The SNMP Library sensor uses a Management Information Base (MIB) file to create sensors that monitor a device via the Simple Network Management Protocol (SNMP).
The content of the MIB file determines which data types are available for monitoring. When you create the sensor, it provides a list of counters that the target device returns based on every object identifier (OID) in the MIB file.
The SNMP Library sensor does not appear as a running sensor. It uses the meta-scan facility of the probe to find or to match OIDs from the MIB file. It is useful because you do not need to manually enter OIDs.
To monitor SNMP-capable devices and to add sensors via the SNMP Library sensor, download the manufacturer's MIB files for the target device, convert the MIB files to the OID library format, and import them into PRTG. PRTG also provides precompiled .oidlib files that contain the OIDs of SNMP counters for the most common network devices.
PRTG shows a list of .oidlib files that are available on the system. This list contains all library files in the \snmplibs subfolder of the PRTG program directory. It contains both the default PRTG library files and your own library files.
List of SNMP Library Files
The library file names in the list indicate their purpose. Select a library file that is suitable for the target device (for example, choose an MIB file that you imported) and confirm via Ok.
If the library file not suitable for the target device, this results in the error message The scan for available monitoring items has failed on this device: No such object (SNMP error # 222). If you see this message, click Cancel and try to add the sensor with a different library file.
The SNMP Library sensor takes a list of OIDs that you import from an MIB file into an .oidlib file and tests the OIDs against the target device to find the OIDs that the target device supports. This discovery process is the meta-scan. If the sensor finds counters for the target device, the sensor settings open with a list of all available monitoring items.
List of SNMP Single Values: Sorted by MIB, Category, Name
List of SNMP Table Values: Sorted by MIB, Category (Table Name/OID), Row, Name
The list of SNMP table values sequentially presents row values to help you find the values you are interested in.
You can also use the search to find the desired group or category. The search matches individual strings, so if your string has a space in it, put the search string in double quotation marks (").
Select the counters that you want to monitor and click Save. PRTG creates sensors based on the OID types of the selected counters.
Add Sensor Settings
Setting
Description
Library
The path to the .oidlib file that this sensor uses.
Category
Select the parameters that you want to monitor. The list is specific to your setup. The list contains all counters that are available in the .oidlib file that match the target device.
Depending on the type of the selected entries, PRTG creates the following sensors:
SNMP Custom Advanced: For up to 10 channels for 10 OIDs each. For example, 22 selected single values result in 3 sensors: 2 sensors with 10 channels and 1 sensor with 2 channels.
SNMP Custom String: For each selected entry that returns a string value.
SNMP Custom Table: For up to 10 channels for 10 columns per row. The channels represent the values in the columns of the same row.
Once you create a custom SNMP sensor, you can create a device template from it and prepare it for distribution. For example, you can refine the template with better name templates.
If the name contains angle brackets (<>), PRTG replaces them with braces ({}) for security reasons. For more information, see the Knowledge Base: What security features does PRTG include?
This setting is for your information only. You cannot change it.
Tags
Enter one or more tags. Confirm each tag with the Spacebar key, a comma, or the Enter key. You can use tags to group objects and use tag-filtered views later on. Tags are not case-sensitive. Tags are automatically inherited.
It is not possible to enter tags with a leading plus (+) or minus (-) sign, nor tags with parentheses (()) or angle brackets (<>).
For performance reasons, it can take some minutes until you can filter for new tags that you added.
The sensor has the following default tags that are automatically predefined in the sensor's settings when you add the sensor:
snmplibrarysensor
Priority
Select a priority for the sensor. This setting determines the position of the sensor in lists. The highest priority is at the top of a list. Choose from the lowest priority () to the highest priority ().
Sensor Specific
The available sensor settings depend on the sensor that the SNMP Library sensor creates. For more information about settings, see the sections of these sensors:
Select a channel from the list to define it as the primary channel. In the device tree, the last value of the primary channel is always displayed below the sensor's name. The available options depend on what channels are available for this sensor.
You can set a different primary channel later by clicking below a channel gauge on the sensor's Overview tab.
Graph Type
Define how different channels are shown for this sensor:
Show channels independently (default): Show a graph for each channel.
Stack channels on top of each other: Stack channels on top of each other to create a multi-channel graph. This generates a graph that visualizes the different components of your total traffic. You cannot use this option in combination with manual Vertical Axis Scaling (available in the channel settings).
Stack Unit
This setting is only visible if you select Stack channels on top of each other above.
Select a unit from the list. All channels with this unit are stacked on top of each other. By default, you cannot exclude single channels from stacking if they use the selected unit. However, there is an advanced procedure to do so.
Inherited Settings
By default, all of these settings are inherited from objects that are higher in the hierarchy. We recommend that you change them centrally in the root group settings if necessary. To change a setting for this object only, click under the corresponding setting name to disable the inheritance and to display its options.
For more information, see section Root Group Settings, section Scanning Interval.
Schedules, Dependencies, and Maintenance Window
You cannot interrupt the inheritance for schedules, dependencies, and maintenance windows. The corresponding settings from the parent objects are always active. However, you can define additional schedules, dependencies, and maintenance windows. They are active at the same time as the parent objects' settings.
Schedules, Dependencies, and Maintenance Window
For more information, see section Root Group Settings, section Schedules, Dependencies, and Maintenance Window (default).
Access Rights
Access Rights
For more information, see section Root Group Settings, section Access Rights.
Import MIB Files
Additionally, you can create your own .oidlib files by importing the device manufacturers' MIB files with the free MIB Importer tool. You can convert your MIB files and save the .oidlib file results to the \snmplibs subfolder of the PRTG program directory.
If the.oidlib files that you import contain lookups (you can see this in section Lookup in the MIB Importer), you can define your own sensor states for the values that the lookups return. Add an SNMP Library sensor with this .oidlib file. PRTG then creates a lookup definition file using the lookupname of the chosen library as id parameter.
PRTG adds the lookups without status definitions, so the sensor shows the Warningstatus by default. You must edit the corresponding lookup files to get reliable alarms. Override the lookup definition with your own custom lookup. For more information, see section Define Lookups.
The .oidlib files might not support all devices or parameters.
.oidlib File
Description
APC UPS.oidlib
Monitors uninterruptible power supplies (UPSs) from APC American Power Conversion Corp.
APCSensorstationlib.oidlib
Monitors alarm status, communication status, humidity, and temperature as shown by an APC sensor station.
Basic Linux Library (UCD-SNMP-MIB).oidlib
Monitors basic system parameters on Linux systems, such as memory, disk and swap, CPU, and more.
cisco-interfaces.oidlib
Monitors Cisco-specific parameters, for example, the number of present network interfaces on a system, several states of an interface (admin, oper, speed, type, errors, discards, etc.), and more.
cisco-queue.oidlib
Monitors queues on a Cisco interface, for example, queue depth and its maximum, discarded messages from the queue, the number of the queue within the queue set, and more.
Dell Storage Management.oidlib
Monitors Dell storage devices. Possible parameters include disk arrays, battery and power supply, fan and temperature, virtual disk, and more.
Dell Systems Management Instrumentation.oidlib
Monitors the hardware of Dell systems. Possible parameters include ACPower and battery, alerts, base board, BIOS, Baseboard Management Controller (BMC), chassis, COO, cooling, event log, firmware, integrated development environment (IDE), keyboard, memory, port, network, processor, Small Computer System Interface (SCSI), system, temperature, USB, universally unique identifier (UUID), and more.
HP LaserJet Status.oidlib
Monitors toner, paper, and jam status of an HP LaserJet printer.
Linux SNMP (AX BGP DisMan EtherLike Host).oidlib
Monitors different aspects of Linux systems.
This file might detect a very large number of interfaces. It might take a few seconds until the selection table appears.
Linux SNMP (Framework Proxy Noti v2).oidlib
Monitors different aspects of Linux systems.
This file might detect a very large number of interfaces. It might take a few seconds until the selection table appears.
Linux SNMP (IP Net SNMP Noti OSPF RMON SMUX).oidlib
Monitors different aspects of Linux systems.
This file might detect a very large number of interfaces. It might take a few seconds until the selection table appears.
Linux SNMP (Source TCP UCD UDP).oidlib
Monitors different aspects of Linux systems.
This file might detect a very large number of interfaces. It might take a few seconds until the selection table appears.
Paessler Common OID Library.oidlib
Monitors many common hardware devices. It is used for several sensors and is encrypted.
SNMP Informant std.oidlib
Monitors logical disks, processor, memory, and network interface on Windows systems.