| cmPhyIfMode |
.1.3.6.1.4.1.9.10.69.1.1.1.1.1 |
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This object allows the management client to configure
the mode of operation for the client interface modules.
When in 2R mode, there is no protocol type, clock rate
or monitoring to be configured i.e. the next three
objects would be read-only. When in 3R mode, monitoring
can be enabled or disabled and the clock rate and protocol
should be configured.
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| cmPhyIfProtocol |
.1.3.6.1.4.1.9.10.69.1.1.1.1.2 |
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This object is used to specify the protocol of the data
carried over the client side interface.
This object applies to linecards which support a variety of
protocols and allow dynamic configuration of the specific
protocol to be monitored on the interface. The ifType value
for such interfaces remains fixed. The agent may use this
object to identify the protocol to be monitored (see the
cmPhyIfMonitor object), to set the clock rate for the
interface (see the cmPhyIfClockRate object), or to enable
or disable functionality related to the protocol, for
example OFC (see the cmPhyIfOFC object).
The value of this object cannot be modified when the
cmPhyIfMonitor object is set to 'true' for that interface.
Also, this object does not apply to the trunk side
interfaces.
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| cmPhyIfClockRate |
.1.3.6.1.4.1.9.10.69.1.1.1.1.3 |
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This object allows the management client to set the
clock rate across the client side interface.
Due to hardware limitations, all values may not be supported.
The default value of this object depends on the value of the
cmPhyIfProtocol object. When the value of the cmPhyIfProtocol
object is reset, the value of this object will be
automatically set to the default for that protocol.
In case of protocols that support multiple rates,
the default value of this object will be the lowest rate
possible for that protocol. For example, if the value
of cmPhyIfProtocol is set to 'sonet', the default value
of cmPhyIfClockRate is set to the OC-3 rate of 155520 kHz.
If a non-default value is desired, then this object must
be set after the cmPhyIfProtocol object has been reset.
This object must be set to a supported clock rate when
setting cmPhyIfProtocol to 'unknown'.
In 2R mode of operation, this object is not applicable
and will have a default value of 0.
The value of this object cannot be modified when the
cmPhyIfMonitor object is set to 'true' for that interface.
Also, this object is not applicable to trunk side interfaces.
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| cmPhyIfMonitor |
.1.3.6.1.4.1.9.10.69.1.1.1.1.4 |
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This object allows the management client to enable
monitoring of the error counters on an interface,
by writing a value of 'true' to this object. To bypass
the monitoring hardware, a value of 'false' must be
written to this object.
Monitoring does not apply when the value of
cmPhyIfProtocol is 'unknown'.
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| cmPhyIfLoopback |
.1.3.6.1.4.1.9.10.69.1.1.1.1.5 |
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This object allows the management client to configure
loopback for the client side or trunk side interfaces.
'noLoop' - No Loopback present.
'diagnosticLoop' - This is an internal loopback, where the
data stream is looped from the transmit
to receive section. It is used for hardware
debug, bring-up and diagnostics.
'lineLoop' - In this mode, the receive data stream is
looped back to the transmit side.
'otherLoop' - This indicates loopbacks not defined here.
The default value of this object will be 'noLoop'.
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| cmPhyIfOFC |
.1.3.6.1.4.1.9.10.69.1.1.1.1.6 |
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This object allows the management client to enable
OFC(Open Fibre Control) safety protocol for the client
side interfaces, by writing a 'true' value to
this object. A 'false' value would disable OFC.
The default value of this object varies depending on the value
of cmPhyIfProtocol and cmPhyIfClockRate. When cmPhyIfProtocol
or cmPhyIfClockRate is reset, then the value of this object is
automatically reset to the default value for that protocol or
rate. If non-default OFC behavior is desired, then this object
should be set after cmPhyIfProtocol or cmPhyIfClockRate has
been reset.
This object is not applicable to trunk side interfaces.
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| cmPhyIfLaserSafetyControl |
.1.3.6.1.4.1.9.10.69.1.1.1.1.7 |
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This object allows the management client to enable
laser safety control feature on the trunk side interfaces
by writing a true value to this object. If laser safety
control is enabled, the transmit laser on the trunk side is
shut when the receive signal is not available on the fiber.
A 'false' value disables this feature and is the default
value assigned to this object.
Laser safety control would not apply in case of splitter
protection on the optical switch.
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| cmPhyIfForwardLaserControl |
.1.3.6.1.4.1.9.10.69.1.1.1.1.8 |
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This object allows the management client to enable
forward laser control on the client or trunk side interfaces
by writing a true value to this object. If forward laser
control is enabled, the transmit laser is shut when the
cross-connect receive port on the switch is in alarm
condition. A 'false' value disables this feature and is
the default value assigned to this object.
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| cmPhyRxPower |
.1.3.6.1.4.1.9.10.69.1.2.1.1.1 |
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This object gives the optical power level received
on the trunk side interface.
The actual value of the power level received on
the interface is the value of this object divided
by 100. This object is not applicable to client side
interfaces.
This object has been deprecated since a similar object
has been defined in the CISCO-OPTICAL-MONITOR-MIB.
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| cmPhyRxCVRD |
.1.3.6.1.4.1.9.10.69.1.2.1.1.2 |
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This object represents the lower word value of the
counter associated with the
number of code violations and running disparity errors
encountered, in the receive direction.
NOTE: The object cmPhyRxCVRDOverflow contains the
higher 32 bits of this counter value. SNMP v2c or v3
managers can use the cmPhyHCRxCVRD object
directly which is a 64 bit counter.
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| cmPhyRxCVRDOverflow |
.1.3.6.1.4.1.9.10.69.1.2.1.1.3 |
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This object represents the high word value of the
counter associated with the
number of code violations and running disparity errors
encountered, in the receive direction.
NOTE: The object cmPhyRxCVRD contains the lower 32
bits of this counter value. If the error count is
greater than 4,294,967,295 the higher word value
will be stored in this object. SNMP v2c or v3
managers can use the cmPhyHCRxCVRD object
directly which is a 64 bit counter.
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| cmPhyHCRxCVRD |
.1.3.6.1.4.1.9.10.69.1.2.1.1.4 |
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This object represents the counter associated with the
number of code violations and running disparity errors
encountered, in the receive direction.
This is a High Capacity (64 bit) version of the
cmPhyRxCVRD counter.
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| cmPhyRxHEC |
.1.3.6.1.4.1.9.10.69.1.2.1.1.5 |
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This object represents the lower word value of the
counter associated with the
number of CDL HEC errors encountered, in the receive
direction.
This object has a valid value only if the protocol
type is gigabitEthernet/ tenGigabitEthernet. For all other
protocols, this object is not applicable.
NOTE: The object cmPhyRxHECOverflow contains the
higher 32 bits of this counter value. SNMP v2c or v3
managers can use the cmPhyHCRxHEC object
directly which is a 64 bit counter.
This object has been deprecated since a similar object
has been defined in the CISCO-CDL-MIB.
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| cmPhyRxHECOverflow |
.1.3.6.1.4.1.9.10.69.1.2.1.1.6 |
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This object represents the high word value of the
counter associated with the number of CDL
HEC errors encountered, in the receive direction.
This object has a valid value only if the protocol
type is gigabitEthernet/ tenGigabitEthernet. For all other
protocols, this object is not applicable.
NOTE: The object cmPhyRxHEC contains the lower 32
bits of this counter value. If the error count is
greater than 4,294,967,295 the higher word value
will be stored in this object. SNMP v2c or v3
managers can use the cmPhyHCRxHEC object
directly which is a 64 bit counter.
This object has been deprecated since a similar object
has been defined in the CISCO-CDL-MIB.
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| cmPhyHCRxHEC |
.1.3.6.1.4.1.9.10.69.1.2.1.1.7 |
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This object represents the counter associated with the
number of CDL HEC errors encountered, in the receive
direction.
This object has a valid value only if the medium
type is gigabitEthernet/ tenGigabitEthernet. For all other
media, this object is not applicable.
This is a High Capacity (64 bit) version of the
cmPhyRxHEC counter.
This object has been deprecated since a similar object
has been defined in the CISCO-CDL-MIB.
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| cmPhyRxCRC |
.1.3.6.1.4.1.9.10.69.1.2.1.1.8 |
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This object represents the lower word value of the
counter associated with CRC errors.
This object has a valid value only for interfaces that
provide CRC error monitoring.
NOTE: The object cmPhyRxCRCOverflow contains the
higher 32 bits of this counter value. SNMP v2c or v3
managers can use the cmPhyHCRxCRC object
directly which is a 64 bit counter.
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| cmPhyRxCRCOverflow |
.1.3.6.1.4.1.9.10.69.1.2.1.1.9 |
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This object represents the higher word value of the
counter associated with CRC errors.
This object has a valid value only for interfaces that
provide CRC error monitoring.
NOTE: The object cmPhyRxCRC contains the
lower 32 bits of this counter value. If the error count is
greater than 4,294,967,295 the higher word value
will be stored in this object. SNMP v2c or v3
managers can use the cmPhyHCRxCRC object
directly which is a 64 bit counter.
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| cmPhyHCRxCRC |
.1.3.6.1.4.1.9.10.69.1.2.1.1.10 |
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This object represents the counter associated with
CRC errors. This object has a valid value only for
interfaces that provide CRC error monitoring.
This is a High Capacity (64 bit) version of the cmPhyRxCRC
counter.
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| cmPhyTxEncapFarEndPktErrors |
.1.3.6.1.4.1.9.10.69.1.2.1.1.11 |
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This object represents the lower word value of the counter
associated with ingress error indications from the far end of
an Ethernet network, where an ESCON stream is encapsulated in
Ethernet packets. This counter is incremented whenever
an ESCON packet or control character has 8b/10b code
violations or running disparity errors in the ingress
direction at the far end of the Ethernet network.
This object has a valid value only for ESCON interfaces where
Ethernet encapsulation is performed.
NOTE: The object cmPhyTxEncapFarEndPktErrOverflow contains the
higher 32 bits of this counter value. SNMP v2c or v3
managers can use the cmPhyHCTxEsconPktInd object
directly which is a 64 bit counter.
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| cmPhyTxEncapFarEndPktErrOverflow |
.1.3.6.1.4.1.9.10.69.1.2.1.1.12 |
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This object represents the higher word value of the counter
associated with ingress error indications from the far end of
an Ethernet network, where an ESCON stream is encapsulated in
Ethernet packets. This counter is incremented whenever
an ESCON packet or control character has 8b/10b code
violations or running disparity errors in the ingress
direction at the far end of the Ethernet network.
This object has a valid value only for ESCON interfaces where
Ethernet encapsulation is performed.
NOTE: The object cmPhyTxEncapFarEndPktErrors contains the
lower 32 bits of this counter value. SNMP v2c or v3
managers can use the cmPhyHCTxEsconPktInd object
directly which is a 64 bit counter.
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| cmPhyHCTxEncapFarEndPktErrors |
.1.3.6.1.4.1.9.10.69.1.2.1.1.13 |
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This object represents the counter associated with ESCON
ingress error indications from the far end of
an Ethernet network, where an ESCON stream is encapsulated in
Ethernet packets. This counter is incremented whenever
an ESCON packet or control character has 8b/10b code
violations or running disparity errors in the ingress
direction at the far end of the Ethernet network.
This object has a valid value only for ESCON interfaces where
Ethernet encapsulation is performed.
This is a High Capacity (64 bit) version of the
cmPhyTxEncapFarEndPktErrors counter.
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| cmPhySonetSectionTraceReceived |
.1.3.6.1.4.1.9.10.69.1.3.1.1.1 |
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This object displays the SONET or SDH section trace bytes
received at the interface.
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| cmPhySonetSectionTraceExpected |
.1.3.6.1.4.1.9.10.69.1.3.1.1.2 |
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This object defines the SONET or SDH section trace bytes
to be expected at the interface.
The default value of this object will be a zero length
string.
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