Internet Engineering Task Force E. Gray, Ed. Internet-Draft Ericsson Intended status: Informational N. Bitar Expires: January 16, 2014 Verizon X. Chen Huawei Technologies M. Lasserre Alcatel-Lucent T. Tsou Huawei Technologies (USA) July 15, 2013 NVO3 Gap Analysis - Requirements Versus Available Technology Choices draft-gbclt-nvo3-gap-analysis-00 Abstract This document evaluates candidate protocols against the NVO3 requirements. Gaps are identified and further work recommended. Status of This Memo 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 http://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 January 16, 2014. Copyright Notice Copyright (c) 2013 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 (http://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 Gray, et al. Expires January 16, 2014 [Page 1] Internet-Draft NVO3 Gap Analysis July 2013 to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2 2. Terminology and Conventions . . . . . . . . . . . . . . . . . 3 2.1. Requirements Language . . . . . . . . . . . . . . . . . . 3 2.2. Conventions . . . . . . . . . . . . . . . . . . . . . . . 3 2.3. Terms and Abbreviations . . . . . . . . . . . . . . . . . 3 3. Operational Requirements . . . . . . . . . . . . . . . . . . 4 4. Management Requirements . . . . . . . . . . . . . . . . . . . 4 5. Control Plane Requirements . . . . . . . . . . . . . . . . . 4 5.1. Overall Control-Plane Requirements . . . . . . . . . . . 5 5.2. VM-to-NVE Specific Control-Plane Requirements . . . . . . 7 6. Data Plane Requirements . . . . . . . . . . . . . . . . . . . 9 7. Summary and Conclusions . . . . . . . . . . . . . . . . . . . 14 8. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 14 9. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 15 10. Security Considerations . . . . . . . . . . . . . . . . . . . 15 11. References . . . . . . . . . . . . . . . . . . . . . . . . . 15 11.1. Normative References . . . . . . . . . . . . . . . . . . 15 11.2. Informative References . . . . . . . . . . . . . . . . . 17 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 17 1. Introduction The initial charter of the NVO3 Working Group requires it to identify any gaps between the requirements identified and available technoloogy solutions as a prerequisite to rechartering or concluding the Working Group (if no gaps exist). This document is intended to provide the required gap analysis. This document provides a tabulation of candidate solutions and their ability to satisfy each requirement identified by the Working Group. Areas of work are identified where further work is required to ensure that the requirements are met. The major areas covered in this document include: o Operational Requirements [I-D.ashwood-nvo3-operational-requirement] o Management Requirements (TBD) Gray, et al. Expires January 16, 2014 [Page 2] Internet-Draft NVO3 Gap Analysis July 2013 o Control (Plane) Requirements [I-D.kreeger-nvo3-overlay-cp] o Dataplane Requirements [I-D.ietf-nvo3-dataplane-requirements] Since the Working Group has yet to complete (and in some cases adopt) documents describing requirements for some of these areas, not all areas are complete in the present version of this document. The initial candidate technologies are: o NVGRE [I-D.sridharan-virtualization-nvgre], o VxLAN [I-D.mahalingam-dutt-dcops-vxlan], o L2VPN: VPLS [RFC4761][RFC4762] and EVPN [I-D.ietf-l2vpn-evpn], and o L3VPN [RFC4365]. 2. Terminology and Conventions 2.1. Requirements Language 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 RFC 2119 [RFC2119]. 2.2. Conventions In sections providing analysis of requirements defined in referenced documents, section numbers from each referenced document are used as they were listed in that document. In order to avoid confusing those section numbers with the section numbering in this document, the included numbering is parenthesized. L2VPN is represented (in tables and analysis, as a technology) by the two differing approaches: VPLS and EVPN. 2.3. Terms and Abbreviations This document uses terms and acronyms defined in [RFC3168], [I-D.ietf-nvo3-framework], [I-D.ietf-nvo3-dataplane-requirements], [I-D.kreeger-nvo3-hypervisor-nve-cp] and [I-D.kreeger-nvo3-overlay-cp]. Acronyms are included here for convenience but are meant to remain aligned with definitions in the references included. ECN: Explicit Congestion Notification [RFC3168] Gray, et al. Expires January 16, 2014 [Page 3] Internet-Draft NVO3 Gap Analysis July 2013 NVA: Network Virtualization Authority [I-D.kreeger-nvo3-overlay-cp] NVE: Network Virtualization Edge [I-D.ietf-nvo3-framework] VAP: Virtual Access Point [I-D.ietf-nvo3-dataplane-requirements] VNI: Virtual Network Instance [I-D.ietf-nvo3-framework] VNIC: Virtual Network Interface Card (NIC) [I-D.kreeger-nvo3-hypervisor-nve-cp] VNID: Virtual Network Identifier [I-D.kreeger-nvo3-overlay-cp] This document uses the following additional general terms and abbreviations: DSCP: Differentiated Services Code-Point ECMP: Equal Cost Multi-Path L2VPN: Layer 2 Virtual Private Network L3VPN: Layer 3 Virtual Private Network NVO3: Network Virtualization Overlay over L3 VM: Virtual Machine VN: Virtual Network 3. Operational Requirements TBD 4. Management Requirements TBD 5. Control Plane Requirements The NVO3 Problem Statement [I-D.ietf-nvo3-overlay-problem-statement], describes 3 categories of control functions: 1. Control functions associated with implementing the Network Virtualization Authority (e.g. - signaling and control required for interactions between multiple NVA devices). Gray, et al. Expires January 16, 2014 [Page 4] Internet-Draft NVO3 Gap Analysis July 2013 2. Control functions associated with interactions between an NVA and a Network Virtualization Edge (NVE). 3. Control functions associated with attaching and detaching a Virtual Machine (VM) from a particular Virtual Network Instance (VNI). As sometimes happens, there is not a 1:1 mapping of the work areas defined in [I-D.ietf-nvo3-overlay-problem-statement] and requirements documents intended to address the problems that have been identified there. Current control-plane requirement documents include the following: o Overall control-plane requirements [I-D.kreeger-nvo3-overlay-cp] o Control-plane requirements specific to VM-to-NVE interactions [I-D.kreeger-nvo3-hypervisor-nve-cp] 5.1. Overall Control-Plane Requirements In this section, numbering of requirement headings corresponds to section numbering in [I-D.kreeger-nvo3-overlay-cp]. (3.1) Inner to Outer Address Mapping The requirements document [I-D.kreeger-nvo3-overlay-cp] states that avoiding the need to "flood" traffic to support learning of mapping information from the data-plane is a goal of NVO3 candidate technological approaches. For each candidate technology, (how) is the mapping of header information present in tenant traffic mapped to corresponding header information to be used in overlay encapsulation (this includes addresses, context identification, etc.) determined? +----------------------+---------+---------+-------+-------+--------+ | Supported Approach | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +----------------------+---------+---------+-------+-------+--------+ | Control Protocol | | | | | | | Acquisition? | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | Data-Plane Learning? | | | | | | +----------------------+---------+---------+-------+-------+--------+ Table 1: Inner:Outer Address Mapping (3.2) Underlying Network Multi-Destination Address(es) Gray, et al. Expires January 16, 2014 [Page 5] Internet-Draft NVO3 Gap Analysis July 2013 The requirements document [I-D.kreeger-nvo3-overlay-cp] lists 3 approaches that may be used to deliver traffic to multiple destinations in an overlay virtual network: 1. Use the capabilities of the underlay network. 2. Require a sending NVE to replicate traffic. 3. Use a replication service provided within the overlay network. For each delivery approach, it may be necessary to map specific multipoint (e.g. - broadcast, unknown destination or multicast) traffic to (for instance) addresses used to deliver this traffic via the underlay network. For each technological approach, which delivery approaches are supported and does the technology provide a method by which an NVE needing to send multi-destination traffic can determine to what address, or addresses to which to send this traffic? +---------------------+---------+---------+--------+-------+--------+ | Supported Approach | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +---------------------+---------+---------+--------+-------+--------+ | Underlay Network | | | | | | | Capability | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | NVE Sender | | | | | | | Replication | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | Replication Service | | | | | | +---------------------+---------+---------+--------+-------+--------+ Table 2: Multi-Destination Delivery (3.3) VN Connect/Disconnect Notification The requirements document [I-D.kreeger-nvo3-overlay-cp] states as an assumption that a mechanism exists in the overlay technology by which an NVE is notified of Tenant Systems attaching and detaching from a specific Virtual Network (VN). For each candidate technology, does the technology currently support these functions? +-------------------------+-------+-------+-------+-------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +-------------------------+-------+-------+-------+-------+-------+ | Connect Notification | | | | | | Gray, et al. Expires January 16, 2014 [Page 6] Internet-Draft NVO3 Gap Analysis July 2013 | - - - | - - - | - - - | - - - | - - - | - - - | | Disconnect Notification | | | | | | +-------------------------+-------+-------+-------+-------+-------+ Table 3: Connect/Disconnect Notification (3.4) VN Name to VNID Mapping The requirements document [I-D.kreeger-nvo3-overlay-cp] concludes that having a means to map for a "VN Name to a "VN ID" may be useful. For each technological approach we are considering, is this function currently available? +-----------------------+-------+-------+------+------+-------+ | Function | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +-----------------------+-------+-------+------+------+-------+ | VN-Name:VN-ID Mapping | | | | | | +-----------------------+-------+-------+------+------+-------+ Table 4: VN Name to VN ID Mapping 5.2. VM-to-NVE Specific Control-Plane Requirements In this section, numbering of requirement headings corresponds to section numbering in [I-D.kreeger-nvo3-hypervisor-nve-cp]. (4.1) VN Connect/Disconnect The requirements document [I-D.kreeger-nvo3-hypervisor-nve-cp] states as a requirement that a mechanism must exist by which an NVE is notified when an end device requires a connection, or no longer requires a connection, to a specific Virtual Network (VN). The requirements document further states as a requirement that the mechanism(s) used in a candidate technological approach must provide a local indicator (e.g. - 802.1Q tag) that the end device will use in sending traffic to, or receiving traffic from, the NVE (where that traffic is associated with the connected VN). As an additional related requirement, the requirements document states that the NVE - once notified of a connection to a VN (by VN Name), needs to have a means for getting associated VN context information from the NVA. For each candidate technology, does the technology currently support these functions? Gray, et al. Expires January 16, 2014 [Page 7] Internet-Draft NVO3 Gap Analysis July 2013 +----------------------+---------+---------+-------+-------+--------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +----------------------+---------+---------+-------+-------+--------+ | Connect Notification | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | Local VN Indicator | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | VN Name to VN | | | | | | | Context Mapping | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | Disconnect | | | | | | | Notification | | | | | | +----------------------+---------+---------+-------+-------+--------+ Table 5: VN Connect/Disconnect (4.2) VNIC Address Association The requirements document [I-D.kreeger-nvo3-hypervisor-nve-cp] lists two approaches for acquiring VNIC address association information: 1. Data Plane Learning (i.e. - by inspecting source addresses in traffic received from an end device). 2. Explicit signaling from the end device when a specific VNIC address is to be associated with a tenant system. +----------------------+-------+-------+-------+-------+-------+ | Supported Approaches | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +----------------------+-------+-------+-------+-------+-------+ | Data Plane Learning | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | Explicit Signaling | | | | | | +----------------------+-------+-------+-------+-------+-------+ Table 6: VNIC Address Association (4.3) VNIC Address Disassociation TBD (4.4) VNIC Shutdown/Startup/Migration TBD (4.5) VN Profile TBD Gray, et al. Expires January 16, 2014 [Page 8] Internet-Draft NVO3 Gap Analysis July 2013 6. Data Plane Requirements In this section, numbering of requirement headings corresponds to section numbering in [I-D.ietf-nvo3-dataplane-requirements]. (3.1) Virtual Access Points (VAPs) +------------------------+--------+-------+--------+--------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +------------------------+--------+-------+--------+--------+-------+ | MUST support VAP | | | | | | | identification | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | 1) Local interface | YES | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | 2) Local interface + | YES | | | | | | fields in frame header | | | | | | +------------------------+--------+-------+--------+--------+-------+ Table 7: VAP Identification Requirements (3.2) Virtual Network Instance (VNI) +-------------------------+-------+-------+--------+--------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +-------------------------+-------+-------+--------+--------+-------+ | VAP are associated with | YES | | | | | | a specific VNI at | | | | | | | service instantiation | | | | | | | time. | | | | | | +-------------------------+-------+-------+--------+--------+-------+ Table 8: VAP-VNI Association (3.2.1) L2 VNI +----------------------------+-------+-------+-------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +----------------------------+-------+-------+-------+------+-------+ | L2 VNI MUST provide an | | | | | | | emulated Ethernet | | | | | | | multipoint service as if | | | | | | | Tenant Systems are | | | | | | | interconnected by a bridge | | | | | | | (but instead by using a | | | | | | | set of NVO3 tunnels). | | | | | | | - - - | - - - | - - - | - - - | - - | - - - | | | | | | - | | Gray, et al. Expires January 16, 2014 [Page 9] Internet-Draft NVO3 Gap Analysis July 2013 | Loop avoidance capability | | | | | | | MUST be provided. | | | | | | | - - - | - - - | - - - | - - - | - - | - - - | | | | | | - | | | In the absence of a | | | | | | | management or control | | | | | | | plane, data plane learning | | | | | | | MUST be used to populate | | | | | | | forwarding tables. | | | | | | | - - - | - - - | - - - | - - - | - - | - - - | | | | | | - | | | When flooding is required, | | | | | | | either to deliver unknown | | | | | | | unicast, or broadcast or | | | | | | | multicast traffic, the NVE | | | | | | | MUST either support | | | | | | | ingress replication or | | | | | | | multicast. | | | | | | | - - - | - - - | - - - | - - - | - - | - - - | | | | | | - | | | In this latter case, the | | | | | | | NVE MUST be able to build | | | | | | | at least a default | | | | | | | flooding tree per VNI. | | | | | | +----------------------------+-------+-------+-------+------+-------+ Table 9: L2 VNI Service (3.2.2) L3 VNI +---------------------------+-------+-------+--------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +---------------------------+-------+-------+--------+------+-------+ | L3 VNIs MUST provide | | | | | | | virtualized IP routing | | | | | | | and forwarding. | | | | | | | - - - | - - - | - - - | - - - | - - | - - - | | | | | | - | | | L3 VNIs MUST support per- | | | | | | | tenant forwarding | | | | | | | instance with IP | | | | | | | addressing isolation and | | | | | | | L3 tunneling for | | | | | | | interconnecting instances | | | | | | | of the same VNI on NVEs. | | | | | | +---------------------------+-------+-------+--------+------+-------+ Table 10: L3 VNI Service Gray, et al. Expires January 16, 2014 [Page 10] Internet-Draft NVO3 Gap Analysis July 2013 (3.3.1) NVO3 overlay header +---------------------------+-------+-------+--------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +---------------------------+-------+-------+--------+------+-------+ | An NVO3 overlay header | YES | YES | YES | YES | YES | | MUST be included after | | | | | | | the underlay tunnel | | | | | | | header when forwarding | | | | | | | tenant traffic. | | | | | | +---------------------------+-------+-------+--------+------+-------+ Table 11: Overlay Header (3.3.1.1) Virtual Network Context Identification +---------------------------+-------+-------+--------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +---------------------------+-------+-------+--------+------+-------+ | The overlay encapsulation | YES | YES | YES | YES | YES | | header MUST contain a | | | | | | | field which allows the | | | | | | | encapsulated frame to be | | | | | | | delivered to the | | | | | | | appropriate virtual | | | | | | | network endpoint by the | | | | | | | egress NVE. | | | | | | +---------------------------+-------+-------+--------+------+-------+ Table 12: Virtual Network Context Identification (3.3.1.2) Service QoS identifier +----------------------------+-------+-------+-------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +----------------------------+-------+-------+-------+------+-------+ | Traffic flows originating | NO | | | | | | from different | | | | | | | applications could rely on | | | | | | | differentiated forwarding | | | | | | | treatment to meet end-to- | | | | | | | end availability and | | | | | | | performance objectives. | | | | | | +----------------------------+-------+-------+-------+------+-------+ Table 13: QoS Service Identification (3.3.2.1) LAG and ECMP Gray, et al. Expires January 16, 2014 [Page 11] Internet-Draft NVO3 Gap Analysis July 2013 +-------------------------+-------+-------+--------+--------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +-------------------------+-------+-------+--------+--------+-------+ | For performance | YES | | | | | | reasons, multipath over | | | | | | | LAG and ECMP paths | | | | | | | SHOULD be supported. | | | | | | +-------------------------+-------+-------+--------+--------+-------+ Table 14: Multipath Support (3.3.2.2) DiffServ and ECN marking +---------------------------+-------+-------+--------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +---------------------------+-------+-------+--------+------+-------+ | [RFC2983] defines two | NO | | | | | | modes for mapping the | | | | | | | DSCP markings from inner | | | | | | | to outer headers and vice | | | | | | | versa. Both models SHOULD | | | | | | | be supported. | | | | | | | - - - | - - - | - - - | - - - | - - | - - - | | | | | | - | | | ECN marking MUST be | NO | | | | | | performed according to | | | | | | | [RFC6040] which describes | | | | | | | the correct ECN behavior | | | | | | | for IP tunnels. | | | | | | +---------------------------+-------+-------+--------+------+-------+ Table 15: DSCP and ECN Marking (3.3.2.3) Handling of broadcast, unknown unicast, and multicast traffic +-----------------------------+-------+-------+------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +-----------------------------+-------+-------+------+------+-------+ | NVO3 data plane support for | YES | YES | YES | YES | YES | | either ingress replication | | | | | | | or point-to-multipoint | | | | | | | tunnels is required to send | | | | | | | traffic destined to | | | | | | | multiple locations on a | | | | | | | per-VNI basis (e.g. L2/L3 | | | | | | | multicast traffic, L2 | | | | | | | broadcast and unknown | | | | | | Gray, et al. Expires January 16, 2014 [Page 12] Internet-Draft NVO3 Gap Analysis July 2013 | unicast traffic). | | | | | | +-----------------------------+-------+-------+------+------+-------+ Table 16: Handling of Broadcast, Unknown Unicast, and Multicast Traffic (3.4) External NVO3 connectivity +----------------------------+-------+-------+-------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +----------------------------+-------+-------+-------+------+-------+ | NVO3 services MUST | YES | | | | | | interoperate with current | | | | | | | VPN and Internet services. | | | | | | | This may happen inside one | | | | | | | DC during a migration | | | | | | | phase or as NVO3 services | | | | | | | are delivered to the | | | | | | | outside world via Internet | | | | | | | or VPN gateways. | | | | | | +----------------------------+-------+-------+-------+------+-------+ Table 17: Interoperation (3.5) Path MTU +--------------------------+-------+-------+--------+-------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +--------------------------+-------+-------+--------+-------+-------+ | Classical ICMP-based MTU | NO | | | | | | Path Discovery | | | | | | | ([RFC1191], [RFC1981]) | | | | | | | or Extended MTU Path | | | | | | | Discovery techniques | | | | | | | such as defined in | | | | | | | [RFC4821]. | | | | | | | - - - | - - - | - - - | - - - | - - - | - - - | | Segmentation and | YES | | | | | | reassembly support from | | | | | | | the overlay layer | | | | | | | operations without | | | | | | | relying on the Tenant | | | | | | | Systems to know about | | | | | | | the end-to-end MTU. | | | | | | +--------------------------+-------+-------+--------+-------+-------+ Table 18: Path MTU Gray, et al. Expires January 16, 2014 [Page 13] Internet-Draft NVO3 Gap Analysis July 2013 (3.7) NVE Multi-Homing Requirements +--------------------------+-------+-------+--------+-------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +--------------------------+-------+-------+--------+-------+-------+ | Multi-homing techniques | NO | | | | | | SHOULD be used to | | | | | | | increase the reliability | | | | | | | of an NVO3 network. | | | | | | +--------------------------+-------+-------+--------+-------+-------+ Table 19: Multihoming (3.8) OAM +-----------------------------+-------+-------+------+------+-------+ | Requirement | NVGRE | VxLAN | VPLS | EVPN | L3VPN | +-----------------------------+-------+-------+------+------+-------+ | NVE MAY be able to | NO | | | | | | originate/terminate OAM | | | | | | | messages for connectivity | | | | | | | verification, performance | | | | | | | monitoring, statistic | | | | | | | gathering and fault | | | | | | | isolation. Depending on | | | | | | | configuration, NVEs SHOULD | | | | | | | be able to process or | | | | | | | transparently tunnel OAM | | | | | | | messages, as well as | | | | | | | supporting alarm | | | | | | | propagation capabilities. | | | | | | +-----------------------------+-------+-------+------+------+-------+ Table 20: OAM Messaging 7. Summary and Conclusions TBD 8. Acknowledgements The Authors would like to acknowledge the technical contributions of Florin Balus, Luyuan Fang, Sue Hares, Wim Henderickx, Yuichi Ikejiri, Rangaraju Iyengar, Mircea Pisica, Evelyn Roch, Ali Sajassi, Peter Ashwood-Smith and Lucy Yong as well as the initial help in editing the XML source for the document from Tom Taylor. Gray, et al. Expires January 16, 2014 [Page 14] Internet-Draft NVO3 Gap Analysis July 2013 9. IANA Considerations This memo includes no request to IANA. 10. Security Considerations Security considerations of the requirements documents referenced by this analysis document apply. 11. References 11.1. Normative References [I-D.ashwood-nvo3-operational-requirement] Ashwood-Smith, P., Iyengar, R., Tsou, T., Sajassi, A., Boucadair, M., Jacquenet, C., and M. Daikoku, "NVO3 Operational Requirements", draft-ashwood-nvo3-operational- requirement-02 (work in progress), January 2013. [I-D.ietf-l2vpn-evpn] Sajassi, A., Aggarwal, R., Henderickx, W., Balus, F., Isaac, A., and J. Uttaro, "BGP MPLS Based Ethernet VPN", draft-ietf-l2vpn-evpn-03 (work in progress), February 2013. [I-D.ietf-nvo3-dataplane-requirements] Bitar, N., Lasserre, M., Balus, F., Morin, T., Jin, L., and B. Khasnabish, "NVO3 Data Plane Requirements", draft- ietf-nvo3-dataplane-requirements-01 (work in progress), July 2013. [I-D.ietf-nvo3-framework] Lasserre, M., Balus, F., Morin, T., Bitar, N., and Y. Rekhter, "Framework for DC Network Virtualization", draft- ietf-nvo3-framework-03 (work in progress), July 2013. [I-D.ietf-nvo3-overlay-problem-statement] Narten, T., Gray, E., Black, D., Fang, L., Kreeger, L., and M. Napierala, "Problem Statement: Overlays for Network Virtualization", draft-ietf-nvo3-overlay-problem- statement-03 (work in progress), May 2013. [I-D.kreeger-nvo3-hypervisor-nve-cp] Kreeger, L., Narten, T., and D. Black, "Network Virtualization Hypervisor-to-NVE Overlay Control Protocol Requirements", draft-kreeger-nvo3-hypervisor-nve-cp-01 (work in progress), February 2013. Gray, et al. Expires January 16, 2014 [Page 15] Internet-Draft NVO3 Gap Analysis July 2013 [I-D.kreeger-nvo3-overlay-cp] Kreeger, L., Dutt, D., Narten, T., Black, D., and M. Sridharan, "Network Virtualization Overlay Control Protocol Requirements", draft-kreeger-nvo3-overlay-cp-04 (work in progress), June 2013. [I-D.mahalingam-dutt-dcops-vxlan] Mahalingam, M., Dutt, D., Duda, K., Agarwal, P., Kreeger, L., Sridhar, T., Bursell, M., and C. Wright, "VXLAN: A Framework for Overlaying Virtualized Layer 2 Networks over Layer 3 Networks", draft-mahalingam-dutt-dcops-vxlan-04 (work in progress), May 2013. [I-D.sridharan-virtualization-nvgre] Sridharan, M., Greenberg, A., Venkataramaiah, N., Wang, Y., Duda, K., Ganga, I., Lin, G., Pearson, M., Thaler, P., and C. Tumuluri, "NVGRE: Network Virtualization using Generic Routing Encapsulation", draft-sridharan- virtualization-nvgre-02 (work in progress), February 2013. [RFC1191] Mogul, J. and S. Deering, "Path MTU discovery", RFC 1191, November 1990. [RFC1981] McCann, J., Deering, S., and J. Mogul, "Path MTU Discovery for IP version 6", RFC 1981, August 1996. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC2983] Black, D., "Differentiated Services and Tunnels", RFC 2983, October 2000. [RFC4365] Rosen, E., "Applicability Statement for BGP/MPLS IP Virtual Private Networks (VPNs)", RFC 4365, February 2006. [RFC4761] Kompella, K. and Y. Rekhter, "Virtual Private LAN Service (VPLS) Using BGP for Auto-Discovery and Signaling", RFC 4761, January 2007. [RFC4762] Lasserre, M. and V. Kompella, "Virtual Private LAN Service (VPLS) Using Label Distribution Protocol (LDP) Signaling", RFC 4762, January 2007. [RFC4821] Mathis, M. and J. Heffner, "Packetization Layer Path MTU Discovery", RFC 4821, March 2007. [RFC6040] Briscoe, B., "Tunnelling of Explicit Congestion Notification", RFC 6040, November 2010. Gray, et al. Expires January 16, 2014 [Page 16] Internet-Draft NVO3 Gap Analysis July 2013 [RFC6074] Rosen, E., Davie, B., Radoaca, V., and W. Luo, "Provisioning, Auto-Discovery, and Signaling in Layer 2 Virtual Private Networks (L2VPNs)", RFC 6074, January 2011. 11.2. Informative References [RFC3168] Ramakrishnan, K., Floyd, S., and D. Black, "The Addition of Explicit Congestion Notification (ECN) to IP", RFC 3168, September 2001. Authors' Addresses Eric Gray (editor) Ericsson 120 Morris Avenue Pitman, New Jersey 08071 USA Email: eric.gray@ericsson.com Nabil Bitar Verizon 40 Sylvan Road Waltham, Massachusetts 02145 USA Email: nabil.bitar@verizon.com Xiaoming Chen Huawei Technologies Email: ming.chen@huawei.com Marc Lasserre Alcatel-Lucent Email: marc.lasserre@alcatel-lucent.com Gray, et al. Expires January 16, 2014 [Page 17] Internet-Draft NVO3 Gap Analysis July 2013 Tina Tsou Huawei Technologies (USA) 2330 Central Expressway Santa Clara, California 95050 USA Phone: +1 408 330 4424 Email: Tina.Tsou.Zouting@huawei.com URI: http://tinatsou.weebly.com/contact.html Gray, et al. Expires January 16, 2014 [Page 18]