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|
Network Working Group O. Nicklass, Ed.
Request for Comments: 4805 RAD Data Communications, Ltd.
Obsoletes: 3895 March 2007
Category: Standards Track
Definitions of Managed Objects
for the DS1, J1, 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 IETF Trust (2007).
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, J1, 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 3895.
Nicklass, Ed. Standards Track [Page 1]
^L
RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
Table of Contents
1. The Internet-Standard Management Framework ......................2
2. Conventions Used in This Document ...............................3
3. Overview ........................................................3
3.1. Use of ifTable for DS1 Layer ...............................4
3.2. Usage Guidelines ...........................................5
3.2.1. Usage of ifStackTable for Routers and DSUs ..........5
3.2.2. Usage of ifStackTable for DS1/J1/E1 on DS2/E2 .......7
3.2.3. Usage of Channelization for DS3, DS1, DS0 ...........8
3.2.4. Usage of Channelization for DS3, DS2, DS1 ...........9
3.2.5. Usage of Loopbacks .................................10
3.3. Objectives of This MIB Module .............................10
3.4. DS1 Terminology ...........................................11
3.4.1. Error Events .......................................11
3.4.2. Performance Defects ................................12
3.4.3. Performance Parameters .............................13
3.4.4. Failure States .....................................17
3.4.5. Other Terms ........................................20
4. Object Definitions .............................................20
5. Security Considerations ........................................83
6. Acknowledgments ................................................84
7. References .....................................................84
7.1. Normative References ......................................84
7.2. Informative References ....................................86
Appendix A - Use of dsx1IfIndex and dsx1LineIndex .................88
Appendix B - The Delay Approach to Unavailable Seconds ............90
Appendix C - Changes from Previous Versions .......................92
C.1. Changes from RFC 3895 .....................................92
C.2. Changes from RFC 2495 .....................................92
C.3. Changes from RFC 1406 .....................................92
C.4. Companion Documents .......................................93
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, Ed. Standards Track [Page 2]
^L
RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
2. Conventions Used in This Document
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC 2119 [RFC2119].
3. Overview
These objects are used when the particular media being used to
realize an interface is a DS1/J1/E1/DS2/E2 interface. At present,
this applies to the following value of the ifType variable in the
Internet-standard MIB:
ds1 (18)
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
specifications [ANSI-T1.403], and the CCITT Recommendations
[CCITT-G.703], [ITU-T-G.704], referred to as E1 for the rest of this
memo. J1 refers to the definition presented in [JT-G704], [JT-G706],
and [JT-I431].
The various DS1, J1, 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, or Yellow Alarm
generation and detection are a bit different between T1 and J1 but in
both examples, there is definition in both related lines. Therefore,
interface types e1(19) and g703at2mb(67) have been obsoleted and
there is also no need for special type for J1.
Where it is necessary to distinguish between the flavors of E1 with
and without Cyclic Redundancy Check (CRC), E1-CRC denotes the "with
CRC" form (G.704 Table 5B) and E1-noCRC denotes the "without CRC"
form (G.704 Table 5A).
Nicklass, Ed. Standards Track [Page 3]
^L
RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
3.1. 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
J1 - 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].
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.
Nicklass, Ed. Standards Track [Page 4]
^L
RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
3.2. Usage Guidelines
3.2.1. 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
Channel Service Units (CSUs). This section now describes how to use
the 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, i.e., 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 High-Level Data Link Control (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 and 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, Ed. Standards Track [Page 5]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 as follows:
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, Ed. Standards Track [Page 6]
^L
RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 four 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
3.2.2. Usage of ifStackTable for DS1/J1/E1 on DS2/E2
An example is given of how DS1/J1/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, Ed. Standards Track [Page 7]
^L
RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
3.2.3. 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 implementer 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, Ed. Standards Track [Page 8]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
dsx0ChanMappingTable Entries
ifIndex dsx0Ds0ChannelNumber dsx0ChanMappedIfIndex
2 1 30
2 2 31
......
2 24 53
3.2.4. 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 implementer 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, Ed. Standards Track [Page 9]
^L
RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
3.2.5. Usage of Loopbacks
This section discusses the behavior 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 Facility
Data Link (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 object, which is a bitmap, will have bits
turned on that 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.
3.3. Objectives of This MIB Module
There are numerous things that could be included in a MIB for DS1
signals: the management of multiplexers, CSUs, Data Service Units
(DSUs), and the like. The intent of this document is to facilitate
the common management of all devices with DS1, J1, E1, DS2, or E2
interfaces. As such, a design decision was made up front to very
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closely align the MIB with the set of objects that can generally be
read from these types of devices that are currently deployed.
J2 interfaces are not supported by this MIB.
3.4. 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 latest
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.
3.4.1. Error Events
Bipolar Violation (BPV) Error Event
A BPV error event for an AMI-coded (AMI stands for Alternate Mark
Inversion) signal is the occurrence of a pulse of the same
polarity as the previous pulse (see T1.231, Section 4.2.1.1.1). 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 4.2.1.1.2). 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 4.6.1.1.)
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 4.6.2.1.)
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 4.2.1.2.3). A Controlled
Slip may be performed when there is a difference between the
timing of a synchronous receiving terminal and the received
signal. A Controlled Slip does not cause an Out of Frame defect.
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3.4.2. 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 4.2.2.2.1).
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 seven or
more consecutive errored framing patterns (four multiframe) are
received. The OOF is cleared when three 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 a 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).
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 [ITU-T-O.162], Section 3.3.2).
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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
or less zeroes in a sequence of 3156 bits (0.5 ms).
- a DS2 AIS defect is cleared when the incoming signal has three
or more zeroes in a sequence of 3156 bits (0.5 ms).
3.4.3. Performance Parameters
All performance parameters are accumulated in 15-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 a fixed relationship
between the start of a 15-minute interval and any wall clock;
however, some agents may align the 15-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
occur across a 15-minute interval boundary. See Unavailable Second
discussion later in this section.
Line Errored Second (LES)
A Line Errored Second is a second in which one or more Line Coding
Violation error events were detected. (Also known as ES-L; see
T1.231, Section 4.6.1.2.)
Controlled Slip Second (CSS)
A Controlled Slip Second is a one-second interval containing one
or more controlled slips (see T1.231, Section 4.6.2.9). This is
not incremented during an Unavailable Second.
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Errored Second (ES)
For ESF and E1-CRC links, an Errored Second is a second with one
or more Path Coding Violations OR one or more Out of Frame defects
OR one or more Controlled Slip events OR a detected AIS defect.
(See T1.231, Section 4.6.2.2 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 Second (BES)
A Bursty Errored Second (also known as Errored Second type B in
T1.231, Section 4.6.2.4) 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 Second (SES)
A Severely Errored Second for ESF signals is a second with 320 or
more Path Coding Violation error events OR one or more Out of
Frame defects OR a detected AIS defect (see T1.231, Section
4.6.2.5).
For E1-CRC signals, a Severely Errored Second is a second with 832
or more Path Coding Violation error events OR one or more Out of
Frame defects.
For E1-noCRC signals, a Severely Errored Second is 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 4.6.2.6.)
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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 that are not Unavailable as described
below.
Unavailable Second (UAS)
Unavailable Seconds (UASs) 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 10-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 900-second statistics window boundary,
as the foregoing description implies that the ES, BES, SES, SEFS,
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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
that 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.
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3.4.4. 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 and J1 cases, "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 five seconds.
The Far End Alarm failure is not declared for D4 links when a Loss
of Signal is detected. In J1 the 12th F-bit is set to 1.
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 DS1 the patterns is FF00 and for J1
the pattern is FFFF.
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 16-bit 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.
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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 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
4.3.1.2.2).
An AIS defect at a 6312-kbit/s (G.704) interface is detected when
the incoming signal has two or less zeroes in a sequence of 3156
bits (0.5ms).
The AIS signal defect is cleared when the incoming signal has
three {3} or more zeroes in a sequence of 3156 bits (0.5ms).
Loss Of Frame (LOF) 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 (LOS) 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.
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A signal with "transitions" corresponds to a G.703-compliant
signal.
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 failure is declared when the incoming signal
of the 6,312-kbps frame payload (time-slots 1 through 96) has two
or less zeroes 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 three or more zeroes in a sequence of 3072 bits
(0.5 ms).
DS2 Performance Threshold Failure
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 declared when the bit
error ratio exceeds 10^-4 (Performance Threshold), and the DS2
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Performance Threshold failure is cleared when the bit error ratio
decreases to less than 10^-6."
3.4.5. 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 that receives SNMP messages and replies to them on
behalf of the devices that implement the actual DS1/E1 interfaces.
The proxy may have already collected the information about the
DS1/J1/E1 interfaces into its local database and may not
necessarily forward the requests to the actual DS1/J1/E1
interface. It is expected in such an application that there are
periods of time where the proxy is not communicating with the
DS1/J1/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.
4. 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 "200703050000Z"
ORGANIZATION "IETF AToM MIB Working Group"
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CONTACT-INFO
"WG charter:
http://www.ietf.org/html.charters/atommib-charter.html
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, J1, E1, DS2, and
E2 interfaces objects.
Copyright (c) The IETF Trust (2007). This
version of this MIB module is part of RFC 4805;
see the RFC itself for full legal notices."
REVISION "200703050000Z"
DESCRIPTION
"The following changes were made:
(1) Values were added to dsx1LineType to
support J1 types.
(2) The object dsx1LineImpedance was added.
(3) All DM-related objects were deprecated
following their removal from ITU performance
standards.
The RFC 4805 version of this MIB module."
REVISION "200409090000Z"
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.
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(6) Align the DESCRIPTION clauses of few statistic
objects with the near-end definition, with 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; the 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.
(6) Support for DS2 and E2 has 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.
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(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
-- 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,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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,
dsx1LineImpedance INTEGER
}
dsx1LineIndex OBJECT-TYPE
SYNTAX InterfaceIndex
MAX-ACCESS read-only -- read-only since originally an
-- 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 the ifStackTable and ds0/ds0bundle MIBs.
Previously, this object was 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 a 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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
of ifIndex from the Interfaces table (RFC 2863)."
::= { 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
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),
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
dsx1J1ESF(14),
dsx1J1Unframed(16)
}
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 G.704, (Table 5A)
dsx1E1-CRC ITU-T G.704, (Table 5B)
dsxE1-MF G.704 (Table 5A) with TS16
multiframing enabled
dsx1E1-CRC-MF G.704 (Table 5B) 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.] (G.704, table 14)
dsx1E1Q50CRC E1Q50 with CRC
dsx1J1ESF J1 according to (JT-G704,
JT-G706, and JT-I431)
dsx1J1Unframed J1 with No Framing
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.
ITU-T G.703: Physical/Electrical Characteristics
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
of Hierarchical Digital Interfaces, November
2001.
ITU-T G.704: Synchronous frame structures used at
1544, 6312, 2048, 8488 and 44 736 kbit/s
Hierarchical Levels, July 1995.
JT-G704: Synchronous frame structures used at
Primary and Secondary Hierarchical Levels,2002.
JT-G706. Frame Alignment and Cyclic Redundancy
Check (CRC) Procedures.
JT-I431. ISDN Primary Rate User-Network Interface,
Layer 1 Specifications, 2002 "
::= { 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.
dsx1JBZS refers the Jammed Bit Zero Suppression,
in which the AT&T specification of at least one
pulse every 8-bit period is literally implemented
by forcing a pulse in bit 8 of each channel.
Thus, only 7 bits per channel, or 1.344 Mbps,
are available for data.
dsx1B8ZS refers to the use of a specified pattern
of normal bits and bipolar violations that are
used to replace a sequence of 8 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
Nicklass, Ed. Standards Track [Page 27]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
not solve the problem directly. In this
application, the higher layer must provide data
that 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 that are
used to replace a sequence of 6 zero bits. Used
for DS2.
For more information about line coding see
[ANSI-T1.102]"
::= { 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 the following:
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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)
}
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
information.
The dsx1LineStatus is a bitmap 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 as follows:
1 dsx1NoAlarm No alarm present
2 dsx1RcvFarEndLOF Far end LOF (a.k.a.
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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.
'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 on either channel 16 of
an E1 link or channel 24 of a DS1."
::= { dsx1ConfigEntry 11 }
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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),
dsx1AnsiT1403(2),
dsx1Att54016(4),
dsx1FdlNone(8)
'other' indicates that a protocol other than
one of the following is used.
'dsx1AnsiT1403' refers to the FDL exchange
recommended by ANSI.
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
'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 is 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
object 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
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)
}
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 bitmap represented as
a sum; therefore, it can represent multiple
loopbacks simultaneously.
The various bit positions are as follows:
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
"This variable represents the channel number of
the DS1/E1 on its parent DS2/E2 or DS3/E3. A
value of 0 indicates that this DS1/E1 does not
have a parent DS3/E3."
::= { dsx1ConfigEntry 19 }
dsx1Channelization OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabledDs0(2),
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
enabledDs1(3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates whether this DS1/E1 or DS2 is
channelized or unchannelized.
The value of enabledDs0(2) indicates that this is a
DS1 channelized into DS0s. Setting this value will
cause the creation, and resetting it to disabled(1)
will cause the deletion of entries in the ifTable
for the DS0s that are within the DS1.
The value of enabledDs1(3) indicates that this is a
DS2 channelized into DS1s. Setting this value will
cause the creation, and resetting it to disabled(1)
will cause the deletion of entries in the ifTable
for the DS1s that are within the DS2."
::= { 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
"Attenuation setting for T1 framer in long haul
(CSU) mode. The optional values are -7.5dB,
-15dB, -22.5dB, and 0dB."
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
::= { dsx1ConfigEntry 22 }
dsx1LineImpedance OBJECT-TYPE
SYNTAX INTEGER {
notApplicable(1),
unbalanced75ohms(2),
balanced100ohms(3),
balanced120ohms(4)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Nominal line impedance. For T1 and J1 lines, the
value is typically balanced100ohms(3). For E1
lines, the value is typically unbalanced75ohms(2)
and balanced120ohms(4). When this object does not
apply, or when the appropriate value is not known,
the value should be set to notApplicable(1)."
::= { dsx1ConfigEntry 23 }
-- 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,
Nicklass, Ed. Standards Track [Page 36]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 that 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."
::= { 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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
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 deprecated
DESCRIPTION
"The number of Degraded Minutes."
::= { dsx1CurrentEntry 10 }
dsx1CurrentLCVs OBJECT-TYPE
SYNTAX PerfCurrentCount
MAX-ACCESS read-only
STATUS current
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
DESCRIPTION
"The number of Line Coding 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
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
MAX-ACCESS read-only -- read-only since originally an
-- SMIv1 index
STATUS current
DESCRIPTION
"The index value that 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
-- 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-minute 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
Nicklass, Ed. Standards Track [Page 40]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
"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 deprecated
DESCRIPTION
"The number of Degraded Minutes."
::= { dsx1IntervalEntry 11 }
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
dsx1IntervalLCVs OBJECT-TYPE
SYNTAX PerfIntervalCount
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of Line Coding Violations."
::= { dsx1IntervalEntry 12 }
dsx1IntervalValidData OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This variable indicates whether 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,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 that 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."
::= { dsx1TotalEntry 1 }
dsx1TotalESs OBJECT-TYPE
SYNTAX PerfTotalCount
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number 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 }
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
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)
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 deprecated
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."
::= { dsx1TotalEntry 10 }
dsx1TotalLCVs OBJECT-TYPE
SYNTAX PerfTotalCount
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of Line Coding 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 into 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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 }
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 that 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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
"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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
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 deprecated
DESCRIPTION
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
"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
is not available (e.g., in proxy situations)."
::= { dsx1FarEndCurrentEntry 13 }
-- 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,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
"The index value that 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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
"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
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
DESCRIPTION
"The number of Far End Bursty Errored Seconds."
::= { dsx1FarEndIntervalEntry 10 }
dsx1FarEndIntervalDMs OBJECT-TYPE
SYNTAX PerfIntervalCount
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION
"The number of Far End Degraded Minutes."
::= { dsx1FarEndIntervalEntry 11 }
dsx1FarEndIntervalValidData OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
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,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 that 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."
::= { 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
Nicklass, Ed. Standards Track [Page 54]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
"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 }
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."
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
::= { 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
STATUS deprecated
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 favor of using
ifStackTable.
The table was mandatory for systems dividing a DS1
into channels containing different data streams
that are of local interest. Systems that 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,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 is 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
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 }
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 that 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."
::= { 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 as 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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 Network Management Station
(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
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."
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
GROUP ds1TransStatsGroup
DESCRIPTION
"This group is the set of statistics appropriate
for all systems that 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 that support the channelization of DS3s
into DS1s."
OBJECT dsx1LineType
SYNTAX INTEGER {
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
"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
"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)
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
-- 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."
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
MIN-ACCESS read-only
DESCRIPTION
"Facilities Data Link usage on E1 ISDN
Primary Rate interfaces.
Note: There is an 'M-Channel' in E1,
using National Bit Sa4 (G.704,
Table 5A). It is used to implement
management features between ET
and NT. This is different from
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."
::= { 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."
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
::= { ds1Compliances 4 }
ds1NCompliance MODULE-COMPLIANCE
STATUS deprecated
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."
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 that 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 that support the channelization of DS3s
into DS1s."
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 }
ds1MibT1PriNCompliance MODULE-COMPLIANCE
STATUS deprecated
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)
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
}
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."
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 deprecated
DESCRIPTION
"Compliance statement for using this MIB for ISDN
Primary Rate interfaces on E1 lines."
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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)
}
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 an 'M-Channel' in E1,
using National Bit Sa4 (G704,
Table 5A). It is used to implement
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
management features between ET
and NT. This is different from
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."
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 }
ds1J1Compliance MODULE-COMPLIANCE
STATUS current
DESCRIPTION
"The compliance statement for T1, J1, and E1
interfaces."
MODULE -- this module
MANDATORY-GROUPS { ds1NearEndCfgGroup,
ds1NearEndStatGroup }
GROUP ds1FarEndNGroup
DESCRIPTION
"Implementation of this group is optional for all
systems that attach to a DS1 interface."
GROUP ds1NearEndOptionalTrapGroup
DESCRIPTION
"Implementation of this group is optional for all
systems that attach to a DS1 interface. If it is
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 that 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 that 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
required."
OBJECT dsx1LoopbackConfig
MIN-ACCESS read-only
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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."
OBJECT dsx1LineImpedance
MIN-ACCESS read-only
DESCRIPTION
"The ability to set line impedance is not
Nicklass, Ed. Standards Track [Page 72]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
required."
::= { ds1Compliances 8 }
ds1NMibT1PriNCompliance MODULE-COMPLIANCE
STATUS current
DESCRIPTION
"Compliance statement for using this MIB for ISDN
Primary Rate interfaces on T1 lines."
MODULE
MANDATORY-GROUPS { ds1NearEndCfgGroup,
ds1NearEndStatGroup }
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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."
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 9 }
ds1NMibE1PriNCompliance MODULE-COMPLIANCE
STATUS current
DESCRIPTION
"Compliance statement for using this MIB for ISDN
Primary Rate interfaces on E1 lines."
MODULE
MANDATORY-GROUPS { ds1NearEndCfgGroup,
ds1NearEndStatGroup }
OBJECT dsx1LineType
SYNTAX INTEGER {
dsx1E1CRC(5)
}
MIN-ACCESS read-only
DESCRIPTION
"Line type for E1 ISDN Primary Rate
interfaces."
OBJECT dsx1LineCoding
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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 an 'M-Channel' in E1,
using National Bit Sa4 (G704,
Table 5A). It is used to implement
management features between ET
and NT. This is different from
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
"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."
OBJECT dsx1LineImpedance
MIN-ACCESS read-only
DESCRIPTION
"The ability to set line impedance is not
required."
::= { ds1Compliances 10 }
-- 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 }
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
ds1NearEndStatisticsGroup OBJECT-GROUP
OBJECTS { dsx1CurrentIndex,
dsx1CurrentESs,
dsx1CurrentSESs,
dsx1CurrentSEFSs,
dsx1CurrentUASs,
dsx1CurrentCSSs,
dsx1CurrentPCVs,
dsx1CurrentLESs,
dsx1CurrentBESs,
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 deprecated
DESCRIPTION
"A collection of objects providing statistics
information applicable to all DS1 interfaces."
::= { ds1Groups 2 }
ds1FarEndGroup OBJECT-GROUP
OBJECTS { dsx1FarEndCurrentIndex,
dsx1FarEndTimeElapsed,
dsx1FarEndValidIntervals,
dsx1FarEndCurrentESs,
dsx1FarEndCurrentSESs,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
dsx1FarEndCurrentSEFSs,
dsx1FarEndCurrentUASs,
dsx1FarEndCurrentCSSs,
dsx1FarEndCurrentLESs,
dsx1FarEndCurrentPCVs,
dsx1FarEndCurrentBESs,
dsx1FarEndCurrentDMs,
dsx1FarEndInvalidIntervals,
dsx1FarEndIntervalIndex,
dsx1FarEndIntervalNumber,
dsx1FarEndIntervalESs,
dsx1FarEndIntervalSESs,
dsx1FarEndIntervalSEFSs,
dsx1FarEndIntervalUASs,
dsx1FarEndIntervalCSSs,
dsx1FarEndIntervalLESs,
dsx1FarEndIntervalPCVs,
dsx1FarEndIntervalBESs,
dsx1FarEndIntervalDMs,
dsx1FarEndIntervalValidData,
dsx1FarEndTotalIndex,
dsx1FarEndTotalESs,
dsx1FarEndTotalSESs,
dsx1FarEndTotalSEFSs,
dsx1FarEndTotalUASs,
dsx1FarEndTotalCSSs,
dsx1FarEndTotalLESs,
dsx1FarEndTotalPCVs,
dsx1FarEndTotalBESs,
dsx1FarEndTotalDMs }
STATUS deprecated
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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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,
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 that are the
statistics that 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
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
"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 a mapping of
DS3 Channel (dsx1Ds1ChannelNumber) to ifIndex."
::= { ds1Groups 9 }
ds1NearEndConfigurationGroup OBJECT-GROUP
OBJECTS { dsx1LineIndex,
dsx1TimeElapsed,
dsx1ValidIntervals,
dsx1LineType,
dsx1LineCoding,
dsx1SendCode,
dsx1CircuitIdentifier,
dsx1LoopbackConfig,
dsx1LineStatus,
dsx1SignalMode,
dsx1TransmitClockSource,
dsx1Fdl,
dsx1InvalidIntervals,
dsx1LineLength,
dsx1LoopbackStatus,
dsx1Ds1ChannelNumber,
dsx1Channelization,
dsx1LineMode,
dsx1LineBuildOut }
STATUS deprecated
DESCRIPTION
"A collection of objects providing configuration
information applicable to all DS1 interfaces."
::= { ds1Groups 10 }
ds1NearEndCfgGroup OBJECT-GROUP
OBJECTS { dsx1LineIndex,
dsx1TimeElapsed,
dsx1ValidIntervals,
dsx1LineType,
dsx1LineCoding,
dsx1SendCode,
dsx1CircuitIdentifier,
dsx1LoopbackConfig,
dsx1LineStatus,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
dsx1SignalMode,
dsx1TransmitClockSource,
dsx1Fdl,
dsx1InvalidIntervals,
dsx1LineLength,
dsx1LoopbackStatus,
dsx1Ds1ChannelNumber,
dsx1Channelization,
dsx1LineMode,
dsx1LineBuildOut,
dsx1LineImpedance }
STATUS current
DESCRIPTION
"A collection of objects providing configuration
information applicable to all DS1 interfaces."
::= { ds1Groups 11 }
ds1NearEndStatGroup OBJECT-GROUP
OBJECTS { dsx1CurrentIndex,
dsx1CurrentESs,
dsx1CurrentSESs,
dsx1CurrentSEFSs,
dsx1CurrentUASs,
dsx1CurrentCSSs,
dsx1CurrentPCVs,
dsx1CurrentLESs,
dsx1CurrentBESs,
dsx1CurrentLCVs,
dsx1IntervalIndex,
dsx1IntervalNumber,
dsx1IntervalESs,
dsx1IntervalSESs,
dsx1IntervalSEFSs,
dsx1IntervalUASs,
dsx1IntervalCSSs,
dsx1IntervalPCVs,
dsx1IntervalLESs,
dsx1IntervalBESs,
dsx1IntervalLCVs,
dsx1IntervalValidData,
dsx1TotalIndex,
dsx1TotalESs,
dsx1TotalSESs,
dsx1TotalSEFSs,
dsx1TotalUASs,
dsx1TotalCSSs,
dsx1TotalPCVs,
dsx1TotalLESs,
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
dsx1TotalBESs,
dsx1TotalLCVs }
STATUS current
DESCRIPTION
"A collection of objects providing statistics
information applicable to all DS1 interfaces."
::= { ds1Groups 12 }
ds1FarEndNGroup OBJECT-GROUP
OBJECTS { dsx1FarEndCurrentIndex,
dsx1FarEndTimeElapsed,
dsx1FarEndValidIntervals,
dsx1FarEndCurrentESs,
dsx1FarEndCurrentSESs,
dsx1FarEndCurrentSEFSs,
dsx1FarEndCurrentUASs,
dsx1FarEndCurrentCSSs,
dsx1FarEndCurrentLESs,
dsx1FarEndCurrentPCVs,
dsx1FarEndCurrentBESs,
dsx1FarEndInvalidIntervals,
dsx1FarEndIntervalIndex,
dsx1FarEndIntervalNumber,
dsx1FarEndIntervalESs,
dsx1FarEndIntervalSESs,
dsx1FarEndIntervalSEFSs,
dsx1FarEndIntervalUASs,
dsx1FarEndIntervalCSSs,
dsx1FarEndIntervalLESs,
dsx1FarEndIntervalPCVs,
dsx1FarEndIntervalBESs,
dsx1FarEndIntervalValidData,
dsx1FarEndTotalIndex,
dsx1FarEndTotalESs,
dsx1FarEndTotalSESs,
dsx1FarEndTotalSEFSs,
dsx1FarEndTotalUASs,
dsx1FarEndTotalCSSs,
dsx1FarEndTotalLESs,
dsx1FarEndTotalPCVs,
dsx1FarEndTotalBESs}
STATUS current
DESCRIPTION
"A collection of objects providing remote
configuration and statistics information."
::= { ds1Groups 13 }
END
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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.
Setting the following objects to incorrect values may result in
traffic interruptions:
dsx1LineType
dsx1LineCoding
dsx1SendCode
dsx1LoopbackConfig
dsx1SignalMode
dsx1TransmitClockSource
dsx1Fdl
dsx1LineLength
dsx1Channelization
dsx1LineMode
dsx1LineBuildOut
dsx1LineImpedance
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 misidentified 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/J1/E1/DS2/E2
equipment or networks and can reveal some aspects of their
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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.
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. Acknowledgments
This document was produced by the AToM MIB Working Group.
7. References
7.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[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.
Nicklass, Ed. Standards Track [Page 84]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
[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] ITU-T G.703, Physical/Electrical Characteristics of
Hierarchical Digital Interfaces, November 2001.
[ITU-T-G.704] ITU-T G.704: Synchronous frame structures used at
1544, 6312, 2048, 8488 and 44 736 kbit/s Hierarchical
Levels, October 1998.
[ANSI-T1.231] American National Standard for Telecommunications --
Digital Hierarchy DS1-- Layer 1 In-Service Digital
Transmission Performance Monitoring, T1.231.02,
October 2003.
[ITU-T-O.162] ITU-T O.162, Equipment To Perform In Service
Monitoring On 2048 kbit/s Signals, October 1992.
[CCITT-G.821] ITU-T G.821, Error Performance Of An International
Digital Connection Forming Part Of An Integrated
Services Digital Network, December 2002.
[AT&T-TR-62411] AT&T Technical Reference, Technical Reference 62411,
ACCUNET T1.5 Service Description And Interface
Specification, December 1990.
[CCITT-G.706] ITU-T G.706, Frame Alignment and Cyclic Redundancy
Check (CRC) Procedures Relating to Basic Frame
Structures Defined in Recommendation G.704, April
1991.
[CCITT-G.732] ITU-T G.732, Characteristics Of Primary PCM Multiplex
Equipment Operating at 2048 kbit/s, November 1988.
[ITU-T-G.775] ITU-T G.775: Loss of signal (LOS) and alarm
indication signal (AIS) defect detection and
clearance criteria, October 1998.
[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, December
2002.
Nicklass, Ed. Standards Track [Page 85]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
[ANSI-T1.107] American National Standard for Telecommunications --
Digital Hierarchy - Format Specifications, T1.107,
January 2002.
[RFC3593] Tesink, K., "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.
[JT-G704] JT-G.704: Synchronous frame structures used at
Primary and Secondary Hierarchical Levels, 2002.
[JT-G706] JT-G.706: Frame Alignment and Cyclic Redundancy Check
(CRC) Procedures.
[JT-I431] JT-I.431: ISDN Primary Rate User-Network
Interface,Layer 1 Specifications, 2002.
7.2. 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.
[RFC3895] Nicklass, O., "Definitions of Managed Objects for the
DS1, E1, DS2, and E2 Interface Types", RFC 3895,
September 2004.
[RFC2495] Fowler, D., "Definitions of Managed Objects for the
DS1, E1, DS2 and E2 Interface Types", RFC 2495,
January 1999.
[RFC1406] Baker, F. and J. Watt, "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.
[RFC3896] Nicklass, O., "Definitions of Managed Objects for the
DS3/E3 Interface Type", RFC 3896, September 2004.
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
[RFC3592] Tesink, K., "Definitions of Managed Objects for the
Synchronous Optical Network/Synchronous Digital
Hierarchy (SONET/SDH) Interface Type", RFC 3592,
September 2003.
[RFC2494] Fowler, D., "Definitions of Managed Objects for the
DS0 and DS0 Bundle Interface Type", RFC 2494, January
1999.
[ANSI-T1.102] American National Standard for Telecommunications --
Digital Hierarchy - Electrical Interfaces, T1.102,
December 1993.
[RFC3410] Case, J., Mundy, R., Partain, D., and B. Stewart,
"Introduction and Applicability Statements for
Internet-Standard Management Framework", RFC 3410,
December 2002.
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
Appendix A - Use of dsx1IfIndex and dsx1LineIndex
This appendix exists to document the previous use of 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 an ifIndex; i.e.,
the value would be either: 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.
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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
a 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
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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-minute 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.
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+---------------------------------------------------------------------+
| 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 10 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, Ed. Standards Track [Page 91]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
Appendix C - Changes from Pervious Versions
C.1. Changes from RFC 3895
The changes from RFC 3895 [RFC3895] are the following:
(1) Values were added to dsx1LineType to support J1 types.
(2) The object dsx1LineImpedance was added.
(3) All DM-related objects were deprecated following their
removal from ITU performance standards.
(4) Relevant text and reference section were updated.
(5) Changes in Compliance Statements to include new values.
C.2. Changes from RFC 2495
The changes from RFC 2495 [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, with 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.
C.3. 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 has 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.
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(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.
C.4. 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.
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, Ed. Standards Track [Page 93]
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RFC 4805 DS1/J1/E1/DS2/E2 MIB March 2007
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Nicklass, Ed. Standards Track [Page 94]
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