A new IETF working group has been formed in the Operations and Management Area. For additional information please contact the Area Directors or the WG Chairs. Autonomic Networking Integrated Model and Approach (anima) ------------------------------------------------ Current Status: BOF WG Chairs: Toerless Eckert <eckert@cisco.com> Sheng Jiang <jiangsheng@huawei.com> Assigned Area Director: Benoit Claise <bclaise@cisco.com> Mailing list Address: anima@ietf.org To Subscribe: https://www.ietf.org/mailman/listinfo/anima Archive: http://www.ietf.org/mail-archive/web/anima/ Charter: Autonomic networking refers to the self-managing characteristics (configuration, protection, healing, and optimization) of distributed network elements, adapting to unpredictable changes while hiding intrinsic complexity from operators and users. Autonomic Networking, which often involves closed-loop control, is applicable to the complete network (functions) lifecycle (e.g. installation, commissioning, operating, etc). An autonomic function that works in a distributed way across various network elements is a candidate for protocol design. Such functions should allow central guidance and reporting, and co-existence with non-autonomic methods of management. The general objective of this working group is to enable the progressive introduction of autonomic functions into operational networks, as well as reusable autonomic network infrastructure, in order to reduce the OpEx. This work builds on definitions and design goals, as well as a simple architecture model undertaken in the Network Management Research Group (NMRG) of the IRTF (See draft-irtf-nmrg-an-gap-analysis and its companion draft-irtf-nmrg-autonomic-network-definitions). Elements of autonomic functions already exist today. However, all such functions today have their own discovery, node identification, negotiation, transport, messaging and security mechanisms as well as non-autonomic management interfaces. There is no common infrastructure for distributed functions. This leads to inefficiencies. Additionally, management and optimisation of operational device configurations is expensive, tedious, and prone to human error. A simple example is assigning address prefixes to network segments in a large and constantly changing network. Similarly, repair or bypassing of faults requires human intervention and causes significant down time. This WG will develop a system of autonomic functions that carry out the intentions of the network operator without the need for detailed low- level management of individual devices. This will be done by providing a secure closed-loop interaction mechanism whereby network elements cooperate directly to satisfy management intent. The working group will develop a control paradigm where network processes coordinate their decisions and automatically translate them into local actions, based on various sources of information including operator-supplied configuration information or from the existing protocols, such as routing protocol, etc. While a complete solution for full autonomic networking is an ambitious goal, the initial scope of this working group's effort is much more modest: the specification of a minimum set of specific reusable infrastructure components to support autonomic interactions between devices, and to specify the application of these components to one or two elementary use cases of general value. Practically, these components should be capable of providing the following services to those distributed functions: o a common way to identify nodes o a common security model o a discovery mechanism o a negotiation mechanism to enable closed-loop interaction o a secure and logically separated communications channel o a consistent autonomic management model ANIMA and HOMENET will need to co-ordinate to ensure that the commonalities and differences in solutions are properly taken into account. Where suitable protocols, models or methods exist, they will be preferred over creating new ones. It is preferred that autonomic functions would co-exist with traditional methods of management and configuration, and the initial focus would be on self-configuration. Future work may include a more detailed systems architecture to support the development of autonomic service agents. The ANIMA working group focuses on professionally-managed networks. Like traditional network management, the topological scope of autonomic functions is expected to be limited by administrative boundaries. The goal of this working group shall be to develop one or more protocol specifications (or extensions to existing protocols) to address the following problem areas. These were selected to according to the analyzed technical gaps in draft-irtf-nmrg-an-gap-analysis: o Discovery for autonomic nodes o Negotiation for autonomic nodes Starting point: draft-carpenter-anima-gdn-protocol o Bootstrapping a trust infrastructure Starting point: draft-pritikin-anima-bootstrapping-keyinfra o Separated Autonomic Control Plane Starting point: draft-behringer-anima-autonomic-control-plane The design of these proposals should clearly target reusability. In addition, the WG will validate the application and reusability of the components to the following two use cases: o A solution for distributed IPv6 prefix management within a large-scale network. Although prefix delegation is currently supported, it relies on human action to subdivide and assign prefixes according to local requirements, and this process could become autonomic. o A solution for always-on, data plane independent connectivity between network elements (i.e., stable in the case of mis-configurations), which can be used for call home, network provisioning, or simply trouble- shooting. It is essential that these components and solutions fit together as an integrated whole. For this reason, a reference document will be developed in parallel with the individual specifications. The initial set of work items is limited to the above list to stay focused and avoid "boiling the ocean". Additional documents concerning other autonomic infrastructure components, policy intent, use cases or autonomic service agents are strongly encouraged, as individual submissions, or as submissions to the IRTF Network Network Management Research Group. Additional work items may only be added with approval from the responsible Area Director or by re-chartering. Milestones: Mar 2015 - Adoption of initial drafts on AN components: Discovery and negotiation protocol(s), Bootstrap a trust infrastructure solution, Autonomic control plane solution Jul 2015 - Adoption of reference model Jul 2015 - Adoption of the two validation drafts Apr 2016 - Submit discovery and negotiation protocol(s) to IESG (Standards Track) Apr 2016 - Submit bootstrap a trust infrastructure solution to IESG (Standards Track) Sep 2016 - Submit the two validation drafts to IESG (Informational) Sep 2016 - Submit autonomic control plane solution to IESG (Standards Track) Dec 2016 - Submit reference model to IESG (Informational) Dec 2016 - recharter to refocus scope, or close