Routing Area Working Group S. Hares Internet-Draft Hickory Hill Consulting Intended status: Informational February 18, 2013 Expires: August 22, 2013 Use Cases for Virtual Connections on Demand (VCoD) and Virtual Network on Demand using Interface to Routing System draft-hares-i2rs-use-case-vn-vc-00 Abstract Software Defined Networks (SDN) provide a way to virtualize and abstract the network and present the virtual or abstract resources to the third-party applications running in software. The application can utilize a programmable interface to receiving these virtual or abstract resources in a form that allows monitoring or manipulation of resources. Various programmatic interfaces have been proposed to interface directly to the forwarding plane (OpenFlow, ForCES), or do device configuration (NETCONF). ALTO has proposed a informational interface to the application. Only the progammatic Interface to the Routing System (IRS) provides an interface directly to the routing system to utilize all aspects of the routing system as a system. The IRS system interacts with the control plane processes to monitor best paths to any destination and to change the routing information base (RIB) or MPLS label information Base (LIB) which feeds the forwarding tables the information needed to actually switch traffic at a local level. This document outlines how SDN networks can use the IRS interface to implement an automated set of network services for Virtual Connection on Demand (VCoD) and Virtual Network on Demand (VNoD) 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." Hares Expires August 22, 2013 [Page 1] Internet-Draft IRS Use Cases VCoD VNoD February 2013 This Internet-Draft will expire on August 22, 2013. 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 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. Hares Expires August 22, 2013 [Page 2] Internet-Draft IRS Use Cases VCoD VNoD February 2013 Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 4 2. Background . . . . . . . . . . . . . . . . . . . . . . . . . . 4 3. Virtual Circuit on Demand . . . . . . . . . . . . . . . . . . 6 4. Virtual Network on Demand (VNoD) . . . . . . . . . . . . . . . 8 5. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 9 6. Security Considerations . . . . . . . . . . . . . . . . . . . 10 7. Normative References . . . . . . . . . . . . . . . . . . . . . 10 Author's Address . . . . . . . . . . . . . . . . . . . . . . . . . 11 Hares Expires August 22, 2013 [Page 3] Internet-Draft IRS Use Cases VCoD VNoD February 2013 1. Introduction The Interface to the Routing System Framework [IRS] desribes a mechanism where the distributed control plane can be augmented by an outside control plane through an open, accessible interface, including the Routing Information Base (RIB) and the label interface (LIB) individual devices. IRS provides a "halfway point" between completely replacing the traditional distributed control planes and directly configure devices via off-board processes. This draft proposes a set of use cases to use IRS mechanisms to implement a Software Defined Network (SDN) with virtual connections and virtual networks as automated services. This document focuses on how IRS would support two automated network services: Virtual Connection on Demand (VCoD) and Virtual Network on Demand (VNoD). The SDN service provides the basic connection and a guidance ("self- help") functionality. This paper contains a background section, a use case for IRS in VCoD, and a use case for IRS in VNoD. SDN is a new adventure for the Internet space. Each new adventure in the Internet space requires lots of use cases so that the IETF may determine the critical protocols. 2. Background Applications and network layer flows have run independently since the Internet started in the late 1980s. Provisioning of network servivces and big flows has been done by service providers statically or with proprietary. Recently, new server and host technologies have increase application data traffic flows across the network. With the advent of data center providers and cloud services, applications life cycles have shortened to weeks rather than years. The need for fast automated provisioning of virtual network connections or quick provisioning of virtual private networks has increased. Software Defined Neworks have have three areas of challenge to provide such quick network services: a) how to control the network flows, b) interfaces to networks, and c) how do calculate where these network flows go. Network flows can be controlled at the forwarding device level or the network control plane level. Various progammable interfaces have been proposed to provide control over individual forwarding devices. OpenFlow, for instance, provides a mechanism to replace the dynamic control plane processes on individual forwarding devices throughout a Hares Expires August 22, 2013 [Page 4] Internet-Draft IRS Use Cases VCoD VNoD February 2013 network with off box processes that interact with the forwarding tables on each device. Another example is NETCONF, which provides a fast and flexible mechanism to interact with device configuration and policy. The tradeoff with the device level approach to control flows has to do with benefits and challenges of having control systems off-board. The benefit of off-board control systems is that the calculation unit can be centralized. The challenge of the off-board control system has a technical challenge and a deployment challenge. The technical challenge is that off-board control systems may encounter time-delays and communication failure. The deployment issues concerns utilizing new protocols for this communication which may also have issues in deployment. The promised benefits of off-board devices are reduction in operational costs, improving scaling, control, and visiblity. OpenFlow, for instance, provides a mechanism to replace the dynamic control plane processes on individual forwarding devices throughout a network with off box processes that interact with the forwarding tables on each device. Another example is NETCONF, which provides a fast and flexible mechanism to interact with device configuration and policy. The Interface to Routing System (IRS) interface provides an interface to all aspects of the routing system as a system. This interface allows the SDN approach to utilize the existing control plane software without changing it. The IRS system interacts with the control plane processes to monitor best paths to any destination and to interact with the routing information base (RIB) or MPLS label information base (LIB) which feeds the forwarding tables the information needed to actually switch traffic at a local level. Let us turn to the next challenge, the interface to the applciations. Many academic efforts (e.g. Internet) have examined the benefits in allowing applications to obtain more network information when making decisions on how connect webs of interfaces. Recently, the IETF ALTO protocol has been charted to provide resource information for peer- to-peer applications. Expansions to ALTO's application interface have been proposed to pass information regarding bandwidth and network topologies. This ALTO work may apply to some large flow Virtual Connections or Virtual Private networks need. However, these ALTO use cases do not necessarily consider the on-demand issues or IRS. This document presents these use cases. This document describes a set of use cases which describe how automated creation of Virtual Connection on Demand (VCoD) and Virtual Networks On Demand (VNoD) based in SDN logic can be accomplished by using an interface to the routing system (IRS). Hares Expires August 22, 2013 [Page 5] Internet-Draft IRS Use Cases VCoD VNoD February 2013 There are several types of network services that can be considered as network services over which virtual connections or virtual networks can be created. These network services include: optical, Ethernet (VLAN and SPB), Internet Protocol (IP), Multiprotocol Label Switching (MPLS). Each of these networks can provide traffic engineered paths, olicy control (e.g. Access control Lists (ACLs)), security services, or some form of virtual LAN services (VLAN, VxAN, L2/L3 VPN). The examples in this document focus on the transport and VPN related services that can be abstracted into Virtual Connection (VC) and Virtual Network (VN). These abstract services (VC or VN) are logical services that can be mapped to specific services. For example, a flow can be mapped to a flow such as OpenFlow might provision through a set of networks. Or a Flow might be mapped to a TE-LSP. These logical services provide a uniform abstract service model that allows applications to configure VC or VN services independent of the actual network technology implementing it. The use cases below leverage the SDN architecture and model and the IRS Frmewaork to implement Virtual Circuit on Demand (VCoD) and Virtual Network on Demand (VNoD). Please note that this draft builds on the premise that SDN solutions can augment rather than replace traditional distributed control planes. Each use case is presented in its own section. 3. Virtual Circuit on Demand The Virtual circuit on demand (VCoD) first needs to discover where the IRS commissioners acting as controllers are. After selecting the IRS commissioner which will control the VCoD circuit, the application sends a requests to create, delete, modify or query circuits. At this point, the IRS Controller takes these requests and performs the appropriate operations. The discovery protocol and these communications are outside the IRS protocol and framework. The protocol could be ALTO that informs application which IRS commissioner can support VCoD service. Once the IRS Commissioner is chartered with the task of setting up virtual circuits, the IRS Commission will communicate with the IRS Agents in the nodes (routing/switching/optial) to set-up these virtual circuits. In the example topoology below, IRS Commissioner 1 has received a request to set up a Virtual circuit from edge 1 to edge 2. The IRS commmissioner works with the IRS Agent1 on node 1, the IRS Agent 2 on node 2, the IRS Agent 3 on node 3, and the IRS Agent 4 on node 4 to set up the virtual circuit. IRS Commissioner 1 Hares Expires August 22, 2013 [Page 6] Internet-Draft IRS Use Cases VCoD VNoD February 2013 is a VCoD capable IRS commissioner with logic to aid set-up, monitoring, changing, and decommissioning of this circuit. IRS Agents 1-4 contain the necessary logic to translate the IRS Commissioner's commands to create the virtual circuit's link on their interface. The IRS framework defines the portion of this system that goes from the VCoD-capable IRS commissioner to/from the VCoD-capable IRS Agents. The IRS Commissioner can request information from the IRS Agent such as topology or interface statics or available circuits, and influence how the IRS Agents create the circuits. The topology information passed between the IRS commission and Agent would include for this application possible virtual connections to a destination and the available bandwidth on that circuit. The interface statistics exchanged could involve historical or instant statistics on exit point performance, jitter, delay. The available of circuits could involve any time-based availabilty for on-demand future usage. Past solutions in this area have included uses of device configuration across multiple nodes (SNMP or NETCONF based) with proprietary services combined with topology queries. The lack of a coordinated responses to routing topology queries has created problems in quickly obtaining and configuring changes for Virtual Circuits. New algorithms services in routing/switch such as Fast- Reroute of RSVP or IGPs have aided the automatic re-establishment of some circuits, but the complexity of some of these algorithms increases cost within the network elements. It's often difficult to justify the added complexity in the database and algorithms of routing protools to solve what is considered a point case. The following things need to be supported for this application: o IRS Agents should provide the ability to read the virtual connection topology database for the technology supported. For optical, these are the optical connections and what node they connect to. For MPLS, this is virtual circuit available, and what nodes they connect to. For IP technologies, this could include the GRE tunnels and what interface it connects to. For Ethernet circuits this should involve circuit type (e.g, point-to-point (p2p) or point-to-multipoint (p2mp)) and what nodes it can reach. o IRS Agent should provide the ability to influence the configuration of a virtual circuit in a node. o IRS Agent should provide monitor and provide statistics on the virtual connection to the IRS Commissioner. The IRS commissioner can then determine if the connection falls below a quality level the application has requested. If the IRS Commissioner does Hares Expires August 22, 2013 [Page 7] Internet-Draft IRS Use Cases VCoD VNoD February 2013 determine the circuit is below the required quality, it could create another circuit. The IRS Commission may choose to create the second virtual circuit, transfer flows, and then break the first circuit. Example Topology for Virtual Circuit on Demand (VCoD). ------------------------- | Application | --------------------------- | | | | +------------------+< Policy +-------------------+< Policy |IRS Commissioner-1|< PCE info |IRS Commissioner-2 |< PCEP |VC controller | | VN controller | +------------------+ +-------------------+ | | |-----------+ | | | | | | | +--------+ +--------+ +---------+ +----------+ | IRS | | IRS | | IRS | | IRS | | Agent-1| |Agent-2 | | Agent-3 | | Agent-4 | |--------| |--------+ +---------+ +----------+ | node 1 | | node 2 | | node 3 | | node 4 | +--------+ +--------+ +---------+ +----------+ | | | | | | edge1 |--------| |------------| | |----edge2 While the set-up of these virtual circuits is possible with current technoloyg, the lack of the IRS-like framework makes VCoD network complex. With this support, VCoD may be able to reduce complexity on the individual nodes. 4. Virtual Network on Demand (VNoD) Virtual Networks on Demand (VNoD) are simply extensions to the Virtual Connections on Demand concept. The IRS Commissioner is tasked to create a Virtual network instead of a single connection. The example sequence would be that the application discovers IRS Commission-2 who is a VNoD via a protocol outside the IRS framework (e.g. ALTO). The IRS Commissioner-2 works with the IRS AGents 1-4 to set-up a virtual network. This involves the following: Hares Expires August 22, 2013 [Page 8] Internet-Draft IRS Use Cases VCoD VNoD February 2013 o gathering potential topology information (in order to create the network, o set-up the virtual network (via influencing configurations on node), o monitoring changes in topology (in order to potential failovers, o influencing changes to virtual network via configurations, and o removing the virtual network after the demand has epxired. -------------------------- | Application | --------------------------- | | | | +------------------+< Policy +-------------------+< Policy |IRS Commissioner-1|< PCE info |IRS Commissioner-2 |< PCEP |VC controller | | VN controller | +------------------+ +-------------------+ | | | | |----------------------------+ | | | | +------------------ | | | | | | +--------+ +--------+ +---------+ +----------+ | IRS | | IRS | | IRS | | IRS | | Agent-1| |Agent-2 | | Agent-3 | | Agent-4 | |--------| |--------+ +---------+ +----------+ | node 1 | | node 2 | | node 3 | | node 4 | +--------+ +--------+ +---------+ +----------+ | | | | | | | | | | |--------| |------------| | +------+ |-end-point-3 | | | end-point-1 | |----end-point2 This topology shares some configuration needs with the central membership computation for MPLS VPNs from (draft-white-irs-use-cases) but the mechanisms are not specific to MPlS VPNS. 5. IANA Considerations This document includes no request to IANA. Hares Expires August 22, 2013 [Page 9] Internet-Draft IRS Use Cases VCoD VNoD February 2013 6. Security Considerations This document has no security issues as just contains use cases. 7. Normative References [I-D.amante-irs-topology-use-cases] Amante, S., Medved, J., and T. Nadeau, "Topology API Use Cases", draft-amante-irs-topology-use-cases-00 (work in progress), October 2012. [I-D.atlas-irs-policy-framework] Atlas, A., Hares, S., and J. Halpern, "A Policy Framework for the Interface to the Routing System", draft-atlas-irs-policy-framework-00 (work in progress), September 2012. [I-D.atlas-irs-problem-statement] Atlas, A., Nadeau, T., and D. Ward, "Interface to the Routing System Problem Statement", draft-atlas-irs-problem-statement-00 (work in progress), July 2012. [I-D.bernstein-alto-large-bandwidth-cases] Bernstein, G. and Y. Lee, "Use Cases for High Bandwidth Query and Control of Core Networks", draft-bernstein-alto-large-bandwidth-cases-02 (work in progress), July 2012. [I-D.medved-irs-topology-requirements] Medved, J., Gredler, H., Previdi, S., and S. Amante, "Topology API Requirements", draft-medved-irs-topology-requirements-00 (work in progress), October 2012. [I-D.rfernando-irs-framework-requirement] Fernando, R., Medved, J., Ward, D., Atlas, A., and B. Rijsman, "IRS Framework Requirements", draft-rfernando-irs-framework-requirement-00 (work in progress), October 2012. [I-D.ward-irs-framework] Atlas, A., Nadeau, T., and D. Ward, "Interface to the Routing System Framework", draft-ward-irs-framework-00 (work in progress), July 2012. [I-D.white-irs-use-case] Hares Expires August 22, 2013 [Page 10] Internet-Draft IRS Use Cases VCoD VNoD February 2013 White, R., Hares, S., and R. Fernando, "Use Cases for an Interface to the Routing System", draft-white-irs-use-case-00 (work in progress), September 2012. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. Author's Address Susan Hares Hickory Hill Consulting 7453 Hickory Hill Saline, CA 48176 USA Email: shares@ndzh.com Hares Expires August 22, 2013 [Page 11]