L2VPN and Ethernet Services Configuration Guide for Cisco ASR 9000 Series Routers, IOS XR Release 7.7.x
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The EVPN-VPWS is a BGP control plane solution for point-to-point services. It implements
the signaling and encapsulation techniques for establishing an EVPN instance between a
pair of PEs. It has the ability to forward traffic from one network to another without
MAC lookup. The use of EVPN for VPWS eliminates the need for signaling single-segment
and multi-segment PWs for point-to-point Ethernet services. The EVPN-VPWS technology
works on IP and MPLS core; IP core to support BGP and MPLS core for switching packets
between the endpoints.
EVPN-VPWS support both single-homing and multi-homing.
Note
When both MPLS and SRv6 are configured in the core, EVPN VPWS services cannot
co-exist with SRv6 and MPLS.
Supported Modes for EVPN-VPWS
EVPN-VPWS supports the following modes:
Single-homed - Enables you to connect a customer edge (CE) device to one provider edge (PE) device.
Multi-homed - Enables you to connect a customer edge (CE) device to more than one provider edge (PE) device. Multihoming ensures
redundant connectivity. The redundant PE device ensures that there is no traffic disruption when there is a network failure.
Following are the types of multihoming:
Single-Active - In single-active mode only a single PE among a group of PEs attached to the particular Ethernet-Segment is
allowed to forward traffic to and from that Ethernet Segment.
All-Active - In all-active mode all the PEs attached to the particular Ethernet-Segment is allowed to forward traffic to and
from that Ethernet Segment.
EVPN-VPWS Single Homed
The EVPN-VPWS single homed solution requires per EVI Ethernet Auto Discovery route. EVPN
defines a new BGP Network Layer Reachability Information (NLRI) used to carry all EVPN
routes. BGP Capabilities Advertisement used to ensure that two speakers support EVPN
NLRI (AFI 25, SAFI 70) as per RFC 4760.
The architecture for EVPN VPWS is that the PEs run Multi-Protocol BGP in control-plane.
The following image describes the EVPN-VPWS configuration:
The VPWS service on PE1 requires the following three elements to be specified at
configuration time:
The VPN ID (EVI)
The local AC identifier (AC1) that identifies the local end of the
emulated service.
The remote AC identifier (AC2) that identifies the remote end of the
emulated service.
PE1 allocates a MPLS label per local AC for reachability.
The VPWS service on PE2 is set in the same manner as PE1. The three same elements
are required and the service configuration must be symmetric.
PE2 allocates a MPLS label per local AC for reachability.
PE1 advertise a single EVPN per EVI Ethernet AD route for each local endpoint
(AC) to remote PEs with the associated MPLS label.
PE2 performs the same task.
On reception of EVPN per EVI EAD route from PE2, PE1 adds the entry to its local
L2 RIB. PE1 knows the path list to reach AC2, for example, next hop is PE2 IP
address and MPLS label for AC2.
PE2 performs the same task.
Configure EVPN-VPWS Single Homed
This section describes how you can configure single-homed EVPN-VPWS feature.
The EVPN VPWS feature supports all-active multihoming capability that enables you to
connect a customer edge device to two or more provider edge (PE) devices to provide load
balancing and redundant connectivity. The load balancing is done using equal-cost
multipath (ECMP).
When a CE device is multi-homed to two or more PEs and when all PEs can forward traffic
to and from the multi-homed device for the VLAN, then such multihoming is referred to as
all-active multihoming.
Consider the topology in which CE1 is multi-homed to PE1 and PE2; CE2 is multi-homed to
PE3 and PE4. PE1 and PE2 will advertise an EAD per EVI route per AC to remote PEs which
is PE3 and PE4, with the associated MPLS label. The ES-EAD route is advertised per ES
(main interface), and it will not have a label. Similarly, PE3 and PE4 advertise an EAD
per EVI route per AC to remote PEs, which is PE1 and PE2, with the associated MPLS
label.
Consider a traffic flow from CE1 to CE2. Traffic is sent to either PE1 or PE2. The
selection of path is dependent on the CE implementation for forwarding over a LAG.
Traffic is encapsulated at each PE and forwarded to the remote PEs (PE 3 and PE4)
through MPLS core. Selection of the destination PE is established by flow-based load
balancing. PE3 and PE4 send the traffic to CE2. The selection of path from PE3 or PE4 to
CE2 is established by flow-based load balancing.
If there is a failure and when the link from CE1 to PE1 goes down, the PE1 withdraws the
ES-EAD route; sends a signal to the remote PEs to switch all the VPWS service instances
associated with this multi-homed ES to backup PE, which is PE2.
Configure EVPN-VPWS Single-Active Multi-Homed
This section describes how to configure single-active multi-homed EVPN-VPWS feature. You can enable the single-active mode
by using the load-balancing-mode single-active command.
/* On PE1 */
!
configure
l2vpn xconnect group evpn_vpws
p2p e1_5-6
interface Bundle-Ether10.2
neighbor evpn evi 1 target 5 source 6
!
evpn
interface Bundle-Ether10
ethernet-segment
identifier type 0 00.01.00.ac.ce.55.00.0a.00
!
/* On PE2 */
!
configure
l2vpn xconnect group evpn_vpws
p2p e1_5-6
interface Bundle-Ether10.2
neighbor evpn evi 1 target 5 source 6
!
evpn
interface Bundle-Ether10
ethernet-segment
identifier type 0 00.01.00.ac.ce.55.00.0a.00
!
/* On PE3 */
!
configure
l2vpn xconnect group evpn_vpws
p2p e1_5-6
interface Bundle-Ether20.1
neighbor evpn evi 1 target 6 source 5
!
evpn
interface Bundle-Ether20
ethernet-segment
identifier type 0 00.01.00.ac.ce.55.00.14.00
!
/* On PE4 */
!
configure
l2vpn xconnect group evpn_vpws
p2p e1_5-6
interface Bundle-Ether20.1
neighbor evpn evi 1 target 6 source 5
!
evpn
interface Bundle-Ether20
ethernet-segment
identifier type 0 00.01.00.ac.ce.55.00.14.00
!
Flow Label Support for EVPN VPWS
The Flow Label support for EVPN VPWS feature enables provider (P) routers to use the
flow-based load balancing to forward traffic between the provider edge (PE) devices.
This feature uses Flow-Aware Transport (FAT) of pseudowires (PW) over an MPLS packet
switched network for load-balancing traffic across BGP-based signaled pseudowires for
Ethernet VPN (EVPN) Virtual Private Wire Service (VPWS).
FAT PWs provide the capability to identify individual flows within a PW and provide
routers the ability to use these flows to load-balance the traffic. FAT PWs are used to
load balance the traffic in the core when equal cost multipaths (ECMP) are used. A flow
label is created based on indivisible packet flows entering an imposition PE. This flow
label is inserted as the lower most label in the packet. P routers use the flow label
for load balancing to provide better traffic distribution across ECMP paths or
link-bundled paths in the core. A flow is identified either by the source and
destination IP address and layer 4 source and destination ports of the traffic, or the
source and destination MAC address of the traffic.
The following figure shows a FAT PW with two flows distributing over ECMPs and bundle
links.
An extra label is added to the stack, called the flow label, which is generated for each
unique incoming flow on the PE. A flow label is a unique identifier that distinguishes a
flow within the PW, and is derived from source and destination MAC addresses, and source
and destination IP addresses. The flow label contains the end of label stack (EOS) bit
set. The flow label is inserted after the VC label and before the control word (if any).
The ingress PE calculates and forwards the flow label. The FAT PW configuration enables
the flow label. The egress PE discards the flow label such that no decisions are
made.
Core routers perform load balancing using the flow-label in the FAT PW with other
information like MAC address and IP address. The flow-label adds greater entropy to
improve traffic load balancing. Therefore, it’s possible to distribute flows over ECMPs
and link bundles.
In this topology, the imposition router, PE1, adds a flow label in the traffic. The
disposition router, PE2, allows mixed types of traffic of which some have flow label,
others do not. The P router uses flow label to load balance the traffic between the PEs.
PE2 ignores the flow label in traffic, and uses one EVPN label for all unicast
traffic.
Restrictions
To configure flow label for EVPN VPWS, the following restrictions are applicable:
This feature is not supported for EVPN Point-to-Multipoint (P2MP) of VPLS and
Ethernet LAN (E-LAN) service.
This feature is supported only for EVPN VPWS single homing. AC bundle
interfaces must be configured with ESI-0 only.
This feature is not supported for EVPN flexible cross-connect service.
Configure Flow Label for EVPN VPWS
Configuration Example
Perform this task to configure flow label for EVPN VPWS on both PE1 and PE2.
This section shows the running configuration of flow label for EVPN VPWS.
l2vpn
xconnect group evpn-vpws
p2p evpn1
interface TenGigE0/0/0/0
neighbor evpn evi 1 target 2 source 1
!
!
evpn
evi 1
control-word-disable
load-balancing
flow-label static
!
!
Verification
Verify EVPN VPWS flow label configuration.
Router# show l2vpn xconnect detail
Group evpn-vpws, XC evpn1, state is up; Interworking none
AC: TenGigE0/0/0/0, state is up
Type Ethernet
MTU 1500; XC ID 0x1; interworking none
Statistics:
packets: received 21757444, sent 0
bytes: received 18226521128, sent 0
EVPN: neighbor 100.100.100.2, PW ID: evi 1, ac-id 2, state is up ( established )
XC ID 0xc0000001
Encapsulation MPLS
Encap type Ethernet, control word disabled
Sequencing not set
LSP : Up
Flow Label flags configured (Tx=1,Rx=1) statically
EVPN Local Remote
------------ ------------------------------ -----------------------------
Label 64002 64002
MTU 1500 1500
Control word disabled disabled
AC ID 1 2
EVPN type Ethernet Ethernet
------------ ------------------------------ -----------------------------
Create time: 30/10/2018 03:04:16 (00:00:40 ago)
Last time status changed: 30/10/2018 03:04:16 (00:00:40 ago)
Statistics:
packets: received 0, sent 21757444
bytes: received 0, sent 18226521128