Internet DRAFT - draft-brissette-bess-evpn-mh-pa
draft-brissette-bess-evpn-mh-pa
BESS Working Group Patrice Brissette
INTERNET-DRAFT Ali Sajassi
Intended Status: Proposed Standard Cisco Systems
Bin Wen
Comcast
Edward Leyton
Verizon Wireless
Jorge Rabadan
Nokia
Expires: May 3, 2020 October 31, 2019
EVPN multi-homing port-active load-balancing
draft-brissette-bess-evpn-mh-pa-04
Abstract
The Multi-Chassis Link Aggregation Group (MC-LAG) technology enables
the establishment of a logical link-aggregation connection with a
redundant group of independent nodes. The purpose of multi-chassis
LAG is to provide a solution to achieve higher network availability,
while providing different modes of sharing/balancing of traffic. EVPN
standard defines EVPN based MC-LAG with single-active and all-active
multi-homing load-balancing mode. The current draft expands on
existing redundancy mechanisms supported by EVPN and introduces
support of port-active load-balancing mode. In the current document,
port-active load-balancing mode is also referred to as per interface
active/standby.
Status of this Memo
This Internet-Draft is submitted to IETF in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
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material or to cite them other than as "work in progress."
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Table of Contents
1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.1 Terminology . . . . . . . . . . . . . . . . . . . . . . . . 4
2. Multi-Chassis Ethernet Bundles . . . . . . . . . . . . . . . . 4
3. Port-active load-balancing procedure . . . . . . . . . . . . . 4
4. Algorithm to elect per port-active PE . . . . . . . . . . . . . 5
4.1 Capability Flag . . . . . . . . . . . . . . . . . . . . . . 5
4.2 Modulo-based Designated Forwarder Algorithm . . . . . . . . 6
4.3 HRW Algorithm . . . . . . . . . . . . . . . . . . . . . . . 6
4.4 Preferred-DF Algorithm . . . . . . . . . . . . . . . . . . . 6
5. Convergence considerations . . . . . . . . . . . . . . . . . . 6
6. Applicability . . . . . . . . . . . . . . . . . . . . . . . . . 7
7. Overall Advantages . . . . . . . . . . . . . . . . . . . . . . 7
8 Security Considerations . . . . . . . . . . . . . . . . . . . . 8
9 IANA Considerations . . . . . . . . . . . . . . . . . . . . . . 8
10 References . . . . . . . . . . . . . . . . . . . . . . . . . . 8
10.1 Normative References . . . . . . . . . . . . . . . . . . . 8
10.2 Informative References . . . . . . . . . . . . . . . . . . 8
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 9
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1 Introduction
EVPN, as per [RFC7432], provides all-active per flow load balancing
for multi-homing. It also defines single-active with service carving
mode, where one of the PEs, in redundancy relationship, is active per
service.
While these two multi-homing scenarios are most widely utilized in
data center and service provider access networks, there are scenarios
where active-standby per interface multi-homing redundancy is useful
and required. The main consideration for this mode of redundancy is
the determinism of traffic forwarding through a specific interface
rather than statistical per flow load balancing across multiple PEs
providing multi-homing. The determinism provided by active-standby
per interface is also required for certain QOS features to work.
While using this mode, customers also expect minimized convergence
during failures. A new term of load-balancing mode "port-active load-
balancing" is then defined.
This draft describes how that new redundancy mode can be supported
via EVPN.
+-----+
| PE3 |
+-----+
+-----------+
| MPLS/IP |
| CORE |
+-----------+
+-----+ +-----+
| PE1 | | PE2 |
+-----+ +-----+
| |
I1 I2
\ /
\ /
+---+
|CE1|
+---+
Figure 1. MC-LAG topology
Figure 1 shows a MC-LAG multi-homing topology where PE1 and PE2 are
part of the same redundancy group providing multi-homing to CE1 via
interfaces I1 and I2. Interfaces I1 and I2 are Bundle-Ethernet
interfaces running LACP protocol. The core, shown as IP or MPLS
enabled, provides wide range of L2 and L3 services. MC-LAG multi-
homing functionality is decoupled from those services in the core and
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it focuses on providing multi-homing to CE. With per-port
active/standby redundancy, only one of the two interface I1 or I2
would be in forwarding, the other interface will be in standby. This
also implies that all services on the active interface are in active
mode and all services on the standby interface operate in standby
mode.
1.1 Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in
BCP14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals, as shown here.
2. Multi-Chassis Ethernet Bundles
When a CE is multi-homed to a set of PE nodes using the [802.1AX]
Link Aggregation Control Protocol (LACP), the PEs must act as if they
were a single LACP speaker for the Ethernet links to form a bundle,
and operate as a Link Aggregation Group (LAG). To achieve this, the
PEs connected to the same multi-homed CE must synchronize LACP
configuration and operational data among them. InterChassis
Communicated-based Protocol (ICCP) has been used for that purpose.
EVPN LAG simplifies greatly that solution. Along with the
simplification comes few assumptions:
- CE device connected to Multi-homing PEs may has a single LAG with
all its active links i.e. Links in the Ethernet Bundle operate in
all-active load-balancing mode.
- Same LACP parameters MUST be configured on peering PEs such as
system id, port priority and port key.
Any discrepancies from this list is left for future study.
Furthermore, mis-configuration and mis-wiring detection across
peering PEs are also left for further study.
3. Port-active load-balancing procedure
Following steps describe the proposed procedure with EVPN LAG to
support port-active load-balancing mode:
1- The Ethernet-Segment Identifier (ESI) MUST be assigned per access
interface as described in [RFC7432], which may be auto derived or
manually assigned. Access interface MAY be a Layer-2 or Layer3
interface. The usage of ESI over L3 interfce is newly described in
this document.
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2- Ethernet-Segment MUST be configured in port-active load-balancing
mode on peering PEs for specific access interface
3- Peering PEs MAY exchange only Ethernet-Segment route (Route Type-
4) when ESI is configured on a Layer3 interface.
4- PEs in the redundancy group leverage the DF election defined in
[RFC8584] to determine which PE keeps the port in active mode and
which one(s) keep it in standby mode. While the DF election defined
in [RFC8584] is per <ES, Ethernet Tag> granularity, for port-active
mode of multi-homing, the DF election is done per <ES>. The details
of this algorithm are described in Section 4.
5- DF router MUST keep corresponding access interface in up and
forwarding active state for that Ethernet-Segment
6- Non-DF routers MAY bring and keep peering access interface
attached to it in operational down state. If the interface is running
LACP protocol, then the non-DF PE MAY also set the LACP state to OOS
(Out of Sync) as opposed to interface state down. This allows for
better convergence on standby to active transition.
7- For EVPN-VPWS service, the usage of primary/backup bits of EVPN
Layer2 attributes extended community [RFC8214] is highly recommended
to achieve better convergence.
4. Algorithm to elect per port-active PE
The ES routes, running in port-active load-balancing mode, are
advertised with a new capability in the DF Election Extended
Community as defined in [RFC8584]. Moreover, the ES associated to the
port leverages existing procedure of single-active, and signals
single-active bit along with Ethernet-AD per-ES route. Finally, as in
RFC7432, the ESI-label based split-horizon procedures should be used
to avoid transient echo'ed packets when L2 circuits are involved.
4.1 Capability Flag
[RFC8584] defines a DF Election extended community, and a Bitmap
field to encode "capabilities" to use with the DF election algorithm
in the DF algorithm field. Bitmap (2 octets) is extended by the
following value:
1 1 1 1 1 1
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|D|A| |P| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
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Figure 2 - Amended Bitmap field in the DF Election Extended Community
- Bit 0: 'Don't Preempt' bit, as explained in [PREF-DF].
- Bit 1: AC-Influenced DF Election, as explained in [RFC8584].
- Bit 5: (corresponds to Bit 25 of the DF Election Extended
Community and it is defined by this document):
P bit or 'Port Mode' bit (P hereafter), determines
that the DF-Algorithm should be modified to consider
the port only and not the Ethernet Tags.
4.2 Modulo-based Designated Forwarder Algorithm
The default DF Election algorithm, or modulus-based algorithm as in
[RFC7432] and updated by [RFC8584], is used here, at the granularity
of <ES> only. Given the fact, ES-Import RT community inherits from
ESI only byte 1-7, many deployments differentiate ESI within these
bytes only. For Modulo calculation, bytes [3-7] are used to determine
the designated forwarder using Modulo-based DF assignment.
4.3 HRW Algorithm
Highest Random Weight (HRW) algorithm defined in [RFC8584] MAY also
be used and signaled, and modified to operate at the granularity of
<ES> rather than per <ES, VLAN>.
[RFC8584] describes computing a 32 bit CRC over the concatenation of
Ethernet Tag and ESI. For port-active load-balancing mode, the
Ethernet Tag is simply removed from the CRC computation.
4.4 Preferred-DF Algorithm
When the new capability 'Port-Mode' is signaled, the algorithm is
modified to consider the port only and not any associated Ethernet
Tags. Furthermore, the "port-based" capability MUST be compatible
with the 'DP' capability (for non-revertive). The AC-DF bit MUST be
set to zero. When an AC (sub-interface) goes down, it does not
influence the DF election.
5. Convergence considerations
To improve the convergence, upon failure and recovery, when port-
active load-balancing mode is used, some advanced synchronization
between peering PEs may be required. Port-active is challenging in a
sense that the "standby" port is in down state. It takes some time to
bring a "standby" port in up-state and settle the network. For IRB
and L3 services, ARP / ND cache may be synchronized. Moreover,
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associated VRF tables may also be synchronized. For L2 services, MAC
table synchronization may be considered.
Finally, for Bundle-Ethernet interface where LACP is running the
ability to set the "standby" port in "out-of-sync" state aka "warm-
standby" can be leveraged.
6. Applicability
A common deployment is to provide L2 or L3 service on the PEs
providing multi-homing. The services could be any L2 EVPN such as
EVPN VPWS, EVPN [RFC7432], etc. L3 service could be in VPN context
[RFC4364] or in global routing context. When a PE provides first hop
routing, EVPN IRB could also be deployed on the PEs. The mechanism
defined in this draft is used between the PEs providing the L2 and/or
L3 service, when the requirement is to use per port active.
A possible alternate solution is the one described in this draft is
MC-LAG with ICCP [RFC7275] active-standby redundancy. However, ICCP
requires LDP to be enabled as a transport of ICCP messages. There are
many scenarios where LDP is not required e.g. deployments with VXLAN
or SRv6. The solution defined in this draft with EVPN does not
mandate the need to use LDP or ICCP and is independent of the
underlay encapsulation.
7. Overall Advantages
The use of port-active multi-homing brings the following benefits to
EVPN networks:
- Open standards based per interface single-active redundancy
mechanism that eliminates the need to run ICCP and LDP.
- Agnostic of underlay technology (MPLS, VXLAN, SRv6) and associated
services (L2, L3, Bridging, E-LINE, etc).
- Provides a way to enable deterministic QOS over MC-LAG attachment
circuits
- Fully compliant with [RFC7432], does not require any new protocol
enhancement to existing EVPN RFCs.
- Can leverage various DF election algorithms e.g. modulo, HRW, etc.
- Replaces legacy MC-LAG ICCP-based solution, and offers following
additional benefits:
- Efficiently supports 1+N redundancy mode (with EVPN using BGP
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RR) where as ICCP requires full mesh of LDP sessions among PEs in
redundancy group
- Fast convergence with mass-withdraw is possible with EVPN, no
equivalent in ICCP
- Customers want per interface single-active redundancy, but don't
want to enable LDP (e.g. they may be running VXLAN or SRv6 in the
network). Currently there is no alternative to this.
8 Security Considerations
The same Security Considerations described in [RFC7432] are valid for
this document.
9 IANA Considerations
This document solicits the allocation of the following values:
o Bit 5 in the [RFC8584] DF Election Capabilities registry,
with name "P"(port mode load-balancing) Capability" for
port-active ES.
10 References
10.1 Normative References
[RFC7432] Sajassi, A., Ed., Aggarwal, R., Bitar, N., Isaac, A.,
Uttaro, J., Drake, J., and W. Henderickx, "BGP MPLS-Based
Ethernet VPN", RFC 7432, DOI 10.17487/RFC7432, February
2015, <https://www.rfc-editor.org/info/rfc7432>.
[RFC8214] Boutros, S., Sajassi, A., Salam, S., Drake, J., and J.
Rabadan, "Virtual Private Wire Service Support in Ethernet
VPN", RFC 8214, DOI 10.17487/RFC8214, August 2017,
<https://www.rfc-editor.org/info/rfc8214>.
[RFC8584] Rabadan, J., Ed., Mohanty, S., Ed., Sajassi, A., Drake,
J., Nagaraj, K., and S. Sathappan, "Framework for Ethernet
VPN Designated Forwarder Election Extensibility",
RFC 8584, DOI 10.17487/RFC8584, April 2019,
<https://www.rfc-editor.org/info/rfc8584>.
10.2 Informative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
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Requirement Levels", BCP 14, RFC 2119, DOI
10.17487/RFC2119, March 1997, <https://www.rfc-
editor.org/info/rfc2119>.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in
RFC 2119 Key Words", BCP 14, RFC 8174, DOI
10.17487/RFC8174, May 2017, <https://www.rfc-
editor.org/info/rfc8174>.
[RFC4364] Rosen, E. and Y. Rekhter, "BGP/MPLS IP Virtual Private
Networks (VPNs)", RFC 4364, DOI 10.17487/RFC4364, February
2006, <https://www.rfc-editor.org/info/rfc4364>.
[RFC7275] Martini, L., Salam, S., Sajassi, A., Bocci, M.,
Matsushima, S., and T. Nadeau, "Inter-Chassis
Communication Protocol for Layer 2 Virtual Private Network
(L2VPN) Provider Edge (PE) Redundancy", RFC 7275, DOI
10.17487/RFC7275, June 2014, <https://www.rfc-
editor.org/info/rfc7275>.
[PREF-DF] Rabadan et al. "Preference-based EVPN DF Election",
draft-ietf-bess-evpn-pref-df, work-in-progress, June,
2019.
Authors' Addresses
Patrice Brissette
Cisco Systems
EMail: pbrisset@cisco.com
Ali Sajassi
Cisco Systems
EMail: sajassi@cisco.com
Luc Andre Burdet
Cisco Systems
EMail: lburdet@cisco.com
Samir Thoria
Cisco Systems
EMail: sthoria@cisco.com
Jorge Rabadan
Nokia
Email: jorge.rabadan@nokia.com
Bin Wen
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Comcast
Email: Bin_Wen@comcast.com
Edward Leyton
Verizon
Email: edward.leyton@verizonwireless.com
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