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  • Finding out why Dell Controler is Degraded

    - by Kyle Brandt
    I installed open manage on a couple of my PE 2950s for snmp monitoring of the RAID. All the checks seem to come back okay except for controllerState: [root@aMachine ~]# snmpwalk -v 2c -c bestNotToPostPasswords myMachine -m +StorageManagement-MIB controllerstate StorageManagement-MIB::controllerState.1 = INTEGER: degraded(6) Other checks seems to indicate the battery, LD, and physicals disks are all good unless I missing something. Can anyone tell if I am missing something or neglecting something import in my RAID monitoring/understanding? I get degraded for both these servers I have set up. A walk of the entire storage management tree for on of them: StorageManagement-MIB::softwareVersion.0 = STRING: "3.2.0" StorageManagement-MIB::globalStatus.0 = INTEGER: warning(2) StorageManagement-MIB::softwareManufacturer.0 = STRING: "Dell Inc." StorageManagement-MIB::softwareProduct.0 = STRING: "Server Administrator (Storage Management)" StorageManagement-MIB::softwareDescription.0 = STRING: "Configuration and monitoring of disk storage devices." StorageManagement-MIB::displayName.0 = STRING: "Server Administrator (Storage Management)" StorageManagement-MIB::description.0 = STRING: "Configuration and monitoring of disk storage devices." StorageManagement-MIB::agentVendor.0 = STRING: "Dell Inc." StorageManagement-MIB::agentTimeStamp.0 = INTEGER: 1273842310 StorageManagement-MIB::agentGetTimeout.0 = INTEGER: 5 StorageManagement-MIB::agentModifiers.0 = INTEGER: 0 StorageManagement-MIB::agentRefreshRate.0 = INTEGER: 300 StorageManagement-MIB::agentMibVersion.0 = STRING: "3.2" StorageManagement-MIB::agentManagementSoftwareURLName.0 = "" StorageManagement-MIB::agentGlobalSystemStatus.0 = INTEGER: nonCritical(4) StorageManagement-MIB::agentLastGlobalSystemStatus.0 = INTEGER: ok(3) StorageManagement-MIB::agentSmartThermalShutdown.0 = INTEGER: notApplicable(3) StorageManagement-MIB::controllerNumber.1 = INTEGER: 1 StorageManagement-MIB::controllerName.1 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::controllerVendor.1 = STRING: "DELL" StorageManagement-MIB::controllerType.1 = INTEGER: sas(6) StorageManagement-MIB::controllerState.1 = INTEGER: degraded(6) StorageManagement-MIB::controllerRebuildRateInPercent.1 = INTEGER: 30 StorageManagement-MIB::controllerFWVersion.1 = STRING: "5.0.2-0003" StorageManagement-MIB::controllerCacheSizeInMB.1 = INTEGER: 256 StorageManagement-MIB::controllerCacheSizeInBytes.1 = INTEGER: 0 StorageManagement-MIB::controllerPhysicalDeviceCount.1 = INTEGER: 5 StorageManagement-MIB::controllerLogicalDeviceCount.1 = INTEGER: 1 StorageManagement-MIB::controllerRollUpStatus.1 = INTEGER: nonCritical(4) StorageManagement-MIB::controllerComponentStatus.1 = INTEGER: nonCritical(4) StorageManagement-MIB::controllerNexusID.1 = STRING: "\\0" StorageManagement-MIB::controllerAlarmState.1 = INTEGER: disabled(2) StorageManagement-MIB::controllerDriverVersion.1 = STRING: "00.00.03.05 " StorageManagement-MIB::controllerPCISlot.1 = STRING: "embedded" StorageManagement-MIB::controllerClusterMode.1 = INTEGER: notApplicable(99) StorageManagement-MIB::controllerMinFWVersion.1 = STRING: "5.2.1-0067" StorageManagement-MIB::controllerMinDriverVersion.1 = STRING: "00.00.03.21" StorageManagement-MIB::controllerChannelCount.1 = INTEGER: 2 StorageManagement-MIB::controllerReconstructRate.1 = INTEGER: 30 StorageManagement-MIB::controllerPatrolReadRate.1 = INTEGER: 30 StorageManagement-MIB::controllerBGIRate.1 = INTEGER: 30 StorageManagement-MIB::controllerCheckConsistencyRate.1 = INTEGER: 30 StorageManagement-MIB::controllerPatrolReadMode.1 = INTEGER: automatic(1) StorageManagement-MIB::controllerPatrolReadState.1 = INTEGER: stopped(1) StorageManagement-MIB::controllerPatrolReadIterations.1 = INTEGER: 162 StorageManagement-MIB::controllerEntry.57.1 = INTEGER: 99 StorageManagement-MIB::controllerEntry.58.1 = INTEGER: 99 StorageManagement-MIB::channelNumber.1 = INTEGER: 1 StorageManagement-MIB::channelNumber.2 = INTEGER: 2 StorageManagement-MIB::channelName.1 = STRING: "Connector 0" StorageManagement-MIB::channelName.2 = STRING: "Connector 1" StorageManagement-MIB::channelState.1 = INTEGER: ready(1) StorageManagement-MIB::channelState.2 = INTEGER: ready(1) StorageManagement-MIB::channelRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::channelRollUpStatus.2 = INTEGER: ok(3) StorageManagement-MIB::channelComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::channelComponentStatus.2 = INTEGER: ok(3) StorageManagement-MIB::channelNexusID.1 = STRING: "\\0\\0" StorageManagement-MIB::channelNexusID.2 = STRING: "\\0\\1" StorageManagement-MIB::channelBusType.1 = INTEGER: sas(8) StorageManagement-MIB::channelBusType.2 = INTEGER: sas(8) StorageManagement-MIB::enclosureNumber.1 = INTEGER: 1 StorageManagement-MIB::enclosureName.1 = STRING: "Backplane" StorageManagement-MIB::enclosureVendor.1 = STRING: "DELL" StorageManagement-MIB::enclosureState.1 = INTEGER: ready(1) StorageManagement-MIB::enclosureProductID.1 = STRING: "BACKPLANE " StorageManagement-MIB::enclosureType.1 = INTEGER: internal(1) StorageManagement-MIB::enclosureChannelNumber.1 = INTEGER: 0 StorageManagement-MIB::enclosureRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::enclosureComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::enclosureNexusID.1 = STRING: "\\0\\0\\0" StorageManagement-MIB::enclosureFirmwareVersion.1 = STRING: "1.00" StorageManagement-MIB::enclosureSASAddress.1 = STRING: "50019090B4C67200" StorageManagement-MIB::arrayDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskName.1 = STRING: "Physical Disk 0:0:0" StorageManagement-MIB::arrayDiskName.2 = STRING: "Physical Disk 0:0:1" StorageManagement-MIB::arrayDiskName.3 = STRING: "Physical Disk 0:0:2" StorageManagement-MIB::arrayDiskName.4 = STRING: "Physical Disk 0:0:3" StorageManagement-MIB::arrayDiskVendor.1 = STRING: "DELL " StorageManagement-MIB::arrayDiskVendor.2 = STRING: "DELL " StorageManagement-MIB::arrayDiskVendor.3 = STRING: "DELL " StorageManagement-MIB::arrayDiskVendor.4 = STRING: "DELL " StorageManagement-MIB::arrayDiskState.1 = INTEGER: online(3) StorageManagement-MIB::arrayDiskState.2 = INTEGER: online(3) StorageManagement-MIB::arrayDiskState.3 = INTEGER: online(3) StorageManagement-MIB::arrayDiskState.4 = INTEGER: online(3) StorageManagement-MIB::arrayDiskProductID.1 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskProductID.2 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskProductID.3 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskProductID.4 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskSerialNo.1 = STRING: "3LN0LRL0 " StorageManagement-MIB::arrayDiskSerialNo.2 = STRING: "3LN0JYJS " StorageManagement-MIB::arrayDiskSerialNo.3 = STRING: "3LN0LR0V " StorageManagement-MIB::arrayDiskSerialNo.4 = STRING: "3LN0JH97 " StorageManagement-MIB::arrayDiskRevision.1 = STRING: "T106" StorageManagement-MIB::arrayDiskRevision.2 = STRING: "T106" StorageManagement-MIB::arrayDiskRevision.3 = STRING: "T106" StorageManagement-MIB::arrayDiskRevision.4 = STRING: "T106" StorageManagement-MIB::arrayDiskEnclosureID.1 = STRING: "0" StorageManagement-MIB::arrayDiskEnclosureID.2 = STRING: "0" StorageManagement-MIB::arrayDiskEnclosureID.3 = STRING: "0" StorageManagement-MIB::arrayDiskEnclosureID.4 = STRING: "0" StorageManagement-MIB::arrayDiskChannel.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskChannel.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskChannel.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskChannel.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInMB.1 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInMB.2 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInMB.3 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInMB.4 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskTargetID.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskTargetID.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskTargetID.3 = INTEGER: 2 StorageManagement-MIB::arrayDiskTargetID.4 = INTEGER: 3 StorageManagement-MIB::arrayDiskLunID.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLunID.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLunID.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLunID.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInMB.1 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInMB.2 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInMB.3 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInMB.4 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskBusType.1 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskBusType.2 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskBusType.3 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskBusType.4 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskSpareState.1 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskSpareState.2 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskSpareState.3 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskSpareState.4 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskRollUpStatus.2 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskRollUpStatus.3 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskRollUpStatus.4 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.2 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.3 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.4 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskNexusID.1 = STRING: "\\0\\0\\0\\0" StorageManagement-MIB::arrayDiskNexusID.2 = STRING: "\\0\\0\\0\\1" StorageManagement-MIB::arrayDiskNexusID.3 = STRING: "\\0\\0\\0\\2" StorageManagement-MIB::arrayDiskNexusID.4 = STRING: "\\0\\0\\0\\3" StorageManagement-MIB::arrayDiskPartNumber.1 = STRING: "SG0DR2381253172FLRL0A00 " StorageManagement-MIB::arrayDiskPartNumber.2 = STRING: "SG0DR2381253172FJYJSA00 " StorageManagement-MIB::arrayDiskPartNumber.3 = STRING: "SG0DR2381253172FLR0VA00 " StorageManagement-MIB::arrayDiskPartNumber.4 = STRING: "SG0DR2381253172FJH97A00 " StorageManagement-MIB::arrayDiskSASAddress.1 = STRING: "5000C50002380201" StorageManagement-MIB::arrayDiskSASAddress.2 = STRING: "5000C50002385B89" StorageManagement-MIB::arrayDiskSASAddress.3 = STRING: "5000C50002385AA9" StorageManagement-MIB::arrayDiskSASAddress.4 = STRING: "5000C500023841E1" StorageManagement-MIB::arrayDiskSmartAlertIndication.1 = INTEGER: no(1) StorageManagement-MIB::arrayDiskSmartAlertIndication.2 = INTEGER: no(1) StorageManagement-MIB::arrayDiskSmartAlertIndication.3 = INTEGER: no(1) StorageManagement-MIB::arrayDiskSmartAlertIndication.4 = INTEGER: no(1) StorageManagement-MIB::arrayDiskManufactureDay.1 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureDay.2 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureDay.3 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureDay.4 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.1 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.2 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.3 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.4 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureYear.1 = STRING: "2005" StorageManagement-MIB::arrayDiskManufactureYear.2 = STRING: "2005" StorageManagement-MIB::arrayDiskManufactureYear.3 = STRING: "2005" StorageManagement-MIB::arrayDiskManufactureYear.4 = STRING: "2005" StorageManagement-MIB::arrayDiskMediaType.1 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskMediaType.2 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskMediaType.3 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskMediaType.4 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskEntry.36.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.36.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.36.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.36.4 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.40.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.40.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.40.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.40.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.1 = STRING: "Physical Disk 0:0:0" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.2 = STRING: "Physical Disk 0:0:1" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.3 = STRING: "Physical Disk 0:0:2" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.4 = STRING: "Physical Disk 0:0:3" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.1 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.2 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.3 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.4 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.4 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.1 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.2 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.3 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.4 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.4 = INTEGER: 1 StorageManagement-MIB::batteryNumber.1 = INTEGER: 1 StorageManagement-MIB::batteryName.1 = STRING: "Battery 0" StorageManagement-MIB::batteryVendor.1 = STRING: "DELL" StorageManagement-MIB::batteryState.1 = INTEGER: ready(1) StorageManagement-MIB::batteryRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::batteryComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::batteryNexusID.1 = STRING: "\\0\\0" StorageManagement-MIB::batteryPredictedCapacity.1 = INTEGER: ready(2) StorageManagement-MIB::batteryNextLearnTime.1 = INTEGER: 21 StorageManagement-MIB::batteryLearnState.1 = INTEGER: idle(16) StorageManagement-MIB::batteryEntry.13.1 = INTEGER: 0 StorageManagement-MIB::batteryMaxLearnDelay.1 = INTEGER: 168 StorageManagement-MIB::batteryConnectionNumber.1 = INTEGER: 1 StorageManagement-MIB::batteryConnectionBatteryName.1 = STRING: "Battery 0" StorageManagement-MIB::batteryConnectionBatteryNumber.1 = INTEGER: 1 StorageManagement-MIB::batteryConnectionControllerName.1 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::batteryConnectionControllerNumber.1 = INTEGER: 1 StorageManagement-MIB::virtualDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::virtualDiskName.1 = STRING: "Virtual Disk 0" StorageManagement-MIB::virtualDiskDeviceName.1 = STRING: "/dev/sda" StorageManagement-MIB::virtualDiskState.1 = INTEGER: ready(1) StorageManagement-MIB::virtualDiskLengthInMB.1 = INTEGER: 278784 StorageManagement-MIB::virtualDiskLengthInBytes.1 = INTEGER: 0 StorageManagement-MIB::virtualDiskWritePolicy.1 = INTEGER: writeBack(3) StorageManagement-MIB::virtualDiskReadPolicy.1 = INTEGER: noReadAhead(5) StorageManagement-MIB::virtualDiskCachePolicy.1 = INTEGER: not-applicable(99) StorageManagement-MIB::virtualDiskLayout.1 = INTEGER: raid-10(10) StorageManagement-MIB::virtualDiskCurStripeSizeInMB.1 = INTEGER: 0 StorageManagement-MIB::virtualDiskCurStripeSizeInBytes.1 = INTEGER: 65536 StorageManagement-MIB::virtualDiskTargetID.1 = INTEGER: 0 StorageManagement-MIB::virtualDiskRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::virtualDiskComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::virtualDiskNexusID.1 = STRING: "\\0\\0" StorageManagement-MIB::virtualDiskArrayDiskType.1 = INTEGER: sas(1) StorageManagement-MIB::virtualDiskEntry.23.1 = INTEGER: 2 StorageManagement-MIB::virtualDiskEntry.24.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.1 = STRING: "Physical Disk 0:0:0" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.2 = STRING: "Physical Disk 0:0:1" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.3 = STRING: "Physical Disk 0:0:2" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.4 = STRING: "Physical Disk 0:0:3" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.1 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.2 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.3 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.4 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.4 = INTEGER: 1

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  • How SQL Server 2014 impacts Red Gate’s SQL Compare

    - by Michelle Taylor
    SQL Compare 10.7 successfully connects to SQL Server 2014, but it doesn’t yet cover the SQL Server 2014 features which would require us to make major changes to SQL Compare to support. In this post I’m going to talk about the SQL Server 2014 features we’ve already begun supporting, and which ones we’re working on for the next release of SQL Compare (v11). From SQL Compare’s perspective, the new memory-optimized table functionality (some might know it as ‘Hekaton’) has been the most important change. It can’t be described as its own object type, but the new functionality is split across two existing object types (three if you count indexes), as it also comes with native stored procedures and inline indexes. Along with connectivity support, the SQL Compare team has already implemented the first part of the puzzle – inline specification of indexes. These are essential for memory-optimized tables because it’s not possible to alter the memory optimized table’s structure, and so indexes can’t be added after the fact without dropping the table. Books Online  shows this in more detail in the table_index and column_index clauses of http://msdn.microsoft.com/en-us/library/ms174979(v=sql.120).aspx. SQL Compare 10.7 currently supports reading the new inline index specification from script folders and source control repositories, and will write out inline indexes where it’s necessary to do so (i.e. in UDDTs or when attempting to write projects compatible with the SSDT database project format). However, memory-optimized tables themselves are not yet supported in 10.7. The team is actively working on making them available in the v11 release with full support later in the year, and in a beta version before that. Fortunately, SQL Compare already has some ways of handling tables that have to be dropped and created rather than altered, which are being adapted to handle this new kind of table. Because it’s one of the largest new database engine features, there’s an equally large Books Online section on memory-optimized tables, but for us the most important parts of the documentation are the normal table features that are changed or unsupported and the new syntax found in the T-SQL reference pages. We are treating SQL Compare’s support of Natively Compiled Stored Procedures as a separate unit of work, which will be available in a subsequent beta and also feed into the v11 release. This new type of stored procedure is designed to work with memory-optimized tables to maintain the performance improvements gained by them – but you can still also access memory-optimized tables from normal stored procedures and ad-hoc queries. To us, they’re essentially a limited-syntax stored procedure with a few extra options in the create statement, embodied in the updated CREATE PROCEDURE documentation and with the detailed limitations. They should be easier to handle than memory-optimized tables simply because the handling of stored procedures is less sensitive to dropping the object than the handling of tables. However, both share an incompatibility with DDL triggers and Event Notifications which mean we’ll need to temporarily disable these during the specific deployment operations that involve them – don’t worry, we’ll supply a warning if this is the case so that you can check your auditing arrangements can handle the situation. There are also a handful of other improvements in SQL Server 2014 which affect SQL Compare and SQL Data Compare that are not connected to memory optimized tables. The largest of these are the improvements to columnstore indexes, with the capability to create clustered columnstore indexes and update columnstore tables through them – for more detail, take a look at the new syntax reference. There’s also a new index option for better compression of columnstores (COLUMNSTORE_ARCHIVE) and a new statistics option for incremental per-partition statistics, plus the 90 compatibility level is being retired. We’re planning to finish up these small clean-up features last, and be ready to release SQL Compare 11 with full SQL 2014 support early in Q3 this year. For a more thorough overview of what’s new in SQL Server 2014, Books Online’s What’s New section is a good place to start (although almost all the changes in this version are in the Database Engine).

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  • String length differs from Javascript to Java code

    - by François P.
    I've got a JSP page with a piece of Javascript validation code which limits to a certain amount of characters on submit. I'm using a <textarea> so I can't simply use a length attribute like in a <input type="text">. I use document.getElementById("text").value.length to get the string length. I'm running Firefox 3.0 on Windows (but I've tested this behavior with IE 6 also). The form gets submitted to a J2EE servlet. In my Java servlet the string length of the parameter is larger than 2000! I've noticed that this can easily be reproduced by adding carriage returns in the <textarea>. I've used Firebug to assert the length of the <textare> and it really is 2000 characters long. On the Java side though, the carriage returns get converted to UNIX style (\r\n, instead of \n), thus the string length differs! Am I missing something obvious here or what ? If not, how would you reliably (cross-platform / browser) make sure that the <textarea> is limited.

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  • Algorithm to see if keywords exist inside a string

    - by rksprst
    Let's say I have a set of keywords in an array {"olympics", "sports tennis best", "tennis", "tennis rules"} I then have a large list (up to 50 at a time) of strings (or actually tweets), so they are a max of 140 characters. I want to look at each string and see what keywords are present there. In the case where a keyword is composed of multiple words like "sports tennis best", the words don't have to be together in the string, but all of them have to show up. I've having trouble figuring out an algorithm that does this efficiently. Do you guys have suggestions on a way to do this? Thanks! Edit: To explain a bit better each keyword has an id associated with it, so {1:"olympics", 2:"sports tennis best", 3:"tennis", 4:"tennis rules"} I want to go through the list of strings/tweets and see which group of keywords match. The output should be, this tweet belongs with keyword #4. (multiple matches may be made, so anything that matches keyword 2, would also match 3 -since they both contain tennis). When there are multiple words in the keyword, e.g. "sports tennis best" they don't have to appear together but have to all appear. e.g. this will correctly match: "i just played tennis, i love sports, its the best"... since this string contains "sports tennis best" it will match and be associated with the keywordID (which is 2 for this example).

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  • Finding character in String in Vector.

    - by SoulBeaver
    Judging from the title, I kinda did my program in a fairly complicated way. BUT! I might as well ask anyway xD This is a simple program I did in response to question 3-3 of Accelerated C++, which is an awesome book in my opinion. I created a vector: vector<string> countEm; That accepts all valid strings. Therefore, I have a vector that contains elements of strings. Next, I created a function int toLowerWords( vector<string> &vec ) { for( int loop = 0; loop < vec.size(); loop++ ) transform( vec[loop].begin(), vec[loop].end(), vec[loop].begin(), ::tolower ); that splits the input into all lowercase characters for easier counting. So far, so good. I created a third and final function to actually count the words, and that's where I'm stuck. int counter( vector<string> &vec ) { for( int loop = 0; loop < vec.size(); loop++ ) for( int secLoop = 0; secLoop < vec[loop].size(); secLoop++ ) { if( vec[loop][secLoop] == ' ' ) That just looks ridiculous. Using a two-dimensional array to call on the characters of the vector until I find a space. Ridiculous. I don't believe that this is an elegant or even viable solution. If it was a viable solution, I would then backtrack from the space and copy all characters I've found in a separate vector and count those. My question then is. How can I dissect a vector of strings into separate words so that I can actually count them? I thought about using strchr, but it didn't give me any epiphanies.

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  • Interpolating environment variables into a string in Ruby using String#scan

    - by robc
    I'm trying to interpolate environment variables into a string in Ruby and not having much luck. One of my requirements is to do something (log an error, prompt for input, whatever) if a placeholder is found in the initial string that has no matching environment variable. It looks like the block form of String#scan is what I need. Below is an irb session of my failed attempt. irb(main):014:0> raw_string = "need to replace %%FOO%% and %%BAR%% in here" => "need to replace %%FOO%% and %%BAR%% in here" irb(main):015:0> cooked_string << raw_string => "need to replace %%FOO%% and %%BAR%% in here" irb(main):016:0> raw_string.scan(/%%(.*?)%%/) do |var| irb(main):017:1* cooked_string.sub!("%%#{var}%%", ENV[var]) irb(main):018:1> done irb(main):019:1> end TypeError: cannot convert Array into String from (irb):17:in `[]' from (irb):17 from (irb):16:in `scan' from (irb):16 from :0 If I use ENV["FOO"] to manually interpolate one of those, it works fine. I'm banging my head against the desk. What am I doing wrong? Ruby is 1.8.1 on RHEL or 1.8.7 on Cygwin.

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  • How to format output using MATLAB's num2str

    - by Doresoom
    I'm trying to ouput an array of numbers as a string in MATLAB. I know this is easily done using num2str, but I wanted commas followed by a space to separate the numbers, not tabs. The array elements will at most have resolution to the tenths place, but most of them will be integers. Is there a way to format output so that unnecessary trailing zeros are left off? Here's what I've managed to put together: data=[2,3,5.5,4]; datastring=num2str(data,'%.1f, '); datastring=['[',datastring(1:end-1),']'] which gives the output: [2.0, 3.0, 5.5, 4.0] rather than: [2, 3, 5.5, 4] Any suggestions? EDIT: I just realized that I can use strrep to fix this by calling datastring=strrep(datastring,'.0','') but that seems even more kludgey than what I've been doing.

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  • How to std::find using a Compare object?

    - by dehmann
    I am confused about the interface of std::find. Why doesn't it take a Compare object that tells it how to compare two objects? If I could pass a Compare object I could make the following code work, where I would like to compare by value, instead of just comparing the pointer values directly: typedef std::vector<std::string*> Vec; Vec vec; std::string* s1 = new std::string("foo"); std::string* s2 = new std::string("foo"); vec.push_back(s1); Vec::const_iterator found = std::find(vec.begin(), vec.end(), s2); // not found, obviously, because I can't tell it to compare by value delete s1; delete s2; Is the following the recommended way to do it? template<class T> struct MyEqualsByVal { const T& x_; MyEqualsByVal(const T& x) : x_(x) {} bool operator()(const T& y) const { return *x_ == *y; } }; // ... vec.push_back(s1); Vec::const_iterator found = std::find_if(vec.begin(), vec.end(), MyEqualsByVal<std::string*>(s2)); // OK, will find "foo"

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  • How does .NET compiler compare two strings?

    - by Pankaj
    string a="I am comparing 2 string"; string b="I am comparing 2 string"; if(a==b) return true; else return false; How does a .NET compiler compare two strings? Does a string work like a struct(int)? string is class so a=b means we are comparing 2 object, but i want to compare 2 values.

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  • How Do I Pull Info from String

    - by Russ Bradberry
    I am trying to pull dynamics from a load that I run using bash. I have gotten to a point where I get the string I want, now from this I want to pull certain information that can vary. The string that gets returned is as follows: Records: 2910 Deleted: 0 Skipped: 0 Warnings: 0 Each of the number can and will vary in length, but the overall structure will remain the same. What I want to do is be able to get these numbers and load them into some bash variables ie: RECORDS=?? DELETED=?? SKIPPED=?? WARNING=?? In regex I would do it like this: Records: (\d*?) Deleted: (\d*?) Skipped (\d*?) Warnings (\d*?) and use the 4 groups in my variables.

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  • Javascript string syntax to write SQL

    - by sebastien leblanc
    I am writing an SQL query as a Javascript string like that: SQLdetail = 'SELECT [Avis SAP], Avis.[Ordre SAP], [Date Appel], [Heur Appel], Client_List![Code Client], [Numero Passerelle], [Designation Appel], Ordre![Metier], Ordre!Repercussion, Ordre!Objet, Ordre![Profil Panne], Ordre!Cause, Ordre![Sommaire Correctif], Ordre![Statut]' SQLdetail += ' FROM (Avis' SQLdetail += ' LEFT JOIN Client_List ON Avis.[Numero Client] = Client_List.[Numero Client])' SQLdetail += ' LEFT JOIN Ordre ON Avis.[Ordre SAP] = Ordre.[Ordre SAP] WHERE Avis.[Date Appel] BETWEEN #' & DateOne & '# AND #' & DateTwo & '#;' alert('SQLdetail:' + SQLdetail) and the last SQLdetail += somehow returns "0". Am I missing something in the syntax that just turns the whole string to a 0?

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  • [Java] Cut <br/>-Tags from String end

    - by Robert M.
    Hello everybody, I am currently developing a Web-Application using Java EE where I'm using a Rich-Javascript-Editor (http://www.primefaces.org/showcase/ui/editor.jsf). As the user can easily add too many linebreaks that will be convertet to linebreak-tags, I need to remove all these Tags from the end of a String. Is there an elegant way of using Regex to accomplish this? An example String would be: "This is a test <b>bold</b><br/><br/>" Where obviously the last two tags have to be removed. Thank you in advance for any help Best Regards, Robert

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  • String Format for DateTime in C#

    - by SAMIR BHOGAYTA
    String Format for DateTime [C#] This example shows how to format DateTime using String.Format method. All formatting can be done also using DateTime.ToString method. Custom DateTime Formatting There are following custom format specifiers y (year), M (month), d (day), h (hour 12), H (hour 24), m (minute), s (second), f (second fraction), F (second fraction, trailing zeroes are trimmed), t (P.M or A.M) and z (time zone). Following examples demonstrate how are the format specifiers rewritten to the output. [C#] // create date time 2008-03-09 16:05:07.123 DateTime dt = new DateTime(2008, 3, 9, 16, 5, 7, 123); String.Format("{0:y yy yyy yyyy}", dt); // "8 08 008 2008" year String.Format("{0:M MM MMM MMMM}", dt); // "3 03 Mar March" month String.Format("{0:d dd ddd dddd}", dt); // "9 09 Sun Sunday" day String.Format("{0:h hh H HH}", dt); // "4 04 16 16" hour 12/24 String.Format("{0:m mm}", dt); // "5 05" minute String.Format("{0:s ss}", dt); // "7 07" second String.Format("{0:f ff fff ffff}", dt); // "1 12 123 1230" sec.fraction String.Format("{0:F FF FFF FFFF}", dt); // "1 12 123 123" without zeroes String.Format("{0:t tt}", dt); // "P PM" A.M. or P.M. String.Format("{0:z zz zzz}", dt); // "-6 -06 -06:00" time zone You can use also date separator / (slash) and time sepatator : (colon). These characters will be rewritten to characters defined in the current DateTimeForma­tInfo.DateSepa­rator and DateTimeForma­tInfo.TimeSepa­rator. [C#] // date separator in german culture is "." (so "/" changes to ".") String.Format("{0:d/M/yyyy HH:mm:ss}", dt); // "9/3/2008 16:05:07" - english (en-US) String.Format("{0:d/M/yyyy HH:mm:ss}", dt); // "9.3.2008 16:05:07" - german (de-DE) Here are some examples of custom date and time formatting: [C#] // month/day numbers without/with leading zeroes String.Format("{0:M/d/yyyy}", dt); // "3/9/2008" String.Format("{0:MM/dd/yyyy}", dt); // "03/09/2008" // day/month names String.Format("{0:ddd, MMM d, yyyy}", dt); // "Sun, Mar 9, 2008" String.Format("{0:dddd, MMMM d, yyyy}", dt); // "Sunday, March 9, 2008" // two/four digit year String.Format("{0:MM/dd/yy}", dt); // "03/09/08" String.Format("{0:MM/dd/yyyy}", dt); // "03/09/2008" Standard DateTime Formatting In DateTimeForma­tInfo there are defined standard patterns for the current culture. For example property ShortTimePattern is string that contains value h:mm tt for en-US culture and value HH:mm for de-DE culture. Following table shows patterns defined in DateTimeForma­tInfo and their values for en-US culture. First column contains format specifiers for the String.Format method. Specifier DateTimeFormatInfo property Pattern value (for en-US culture) t ShortTimePattern h:mm tt d ShortDatePattern M/d/yyyy T LongTimePattern h:mm:ss tt D LongDatePattern dddd, MMMM dd, yyyy f (combination of D and t) dddd, MMMM dd, yyyy h:mm tt F FullDateTimePattern dddd, MMMM dd, yyyy h:mm:ss tt g (combination of d and t) M/d/yyyy h:mm tt G (combination of d and T) M/d/yyyy h:mm:ss tt m, M MonthDayPattern MMMM dd y, Y YearMonthPattern MMMM, yyyy r, R RFC1123Pattern ddd, dd MMM yyyy HH':'mm':'ss 'GMT' (*) s SortableDateTi­mePattern yyyy'-'MM'-'dd'T'HH':'mm':'ss (*) u UniversalSorta­bleDateTimePat­tern yyyy'-'MM'-'dd HH':'mm':'ss'Z' (*) (*) = culture independent Following examples show usage of standard format specifiers in String.Format method and the resulting output. [C#] String.Format("{0:t}", dt); // "4:05 PM" ShortTime String.Format("{0:d}", dt); // "3/9/2008" ShortDate String.Format("{0:T}", dt); // "4:05:07 PM" LongTime String.Format("{0:D}", dt); // "Sunday, March 09, 2008" LongDate String.Format("{0:f}", dt); // "Sunday, March 09, 2008 4:05 PM" LongDate+ShortTime String.Format("{0:F}", dt); // "Sunday, March 09, 2008 4:05:07 PM" FullDateTime String.Format("{0:g}", dt); // "3/9/2008 4:05 PM" ShortDate+ShortTime String.Format("{0:G}", dt); // "3/9/2008 4:05:07 PM" ShortDate+LongTime String.Format("{0:m}", dt); // "March 09" MonthDay String.Format("{0:y}", dt); // "March, 2008" YearMonth String.Format("{0:r}", dt); // "Sun, 09 Mar 2008 16:05:07 GMT" RFC1123 String.Format("{0:s}", dt); // "2008-03-09T16:05:07" SortableDateTime String.Format("{0:u}", dt); // "2008-03-09 16:05:07Z" UniversalSortableDateTime

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  • A website to compare software/hardware/electronics?

    - by liori
    Hello, When choosing software or hardware I often Wikipedia's comparision pages like the page on Comparison of project management software. However, criteria on including items on such lists are sometimes unclear (f.e. project has to be "notable", has to have a Wikipedia page), and the number of compared features are limited. Also, Wikipedia's software doesn't make it easy to edit such lists. I am looking for an external webapp/website that would do the task of comparing different solutions in the world of software, hardware, maybe even electronics, in this kind of social way. Is there any kind of such service? It should allow users to add new entries, add new features to compare and discuss items in a collaborative way. It should be also easy to browse already entered items, filter by features. (this might be a good idea for a startup ;-))

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  • Marshalling the value of a char* ANSI string DLL API parameter into a C# string

    - by Brian Biales
    For those who do not mix .NET C# code with legacy DLL's that use char* pointers on a regular basis, the process to convert the strings one way or the other is non-obvious. This is not a comprehensive article on the topic at all, but rather an example of something that took me some time to go find, maybe it will save someone else the time. I am utilizing a third party too that uses a call back function to inform my application of its progress.  This callback includes a pointer that under some circumstances is a pointer to an ANSI character string.  I just need to marshal it into a C# string variable.  Seems pretty simple, yes?  Well, it is, (as are most things, once you know how to do them). The parameter of my callback function is of type IntPtr, which implies it is an integer representation of a pointer.  If I know the pointer is pointing to a simple ANSI string, here is a simple static method to copy it to a C# string: private static string GetStringFromCharStar(IntPtr ptr) {     return System.Runtime.InteropServices.Marshal.PtrToStringAnsi(ptr); } The System.Runtime.InteropServices is where to look any time you are mixing legacy unmanaged code with your .NET application.

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  • search and display string from group of string php

    - by zahir hussain
    hi i want to know how to search and display string from group of string like google display the word which we search... the following example from google search word is google books result Search and preview millions of books from libraries and publishers worldwide using Google Book Search. Discover a new favorite or unearth an old classic. i would like to do this type of one... thanks and advance

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  • How to find string in a string

    - by owca
    I somehow need to find the longest string in other string, so if string1 will be "Alibaba" and string2 will be "ba" , the longest string will be "baba". I have the lengths of strings, but what next ? char* fun(char* a, char& b) { int length1=0; int length2=0; int longer; int shorter; char end='\0'; while(a[i] != tmp) { i++; length1++; } int i=0; while(b[i] != tmp) { i++; length++; } if(dlug1 > dlug2){ longer = length1; shorter = length2; } else{ longer = length2; shorter = length1; } //logics here } int main() { char name1[] = "Alibaba"; char name2[] = "ba"; char &oname = *name2; cout << fun(name1, oname) << endl; system("PAUSE"); return 0; }

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