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diff --git a/doc/rfc/rfc3895.txt b/doc/rfc/rfc3895.txt new file mode 100644 index 0000000..4f97304 --- /dev/null +++ b/doc/rfc/rfc3895.txt @@ -0,0 +1,4707 @@ + + + + + + +Network Working Group O. Nicklass, Ed. +Request for Comments: 3895 RAD Data Communications, Ltd. +Obsoletes: 2495 September 2004 +Category: Standards Track + + + Definitions of Managed Objects + for the DS1, E1, DS2, and E2 Interface Types + +Status of this Memo + + This document specifies an Internet standards track protocol for the + Internet community, and requests discussion and suggestions for + improvements. Please refer to the current edition of the "Internet + Official Protocol Standards" (STD 1) for the standardization state + and status of this protocol. Distribution of this memo is unlimited. + +Copyright Notice + + Copyright (C) The Internet Society (2004). + +Abstract + + This memo defines a portion of the Management Information Base (MIB) + for use with network management protocols in the Internet community. + In particular, it describes objects used for managing DS1, E1, DS2 + and E2 interfaces. This document is a companion to the documents + that define Managed Objects for the DS0, DS3/E3 and Synchronous + Optical Network/Synchronous Digital Hierarchy (SONET/SDH) Interface + Types. This document obsoletes RFC 2495. + + + + + + + + + + + + + + + + + + + + + +Nicklass Standards Track [Page 1] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +Table of Contents + + 1. The Internet-Standard Management Framework . . . . . . . . . . 2 + 1.1. Changes from RFC 2495. . . . . . . . . . . . . . . . . . 3 + 1.2. Changes from RFC 1406. . . . . . . . . . . . . . . . . . 3 + 1.3. Companion Documents. . . . . . . . . . . . . . . . . . . 4 + 2. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 + 2.1. Use of ifTable for DS1 Layer . . . . . . . . . . . . . . 5 + 2.2. Usage Guidelines . . . . . . . . . . . . . . . . . . . . 6 + 2.2.1. Usage of ifStackTable for Routers and DSUs. . . . 6 + 2.2.2. Usage of ifStackTable for DS1/E1 on DS2/E2. . . . 8 + 2.2.3. Usage of Channelization for DS3, DS1, DS0 . . . . 9 + 2.2.4. Usage of Channelization for DS3, DS2, DS1 . . . . 10 + 2.2.5. Usage of Loopbacks. . . . . . . . . . . . . . . . 11 + 2.3. Objectives of this MIB Module. . . . . . . . . . . . . . 11 + 2.4. DS1 Terminology. . . . . . . . . . . . . . . . . . . . . 12 + 2.4.1. Error Events. . . . . . . . . . . . . . . . . . . 12 + 2.4.2. Performance Defects . . . . . . . . . . . . . . . 13 + 2.4.3. Performance Parameters. . . . . . . . . . . . . . 14 + 2.4.4. Failure States. . . . . . . . . . . . . . . . . . 18 + 2.4.5. Other Terms . . . . . . . . . . . . . . . . . . . 21 + 3. Object Definitions . . . . . . . . . . . . . . . . . . . . . . 21 + 4. Acknowledgments. . . . . . . . . . . . . . . . . . . . . . . . 74 + 5. Security Considerations. . . . . . . . . . . . . . . . . . . . 74 + 6. References . . . . . . . . . . . . . . . . . . . . . . . . . . 76 + 6.1. Normative References . . . . . . . . . . . . . . . . . . 76 + 6.2. Informative References . . . . . . . . . . . . . . . . . 78 + Appendix A - Use of dsx1IfIndex and dsx1LineIndex. . . . . . . . . 79 + Appendix B - The delay approach to Unavailable Seconds . . . . . . 81 + Author's Address . . . . . . . . . . . . . . . . . . . . . . . . . 83 + Full Copyright Statement . . . . . . . . . . . . . . . . . . . . . 84 + +1. The Internet-Standard Management Framework + + For a detailed overview of the documents that describe the current + Internet-Standard Management Framework, please refer to section 7 of + RFC 3410 [RFC3410]. + + Managed objects are accessed via a virtual information store, termed + the Management Information Base or MIB. MIB objects are generally + accessed through the Simple Network Management Protocol (SNMP). + Objects in the MIB are defined using the mechanisms defined in the + Structure of Management Information (SMI). This memo specifies a MIB + module that is compliant to the SMIv2, which is described in STD 58, + RFC 2578 [RFC2578], STD 58, RFC 2579 [RFC2579] and STD 58, RFC 2580 + [RFC2580]. + + + + + +Nicklass Standards Track [Page 2] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +1.1. Changes from RFC 2495 + + The changes from [RFC2495] are the following: + + (1) The dsx1FracIfIndex SYNTAX matches the description range. + + (2) A value was added to dsx1TransmitClockSource. + + (3) Values were added to dsx1LineType. + + (4) Two objects were added, dsx1LineMode and dsx1LineBuildOut to + better express transceiver mode and LineBuildOut for T1. + + (5) Reference was added to Circuit Identifier object. + + (6) Align the DESCRIPTION clauses of few statistic objects with the + near end definition, the far end definition and with [RFC3593]. + + (7) Changes in Compliance Statements to include new objects. + + (8) A typographical error in dsx2E2 was fixed, new name is dsx1E2. + +1.2. Changes from RFC 1406 + + The changes from RFC 1406 [RFC1406] are the following: + + (1) The Fractional Table has been deprecated. + + (2) This document uses SMIv2. + + (3) Usage is given for ifTable and ifXTable. + + (4) Example usage of ifStackTable is included. + + (5) dsx1IfIndex has been deprecated. + + (6) Support for DS2 and E2 have been added. + + (7) Additional lineTypes for DS2, E2, and unframed E1 were added. + + (8) The definition of valid intervals has been clarified for the + case where the agent proxied for other devices. In particular, + the treatment of missing intervals has been clarified. + + (9) An inward loopback has been added. + + + + + + +Nicklass Standards Track [Page 3] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + (10) Additional lineStatus bits have been added for Near End in + Unavailable Signal State, Carrier Equipment Out of Service, DS2 + Payload AIS, and DS2 Performance Threshold. + + (11) A read-write line Length object has been added. + + (12) Signal mode of other has been added. + + (13) Added a lineStatus last change, trap and enabler. + + (14) The e1(19) ifType has been obsoleted so this MIB does not list + it as a supported ifType. + + (15) Textual Conventions for statistics objects have been used. + + (16) A new object, dsx1LoopbackStatus has been introduced to reflect + the loopbacks established on a DS1 interface and the source to + the requests. dsx1LoopbackConfig continues to be the desired + loopback state while dsx1LoopbackStatus reflects the actual + state. + + (17) A dual loopback has been added to allow the setting of an inward + loopback and a line loopback at the same time. + + (18) An object indicating which channel to use within a parent object + (i.e., DS3) has been added. + + (19) An object has been added to indicate whether or not this DS1/E1 + is channelized. + + (20) Line coding type of B6ZS has been added for DS2. + +1.3. Companion Documents + + This document is a companion to the documents that define Managed + Objects for the DS0 [RFC2494], DS3/E3 [RFC3896], and Synchronous + Optical Network/Synchronous Digital Hierarchy (SONET/SDH) [RFC3592] + Interface Types. + +2. Overview + + These objects are used when the particular media being used to + realize an interface is a DS1/E1/DS2/E2 interface. At present, this + applies to these values of the ifType variable in the Internet- + standard MIB: + + ds1 (18) + + + + +Nicklass Standards Track [Page 4] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + The definitions contained herein are based on the AT&T T-1 Superframe + (a.k.a., D4) [ANSI-T1.107] and Extended Superframe (ESF) formats + [AT&T-UM-305] [AT&T-TR-54016], the latter of which conforms to ANSI + specification [ANSI-T1.403], and the CCITT Recommendations + [CCITT-G.703] [ITU-T-G.704], referred to as E1 for the rest of this + memo. + + The various DS1 and E1 line disciplines are similar enough that + separate MIBs are unwarranted, although there are some differences. + For example, Loss of Frame is defined more rigorously in the ESF + specification than in the D4 specification, but it is defined in + both. Therefore, interface types e1(19) and g703at2mb(67) have been + obsoleted. + + Where it is necessary to distinguish between the flavors of E1 with + and without CRC, E1-CRC denotes the "with CRC" form (G.704 Table 4b) + and E1-noCRC denotes the "without CRC" form (G.704 Table 4a). + +2.1. Use of ifTable for DS1 Layer + + Only the ifGeneralInformationGroup needs to be supported. + + ifTable Object Use for DS1 Layer +====================================================================== + ifIndex Interface index. + + ifDescr See interfaces MIB [RFC2863] + + ifType ds1(18) + + ifSpeed Speed of line rate + DS1 - 1544000 + E1 - 2048000 + DS2 - 6312000 + E2 - 8448000 + + ifPhysAddress The value of the Circuit Identifier. + If no Circuit Identifier has been assigned + this object should have an octet string + with zero length. + + ifAdminStatus See interfaces MIB [RFC2863] + + ifOperStatus See interfaces MIB [RFC2863] + + ifLastChange See interfaces MIB [RFC2863] + + ifName See interfaces MIB [RFC2863]. + + + +Nicklass Standards Track [Page 5] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + ifLinkUpDownTrapEnable Set to enabled(1). + + ifHighSpeed Speed of line in Mega-bits per second + (2, 6, or 8) + + ifConnectorPresent Set to true(1) normally, except for + cases such as DS1/E1 over AAL1/ATM where + false(2) is appropriate + +2.2. Usage Guidelines + +2.2.1. Usage of ifStackTable for Routers and DSUs + + The object dsx1IfIndex has been deprecated. This object previously + allowed a very special proxy situation to exist for Routers and CSUs. + This section now describes how to use ifStackTable to represent this + relationship. + + The paragraphs discussing dsx1IfIndex and dsx1LineIndex have been + preserved in Appendix A for informational purposes. + + The ifStackTable is used in the proxy case to represent the + association between pairs of interfaces, e.g., this T1 is attached to + that T1. This use is consistent with the use of the ifStackTable to + show the association between various sub-layers of an interface. In + both cases entire PDUs are exchanged between the interface pairs - in + the case of a T1, entire T1 frames are exchanged; in the case of PPP + and HDLC, entire HDLC frames are exchanged. This usage is not meant + to suggest the use of the ifStackTable to represent Time Division + Multiplexing (TDM) connections in general. + + External&Internal interface scenario: the SNMP Agent resides on a + host external from the device supporting DS1 interfaces (e.g., a + router). The Agent represents both the host and the DS1 device. + + + + + + + + + + + + + + + + + +Nicklass Standards Track [Page 6] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + Example: + + A shelf full of CSUs connected to a Router. An SNMP Agent residing + on the router proxies for itself and the CSU. The router has also an + Ethernet interface: + + +-----+ + | | | + | | | +---------------------+ + |E | | 1.544 MBPS | Line#A | DS1 Link + |t | R |---------------+ - - - - - - - - - +------> + |h | | | | + |e | O | 1.544 MBPS | Line#B | DS1 Link + |r | |---------------+ - - - - - - - - - - +------> + |n | U | | CSU Shelf | + |e | | 1.544 MBPS | Line#C | DS1 Link + |t | T |---------------+ - - - -- -- - - - - +------> + | | | | | + |-----| E | 1.544 MBPS | Line#D | DS1 Link + | | |---------------+ - - - - -- - - - - +------> + | | R | |_____________________| + | | | + | +-----+ + + The assignment of the index values could for example be: + + ifIndex Description + 1 Ethernet + 2 Line#A Router + 3 Line#B Router + 4 Line#C Router + 5 Line#D Router + 6 Line#A CSU Router + 7 Line#B CSU Router + 8 Line#C CSU Router + 9 Line#D CSU Router + 10 Line#A CSU Network + 11 Line#B CSU Network + 12 Line#C CSU Network + 13 Line#D CSU Network + + The ifStackTable is then used to show the relationships between the + various DS1 interfaces. + + + + + + + + +Nicklass Standards Track [Page 7] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + ifStackTable Entries + + HigherLayer LowerLayer + 2 6 + 3 7 + 4 8 + 5 9 + 6 10 + 7 11 + 8 12 + 9 13 + + If the CSU shelf is managed by itself by a local SNMP Agent, the + situation would be identical, except the Ethernet and the 4 router + interfaces are deleted. Interfaces would also be numbered from 1 to + 8. + + ifIndex Description + 1 Line#A CSU Router + 2 Line#B CSU Router + 3 Line#C CSU Router + 4 Line#D CSU Router + 5 Line#A CSU Network + 6 Line#B CSU Network + 7 Line#C CSU Network + 8 Line#D CSU Network + + ifStackTable Entries + + HigherLayer LowerLayer + 1 5 + 2 6 + 3 7 + 4 8 + +2.2.2. Usage of ifStackTable for DS1/E1 on DS2/E2 + + An example is given of how DS1/E1 interfaces are stacked on DS2/E2 + interfaces. It is not necessary nor is it always desirable to + represent DS2 interfaces. If this is required, the following + stacking should be used. All ifTypes are ds1. The DS2 is determined + by examining ifSpeed or dsx1LineType. + + + + + + + + + +Nicklass Standards Track [Page 8] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + ifIndex Description + 1 DS1 #1 + 2 DS1 #2 + 3 DS1 #3 + 4 DS1 #4 + 5 DS2 + + ifStackTable Entries + + HigherLayer LowerLayer + 1 5 + 2 5 + 3 5 + 4 5 + +2.2.3. Usage of Channelization for DS3, DS1, DS0 + + An example is given here to explain the channelization objects in the + DS3, DS1, and DS0 MIBs to help the implementor use the objects + correctly. Treatment of E3 and E1 would be similar, with the number + of DS0s being different depending on the framing of the E1. + + Assume that a DS3 (with ifIndex 1) is Channelized into DS1s (without + DS2s). The object dsx3Channelization is set to enabledDs1. There + will be 28 DS1s in the ifTable. Assume the entries in the ifTable + for the DS1s are created in channel order and the ifIndex values are + 2 through 29. In the DS1 MIB, there will be an entry in the + dsx1ChanMappingTable for each ds1. The entries will be as follows: + + dsx1ChanMappingTable Entries + + ifIndex dsx1Ds1ChannelNumber dsx1ChanMappedIfIndex + 1 1 2 + 1 2 3 + ...... + 1 28 29 + + In addition, the DS1s are channelized into DS0s. The object + dsx1Channelization is set to enabledDS0 for each DS1. When this + object is set to this value, 24 DS0s are created by the agent. There + will be 24 DS0s in the ifTable for each DS1. If the + dsx1Channelization is set to disabled, the 24 DS0s are destroyed. + Assume the entries in the ifTable are created in channel order and + the ifIndex values for the DS0s in the first DS1 are 30 through 53. + In the DS0 MIB, there will be an entry in the dsx0ChanMappingTable + for each DS0. The entries will be as follows: + + + + + +Nicklass Standards Track [Page 9] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + dsx0ChanMappingTable Entries + + ifIndex dsx0Ds0ChannelNumber dsx0ChanMappedIfIndex + 2 1 30 + 2 2 31 + ...... + 2 24 53 + +2.2.4. Usage of Channelization for DS3, DS2, DS1 + + An example is given here to explain the channelization objects in the + DS3 and DS1 MIBs to help the implementor use the objects correctly. + + Assume that a DS3 (with ifIndex 1) is Channelized into DS2s. The + object dsx3Channelization [RFC3896] is set to enabledDs2. There will + be 7 DS2s (ifType of DS1) in the ifTable. Assume the entries in the + ifTable for the DS2s are created in channel order and the ifIndex + values are 2 through 8. In the DS1 MIB, there will be an entry in + the dsx1ChanMappingTable for each DS2. The entries will be as + follows: + + dsx1ChanMappingTable Entries + + ifIndex dsx1Ds1ChannelNumber dsx1ChanMappedIfIndex + 1 1 2 + 1 2 3 + ...... + 1 7 8 + + In addition, the DS2s are channelized into DS1s. The object + dsx1Channelization is set to enabledDS1 for each DS2. There will be + 4 DS1s in the ifTable for each DS2. Assume the entries in the + ifTable are created in channel order and the ifIndex values for the + DS1s in the first DS2 are 9 through 12, then 13 through 16 for the + second DS2, and so on. In the DS1 MIB, there will be an entry in the + dsx1ChanMappingTable for each DS1. The entries will be as follows: + + dsx1ChanMappingTable Entries + + ifIndex dsx1Ds1ChannelNumber dsx1ChanMappedIfIndex + 2 1 9 + 2 2 10 + 2 3 11 + 2 4 12 + 3 1 13 + 3 2 14 + ... + 8 4 36 + + + +Nicklass Standards Track [Page 10] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +2.2.5. Usage of Loopbacks + + This section discusses the behaviour of objects related to loopbacks. + + The object dsx1LoopbackConfig represents the desired state of + loopbacks on this interface. Using this object a Manager can + request: + + LineLoopback + PayloadLoopback (if ESF framing) + InwardLoopback + DualLoopback (Line + Inward) + NoLoopback + + The remote end can also request loopbacks either through the FDL + channel if ESF or inband if D4. The loopbacks that can be requested + this way are: + + LineLoopback + PayloadLoopback (if ESF framing) + NoLoopback + + To model the current state of loopbacks on a DS1 interface, the + object dsx1LoopbackStatus defines which loopback is currently applied + to an interface. This objects, which is a bitmap, will have bits + turned on which reflect the currently active loopbacks on the + interface as well as the source of those loopbacks. + + The following restrictions/rules apply to loopbacks: + + The far end cannot undo loopbacks set by a manager. + + A manager can undo loopbacks set by the far end. + + Both a line loopback and an inward loopback can be set at the same + time. Only these two loopbacks can co-exist and either one may be + set by the manager or the far end. A LineLoopback request from the + far end is incremental to an existing Inward loopback established by + a manager. When a NoLoopback is received from the far end in this + case, the InwardLoopback remains in place. + +2.3. Objectives of this MIB Module + + There are numerous things that could be included in a MIB for DS1 + signals: the management of multiplexors, CSUs, DSUs, and the like. + The intent of this document is to facilitate the common management of + all devices with DS1, E1, DS2, or E3 interfaces. As such, a design + + + + +Nicklass Standards Track [Page 11] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + decision was made up front to very closely align the MIB with the set + of objects that can generally be read from these types devices that + are currently deployed. + + J2 interfaces are not supported by this MIB. + +2.4. DS1 Terminology + + The terminology used in this document to describe error conditions on + a DS1 interface as monitored by a DS1 device are based on the late + but not final document of what became the ANSI T1.231 standard + [ANSI-T1.231]. If the definition in this document does not match the + definition in the ANSI T1.231 document, the implementer should follow + the definition described in this document. + +2.4.1. Error Events + + Bipolar Violation (BPV) Error Event + A BPV error event for an AMI-coded signal is the occurrence of a + pulse of the same polarity as the previous pulse (See T1.231 + Section 6.1.1.1.1). A BPV error event for a B8ZS- or HDB3-coded + signal is the occurrence of a pulse of the same polarity as the + previous pulse without being a part of the zero substitution + code. + + Excessive Zeroes (EXZ) Error Event + An Excessive Zeroes error event for an AMI-coded signal is the + occurrence of more than fifteen contiguous zeroes (See T1.231 + Section 6.1.1.1.2). For a B8ZS coded signal, the defect occurs + when more than seven contiguous zeroes are detected. + + Line Coding Violation (LCV) Error Event + A Line Coding Violation (LCV) is the occurrence of either a + Bipolar Violation (BPV) or Excessive Zeroes (EXZ) Error Event. + (Also known as CV-L; See T1.231 Section 6.5.1.1.) + + Path Coding Violation (PCV) Error Event + A Path Coding Violation error event is a frame synchronization + bit error in the D4 and E1-noCRC formats, or a CRC or frame + synch. bit error in the ESF and E1-CRC formats. (Also known as + CV-P; See T1.231 Section 6.5.2.1.) + + Controlled Slip (CS) Error Event + A Controlled Slip is the replication or deletion of the payload + bits of a DS1 frame (See T1.231 Section 6.1.1.2.3). A + Controlled Slip may be performed when there is a difference + + + + + +Nicklass Standards Track [Page 12] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + between the timing of a synchronous receiving terminal and the + received signal. A Controlled Slip does not cause an Out of + Frame defect. + +2.4.2. Performance Defects + + Out Of Frame (OOF) Defect + An OOF defect is the occurrence of a particular density of + Framing Error events (See T1.231 Section 6.1.2.2.1). + + For DS1 links, an Out of Frame defect is declared when the + receiver detects two or more framing errors within a 3 msec + period for ESF signals and 0.75 msec for D4 signals, or two or + more errors out of five or fewer consecutive framing-bits. + + For E1 links, an Out Of Frame defect is declared when three + consecutive frame alignment signals have been received with an + error (see G.706 Section 4.1 [CCITT-G.706]). + + For DS2 links, an Out of Frame defect is declared when 7 or more + consecutive errored framing patterns (4 multiframe) are + received. The OOF is cleared when 3 or more consecutive correct + framing patterns are received. + + Once an Out Of Frame Defect is declared, the framer starts + searching for a correct framing pattern. The Out of Frame + defect ends when the signal is in frame. + + In-frame occurs when there are fewer than two frame bit errors + within 3 msec period for ESF signals and 0.75 msec for D4 + signals. + + For E1 links, in-frame occurs when a) in frame N the frame + alignment signal is correct and b) in frame N+1 the frame + alignment signal is absent (i.e., bit 2 in TS0 is a one) and c) + in frame N+2 the frame alignment signal is present and correct. + (See G.704 Section 4.1) + + Alarm Indication Signal (AIS) Defect + For D4 and ESF links, the 'all ones' condition is detected at a + DS1 line interface upon observing an unframed signal with a + one's density of at least 99.9% present for a time equal to or + greater than T, where 3 ms <= T <= 75 ms. The AIS is terminated + upon observing a signal not meeting the one's density or the + unframed signal criteria for a period equal to or greater than T + (See G.775, Section 5.4). + + + + + +Nicklass Standards Track [Page 13] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + For E1 links, the 'all-ones' condition is detected at the line + interface as a string of 512 bits containing fewer than three + zero bits (see O.162 [CCITT-O.162] Section 3.3.2). + + For DS2 links, the DS2 AIS shall be sent from the NT1 to the + user to indicate a loss of the 6,312 kbps frame capability on + the network side. The DS2 AIS is defined as a bit array of + 6,312 kbps in which all binary bits are set to '1'. + + The DS2 AIS detection and removal shall be implemented according + to ITU-T Draft Recommendation G.775 [ITU-T-G.775] Section 5.5: + - a DS2 AIS defect is detected when the incoming signal has + two (2) or less ZEROs in a sequence of 3156 bits (0.5 ms). + - a DS2 AIS defect is cleared when the incoming signal has + three (3) or more ZEROs in a sequence of 3156 bits (0.5 ms). + +2.4.3. Performance Parameters + + All performance parameters are accumulated in fifteen minute + intervals and up to 96 intervals (24 hours worth) are kept by an + agent. Fewer than 96 intervals of data will be available if the + agent has been restarted within the last 24 hours. In addition, + there is a rolling 24-hour total of each performance parameter. + Performance parameters continue to be collected when the interface is + down. + + There is no requirement for an agent to ensure fixed relationship + between the start of a fifteen minute interval and any wall clock; + however some agents may align the fifteen minute intervals with + quarter hours. + + Performance parameters are of types PerfCurrentCount, + PerfIntervalCount and PerfTotalCount. These textual conventions are + all Gauge32, and they are used because it is possible for these + objects to decrease. Objects may decrease when Unavailable Seconds + occurs across a fifteen minutes interval boundary. See Unavailable + Seconds discussion later in this section. + + Line Errored Seconds (LES) + A Line Errored Second is a second in which one or more Line Code + Violation error events were detected. (Also known as ES-L; See + T1.231 Section 6.5.1.2.) + + Controlled Slip Seconds (CSS) + A Controlled Slip Second is a one-second interval containing one + or more controlled slips (See T1.231 Section 6.5.2.8). This is + not incremented during an Unavailable Second. + + + + +Nicklass Standards Track [Page 14] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + Errored Seconds (ES) + For ESF and E1-CRC links an Errored Second is a second with one + or more Path Code Violation OR one or more Out of Frame defects + OR one or more Controlled Slip events OR a detected AIS defect. + (See T1.231 Section 6.5.2.2 and G.826 [ITU-T-G.826] Section + B.1). + + For D4 and E1-noCRC links, the presence of Bipolar Violations + also triggers an Errored Second. + + This is not incremented during an Unavailable Second. + + Bursty Errored Seconds (BES) + A Bursty Errored Second (also known as Errored Second type B in + T1.231 Section 6.5.2.4) is a second with fewer than 320 and more + than 1 Path Coding Violation error events, no Severely Errored + Frame defects and no detected incoming AIS defects. Controlled + slips are not included in this parameter. + + This is not incremented during an Unavailable Second. It + applies to ESF signals only. + + Severely Errored Seconds (SES) + A Severely Errored Second for ESF signals is a second with 320 + or more Path Code Violation Error Events OR one or more Out of + Frame defects OR a detected AIS defect (See T1.231 Section + 6.5.2.5). + + For E1-CRC signals, a Severely Errored Second is a second with + 832 or more Path Code Violation error events OR one or more Out + of Frame defects. + + For E1-noCRC signals, a Severely Errored Second is a 2048 LCVs + or more. + + For D4 signals, a Severely Errored Second is a count of one- + second intervals with Framing Error events, or an OOF defect, or + 1544 LCVs or more. + + Controlled slips are not included in this parameter. + + This is not incremented during an Unavailable Second. + + Severely Errored Framing Second (SEFS) + An Severely Errored Framing Second is a second with one or more + Out of Frame defects OR a detected AIS defect. (Also known as + SAS-P (SEF/AIS second); See T1.231 Section 6.5.2.6.) + + + + +Nicklass Standards Track [Page 15] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + Degraded Minutes + A Degraded Minute is one in which the estimated error rate + exceeds 1E-6 but does not exceed 1E-3 (see G.821 [CCITT-G.821]). + + Degraded Minutes are determined by collecting all of the + Available Seconds, removing any Severely Errored Seconds + grouping the result in 60-second long groups and counting a 60- + second long group (a.k.a., minute) as degraded if the cumulative + errors during the seconds present in the group exceed 1E-6. + Available seconds are merely those seconds which are not + Unavailable as described below. + + Unavailable Seconds (UAS) + Unavailable Seconds (UAS) are calculated by counting the number + of seconds that the interface is unavailable. The DS1 interface + is said to be unavailable from the onset of 10 contiguous SESs, + or the onset of the condition leading to a failure (see Failure + States). If the condition leading to the failure was + immediately preceded by one or more contiguous SESs, then the + DS1 interface unavailability starts from the onset of these + SESs. Once unavailable, and if no failure is present, the DS1 + interface becomes available at the onset of 10 contiguous + seconds with no SESs. Once unavailable, and if a failure is + present, the DS1 interface becomes available at the onset of 10 + contiguous seconds with no SESs, if the failure clearing time is + less than or equal to 10 seconds. If the failure clearing time + is more than 10 seconds, the DS1 interface becomes available at + the onset of 10 contiguous seconds with no SESs, or the onset + period leading to the successful clearing condition, whichever + occurs later. With respect to the DS1 error counts, all + counters are incremented while the DS1 interface is deemed + available. While the interface is deemed unavailable, the only + count that is incremented is UASs. + + Note that this definition implies that the agent cannot + determine until after a ten second interval has passed whether a + given one-second interval belongs to available or unavailable + time. If the agent chooses to update the various performance + statistics in real time then it must be prepared to + retroactively reduce the ES, BES, SES, and SEFS counts by 10 and + increase the UAS count by 10 when it determines that available + time has been entered. It must also be prepared to adjust the + PCV count and the DM count as necessary since these parameters + are not accumulated during unavailable time. It must be + similarly prepared to retroactively decrease the UAS count by 10 + and increase the ES, BES, and DM counts as necessary upon + entering available time. A special case exists when the 10 + second period leading to available or unavailable time crosses a + + + +Nicklass Standards Track [Page 16] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + 900 second statistics window boundary, as the foregoing + description implies that the ES, BES, SES, SEFS, DM, and UAS + counts the PREVIOUS interval must be adjusted. In this case + successive GETs of the affected dsx1IntervalSESs and + dsx1IntervalUASs objects will return differing values if the + first GET occurs during the first few seconds of the window. + + The agent may instead choose to delay updates to the various + statistics by 10 seconds in order to avoid retroactive + adjustments to the counters. A way to do this is sketched in + Appendix B. + + In any case, a linkDown trap shall be sent only after the agent has + determined for certain that the unavailable state has been entered, + but the time on the trap will be that of the first UAS (i.e., 10 + seconds earlier). A linkUp trap shall be handled similarly. + + According to ANSI T1.231 unavailable time begins at the _onset_ of 10 + contiguous severely errored seconds -- that is, unavailable time + starts with the _first_ of the 10 contiguous SESs. Also, while an + interface is deemed unavailable all counters for that interface are + frozen except for the UAS count. It follows that an implementation + which strictly complies with this standard must _not_ increment any + counters other than the UAS count -- even temporarily -- as a result + of anything that happens during those 10 seconds. Since changes in + the signal state lag the data to which they apply by 10 seconds, an + ANSI-compliant implementation must pass the one-second statistics + through a 10-second delay line prior to updating any counters. That + can be done by performing the following steps at the end of each one + second interval. + + i) Read near/far end CV counter and alarm status flags from the + hardware. + + ii) Accumulate the CV counts for the preceding second and compare + them to the ES and SES threshold for the layer in question. + Update the signal state and shift the one-second CV counts and + ES/SES flags into the 10-element delay line. Note that far-end + one-second statistics are to be flagged as "absent" during any + second in which there is an incoming defect at the layer in + question or at any lower layer. + + iii) Update the current interval statistics using the signal state + from the _previous_ update cycle and the one-second CV counts + and ES/SES flags shifted out of the 10-element delay line. + + This approach is further described in Appendix B. + + + + +Nicklass Standards Track [Page 17] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +2.4.4. Failure States + + The following failure states are received, or detected failures, that + are reported in the dsx1LineStatus object. When a DS1 interface + would, if ever, produce the conditions leading to the failure state + is described in the appropriate specification. + + Far End Alarm Failure + The Far End Alarm failure is also known as "Yellow Alarm" in the + DS1 case, "Distant Alarm" in the E1 case, and "Remote Alarm" in + the DS2 case. + + For D4 links, the Far End Alarm failure is declared when bit 6 + of all channels has been zero for at least 335 ms and is cleared + when bit 6 of at least one channel is non-zero for a period T, + where T is usually less than one second and always less than 5 + seconds. The Far End Alarm failure is not declared for D4 links + when a Loss of Signal is detected. + + For ESF links, the Far End Alarm failure is declared if the + Yellow Alarm signal pattern occurs in at least seven out of ten + contiguous 16-bit pattern intervals and is cleared if the Yellow + Alarm signal pattern does not occur in ten contiguous 16-bit + signal pattern intervals. + + For E1 links, the Far End Alarm failure is declared when bit 3 + of time-slot zero is received set to one on two consecutive + occasions. The Far End Alarm failure is cleared when bit 3 of + time-slot zero is received set to zero. + + For DS2 links, if a loss of frame alignment (LOF or LOS) and/or + DS2 AIS condition, is detected, the RAI signal shall be + generated and transmitted to the remote side. + + The Remote Alarm Indication(RAI) signal is defined on m-bits as + a repetition of the 16bit sequence consisting of eight binary + '1s' and eight binary '0s' in m-bits(1111111100000000). When + the RAI signal is not sent (in normal operation),the HDLC flag + pattern (01111110) in the m-bit is sent. + + The RAI failure is detected when 16 or more consecutive RAI- + patterns (1111111100000000) are received. The RAI failure is + cleared when 4 or more consecutive incorrect-RAI-patterns are + received. + + Alarm Indication Signal (AIS) Failure + The Alarm Indication Signal failure is declared when an AIS + defect is detected at the input and the AIS defect still exists + + + +Nicklass Standards Track [Page 18] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + after the Loss Of Frame failure (which is caused by the unframed + nature of the 'all-ones' signal) is declared. The AIS failure + is cleared when the Loss Of Frame failure is cleared. (See + T1.231 Section 6.2.1.2.1) + + An AIS defect at a 6312 kbit/s (G.704) interface is detected + when the incoming signal has two {2} or less ZEROs in a sequence + of 3156 bits (0.5ms). The AIS signal defect is cleared when the + incoming signal has three {3} or more ZEROs in a sequence of + 3156 bits (0.5ms). + + Loss Of Frame Failure + For DS1 links, the Loss Of Frame failure is declared when an OOF + or LOS defect has persisted for T seconds, where 2 <= T <= 10. + The Loss Of Frame failure is cleared when there have been no OOF + or LOS defects during a period T where 0 <= T <= 20. Many + systems will perform "hit integration" within the period T + before declaring or clearing the failure e.g., see TR 62411 + [AT&T-TR-62411]. + + For E1 links, the Loss Of Frame Failure is declared when an OOF + defect is detected. + + Loss Of Signal Failure + For DS1, the Loss Of Signal failure is declared upon observing + 175 +/- 75 contiguous pulse positions with no pulses of either + positive or negative polarity. The LOS failure is cleared upon + observing an average pulse density of at least 12.5% over a + period of 175 +/- 75 contiguous pulse positions starting with + the receipt of a pulse. + + For E1 links, the Loss Of Signal failure is declared when + greater than 10 consecutive zeroes are detected (see O.162 + Section 3.4.4). + + A LOS defect at 6312kbit/s interfaces is detected when the + incoming signal has "no transitions", i.e., when the signal + level is less than or equal to a signal level of 35dB below + nominal, for N consecutive pulse intervals, where 10 <=N<=255. + + The LOS defect is cleared when the incoming signal has + "transitions", i.e., when the signal level is greater than or + equal to a signal level of 9dB below nominal, for N consecutive + pulse intervals, where 10<=N<=255. + + A signal with "transitions" corresponds to a G.703 compliant + signal. + + + + +Nicklass Standards Track [Page 19] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + Loopback Pseudo-Failure + The Loopback Pseudo-Failure is declared when the near end + equipment has placed a loopback (of any kind) on the DS1. This + allows a management entity to determine from one object whether + the DS1 can be considered to be in service or not (from the + point of view of the near end equipment). + + TS16 Alarm Indication Signal Failure + For E1 links, the TS16 Alarm Indication Signal failure is + declared when time-slot 16 is received as all ones for all + frames of two consecutive multiframes (see G.732 Section 4.2.6). + This condition is never declared for DS1. + + Loss Of MultiFrame Failure + The Loss Of MultiFrame failure is declared when two consecutive + multiframe alignment signals (bits 4 through 7 of TS16 of frame + 0) have been received with an error. The Loss Of Multiframe + failure is cleared when the first correct multiframe alignment + signal is received. The Loss Of Multiframe failure can only be + declared for E1 links operating with G.732 [CCITT-G.732] framing + (sometimes called "Channel Associated Signalling" mode). + + Far End Loss Of Multiframe Failure + The Far End Loss Of Multiframe failure is declared when bit 2 of + TS16 of frame 0 is received set to one on two consecutive + occasions. The Far End Loss Of Multiframe failure is cleared + when bit 2 of TS16 of frame 0 is received set to zero. The Far + End Loss Of Multiframe failure can only be declared for E1 links + operating in "Channel Associated Signalling" mode (See G.732). + + DS2 Payload AIS Failure + The DS2 Payload AIS is detected when the incoming signal of the + 6,312 kbps frame payload (time-slots 1 through 96) has 2 or less + 0's in a sequence of 3072 bits (0.5ms). The DS2 Payload AIS is + cleared when the incoming signal of the 6,312 kbps frame payload + has 3 or more 0's in a sequence of 3072 bits (0.5 ms). + + DS2 Performance Threshold + DS2 Performance Threshold Failure monitors equipment performance + and is based on the CRC (Cyclic Redundancy Check) Procedure + defined in G.704. + + The DS2 Performance Threshold Failure is detected when the bit + error ratio exceeds 10^-4 (Performance Threshold), and the DS2 + Performance Threshold Failure shall be cleared when the bit + error ratio decreased to less than 10^-6." + + + + + +Nicklass Standards Track [Page 20] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +2.4.5. Other Terms + + Circuit Identifier + This is a character string specified by the circuit vendor, and is + useful when communicating with the vendor during the + troubleshooting process (see M.1400 [ITU-T-M.1400] for additional + information). + + Proxy + In this document, the word proxy is meant to indicate an + application which receives SNMP messages and replies to them on + behalf of the devices which implement the actual DS1/E1 + interfaces. The proxy may have already collected the information + about the DS1/E1 interfaces into its local database and may not + necessarily forward the requests to the actual DS1/E1 interface. + It is expected in such an application that there are periods of + time where the proxy is not communicating with the DS1/E1 + interfaces. In these instances the proxy will not necessarily + have up-to-date configuration information and will most likely + have missed the collection of some statistics data. Missed + statistics data collection will result in invalid data in the + interval table. + +3. Object Definitions + +DS1-MIB DEFINITIONS ::= BEGIN + +IMPORTS + MODULE-IDENTITY, OBJECT-TYPE, + NOTIFICATION-TYPE, transmission + FROM SNMPv2-SMI -- [RFC2578] + DisplayString, TimeStamp, TruthValue + FROM SNMPv2-TC -- [RFC2579] + MODULE-COMPLIANCE, OBJECT-GROUP, + NOTIFICATION-GROUP + FROM SNMPv2-CONF -- [RFC2580] + InterfaceIndex, ifIndex + FROM IF-MIB -- [RFC2863] + PerfCurrentCount, PerfIntervalCount, + PerfTotalCount + FROM PerfHist-TC-MIB; -- [RFC3593] + +ds1 MODULE-IDENTITY + LAST-UPDATED "200409090000Z" -- September 09, 2004 + ORGANIZATION "IETF AToM MIB Working Group" + CONTACT-INFO + "WG charter: + http://www.ietf.org/html.charters/atommib-charter.html + + + +Nicklass Standards Track [Page 21] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + Mailing Lists: + General Discussion: atommib@research.telcordia.com + To Subscribe: atommib-request@research.telcordia.com + + Editor: Orly Nicklass + + Postal: RAD Data Communications, Ltd. + Ziv Tower, 24 Roul Walenberg + Tel Aviv, Israel, 69719 + + Tel: +9723 765 9969 + E-mail: orly_n@rad.com" + + DESCRIPTION + "The MIB module to describe DS1, E1, DS2, and + E2 interfaces objects. + + Copyright (c) The Internet Society (2004). This + version of this MIB module is part of RFC 3895; + see the RFC itself for full legal notices." + + REVISION "200409090000Z" -- September 09, 2004 + DESCRIPTION + "The RFC 3895 version of this MIB module. + The key changes made to this MIB module + since its publication in RFC 2495 are as follows: + (1) The dsx1FracIfIndex SYNTAX matches the description range. + (2) A value was added to dsx1TransmitClockSource. + (3) Values were added to dsx1LineType. + (4) Two objects were added, dsx1LineMode and dsx1LineBuildOut + to better express transceiver mode and LineBuildOut for T1. + (5) Reference was added to Circuit Identifier object. + (6) Align the DESCRIPTION clauses of few statistic objects with + the near end definition, the far end definition and with + RFC 3593. + (7) Changes in Compliance Statements to include new objects. + (8) A typographical error in dsx2E2 was fixed, new name is dsx1E2." + + REVISION "199808011830Z" + DESCRIPTION + "The RFC 2495 version of this MIB module. + The key changes made to this MIB module + since its publication in RFC 1406 are as follows: + (1) The Fractional Table has been deprecated. + (2) This document uses SMIv2. + (3) Usage is given for ifTable and ifXTable. + (4) Example usage of ifStackTable is included. + (5) dsx1IfIndex has been deprecated. + + + +Nicklass Standards Track [Page 22] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + (6) Support for DS2 and E2 have been added. + (7) Additional lineTypes for DS2, E2, and unframed E1 + were added. + (8) The definition of valid intervals has been clarified + for the case where the agent proxied for other devices. In + particular, the treatment of missing intervals has been + clarified. + (9) An inward loopback has been added. + (10) Additional lineStatus bits have been added for Near End in + Unavailable Signal State, Carrier Equipment Out of Service, + DS2 Payload AIS, and DS2 Performance Threshold. + (11) A read-write line Length object has been added. + (12) Signal mode of other has been added. + (13) Added a lineStatus last change, trap and enabler. + (14) The e1(19) ifType has been obsoleted so this MIB + does not list it as a supported ifType. + (15) Textual Conventions for statistics objects have been used. + (16) A new object, dsx1LoopbackStatus has been introduced to + reflect the loopbacks established on a DS1 interface and + the source to the requests. dsx1LoopbackConfig continues + to be the desired loopback state while dsx1LoopbackStatus + reflects the actual state. + (17) A dual loopback has been added to allow the setting of an + inward loopback and a line loopback at the same time. + (18) An object indicating which channel to use within a parent + object (i.e., DS3) has been added. + (19) An object has been added to indicate whether or not this + DS1/E1 is channelized. + (20) Line coding type of B6ZS has been added for DS2" + + REVISION "199301252028Z" + DESCRIPTION + "Initial version, published as RFC 1406." + + ::= { transmission 18 } + +-- note that this subsumes cept (19) and g703at2mb (67) +-- there is no separate CEPT or G703AT2MB MIB + +-- The DS1 Near End Group + +-- The DS1 Near End Group consists of five tables: +-- DS1 Configuration +-- DS1 Current +-- DS1 Interval +-- DS1 Total +-- DS1 Channel Table + + + + +Nicklass Standards Track [Page 23] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +-- The DS1 Configuration Table + +dsx1ConfigTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1ConfigEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 Configuration table." + ::= { ds1 6 } + +dsx1ConfigEntry OBJECT-TYPE + SYNTAX Dsx1ConfigEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Configuration table." + INDEX { dsx1LineIndex } + ::= { dsx1ConfigTable 1 } + +Dsx1ConfigEntry ::= + SEQUENCE { + dsx1LineIndex InterfaceIndex, + dsx1IfIndex InterfaceIndex, + dsx1TimeElapsed INTEGER, + dsx1ValidIntervals INTEGER, + dsx1LineType INTEGER, + dsx1LineCoding INTEGER, + dsx1SendCode INTEGER, + dsx1CircuitIdentifier DisplayString, + dsx1LoopbackConfig INTEGER, + dsx1LineStatus INTEGER, + dsx1SignalMode INTEGER, + dsx1TransmitClockSource INTEGER, + dsx1Fdl INTEGER, + dsx1InvalidIntervals INTEGER, + dsx1LineLength INTEGER, + dsx1LineStatusLastChange TimeStamp, + dsx1LineStatusChangeTrapEnable INTEGER, + dsx1LoopbackStatus INTEGER, + dsx1Ds1ChannelNumber INTEGER, + dsx1Channelization INTEGER, + dsx1LineMode INTEGER, + dsx1LineBuildOut INTEGER +} + +dsx1LineIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only -- read-only since originally an + + + +Nicklass Standards Track [Page 24] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + -- SMIv1 index + STATUS current + DESCRIPTION + "This object should be made equal to ifIndex. The + next paragraph describes its previous usage. + Making the object equal to ifIndex allows proper + use of ifStackTable and ds0/ds0bundle mibs. + + Previously, this object is the identifier of a DS1 + Interface on a managed device. If there is an + ifEntry that is directly associated with this and + only this DS1 interface, it should have the same + value as ifIndex. Otherwise, number the + dsx1LineIndices with an unique identifier + following the rules of choosing a number that is + greater than ifNumber and numbering the inside + interfaces (e.g., equipment side) with even + numbers and outside interfaces (e.g., network side) + with odd numbers." + ::= { dsx1ConfigEntry 1 } + +dsx1IfIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only + STATUS deprecated + DESCRIPTION + "This value for this object is equal to the value + of ifIndex from the Interfaces table of MIB II + (RFC 1213)." + ::= { dsx1ConfigEntry 2 } + +dsx1TimeElapsed OBJECT-TYPE + SYNTAX INTEGER (0..899) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of seconds that have elapsed since the + beginning of the near end current error-measurement + period. If, for some reason, such as an adjustment + in the system's time-of-day clock, the current interval + exceeds the maximum value, the agent will return the + maximum value." + ::= { dsx1ConfigEntry 3 } + +dsx1ValidIntervals OBJECT-TYPE + SYNTAX INTEGER (0..96) + MAX-ACCESS read-only + STATUS current + + + +Nicklass Standards Track [Page 25] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + DESCRIPTION + "The number of previous near end intervals for + which data was collected. The value will be 96 + unless the interface was brought online within the + last 24 hours, in which case the value will be the + number of complete 15 minute near end intervals + since the interface has been online. In the case + where the agent is a proxy, it is possible that + some intervals are unavailable. In this case, + this interval is the maximum interval number for + which data is available." + ::= { dsx1ConfigEntry 4 } + +dsx1LineType OBJECT-TYPE + SYNTAX INTEGER { + other(1), + dsx1ESF(2), + dsx1D4(3), + dsx1E1(4), + dsx1E1CRC(5), + dsx1E1MF(6), + dsx1E1CRCMF(7), + dsx1Unframed(8), + dsx1E1Unframed(9), + dsx1DS2M12(10), + dsx1E2(11), + dsx1E1Q50(12), + dsx1E1Q50CRC(13) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "This variable indicates the variety of DS1 + Line implementing this circuit. The type of + circuit affects the number of bits per second + that the circuit can reasonably carry, as well + as the interpretation of the usage and error + statistics. The values, in sequence, describe: + + TITLE: SPECIFICATION: + dsx1ESF Extended SuperFrame DS1 + (T1.107) + dsx1D4 AT&T D4 format DS1 (T1.107) + dsx1E1 ITU-T Recommendation G.704 + (Table 4a) + dsx1E1-CRC ITU-T Recommendation G.704 + (Table 4b) + dsxE1-MF G.704 (Table 4a) with TS16 + + + +Nicklass Standards Track [Page 26] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + multiframing enabled + dsx1E1-CRC-MF G.704 (Table 4b) with TS16 + multiframing enabled + dsx1Unframed DS1 with No Framing + dsx1E1Unframed E1 with No Framing (G.703) + dsx1DS2M12 DS2 frame format (T1.107) + dsx1E2 E2 frame format (G.704) + dsx1E1Q50 TS16 bits 5,7,8 set to 101, [in + all other cases it is set + to 111.](ITU-T G.704,table 14) + dsx1E1Q50CRC E1Q50 with CRC. + + For clarification, the capacity for each E1 type + is as listed below: + dsx1E1Unframed - E1, no framing = 32 x 64k = 2048k + dsx1E1 or dsx1E1CRC - E1, with framing, + no signalling = 31 x 64k = 1984k + dsx1E1MF or dsx1E1CRCMF - E1, with framing, + signalling = 30 x 64k = 1920k" + REFERENCE + "American National Standard for telecommunications - + digital hierarchy - formats specification, + ANSI-T1.107 - 1988. + CCITT Specifications Volume III, Recommendation + G.703, Physical/Electrical Characteristics + of Hierarchical Digital Interfaces, April 1991. + ITU-T-G.704: Synchronous frame structures used at + 1544, 6312, 2048, 8488 and 44 736 kbit/s + Hierarchical Levels, July 1995." + ::= { dsx1ConfigEntry 5 } + +dsx1LineCoding OBJECT-TYPE + SYNTAX INTEGER { + dsx1JBZS (1), + dsx1B8ZS (2), + dsx1HDB3 (3), + dsx1ZBTSI (4), + dsx1AMI (5), + other(6), + dsx1B6ZS(7) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "This variable describes the variety of Zero Code + Suppression used on this interface, which in turn + affects a number of its characteristics. + + + + +Nicklass Standards Track [Page 27] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + dsx1JBZS refers the Jammed Bit Zero Suppression, + in which the AT&T specification of at least one + pulse every 8 bit periods is literally implemented + by forcing a pulse in bit 8 of each channel. + Thus, only seven bits per channel, or 1.344 Mbps, + is available for data. + + dsx1B8ZS refers to the use of a specified pattern + of normal bits and bipolar violations which are + used to replace a sequence of eight zero bits. + + ANSI Clear Channels may use dsx1ZBTSI, or Zero + Byte Time Slot Interchange. + + E1 links, with or without CRC, use dsx1HDB3 or + dsx1AMI. + + dsx1AMI refers to a mode wherein no zero code + suppression is present and the line encoding does + not solve the problem directly. In this + application, the higher layer must provide data + which meets or exceeds the pulse density + requirements, such as inverting HDLC data. + dsx1B6ZS refers to the user of a specified pattern + of normal bits and bipolar violations which are + used to replace a sequence of six zero bits. Used + for DS2." + + ::= { dsx1ConfigEntry 6 } + +dsx1SendCode OBJECT-TYPE + SYNTAX INTEGER { + dsx1SendNoCode(1), + dsx1SendLineCode(2), + dsx1SendPayloadCode(3), + dsx1SendResetCode(4), + dsx1SendQRS(5), + dsx1Send511Pattern(6), + dsx1Send3in24Pattern(7), + dsx1SendOtherTestPattern(8) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "This variable indicates what type of code is + being sent across the DS1 interface by the device. + Setting this variable causes the interface to send + the code requested. The values mean: + + + +Nicklass Standards Track [Page 28] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + dsx1SendNoCode + sending looped or normal data + + dsx1SendLineCode + sending a request for a line loopback + + dsx1SendPayloadCode + sending a request for a payload loopback + + dsx1SendResetCode + sending a loopback termination request + + dsx1SendQRS + sending a Quasi-Random Signal (QRS) test + pattern + + dsx1Send511Pattern + sending a 511 bit fixed test pattern + + dsx1Send3in24Pattern + sending a fixed test pattern of 3 bits set + in 24 + + dsx1SendOtherTestPattern + sending a test pattern other than those + described by this object" + ::= { dsx1ConfigEntry 7 } + +dsx1CircuitIdentifier OBJECT-TYPE + SYNTAX DisplayString (SIZE (0..255)) + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "This variable contains the transmission vendor's + circuit identifier, for the purpose of + facilitating troubleshooting." + REFERENCE "ITU-T M.1400" + ::= { dsx1ConfigEntry 8 } + +dsx1LoopbackConfig OBJECT-TYPE + SYNTAX INTEGER { + dsx1NoLoop(1), + dsx1PayloadLoop(2), + dsx1LineLoop(3), + dsx1OtherLoop(4), + dsx1InwardLoop(5), + dsx1DualLoop(6) + } + + + +Nicklass Standards Track [Page 29] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "This variable represents the desired loopback + configuration of the DS1 interface. Agents + supporting read/write access should return + inconsistentValue in response to a requested + loopback state that the interface does not + support. The values mean: + + dsx1NoLoop + Not in the loopback state. A device that is not + capable of performing a loopback on the interface + shall always return this as its value. + + dsx1PayloadLoop + The received signal at this interface is looped + through the device. Typically the received signal + is looped back for retransmission after it has + passed through the device's framing function. + + dsx1LineLoop + The received signal at this interface does not go + through the device (minimum penetration) but is + looped back out. + + dsx1OtherLoop + Loopbacks that are not defined here. + + dsx1InwardLoop + The transmitted signal at this interface is + looped back and received by the same interface. + What is transmitted onto the line is product + dependent. + + dsx1DualLoop + Both dsx1LineLoop and dsx1InwardLoop will be + active simultaneously." + ::= { dsx1ConfigEntry 9 } + +dsx1LineStatus OBJECT-TYPE + SYNTAX INTEGER (1..131071) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "This variable indicates the Line Status of the + interface. It contains loopback, failure, + received 'alarm' and transmitted 'alarms + + + +Nicklass Standards Track [Page 30] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + information. + + The dsx1LineStatus is a bit map represented as a + sum, therefore, it can represent multiple failures + (alarms) and a LoopbackState simultaneously. + + dsx1NoAlarm must be set if and only if no other + flag is set. + + If the dsx1loopbackState bit is set, the loopback + in effect can be determined from the + dsx1loopbackConfig object. The various bit + positions are: + + 1 dsx1NoAlarm No alarm present + 2 dsx1RcvFarEndLOF Far end LOF (a.k.a., Yellow Alarm) + 4 dsx1XmtFarEndLOF Near end sending LOF Indication + 8 dsx1RcvAIS Far end sending AIS + 16 dsx1XmtAIS Near end sending AIS + 32 dsx1LossOfFrame Near end LOF (a.k.a., Red Alarm) + 64 dsx1LossOfSignal Near end Loss Of Signal + 128 dsx1LoopbackState Near end is looped + 256 dsx1T16AIS E1 TS16 AIS + 512 dsx1RcvFarEndLOMF Far End Sending TS16 LOMF + 1024 dsx1XmtFarEndLOMF Near End Sending TS16 LOMF + 2048 dsx1RcvTestCode Near End detects a test code + 4096 dsx1OtherFailure any line status not defined here + 8192 dsx1UnavailSigState Near End in Unavailable Signal + State + 16384 dsx1NetEquipOOS Carrier Equipment Out of Service + 32768 dsx1RcvPayloadAIS DS2 Payload AIS + 65536 dsx1Ds2PerfThreshold DS2 Performance Threshold + Exceeded" + ::= { dsx1ConfigEntry 10 } + +dsx1SignalMode OBJECT-TYPE + SYNTAX INTEGER { + none (1), + robbedBit (2), + bitOriented (3), + messageOriented (4), + other (5) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "'none' indicates that no bits are reserved for + signaling on this channel. + + + +Nicklass Standards Track [Page 31] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + 'robbedBit' indicates that DS1 Robbed Bit Signaling + is in use. + + 'bitOriented' indicates that E1 Channel + Associated Signaling is in use. + + 'messageOriented' indicates that Common + Channel Signaling is in use either on channel 16 + of an E1 link or channel 24 of a DS1." + ::= { dsx1ConfigEntry 11 } + +dsx1TransmitClockSource OBJECT-TYPE + SYNTAX INTEGER { + loopTiming(1), + localTiming(2), + throughTiming(3), + adaptive (4) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "The source of Transmit Clock. + 'loopTiming' indicates that the recovered + receive clock is used as the transmit clock. + + 'localTiming' indicates that a local clock + source is used or when an external clock is + attached to the box containing the interface. + + 'throughTiming' indicates that recovered + receive clock from another interface is used as + the transmit clock. + + 'adaptive' indicates that the clock is recovered + based on the data flow and not based on the + physical layer" + ::= { dsx1ConfigEntry 12 } + +dsx1Fdl OBJECT-TYPE + SYNTAX INTEGER (1..15) + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "This bitmap describes the use of the facilities + data link, and is the sum of the capabilities. + Set any bits that are appropriate: + + other(1), + + + +Nicklass Standards Track [Page 32] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + dsx1AnsiT1403(2), + dsx1Att54016(4), + dsx1FdlNone(8) + + 'other' indicates that a protocol other than + one following is used. + + 'dsx1AnsiT1403' refers to the FDL exchange + recommended by ANSI. + + 'dsx1Att54016' refers to ESF FDL exchanges. + + 'dsx1FdlNone' indicates that the device does + not use the FDL." + ::= { dsx1ConfigEntry 13 } + +dsx1InvalidIntervals OBJECT-TYPE + SYNTAX INTEGER (0..96) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + " The number of intervals in the range from 0 to + dsx1ValidIntervals for which no data is available. + This object will typically be zero except in cases + where the data for some intervals are not + available (e.g., in proxy situations)." + ::= { dsx1ConfigEntry 14 } + +dsx1LineLength OBJECT-TYPE + SYNTAX INTEGER (0..64000) + UNITS "meters" + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "The length of the ds1 line in meters. This + objects provides information for line build out + circuitry. This object is only useful if the + interface has configurable line build out + circuitry." + ::= { dsx1ConfigEntry 15 } + +dsx1LineStatusLastChange OBJECT-TYPE + SYNTAX TimeStamp + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The value of MIB II's sysUpTime object at the + time this DS1 entered its current line status + + + +Nicklass Standards Track [Page 33] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + state. If the current state was entered prior to + the last re-initialization of the proxy-agent, + then this object contains a zero value." + ::= { dsx1ConfigEntry 16 } + +dsx1LineStatusChangeTrapEnable OBJECT-TYPE + SYNTAX INTEGER { + enabled(1), + disabled(2) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Indicates whether dsx1LineStatusChange traps + should be generated for this interface." + DEFVAL { disabled } + ::= { dsx1ConfigEntry 17 } + +dsx1LoopbackStatus OBJECT-TYPE + SYNTAX INTEGER (1..127) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "This variable represents the current state of the + loopback on the DS1 interface. It contains + information about loopbacks established by a + manager and remotely from the far end. + + The dsx1LoopbackStatus is a bit map represented as + a sum, therefore is can represent multiple + loopbacks simultaneously. + + The various bit positions are: + 1 dsx1NoLoopback + 2 dsx1NearEndPayloadLoopback + 4 dsx1NearEndLineLoopback + 8 dsx1NearEndOtherLoopback + 16 dsx1NearEndInwardLoopback + 32 dsx1FarEndPayloadLoopback + 64 dsx1FarEndLineLoopback" + + ::= { dsx1ConfigEntry 18 } + +dsx1Ds1ChannelNumber OBJECT-TYPE + SYNTAX INTEGER (0..28) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + + + +Nicklass Standards Track [Page 34] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + "This variable represents the channel number of + the DS1/E1 on its parent DS2/E2 or DS3/E3. A + value of 0 indicated this DS1/E1 does not have a + parent DS3/E3." + + ::= { dsx1ConfigEntry 19 } + +dsx1Channelization OBJECT-TYPE + SYNTAX INTEGER { + disabled(1), + enabledDs0(2), + enabledDs1(3) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Indicates whether this ds1/e1 is channelized or + unchannelized. The value of enabledDs0 indicates + that this is a DS1 channelized into DS0s. The + value of enabledDs1 indicated that this is a DS2 + channelized into DS1s. Setting this value will + cause the creation or deletion of entries in the + ifTable for the DS0s that are within the DS1." + ::= { dsx1ConfigEntry 20 } + +dsx1LineMode OBJECT-TYPE + SYNTAX INTEGER { + csu(1), + dsu(2) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "This setting puts the T1 framer into either long + haul (CSU) mode or short haul (DSU) mode." + ::= { dsx1ConfigEntry 21 } + +dsx1LineBuildOut OBJECT-TYPE + SYNTAX INTEGER { + notApplicable (1), + neg75dB (2), + neg15dB (3), + neg225dB (4), + zerodB (5) + } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + + + +Nicklass Standards Track [Page 35] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + "Attenuation setting for T1 framer in long haul + (CSU) mode. The optional values are: -7.5dB, + -15dB, -22.5dB and 0dB." + ::= { dsx1ConfigEntry 22 } + +-- The DS1 Current Table +dsx1CurrentTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1CurrentEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 current table contains various statistics + being collected for the current 15 minute + interval." + ::= { ds1 7 } + +dsx1CurrentEntry OBJECT-TYPE + SYNTAX Dsx1CurrentEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Current table." + INDEX { dsx1CurrentIndex } + ::= { dsx1CurrentTable 1 } + +Dsx1CurrentEntry ::= + SEQUENCE { + dsx1CurrentIndex InterfaceIndex, + dsx1CurrentESs PerfCurrentCount, + dsx1CurrentSESs PerfCurrentCount, + dsx1CurrentSEFSs PerfCurrentCount, + dsx1CurrentUASs PerfCurrentCount, + dsx1CurrentCSSs PerfCurrentCount, + dsx1CurrentPCVs PerfCurrentCount, + dsx1CurrentLESs PerfCurrentCount, + dsx1CurrentBESs PerfCurrentCount, + dsx1CurrentDMs PerfCurrentCount, + dsx1CurrentLCVs PerfCurrentCount +} + +dsx1CurrentIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS current + DESCRIPTION + "The index value which uniquely identifies the + DS1 interface to which this entry is applicable. + + + +Nicklass Standards Track [Page 36] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + The interface identified by a particular value of + this index is the same interface as identified by + the same value as a dsx1LineIndex object + instance." + ::= { dsx1CurrentEntry 1 } + +dsx1CurrentESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Errored Seconds." + ::= { dsx1CurrentEntry 2 } + +dsx1CurrentSESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Severely Errored Seconds." + ::= { dsx1CurrentEntry 3 } + +dsx1CurrentSEFSs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Severely Errored Framing Seconds." + ::= { dsx1CurrentEntry 4 } + +dsx1CurrentUASs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Unavailable Seconds." + ::= { dsx1CurrentEntry 5 } + +dsx1CurrentCSSs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Controlled Slip Seconds." + ::= { dsx1CurrentEntry 6 } + +dsx1CurrentPCVs OBJECT-TYPE + SYNTAX PerfCurrentCount + + + +Nicklass Standards Track [Page 37] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Path Coding Violations." + ::= { dsx1CurrentEntry 7 } + +dsx1CurrentLESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Line Errored Seconds." + ::= { dsx1CurrentEntry 8 } + +dsx1CurrentBESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Bursty Errored Seconds." + ::= { dsx1CurrentEntry 9 } + +dsx1CurrentDMs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Degraded Minutes." + ::= { dsx1CurrentEntry 10 } + +dsx1CurrentLCVs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Line Code Violations (LCVs)." + ::= { dsx1CurrentEntry 11 } + +-- The DS1 Interval Table +dsx1IntervalTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1IntervalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 Interval Table contains various + statistics collected by each DS1 Interface over + the previous 24 hours of operation. The past 24 + hours are broken into 96 completed 15 minute + + + +Nicklass Standards Track [Page 38] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + intervals. Each row in this table represents one + such interval (identified by dsx1IntervalNumber) + for one specific instance (identified by + dsx1IntervalIndex)." + ::= { ds1 8 } + +dsx1IntervalEntry OBJECT-TYPE + SYNTAX Dsx1IntervalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Interval table." + INDEX { dsx1IntervalIndex, dsx1IntervalNumber } + ::= { dsx1IntervalTable 1 } + +Dsx1IntervalEntry ::= + SEQUENCE { + dsx1IntervalIndex InterfaceIndex, + dsx1IntervalNumber INTEGER, + dsx1IntervalESs PerfIntervalCount, + dsx1IntervalSESs PerfIntervalCount, + dsx1IntervalSEFSs PerfIntervalCount, + dsx1IntervalUASs PerfIntervalCount, + dsx1IntervalCSSs PerfIntervalCount, + dsx1IntervalPCVs PerfIntervalCount, + dsx1IntervalLESs PerfIntervalCount, + dsx1IntervalBESs PerfIntervalCount, + dsx1IntervalDMs PerfIntervalCount, + dsx1IntervalLCVs PerfIntervalCount, + dsx1IntervalValidData TruthValue +} + +dsx1IntervalIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS current + DESCRIPTION + "The index value which uniquely identifies the DS1 + interface to which this entry is applicable. The + interface identified by a particular value of this + index is the same interface as identified by the + same value as a dsx1LineIndex object instance." + ::= { dsx1IntervalEntry 1 } + +dsx1IntervalNumber OBJECT-TYPE + SYNTAX INTEGER (1..96) + MAX-ACCESS read-only -- read-only since originally an + + + +Nicklass Standards Track [Page 39] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + -- SMIv1 index + STATUS current + DESCRIPTION + "A number between 1 and 96, where 1 is the most + recently completed 15 minute interval and 96 is + the 15 minutes interval completed 23 hours and 45 + minutes prior to interval 1." + ::= { dsx1IntervalEntry 2 } + +dsx1IntervalESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Errored Seconds." + ::= { dsx1IntervalEntry 3 } + +dsx1IntervalSESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Severely Errored Seconds." + ::= { dsx1IntervalEntry 4 } + +dsx1IntervalSEFSs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Severely Errored Framing Seconds." + ::= { dsx1IntervalEntry 5 } + +dsx1IntervalUASs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Unavailable Seconds. This object + may decrease if the occurrence of unavailable + seconds occurs across an interval boundary." + ::= { dsx1IntervalEntry 6 } + +dsx1IntervalCSSs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + + + +Nicklass Standards Track [Page 40] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + "The number of Controlled Slip Seconds." + ::= { dsx1IntervalEntry 7 } + +dsx1IntervalPCVs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Path Coding Violations." + ::= { dsx1IntervalEntry 8 } + +dsx1IntervalLESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Line Errored Seconds." + ::= { dsx1IntervalEntry 9 } + +dsx1IntervalBESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Bursty Errored Seconds." + ::= { dsx1IntervalEntry 10 } + +dsx1IntervalDMs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Degraded Minutes." + ::= { dsx1IntervalEntry 11 } + +dsx1IntervalLCVs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Line Code Violations." + ::= { dsx1IntervalEntry 12 } + +dsx1IntervalValidData OBJECT-TYPE + SYNTAX TruthValue + MAX-ACCESS read-only + STATUS current + DESCRIPTION + + + +Nicklass Standards Track [Page 41] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + "This variable indicates if the data for this + interval is valid." + ::= { dsx1IntervalEntry 13 } + +-- The DS1 Total Table +dsx1TotalTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1TotalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 Total Table contains the cumulative sum + of the various statistics for the 24 hour period + preceding the current interval." + ::= { ds1 9 } + +dsx1TotalEntry OBJECT-TYPE + SYNTAX Dsx1TotalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Total table." + INDEX { dsx1TotalIndex } + ::= { dsx1TotalTable 1 } + +Dsx1TotalEntry ::= + SEQUENCE { + dsx1TotalIndex InterfaceIndex, + dsx1TotalESs PerfTotalCount, + dsx1TotalSESs PerfTotalCount, + dsx1TotalSEFSs PerfTotalCount, + dsx1TotalUASs PerfTotalCount, + dsx1TotalCSSs PerfTotalCount, + dsx1TotalPCVs PerfTotalCount, + dsx1TotalLESs PerfTotalCount, + dsx1TotalBESs PerfTotalCount, + dsx1TotalDMs PerfTotalCount, + dsx1TotalLCVs PerfTotalCount +} + +dsx1TotalIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS current + DESCRIPTION + "The index value which uniquely identifies the DS1 + interface to which this entry is applicable. The + interface identified by a particular value of this + + + +Nicklass Standards Track [Page 42] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + index is the same interface as identified by the + same value as a dsx1LineIndex object instance." + ::= { dsx1TotalEntry 1 } + +dsx1TotalESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The sum of Errored Seconds encountered by a DS1 + interface in the previous 24 hour interval. + Invalid 15 minute intervals count as 0." + ::= { dsx1TotalEntry 2 } + +dsx1TotalSESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Severely Errored Seconds + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1TotalEntry 3 } + +dsx1TotalSEFSs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Severely Errored Framing Seconds + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1TotalEntry 4 } + +dsx1TotalUASs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Unavailable Seconds encountered by + a DS1 interface in the previous 24 hour interval. + Invalid 15 minute intervals count as 0." + ::= { dsx1TotalEntry 5 } + +dsx1TotalCSSs OBJECT-TYPE + SYNTAX PerfTotalCount + + + +Nicklass Standards Track [Page 43] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Controlled Slip Seconds encountered + by a DS1 interface in the previous 24 hour + interval. Invalid 15 minute intervals count as + 0." + ::= { dsx1TotalEntry 6 } + +dsx1TotalPCVs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Path Coding Violations encountered + by a DS1 interface in the previous 24 hour + interval. Invalid 15 minute intervals count as + 0." + ::= { dsx1TotalEntry 7 } + +dsx1TotalLESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Line Errored Seconds encountered by + a DS1 interface in the previous 24 hour interval. + Invalid 15 minute intervals count as 0." + ::= { dsx1TotalEntry 8 } + +dsx1TotalBESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Bursty Errored Seconds (BESs) + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1TotalEntry 9 } + +dsx1TotalDMs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Degraded Minutes (DMs) encountered + by a DS1 interface in the previous 24 hour + + + +Nicklass Standards Track [Page 44] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + interval. Invalid 15 minute intervals count as + 0." + ::= { dsx1TotalEntry 10 } + +dsx1TotalLCVs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Line Code Violations (LCVs) + encountered by a DS1 interface in the current 15 + minute interval. Invalid 15 minute intervals + count as 0." + ::= { dsx1TotalEntry 11 } + +-- The DS1 Channel Table +dsx1ChanMappingTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1ChanMappingEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 Channel Mapping table. This table maps a + DS1 channel number on a particular DS3 into an + ifIndex. In the presence of DS2s, this table can + be used to map a DS2 channel number on a DS3 into + an ifIndex, or used to map a DS1 channel number on + a DS2 onto an ifIndex." + ::= { ds1 16 } + +dsx1ChanMappingEntry OBJECT-TYPE + SYNTAX Dsx1ChanMappingEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Channel Mapping table. There + is an entry in this table corresponding to each + ds1 ifEntry within any interface that is + channelized to the individual ds1 ifEntry level. + + This table is intended to facilitate mapping from + channelized interface / channel number to DS1 + ifEntry. (e.g., mapping (DS3 ifIndex, DS1 Channel + Number) -> ifIndex) + + While this table provides information that can + also be found in the ifStackTable and + dsx1ConfigTable, it provides this same information + with a single table lookup, rather than by walking + + + +Nicklass Standards Track [Page 45] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + the ifStackTable to find the various constituent + ds1 ifTable entries, and testing various + dsx1ConfigTable entries to check for the entry + with the applicable DS1 channel number." + INDEX { ifIndex, dsx1Ds1ChannelNumber } + ::= { dsx1ChanMappingTable 1 } + +Dsx1ChanMappingEntry ::= + SEQUENCE { + dsx1ChanMappedIfIndex InterfaceIndex +} + +dsx1ChanMappedIfIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "This object indicates the ifIndex value assigned + by the agent for the individual ds1 ifEntry that + corresponds to the given DS1 channel number + (specified by the INDEX element + dsx1Ds1ChannelNumber) of the given channelized + interface (specified by INDEX element ifIndex)." + ::= { dsx1ChanMappingEntry 1 } + +-- The DS1 Far End Current Table + +dsx1FarEndCurrentTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1FarEndCurrentEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 Far End Current table contains various + statistics being collected for the current 15 + minute interval. The statistics are collected + from the far end messages on the Facilities Data + Link. The definitions are the same as described + for the near-end information." + ::= { ds1 10 } + +dsx1FarEndCurrentEntry OBJECT-TYPE + SYNTAX Dsx1FarEndCurrentEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Far End Current table." + INDEX { dsx1FarEndCurrentIndex } + ::= { dsx1FarEndCurrentTable 1 } + + + +Nicklass Standards Track [Page 46] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +Dsx1FarEndCurrentEntry ::= + SEQUENCE { + dsx1FarEndCurrentIndex InterfaceIndex, + dsx1FarEndTimeElapsed INTEGER, + dsx1FarEndValidIntervals INTEGER, + dsx1FarEndCurrentESs PerfCurrentCount, + dsx1FarEndCurrentSESs PerfCurrentCount, + dsx1FarEndCurrentSEFSs PerfCurrentCount, + dsx1FarEndCurrentUASs PerfCurrentCount, + dsx1FarEndCurrentCSSs PerfCurrentCount, + dsx1FarEndCurrentLESs PerfCurrentCount, + dsx1FarEndCurrentPCVs PerfCurrentCount, + dsx1FarEndCurrentBESs PerfCurrentCount, + dsx1FarEndCurrentDMs PerfCurrentCount, + dsx1FarEndInvalidIntervals INTEGER +} + +dsx1FarEndCurrentIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS current + DESCRIPTION + "The index value which uniquely identifies the DS1 + interface to which this entry is applicable. The + interface identified by a particular value of this + index is identical to the interface identified by + the same value of dsx1LineIndex." + ::= { dsx1FarEndCurrentEntry 1 } + +dsx1FarEndTimeElapsed OBJECT-TYPE + SYNTAX INTEGER (0..899) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of seconds that have elapsed since the + beginning of the far end current error-measurement + period. If, for some reason, such as an adjustment + in the system's time-of-day clock, the current + interval exceeds the maximum value, the agent will + return the maximum value." + ::= { dsx1FarEndCurrentEntry 2 } + +dsx1FarEndValidIntervals OBJECT-TYPE + SYNTAX INTEGER (0..96) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + + + +Nicklass Standards Track [Page 47] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + "The number of previous far end intervals for + which data was collected. The value will be 96 + unless the interface was brought online within the + last 24 hours, in which case the value will be the + number of complete 15 minute far end intervals + since the interface has been online. In the case + where the agent is a proxy, it is possible that + some intervals are unavailable. In this case, + this interval is the maximum interval number for + which data is available." + ::= { dsx1FarEndCurrentEntry 3 } + +dsx1FarEndCurrentESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Errored Seconds." + ::= { dsx1FarEndCurrentEntry 4 } + +dsx1FarEndCurrentSESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Severely Errored Seconds." + ::= { dsx1FarEndCurrentEntry 5 } + +dsx1FarEndCurrentSEFSs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Severely Errored Framing + Seconds." + ::= { dsx1FarEndCurrentEntry 6 } + +dsx1FarEndCurrentUASs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Unavailable Seconds." + ::= { dsx1FarEndCurrentEntry 7 } + +dsx1FarEndCurrentCSSs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + + + +Nicklass Standards Track [Page 48] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + STATUS current + DESCRIPTION + "The number of Far End Controlled Slip Seconds." + ::= { dsx1FarEndCurrentEntry 8 } + +dsx1FarEndCurrentLESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Line Errored Seconds." + ::= { dsx1FarEndCurrentEntry 9 } + +dsx1FarEndCurrentPCVs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Path Coding Violations." + ::= { dsx1FarEndCurrentEntry 10 } + +dsx1FarEndCurrentBESs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Bursty Errored Seconds." + ::= { dsx1FarEndCurrentEntry 11 } + +dsx1FarEndCurrentDMs OBJECT-TYPE + SYNTAX PerfCurrentCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Degraded Minutes." + ::= { dsx1FarEndCurrentEntry 12 } + +dsx1FarEndInvalidIntervals OBJECT-TYPE + SYNTAX INTEGER (0..96) + MAX-ACCESS read-only + STATUS current + DESCRIPTION + " The number of intervals in the range from 0 to + dsx1FarEndValidIntervals for which no data is + available. This object will typically be zero + except in cases where the data for some intervals + are not available (e.g., in proxy situations)." + ::= { dsx1FarEndCurrentEntry 13 } + + + +Nicklass Standards Track [Page 49] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +-- The DS1 Far End Interval Table +dsx1FarEndIntervalTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1FarEndIntervalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 Far End Interval Table contains various + statistics collected by each DS1 interface over + the previous 24 hours of operation. The past 24 + hours are broken into 96 completed 15 minute + intervals. Each row in this table represents one + such interval (identified by + dsx1FarEndIntervalNumber) for one specific + instance (identified by dsx1FarEndIntervalIndex)." + ::= { ds1 11 } + +dsx1FarEndIntervalEntry OBJECT-TYPE + SYNTAX Dsx1FarEndIntervalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Far End Interval table." + INDEX { dsx1FarEndIntervalIndex, + dsx1FarEndIntervalNumber } + ::= { dsx1FarEndIntervalTable 1 } + +Dsx1FarEndIntervalEntry ::= + SEQUENCE { + dsx1FarEndIntervalIndex InterfaceIndex, + dsx1FarEndIntervalNumber INTEGER, + dsx1FarEndIntervalESs PerfIntervalCount, + dsx1FarEndIntervalSESs PerfIntervalCount, + dsx1FarEndIntervalSEFSs PerfIntervalCount, + dsx1FarEndIntervalUASs PerfIntervalCount, + dsx1FarEndIntervalCSSs PerfIntervalCount, + dsx1FarEndIntervalLESs PerfIntervalCount, + dsx1FarEndIntervalPCVs PerfIntervalCount, + dsx1FarEndIntervalBESs PerfIntervalCount, + dsx1FarEndIntervalDMs PerfIntervalCount, + dsx1FarEndIntervalValidData TruthValue +} + +dsx1FarEndIntervalIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS current + DESCRIPTION + + + +Nicklass Standards Track [Page 50] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + "The index value which uniquely identifies the DS1 + interface to which this entry is applicable. The + interface identified by a particular value of this + index is identical to the interface identified by + the same value of dsx1LineIndex." + ::= { dsx1FarEndIntervalEntry 1 } + +dsx1FarEndIntervalNumber OBJECT-TYPE + SYNTAX INTEGER (1..96) + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS current + DESCRIPTION + "A number between 1 and 96, where 1 is the most + recently completed 15 minute interval and 96 is + the 15 minutes interval completed 23 hours and 45 + minutes prior to interval 1." + ::= { dsx1FarEndIntervalEntry 2 } + +dsx1FarEndIntervalESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Errored Seconds." + ::= { dsx1FarEndIntervalEntry 3 } + +dsx1FarEndIntervalSESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Severely Errored Seconds." + ::= { dsx1FarEndIntervalEntry 4 } + +dsx1FarEndIntervalSEFSs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Severely Errored Framing + Seconds." + ::= { dsx1FarEndIntervalEntry 5 } + +dsx1FarEndIntervalUASs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + + + +Nicklass Standards Track [Page 51] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + DESCRIPTION + "The number of Unavailable Seconds." + ::= { dsx1FarEndIntervalEntry 6 } + +dsx1FarEndIntervalCSSs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Controlled Slip Seconds." + ::= { dsx1FarEndIntervalEntry 7 } + +dsx1FarEndIntervalLESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Line Errored Seconds." + ::= { dsx1FarEndIntervalEntry 8 } + +dsx1FarEndIntervalPCVs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Path Coding Violations." + ::= { dsx1FarEndIntervalEntry 9 } + +dsx1FarEndIntervalBESs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Bursty Errored Seconds." + ::= { dsx1FarEndIntervalEntry 10 } + +dsx1FarEndIntervalDMs OBJECT-TYPE + SYNTAX PerfIntervalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Degraded Minutes." + ::= { dsx1FarEndIntervalEntry 11 } + +dsx1FarEndIntervalValidData OBJECT-TYPE + SYNTAX TruthValue + MAX-ACCESS read-only + STATUS current + + + +Nicklass Standards Track [Page 52] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + DESCRIPTION + " This variable indicates if the data for this + interval is valid." + ::= { dsx1FarEndIntervalEntry 12 } + +-- The DS1 Far End Total Table + +dsx1FarEndTotalTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1FarEndTotalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The DS1 Far End Total Table contains the + cumulative sum of the various statistics for the + 24 hour period preceding the current interval." + ::= { ds1 12 } + +dsx1FarEndTotalEntry OBJECT-TYPE + SYNTAX Dsx1FarEndTotalEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the DS1 Far End Total table." + INDEX { dsx1FarEndTotalIndex } + ::= { dsx1FarEndTotalTable 1 } + +Dsx1FarEndTotalEntry ::= + SEQUENCE { + dsx1FarEndTotalIndex InterfaceIndex, + dsx1FarEndTotalESs PerfTotalCount, + dsx1FarEndTotalSESs PerfTotalCount, + dsx1FarEndTotalSEFSs PerfTotalCount, + dsx1FarEndTotalUASs PerfTotalCount, + dsx1FarEndTotalCSSs PerfTotalCount, + dsx1FarEndTotalLESs PerfTotalCount, + dsx1FarEndTotalPCVs PerfTotalCount, + dsx1FarEndTotalBESs PerfTotalCount, + dsx1FarEndTotalDMs PerfTotalCount +} + +dsx1FarEndTotalIndex OBJECT-TYPE + SYNTAX InterfaceIndex + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS current + DESCRIPTION + "The index value which uniquely identifies the DS1 + interface to which this entry is applicable. The + + + +Nicklass Standards Track [Page 53] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + interface identified by a particular value of this + index is identical to the interface identified by + the same value of dsx1LineIndex." + ::= { dsx1FarEndTotalEntry 1 } + +dsx1FarEndTotalESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Errored Seconds encountered + by a DS1 interface in the previous 24 hour + interval. Invalid 15 minute intervals count as + 0." + ::= { dsx1FarEndTotalEntry 2 } + +dsx1FarEndTotalSESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Severely Errored Seconds + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1FarEndTotalEntry 3 } + +dsx1FarEndTotalSEFSs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Severely Errored Framing + Seconds encountered by a DS1 interface in the + previous 24 hour interval. Invalid 15 minute + intervals count as 0." + ::= { dsx1FarEndTotalEntry 4 } + +dsx1FarEndTotalUASs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Unavailable Seconds encountered by + a DS1 interface in the previous 24 hour interval. + Invalid 15 minute intervals count as 0." + ::= { dsx1FarEndTotalEntry 5 } + + + + +Nicklass Standards Track [Page 54] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +dsx1FarEndTotalCSSs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Controlled Slip Seconds + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1FarEndTotalEntry 6 } + +dsx1FarEndTotalLESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Line Errored Seconds + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1FarEndTotalEntry 7 } + +dsx1FarEndTotalPCVs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Far End Path Coding Violations + reported via the far end block error count + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1FarEndTotalEntry 8 } + +dsx1FarEndTotalBESs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The number of Bursty Errored Seconds (BESs) + encountered by a DS1 interface in the previous 24 + hour interval. Invalid 15 minute intervals count + as 0." + ::= { dsx1FarEndTotalEntry 9 } + +dsx1FarEndTotalDMs OBJECT-TYPE + SYNTAX PerfTotalCount + MAX-ACCESS read-only + + + +Nicklass Standards Track [Page 55] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + STATUS current + DESCRIPTION + "The number of Degraded Minutes (DMs) encountered + by a DS1 interface in the previous 24 hour + interval. Invalid 15 minute intervals count as + 0." + ::= { dsx1FarEndTotalEntry 10 } + +-- The DS1 Fractional Table +dsx1FracTable OBJECT-TYPE + SYNTAX SEQUENCE OF Dsx1FracEntry + MAX-ACCESS not-accessible + STATUS deprecated + DESCRIPTION + "This table is deprecated in favour of using + ifStackTable. + + The table was mandatory for systems dividing a DS1 + into channels containing different data streams + that are of local interest. Systems which are + indifferent to data content, such as CSUs, need + not implement it. + + The DS1 fractional table identifies which DS1 + channels associated with a CSU are being used to + support a logical interface, i.e., an entry in the + interfaces table from the Internet-standard MIB. + + For example, consider an application managing a + North American ISDN Primary Rate link whose + division is a 384 kbit/s H1 _B_ Channel for Video, + a second H1 for data to a primary routing peer, + and 12 64 kbit/s H0 _B_ Channels. Consider that + some subset of the H0 channels are used for voice + and the remainder are available for dynamic data + calls. + + We count a total of 14 interfaces multiplexed onto + the DS1 interface. Six DS1 channels (for the sake + of the example, channels 1..6) are used for Video, + six more (7..11 and 13) are used for data, and the + remaining 12 are in channels 12 and 14..24. + + Let us further imagine that ifIndex 2 is of type + DS1 and refers to the DS1 interface, and that the + interfaces layered onto it are numbered 3..16. + + We might describe the allocation of channels, in + + + +Nicklass Standards Track [Page 56] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + the dsx1FracTable, as follows: + dsx1FracIfIndex.2. 1 = 3 dsx1FracIfIndex.2.13 = 4 + dsx1FracIfIndex.2. 2 = 3 dsx1FracIfIndex.2.14 = 6 + dsx1FracIfIndex.2. 3 = 3 dsx1FracIfIndex.2.15 = 7 + dsx1FracIfIndex.2. 4 = 3 dsx1FracIfIndex.2.16 = 8 + dsx1FracIfIndex.2. 5 = 3 dsx1FracIfIndex.2.17 = 9 + dsx1FracIfIndex.2. 6 = 3 dsx1FracIfIndex.2.18 = 10 + dsx1FracIfIndex.2. 7 = 4 dsx1FracIfIndex.2.19 = 11 + dsx1FracIfIndex.2. 8 = 4 dsx1FracIfIndex.2.20 = 12 + dsx1FracIfIndex.2. 9 = 4 dsx1FracIfIndex.2.21 = 13 + dsx1FracIfIndex.2.10 = 4 dsx1FracIfIndex.2.22 = 14 + dsx1FracIfIndex.2.11 = 4 dsx1FracIfIndex.2.23 = 15 + dsx1FracIfIndex.2.12 = 5 dsx1FracIfIndex.2.24 = 16 + + For North American (DS1) interfaces, there are 24 + legal channels, numbered 1 through 24. + + For G.704 interfaces, there are 31 legal channels, + numbered 1 through 31. The channels (1..31) + correspond directly to the equivalently numbered + time-slots." + ::= { ds1 13 } + +dsx1FracEntry OBJECT-TYPE + SYNTAX Dsx1FracEntry + MAX-ACCESS not-accessible + STATUS deprecated + DESCRIPTION + "An entry in the DS1 Fractional table." + INDEX { dsx1FracIndex, dsx1FracNumber } + ::= { dsx1FracTable 1 } + +Dsx1FracEntry ::= + SEQUENCE { + dsx1FracIndex INTEGER, + dsx1FracNumber INTEGER, + dsx1FracIfIndex INTEGER + } + +dsx1FracIndex OBJECT-TYPE + SYNTAX INTEGER (1..'7fffffff'h) + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS deprecated + DESCRIPTION + "The index value which uniquely identifies the + DS1 interface to which this entry is applicable + The interface identified by a particular + + + +Nicklass Standards Track [Page 57] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + value of this index is the same interface as + identified by the same value an dsx1LineIndex + object instance." + ::= { dsx1FracEntry 1 } + +dsx1FracNumber OBJECT-TYPE + SYNTAX INTEGER (1..31) + MAX-ACCESS read-only -- read-only since originally an + -- SMIv1 index + STATUS deprecated + DESCRIPTION + "The channel number for this entry." + ::= { dsx1FracEntry 2 } + +dsx1FracIfIndex OBJECT-TYPE + SYNTAX INTEGER (0..'7fffffff'h) + MAX-ACCESS read-write + STATUS deprecated + DESCRIPTION + "An index value that uniquely identifies an + interface. The interface identified by a particular + value of this index is the same interface + as identified by the same value an ifIndex + object instance. If no interface is currently using + a channel, the value should be zero. If a + single interface occupies more than one time + slot, that ifIndex value will be found in multiple + time slots." + ::= { dsx1FracEntry 3 } + + -- DS1 TRAPS + +ds1Traps OBJECT IDENTIFIER ::= { ds1 15 } + +dsx1LineStatusChange NOTIFICATION-TYPE + OBJECTS { dsx1LineStatus, + dsx1LineStatusLastChange } + STATUS current + DESCRIPTION + "A dsx1LineStatusChange trap is sent when the + value of an instance dsx1LineStatus changes. It + can be utilized by an NMS to trigger polls. When + the line status change results from a higher level + line status change (i.e., ds3), then no traps for + the ds1 are sent." + ::= { ds1Traps 0 1 } + +-- conformance information + + + +Nicklass Standards Track [Page 58] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +ds1Conformance OBJECT IDENTIFIER ::= { ds1 14 } + +ds1Groups OBJECT IDENTIFIER ::= { ds1Conformance 1 } +ds1Compliances OBJECT IDENTIFIER ::= { ds1Conformance 2 } + +-- compliance statements + +ds1Compliance MODULE-COMPLIANCE + STATUS deprecated + DESCRIPTION + "The compliance statement for T1 and E1 + interfaces." + MODULE -- this module + MANDATORY-GROUPS { ds1NearEndConfigGroup, + ds1NearEndStatisticsGroup } + + GROUP ds1FarEndGroup + DESCRIPTION + "Implementation of this group is optional for all + systems that attach to a DS1 Interface." + + GROUP ds1NearEndOptionalConfigGroup + DESCRIPTION + "Implementation of this group is optional for all + systems that attach to a DS1 Interface." + + GROUP ds1DS2Group + DESCRIPTION + "Implementation of this group is mandatory for all + systems that attach to a DS2 Interface." + + GROUP ds1TransStatsGroup + DESCRIPTION + "This group is the set of statistics appropriate + for all systems which attach to a DS1 Interface + running transparent or unFramed lineType." + + + GROUP ds1ChanMappingGroup + DESCRIPTION + "This group is the set of objects for mapping a + DS3 Channel (dsx1Ds1ChannelNumber) to ifIndex. + Implementation of this group is mandatory for + systems which support the channelization of DS3s + into DS1s." + + OBJECT dsx1LineType + SYNTAX INTEGER { + + + +Nicklass Standards Track [Page 59] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + other(1), + dsx1ESF(2), + dsx1D4(3), + dsx1E1(4), + dsx1E1CRC(5), + dsx1E1MF(6), + dsx1E1CRCMF(7), + dsx1Unframed(8), + dsx1E1Unframed(9), + dsx1DS2M12(10), + dsx1E2(11) + } + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the line type is not + required." + + OBJECT dsx1LineCoding + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the line coding is not + required." + + OBJECT dsx1SendCode + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the send code is not + required." + + OBJECT dsx1LoopbackConfig + MIN-ACCESS read-only + DESCRIPTION + "The ability to set loopbacks is not required." + + OBJECT dsx1SignalMode + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the signal mode is not + required." + + OBJECT dsx1TransmitClockSource + SYNTAX INTEGER { + loopTiming(1), + localTiming(2), + throughTiming(3) + } + MIN-ACCESS read-only + DESCRIPTION + + + +Nicklass Standards Track [Page 60] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + "The ability to set the transmit clock source is + not required." + + OBJECT dsx1Fdl + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the FDL is not required." + + OBJECT dsx1LineLength + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the line length is not + required." + + OBJECT dsx1Channelization + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the channelization is not + required." + + ::= { ds1Compliances 1 } + +ds1MibT1PriCompliance MODULE-COMPLIANCE + STATUS deprecated + DESCRIPTION + "Compliance statement for using this MIB for ISDN + Primary Rate interfaces on T1 lines." + MODULE + MANDATORY-GROUPS { ds1NearEndConfigGroup, + ds1NearEndStatisticsGroup } + OBJECT dsx1LineType + SYNTAX INTEGER { + dsx1ESF(2) -- Intl Spec would be G704(2) + -- or I.431(4) + } + MIN-ACCESS read-only + DESCRIPTION + "Line type for T1 ISDN Primary Rate + interfaces." + + OBJECT dsx1LineCoding + SYNTAX INTEGER { + dsx1B8ZS(2) + } + MIN-ACCESS read-only + DESCRIPTION + "Type of Zero Code Suppression for + T1 ISDN Primary Rate interfaces." + + + +Nicklass Standards Track [Page 61] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + OBJECT dsx1SignalMode + SYNTAX INTEGER { + none(1), -- if there is no signaling channel + messageOriented(4) + } + MIN-ACCESS read-only + DESCRIPTION + "Possible signaling modes for + T1 ISDN Primary Rate interfaces." + + OBJECT dsx1TransmitClockSource + SYNTAX INTEGER { + loopTiming(1) + } + MIN-ACCESS read-only + DESCRIPTION + "The transmit clock is derived from + received clock on ISDN Primary Rate + interfaces." + + OBJECT dsx1Fdl + MIN-ACCESS read-only + DESCRIPTION + "Facilities Data Link usage on T1 ISDN + Primary Rate interfaces. + Note: Eventually dsx1Att-54016(4) is to be + used here since the line type is ESF." + + OBJECT dsx1Channelization + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the channelization + is not required." + ::= { ds1Compliances 2 } + +ds1MibE1PriCompliance MODULE-COMPLIANCE + STATUS deprecated + DESCRIPTION + "Compliance statement for using this MIB for ISDN + Primary Rate interfaces on E1 lines." + MODULE + MANDATORY-GROUPS { ds1NearEndConfigGroup, + ds1NearEndStatisticsGroup } + OBJECT dsx1LineType + SYNTAX INTEGER { + dsx1E1CRC(5) + } + MIN-ACCESS read-only + + + +Nicklass Standards Track [Page 62] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + DESCRIPTION + "Line type for E1 ISDN Primary Rate + interfaces." + + OBJECT dsx1LineCoding + SYNTAX INTEGER { + dsx1HDB3(3) + } + MIN-ACCESS read-only + DESCRIPTION + "Type of Zero Code Suppression for + E1 ISDN Primary Rate interfaces." + + OBJECT dsx1SignalMode + SYNTAX INTEGER { + messageOriented(4) + } + MIN-ACCESS read-only + DESCRIPTION + "Signaling on E1 ISDN Primary Rate interfaces + is always message oriented." + + OBJECT dsx1TransmitClockSource + SYNTAX INTEGER { + loopTiming(1) + } + MIN-ACCESS read-only + DESCRIPTION + "The transmit clock is derived from received + clock on ISDN Primary Rate interfaces." + + OBJECT dsx1Fdl + MIN-ACCESS read-only + DESCRIPTION + "Facilities Data Link usage on E1 ISDN + Primary Rate interfaces. + Note: There is a 'M-Channel' in E1, + using National Bit Sa4 (G704, + Table 4a). It is used to implement + management features between ET + and NT. This is different to + FDL in T1, which is used to carry + control signals and performance + data. In E1, control and status + signals are carried using National + Bits Sa5, Sa6 and A (RAI Ind.). + This indicates that only the other(1) or + eventually the dsx1Fdl-none(8) bits should + + + +Nicklass Standards Track [Page 63] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + be set in this object for E1 PRI." + + OBJECT dsx1Channelization + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the channelization is not + required." + ::= { ds1Compliances 3 } + +ds1Ds2Compliance MODULE-COMPLIANCE + STATUS current + DESCRIPTION + "Compliance statement for using this MIB for DS2 + interfaces." + MODULE + MANDATORY-GROUPS { ds1DS2Group } + + OBJECT dsx1LineType + SYNTAX INTEGER { + dsx1DS2M12(10), + dsx1E2(11) + } + MIN-ACCESS read-only + DESCRIPTION + "Line type for DS2, E2 + interfaces." + + OBJECT dsx1Channelization + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the channelization is not + required." + ::= { ds1Compliances 4 } + +ds1NCompliance MODULE-COMPLIANCE + STATUS current + DESCRIPTION + "The compliance statement for T1 and E1 + interfaces." + MODULE -- this module + MANDATORY-GROUPS { ds1NearEndConfigurationGroup, + ds1NearEndStatisticsGroup } + + GROUP ds1FarEndGroup + DESCRIPTION + "Implementation of this group is optional for all + systems that attach to a DS1 Interface." + + + + +Nicklass Standards Track [Page 64] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + GROUP ds1NearEndOptionalTrapGroup + DESCRIPTION + "Implementation of this group is optional for all + systems that attach to a DS1 Interface. If it is + implemented then ds1NearEndOptionalConfigGroup + should also be implemented." + + GROUP ds1NearEndOptionalConfigGroup + DESCRIPTION + "Implementation of this group is recommended for + all systems that attach to a DS1 Interface and + implement ds1NearEndOptionalTrapGroup." + + GROUP ds1DS2Group + DESCRIPTION + "Implementation of this group is mandatory for all + systems that attach to a DS2 Interface." + + GROUP ds1TransStatsGroup + DESCRIPTION + "This group is the set of statistics appropriate + for all systems which attach to a DS1 Interface + running transparent or unFramed lineType." + + GROUP ds1ChanMappingGroup + DESCRIPTION + "This group is the set of objects for mapping a + DS3 Channel (dsx1Ds1ChannelNumber) to ifIndex. + Implementation of this group is mandatory for + systems which support the channelization of DS3s + into DS1s." + + OBJECT dsx1LineType + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the line type is not + required." + + OBJECT dsx1LineCoding + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the line coding is not + required." + + OBJECT dsx1SendCode + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the send code is not + + + +Nicklass Standards Track [Page 65] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + required." + + OBJECT dsx1LoopbackConfig + MIN-ACCESS read-only + DESCRIPTION + "The ability to set loopbacks is not required." + + OBJECT dsx1SignalMode + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the signal mode is not + required." + + OBJECT dsx1TransmitClockSource + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the transmit clock source is + not required." + + OBJECT dsx1Fdl + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the FDL is not required." + + OBJECT dsx1LineLength + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the line length is not + required." + + OBJECT dsx1Channelization + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the channelization is not + required." + + OBJECT dsx1LineMode + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the Line Mode is not + required." + + OBJECT dsx1LineBuildOut + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the Line build out is not + required." + ::= { ds1Compliances 5 } + + + +Nicklass Standards Track [Page 66] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +ds1MibT1PriNCompliance MODULE-COMPLIANCE + STATUS current + DESCRIPTION + "Compliance statement for using this MIB for ISDN + Primary Rate interfaces on T1 lines." + MODULE + MANDATORY-GROUPS { ds1NearEndConfigurationGroup, + ds1NearEndStatisticsGroup } + + OBJECT dsx1LineType + SYNTAX INTEGER { + dsx1ESF(2) -- Intl Spec would be G704(2) + -- or I.431(4) + } + MIN-ACCESS read-only + DESCRIPTION + "Line type for T1 ISDN Primary Rate + interfaces." + + OBJECT dsx1LineCoding + SYNTAX INTEGER { + dsx1B8ZS(2) + } + MIN-ACCESS read-only + DESCRIPTION + "Type of Zero Code Suppression for + T1 ISDN Primary Rate interfaces." + + OBJECT dsx1SignalMode + SYNTAX INTEGER { + none(1), -- if there is no signaling channel + messageOriented(4) + } + MIN-ACCESS read-only + DESCRIPTION + "Possible signaling modes for + T1 ISDN Primary Rate interfaces." + + OBJECT dsx1TransmitClockSource + SYNTAX INTEGER { + loopTiming(1) + } + MIN-ACCESS read-only + DESCRIPTION + "The transmit clock is derived from + received clock on ISDN Primary Rate + interfaces." + + + + +Nicklass Standards Track [Page 67] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + OBJECT dsx1Fdl + MIN-ACCESS read-only + DESCRIPTION + "Facilities Data Link usage on T1 ISDN + Primary Rate interfaces. + Note: Eventually dsx1Att-54016(4) is to be + used here since the line type is ESF." + + OBJECT dsx1Channelization + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the channelization + is not required." + + OBJECT dsx1LineMode + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the Line Mode is not + required." + + OBJECT dsx1LineBuildOut + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the Line build out is not + required." + ::= { ds1Compliances 6 } + +ds1MibE1PriNCompliance MODULE-COMPLIANCE + STATUS current + DESCRIPTION + "Compliance statement for using this MIB for ISDN + Primary Rate interfaces on E1 lines." + MODULE + MANDATORY-GROUPS { ds1NearEndConfigurationGroup, + ds1NearEndStatisticsGroup } + + OBJECT dsx1LineType + SYNTAX INTEGER { + dsx1E1CRC(5) + } + MIN-ACCESS read-only + DESCRIPTION + "Line type for E1 ISDN Primary Rate + interfaces." + + OBJECT dsx1LineCoding + SYNTAX INTEGER { + dsx1HDB3(3) + + + +Nicklass Standards Track [Page 68] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + } + MIN-ACCESS read-only + DESCRIPTION + "Type of Zero Code Suppression for + E1 ISDN Primary Rate interfaces." + + OBJECT dsx1SignalMode + SYNTAX INTEGER { + messageOriented(4) + } + MIN-ACCESS read-only + DESCRIPTION + "Signaling on E1 ISDN Primary Rate interfaces + is always message oriented." + + OBJECT dsx1TransmitClockSource + SYNTAX INTEGER { + loopTiming(1) + } + MIN-ACCESS read-only + DESCRIPTION + "The transmit clock is derived from received + clock on ISDN Primary Rate interfaces." + + OBJECT dsx1Fdl + MIN-ACCESS read-only + DESCRIPTION + "Facilities Data Link usage on E1 ISDN + Primary Rate interfaces. + Note: There is a 'M-Channel' in E1, + using National Bit Sa4 (G704, + Table 4a). It is used to implement + management features between ET + and NT. This is different to + FDL in T1, which is used to carry + control signals and performance + data. In E1, control and status + signals are carried using National + Bits Sa5, Sa6 and A (RAI Ind.). + This indicates that only the other(1) or + eventually the dsx1Fdl-none(8) bits should + be set in this object for E1 PRI." + + OBJECT dsx1Channelization + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the channelization is not + required." + + + +Nicklass Standards Track [Page 69] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + OBJECT dsx1LineMode + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the Line Mode is not required." + + OBJECT dsx1LineBuildOut + MIN-ACCESS read-only + DESCRIPTION + "The ability to set the Line build out is not + required." + ::= { ds1Compliances 7 } + +-- units of conformance + +ds1NearEndConfigGroup OBJECT-GROUP + OBJECTS { dsx1LineIndex, + dsx1TimeElapsed, + dsx1ValidIntervals, + dsx1LineType, + dsx1LineCoding, + dsx1SendCode, + dsx1CircuitIdentifier, + dsx1LoopbackConfig, + dsx1LineStatus, + dsx1SignalMode, + dsx1TransmitClockSource, + dsx1Fdl, + dsx1InvalidIntervals, + dsx1LineLength, + dsx1LoopbackStatus, + dsx1Ds1ChannelNumber, + dsx1Channelization } + STATUS deprecated + DESCRIPTION + "A collection of objects providing configuration + information applicable to all DS1 interfaces." + ::= { ds1Groups 1 } + +ds1NearEndStatisticsGroup OBJECT-GROUP + OBJECTS { dsx1CurrentIndex, + dsx1CurrentESs, + dsx1CurrentSESs, + dsx1CurrentSEFSs, + dsx1CurrentUASs, + dsx1CurrentCSSs, + dsx1CurrentPCVs, + dsx1CurrentLESs, + dsx1CurrentBESs, + + + +Nicklass Standards Track [Page 70] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + dsx1CurrentDMs, + dsx1CurrentLCVs, + dsx1IntervalIndex, + dsx1IntervalNumber, + dsx1IntervalESs, + dsx1IntervalSESs, + dsx1IntervalSEFSs, + dsx1IntervalUASs, + dsx1IntervalCSSs, + dsx1IntervalPCVs, + dsx1IntervalLESs, + dsx1IntervalBESs, + dsx1IntervalDMs, + dsx1IntervalLCVs, + dsx1IntervalValidData, + dsx1TotalIndex, + dsx1TotalESs, + dsx1TotalSESs, + dsx1TotalSEFSs, + dsx1TotalUASs, + dsx1TotalCSSs, + dsx1TotalPCVs, + dsx1TotalLESs, + dsx1TotalBESs, + dsx1TotalDMs, + dsx1TotalLCVs } + STATUS current + DESCRIPTION + "A collection of objects providing statistics + information applicable to all DS1 interfaces." + ::= { ds1Groups 2 } + +ds1FarEndGroup OBJECT-GROUP + OBJECTS { dsx1FarEndCurrentIndex, + dsx1FarEndTimeElapsed, + dsx1FarEndValidIntervals, + dsx1FarEndCurrentESs, + dsx1FarEndCurrentSESs, + dsx1FarEndCurrentSEFSs, + dsx1FarEndCurrentUASs, + dsx1FarEndCurrentCSSs, + dsx1FarEndCurrentLESs, + dsx1FarEndCurrentPCVs, + dsx1FarEndCurrentBESs, + dsx1FarEndCurrentDMs, + dsx1FarEndInvalidIntervals, + dsx1FarEndIntervalIndex, + dsx1FarEndIntervalNumber, + + + +Nicklass Standards Track [Page 71] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + dsx1FarEndIntervalESs, + dsx1FarEndIntervalSESs, + dsx1FarEndIntervalSEFSs, + dsx1FarEndIntervalUASs, + dsx1FarEndIntervalCSSs, + dsx1FarEndIntervalLESs, + dsx1FarEndIntervalPCVs, + dsx1FarEndIntervalBESs, + dsx1FarEndIntervalDMs, + dsx1FarEndIntervalValidData, + dsx1FarEndTotalIndex, + dsx1FarEndTotalESs, + dsx1FarEndTotalSESs, + dsx1FarEndTotalSEFSs, + dsx1FarEndTotalUASs, + dsx1FarEndTotalCSSs, + dsx1FarEndTotalLESs, + dsx1FarEndTotalPCVs, + dsx1FarEndTotalBESs, + dsx1FarEndTotalDMs } + STATUS current + DESCRIPTION + "A collection of objects providing remote + configuration and statistics information." + ::= { ds1Groups 3 } + +ds1DeprecatedGroup OBJECT-GROUP + OBJECTS { dsx1IfIndex, + dsx1FracIndex, + dsx1FracNumber, + dsx1FracIfIndex } + STATUS deprecated + DESCRIPTION + "A collection of obsolete objects that may be + implemented for backwards compatibility." + ::= { ds1Groups 4 } + +ds1NearEndOptionalConfigGroup OBJECT-GROUP + OBJECTS { dsx1LineStatusLastChange, + dsx1LineStatusChangeTrapEnable } + STATUS current + DESCRIPTION + "A collection of objects that may be implemented + on DS1 and DS2 interfaces." + ::= { ds1Groups 5 } + +ds1DS2Group OBJECT-GROUP + OBJECTS { dsx1LineIndex, + + + +Nicklass Standards Track [Page 72] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + dsx1LineType, + dsx1LineCoding, + dsx1SendCode, + dsx1LineStatus, + dsx1SignalMode, + dsx1TransmitClockSource, + dsx1Channelization } + STATUS current + DESCRIPTION + "A collection of objects providing information + about DS2 (6,312 kbps) and E2 (8,448 kbps) + systems." + ::= { ds1Groups 6 } + +ds1TransStatsGroup OBJECT-GROUP + OBJECTS { dsx1CurrentESs, + dsx1CurrentSESs, + dsx1CurrentUASs, + dsx1IntervalESs, + dsx1IntervalSESs, + dsx1IntervalUASs, + dsx1TotalESs, + dsx1TotalSESs, + dsx1TotalUASs } + STATUS current + DESCRIPTION + "A collection of objects which are the + statistics which can be collected from a ds1 + interface that is running transparent or unframed + lineType. Statistics not in this list should + return noSuchInstance." + ::= { ds1Groups 7 } + +ds1NearEndOptionalTrapGroup NOTIFICATION-GROUP + NOTIFICATIONS { dsx1LineStatusChange } + STATUS current + DESCRIPTION + "A collection of notifications that may be + implemented on DS1 and DS2 interfaces." + ::= { ds1Groups 8 } + +ds1ChanMappingGroup OBJECT-GROUP + OBJECTS { dsx1ChanMappedIfIndex } + STATUS current + DESCRIPTION + "A collection of objects that give an mapping of + DS3 Channel (dsx1Ds1ChannelNumber) to ifIndex." + ::= { ds1Groups 9 } + + + +Nicklass Standards Track [Page 73] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +ds1NearEndConfigurationGroup OBJECT-GROUP + OBJECTS { dsx1LineIndex, + dsx1TimeElapsed, + dsx1ValidIntervals, + dsx1LineType, + dsx1LineCoding, + dsx1SendCode, + dsx1CircuitIdentifier, + dsx1LoopbackConfig, + dsx1LineStatus, + dsx1SignalMode, + dsx1TransmitClockSource, + dsx1Fdl, + dsx1InvalidIntervals, + dsx1LineLength, + dsx1LoopbackStatus, + dsx1Ds1ChannelNumber, + dsx1Channelization, + dsx1LineMode, + dsx1LineBuildOut } + STATUS current + DESCRIPTION + "A collection of objects providing configuration + information applicable to all DS1 interfaces." + ::= { ds1Groups 10 } + +END + +4. Acknowledgments + + This document was produced by the AToM MIB Working Group. The Editor + would like to dedicate a special thanks to C. Mike Heard for + providing a top notch doctor review and many helpful suggestions, and + to acknowledge D. Fowler, Editor of RFC 2495, F. Baker and J. Watt + Editors of RFC 1406. + +5. Security Considerations + + There are a number of management objects defined in this MIB module + with a MAX-ACCESS clause of read-write. Such objects may be + considered sensitive or vulnerable in some network environments. The + support for SET operations in a non-secure environment without proper + protection can have a negative effect on network operations. The + specific objects and their sensitivities/vulnerabilities are as + follows. + + + + + + +Nicklass Standards Track [Page 74] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + Setting the following objects to incorrect values may result in + traffic interruptions: + + dsx1LineType + dsx1LineCoding + dsx1SendCode + dsx1LoopbackConfig + dsx1SignalMode + dsx1TransmitClockSource + dsx1Fdl + dsx1LineLength + dsx1Channelization + dsx1LineMode + dsx1LineBuildOut + + In the case of dsx1LineType, for example, both ends of a DS1/E1 must + have the same value in order for traffic to flow. In the case of + dsx1SendCode and dsx1LoopbackConfig, for another example, traffic may + stop transmitting when particular loopbacks are applied. + + Setting the following object to an incorrect value will not harm the + traffic, but it may cause a circuit to be mis-identified and thereby + create difficulties for service personnel when attempting to + troubleshoot a problem: + + dsx1CircuitIdentifier + + Setting the following object can cause an increase in the number of + traps received by the network management station: + + dsx1LineStatusChangeTrapEnable + + The readable objects in this MIB module (i.e., the objects with a + MAX-ACCESS other than not-accessible) may be considered sensitive in + some environments since, collectively, they provide extensive + information about the performance of interfaces in DS1/E1/DS2/E2 + equipment or networks and can reveal some aspects of their + configuration. In such environments, it is important to control even + GET and NOTIFY access to these objects and possibly to encrypt the + values of these objects when sending them over the network via SNMP. + + SNMP versions prior to SNMPv3 did not include adequate security. + Even if the network itself is secure (for example by using IPSec), + even then, there is no control as to who on the secure network is + allowed to access and GET/SET (read/change/create/delete) the objects + in this MIB module. + + + + + +Nicklass Standards Track [Page 75] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + It is RECOMMENDED that implementers consider the security features as + provided by the SNMPv3 framework (see [RFC3410], section 8), + including full support for the SNMPv3 cryptographic mechanisms (for + authentication and privacy). + + Further, deployment of SNMP versions prior to SNMPv3 is NOT + RECOMMENDED. Instead, it is RECOMMENDED to deploy SNMPv3 and to + enable cryptographic security. It is then a customer/operator + responsibility to ensure that the SNMP entity giving access to an + instance of this MIB module is properly configured to give access to + the objects only to those principals (users) that have legitimate + rights to indeed GET or SET (change/create/delete) them. + +6. References + +6.1. Normative References + + [RFC2578] McCloghrie, K., Perkins, D., and J. Schoenwaelder, + "Structure of Management Information Version 2 + (SMIv2)", STD 58, RFC 2578, April 1999. + + [RFC2579] McCloghrie, K., Perkins, D., and J. Schoenwaelder, + "Textual Conventions for SMIv2", STD 58, RFC 2579, + April 1999. + + [RFC2580] McCloghrie, K., Perkins, D., and J. Schoenwaelder, + "Conformance Statements for SMIv2", STD 58, RFC 2580, + April 1999. + + [RFC2863] McCloghrie, K. and F. Kastenholz, "The Interfaces + Group MIB", RFC 2863, June 2000. + + [AT&T-TR-54016] AT&T Technical Reference, Requirements for + Interfacing Digital Terminal Equipment to Services + Employing the Extended Superframe Format, Publication + 54016, May 1988. + + [ANSI-T1.403] American National Standard for Telecommunications -- + Carrier-to-Customer Installation - DS1 Metallic + Interface, T1.403, February 1989. + + [CCITT-G.703] CCITT Specifications Volume III, Recommendation + G.703, Physical/Electrical Characteristics of + Hierarchical Digital Interfaces, April 1991. + + [ITU-T-G.704] ITU-T G.704: Synchronous frame structures used at + 1544, 6312, 2048, 8488 and 44 736 kbit/s Hierarchical + Levels, July 1995. + + + +Nicklass Standards Track [Page 76] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + [ANSI-T1.231] American National Standard for Telecommunications -- + Digital Hierarchy -- Layer 1 In-Service Digital + Transmission Performance Monitoring, T1.231, Sept + 1993. + + [CCITT-O.162] CCITT Specifications Volume IV, Recommendation O.162, + Equipment To Perform In Service Monitoring On 2048 + kbit/s Signals, July 1988. + + [CCITT-G.821] CCITT Specifications Volume III, Recommendation + G.821, Error Performance Of An International Digital + Connection Forming Part Of An Integrated Services + Digital Network, July 1988. + + [AT&T-TR-62411] AT&T Technical Reference, Technical Reference 62411, + ACCUNET T1.5 Service Description And Interface + Specification, December 1990. + + [CCITT-G.706] CCITT Specifications Volume III, Recommendation + G.706, Frame Alignment and Cyclic Redundancy Check + (CRC) Procedures Relating to Basic Frame Structures + Defined in Recommendation G.704, July 1988. + + [CCITT-G.732] CCITT Specifications Volume III, Recommendation + G.732, Characteristics Of Primary PCM Multiplex + Equipment Operating at 2048 kbit/s, July 1988. + + [ITU-T-G.775] ITU-T G.775: Loss of signal (LOS) and alarm + indication signal (AIS) defect detection and + clearance criteria, May 1995. + + [ITU-T-G.826] ITU-T G.826: Error performance parameters and + objectives for international, constant bit rate + digital paths at or above the primary rate, November + 1993. + + [ANSI-T1.107] American National Standard for Telecommunications -- + Digital Hierarchy - Format Specifications, T1.107, + August 1988. + + [RFC3593] Tesink, K., Ed., "Textual Conventions for MIB Modules + Using Performance History Based on 15 Minute + Intervals", RFC 3593, September 2003. + + [ITU-T-M.1400] ITU-T M.1400: Designation For Interconnections Among + Network Operators, October 2001. + + + + + +Nicklass Standards Track [Page 77] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +6.2. Informative References + + [RFC1213] McCloghrie, K. and M. Rose, "Management Information + Base for Network Management of TCP/IP-based + internets: MIB-II", STD 17, RFC 1213, March 1991. + + [RFC2494] Fowler, D., "Definitions of Managed Objects for the + DS0 and DS0 Bundle Interface Type", RFC 2494, January + 1999. + + [RFC2495] Fowler, D., Ed., "Definitions of Managed Objects for + the DS1, E1, DS2 and E1 Interface Types", RFC 2495, + January 1999. + + [RFC1406] Baker, F. and J. Watt, Eds., "Definitions of Managed + Objects for the DS1 and E1 Interface Types", RFC + 1406, January 1993. + + [AT&T-UM-305] AT&T Information Systems, AT&T ESF DS1 Channel + Service Unit User's Manual, 999-100-305, February + 1988. + + [RFC3410] Case, J., Mundy, R., Partain, D., and B. Stewart, + "Introduction and Applicability Statements for + Internet-Standard Management Framework", RFC 3410, + December 2002. + + [RFC3592] Tesink, K., "Definitions of Managed Objects for the + Synchronous Optical Network/Synchronous Digital + Hierarchy (SONET/SDH) Interface Type", RFC 3592, + September 2003. + + [RFC3896] Nicklass, O., Ed., "Definitions of Managed Objects + for the DS3/E3 Interface Types", RFC 3896, September + 2004. + + + + + + + + + + + + + + + + +Nicklass Standards Track [Page 78] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +Appendix A - Use of dsx1IfIndex and dsx1LineIndex + + This Appendix exists to document the previous use if dsx1IfIndex and + dsx1LineIndex and to clarify the relationship of dsx1LineIndex as + defined in RFC 1406 with the dsx1LineIndex as defined in this + document. + + The following shows the old and new definitions and the relationship: + + [New Definition]: "This object should be made equal to ifIndex. The + next paragraph describes its previous usage. Making the object equal + to ifIndex allows proper use of ifStackTable and ds0/ds0bundle mibs. + + [Old Definition]: "This object is the identifier of a DS1 Interface + on a managed device. If there is an ifEntry that is directly + associated with this and only this DS1 interface, it should have the + same value as ifIndex. Otherwise, number the dsx1LineIndices with an + unique identifier following the rules of choosing a number that is + greater than ifNumber and numbering the inside interfaces (e.g., + equipment side) with even numbers and outside interfaces (e.g., + network side) with odd numbers." + + When the "Old Definition" was created, it was described this way to + allow a manager to treat the value _as if_ it were and ifIndex, i.e., + the value would either be: 1) an ifIndex value or 2) a value that was + guaranteed to be different from all valid ifIndex values. + + The new definition is a subset of that definition, i.e., the value is + always an ifIndex value. + + The following is Section 3.1 from RFC 1406: + + Different physical configurations for the support of SNMP with DS1 + equipment exist. To accommodate these scenarios, two different + indices for DS1 interfaces are introduced in this MIB. These indices + are dsx1IfIndex and dsx1LineIndex. + + External interface scenario: the SNMP Agent represents all managed + DS1 lines as external interfaces (for example, an Agent residing on + the device supporting DS1 interfaces directly): + + For this scenario, all interfaces are assigned an integer value equal + to ifIndex, and the following applies: + + ifIndex=dsx1IfIndex=dsx1LineIndex for all interfaces. + + + + + + +Nicklass Standards Track [Page 79] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + The dsx1IfIndex column of the DS1 Configuration table relates each + DS1 interface to its corresponding interface (ifIndex) in the + Internet-standard MIB (MIB-II STD 17, RFC 1213) [RFC1213]. + + External&Internal interface scenario: the SNMP Agents resides on an + host external from the device supporting DS1 interfaces (e.g., a + router). The Agent represents both the host and the DS1 device. The + index dsx1LineIndex is used to not only represent the DS1 interfaces + external from the host/DS1-device combination, but also the DS1 + interfaces connecting the host and the DS1 device. The index + dsx1IfIndex is always equal to ifIndex. + + Example: + + A shelf full of CSUs connected to a Router. An SNMP Agent residing + on the router proxies for itself and the CSU. The router has also an + Ethernet interface: + + +-----+ + | | | + | | | +---------------------+ + |E | | 1.544 MBPS | Line#A | DS1 Link + |t | R |---------------+ - - - - - - - - - +------> + |h | | | | + |e | O | 1.544 MBPS | Line#B | DS1 Link + |r | |---------------+ - - - - - - - - - - +------> + |n | U | | CSU Shelf | + |e | | 1.544 MBPS | Line#C | DS1 Link + |t | T |---------------+ - - - -- -- - - - - +------> + | | | | | + |-----| E | 1.544 MBPS | Line#D | DS1 Link + | | |---------------+ - - - - -- - - - - +------> + | | R | |_____________________| + | | | + | +-----+ + + The assignment of the index values could for example be: + + ifIndex (= dsx1IfIndex) dsx1LineIndex + 1 NA NA (Ethernet) + 2 Line#A Router Side 6 + 2 Line#A Network Side 7 + 3 Line#B Router Side 8 + 3 Line#B Network Side 9 + 4 Line#C Router Side 10 + 4 Line#C Network Side 11 + 5 Line#D Router Side 12 + 5 Line#D Network Side 13 + + + +Nicklass Standards Track [Page 80] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + + For this example, ifNumber is equal to 5. Note the following + description of dsx1LineIndex: the dsx1LineIndex identifies a DS1 + Interface on a managed device. If there is an ifEntry that is + directly associated with this and only this DS1 interface, it should + have the same value as ifIndex. Otherwise, number the + dsx1LineIndices with an unique identifier following the rules of + choosing a number greater than ifNumber and numbering inside + interfaces (e.g., equipment side) with even numbers and outside + interfaces (e.g., network side) with odd numbers. + + If the CSU shelf is managed by itself by a local SNMP Agent, the + situation would be: + + ifIndex (= dsx1IfIndex) dsx1LineIndex + 1 Line#A Network Side 1 + 2 Line#A RouterSide 2 + 3 Line#B Network Side 3 + 4 Line#B RouterSide 4 + 5 Line#C Network Side 5 + 6 Line#C Router Side 6 + 7 Line#D Network Side 7 + 8 Line#D Router Side 8 + +Appendix B - The delay approach to Unavailable Seconds. + + This procedure is illustrated below for a DS1 ESF interface. Similar + rules would apply for other DS1, DS2, and E1 interface variants. The + procedure guarantees that the statistical counters are correctly + updated at all times, although they lag real time by 10 seconds. At + the end of each 15 minutes interval the current interval counts are + transferred to the most recent interval entry and each interval is + shifted up by one position, with the oldest being discarded if + necessary in order to make room. The current interval counts then + start over from zero. Note, however, that the signal state + calculation does not start afresh at each interval boundary; rather, + signal state information is retained across interval boundaries. + + + + + + + + + + + + + + + +Nicklass Standards Track [Page 81] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + ++---------------------------------------------------------------------+ +| READ COUNTERS & STATUS INFO FROM HARDWARE | +| | +| BPV EXZ LOS FE CRC CS AIS SEF OOF LOF RAI G1-G6 SE FE LV SL | ++---------------------------------------------------------------------+ + | | | | | | | | | | | | | | | | + | | | | | | | | | | | | | | | | + V V V V V V V V V V V V V V V V ++---------------------------------------------------------------------+ +| ACCUM ONE-SEC STATS, CHK ERR THRESHOLDS, & UPDT SIGNAL STATE | +| | +| |<---------- NEAR END ----------->| |<-------- FAR END ------>| | +| | +| LCV LES PCV ES CSS BES SES SEFS A/U PCV ES CSS BES SES SEFS A/U | ++---------------------------------------------------------------------+ + | | | | | | | | | | | | | | | | + | | | | | | | | | | | | | | | | + V V V V V V V V | V V V V V V | + +------------------------------+ | +----------------------+ | + | ONE-SEC DELAY | | | ONE-SEC DELAY | | + | (1 OF 10) | | | (1 OF 10) | | + +------------------------------+ | +----------------------+ | + | | | | | | | | | | | | | | | | + / / / / / / / / / / / / / / / / + | | | | | | | | | | | | | | | | + V V V V V V V V | V V V V V V | + +------------------------------+ | +----------------------+ | + | ONE-SEC DELAY | | | ONE-SEC DELAY | | + | (10 OF 10) | | | (10 OF 10) | | + +------------------------------+ | +----------------------+ | + | | | | | | | | | | | | | | | | + V V V V V V V V V V V V V V V V ++---------------------------------------------------------------------+ +| UPDATE STATISTICS COUNTERS | +| | +|<-------------- NEAR END ----------->| |<--------- FAR END---------> | +| | +|LCV LES PCV ES CSS BES SES SEFS UAS DM PCV ES CSS BES SES SEFS UAS DM| ++---------------------------------------------------------------------+ + + Note that if such a procedure is adopted there is no current interval + data for the first ten seconds after a system comes up. + noSuchInstance must be returned if a management station attempts to + access the current interval counters during this time. + + It is an implementation-specific matter whether an agent assumes that + the initial state of the interface is available or unavailable. + + + + +Nicklass Standards Track [Page 82] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +Author's Address + + Orly Nicklass (editor) + RAD Data Communications, Ltd. + Ziv Tower, 24 Roul Walenberg + Tel Aviv, Israel, 69719 + + Phone: 9723-765-9969 + EMail: orly_n@rad.com + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Nicklass Standards Track [Page 83] + +RFC 3895 DS1/E1/DS2/E2 MIB September 2004 + + +Full Copyright Statement + + Copyright (C) The Internet Society (2004). 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Information + on the procedures with respect to rights in RFC documents can be + found in BCP 78 and BCP 79. + + Copies of IPR disclosures made to the IETF Secretariat and any + assurances of licenses to be made available, or the result of an + attempt made to obtain a general license or permission for the use of + such proprietary rights by implementers or users of this + specification can be obtained from the IETF on-line IPR repository at + http://www.ietf.org/ipr. + + The IETF invites any interested party to bring to its attention any + copyrights, patents or patent applications, or other proprietary + rights that may cover technology that may be required to implement + this standard. Please address the information to the IETF at ietf- + ipr@ietf.org. + +Acknowledgement + + Funding for the RFC Editor function is currently provided by the + Internet Society. + + + + + + + + + +Nicklass Standards Track [Page 84] + |