<%NUMBERING1%>.<%NUMBERING2%>.<%NUMBERING3%> PRTG Manual: SNMP HPE ProLiant System Health Sensor
The SNMP HPE ProLiant System Health sensor monitors the system health of an HPE ProLiant server via the Simple Network Management Protocol (SNMP).
The sensor can show the following:
- Overall status
- Thermal status
- System fan status
- CPU fan status
- Number of broken and running fans
- Number of broken and running fans that are fault tolerant
- Status and condition of the power supply
- Temperatures for various components of the server, for example, memory, power supply, CPU, system, and storage
- Power consumption
- Disk controller status
These channels are created at run time depending on the available measurement components. Which channels the sensor actually shows might depend on the monitored device and the sensor setup.
SNMP HPE ProLiant System Health Sensor
Sensor in Other Languages
Dutch: SNMP HPE ProLiant Systeemstatus, French: État du système HPE ProLiant SNMP, German: SNMP HPE Proliant Systemzustand, Japanese: SNMP HPE Proliant システムヘルス, Portuguese: Funcionamento do sistema SNMP HPE ProLiant, Russian: Работоспособность системы HPE ProLiant по SNMP, Simplified Chinese: SNMP HPE Proliant 系统健康状况, Spanish: SNMP Salud de sistema HPE Proliant
Remarks
Requirement: HPE System Management Tools
For Gen9 servers or earlier, this sensor needs a specific HPE system management tool to be installed on the target device to report data via SNMP: HPE Insight Management Agents. To receive SNMP data from RAID controllers, you additionally need HPE Insight Management WBEM Providers. For Gen10 servers, this sensor no longer requires HPE system management tools.
For more details and download links, see the Knowledge Base: Monitor HP ProLiant via SNMP?
For Gen9 servers or earlier, some of the HPE object identifiers (OID) that this sensor uses are only accessible via the iLO interface. If this sensor throws an error that it cannot find "such device types", create a device that points to the address of the HPE iLO interface (if available) and add the sensor to this device. We recommend that you use the Agentless Management feature with configured SNMP. You can set this up in the iLO configuration interface under Administration | Management | SNMP Settings. For Gen10 servers, use the HPE iLO interface as parent device for this sensor.
Add Sensor
The Add Sensor dialog appears when you manually add a new sensor to a device. It only shows the setting fields that are required for creating the sensor. Therefore, you do not see all setting fields in this dialog. You can change (nearly) all settings in the sensor's Settings tab later.
Sensor Settings
Click the Settings tab of a sensor to change its settings.
Usually, a sensor connects to the IP Address or DNS Name of the parent device on which you created the sensor. See the device settings for details. For some sensors, you can explicitly define the monitoring target in the sensor settings. See below for details on available settings.
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Sensor Name
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Enter a meaningful name to identify the sensor. By default, PRTG shows this name in the device tree, as well as in alarms, logs, notifications, reports, maps, libraries, and tickets.
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Parent Tags
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Shows tags that this sensor inherits from its parent device, group, and probe. This setting is shown for your information only and cannot be changed here.
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Tags
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Enter one or more tags, separated by spaces or commas. You can use tags to group sensors and use tag–filtered views later on. Tags are not case sensitive. We recommend that you use the default value.
There are default tags that are automatically predefined in a sensor's settings when you add a sensor. See section Default Tags below.
You can add additional tags to the sensor if you like. Other tags are automatically inherited from objects further up in the device tree. These are visible above as Parent Tags.
It is not possible to enter tags with a leading plus (+) or minus (-) sign, nor tags with parentheses (()) or angle brackets (<>).
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Priority
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Select a priority for the sensor. This setting determines where the sensor is placed in sensor lists. A sensor with a top priority is at the top of a list. Choose from one star (low priority) to five stars (top priority).
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Default Tags
snmphpesystemhealthsensor, systemhealth, snmphpe, hpe
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Primary Channel
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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 the pin symbol of a channel on the sensor's Overview tab.
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Graph Type
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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.
This option cannot be used in combination with manual Vertical Axis Scaling (available in the channel settings).
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Stack Unit
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This field is only visible if you enable Stack channels on top of each other as Graph Type. 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.
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Inherited Settings
By default, all of the following settings are inherited from objects that are higher in the hierarchy and should be changed there if necessary. Often, best practice is to change them centrally in the root group settings. For more information, see section Inheritance of Settings. To change a setting for this object only, disable inheritance by clicking the button next to inherit from under the corresponding setting name. You then see the options described below.
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Click to interrupt the inheritance. See section Inheritance of Settings for more information.
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Scanning Interval
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Select a scanning interval (seconds, minutes, or hours). The scanning interval determines the amount of time that the sensor waits between two scans. You can change the available intervals in the system administration on PRTG on premises installations.
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If a Sensor Query Fails
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Define the number of scanning intervals that the sensor has time to reach and check a device again in case a sensor query fails. Depending on the option that you select, the sensor can try to reach and check a device again several times before the sensor shows a Down status. This can avoid false alarms if the monitored device only has temporary issues. For previous scanning intervals with failed requests, the sensor shows a Warning status. Choose from:
- Set sensor to down immediately: Set the sensor to a Down status immediately after the first failed request.
- Set sensor to warning for 1 interval, then set to down (recommended): Set the sensor to a Warning status after the first failed request. If the following request also fails, the sensor shows an error.
- Set sensor to warning for 2 intervals, then set to down: Set the sensor to a Down status only after three consecutively failed requests.
- Set sensor to warning for 3 intervals, then set to down: Set the sensor to a Down status only after four consecutively failed requests.
- Set sensor to warning for 4 intervals, then set to down: Set the sensor to a Down status only after five consecutively failed requests.
- Set sensor to warning for 5 intervals, then set to down: Set the sensor to a Down status only after six consecutively failed requests.
Sensors that monitor via Windows Management Instrumentation (WMI) always wait at least one scanning interval before they show a Down status. It is not possible to immediately set a WMI sensor to a Down status, so the first option does not apply to these sensors. All other options can apply.
If you define error limits for a sensor's channels, the sensor immediately shows a Down status. No "wait" option applies.
If a channel uses lookup values, the sensor immediately shows a Down status. No "wait" options apply.
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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 settings here. They are active at the same time as the parent objects' settings.
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Schedule
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Select a schedule from the list. Schedules can be used to monitor for a certain time span (days or hours) every week.
You can create schedules, edit schedules, or pause monitoring for a specific time span. For more information, see section Account Settings—Schedules.
Schedules are generally inherited. New schedules are added to schedules that you already set up, so all schedules are active at the same time.
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Maintenance Window
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Specify if you want to set up a one-time maintenance window. During a maintenance window, the selected object and all child objects are not monitored. They are in a Paused status instead. Choose between:
- Not set (monitor continuously): No maintenance window is set and monitoring is always active.
- Set up a one-time maintenance window: Pause monitoring within a maintenance window. You can define a time span for a monitoring pause below and change it even for an active maintenance window.
To terminate an active maintenance window before the defined end date, change the time entry in Maintenance Ends to a date in the past.
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Maintenance Begins
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This field is only visible if you enable Set up a one-time maintenance window above. Use the date time picker to enter the start date and time of the maintenance window.
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Maintenance Ends
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This field is only visible if you enable Set up a one-time maintenance window above. Use the date time picker to enter the end date and time of the maintenance window.
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Dependency Type
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Define a dependency type. You can use dependencies to pause monitoring for an object depending on the status of a different object. You can choose from:
- Use parent: Use the dependency type of the parent object.
- Select a sensor: Use the dependency type of the parent object. Additionally, pause the current object if a specific sensor is in a Down status or in a Paused status caused by another dependency.
- Master sensor for parent: Make this sensor the master object for its parent device. The sensor influences the behavior of its parent device: If the sensor is in a Down status, the device is paused. For example, it is a good idea to make a Ping sensor the master object for its parent device to pause monitoring for all other sensors on the device in case the device cannot even be pinged. Additionally, the sensor is paused if the parent group is paused by another dependency.
To test your dependencies, select Simulate Error Status from the context menu of an object that other objects depend on. A few seconds later, all dependent objects are paused. You can check all dependencies under Devices | Dependencies in the main menu bar.
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Dependency
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This field is only visible if you enable Select a sensor above. Click the Search button and use the object selector to select a sensor on which the current object will depend.
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Dependency Delay (Sec.)
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This field is only visible if you enable Select a sensor above. Define a time span in seconds for dependency delay.
After the master sensor for this dependency comes back to an Up status, monitoring of the dependent objects is additionally delayed by the defined time span. This can prevent false alarms, for example, after a server restart, by giving systems more time for all services to start up. Enter an integer value.
This setting is not available if you set this sensor to Use parent or to be the Master sensor for parent. In this case, define delays in the parent device settings or in its parent group settings.
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Click to interrupt the inheritance. See section Inheritance of Settings for more information.
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User Group Access
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Define the user groups that have access to the sensor. You see a table with user groups and group access rights. The table contains all user groups in your setup. For each user group, you can choose from the following group access rights:
- Inherited: Inherit the access rights settings of the parent object.
- No access: Users in this user group cannot see or edit the sensor. The sensor neither shows up in lists nor in the device tree.
- Read access: Users in this group can see the sensor and view its monitoring results. They cannot edit any settings.
- Write access: Users in this group can see the sensor, view its monitoring results, and edit its settings. They cannot edit its access rights settings.
- Full access: Users in this group can see the sensor, view its monitoring results, edit its settings, and edit its access rights settings.
For more details on access rights, see section Access Rights Management.
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Click to interrupt the inheritance. See section Inheritance of Settings for more information.
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Channel Unit Types
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For each type of channel, define the unit in which data is displayed. If defined on probe, group, or device level, these settings can be inherited to all sensors underneath. You can set units for the following channel types (if available):
- Bandwidth
- Memory
- Disk
- File
- Custom
Custom channel types can be set on sensor level only.
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More
KNOWLEDGE BASE
What SNMP sensors does PRTG offer?
My SNMP sensors don't work. What can I do?
Monitor HP Proliant via SNMP?
Why is my SNMP HPE ProLiant System Health sensor in error status after updating PRTG?
Edit Channels
To change display settings, spike filtering, and limits, switch to the sensor's Overview tab and click the gear icon of a specific channel. For detailed information, see section Sensor Channel Settings.
Notification Triggers
Click the Notification Triggers tab to change notification triggers. For detailed information, see section Sensor Notification Triggers Settings.
Others
For more general information about settings, see section Object Settings.
Sensor Settings Overview
For information about sensor settings, see the following sections: