4.3.2 Description of Hitachi enterprise-specific MIB objects
This subsection describes the Hitachi enterprise-specific MIB objects in each group. The tables in this subsection use the following legend:
- Legend:
-
--: Not applicable
The following files in /var/opt/OV/share/snmp_mibs/eagent also provide information about the MIB objects:
-
hitachi-cometAgt
-
hitachi-cometAgt-solaris
-
hitachi-cometAgt-aix
-
hitachi-cometAgt-linux
- Organization of this subsection
-
(1) opConf group
The following table describes the Hitachi enterprise-specific MIB objects in the opConf group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
opConfCharCode |
Character code used by control support for code conversion |
-- |
(2) systemInfo group
The following table describes the Hitachi enterprise-specific MIB objects in the systemInfo group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
systemInfoTTYMajor |
The major number of the console device. |
-- |
2 |
systemInfoTTYMinor |
The minor number of the console device. |
-- |
3 |
systemInfoBootTime |
The time since the last boot. |
Hundredths of a second |
4 |
systemInfoActiveProcessors |
The number of processors which are running when system call is issued. |
-- |
5 |
systemInfoProcessors |
The maximum number of processors which had run at the same time since the last boot. |
-- |
6 |
systemInfoMaxProcesses |
The maximum number of processes which were allowed to run to system. |
-- |
7 |
systemInfoRunQueProcesses |
The number of processes which are being loaded to main storage and waiting to run except system process. |
-- |
8 |
systemInfoXferWaitProcesses |
The number of processes which are waiting for data transfer from disk. |
-- |
9 |
systemInfoPageInWaitProcesses |
The number of processes which are waiting for pagein from disk. |
-- |
10 |
systemInfoSleepProcesses |
Number of sleeping processes in physical memory. However, the following processes are excluded:
|
-- |
11 |
systemInfoSwapOutProcesses |
The number of processes which are being swapped out, but it is only process which immediately becomes to runnable when be swapped in. |
-- |
12 |
systemInfoPhysicalMemorySize |
The number of bytes for physical memory. |
Bytes |
13 |
systemInfoPhysicalMemoryFreeSize |
The number of bytes for free physical memory which is able to allocate to process. |
Bytes |
14 |
systemInfoVirtualMemoryProcessSize |
The number of bytes for Virtual memory which are using for text, data and stack area by processes except system process. |
Bytes |
15 |
systemInfoVirtualMemoryWaitProcessSize |
The number of bytes for virtual memory which are using by whole runnable processes. |
Bytes |
16 |
systemInfoPhysicalMemoryProcessSize |
The number of bytes for physical memory which are using for text, data and stack area by whole processes. |
Bytes |
17 |
systemInfoPhysicalMemoryWaitProcessSize |
The number of bytes for physical memory which are using by whole runnable processes. |
Bytes |
18 |
systemInfoCPUStates |
The number of states which belong to system. |
-- |
19 |
systemInfoOpenLogicalVolumes |
The number of open logical volumes. |
-- |
20 |
systemInfoOpenLogicalVolumeGrps |
The number of open logical volume groups. |
-- |
21 |
systemInfoAllocPBUFs |
The number of PBUFs which are being allocated to logical volume. |
-- |
22 |
systemInfoUsedPBUFs |
The number of PBUFs which is being used to logical volume. |
-- |
23 |
systemInfoMaxPBUFs |
The maximum number of PBUFs which had been used to logical volume till now. |
-- |
24 |
systemInfoActiveProcessEntries |
The number of active process table entries in the number of all process table entries. |
Entries |
25 |
systemInfoActiveInodeEntries |
The number of active inode table entries in the number of all inode table entries. |
Entries |
26 |
systemInfoActiveFileEntries |
The number of active file table entries in the number of all file table entries. |
Entries |
(3) virtualMemory group
The following table describes the Hitachi enterprise-specific MIB objects in the virtualMemory group:
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
vmPageSize |
The number of bytes per page for virtual storage. |
Bytes |
2 |
vmDaemonFreePages |
The number of pages which were been free by pageout daemon. This value is the average of once a second and updated every 5 seconds. |
Pages |
3 |
vmInterruptions |
The number of device interruptions. This value is the average of once a second and updated every 5 seconds. |
-- |
4 |
vmPageInPages |
The number of pages which were paged in. This value is the average of once a second and updated every 5 seconds. |
Pages |
5 |
vmPageOutPages |
The number of pages which were paged out. This value is the average of once a second and updated every 5 seconds. |
Pages |
6 |
vmPageReclaims |
The total number of page reclaims. This value is the average of once a second and updated every 5 seconds. |
-- |
7 |
vmTLBFlashes |
The number of times a TLB flush occurred. This value is the average for one second and updated every 5 seconds. |
-- |
8 |
vmDaemonScanPages |
The number of pages which were scanned by pageout daemon. This value is the average of once a second and updated every 5 seconds. |
Pages |
9 |
vmContextSwitches |
The number of context switches. This value is the average of once a second and updated every 5 seconds. |
-- |
10 |
vmSystemCalls |
The number of calls to system call. This value is the average of once a second and updated every 5 seconds. |
-- |
11 |
vmXFileSystemFreelistPages |
The number of pages which found in free list rather than in file system. This value is the average of once a second and updated every 5 seconds. |
Pages |
12 |
vmXSwapDeviceFreeListPages |
The number of pages which found in freelist rather than on swapdevice. This value is the average of once a second and updated every 5 seconds. |
Pages |
13 |
vmFreeMemoryPages |
The number of free memory pages. This value is the average of once a second and updated every 5 seconds. |
Pages |
14 |
vmTotalSwapIns |
The number of swapins since the last boot. |
-- |
15 |
vmTotalSwapOuts |
The number of swapouts since the last boot. |
-- |
16 |
vmTotalDaemonFreePages |
The number of pages which have been free by pageout daemon since the last boot. |
Pages |
17 |
vmTotalDemandLoadPages |
The number of pages which have been filled on demand from executable file since the last boot. |
Pages |
18 |
vmTotalPageFaults |
The number of page faults since the last boot. |
-- |
19 |
vmTotalInterruptions |
The number of device interruptions since the last boot. |
-- |
20 |
vmTotalIntransitPageFaults |
The number of intransit blocking page faults since the last boot. |
-- |
21 |
vmTotalDemandLoadCreatePages |
The number of pages created which have been filled on demand since the last boot. |
Pages |
22 |
vmTotalZeroFillCreatePages |
The number of new zero-filled pages created since the last boot. |
Pages |
23 |
vmTotalFreeListReclaimedPages |
The number of pages reclaimed from freelist since the last boot. |
Pages |
24 |
vmTotalPageIns |
The number of pageins since the last boot. |
-- |
25 |
vmTotalPageOuts |
The number of pageouts since the last boot. |
-- |
26 |
vmTotalPageInPages |
The number of pages which have been paged in since the last boot. |
Pages |
27 |
vmTotalPageOutPages |
The number of pages which have been paged out since the last boot. |
Pages |
28 |
vmTotalSwapInPages |
The number of pages which have been swapped in since the last boot. |
Pages |
29 |
vmTotalSwapOutPages |
The number of pages which have been swapped out since the last boot. |
Pages |
30 |
vmTotalDaemonTicksNum |
The number of pageouts by the pageout daemon since the last boot. |
-- |
31 |
vmTotalContextSwitches |
The number of context switches since the last boot. |
-- |
32 |
vmTotalSystemCalls |
The number of calls to system call since the last boot. |
-- |
33 |
vmTotalTraps |
The number of calls to trap since the last boot. |
-- |
34 |
vmTotalXFileSystemFreeListPages |
The number of pages which have found in freelist rather than in file system since the last boot. |
Pages |
35 |
vmTotalXSwapDeviceFreeListPages |
The number of pages which have found in freelist rather than on swap device since the last boot. |
Pages |
36 |
vmTotalDemandZeroFillPages |
The number of pages which have been zero filled on demand since the last boot. |
Pages |
37 |
vmTotalDaemonScanPages |
The number of pages which have been scanned by pageout daemon since the last boot. |
Pages |
38 |
vmTotalReclaimedPages |
The number of page reclaims since the last boot. |
Pages |
39 |
vmTotalDeficitPages |
The number of pages that are estimated to be needed for processes that will be newly swapped in. |
Pages |
40 |
vmTotalReadChars |
The number of characters which have been read from TTY devices since the last boot. |
Characters |
41 |
vmTotalWriteChars |
The number of characters which have been written to TTY devices since the last boot. |
Characters |
42 |
vmTotalForks |
The number of forks since the last boot. |
-- |
43 |
vmTotalForkPages |
The number of pages that have been forked since the last boot. |
Pages |
44 |
vmTotalDiskBlockReads |
The number of disk block reads which have been issued since the last boot. |
-- |
45 |
vmTotalDiskBlockWrites |
The number of disk block writes which have been issued since the last boot. |
-- |
46 |
vmTotalProcessSwapOuts |
The total number of times for which system have swapped out the executable processes. This value is updated once a second. |
-- |
47 |
vmTotalSwapOutProcesses |
The total number of executable processes which have been swapped out by system. This value is updated once a second. |
-- |
(4) process group
The following table describes the Hitachi enterprise-specific MIB objects in the process group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
processNum |
The number of processes which are running. |
-- |
2 |
processTable |
Information of processes which are running. |
-- |
2.1 |
processEntry |
Each entry is distinguished from process ID. |
-- |
2.1.1 |
processID |
Process ID. |
-- |
2.1.2 |
processIndex |
The number associated with the process. |
-- |
2.1.3 |
processStatus |
The process status. sleep (1), run (2), stop (3), zombie (4), other (5), idle (6) |
-- |
2.1.4 |
processStateFlags |
The flags associated with process. incore (1), sys (2), locked (4), trace (8), trace2 (16) |
-- |
2.1.5 |
processUserID |
The process user ID. |
-- |
2.1.6 |
processSavedUserID |
The saved process user ID. |
-- |
2.1.7 |
processParentID |
The parent process ID. |
-- |
2.1.8 |
processGroupID |
The process group ID. |
-- |
2.1.9 |
processCPUUtilization |
The CPU utilization for scheduling of process. |
-- |
2.1.10 |
processPriority |
The process priority. |
-- |
2.1.11 |
processCPUNice |
The process CPU nice. |
-- |
2.1.12 |
processProcessor |
The processor on which this process last run. |
-- |
2.1.13 |
processStartTime |
The time since the process started. |
Hundredths of a second |
2.1.14 |
processPhysicalMemoryTextSize |
The number of bytes for physical memory which are using for text. |
Bytes |
2.1.15 |
processPhysicalMemoryDataSize |
The number of bytes for physical memory which are using for data. |
Bytes |
2.1.16 |
processPhysicalMemoryStackSize |
The number of bytes for physical memory which are using for stack. |
Bytes |
2.1.17 |
processPhysicalMemorySharedMemorySize |
The number of bytes for physical memory which are using for shared memory. |
Bytes |
2.1.18 |
processPhysicalMemoryMemoryMappedSize |
The number of bytes for physical memory which are using for memory mapped file. |
Bytes |
2.1.19 |
processPhysicalMemoryUserSize |
The number of bytes for physical memory which are using for process data (u area). |
Bytes |
2.1.20 |
processPhysicalMemoryIOSize |
The number of bytes for physical memory which are using for I/O device mapping. |
Bytes |
2.1.21 |
processVirtualMemoryTextSize |
The number of bytes for virtual memory which are using for text. |
Bytes |
2.1.22 |
processVirtualMemoryDataSize |
The number of bytes for virtual memory which are using for data. |
Bytes |
2.1.23 |
processVirtualMemoryStackSize |
The number of bytes for virtual memory which are using for stack. |
Bytes |
2.1.24 |
processVirtualMemorySharedMemorySize |
The number of bytes for virtual memory which are using for shared memory. |
Bytes |
2.1.25 |
processVirtualMemoryMemoryMappedSize |
The number of bytes for virtual memory which are using for memory mapped file. |
Bytes |
2.1.26 |
processVirtualMemoryUserSize |
The number of bytes for virtual memory which are using for process data (u area). |
Bytes |
2.1.27 |
processVirtualMemoryIOSize |
The number of bytes for virtual memory which are using for I/O device mapping. |
Bytes |
2.1.28 |
processResidentSize |
The number of bytes that are resident in the memory being used by the process, without being paged out to a disk. |
Bytes |
2.1.29 |
processAddress |
The user area address of process. When this process is being in physical memory, this value is a physical address in main storage, and when this process is being swapped out, this value is an address on disk. |
-- |
2.1.30 |
processSleepAddress |
The address for which process is sleeping. When the process is not sleeping, this value is zero. |
-- |
2.1.31 |
processUserTime |
The time at which process spent to run on user mode. |
Hundredths of a second |
2.1.32 |
processSystemTime |
The time at which process spent to run on system mode. |
Hundredths of a second |
2.1.33 |
processTTYMajor |
If the process has a control terminal, this value indicates the TTY device major number. If both major and minor numbers are -1, the process does not have a console device. |
-- |
2.1.34 |
processTTYMinor |
If the process has a control terminal, this value indicates the TTY device minor number. If both major and minor numbers are -1, the process does not have a console device. |
-- |
2.1.35 |
processCommand |
Command line characters for which process started. |
-- |
2.1.36 |
processExecutable |
The executable file name for the process. |
-- |
2.1.37 |
processResidentTime |
The residents time for scheduling this process. |
Seconds |
2.1.38 |
processCPUTimeTicks |
CPU time ticks of which this process spent in present time slice. |
-- |
2.1.39 |
processTotalCPUTimeTicks |
CPU time ticks of which this process have spent since start. |
-- |
2.1.40 |
processFssID |
The group ID of the fair share scheduler to which the process belongs. |
-- |
2.1.41 |
processResidentTimeCPU |
The rate of CPU time ticks during processResidentTime. |
% |
2.1.42 |
processMinorFaults |
The number of page reclaims. |
-- |
2.1.43 |
processMajorFaults |
The number of page faults to need disk access. |
-- |
2.1.44 |
processSwapOuts |
The number of swapouts. |
-- |
2.1.45 |
ProcessSignals |
The number of signals which were received by process. |
-- |
2.1.46 |
processReceivedMessages |
The number of messages which were received by process. |
-- |
2.1.47 |
processSentMessages |
The number of messages which were sent by process. |
-- |
2.1.48 |
processMaxResidentSize |
The maximum number of resident bytes which were allowed to this process. |
Bytes |
2.1.49 |
processUser |
The name of the user who started this process. |
-- |
(5) processor group
The following table describes the Hitachi enterprise-specific MIB objects in the processor group.
ID |
Object name |
Contents |
Unit |
---|---|---|---|
1 |
processorNum |
The number of entries for processor information. |
-- |
2 |
processorTable |
The processor information table. |
-- |
2.1 |
processorEntry |
Each entry is distinguished from number associated with processor. |
-- |
2.1.1 |
processorIndex |
The number associated with the processor. |
-- |
2.1.2 |
processorFileSystemReadBytes |
The total number of bytes that were read from the file system since the last boot. |
Bytes |
2.1.3 |
processorFileSystemWriteBytes |
The total number of bytes that were written to the file system since the last boot. |
Bytes |
2.1.4 |
processorDiskBlockReadRequests |
The total number of read requests issued to the NFS-mounted disk block since the last boot. |
-- |
2.1.5 |
processorDiskBlockWriteRequests |
The total number of write requests issued to the NFS-mounted disk block since the last boot. |
-- |
2.1.6 |
processorNFSReadBytes |
The total number of bytes read from NFS since the last boot. |
Bytes |
2.1.7 |
processorNFSWriteBytes |
The total number of bytes written to NFS since the last boot. |
Bytes |
2.1.8 |
processorPhysicalReads |
The total number of physical reads executed by the processor from raw devices since the last boot. |
-- |
2.1.9 |
processorPhysicalWrites |
The total number of physical writes executed by the processor to raw devices since the last boot. |
-- |
2.1.10 |
processorRunQueues |
The number of times the processor had processes waiting to run since the last boot. This value is updated once every second. |
-- |
2.1.11 |
processorRunQueueProcesses |
The number of processes waiting to run on the processor since the last boot. This value is updated every second. |
-- |
2.1.12 |
processorSysExecs |
The total number of exec system calls issued on the processor since the last boot. |
-- |
2.1.13 |
processorSysReads |
The total number of read system calls issued on the processor since the last boot. |
-- |
2.1.14 |
processorSysWrites |
The total number of write system calls issued on the processor since the last boot. |
-- |
2.1.15 |
processorSysNamis |
The total number of sysnami() functions issued on the processor since the last boot. |
-- |
2.1.16 |
processorSysIgets |
The total number of sysiget() functions issued on the processor since the last boot. |
-- |
2.1.17 |
processorDirFileSystemReadBytes |
The total number of file system bytes that were read on the processor during directory lookup since the last boot. |
Bytes |
2.1.18 |
processorSemaphoreOperations |
The number of System V semaphore operations executed on the processor since the last boot. |
-- |
2.1.19 |
processorMessageOperations |
The number of System V message operations executed on the processor since the last boot. |
-- |
2.1.20 |
processorInMUXInterruptions |
The number of MUX interrupts received by the processor since the last boot. |
-- |
2.1.21 |
processorOutMUXInterruptions |
The number of MUX interrupts sent by the processor since the last boot. |
-- |
2.1.22 |
processorTTYRawChars |
The number of characters read by the processor via raw device read since the last boot. |
Characters |
2.1.23 |
processorTTYCanonChars |
The number of canonical characters manipulated by the processor since the last boot. |
Characters |
2.1.24 |
processorTTYOutChars |
The number of characters output by the processor since the last boot. |
Characters |
2.1.25 |
processorCPULoadAvg1 |
The average load on the processor in the last 1 minute x 100. The average load means the average number of processes and threads in execution status or executable status on the processor in the last 1 minute. For example, if the average load is 1, this means that there was an average of 1 process or thread in execution status or executable status in the last 1 minute, and therefore it can be assumed that the CPU was always executing a process. |
-- |
2.1.26 |
processorCPULoadAvg5 |
The average load on the processor in the last 5 minutes x 100. |
-- |
2.1.27 |
processorCPULoadAvg15 |
The average load on the processor in the last 15 minutes x 100. |
-- |
2.1.28 |
processorUserCPUTime |
The CPU time used by user processes on the processor since the last boot. In Solaris and AIX, the CPU time for the user processes after the start of SNMP Agent. |
Hundredths of a second |
2.1.29 |
processorNiceCPUTime |
The CPU time for the user processes executed with a nice value of 21 or above on the processor since the last boot. In Solaris and AIX, the CPU time for the user processes executed with a nice value of 21 or above after the start of SNMP Agent. |
Hundredths of a second |
2.1.30 |
processorSysCPUTime |
The CPU time for the user processes executed in the system (kernel) mode on the processor since the last boot. In Solaris and AIX, the CPU time for the user processes executed in the system (kernel) mode after the start of SNMP Agent. |
Hundredths of a second |
2.1.31 |
processorIdleCPUTime |
The CPU time for the idle mode on the processor since the last boot. In Solaris and AIX, the CPU idle time after the start of SNMP Agent. |
Hundredths of a second |
2.1.32 |
processorWaitCPUTime |
The CPU time for the wait mode on the processor since the last boot. In Solaris and AIX, the CPU wait time after the start of SNMP Agent. |
Hundredths of a second |
2.1.33 |
processorBlockCPUTime |
The CPU time blocked on a spinlock on this processor since the last boot. |
Hundredths of a second |
2.1.34 |
processorSwaitCPUTime |
The CPU time blocked on the kernel semaphore on this processor since the last boot. |
Hundredths of a second |
2.1.35 |
processorIntrCPUTime |
The CPU time for the interrupt mode on this processor since the last boot. |
Hundredths of a second |
2.1.36 |
processorSsysCPUTime |
The CPU time used by kernel process on the kernel mode on this processor since the last boot. |
Hundredths of a second |
(6) diskInfo group
The following table describes the Hitachi enterprise-specific MIB objects in the diskInfo group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
diskNum |
The number of disks which are being attached to system. |
-- |
2 |
diskTable |
The disk information table. |
-- |
2.1 |
diskEntry |
Each entry is distinguished from numbers associated with disk. |
-- |
2.1.1 |
diskIndex |
The number associated with the disk. |
-- |
2.1.2 |
diskTTYMajor |
The TTY device major number for the disk. |
-- |
2.1.3 |
diskTTYMinor |
The TTY device minor number for the disk. |
-- |
2.1.4 |
diskBusyTimeTicks |
The number of time ticks for device busy. |
-- |
2.1.5 |
diskSeeks |
The number of seeks. |
-- |
2.1.6 |
diskXfers |
The number of data transfers. |
-- |
2.1.7 |
diskWordsXfers |
The number of transfers for double bytes word data. |
-- |
2.1.8 |
diskWordsWriteTime |
The time for writing double bytes word data to disk. |
Millisec- onds/byte |
(7) swapInfo group
The following table describes the Hitachi enterprise-specific MIB objects in the swapInfo group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
swapTotalSize |
The total number of swap space bytes. |
Bytes |
2 |
swapTotalEnabledSize |
The total number of swap space bytes enabled to use. |
Bytes |
3 |
swapTotalFreeSize |
The total number of swap space free bytes. |
Bytes |
4 |
swapTotalBlockDeviceSize |
The total number of swap space bytes allocated to block device. |
Bytes |
5 |
swapTotalBlockDeviceEnabledSize |
The total number of swap space bytes enabled to use allocated to block device. |
Bytes |
6 |
swapTotalBlockDeviceFreeSize |
The total number of swap space free bytes allocated to block device. |
Bytes |
7 |
swapTotalFileSystemSize |
The total number of swap space bytes allocated to file system. |
Bytes |
8 |
swapTotalFileSystemEnabledSize |
The total number of swap space bytes enabled to use allocated to file system. |
Bytes |
9 |
swapTotalFileSystemFreeSize |
The total number of swap space free bytes allocated to file system. |
Bytes |
10 |
swapNum |
The number of entries for swap space information. |
-- |
11 |
swapTable |
The swap space information table. |
-- |
11.1 |
swapEntry |
Each entry is distinguished from numbers associated with swap space. |
-- |
11.1.1 |
swapIndex |
The number associated with swap space. |
-- |
11.1.2 |
swapPlace |
The flag that indicates where swap space is being allocated. When swap space is allocated in a block device, this value is swblock (1); when swap space is allocated in a file system, this value is swfs (2). |
-- |
11.1.3 |
swapFlags |
When the swap space is enabled, this value is enable (1), when the swap space is disabled, this value is disable (0). |
-- |
11.1.4 |
swapPriority |
The priority for using swap space. Small space is used first. |
-- |
11.1.5 |
swapFreeSize |
The number of swap space bytes enabled to use. |
Bytes |
11.1.6 |
swapBlockDeviceMajor |
Device information, only when swap space was allocated on block device fields. |
-- |
11.1.7 |
swapBlockDeviceMinor |
Device information, only when swap space was allocated on block device fields. |
-- |
11.1.8 |
swapBlockDeviceStartNum |
The block number for starting to use, only when swap space was allocated on block device fields. |
-- |
11.1.9 |
swapBlockDeviceSize |
The number of swap space bytes, if swap space was allocated on a block device. |
Bytes |
11.1.10 |
swapFileSystemSize |
The number of swap space bytes, if swap space was allocated on a file system. |
Bytes |
11.1.11 |
swapFileSystemMinSize |
The minimum number of swap space bytes that are allocated, if swap space was allocated on a file system. |
Bytes |
11.1.12 |
swapFileSystemMaxSize |
The maximum number of swap space bytes which had been allocated until now, only when swap space was allocated in file system fields. |
Bytes |
11.1.13 |
swapFileSystemReservedSize |
The number of swap space bytes that are currently reserved, if swap space was allocated on a file system. |
Bytes |
11.1.14 |
swapFileSystemMountPoint |
The point at which a file system is mounted, if swap space was allocated on a file system. |
-- |
(8) swapSpace group
The following table describes the Hitachi enterprise-specific MIB objects in the swapSpace group:
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
swapSpaceConfig |
Swap space size |
Kilobytes |
2 |
swapSpaceEnable |
Available swap space size |
Kilobytes |
3 |
swapSpaceFree |
Free swap space size |
Kilobytes |
(9) diskBusy group
The following table describes the Hitachi enterprise-specific MIB objects in the diskBusy group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
diskBusyNum |
Number of diskBusyTable entries. |
-- |
2 |
diskBusyTable |
The disk busy ratio table. |
-- |
2.1 |
diskBusyEntry |
Each entry is identified by diskBusyDeviceName. |
-- |
2.1.1 |
diskBusyDeviceName |
Disk device name. If SNMP Agent is installed on Solaris, one entry is created for each disk, not for a partition or a disk slice, which is a kind of segment. Entry examples are dad0 and sd3. In this example, dad represents a built-in IDE disk and sd represents a SCSI disk. The numbers that follow are target IDs. |
-- |
2.1.2 |
diskBusyUtil |
Disk busy ratio for the past 5 seconds.
|
% |
(10) swapSystem group
The following table describes the Hitachi enterprise-specific MIB objects in the swapSystem group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
swapSystemTotalSize |
Total swap area size |
Kilobytes |
2 |
swapSystemTotalEnableSize |
Enabled swap area size |
Kilobytes |
3 |
swapSystemTotalFreeSize |
Total free swap area size |
Kilobytes |
4 |
swapSystemTotalBlockDeviceSize |
Total size of the swap area located in the block-based device |
Kilobytes |
5 |
swapSystemTotalBlockDeviceEnabledSize |
Total size of the enabled swap area located in the block-based device |
Kilobytes |
6 |
swapSystemTotalBlockDeviceFreeSize |
Total size of the free swap area located in the block-based device |
Kilobytes |
7 |
swapSystemTotalFileSystemSize |
Total size of the swap area located in the file system |
Kilobytes |
8 |
swapSystemTotalFileSystemEnabledSize |
Total size of the enabled swap area located in the file system |
Kilobytes |
9 |
swapSystemTotalFileSystemFreeSize |
Total size of the free swap area located in the file system |
Kilobytes |
10 |
swapSystemNum |
Number of swap area information entries |
-- |
11 |
swapSystemTable |
The swap area information table |
-- |
11.1 |
swapSystemEntry |
Each entry is identified by the swapSystemIndex value. |
-- |
11.1.1 |
swapSystemIndex |
Swap area index number |
-- |
11.1.2 |
swapSystemPlace |
Flag that indicates where the swap area resides swblock(1): In block-based device swfs(2): In file system |
-- |
11.1.3 |
swapSystemFlags |
Indicates whether the swap area is enabled or disabled disable(0): Disabled enable(1): Enabled |
-- |
11.1.4 |
swapSystemPriority |
Swap area priority. A swap area assigned a lower value will be used sooner. |
-- |
11.1.5 |
swapSystemFreeSize |
Size of the free area included in the currently enabled swap area |
Kilobytes |
11.1.6 |
swapSystemBlockDeviceMajor |
Contains device information (Major) if the swap area resides in a block-based device. |
-- |
11.1.7 |
swapSystemBlockDeviceMinor |
Contains device information (Minor) if the swap area resides in a block-based device. |
-- |
11.1.8 |
swapSystemBlockDeviceStartNum |
Contains the starting block number if the swap area resides in a block-based device. |
-- |
11.1.9 |
swapSystemBlockDeviceSize |
Swap area size if the swap area is allocated in a block-based device |
Kilobytes |
11.1.10 |
swapSystemFileSystemSize |
Swap area size if the swap area is allocated in a file system |
Kilobytes |
11.1.11 |
swapSystemFileSystemMinSize |
Minimum size of the area that can be allocated as the swap area if it resides in a file system |
Kilobytes |
11.1.12 |
swapSystemFileSystemMaxSize |
Maximum size of the area that can be allocated as the swap area if it resides in a file system |
Kilobytes |
11.1.13 |
swapSystemFileSystemReservedSize |
Size of the area currently reserved on the swap area if it resides in a file system |
Kilobytes |
11.1.14 |
swapSystemFileSystemMountPoint |
If the swap area resides in a file system, this object indicates where the file system is mounted. |
-- |
(11) cpuUtil group
The following table describes the Hitachi enterprise-specific MIB objects in the cpuUtil group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
cpuUtilTable |
CPU utilization rate information |
-- |
1.1 |
cpuUtilEntry |
Each entry is distinguished by its cpuUtilNum value. SNMP Agent acquires the CPU utilization rate during the specified interval time (default is 5 minutes) from the OS. This value becomes the MIB value. Acquisition of the CPU utilization rate is continuously executed. The utilization rate of each CPU can be monitored by periodically collecting this MIB from the manager. |
-- |
1.1.1 |
cpuUtilNum |
CPU number (0 if there is only 1 CPU) |
-- |
1.1.2 |
cpuUtilUser |
User CPU utilization during the specified interval |
% |
1.1.3 |
cpuUtilSystem |
System CPU utilization during the specified interval |
% |
1.1.4 |
cpuUtilWio |
Wait CPU utilization during the specified interval |
% |
1.1.5 |
cpuUtilIdle |
Idle CPU utilization during the specified interval |
% |
1.1.6 |
cpuUtilTime |
The time when CPU utilization was acquired from the OS (for example, 2003/01/16 19:00:00) |
-- |
2 |
cpuUtilInterval |
Interval time |
Minutes |
3 |
cpuUtilTotalUser |
Average user CPU utilization rate for all CPUs during the specified interval |
% |
4 |
cpuUtilTotalSystem |
Average system CPU utilization rate for all CPUs during the specified interval |
% |
5 |
cpuUtilTotalWio |
Average wait CPU utilization rate for all CPUs during the specified interval |
% |
6 |
cpuUtilTotalIdle |
Average idle CPU utilization rate for all CPUs during the specified interval |
% |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the cpuUtil group:
-
You can use the htc_monagt1 option to change the interval time (minutes).
-
You can set up SNMP Agent such that it does not obtain MIB values.
-
For cpuUtilTotalUser, cpuUtilTotalSystem, cpuUtilTotalWio, and cpuUtilTotalIdle, the utilization rates of individual CPUs are added and then divided by the number of CPUs. Since decimals are discarded from the resulting numbers, the total might not equal 100%.
In the SMT environment, you can use the SNMP_HTC_AIX_CPU_SMT environment variable to specify the CPU utilization rate for the entire machine. When you use a resource browser to obtain the CPU utilization rate from JP1/SSO, CPU information is displayed as a single instance for the entire machine even if multiple CPUs are installed in the actual environment.
-
If a CPU is disabled or moved, the correct values might be temporarily unobtainable. Wait a little while and the correct values will become obtainable again.
-
For notes about acquiring CPU information when the online/offline status of the CPU changes in Solaris, see 2.15 Notes about CPU information.
-
For notes about cases in which a CPU is dynamically added or removed by DLPAR (Dynamic Logical Partition) in AIX, see 2.15 Notes about CPU information.
-
(12) virtualMemory64 group
The following table describes the Hitachi enterprise-specific MIB objects in the virtualMemory64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
vm64PageSize |
The number of bytes per page for virtual storage. |
Bytes |
2 |
vm64DaemonfreePages |
The number of pages which were freed by the pageout daemon. This value is the average for one second and is updated every 5 seconds. |
Pages |
3 |
vm64Interruptions |
The number of device interruptions. This value is the average for one second and is updated every 5 seconds. |
-- |
4 |
vm64PageInPages |
The number of pages which were paged in. This value is the average for one second and is updated every 5 seconds. |
Pages |
5 |
vm64PageOutPages |
The number of pages which were paged out. This value is the average for one second and is updated every 5 seconds. |
Pages |
6 |
vm64PageReclaims |
The total number of page reclaims. This value is the average for one second and is updated every 5 seconds. |
-- |
7 |
vm64TLBFlashes |
The number of times a TLB flush occurred. This value is the average for one second and is updated every 5 seconds. |
-- |
8 |
vm64DaemonScanPages |
The number of pages which were scanned by the pageout daemon. This value is the average for one second and is updated every 5 seconds. |
Pages |
9 |
vm64ContextSwitches |
The number of context switches. This value is the average for one second and is updated every 5 seconds. |
-- |
10 |
vm64SystemCalls |
The number of calls to system call. This value is the average for one second and is updated every 5 seconds. |
-- |
11 |
vm64XFileSystemFreelistPages |
The number of pages that were found in free list rather than in file system. This value is the average for one second and is updated every 5 seconds. |
Pages |
12 |
vm64XSwapDeviceFreeListPages |
The number of pages that were found in freelist rather than on swapdevice. This value is the average for one second and is updated every 5 seconds. |
Pages |
13 |
vm64FreeMemoryPages |
The number of free memory pages. This value is the average for one second and is updated every 5 seconds. |
Pages |
14 |
vm64TotalSwapIns |
The number of swapins since the last boot. |
-- |
15 |
vm64TotalSwapOuts |
The number of swapouts since the last boot. |
-- |
16 |
vm64TotalDaemonFreePages |
The number of pages that have been freed by the pageout daemon since the last boot. |
Pages |
17 |
vm64TotalDemandLoadPages |
The number of pages that have been filled on demand from the executable file since the last boot. |
Pages |
18 |
vm64TotalPageFaults |
The number of page faults since the last boot. |
-- |
19 |
vm64TotalInterruptions |
The number of device interruptions since the last boot. |
-- |
20 |
vm64TotalIntransitPageFaults |
The number of intransit blocking page faults since the last boot. |
-- |
21 |
vm64TotalDemandLoadCreatePages |
The number of created pages that have been filled on demand since the last boot. |
Pages |
22 |
vm64TotalZeroFillCreatePages |
The number of new zero-filled pages created since the last boot. |
Pages |
23 |
vm64TotalFreeListReclaimedPages |
The number of pages reclaimed from freelist since the last boot. |
Pages |
24 |
vm64TotalPageIns |
The number of pageins since the last boot. |
-- |
25 |
vm64TotalPageOuts |
The number of pageouts since the last boot. |
-- |
26 |
vm64TotalPageInPages |
The number of pages that have been paged in since the last boot. |
Pages |
27 |
vm64TotalPageOutPages |
The number of pages that have been paged out since the last boot. |
Pages |
28 |
vm64TotalSwapInPages |
The number of pages that have been swapped in since the last boot. |
Pages |
29 |
vm64TotalSwapOutPages |
The number of pages that have been swapped out since the last boot. |
Pages |
30 |
vm64TotalDaemonTicksNum |
The number of pageouts by the pageout daemon since the last boot. |
-- |
31 |
vm64TotalContextSwitches |
The number of context switches since the last boot. |
-- |
32 |
vm64TotalSystemCalls |
The number of system calls since the last boot. |
-- |
33 |
vm64TotalTraps |
The number of traps since the last boot. |
-- |
34 |
vm64TotalXFileSystemFreeListPages |
The number of pages that were found in freelist rather than in the file system since the last boot. |
Pages |
35 |
vm64TotalXSwapDeviceFreeListPages |
The number of pages that were found in freelist rather than on a swap device since the last boot. |
Pages |
36 |
vm64TotalDemandZeroFillPages |
The number of pages that have been zero filled on demand since the last boot. |
Pages |
37 |
vm64TotalDaemonScanPages |
The number of pages that have been scanned by the pageout daemon since the last boot. |
Pages |
38 |
vm64TotalReclaimedPages |
The number of page reclaims since the last boot. |
Pages |
39 |
vm64TotalDeficitPages |
The number of pages that are estimated to be needed for processes that will be newly swapped in. |
Pages |
40 |
vm64TotalReadChars |
The number of characters that have been read from TTY devices since the last boot. |
Characters |
41 |
vm64TotalWriteChars |
The number of characters that have been written to TTY devices since the last boot. |
Characters |
42 |
vm64TotalForks |
The number of forks since the last boot. |
-- |
43 |
vm64TotalForkPages |
The number of pages that have been forked since the last boot. |
Pages |
44 |
vm64TotalDiskBlockReads |
The number of disk block reads that have been issued since the last boot. |
-- |
45 |
vm64TotalDiskBlockWrites |
The number of disk block writes that have been issued since the last boot. |
-- |
46 |
vm64TotalProcessSwapOuts |
The total number of times the system swapped out executable processes. This value is updated once a second. |
-- |
47 |
vm64TotalSwapOutProcesses |
The total number of executable processes that have been swapped out by the system. This value is updated once a second. |
-- |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the virtualMemory64 group:
-
The syntax of objects from 14 to 47 in this group is Counter64. Objects with Counter64 syntax can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
(13) systemInfo64 group
The following table describes the Hitachi enterprise-specific MIB objects in the systemInfo64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
systemInfo64TTYMajor |
The major number of the console device. If the value is (231 - 1) or greater, this object contains (231 - 1). |
-- |
2 |
systemInfo64TTYMinor |
The minor number of the console device. If the value is (231 - 1) or greater, this object contains (231 - 1). |
-- |
3 |
systemInfo64BootTime |
The time since the last boot. |
Hundredths of a second |
4 |
systemInfo64ActiveProcessors |
The number of processors which are running when the system call is issued. |
-- |
5 |
systemInfo64MaxProcessors |
The maximum number of processors which ran at the same time since the last boot. |
-- |
6 |
systemInfo64MaxProcesses |
The maximum number of processes which were allowed to run on the system. |
-- |
7 |
systemInfo64RunQueProcesses |
The number of processes (except the system process) which are loaded to main storage and are waiting to run. |
-- |
8 |
systemInfo64XferWaitProcesses |
The number of processes which are waiting to be transferred from the disk. |
-- |
9 |
systemInfo64PageInWaitProcesses |
The number of processes which are waiting to be paged in from the disk. |
-- |
10 |
systemInfo64SleepProcesses |
The number of sleeping processes in physical memory. However, the following processes are excluded:
|
-- |
11 |
systemInfo64SwapOutProcesses |
The number of processes that have been swapped out and that immediately begin to wait for execution when they are swapped in. |
-- |
12 |
systemInfo64PhysicalMemorySize |
The maximum size of the physical memory installed in the system. |
Bytes |
13 |
systemInfo64PhysicalMemoryFreeSize |
The size of free physical memory that the system assumed to be allocatable for processes. |
Bytes |
14 |
systemInfo64VirtualMemoryProcessSize |
The size of virtual memory allocated for text, data and stack areas by all processes other than the system process. |
Bytes |
15 |
systemInfo64VirtualMemoryWaitProcessSize |
The size of virtual memory allocated for all the processes that are waiting for execution. |
Bytes |
16 |
systemInfo64PhysicalMemoryProcessSize |
The size of physical memory allocated for text, data, and stack areas by all the processes in the system. |
Bytes |
17 |
systemInfo64PhysicalMemoryWaitProcessSize |
The size of physical memory allocated for all the processes that are waiting for execution. |
Bytes |
18 |
systemInfo64CPUStates |
The number of CPU states that the system has. |
-- |
19 |
systemInfo64OpenLogicalVolumes |
The number of open logical volumes. |
-- |
20 |
systemInfo64OpenLogicalVolumeGrps |
The number of open logical volume groups. |
-- |
21 |
systemInfo64AllocPBUFs |
The number of PBUFs allocated for logical volumes. |
-- |
22 |
systemInfo64UsedPBUFs |
The number of PBUFs used for logical volumes. |
-- |
23 |
systemInfo64MaxPBUFs |
The maximum number of PBUFs which have been used for logical volumes until now. |
-- |
24 |
systemInfo64ActiveProcessEntries |
The number of process table entries that are currently in use. |
Entries |
25 |
systemInfo64ActiveInodeEntries |
The number of inode table entries that are currently in use. |
Entries |
26 |
systemInfo64ActiveFileEntries |
The number of file table entries that are currently in use. |
Entries |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the systemInfo64 group:
-
The syntax of objects from 3 to 26 in this group is CounterBasedGauge64. Objects with CounterBasedGauge64 syntax can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
(14) virtualMemory64Ex group
The following table describes the Hitachi enterprise-specific MIB objects in the virtualMemory64Ex group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
vm64ExPageSize |
The number of bytes per page in a virtual storage system. |
Bytes |
2 |
vm64ExDaemonfreePages |
The number of pages that were freed by the pageout daemon. This value is the average per second, and is updated every five seconds. |
Pages |
3 |
vm64ExInterruptions |
The number of interrupts from devices. This value is the average per second, and is updated every five seconds. |
-- |
4 |
vm64ExPageInPages |
The number of pages that were paged in. This value is the average per second, and is updated every five seconds. |
Pages |
5 |
vm64ExPageOutPages |
The number of pages that were paged out. This value is the average per second, and is updated every five seconds. |
Pages |
6 |
vm64ExPageReclaims |
The total number of page reclaims. This value is the average per second, and is updated every five seconds. |
-- |
7 |
vm64ExTLBFlashes |
The number of times a TLB flush occurred. This value is the average per second, and is updated every five seconds. |
-- |
8 |
vm64ExDaemonScanPages |
The number of pages that were scanned by the pageout daemon. This value is the average per second, and is updated every five seconds. |
Pages |
9 |
vm64ExContextSwitches |
The number of times a context switch occurred. This value is the average per second, and is updated every five seconds. |
-- |
10 |
vm64ExSystemCalls |
The number of issued system calls. This value is the average per second, and is updated every five seconds. |
-- |
11 |
vm64ExXFileSystemFreelistPages |
The number of pages found in the page free list, and not in file systems. This value is the average per second, and is updated every five seconds. |
Pages |
12 |
vm64ExXSwapDeviceFreeListPages |
The number of pages found in the page free list, and not in the swap device. This value is the average per second, and is updated every five seconds. |
Pages |
13 |
vm64ExFreeMemoryPages |
The number of free memory pages. This value is the average per second, and is updated every five seconds. |
Pages |
14 |
vm64ExTotalSwapIns |
The number of times a swap-in occurred after the last boot. |
-- |
15 |
vm64ExTotalSwapOuts |
The number of times a swap-out occurred after the last boot. |
-- |
16 |
vm64ExTotalDaemonFreePages |
The number of pages freed by the pageout daemon after the last boot. |
Pages |
17 |
vm64ExTotalDemandLoadPages |
The number of pages loaded to executable files on demand after the last boot. |
Pages |
18 |
vm64ExTotalPageFaults |
The number of times a page fault occurred after the last boot. |
-- |
19 |
vm64ExTotalInterruptions |
The number of times a device interrupt occurred after the last boot. |
-- |
20 |
vm64ExTotalIntransitPageFaults |
The number of times an intransit block page fault occurred after the last boot. |
-- |
21 |
vm64ExTotalDemandLoadCreatePages |
The number of new pages created as on-demand load pages after the last boot. |
Pages |
22 |
vm64ExTotalZeroFillCreatePages |
The number of new zero-filled pages created since the last boot. |
Pages |
23 |
vm64ExTotalFreeListReclaimedPages |
The number of pages reclaimed from freelist since the last boot. |
Pages |
24 |
vm64ExTotalPageIns |
The number of times a page-in occurred after the last boot. |
-- |
25 |
vm64ExTotalPageOuts |
The number of times a page-out occurred after the last boot. |
-- |
26 |
vm64ExTotalPageInPages |
The number of pages that were paged in after the last boot. |
Pages |
27 |
vm64ExTotalPageOutPages |
The number of pages that were paged out after the last boot. |
Pages |
28 |
vm64ExTotalSwapInPages |
The number of pages that were swapped in after the last boot. |
Pages |
29 |
vm64ExTotalSwapOutPages |
The number of pages that were swapped out after the last boot. |
Pages |
30 |
vm64ExTotalDaemonTicksNum |
The number of pageouts by the pageout daemon since the last boot. |
-- |
31 |
vm64ExTotalContextSwitches |
The number of times a context switch occurred after the last boot. |
-- |
32 |
vm64ExTotalSystemCalls |
The number of times a system call was issued after the last boot. |
-- |
33 |
vm64ExTotalTraps |
The number of times a trap occurred after the last boot. |
-- |
34 |
vm64ExTotalXFileSystemFreeListPages |
The number of pages that were found in the free list, and not in file systems, after the last boot. |
Pages |
35 |
vm64ExTotalXSwapDeviceFreeListPages |
The number of pages that were found in the free list, and not in the swap device, after the last boot. |
Pages |
36 |
vm64ExTotalDemandZeroFillPages |
The number of pages that were zero-filled on demand after the last boot. |
Pages |
37 |
vm64ExTotalDaemonScanPages |
The number of pages that were scanned by the pageout daemon after the last boot. |
Pages |
38 |
vm64ExTotalReclaimedPages |
The number of pages reclaimed after the last boot. |
Pages |
39 |
vm64ExTotalDeficitPages |
The number of pages that are likely needed for the new process that is to be swapped in. |
Pages |
40 |
vm64ExTotalReadChars |
The number of characters that were read from the TTY device after the last boot. |
Characters |
41 |
vm64ExTotalWriteChars |
The number of characters that were written to the TTY device after the last boot. |
Characters |
42 |
vm64ExTotalForks |
The number of times a fork occurred after the last boot. |
-- |
43 |
vm64ExTotalForkPages |
The number of pages that forked after the last boot. |
Pages |
44 |
vm64ExTotalDiskBlockReads |
The number of times that a disk-block read request was issued after the last boot. |
-- |
45 |
vm64ExTotalDiskBlockWrites |
The number of times that a disk-block write request was issued after the last boot. |
-- |
46 |
vm64ExTotalProcessSwapOuts |
The number of times that a process that can be executed by the system was swapped out. This value is updated once a second. |
-- |
47 |
vm64ExTotalSwapOutProcesses |
The number of processes that were swapped out by the system. This value is updated once a second. |
-- |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the virtualMemory64Ex group.
-
The syntax of objects from 1 to 13 in this group is CounterBasedGauge64. The syntax of objects from 14 to 47 in this group is Counter64.Objects with CounterBasedGauge64 or Counter64 syntax can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
(15) process64 group
The following table describes the Hitachi enterprise-specific MIB objects in the process64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
process64Num |
The number of running processes. |
-- |
2 |
process64Table |
The table containing information about running processes. |
-- |
2.1 |
process64Entry |
Each entry is identified by a process ID. |
-- |
2.1.1 |
process64ID |
The process ID. |
-- |
2.1.2 |
process64Index |
The index number of a process. |
-- |
2.1.3 |
process64Status |
The process status: sleep (1), run (2), stop (3), zombie (4), other (5), idle (6) |
-- |
2.1.4 |
process64StatusFlags |
The flags associated with a process: incore (1), sys (2), locked (4), trace (8), trace2 (16) |
-- |
2.1.5 |
process64UserID |
The process user ID. |
-- |
2.1.6 |
process64SavedUserID |
The saved process user ID. |
-- |
2.1.7 |
process64ParentID |
The parent process ID. |
-- |
2.1.8 |
process64GroupID |
The process group ID. |
-- |
2.1.9 |
process64CPUUtilization |
CPU utilization of a process. |
-- |
2.1.10 |
process64Priority |
The process priority. |
-- |
2.1.11 |
process64CPUNice |
The process CPU nice. |
-- |
2.1.12 |
process64Processor |
The processor on which this process last ran. |
-- |
2.1.13 |
process64StartTime |
The time elapsed since the process started. |
Hundredths of a second |
2.1.14 |
process64PhysicalMemoryTextSize |
The size of physical memory allocated for text area. |
Bytes |
2.1.15 |
process64PhysicalMemoryDataSize |
The size of physical memory allocated for data area. |
Bytes |
2.1.16 |
process64PhysicalMemoryStackSize |
The size of physical memory allocated for stack area. |
Bytes |
2.1.17 |
process64PhysicalMemorySharedMemorySize |
The size of physical memory allocated as shared memory. |
Bytes |
2.1.18 |
process64PhysicalMemoryMemoryMappedSize |
The size of physical memory allocated for memory mapped files. |
Bytes |
2.1.19 |
process64PhysicalMemoryUserSize |
The size of physical memory allocated for process data (u area). |
Bytes |
2.1.20 |
process64PhysicalMemoryIOSize |
The size of physical memory allocated for I/O space. |
Bytes |
2.1.21 |
process64VirtualMemoryTextSize |
The size of virtual addressing space allocated for text area. |
Bytes |
2.1.22 |
process64VirtualMemoryDataSize |
The size of virtual addressing space allocated for data area. |
Bytes |
2.1.23 |
process64VirtualMemoryStackSize |
The size of virtual addressing space allocated for stack area. |
Bytes |
2.1.24 |
process64VirtualMemorySharedMemorySize |
The size of virtual addressing space allocated as shared memory. |
Bytes |
2.1.25 |
process64VirtualMemoryMemoryMappedSize |
The size of virtual addressing space allocated for memory mapped files. |
Bytes |
2.1.26 |
process64VirtualMemoryUserSize |
The size of virtual addressing space allocated for process data (u area). |
Bytes |
2.1.27 |
process64VirtualMemoryIOSize |
The size of virtual addressing space allocated for I/O space. |
Bytes |
2.1.28 |
process64ResidentSize |
The number of bytes that are resident in the memory being used by the process, without being paged out to a disk. |
Bytes |
2.1.29 |
process64Address |
The user area address for the process. When the process has been loaded to memory, this object indicates the physical address in the physical memory. When the process has been swapped out, this object indicates the address on the disk. |
-- |
2.1.30 |
process64SleepAddress |
The address at which the process is sleeping. When the process is not sleeping, this object is set to 0. |
-- |
2.1.31 |
process64UserTime |
The time that has elapsed since the process started to run in the user mode. |
Hundredths of a second |
2.1.32 |
process64SystemTime |
The time that has elapsed since the process started to run in the system mode. |
Hundredths of a second |
2.1.33 |
process64TTYMajor |
If the process has a control terminal, this value indicates the TTY device major number. If both major and minor numbers are -1, the process does not have a console device. If this value is (231-1) or greater, this object contains (231-1). |
-- |
2.1.34 |
process64TTYMinor |
If the process has a control terminal, this value indicates the TTY device minor number. If both major and minor numbers are -1, the process does not have a console device. If this value is (231-1) or greater, this object contains (231-1). |
-- |
2.1.35 |
process64Command |
The command line string with which the process was started. |
-- |
2.1.36 |
process64Executable |
The name of the executable file for the process. |
-- |
2.1.37 |
process64ResidentTime |
The in-core elapsed time. |
Seconds |
2.1.38 |
process64CPUTimeTicks |
The number of CPU ticks that the process spent during the current time slice. |
-- |
2.1.39 |
process64TotalCPUTimeTicks |
The number of CPU ticks that the process has spent since the process was generated. |
-- |
2.1.40 |
process64FssID |
The group ID of the fair share scheduler to which the process belongs. |
-- |
2.1.41 |
process64ResidentTimeCPU |
The ratio of the CPU time to the in-core elapsed time. |
% |
2.1.42 |
process64MinorFaults |
The number of times this process has performed page reclaim. |
-- |
2.1.43 |
process64MajorFaults |
The number of page faults that this process caused and that required a disk access. |
-- |
2.1.44 |
process64SwapOuts |
The number of times this process was swapped out. |
-- |
2.1.45 |
process64Signals |
The number of signals that this process received. |
-- |
2.1.46 |
process64ReceivedMessages |
The number of messages that this process received. |
-- |
2.1.47 |
process64SentMessages |
The number of messages that the process sent. |
-- |
2.1.48 |
process64MaxResidentSize |
The maximum size of in-core memory that this process can acquire. |
Bytes |
2.1.49 |
process64User |
The user who started this process. |
-- |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the process64 group:
-
The syntax of objects from 2.1.2, 2.1.5 to 2.1.7, 2.1.9, 2.1.11 to 2.1.32, 2.1.37, and 2.1.48 in this group is CounterBasedGauge64. The syntax of objects from 2.1.38 to 2.1.39 and 2.1.42 to 2.1.47 in this group is Counter64. Objects with CounterBasedGauge64 or Counter64 syntax can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
(16) processor64 group
The following table describes the Hitachi enterprise-specific MIB objects in the processor64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
processor64Num |
The number of processor information entries. |
-- |
2 |
processor64Table |
The processor information table. |
-- |
2.1 |
processor64Entry |
Each entry is identified by the processor64Index value of the processor. |
-- |
2.1.1 |
processor64Index |
The processor index number. |
-- |
2.1.2 |
processor64FileSystemReadBytes |
The total number of bytes read from the file system since the last boot. |
Bytes |
2.1.3 |
processor64FileSystemWriteBytes |
The total number of bytes written from the file system since the last boot. |
Bytes |
2.1.4 |
processor64DiskBlockReadRequests |
The total number of read requests issued for the NFS-mounted disk block since the last boot. |
-- |
2.1.5 |
processor64DiskBlockWriteRequests |
The total number of write requests issued for the NFS-mounted disk block since the last boot. |
-- |
2.1.6 |
processor64NFSReadBytes |
The total number of bytes read from NFS since the last boot. |
Bytes |
2.1.7 |
processor64NFSWriteBytes |
The total number of bytes written from NFS since the last boot. |
Bytes |
2.1.8 |
processor64PhysicalReads |
The total number of physical reads performed by the processor from row devices since the last boot. |
-- |
2.1.9 |
processor64PhysicalWrites |
The total number of physical writes performed by the processor to row devices since the last boot. |
-- |
2.1.10 |
processor64RunQueues |
The number of times a process waited for execution on the processor since the last boot. This value is updated every second. |
-- |
2.1.11 |
processor64RunQueueProcesses |
The number of processes waiting for execution on the processor since the last boot. This value is updated every second. |
-- |
2.1.12 |
processor64SysExecs |
The total number of exec system calls issued on the processor since the last boot. |
-- |
2.1.13 |
processor64SysReads |
The total number of read system calls issued on the processor since the last boot. |
-- |
2.1.14 |
processor64SysWrites |
The total number of write system calls issued on the processor since the last boot. |
-- |
2.1.15 |
processor64SysNamis |
The total number of sysnami() functions issued on the processor since the last boot. |
-- |
2.1.16 |
processor64SysIgets |
The total number of sysiget() functions issued on the processor since the last boot. |
-- |
2.1.17 |
processor64DirFileSystemReadBytes |
The total number of file system bytes that were read on the processor during directory lookup since the last boot. |
Bytes |
2.1.18 |
processor64SemaphoreOperations |
The number of System V semaphore operations executed on the processor since the last boot. |
-- |
2.1.19 |
processor64MessageOperations |
The number of System V message operations executed on the processor since the last boot |
-- |
2.1.20 |
processor64InMUXInterruptions |
The number of MUX interrupts received by the processor since the last boot. |
-- |
2.1.21 |
processor64OutMUXInterruptions |
The number of MUX interrupts sent by the processor since the last boot. |
-- |
2.1.22 |
processor64TTYRawChars |
The number of characters read by the processor via raw device read since the last boot. |
Characters |
2.1.23 |
processor64TTYCanonChars |
The number of canonical characters manipulated by the processor since the last boot. |
Characters |
2.1.24 |
processor64TTYOutChars |
The number of characters output by the processor since the last boot. |
Characters |
2.1.25 |
processor64CPULoadAvg1 |
The average load on the processor in the last 1 minute x 100. The average load means the average number of processes and threads in execution status or executable status on the processor in the last 1 minute. For example, if the average load is 1, the means that there was an average of 1 process or thread that was in execution status or executable status in the last 1 minute, and therefore it can be assumed that the CPU was always executing a process. |
-- |
2.1.26 |
processor64CPULoadAvg5 |
The average load on the processor in the last 5 minutes x 100. |
-- |
2.1.27 |
processor64CPULoadAvg15 |
The average load on the processor in the last 15 minutes x 100. |
-- |
2.1.28 |
processor64UserCPUTime |
The CPU time used by user processes on the processor since the last boot. |
Hundredths of a second |
2.1.29 |
processor64NiceCPUTime |
The CPU time for the user processes executed with a nice value of 21 or above on the processor since the last boot. |
Hundredths of a second |
2.1.30 |
processor64SysCPUTime |
The CPU time for the user processes executed in the system (kernel) mode on the processor since the last boot. |
Hundredths of a second |
2.1.31 |
processor64IdleCPUTime |
The CPU time for the idle mode on the processor since the last boot. |
Hundredths of a second |
2.1.32 |
processor64WaitCPUTime |
The CPU time for the wait mode on the processor since the last boot. |
Hundredths of a second |
2.1.33 |
processor64BlockCPUTime |
The CPU time blocked on a spinlock on the processor since the last boot. |
Hundredths of a second |
2.1.34 |
processor64SwaitCPUTime |
The CPU time blocked on the kernel semaphore on the processor since the last boot. |
Hundredths of a second |
2.1.35 |
processor64IntrCPUTime |
The CPU time for the interrupt mode on the processor since the last boot. |
Hundredths of a second |
2.1.36 |
processor64SsysCPUTime |
The CPU time used by the kernel process in the kernel mode on the processor since the last boot. |
Hundredths of a second |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the processor64 group:
-
The syntax of objects from 2.1.2 to 2.1.24 and 2.1.28 to 2.1.36 is Counter64. Objects with Counter64 syntax can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
For details about how to use SNMP Agent of HP-UX (IPF) to acquire the CPU information of enabled processors only, see 2.15 Notes about CPU information.
-
(17) diskInfo64 group
The following table describes the Hitachi enterprise-specific MIB objects in the diskInfo64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
disk64Num |
The number of disks attached to the system. |
-- |
2 |
disk64Table |
The disk information table. |
-- |
2.1 |
disk64Entry |
Each entry is identified by the disk64Index value. |
-- |
2.1.1 |
disk64Index |
The disk index number. |
-- |
2.1.2 |
disk64TTYMajor |
If the TTY device major number for the disk value is (231 - 1) or greater, this object contains (231 - 1). |
-- |
2.1.3 |
disk64TTYMinor |
If the TTY device minor number for the disk value is (231 - 1) or greater, this object contains (231 - 1). |
-- |
2.1.4 |
disk64BusyTimeTicks |
The number of time ticks for device busy. |
-- |
2.1.5 |
disk64Seeks |
The number of seeks. |
-- |
2.1.6 |
disk64Xfers |
The number of data transfers. |
-- |
2.1.7 |
disk64WordsXfers |
The number of times a two-byte word was transferred. |
-- |
2.1.8 |
disk64WordsWriteTime |
The time required to write a two-byte word. |
Milliseconds/byte |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the diskInfo64 group:
-
The syntax of objects from 2.1.4 to 2.1.7 in this group is Counter64. Objects with Counter64 syntax can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
(18) swapSystem64 group
The following table describes the Hitachi enterprise-specific MIB objects in the swapSystem64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
swapSystem64TotalSize |
The total swap area size. |
Kilobytes |
2 |
swapSystem64TotalEnabledSize |
The total size of enabled swap area. |
Kilobytes |
3 |
swapSystem64TotalFreeSize |
The total size of free swap area. |
Kilobytes |
4 |
swapSystem64TotalBlockDeviceSize |
The total size of swap area allocated on the block device. |
Kilobytes |
5 |
swapSystem64TotalBlockDeviceEnabledSize |
The total size of enabled swap area allocated on the block device. |
Kilobytes |
6 |
swapSystem64TotalBlockDeviceFreeSize |
The total size of free swap area allocated on the block device. |
Kilobytes |
7 |
swapSystem64TotalFileSystemSize |
The total size of swap area allocated on the file system. |
Kilobytes |
8 |
swapSystem64TotalFileSystemEnabledSize |
The total size of enabled swap area allocated on the file system. |
Kilobytes |
9 |
swapSystem64TotalFileSystemFreeSize |
The total size of free swap area allocated on the file system. |
Kilobytes |
10 |
swapSystem64Num |
The number of entries in the information about the swap area. |
-- |
11 |
swapSystem64Table |
The swap area information table. |
-- |
11.1 |
swapSystem64Entry |
Each entry is identified by the swapSystem64Index value. |
-- |
11.1.1 |
swapSystem64Index |
The swap area index number. |
-- |
11.1.2 |
swapSystem64Place |
The flag that indicates where the swap area is allocated: swblock (1): On the block-based device swfs (2): On the file system |
-- |
11.1.3 |
swapSystem64Flags |
The flag that indicates whether the swap area is enabled or disabled: disable(0): Disabled enable(1): Enabled |
-- |
11.1.4 |
swapSystem64Priority |
The swap area priority. A swap area that is assigned a lower value will be used sooner. |
-- |
11.1.5 |
swapSystem64FreeSize |
The size of the free area included in the currently enabled swap area. |
Kilobytes |
11.1.6 |
swapSystem64BlockDeviceMajor |
Contains device information (Major) if swap area is allocated in a block-based device. If the value is (231 - 1) or greater, this object contains (231 - 1). |
-- |
11.1.7 |
swapSystem64BlockDeviceMinor |
Contains device information (Minor) when swap area is allocated in a block-based device. If the value is (231 - 1) or greater, this object contains (231 - 1). |
-- |
11.1.8 |
swapSystem64BlockDeviceStartNum |
Contains the starting block number when swap area is allocated in a block-based device. |
-- |
11.1.9 |
swapSystem64BlockDeviceSize |
The size of the allocated swap area when swap area is allocated in a block-based device. |
Kilobytes |
11.1.10 |
swapSystem64FileSystemSize |
The size of the allocated swap area when swap area is allocated in a file system. |
Kilobytes |
11.1.11 |
swapSystem64FileSystemMinSize |
The minimum swap area size of the allocated swap area when swap area is allocated in a file system. |
Kilobytes |
11.1.12 |
swapSystem64FileSystemMaxSize |
The maximum swap area size that has been allocated in a file system when swap area is allocated in a file system. |
Kilobytes |
11.1.13 |
swapSystem64FileSystemReservedSize |
The size of the currently reserved swap area when swap area is allocated in a file system. |
Kilobytes |
11.1.14 |
swapSystem64FileSystemMountPoint |
If the swap area resides in a file system, this object indicates where the file system is mounted. |
-- |
- Important
-
Note the following about the Hitachi enterprise-specific MIB objects in the swapSystem64 group:
-
The syntax of objects from 1 to 9, 11.1.4 to 1.1.5, and 11.1.8 to 11.1.13 in this group is CounterBasedGauge64. Objects with CounterBasedGauge64 syntax can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
(19) diskBusyInfo group
The following table describes the Hitachi enterprise-specific MIB objects in the diskBusyInfo group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
diskBusyInfoTable |
The table for indicating the disk busy times. |
-- |
1.1 |
diskBusyInfoEntry |
Each entry is identified by diskBusyInfoDeviceName and diskBusyInfoDeviceIndex. |
-- |
1.1.1 |
diskBusyInfoDeviceName |
Disk device name. One entry is created for each disk, not for a partition or disk slice, which is a kind of segment. |
-- |
1.1.2 |
diskBusyInfoDeviceIndex |
An index value assigned by SNMP Agent. When the information acquired from the OS includes the same device name, the value is incremented. |
-- |
1.1.3 |
diskBusyInfoTime |
The accumulated time from the start of SNMP Agent. |
Hundredths of a second |
2 |
diskBusyInfoNum |
The number of diskBusyInfoTable entries. |
-- |
(20) fileSystem64 group
The following table describes the Hitachi enterprise-specific MIB objects in the fileSystem64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
fileSystem64Mounted |
The number of file systems mounted |
-- |
2 |
fileSystem64Table |
File system information table |
-- |
2.1 |
fileSystem64Entry |
Each entry is identified by fileSystem64HighID1, fileSystem64LowID1, or fileSystem64ID2. |
-- |
2.1.1 |
fileSystem64HighID1 |
High bit of the file system ID |
-- |
2.1.2 |
fileSystem64LowID1 |
Low bit of the file system ID |
-- |
2.1.3 |
fileSystem64ID2 |
The value is incremented when fileSystem64HighID1 and fileSystem64LowID1 obtained from the OS are the same. |
-- |
2.1.4 |
fileSystem64Name |
The name of the mounted file system |
-- |
2.1.5 |
fileSystem64Block |
The number of blocks in the file system |
Blocks |
2.1.6 |
fileSystem64Bfree |
The number of free blocks in the file system |
Blocks |
2.1.7 |
fileSystem64Bavail |
The number of free blocks available to a non-superuser |
Blocks |
2.1.8 |
fileSystem64Bsize |
The fundamental file system block size |
Bytes |
2.1.9 |
fileSystem64Files |
The total number of inodes in the file system |
-- |
2.1.10 |
fileSystem64Ffree |
The total number of free inodes in the file system |
-- |
2.1.11 |
fileSystem64Dir |
The file system path |
-- |
- Important
-
Note the following about the Hewlett-Packard enterprise-specific MIB objects in the fileSystem64 group:
-
Objects with a fileSystem64 group ID from 2.1.5 to 2.1.10 can only be acquired through SNMPv2c requests, not SNMPv1 requests.
-
For details about how to prevent SNMP Agent from returning information on the target file system if it is not mounted in AIX and Linux, see 2.12.2 Settings for suppressing an invalid shared disk capacity response (for AIX and Linux).
-
For details about how to prevent unnecessary file system information from being returned in Linux, see 2.16 Settings to prevent responses with information about file systems for which a response is not required (for Linux).
-
- Important
-
The file system types that can be monitored in the fileSystem64 group are described below. To monitor NFS, set the NFS server to monitor file systems.
-
For HP-UX (IPF):
File systems described in /etc/mnttab
Note that file systems of type swap, ignore, or nfs cannot be monitored.
-
For Solaris:
File systems described in /etc/mnttab
Note that file systems of the type nfs or swap cannot be monitored.
-
For AIX:
File systems described in /etc/filesystems
-
For Linux
File systems in /etc/fstab or /etc/SnmpAgent.d/esafstab.conf.
Note that for the file type swap, responses are not issued, even if the file system is in /etc/fstab, /etc/SnmpAgent.d/esafstab.conf.
This is because the system calls issued by the SNMP agent to acquire the file system cannot respond with this file type.
-
(21) diskBusyAvail group
The following table describes the Hitachi enterprise-specific MIB objects in the diskBusyAvail group:
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
diskBusyAvailTable |
The disk busy ratio table |
-- |
1.1 |
diskBusyAvailEntry |
Each entry is identified by diskBusyAvailDeviceName or diskBusyAvailDeviceIndex. |
-- |
1.1.1 |
diskBusyAvailDeviceName |
Disk device name. One entry is created for each disk, not for a partition or disk slice, which is a kind of segment. |
-- |
1.1.2 |
diskBusyAvailDeviceIndex |
An index value assigned by SNMP Agent. When the information acquired from the OS includes the same device name, the value is incremented. |
-- |
1.1.3 |
diskBusyAvailDiskBusy |
The disk busy ratio within the specified time interval |
% |
1.1.4 |
diskBusyAvailTime |
The time at which the disk busy ratio was obtained from the OS Example: 2004/11/11 14:47:00 |
-- |
2 |
diskBusyAvailNum |
Number of diskBusyAvailTable entries |
-- |
3 |
diskBusyAvailInterval |
Interval time# |
Minutes |
(22) disk64Ex group
The following table describes the Hitachi enterprise-specific MIB objects in the disk64Ex group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
disk64ExNum |
The number of disk information entries. |
-- |
2 |
disk64ExTable |
The disk information table. |
-- |
2.1 |
disk64ExEntry |
Each entry is identified by disk64ExDeviceName and disk64ExDeviceIndex. |
-- |
2.1.1 |
disk64ExDeviceName |
The disk device name.# |
-- |
2.1.2 |
disk64ExDeviceIndex |
An index value assigned by SNMP Agent. If information acquired from the OS includes the same device name, the value is incremented. If it does not include the same device name, the value will be 1. |
-- |
2.1.3 |
disk64ExDiskBusyTime |
The disk busy time since machine startup. |
Milliseconds |
2.1.4 |
disk64ExRead |
Amount of data read from the disk since machine startup. |
Kilobytes |
2.1.5 |
disk64ExWrite |
Amount of data written to the disk since machine startup. |
Kilobytes |
2.1.6 |
disk64ExXfers |
The number of data transfers (number of times I/O processing has occurred) since machine startup. |
Number of times |
(23) computerSystem64 group
The following table describes the Hitachi enterprise-specific MIB objects in the computerSystem64 group.
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
computerSystem64UpTime |
Time elapsed since system startup |
Hundredths of a second |
7 |
computerSystem64FreeMemory#1 |
Amount of free space in physical memory |
Kilobytes |
8 |
computerSystem64PhysMemory |
Physical memory size |
Kilobytes |
10 |
computerSystem64SwapConfig#2, #3 |
Size of device swap space |
Kilobytes |
11 |
computerSystem64EnabledSwap#3 |
Available size of disk swap space |
Kilobytes |
12 |
computerSystem64FreeSwap#2 |
Size of the actual free swap area |
Kilobytes |
13 |
computerSystem64UserCPU#4 |
CPU time used in the user mode with a nice value of 21 or above. In Solaris and AIX, this is the CPU time used in the user mode after startup of SNMP Agent. |
Hundredths of a second |
14 |
computerSystem64SysCPU#4 |
CPU time used in the kernel mode. In Solaris and AIX, this is the CPU time used in the kernel mode after startup of SNMP Agent. |
Hundredths of a second |
15 |
computerSystem64IdleCPU#4 |
CPU idle time. In Solaris and AIX, this is the CPU idle time after startup of SNMP Agent. |
Hundredths of a second |
16 |
computerSystem64NiceCPU#4 |
CPU time used in the user mode with a nice value of 20 or smaller. In Solaris and AIX, this is the CPU time used in the user mode after startup of SNMP Agent. |
Hundredths of a second |
- #1
-
Note the following about computerSystem64FreeMemory:
- Time required to obtain
-
Six seconds or longer is required to obtain the computerSystem64FreeMemory value in Solaris. Therefore, if the manager system issues SNMP requests addressed to SNMP Agent, specify a time-out value of 6 seconds or longer in the manager system.
For the amount of free space in physical memory in Solaris, AIX, and Linux, see 2.13 Notes about the amount of free space in physical memory.
- #2
-
The following indicates whether the objects computerSystem64SwapConfig and computerSystem64FreeSwap of each OS include physical memory.
- HP-UX (IPF) and Linux
-
Physical memory is not included.
- Solaris
-
Physical memory is included.
- AIX
-
In AIX, the actual paging space usage status is returned. Physical memory is not included.
- #3
-
Note the following about the swap space in Solaris:
In the swap space in Solaris, the swap area on the disk contains real memory that is not used. In real memory, a virtual storage area is dynamically allocated. Therefore, the computerSystem64SwapConfig and computerSystem64EnabledSwap values vary dynamically. For details about the swap space in Solaris, see 2.14 Notes about swap space size.
- #4
-
For details about CPU information, see 2.15 Notes about CPU information.
(24) system group (in AIX)
The following table describes the Hitachi enterprise-specific MIB objects in the system group (in AIX).
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
systemCPUutilUser |
User CPU utilization (average over the past 1 second) |
% |
2 |
systemCPUutilSystem |
System CPU utilization (average over the past 1 second) |
% |
3 |
systemCPUutilIdle |
Idle CPU utilization (average over the past 1 second) |
% |
4 |
systemCPUutilWait |
Wait CPU utilization (average over the past 1 second) |
% |
5 |
systemActVirtualPage |
The number of active virtual pages |
Pages |
(25) disk group (in AIX)
The following table describes the Hitachi enterprise-specific MIB objects in the disk group (in AIX).
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
diskNum |
Number of disk information entries |
-- |
2 |
diskTable |
Disk input-output information |
-- |
2.1 |
diskTableEntry |
Each entry is distinguished from diskIndex. |
-- |
2.1.1 |
diskIndex |
The disk index |
-- |
2.1.2 |
diskName |
The disk name |
-- |
2.1.3 |
diskRead |
Amount of data read from the disk |
Kilobytes |
2.1.4 |
diskWrite |
Amount of data written to the disk |
Kilobytes |
(26) page group (in AIX)
The following table describes the Hitachi enterprise-specific MIB objects in the page group (in AIX).
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
pageNum |
Number of paging space entries |
-- |
2 |
pageTable |
Paging space organization and utilization rate |
-- |
2.1 |
pageTableEntry |
Each entry is distinguished from pageIndex. |
-- |
2.1.1 |
pageIndex |
Index number |
-- |
2.1.2 |
pageSpaceName |
Paging space name |
-- |
2.1.3 |
pagePhysicalVol |
The Physical Volume Name of paging space |
-- |
2.1.4 |
pageVolGroup |
The volume group name of paging space |
-- |
2.1.5 |
pageSize |
Paging space size |
Megabytes |
2.1.6 |
pageUsed |
Paging space utilization rate |
% |
2.1.7 |
pageActive |
The status of paging space 1: inactive (not being used) 2: active (being used) |
-- |
2.1.8 |
pageAuto |
Use of paging space at OS boot 1: not auto (not used) 2: auto (used) |
-- |
2.1.9 |
pageType |
Paging space type 1: lv (logical volume) 2: nfs (NFS volume) |
-- |
(27) system group (in Solaris)
The following table describes the Hitachi enterprise-specific MIB objects in the system group (in Solaris).
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
systemCPUutilUser |
User CPU utilization (average value over the past 5 second) |
% |
2 |
systemCPUutilSystem |
System CPU utilization (average value over the past 5 second) |
% |
3 |
systemCPUutilIdle |
Idle CPU utilization (average value over the past 5 second) |
% |
4 |
systemCPUutilWait |
Wait CPU utilization (average value over the past 5 second) |
% |
(28) linuxSystem group (in Linux)
The following table describes Hitachi enterprise-specific MIB objects in the linuxSystem group (in Linux).
ID |
Object name |
Contents |
Units |
---|---|---|---|
1 |
linuxSystemCPUutilUser |
User CPU utilization (average value over the past 1 second) |
% |
2 |
linuxSystemCPUutilSystem |
System CPU utilization (average value over the past 1 second) |
% |
3 |
linuxSystemCPUutilIdle |
Idle CPU utilization (average value over the past 1 second) |
% |