From 4bfd864f10b68b71482b35c818559068ef8d5797 Mon Sep 17 00:00:00 2001 From: Thomas Voss Date: Wed, 27 Nov 2024 20:54:24 +0100 Subject: doc: Add RFC documents --- doc/rfc/rfc7260.txt | 1347 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1347 insertions(+) create mode 100644 doc/rfc/rfc7260.txt (limited to 'doc/rfc/rfc7260.txt') diff --git a/doc/rfc/rfc7260.txt b/doc/rfc/rfc7260.txt new file mode 100644 index 0000000..c095f19 --- /dev/null +++ b/doc/rfc/rfc7260.txt @@ -0,0 +1,1347 @@ + + + + + + +Internet Engineering Task Force (IETF) A. Takacs +Request for Comments: 7260 Ericsson +Category: Standards Track D. Fedyk +ISSN: 2070-1721 Hewlett-Packard Company + J. He + Huawei + June 2014 + + + GMPLS RSVP-TE Extensions for + Operations, Administration, and Maintenance (OAM) Configuration + +Abstract + + Operations, Administration, and Maintenance (OAM) is an integral part + of transport connections; hence, it is required that OAM functions be + activated/deactivated in sync with connection commissioning/ + decommissioning, in order to avoid spurious alarms and ensure + consistent operation. In certain technologies, OAM entities are + inherently established once the connection is set up, while other + technologies require extra configuration to establish and configure + OAM entities. This document specifies extensions to Resource + Reservation Protocol - Traffic Engineering (RSVP-TE) to support the + establishment and configuration of OAM entities along with Label + Switched Path signaling. + +Status of This Memo + + This is an Internet Standards Track document. + + This document is a product of the Internet Engineering Task Force + (IETF). It represents the consensus of the IETF community. It has + received public review and has been approved for publication by the + Internet Engineering Steering Group (IESG). Further information on + Internet Standards is available in Section 2 of RFC 5741. + + Information about the current status of this document, any errata, + and how to provide feedback on it may be obtained at + http://www.rfc-editor.org/info/rfc7260. + + + + + + + + + + + + +Takacs, et al. Standards Track [Page 1] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +Copyright Notice + + Copyright (c) 2014 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. + +Table of Contents + + 1. Introduction ....................................................3 + 1.1. Requirements Language ......................................4 + 2. Technology-Specific OAM Requirements ............................4 + 3. RSVP-TE-Based OAM Configuration .................................6 + 3.1. Establishment of OAM Entities and Functions ................8 + 3.2. Adjustment of OAM Parameters ..............................10 + 3.3. Deleting OAM Entities .....................................11 + 4. RSVP-TE Extensions .............................................11 + 4.1. LSP Attribute Flags .......................................11 + 4.2. OAM Configuration TLV .....................................13 + 4.2.1. OAM Function Flags Sub-TLV .........................14 + 4.2.2. Technology-Specific Sub-TLVs .......................15 + 4.3. Administrative Status Information .........................15 + 4.4. Handling OAM Configuration Errors .........................16 + 4.5. Considerations on Point-to-Multipoint OAM Configuration ...16 + 5. IANA Considerations ............................................18 + 5.1. Admin_Status Object Bit Flags .............................18 + 5.2. LSP Attribute Flags .......................................18 + 5.3. New LSP Attributes ........................................19 + 5.4. RSVP Error Code ...........................................19 + 5.5. RSVP-TE OAM Configuration Registry ........................20 + 5.5.1. OAM Types Sub-Registry .............................20 + 5.5.2. OAM Sub-TLVs Sub-Registry ..........................20 + 5.5.3. OAM Function Flags Sub-Registry ....................21 + 6. Security Considerations ........................................21 + 7. Acknowledgements ...............................................21 + 8. References .....................................................22 + 8.1. Normative References ......................................22 + 8.2. Informative References ....................................22 + + + + + +Takacs, et al. Standards Track [Page 2] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +1. Introduction + + GMPLS is designed as an out-of-band control plane supporting dynamic + connection provisioning for any suitable data-plane technology, + including spatial switching (e.g., incoming port or fiber to outgoing + port or fiber); wavelength-division multiplexing (e.g., Dense + Wavelength Division Multiplexing (DWDM)); time-division multiplexing + (e.g., Synchronous Optical Networking and Synchronous Digital + Hierarchy (SONET/SDH), G.709); and Ethernet Provider Backbone + Bridging - Traffic Engineering (PBB-TE) and MPLS. In most of these + technologies, there are Operations, Administration, and Maintenance + (OAM) functions employed to monitor the health and performance of the + connections and to trigger data plane (DP) recovery mechanisms. + Similar to connection provisioning, OAM functions follow general + principles but also have some technology-specific characteristics. + + OAM is an integral part of transport connections. Therefore, it is + required that OAM functions be activated/deactivated in sync with + connection commissioning/decommissioning, in order to avoid spurious + alarms and ensure consistent operation. In certain technologies, OAM + entities are inherently established once the connection is set up, + while other technologies require extra configuration to establish and + configure OAM entities. In some situations, the use of OAM + functions, such as Fault Management (FM) and Performance Management + (PM), may be optional (based on network management policies). Hence, + the network operator must be able to choose which set of OAM + functions to apply to specific connections and which parameters + should be configured and activated. To achieve this objective, OAM + entities and specific functions must be selectively configurable. + + In general, it is required that the management-plane and + control-plane connection establishment mechanisms be synchronized + with OAM establishment and activation. In particular, if the GMPLS + control plane is employed, it is desirable to bind OAM setup and + configuration to connection establishment signaling to avoid two + separate management/configuration steps (connection setup followed by + OAM configuration), as these separate steps increase delay and + processing time; more importantly, they may be prone to + misconfiguration errors. Once OAM entities are set up and + configured, proactive as well as on-demand OAM functions can be + activated via the management plane. On the other hand, it should be + possible to activate/deactivate proactive OAM functions via the GMPLS + control plane as well. In some situations, it may be possible to use + the GMPLS control plane to control on-demand OAM functions too. + + + + + + + +Takacs, et al. Standards Track [Page 3] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + This document describes requirements for OAM configuration and + control via Resource Reservation Protocol - Traffic Engineering + (RSVP-TE). Extensions to the RSVP-TE protocol are specified, + providing a framework to configure and control OAM entities along + with the capability to carry technology-specific information. + Extensions can be grouped into generic elements that are applicable + to any OAM solution and technology-specific elements that provide + additional configuration parameters that may only be needed for + a specific OAM technology. This document specifies the technology- + agnostic elements and specifies the way that additional + technology-specific OAM parameters are provided. This document + addresses end-to-end OAM configuration, that is, the setup of OAM + entities bound to an end-to-end Label Switched Path (LSP), and + configuration and control of OAM functions running end-to-end in the + LSP. Configuration of OAM entities for LSP segments and tandem + connections is outside the scope of this document. + + The mechanisms described in this document provide an additional + option for bootstrapping OAM that is not intended to replace or + deprecate the use of other technology-specific OAM bootstrapping + techniques, e.g., LSP ping [RFC4379] for MPLS networks. The + procedures specified in this document are intended only for use in + environments where RSVP-TE signaling is used to set up the LSPs that + are to be monitored using OAM. + +1.1. 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 [RFC2119]. + +2. Technology-Specific OAM Requirements + + This section summarizes various technology-specific OAM requirements + that can be used as a basis for an OAM configuration framework. + + MPLS OAM requirements are described in [RFC4377], which provides + requirements to create consistent OAM functionality for MPLS + networks. The following list is an excerpt of MPLS OAM requirements + documented in [RFC4377] that bear direct relevance to the discussion + set forth in this document: + + o It is desired that the automation of LSP defect detection be + supported. It is especially important in cases where large + numbers of LSPs might be tested. + + + + + + +Takacs, et al. Standards Track [Page 4] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + o In particular, some LSPs may require automated testing + functionality from the ingress LSR (Label Switching Router) to the + egress LSR, while others may not. + + o Mechanisms are required to coordinate network responses to + defects. Such mechanisms may include alarm suppression, + translating defect signals at technology boundaries, and + synchronizing defect detection times by setting appropriately + bounded detection time frames. + + The MPLS Transport Profile (MPLS-TP) defines a profile of MPLS + targeted at transport applications [RFC5921]. This profile specifies + the specific MPLS characteristics and extensions required to meet + transport requirements, including providing additional OAM, + survivability, and other maintenance functions not currently + supported by MPLS. Specific OAM requirements for MPLS-TP are + specified in [RFC5654] and [RFC5860]. MPLS-TP poses the following + requirements on the control plane to configure and control OAM + entities: + + o From [RFC5860]: OAM functions MUST operate and be configurable + even in the absence of a control plane. Conversely, it SHOULD be + possible to configure as well as enable/disable the capability to + operate OAM functions as part of connectivity management, and it + SHOULD also be possible to configure as well as enable/disable the + capability to operate OAM functions after connectivity has been + established. + + o From [RFC5654]: The MPLS-TP control plane MUST support the + configuration and modification of OAM maintenance points as well + as the activation/deactivation of OAM when the transport path or + transport service is established or modified. + + Ethernet Connectivity Fault Management (CFM) defines an adjunct OAM + flow that monitors connectivity in order to check the liveliness of + Ethernet networks [IEEE.802.1Q-2011]. With PBB-TE + [IEEE.802.1Q-2011], Ethernet networks support explicitly routed + Ethernet connections. CFM can be used to track the liveliness of + PBB-TE connections and detect data-plane failures. In the IETF, the + GMPLS Ethernet Label Switching (GELS) (see [RFC5828] and [RFC6060]) + work extended the GMPLS control plane to support the establishment of + PBB-TE data-plane connections. Without control-plane support, + separate management commands would be needed to configure and + start CFM. + + GMPLS-based OAM configuration and control need to provide a general + framework to be applicable to a wide range of data-plane technologies + and OAM solutions. There are three typical data-plane technologies + + + +Takacs, et al. Standards Track [Page 5] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + used for transport applications: wavelength based, such as Wavelength + Switched Optical Networks (WSON); Time-Division Multiplexing (TDM) + based, such as Synchronous Digital Hierarchy (SDH) and Synchronous + Optical Networking (SONET); and packet based, such as MPLS-TP + [RFC5921] and Ethernet PBB-TE [IEEE.802.1Q-2011]. For all these data + planes, the operator MUST be able to configure and control the + following OAM functions: + + o It MUST be possible to explicitly request the setup of OAM + entities for the signaled LSP and provide specific information for + the setup if this is required by the technology. + + o Control of alarms is important to avoid false alarm indications + and reporting to the management system. It MUST be possible to + enable/disable alarms generated by OAM functions. In some cases, + selective alarm control may be desirable when, for instance, the + operator is only concerned about critical alarms. Therefore, + alarms that do not affect service should be inhibited. + + o When periodic messages are used for liveliness checks (Continuity + Checks (CCs)) of LSPs, it MUST be possible to set the frequency of + messages. This allows proper configuration for fulfilling the + requirements of the service and/or meeting the detection time + boundaries posed by possible congruent connectivity-check + operations of higher-layer applications. For a network operator + to be able to balance the trade-off between fast failure detection + and data overhead, it is beneficial to configure the frequency of + CC messages on a per-LSP basis. + + o Proactive Performance Monitoring (PM) functions are used to + continuously collect information about specific characteristics of + the connection. For consistent measurement of Service Level + Agreements (SLAs), it MUST be possible to set common configuration + parameters for the LSP. + + o The extensions MUST allow the operator to use only a minimal set + of OAM configuration and control features if supported by the OAM + solution or network management policy. Generic OAM parameters, as + well as parameters specific to data-plane technology or OAM + technology, MUST be supported. + +3. RSVP-TE-Based OAM Configuration + + In general, two types of maintenance points can be distinguished: + Maintenance Entity Group End Points (MEPs) and Maintenance Entity + Group Intermediate Points (MIPs). MEPs reside at the ends of an LSP + and are capable of initiating and terminating OAM messages for Fault + Management (FM) and Performance Monitoring (PM). MIPs, on the other + + + +Takacs, et al. Standards Track [Page 6] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + hand, are located at transit nodes of an LSP and are capable of + reacting to some OAM messages but otherwise do not initiate messages. + "Maintenance Entity" (ME) refers to an association of MEPs and MIPs + that are provisioned to monitor an LSP. + + When an LSP is signaled, a forwarding association is established + between endpoints and transit nodes via label bindings. This + association creates a context for the OAM entities monitoring the + LSP. On top of this association, OAM entities may be configured to + unambiguously identify MEs. + + In addition to ME identification parameters, proactive OAM functions + (e.g., CC and PM) may have additional parameters that require + configuration as well. In particular, the frequency of periodic CC + packets, and the measurement interval for loss and delay + measurements, may need to be configured. + + The above parameters may be derived from information related to LSP + provisioning; alternatively, pre-configured default values can be + used. In the simplest case, the control plane MAY provide + information on whether or not OAM entities need to be set up for the + signaled LSP. If OAM entities are created, control-plane signaling + MUST also provide a means to activate/deactivate OAM message flows + and associated alarms. + + OAM identifiers, as well as the configuration of OAM functions, are + technology specific (i.e., they vary, depending on the data-plane + technology and the chosen OAM solution). In addition, for any given + data-plane technology, a set of OAM solutions may be applicable. + Therefore, the OAM configuration framework allows selecting a + specific OAM solution to be used for the signaled LSP and provides + means to carry detailed OAM configuration information in technology- + specific TLVs. + + Administrative Status Information is carried in the Admin_Status + object. Administrative Status Information is described in [RFC3471], + and the Admin_Status object is specified for RSVP-TE in [RFC3473]. + Two bits are allocated for the administrative control of OAM + monitoring: the "OAM Flows Enabled" (M) and "OAM Alarms Enabled" (O) + bits. When the "OAM Flows Enabled" bit is set, OAM mechanisms MUST + be enabled; if it is cleared, OAM mechanisms MUST be disabled. When + the "OAM Alarms Enabled" bit is set, OAM-triggered alarms are enabled + and associated consequent actions MUST be executed, including the + notification to the management system. When this bit is cleared, + alarms are suppressed and no action SHOULD be executed, and the + management system SHOULD NOT be notified. + + + + + +Takacs, et al. Standards Track [Page 7] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + The LSP_ATTRIBUTES and LSP_REQUIRED_ATTRIBUTES objects are defined in + [RFC5420] to provide means to signal LSP attributes and options in + the form of TLVs. Options and attributes signaled in the + LSP_ATTRIBUTES object can be passed transparently through LSRs not + supporting a particular option or attribute, while the contents of + the LSP_REQUIRED_ATTRIBUTES object MUST be examined and processed by + each LSR. The "OAM MEP entities desired" bit is allocated in the + Attribute Flags TLV [RFC5420] to be used in the LSP_ATTRIBUTES + object. If the "OAM MEP entities desired" bit is set, it indicates + that the establishment of OAM MEP entities is required at the + endpoints of the signaled LSP. The "OAM MIP entities desired" bit is + allocated in the Attribute Flags TLV to be used in the LSP_ATTRIBUTES + or LSP_REQUIRED_ATTRIBUTES objects. If the "OAM MIP entities + desired" bit is set in the Attribute Flags TLV in the + LSP_REQUIRED_ATTRIBUTES object, it indicates that the establishment + of OAM MIP entities is required at every transit node of the + signaled LSP. + +3.1. Establishment of OAM Entities and Functions + + In order to avoid spurious alarms, OAM functions should be set up and + enabled in the appropriate order. When using the GMPLS control plane + for both LSP establishment and enabling OAM functions on the LSPs, + the control of both processes is bound to RSVP-TE message exchanges. + + An LSP may be signaled and established without OAM configuration + first, and OAM entities may be added later with a subsequent + re-signaling of the LSP. Alternatively, the LSP may be set up with + OAM entities with the first signaling of the LSP. The procedures + below apply to both cases. + + Before initiating a Path message with OAM configuration information, + an initiating node MUST establish and configure the corresponding OAM + entities locally. But until the LSP is established, OAM source + functions MUST NOT start sending any OAM messages. In the case of + bidirectional connections, in addition to the OAM source function, + the initiator node MUST set up the OAM sink function and prepare it + to receive OAM messages. During this time the OAM alarms MUST be + suppressed (e.g., due to missing or unidentified OAM messages). To + achieve OAM alarm suppression, Path messages MUST be sent with the + "OAM Alarms Enabled" Admin_Status flag cleared. + + When the Path message arrives at the receiver, the remote end MUST + establish and configure OAM entities according to the OAM information + provided in the Path message. If this is not possible, a PathErr + message SHOULD be sent, and neither the OAM entities nor the LSP + SHOULD be established. If OAM entities are established successfully, + the OAM sink function MUST be prepared to receive OAM messages but + + + +Takacs, et al. Standards Track [Page 8] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + MUST NOT generate any OAM alarms (e.g., due to missing or + unidentified OAM messages). In the case of bidirectional + connections, in addition to the OAM sink function, an OAM source + function MUST be set up and, according to the requested + configuration, the OAM source function MUST start sending OAM + messages. A Resv message MUST then be sent back, including the + Attribute Flags TLV, with the appropriate setting of the "OAM MEP + entities desired" and "OAM MIP entities desired" flags, and the OAM + Configuration TLV that corresponds to the established and configured + OAM entities and functions. Depending on the OAM technology, some + elements of the OAM Configuration TLV MAY be updated/changed, i.e., + if the remote end does not support a certain OAM configuration it may + suggest an alternative setting, which may or may not be accepted by + the initiator of the Path message. If it is accepted, the initiator + will reconfigure its OAM functions according to the information + received in the Resv message. If the alternate setting is not + acceptable, a ResvErr message MAY be sent, tearing down the LSP. + Details of this operation are technology specific and should be + described in accompanying technology-specific documents. + + When the initiating side receives the Resv message, it completes any + pending OAM configuration and enables the OAM source function to send + OAM messages. + + After this exchange, OAM entities are established and configured for + the LSP, and OAM messages are exchanged. OAM alarms can now be + enabled. During the period when OAM alarms are disabled, the + initiator sends a Path message with the "OAM Alarms Enabled" + Admin_Status flag set. The receiving node enables OAM alarms after + processing the Path message. The initiator enables OAM alarms after + it receives the Resv message. Data-plane OAM is now fully + functional. + + If an egress LSR does not support the extensions defined in this + document, according to [RFC5420], it will silently ignore the new LSP + attribute flags as well as the TLVs carrying additional OAM + configuration information, and therefore no error will be raised that + would notify the ingress LSR about the missing OAM configuration + actions on the egress side. However, as described above, an egress + LSR conformant to the specification of this document will set the LSP + attribute flags and include the OAM Configuration TLV in the Resv + message indicating the configuration of the OAM mechanisms; + therefore, by detecting the missing information in the Resv message, + an ingress LSR will be able to recognize that the remote end does not + support the OAM configuration functionality, and therefore it SHOULD + tear down the LSP and, if appropriate, signal the LSP without any OAM + configuration information. + + + + +Takacs, et al. Standards Track [Page 9] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +3.2. Adjustment of OAM Parameters + + There may be a need to change the parameters of an already- + established and configured OAM function during the lifetime of the + LSP. To do so, the LSP needs to be re-signaled with the updated + parameters. OAM parameters influence the content and timing of OAM + messages and also identify the way that OAM defects and alarms are + derived and generated. Hence, to avoid spurious alarms, it is + important that both sides -- OAM sink and source -- are updated in a + synchronized way. First, the alarms of the OAM sink function should + be suppressed and only then should expected OAM parameters be + adjusted. Subsequently, the parameters of the OAM source function + can be updated. Finally, the alarms of the OAM sink side can be + enabled again. + + In accordance with the above operation, the LSP MUST first be + re-signaled with the "OAM Alarms Enabled" Admin_Status flag cleared, + including the updated OAM Configuration TLV corresponding to the new + parameter settings. The initiator MUST keep its OAM sink and source + functions running unmodified, but it MUST suppress OAM alarms after + the updated Path message is sent. The receiver MUST first disable + all OAM alarms and then update the OAM parameters according to the + information in the Path message and reply with a Resv message + acknowledging the changes by including the OAM Configuration TLV. + Note that the receiving side can adjust the requested OAM + configuration parameters and reply with an updated OAM Configuration + TLV in the Resv message, reflecting the values that are actually + configured. However, in order to avoid an extensive negotiation + phase, in the case of adjusting already-configured OAM functions, the + receiving side SHOULD NOT update the parameters requested in the Path + message to an extent that would provide lower performance (e.g., + lower frequency of monitoring packets) than what had previously been + in place. + + The initiator MUST only update its OAM sink and source functions + after it receives the Resv message. After this Path/Resv message + exchange (in both unidirectional and bidirectional LSP cases), the + OAM parameters are updated, and OAM is running according to the new + parameter settings. However, OAM alarms are still disabled. A + subsequent Path/Resv message exchange with the "OAM Alarms Enabled" + Admin_Status flag set is needed to enable OAM alarms again. + + + + + + + + + + +Takacs, et al. Standards Track [Page 10] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +3.3. Deleting OAM Entities + + In some cases, it may be useful to remove some or all OAM entities + and functions from an LSP without actually tearing down the + connection. + + To avoid any spurious alarms, first the LSP MUST be re-signaled with + the "OAM Alarms Enabled" Admin_Status flag cleared but with OAM + configuration unchanged. Subsequently, the LSP is re-signaled with + "OAM MEP entities desired" and "OAM MIP entities desired" LSP + attribute flags cleared, and without the OAM Configuration TLV, this + MUST result in the deletion of all OAM entities associated with the + LSP. All control-plane and data-plane resources in use by the OAM + entities and functions SHOULD be freed up. Alternatively, if only + some OAM functions need to be removed, the LSP is re-signaled with + the updated OAM Configuration TLV. Changes between the contents of + the previously signaled OAM Configuration TLV and the currently + received TLV represent which functions MUST be removed/added. + + OAM source functions MUST be deleted first, and only after the "OAM + Alarms Disabled" can the associated OAM sink functions be removed; + this will ensure that OAM messages do not leak outside the LSP. To + this end, the initiator, before sending the Path message, MUST remove + the OAM source, hence terminating the OAM message flow associated to + the downstream direction. In the case of a bidirectional connection, + it MUST leave in place the OAM sink functions associated to the + upstream direction. The remote end, after receiving the Path + message, MUST remove all associated OAM entities and functions and + reply with a Resv message without an OAM Configuration TLV. The + initiator completely removes OAM entities and functions after the + Resv message arrives. + +4. RSVP-TE Extensions + +4.1. LSP Attribute Flags + + In RSVP-TE, the Flags field of the SESSION_ATTRIBUTE object is used + to indicate options and attributes of the LSP. The Flags field has + 8 bits and hence is limited to differentiate only 8 options. + [RFC5420] defines new objects for RSVP-TE messages to allow the + signaling of arbitrary attribute parameters, making RSVP-TE easily + extensible to support new applications. Furthermore, [RFC5420] + allows options and attributes that do not need to be acted on by all + Label Switching Routers (LSRs) along the path of the LSP. In + particular, these options and attributes may apply only to key LSRs + on the path, such as the ingress LSR and egress LSR. Options and + attributes can be signaled transparently and only examined at those + points that need to act on them. The LSP_ATTRIBUTES and + + + +Takacs, et al. Standards Track [Page 11] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + LSP_REQUIRED_ATTRIBUTES objects are defined in [RFC5420] to provide + means to signal LSP attributes and options in the form of TLVs. + Options and attributes signaled in the LSP_ATTRIBUTES object can be + passed transparently through LSRs not supporting a particular option + or attribute, while the contents of the LSP_REQUIRED_ATTRIBUTES + object MUST be examined and processed by each LSR. One TLV is + defined in [RFC5420]: the Attribute Flags TLV. + + One bit (bit number 10): "OAM MEP entities desired" is allocated in + the Attribute Flags TLV to be used in the LSP_ATTRIBUTES object. If + the "OAM MEP entities desired" bit is set, it indicates that the + establishment of OAM MEP entities is required at the endpoints of the + signaled LSP. If the establishment of MEPs is not supported, an + error MUST be generated: "OAM Problem/MEP establishment not + supported". + + If the "OAM MEP entities desired" bit is set and additional + parameters need to be configured, an OAM Configuration TLV MAY be + included in the LSP_ATTRIBUTES or LSP_REQUIRED_ATTRIBUTES object. + + One bit (bit number 11): "OAM MIP entities desired" is allocated in + the Attribute Flags TLV to be used in the LSP_ATTRIBUTES or + LSP_REQUIRED_ATTRIBUTES objects. If the "OAM MEP entities desired" + bit is not set, then this bit MUST NOT be set. If the "OAM MIP + entities desired" bit is set in the Attribute Flags TLV in the + LSP_REQUIRED_ATTRIBUTES object, it indicates that the establishment + of OAM MIP entities is required at every transit node of the signaled + LSP. If the establishment of a MIP is not supported, an error MUST + be generated: "OAM Problem/MIP establishment not supported". If an + intermediate LSR does not support the extensions defined in this + document, it will not recognize the "OAM MIP entities desired" flag + and, although the LSP_REQUIRED_ATTRIBUTES object was used, it will + not configure MIP entities and will not raise any errors. If LSRs + that do not support the extensions defined in this document are to be + assumed as present in the network, the ingress LSR SHOULD collect + per-hop information about the LSP attributes utilizing the LSP + Attributes sub-object of the Record Route object (RRO) as defined in + [RFC5420]. When the Record Route object is received, the ingress + SHOULD check whether all intermediate LSRs set the "OAM MIP entities + desired" flag indicating support of the function; if not, depending + on operator policy, the LSP MAY need to be torn down. + + + + + + + + + + +Takacs, et al. Standards Track [Page 12] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +4.2. OAM Configuration TLV + + This TLV provides information about which OAM technology/method + should be used and carries sub-TLVs for any additional OAM + configuration information. One OAM Configuration TLV MAY be carried + in the LSP_ATTRIBUTES or LSP_REQUIRED_ATTRIBUTES object in Path and + Resv messages. When carried in the LSP_REQUIRED_ATTRIBUTES object, + it indicates that intermediate nodes MUST recognize and react on the + OAM configuration information. + + 0 1 2 3 + 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Type (3) | Length | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | OAM Type | Reserved | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | | + ~ sub-TLVs ~ + | | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + + Type: indicates a new type: the OAM Configuration TLV (3). + + OAM Type: specifies the technology-specific OAM method. When carried + in the LSP_REQUIRED_ATTRIBUTES object, if the requested OAM method is + not supported at any given node an error MUST be generated: "OAM + Problem/Unsupported OAM Type". When carried in the LSP_ATTRIBUTES + object, intermediate nodes not supporting the OAM Type pass the + object forward unchanged as specified in [RFC5420]. Ingress and + egress nodes that support the OAM Configuration TLV but that do not + support a specific OAM Type MUST respond with an error indicating + "OAM Problem/Unsupported OAM Type". + + OAM Type Description + ------------ -------------------- + 0-255 Reserved + + This document defines no types. IANA maintains the values in a new + "RSVP-TE OAM Configuration Registry". + + Length: indicates the total length of the TLV in octets. The TLV + MUST be zero-padded so that the TLV is 4-octet aligned. + + Two groups of TLVs are defined: generic sub-TLVs and technology- + specific sub-TLVs. Generic sub-TLVs carry information that is + applicable independent of the actual OAM technology, while + technology-specific sub-TLVs are providing configuration parameters + + + +Takacs, et al. Standards Track [Page 13] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + for specific OAM technologies. This document defines one generic + sub-TLV (see Section 4.2.1), while it is foreseen that technology- + specific sub-TLVs will be defined by separate documents. + + The receiving node, based on the OAM Type, will check to see if a + corresponding technology-specific OAM configuration sub-TLV is + included in the OAM Configuration TLV. If the included technology- + specific OAM configuration sub-TLV is different from what is + specified in the OAM Type, an error MUST be generated: "OAM Problem/ + OAM Type Mismatch". IANA maintains the sub-TLV space in the new + "RSVP-TE OAM Configuration Registry". + + Note that there is a hierarchical dependency between the OAM + configuration elements. First, the "OAM MEP entities desired" flag + needs to be set. Only when that flag is set MAY an OAM Configuration + TLV be included in the LSP_ATTRIBUTES or LSP_REQUIRED_ATTRIBUTES + object. When this TLV is present, based on the "OAM Type" field, it + MAY carry a technology-specific OAM configuration sub-TLV. If this + hierarchy is broken (e.g., "OAM MEP entities desired" flag is not set + but an OAM Configuration TLV is present), an error MUST be generated: + "OAM Problem/Configuration Error". + +4.2.1. OAM Function Flags Sub-TLV + + The OAM Configuration TLV MUST always include a single instance of + the OAM Function Flags Sub-TLV, and it MUST always be the first + sub-TLV. "OAM Function Flags" specifies which proactive OAM + functions (e.g., connectivity monitoring, loss and delay measurement) + and which fault management signals MUST be established and + configured. If the selected OAM Function or Functions are not + supported, an error MUST be generated: "OAM Problem/Unsupported OAM + Function". + + 0 1 2 3 + 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Type (1) | Length | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | | + ~ OAM Function Flags ~ + | | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + + + + + + + + + +Takacs, et al. Standards Track [Page 14] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + OAM Function Flags is a bitmap with extensible length based on the + Length field of the TLV. Bits are numbered from left to right. The + TLV is padded to 4-octet alignment. The Length field indicates the + size of the padded TLV in octets. IANA maintains the OAM Function + Flags in the new "RSVP-TE OAM Configuration Registry". This document + defines the following flags: + + OAM Function Flag bit # Description + ----------------------- --------------------------------------------- + 0 Continuity Check (CC) + 1 Connectivity Verification (CV) + 2 Fault Management Signal (FMS) + 3 Performance Monitoring/Loss (PM/Loss) + 4 Performance Monitoring/Delay (PM/Delay) + 5 Performance Monitoring/Throughput Measurement + (PM/Throughput) + +4.2.2. Technology-Specific Sub-TLVs + + If technology-specific configuration information is needed for a + specific "OAM Type", then this information is carried in a + technology-specific sub-TLV. Such sub-TLVs are OPTIONAL, and an OAM + Configuration TLV MUST NOT contain more than one technology-specific + sub-TLV. IANA maintains the OAM technology-specific sub-TLV space in + the new "RSVP-TE OAM Configuration Registry". + +4.3. Administrative Status Information + + Administrative Status Information is carried in the Admin_Status + object, which is specified for RSVP-TE in [RFC3473]. Administrative + Status Information is described in [RFC3471]. + + Two bits (bit numbers 23 and 24) are allocated by this document for + the administrative control of OAM monitoring: the "OAM Flows Enabled" + (M) and "OAM Alarms Enabled" (O) bits. When the "OAM Flows Enabled" + bit is set, OAM mechanisms MUST be enabled; if it is cleared, OAM + mechanisms MUST be disabled. When the "OAM Alarms Enabled" bit is + set, OAM-triggered alarms are enabled and associated consequent + actions MUST be executed, including the notification to the + management system. When this bit is cleared, alarms are suppressed, + and no action SHOULD be executed; additionally, the management system + SHOULD NOT be notified. For a detailed description of the use of + these flags, see Section 3. + + + + + + + + +Takacs, et al. Standards Track [Page 15] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +4.4. Handling OAM Configuration Errors + + To handle OAM configuration errors, a new Error Code "OAM Problem" + (40) is introduced. To refer to specific problems, a set of Error + Values are defined under the "OAM Problem" error code. + + If a node does not support the establishment of OAM MEP or MIP + entities it MUST use the error value "MEP establishment not + supported" or "MIP establishment not supported", respectively, in the + PathErr message. + + If a node does not support a specific OAM technology/solution, it + MUST use the error value "Unsupported OAM Type" in the PathErr + message. + + If a different technology-specific OAM Configuration TLV is included + than what was specified in the OAM Type, an error MUST be generated + with error value "OAM Type Mismatch" in the PathErr message. + + There is a hierarchy between the OAM configuration elements. If this + hierarchy is broken, the error value "Configuration Error" MUST be + used in the PathErr message. + + If a node does not support a specific OAM Function, it MUST use the + error value "Unsupported OAM Function" in the PathErr message. + +4.5. Considerations on Point-to-Multipoint OAM Configuration + + RSVP-TE extensions for the establishment of point-to-multipoint + (P2MP) LSPs are specified in [RFC4875]. A P2MP LSP is comprised of + multiple source-to-leaf (S2L) sub-LSPs. These S2L sub-LSPs are set + up between the ingress and egress LSRs and are appropriately combined + by the branch LSRs using RSVP semantics to result in a P2MP TE LSP. + One Path message may signal one or multiple S2L sub-LSPs for a single + P2MP LSP. Hence, the S2L sub-LSPs belonging to a P2MP LSP can be + signaled using one Path message or split across multiple Path + messages. + + P2MP OAM mechanisms are very specific to the data-plane technology; + therefore, in this document we only highlight the basic principles of + P2MP OAM configuration. We consider only the root-to-leaf OAM flows, + and as such, aspects of the configuration of return paths are outside + the scope of our discussions. We also limit our consideration to the + case where all leaves must successfully establish OAM entities with + identical configuration in order for the P2MP OAM to be successfully + established. In any case, the discussion set forth below provides + + + + + +Takacs, et al. Standards Track [Page 16] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + only guidelines for P2MP OAM configuration. However, at a minimum, + the procedures below SHOULD be specified for P2MP OAM configuration + in a technology-specific document. + + The root node may use a single Path message or multiple Path messages + to set up the whole P2MP tree. In the case when multiple Path + messages are used, the root node is responsible for keeping the OAM + configuration information consistent in each of the sent Path + messages, i.e., the same information MUST be included in all Path + messages used to construct the multicast tree. Each branching node + will propagate the Path message downstream on each of the branches; + when constructing a Path message, the OAM configuration information + MUST be copied unchanged from the received Path message, including + the related Admin_Status bits, LSP attribute flags, and OAM + Configuration TLV. The latter two also imply that the LSP_ATTRIBUTES + and LSP_REQUIRED_ATTRIBUTES objects MUST be copied for the upstream + Path message to the subsequent downstream Path messages. + + Leaves MUST create and configure OAM sink functions according to the + parameters received in the Path message; for P2MP OAM configuration, + there is no possibility for parameter negotiation on a per-leaf + basis. This is due to the fact that the OAM source function, + residing in the root of the tree, will operate with a single + configuration, which then must be obeyed by all leaves. If a leaf + cannot accept the OAM parameters, it MUST use the RRO Attributes + sub-object [RFC5420] to notify the root about the problem. In + particular, if the OAM configuration was successful, the leaf would + set the "OAM MEP entities desired" flag in the RRO Attributes + sub-object in the Resv message. On the other hand, if OAM entities + could not be established, the Resv message should be sent with the + "OAM MEP entities desired" bit cleared in the RRO Attributes + sub-object. Branching nodes should collect and merge the received + RROs according to the procedures described in [RFC4875]. This way, + the root, when receiving the Resv message (or messages if multiple + Path messages were used to set up the tree), will have clear + information about which of the leaves could establish the OAM + functions. If all leaves established OAM entities successfully, the + root can enable the OAM message flow. On the other hand, if at some + leaves the establishment was unsuccessful, additional actions will be + needed before the OAM message flow can be enabled. Such action could + be to set up two independent P2MP LSPs: + + o One LSP with OAM configuration information towards leaves that can + support the OAM function. This can be done by pruning from the + previously signaled P2MP LSP the leaves that failed to set up OAM. + + o The other P2MP LSP could be constructed for leaves without OAM + entities. + + + +Takacs, et al. Standards Track [Page 17] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + The exact procedures will be described in technology-specific + documents. + +5. IANA Considerations + +5.1. Admin_Status Object Bit Flags + + IANA maintains a registry called "Generalized Multi-Protocol Label + Switching (GMPLS) Signaling Parameters" with a sub-registry called + "Administrative Status Information Flags". + + IANA has allocated two new flags as follows: + + Bit Number | Hex Value | Name | Reference + -----------+------------+--------------------------+----------- + 23 | 0x00000100 | OAM Flows Enabled (M) | [RFC7260] + 24 | 0x00000080 | OAM Alarms Enabled (O) | [RFC7260] + +5.2. LSP Attribute Flags + + IANA maintains a registry called "Resource Reservation Protocol- + Traffic Engineering (RSVP-TE) Parameters" with a sub-registry called + "Attribute Flags". + + IANA has allocated two new flags as follows: + + Bit | | Attribute | Attribute | | + No. | Name | Flags Path | Flags Resv | RRO | Reference + ----+------------------+------------+------------+-----+---------- + 10 | OAM MEP | | | | + | entities desired | Yes | Yes | Yes | [RFC7260] + | | | | | + 11 | OAM MIP | | | | + | entities desired | Yes | Yes | Yes | [RFC7260] + + + + + + + + + + + + + + + + + +Takacs, et al. Standards Track [Page 18] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +5.3. New LSP Attributes + + IANA maintains a registry called "Resource Reservation Protocol- + Traffic Engineering (RSVP-TE) Parameters" with a sub-registry called + "Attributes TLV Space". + + IANA has allocated one new TLV type as follows: + + | | |Allowed on | + | |Allowed on |LSP_REQUIRED_| + Type| Name |LSP_ATTRIBUTES|ATTRIBUTES |Reference + ----+----------------------+--------------+-------------+--------- + 3 | OAM Configuration TLV| Yes | Yes |[RFC7260] + +5.4. RSVP Error Code + + IANA maintains a registry called "Resource Reservation Protocol + (RSVP) Parameters" with a sub-registry called "Error Codes and + Globally-Defined Error Value Sub-Codes". + + IANA has allocated one new Error Code as follows: + + Error Code | Meaning | Reference + -----------+-------------+------------- + 40 | OAM Problem | [RFC7260] + + The following Error Value sub-codes are defined for this new Error + Code: + + Value | Description | Reference + -----------+---------------------------------+-------------- + 0 | Reserved | [RFC7260] + 1 | MEP establishment not supported | [RFC7260] + 2 | MIP establishment not supported | [RFC7260] + 3 | Unsupported OAM Type | [RFC7260] + 4 | Configuration Error | [RFC7260] + 5 | OAM Type Mismatch | [RFC7260] + 6 | Unsupported OAM Function | [RFC7260] + 7-32767 | Unassigned | + 32768-65535| Reserved for Private Use | [RFC7260] + + + + + + + + + + + +Takacs, et al. Standards Track [Page 19] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +5.5. RSVP-TE OAM Configuration Registry + + IANA has created a new registry called "RSVP-TE OAM Configuration + Registry". + + IANA has created sub-registries as defined in the following + subsections. The registration procedures specified are as defined in + [RFC5226]. + +5.5.1. OAM Types Sub-Registry + + IANA has created the "OAM Types" sub-registry of the "RSVP-TE OAM + Configuration Registry" as follows: + + Range | Registration Procedures + -------+------------------------- + 0-255 | IETF Review + + There are no initial values in this registry. IANA shows the + registry as follows: + + OAM Type Number | OAM Type Description | Reference + ----------------+----------------------+-------------- + 0-255 | Unassigned | + +5.5.2. OAM Sub-TLVs Sub-Registry + + IANA has created the "OAM Sub-TLVs" sub-registry of the "RSVP-TE OAM + Configuration Registry" as follows: + + Range | Note | Registration Procedures + ------------+------------------------------|------------------------ + 0-31 | Generic Sub-TLVs | IETF Review + 32-65534 | Technology-specific Sub-TLVs | IETF Review + 65535-65536 | Experimental Sub-TLVs | Reserved for + | Experimental Use + + IANA has populated the registry as follows: + + Sub-TLV Type | Description | Reference + -------------+-------------------------------+---------- + 0 | Reserved | [RFC7260] + 1 | OAM Function Flags Sub-TLV | [RFC7260] + 2-65534 | Unassigned | + 65535-65536 | Reserved for Experimental Use | [RFC7260] + + + + + + +Takacs, et al. Standards Track [Page 20] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +5.5.3. OAM Function Flags Sub-Registry + + IANA has created the "OAM Function Flags Sub-Registry" sub-registry + of the "RSVP-TE OAM Configuration Registry". + + New values in the registry are allocated by IETF Review [RFC5226]. + There is no top value to the range. Bits are counted from bit 0 as + the first bit transmitted. + + IANA has populated the registry as follows: + + OAM Function Flag | Description + Bit Number | + ------------------+---------------------------------------------- + 0 | Continuity Check (CC) + 1 | Connectivity Verification (CV) + 2 | Fault Management Signal (FMS) + 3 | Performance Monitoring/Loss (PM/Loss) + 4 | Performance Monitoring/Delay (PM/Delay) + 5 | Performance Monitoring/Throughput Measurement + | (PM/Throughput) + >=6 | Unassigned + +6. Security Considerations + + The signaling of OAM-related parameters and the automatic + establishment of OAM entities based on RSVP-TE messages add a new + aspect to the security considerations discussed in [RFC3473]. In + particular, a network element could be overloaded if a remote + attacker targeted that element by sending frequent periodic messages + requesting liveliness monitoring of a high number of LSPs. Such an + attack can efficiently be prevented when mechanisms for message + integrity and node authentication are deployed. Since the OAM + configuration extensions rely on the hop-by-hop exchange of exiting + RSVP-TE messages, procedures specified for RSVP message security in + [RFC2747] can be used to mitigate possible attacks. + + For a more comprehensive discussion of GMPLS security and attack + mitigation techniques, please see the Security Framework for MPLS and + GMPLS Networks [RFC5920]. + +7. Acknowledgements + + The authors would like to thank Francesco Fondelli, Adrian Farrel, + Loa Andersson, Eric Gray, and Dimitri Papadimitriou for their useful + comments. + + + + + +Takacs, et al. Standards Track [Page 21] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +8. References + +8.1. Normative References + + [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate + Requirement Levels", BCP 14, RFC 2119, March 1997. + + [RFC3471] Berger, L., "Generalized Multi-Protocol Label Switching + (GMPLS) Signaling Functional Description", RFC 3471, + January 2003. + + [RFC3473] Berger, L., "Generalized Multi-Protocol Label Switching + (GMPLS) Signaling Resource ReserVation Protocol-Traffic + Engineering (RSVP-TE) Extensions", RFC 3473, January 2003. + + [RFC5226] Narten, T. and H. Alvestrand, "Guidelines for Writing an + IANA Considerations Section in RFCs", BCP 26, RFC 5226, + May 2008. + + [RFC5420] Farrel, A., Papadimitriou, D., Vasseur, JP., and A. + Ayyangarps, "Encoding of Attributes for MPLS LSP + Establishment Using Resource Reservation Protocol Traffic + Engineering (RSVP-TE)", RFC 5420, February 2009. + +8.2. Informative References + + [IEEE.802.1Q-2011] + IEEE, "IEEE Standard for Local and metropolitan area + networks -- Media Access Control (MAC) Bridges and Virtual + Bridged Local Area Networks", IEEE Std 802.1Q, 2011. + + [RFC2747] Baker, F., Lindell, B., and M. Talwar, "RSVP Cryptographic + Authentication", RFC 2747, January 2000. + + [RFC4377] Nadeau, T., Morrow, M., Swallow, G., Allan, D., and S. + Matsushima, "Operations and Management (OAM) Requirements + for Multi-Protocol Label Switched (MPLS) Networks", + RFC 4377, February 2006. + + [RFC4379] Kompella, K. and G. Swallow, "Detecting Multi-Protocol + Label Switched (MPLS) Data Plane Failures", RFC 4379, + February 2006. + + [RFC4875] Aggarwal, R., Papadimitriou, D., and S. Yasukawa, + "Extensions to Resource Reservation Protocol - Traffic + Engineering (RSVP-TE) for Point-to-Multipoint TE Label + Switched Paths (LSPs)", RFC 4875, May 2007. + + + + +Takacs, et al. Standards Track [Page 22] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + + [RFC5654] Niven-Jenkins, B., Brungard, D., Betts, M., Sprecher, N., + and S. Ueno, "Requirements of an MPLS Transport Profile", + RFC 5654, September 2009. + + [RFC5828] Fedyk, D., Berger, L., and L. Andersson, "Generalized + Multiprotocol Label Switching (GMPLS) Ethernet Label + Switching Architecture and Framework", RFC 5828, + March 2010. + + [RFC5860] Vigoureux, M., Ward, D., and M. Betts, "Requirements for + Operations, Administration, and Maintenance (OAM) in MPLS + Transport Networks", RFC 5860, May 2010. + + [RFC5920] Fang, L., "Security Framework for MPLS and GMPLS + Networks", RFC 5920, July 2010. + + [RFC5921] Bocci, M., Bryant, S., Frost, D., Levrau, L., and L. + Berger, "A Framework for MPLS in Transport Networks", + RFC 5921, July 2010. + + [RFC6060] Fedyk, D., Shah, H., Bitar, N., and A. Takacs, + "Generalized Multiprotocol Label Switching (GMPLS) Control + of Ethernet Provider Backbone Traffic Engineering + (PBB-TE)", RFC 6060, March 2011. + + + + + + + + + + + + + + + + + + + + + + + + + + + +Takacs, et al. Standards Track [Page 23] + +RFC 7260 RSVP-TE-Based OAM Configuration June 2014 + + +Authors' Addresses + + Attila Takacs + Ericsson + Konyves Kalman krt. 11. + Budapest 1097 + Hungary + + EMail: attila.takacs@ericsson.com + + + Don Fedyk + Hewlett-Packard Company + 153 Taylor Street + Littleton, MA 01460 + USA + + EMail: don.fedyk@hp.com + + + Jia He + Huawei + PR China + + EMail: hejia@huawei.com + + + + + + + + + + + + + + + + + + + + + + + + + + +Takacs, et al. Standards Track [Page 24] + -- cgit v1.2.3