TEAS Working Group Young Lee (Editor)
Dhruv Dhody
Internet Draft Huawei
Intended status: Informational Sergio Belotti
Nokia
Expires: April 27, 2018
Khuzema Pithewan
Infinera
Daniele Ceccarelli
Ericsson
Takuya Miyasaka
KDDI
Jong Yoon Shin
SKT
Kwang-koog Lee
KT
October 27, 2017
Requirements for Abstraction and Control of TE Networks
draft-ietf-teas-actn-requirements-07.txt
Abstract
This document provides a set of requirements for abstraction and
control of Traffic Engineering networks to facilitate virtual
network operation via the creation of a single virtualized network
or a seamless service. This supports operators in viewing and
controlling different domains (at any dimension: applied technology,
administrative zones, or vendor-specific technology islands) as a
single virtualized network.
Status of this Memo
This Internet-Draft is submitted to IETF in full conformance with
the provisions of BCP 78 and BCP 79.
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Table of Contents
1. Introduction...................................................3
2. High-level ACTN requirements...................................4
2.1. Service-Specific Requirements.............................4
2.2. Network-Related Requirements..............................7
3. References.....................................................9
3.1. Normative References......................................9
3.2. Informative References....................................9
4. Contributors..................................................10
Authors' Addresses...............................................11
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1. Introduction
This document provides a set of requirements for Abstraction and
Control of Traffic Engineering (TE) Networks (ACTN) identified in
various use-cases specified by the operators. [ACTN-frame] defines
the base reference architecture and terminology.
ACTN refers to the set of virtual network service operations needed
to orchestrate, control and manage large-scale multi-domain TE
networks so as to facilitate network programmability, automation,
efficient resource sharing, and end-to-end virtual service aware
connectivity.
These operations are summarized as follows:
- Abstraction and coordination of underlying network resources
independent of how these resources are managed or controlled,
so that higher-layer entities can dynamically control virtual
networks based on those resources. Control includes creating,
modifying, monitoring, and deleting virtual networks.
- Collation of the resources from multiple TE networks (multiple
technologies, equipment from multiple vendors, under the
control of multiple administrations) through a process of
hierarchical abstraction to present a customer with a single
virtual network. This is achieved by presenting the network
domain as an abstracted topology to the customer via open and
programmable interfaces. Hierarchical abstraction allows for
the recursion of controllers in a customer-provider
relationship.
- Orchestration of end-to-end virtual network services and
applications via allocation of network resources to meet
specific service, application and customer requirements.
- Adaptation of customer requests (to control virtual resources)
to the physical network resources performing the necessary
mapping, translation, isolation and, policy that allows
conveying, managing and enforcing customer policies with
respect to the services and the network of the customer.
- Provision via a data model of a computation scheme and virtual
control capability to customers who request virtual network
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services. Note that these customers could, themselves, be
service providers.
ACTN solutions will build on, and extend, existing TE constructs and
TE mechanisms wherever possible and appropriate. Support for
controller-based approaches is specifically included in the possible
solution set.
2. High-level ACTN requirements
This section provides a summary of use-cases in terms of two
categories: (i) service-specific requirements; (ii) network-related
requirements. All these requirements are specified by operators that
are interested in implementing ACTN.
Service-specific requirements listed below are uniquely applied to
the work scope of ACTN. Service-specific requirements are related to
the virtual service coordination function. These requirements are
related to customer's VNs in terms of service policy associated with
VNs such as service performance objectives, VN endpoint location
information for certain required service specific functions (e.g.,
security and others), VN survivability requirement, or dynamic
service control policy, etc.
Network-related requirements are related to and necessary for
coherent/seamless for the virtual network operation function. These
requirements are related to multi-domain and multi-layer signaling,
routing, protection/restoration and re-optimization/re-grooming,
etc.
Each requirement specified in Sections 2.1 and 2.2 is derived from
ACTN use-cases: [CHENG], [DHODY], [FANG], [KLEE], [KUMAKI], [LOPEZ],
[SHIN], [XU], [XU2], and [SUZUKI].
2.1. Service-Specific Requirements
1. Requirement 1: Virtual Network Service (VNS) creation
Customer MUST be able to request/instantiate the VNS to the network
within the confines of mutual agreement between customer and network
operator and network operator's capability. A VNS is the service
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agreement between a customer and provider to provide a VN [ACTN-
Frame]. There are different types of VNS in terms of the VN types
the customer is allowed to operate (e.g., a VN type can be simply a
set of edge-to-edge links, or it can comprise of virtual nodes and
virtual links, etc.). The customer MUST be able to express VNS
policy that captures Service Level Agreements (SLA) associated with
virtual network service (e.g., Endpoint selection policy, routing
policy, time-related policy, etc.)
Reference: [KLEE], [LOPEZ], [SHIN], [DHODY], [FANG].
2. Requirement 2: Virtual Network Service Query
Customer SHOULD be able to request VNS Query ("Can you give me these
VN(s)?") that includes the following parameters:
- VN type: various VN types defined by the customer (e.g.,
path, graph, etc.)
- VN end-points (Customer Edge interface information)
- VN Topology Service-specific Objective Functions (e.g.,
maximum bandwidth, minimum latency, minimum hops, etc. and
any combination of them).
- VN constraints requirement (e.g., Maximum Latency threshold,
Minimum Bandwidth, etc.)
Reference: [KUMAKI], [FANG], [CHENG].
3. Requirement 3: VNS Instantiation ("Please create a VNS for me")
Customer MUST be able to instantiate VNS that includes various VNS
related parameters:
- VN type: various VN types defined by the customer (e.g.,
Type 1, Type 2, etc. See [ACTN-Frame] for the definition of
VN Type 1 and Type 2).
- VN end-points (Customer Edge interface information)
- VN Topology Service-specific Objective Functions (e.g.,
maximum bandwidth, minimum latency, minimum hops, etc. and
any combination of them).
- VN constraints requirement (e.g., Maximum Latency threshold,
Minimum Bandwidth, etc.)
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- VN Topology diversity when there are multiple instances of
VNS (e.g., VN1 and VN2 must be disjoint; Node/link disjoint
from other VNs)
Reference: [KUMAKI], [FANG], [CHENG].
4. Requirement 4: VNS Lifecycle Management & Operation (M&O)
Customer MUST be able to perform the following VNS operations:
- VNS Delete: Customer MUST be able to delete VNS.
- VNS Modify: Customer MUST be able to modify VNS related
parameters during the lifecycle of the instantiated VNS.
Reference: [FANG], [KUMAKI], [LOPEZ], [DHODY], [FANG], [KLEE].
5. Requirement 5: VNS Isolation
Customer's VN should be able to use arbitrary network topology,
routing, or forwarding functions as well as customized control
mechanisms independent of the underlying physical network and of
other coexisting virtual networks. Other customers' VNS operation
MUST not impact a particular customer's VNS network operation.
Reference: [KUMAKI], [FANG], [LOPEZ]
6. Requirement 6: Multi-Destination Coordination
Customer MUST be able to define and convey service/preference
requirements for multi-destination applications (e.g., set of
candidate sources/destinations, thresholds for load balancing,
disaster recovery policy, etc.)
Reference: [FANG], [LOPEZ], [SHIN].
7. Requirement 7: VNS Performance Monitoring
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The customer MUST be able to define performance monitoring
parameters and its associated policy such as frequency of report,
abstraction/aggregation level of performance data (e.g., VN level,
tunnel level, etc.) with dynamic feedback loop from the network.
Reference: [XU], [XU2], [DHODY], [CHENG]
8. Requirement 8: VNS Confidentiality and Security Requirements
The following confidentiality/security requirements MUST be
supported in all interfaces:
- Securing the request and control of resources, confidentially
of the information, and availability of function.
- Trust domain verification (external entity versus internal
entity)
- Encrypting data that flow between components, especially when
they are implemented at remote nodes, regardless if these are
external or internal network interfaces.
Reference: [KUMAKI], [FANG], [LOPEZ]
2.2. Network-Related Requirements
1. Requirement 1: Virtual Network Service Coordination
Network MUST be able to support the following VNS operations:
- VNS Delete: Upon customer's VNS deletion request, network
MUST be able to delete VNS.
- VNS Modify: Upon customer's VNS modification request,
network MUST be able to modify VNS related parameters during
the lifecycle of the instantiated VNS.
- VNS Update: Upon customer's VNS performance monitoring
setup, the network MUST be able to support VNS level
Operations, Administration and Management (OAM) Monitoring
under policy agreement.
Reference: [FANG], [KUMAKI], [LOPEZ], [DHODY], [FANG], [KLEE].
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2. Requirement 2: Topology Abstraction Capability
The network MUST be capable of managing its networks based on the
principle of topology abstraction to be able to scale multi-layer,
multi-domain networks.
Reference: [KLEE], [LOPEZ], [DHODY], [CHENG].
3. Requirement 3: Multi-Domain & Multi-layer Coordination
Network coordination for multi-domain and multi-layer path
computation and path setup operation MUST be provided:
- End-to-end path computation across multi-domain networks
(based on abstract topology from each domain)
- Domain sequence determination
- Request for path signaling to each domain controller
- Alternative path computation if any of the domain
controllers cannot find its domain path
Reference: [CHENG], [DHODY], [KLEE], [LOPEZ], [SHIN], [SUZUKI].
4. Requirement 4: End-to-End Path Restoration
End-to-end Path Restoration Operations MUST be provided with
seamless coordination between domain-level recovery schemes and
cross-domain recovery schemes.
Reference: [CHENG], [KLEE], [DHODY], [LOPEZ], [SHIN].
5. Requirement 5: Dynamicity of virtual network control operations
Dynamic virtual network control operations MUST be supported. This
includes, but is not limited to, the following:
- Real-time VNS control (e.g., fast recovery/reroute upon
network failure).
- Fast convergence of abstracted topologies upon changes due
to failure or reconfiguration across the network domain
view, the multi-domain network view and the customer view.
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- Large-scale VNS operation (e.g., the ability to query tens
of thousands of nodes, and to examine tens of thousands of
connectivity requests) for time-sensitive applications.
Reference: [SHIN], [XU], [XU2], [KLEE], [KUMAKI], [SUZUKI].
3. References
3.1. Normative References
[ACTN-Frame] D. Ceccarelli, et al., "Framework for Abstraction and
Control of Transport Networks", draft-ietf-teas-actn-
framework, work in progress.
3.2. Informative References
[CHENG] W. Cheng, et. al., "ACTN Use-cases for Packet Transport
Networks in Mobile Backhaul Networks", draft-cheng-actn-
ptn-requirements, work in progress.
[DHODY] D. Dhody, et. al., "Packet Optical Integration (POI) Use
Cases for Abstraction and Control of Transport Networks
(ACTN)", draft-dhody-actn-poi-use-case, work in progress.
[FANG] L. Fang, "ACTN Use Case for Multi-domain Data Center
Interconnect", draft-fang-actn-multidomain-dci, work in
progress.
[KLEE] K. Lee, H. Lee, R. Vilata, V. Lopez, "ACTN Use-case for E2E
Network Services in Multiple Vendor Domain Transport
Networks", draft-klee-teas-actn-connectivity-multi-domain,
work-in-progress.
[KUMAKI] K. Kumaki, T. Miyasaka, "ACTN : Use case for Multi Tenant
VNO", draft-kumaki-teas-actn-multitenant-vno, work in
progress.
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[LOPEZ] D. Lopez (Ed), "ACTN Use-case for Virtual Network Operation
for Multiple Domains in a Single Operator Network", draft-
lopez-actn-vno-multidomains, work in progress.
[SHIN] J. Shin, R. Hwang, J. Lee, "ACTN Use-case for Mobile Virtual
Network Operation for Multiple Domains in a Single
Operator Network", draft-shin-actn-mvno-multi-domain, work
in progress.
[XU] Y. Xu, et. al., "Use Cases and Requirements of Dynamic Service
Control based on Performance Monitoring in ACTN
Architecture", draft-xu-actn-perf-dynamic-service-control,
work in progress.
[XU2] Y. Xu, et. al., "Requirements of Abstract Alarm Report in ACTN
architecture", draft-xu-teas-actn-abstract-alarm-report,
work-in-progress.
[SUZUKI] T. Suzuki, et. al., "Use-case and Requirements for Multi-
domain Operation Plane Change", draft-suzuki-teas-actn-
multidomain-opc, work-in-progress.
4. Contributors
Yunbin Xu
CATR
Email: xuyunbin@ritt.cn
Toshiaki Suzuki
Hitachi
Email: toshiaki.suzuki.cs@hitachi.com
Haomian Zheng
Huawei
Email: zhenghaomian@huawei.com
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Authors' Addresses
Young Lee (Editor)
Huawei Technologies
5340 Legacy Drive
Plano, TX 75023, USA
Phone: (469)277-5838
Email: leeyoung@huawei.com
Dhruv Dhody
Huawei Technologies
Email: dhruv.ietf@gmail.com
Sergio Belotti
Nokia
Via Trento, 30
Vimercate, Italy
Email: sergio.belotti@nokia.com
Khuzema Pithewan
Infinera
Email: kpithewan@infinera.com
Daniele Ceccarelli
Ericsson
Torshamnsgatan,48
Stockholm, Sweden
Email: daniele.ceccarelli@ericsson.com
Takuya Miyasaka
KDDI
Email: ta-miyasaka@kddi.com
Jong Yoon Shin
SKT
Email: jongyoon.shin@sk.com
Kwang-koog Lee
KT
Email: kwangkoog.lee@kt.com
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