Internet-Draft | All PEs as DF | May 2022 |
Dikshit & Joshi | Expires 2 December 2022 | [Page] |
The Designated forwarder concept is leveraged to prevent looping of BUM traffic into tenant network sourced across NVO fabric for multihoming deployments. [RFC7432] defines a preliminary approach to select the DF for an ES,VLAN or ES,Vlan Group, panning across multiple NVE's. [RFC8584] makes the election logic more robust and fine grained by inculcating fair election of DF handling most of the prevalent use-cases. This document presents a deployment problem and a corresponding solution which cannot be easily resolve by rules mentioned in [RFC7432] and [RFC8584]. It involves redundant firewall deployment on disparate overlay sites connected over WAN. The requirement is to allow reachability, ONLY, to the local firewall, unless there is an outage. In case of outage the reachability can be extended to remote site's firewall over WAN.¶
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.¶
Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at https://datatracker.ietf.org/drafts/current/.¶
Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress."¶
This Internet-Draft will expire on 2 December 2022.¶
Copyright (c) 2022 IETF Trust and the persons identified as the document authors. All rights reserved.¶
This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (https://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Revised BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Revised BSD License.¶
DF: Designated Forwarder as defined in [RFC7432].¶
VTEP: Virtual Tunnel End Point or Vxlan Tunnel End Point¶
The Designated forwarder concept is leveraged to prevent looping of BUM traffic into tenant network sourced across NVO fabric for multihoming deployments. [RFC7432] defines a preliminary approach to select the DF for an ES,VLAN or ES,Vlan Group, panning across multiple NVE's. [RFC8584] makes the election logic more robust and fine grained by inculcating fair election of DF handling most of the prevalent use-cases. This document presents a deployment problem and a corresponding solution which cannot be easily resolve by rules mentioned in [RFC7432] and [RFC8584]. It involves redundant firewall deployment on disparate overlay sites connected over WAN. The requirement is to allow reachability, ONLY, to the local firewall, unless there is an outage. In case of outage the reachability can be extended to remote site's firewall over WAN.¶
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in [RFC2119].¶
When used in lowercase, these words convey their typical use in common language, and they are not to be interpreted as described in [RFC2119].¶
It's a typical deployment case of Firewall devices, also configured as default gateway for NVO fabric. The default gateways inturn redirects traffic to firewalls over a shared vlan. This example, for simplicity, assumes the former case wherein firewall is also configured as default gateway for all VLANs on the site (SITE-1 and SITE-2).¶
All PEs(Vtep1 and Vtep2 in below example) in the diagram are attached to same ES and both intend to act act as DF for the broadcast domain (BD-1) for their respective sites. As already mentioned, this is a typical case of firewall-gateways (active/active) across fabrics (sites). The preferred firewall-gateway is the one local to the site. All ARP broadcast request generated for the gateway are directed to the local firewall and NOT to the remote one.¶
Whereas, upon failure of the local firewall, all packets orginating from the affected site, including broadcast packets like ARP requests, need to be redirected (over WAN, via DCI/VPN) towards the remote site firewall. The firewall-device is connected to it's first-hop vtep over the same bridge-domain and same ESI across all sites.¶
All in all, it's an emulated multi-homing scenario. This is a scenario of firewall devices hosting same(IP and MAC) credentials.¶
The following details out the problem further. There are two sites, SITE-1 and SITE-2 in the below diagram. Traffic (including BUM) generated by Host1 (in SITE-1) (for a bridge-domain) should run through site-local firewall instance (firewall_1) preferably and should not be leaked to the remote sites.¶
Only in case of local-outage, the traffic should be send across over WAN to the remote firewall (firewall_2). Same should apply to traffic generated by Host2 (in SITE-2), wherein, it should ONLY run through the local firewall (firewall_2), unless there is local-firewall. In that case should go over the WAN towards remote sites firewall, firewall_1.¶
Vtep1 and/or Vtep2 learn the firewall MAC (MAC_F) as a local host learning and also from the remote vteps, Vtep2 and Vtep1, respectively. But since both the learnings are over the same ESI, it should not lead to MAC move. Cometh the local firewall failure, Vtep1 or Vtep2 should start redirecting the traffic to remote SITE firewall, firewall_2 and firewall_1, respectively. Any ARP request (BUM traffic) for firewall credentials landing at either Vtep1 or Vtep2 from the remote fabric, should then be flooded to network or LAN towards the locally connected firewall.¶
The control plane part of the solution can be leveraged from the 'DF Election Extended Community' described in [RFC8584]. Since the requirement is to ensure all the PEs attached to ESI, forward the BUM traffic arriving from hosts connected to local NVO fabric towards the Attachment circuits (ACs), that are configured over the ES for a BD (broadcast or bridge domain) mapped to Vlan or bundle of Vlans. As explained in the above section, that this is a case, where PEs are in disparate networks and the ACs behind them are not connected to common physical device, even though they are part of the same ES. The diagram gives an overview of the network or deployment in contention.¶
This document proposes a new mode of DF-election called 'ALL-PEs-DF', where-in, all the pariticipating PEs, intend to play DF role for subset of vlan(s) enabled on an ESI. This requires "DF Election Extended Community" to carry this information with the ES route to indicate it to remote PEs. This ensures all PEs receiving BUM traffic over NVO fabric destined to ESI, BD, SHOULD flood it on the associated ES on the access/tenant side. A PE device MAY be explicitly configured to choose the ALL-PEs-DF mode.¶
The All-PEs-DF mode is used as follows:¶
When a PE receives the ES routes from all the other PEs, for the ES in question, carrying the ALL-PEs-DF mode set, in 'DF Election Extended Community', it SHOULD, check to see if all the advertisements have the Extended Community with 'All-DF-mode' set as 'DF Algo'. If yes, then PE SHOULD ignore the 'Bitmap' and 'Rsvd' field in the extended community. As also mentioned in [RFC8584] , even if, a single advertisement for Route Type 4 is received without the locally configured DF Alg and capability, the default DF election algorithm MUST be used as mandated in [RFC7432].¶
The BGP-EVPN control plane extension, as mentioned in this document, helps in resolving the problem decsribed in Section 4. If PEs, Vtep1 and Vtep2 are configured to use ALL-PEs-DF mode, then any BUM traffic from respective local hosts Host1/Host2 connected to the EVPN fabric, SHOULD get redirected towards the AC for the ESI,Vlan to which the firewall_1/firewall_2 (respectively) is attached. For example the arp-request for the Firewall IP will be honored by the Firewall_1 behind the Vtep1 which receives the ARP-request. Whereas, when Vtep2 receives the arp-request it will be honored by Firewall_2. Vtep1 and Vtep2 will publish the arp-request in their respective ACs attached to the firewall on which Vlan,ESI is configured and enabled¶
Since All-DF-algo is special mode and not exactly an algorithm, which requires the participation of all PEs for an ESI, VLAN. Hence, even if one PE publishes an algo which is NOT "All-DF-mode", other PEs SHOULD revert back to default algorithm. The reason being that, if there are PE1, PE2, PE3 and PE4 in contention. PE1 and PE2 publishes DF Algo 'ALL-PEs-DF', PE3 publishes '0' and PE4 publishes '1'. Once this mismatch is perceived, all PEs SHOULD try and converge towards the default mode. An admin intervention may be required to achieve the same or to converge on any other supported 'DF Algo'.¶
As prescribed in [RFC8584], PEs not supporting (hence not publishing) 'ALL-PEs-DF', SHOULD ignore the processing of the 'DF Election Extended Community' and SHOULD indulge in DF-election using the default aglorithm mentioned in [RFC7432]. The PEs configured with this new alogrithm (hence publishing it), if receive Route Type 4 without 'DF Election Extended Community', SHOULD also revert back to default algorithm. If PEs receive Route Type 4 with another algorithm published in 'DF Election Extended Community', then it should follow procedures prescribed in Section 6.¶
There is no impact on the local-bias handling, as the PE receiving the BUM from access side over {ESI, VLAN} and relays it to other PEs that published {ESI, VLAN} in Route Type 4; the receiving side PEs will not relay it to EVPN fabric nor will they redirect it to same ESI configured with same VLAN on the access/tenant side.¶
This document inherits all the security considerations discussed in [RFC7432] and [RFC8584].¶
This document inherits all the IANA considerations discussed in [RFC7432] and [RFC8584].¶
The authors want to thank Jorge Rabadan and Luc Andre for their valuable comment. They also advised on other potential solution while helping in paraphrasing the problem statement.¶