------- ------------- ------- ------- -------
Gi4/4 Forwarding 2.00% 2.00% N/A
Switch
Note In the example shown above, "current" represents the percentage of traffic suppressed at a given instant, and the value is N/A for ports that perform suppression in hardware.
Multicast Storm Control
When a large amount of broadcast (and/or multicast) packets congest a network, the event is referred to as a broadcast storm. A LAN broadcast storm affects network performance and could paralyze the whole network.
Note Multicast storm control is only available on WS-X4016 supervisors; only a hardware-based solution is provided.
Multicast Suppression on the WS-X4516 Supervisor Engine
Multicast suppression can be enabled on a WS-X4516 supervisor engine for all ports that have storm control enabled. Multicast suppression applies to all ports that have broadcast suppression configured on them. It also applies to ports that will be configured for broadcast storm-control in the future; you cannot suppress multicast traffic only. Beginning in Release 12.2(18)EW, the counters displayed with the show interface counters storm-control command will include any multicast packets that were dropped.
You cannot provide separate thresholds for broadcast and/or multicast traffic. The threshold you configure for broadcast suppression applies to both the incoming multicast traffic and broadcast traffic. Moreover, the configuration is common and must be set for each interface.
To enable multicast suppression, perform this task:
The following example shows how to enable multicast suppression on ports that have broadcast suppression already enabled:
Switch# configuration terminal
Enter configuration commands, one per line. End with CNTL/Z.
Switch(config)# interface fa3/1
Switch(config-if)# storm-control broadcast include multicast
Switch(config-if)# end
Switch#
Multicast Suppression on the WS-X4515, WS-X4014, and WS-X4013+ Supervisor Engines
Hardware does not provide support for multicast suppression on the WS-X4515, WS-X4014, and WS-X4013+ supervisor engines. One consequence of using software-based broadcast suppression on these modules is that all incoming data packets are dropped. Irrespective of your selecting to configure broadcast suppression only, multicast packets are filtered as well on stub and blocking gigabit ports. The non blocking gigabit ports that do provide broadcast suppression in hardware also do not filter multicast packets.
Feedback