| vsIndex |
.1.3.6.1.4.1.562.2.4.1.80.1.1.10 |
|
This variable represents the index for the vs tables.
|
| vsRowStatus |
.1.3.6.1.4.1.562.2.4.1.80.1.1.1 |
|
This variable is used as the basis for SNMP naming of
vs components.
These components can be added and deleted.
|
| vsComponentName |
.1.3.6.1.4.1.562.2.4.1.80.1.1.2 |
|
This variable provides the component's string name for
use with the ASCII Console Interface
|
| vsStorageType |
.1.3.6.1.4.1.562.2.4.1.80.1.1.4 |
|
This variable represents the storage type value for the
vs tables.
|
| vsCustomerIdentifier |
.1.3.6.1.4.1.562.2.4.1.80.10.1.1 |
|
This attribute holds the Customer Identifier (CID).
Every component has a CID. If a component has a cid attribute, the
component's CID is the provisioned value of that attribute;
otherwise the component inherits the CID of its parent. The top-
level component has a CID of 0.
Every operator session also has a CID, which is the CID
provisioned for the operator's user ID. An operator will see only the
stream data for components having a matching CID. Also, the
operator will be allowed to issue commands for only those
components which have a matching CID.
An operator CID of 0 is used to identify the Network Manager
(referred to as 'NetMan' in DPN). This CID matches the CID of
any component. Values 1 to 8191 inclusive (equivalent to 'basic
CIDs' in DPN) may be assigned to specific customers.
|
| vsIfAdminStatus |
.1.3.6.1.4.1.562.2.4.1.80.11.1.1 |
|
The desired state of the interface. The up state indicates the
interface is operational. The down state indicates the interface is not
operational. The testing state indicates that no operational packets
can be passed.
|
| vsIfIndex |
.1.3.6.1.4.1.562.2.4.1.80.11.1.2 |
|
This is the index for the IfEntry. Its value is automatically initialized
during the provisioning process.
|
| vsSnmpOperStatus |
.1.3.6.1.4.1.562.2.4.1.80.12.1.1 |
|
The current state of the interface. The up state indicates the
interface is operational and capable of forwarding packets. The
down state indicates the interface is not operational, thus unable to
forward packets. testing state indicates that no operational packets
can be passed.
|
| vsAdminState |
.1.3.6.1.4.1.562.2.4.1.80.13.1.1 |
|
This attribute indicates the OSI Administrative State of the
component.
The value locked indicates that the component is administratively
prohibited from providing services for its users. A Lock or Lock -
force command has been previously issued for this component.
When the value is locked, the value of usageState must be idle.
The value shuttingDown indicates that the component is
administratively permitted to provide service to its existing users
only. A Lock command was issued against the component and it is
in the process of shutting down.
The value unlocked indicates that the component is administratively
permitted to provide services for its users. To enter this state, issue
an Unlock command to this component.
The OSI Status attributes, if supported by the component, may
provide more details, qualifying the state of the component.
|
| vsOperationalState |
.1.3.6.1.4.1.562.2.4.1.80.13.1.2 |
|
This attribute indicates the OSI Operational State of the component.
The value enabled indicates that the component is available for
operation. Note that if adminState is locked, it would still not be
providing service.
The value disabled indicates that the component is not available for
operation. For example, something is wrong with the component
itself, or with another component on which this one depends. If the
value is disabled, the usageState must be idle.
The OSI Status attributes, if supported by the component, may
provide more details, qualifying the state of the component.
|
| vsUsageState |
.1.3.6.1.4.1.562.2.4.1.80.13.1.3 |
|
This attribute indicates the OSI Usage State of the component.
The value idle indicates that the component is not currently in use.
The value active indicates that the component is in use and has
spare capacity to provide for additional users.
The value busy indicates that the component is in use and has no
spare operating capacity for additional users at this time.
The OSI Status attributes, if supported by the component, may
provide more details, qualifying the state of the component.
|
| vsAvailabilityStatus |
.1.3.6.1.4.1.562.2.4.1.80.13.1.4 |
|
If supported by the component, this attribute indicates the OSI
Availability status of the component. Note that, even though it is
defined as a multi-valued set, at most one value is shown to the user.
When no values are in the set, this indicates that either the attribute
is not supported or that none of the status conditions described
below are present.
The value inTest indicates that the resource is undergoing a test
procedure. If adminState is locked or shuttingDown, the normal
users are precluded from using the resource and controlStatus is
reservedForTest. Tests that do not exclude additional users can be
present in any operational or administrative state but the
reservedForTest condition should not be present.
The value failed indicates that the component has an internal fault
that prevents it from operating. The operationalState is disabled.
The value dependency indicates that the component cannot operate
because some other resource on which it depends is unavailable.
The operationalState is disabled.
The value powerOff indicates the resource requires power to be
applied and it is not powered on. The operationalState is disabled.
The value offLine indicates the resource requires a routine
operation (either manual, automatic, or both) to be performed to
place it on-line and make it available for use. The operationalState
is disabled.
The value offDuty indicates the resource is inactive in accordance
with a predetermined time schedule. In the absence of other
disabling conditions, the operationalState is enabled or disabled.
The value degraded indicates the service provided by the
component is degraded in some way, such as in speed or operating
capacity. However, the resource remains available for service. The
operationalState is enabled.
The value notInstalled indicates the resource is not present. The
operationalState is disabled.
The value logFull is not used.
Description of bits:
inTest(0)
failed(1)
powerOff(2)
offLine(3)
offDuty(4)
dependency(5)
degraded(6)
notInstalled(7)
logFull(8)
|
| vsProceduralStatus |
.1.3.6.1.4.1.562.2.4.1.80.13.1.5 |
|
If supported by the component, this attribute indicates the OSI
Procedural status of the component. Note that, even though it is
defined as a multi-valued set, at most one value is shown to the user.
When no values are in the set, this indicates that either the attribute
is not supported or that none of the status conditions described
below are present.
The value initializationRequired indicates (for a resource which
doesn't initialize autonomously) that initialization is required before
it can perform its normal functions, and this procedure has not been
initiated. The operationalState is disabled.
The value notInitialized indicates (for a resource which does
initialize autonomously) that initialization is required before it can
perform its normal functions, and this procedure has not been
initiated. The operationalState may be enabled or disabled.
The value initializing indicates that initialization has been initiated
but is not yet complete. The operationalState may be enabled or
disabled.
The value reporting indicates the resource has completed some
processing operation and is notifying the results. The
operationalState is enabled.
The value terminating indicates the component is in a termination
phase. If the resource doesn't reinitialize autonomously,
operationalState is disabled; otherwise it is enabled or disabled.
Description of bits:
initializationRequired(0)
notInitialized(1)
initializing(2)
reporting(3)
terminating(4)
|
| vsControlStatus |
.1.3.6.1.4.1.562.2.4.1.80.13.1.6 |
|
If supported by the component, this attribute indicates the OSI
Control status of the component. Note that, even though it is defined
as a multi-valued set, at most one value is shown to the user.
When no values are in the set, this indicates that either the attribute
is not supported or that none of the status conditions described
below are present.
The value subjectToTest indicates the resource is available but tests
may be conducted simultaneously at unpredictable times, which
may cause it to exhibit unusual characteristics.
The value partOfServicesLocked indicates that part of the service is
restricted from users of a resource. The adminState is unlocked.
The value reservedForTest indicates that the component is
administratively unavailable because it is undergoing a test
procedure. The adminState is locked.
The value suspended indicates that the service has been
administratively suspended.
Description of bits:
subjectToTest(0)
partOfServicesLocked(1)
reservedForTest(2)
suspended(3)
|
| vsAlarmStatus |
.1.3.6.1.4.1.562.2.4.1.80.13.1.7 |
|
If supported by the component, this attribute indicates the OSI
Alarm status of the component. Note that, even though it is defined
as a multi-valued set, at most one value is shown to the user.
When no values are in the set, this indicates that either the attribute
is not supported or that none of the status conditions described
below are present.
The value underRepair indicates the component is currently being
repaired. The operationalState is enabled or disabled.
The value critical indicates one or more critical alarms are
outstanding against the component. Other, less severe, alarms may
also be outstanding. The operationalState is enabled or disabled.
The value major indicates one or more major alarms are
outstanding against the component. Other, less severe, alarms may
also be outstanding. The operationalState is enabled or disabled.
The value minor indicates one or more minor alarms are
outstanding against the component. Other, less severe, alarms may
also be outstanding. The operationalState is enabled or disabled.
The value alarmOutstanding generically indicates that an alarm of
some severity is outstanding against the component.
Description of bits:
underRepair(0)
critical(1)
major(2)
minor(3)
alarmOutstanding(4)
|
| vsStandbyStatus |
.1.3.6.1.4.1.562.2.4.1.80.13.1.8 |
|
If supported by the component, this attribute indicates the OSI
Standby status of the component.
The value notSet indicates that either the attribute is not supported
or that none of the status conditions described below are present.
Note that this is a non-standard value, used because the original
specification indicated this attribute was set-valued and thus, did not
provide a value to indicate that none of the other three are
applicable.
The value hotStandby indicates that the resource is not providing
service but will be immediately able to take over the role of the
resource to be backed up, without initialization activity, and
containing the same information as the resource to be backed up.
The value coldStandby indicates the resource is a backup for
another resource but will not be immediately able to take over the
role of the backed up resource and will require some initialization
activity.
The value providingService indicates that this component, as a
backup resource, is currently backing up another resource.
|
| vsUnknownStatus |
.1.3.6.1.4.1.562.2.4.1.80.13.1.9 |
|
This attribute indicates the OSI Unknown status of the component.
The value false indicates that all of the other OSI State and Status
attribute values can be considered accurate.
The value true indicates that the actual state of the component is not
known for sure.
|
| vsServiceFailureReason |
.1.3.6.1.4.1.562.2.4.1.80.15.1.1 |
|
This attribute indicates the result of end to end negotiation with the
remote end across the subnet.
If serviceFailureReason is undetermined, this Vs has not performed
end to end negotiation with the remote end, and may or may not be
up. serviceFailureReason is undetermined if this Vs just became
enabled, if there is not enough available bandwidth to perform
negotiation or if the remote end cannot perform negotiation with
this Vs.
If serviceFailureReason is none, end to end negotiation passed.
If serviceFailureReason is mismatchedService, end to end
negotiation failed because the remote end service is not a Vs.
If serviceFailureReason is mismatchedVoiceEncoding, end to end
negotiation failed because the local Vs Framer voiceEncoding does
not match the remote Vs Framer voiceEncoding.
If serviceFailureReason is mismatchedVoiceRates, end to end
negotiation failed because the local provisioned ingress voice rates
are not compatible with the remote end's egress capabilities or the
remote provisioned ingress voice rates are not compatible with the
local egress capabilities.
If serviceFailureReason is mismatchedModemFaxEncoding, end
to end negotiation failed because the local Vs Framer
modemFaxEncoding does not match the remote Vs Framer
modemFaxEncoding.
If serviceFailureReason is mismatchedModemFaxRates, end to
end negotiation failed because the local provisioned ingress modem
and fax rates are not compatible with the remote end's egress
capabilities or the remote provisioned ingress modem and fax rates
are not compatible with the local egress capabilities.
If serviceFailureReason is mismatchedCasSignalling, end to end
negotiation failed because the local Vs Framer casSignalling does
not match the remote Vs Framer casSignalling.
If serviceFailureReason is mismatchedSignalBits, end to end
negotiation failed because the local Vs Framer signalBits does not
match the remote Vs Framer signalBits. serviceFailureReason is
mismatchedSignalBits only if the local Vs Framer casSignalling is
transparent.
If serviceFailureReason is compDecodeFailed, end to end
negotiation failed because the information received from the remote
end was not recognized as valid data.
Description of bits:
none(0)
undetermined(1)
logicalConnection(2)
mismatchedService(3)
notused4(4)
notused5(5)
mismatchedVoiceEncoding(6)
mismatchedVoiceRates(7)
mismatchedModemFaxEncoding(8)
mismatchedModemFaxRates(9)
mismatchedCasSignalling(10)
mismatchedSignalBits(11)
mismatchedSilenceSuppression(12)
mismatchedFaxIdleSuppression(13)
compDecodeFailed(14)
|
| vsFramerIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.1.1.10 |
|
This variable represents the index for the vsFramer tables.
|
| vsFramerRowStatus |
.1.3.6.1.4.1.562.2.4.1.80.2.1.1.1 |
|
This variable is used as the basis for SNMP naming of
vsFramer components.
These components cannot be added nor deleted.
|
| vsFramerComponentName |
.1.3.6.1.4.1.562.2.4.1.80.2.1.1.2 |
|
This variable provides the component's string name for
use with the ASCII Console Interface
|
| vsFramerStorageType |
.1.3.6.1.4.1.562.2.4.1.80.2.1.1.4 |
|
This variable represents the storage type value for the
vsFramer tables.
|
| vsFramerInterfaceName |
.1.3.6.1.4.1.562.2.4.1.80.2.10.1.1 |
|
This attribute contains a hardware component name.
The attribute associates the application with a specific link. This
defines the module processor on which Framer's parent component
(as well as Framer itself) will run.
|
| vsFramerMaxVoiceBitRate |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.1 |
|
This attribute specifies the maximum desired ingress bit rate used
during voice traffic when voiceEncoding is g711G726.
The negotiated maximum ingress voice rate is available in
negotiatedIgRates.
maxVoiceG711G726Rate can be set to 16 only if this Voice Service
is running on a DS1V, E1V, 1pDS1V, 1pE1V or J2MV card.
|
| vsFramerMinVoiceBitRate |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.2 |
|
This attribute specifies the minimum desired ingress bit rate used
during voice traffic when voiceEncoding is g711G726.
The negotiated minimum ingress voice rate is available in
negotiatedIgRates.
minVoiceG711G726Rate defaults to 24 if the voiceCompressor or
vtds feature is present. Otherwise, minVoiceG711G726Rate defaults
to 64.
|
| vsFramerMaxModemBitRate |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.3 |
|
This attribute specifies the maximum desired ingress rate used
during modemFax and/or fax traffic.
Voice traffic is all traffic from the start of a call or speech until a
2100 Hz tone or call release. ModemFax traffic is all traffic after a
2100 Hz tone but before a fax preamble, speech or call release. Fax
traffic is all traffic after a fax preamble but before speech or call
release.
If modemFaxEncoding is g711G726,
maxModemFaxG711G726Rate specifies the maximum rate used
during modemFax traffic and fax traffic.
If modemFaxEncoding is faxRelayG711G726,
maxModemFaxG711G726Rate specifies the maximum rate used
during modemFax traffic only.
If modemFaxEncoding is faxRelayOnly or useVoiceEncoding,
maxModemFaxG711G726Rate is ignored.
The negotiated maximum ingress modemFax and fax rates are
available in negotiatedIgRates.
maxModemFaxG711G726Rate can be set to 16 or 24 only if this
voice service is running on a DS1V, E1V, 1pDS1V, 1pE1V or J2MV
card.
|
| vsFramerMinModemBitRate |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.4 |
|
This attribute specifies the minimum desired ingress rate used
during modemFax and/or fax traffic.
Voice traffic is all traffic from the start of a call or speech until a
2100 Hz tone or call release. ModemFax traffic is all traffic after a
2100 Hz tone but before a fax preamble, speech or call release. Fax
traffic is all traffic after a fax preamble but before speech or call
release.
If modemFaxEncoding is g711G726, minModemFaxG711G726Rate
specifies the minimum desired rate used during modemFax traffic
and fax traffic.
If modemFaxEncoding is faxRelayG711G726,
minModemFaxG711G726Rate specifies the minimum desired rate
used during modemFax traffic only.
If modemFaxEncoding is faxRelayOnly or useVoiceEncoding,
minModemFaxG711G726Rate is ignored.
The negotiated minimum ingress modemFax and fax rates are
available in negotiatedIgRates.
minModemFaxG711G726Rate defaults to 32 if the
voiceCompressor or vtds feature is present. Otherwise,
minModemFaxG711G726Rate defaults to 64.
|
| vsFramerAudioGain |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.5 |
|
This attribute has been migrated to egressAudioGain.
|
| vsFramerSilenceSuppression |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.6 |
|
This attribute specifies when ingress silence suppression is desired
during voice traffic.
If silenceSuppression is off, silence suppression is never desired.
If silenceSuppression is on, silence suppression is always desired.
If silenceSuppression is congested, silence suppression is desired
only when the network is congested.
If silenceSuppression is slow, silence suppression is desired only
after 20 seconds without audio.
If silenceSuppression is slowAndCongested, both the slow and
congested options are desired.
If silenceSuppression is casIdleCode, the silence suppression is
only desired when the idleCode is active for 20 to 40 seconds.
casSignalling must be set to interpret if silenceSuppression is set to
casIdleCode. silenceSuppression can be set to casIdleCode only if
this VoiceService is running on a DS1V, E1V, 1pDS1V, 1pE1V or
J2MV card.
The negotiated ingress silence suppression is available in
negotiatedIgSilenceSuppression.
If the silenceSuppressor or vtds feature is present,
silenceSuppression defaults to on. Otherwise, silenceSuppression
defaults to off.
|
| vsFramerEchoCancellation |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.7 |
|
This attribute specifies whether echo cancellation is performed on
this VoiceService. If echoCancellation is on, the internal echo
canceller is enabled and echo cancellation is performed. If
echoCancellation is off, the internal echo canceller is placed in
transparent bypass mode and echo cancellation is never performed.
If the echoCancellor or vtds feature is present, echoCancellation
defaults to on. Otherwise echoCancellation defaults to off.
|
| vsFramerALawConversion |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.9 |
|
This attribute specifies whether mu-law to A-law PCM conversion
is performed. aLawConversion only needs to be set to on when this
voice service is running on a DS1V or 1pDS1V FP and the
VoiceService at the remote end of the connection is running on an
E1V or 1pE1V FP using a software release prior to 5.0. If the
remote end software release is 5.0 or later, end to end negotiation
determines the compander law to use at each end of the connection.
In this case, the value of aLawConversion is ignored.
|
| vsFramerVoiceEncoding |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.11 |
|
This attribute specifies how ingress voice traffic is encoded.
If voiceEncoding is g711G726, ingress voice traffic is encoded
using either pulse code modulation (PCM) defined by ITU-T G.711
or adaptive differential pulse code modulation (ADPCM) defined by
ITU-T G.726. The actual encoding and rates performed depends on
congestion in the network and the minimum and maximum
negotiated ingress voice rates in negotiatedIgRates.
If voiceEncoding is g728at16, ingress voice traffic is encoded using
the Low Delay Coded Excited Linear Predictive Coder (LD-CELP)
algorithm defined by ITU-T G.728. If voiceEncoding is g728at16,
the bit rate of all voice traffic is fixed at 16 kbit/s.
minVoiceG711G726Rate and maxVoiceG711G726Rate do not apply
if voiceEncoding is g728at16.
If voiceEncoding is g729at8, ingress voice traffic is encoded using
the Conjugated Structure Algebraic Code Excited Linear Predictive
Coder (CS-ACELP) algorithm defined by ITU-T G.729. If
voiceEncoding is g729at8, the bit rate of all voice traffic is fixed at
8 kbit/s. minVoiceG711G726Rate and maxVoiceG711G726Rate do
not apply if voiceEncoding is g729at8.
The current ingress encoding and encoding rate are available in
currentEncoding and currentRate.
voiceEncoding cannot be set to g728at16 or g729at8 if this
VoiceService is running on a DS1V, E1V, 1pDS1V, 1pE1V or J2MV
card. Also, voiceEncoding can only be set to g728at16 or g729at8 if
the corresponding feature exists in the featureList of the Sw Lpt.
The negotiated ingress voice encoding is available in
negotiatedIgEncoding.
voiceEncoding must have the same value at both ends of a
VoiceService. If voiceEncoding does not have the same value at
both ends of a VoiceService, the VoiceService will be out of service.
In this case, serviceFailureReason is mismatchedVoiceEncoding.
|
| vsFramerFaxEncoding |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.12 |
|
This attribute specifies how ingress modemFax and fax traffic are
encoded.
Voice traffic is all traffic from the start of a call or speech until a
2100 Hz tone or call release. ModemFax traffic is all traffic after a
2100 Hz tone but before a fax preamble, speech or call release. Fax
traffic is all traffic after a fax preamble but before speech or call
release.
If modemFaxEncoding is useVoiceEncoding, all ingress traffic is
treated like voice traffic and encoded according to voiceEncoding. If
voiceEncoding is g728at16 or g729at8, modem and fax calls are not
supported.
If modemFaxEncoding is g711G726, ingress modemFax traffic and
fax traffic are both encoded using pulse code modulation (PCM)
defined by ITU-T G.711 or adaptive differential pulse code
modulation (ADPCM) defined by ITU-T G.726. The actual
encoding and rates performed depends on congestion in the network
and the minimum and maximum ingress modemFax rates in
negotiatedIgRates.
If modemFaxEncoding is faxRelayG711G726, ingress modemFax
traffic is encoding using G.711 or G.726, exactly as it is if
modemFaxEncoding is g711G726. Until a fax preamble is detected,
the rate may fluctuate between the minimum and maximum
modemFax rates in negotiatedIgRates due to network congestion,
exactly as it does if modemFaxEncoding is g711G726. If a fax
preamble is detected, all subsequent traffic during a call is
demodulated and sent through the network as cells at the base rate
of the sending machine. Supported demodulation methods are V.29
(up to 9.6 kbit/s) and V.27 (up to 4.8 kbit/s). The modulation and
demodulation of fax traffic is called 'fax relay'.
If modemFaxEncoding is faxRelayOnly, 'fax relay' is entered
immediately upon 2100 Hz tone detection and modemFax traffic is
treated like fax traffic. If modemFaxEncoding is faxRelayOnly,
modem calls are not supported.
The negotiated ingress modemFax and fax encodings are available
in negotiatedIgEncoding.
modemFaxEncoding cannot be set to faxRelayG711G726 or
faxRelayOnly if this voice service is running on a DS1V, E1V,
1pDS1V, 1pE1V or J2MV card. The faxRelay feature is required to
set modemFaxEncoding to faxRelayG711G726 or faxRelayOnly.
modemFaxEncoding must have the same value at both ends of a
VoiceService. If modemFaxEncoding does not have the same value
at both ends of a VoiceService, the VoiceService will be out of
service. In this case, serviceFailureReason is
mismatchedModemFaxEncoding.
|
| vsFramerTandemPassThrough |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.13 |
|
This attribute specifies whether tandem pass through is desired. If
tandemPassThrough is enabled, tandem pass through is used if
possible. If tandemPassThrough is disabled, tandem pass through is
not used under any circumstances.
The negotiated tandem pass through is available in
negotiatedTandemPassThrough.
The actual state of tandem pass through is available in tptStatus.
tandemPassThrough can be set to enabled only if the
tandemPassThrough feature exists in the featureList of the Sw Lpt.
|
| vsFramerInsertedOutputDelay |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.14 |
|
This attribute specifies the amount of added output delay used to
compensate for cross network delay variations. It applies to voice,
modem and fax traffic. It is required to add output delay so that the
statistical variation in the transit time of cells crossing the network
does not cause gaps in speech. Backbone networks where high
priority traffic consumes a high percentage of trunk bandwidth will
require a higher insertedOutputDelay to compensate for the greater
cell delay variation (CDV).
insertedOutputDelay must be default if this voice service is running
on a DS1V, E1V, 1pDS1V, 1pE1V or J2MV card. On all other
cards, insertedOutputDelay can be set to any value. On these cards,
default is equivalent to 22.
|
| vsFramerEgressAudioGain |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.15 |
|
This attribute has been migrated to ingressAudioGain.
|
| vsFramerFaxIdleSuppressionG711G726 |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.16 |
|
This attribute specifies whether ingress fax idle suppression is
desired during G.711 and G.726 fax traffic. It applies only if
modemFaxEncoding is g711G726 or faxRelayG711G726.
The negotiated ingress G.711/G.726 fax idle suppression is
available in negotiatedIgFisG711G726.
If the silenceSuppressor or vtds feature is present,
faxIdleSuppressionG711G726 defaults to on. Otherwise,
faxIdleSuppressionG711G726 defaults to off.
|
| vsFramerEndOfCallPattern |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.17 |
|
This attribute specifies the pattern that indicates the end of a CCS
call. The pattern is specified as a hexadecimal byte. If this pattern is
detected for one second, the echo canceler is reset and will prepare
itself to start a new call. When there is no call, this pattern replaces
the PCM data that would normally be sent to the link.
endOfCallPattern is not used if this VoiceService is running on a
DS1V, E1V, 1pDS1V, 1pE1V and J2MV card.
To determine the correct setting of endOfCallPattern, view the
operational attribute recentIngressLineSamples while no calls are
up.
If endOfCallPattern is standard, the actual pattern used depends on
the card this voice service is running on. If this voice service is
running on a 1pDs1Mvp, 1pDS1Mvpe, 1pTTC2mMvp or
1pTTC2mMvpe card, the actual pattern used is 7f. If this voice
service is running on a 1pE1Mvp or 1pE1Mvpe card, the actual
pattern used is 54.
The default value for endOfCallPattern is standard.
|
| vsFramerIngressAudioGain |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.18 |
|
This attribute specifies the gain in dB that is applied to data coming
from outside the network before it is transferred across the network.
It applies to voice, modem and fax traffic. For example, ingress gain
is applied to audio data coming from a PBX. If ingressAudioGain is
negative, a loss is applied.
If this voice service is running on a DS1V, E1V, 1pDS1V, 1pE1V or
J2MV card, ingressAudioGain must be set to 0. If this voice service
is running on any other cardtype, ingressAudioGain can be set to
any integral value from -12 to +12.
ingressAudioGain and egressAudioGain are used in loss planning,
which is the configuration of the devices in the network to ensure
that the signal level from any point in the network to any other point
is correct.
|
| vsFramerEgressGain |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.19 |
|
This attribute specifies the gain in dB that is applied to data before it
leaves the network. It applies to voice, modem and fax traffic. For
example, egress gain is applied to audio data going to a PBX. If
egressAudioGain is negative, a loss is applied.
If this voice service is running on a DS1V, E1V, 1pDS1V, 1pE1V or
J2MV card, egressAudioGain can be set to -6, -4, -2, 0, 2, 4 or 6. If
this voice service is running on any other cardType,
egressAudioGain can be set to any integral value from -12 to +12.
ingressAudioGain and egressAudioGain are used in loss planning,
which is the configuration of the devices in the network to ensure
that the signal level from any point in the network to any other point
is correct.
|
| vsFramerComfortNoiseCap |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.20 |
|
This attribute specifies the maximum level at which comfort noise is
generated. The comfort noise is limited by comfortNoiseCap before
egressAudioGain is applied. The default value of -40 dBm0 equates
to the maximum level of comfort noise available and effectively
disables the comfortNoiseCap.
|
| vsFramerEchoTailDelay |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.21 |
|
This attribute specifies the maximum echo canceller tail delay
coverage. It should be selected higher than the summation of the
round trip delay of echo and hybrid response time. A 32 msec
setting is good for a radius of 2700 km, assuming that the signal is
going through 4 exchanges and the hybrid response time is 6 msec.
A 64 msec setting offers even greater coverage (more distance or
more switches), with comparable convergence time. The
recommended setting is 64 msec. This attribute is not used if this
VoiceService is running on a DS1V, E1V, 1pDS1V, 1pE1V, J2MV,
1pE1Mvp, 1pDS1Mvp, or 1pTTC2mMvp cards.
|
| vsFramerEchoReturnLoss |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.22 |
|
This attribute specifies the echo return loss parameter of the echo
canceller. 0 db is the normal value for most line conditions. If the
line quality is poor, in terms of echo, selecting a higher value may
allow the echo canceller to perform better. A side effect is that the
voice level is attenuated by the same amount, which may not always
be acceptable. This attribute is not used if this VoiceService is
running on a DS1V, E1V, 1pDS1V, 1pE1V, J2MV, 1pE1Mvp,
1pDS1Mvp, or 1pTTC2mMvp card.
|
| vsFramerDtmfRegeneration |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.34 |
|
This attribute specifies the DTMF regeneration parameter used
during negotiation with the remote end across the subnet.
If dtmfRegeneration is on, it is desired that DTMF tones received
from the link are first converted to digits before being sent to the
subnet. When a digit is received from the subnet, its respective
DTMF tone is desired to be generated before being sent to the link.
If dtmfRegeneration is off, DTMF tones are transported
transparently.
DTMF regeneration is not supported on 1pDS1V, 1pE1V, and
J2MV cards. dtmfRegeneration must be off if this VoiceService is
running on one of these cards.
The negotiated DTMF regeneration is available in
negotiatedDtmfRegeneration.
|
| vsFramerSpeechHangoverTime |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.35 |
|
This attribute specifies the time after the end of speech before
silence suppression starts. It applies only to voice traffic. It is not
used unless negotiatedIgSilenceSuppression is on, congested or
slowAndCongested.
Higher values of speechHangoverTime reduce undesirable clipping
but increase bandwidth usage.
speechHangoverTime is not used if this VoiceService is running on
a DS1V, E1V, 1pDS1V, 1pE1V or J2MV card.
|
| vsFramerFaxHangoverTimeG711G726 |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.36 |
|
This attribute specifies the time after the end of fax traffic before
ingress G.711/G.726 fax idle suppression starts. It applies only if
modemFaxEncoding is g711G726 or faxRelayG711G726 and
negotiatedIgFisG711G726 is on.
faxHangoverTimeG711G726 is not used if this VoiceService is
running on a DS1V, E1V, 1pDS1V, 1pE1V and J2MV card.
|
| vsFramerModemFaxSpeechDiscrim |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.37 |
|
This attribute specifies whether this VoiceService differentiates
modemFax traffic and speech. If modemFaxSpeechDiscrim is on
and a false 2100 Hz tone is detected, this VoiceService reverts to
speech mode when speech is detected.
modemFaxSpeechDiscrim is not used if this VoiceService is running
on a DS1V, E1V, 1pDS1V, 1pE1V and J2MV card.
|
| vsFramerV17EncodedAsG711G726 |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.39 |
|
This attribute specifies the desired negotiation between this
VoiceService and V.17 fax machines when modemFaxEncoding is
faxRelayG711G726. This attribute is not used unless
modemFaxEncoding is faxRelayG711G726.
The actual negotiation between this VoiceService and V.17 fax
machines is available in negotiatedV17AsG711G726.
If v17EncodedAsG711G726 is no, it is desired that V.17 fax
machines be instructed to use V.29 so that V.29 fax traffic sent by
fax machines can be demodulated and encoded using fax relay.
If v17EncodedAsG711G726 is yes, it is desired that V.17 fax
machines be permitted to use V.17 so that V.17 fax traffic sent by
fax machines can be encoded using G.711 or G.726. The actual
encoding performed depends on network congestion and the
negotiated ingress modemFax rates, available in negotiatedIgRates.
|
| vsFramerEcanBypassMode |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.40 |
|
This attribute specifies when version 2 internal echo cancellers are
placed in bypass mode on this VoiceService. This attribute only
applies if echoCancellation is on. If ecanBypassMode is g165, the
internal echo canceller is placed in bypass mode as per ITU-T
G.165. If ecanBypassMode is g164, the internal echo canceller is
placed in bypass mode as per ITU-T G.164. If ecanBypassMode is
never, the internal echo canceller is never placed in bypass mode.
This mode should only be used for debugging.
This attribute does not apply to 1pE1V, 1pDS1V, J2MV, 1pE1Mvp,
1pDS1Mvp, or 1pTTC2mMvp cards.
|
| vsFramerMaxFaxRelayRate |
.1.3.6.1.4.1.562.2.4.1.80.2.12.1.41 |
|
This attribute specifies the maximum desired fax relay rate. This
attribute only applies if modemFaxEncoding is faxRelayOnly or
faxRelayG711G726. The maximum fax relay rate is negotiated and
depends on the setting of maxFaxRelayRate and the fax relay
capabilities on the origination side and destination side. If the
negotiated fax encoding in negotiatedIgEncoding is relay, the
negotiated maximum fax relay rate is available in the fax row of
negotiatedIgRates.
|
| vsFramerTransmitBusyYellow |
.1.3.6.1.4.1.562.2.4.1.80.2.13.1.1 |
|
When this attribute is set to yes and the DS1 or E1 line is set to
Channel Associated Signaling (CAS) mode, a 'busy-out' signaling
condition is transmitted onto the voice timeslot associated with this
Framer when its path across the network is down. The busy-out
code transmitted is given by the seizeCode attribute. If
transmitBusyYellow is set to yes on a CAS-based interface,
seizeCode must be set. When transmitBusyYellow is set to yes and
the DS1 or E1 line is set to Common Channel Signaling (CCS)
mode, a yellow alarm condition is transmitted onto the DS1/E1 line
when the path across the network associated with this Framer is
down. Note that in CCS mode, a yellow alarm condition is
transmitted when the path is down for any of the Framers with this
attribute set to yes.
|
| vsFramerTransportSignalling |
.1.3.6.1.4.1.562.2.4.1.80.2.13.1.2 |
|
This attribute, in combination with interpretSignalling, has been
migrated to casSignalling.
|
| vsFramerInterpretSignalling |
.1.3.6.1.4.1.562.2.4.1.80.2.13.1.3 |
|
This attribute, in combination with transportSignalling, has been
migrated to casSignalling.
|
| vsFramerInvertBits |
.1.3.6.1.4.1.562.2.4.1.80.2.13.1.4 |
|
This attribute specifies whether the ABCD bits are inverted before
being output onto the link.
|
| vsFramerSignalBits |
.1.3.6.1.4.1.562.2.4.1.80.2.13.1.5 |
|
This attribute identifies the combination of ABCD bits used for
channel associated signalling.
If casSignalling is transparent, signalBits must have the same value
at both ends of a Vs. If casSignalling is transparent and signalBits
does not have the same value at both ends of a Vs, the Vs will be out
of service. In this case, Vs serviceFailureReason is
mismatchedSignalBits.
|
| vsFramerTransmitCasYellow |
.1.3.6.1.4.1.562.2.4.1.80.2.13.1.7 |
|
When the associated DS1 or E1 line is operating in CCS mode, this
attribute is not applicable, and must be set to no.
Normally, all the VoiceService Framers associated with the same
DS1 or E1 line should have the same value for this attribute. When
the value is yes on all VoiceService Framers, a yellow alarm will be
asserted on the port whenever loss of subnet connectivity occurs for
all these VoiceServices. This will prevent the external equipment
from using this port for call attempts.
If this attribute is set to no for all VoiceService Framers associated
with a DS1 or E1 line, a yellow alarm will never be asserted on the
line for subnet connectivity reasons, agreeing with DS1/E1 port
standards.
If some VoiceService Framers associated with the same DS1 or E1
line have this value set to yes, and some no, a yellow alarm will be
asserted on the line only if there are subnet connectivity problems
for all the VoiceService Framers with the attribute
transmitCasYellow set to yes. The VoiceService Framers with this
attribute set to no will have no effect on whether a yellow alarm
should be asserted on the line.
|
| vsFramerCasSignalling |
.1.3.6.1.4.1.562.2.4.1.80.2.13.1.8 |
|
This attribute specifies how channel associated signalling
information is transported through the network.
none specifies that channel associated signalling information is not
transported through the network.
transparent specifies signalling information is transported
transparently through the network. transparent can be used when
both sides are using equivalent signalling tables.
interpret specifies signalling information is interpreted for idle and
seize codes. interpret can be used when both sides are not using
equivalent signalling tables but only require two unique codes (seize
and idle) for signalling.
Using a value of interpret requires correct idleCode and seizeCode
attributes. interpret mode must be used if silenceSuppression is set
to casIdleCode.
|
| vsFramerAdminState |
.1.3.6.1.4.1.562.2.4.1.80.2.14.1.1 |
|
This attribute indicates the OSI Administrative State of the
component.
The value locked indicates that the component is administratively
prohibited from providing services for its users. A Lock or Lock -
force command has been previously issued for this component.
When the value is locked, the value of usageState must be idle.
The value shuttingDown indicates that the component is
administratively permitted to provide service to its existing users
only. A Lock command was issued against the component and it is
in the process of shutting down.
The value unlocked indicates that the component is administratively
permitted to provide services for its users. To enter this state, issue
an Unlock command to this component.
|
| vsFramerOperationalState |
.1.3.6.1.4.1.562.2.4.1.80.2.14.1.2 |
|
This attribute indicates the OSI Operational State of the component.
The value enabled indicates that the component is available for
operation. Note that if adminState is locked, it would still not be
providing service.
The value disabled indicates that the component is not available for
operation. For example, something is wrong with the component
itself, or with another component on which this one depends. If the
value is disabled, the usageState must be idle.
|
| vsFramerUsageState |
.1.3.6.1.4.1.562.2.4.1.80.2.14.1.3 |
|
This attribute indicates the OSI Usage State of the component.
The value idle indicates that the component is not currently in use.
The value active indicates that the component is in use and has
spare capacity to provide for additional users.
The value busy indicates that the component is in use and has no
spare operating capacity for additional users at this time.
|
| vsFramerTotalCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.1 |
|
This attribute counts total cells received from the interface.
Each cell contains 44 bytes of data from the DS0 channel. Since a
DS0 provides data at 64 kbit/s, each cell contains 5.5 ms of audio
data.
This data flow is measured before compression is performed on the
channel.
This counter wraps to zero after reaching its maximum value.
|
| vsFramerAudioCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.2 |
|
This attribute counts total cells containing audio data received from
the interface. Audio data includes cells containing voice as well as
modem audio but not silence.
A cell contains 44 bytes of data from the DS0 channel(5.5 ms).
This flow is measured before compression is performed on the
channel.
This counter wraps to zero after reaching its maximum value.
|
| vsFramerSilenceCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.4 |
|
This attribute counts total cells containing silence (speech or
modem/fax) data received from the interface which was not
forwarded into the network, thus saving bandwidth. A channel may
go into silence due to the operation of the silence suppression
feature (refer to the silenceSuppression attribute) or for CAS
channels when the ABCD signalling bits go idle.
A cell contains 44 bytes of data from the DS0 channel(5.5 ms).
This flow is measured before compression is performed on the
channel.
This counter wraps to zero after reaching its maximum value.
|
| vsFramerModemCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.5 |
|
This attribute is migrated into modemFaxCells.
|
| vsFramerCurrentEncodingRate |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.6 |
|
This attribute has been migrated to currentRate in Operational
group.
|
| vsFramerLrcErrors |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.7 |
|
This attribute counts the number of frames with LRC errors that are
received from the network.
|
| vsFramerFrmLostInNetwork |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.8 |
|
This attribute counts the number of frames which the service knows
it did not receive from the network although they were sent in to the
network from the remote end.
|
| vsFramerFrmUnderRuns |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.9 |
|
This attribute counts the number of times that a frame was needed
but was not available because it had been delayed too long in the
network.
This error may occur repeatedly if the interface clocks at the two
access points to the network are operating at different rates.
|
| vsFramerFrmDumped |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.10 |
|
This attribute counts the number of frames which have been
dumped because the output queue grew too large. This can occur if
the clock rate on the incoming interface is faster than the clock rate
on the outgoing interface and there are no silence periods to absorb
the difference or when a compression rate change occurs.
This count wraps to zero after reaching its maximum value.
|
| vsFramerModemSilenceCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.26 |
|
This attribute is migrated into faxIdleCells.
|
| vsFramerTptStatus |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.27 |
|
This attribute has been migrated to tptStatus in Operational group.
|
| vsFramerCurrentEncoding |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.28 |
|
This attribute has been migrated to currentEncoding in Operational
group.
|
| vsFramerRecentIngressLineSamples |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.29 |
|
This attribute has been migrated to recentIngressLineSamples in
Operational group.
|
| vsFramerSentMinVoiceG711G726Rate |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.30 |
|
This attribute has been migrated to negotiatedIgRates.
|
| vsFramerSentMinModemFaxG711G726Rate |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.31 |
|
This attribute has been migrated to negotiatedIgRates.
|
| vsFramerSentFaxIdleSuppressionG711G726 |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.32 |
|
This attribute has been migrated to negotiatedIgFisG711G726.
|
| vsFramerSentSilenceSuppression |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.33 |
|
This attribute has been migrated to negotiatedIgSilenceSuppression.
|
| vsFramerFaxRelayCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.42 |
|
This attribute counts total fax relay cells sent to the network.
|
| vsFramerModemFaxCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.43 |
|
This attribute counts total cells containing modem or fax data
received from the interface.
A cell contains 44 bytes of data from the DS0 channel (5.5 ms).
This flow is measured before compression is performed on the
channel.
This counter wraps to zero after reaching its maximum value.
|
| vsFramerFaxIdleCells |
.1.3.6.1.4.1.562.2.4.1.80.2.15.1.44 |
|
This attribute counts total cells containing silent modem or fax data
received from the interface which was not forwarded into the
network, thus saving bandwidth. A channel may go into silence due
to the silence Suppression feature (refer to the silenceSuppression
attribute) or for CAS channels when the ABCD signalling bits go
idle.
A cell contains 44 bytes of data from the DS0 channel (5.5 ms).
This flow is measured before compression is performed on the
channel.
This counter wraps to zero after reaching its maximum value.
|
| vsFramerNegotiatedIgSilenceSuppression |
.1.3.6.1.4.1.562.2.4.1.80.2.16.1.1 |
|
This attribute indicates the result of negotiating ingress silence
suppression with the remote end across the subnet. The parameter
used for negotiating with the remote end is provisioned in
silenceSuppression.
negotiatedIgSilenceSuppression can be different on either side of a
VoiceService.
If negotiatedIgSilenceSuppression is off, ingress silence suppression
is never performed.
If negotiatedIgSilenceSuppression is on, ingress silence suppression
is always performed.
If negotiatedIgSilenceSuppression is congested, ingress silence
suppression is performed only when the network is congested.
If negotiatedIgSilenceSuppression is slow, ingress silence
suppression begins after 20 seconds without any speech or audio
being detected.
If negotiatedIgSilenceSuppression is slowAndCongested, both the
slow and congested options are applied.
If negotiatedIgSilenceSuppression is casIdleCode, ingress silence
suppression is only performed when the idleCode is active for 20 to
40 seconds. Both transportSignalling and interpretSignalling must
be set to yes if silenceSuppression is set to casIdleCode.
|
| vsFramerNegotiatedIgFisG711G726 |
.1.3.6.1.4.1.562.2.4.1.80.2.16.1.2 |
|
This attribute indicates the result of negotiating ingress
G.711/G.726 fax idle suppression with the remote end across the
subnet. The parameter used for negotiating with the remote end is
provisioned in faxIdleSuppressionG711G726.
The value of negotiatedIgFisG711G726 can be different on either
side of the connection.
|
| vsFramerNegotiatedDtmfRegeneration |
.1.3.6.1.4.1.562.2.4.1.80.2.16.1.3 |
|
This attribute indicates the result of negotiating DTMF regeneration
with the remote end across the subnet. The parameter used for
negotiating with the remote end is provisioned in dtmfRegeneration.
If negotiatedDtmfRegeneration is on, DTMF tones received from
the link are first converted to digits before being sent to the subnet.
When a digit is received from the subnet, its respective DTMF tone
is generated before being sent to the link.
If negotiatedDtmfRegeneration is off, DTMF tones are transported
transparently.
|
| vsFramerNegotiatedV17AsG711G726 |
.1.3.6.1.4.1.562.2.4.1.80.2.16.1.4 |
|
This attribute indicates how this VoiceService negotiates with V.17
fax machines, as determined by negotiation with the remote end
across the subnet. The parameter used for negotiating with the
remote end is provisioned in v17EncodedAsG711G726. This
attribute is irrelevant unless modemFaxEncoding is
faxRelayG711G726.
If negotiatedV17AsG711G726 is no, V.17 fax machines are
instructed to use V.29, and V.29 fax traffic sent by fax machines is
demodulated and encoded using fax relay.
If negotiatedV17AsG711G726 is yes, V.17 fax machines are
permitted to use V.17 and V.17 fax traffic sent by fax machines is
encoded using G.711 or G.726, at the rates given in
negotiatedIgRates.
|
| vsFramerNegotiatedTandemPassThrough |
.1.3.6.1.4.1.562.2.4.1.80.2.16.1.5 |
|
This attribute indicates the result of negotiating tandem pass
through with the remote end across the subnet. The parameter used
for negotiating with the remote end is provisioned in
tandemPassThrough.
|
| vsFramerOpCurrentEncoding |
.1.3.6.1.4.1.562.2.4.1.80.2.17.1.1 |
|
This attribute indicates the encoding currently being performed.
g711 indicates that pulse code modulation (PCM) defined by ITU-T
G.711 is being performed. g726 indicates that adaptive differential
pulse code modulation (ADPCM) defined by ITU-T G.726 is being
performed. g728 indicates that the Low Delay Coded Excited
Linear Predictive Coder (LD-CELP) algorithm defined by ITU-T
G.728 is being performed. g729 indicates that the Conjunctive
Structure Algebraic Code Excited Linear Predictive Coder
(CS-ACELP) algorithm defined by ITU-T G.729 is being
performed. v27 indicates that the algorithm defined by ITU-T V.27
is being performed. v29 indicates that the algorithm defined by
ITU-T V.29 is being performed.
|
| vsFramerCurrentRate |
.1.3.6.1.4.1.562.2.4.1.80.2.17.1.2 |
|
This attribute indicates the current encoding rate for frames being
sent to the network.
|
| vsFramerOpTptStatus |
.1.3.6.1.4.1.562.2.4.1.80.2.17.1.3 |
|
This attribute indicates the current status of the tandem pass through
algorithm. If tptStatus is operating, the tandem pass through
algorithm is cutting through a voice switch. If tptStatus is
monitoring, negotiatedTandemPassThrough is enabled, but the
tandem pass through algorithm is not cutting through a voice
switch. If tptStatus is disabled, negotiatedTandemPassThrough is
disabled.
|
| vsFramerOpRecentIngressLineSamples |
.1.3.6.1.4.1.562.2.4.1.80.2.17.1.4 |
|
This attribute indicates two recent ingress line samples, represented
as four hex digits. The first two hex digits give one sample. The last
two hex digits give the other sample. If no call is up on this voice
service's channel, each sample indicates the idle pattern sent by the
adjoining PBX. Therefore, the two samples should be the same if no
call is up on this voice service's channel. These samples should also
be consistent each time recentIngressLineSamples is displayed, as
long as no call is up on this voice service's channel. It indicates a
fault on the PBX if the samples are not consistent when no call is up
on this voice service's channel.
If no call is up on this VoiceService's channel and the two samples
are the same, each sample gives the correct setting of the
provisionable attribute endOfCallPattern. Note that
endOfCallPattern is not used if this VoiceService is running on a
DS1V, E1V, 1pDS1V, 1pE1V and J2MV card. On these cards,
recentIngressLineSamples is always 0000.
|
| vsFramerIdleCodeIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.204.1.1 |
|
This variable represents the vsFramerIdleCodeTable
specific index for the vsFramerIdleCodeTable.
|
| vsFramerIdleCodeValue |
.1.3.6.1.4.1.562.2.4.1.80.2.204.1.2 |
|
This variable represents an individual value for the
vsFramerIdleCodeTable.
|
| vsFramerSeizeCodeIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.205.1.1 |
|
This variable represents the vsFramerSeizeCodeTable
specific index for the vsFramerSeizeCodeTable.
|
| vsFramerSeizeCodeValue |
.1.3.6.1.4.1.562.2.4.1.80.2.205.1.2 |
|
This variable represents an individual value for the
vsFramerSeizeCodeTable.
|
| vsFramerFrmToNetworkIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.206.1.1 |
|
This variable represents the vsFramerFrmToNetworkTable
specific index for the vsFramerFrmToNetworkTable.
|
| vsFramerFrmToNetworkValue |
.1.3.6.1.4.1.562.2.4.1.80.2.206.1.2 |
|
This variable represents an individual value for the
vsFramerFrmToNetworkTable.
|
| vsFramerNEncodingIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.438.1.1 |
|
This variable represents the vsFramerNEncodingTable
specific index for the vsFramerNEncodingTable.
|
| vsFramerNEncodingValue |
.1.3.6.1.4.1.562.2.4.1.80.2.438.1.2 |
|
This variable represents an individual value for the
vsFramerNEncodingTable.
|
| vsFramerNRatesTrafficIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.439.1.1 |
|
This variable represents the next to last index for the
vsFramerNRatesTable.
|
| vsFramerNRatesRateIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.439.1.2 |
|
This variable represents the final index for the
vsFramerNRatesTable.
|
| vsFramerNRatesValue |
.1.3.6.1.4.1.562.2.4.1.80.2.439.1.3 |
|
This variable represents an individual value for the
vsFramerNRatesTable.
|
| vsFramerVfpDebugIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.5.1.1.10 |
|
This variable represents the index for the vsFramerVfpDebug tables.
|
| vsFramerVfpDebugRowStatus |
.1.3.6.1.4.1.562.2.4.1.80.2.5.1.1.1 |
|
This variable is used as the basis for SNMP naming of
vsFramerVfpDebug components.
These components cannot be added nor deleted.
|
| vsFramerVfpDebugComponentName |
.1.3.6.1.4.1.562.2.4.1.80.2.5.1.1.2 |
|
This variable provides the component's string name for
use with the ASCII Console Interface
|
| vsFramerVfpDebugStorageType |
.1.3.6.1.4.1.562.2.4.1.80.2.5.1.1.4 |
|
This variable represents the storage type value for the
vsFramerVfpDebug tables.
|
| vsFramerMvpDebugIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.6.1.1.10 |
|
This variable represents the index for the vsFramerMvpDebug tables.
|
| vsFramerMvpDebugRowStatus |
.1.3.6.1.4.1.562.2.4.1.80.2.6.1.1.1 |
|
This variable is used as the basis for SNMP naming of
vsFramerMvpDebug components.
These components cannot be added nor deleted.
|
| vsFramerMvpDebugComponentName |
.1.3.6.1.4.1.562.2.4.1.80.2.6.1.1.2 |
|
This variable provides the component's string name for
use with the ASCII Console Interface
|
| vsFramerMvpDebugStorageType |
.1.3.6.1.4.1.562.2.4.1.80.2.6.1.1.4 |
|
This variable represents the storage type value for the
vsFramerMvpDebug tables.
|
| vsFramerPcmCaptureIndex |
.1.3.6.1.4.1.562.2.4.1.80.2.7.1.1.10 |
|
This variable represents the index for the vsFramerPcmCapture tables.
|
| vsFramerPcmCaptureRowStatus |
.1.3.6.1.4.1.562.2.4.1.80.2.7.1.1.1 |
|
This variable is used as the basis for SNMP naming of
vsFramerPcmCapture components.
These components cannot be added nor deleted.
|
| vsFramerPcmCaptureComponentName |
.1.3.6.1.4.1.562.2.4.1.80.2.7.1.1.2 |
|
This variable provides the component's string name for
use with the ASCII Console Interface
|
| vsFramerPcmCaptureStorageType |
.1.3.6.1.4.1.562.2.4.1.80.2.7.1.1.4 |
|
This variable represents the storage type value for the
vsFramerPcmCapture tables.
|
| vsPlcIndex |
.1.3.6.1.4.1.562.2.4.1.80.3.1.1.10 |
|
This variable represents the index for the vsPlc tables.
|
| vsPlcRowStatus |
.1.3.6.1.4.1.562.2.4.1.80.3.1.1.1 |
|
This variable is used as the basis for SNMP naming of
vsPlc components.
These components cannot be added nor deleted.
|
| vsPlcComponentName |
.1.3.6.1.4.1.562.2.4.1.80.3.1.1.2 |
|
This variable provides the component's string name for
use with the ASCII Console Interface
|
| vsPlcStorageType |
.1.3.6.1.4.1.562.2.4.1.80.3.1.1.4 |
|
This variable represents the storage type value for the
vsPlc tables.
|
| vsPlcRemoteName |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.2 |
|
This attribute is the PLC's remote end point's address in the format
of a Passport component name The syntax of a component is:
'em/node type/instance'. End points are identified using a node
name and a service name. As an example, the end point component
name for the third voice service on node MoonBase is:
'EM/MoonBase VS/3'. If the remoteName is provisioned it must
match the remote name of the other end or the connection will not
be established even if the remote end is provisioned correctly. If no
remoteName is provisioned then this LC will accept connections
from any other remote LC and it will not originate calls.
Connections establish faster and are unique if both ends are
provisioned with the remoteName.
These strings are case insensitive but the complete component name
must be input.
|
| vsPlcSetupPriority |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.3 |
|
This attribute gives the priority at which a path is established. Zero
is the highest priority and four is the lowest. When PORS
establishes a path through the network, it uses the setupPriority
attribute to determine its potential for bumping established paths to
acquire their bandwidth. The holdingPriority, a complementary
attribute of this attribute, indicates the priority a path maintains
once it is established. A new path can bump an existing path if the
new path's setupPriority is higher (numerically less) than the
existing path's holdingPriority.
|
| vsPlcHoldingPriority |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.4 |
|
This attribute gives the priority that a path holds once it is
established. Zero is the highest priority and four is the lowest. A
path's holdingPriority determines its likelihood of being bumped by
a new path to acquire its bandwidth. The setupPriority, a
complementary attribute, indicates the priority of a path at
establishment time. A new path can bump an existing path if the
new path's setupPriority is higher (numerically less) than the
existing path's holdingPriority.
|
| vsPlcRequiredTxBandwidth |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.5 |
|
This attribute gives the bandwidth (in bits per second) reserved by a
path on each of the trunks of its route.This attribute represents the
bandwidth for traffic outgoing to the remote end point. This value
should be chosen to achieve the amount of statistical bandwidth
sharing that is desired by the network administration. This
reservation is not enforced and is used to determine how many paths
can be supported on a trunk. Both ends should be provisioned with
the correct values allowing for the fact that transmit at this end
represents receive at the remote end. Note that when the values do
not correspond, the originating end of the connection determines the
value.
|
| vsPlcRequiredRxBandwidth |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.6 |
|
This attribute gives the bandwidth (in bits per second) reserved by a
path on each of trunks of its route. This attribute represents the
bandwidth for traffic incoming from the remote end point. This
value should be chosen to achieve the amount of statistical
bandwidth sharing that is desired by the network administration.
This reservation is not enforced and is used to determine how many
paths can be supported on a trunk. Both ends should be provisioned
with the correct values allowing for the fact that transmit at this end
represents receive at the remote end. Note that when the values do
not correspond, the originating end of the connection determines the
value.
|
| vsPlcRequiredTrafficType |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.7 |
|
This attribute indicates the type of traffic transmitted over the path.
There are eight possible traffic types, and the path can transmit only
one of them. The originating end of the connection determines the
type. These are arbitrary designations for traffic type. The voice,
data and video traffic types are defined, and five other arbitrary
traffic types can be defined by the network administration. This
attribute is used in the route selection process to restrict the route to
trunks that support this traffic type. The supportedTrafficType trunk
attribute lists all the types of traffic allowed on the trunk. For
example, if requiredTrafficType is specified as trafficType1, then
only trunks that include trafficType1 in supportedTrafficType will
be candidates for this connection.
|
| vsPlcPermittedTrunkTypes |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.8 |
|
This attribute lists up to eight(8) types of trunk that can be used on
the route. The terrestrial and satellite trunk types have been
defined, leaving six(6) remaining arbitrary types that can be defined
by the network administration. The trunk's type is indicated in the
trunkType attribute of the Trunk component. When selecting a
route, PORS only chooses trunks whose trunkType are in the
permittedTrunkTypes for the path.
Description of bits:
terrestrial(0)
satellite(1)
trunkType1(2)
trunkType2(3)
trunkType3(4)
trunkType4(5)
trunkType5(6)
trunkType6(7)
|
| vsPlcRequiredSecurity |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.9 |
|
This attribute indicates the type of traffic transmitted over the path.
There are eight possible traffic types, and the path can transmit only
one of them. The originating end of the connection determines the
type. These are arbitrary designations for traffic type. The voice,
data and video traffic types are defined, and five other arbitrary
traffic types can be defined by the network administration. This
attribute is used in the route selection process to restrict the route to
trunks that support this traffic type. The supportedTrafficType trunk
attribute lists all the types of traffic allowed on the trunk. For
example, if requiredTrafficType is specified as trafficType1, then
only trunks that include trafficType1 in supportedTrafficType will
be candidates for this connection.
|
| vsPlcRequiredCustomerParm |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.10 |
|
This attribute indicates the allowed customer defined parameter of
the trunks on the route. Its value, a number from zero to seven, is
chosen by network administration to have a meaning specific to
their network, thus allowing them to customize the use of their
trunks. A complementary trunk attribute, customerParameter, also
has a value from zero to seven. The route selection process does not
consider trunks whose customerParameter is greater than the
requiredCustomerParameter of the path.
|
| vsPlcPathAttributeToMinimize |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.11 |
|
This attribute indicates whether a route is selected on the basis of
minimizing the cost or the delay. Each trunk has a cost and a delay
metric associated with it. The cost of a selected route is the sum of
the trunk cost metrics for all trunks included in the route. The delay
of a selected route is the sum of the trunk delay metric for all trunks
included in the route.
|
| vsPlcMaximumAcceptableCost |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.12 |
|
This attribute indicates an upper bound on the cost metric of a route,
which is the sum of the cost metrics of all trunks on the route. The
cost metric is the trunkCost attribute of the Trunk component. If for
any trunk the trunkCost is larger than the maximumAcceptableCost,
then that trunk is not considered during the route selection. While a
shortest route is being selected, the route cost is being compared
with the maximumAcceptableCost attribute, and this is done for any
minimization criterion. No route is selected if the cost metric of the
shortest route is larger than the maximumAcceptableCost.
|
| vsPlcMaximumAcceptableDelay |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.13 |
|
This attribute indicates an upper bound on the delay of a route,
which is the sum of the delay of all trunks on the route. It should be
provisioned with a reasonable maximum acceptable delay for the
end to end one way delay of a 512-byte packet. Remember, that the
trunk during its staging measures a measuredRoundTripDelay. This
delay is divided by two and truncated to an integer number of
milliseconds to provide a one way delay which is used to populate
the delay in this trunk object in the topological database. The value
includes emission, propagation, and queuing delays. A 512-byte
packet is used to perform the measurement.
If for any trunk the half of the trunk's measuredRoundTripDelay is
larger than the maximumAcceptableDelay, then that trunk is not
considered during the route selection.
While a shortest route is being selected, the route delay is being
compared with the maximumAcceptableDelay attribute, and this is
done for any minimization criterion. No route is selected if the
delay metric of the shortest route is larger than the
maximumAcceptableDelay.
|
| vsPlcEmissionPriority |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.14 |
|
This attribute indicates the urgency with which packets on the path
are emitted by the trunks on the route. EmissionPriority of Zero(0)
indicates the highest emission priority, while two (2) indicates the
lowest emission priority. Packets with a higher emissionPriority (or
numerically less) are serviced and sent out before the packets of
lower emissionPriority (or numerically higher).
|
| vsPlcDiscardPriority |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.15 |
|
This attribute indicates the importance of the packets on the path.
One is used for paths carrying the most important traffic, and three
is used for paths carrying the least important traffic. Packets with
lower discardPriority(numerically lower) are discarded after
packets with a higher discardPriority(numerically higher).
|
| vsPlcPathType |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.16 |
|
This attribute specifies if the path for this PLC is determined
automatically or by static provisioning. The default (normal) is to
automatically choose a route with Route Selection. Normal
pathTypes require less provisioning and can dynamically handle
path failures. The other pathTypes are both manual pathTypes where
the operator must specify, through provisioning, a static route
termed the manualPath. A manual pathType connection is nearly
identical to a normal path type connection with the exception that
the route is pre-provisioned. For a manual pathType, bandwidth
reservations are respected along the path exactly as in a normal
path. The last type, the forced pathType, is also a manual path but
regardless of the bandwidth available the route is granted provided
the trunks are operational and there are sufficient Logical Channels
(LChs).
The forced pathType could result in over committing the reserved
bandwidth allowed on a trunk. A better way to achieve the effects of
a forced pathType is to use a manual pathType with setupPriority =
0 and holdingPriority = 0. In this manner the path will reserve
correct bandwidth and it will bump other paths if required while not
being bumped itself.
|
| vsPlcPathFailureAction |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.17 |
|
This attribute is used to specify whether the application can tolerate
momentary interruption of a path while a new path is selected. If
disconnectConnection is chosen, the application is informed as
soon as possible about a failure by disconnection. If the attribute is
set to reRoutePath, the path may attempt an immediate reroute,
provided the failure is a recoverable failure. If rerouting fails the
application is informed of the failure.
With this option set to reRoutePath the LCo may wait up to 30
seconds before informing the service of complete disconnection in
order to allow both ends to attempt to reconnect. Note that if PLC
components are different at both ends only the calling end is
allowed to reconnect.
All pathTypes respect this attribute. Also on a manualPath with both
ends provisioned with independent paths (at least with respect to the
failure) this option will have the desired effect that the path is
rerouted without complete disconnection at both ends.
|
| vsPlcBumpPreference |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.18 |
|
This attribute controls when bumping occurs in the route selection
process. A connection with higher (numerically less) setupPriority
may bump a connection with lower (numerically higher)
holdingPriority in order to acquire its bandwidth and be established.
By default, bumping occurs only when it is necessary. That is, a
connection will bump another connection only if there is no other
way for the connection to be established. A connection may be set
to always bump in order to find the best route it may have.
|
| vsPlcOptimization |
.1.3.6.1.4.1.562.2.4.1.80.3.10.1.19 |
|
This attribute is used to specify whether this connection should
attempt to optimize its path when requested by the routing PORS
component. Every path is as optimal as it can be when it is
established, but as network traffic patterns and configurations
change this path may no longer be as optimal as it could be. The
PORS connection manager on a module requests circuits to
optimize at the optimization interval.
|
| vsPlcMpathIndex |
.1.3.6.1.4.1.562.2.4.1.80.3.207.1.1 |
|
This variable represents the vsPlcMpathTable
specific index for the vsPlcMpathTable.
|
| vsPlcMpathValue |
.1.3.6.1.4.1.562.2.4.1.80.3.207.1.2 |
|
This variable represents an individual value for the
vsPlcMpathTable.
|
| vsLCoIndex |
.1.3.6.1.4.1.562.2.4.1.80.4.1.1.10 |
|
This variable represents the index for the vsLCo tables.
|
| vsLCoRowStatus |
.1.3.6.1.4.1.562.2.4.1.80.4.1.1.1 |
|
This variable is used as the basis for SNMP naming of
vsLCo components.
These components cannot be added nor deleted.
|
| vsLCoComponentName |
.1.3.6.1.4.1.562.2.4.1.80.4.1.1.2 |
|
This variable provides the component's string name for
use with the ASCII Console Interface
|
| vsLCoStorageType |
.1.3.6.1.4.1.562.2.4.1.80.4.1.1.4 |
|
This variable represents the storage type value for the
vsLCo tables.
|
| vsLCoState |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.1 |
|
This attribute reflects the current state of the connection. The
pathDown state indicates a connection that has no remote end
provisioned or the application has not yet signalled for a path. The
selectingRoute state occurs when a request has been sent to route
selector and it has not yet responded. The connectingState occurs
while a path is being established. The pathUp state is the normal
operational state of a path. The pathDownRetrying state indicates a
path that attempted route selection but received no route and is now
waiting to retry route selection again.
|
| vsLCoOverrideRemoteName |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.2 |
|
If set and the current PLC remoteName is blank this remoteName
will override the blank PLC remoteName. Usually you would set
this attribute and then lock/unlock the service component which
will result in this new overrideRemoteName being used as if it had
been provisioned into the PLC remoteName. The advantage of this
attribute is that the connection's remoteName can be changed
immediately without having to 'activate prov' but the disadvantage
is that the overrideRemoteName is not permanent and if the card or
switch is reset the override will be lost.
|
| vsLCoEnd |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.3 |
|
This attribute identifies whether this is the calling or called end of
the path.
|
| vsLCoCostMetric |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.4 |
|
This attribute gives the route's total cost metric. It is calculated as
the sum of the cost metric of all trunks in the path at the time the
connection was established. The cost metric of a trunk is defined by
the trunkCost attribute of the Trunk component. The costMetric for
an LCo that is originated and terminated on the same module is 0.
|
| vsLCoDelayMetric |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.5 |
|
This attribute gives the total delay of the route as the one way delay
for a 512 byte packet. It is calculated as the sum of the delays of all
trunks in the path stored in topology at the time the connection was
established. The delay for an LCo that is originated and terminated
on the same module is 0.
|
| vsLCoRoundTripDelay |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.6 |
|
This attribute contains the time taken for a packet (cell) of 44 bytes
to be transmitted to the remote LCo and return to this LCo. The
number reported is given in milliseconds to the nearest millisecond.
A value of one millisecond is reported if the time is less than 1
millisecond even though the delay may be less than 1 Millisecond
when the LCo is originated and terminated on the same module.
|
| vsLCoSetupPriority |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.7 |
|
This attribute gives the priority at which the current path is
established. Zero is the highest priority and four is the lowest. The
holdingPriority, a complementary attribute of this component,
indicates the priority a path maintains once it is established.
|
| vsLCoHoldingPriority |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.8 |
|
This attribute gives the priority at which a path holds its current
path once the path is established. Zero is the highest priority and
four is the lowest. The setupPriority, a complementary attribute,
indicates the priority of a path at establishment time.
|
| vsLCoRequiredTxBandwidth |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.9 |
|
This attribute gives the actual bandwidth (in bits per second)
reserved by this path on each of the trunks of its route. This attribute
represents the bandwidth for traffic outgoing to the remote end
point. The originating end of the connection determines this value.
|
| vsLCoRequiredRxBandwidth |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.10 |
|
This attribute gives the actual bandwidth (in bits per second)
reserved by this path on each of trunks of its route. This attribute
represents the bandwidth for traffic incoming from the remote end
point. The originating end of the connection determines this value
|
| vsLCoRequiredTrafficType |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.11 |
|
This operational attribute indicates the type of traffic transmitted
over the path. There are eight possible traffic types, and the path can
transmit only one of them. The originating end of the connection
determines the type. These are arbitrary designations for traffic
type. The voice, data and video traffic types are defined, and five
other arbitrary traffic types can be defined by the network
administration. This attribute is used in the route selection process
to restrict the route to trunks that support this traffic type. The
supportedTrafficType trunk attribute lists all the types of traffic
allowed on the trunk. For example, if requiredTrafficType is
specified as trafficType1 then only trunks that include trafficType1
in supportedTrafficType, will be candidates for this connection.
|
| vsLCoPermittedTrunkTypes |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.12 |
|
This operational attribute lists up to eight types of trunk that can be
used on the route. The originating end of the connection determines
the types. The terrestrial and satellite trunk types have been
defined, leaving six remaining arbitrary types that can be defined by
the network administration. The trunk's type is indicated in the
trunkType attribute of the Trunk component. When selecting a
route, PORS only chooses trunks whose trunkType are in the
permittedTrunkTypes for the path.
Description of bits:
terrestrial(0)
satellite(1)
trunkType1(2)
trunkType2(3)
trunkType3(4)
trunkType4(5)
trunkType5(6)
trunkType6(7)
|
| vsLCoRequiredSecurity |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.13 |
|
This attribute indicates the required minimum level of security of
the trunks on the route. Zero represents the most secure and seven
represents the least secure. The trunk's security is indicated by the
trunkSecurity attribute of the Trunk component, and has values
identical in range and meaning to the requiredSecurity attribute.
PORS ensures that any route selected does not contain a trunk
whose trunkSecurity attribute is numerically greater than the
requiredSecurity.
|
| vsLCoRequiredCustomerParameter |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.14 |
|
This attribute indicates the allowed customer defined parameter of
the trunks on the route.The originating end of the connection
determines the customer defined parameter. Its value, a number
from zero to seven, is chosen by a network administration to have a
meaning specific to their network, thus allowing them to customize
the use of their trunks. A complementary trunk attribute,
customerParameter, also has a value from zero to seven. The route
selection process does not consider trunks whose
customerParameter is greater than the requiredCustomerParameter
of the path.
|
| vsLCoEmissionPriority |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.15 |
|
This attribute indicates the urgency with which packets on the path
are emitted by the trunks on the route. The originating end of the
connection selects the emissionPriority. EmissionPriority of zero
indicates the highest emission priority, while two indicates the
lowest emission priority. Packets with a higher emissionPriority (or
numerically less) are serviced and sent out before the packets of
lower emissionPriority (or numerically higher).
|
| vsLCoDiscardPriority |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.16 |
|
This attribute indicates the importance of the packets on the
path.The originating end of the connection sets discardPriority. One
is used for paths carrying the most important traffic, and three is
used for paths carrying the least important traffic. Packets with
lower discardPriority(numerically lower) are discarded after
packets with a higher discardPriority(numerically higher).
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| vsLCoPathType |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.17 |
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This attribute indicates whether the path for this PLC was
determined automatically or by static provisioning. Normal
pathTypes are selected automatically by Route Selector.The other
pathTypes are both manual pathTypes where the operator must
specify, through provisioning, a static route termed the manualPath.
A manual pathType connection is nearly identical to a normal path
type connection with the exception that the route is pre-provisioned.
For a manual pathType, bandwidth reservations are respected along
the path exactly as in a normal path. The last type, the forced
pathType, is also a manual path but regardless of the bandwidth
available the route is granted provided the trunks are operational
and there are sufficient Logical Channels (LChs).
The forced pathType could result in over committing the reserved
bandwidth allowed on a trunk. A better way to achieve the effects of
a forced pathType is to use a manual pathType with setupPriority =
0 and holdingPriority = 0. In this manner the path will reserve
correct bandwidth and it will bump other paths if required while not
being bumped itself.
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| vsLCoRetryCount |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.18 |
|
This attribute is the count of the number of times the path chosen
during route selection could not be instantiated. This count should
be three or below if the network is performing adequately. A high
value indicates that the route selection is often performed using an
out-of-date view of available network bandwidth and/or topology.
This attribute will only increase at the calling end of the connection.
This attribute is reset each time a path reconnects and stops
counting when it reaches its maximum value.
|
| vsLCoPathFailureCount |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.19 |
|
This attribute is the count of the number of times the path has
successfully connected. It is set to zero the first time the path is up.
If a path fails anytime after connecting this count will be
incremented when the path is up again. Failed route requests do not
count in this statistic. See retryCount above. This attribute stops
counting at its maximum value.
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| vsLCoReasonForNoRoute |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.20 |
|
This attribute is the route selection's reasonForNoRoute and
provides a brief reason for which a route was not selected. The
reasons are essentially self-explanatory. Perhaps two reasons for no
route require some explanation. The reason
unknownRemoteNodeName is issued when the remote node name
is not in the topological database. The reason plcAttributesNotMet
is issued when there is no network connectivity at a level specified
by the PLC attributes. This reason is also issued when there is no
physical connectivity between two end nodes.
|
| vsLCoLastTearDownReason |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.21 |
|
This attribute reflects the last tear down reason for a connection
(LCo). In many cases this displays the reason for a momentary
service interruption. This attribute applies to the last path failure
only. If a path is no longer up, this may give an indication to the
reason that the path has failed. In many cases an alarm will also be
generated with more specific information. The following is a brief
description of the reasons:
none - This path has no information for the teardown this is typical
of a path provisioned with no remoteName that has not been up.
normalShutDown - This path has gone down due to normal call
termination.
insufficientTxLcOrBandwidth - At present there is either no
available bandwidth or logical channel numbers available on one or
more of the trunks for this path in the transmit direction.
insufficientRxLcOrBandwidth - At present there is either no
available bandwidth or logical channel numbers available on one or
more of the trunks for this path in the receive direction.
trunkFailure- A trunk on the path has failed or has gone down due
to a provisioning change of a critical attribute.
trunkCardFailure- A trunk FP card has failed along the path.
accessCardFailure- The FP on which the peer access service was
running has failed.
operatorForced- The path has terminated due to the operator
locking a trunk along the path.
lostLcnClash- The path has terminated because the PA's at both
ends of an intermediate trunk have allocated the same LC to
different calls. When this happens both calls must go down and then
try to come up again a fraction of a second later (effectively
ensuring that they will now be assigned different LC's). It is normal
to get the odd clash especially when the PA's usedLC is
approaching the PA's maxLC.
networkCongestion - The path has failed due to control information
being lost and not recoverable.
trunkNotFound - Occurs on a manual path usually. Check for
trunks not up or names provisioned incorrectly.
farEndNotFound - The far end is not provisioned or is not up.
Check remote Name.
wrongModuleReached - This may occur on a manual path. Check
provisioning for correct trunk and service names. For a normal
path, the network Topology may be changing check remoteName.
farEndBusy - The far end has been reached but it is busy. Check
remoteName and remote end provisioning.
callLoopedBack - This LCo is provisioned to call itself. Re-
provision since this is invalid.
unknownReason - The failure was not resolved.
farEndNotReady - The remote end was reached but the connection
was refused due to the remote end not being enabled.
remoteNameMismatch - The remote end has alarmed and rejected
this setup due to remoteName provisioning.
serviceTypeMismatch - The remote Service Type does not match
this service type. Check provisioning.
reconnectFromFarEnd - The remote end re-established this
connection. Check the remote end lastTearDownReason to
determine the real reason.
bumped - Another call bumped this path from a trunk to get
bandwidth (or an LC) which it required to come up. This other path
had a higher setupPriority than this path's holdingPriority hence it
was allowed to steal the bandwidth (or LC) from this path.
optimized - This call has been rerouted due to the optimization
feature. The call is still active this just indicates why the path
changed.
trunkOrFarEndDidNotSupportMode - This call was unable to
complete because a mode required by the service was not supported
by one of the trunks the route went through or by the far end service
it connected to. Currently the only mode that this applies to is the
map/mux mode on TRUNK PA ATM component. Map mode was
required by the application (CES/FrAtm etc.) but was not available
on the TRUNK PA ATM component through which the call was
routed or the far end CES/FrAtm component did not specify the
same mode.
|
| vsLCoPathFailureAction |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.22 |
|
This attribute displays whether the application is set to tolerate
momentary interruption of a path while a new path is selected. If
disconnectConnection is displayed, the application is informed as
soon as possible about a failure by disconnection. If the attribute
displays reRoutePath, the path may attempt an immediate reroute,
provided the failure is a recoverable failure. If rerouting fails the
application is informed of the failure.
With this option set to reRoutePath the LCo may wait up to 30
seconds before informing the service of complete disconnection in
order to allow both ends to attempt to reconnect. Note that if PLC
components are different at both ends only the calling end is
allowed to reconnect.
All pathTypes respect this attribute. Also on a manualPath with
both ends provisioned with independent paths (at least with respect
to the failure) this option will have the desired effect that the path is
rerouted without complete disconnection at both ends
|
| vsLCoBumpPreference |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.23 |
|
This attribute specifies when bumping will occur during route
selection process. Bumping may occur when necessary or always. It
will be necessary for a connection to bump if there is not enough
resources for the connection to be established and these resources
are occupied by a connection whose setupPriority is lower
(numerically higher) than the connection's setupPriority. A
connection may also always bump in order to obtain the best route.
|
| vsLCoOptimization |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.24 |
|
This attribute is used to specify whether this connection should
attempt to optimize its path when requested by the routing PORS
component. Every path is as optimal as it can be when it is
established, but as network traffic patterns and configurations
change this path may no longer be as optimal as it could be. The
PORS connection manager on a module requests circuits to
optimize at the optimization interval.
|
| vsLCoPathUpDateTime |
.1.3.6.1.4.1.562.2.4.1.80.4.10.1.25 |
|
This is the time stamp when the current path was established or
reestablished.
|
| vsLCoPktsToNetwork |
.1.3.6.1.4.1.562.2.4.1.80.4.11.1.1 |
|
This attribute counts the number of packets transmitted to the
network over this Logical Connection.
|
| vsLCoBytesToNetwork |
.1.3.6.1.4.1.562.2.4.1.80.4.11.1.2 |
|
This attribute counts the number of bytes sent to the network over
this Logical Connection.
|
| vsLCoPktsFromNetwork |
.1.3.6.1.4.1.562.2.4.1.80.4.11.1.3 |
|
This attribute counts the number of packets received from the
remote LCo via the network.
|
| vsLCoBytesFromNetwork |
.1.3.6.1.4.1.562.2.4.1.80.4.11.1.4 |
|
This attribute counts the number of bytes received from the remote
LCo via the network.
|
| vsLCoPathValue |
.1.3.6.1.4.1.562.2.4.1.80.4.264.1.1 |
|
This variable represents both the value and the index for the
vsLCoPathTable.
|
