For single processor machine numbers will appear to be percentages as the kernel will tally ticks at 100 per second. in ticks per second, as reported by the kernel. Kernel CPU time in ticks per second, as reported by the kernel. Iowait CPU time in ticks per second, as reported by the kernel. Idle CPU time in ticks per second, as reported by the kernel. System CPU time in ticks per second, as reported by the kernel. Nice CPU time in ticks per second, as reported by the kernel. User CPU time in ticks per second, as reported by the kernel. Deprecated, replaced by of the ssCpuRawIdle object Deprecated, replaced by of the ssCpuRawSystem object Deprecated, replaced by the ssCpuRawUser object The number of context switches per second. The number of interrupts per second, including the clock. Deprecated, replaced by the ssIORawReceived object Deprecated, replaced by the ssIORawSent objectīlocks received from a block device (blocks/s). Either this or dskMinimum is configured via the agent's nf file.Įrror flag signaling that the disk or partition is under the minimum required space configured for it.Īmount of Memory swapped in from disk (kB/s).īlocks sent to a block device (blocks/s). Percentage of minimum space required on the disk before the errors are triggered. Either this or dskMinPercent is configured via the agent's nf file. Minimum space required on the disk (in kBytes) before the errors are triggered. Integer reference number (row number) for the disk mib. Total Real/Physical Memory Size used by text.Īctive Real/Physical Memory Space used by text.Įrror flag. Total Real/Physical Memory Size on the host.Īvailable Real/Physical Memory Space on the host. It goes to 1 if there is an error, 0 if no error. The number of current processes running with the name in question.Ī Error flag to indicate trouble with a process. Reference Index for each observed process. Using the approach below is still possible, but the deployed sensors aren't as reliable as the ones from the link above. Update: We now strongly recommend the following approach instead: This depends on the OS, your system and the (security) settings inside the NET-SNMP daemon.Įntries marked as "Table: yes" will provide the measured value for several items (e.g. You may see less entries on your servers. Here is a list of sensors that the Basic Linux Library supports. Available Sensors of the Basic Linux Library (UCD-SNMP-MIB) PRTG will create one sensor for each marked Library OID.ģ. Select the sensors you want to monitor by marking the according checkboxes. On the next page you will see a list of available sensors.Click on OK ("Continue to step 2" in older PRTG versions).From the appearing menu window (drop-down menu in older PRTG versions), select the Basic linux library (ucd-snmp-mib).oidlib SNMP library file.Alternatively, you can add an SNMP Library sensor.You can find a list of the out-of-the-box sensors in the PRTG Manual. On this device, create Linux sensors which are natively available in PRTG.Create a device for the Linux machine you want to monitor (enter this computer's IP address or DNS name).Please see the articles Checklist: Setting up SNMP on Linux and How do I install the SNMP daemon on Linux machines? for instructions. Install the SNMP daemon on the Linux Server This article applies to PRTG Network Monitor 13 or later, as well as to previous (deprecated) versions 1.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |