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Observium_CE/mibs/paradyne/PDN-CONFIG-MIB

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PDN-CONFIG-MIB DEFINITIONS ::= BEGIN
IMPORTS
ifIndex
FROM RFC1213-MIB
Gauge
FROM RFC1155-SMI
DateAndTime
FROM SNMPv2-TC
TRAP-TYPE
FROM RFC-1215
OBJECT-TYPE
FROM RFC-1212
pdn-devConfig
FROM PDN-HEADER-MIB;
-- ===============================================================
--
-- Device Configuration
--
-- Version 1.0.11
--
--
-- Updated 10/11/03 Sue Alfano - Added devCfgClkRate object,
-- added new enum, external2, to devCfgClkSource.
--
-- Updated 03/07/02 Mohan Mohankumar - changed the description for the object
-- devConfigTrapEnable to include support
-- for path Trap and Latency Trap.
--
-- Updated 12/13/01 Dragana Gough - added new objects devConfigTestTimeout,
-- devConfigTestDuration, devConfigComDiscTime,
-- devConfigComInactivityTO, devConfigPortNumDisplayFormat,
-- devConfigDateDisplayFormat, devAcceptRemoteResetFrame
--
--
-- Updated 12/04/01 Dragana Gough - updated DESCRIPTION filed for
-- devConfigTimeOfDay
-- Updated 09/18/2000 Rob Steinberger - Added Usage Comments to
-- devConfigChangeKeysTable
--
-- Updated 09/08/2000 Rob Steinberger - Added devConfigChangeKeysTable
--
-- Updated 05/19/2000 Rob Steinberger - Added dslNam and t3Nam card types
--
-- Updated 03/08/2000 Dragana Gough -updated devConfigTrapEnable documentation
-- to specify cases when the trap configuration is set per interface vs per
-- entity. Added Configuration change trap
--
-- Updated 02/10/2000 Dragana Gough -added bit field positions to devConfigTrapEnable
-- to enable disabling/enabling of linkUp and linkDown Traps
--
-- Updated 08/18/99 by J. Colom (jaime@paradyne.com)
-- (Added devConfigNetSyncRole
-- Added devConfigTimeOfDay )
--
-- Updated 7/14/99 Jaime Colom - Adds dce6APM, sruAPM, ocu4APM,
-- pktVoiceAPM, dpNAM, stNAM, ddsNAM, dualDsxNniNAM, t3NniNAM card
-- types as well as acceptingAPM and failedAPM states.
--
-- Updated 7/29/98 Vince Ciletti - Adds 2 and 6 port OCU APM card types.
--
-- ==================================================================
devConfigArea OBJECT IDENTIFIER ::= { pdn-devConfig 1 }
devConfigAreaCopy OBJECT-TYPE
SYNTAX INTEGER {
noOp(1),
active-to-customer1(2),
active-to-customer2(3),
customer1-to-active(4),
customer1-to-customer2(5),
customer2-to-active(6),
customer2-to-customer1(7),
factory1-to-active(8),
factory1-to-customer1(9),
factory1-to-customer2(10),
factory2-to-active(11),
factory2-to-customer1(12),
factory2-to-customer2(13),
factory3-to-active(14),
factory3-to-customer1(15),
factory3-to-customer2(16),
factory4-to-active(17),
factory4-to-customer1(18),
factory4-to-customer2(19),
factory5-to-active(20),
factory5-to-customer1(21),
factory5-to-customer2(22),
factory6-to-active(23),
factory6-to-customer1(24),
factory6-to-customer2(25),
factory7-to-active(26),
factory7-to-customer1(27),
factory7-to-customer2(28),
factory8-to-active(29),
factory8-to-customer1(30),
factory8-to-customer2(31),
factory9-to-active(32),
factory9-to-customer1(33),
factory9-to-customer2(34)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to copy the entire contents of one
configuration area into another configuration area. The
supported number of factory configuration areas depends
on the device model. The value read from this object is
always noOp(1)."
::= { devConfigArea 1 }
-- General device-wide configuration items
-- The Test Timeout group. This group is used for configuring
-- timers associated with tests on the device.
devConfigTestTimer OBJECT IDENTIFIER ::= { pdn-devConfig 2 }
devConfigTestTimeout OBJECT-TYPE
SYNTAX INTEGER {
disable(1), -- Tests will not be terminated
-- based on a timer.
enable(2) -- Tests will be terminated after
-- the duration specified by
-- devConfigTestDuration
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object specifies whether tests are to be terminated
after a defined duration. If the value is enable(2), the
duration is defined by devConfigTestDuration."
::= { devConfigTestTimer 1 }
devConfigTestDuration OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object specifies the duration that a test will be
allowed to run before it is automatically terminated.
Tests will only be terminated if devConfigTestTimeout
is set to enable."
::= { devConfigTestTimer 2 }
-- The Clock Source group.
devConfigClockSrc OBJECT IDENTIFIER ::= { pdn-devConfig 3 }
devConfigClockSrcTable OBJECT-TYPE
SYNTAX SEQUENCE OF DevConfigClockSrcEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The clock source table."
::= { devConfigClockSrc 1 }
devConfigClockSrcEntry OBJECT-TYPE
SYNTAX DevConfigClockSrcEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the clock source table."
INDEX { devCfgClkWhichSrc }
::= { devConfigClockSrcTable 1 }
--
-- Layout of one entry in the devConfigClockSrcTable
--
DevConfigClockSrcEntry ::=
SEQUENCE {
devCfgClkWhichSrc INTEGER,
devCfgClkSource INTEGER,
devCfgClkIfIndex INTEGER,
devCfgClkRate INTEGER
}
devCfgClkWhichSrc OBJECT-TYPE
SYNTAX INTEGER {
primary(1), -- The primary master clock source
secondary(2) -- The secondary master clock source
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The clock source to which this entry is applicable."
::= { devConfigClockSrcEntry 1 }
devCfgClkSource OBJECT-TYPE
SYNTAX INTEGER {
internal(1), -- Master clock is the internal clock
external(2), -- Master clock is external clock source 1
interface(3), -- clock source is provided via an interface
dbm(4), -- clock source is provided via a backup module
external2(5) -- Master clock is external clock source 2
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to select the source for the master
clock for the device. The source selected provides
synchronization for all the timing within the device,
and the clocks for all of the external interfaces.
If this object is interface(3), the specific interface
used as the master clock source is specified using
devCfgClkIfIndex.
If this object is external(2), or external2(5), the clock
rate can be specified using devCfgClkRate."
::= { devConfigClockSrcEntry 2 }
devCfgClkIfIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to select the interface to be used
as the source for the master clock for the device, if
devCfgClkSource is set to interface(3). The interface
selected provides synchronization for all the timing
within the device, and the clocks for all of the
external interfaces.
NOTE: if a synchronous data port is selected and the EDL
is enabled for that synchronous data port, then the
external device must provide a clock 8 Kbps less
than the expected data port rate. For example, if
the data port rate is set at 64 Kbps, the external
clock source needs to supply a 56 Kbps clock signal.
If devCfgClkSource is not interface(3), the value of this
object is meaningless."
::= { devConfigClockSrcEntry 3 }
devCfgClkRate OBJECT-TYPE
SYNTAX INTEGER {
rate400Hz(1),
rate8KHz(2),
rate64KHz(3),
rate1544KHz(4),
rate2048KHz(5)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to specify the clock signal
rate associated with the external source selected by
the devCfgClkSource object."
::= { devConfigClockSrcEntry 4 }
-- The Trap Configuration group.
devConfigTrap OBJECT IDENTIFIER ::= { pdn-devConfig 4 }
devConfigTrapEnable OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Which trap types will be sent by the entity. This
object is a bit map represented as a sum, therefore,
multiple trap types can be enabled simultaneously.
This objects sets flag (enable/disable) value
on entity level. If trap enable/disable flags are
set per interface level by some other object
this object will read 'enabled' if any one of the
interfaces is enabled. If any of the traps
below are set to enabled by this object
it will enable that trap on all interfaces
on the entity.
The various bit positions are:
1 warmStart traps
2 authenticationFailure traps
4 enterpriseSpecific traps
8 LinkUp trap
16 LinkDown Trap
32 path Trap
64 Latency Trap."
::= { devConfigTrap 1 }
cCNTrapEnable OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
" This object is used to enable or disable
configuration change trap. It is a bit
sequence sum with only accepted values
1 or 2. Setting the bit sequence to 2
would mean enabling the trap and 1
would mean disabling it."
::= { devConfigTrap 2 }
-- The Paradyne System Alarm group.
devConfigAlarm OBJECT IDENTIFIER ::= { pdn-devConfig 5 }
devConfigAlarmRelayCutoff OBJECT-TYPE
SYNTAX INTEGER {
noOp(1),
off(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Writing off(2) to this object will turn off the System
Alarm Relay. Reading this object will always return
noOp(1)."
::= { devConfigAlarm 6 }
-- The Paradyne Card Type table.
-- This table is used by multi-slot devices. It shows what
-- type of card has been configured to occupy each slot in
-- the chassis, and what card type is actually present in the
-- chassis. If the configured and actual card types do not
-- match, this table allows the actual card type to be accepted,
-- which will change the configuration information for the card.
devConfigCardType OBJECT IDENTIFIER ::= { pdn-devConfig 6 }
devConfigCardTypeTable OBJECT-TYPE
SYNTAX SEQUENCE OF DevConfigCardTypeEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The Paradyne Card Type Table."
::= { devConfigCardType 7 }
devConfigCardTypeEntry OBJECT-TYPE
SYNTAX DevConfigCardTypeEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the Paradyne Card Type Table."
INDEX { devCfgCardSlot }
::= { devConfigCardTypeTable 1 }
-- Layout of one entry in the devConfigCardTypeTable
DevConfigCardTypeEntry ::=
SEQUENCE {
devCfgCardSlot INTEGER,
devCfgCardConfig INTEGER,
devCfgCardActual INTEGER,
devCfgCardAction INTEGER
}
devCfgCardSlot OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The slot number which this card occupies in the chassis."
::= { devConfigCardTypeEntry 1 }
devCfgCardConfig OBJECT-TYPE
SYNTAX INTEGER {
emptySlot(1), -- an empty slot
unsupportedAPM(2), -- an unrecognized APM
t1NAM(3), -- a 1T1/1DSX NAM
syncDataAPM(4), -- a synchronous data port APM
voiceFxsAPM(5), -- an FXS Voice APM
voiceEmAPM(6), -- an E&M Voice APM
voiceFxoAPM(7), -- an FXO Voice APM
dsxAPM(8), -- an DSX-1 APM
t1NoDsxNAM(9), -- a 2T1 with No DSX NAM
misconfiguredAPM(10), -- a misconfigured APM
ocu2APM(11), -- a 2 port OCU APM
ocu6APM(12), -- a 6 port OCU APM
dce6APM(13), -- a 6-port DCE APM
sruAPM(14), -- a 5-port SubRate APM
ocu4APM(15), -- a 4-port Office Channel Unit APM
pktVoiceAPM(16), -- a Packet Voice APM
acceptingAPM(17), -- Accepting State
failedAPM(18), -- APM position has failed card
dpNAM(19), -- Data Port NAM
stNAM(20), -- S/T ISDN NAM
ddsNAM(21), -- DDS NAM
dualDsxNniNAM(22), -- Dual Dsx-1 NNI NAM
t3NniNAM(23), -- T3 NNI NAM
t3NAM(24), -- T3 NAM
dslNAM(25) -- DSL NAM
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The type of card which has been configured for this slot."
::= { devConfigCardTypeEntry 2 }
devCfgCardActual OBJECT-TYPE
SYNTAX INTEGER {
emptySlot(1), -- an empty slot
unsupportedAPM(2), -- an unrecognized APM
t1NAM(3), -- a T1 NAM
syncDataAPM(4), -- a synchronous data port APM
voiceFxsAPM(5), -- an FXS Voice APM
voiceEmAPM(6), -- an E&M Voice APM
voiceFxoAPM(7), -- an FXO Voice APM
voiceDsxAPM(8), -- an DSX-1 APM
t1NoDsxNAM(9), -- a 2T1 with No DSX NAM
misconfigured(10), -- a misconfigured APM
ocu2APM(11), -- a 2 port OCU APM
ocu6APM(12), -- a 6 port OCU APM
dce6APM(13), -- a 6-port DCE APM
sruAPM(14), -- a 5-port SubRate APM
ocu4APM(15), -- a 4-port Office Channel Unit APM
pktVoiceAPM(16), -- a Packet Voice APM
acceptingAPM(17), -- Accepting State
failedAPM(18), -- APM position has failed card
dpNAM(19), -- Data Port NAM
stNAM(20), -- S/T ISDN NAM
ddsNAM(21), -- DDS NAM
dualDsxNniNAM(22), -- Dual Dsx-1 NNI NAM
t3NniNAM(23), -- T3 NNI NAM
t3NAM(24), -- T3 NAM
dslNAM(25) -- DSL NAM
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The type of card which is present in this slot."
::= { devConfigCardTypeEntry 3 }
devCfgCardAction OBJECT-TYPE
SYNTAX INTEGER {
noOp(1),
accept(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Writing accept(2) to this object changes the configured
card type to match the type of card currently present
in the slot. Reading this object always returns noOp(1)."
::= { devConfigCardTypeEntry 4 }
-- The Paradyne Device Network Synchronization group.
devConfigNetSync OBJECT IDENTIFIER ::= { pdn-devConfig 7 }
devConfigNetSyncRole OBJECT-TYPE
SYNTAX INTEGER {
none(1),
tributary(2),
controller(3)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Network Time Synchronization role item for a device in the network.
none - Device will ignore network time synchronization messages.
tributary - Update the network reference time each time the device
receives an update massage.
controller - The device will generate the synchronization message and
Time of Day clock will be the same as the Network
Reference Time."
DEFVAL { tributary }
::= { devConfigNetSync 1 }
-- The Paradyne Device Configuration Time group.
devConfigTime OBJECT IDENTIFIER ::= { pdn-devConfig 8 }
devConfigTimeOfDay OBJECT-TYPE
SYNTAX DateAndTime
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This is standard definition of Device Time of Day
(DateAndTime) SYNTAX. The only difference is
that our group is defining timezone filed (8)
optional.
Display format-> 2d-1d-1d,1d:1d:1d.1d,1a1d:1d
Fields description
field octets contents range
----- ------ -------- -----
1 1-2 year* 0..65536
2 3 month 1..12
3 4 day 1..31
4 5 hour 0..23
5 6 minutes 0..59
6 7 seconds 0..60
(use 60 for leap-second)
7 8 deci-seconds 0..9
8 9 direction from UTC '+' / '-'
9 10 hours from UTC* 0..13
10 11 minutes from UTC 0..59
* Notes:
- the value of year is in network-byte order
- daylight saving time in New Zealand is +13
For example, Tuesday May 26, 1992 at 1:30:15 PM EDT would be
displayed as:
1992-5-26,13:30:15.0,-4:0
Timezone information (fileds 8-10)
is optional.
Note that if only local time is known, then timezone
information (fields 8-10) is not present."
::= { devConfigTime 1 }
-- The Paradyne Device Configuration Change Key Group
devConfigChangeKeys OBJECT IDENTIFIER ::= { pdn-devConfig 9 }
--
-- Configuration Change Keys Table
--
-- This table contains a set of keys specific to each non-volatile
-- database on the device. The keys are ensured to change each time
-- there is a change to the database that they represent.
--
-- Example of Use:
--
-- 1) Database Discovery
-- This MIB can be used to discover the various non-volatile
-- databases on a device. Each database has a unique key.
--
-- The discovery process consists of walking devConfigChangeKeysDbKey.
-- Each response corresponds to a different database type. The NMS
-- only needs to be concerned with the databases that affect them.
-- Each of the "interesting" database keys should be stored for later
-- reference.
--
-- 2) Database monitoring
-- After discovery, the NMS can check the database keys of the
-- databases of interest to it either at specific intervals or
-- based on configuration change traps. When using trap directed,
-- polling, a default polling interval should still apply in case
-- a trap is lost in the transmission process.
--
-- Checking the keys consists of performing a get operation on
-- devConfigChangeKeysDbKey for the specific database(s) of interest.
-- If the key has changed from that previously stored, the database
-- has changed. The new key should be stored for future reference.
--
devConfigChangeKeysTable OBJECT-TYPE
SYNTAX SEQUENCE OF DevConfigChangeKeysEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The Paradyne Configuration Change Key Table. This table
is in place to allow a Network Manager to know when the
configuration on the device changes. Configuration can
be found in several databases that may each have a
unique access method. For this reason, the keys are
in the form of a table."
::= { devConfigChangeKeys 1 }
devConfigChangeKeysEntry OBJECT-TYPE
SYNTAX DevConfigChangeKeysEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the Paradyne Configuration Change Key Table."
INDEX { devConfigChangeKeysDbType }
::= { devConfigChangeKeysTable 1 }
DevConfigChangeKeysEntry ::=
SEQUENCE {
devConfigChangeKeysDbType INTEGER,
devConfigChangeKeysDbKey Gauge
}
devConfigChangeKeysDbType OBJECT-TYPE
SYNTAX INTEGER {
generalConfig(1),
rmonAlarm(2),
rmonUserHistory(3),
routerConfig(4)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The type of database that is being keyed. If a specific
type is not supported by the device, noSuchName should be
returned."
::= { devConfigChangeKeysEntry 1 }
devConfigChangeKeysDbKey OBJECT-TYPE
SYNTAX Gauge
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A unique value that will change each time the database is
altered. Effort should be made to increase the number of
times the database can change without seeing the same
key."
::= { devConfigChangeKeysEntry 2 }
-- The General Configuration group.
devConfiguration OBJECT IDENTIFIER ::= { pdn-devConfig 10 }
devConfigComDiscTime OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to specify how long
to wait before disconnecting. Inactivity
is defined as no keyboard activity within
a given period of time. The time is kept
in seconds. The default is 300 seconds."
::= { devConfiguration 1 }
devConfigPortNumDisplayFormat OBJECT-TYPE
SYNTAX INTEGER {
sle(1),
unitport(2),
name(3)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to set display format for the
port numbers. The default is unit/port number.
sle(1) - this method is to use Single Logical Entity
interface numbers. For example, if sle is
confiugred the sle numbers range from 1 to
384 for a stack of 8 units
with 48 ports each.
unitport(2) - this method uses unitnumber/portnumber
For previous example the numbers would
be from 1/1 to 8/48.
name(3) - This method allowes user to assign character
strings (names) to each interface and to view
the interfaces by names."
::= { devConfiguration 2 }
devConfigDateDisplayFormat OBJECT-TYPE
SYNTAX INTEGER {
ddmmyy(1),
mmddyy(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to specify which format
will date be displayed in.The default is 'mmddyy'"
::= { devConfiguration 3 }
devAcceptRemoteResetFrame OBJECT-TYPE
SYNTAX INTEGER {
enable(1),
disable(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to enable/disable
acceptance of remote reset frame which
would result in hardware reset.
The default setting is disabled."
::= { devConfiguration 4 }
--TRAP Group
cCN TRAP-TYPE
ENTERPRISE devConfigTrap
VARIABLES { ifIndex }
DESCRIPTION
"This trap signifies a Configuration change or
software upgrade. This trap
is of 'warning' class"
::= 7
END
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