Configuring Private VLANs

This chapter describes how to implement private VLANs (PVLANs) on Catalyst 4500 series switches. It also provides restrictions, procedures, and configuration examples.

This chapter includes the following major sections:

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Noteblank.gif For complete syntax and usage information for the switch commands used in this chapter, see 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 a command is not in the Catalyst 4500 Series Switch Command Reference, you can locate it in the Cisco IOS library. See related publications at this location:
http://www.cisco.com/en/US/products/ps6350/index.html


About Private VLANs

The private VLAN (PVLAN) feature addresses two problems that service providers face when using VLANs:

  • The switch supports up to 4094 active VLANs. If a service provider assigns one VLAN per customer, this limits the numbers of customers the service provider can support.
  • To enable IP routing, each VLAN is assigned a subnet address space or a block of addresses, which can result in wasting the unused IP addresses, and cause IP address management problems.

To configure PVLANs, you need to understand the concepts in these sections:

Purpose of a PVLAN

Using PVLANs provides scalability and IP address management benefits for service providers and Layer 2 security for customers. PVLANs partition a regular VLAN domain into subdomains. A subdomain is represented by a pair of VLANs: a primary VLAN and a secondary VLAN. A PVLAN can have multiple VLAN pairs, one pair for each subdomain. All VLAN pairs in a PVLAN share the same primary VLAN. The secondary VLAN ID differentiates one subdomain from another. See Figure 44-1.

Figure 44-1 Private-VLAN Domain

 

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The three types of secondary VLANs are as follows:

  • Isolated VLANs—Ports within an isolated VLAN cannot communicate with each other at the Layer 2 level.
  • Community VLANs—Ports within a community VLAN can communicate with each other but cannot communicate with ports in other communities at the Layer 2 level.
  • Twoway-Community VLANs—Bidirectional VLAN. Ports within a twoway-community VLAN can communicate with each other but not with communities or twoway-communities at the Layer 2 level.
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Noteblank.gif Beginning with Cisco IOS Release 15.0(2)SG, you can use a twoway-community VLAN to apply VACLs or QoS in both directions per-community and per-customer.


A promiscuous port can serve only one primary VLAN, one isolated VLAN, and multiple community (or twoway-community) VLANs. Layer 3 gateways are typically connected to the switch through a promiscuous port.

In a switched environment, you can assign an individual PVLAN and associated IP subnet to each individual or common group of end stations. The end stations need to communicate only with a default gateway to communicate outside the PVLAN.

You can use PVLANs to control access to end stations in these ways:

  • Configure selected interfaces connected to end stations as isolated ports to prevent any communication at Layer 2. For example, if the end stations are servers, this configuration prevents Layer 2 communication between the servers.
  • Configure interfaces connected to default gateways and selected end stations (such as, backup servers) as promiscuous ports to allow all end stations access to a default gateway.
  • Reduce VLAN and IP subnet consumption; you can prevent traffic between end stations even though they are in the same VLAN and IP subnet.

With a promiscuous port, you can connect a wide range of devices as access points to a PVLAN. For example, you can connect a promiscuous port to the server port of a LocalDirector to connect an isolated VLAN or a number of community (or twoway-community) VLANs to the server. LocalDirector can load balance the servers present in the isolated, community, or twoway-community VLANs, or you can use a promiscuous port to monitor or back up all the PVLAN servers from an administration workstation.

PVLAN Terminology

The following table defines the key terms used in this chapter:

 

Term
Definition

PVLANs

PVLANs are sets of VLAN pairs that share a common primary identifier and provide a mechanism for achieving layer-2 separation between ports while sharing a single layer-3 router port and IP subnet.

Secondary VLAN

A type of VLAN used to implement PVLANs. Secondary VLANs are associated with a primary VLAN, and are used to carry traffic from hosts to other allowed hosts or to routers.

Community Port

A community port is a host port that belongs to a community secondary VLAN. Community ports communicate with other ports in the same community VLAN and with promiscuous ports. These interfaces are isolated at Layer 2 from all other interfaces in other communities and from isolated ports within their PVLAN.

Community VLAN

Community VLAN—A community VLAN is a secondary VLAN that carries upstream traffic from the community ports to the promiscuous port gateways and to other host ports in the same community. You can configure multiple community VLANs in a PVLAN.

Isolated Port

An isolated port is a host port that belongs to an isolated secondary VLAN. It has complete Layer 2 separation from other ports within the same PVLAN, except for the promiscuous ports. PVLANs block all traffic to isolated ports except traffic from promiscuous ports. Traffic received from an isolated port is forwarded only to promiscuous ports.

Isolated VLAN

Isolated VLAN —A PVLAN has only one isolated VLAN. An isolated VLAN is a secondary VLAN that carries unidirectional traffic upstream from the hosts toward the promiscuous ports and the gateway.

Primary VLAN

Primary VLAN—A PVLAN has only one primary VLAN. Every port in a PVLAN is a member of the primary VLAN. The primary VLAN carries unidirectional traffic downstream from the promiscuous ports to the (isolated and community) host ports and to other promiscuous ports.

PVLAN Trunk Port

A PVLAN trunk port can carry multiple secondary (isolated only) and non-PVLANs. Packets are received and transmitted with secondary or regular VLAN tags on the PVLAN trunk ports.

Note Only IEEE 802.1q encapsulation is supported.

Promiscuous Port

A promiscuous port belongs to the primary VLAN and can communicate with all interfaces, including the community and isolated host ports and PVLAN trunk ports that belong to the secondary VLANs associated with the primary VLAN.

Promiscuous Trunk Port

A promiscuous trunk port can carry multiple primary and normal VLANs. Packets are received and transmitted with primary or regular VLAN tags. Other than that, the port behaves just like a promiscuous access port.

Note Only IEEE 802.1q encapsulation is supported.

Twoway-Community Ports

A twoway-community port is a host port that belongs to a twoway-community secondary VLAN. Ports within a twoway-community VLAN can communicate with each other but not with ports in other communities or twoway-communities at the Layer 2 level.

These interfaces are isolated at Layer 2 from all other interfaces in other twoway communities and from isolated ports within their PVLAN.

Twoway-Community VLANs

A bidirectional VLAN. Ports within a 2-way community VLAN can communicate with each other but cannot communicate with ports in other 2-way communities at the Layer 2 level.

PVLANs across Multiple Switches

This section discusses the following topics:

Standard Trunk Ports

As with regular VLANs, PVLANs can span multiple switches. A trunk port carries the primary VLAN and secondary VLANs to a neighboring switch. The trunk port treats the PVLAN as any other VLAN. A feature of PVLANs across multiple switches is that traffic from an isolated port in switch A does not reach an isolated port on Switch B. See Figure 44-2.

To maintain the security of your private-VLAN configuration and to avoid other use of the VLANs configured as PVLANs, configure PVLANs on all intermediate devices, including devices that have no private-VLAN ports.

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Noteblank.gif Trunk ports carry traffic from regular VLANs and also from primary, isolated, community or twoway community VLANs.


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Noteblank.gif You should use standard trunk ports if both switches undergoing trunking support PVLANs.


Figure 44-2 PVLANs across Switches

 

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Because VTP does not support PVLANs, you must manually configure PVLANs on all switches in the Layer 2 network. If you do not configure the primary and secondary VLAN association in some switches in the network, the Layer 2 databases in these switches are not merged. This can result in unnecessary flooding of private-VLAN traffic on those switches.

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Noteblank.gif PVLANs are supported in VTP v3 under server mode.


Isolated PVLAN Trunk Ports

You would use a isolated PVLAN trunk ports when you would anticipate using PVLAN isolated host ports to carry multiple VLANs, either normal VLANs or for multiple PVLAN domains. This makes it useful for connecting a downstream switch that does not support PVLANs such as Catalyst 2950.

Figure 44-3 Isolated PVLAN Trunk Ports

 

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In this illustration, a Catalyst 4500 switch is being used to connect a downstream switch that does not support PVLANs.

Traffic being sent in the downstream direction towards host1 from the router is received by the
Catalyst 4500 series switch on the promiscuous port and in the primary VLAN (VLAN 10). The packets are then switched out of the isolated PVLAN trunk. Rather that being tagged with the primary VLAN (VLAN 10), they are transmitted with the isolated VLAN’s tag (VLAN 11). In this way, when the packets arrive on the non-PVLAN switch, they can be bridged to the destination hosts’ access port.

Traffic in the upstream direction is sent by host1 to the non-PVLAN switch, arriving in VLAN 11. The packets are then transmitted to the switch tagged with that VLAN’s tag (VLAN 11) over the trunk port. On the switch, VLAN 11 is configured as the isolated VLAN, and the traffic is forwarded as if it came from an isolated host port.

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Noteblank.gif When an isolated trunk is used in this way, Catalyst 4500 series switch provides isolation between the isolated trunk and directly connected hosts (such as host3) but not between hosts connected to the non-PVLAN switch (such as host1 and host2). The non-PVLAN switch must provide isolation between these hosts, using a feature such as protected ports on a Catalyst 2950.


For details on protected ports, see the URL:

http://www.cisco.com/en/US/docs/switches/lan/catalyst2950/software/release/12.1_22_ea11x/configuration/guide/swtrafc.html#wp1158863

Promiscuous PVLAN Trunk Ports

PVLAN promiscuous trunks are used in situations where one would normally use a PVLAN promiscuous host port but where it is necessary to carry multiple VLANs, either normal VLANs or for multiple PVLAN domains. This makes it useful for connecting an upstream router that does not support PVLANs, such as a Cisco 7200.

Figure 44-4 Promiscuous PVLAN Trunk Ports

 

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In Figure 44-4, a Catalyst 4500 series switch connects a PVLAN domain to an upstream router that does not support PVLANs. Traffic being sent upstream by host1 arrives on the switch in the community VLAN (VLAN 12). When this traffic is bridged onto the promiscuous PVLAN trunk towards the router, it is tagged with the primary VLAN (VLAN 10). This way it can be routed using the correct subinterface configured on the router.

Traffic in the downstream direction is received on the promiscuous PVLAN trunk port by the switch in the primary VLAN (VLAN 10), just as if it had been received on a promiscuous host port. It can then be bridged to the destination host as in any PVLAN domain.

PVLAN promiscuous trunks interact with VLAN QoS. Refer to the section “PVLANs and VLAN ACL/QoS” section.

PVLAN Modes Over Gigabit Etherchannel

Beginning with Cisco IOS Release 15.0(2)SG you can configure PVLAN modes over Etherchannel. These new modes are:

  • Host mode - Isolated, Community and 2-way community
  • Promiscuous mode
  • Secondary Isolated trunks
  • Promiscuous trunks

The process of bundling ports has not changed. PVLAN modes are added to already existing modes such as access, trunk, routed, tunneled etc.

Feature interactions include:

  • A primary VLAN can be associated with multiple community and twoway-community VLANs, but only one isolated VLAN.
  • An isolated or community VLAN or 2-way community VLAN can be associated with only one primary VLAN.
  • If you delete a VLAN used in a PVLAN configuration, the PVLAN ports associated with the VLAN become inactive.
  • The default native VLAN for promiscuous trunk port is VLAN 1 (management VLAN). All untagged packets are forwarded in the native VLAN. Either the primary VLANs or a regular VLAN can be configured as the native VLAN.
  • No default native VLAN set exists on an isolated secondary trunks. All untagged packets are dropped, if no native VLAN is configured.
  • Community and twoway-community VLANs cannot be propagated or carried over PVLAN trunks.
  • For IGMP Snooping, IGMP reports are learned on the primary VLAN and the platform decides if packet must be forwarded in the primary or secondary VLANs.

For details on configuring PVLANs over EtherChannel, Refer to the section “Configuring PVLAN over EtherChannel” section.

Private-VLAN Interaction with Other Features

PVLANs have specific interaction with some other features, described in these sections:

For details, see the section “PVLAN Configuration Guidelines and Restrictions” section.

PVLANs and VLAN ACL/QoS

PVLAN ports use primary and secondary VLANs, as follows:

  • A packet received on a PVLAN host port belongs to the secondary VLAN.
  • A packet received on a PVLAN trunk port belongs to the secondary VLAN if the packet is tagged with a secondary VLAN or if the packet is untagged and the native VLAN on the port is a secondary VLAN.

A packet received on a PVLAN host or trunk port and assigned to a secondary VLAN is bridged on the secondary VLAN. Because of this bridging, the secondary VLAN ACL as well as the secondary VLAN QoS (on input direction) apply.

When a packet is transmitted out of a PVLAN host or trunk port, the packet logically belongs to the primary VLAN. This relationship applies even though the packet may be transmitted with the secondary VLAN tagging for PVLAN trunk ports. In this situation, the primary VLAN ACL and the primary VLAN QoS on output apply to the packet.

  • Similarly, a packet received on a PVLAN promiscuous access port belongs to primary VLAN.
  • A packet received on a PVLAN promiscuous trunk port could belong to the primary VLAN or normal VLAN depending on incoming VLAN.

For traffic flowing in normal VLAN on promiscuous trunk ports, normal VLAN ACL and QoS policies apply. For traffic flowing in a PVLAN domain, a packet received on a promiscuous port is bridged in primary VLAN. The primary VLAN ACL and QoS policies apply on input.

For egress traffic on twoway-community host port, the secondary VLAN ACL and secondary VLAN QoS apply to egress unicast routed traffic stemming from the integrated router port.

When a packet is transmitted out of a promiscuous trunk port, the packet could logically belong to secondary VLAN if received from a secondary port, or in primary VLAN if bridged from another promiscuous port. Because we cannot differentiate between both packets, all VLAN QoS policies are ignored on packets egressing promiscuous trunk ports.

PVLANs and Unicast, Broadcast, and Multicast Traffic

In regular VLANs, devices in the same VLAN can communicate with each other at the Layer 2 level, but devices connected to interfaces in different VLANs must communicate at the Layer 3 level. In PVLANs, the promiscuous ports are members of the primary VLAN, while the host ports belong to secondary VLANs. Because the secondary VLAN is associated to the primary VLAN, members of the these VLANs can communicate with each other at the Layer 2 level.

In a regular VLAN, broadcasts are forwarded to all ports in that VLAN. PVLAN broadcast forwarding depends on the port sending the broadcast:

  • An isolated port sends a broadcast only to the promiscuous ports or trunk ports.
  • A community port sends a broadcast to all promiscuous ports, trunk ports, and ports in the same community VLAN.
  • A promiscuous port sends a broadcast to all ports in the PVLAN (other promiscuous ports, trunk ports, isolated ports, and community ports).

Multicast traffic is routed or bridged across private-VLAN boundaries and within a single community VLAN. Multicast traffic is not forwarded between ports in the same isolated VLAN or between ports in different secondary VLANs.

Transmitting Multicast traffic through secondary private VLAN where the multicast source is located is not supported. This might result in software switching of the packets and thereby causing significantly lower forwarding rate and packet loss.

PVLANs and SVIs

In a Layer 3 switch, a switch virtual interface (SVI) represents the Layer 3 interface of a VLAN. Layer 3 devices communicate with a PVLAN only using the primary VLAN and not through secondary VLANs. Configure Layer 3 VLAN interfaces (SVIs) only for primary VLANs. You cannot configure Layer 3 VLAN interfaces for secondary VLANs. SVIs for secondary VLANs are inactive while the VLAN is configured as a secondary VLAN.

  • If you try to configure a VLAN with an active SVI as a secondary VLAN, the configuration is not allowed until you disable the SVI.
  • If you try to create an SVI on a VLAN that is configured as a secondary VLAN and the secondary VLAN is already mapped at Layer 3, the SVI is not created, and an error is returned. If the SVI is not mapped at Layer 3, the SVI is created, but it is automatically shut down.

When the primary VLAN is associated with and mapped to the secondary VLAN, any configuration on the primary VLAN is propagated to the secondary VLAN SVIs. For example, if you assign an IP subnet to the primary VLAN SVI, this subnet is the IP subnet address of the entire PVLAN.

Per-Virtual Port Error-Disable on PVLANs

For PVLANs, per-virtual port error-disable behavior is defined as follows:

  • On a PVLAN promiscuous or promiscuous trunk ports, if a violation occurs on the primary VLAN, it is error-disabled.
  • On a PVLAN host or trunk port, if a violation occurs on the secondary VLAN, the associated primary VLAN is error-disabled.
  • On a standard trunk port that carries both primary and secondary VLANs, if a violation occurs on the primary VLAN, this VLAN and all its associated secondary VLANs are error-disabled. If a violation occurs on a secondary VLAN, the associated primary VLAN and all its associated secondary VLANs are error-disabled.

PVLAN Commands

This table lists the commands most commonly used with PVLANs.

 

Command
Purpose
Location

private-vlan { community | twoway-community | isolated | primary }

Configures a VLAN as a PVLAN.

Configuring a VLAN as a PVLAN

private-vlan association { secondary_vlan_list | add secondary_vlan_list | remove secondary_vlan_list }

Associates the secondary VLAN with the primary VLAN.

The list can contain only one isolated VLAN ID; it can also contain multiple community VLAN IDs.

Associating a Secondary VLAN with a Primary VLAN

show vlan private-vlan [ type ]

Verifies the configuration.

Configuring a VLAN as a PVLAN

Associating a Secondary VLAN with a Primary VLAN

show interface private-vlan mapping

Verifies the configuration.

Permitting Routing of Secondary VLAN Ingress Traffic

switchport mode private-vlan { host | promiscuous | trunk promiscuous | trunk [secondary] }

Configures a Layer 2 interface as a PVLAN port.

Configuring PVLANs

switchport private-vlan mapping [ trunk] primary_vlan_ID { secondary_vlan_list | add secondary_vlan_list | remove secondary_vlan_list }

Maps the PVLAN promiscuous port to a primary VLAN and to selected secondary VLANs.

Configuring a Layer 2 Interface as a PVLAN Promiscuous Port

Configuring a Layer 2 Interface as a Promiscuous PVLAN Trunk Port

Switch(config-if)# switchport private-vlan host-association primary_vlan_ID secondary_vlan_ID

Associates the Layer 2 interface with a PVLAN.

Note You can associate only one primary-secondary VLAN pair to the isolated port.

Configuring a Layer 2 Interface as a PVLAN Host Port

switchport private-vlan association trunk primary_vlan_ID secondary_vlan_ID

Configures association between primary VLANs and secondary VLANs the PVLAN trunk port with a PVLAN.

Note You can configure the isolated trunk port with multiple primary-secondary pair.

Configuring a Layer 2 Interface as an Isolated PVLAN Trunk Port

switchport private-vlan trunk allowed vlan vlan_list all | none | [ add | remove | except ] vlan_atom [, vlan_atom...]

Configures a list of allowed normal VLANs on a PVLAN trunk port.

Configuring a Layer 2 Interface as an Isolated PVLAN Trunk Port

switchport private-vlan trunk native vlan vlan_id

Configures a VLAN to which untagged packets (as in IEEE 802.1Q tagging) are assigned on a PVLAN trunk port.

Configuring a Layer 2 Interface as an Isolated PVLAN Trunk Port

Configuring PVLANs

These sections describe how to configure PVLANs:

Basic PVLAN Configuration Procedure

To configure a PVLAN, follow these basic steps:


Step 1blank.gif Set VTP mode to transparent. See the “VLAN Trunking Protocol” section.

Step 2blank.gif Create the secondary VLANs. See the “Configuring a VLAN as a PVLAN” section.

Step 3blank.gif Create the primary VLAN. See the “Configuring a VLAN as a PVLAN” section.

Step 4blank.gif Associate the secondary VLAN to the primary VLAN. See the “Associating a Secondary VLAN with a Primary VLAN” section.

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Noteblank.gif Only one isolated VLAN can be mapped to a primary VLAN, but more than one community (or twoway-community) VLAN can be mapped to a primary VLAN.


Step 5blank.gif Configure an interface as an isolated or community host or trunk port. See the “Configuring a Layer 2 Interface as a PVLAN Host Port” section and “Configuring a Layer 2 Interface as an Isolated PVLAN Trunk Port” section.

Step 6blank.gif Associate the isolated port or community port to the primary-secondary VLAN pair. See the “Associating a Secondary VLAN with a Primary VLAN” section.

Step 7blank.gif Configure an interface as a promiscuous port. See the “Configuring a Layer 2 Interface as a PVLAN Promiscuous Port” section.

Step 8blank.gif Map the promiscuous port to the primary-secondary VLAN pair. See the “Configuring a Layer 2 Interface as a PVLAN Promiscuous Port” section.

Step 9blank.gif If you plan to use inter-VLAN routing, configure the primary SVI, and map secondary VLANs to the primary. See the “Permitting Routing of Secondary VLAN Ingress Traffic” section.

Step 10blank.gif Verify private-VLAN configuration. See the “Switch#” section.


 

Default Private-VLAN Configuration

No PVLANs are configured.

PVLAN Configuration Guidelines and Restrictions

When using (or configuring) PVLANs, consider these guidelines and restrictions:

  • To configure a PVLAN correctly, enable VTP in transparent mode in VTP version 1 and
    VTP version 2. (VTP version 3 enables you to create it in server mode).

You cannot change the VTP mode to client or server for PVLANs.

  • Do not include VLAN 1 or VLANs 1002 through 1005 in PVLANs.
  • Use only PVLAN commands to assign ports to primary, isolated, community VLANs, or twoway-community VLANs.

Layer 2 interfaces on primary, isolated, community VLANs, or twoway-community VLANs are inactive in PVLANs. Layer 2 trunk interfaces remain in the STP forwarding state.

  • You cannot configure Layer 3 VLAN interfaces for secondary VLANs.

Layer 3 VLAN interfaces for isolated and community (secondary) VLANs are inactive while the VLAN is configured as an isolated or community VLAN.

  • Do not apply dynamic access control entries (ACEs) to primary VLANs.

Cisco IOS dynamic ACL configuration applied to a primary VLAN is inactive while the VLAN is part of the PVLAN configuration.

  • To prevent spanning tree loops due to misconfigurations, enable PortFast on the PVLAN trunk ports with the spanning-tree portfast trunk command.
  • Any VLAN ACL configured on a secondary VLAN is effective in the input direction, and any VLAN ACL configured on the primary VLAN associated with the secondary VLAN is effective in the output direction. Exception case is given below.
  • On twoway-community host ports, secondary VLAN ACL and QoS are applied on egress unicast routed traffic stemming from the integrated router port
  • You can stop Layer 3 switching on an isolated or community VLAN by deleting the mapping of that VLAN with its primary VLAN.
  • PVLAN ports can be on different network devices as long as the devices are trunk-connected and the primary and secondary VLANs remain associated with the trunk
  • Isolated ports on two different devices cannot communicate with each other, but community VLAN ports can.
  • PVLANs support the following SPAN features:

blank.gif You can configure a PVLAN port as a SPAN source port.

blank.gif To monitor egress or ingress traffic separately, you can use VLAN-based SPAN (VSPAN) on primary, isolated, community VLANs, twoway-community VLANs, or use SPAN on only one VLAN.

For more information about SPAN, see Chapter60, “Configuring SPAN and RSPAN”

  • A primary VLAN can be associated with multiple community VLANs, or twoway-community VLANs, but only one isolated VLAN.
  • An isolated or community VLAN can be associated with only one primary VLAN.
  • If you delete a VLAN used in a PVLAN configuration, the PVLAN ports associated with the VLAN become inactive.
  • VTP does not support PVLANs. You must configure PVLANs on each device in which you plan to use PVLAN ports.
  • To maintain the security of your PVLAN configuration and avoid other use of VLANs configured as PVLANs, configure PVLANs on all intermediate devices, even if the devices have no PVLAN ports.
  • Prune the PVLANs from trunks on devices that carry no traffic in the PVLANs.
  • With port ACLS functionality available, you can apply Cisco IOS ACLS to secondary VLAN ports and Cisco IOS ACLS to PVLANS (VACLs). For more information on VACLs, see Chapter56, “Configuring Network Security with ACLs”
  • You can apply different quality of service (QoS) configurations to primary, isolated, community VLANs, and twoway-community VLANs. See Chapter42, “Configuring Quality of Service” Cisco IOS ACLs applied to the Layer 3 VLAN interface of a primary VLAN automatically apply to the associated isolated, community VLANs, and twoway-community VLANs.
  • On a PVLAN trunk port a secondary VLAN ACL is applied on ingress traffic and a primary VLAN ACL is applied on egress traffic.
  • On a promiscuous port the primary VLAN ACL is applied on ingress traffic.
  • Both PVLAN secondary and promiscuous trunk ports support only IEEE 802.1q encapsulation.
  • Community VLANs cannot be propagated or carried over PVLAN trunks.
  • ARP entries learned on Layer 3 PVLAN interfaces are termed “sticky” ARP entries (we recommend that you display and verify PVLAN interface ARP entries).
  • For security reasons, PVLAN port sticky ARP entries do not age out. Connecting a device with a different MAC address but with the same IP address generates an error message and the ARP entry is not created.
  • Because PVLAN port sticky ARP entries do not age out, you must manually remove the entries if you change the MAC address. To overwrite a sticky ARP entry, first delete the entry with the no arp command, then overwrite the entry with the arp command.
  • In a DHCP environment, if you shut down your PC, it is not possible to give your IP address to someone else. To solve this problem, the Catalyst 4500 series switch supports the no ip sticky-arp command. This command promotes IP address overwriting and reuse in a DHCP environment.
  • Normal VLANs can be carried on a promiscuous or isolated trunk port.
  • The default native VLAN for promiscuous trunk port is VLAN 1, the management VLAN. All untagged packets are forwarded in the native VLAN. Either the primary VLANs or a regular VLAN can be configured as native VLAN.
  • Promiscuous trunks cannot be configured to carry secondary VLANs. If a secondary VLAN is specified in the allowed VLAN list, the configuration is accepted but the port is not operational/forwarding in the secondary VLAN. This includes even those VLANs that are of secondary but not associated with any primary VLAN on given port.
  • On a promiscuous trunk port, the primary VLAN ACL and QoS are applied on ingress traffic coming in primary VLANs.
  • On a promiscuous trunk port, no VLAN ACL or QoS is applied to the egress traffic. it is because for upstream direction, traffic in PVLAN logically flows in the secondary VLAN. Due to VLAN translation in hardware, information about received secondary VLANs has been lost. No policies are applied. This restriction also applies to traffic bridged from other ports in the same primary VLANs.
  • Do not configure port security on PVLAN promiscuous trunk port and vice versa.

If port security is enabled on a promiscuous trunk port, that port may behave in an unpredictable manner because this functionality is not supported.

  • Do not configure IEEE 802.1X on a PVLAN promiscuous trunk port.
note.gif

Noteblank.gif Community or twoway-community PVLAN trunk ports are not supported.


Configuring a VLAN as a PVLAN

To configure a VLAN as a PVLAN, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters configuration mode.

Step 2

Switch(config)# vlan vlan_ID

Enters VLAN configuration mode.

Step 3

Switch(config-vlan)# private-vlan { community | twoway-community | isolated | primary }

Configures a VLAN as a PVLAN.

  • This command does not take effect until you exit VLAN configuration submode.

You can use the no keyword to clear PVLAN status.

Step 4

Switch(config-vlan)# end

Exits VLAN configuration mode.

Step 5

Switch# show vlan private-vlan [ type ]

Verifies the configuration.

This example shows how to configure VLAN 202 as a primary VLAN and verify the configuration:

Switch# configure terminal
Switch(config)# vlan 202
Switch(config-vlan)# private-vlan primary
Switch(config-vlan)# end
Switch# show vlan private-vlan
Primary Secondary Type Interfaces
------- --------- ----------------- ------------------------------------------
202 primary
 

This example shows how to configure VLAN 303 as a community VLAN and verify the configuration:

Switch# configure terminal
Switch(config)# vlan 303
Switch(config-vlan)# private-vlan community
Switch(config-vlan)# end
Switch# show vlan private-vlan
 
Primary Secondary Type Interfaces
------- --------- ----------------- ------------------------------------------
202 primary
303 community
 

This example shows how to configure VLAN 440 as an isolated VLAN and verify the configuration:

Switch# configure terminal
Switch(config)# vlan 440
Switch(config-vlan)# private-vlan isolated
Switch(config-vlan)# end
Switch# show vlan private-vlan
 
Primary Secondary Type Interfaces
------- --------- ----------------- ------------------------------------------
202 primary
303 community
440 isolated
 

This example shows how to configure VLAN 550 as a twoway-community VLAN and verify the configuration:

Switch# configure terminal
Switch(config)# vlan 550
Switch(config-vlan)# private-vlan twoway-community
Switch(config-vlan)# end
Switch# show vlan private-vlan
 
Primary Secondary Type Interfaces
------- --------- ----------------- ------------------------------------------
202 primary
303 community
440 isolated
550 twoway-community

Associating a Secondary VLAN with a Primary VLAN

To associate secondary VLANs with a primary VLAN, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters configuration mode.

Step 2

Switch(config)# vlan primary_vlan_ID

Enters VLAN configuration mode for the primary VLAN.

Step 3

Switch(config-vlan)# private-vlan association { secondary_vlan_list | add secondary_vlan_list | remove secondary_vlan_list }

Associates the secondary VLAN with the primary VLAN.

The list can contain only one isolated VLAN ID; it can also contain multiple community or twoway-community VLAN IDs.

You can use the no keyword to clear all secondary associations.

Step 4

Switch(config-vlan)# end

Exits VLAN configuration mode.

Step 5

Switch# show vlan private-vlan [ type ]

Verifies the configuration.

When you associate secondary VLANs with a primary VLAN, note the following:

  • The secondary_vlan_list parameter cannot contain spaces. It can contain multiple comma-separated items. Each item can be a single PVLAN ID or a hyphenated range of PVLAN IDs.
  • The secondary_vlan_list parameter can contain multiple community or twoway-community VLAN IDs.
  • The secondary_vlan_list parameter can contain only one isolated VLAN ID.
  • Enter a secondary_vlan_list or use the add keyword with a secondary_vlan_list to associate secondary VLANs with a primary VLAN.
  • Use the remove keyword with a secondary_vlan_list to clear the association between secondary VLANs and a primary VLAN.
  • The command does not take effect until you exit VLAN configuration submode.

This example shows how to associate community VLANs 303 through 307 and 309, twoway-community VLANs 550 through 552, and isolated VLAN 440 with primary VLAN 202 and verify the configuration:

Switch# configure terminal
Switch(config)# vlan 202
Switch(config-vlan)# private-vlan association 303-307,309,440
Switch(config-vlan)# end
Switch# show vlan private-vlan
 
Primary Secondary Type Interfaces
------- --------- ----------------- ------------------------------------------
202 303 community
202 304 community
202 305 community
202 306 community
202 307 community
202 309 community
202 440 isolated
202 550 twoway-community
202 551 twoway-community
202 552 twoway-community
308 community
note.gif

Noteblank.gif The secondary VLAN 308 has no associated primary VLAN.


Configuring a Layer 2 Interface as a PVLAN Promiscuous Port

To configure a Layer 2 interface as a PVLAN promiscuous port, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface { fastethernet | gigabitethernet | tengigabitethernet } slot / port

Specifies the LAN interface to configure.

Step 3

Switch(config-if)# switchport mode private-vlan { host | promiscuous | trunk promiscuous | trunk [secondary] }

Configures a Layer 2 interface as a PVLAN promiscuous port.

Step 4

Switch(config-if)# [ no ] switchport private-vlan mapping [ trunk] primary_vlan_ID { secondary_vlan_list | add secondary_vlan_list | remove secondary_vlan_list }

Maps the PVLAN promiscuous port to a primary VLAN and to selected secondary VLANs.

Step 5

Switch(config-if)# end

Exits configuration mode.

Step 6

Switch# show interfaces { fastethernet | gigabitethernet | tengigabitethernet } slot / port switchport

Verifies the configuration.

note.gif

Noteblank.gif The maximum number of unique PVLAN pairs supported by the switchport private-vlan mapping command is 1000.


When you configure a Layer 2 interface as a PVLAN promiscuous port, note the following:

  • The secondary_vlan_list parameter cannot contain spaces. It can contain multiple comma-separated items. Each item can be a single PVLAN ID or a hyphenated range of PVLAN IDs.
  • Enter a secondary_vlan_list or use the add keyword with a secondary_vlan_list to map the secondary VLANs to the PVLAN promiscuous port.
  • Use the remove keyword with a secondary_vlan_list to clear the mapping between secondary VLANs and the PVLAN promiscuous port.

This example shows how to configure interface FastEthernet 5/2 as a PVLAN promiscuous port, map it to a PVLAN, and verify the configuration:

Switch# configure terminal
Switch(config)# interface fastethernet 5/2
Switch(config-if)# switchport mode private-vlan promiscuous
Switch(config-if)# switchport private-vlan mapping 200 2
Switch(config-if)# end
Switch# show interfaces fastethernet 5/2 switchport
Name:Fa5/2
Switchport:Enabled
Administrative Mode:private-vlan promiscuous
Operational Mode:private-vlan promiscuous
Administrative Trunking Encapsulation:negotiate
Operational Trunking Encapsulation:native
Negotiation of Trunking:Off
Access Mode VLAN:1 (default)
Trunking Native Mode VLAN:1 (default)
Voice VLAN:none
Administrative Private VLAN Host Association:none
Administrative Private VLAN Promiscuous Mapping:200 (VLAN0200) 2 (VLAN0002)
Private VLAN Trunk Native VLAN:none
Administrative Private VLAN Trunk Encapsulation:dot1q
Administrative Private VLAN Trunk Normal VLANs:none
Administrative Private VLAN Trunk Private VLANs:none
Operational Private VLANs:
200 (VLAN0200) 2 (VLAN0002)
Trunking VLANs Enabled:ALL
Pruning VLANs Enabled:2-1001
Capture Mode Disabled
Capture VLANs Allowed:ALL

Configuring a Layer 2 Interface as a PVLAN Host Port

To configure a Layer 2 interface as a PVLAN host port, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters configuration mode.

Step 2

Switch(config)# interface { fastethernet | gigabitethernet | tengigabitethernet } slot / port

Specifies the LAN port to configure.

Step 3

Switch(config-if)# switchport mode private-vlan { host | promiscuous | trunk promiscuous | trunk [secondary] }

Configures a Layer 2 interface as a PVLAN host port.

Step 4

Switch(config-if)# [ no ] switchport private-vlan host-association primary_vlan_ID secondary_vlan_ID

Associates the Layer 2 interface with a PVLAN.

You can use the no keyword to delete all associations from the primary VLAN.

Step 5

Switch(config-if)# end

Exits configuration mode.

Step 6

Switch# show interfaces { fastethernet | gigabitethernet | tengigabitethernet } slot / port switchport

Verifies the configuration.

This example shows how to configure interface FastEthernet 5/1 as a PVLAN host port and verify the configuration:

Switch# configure terminal
Switch(config)# interface fastethernet 5/1
Switch(config-if)# switchport mode private-vlan host
Switch(config-if)# switchport private-vlan host-association 202 440

Switch(config-if)# end

Switch# show interfaces fastethernet 5/1 switchport
Name: Fa5/1
Switchport: Enabled
Administrative Mode: private-vlan host
Operational Mode: private-vlan host
Administrative Trunking Encapsulation: negotiate
Operational Trunking Encapsulation: native
Negotiation of Trunking: Off
Access Mode VLAN: 1 (default)
Trunking Native Mode VLAN: 1 (default)
Voice VLAN: none
Appliance trust: none
Administrative Private Vlan
Host Association: 202 (VLAN0202) 440 (VLAN0440)
Promiscuous Mapping: none
Trunk encapsulation : dot1q
Trunk vlans:
Operational private-vlan(s):
202 (VLAN0202) 440 (VLAN0440)
Trunking VLANs Enabled: ALL
Pruning VLANs Enabled: 2-1001
Capture Mode Disabled
Capture VLANs Allowed: ALL

Configuring a Layer 2 Interface as an Isolated PVLAN Trunk Port

To configure a Layer 2 interface as an isolated PVLAN trunk port, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface { fastethernet | gigabitethernet | tengigabitethernet } slot / port

Specifies the LAN port to configure.

Step 3

Switch(config-if)# switchport mode private-vlan { host | promiscuous | trunk promiscuous | trunk [secondary] }

Configures a Layer 2 interface as a PVLAN trunk port.

Step 4

Switch(config-if)# [ no ] switchport private-vlan association trunk primary_vlan_ID secondary_vlan_ID

Configures association between primary VLANs and secondary VLANs the PVLAN trunk port with a PVLAN.

Note Multiple PVLAN pairs can be specified using this command so that a PVLAN trunk port can carry multiple secondary VLANs. If an association is specified for the existing primary VLAN, the existing association is replaced. If there is no trunk association, any packets received on secondary VLANs are dropped.

You can use the no keyword to delete all associations from the primary VLAN.

Step 5

Switch(config-if)# [ no ] switchport private-vlan trunk allowed vlan vlan_list all | none | [ add | remove | except ] vlan_atom [, vlan_atom...]

Configures a list of allowed normal VLANs on a PVLAN trunk port.

You can use the no keyword to remove all allowed normal VLANs on a PVLAN trunk port.

Step 6

Switch(config-if)# switchport private-vlan trunk native vlan vlan_id

Configures a VLAN to which untagged packets (as in IEEE 802.1Q tagging) are assigned on a PVLAN trunk port.

If there is no native VLAN configured, all untagged packets are dropped.

If the native VLAN is a secondary VLAN and the port does not have the association for the secondary VLAN, the untagged packets are dropped.

You can use the no keyword to remove all native VLANs on a PVLAN trunk port.

Step 7

Switch(config-if)# end

Exits configuration mode.

Step 8

Switch# show interfaces { fastethernet | gigabitethernet | tengigabitethernet } slot / port switchport

Verifies the configuration.

This example shows how to configure interface FastEthernet 5/2 as a secondary trunk port, and verify the configuration:

Switch# configure terminal
Switch(config)# interface fastethernet 5/2
Switch(config-if)# switchport mode private-vlan trunk secondary
Switch(config-if)# switchport private-vlan trunk native vlan 10
Switch(config-if)# switchport private-vlan trunk allowed vlan 10. 3-4
Switch(config-if)# switchport private-vlan association trunk 3 301
Switch(config-if)# end
Switch# show interfaces fastethernet 5/2 switchport
Name: Fa5/2
Switchport: Enabled
Administrative Mode: private-vlan trunk secondary
Operational Mode: private-vlan trunk secondary
Administrative Trunking Encapsulation: negotiate
Operational Trunking Encapsulation: dot1q
Negotiation of Trunking: On
Access Mode VLAN: 1 (default)
Trunking Native Mode VLAN: 1 (default)
Administrative Native VLAN tagging: enabled
Voice VLAN: none
Administrative private-vlan host-association: none A
Administrative private-vlan mapping: none
Administrative private-vlan trunk native VLAN: 10
Administrative private-vlan trunk Native VLAN tagging: enabled
Administrative private-vlan trunk encapsulation: dot1q
Administrative private-vlan trunk normal VLANs: none
Administrative private-vlan trunk associations:
3 (VLAN0003) 301 (VLAN0301)
Administrative private-vlan trunk mappings: none
Operational private-vlan: none
Operational Normal VLANs: none
Trunking VLANs Enabled: ALL
Pruning VLANs Enabled: 2-1001
Capture Mode Disabled Capture VLANs Allowed: ALL
 
Unknown unicast blocked: disabled
Unknown multicast blocked: disabled
Appliance trust: none

Configuring a Layer 2 Interface as a Promiscuous PVLAN Trunk Port

To configure a Layer 2 interface as a promiscuous PVLAN trunk port, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface { fastethernet | gigabitethernet | tengigabitethernet } slot / port

Specifies the LAN interface to configure.

Step 3

Switch(config-if)# switchport mode private-vlan { host | promiscuous | trunk promiscuous | trunk [secondary] }

Configures a Layer 2 interface as a PVLAN promiscuous trunk port.

Step 4

Switch(config-if)# [ no ] switchport private-vlan mapping [ trunk] primary_vlan_ID { secondary_vlan_list | add secondary_vlan_list | remove secondary_vlan_list }

Maps the promiscuous PVLAN port to a primary VLAN and to selected secondary VLANs.

This command offers 3 levels of removal. See the examples that follow this table.

Step 5

Switch(config-if)# end

Exits configuration mode.

Step 6

Switch# show interfaces { fastethernet | gigabitethernet | tengigabitethernet } slot / port switchport

Verifies the configuration.

note.gif

Noteblank.gif The maximum number of unique PVLAN pairs supported by the
switchport private-vlan mapping trunk command is 500. For example, 500 isolated secondary VLANs could map to 500 primary VLANs, because only one isolated VLAN association per primary VLAN is supported. Or, 500 community secondary VLANs could map to one primary VLAN. Or, 250 community secondary VLANs could map to 1 primary VLAN, and another 250 community secondary VLANs could map to another primary VLAN for a total of 500 pairs.


note.gif

Noteblank.gif By default, when you configure the mode to PVLAN trunk promiscuous, the native VLAN is set to 1.


The [no] switchport private-vlan mapping command provides the following three levels of removal:

  • Remove one or more secondary VLANs from the list. For example:
Switch(config-if)# switchport private-vlan mapping trunk 2 remove 222
 
  • Remove the entire mapping of PVLAN promiscuous trunk port to the specified primary VLAN (and all of its selected secondary VLANs). For example:
Switch(config-if)# no switchport private-vlan mapping trunk 2
 
  • Remove the mapping of a PVLAN promiscuous trunk port to all previously configured primary VLANs (and all of their selected secondary VLANs). For example:
Switch(config-if)# no switchport private-vlan mapping trunk
 

When you configure a Layer 2 interface as a PVLAN promiscuous port, note the following:

  • Multiple PVLAN pairs can be specified using the switchport private-vlan mapping trunk command so that a promiscuous trunk port can carry multiple primary VLANs.
  • The secondary_vlan_list parameter cannot contain spaces. It can contain multiple comma-separated items. Each item can be a single PVLAN ID or a hyphenated range of PVLAN IDs.
  • Enter a secondary_vlan_list or use the add keyword with a secondary_vlan_list to map the secondary VLANs to the PVLAN promiscuous port.
  • Use the remove keyword with a secondary_vlan_list to clear the mapping between secondary VLANs and the PVLAN promiscuous port.

This example shows how to configure interface FastEthernet 5/2 as a promiscuous trunk port and to verify the configuration:

Switch# configure terminal
Switch(config)# interface fastethernet 5/2
Switch(config-if)# switchport mode private-vlan trunk promiscuous
Switch(config-if)# switchport private-vlan trunk native vlan 10
Switch(config-if)# switchport private-vlan trunk allowed vlan 10, 3-4
Switch(config-if)# switchport private-vlan mapping trunk 3 301, 302
Switch(config-if)# end
Switch# show interfaces fastethernet 5/2 switchport
Name: Fa5/2
Switchport: Enabled
Administrative Mode: private-vlan trunk promiscuous
Operational Mode: private-vlan trunk promiscuous
Administrative Trunking Encapsulation: negotiate
Operational Trunking Encapsulation: dot1q
Negotiation of Trunking: On
Access Mode VLAN: 1 (default)
Trunking Native Mode VLAN: 1 (default)
Administrative Native VLAN tagging: enabled
Voice VLAN: none
Administrative private-vlan host-association: none
Administrative private-vlan mapping: none
Administrative private-vlan trunk native VLAN: 10
Administrative private-vlan trunk Native VLAN tagging: enabled
Administrative private-vlan trunk encapsulation: dot1q
Administrative private-vlan trunk normal VLANs: 3-4,10
Administrative private-vlan trunk associations: none
Administrative private-vlan trunk mappings:
3 (VLAN0003) 301 (VLAN0301) 302 (VLAN0302)
Operational private-vlan:
3 (VLAN0003) 301 (VLAN0301) 302 (VLAN0302)
Trunking VLANs Enabled: ALL
Pruning VLANs Enabled: 2-1001
Capture Mode Disabled
Capture VLANs Allowed: ALL
 
Unknown unicast blocked: disabled
Unknown multicast blocked: disabled
Appliance trust: none

Permitting Routing of Secondary VLAN Ingress Traffic

note.gif

Noteblank.gif Isolated, community VLANs, and twoway-community VLANs are called secondary VLANs.


To permit routing of secondary VLAN ingress traffic, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface vlan primary_vlan_ID

Enters interface configuration mode for the primary VLAN.

Step 3

Switch(config-if)# [ no ] private-vlan mapping primary_vlan_ID { secondary_vlan_list | add secondary_vlan_list | remove secondary_vlan_list }

To permit routing on the secondary VLAN ingress traffic, map the secondary VLAN to the primary VLAN.

You can use the no keyword to delete all associations from the primary VLAN.

Step 4

Switch(config-if)# end

Exits configuration mode.

Step 5

Switch# show interface private-vlan mapping

Verifies the configuration.

When you permit routing on the secondary VLAN ingress traffic, note the following:

  • The private-vlan mapping interface configuration command only affects PVLAN ingress traffic that is Layer 3 switched.
  • The secondary_vlan_list parameter cannot contain spaces. It can contain multiple comma-separated items. Each item can be a single PVLAN ID or a hyphenated range of PVLAN IDs.
  • Enter a secondary_vlan_list parameter or use the add keyword with a secondary_vlan_list parameter to map the secondary VLANs to the primary VLAN.
  • Use the remove keyword with a secondary_vlan_list parameter to clear the mapping between secondary VLANs and the primary VLAN.

This example shows how to permit routing of secondary VLAN ingress traffic from PVLANs 303 through 307, 309, and 440 and verify the configuration:

Switch# configure terminal
Switch(config)# interface vlan 202
Switch(config-if)# private-vlan mapping add 303-307,309,440
Switch(config-if)# end
Switch# show interfaces private-vlan mapping
Interface Secondary VLAN Type
--------- -------------- -----------------
vlan202 303 community
vlan202 304 community
vlan202 305 community
vlan202 306 community
vlan202 307 community
vlan202 309 community
vlan202 440 isolated
 
Switch#

Configuring PVLAN over EtherChannel

After creating a Layer 2 Etherchannel, you can configure it with any of the four PVLAN port modes (promiscuous host, secondary host, isolated trunk, promiscuous trunk).

This section includes the following topics:

Configuring a Layer 2 EtherChannel

Do the following:


Step 1blank.gif Configure a VLAN as a PVLAN.

Refer to the URL:

http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/12.2/01xo/configuration/guide/pvlans.html#wp1174853

Step 2blank.gif Associate a secondary VLAN with a primary VLAN.

Refer to the URL:

http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/12.2/01xo/configuration/guide/pvlans.html#wp1121802

Step 3blank.gif Configuring a Layer 2 EtherChannel.

Refer to the URL

http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/12.2/01xo/configuration/guide/channel.html#wp1020670


 

Configuring a Layer 2 Etherchannel as a PVLAN Promiscuous Port

Perform the following task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface port-channel interface-number

Specifies the LAN interface to configure.

Step 3

Switch(config-if)# switchport mode private-vlan {host | promiscuous | trunk promiscuous | trunk [secondary]}

Configures a Layer 2 Etherchannel as a PVLAN promiscuous port.

Step 4

Switch(config-if)# [no] switchport private-vlan mapping [trunk] primary_vlan_ID {secondary_vlan_list | add secondary_vlan_list}

(Maps the PVLAN promiscuous port to a primary VLAN and to selected secondary VLANs.

Step 5

Switch(config-if)# end

Exits configuration mode.

Step 6

Switch# show interface port-channel interface-number switchport

Verifies the configuration.

note.gif

Noteblank.gif The maximum number of unique PVLAN pairs supported by the switchport private-vlan mapping command is 1000.


When you configure a Layer 2 Etherchannel as a PVLAN promiscuous port, note the following:

  • The secondary_vlan_list parameter cannot contain spaces. It can contain multiple comma-separated items. Each item can be a single PVLAN ID or a hyphenated range of PVLAN IDs.
  • Enter a secondary_vlan_list or use the add keyword with a secondary_vlan_list to map the secondary VLANs to the PVLAN promiscuous port.
  • Use the remove keyword with a secondary_vlan_list to clear the mapping between secondary VLANs and the PVLAN promiscuous port.

This example shows how to configure interface port channel 63 as a PVLAN promiscuous port, map it to a PVLAN, and verify the configuration:

Switch# configure terminal
Switch(config)# interface port-channel 63
Switch(config-if)# switchport mode private-vlan promiscuous
Switch(config-if)# switchport private-vlan mapping 200 2
Switch(config-if)# end
Switch# show interfaces port-channel 63 switchport
Name:Po63
Switchport:Enabled
Administrative Mode:private-vlan promiscuous
Operational Mode:private-vlan promiscuous
Administrative Trunking Encapsulation:negotiate
Operational Trunking Encapsulation:native
Negotiation of Trunking:Off
Access Mode VLAN:1 (default)
Trunking Native Mode VLAN:1 (default)
Voice VLAN:none
Administrative Private VLAN Host Association:none
Administrative Private VLAN Promiscuous Mapping:200 (VLAN0200) 2 (VLAN0002)
Private VLAN Trunk Native VLAN:none
Administrative Private VLAN Trunk Encapsulation:dot1q
Administrative Private VLAN Trunk Normal VLANs:none
Administrative Private VLAN Trunk Private VLANs:none
Operational Private VLANs:
200 (VLAN0200) 2 (VLAN0002)
Trunking VLANs Enabled:ALL
Pruning VLANs Enabled:2-1001
Capture Mode Disabled
Capture VLANs Allowed:ALL

Configuring a Layer 2 EtherChannel as a PVLAN Host Port

To configure a Layer 2 EtherChannel as a PVLAN host port, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface port-channel interface-number

Specifies the LAN interface to configure.

Step 3

Switch(config-if)# switchport mode private-vlan {host | promiscuous | trunk promiscuous | trunk [secondary]}

Configures a Layer 2 Etherchannel as a PVLAN host port.

Step 4

Switch(config-if)# [no] switchport private-vlan host-association primary_vlanb_ID secondary_vlan_ID

Associates the Layer 2 interface with a PVLAN.

You can use the no keyword to delete all associations from the primary VLAN.

Step 5

Switch(config-if)# end

Exits configuration mode.

Step 6

Switch# show interface port-channel interface-number switchport

Verifies the configuration.

This example shows how to configure interface port channel 63 as a PVLAN host port and to verify the configuration:

Switch# configure terminal
Switch(config)# interface port-channel 63
Switch(config-if)# switchport mode private-vlan host
Switch(config-if)# switchport private-vlan host-association 202 440
Switch(config-if)# end
Switch# show interfaces port-channel 63 switchport
Name: Po63
Switchport: Enabled
Administrative Mode: private-vlan host
Operational Mode: private-vlan host
Administrative Trunking Encapsulation: negotiate
Operational Trunking Encapsulation: native
Negotiation of Trunking: Off
Access Mode VLAN: 1 (default)
Trunking Native Mode VLAN: 1 (default)
Voice VLAN: none
Appliance trust: none
Administrative Private Vlan
Host Association: 202 (VLAN0202) 440 (VLAN0440)
Promiscuous Mapping: none
Trunk encapsulation : dot1q
Trunk vlans:
Operational private-vlan(s):
202 (VLAN0202) 440 (VLAN0440)
Trunking VLANs Enabled: ALL
Pruning VLANs Enabled: 2-1001
Capture Mode Disabled
Capture VLANs Allowed: ALL

Configuring a Layer 2 EtherChannel as an Isolated PVLAN Trunk Port

To configure a Layer 2 EtherChannel as an isolated PVLAN trunk port, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface port-channel interface-number

Specifies the LAN interface to configure.

Step 3

Switch(config-if)# switchport mode private-vlan {host | promiscuous | trunk promiscuous | trunk [secondary]}

Configures a Layer 2 Etherchannel as a PVLAN trunk port.

Step 4

Switch(config-if)# [no] switchport private-vlan association trunk primary_vlanb_ID secondary_vlan_ID

(Configures association between primary VLANs and secondary VLANs the PVLAN trunk port with a PVLAN.

Note Multiple PVLAN pairs can be specified using this command so that a PVLAN trunk port can carry multiple secondary VLANs. If an association is specified for the existing primary VLAN, the existing association is replaced. If there is no trunk association, any packets received on secondary VLANs are dropped.

You can use the no keyword to delete all associations from the primary VLAN.

Step 5

Switch(config-if)# [no] switchport private-vlan trunk allowed vlan vlan_list [all | none | [add | remove | except] vlan_atom [,vlan_atom...]
 
 
 

(Configures a list of allowed normal VLANs on a PVLAN trunk port

You can use the no keyword to remove all allowed normal VLANs on a PVLAN trunk port.

Step 6

Switch(config-if)# switchport private-vlan trunk native vlan vlan_id

(Configures a VLAN to which untagged packets (as in IEEE 802.1Q tagging) are assigned on a PVLAN trunk port.

If there no native VLAN is configured, all untagged packets are dropped.

If the native VLAN is a secondary VLAN and the port does not have the association for the secondary VLAN, the untagged packets are dropped.

You can use the no keyword to remove all native VLANs on a PVLAN trunk port.)

Step 7

Switch(config-if)# end

Exits configuration mode.

Step 8

Switch# show interfaces Port-channel interface-number switchport

Verifies the configuration.

This example shows how to configure interface port channel 63 as a secondary trunk port, and to verify the configuration:

Switch# configure terminal
Switch(config)# interface port-channel 63
Switch(config-if)# switchport mode private-vlan trunk secondary
Switch(config-if)# switchport private-vlan trunk native vlan 10
Switch(config-if)# switchport private-vlan trunk allowed vlan 10. 3-4
Switch(config-if)# switchport private-vlan association trunk 3 301
Switch(config-if)# end
Switch# show interfaces port-channel 63 switchport
Name: Po63
Switchport: Enabled
Administrative Mode: private-vlan trunk secondary
Operational Mode: private-vlan trunk secondary
Administrative Trunking Encapsulation: negotiate
Operational Trunking Encapsulation: dot1q
Negotiation of Trunking: On
Access Mode VLAN: 1 (default)
Trunking Native Mode VLAN: 1 (default)
Administrative Native VLAN tagging: enabled
Voice VLAN: none
Administrative private-vlan host-association: none
Administrative private-vlan mapping: none
Administrative private-vlan trunk native VLAN: 10
Administrative private-vlan trunk Native VLAN tagging: enabled
Administrative private-vlan trunk encapsulation: dot1q
Administrative private-vlan trunk normal VLANs: none
Administrative private-vlan trunk associations:
3 (VLAN0003) 301 (VLAN0301)
Administrative private-vlan trunk mappings: none
Operational private-vlan: none
Operational Normal VLANs: none
Trunking VLANs Enabled: ALL
Pruning VLANs Enabled: 2-1001
Capture Mode Disabled Capture VLANs Allowed: ALL
Unknown unicast blocked: disabled
Unknown multicast blocked: disabled
Appliance trust: none

Configuring a Layer 2 Etherchannel as a Promiscuous PVLAN Trunk Port

To configure a Layer 2 Etherchannel as a promiscuous PVLAN trunk port, perform this task:

 

Command
Purpose

Step 1

Switch# configure terminal

Enters global configuration mode.

Step 2

Switch(config)# interface port-channel interface-number

Specifies the LAN interface to configure.

Step 3

Switch(config-if)# switchport mode private-vlan {host | promiscuous | trunk promiscuous | trunk [secondary]}

Configures a Layer 2 Etherchannel as a PVLAN promiscuous trunk port.

Step 4

Switch(config-if)# [no] switchport private-vlan mapping [trunk] primary_vlan_ID {secondary_vlan_list | add secondary_vlan_list | remove secondary_vlan_list}

Maps the promiscuous PVLAN port to a primary VLAN and to the selected secondary VLANs.

This command offers 3 levels of removal.

Step 5

Switch(config-if)# end

Exits configuration mode.

Step 6

Switch# show interfaces port-channel interface-number switchport

Verifies the configuration.

note.gif

Noteblank.gif The maximum number of unique PVLAN pairs supported by the switchport private-vlan mapping trunk command is 500. For example, 500 isolated secondary VLANs could map to 500 primary VLANs, because only one isolated VLAN association per primary VLAN is supported. Or, 500 community secondary VLANs could map to one primary VLAN. Or, 250 community secondary VLANs could map to 1 primary VLAN, and another 250 community secondary VLANs could map to another primary VLAN for a total of 500 pairs.


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Noteblank.gif By default, when you configure the mode to private VLAN trunk promiscuous, the native VLAN is set to 1.


The [no] switchport private-vlan mapping command provides the following three levels of removal:

  • Remove one or more secondary VLANs from the list.

For example:

Switch(config-if)# switchport private-vlan mapping trunk 2 remove 222
 
  • Remove the entire mapping of PVLAN promiscuous trunk port to the specified primary VLAN (and all of its selected secondary VLANs).

For example:

Switch(config-if)# no switchport private-vlan mapping trunk 2
 
 
  • Remove the mapping of a PVLAN promiscuous trunk port to all previously configured primary VLANs (and all of their selected secondary VLANs).

For example:

Switch(config-if)# no switchport private-vlan mapping trunk
 

When you configure a Layer 2 etherchannel as a PVLAN promiscuous trunk port, observe that multiple private VLAN pairs can be specified with the switchport private-vlan mapping trunk command so that a promiscuous trunk port can carry multiple primary VLANs.

•The secondary_vlan_list parameter cannot contain spaces. It can contain multiple comma-separated items. Each item can be a single PVLAN ID or a hyphenated range of PVLAN IDs.

•Enter a secondary_vlan_list or use the add keyword with a secondary_vlan_list to map the secondary VLANs to the PVLAN promiscuous port.

•Use the remove keyword with a secondary_vlan_list to clear the mapping between secondary VLANs and the PVLAN promiscuous port.

This example shows how to configure interface Port-channel 63 as a promiscuous trunk port and to verify the configuration:

Switch# configure terminal
Switch(config)# interface port-channel 63
Switch(config-if)# switchport mode private-vlan trunk promiscuous
Switch(config-if)# switchport private-vlan trunk native vlan 10
Switch(config-if)# switchport private-vlan trunk allowed vlan 10, 3-4
Switch(config-if)# switchport private-vlan mapping trunk 3 301, 302
Switch(config-if)# end
Switch# show interfaces port-channel 63 switchport
Name: Po63
Switchport: Enabled
Administrative Mode: private-vlan trunk promiscuous
Operational Mode: private-vlan trunk promiscuous
Administrative Trunking Encapsulation: negotiate
Operational Trunking Encapsulation: dot1q
Negotiation of Trunking: On
Access Mode VLAN: 1 (default)
Trunking Native Mode VLAN: 1 (default)
Administrative Native VLAN tagging: enabled
Voice VLAN: none
Administrative private-vlan host-association: none
Administrative private-vlan mapping: none
Administrative private-vlan trunk native VLAN: 10
Administrative private-vlan trunk Native VLAN tagging: enabled
Administrative private-vlan trunk encapsulation: dot1q
Administrative private-vlan trunk normal VLANs: 3-4,10
Administrative private-vlan trunk associations: none
Administrative private-vlan trunk mappings:
3 (VLAN0003) 301 (VLAN0301) 302 (VLAN0302)
Operational private-vlan:
3 (VLAN0003) 301 (VLAN0301) 302 (VLAN0302)
Trunking VLANs Enabled: ALL
Pruning VLANs Enabled: 2-1001
Capture Mode Disabled
Capture VLANs Allowed: ALL
Unknown unicast blocked: disabled
Unknown multicast blocked: disabled
Appliance trust: none