Layer Two Tunneling Protocol "L2TP" Created 2003-03 Last Updated 2016-07-15 Note Unless otherwise noted, the registrations in this registry are applicable in the context of the IETF Vendor ID [RFC2661]. Available Formats [IMG] XML [IMG] HTML [IMG] Plain text Registries included below * Control Message Attribute Value Pairs * Message Type AVP (Attribute Type 0) Values * Control Connection Management * Call Management * Link Status * PPPoE Relay * Multicast Management * Failover Management * Access Line Information Attributes * Result Code AVP (Attribute Type 1) Values * Result Code values for the StopCCN message * Result Code values for the CDN message * Result Code values for the MSEN message * General Error Codes * TDM PW Specific error codes, to be used with 30 result code for the CDN message * Proxy Authen Type AVP (Attribute Type 29) Values * Service Category AVP (Attribute Type 42) Flag Field * PPP Disconnect Cause Code (Attribute Type 46) Values * Global Errors * LCP Errors * Authentication Errors * Network Control Protocol (NCP) Errors * ATM Alarm Status AVP (Attribute Type 88) Values * Circuit Status Reason values for the SLI message * General ATM Alarm failures * VCCV Capability AVP (Attribute Type 96) Values * L2TPv3 Control Channel (CC) Types * L2TPv3 Connectivity Verification (CV) Types * Bearer Field definition * Framing Field definition * Leading Bits of the L2TP AVP Header * Leading Bits of the L2TP Message Header * L2TPv3 Pseudowire Types * Circuit Status Bits * Default L2-Specific Sublayer bits * L2-Specific Sublayer Type * Data Sequencing Level * ATM-Specific Sublayer bits Control Message Attribute Value Pairs Registration Procedure(s) Expert Review Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC3438] Note To maximize extensibility while still permitting interoperability, a uniform method for encoding message types and bodies is used throughout L2TP. This encoding will be termed AVP (Attribute-Value Pair). Available Formats [IMG] CSV Attribute Type Description Reference 0 Message Type AVP Also, see Message Type AVP values below [RFC2661] 1 Result Code AVP Also, see Result Code AVP values below [RFC2661] 2 Protocol Version AVP [RFC2661] 3 Framing Capabilities AVP Also, see Framing Field definition below [RFC2661] 4 Bearer Capabilities AVP Also, see Bearer Field definition below [RFC2661] 5 Tie Breaker AVP [RFC2661] 6 Firmware Revision AVP [RFC2661] 7 Host Name AVP [RFC2661] 8 Vendor Name AVP [RFC2661] 9 Assigned Tunnel ID AVP [RFC2661] 10 Receive Window Size AVP [RFC2661] 11 Challenge AVP [RFC2661] 12 Q.931 Cause Code AVP [RFC2661] 13 Response AVP [RFC2661] 14 Assigned Session ID AVP [RFC2661] 15 Call Serial Number AVP [RFC2661] 16 Minimum BPS AVP [RFC2661] 17 Maximum BPS AVP [RFC2661] 18 Bearer Type AVP Also, see Bearer Field definition below [RFC2661] 19 Framing Type AVP Also, see Framing Field definition below [RFC2661] 20 Reserved [RFC2661] 21 Called Number AVP [RFC2661] 22 Calling Number AVP [RFC2661] 23 Sub-Address AVP [RFC2661] 24 (Tx) Connect Speed BPS AVP [RFC2661] 25 Physical Channel ID AVP [RFC2661] 26 Initial Received LCP CONFREQ AVP [RFC2661] 27 Last Sent LCP CONFREQ AVP [RFC2661] 28 Last Received LCP CONFREQ AVP [RFC2661] 29 Proxy Authen Type AVP Also, see Proxy Authen Type AVP Values below [RFC2661] 30 Proxy Authen Name AVP [RFC2661] 31 Proxy Authen Challenge AVP [RFC2661] 32 Proxy Authen ID AVP [RFC2661] 33 Proxy Authen Response AVP [RFC2661] 34 Call Errors AVP [RFC2661] 35 ACCM AVP [RFC2661] 36 Random Vector AVP [RFC2661] 37 Private Group ID AVP [RFC2661] 38 Rx Connect Speed AVP [RFC2661] 39 Sequencing Required AVP [RFC2661] 40 Rx Minimum BPS [RFC3301] 41 Rx Maximum BPS [RFC3301] 42 Service Category Also, see Service Category AVP Flag Fields below [RFC3301] 43 Service Name [RFC3301] 44 Calling Sub-Address [RFC3301] 45 VPI/VCI Identifier [RFC3301] 46 PPP Disconnect Cause Code Also, see PPP Disconnect Cause Code Values below [RFC3145] 47 CCDS AVP [RFC3308] 48 SDS AVP [RFC3308] 49 LCP Want Options [RFC3437] 50 LCP Allow Options [RFC3437] 51 LNS Last Sent LCP Confreq [RFC3437] 52 LNS Last Received LCP Confreq [RFC3437] 53 Modem On-Hold Capable AVP [RFC3573] 54 Modem On-Hold Status AVP [RFC3573] 55 PPPoE Relay AVP [RFC3817] 56 PPPoE Relay Response Capability AVP [RFC3817] 57 PPPoE Relay Forward Capability AVP [RFC3817] 58 Extended Vendor ID AVP [RFC3931] 59 Message Digest [RFC3931] 60 Router ID [RFC3931] 61 Assigned Control Connection ID [RFC3931] 62 Pseudowire Capabilities List [RFC3931] 63 Local Session ID [RFC3931] 64 Remote Session ID [RFC3931] 65 Assigned Cookie [RFC3931] 66 Remote End ID [RFC3931] 67 Application Code [RFC3931] 68 Pseudowire Type [RFC3931] 69 L2-Specific Sublayer [RFC3931] 70 Data Sequencing [RFC3931] 71 Circuit Status [RFC3931] 72 Preferred Language [RFC3931] 73 Control Message Authentication Nonce [RFC3931] 74 Tx Connect Speed [RFC3931] 75 Rx Connect Speed [RFC3931] 76 Failover Capability [RFC4951] 77 Tunnel Recovery [RFC4951] 78 Suggested Control Sequence [RFC4951] 79 Failover Session State [RFC4951] 80 Multicast Capability [RFC4045] 81 New Outgoing Sessions [RFC4045] 82 New Outgoing Sessions Acknowledgement [RFC4045] 83 Withdraw Outgoing Sessions [RFC4045] 84 Multicast Packets Priority [RFC4045] 85 Frame-Relay Header Length [RFC4591] 86 ATM Maximum Concatenated Cells AVP [RFC4454] 87 OAM Emulation Required AVP [RFC4454] 88 ATM Alarm Status AVP Also, see ATM Alarm Status AVP Values below [RFC4454] 89 Attachment Group Identifier [RFC4667] 90 Local End Identifier [RFC4667] 91 Interface Maximum Transmission Unit [RFC4667] 92 FCS Retention [RFC4720] 93 Tunnel Switching Aggregator ID AVP [draft-ietf-l2tpext-tunnel-switching-06] 94 Maximum Receive Unit (MRU) AVP [RFC4623] 95 Maximum Reassembled Receive Unit (MRRU) AVP [RFC4623] 96 VCCV Capability AVP [RFC5085] 97 Connect Speed Update AVP [RFC5515] 98 Connect Speed Update Enable AVP [RFC5515] 99 TDM Pseudowire AVP [RFC5611] 100 RTP AVP [RFC5611] 101 PW Switching Point AVP [RFC6073] 102 S-BFD Target Discriminator ID [RFC7886] 103-65535 Unassigned Message Type AVP (Attribute Type 0) Values Registration Procedure(s) Expert Review Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC3438] Control Connection Management Available Formats [IMG] CSV Value Description Reference 0 (reserved) 1 (SCCRQ) Start-Control-Connection-Request 2 (SCCRP) Start-Control-Connection-Reply 3 (SCCCN) Start-Control-Connection-Connected 4 (StopCCN) Stop-Control-Connection-Notification 5 (reserved) 6 (HELLO) Hello 20 (ACK) Explicit Acknowledgement [RFC3931] Call Management Available Formats [IMG] CSV Value Description Reference 7 (OCRQ) Outgoing-Call-Request 8 (OCRP) Outgoing-Call-Reply 9 (OCCN) Outgoing-Call-Connected 10 (ICRQ) Incoming-Call-Request 11 (ICRP) Incoming-Call-Reply 12 (ICCN) Incoming-Call-Connected 13 (reserved) 14 (CDN) Call-Disconnect-Notify Link Status Available Formats [IMG] CSV Value Description Reference 15 (WEN) WAN-Error-Notify 16 (SLI) Set-Link-Info 17 (MDMST) Modem Status [RFC3573] PPPoE Relay Available Formats [IMG] CSV Value Description Reference 18 (SRRQ) Service Relay Request Message [RFC3817] 19 (SRRP) Service Relay Reply Message [RFC3817] Multicast Management Available Formats [IMG] CSV Value Description Reference 23 (MSRQ) Multicast-Session-Request [RFC4045] 24 (MSRP) Multicast-Session-Response [RFC4045] 25 (MSE) Multicast-Session-Establishment [RFC4045] 26 (MSI) Multicast-Session-Information [RFC4045] 27 (MSEN) Multicast-Session-End-Notify [RFC4045] Failover Management Available Formats [IMG] CSV Value Description Reference 21 (FSQ) Failover Session Query [RFC4951] 22 (FSR) Failover Session Response [RFC4951] Access Line Information Attributes Available Formats [IMG] CSV Value Description Reference 28 (CSUN) Connect-Speed-Update-Notification [RFC5515] 29 (CSURQ) Connect-Speed-Update-Request [RFC5515] Result Code AVP (Attribute Type 1) Values Registration Procedure(s) Expert Review Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC3438] Result Code values for the StopCCN message Available Formats [IMG] CSV Value Message Description Reference 0 Reserved 1 General request to clear control connection 2 General error--Error Code indicates the problem 3 Control channel already exists 4 Requester is not authorized to establish a control channel 5 The protocol version of the requester is not supported Error Code indicates highest version supported 6 Requester is being shut down 7 Finite State Machine error 8 Control connection due to mismatching CCDS value [RFC3308] Result Code values for the CDN message Available Formats [IMG] CSV Value Message Description Reference 0 Reserved 1 Call/Session disconnected due to loss of carrier 2 Call/Session disconnected for the reason indicated in error code 3 Call/Session disconnected for administrative reasons 4 Call/Session failed due to lack of appropriate facilities being available (temporary condition) 5 Call/Session failed due to lack of appropriate facilities being available (permanent condition) 6 Invalid destination 7 Call failed due to no carrier detected 8 Call failed due to detection of a busy signal 9 Call failed due to lack of a dial tone 10 Call was not established within time allotted by LAC 11 Call was connected but no appropriate framing was detected 12 Disconnecting call due to mismatching SDS value [RFC3308] 13 Session not established due to losing tie breaker (L2TPv3) [RFC3931] 14 Session not established due to unsupported PW type (L2TPv3) [RFC3931] 15 Session not established, sequencing required without valid L2-Specific Sublayer (L2TPv3). [RFC3931] 16 Finite state machine error or timeout. [RFC3931] 17 FR PVC was deleted permanently (no longer provisioned) [RFC4591] 18 FR PVC has been INACTIVE for an extended period of time [RFC4591] 19 Mismatched FR Header Length [RFC4591] 20 HDLC Link was deleted permanently (no longer provisioned) [RFC4349] 21 HDLC Link has been INACTIVE for an extended period of time [RFC4349] 22 Session not established due to other LCCE can not support the OAM Cell Emulation [RFC4454] 23 Mismatching interface MTU [RFC4667] 24 Attempt to connect to non-existent forwarder [RFC4667] 25 Attempt to connect to unauthorized forwarder [RFC4667] 26 Loop Detected [draft-ietf-l2tpext-tunnel-switching-06] 27 Attachment Circuit bound to different PE [RFC6074] 28 Attachment Circuit bound to different remote Attachment Circuit [RFC6074] 29 Unassigned 30 Return code to indicate connection was refused because of TDM PW parameters. The error code [RFC5611] indicates the problem. 31 Sequencing not supported [RFC6073] Result Code values for the MSEN message Available Formats [IMG] CSV Value Message Description Reference 0 Reserved 1 No multicast traffic for the group [RFC4045] 2 Session terminated for the reason indicated in the error code [RFC4045] 3 No more receivers [RFC4045] 4 No more receivers (filter-mode change) [RFC4045] General Error Codes Available Formats [IMG] CSV Value Message Description Reference 0 No general error 1 No control connection exists yet for this LAC-LNS pair 2 Length is wrong 3 One of the field values was out of range or reserved field was non-zero 4 Insufficient resources to handle this operation now 5 The Session ID is invalid in this context 6 A generic vendor-specific error occurred in the LAC Try another. If LAC is aware of other possible LNS destinations, it should try one of them. This 7 can be used to guide an LAC based on LNS policy, for instance, the existence of multilink PPP bundles. Session or tunnel was shutdown due to receipt of an unknown AVP with the M-bit set (see section 8 4.2). The Error Message SHOULD contain the attribute of the offending AVP in (human readable) text form. Try another directed. If an LAC or LNS is aware of other possible destinations, it should inform the initiator of the control connection or session. The Error Message MUST contain a comma-separated list of addresses from which the initiator may choose. If the L2TP data channel runs over IPv4, then this would be a comma-separated list of IP addresses in the canonical 9 dotted-decimal format (e.g., "192.0.2.1, 192.0.2.2, 192.0.2.3") in the UTF-8 charset [RFC3629] using the Default Language [RFC2277]. If there are no servers for the LAC or LNS to suggest, then Error Code 7 should be used. For IPv4, the delimiter between addresses MUST be precisely a single comma and a single space. For IPv6, each literal address MUST be enclosed in "[" and "]" characters, following the encoding described in [RFC2732]. 10 Next hop unreachable. This identifies an error condition explicitly in the multi-TSA environment. [draft-ietf-l2tpext-tunnel-switching-06] 11 Next hop busy. This identifies an error condition explicitly in the multi-TSA environment. [draft-ietf-l2tpext-tunnel-switching-06] 12 TSA busy. This identifies an error condition explicitly in the multi-TSA environment. [draft-ietf-l2tpext-tunnel-switching-06] TDM PW Specific error codes, to be used with 30 result code for the CDN message Available Formats [IMG] CSV Value Message Description Reference 0 Reserved [RFC5611] 1 Bit Rate values disagree. [RFC5611] 2 Different trunk types in the case of trunk-specific CESoPSN with CAS. [RFC5611] 3 Requested payload size too big or too small. [RFC5611] 4 RTP header cannot be generated. [RFC5611] 5 Requested timestamp clock frequency cannot be generated. [RFC5611] Proxy Authen Type AVP (Attribute Type 29) Values Registration Procedure(s) First Come First Served Reference [RFC2661] Available Formats [IMG] CSV Value Description Reference 0 Reserved [RFC2661] 1 Textual username/password exchange [RFC2661] 2 PPP CHAP [RFC2661] 3 PPP PAP [RFC2661] 4 No Authentication [RFC2661] 5 Microsoft CHAP Version 1 (MSCHAPv1) [RFC2661] 6 Reserved 7 EAP [draft-ietf-l2tpext-proxy-authen-ext-eap-00] Service Category AVP (Attribute Type 42) Flag Field Registration Procedure(s) Specification Required Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC3301] Note The Attribute Value field is a 16-bit field. Available Formats [IMG] CSV Value Description Reference 0x0001 S-bit (real-time) [RFC3301] PPP Disconnect Cause Code (Attribute Type 46) Values Reference [RFC3145] Available Formats [IMG] CSV Range Registration Procedures 0-32767 IESG Approval 32768-65279 First Come First Served 65280-65535 Reserved for Private or Experimental Use Global Errors Available Formats [IMG] CSV Value Description 0 No information available 1 Administrative disconnect. 2 Link Control Protocol (LCP) renegotiation at LNS disabled; LNS expects proxy LCP information, LAC did not send it. 3 Normal Disconnection, LCP Terminate-Request sent. Valid Direction values are: 1: LCP Terminate-Request sent by peer 2: LCP Terminate-Request sent by local 4 Compulsory encryption required by a PPP peer was refused by the other. Valid Direction values are: 1: Required by local; refused by peer 2: Required by peer; refused by local LCP Errors Available Formats [IMG] CSV Value Description 5 FSM (Finite State Machine) Timeout error. (PPP event "TO-".) 6 No recognizable LCP packets were received. 7 LCP failure: Magic Number error; link possibly looped back. 8 LCP link failure: Echo Request timeout. 9 Peer has unexpected Endpoint-Discriminator for existing Multilink PPP (MP) bundle. 10 Peer has unexpected MRRU for existing MP bundle. 11 Peer has unexpected Short-Sequence-Number option for existing MP bundle. 12 Compulsory call-back required by a PPP peer was refused by the other. Valid Direction values are: 1: Required by local; refused by peer 2: Required by peer; refused by local Authentication Errors Available Formats [IMG] CSV Value Description 13 FSM Timeout error. 14 Peer has unexpected authenticated name for existing MP bundle. 15 PPP authentication failure: Authentication protocol unacceptable. Valid Direction values are: 1: All local authentication protocols were rejected by the peer. 2: All authentication protocols requested by peer were unacceptable or unimplemented locally. 16 PPP authentication failure: Authentication failed (bad name, password, or secret). Valid Direction values are: 1: Authentication of peer identity by local system. 2: Authentication of local identity by peer system. Network Control Protocol (NCP) Errors Available Formats [IMG] CSV Value Description 17 FSM Timeout error. 18 No NCPs available (all disabled or rejected); no NCPs went to Opened state. (Control Protocol Number may be zero only if neither peer has enabled NCPs.) 19 NCP failure: failed to converge on acceptable addresses. Valid Direction values are: 1: Too many Configure-Naks received from peer. 2: Too many Configure-Naks sent to peer. 20 NCP failure: user not permitted to use any addresses. Valid Direction values are: 1: Local link address not acceptable to peer. 2: Remote link address not acceptable to local system. 21-32767 Unassigned (by IESG Approval) 32768-65279 Unassigned (First Come First Served) 65280-65535 Private or Experimental Use ATM Alarm Status AVP (Attribute Type 88) Values Registration Procedure(s) Expert Review Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC4454] Circuit Status Reason values for the SLI message Available Formats [IMG] CSV Value Description Reference 0 Reserved [RFC4454] 1 No alarm or alarm cleared (default for Active Status) [RFC4454] 2 Unspecified or unknown Alarm Received (default for Inactive Status) [RFC4454] 3 ATM Circuit received F1 Alarm on ingress LCCE [RFC4454] 4 ATM Circuit received F2 Alarm on ingress LCCE [RFC4454] 5 ATM Circuit received F3 Alarm on ingress LCCE [RFC4454] 6 ATM Circuit received F4 Alarm on ingress LCCE [RFC4454] 7 ATM Circuit received F5 Alarm on ingress LCCE [RFC4454] 8 ATM Circuit down due to ATM Port shutdown on Peer LCCE [RFC4454] 9 ATM Circuit down due to loop-back timeout on ingress LCCE [RFC4454] General ATM Alarm failures Available Formats [IMG] CSV Value Description Reference 0 Reserved [RFC4454] 1 No Alarm type specified (default) [RFC4454] 2 Alarm Indication Signal (AIS) [RFC4454] 3 Remote Defect Indicator (RDI) [RFC4454] 4 Loss of Signal (LOS) [RFC4454] 5 Loss of pointer (LOP) [RFC4454] 6 Loss of framer (LOF) [RFC4454] 7 loopback cells (LB) [RFC4454] 8 Continuity Check (CC) [RFC4454] VCCV Capability AVP (Attribute Type 96) Values Registration Procedure(s) IETF Consensus Reference [RFC5085] Note Bit numbering: In this sub-registry, the most significant (high order) bit is labeled Bit 7, and the least significant (low order) bit is labeled Bit 0, see parenthetical "Value". L2TPv3 Control Channel (CC) Types Available Formats [IMG] CSV Bit (Value) Description Reference 0 (0x01) L2-Specific Sublayer with V-bit set [RFC5085] 1 (0x02) Reserved [RFC5085] 2 (0x04) Reserved [RFC5085] 3 (0x08) Reserved [RFC5085] 4 (0x10) Reserved [RFC5085] 5 (0x20) Reserved [RFC5085] 6 (0x40) Reserved [RFC5085] 7 (0x80) Reserved [RFC5085] L2TPv3 Connectivity Verification (CV) Types Available Formats [IMG] CSV Bit (Value) Description Reference 0 (0x01) ICMP Ping [RFC5085] 1 (0x02) Reserved [RFC5085] 2 (0x04) BFD IP/UDP-encapsulated, for PW Fault Detection only [RFC5885] 3 (0x08) BFD IP/UDP-encapsulated, for PW Fault Detection and AC/PW Fault Status Signaling [RFC5885] 4 (0x10) BFD PW-ACH-encapsulated, for PW Fault Detection only [RFC5885] 5 (0x20) BFD PW-ACH-encapsulated, for PW Fault Detection and AC/PW Fault Status Signaling [RFC5885] 6 (0x40) S-BFD IP/UDP-encapsulated, for PW Fault Detection only [RFC7885] 7 (0x80) S-BFD L2SS-encapsulated, for PW Fault Detection only [RFC7885] Bearer Field definition Registration Procedure(s) Standards Action Reference [RFC2661] Note The Bearer field is used by the Bearer Capabilities and Bearer Type AVPs. It is a 32-bit bit field, with current defined bit values of: Available Formats [IMG] CSV Value Meaning Reference 0x00000001 D-bit (Digital access requested) [RFC2661] 0x00000002 A-bit (Analogue access requested) [RFC2661] 0x00000004 B-bit (ATM Bearer support) [RFC3301] Framing Field definition Registration Procedure(s) Standards Action Reference [RFC2661] Note The Framing field is used by the Framing Capabilities and Framing Type AVPs. It is a 32-bit bit field, with current defined bit values of: Available Formats [IMG] CSV Value Meaning Reference 0x00000001 S-bit (synchronous framing) [RFC2661] 0x00000002 A-bit (asyncronous framing) [RFC2661] Leading Bits of the L2TP AVP Header Registration Procedure(s) Standards Action Reference [RFC2661][RFC3931] Note There are six bits at the beginning of the L2TP AVP header. L2TPv2 and L2TPv3 share a common registry for the definitions of the six leading bits. Available Formats [IMG] CSV Value Description Reference Bit 0 Mandatory Bit, "M-bit" [RFC2661][RFC3931] Bit 1 Hidden Bit, "H-bit" [RFC2661][RFC3931] Bit 2 Reserved [RFC2661][RFC3931] Bit 3 Reserved [RFC2661][RFC3931] Bit 4 Reserved [RFC2661][RFC3931] Bit 5 Reserved [RFC2661][RFC3931] Leading Bits of the L2TP Message Header Registration Procedure(s) Standards Action Reference [RFC2661][RFC3931] Note There are 12 bits at the beginning of the L2TP Message Header. L2TPv2 and L2TPv3 share a common registry for the definitions of the 12 leading bits. Available Formats [IMG] CSV Value Description Reference Bit 0 Message Type, "T-bit" [RFC2661][RFC3931] Bit 1 Length Field is Present, "L-bit" [RFC2661][RFC3931] Bit 2 Reserved [RFC2661][RFC3931] Bit 3 Reserved [RFC2661][RFC3931] Bit 4 Sequence Numbers Present, "S-bit" [RFC2661][RFC3931] Bit 5 Reserved [RFC2661][RFC3931] Bit 6 Offset Field is Present [RFC2661] Bit 7 Priority Bit, "P-bit" [RFC2661] Bit 8 B (Fragmentation) bit [RFC4623] Bit 9 E (Fragmentation) bit [RFC4623] Bit 10 Reserved [RFC2661][RFC3931] Bit 11 Reserved [RFC2661][RFC3931] L2TPv3 Pseudowire Types Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC3931] Note The Pseudowire Type (PW Type, Section 5.4) is a two-octet value used in the Pseudowire Type AVP and Pseudowire Capabilities List AVP defined in Section 5.4.3. There are no specific pseudowire types assigned within this document. Each pseudowire-specific document must allocate its own PW types from IANA as necessary. Available Formats [IMG] CSV Range Registration Procedures 0-32767 Expert Review 32768-65535 First Come First Served Value Description Reference Registration Date 0x0001 Frame Relay DLCI Pseudowire Type [RFC4591] 0x0002 ATM AAL5 SDU VCC transport [RFC4454] 0x0003 ATM Cell transparent Port Mode [RFC4454] 0x0004 Ethernet VLAN Pseudowire Type [RFC4719] 0x0005 Ethernet Pseudowire Type [RFC4719] 0x0006 HDLC Pseudowire Type [RFC4349] 0x0009 ATM Cell transport VCC Mode [RFC4454] 0x000A ATM Cell transport VPC Mode [RFC4454] 0x000B Unassigned 0x000C MPEG-TS Payload Type (MPTPW) ["Data-Over-Cable Service Interface Specifications: Downstream External PHY 2006-01-30 Interface Specification CM-SP-DEPI-I01-050805", DOCSIS, August 2005] 0x000D Packet Streaming Protocol (PSPPW) ["Data-Over-Cable Service Interface Specifications: Downstream External PHY 2006-01-30 Interface Specification CM-SP-DEPI-I01-050805", DOCSIS, August 2005] 0x000E-0x0010 Unassigned 0x0011 Structure-agnostic E1 circuit [RFC5611] 0x0012 Structure-agnostic T1 (DS1) circuit [RFC5611] 0x0013 Structure-agnostic E3 circuit [RFC5611] 0x0014 Structure-agnostic T3 (DS3) circuit [RFC5611] 0x0015 CESoPSN basic mode [RFC5611] 0x0016 Unassigned 0x0017 CESoPSN TDM with CAS [RFC5611] Circuit Status Bits Registration Procedure(s) IETF Consensus Reference [RFC3931] Note The Circuit Status field is a 16 bit mask, with the two high order bits assigned. Available Formats [IMG] CSV Value Description Reference Bit 9 S (Standby) bit [RFC5641] Bit 10 E (Local PSN-facing PW (egress) Tx Fault) bit [RFC5641] Bit 11 I (Local PSN-facing PW (ingress) Rx Fault) bit [RFC5641] Bit 12 T (Local AC (egress) Tx Fault) bit [RFC5641] Bit 13 R (Local AC (ingress) Rx Fault) bit [RFC5641] Bit 14 N (New) bit [use deprecated] [RFC3931][RFC5641] Bit 15 A (Active) bit [RFC3931] Default L2-Specific Sublayer bits Reference [RFC3931] Note The Default L2 Specific Sublayer contains 8 bits in the low-order portion of the header. Reserved bits may be assigned by IETF Consensus [RFC2434]. Available Formats [IMG] CSV Value Description Reference Bit 0 V (VCCV) bit [RFC5085] Bit 1 S (Sequence) bit [RFC3931] Bit 2 B (Fragmentation) bit [RFC4623] Bit 3 E (Fragmentation) bit [RFC4623] Bit 4 Reserved [RFC3931] Bit 5 Reserved [RFC3931] Bit 6 Reserved [RFC3931] Bit 7 Reserved [RFC3931] L2-Specific Sublayer Type Registration Procedure(s) Expert Review Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC3931] Note The L2-Specific Sublayer Type is a 2 octet unsigned integer. Additional values may be assigned by Expert Review [RFC2434]. Available Formats [IMG] CSV Value Description Reference Registration Date 0 No L2-Specific Sublayer [RFC3931] 1 Default L2-Specific Sublayer present [RFC3931] 2 ATM-Specific Sublayer present [RFC4454] 3 MPT-Specific Sublayer ["Data-Over-Cable Service Interface Specifications: Downstream External PHY 2006-01-30 Interface Specification CM-SP-DEPI-I01-050805", DOCSIS, August 2005] 4 PSP-Specific Sublayer ["Data-Over-Cable Service Interface Specifications: Downstream External PHY 2006-01-30 Interface Specification CM-SP-DEPI-I01-050805", DOCSIS, August 2005] Data Sequencing Level Registration Procedure(s) Expert Review Expert(s) Carlos Pignataro (primary), Ignacio Goyret (secondary) Reference [RFC3931] Note The Data Sequencing Level is a 2 octet unsigned integer Additional values may be assigned by Expert Review [RFC2434]. Available Formats [IMG] CSV Value Description Reference 0 No incoming data packets require sequencing. [RFC3931] 1 Only non-IP data packets require sequencing. [RFC3931] 2 All incoming data packets require sequencing. [RFC3931] ATM-Specific Sublayer bits Registration Procedure(s) IETF Consensus Reference [RFC4454] Available Formats [IMG] CSV Bit Description Reference Bit 0 V (VCCV) bit [RFC5085] Bit 1 S (Sequence) bit [RFC4454] Bit 2 B (Fragmentation) bit [RFC4454] Bit 3 E (Fragmentation) bit [RFC4454] Bit 4 T (Transport type) bit [RFC4454] Bit 5 G (EFCI) bit [RFC4454] Bit 6 C (CLP) bit [RFC4454] Bit 7 U (Command/Response) bit [RFC4454]