%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Add status entries in the order as the appear in the MIB
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\snmpentrys{WR-SWITCH-MIB}{}{wrsGeneralStatusGroup}{
Group containing collective status of the switch and its various
subsystems.}
\snmpentrys{WR-SWITCH-MIB}{wrsGeneralStatusGroup}{wrsMainSystemStatus}{
\underline{Description:}
WRS general status of a switch can be \texttt{OK}, \texttt{Warning} or
\texttt{Error}. In case of an error or warning, please check the values of
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsOSStatus}},
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsTimingStatus}} and
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsNetworkingStatus}} to find out which
subsystem causes the problem.
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsGeneralStatusGroup}{wrsOSStatus}{
\underline{Description:}
Collective status of the operating system running on WR switch. In case of
an error or warning, please check status objects in the
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsOSStatusGroup}}.
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsGeneralStatusGroup}{wrsTimingStatus}{
\underline{Description:}
Collective status of the synchronization subsystem. In case of an
error or warning, please check status objects in the
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsTimingStatusGroup}}.
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsGeneralStatusGroup}{wrsNetworkingStatus}{
\underline{Description:}
Collective status of the Ethernet switching subsystem. In case of an error
or warning, please check status objects in the
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsNetworkingStatusGroup}}.
\glspar \underline{Related problems:}}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\snmpentrys{WR-SWITCH-MIB}{}{wrsDetailedStatusesGroup}{
Branch with collective statuses of various switch subsystems.}
%------------------------------------------------------------------------
\snmpentrys{WR-SWITCH-MIB}{wrsDetailedStatusesGroup}{wrsOSStatusGroup}{
\underline{Description:}
Group with collective statuses of the embedded operating system running on
the switch.}
\snmpentrys{WR-SWITCH-MIB}{wrsOSStatusGroup}{wrsBootSuccessful}{
\underline{Description:}
Grouped status of \texttt{\glshyperlink{WR-SWITCH-MIB::wrsBootStatusGroup}},
indicating whether boot was
successful. \texttt{Error} when dot-config source is wrong, unable to get
the dot-config, unable to get URL to the dot-config, dot-config contains
errors, unable to read the hwinfo, unable to load the FPGA bitstream, unable
to load the LM32 software, any kernel modules or userspace daemons are
missing, failed to update firmware due to checksum error, unable to
download custom boot script, custom boot script fails during execution,
fails setting up auxclk on connector clk2, fails setting up a limit on
the Rx bandwidth of the traffic that goes from WR ports to Linux
(throttling), fails setting up VLANs.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state
\item Check \texttt{\glshyperlink{WR-SWITCH-MIB::wrsBootConfigStatus}},
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsCustomBootScriptStatus}}
if it reports an error, please verify your WRS configuration.
\item Restart the switch
\item Please consult WR experts if the problem persists.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsOSStatusGroup}{wrsTemperatureWarning}{
\underline{Description:}
Reports whether the temperature thresholds are not set or are exceeded.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state
\item Verify if your switch configuration contains valid temperature
thresholds. By default, they are all set to 80 \textdegree C.
\item Verify if cooling of the rack where WR Switch is installed works
properly.
\item Verify if both cooling fans in the back of the WR Switch case are
working.
\item Replace the switch with a new unit and consult the WR Switch
manufacturer for a repair.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsOSStatusGroup}{wrsMemoryFreeLow}{
\underline{Description:}
Reports \texttt{Warning} when more than 50\%, or \texttt{Error} when more
than 80\% of the memory is used.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state
\item Restart the switch
\item Send the dumped state of the switch to WR experts for analysis as
this might mean there is some internal problem in the WRS firmware.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsOSStatusGroup}{wrsCpuLoadHigh}{
\underline{Description:}
Reports \texttt{Warning} when the average CPU load is more than 2 for the past 1min,
1.5 for 5min or 1 for 15min. \texttt{Error} when the average CPU load is
more than 3 for the past 1min, 2 for 5min or 1.5 for 15min.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state
\item Restart the switch
\item Send the dumped state of the switch to WR experts for analysis as
this might mean there is some internal problem in the WRS firmware.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsOSStatusGroup}{wrsDiskSpaceLow}{
\underline{Description:}
\texttt{Warning} when more than 80\% of any disk partition is used.
\texttt{Error} when more than 90\% of any disk partition is used.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state
\item Check the values of \emph{CONFIG\_WRS\_LOG\_*} configuration options
on the switch. These are the parameters describing where log messages
should be sent from various processes in the switch. Normally users
don't need to modify them, but if any of them is set to a file in the
WRS filesystem (e.g. /tmp/snmp.log) this may reduce the free space after
some time of operation.
\item Restart the switch
\item Send the dumped state of the switch to WR experts for analysis as
this might mean there is some internal problem in the WRS firmware.
\end{pck_proc}
\glspar \underline{Related problems:}}
%------------------------------------------------------------------------
\snmpentrys{WR-SWITCH-MIB}{wrsDetailedStatusesGroup}{wrsTimingStatusGroup} {
\underline{Description:}
Group with collective statuses of the timing subsystem.} %}
\snmpentrys{WR-SWITCH-MIB}{wrsTimingStatusGroup}{wrsPTPStatus}{
\underline{Description:}
Reports the status of PTP daemon running on the switch.\\
\texttt{Error} when any of PTP error counters in
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsPtpDataTable}}\\
(\texttt{\glshyperlink{WR-SWITCH-MIB::wrsPtpServoStateErrCnt.<n>}},
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsPtpClockOffsetErrCnt.<n>}} or\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsPtpRTTErrCnt.<n>}})
has increased since the last scan (issue
\ref{fail:timing:ppsi_track_phase},
\ref{fail:timing:offset_jump}, \ref{fail:timing:rtt_jump}), at least one of
the $\Delta_{TXM}$, $\Delta_{RXM}$, $\Delta_{TXS}$, $\Delta_{RXS}$ is 0
(issue \ref{fail:timing:deltas_report}), \emph{T24P} phase transition value
was not provided for at least one port (issue \ref{fail:timing:t24p}) or PTP
servo update counter is not increasing.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state
\item Check to configuration of WR Switch to make sure proper
$\Delta_{TXM}$, $\Delta_{RXM}$, $\Delta_{TXS}$, $\Delta_{RXS}$ and
\emph{T24P} are defined for each port.
\item Check \texttt{\glshyperlink{WR-SWITCH-MIB::wrsSoftPLLStatus}} on the
Master (WR device one step higher in a timing hierarchy). Eventually
proceed to investigate the problem on the Master switch. Otherwise,
continue with the primary WRS.
\item Verify if the link to WR Master was not lost by checking the
object\\ \texttt{\glshyperlink{WR-SWITCH-MIB::wrsSlaveLinksStatus}}.
\item If this is not the case, restart the switch.
\item If the problem persists replace the switch with a new unit.
%(see \ref{cern:wrs_replacement}).
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsTimingStatusGroup}{wrsSoftPLLStatus}{
\underline{Description:}
Reports the status of the PLLs inside the switch.\\
\texttt{Error} when \texttt{\glshyperlink{WR-SWITCH-MIB::wrsSpllSeqState}}
is not \emph{Ready}, or
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSpllAlignState}} is not
\emph{Locked} (for Grand Master mode), or any of
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSpllHlock}},
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSpllMlock}} equals to 0 (for
Boundary Clock mode).\\
\texttt{Warning} when \texttt{\glshyperlink{WR-SWITCH-MIB::wrsSpllDelCnt}}
has changed (for all modes).\\
\underline{On error:}\\
For GrandMaster WRS:
\begin{pck_proc}
\item Dump state
\item Check 1-PPS and 10 MHz signals coming from an external source.
Verify if they are properly connected and, in case of a GPS receiver,
check if it is synchronized and locked.
\item Restart the GrandMaster switch.
\item If the problem persists, replace the switch with a new unit.
%(see \ref{cern:wrs_replacement}).
\end{pck_proc}
\glspar For Boundary Clock WRS:
\begin{pck_proc}
\item Dump state
\item Check \texttt{\glshyperlink{WR-SWITCH-MIB::wrsSoftPLLStatus}} on the
Master. Eventually proceed to investigate the problem on the Master
switch.
\item Verify if the link to WR Master was not lost by checking the
object\\ \texttt{\glshyperlink{WR-SWITCH-MIB::wrsSlaveLinksStatus}}.
\item Restart the switch.
\item If the problem persists, replace the switch with a new unit.
%(see \ref{cern:wrs_replacement}).
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsTimingStatusGroup}{wrsSlaveLinksStatus}{
\underline{Description:}
Reports the status of the link on WR ports configured to slave role.\\
\texttt{Error} when link to master is down or softpll mode is not slave for
a switch in the Boundary Clock mode.
Additionally, \texttt{Error} is generated when the
link to master is up for a switch in the Free-running Master or Grand
Master mode.\\
\underline{On error:}\\
For Master/GrandMaster WRS:
\begin{pck_proc}
\item Check the configuration of the switch. Especially if the
\emph{Timing Mode} is correctly set (i.e. if it was not accidentally set
to \emph{Boundary Clock}).
\item Check the role of each port timing configuration. They should be all
set to \emph{master}. If any of them is set to \emph{slave} you should
verify if there is no WR Master connected to it.
\end{pck_proc}
\glspar For Boundary Clock WRS:
\begin{pck_proc}
\item Check the fiber connection on the slave port of the WRS.
\item Check the configuration of the switch. Especially if the
\emph{Timing Mode} is correctly set (i.e. if it was not accidentally set
to \emph{Grand-Master} or \emph{Free-Running Master}).
\item Check the VLANs configuration. Whether both switches are configured
to use the same VLAN.
\item Check the status of the WR Master connected to the slave port of the
WRS.
\item Replace the faulty switch with a new unit, if this does not solve
the problem, make sure your fiber link is not broken.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsTimingStatusGroup}{wrsPTPFramesFlowing}{
\underline{Description:}
Reports \texttt{Error} when PTP frames are not being sent and received on
active WR ports - Tx/Rx frame counters on active links (master / slave
ports) are not being incremented. Reports also \texttt{FirstRead} value.\\
\underline{On error:}
\begin{pck_proc}
\item Check Syslog message to determine the WR port on which the
problem is reported. You should see a message similar to this one:\\
\texttt{SNMP: wrsPTPFramesFlowing failed for port 1}
\item Check your network layout and the WR Switch configuration. If you
have some non-WR devices connected to ports of the WR Switch (e.g.
computer sending/receiving only data, without the need of
synchronization), for firmware versions up to 5.0.1
these ports should have their role in the timing
configuration set to \emph{non-wr} to avoid PTP traffic or \emph{none}
to disable PTP traffic at all. For newer releases the parameter
\emph{monitor} shall be set to \emph{n} to ignore all errors on
a given port.
\item Check the status of a WR device connected to the reported port.
\item Restart the switch.
\item If the problem persists, please contact WR experts for in-depth
investigation.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsTimingStatusGroup}{wrsSystemClockStatus}{
\underline{Description:}
Reports the status of system time. \texttt{Error} when either the system
clock diverged from the reference NTP time more than the configured
threshold or incorrect leap seconds file was provided to the switch. The
\texttt{Error} is also generated when any of the related services failed.
Please refer to related SNMP detailed objects for more information on the
type of failure. \texttt{Warning} when the switch is configured in Master or
GrandMaster mode and the currently used leap seconds file has expired.
In case of error or warning, please check the values of \\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSystemClockStatusDetails}} ,\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSystemClockDrift}} ,\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSystemClockDriftThreshold}} ,\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSystemClockCheckInterval}} ,\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSystemClockCheckIntervalUnit}} ,\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsLeapSecStatusDetails}} ,\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsLeapSecSource}} ,\\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsLeapSecSourceURL}}.\\
to find out which subsystem causes the problem and to verify your configuration.\\
\underline{On error:}
\begin{pck_proc}
\item Check Syslog message to find one of the messages similar to:\\
\texttt{SNMP: wrsSystemClockStatusDetails failed} \\
\texttt{SNMP: wrsLeapSecStatus failed} \\
\texttt{SNMP: wrsLeapSecStatusDetails failed} \\
\texttt{SNMP: wrsLeapSecSourceStatus failed} \\
\texttt{SNMP: wrsLeapSecSourceStatusDetails failed} \\
It may help you to retrieve the configuration problem.
\item Check that your configured NTP server is reachable using the
'ping' command in the switch.
\item Check that your configuration of leap seconds file points to the
local file and that it has not expired. In case you configured the
switch to fetch the leap seconds file from remote server, verify the URL
entered in the configuration.
\item Restart the switch.
\item If the problem persists, please contact WR experts for in-depth
investigation.
\end{pck_proc}
\glspar \underline{Related problems:}}
%------------------------------------------------------------------------
\snmpentrys{WR-SWITCH-MIB}{wrsDetailedStatusesGroup}{wrsNetworkingStatusGroup}{
\underline{Description:}
Group with collective statuses of the networking subsystem.}
\snmpentrys{WR-SWITCH-MIB}{wrsNetworkingStatusGroup}{wrsSFPsStatus}{
\underline{Description:}
Reports the status of SFP transceivers inserted to the switch.\\
\texttt{Error} when any of the SFPs reports an error. To find out which SFP
caused the problem check
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsPortStatusSfpError.<n>}}.\\
\underline{On error:}
\begin{pck_proc}
\item Check \texttt{\glshyperlink{WR-SWITCH-MIB::wrsPortStatusSfpError.<n>}}
SNMP objects or Syslog
messages to determine the WR port on which the problem is reported. In
case of Syslog, you should see a message similar to this one:\\
\texttt{Unknown SFP vn="AVAGO" pn="ABCU-5710RZ" vs="AN1151PD8A" on port
wri2}
\item If the reported port is intended to be used with WR not compatible
equipment (e.g. using a copper SFP module), to avoid SNMP errors set
on this port the \emph{role} to \emph{non-wr} or set \emph{monitor=y}
(firmware after 5.0.1). To disable WR traffic on this port set
the \emph{role} to \emph{non-wr}, to disable PTP traffic set to
\emph{none}.
\item Otherwise, you should use a WR-supported SFP module and make sure it
is declared together with calibration values in the WRS configuration.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsNetworkingStatusGroup}{wrsEndpointStatus}{
\underline{Description:}
Reports the status of Ethernet MAC endpoints on WR ports\\
\texttt{Error} when there is a fault in the Endpoint's
transmission/reception path.\\
\underline{On error:}
\begin{pck_proc}
\item Make several state dumps.
\item Restart the switch.
\item Check Syslog messages to determine the WR port on which the problem
is reported. You should see a message similar to this one:\\
\texttt{SNMP: wrsEndpointStatus failed for port 1}
\item Check the fiber link on a reported port, i.e. try replacing SFP
transceivers on both sides of the link, try using another fiber.
\item If the problem persists, please contact WR experts for in-depth
investigation.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsNetworkingStatusGroup}{wrsSwcoreStatus}{
\underline{Description:}
Reports the status of the Ethernet switching module.\\
Status object not implemented in the current firmware release. Always
reports \texttt{OK}.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state.
\item Restart the switch.
\item Please contact WR experts since this might mean that either there is
too much high priority traffic in your network, or there is some
internal problem in the WRS firmware.
\end{pck_proc}
\glspar \underline{Related problems:}}
\snmpentrys{WR-SWITCH-MIB}{wrsNetworkingStatusGroup}{wrsRTUStatus}{
\underline{Description:}
Reports the status of the routing module responsible for deciding where (to
which port) incoming Ethernet frames should be forwarded.\\
\texttt{Error} when RTU is overloaded and cannot accept more requests.\\
\underline{On error:}
\begin{pck_proc}
\item Dump state
\item Restart the switch.
\item If possible, try reducing the load of small Ethernet frames flowing
through your switch. If possible in your application, try using larger
Ethernet frames with lower load to transfer information.
\end{pck_proc}
\glspar \underline{Related problems:}}
%------------------------------------------------------------------------
\snmpentrys{WR-SWITCH-MIB}{wrsDetailedStatusesGroup}{wrsVersionGroup}{
\underline{Description:}
Hardware, gateware and software versions. Additionally the serial number and
other hardware information for the WRS.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionSwVersion}{
\underline{Description:}
Software version in the form of release version and eventually git commit
from the repository (information provided from \emph{git describe} command
at build time).}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionSwBuildBy}{
\underline{Description:}
Information who has built the firmware running on the switch (provided from
\texttt{git config --get-all user.name} command at build time).}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionSwBuildDate}{
\underline{Description:}
Firmware build date (\texttt{\_\_DATE\_\_} at build time).}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionBackplaneVersion}{
\underline{Description:}
Hardware version of the Minibackplane board.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionFpgaType}{
\underline{Description:}
FPGA model inside the switch.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionManufacturer}{
\underline{Description:}
Name of the manufacturing company.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionSwitchSerialNumber}{
\underline{Description:}
Serial number of the switch.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionScbVersion}{
\underline{Description:}
Hardware version of the main SCB board.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionGwVersion}{
\underline{Description:}
Version of the FPGA bitstream (Gateware).}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionGwBuild}{
\underline{Description:}
Build ID of the FGPA bitstream - the synthesis date}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionSwitchHdlCommitId}{
\underline{Description:}
FPGA bitstream commit ID from the main \texttt{wr\_switch\_hdl} repository.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionGeneralCoresCommitId}{
\underline{Description:}
FPGA bitstream commit ID from the \texttt{general-cores} repository.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionWrCoresCommitId}{
\underline{Description:}
FPGA bitstream commit ID from the \texttt{wr-cores} repository.}
\snmpentrys{WR-SWITCH-MIB}{wrsVersionGroup}{wrsVersionLastUpdateDate}{
\underline{Description:}
Date and time of the last firmware update. This information may not be
accurate, due to hard restarts or lack of the proper time during the
upgrade.}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Add expert entries in the order as the appear in the MIB
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\snmpentrye{WR-SWITCH-MIB}{}{wrsOperationStatus}{}
\snmpentrye{WR-SWITCH-MIB}{wrsOperationStatus}{wrsCurrentTimeGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsDateTAI}{}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsDateTAIString}{}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsSystemClockStatusDetails}{
Result of the comparison of system clock and the NTP time to detect a drift.}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsSystemClockDrift}{
Last measured drift value.}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsSystemClockDriftThreshold}{
Configure drift threshold that will be used to rise an error.}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsSystemClockCheckInterval}{
Interval between 2 measures of the system clock drift.}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsSystemClockCheckIntervalUnit}{
Unit of time used by the system clock check interval (See:
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsSystemClockCheckInterval}})
}
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsLeapSecSource}{
Source of the leap seconds file. When it is set to \texttt{tryDhcp},
then a failure of getting the URL via DHCP does not rise an error in \\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsLeapSecStatusDetails}} and \\
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsLeapSecSourceStatusDetails}}. }
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsLeapSecStatusDetails}{
Result of the management of the leap second (inserted, deleted, \ldots) }
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsLeapSecSourceStatusDetails}{
Result of the leap seconds file download. }
\snmpentrye{WR-SWITCH-MIB}{wrsCurrentTimeGroup}{wrsLeapSecSourceURL}{
Path to the leap seconds file on a remote server (if local file is not used).}
\snmpentrye{WR-SWITCH-MIB}{wrsOperationStatus}{wrsBootStatusGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsBootCnt}{}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsRebootCnt}{}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsRestartReason}{}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsFaultIP}{Not implemented}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsFaultLR}{Not implemented}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsConfigSource}{Source of a
configuration file. When it is set to \texttt{tryDhcp}, then a failure of
getting the URL via DHCP does not rise an error in
\texttt{\glshyperlink{WR-SWITCH-MIB::wrsBootSuccessful}} }
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsConfigSourceUrl}{Path to the
dot-config on a remote server (if local file is not used).}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsRestartReasonMonit}{
Process that caused \texttt{monit} to trigger a restart.}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsBootConfigStatus}{Result of
the dot-config verification.}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsBootHwinfoReadout}{}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsBootLoadFPGA}{}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsBootLoadLM32}{}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsBootKernelModulesMissing}{
List of kernel modules is defined in the source code.}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsBootUserspaceDaemonsMissing}{
Number of missing (not running while they should) processes in embedded
Linux.}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsGwWatchdogTimeouts}{
Number of times the watchdog has restarted the HDL module responsible for
the Ethernet switching process}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsFwUpdateStatus}{
Status of the last firmware update}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsCustomBootScriptSource}{
Source of the custom script that can be executed once at boot time. It can
be used to setup a switch in a way not supported by dot-config}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsCustomBootScriptSourceUrl}{
Path to the custom boot script on a remote server (if local scripts is not
used)}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsCustomBootScriptStatus}{
Result of custom boot script execution}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsAuxClkSetStatus}{
Result of setting up auxclk on connector clk2}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsThrottlingSetStatus}{
Result of setting up a limit on the Rx bandwidth of the traffic that
goes from WR ports to Linux (throttling)}
\snmpentrye{WR-SWITCH-MIB}{wrsBootStatusGroup}{wrsVlansSetStatus}{
Result of setting up auxclk on connector clk2}
\snmpentrye{WR-SWITCH-MIB}{wrsOperationStatus}{wrsTemperatureGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempFPGA}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempPLL}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempPSL}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempPSR}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempThresholdFPGA}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempThresholdPLL}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempThresholdPSL}{}
\snmpentrye{WR-SWITCH-MIB}{wrsTemperatureGroup}{wrsTempThresholdPSR}{}
\snmpentrye{WR-SWITCH-MIB}{wrsOperationStatus}{wrsMemoryGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsMemoryGroup}{wrsMemoryTotal}{}
\snmpentrye{WR-SWITCH-MIB}{wrsMemoryGroup}{wrsMemoryUsed}{}
\snmpentrye{WR-SWITCH-MIB}{wrsMemoryGroup}{wrsMemoryUsedPerc}{Percentage of
used memory.}
\snmpentrye{WR-SWITCH-MIB}{wrsMemoryGroup}{wrsMemoryFree}{}
\snmpentrye{WR-SWITCH-MIB}{wrsOperationStatus}{wrsCpuLoadGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsCpuLoadGroup}{wrsCPULoadAvg1min}{}
\snmpentrye{WR-SWITCH-MIB}{wrsCpuLoadGroup}{wrsCPULoadAvg5min}{}
\snmpentrye{WR-SWITCH-MIB}{wrsCpuLoadGroup}{wrsCPULoadAvg15min}{}
\snmpentrye{WR-SWITCH-MIB}{wrsOperationStatus}{wrsDiskTable}{
Table with a row for every partition.}
\snmpentrye{WR-SWITCH-MIB}{wrsDiskTable}{wrsDiskIndex.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsDiskTable}{wrsDiskMountPath.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsDiskTable}{wrsDiskSize.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsDiskTable}{wrsDiskUsed.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsDiskTable}{wrsDiskFree.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsDiskTable}{wrsDiskUseRate.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsDiskTable}{wrsDiskFilesystem.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{}{wrsStartCntGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntHAL}{issue \ref{fail:timing:hal_crash}, \ref{fail:other:daemon_crash}}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntPTP}{issue \ref{fail:timing:ppsi_crash}, \ref{fail:other:daemon_crash}}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntRTUd}{issue \ref{fail:data:rtu_crash}, \ref{fail:other:daemon_crash}}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntSshd}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntHttpd}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntSnmpd}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntSyslogd}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntWrsWatchdog}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntLldpd}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntLdap}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntRvlan}{}
\snmpentrye{WR-SWITCH-MIB}{wrsStartCntGroup}{wrsStartCntSPLL}{Not implemented}
\snmpentrye{WR-SWITCH-MIB}{}{wrsSpllState}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllState}{wrsSpllVersionGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllVersionGroup}{wrsSpllVersion}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllVersionGroup}{wrsSpllBuildDate}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllVersionGroup}{wrsSpllBuildBy}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllState}{wrsSpllStatusGroup}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllMode}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllIrqCnt}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllSeqState}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllAlignState}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllHlock}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllMlock}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllHY}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllMY}{}
\snmpentrye{WR-SWITCH-MIB}{wrsSpllStatusGroup}{wrsSpllDelCnt}{}
% xxx wrsSpllHoldover
% xxx wrsSpllHoldoverTime
% xxx (...)
% \snmpentrye{WR-SWITCH-MIB}{wrsSpllPerPortTable[18]
%
% xxx wrsSpllBlock
% xxx wrsSpllErr
%
\snmpentrye{WR-SWITCH-MIB}{}{wrsPstatsHCTable}{Table with pstats values, one row per port.}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCIndex.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCPortName.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCTXUnderrun.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXOverrun.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXInvalidCode.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXSyncLost.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPauseFrames.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPfilterDropped.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPCSErrors.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXGiantFrames.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXRuntFrames.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXCRCErrors.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass0.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass1.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass2.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass3.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass4.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass5.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass6.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPclass7.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCTXFrames.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXFrames.<n>}{Total number
of Rx frames on port \emph{n} }
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXDropRTUFull.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio0.<n>}{Rx priority 0}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio1.<n>}{Rx priority 1}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio2.<n>}{Rx priority 2}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio3.<n>}{Rx priority 3}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio4.<n>}{Rx priority 4}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio5.<n>}{Rx priority 5}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio6.<n>}{Rx priority 6}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRXPrio7.<n>}{Rx priority 7}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRTUValid.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRTUResponses.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCRTUDropped.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCFastMatchPriority.<n>}{HP
frames on port \emph{n}}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCFastMatchFastForward.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCFastMatchNonForward.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCFastMatchRespValid.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCFullMatchRespValid.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCForwarded.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPstatsHCTable}{wrsPstatsHCTRURespValid.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{}{wrsPtpDataTable}{Table with a row per PTP servo instance.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpIndex.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpPortName.<n>}{
The port on which the instance is running.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpGrandmasterID.<n>}{
Identity of the PTP Grandmaster in the network.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpOwnID.<n>}{
PTP clock identity.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpMode.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpServoState.<n>}{PTP servo
state as string}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpServoStateN.<n>}{PTP servo
state as number}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpPhaseTracking.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpSyncSource.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpClockOffsetPs.<n>}{value of
the offset in ps}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpClockOffsetPsHR.<n>}{32-bit
signed value of the offset in picoseconds, with saturation}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpSkew.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpRTT.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpLinkLength.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpServoUpdates.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpDeltaTxM.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpDeltaRxM.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpDeltaTxS.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpDeltaRxS.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpServoStateErrCnt.<n>}{
Number of the servo updates when servo is out of the \texttt{TRACK\_PHASE}.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpClockOffsetErrCnt.<n>}{
Number of servo updates when offset is larger than 500ps or smaller than
-500ps.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpRTTErrCnt.<n>}{
Number of servo updates when RTT delta between subsequent updates is larger
than 1000ps or smaller than -1000ps.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpServoUpdateTime.<n>}{
TAI Nanosecond of the last servo's update.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpDataTable}{wrsPtpServoExt.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{}{wrsPortStatusTable}{Table with a port per row.}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusIndex.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusPortName.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusLink.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusConfiguredMode.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusLocked.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusPeer.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpVN.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpPN.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpVS.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpInDB.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpGbE.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpError.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusPtpTxFrames.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusPtpRxFrames.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusMonitor.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpDom.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpTemp.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpVcc.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpTxBiax.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpTxPower.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusSfpRxPower.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusT24p.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPortStatusTable}{wrsPortStatusT24pValid.<n>}{}
\snmpentrye{WR-SWITCH-MIB}{}{wrsPtpInstanceTable}{Table with all PTP instances.
This table has two indexes. The first one \textit{n}, corresponds to port
number to which a particular instance is assigned, the second index \textit{m},
is a serial number of an instance on particular port.}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstancePortIndex.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceOnPortIndex.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceName.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstancePort.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstancePortInstance.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstancePortName.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceState.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceMasterOnly.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceExtPortCfgDesSt.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceMechanism.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceProfile.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceExtension.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceAsymEnabled.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceAsymConstAsymPS.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceAsymScDelayCoef.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceAsymScDelayCoefHR.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceTSCorrEgressLatPS.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceTSCorrIngLatPS.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceTSCorrSemistLatPS.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceProtoDetectState.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceExtState.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstancePeerMac.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstancePeerVid.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceVlanNum.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceVlanListStr.<n>.<m>}{}
\snmpentrye{WR-SWITCH-MIB}{wrsPtpInstanceTable}{wrsPtpInstanceStatusError.<n>.<m>}{}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Add entries from other MIBs.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\snmpentryo{HOST-RESOURCES-MIB}{}{hrSWRunName.<n>}{List of running processes.}
\snmpentryo{HOST-RESOURCES-MIB}{}{hrStorageDescr.<n>}{}
\snmpentryo{HOST-RESOURCES-MIB}{}{hrStorageSize.<n>}{}
\snmpentryo{HOST-RESOURCES-MIB}{}{hrStorageUsed.<n>}{}
\snmpentryo{IF-MIB}{}{ifOperStatus.<n>}{}
\snmpentryo{IF-MIB}{}{ifIndex.<n>}{}
% description of the following OIDs is based on corresponding descriptions in BRIDGE-MIB and Q-BRIDGE-MIB
\snmpentryo{BRIDGE-MIB}{}{dot1dBase}{Basic information about a bridge.}
\snmpentryo{BRIDGE-MIB} {dot1dBase}{dot1dBaseBridgeAddress}{
The MAC address used by this bridge when it must be
referred to in a unique fashion. It is the numerically smallest
MAC address of all ports that belong to this bridge.}
\snmpentryo{BRIDGE-MIB} {dot1dBase}{dot1dBaseNumPorts}{
The number of ports controlled by this bridging
entity.}
\snmpentryo{BRIDGE-MIB} {dot1dBase}{dot1dBaseType}{
Indicates what type of bridging this bridge can
perform. \\Hardcoded to \texttt{transparent-only(2)}.}
\snmpentryo{BRIDGE-MIB}{}{dot1dBasePortTable}{
A table that contains generic information about every
port that is associated with this bridge. Transparent,
source-route, and srt ports are included.}
\snmpentryo{BRIDGE-MIB} {dot1dBasePortTable}{dot1dBasePortIfIndex.<port>}{
The value of the instance of
the \texttt{\glshyperlink{IF-MIB::ifIndex.<n>}} object,
defined in IF-MIB, for the interface corresponding
to this port.}
\snmpentryo{BRIDGE-MIB} {dot1dBasePortTable}{dot1dBasePortCircuit.<port>}{
Hardcoded to \texttt{\{0, 0\}} (\texttt{ZeroDotZero}) }
\snmpentryo{BRIDGE-MIB}{}{dot1dTpFdbTable}{
A table that contains information about unicast
entries for which the bridge has forwarding and/or
filtering information. This information is used
by the transparent bridging function in
determining how to propagate a received frame.}
\snmpentryo{BRIDGE-MIB} {dot1dTpFdbTable}{dot1dTpFdbAddress.<mac>}{
A unicast MAC address for which the bridge has
forwarding and/or filtering information.}
\snmpentryo{BRIDGE-MIB} {dot1dTpFdbTable}{dot1dTpFdbPort.<mac>}{
Either the value '\texttt{0}', or the port number of the port on
which a frame having a source address equal to the value
of the corresponding instance of
\texttt{\glshyperlink{BRIDGE-MIB::dot1dTpFdbAddress.<mac>}} has
been seen. A value of '\texttt{0}' indicates that the port
number has not been learned, but that the bridge does
have some forwarding/filtering information about this
address (e.g., in
the \texttt{\glshyperlink{BRIDGE-MIB::dot1dStaticTable}}).}
\snmpentryo{BRIDGE-MIB} {dot1dTpFdbTable}{dot1dTpFdbStatus.<mac>}{
The status of this entry. The meanings of the
values are:\\
-- \texttt{learned(3)} - the value of the corresponding instance
of \texttt{\glshyperlink{BRIDGE-MIB::dot1dTpFdbPort.<mac>}}
was learned, and is being used.\\
-- \texttt{mgmt(5)} - the value of the corresponding instance of
\texttt{\glshyperlink{BRIDGE-MIB::dot1dTpFdbAddress.<mac>}}
is also the value of an existing instance of
\texttt{\glshyperlink{BRIDGE-MIB::dot1dStaticAddress.<mac>.<receivePort>}}.}
\snmpentryo{BRIDGE-MIB}{}{dot1dStaticTable}{
A table containing filtering information configured
into the bridge by (local or network) management
specifying the set of ports to which frames received
from specific ports and containing specific destination
addresses are allowed to be forwarded. The value of
zero in this table, as the port number from which frames
with a specific destination address are received, is
used to specify all ports for which there is no specific
entry in this table for that particular destination
address. Entries are valid for unicast and for
group/broadcast addresses.}
\snmpentryo{BRIDGE-MIB} {dot1dStaticTable}{dot1dStaticAddress.<mac>.<receivePort>}{
The destination MAC address in a frame to which this
entry's filtering information applies. This object can
take the value of a unicast address, a group address, or
the broadcast address.}
\snmpentryo{BRIDGE-MIB} {dot1dStaticTable}{dot1dStaticReceivePort.<mac>.<receivePort>}{
Either the value '\texttt{0}', or the port number of the port
from which a frame must be received in order for this
entry's filtering information to apply. A value of zero
indicates that this entry applies on all ports of the
bridge for which there is no other applicable entry.}
\snmpentryo{BRIDGE-MIB} {dot1dStaticTable}{dot1dStaticAllowedToGoTo.<mac>.<receivePort>}{
The set of ports to which frames received from a
specific port and destined for a specific MAC address,
are allowed to be forwarded. Each octet within the
value of this object specifies a set of eight ports,
with the first octet specifying ports \textit{1} through \textit{8}, the
second octet specifying ports \textit{9} through \textit{16}, etc. Within
each octet, the most significant bit represents the
lowest numbered port, and the least significant bit
represents the highest numbered port. Thus, each port
of the bridge is represented by a single bit within the
value of this object. If that bit has a value of '\texttt{1}',
then that port is included in the set of ports; the port
is not included if its bit has a value of '\texttt{0}'. (Note
that the setting of the bit corresponding to the port
from which a frame is received is irrelevant.) The
default value of this object is a string of ones of
appropriate length.}
\snmpentryo{BRIDGE-MIB} {dot1dStaticTable}{dot1dStaticStatus.<mac>.<receivePort>}{
This object indicates the status of this entry.\\
-- \texttt{permanent(3)} - this entry is currently in use and
will remain so after the next reset of the
bridge (as long as configured in \textit{dot-config}).}
\snmpentryo{Q-BRIDGE-MIB}{}{dot1qBase}{
Group with information specific for IEEE 802.1Q. }
\snmpentryo{Q-BRIDGE-MIB} {dot1qBase}{dot1qVlanVersionNumber}{
The version number of IEEE 802.1Q that this device
supports. Hardcoded to \texttt{version(1)}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qBase}{dot1qMaxVlanId}{
The maximum IEEE 802.1Q VLAN-ID that this device
supports.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qBase}{dot1qMaxSupportedVlans}{
The maximum number of IEEE 802.1Q VLANs that this
device supports.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qBase}{dot1qNumVlans}{
The current number of IEEE 802.1Q VLANs that are
configured in this device.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qBase}{dot1qGvrpStatus}{
The administrative status requested by management for
GVRP. The value is set to \texttt{disabled(2)}}
\snmpentryo{Q-BRIDGE-MIB}{}{dot1qFdbTable}{
A table that contains configuration and control
information for each Filtering Database currently
operating on this device. Entries in this table appear
automatically when VLANs are assigned FDB IDs in the
\texttt{\glshyperlink{Q-BRIDGE-MIB::dot1qVlanCurrentTable}}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qFdbTable}{dot1qFdbDynamicCount.fdbId}{
The current number of dynamic entries in this
Filtering Database.}
\snmpentryo{Q-BRIDGE-MIB}{}{dot1qTpFdbTable}{
A table that contains information about unicast entries
for which the device has forwarding and/or filtering
information. This information is used by the
transparent bridging function in determining how to
propagate a received frame.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qTpFdbTable}{dot1qTpFdbPort.<fdbId>.<mac>}{
Either the value '\texttt{0}', or the port number of the port on
which a frame having a source address equal to the value
of the corresponding instance of \texttt{dot1qTpFdbAddress} has
been seen. A value of '\texttt{0}' indicates that the port
number has not been learned but that the device does
have some forwarding/filtering information about this
address.\\
The port value is assigned to
this object whenever it is learned, even for addresses
for which the corresponding value of
\texttt{\glshyperlink{Q-BRIDGE-MIB::dot1qTpFdbStatus.<fdbId>.<mac>}}
is not \texttt{learned(3)}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qTpFdbTable}{dot1qTpFdbStatus.<fdbId>.<mac>}{
The status of this entry. The meanings of the values
are:\\
-- \texttt{learned(3)} - the value of the corresponding instance
of dot1qTpFdbPort was learned and is being used.\\
-- \texttt{mgmt(5)} - the value of the corresponding instance of
\texttt{dot1qTpFdbAddress} is configured by management.}
\snmpentryo{Q-BRIDGE-MIB}{}{dot1qVlanCurrentTable}{
A table containing current configuration information
for each VLAN currently configured into the device by
(local or network) management.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanCurrentTable}{dot1qVlanFdbId.<creationTime>.<vlan>}{
The Filtering Database used by this VLAN. This is one
of the \texttt{dot1qFdbId} values in the \texttt{\glshyperlink{Q-BRIDGE-MIB::dot1qFdbTable}}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanCurrentTable}{dot1qVlanCurrentEgressPorts.<creationTime>.<vlan>}{
The set of ports that are transmitting traffic for
this VLAN as either tagged or untagged frames.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanCurrentTable}{dot1qVlanCurrentUntaggedPorts.<creationTime>.<vlan>}{
The set of ports that are transmitting traffic for
this VLAN as untagged frames.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanCurrentTable}{dot1qVlanStatus.<creationTime>.<vlan>}{
This object indicates the status of this entry.\\
-- \texttt{permanent(2)} - this entry, corresponding to an entry
in \texttt{\glshyperlink{Q-BRIDGE-MIB::dot1qVlanStaticTable}}, is currently in use and
will remain so after the next reset of the
device. The port lists for this entry include
ports from the equivalent \texttt{\glshyperlink{Q-BRIDGE-MIB::dot1qVlanStaticTable}}
entry and ports learned dynamically.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanCurrentTable}{dot1qVlanCreationTime.<creationTime>.<vlan>}{
The value of \texttt{sysUpTime} when this VLAN was created.
\texttt{0} if VLAN was created before start of SNMP agent.}
\snmpentryo{Q-BRIDGE-MIB}{}{dot1qVlanStaticTable}{
A table containing static configuration information for
each VLAN configured into the device by (local or
network) management.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanStaticTable}{dot1qVlanStaticName.<vlan>}{
An administratively assigned string, which may be used
to identify the VLAN. In WRS used as \texttt{VLAN<vlanNumber>}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanStaticTable}{dot1qVlanStaticEgressPorts.<vlan>}{
The set of ports that are permanently assigned to the
egress list for this VLAN by management.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanStaticTable}{dot1qVlanForbiddenEgressPorts.<vlan>}{
The set of ports that are prohibited by management
from being included in the egress list for this VLAN.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanStaticTable}{dot1qVlanStaticUntaggedPorts.<vlan>}{
The set of ports that should transmit egress packets
for this VLAN as untagged.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qVlanStaticTable}{dot1qVlanStaticRowStatus.<vlan>}{
This object indicates the status of this entry.
All entries are Hardcoded to \texttt{active(1)}.}
\snmpentryo{Q-BRIDGE-MIB}{}{dot1qPortVlanTable}{
A table containing per-port control and status
information for VLAN configuration in the device.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qPortVlanTable}{dot1qPvid.<portId>}{
The PVID, the VLAN-ID assigned to untagged frames or
Priority-Tagged frames received on this port.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qPortVlanTable}{dot1qPortAcceptableFrameTypes.<portId>}{
When this is \texttt{admitOnlyVlanTagged(2)}, the device will
discard untagged frames or Priority-Tagged frames
received on this port. When \texttt{admitAll(1)}, untagged
frames or Priority-Tagged frames received on this port
will be accepted and assigned to a VID based on the
PVID and VID Set for this port.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qPortVlanTable}{dot1qPortIngressFiltering.<portId>}{
When this is \texttt{true(1)}, the device will discard incoming
frames for VLANs that do not include this Port in its
Member set. When \texttt{false(2)}, the port will accept all
incoming frames.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qPortVlanTable}{dot1qPortGvrpStatus.<portId>}{
WRS does not support GVRP. Hardcoded to \texttt{disabled(2)}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qPortVlanTable}{dot1qPortGvrpFailedRegistrations.<portId>}{
WRS does not support GVRP. Hardcoded to \texttt{0}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qPortVlanTable}{dot1qPortGvrpLastPduOrigin.<portId>}{
WRS does not support GVRP. Hardcoded to \texttt{00:00:00:00:00:00}.}
\snmpentryo{Q-BRIDGE-MIB} {dot1qPortVlanTable}{dot1qPortRestrictedVlanRegistration.<portId>}{
WRS does not support Vlan registration via SNMP. Hardcoded to \texttt{false(2)}.}