SnmpCollector
The SnmpCollector collects performance data through SNMP. Configure credentials to access SNMP agents in the Web UI (Admin>Configure SNMP Community Names by IP Address).
Collector facts
Class Name |
|
Package |
core |
Supported on Minion |
Yes |
Configuration Files |
$OPENNMS_HOME/etc/datacollection-config.xml |
Configuration and use
Parameter | Description | Default |
---|---|---|
Required |
||
collection |
The name of the SNMP Collection to use. |
default |
Optional |
||
thresholding-enabled |
Whether collected performance data should be tested against thresholds. |
true |
timeout |
Timeout in milliseconds to wait for SNMP responses. |
SNMP configuration |
SNMP collection configuration
To configure which MIB objects to collect from devices, create a datacollection XML configuration file in etc/datacollection/
.
After creating a new datacollection config file, add it to etc/datacollection-config.xml
for inclusion in polling.
The datacollection-config.xml
is reloaded automatically whenever the file is modified.
The content of dataCollectionGroups in etc/datacollection/*.xml
files are reloaded each time the Collectd process gathers metrics from a node.
This allows you to modify which metrics are collected without needing to restart services, once the Collectd collector service has been defined.
Understanding resource types helps when editing collector-specific configuration files.
datacollection-config.xml
file<?xml version="1.0"?>
<datacollection-config rrd-repository="/var/lib/opennms/rrd/snmp/">(1)
<snmp-collection name="default"(2)
snmpStorageFlag="select">(3)
<rrd step="300">(4)
<rra>RRA:AVERAGE:0.5:1:2016</rra>
<rra>RRA:AVERAGE:0.5:12:1488</rra>
<rra>RRA:AVERAGE:0.5:288:366</rra>
<rra>RRA:MAX:0.5:288:366</rra>
<rra>RRA:MIN:0.5:288:366</rra>
</rrd>
<include-collection dataCollectionGroup="MIB2"/>(5)
<include-collection dataCollectionGroup="3Com"/>
...
<include-collection dataCollectionGroup="VMware-Cim"/>
</snmp-collection>
</datacollection-config>
1 | Directory to persist RRD files on the file system. Ignored if you are using Newts as time-series storage. |
2 | Name of the SNMP data collection referenced in the collection package in collectd-configuration.xml . |
3 | Configure SNMP MIB-II interface metric collection behavior: all means collect metrics from all interfaces primary only from interface provisioned as primary interface select only from manually selected interfaces from the Web UI. |
4 | RRD archive configuration for this set of performance metrics. Ignored when using Newts as time-series storage. |
5 | Name of collection group from a file within the etc/datacollection/ subfolder to include in the collection cycle. |
SNMP data collection example
The following scenario steps through creating a new datacollection definition and assumes the following:
-
Node A belongs to categories CatA and CatB, and has a sysObjectID of
.1.100.1.1
. -
Node B belongs to category CatB, and has a sysObjectID of
.1.100.1.2
.
To collect different OIDs based on a categories filter, you must define separate Collectd packages.
The examples included below are partial files to provide an example of how datacollection files are structured. |
etc/collectd-configuration.xml
<package name="package-1" remote="false">
<filter>catincCatA</filter>
<service name="SNMP" interval="300000" user-defined="false" status="on">
<parameter key="collection" value="group1"/>
</service>
</package>
<package name="package-2" remote="false">
<filter>catincCatB</filter>
<service name="SNMP" interval="300000" user-defined="false" status="on">
<parameter key="collection" value="group2"/>
</service>
</package>
etc/datacollection-config.xml
<snmp-collection name="group1" snmpStorageFlag="select">
<rrd step="300">
<rra>RRA:AVERAGE:0.5:1:2016</rra>
</rrd>
<include-collection dataCollectionGroup="UniqueA"/>
<include-collection dataCollectionGroup="UniqueB"/>
</snmp-collection>
<snmp-collection name="group2" snmpStorageFlag="select">
<rrd step="300">
<rra>RRA:AVERAGE:0.5:1:2016</rra>
</rrd>
<include-collection dataCollectionGroup="UniqueB"/>
<include-collection dataCollectionGroup="UniqueC"/>
</snmp-collection>
Then, inside the datacollection directory are three files: unique-a.xml
, unique-b.xml
, and unique-c.xml
, with the following content, respectively:
etc/datacollection/unique-a.xml
<datacollection-group name="UniqueA">
<systemDef name="Collect-A">
<sysoid>.1.100.1.1</sysoid>
<collect>
<includeGroup>test-group-1</includeGroup>
</collect>
</systemDef>
<systemDef name="Collect-B">
<sysoid>.1.100.1.2</sysoid>
<collect>
<includeGroup>test-group-2</includeGroup>
</collect>
</systemDef>
<systemDef name="Collect-C">
<sysoidMask>.1.100.</sysoidMask>
<collect>
<includeGroup>test-group-3</includeGroup>
</collect>
</systemDef>
</datacollection-group>
etc/datacollection/unique-b.xml
<datacollection-group name="UniqueB">
<systemDef name="Collect-D">
<sysoidMask>.1.100.1.</sysoidMask>
<collect>
<includeGroup>test-group-4</includeGroup>
</collect>
</systemDef>
<systemDef name="Collect-E">
<sysoid>.1.100.1.3</sysoid>
<collect>
<includeGroup>test-group-5</includeGroup>
</collect>
</systemDef>
<systemDef name="Collect-F">
<sysoidMask>.1.100.1.</sysoidMask>
<collect>
<includeGroup>test-group-6</includeGroup>
</collect>
</systemDef>
</datacollection-group>
etc/datacollection/unique-c.xml
<datacollection-group name="UniqueC">
<systemDef name="Collect-G">
<sysoidMask>.1.</sysoidMask>
<collect>
<includeGroup>test-group-7</includeGroup>
</collect>
</systemDef>
<systemDef name="Collect-H">
<sysoid>.1.100.3.1</sysoid>
<collect>
<includeGroup>test-group-8</includeGroup>
</collect>
</systemDef>
<systemDef name="Collect-I">
<sysoid>.1.100.1.1.2</sysoid>
<collect>
<includeGroup>test-group-9</includeGroup>
</collect>
</systemDef>
</datacollection-group>
There will be two effective snmp-collections called group1 and group2, as the SNMP service appears twice in collectd-configuration.xml
.
Each one matches a different set of nodes.
Because all the systemDefs have unique names, group1 will contain UniqueA plus UniqueB, meaning it would have Collect-A through Collect-F. Similarly, group2 would contain Collect-D through Collect-I. Regardless of the sysoid and sysoidMasks inside the systemDef, what matters at this level is the systemDef name.
For node A
Because this node matches two collectd packages for the SNMP service, the collector uses both collections (group1 and group2) and will check Collect-A through Collect-I. Even though UniqueB is referenced twice, it will be included only once.
Since the node’s sysObjectID is .1.100.1.1, only the systemDefs Collect-A, Collect-C, Collect-D, Collect-F, and Collect-G will be included, as those are the only ones with a sysoid or sysoidMask that matches the sysObjectID.
The mibObj groups are added in the order they appear. If one systemDef references a group name that is already included, it won’t be added again.
For node B
Because this node only matches one collectd package for the SNMP service, the collector uses the one collection (group2) to check Collect-D through Collect-I.
Since the node’s sysObjectID is .1.100.1.2, only the systemDefs Collect-D, Collect-F, and Collect-G will be included.
SnmpCollectorNG
The SnmpCollectorNG is currently provided as a beta version and is still under development. |
The SnmpCollectorNG provides an alternate implementation to the SnmpCollector that takes advantage of new APIs in the Meridian platform. It is provided as a separate collector while we work to validate its functionality and run-time characteristics, with the goal of eventually having it replace the SnmpCollector.
Use this new collector by updating existing references from org.opennms.netmgt.collectd.SnmpCollector
to org.opennms.netmgt.collectd.SnmpCollectorNG
.
Known caveats include:
-
No support for alias type resources
-
No support for minimum/maximum values