RSVP PARAMETERS (last updated 2007-01-24) Information on RSVP Assignment and Modification Guidelines can be found in [RFC3936]. Message Types Class Names, Class Numbers, and Class Types Virtual Destination Ports Error Codes and Values --------------------------------------------------------------------- Message Types An 8-bit number that identifies the function of the RSVP message. 1 = Path [RFC2205] 2 = Resv [RFC2205] 3 = PathErr [RFC2205] 4 = ResvErr [RFC2205] 5 = PathTear [RFC2205] 6 = ResvTear [RFC2205] 7 = ResvConf [RFC2205] 8 = DREQ [RFC2745] 9 = DREP [RFC2745] 10 = ResvTearConfirm [Baker] 11 = Unassigned 12 = Bundle [RFC2961] 13 = ACK [RFC2961] 14 = Reserved 15 = Srefresh [RFC2961] 20 = Hello [RFC3209] 21 = Notify Message [RFC3473] 25 = Integrity Challenge [RFC2747, RFC3097] 26 = Integrity Response [RFC2747, RFC3097] 66 = DSBM_willing [SBM] 67 = I_AM_DSBM [SBM] --------------------------------------------------------------------- Class Names, Class Numbers, and Class Types Each class of data object in an RSVP message is identified by a Class Name and an 8-bit Class Number. The Class Name is all upper-case. Within each object class there is an 8-bit Class Type (also known as a C-Type). The following lists shows the Class Number and Class Name for each class, followed by the corresponding Class Types. Class Number Class Name Reference ------ ----------------------- --------- 0 NULL [RFC2205] Class Types or C-Types: Ignored. 1 SESSION [RFC2205] Class Types or C-Types: 1 IPv4 [RFC2205] 2 IPv6 [RFC2205] 3 IPv4/GPI [RFC2207] 4 IPv6/GPI [RFC2207] 5 unassigned [IANA] 6 tagged_tunnel_IPv4 [Baker] 7 LSP Tunnel IPv4 [RFC3209] 8 LSP Tunnel IPv6 [RFC3209] 9 RSVP-Aggregate-IP4 [RFC3175] 10 RSVP-Aggregate-IP6 [RFC3175] 11 UNI_Ipv4_Session object [RFC3476] 12 UNI_IPv6 SESSION object (ASON) [RFC3474] 13 unassigned 14 unassigned 15 ENNI_IPv4 SESSION object (ASON) [RFC3474] 16 ENNI_IPv6 SESSION object (ASON) [RFC3474] 2 unassigned 3 RSVP_HOP [RFC2205] Class Types or C-Types: 1 IPv4 [RFC2205] 2 IPv6 [RFC2205] 3 IPv4 IF_ID RSVP_HOP [RFC3473] 4 IPv6 IF_ID RSVP_HOP [RFC3473] 4 INTEGRITY [RFC2205] Class Types or C-Types: 1 Type 1 Integrity Value [Integrity] 5 TIME_VALUES [RFC2205] Class Types or C-Types: 1 Type 1 Time Value [RFC2205] 6 ERROR_SPEC [RFC2205] Class Types or C-Types: 1 IPv4 [RFC2205] 2 IPv6 [RFC2205] 3 IPv4 IF_ID ERROR_SPEC [RFC3473] 4 IPv6 IF_ID ERROR_SPEC [RFC3473] 7 SCOPE [RFC2205] Class Types or C-Types: 1 IPv4 [RFC2205] 2 IPv6 [RFC2205] 8 STYLE [RFC2205] Class Types or C-Types: 1 Type 1 Style [RFC2205] 9 FLOWSPEC [RFC2205] Class Types or C-Types: 1 Reserved [RFC2205] 2 Int-serv Flowspec [RFC2210] 3 Deprecated [IESG] 4 SONET/SDH FLOWSPEC [RFC4606] 5 G.709 [RFC4328] 10 FILTER_SPEC [RFC2205] Class Types or C-Types: 1 IPv4 [RFC2205] 2 IPv6 [RFC2205] 3 IPv6 Flow Label [RFC2205] 4 IPv4/GPI [RFC2207] 5 IPv6/GPI [RFC2207] 6 tagged_tunnel_IPv4 [Baker] 7 LSP Tunnel IPv4 [RFC3209] 8 LSP Tunnel IPv6 [RFC3209] 9 RSVP-Aggregate-IP4 [RFC3175] 10 RSVP-Aggregate-IP6 [RFC3175] 11 SENDER_TEMPLATE [RFC2205] Class Types or C-Types: 1 IPv4 [RFC2205] 2 IPv6 [RFC2205] 3 IPv6 Flow Label [RFC2205] 4 IPv4/GPI [RFC2207] 5 IPv6/GPI [RFC2207] 6 tagged_tunnel_IPv4 [Baker] 7 LSP Tunnel IPv4 [RFC3209] 8 LSP Tunnel IPv6 [RFC3209] 9 RSVP-Aggregate-IP4 [RFC3175] 10 RSVP-Aggregate-IP6 [RFC3175] 12 SENDER_TSPEC [RFC2205] Class Types or C-Types: 2 Int-serv [RFC2210] 3 Deprecated [IESG] 4 SONET/SDH SENDER_TSPEC [RFC4606] 5 G.709 [RFC4328] 13 ADSPEC [RFC2205] Class Types or C-Types: 2 Int-serv [RFC2210] 14 POLICY_DATA [RFC2205] Class Types or C-Types: 1 Type 1 policy data [RFC2205] 15 RESV_CONFIRM [RFC2205] Class Types or C-Types: 1 IPv4 [RFC2205] 2 IPv6 [RFC2205] 16 RSVP_LABEL [RFC3209] Class Types or C-Types: 1 Type 1 Label [RFC3209] 2 Generalized_Label [RFC3473] 3 Waveband_Switching_Label C-Type [RFC3473] 17 HOP_COUNT [Davie] Class Types or C-Types: 1 IPv4 [Davie] 18 STRICT_SOURCE_ROUTE [Baker] Class Types or C-Types: 1 Default [Baker] 19 LABEL_REQUEST [RFC3209] Class Types or C-Types: 1 Without Label Range [RFC3209] 2 With ATM Label Range [RFC3209] 3 With Frame Relay Label Range [RFC3209] 4 Generalized_Label_Request [RFC3473] 20 EXPLICIT_ROUTE [RFC3209] Class Types or C-Types: 1 Type 1 Explicit Route [RFC3209] Sub-object type 1 IPv4 prefix [RFC3209] 2 IPv6 prefix [RFC3209] 3 Label [RFC3473] 4 Unnumbered Interface ID [RFC3477] 32 Autonomous system number [RFC3209] 37 Reserved [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] 21 ROUTE_RECORD [RFC3209] (also known as RECORD_ROUTE) Class Types or C-Types: 1 Type 1 Route Record [RFC3209] Sub-object type 1 IPv4 address [RFC3209] 2 IPv6 address [RFC3209] 3 Label [RFC3473] 4 Unnumbered Interface ID [RFC3477] 5 RRO Attributes [RFC4420] 37 Reserved [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] 22 HELLO [RFC3209] Class Types or C-Types: 1 Request [RFC3209] 2 Acknowledgment [RFC3209] 23 MESSAGE_ID [RFC2961] Class Types or C-Types: 1 Type 1 Message ID [RFC2961] 24 MESSAGE_ID_ACK [RFC2961] Class Types or C-Types: 1 MESSAGE_ID_ACK [RFC2961] 2 MESSAGE_ID_NACK [RFC2961] 25 MESSAGE_ID_LIST [RFC2961] Class Types or C-Types: 1 Message ID list [RFC2961] 2 IPv4 Message ID Source list [RFC2961] 3 IPv6 Message ID Source list [RFC2961] 4 IPv4 Message ID Multicast list [RFC2961] 5 IPv6 Message ID Multicast list [RFC2961] 26-29 Unassigned 30 DIAGNOSTIC [RFC2745] Class Type of C-Type 1 IPv4 [RFC2745] 2 IPv6 [RFC2745] 31 ROUTE [RFC2745] Class Types or C-Types: 1 IPv4 [RFC2745] 2 IPv6 [RFC2745] 32 DIAG_RESPONSE [RFC2745] Class Types or C-Types: 1 IPv4 [RFC2745] 2 IPv6 [RFC2745] 33 DIAG_SELECT [RFC2745] Class Types or C-Types: 1 Type 1 Diagnostic Select [RFC2745] 34 RECOVERY_LABEL [RFC3473] Class Types or C-types: Same values as RSVP_LABEL (C-Num 16) 35 UPSTREAM_LABEL [RFC3473] Class Types or C-types: Same values as RSVP_LABEL (C-Num 16) 36 LABEL_SET [RFC3473] Class Types or C-types: 1 Type 1 Label_set [RFC3473] 37 PROTECTION [RFC3473] Class Types or C-types: 1 Type 1 Protection [RFC3473] 2 Type 2 [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 38 PRIMARY PATH ROUTE [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] Class Types of C-Types 1 Type 1 Primary Path Route [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 39-41 Unassigned 42 DSBM IP ADDRESS [SBM2] Class Types or C-Types: 1 IPv4 [SBM2] 2 IPv6 [SBM2] 43 SBM_PRIORITY [SBM2] Class Types or C-Types: 1 default [SBM2] 44 DSBM TIMER INTERVALS [SBM2] Class Types or C-Types: 1 default [SBM2] 45 SBM_INFO [SBM2] Class Types or C-Types: 1 Media Type [SBM2] 46-62 Unassigned 63 DETOUR [RFC4090] Class Types or C-Types: 7 IPv4 [RFC4090] 8 IPv6 [RFC4090] 64 CHALLENGE [Integrity] Class Types or C-Types: 1 Type 1 Challenge Value [Integrity] 65 DIFF-SERV [RFC3270] Class Types or C-Types: 1 Diff-Serv object for an E-LSP [RFC3270] 2 Diff-Serv object for an L-LSP [RFC3270] 66 CLASSTYPE [RFC4124] Class Types or C-Types: 1 Type 1 [RFC4124] 67 LSP_REQUIRED_ATTRIBUTES [RFC4420] Class Types or C-types: 1 LSP Required Attributess TLVs [RFC4420] 68-127 Unassigned 128 NODE_CHAR [Tunnel] Class Types or C-Types: Should be zero; ignored. [Tunnel] 129 SUGGESTED_LABEL [RFC3473] Class Types or C-types: Same values as RSVP_LABEL (C-Num 16) 130 ACCEPTABLE_LABEL_SET [RFC3473] Class Types or C-types: Same values as LABEL_SET (C-Num 36) 131 RESTART_CAP [RFC3473] Class Types or C-types: 1 Type 1 Restart capabilities [RFC3473] 132-160 Unassigned 161 RSVP_HOP_L2 [SBM2] Class Types or C-Types: 1 IEEE Canonical Address [SBM2] 162 LAN_NHOP_L2 [SBM2] Class Types or C-Types: 1 IEEE Canonical Address [SBM2] 163 LAN_NHOP_L3 [SBM2] Class Types or C-Types: 1 IPv4 [SBM2] 2 IPv6 [SBM2] 164 LAN_LOOPBACK [SBM2] Class Types or C-Types: 1 IPv4 [SBM2] 2 IPv6 [SBM2] 165 TCLASS [SBM2] 166-191 Unassigned 192 SESSION_ASSOC [Tunnel] Class Types or C-Types: Should be zero, ignored. [Tunnel] 193 LSP_TUNNEL_INTERFACE_ID [RFC3477] Class Types or C-Types: 1 Forward/Reverse Interface ID [RFC3477] 194 Unassigned 195 NOTIFY_REQUEST [RFC3473] Class Types or C-Types: 1 IPv4 Notify Request [RFC3473] 2 IPv6 Notify Request [RFC3473] 196 ADMIN-STATUS [RFC3473] Class Types or C-types: 1 Type 1 Admin status [RFC3473] 197 LSP_ATTRIBUTES [RFC4420] Class Types or C-types: 1 LSP Attributess TLVs [RFC4420] 198 ALARM_SPEC [RFC4783] Class Types or C-Types: 1 Type 1 RESERVED [RFC4783] 2 Type 2 RESERVED [RFC4783] 3 IPv4 IF_ID ALARM_SPEC [RFC4783] 4 IPv6 IF_ID ALARM_SPEC [RFC4783] 199 ASSOCIATION [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] Class Types or C-Types 1 Type 1 IPv4 Association [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 2 Type 2 IPv6 Association [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 200 SECONDARY_EXPLICIT_ROUTE [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] Class Types or C-Types 1 Type 1 Explicit Route [RFC3209] Sub-object type 1 IPv4 prefix [RFC3209] 2 IPv6 prefix [RFC3209] 3 Label [RFC3473] 4 Unnumbered Interface ID [RFC3477] 32 Autonomous system number [RFC3209] 37 Reserved [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] 201 SECONDARY_RECORD_ROUTE [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] Class Types or C-Types 1 Type 1 Explicit Route [RFC3209] Sub-object type 1 IPv4 prefix [RFC3209] 2 IPv6 prefix [RFC3209] 3 Label [RFC3473] 4 Unnumbered Interface ID [RFC3477] 32 Autonomous system number [RFC3209] 37 Reserved [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] 202-204 Unassigned 205 FAST_REROUTE [RFC4090] Class Types or C-types: 1 Type 1 [RFC4090] 7 Type 7 RESERVED [RFC4090] 206 Unassigned 207 SESSION_ATTRIBUTE [RFC3209] Class Types or C-Types: 1 LSP_TUNNEL_RA [RFC3209] 7 LSP Tunnel [RFC3209] 208-223 Unassigned --------------------------------------------------------------------- Class Numbers 224-255 are assigned by IANA using FCFS allocation. RSVP will silently ignore, but FORWARD an object with a Class Number in this range that it does not understand. 224 Unassigned 225 DCLASS [DCLASS] 226 PACKETCABLE EXTENSIONS [PKTCABLE] Class Types or C-Types: 1 Reverse-Rspec [PKTCABLE] 2 Reverse-Session [PKTCABLE] 3 Reverse-Sender-Template [PKTCABLE] 4 Reverse-Sender-Tspec [PKTCABLE] 5 Forward-Rspec [PKTCABLE] 6 Component-Tspec [PKTCABLE] 7 Resource-ID [PKTCABLE] 8 Gate-ID [PKTCABLE] 9 Commit-Entity [PKTCABLE] 227 ATM_SERVICECLASS [RFC3496] Class Types or C-Types: 1 ATM Service class [RFC3496] 228 CALL_OPS (ASON) [RFC3474] Class Types or C-Types: 1 Type 1 CALL_OPS [RFC3474] 229 GENERALIZED_UNI [RFC3476] Class Types or C-Types: 1 Type 1 Generalized UNI [RFC3476] Sub-object type 1 - Source TNA [RFC3476] Sub-object sub-type 1 Ipv4 [RFC3476] 2 Ipv6 [RFC3476] 3 NSAP [RFC3476] Sub-object type 2 - Destination TNA Sub-object sub-type 1 Ipv4 [RFC3476] 2 Ipv6 [RFC3476] 3 NSAP [RFC3476] Sub-object type 3 - Diversity [RFC3476] Sub-object sub-type 1 Diversity [RFC3476] Sub-object type 4 - Egress Label [RFC3476] Sub-object sub-type 1 Egress Label [RFC3476] 2 SPC_LABEL [RFC3474] Sub-object type 5 - Service level [RFC3476] Sub-object sub-type 1 Service level [RFC3476] 230 CALL_ID [RFC3474] Class Types or C-Types: 1 Operator specific [RFC3474] 2 Globally unique [RFC3474] Sub-object type 0x01 Source LSR address is 4-bytes [RFC3474] 0x02 Source LSR address is 16-bytes [RFC3474] 0x03 Source LSR address is 20-bytes [RFC3474] 0x04 Source LSR address is 6-bytes [RFC3474] 0x7f the source LSR address has the [RFC3474] length defined by the vendor 231 3GPP2_Object [3GPP2] Class Types or C-Types: 1 Component [3GPP2] 232-254 Unassigned 255 Reserved --------------------------------------------------------------------- Virtual Destination Ports RFC 2207 describes a set of virtual destination ports for use with IPSEC. The range of possible vDstPort values is broken down into sections, in a fashion similar to the UDP/TCP port ranges. 0 Illegal Value 1 - 10 Reserved. Contact authors. 11 - 8191 Assigned by IANA 8192 - 65535 Dynamic IANA is directed to assign the well-known vDstPorts using the following criteria: Anyone who asks for an assigned vDstPort must provide a) a Point of Contact, b) a brief description of intended use, and c) a short name to be associated with the assignment (e.g. "ftp"). None are currently assigned. --------------------------------------------------------------------- Error Codes and Globally-Defined Error Value Sub-Codes An Error Code is an 8-bit quantity that appears in an ERROR_SPEC object to broadly define an error condition. With each Error Code there may be a 16-bit Error Value that further specifies the cause of the error. Error Values may be globally defined, in which case the sub-code component is assigned by IANA [RFC2205]. The following list extends the basic list of Error Codes and Values that are defined in [RFC2205]. Error Code Meaning 0 See [RFC2205] 1 Admission Control Failure [RFC2205] The sixteen bits of the Error Value field are ssur cccc cccc cccc as defined in [RFC2205] The following globally-defined sub-codes may appear in the low- order 12 bits when ssur = 0000: 1 = Delay bound cannot be met [RFC2205] 2 = Requested bandwidth unavailable [RFC2205] 3 = MTU in flowspec larger than [RFC2205] interface MTU 4 = LSP Admission Failure [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 5 = Bad Association Type [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 2 Policy Control Failure [RFC2205] This Error Code has the following globally-defined Error Value sub-codes: 0 = Information reporting [RFC2750] 1 = Warning [RFC2750] 2 = Reason unknown [RFC2750] 3 = Generic Policy Rejection [RFC2750] 4 = Quota or Accounting violation [RFC2750] 5 = Flow was preempted [RFC2750] 6 = Previously installed policy expired [RFC2750] (not refreshed) 7 = Previous policy data was replaced & [RFC2750] caused rejection 8 = Policies could not be merged [RFC2750] (multicast) 9 = PDP down or non functioning [RFC2750] 10 = Third Party Server (e.g., Kerberos) [RFC2750] unavailable 11 = POLICY_DATA object has bad syntax [RFC2750] 12 = POLICY_DATA object failed Integrity [RFC2750] Check 13 = POLICY_ELEMENT object has bad syntax [RFC2750] 14 = Mandatory PE Missing (Empty PE is in [RFC2750] the PD object) 15 = PEP Out of resources to handle [RFC2750] policies. 16 = PDP encountered bad RSVP objects or [RFC2750] syntax 17 = Service type was rejected [RFC2750] 18 = Reservation Style was rejected [RFC2750] 19 = FlowSpec was rejected (too large) [RFC2750] 20 = Hard Pre-empted [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 100 = Unauthorized sender [RFC3476] 101 = Unauthorized receiver [RFC3476] 102 = ERR_PARTIAL_PREEMPT [RFC4495] 3-23 See [RFC2205] 24 Routing Problem [RFC3209] This Error Code has the following globally-defined Error Value sub-codes: 1 = Bad EXPLICIT_ROUTE object [RFC3209] 2 = Bad strict node [RFC3209] 3 = Bad loose node [RFC3209] 4 = Bad initial subobject [RFC3209] 5 = No route available toward [RFC3209] destination 6 = Unacceptable label value [RFC3209] 7 = RRO indicated routing loops [RFC3209] 8 = MPLS being negotiated, but a [RFC3209] non-RSVP-capable router stands in the path 9 = MPLS label allocation failure [RFC3209] 10 = Unsupported L3PID [RFC3209] 11 = Label Set [RFC3473] 12 = Switching Type [RFC3473] 13 = Unassigned [RFC3473] 14 = Unsupported Encoding [RFC3473] 15 = Unsupported Link Protection [RFC3473] 16 = Unknown Interface Index [RFC3477] 17 = Unsupported LSP Protection [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 18 = PROTECTION object not applicable [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 19 = Bad PRIMARY PATH_ROUTE object [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 20 = PRIMARY PATH_ROUTE object not [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] applicable 21 = LSP Segment Protection Failed [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] 22-99 = Unassigned 100 = Diversity not available [RFC3476] 101 = Service level not available [RFC3476] 102 = Invalid/Unknown connection ID [RFC3476] 103 = No route available toward [RFC3474] source (ASON) 104 = Unacceptable interface ID (ASON) [RFC3474] 105 = Invalid/unknown call ID (ASON) [RFC3474] 106 = Invalid SPC interface ID/label [RFC3474] (ASON) 25 Notify Error [RFC3209] This Error Code has the following globally-defined Error Value sub-codes: 1 = RRO too large for MTU [RFC3209] 2 = RRO Notification [RFC3209] 3 = Tunnel locally repaired [RFC3209] 4 = Control Channel Active State [RFC3473] 5 = Control Channel Degraded State [RFC3473] 6 = Preferable path exists [RFC4736] 7 = Local link maintenance required [RFC4736] 8 = Local node maintenance required [RFC4736] 9 = LSP Failure [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 10 = LSP Recovered [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 11 = LSP Locally Failed [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] 26 NEW-AGGREGATE-NEEDED [RFC3175] 27 Diffserv Error [RFC3270] This Error Code has the following globally-defined Error Value sub-codes: 1 = Unexpected DIFFSERV object [RFC3270] 2 = Unsupported PHB [RFC3270] 3 = Invalid EXP<-->PHB mapping [RFC3270] 4 = Unsupported PSC [RFC3270] 5 = Per-LSP context allocation [RFC3270] failure 28 Diff-Serv-aware TE Error [RFC4124] 1 = Unexpected CLASSTYPE object [RFC4124] 2 = Unsupported Class-Type [RFC4124] 3 = Invalid Class-Type value [RFC4124] 4 = Class-Type and setup priority do [RFC4124] not form a configured TE-Class 5 = Class-Type and holding priority [RFC4124] do not form a configured TE-Class 6 = Class-Type and setup priority do [RFC4124] not form a configured TE-Class AND Class-Type and holding priority do not form a configured TE-Class 7 = Inconsistency between signaled [RFC4124] PSC and signaled Class-Type 8 = Inconsistency between signaled [RFC4124] PHBs and signaled Class-Type 29 Unknown Attributes TLV [RFC4420] 30 Unknown Attributes Bit [RFC4420] 31 Alarms [RFC4783] The Error Value sub-codes for this Error Code have values and meanings identical to the values and meanings defined in the IANAItuProbableCause Textual Convention of IANA-ITU-ALARM-TC-MIB in the Alarm MIB [RFC3877]. References ---------- [DCLASS] Yoram Bernet , June 1999. [RFC2205] Braden, R., et al, "Resource ReSerVation Protocol (RSVP) -- Version 1 Functional Specification", RFC 2205, September 1997. [RFC2207] Berger, L., and T. O'Malley, "RSVP Extensions for IPSEC Data Flow", RFC 2207, FORE Systems, BBN, September 1997. [RFC2210] Wroclawski, J., "The Use of RSVP with IETF Integrated Services", RFC 2210, MIT LCS, September 1997. [RFC2745] Zhang, L, and A. Terzis, "RSVP Diagnostic Messages", RFC 2745, January 2000. [RFC2961] Berger, L., et al, "RSVP Refresh Overhead Reduction Extensions", RFC 2961, March 2001. [RFC3097] Braden, B. and L. Zhang, "RSVP Cryptographic Authentication - Updated Message Type Value", RFC 3097, April 2001. [Integrity] Baker, Fred, "RSVP Cryptographic Authentication", RFC 2747, January 2000. [RFC3209] D. Awduche, L. Berger, D. Gan, T. Li, V. Srinivasan, and G. Swallow, "RSVP-TE: Extensions to RSVP for LSP Tunnels", RFC 3209, December 2001. [PKTCABLE] Anon, "PacketCable Dynamic Quality-of-Service Specification", PKT-SP-DQOS-O01-991201, date unknown. Available from http://www.packetcable.com/specs/pkt-sp-dqos-I01-991201.pdf. [SBM] Yavatkar, R., et al, "SBM (Subnet Bandwidth Manager): A Proposal for Admission Control over IEEE 802-style networks", Internet Draft, July 1997. [SBM2] Yavatkar, R., et al, "SBM (Subnet Bandwidth Manager): Protocol for RSVP-based Admission Control over IEEE 802-style networks", Internet Draft, November 1997. [Tunnel] Terzis, A., et al, "RSVP Operation Over IP Tunnels", RFC 2746, January 2000. [RFC3175] F. Baker, C. Iturralde, F. Le Faucheur, B. Davie, "Aggregation of RSVP for IPv4 and IPv6 Reservations", RFC 3175, September 2001. [RFC3270] F. Faucheur, L. Wu, B. Davie, S. Davari, P. Vaananen, R. Krishnan, P. Cheval, and J. Heinanen, "MPLS Support of Differentiated Services", RFC 3270, May 2002. [RFC3473] L. Berger, Editor, "Generalized Multi-Protocol Label Switching (GMPLS) Signaling Resource ReserVation Protocol-Traffic Engineering (RSVP-TE) Extensions", RFC 3473, January 2003. [RFC3496] A. Malis and T. Hsiao, "Protocol Extension for Support of ATM Service Class-aware MPLS Traffic Engineering", RFC 3496, March 2003. [RFC3474] Z. Lin, D. pendarakis, Generalized MPLS (GMPLS) RSVP-TE Usage and Extensions For Automatically Switched Optical Network (ASON), RFC 3474, March 2003. [RFC3476] B. Rajagopalan, LDP and RSVP Extensions for Optical UNI Signaling, RFC 3476, March 2003. [RFC3477] K. Kompella and Y. Rekhter, "Signalling Unnumbered Links in RSVP-TE", RFC 3477, January 2003. [IESG] IESG, "IESG on IANA allocations for ietf-ccamp-gmpls-sonet-sdh-08.txt" , January 2004. [RFC3936] K. Kompella and J. Lang, "Procedures for Modifying RSVP", RFC 3936, October 2004. [RFC4090] P. Pan, Ed., G. Swallow, Ed., and A. Atlas, Ed., "Fast Reroute Extensions to RSVP-TE for LSP Tunnels", RFC 4090, May 2005. [RFC4124] Le Faucheur, F., Ed., "Protocol extensions for support of Differentiated-Service-aware MPLS Traffic Engineering", RFC 4124, June 2005. [RFC4420] A. Farrel, D. Papadimitriou, J. P. Vasseur and A. Ayyangar, "Encoding of Attributes for Multiprotocol Label Switching (MPLS) Label Switched Path (LSP) Establishment Using RSVP-TE", RFC 4420, February 2006. [RFC4328] D. Papadimitriou, Ed., "Generalized MPLS (GMPLS) Signaling Extensions for G.709 Optical Transport Networks Control", RFC 4328, January 2006. [RFC4495] J. Polk and S. Dhesikan, "A Resource Reservation Protocol Extension for the Reduction of Bandwidth of a Reservation Flow", RFC 4495, May 2006. [RFC4606] E. Mannie and D. Papadimitriou, "Generalized Multi-Protocol Label Switching (GMPLS) Extensions for Synchronous Optical Network (SONET) and Synchronous Digital Hierarchy (SDH) Control", RFC 4606, August 2006. [RFC4736] JP. Vasseur, Y. Ikejiri, and R. Zhang, "Reoptimization of Multiprotocol Label Switching (MPLS) Traffic Engineering (TE) loosely routed Label Switch Path (LSP)", RFC 4736, November 2006. [RFC4783] Lou Berger, Ed., "GMPLS - Communication of Alarm Information", RFC 4783, December 2006. [RFC-ietf-ccamp-gmpls-recovery-e2e-signaling-04.txt] L.P. Lang, Y. Rekhter, and D. Papadimitriou, "RSVP-TE Extensions in support of End-to-End Generalized Multi-Protocol Label Switching (GMPLS) Recovery", RFC XXXX, Month, Year [RFC-ietf-ccamp-gmpls-segment-recovery-03.txt] Lou Berger, Igor Bryskin, Dimitri Papadimitriou, and Adrian Farrel, "GMPLS Based Segment Recovery", RFC XXXX, Month Year People ------ [Baker] Fred Baker , March 1998. [Davie] Bruce Davie , March 1998. [IANA] Internet Assigned Numbers Authority, , March 1998. [3GPP2] 3GPP2, Kuntal Chowdury, , April 2003. []