| ForCES WG | B. Khasnabish |
| Internet-Draft | ZTE TX, Inc. |
| Intended status: Standards Track | E. Haleplidis |
| Expires: March 26, 2015 | University of Patras |
| J. Hadi Salim, Ed. | |
| Mojatatu Networks | |
| September 22, 2014 |
IETF ForCES Logical Function Block (LFB) Subsidiary Management
draft-khs-forces-lfb-subsidiary-management-02.txt
This document discusses ForCES Logical Function Block (LFB) Subsidiary Management (SM). Note that LFB SM is useful for introducing and supporting virtualization of ForCES Network Element (NE) including control Element (CE) and Forwarding Element (FE). The objective is to standardize an LFB to support this virtualization.
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This document discusses ForCES Logical Function Block (LFB) Subsidiary Management (SM). Note that LFB SM is useful for introducing and supporting virtualization of ForCES Network Element (NE) including control Element (CE) and Network Element (NE).
Deployment experience has demonstrated the value of using ForCES to control the Forwarding Element Manager (FEM) by creating an LFB to represent its function using the same encoding rules as for any other LFB. This allows it to be controlled by the same Control Element (CE).
This work item assumes the presence of an initially booted FE whose configuration could then be updated at runtime via an FEM LFB for runtime config purposes (e.g., by adding a new CE and its associated IP address).
This work item can also be useful in addressing control of virtual FEs where individual FEM Managers can be addressed to control the creation, configuration, and resource assignment of such virtual FEs within a physical FE. This work would result in a standards track LFB FEM library RFC.
The scope of this document is discussion (and standardization) of utilizing virtualized NEs (VNEs)for virtual CEs (VCEs) and virtual FEs (VFEs).
The currently existing techniques and solutions may be either slow or not directly applicable to ForCES LFB subsidiary management.
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 [6].
The following definitions are taken from [7], [8] and [1]. They are repeated here for convenience as needed, but the normative definitions are found in the referenced RFCs:
Virtualization of ForCES Elements allows efficient, scalable, and robust utilization of network control and transmission resources. Virtualization has been discussed (and deployed) widely in the Computing Industry (e.g., server) in the context of efficient utilization of server resources.
As mentioned before, the currently existing techniques and solutions may be either slow or not directly applicable to ForCES LFB subsidiary management.
In this section we discuss the use of virtualized ForCES control elements (CEs). The resulting operating entities in virtualized environment are Virtual CEs of VCEs. The CE Visor (CEV) has the visibility to all of the VCEs in a domain, and can assign one of the VCEs as primary Master-VCE and another as secondary Master-VCE. CEV can dynamically manage the role of primary and secondary master-VCEs from a pool of VCEs.
In this section we discuss the use of virtualized ForCES forwarding elements (FEs). The resulting operating entities in virtualized environment are Virtual FEs of VFEs. The FE Visor (FEV) has the visibility to all of the VFEs in a domain, and can assign one of the VFEs as primary Master-VFE and another as secondary Master-VFE. FEV can dynamically manage the role of primary and secondary master-VFEs from a pool of VFEs.
In this section we discuss a few potential scenarios that can utilize ForCES LFB subsidiary management for efficient and robust operation of networks without using excessive additional resources.
In this section we discuss how virtualization of FEs can be used for efficient recovery from FE failure(s). An FE can initially boot using a default Association and Configuration. The Association and Configuration can be updated at runtime via an FE-Visor or FEM LFB for runtime configuration purposes. This can be achieved, for example, by adding a new CE and its associated IP address. A CE can initially boot using a default Configuration and State(s). The Configuration and State(s) can be updated at runtime via a CE-Visor or CEM LFB to satisfy the runtime requirements.
.--------------.
[Apps/ | |
Service]--|Orchestration |
| |
.--------------.
| | .--------.
.-----------. | | | |
| |---| |---------------------------| |
|Controller | | |
| | | |
.-|-----|---. |Hyper- |
| | |Visor |
4 2 | |
| | | |
| CEy CEw .... CE? | |
| | \ /\ | |
| | \----/--\-------------------------------|----| |
| | / \ | .-|-. |
| FEM-----/ \-----------------------------|--| | |
.-->(FEz)<-----------------3----------------------|--|FEx| |
| .---. |
(1)----->| |
.--------.
Fig.1: Sequence of Events in FEM for Recovery from FE Failure
Note: 1.(Hyervisor) Boots up FEx, and connects to CEy and CEw, 2. Boot a VM of Type FE 3. FEx Boots FEz, and Connects to CEy, 4.Connect to CEw
As described in Figure-1, the following is a sequence of events in FEM (an example).
Note that the 4th (FEM part of the charter) and 5th steps are what we would like to achieve here. In addition, the FEVM may not need to be aware which Virtual FEs are in one Virtual NE, it only needs know of the information about a Virtual FE in the physical FE. CE Manager may need to have visibility to all Virtual NEs. The component "NE" of the LFB may be considered as Virtual NE as well.
In this section we discuss how virtualization of CEs can be used for efficient recovery from CE failure(s).
A CE can initially boot using a default Association, State, and Configuration. The Association and Configuration can be updated at runtime via a CE-Visor or CEM-LFB for runtime configuration purposes, for example, by adding a new CE and its associated IP address.
An FE can initially boot using a default Configuration, Association, with a CE, and State. The Configuration, Association can be updated at runtime via a FE-Visor or FEM LFB to satisfy runtime requirements. The sequence of events, an example, can be as follows.
As discussed earlier, the last two steps are concerned with Subsidiary management. Although we discuss the recovery method by using virtualization of CEs, the role of FEVM in the recovery process will be described further later.
In this section we discuss efficient load balancing of both CE and FE in virtualized environment.
In this section we discuss how LFB subsidiary management can contribute to the robust/scalable implementation of Service Function Chaining (SFC).
In this section we discuss efficient Orchestration of both CE and FE in virtualized multi-admin-domain environment.
In this section we discuss generic lifecycle management of subsidiaries of LFBs in virtualized environment(s). The typical management activities in the life of FE/CE are discussed in the following sub-sections.
When an entity needs to boot a CE/FE, if this is a VM, some orchestration would scheme/plan to do this. In case of ForCES, we have a control App that boots a CE or an FE via a management FE. So here we have a management plane details that is described either in FEM or other LFB.
The FE, e.g., the VM which has just been booted, as described in the previous sub-section, needs initial bootstrap configuration (e.g., what CEs to connect to etc). This clearly falls in the FEM LFB domain.
At runtime of the FE, for example, the management could introduce a new CE for the FE to associate with; it may also be for an FE to dissociate from a CE, and so on.
This LFB does not define any frames
This library defines the following datatypes.
| DataType Name | Type | Synopsis |
|---|---|---|
| IPs | A Struct of 2 components. IPv4 (byte[4]) and IPv6 (byte[16]) addresses. | A struct that defines an IPv4 and an IPv6 address |
| LFBDefs | A Struct that contains three components. The LFB Class ID (uint32), the LFB version (string)and the LFB name (string) | A struct that defines basic LFB definitions |
| CEParams | A Struct that contains two components. A CE's ID (uint32) and the CE's IPs (array of IPs) | A struct that defines CE parameters. |
| FEParams | A Struct that contains four components. An FE's ID (uint32), the FE's IPs (array of IPs), the LFBs this FE supports (array of LFBDefs) and the CEs this FE is part of (array of CEParams). | A struct that defines the FE parameters. |
This LFB does not define any metadata definition
The LFB is an LFB that standardizes and assists creation of NEs.
The FEM LFB does not handle any packets. It's function is to subsidize creation of NEs. A CE or a CEM will request from the FEM the creation of the NE, it will provide the requirements, e.g. FEs, LFBs in FEs etc..., and depending on the implementation the FEM may create these FE instances, or if these instances exist, provide the bootstrap information to FEs how and where to connect to the CEs.
This LFB has only one component specified. The NEs component, is a component that contains all the Network Elements this FEM is responsible for maintaining. It is a table and each row is a struct of the NEID, a uint32 and an array of FE parameters.
This LFB has no Capabilities specified.
This LFB has three events specified. These events notify the CE whether an NE has been added, deleted or changed. The event report is the NEs row that created the event.
<?xml version="1.0" encoding="UTF-8"?>
<LFBLibrary xmlns="urn:ietf:params:xml:ns:forces:lfbmodel:1.0"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" provides="FEM">
<load library="FEPO"/>
<dataTypeDefs>
<dataTypeDef>
<name>IPs</name>
<synopsis>IP definition</synopsis>
<struct>
<component componentID="1">
<name>FEIPv4</name>
<synopsis>The FEs IPv4</synopsis>
<typeRef>byte[4]</typeRef>
</component>
<component componentID="2">
<name>FEIPv6</name>
<synopsis>The FEs IPv6</synopsis>
<typeRef>byte[16]</typeRef>
</component>
</struct>
</dataTypeDef>
<dataTypeDef>
<name>LFBDefs</name>
<synopsis>LFB parameters inside the FE</synopsis>
<struct>
<component componentID="1">
<name>LFBClassID</name>
<synopsis>The LFB Class ID</synopsis>
<typeRef>uint32</typeRef>
</component>
<component componentID="2">
<name>LFBVersion</name>
<synopsis>The Version of the LFB</synopsis>
<typeRef>string</typeRef>
</component>
<component componentID="3">
<name>LFBName</name>
<synopsis>The name of the LFB</synopsis>
<optional/>
<typeRef>string</typeRef>
</component>
</struct>
</dataTypeDef>
<dataTypeDef>
<name>CEParams</name>
<synopsis>CE parameters</synopsis>
<struct>
<component componentID="1">
<name>CEID</name>
<synopsis>The CE ID</synopsis>
<typeRef>uint32</typeRef>
</component>
<component componentID="2">
<name>CEIP</name>
<synopsis>The CEIP</synopsis>
<array>
<typeRef>IPs</typeRef>
</array>
</component>
</struct>
</dataTypeDef>
<dataTypeDef>
<name>FEParams</name>
<synopsis>FE parameters</synopsis>
<struct>
<component componentID="1">
<name>FEID</name>
<synopsis>The FEID</synopsis>
<typeRef>uint32</typeRef>
</component>
<component componentID="2">
<name>FEIP</name>
<synopsis>The FE's IP</synopsis>
<array>
<typeRef>IPs</typeRef>
</array>
</component>
<component componentID="3">
<name>LFBparameters</name>
<synopsis>The LFBs in this FE</synopsis>
<array>
<typeRef>LFBDefs</typeRef>
</array>
</component>
<component componentID="4">
<name>CEs</name>
<synopsis>The CEs that should be associated with this
FE</synopsis>
<array>
<typeRef>CEParams</typeRef>
</array>
</component>
</struct>
</dataTypeDef>
</dataTypeDefs>
<LFBClassDefs>
<LFBClassDef LFBClassID="21">
<name>FEM</name>
<synopsis>The Forwarding Element Manager LFB</synopsis>
<version>1.0</version>
<components>
<component componentID="1" access="read-write">
<name>NEs</name>
<synopsis>All the Network Elements this FEM is
responsible for maintaining</synopsis>
<array>
<struct>
<component componentID="1">
<name>NEID</name>
<synopsis>ID of the Network Element</synopsis>
<typeRef>uint32</typeRef>
</component>
<component componentID="2">
<name>FEs</name>
<synopsis>FEs in the Network Element
</synopsis>
<array>
<typeRef>FEParams</typeRef>
</array>
</component>
</struct>
</array>
</component>
</components>
<events baseID="10">
<event eventID="1">
<name>NEchanged</name>
<synopsis>The NE definition has changed</synopsis>
<eventTarget>
<eventField>NEs</eventField>
</eventTarget>
<eventChanged/>
<eventReports>
<eventReport>
<eventField>NEs</eventField>
<eventSubscript>_NEsrowid_</eventSubscript>
</eventReport>
</eventReports>
</event>
<event eventID="2">
<name>NEcreated</name>
<synopsis>An NE has been created</synopsis>
<eventTarget>
<eventField>NEs</eventField>
</eventTarget>
<eventCreated/>
<eventReports>
<eventReport>
<eventField>NEs</eventField>
<eventSubscript>_NEsrowid_</eventSubscript>
</eventReport>
</eventReports>
</event>
<event eventID="3">
<name>NEdeleted</name>
<synopsis>An NE has been deleted</synopsis>
<eventTarget>
<eventField>NEs</eventField>
</eventTarget>
<eventDeleted/>
<eventReports>
<eventReport>
<eventField>NEs</eventField>
<eventSubscript>_NEsrowid_</eventSubscript>
</eventReport>
</eventReports>
</event>
</events>
</LFBClassDef>
</LFBClassDefs>
</LFBLibrary>
Figure 1: FEM XML LFB library
Security considerations for ForCES LFB subsidiary management will be added in a future version of this daft.
LFB classes defined by this document belong to LFBs defined by Standards Track RFCs. According to IANA, the registration procedure is Standards Action for the range 0 to 65535 and First Come First Served with any publicly available specification for over 65535. This specification includes the following LFB class names and LFB class identifiers:
| LFB Class Identifier | LFB Class Name | LFB Version | Description | Reference |
|---|---|---|---|---|
| 21 | FEM | 1.0 | An FEM LFB to standardize creation of ForCES Network Elements | This document |
The authors would like to thank DJ, Joel, ChuanhuangLi, and many others for their discussions and support.
| [1] | Doria, A., Hadi Salim, J., Haas, R., Khosravi, H., Wang, W., Dong, L., Gopal, R. and J. Halpern, "Forwarding and Control Element Separation (ForCES) Protocol Specification", RFC 5810, March 2010. |
| [2] | Halpern, J. and J. Hadi Salim, "Forwarding and Control Element Separation (ForCES) Forwarding Element Model", RFC 5812, March 2010. |
| [3] | Narten, T. and H. Alvestrand, "Guidelines for Writing an IANA Considerations Section in RFCs", BCP 26, RFC 5226, May 2008. |
| [4] | Stewart, R., "Stream Control Transmission Protocol", RFC 4960, September 2007. |
| [5] | Ford, A., Raiciu, C., Handley, M. and O. Bonaventure, "TCP Extensions for Multipath Operation with Multiple Addresses", RFC 6824, January 2013. |
| [6] | Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. |
| [7] | Khosravi, H. and T. Anderson, "Requirements for Separation of IP Control and Forwarding", RFC 3654, November 2003. |
| [8] | Yang, L., Dantu, R., Anderson, T. and R. Gopal, "Forwarding and Control Element Separation (ForCES) Framework", RFC 3746, April 2004. |